mitolab - a TiddlySpace

/***
|''Name''|RefreshTiddlerCommand|
|''Version''|0.3.0|
***/
//{{{
(function($) {

var cmd = config.commands.refreshTiddler = {
	text: "refresh",
	locale: {
		refreshing: "Refreshing tiddler..."
	},
	tooltip: "refresh this tiddler to be the one on the server",
	handler: function(ev, src, title) {
		var tiddler = store.getTiddler(title);
		if(!tiddler) {
			tiddler = new Tiddler(title);
			merge(tiddler.fields, config.defaultCustomFields);
		}
		$(story.getTiddler(title)).find(".viewer").
			empty().text(cmd.locale.refreshing);
		var dirtyStatus = store.isDirty();
		story.loadMissingTiddler(title, {
			"server.workspace": tiddler.fields["server.recipe"]  ? "recipes/" + tiddler.fields["server.recipe"] :
				tiddler.fields["server.workspace"] || "bags/"+tiddler.fields["server.bag"],
			"server.host": tiddler.fields["server.host"],
			"server.type": tiddler.fields["server.type"]
		}, function() {
			store.setDirty(dirtyStatus);
		});
	}
};

})(jQuery);
//}}}

The bone marrow of the leg bones of mice is a great source of monocyte/macrophage (Mø) precursors which can be easily cultured. This protocol explains how to harvest the major leg bones from a mouse for the purpose of isolating cell progenitors from the bone marrow for Bone Marrow-Derived Mø’s’ (Macrophages)
70% EtOH should be used to sterilize surgical equipment periodically as well as the exterior of the mouse itself.
Remove fur and skin from legs by lifting skin at the base of each leg with tweezers and cutting away skin across thigh and down to ankle. Peel skin down leg and over foot and firmly tug until it is removed. Remove muscle from entire leg so that bone is completely exposed. Be very careful not to cut bone as this will compromise the sterility of the bone marrow. The entire leg will be removed. To do so expose hip joint of each leg and cut above the joint, making sure to not remove the top of the femur.
Clean bones of any remaining muscle and place in 50mL tube containing PBS or media.
3 Mouse in 10 Petri Dish 100 mm Ø
(fibula) tibia and femur

See the tiddly [[Macrofage]]

(M-CSF) [macrophage colony-stimulating factor] is a secreted cytokine which influences hematopoietic stem cells to differentiate into macrophages or other related cell types.
(SS) Sol stock 0.2 mg/mL = 200 000 ng
(SF) Sol final 40 ng/mL [10 µL ds 50 mL MC ] x2 = 100 mL total.
10 mL / Pletri Bacteriologiques

J0 (12mai2015) 10 mL [M-CSF + MC]
J3 +5 mL [M-CSF + MC]
J7 manipulation

http://en.wikipedia.org/wiki/Macrophage

The Biology of Macrophages - An Online Review

http://www.macrophages.com/macrophage-review

are a type of white blood cell that engulfs and digests cellular debris, foreign substances, microbes, and cancer cells in a process called ''phagocytosis''. Macrophages were first discovered by Élie Metchnikoff, a Russian bacteriologist, in 1884. The family name Mechnikov is a translation from Romanian, since his father was a descendant of the Chancellor Yuri Stefanovich, the grandson of Nicolae Milescu. The word "mech" is a Russian translation of the Romanian "spadă" (sword), which originated with Spătar. His elder brother Lev became a prominent geographer and sociologist. They are found in essentially all tissues, where they patrol for potential pathogens by amoeboid movement. They play a critical role in non-specific defense (innate immunity), and also help initiate specific defense mechanisms (adaptive immunity) by recruiting other immune cells such as lymphocytes. In humans, dysfunctional macrophages cause severe diseases such as chronic granulomatous disease that result in frequent infections. Beyond increasing inflammation and stimulating the immune system, macrophages also play an important anti-inflammatory role and can decrease immune reactions through the release of cytokines. Macrophages that ''encourage'' inflammation are called ''M1'' macrophages, whereas those that ''decrease'' inflammation and encourage tissue repair are called ''M2'' macrophages. This difference is reflected in their metabolism, where macrophages have the unique ability to metabolize one amino acid, arginine, to either a "killer" molecule (nitric oxide) or a "repair" molecule (ornithine). Human macrophages are about 21 micrometres in diameter and are produced by the differentiation of monocytes in tissues. They can be identified using flow cytometry or immunohistochemical staining by their specific expression of proteins such as CD14, CD40, CD11b, CD64, F4/80 (mice)/EMR1 (human), lysozyme M, MAC-1/MAC-3 and CD68.

Macrophages originate from two sources: blood monocytes derived from the bone marrow (MDMs, monocyte-derived macrophages) or tissue-resident macrophages (TRMs) arising from dedicated yolk sac progenitors. The vast majority of TRMs is derived from colony stimulating factor 1 receptor (CSF1R)-positive erythro-myeloid progenitors (EMPs) which are distinct from hematopoietic stem cells (HSCs) and develop in the embryonic yolk sac before migrating to the fetal liver to give rise to fetal myeloid cells and erythrocytes [macro AbcG2 05 pdf]

Drug transporter expression in human macrophages
Amélie Moreau, Marc Le Vee, Elodie Jouan, Yannick Parmentier and Olivier Fardel*
7 JAN 2011 DOI: 10.1111/j.1472-8206.2010.00913.x Fundamental & Clinical Pharmacology
Volume 25, Issue 6, pages 743–752, December 2011

ABCG1 (ABC8), the human homolog of the Drosophila white gene, is a regulator of macrophage cholesterol and phospholipid transport.

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		C 145.04515 694.68457 145.04515 673.31537 131.8649 660.13513 
		C 121.4441 649.7141 105.90419 647.53253 93.339905 653.5899 L 102.047455 662.2976 
		C 109.58637 660.2373 117.987976 662.16803 123.90997 668.08997 
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		L 99.00019 681.7502 L 105.750175 675.00006 L 85.50013 654.75012 L 92.249985 648 Z" fill="black"
		class="glyph"/>
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A [[SiteIcon|SiteIcon tiddler]]@glossary helps provide some identity to your space.  Ideally it'd be a square and a minimum of 48*48 pixels size.  You can upload your site icon using the uploader below.

<<binaryUploadPublic title:SiteIcon>>

http://local.fedex.com/ca_english/qc/saintlaurent/YULA/?cmp=LOC-1001545-3-1-971-1110000-US-US-EN-GPLCANSHIPPRINT

FedEx Ship Centre

4041 Sere St
Saint-Laurent, QC 
H4T 2A3 
CA

Monday 8:00 AM–8:00 PM 
Tuesday 8:00 AM–8:00 PM 
Wednesday 8:00 AM–8:00 PM 
Thursday 8:00 AM–8:00 PM 
Friday 8:00 AM–8:00 PM 
Saturday 9:00 AM–5:00 PM 
Sunday Closed 

CONT FEDEX
http://www.fedex.com/ca_english/index.html
http://www.fedex.com/ca_french/
Ouvrir un compte FedEx
http://www.fedex.com/ca_french/oadr/landing_page.html
Au moment d’ouvrir un compte FedEx en ligne, vous devez fournir un numéro de carte de crédit à des fins de facturation


http://www.fedex.com/ca_english/services/addservopt/dangerousgoods.html

The International Air Transport Association (IATA)
standards 

Shipper's Declaration of Dangerous Goods 
for each substance printed in COLOR (une bande rouge pointée).

http://www.google.ca/url?q=http://images.fedex.com/us/services/pdf/ShippersDecColumnsColorPrinter.pdf&sa=U&ved=0ahUKEwirw5iwmIvQAhVG8IMKHR8LDugQFggWMAA&usg=AFQjCNHpDrPjLdK4utNjfVx-isyinsz_qw


ICC Compliance Center
Centre de Conformitè Inc.
Furnitures pour de matieres dangereuses

 88, av Lindsay, Dorval, QC H9P 2T8
Tel
514-636-8146
888-768-7863
Irene Guy-Morrissette
http://www.thecompliancecenter.com
iguymorrissette@thecompliancecenter.com

https://www.youtube.com/watch?v=5h71RHkWUpc
https://www.youtube.com/watch?v=Z5m9A3iUYEo

http://www.stemcell.com/en/Business-Catalog/Technical-Resources/D/E/D/B/8/SepMate-Hassle-Free-PBMCs-in-Just-15-Minutes.aspx

http://www.stemcell.com/en/Products/Popular-Product-Lines/RosetteSep.aspx

http://www.jove.com/video/1724/neutrophil-extracellular-traps-how-to-generate-and-visualize-them


http://www.jove.com/video/1724/neutrophil-extracellular-traps-how-to-generate-and-visualize-them

!Create amendment protocol 
An amendment protocol should be submitted if you need to make changes to an approved study. 
You can submit an amendment at any time during the lifetime of the study.  
http://www.colorado.edu/innovate/sites/default/files/attached-files/Topaz%20Training%20Manual%20October%202015.pdf

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

/***
|''Name''|TiddlyFileImporter|
|''Version''|0.3.8|
|''Author''|Ben Gillies|
|''Type''|plugin|
|''Description''|Upload a TiddlyWiki file to TiddlyWeb, and import the tiddlers.|
!Usage
Upload a TiddlyWiki file to TiddlyWeb, and import the tiddlers.
!Requires
tiddlyweb
tiddlywebplugins.reflector
!Code
***/
//{{{
(function($){
if(!version.extensions.TiddlyFileImporter)
{ //# ensure that the plugin is only installed once
	version.extensions.TiddlyFileImporter = { installed: true };
}

config.macros.fileImport = {
	reflectorURI: '/reflector?csrf_token=%0',
	incorrectTypeError: 'Incorrect File Type. You must upload a TiddlyWiki',
	uploadLabel: 'Upload',
	uploadLabelPrompt: 'Import tiddlers from this TiddlyWiki',
	step1FileText: 'File:',
	step1PostText: 'In the next screen you will select the tiddlers to import.',
	step1Title: 'Step 1: Pick a TiddlyWiki to import',
	step1TypeChooser: 'Import From:',
	step3Html: ['<input type="hidden" name="markList" />',
		'<input type="hidden" checked="true" name="chkSync" />',
		'<input type="hidden" name="chkSave" />',
		'<input type="hidden" name="txtSaveTiddler" />'].join(),

	handler: function(place, macroName, params, wikifier, paramString) {
		var wizard = new Wizard();
		wizard.createWizard(place, 'Import a TiddlyWiki');
		this.restart(wizard);
	},

	restart: function(wizard) {
		var me = config.macros.fileImport;
		wizard.addStep(me.step1Title, ['<input type="hidden" ',
			'name="markList" />'].join(""));
		var markList = wizard.getElement('markList');
		var uploadWrapper = document.createElement('div');
		markList.parentNode.insertBefore(uploadWrapper, markList);
		uploadWrapper.setAttribute('refresh', 'macro');
		uploadWrapper.getAttribute('macroName', 'fileImport');
		var iframeName = 'reflectorImporter' + Math.random().toString();
		me.createForm(uploadWrapper, wizard, iframeName);
		$(uploadWrapper).append('<p>' + me.step1PostText + '</p>');
		wizard.setValue('serverType', 'tiddlyweb');
		wizard.setValue('adaptor', new config.adaptors.file());
		wizard.setValue('host', config.defaultCustomFields['server.host']);
		wizard.setValue('context', {});
		var iframe = $(['<iframe name="' + iframeName + '" ',
			'style="display: none" />'].join("")).appendTo(uploadWrapper);
		var onSubmit = function(ev) {
			var uploadType = $('select[name=uploadtype]', wizard.formElem).val();
			if (uploadType == "file") {
				// set an onload ready to hijack the form
				me.setOnLoad(uploadWrapper, wizard, iframe[0]);
				wizard.importType = 'file';
				wizard.formElem.submit();
			} else {
				var csrf_token = config.extensions.tiddlyspace.getCSRFToken();
				$.ajax({
					url: "%0/reflector?csrf_token=%1".format(
						config.defaultCustomFields["server.host"], csrf_token),
					type: "POST",
					dataType: "text",
					data: {
						uri: $("input", ".importFrom", wizard.formElem).val()
					},
					success: function(data, txtStatus, xhr) {
						wizard.POSTResponse = data;
						me.importTiddlers(uploadWrapper, wizard);
					},
					error: function(xhr, txtStatus, error) {
						displayMessage(["There was an error fetching the ",
							'url: ', txtStatus].join(""));
						me.restart(wizard);
					}
				});
				return false;
			}
		};
		wizard.setButtons([{
			caption: me.uploadLabel,
			tooltip: me.uploadLabelPrompt,
			onClick: onSubmit
		}]);
		$(wizard.formElem).submit(function(ev) {
			onSubmit(ev);
			ev.preventDefault();
		});
	},

	createForm: function(place, wizard, iframeName) {
		var form = wizard.formElem;
		var me = config.macros.fileImport;
		form.action = me.reflectorURI.format(
			config.extensions.tiddlyspace.getCSRFToken());
		form.enctype = 'multipart/form-data';
		form.encoding = 'multipart/form-data';
		form.method = 'POST';
		form.target = iframeName;
		onSelectChange = function(e) {
			var changeTo = $(this).val();
			if (changeTo == "file") {
				$(".importFrom").html('%0 <input type="file" name="file" />'.
					format(me.step1FileText));
			} else {
				$(".importFrom").html('URL: <input type="text" name="uri" />'
					+ ' Do you want <a target="_blank" href="http://faq.tiddlyspace.com/How%20do%20I%20include%2Fexclude%20spaces%3F">inclusion</a> instead?');
			}
		};
		$(place).append('<span>%0</span>'.format(me.step1TypeChooser)).
			append($(['<select name="uploadtype"><option value="file" selected="selected">file',
				'<option value="uri">url</select>'].join("")).change(onSelectChange)).
			append('<div class="importFrom">%0<input type="file" name="file" /></div>'.
					format(me.step1FileText));
	},

	setOnLoad: function(place, wizard, iframe) {
		var me = config.macros.fileImport;
		var loadHandler = function() {
			me.importTiddlers.apply(this, [place, wizard, iframe]);
		};
		iframe.onload = loadHandler;
		completeReadyStateChanges = 0;
		iframe.onreadystatechange = function() {
			if (++(completeReadyStateChanges) == 5) {
				loadHandler();
			}
		};
	},

	importTiddlers: function(place, wizard, iframe) {
		var tmpStore = new TiddlyWiki();
		var POSTedWiki = "";
		if (wizard.importType == "file") {
			try {
				POSTedWiki= iframe.contentWindow
					.document.documentElement.innerHTML;
			} catch(e) {
				displayMessage(config.macros.fileImport.incorrectTypeError);
				config.macros.fileImport.restart(wizard);
				return;
			}
			// now we are done, so remove the iframe
			$(iframe).remove();
		} else {
			POSTedWiki = wizard.POSTResponse;
		}

		tmpStore.importTiddlyWiki(POSTedWiki);
		var newTiddlers = tmpStore.getTiddlers();
		var workspace = config.defaultCustomFields['server.workspace'];
		var context = {
			status: true,
			statusText: 'OK',
			httpStatus: 200,
			adaptor: wizard.getValue('adaptor'),
			tiddlers: newTiddlers
		};
		context.adaptor.store = tmpStore;
		wizard.setValue('context', context);
		wizard.setValue('workspace', workspace);
		wizard.setValue('inFileImport', true);
		config.macros.importTiddlers.onGetTiddlerList(context, wizard);
	}
};

var _onGetTiddler = config.macros.importTiddlers.onGetTiddler;
config.macros.importTiddlers.onGetTiddler = function(context, wizard) {
	if (wizard.getValue('inFileImport')) {
		var me = config.macros.importTiddlers;
		if(!context.status)
			displayMessage("Error in importTiddlers.onGetTiddler: " + context.statusText);
		var tiddler = context.tiddler;
		var fields = tiddler.fields;
		merge(fields, config.defaultCustomFields);
		fields["server.workspace"] = wizard.getValue('workspace');
		delete fields['server.permissions'];
		delete fields['server.bag'];
		fields['server.page.revision'] = 'false';
		delete fields['server.recipe'];
		fields.changecount = 1;
		store.suspendNotifications();
		store.saveTiddler(tiddler.title, tiddler.title, tiddler.text,
			tiddler.modifier, tiddler.modified, tiddler.tags, tiddler.fields,
			false, tiddler.created);
		store.resumeNotifications();
		var remainingImports = wizard.getValue("remainingImports")-1;
		wizard.setValue("remainingImports",remainingImports);
		if(remainingImports === 0) {
			if(context.isSynchronous) {
				store.notifyAll();
				refreshDisplay();
			}
			wizard.setButtons([
					{caption: me.doneLabel, tooltip: me.donePrompt, onClick: me.onClose}
				],me.statusDoneImport);
			autoSaveChanges();
		}
	} else {
		_onGetTiddler.apply(this, arguments);
	}
};

var _onCancel = config.macros.importTiddlers.onCancel;
config.macros.importTiddlers.onCancel = function(e)
{
	var wizard = new Wizard(this);
	if (!wizard.getValue('inFileImport')) {
		return _onCancel.apply(this, arguments);
	}
	var place = wizard.clear();
	config.macros.fileImport.restart(wizard);
	return false;
};

var _step3Html = config.macros.importTiddlers.step3Html;
var _onGetTiddlerList = config.macros.importTiddlers.onGetTiddlerList;
config.macros.importTiddlers.onGetTiddlerList = function(context, wizard) {
	var fileImport = config.macros.fileImport;
	var importTiddlers = config.macros.importTiddlers;
	if (wizard.getValue('inFileImport')) {
		importTiddlers.step3Html = fileImport.step3Html;
	} else {
		importTiddlers.step3Html = _step3Html;
	}
	_onGetTiddlerList.apply(this, arguments);
};
})(jQuery);
//}}}

Type the text for 'New TiddleAcridine Orange (λEx = 501 nm / λEm = 527 nm)
Rhodamine 123 (λEx = 507 nm / λEm = 529 nm)
Hoechst 33342 (λEx = 354 nm / λEm = 442 nm)
MTG (λEx = 490 nm / λEm = 516 nm)
AMC (λEx = 400 nm / λEm = 505 nm)
PI (λEx = 535 nm / λEm = 617 nm)
FITC (λEx = 485 nm / λEm = 535 nm)
TMRE (λEx = 549 nm / λEm = 575 nm)
mitoSOX (λEx = 510 nm / λEm = 580 nm)

egg 6 min (liq) 9 min (soft) 12 min (rock) stop 4°Cr'

PMID:
21978080
2011
Cryobanking of embryoid bodies to facilitate basic research and cell-based therapies.
Higher (≥5%) DMSO concentrations alone or in combination with trehalose (0.1 M and 0.2 M) yielded good postthaw survival rates of >80%, whereas cooling of EBs at 1°C/min in the presence of 5% DMSO +0.1 M trehalose gave the best attachment and growth rates, with differentiation into cell lineages of three germ layers. Taken together, our results suggest that EBs are tolerant to cryopreservation-associated stresses and retain their differentiation potential after freezing and thawing.

The use of nanofibrillar cellulose hydrogel as a flexible three-dimensional model to culture human pluripotent stem cells.

Human embryonic stem cells (hESCs) and induced pluripotent stem cells (hiPSCs) have great potential in research and therapies. The current in vitro culture systems for hPSCs do not mimic the three-dimensional (3D) in vivo stem cell niche that transiently supports stem cell proliferation and is subject to changes to facilitate subsequent differentiation during development. Here, we demonstrate, for the first time, that a novel plant-derived nanofibrillar cellulose (NFC) hydrogel creates a flexible 3D environment for hPSC culture. The pluripotency of hPSCs cultured in the NFC hydrogel was maintained for 26 days as evidenced by the expression of OCT4, NANOG, and SSEA-4, in vitro embryoid body formation, and in vivo teratoma formation. The use of a cellulose enzyme, cellulase, allows easy cell propagation in 3D culture as well as shift between 3D and 2D cultures. More importantly, the removal of the NFC hydrogel facilitates differentiation while retaining 3D cell organization. Thus, the NFC hydrogel represents a flexible, xeno-free 3D culture system that supports pluripotency and will be useful in hPSC-based drug research and regenerative medicineThe use of nanofibrillar cellulose hydrogel as a flexible three-dimensional model to culture human pluripotent stem cells.

http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0050723

Functional 3D Human Primary Hepatocyte Spheroids Made by Co-Culturing Hepatocytes from Partial Hepatectomy Specimens and Human Adipose-Derived Stem Cells

http://medlive.hotnews.ro/video-miroculus-laboratorul-de-genetica-dintr-un-smartphone.html

Miroculus este o noua platforma tehnologica de diagnosticare ce poate detecta microARN-uri. MicroARN-urile sunt molecule mici care determina felul in care genele noastre se exprima si, foarte important, aceste molecule pot fi gasite in sange. Ele sunt ca niste indicatori ai statusului fizio-patologic al unei persoane si reflecta starea de sanatate a individului respectiv. Miroculus a fost dezvoltat de Alejandro Tocigl si Foteini Christodoulou.

http://www.youtube.com/watch?v=watch?v=0-CxafFnaKg

http://miroculus.com/

“Exista deja multe informatii publicate care coreleaza urmele distincte lasate de microARN-ul care circula in sange cu anumite tipuri de cancer, dupa cum puteti vedea in graficul acesta.
Ceea ce am construit aici e o platforma care cuprinde trei elemente. Un test molecular care poate detecta microARN-uri si emite un semnal fluorescent doar in prezenta unui anumit microARN aflat in circulatie. Un instrument de laborator care contine acest test si un cloud de analiza informatica a datelor. Toate acestea sunt integrate si reprezinta cea mai ieftina si accesibila solutie de diagnostic prin microARN existenta astazi. Practic, imaginati-va ca va duceti la doctor pentru recoltarea unei probe de sange. Din acesta proba se izoleaza ARN-ul total care ajunge intr-o placa standard ca aceasta, cu 96 de incinte. Fiecare dintre ele cauta un microARN specific si se poarta ca o capcana atunci cand un anumit microARN e prezent in sange. Atunci cand un anumit microARN e prezent in proba de sange, peretele placutei va straluci, formand un anumit tipar.
Deci pui proba de sange si acest aparat. Aparatul este fabricat la o imprimanta 3D si are si foloseste componente electronice. Costa 100 de dolari, iar testul molecular costa 21 de dolari.
Si avem un smartphone, conectat la internet si are si functie de camera foto. Telefonul are o aplicatie si face o poza pe minut inregistrand reactiile din interiorul dispozitivului. Cum puteti vedea aici, unii pereti stralucesc, altii nu. Cei care stralucesc ne semnaleaza ca un anumit microARN se gaseste in proba de sange colectata. Asadar aici putem vedea un tipar microARN. Acesta este trimis in cloud unde este corelat cu baza de date existente si poate da rezultatul intr-o ora, maximum o ora si jumatate. Dupa cum vedeti aici: acest tipar de microARN prezent in sange inseamna un diagnostic de cancer de san. Si asa putem diagnostica cancerul de san.
Puterea acestei platforme nu este detectarea unui anumit tip de boala, ci monitorizarea felului in care acea boala raspunde la un anumit tratament. MicroARN-ul va varia in functie de specificul individual si conditiile mediului de viata”.

<!DOCTYPE html>
<html lang="en">
<head>
	<meta charset="UTF-8">
	<meta http-equiv="X-UA-Compatible" content="IE=edge,chrome=1">
	<title>Reply</title>
	<link rel="stylesheet" href="//tiddlyspace.com/bags/benspa_public/tiddlers/bootvelcro.css">
	<style>
		html,
		body {
			overflow: hidden;
			background-color: transparent;
		}

		#container {
			/* prevent a fouc if no images present */
			display: none;
		}

		.modal-header {
			border-bottom: none;
			padding: 5px 0 0;
			position: absolute;
			width: 100%;
			background-color: #e0e0e0;
			-webkit-border-radius: 6px 6px 0 0;
			-moz-border-radius: 6px 6px 0 0;
			border-radius: 6px 6px 0 0;
			cursor: move;
		}

		.form-actions {
			position: absolute;
			bottom: 0;
			box-sizing: border-box;
			-moz-box-sizing: border-box;
			width: 100%;
			margin: 0;
			border-radius: 0 0 6px 6px;
			background-color: #e0e0e0;
			border-top: 1px solid gray;
		}

		.form-actions input.btn {
			width: auto;
			float: right;
			margin: 0 0.2em;
		}

		.closeBtn {
			background-color: #DCE7F1 !important;
		}

		.primary {
			background-color: #09F !important;
		}

		h1 {
			margin-bottom: 9px;
			margin-top: 9px;
		}

		body {
			width: 100%;
			height: 100%;
			position: absolute;
		}

		.modal {
			margin: 10px;
			top: 0;
			left: 0;
			bottom: 0;
			width: 510px;
			position: absolute;
			box-shadow: #444 0px 0px 10px 2px;
			border-radius: 6px;
			background-color: white;
			border: 1px solid gray;
			background-color: #F0F4F8;
		}

		label em {
			cursor: pointer;
		}

		.modal-body {
			overflow: auto;
			position: absolute;
			top: 0;
			bottom: 0;
			left: 0;
			right: 0;
			margin: 65px 20px 67px;
			background-color: transparent;
		}

		.nav-tabs {
			padding-left: 1%;
			margin: 0;
			width: 99%;
			border-color: gray;
		}

		.nav-tabs > li {
			cursor: pointer;
		}

		.nav-tabs > li > a {
			line-height: 2.4em;
			font-weight: bold;
			font-size: 100%;
		}

		.nav-tabs > li.active > a{
			background-color: #F0F4F8;
			border-color: gray;
			border-bottom-color: #F0F4F8;
		}

		.active {
			display: block;
		}

		input,
		textarea,
		select,
		.uneditable-input {
			color: #606060;
		}

		.imagePicker {
			-moz-box-shadow: inset 0 1px 3px rgba(0, 0, 0, 0.1);
			-webkit-box-shadow: inset 0 1px 3px rgba(0, 0, 0, 0.1);
			box-shadow: inset 0 1px 3px rgba(0, 0, 0, 0.1);
			border: 1px solid #CCC;
			height: 110px;
			overflow: auto;
			-webkit-border-radius: 3px;
			-moz-border-radius: 3px;
			border-radius: 3px;
			margin-left: 0;
		}

		.imagePicker img {
			margin: 5px;
			border: 2px solid transparent;
		}

		.imagePicker .current {
			border: 2px dotted #555;
		}

		label {
			font-weight: bold;
		}

		.form-actions label {
			float: left;
			margin-top: 0.75em;
		}

		fieldset input,
		fieldset textarea {
			width: 90%;
			border-color: gray;
		}

		@media all and (max-width: 550px) {
			.modal {
				width: 95%;
			}
		}

		#help {
			position: absolute;
			border: 0;
			right: 4px;
			top: 5px;
			text-indent: -9999px;
			color: transparent;
			height: 16px;
			width: 16px;
			background: none;
			background-image: url(/bags/common/tiddlers/help.png);
			background-repeat: no-repeat;
			background-color: white;
			z-index: 2;
			border-radius: 10px;
		}

		#help-info {
			padding: 0;
			border: 1px solid gray;
			width: 60%;
			height: 50px;
			color: #404040;
			background-color: white;
			position: absolute;
			top: 5px;
			right: 5px;
			z-index: 1;
			cursor: auto;
			border-radius: 5px;

		}

		#help-info p {
			padding: 10px 25px;
			margin-bottom: 0;
		}
	</style>
</head>
<body>
	<div id="container">
		<form action="#" class="modal">
			<div class="modal-header">
				<button id="help">help</button>
				<div id="help-info" style="display:none;"><p>
				Found something interesting? Write about it in your own space. <a href="//docs.tiddlyspace.com/Reply to this Tiddler" target="_blank">Find out more</a>
				</p></div>
				<ul class="nav nav-tabs" data-tabs="tabs">
					<li class="active" data-tab-name="post"><a href="#postForm">Reply</a></li>
				</ul>
			</div>


			<fieldset id="postForm" class="modal-body">
				<label>Title
					<input type="text" name="title">
				</label>
				<input type="hidden" name="url">
				<label>Post
					<textarea name="text" rows="8"></textarea>
				</label>
				<label>Tags
					<input type="text" name="tags" value="">
				</label>
			</fieldset>


			<div class="form-actions">
				<label class="checkbox">
					<input type="checkbox" name="private" val="private">
					keep private
				</label>
				<input type="submit" class="btn primary btn-large" value="Done">
				<input type="button" class="btn btn-large closeBtn" value="Cancel">
			</div>
		</form>
	</div>

	<script type="text/javascript"
            src="/bags/common/tiddlers/jquery.js"></script>
	<script type="text/javascript" src="/bags/tiddlyspace/tiddlers/chrjs"></script>
	<script type="text/javascript" src="/bags/common/tiddlers/_reply.js"></script>
</body>
</html>

<!DOCTYPE html>
<html>
<head>
	<meta http-equiv="Content-Type" content="text/html;charset=utf-8">
	<title>Account</title>
	<link href="/bags/common/tiddlers/profile.css" type='text/css' rel='stylesheet' >
	<link href="/bags/common/tiddlers/admin.css" type='text/css' rel='stylesheet' >
	<link href="/bags/common/tiddlers/jquery-ui.custom.css" type='text/css' rel='stylesheet' >
</head>
<body>

<div id="container">
	<div class="main section">
		<a class="app" href="/">home</a>
		<div class="left">
		<div id="siteiconArea">
		<h2>User Icon</h2>
		<div>
			<img id="siteicon" class="siteicon">
			<form id="upload" method="POST" enctype="multipart/form-data">
				<input type="hidden" name="title" value="SiteIcon" />
				<input type="hidden" name="tags" value="excludeLists">
				<input type="hidden" name="csrf_token" class="csrf" />
				<input type="file" name="file" accept="image/*" />
				<input type="submit" value="upload" />
			</form>
			<div id="dropzone">Drop file here
				<img class="notloading" src="/bags/common/tiddlers/ajax-loader.gif" alt="submitting SiteIcon" />
			</div>
		</div>
		</div>
		<h2>Find Space</h2>
		<form class="spaceSearch">
			<input class="inputBox" type="text" placeholder="find space" />
			<a href="http://docs.tiddlyspace.com/What%20is%20a%20Space%3F" class="help"
				title="What is a space?">What is a space?</a>
			<button>view all</button>
		</form>
		<div class='list-container'>
			You are a member of the following spaces:
			<ul class='ts-space-search'>
			</ul>
		</div>
		<h2>Create New Space</h2>
		<form class="ts-spaces">
			<input class="inputBox" type="text" name="spacename" placeholder="space name"><span class="hostSuffix">.tiddlyspace.com</span>
			<input type="submit" value="Create Space" />
		</form>
		</div>
		<div class="right">
		<h2>Change Password</h2>
		<form class="ts-password">
			<input class="inputBox" placeholder="existing password" type="password" name="password">
			<input class="inputBox" placeholder="new password" type="password" name="new_password">
			<input class="inputBox" placeholder="new password"	type="password" name="new_password_confirm">
			<input type="submit" value="Change password">
		</form>
		<h2>OpenID</h2>
		<h3>Why OpenID?</h3>
		<a href="http://openid.net/"><img src="/bags/common/tiddlers/openid.png" alt="openid" ></a><br />
		Use just one username and password across hundreds of OpenID-enabled sites.<br />
		It's an open standard.<br />
		<a href="http://openid.net/what/">learn more</a>
		<ul class="ts-identities"></ul>
		<form class="ts-openid" target="_top">
			<div>
				Add an openid:
			</div>
			<input class="inputBox" type="text" name="openid" placeholder="your openid" />
			<input type="submit" value="Register" />
			<a href="http://openid.net/get-an-openid/" class="help"
			title="What is an open id?">What is an open id?</a>
		</form>
		</div>
		<div class="clear"></div>
	</div>
</div>
<script src="/bags/common/tiddlers/backstage.js"></script>
<script src='/bags/common/tiddlers/jquery.js'></script>
<script src='/bags/tiddlyspace/tiddlers/chrjs'></script>
<script src='/bags/common/tiddlers/chrjs.space'></script>
<script src='/bags/common/tiddlers/chrjs.users'></script>
<script src='/bags/common/tiddlers/chrjs.identities'></script>
<script src="/bags/common/tiddlers/jquery-ui.custom.js"></script>
<script src='/bags/common/tiddlers/jquery-form.js'></script>
<script src="/bags/common/tiddlers/siteiconupload.js"></script>
<script src='/bags/common/tiddlers/ts.js'></script>
<script src="/status.js"></script>
<script type="text/javascript">
/*
 * jQuery UI Autocomplete HTML Extension
 *
 * Copyright 2010, Scott González (http://scottgonzalez.com)
 * Dual licensed under the MIT or GPL Version 2 licenses.
 *
 * http://github.com/scottgonzalez/jquery-ui-extensions
 */
(function( $ ) {

var proto = $.ui.autocomplete.prototype,
	initSource = proto._initSource;

function filter( array, term ) {
	var matcher = new RegExp( $.ui.autocomplete.escapeRegex(term), "i" );
	return $.grep( array, function(value) {
		return matcher.test( $( "<div>" ).html( value.label || value.value || value ).text() );
	});
}

$.extend( proto, {
	_initSource: function() {
		if ( this.options.html && $.isArray(this.options.source) ) {
			this.source = function( request, response ) {
				response( filter( this.options.source, request.term ) );
			};
		} else {
			initSource.call( this );
		}
	},

	_renderItem: function( ul, item) {
		return $( "<li></li>" )
			.data( "item.autocomplete", item )
			.append( $( "<a></a>" )[ this.options.html ? "html" : "text" ]( item.label ) )
			.appendTo( ul );
	}
});

})( jQuery );

/***
_accounts application specific javascript
***/
var link;
ts.init(function(ts) {
	if(ts.user.anon) { // redirect to homepage when user not logged in
		window.location = ts.getHost();
	} else if(ts.user.name === ts.currentSpace){
		initSiteIconUpload(ts.user.name);
	} else {
		link = $("<a />").attr("href", ts.getHost(ts.user.name) + "/_account").text("Change User Icon");
		$("#siteiconArea div").empty().append(link);
	}
	$(".hostSuffix").text("." + ts.getHost("").split("//")[1]);
	ts.getSpaces(function(spaces) {
		$("<div class='info' />").text("You have " + spaces.length + " spaces.").insertBefore($(".spaceSearch")[0]);
		$("form.spaceSearch input").autocomplete({
			html: true,
			source: function(req, response) {
				ts.getSpaces(function(spaces) {
					var selected = [];
					for(var i = 0; i < spaces.length; i++) {
						var space = spaces[i];
						if(space.name.indexOf(req.term) > -1) {
							var host = ts.getHost(space.name) ;
							var img = host + "/SiteIcon";
							selected.push({
								value: space.name,
								label: '<a href="' + host + '" target="_parent" class="autocompleteLink"><img src="' + img + '" style="height:24px;width:auto;max-height:24px;max-width:24px;"/>' + space.name + '</a>'
							});
						}
					}
					response(selected);
				});
			},
			select: function(event, ui) {
				window.top.location = ts.getHost(ui.item.value);
			}
		});

		var $ul = $('.ts-space-search');
		$.each(spaces, function(i, space) {
			$ul.append($('<li/>').html($('<a/>').attr('href', space.uri)
				.text(space.name)));
		});

		$('form.spaceSearch button').click(function(ev) {
			$('.list-container').slideToggle('fast');
			ev.preventDefault();
			return false;
		});
	});
});

if(window != window.top) {
	$("html").addClass("iframeMode");
	$("a").live("click",function(ev) {
		$(ev.target).attr("target", "_parent");
	});
}
</script>
<!--[if lt IE 8]>
<script type="text/javascript" src="/bags/common/tiddlers/json2.js"></script>
<![endif]-->
</body>
</html>

!Upload an icon
<<tiddler spaceIcon>>
!Describe your space
If you haven't already done so, you should provide a brief decscription of yourself and what you're using this space for. To do this, just edit the [[SiteInfo]] tiddler (keeping the title the same of course).

!Change the title
<<tiddler spaceTitle>>
!Change the theme
<<tiddler colorScheme>>
!Change the menu
If you'd like to change the menu items along the top, you can edit the [[MainMenu]] tiddler.

!Change the default tiddlers
<<tiddler setDefaultTiddlers>>
!More Advanced customisations
If you know HTML and CSS, you can edit some or all of the following tiddlers to customise your space further:
* PageTemplate
* EditTemplate
* ViewTemplate
* StyleSheet

Today, the two most promising red cell substitutes are perfluorocarbon-based oxygen carriers (PFBOCs) and hemoglobin-based oxygen carriers (HBOCs).

Biopure-(Hemopure), Northfield - (Polyheme), Sangart ( Hemospan (MP4)), Dendritech , Biopure (Oyglobin), Alliance Pharmaceutical (Oxygent).

Oxygent
http://biomed.brown.edu/Courses/BI108/2006-108websites/group09artificialblood/Pages/oxygent.htm
Oxygent is a solution used as an intravascular oxygen carrier to temporarily augment oxygen delivery to tissues and is currently being developed by Alliance Pharmaceutical Corp. Right now, the goal of the development of Oxygent is simply to reduce the need for donor blood during surgery, but this product clearly has the potential for additional future uses. Perfluorocarbons surrounded by a surfactant called lecithin and suspended in a water based solution give Oxygent its oxygen carrying capacity. The Oxygent particles are removed from the bloodstream within 48 hours by the body's normal clearance procedure for particles in the blood. Namely, the lecithin is digested intracellularly and the PFC's are exhaled through the lungs.

There are three classes of blood substitutes currently being debated in the scientific literature. The first two classes represent purely synthetic approaches, while the third is semi synthetic, employing the hemoglobin already produced by living organisms. Radu Silaghi Dumitrescu recently added a fourth class of blood substitutes, whose active ingredient is also a protein specialized in oxygen transport, but of non-heme nature: hemerythrin (Hr). Hr employs a binuclear non-heme diferrous center to bind oxygen; the resulting adduct is formally described as Fe(III)-Fe(III)-OOH, i.e. diferric peroxo. This mode of binding oxygen has the remarkable advantage of (1) not featuring a superoxide ligand (unlike Hb), which drastically reduces the reactivity towards NO, and (2) exhibiting stability towards peroxide (unlike Hb).
The new artificial blood relies not on hemoglobin, like typical artificial bloods, but hemerythrin — a protein extracted from sea worms that is then mixed with water and salts.
Hemerythrin transports oxygen in the blood of marine invertebrates, while previous artificial-bloods tests relied on hemoglobin, a red protein that transfers oxygen in the blood of almost all living organisms. Nearly all vertebrates use hemoglobin to ferry oxygen within red blood cells, while hemerythrin is found only in certain invertebrates, namely worms and valves. The hemerythrin-based artificial blood isn’t the deep red normally associated with blood, but more of a translucent yellow. Hemerythrin is preferable to hemoglobin, the researcher added, because hemerythrin does not easily succumb to the physical and chemical stress when introduced into a living organism. Hemoglobin tends to lose its integrity through such exposure
https://en.wikipedia.org/wiki/Hemerythrin

/***
|''Name''|TiddlySpaceConfig|
|''Version''|0.7.7|
|''Description''|TiddlySpace configuration|
|''Status''|stable|
|''Source''|http://github.com/TiddlySpace/tiddlyspace/raw/master/src/plugins/TiddlySpaceConfig.js|
|''CoreVersion''|2.6.1|
|''Requires''|TiddlyWebConfig ServerSideSavingPlugin TiddlyFileImporter|
!Code
***/
//{{{
(function($) {

var tweb = config.extensions.tiddlyweb;

var recipe = config.defaultCustomFields["server.workspace"].split("recipes/")[1];
var currentSpace; // assigned later

var disabledTabs = [];

var coreBags = ["system", "tiddlyspace"];
var systemSpaces = ["plugins", "info", "images", "theme"];
systemSpaces = $.map(systemSpaces, function(item, i) {
	return "system-%0_public".format(item);
});

// hijack search macro to add custom attributes for mobile devices
var _search = config.macros.search.handler;
config.macros.search.handler = function(place, macroName, params) {
	_search.apply(this, arguments);
	$(".searchField:input", place).
		attr({ autocapitalize: "off", autocorrect: "off" });
};

// arg is either a container name or a tiddler object
// if fuzzy is truthy, space may be inferred from workspace (for new tiddlers)
// returns space object or false
var determineSpace = function(arg, fuzzy) {
	if(typeof arg == "string") { // container name
		var space = split(arg, "_", "r");
		return ["public", "private"].contains(space.type) ? space : false;
	} else if(arg) { // tiddler
		var container = determineContainer(arg, fuzzy);
		return container ? determineSpace(container.name, fuzzy) : false;
	} else {
		return false;
	}
};

// if fuzzy is truthy, container may be inferred from workspace for new tiddlers
// returns container object or false
var determineContainer = function(tiddler, fuzzy) { // TODO: expose?
	var bag = tiddler.fields["server.bag"];
	var recipe = tiddler.fields["server.recipe"]; // XXX: unused/irrelevant/redundant!?
	if(bag) {
		return { type: "bag", name: bag };
	} else if(recipe) {
		return { type: "recipe", name: recipe };
	} else if(fuzzy) { // new tiddler
		var workspace = tiddler.fields["server.workspace"];
		if(workspace) {
			var container = split(workspace, "/", "l");
			return ["bags", "recipes"].contains(container.type) ? container : false;
		} else {
			return false;
		}
	} else {
		return false;
	}
};

// hijack removeTiddlerCallback to restore tiddler from recipe cascade -- TODO: move into TiddlyWebWiki?
var sssp = config.extensions.ServerSideSavingPlugin;
var _removeTiddlerCallback = sssp.removeTiddlerCallback;
sssp.removeTiddlerCallback = function(context, userParams) {
	var title = context.tiddler.title;
	var recipe = context.tiddler.fields["server.recipe"];
	_removeTiddlerCallback.apply(this, arguments);
	if(recipe) {
		context.workspace = "recipes/" + recipe;
		var callback = function(context, userParams) {
			if(context.status) {
				var dirty = store.isDirty();
				store.saveTiddler(context.tiddler).clearChangeCount();
				store.setDirty(dirty);
			} else {
				store.notify(title, true);
			}
		};
		context.adaptor.getTiddler(title, context, null, callback);
	}
};

// splits a string once using delimiter
// mode "l" splits at the first, "r" at the last occurrence
// returns an object with members type and name
var split = function(str, sep, mode) {
	mode = mode == "r" ? "pop" : "shift"; // TODO: use +/-1 instead of "l"/"r"?
	var arr = str.split(sep);
	var type = arr.length > 1 ? arr[mode]() : null;
	return { type: type, name: arr.join(sep) };
};

var plugin = config.extensions.tiddlyspace = {
	currentSpace: determineSpace(recipe),
	coreBags: coreBags.concat(systemSpaces),

	determineSpace: determineSpace,
	isValidSpaceName: function(name) {
		return name.match(/^[a-z][0-9a-z\-]*[0-9a-z]$/) ? true : false;
	},
	getCurrentBag: function(type) {
		return "%0_%1".format(currentSpace, type);
	},
	getCurrentWorkspace: function(type) {
		return "bags/" + this.getCurrentBag(type);
	},
	// returns the URL for a space's avatar (SiteIcon) based on a server_host
	// object and an optional space name
	// optional nocors argument prevents cross-domain URLs from being generated
	getAvatar: function(host, space, nocors) {
		if(space && typeof space != "string") { // backwards compatibility -- XXX: deprecated
			space = space.name;
		}
		var subdomain = nocors ? currentSpace : space;
		host = host ? this.getHost(host, subdomain) : "";
		var bag = space ? "%0_public".format(space) : "tiddlyspace";
		return "%0/bags/%1/tiddlers/SiteIcon".format(host, bag);
	},
	// returns the URL based on a server_host object (scheme, host, port) and an
	// optional subdomain
	getHost: function(host, subdomain) {
		if(host === undefined) { // offline
			tweb.status.server_host = {}; // prevents exceptions further down the stack -- XXX: hacky workaround, breaks encapsulation
			return null;
		}
		subdomain = subdomain ? subdomain + "." : "";
		var url = "%0://%1%2".format(host.scheme, subdomain, host.host);
		var port = host.port;
		if(port && !["80", "443"].contains(port)) {
			url += ":" + port;
		}
		return url;
	},
	disableTab: function(tabTiddler) {
		if(typeof(tabTiddler) == "string") {
			disabledTabs.push(tabTiddler);
		} else {
			for(var i = 0; i < tabTiddler.length; i++) {
				plugin.disableTab(tabTiddler[i]);
			}
		}
	},
    checkSyncStatus: function(tiddler) {
		if(tiddler) {
			var title = typeof(tiddler) === "string" ? tiddler : tiddler.title;
			var el = story.getTiddler(title) || false;
			if(el) {
				refreshElements(el);
			}
		}
	},
	isDisabledTab: function(tabTitle) {
		var match = new RegExp("(?:\\[\\[([^\\]]+)\\]\\])", "mg").exec(tabTitle);
		var tabIdentifier = match ? match[1] : tabTitle;
		return disabledTabs.contains(tabIdentifier);
	},
	getCSRFToken: window.getCSRFToken || null // this may not have been processed yet
};

currentSpace = plugin.currentSpace.name;

tweb.serverPrefix = tweb.host.split("/")[3] || ""; // XXX: assumes root handler
tweb.getStatus(function(status) {
	var url = plugin.getHost(status.server_host);
	tweb.status.server_host.url = url;
	config.messages.tsVersion = status.version;
});

if(window.location.protocol == "file:") {
	// enable AutoSave by default
	config.options.chkAutoSave = config.options.chkAutoSave === undefined ?
		true : config.options.chkAutoSave;
} else {
	// set global read-only mode based on membership heuristics
	var indicator = store.getTiddler("SiteTitle") || tiddler;
	readOnly = !(recipe.split("_").pop() == "private" ||
		tweb.hasPermission("write", indicator));
	// replace TiddlyWiki's ImportTiddlers due to cross-domain restrictions
	if(config.macros.fileImport) {
		$.extend(config.macros.importTiddlers, config.macros.fileImport);
	}
}

// hijack saveChanges to ensure SystemSettings is private by default
var _saveChanges = saveChanges;
saveChanges = function(onlyIfDirty, tiddlers) {
	if(tiddlers && tiddlers.length == 1 &&
			tiddlers[0] && tiddlers[0].title == "SystemSettings") {
		var fields = tiddlers[0].fields;
		delete fields["server.recipe"];
		fields["server.bag"] = plugin.getCurrentBag("private");
		fields["server.workspace"] = plugin.getCurrentWorkspace("private");
	}
	return _saveChanges.apply(this, arguments);
};

// ensure backstage is always initialized
// required to circumvent TiddlyWiki's read-only based handling
config.macros.backstageInit = {
	init: function() {
		showBackstage = true;
	}
};

// disable evaluated macro parameters for security reasons
config.evaluateMacroParameters = "none";
var _parseParams = String.prototype.parseParams;
String.prototype.parseParams = function(defaultName, defaultValue, allowEval,
		noNames, cascadeDefaults) {
	if(config.evaluateMacroParameters == "none") {
		arguments[2] = false;
	}
	return _parseParams.apply(this, arguments);
};

var _tabsMacro = config.macros.tabs.handler;
config.macros.tabs.handler = function(place, macroName, params) {
	var newParams = [params[0]]; // keep cookie name
	for(var i = 1; i < params.length; i += 3) {
		var tabTitle = params[i + 2];
		if(!plugin.isDisabledTab(tabTitle)){
			newParams = newParams.concat(params[i], params[i + 1], tabTitle);
		}
	}
	_tabsMacro.apply(this, [place, macroName, newParams]);
};

// disable ControlView for XHRs by default
$.ajaxSetup({
	beforeSend: function(xhr) {
		xhr.setRequestHeader("X-ControlView", "false");
	}
});
// TiddlyWeb adaptor currently still uses httpReq, which needs extra magic -- XXX: obsolete this!
var _httpReq = httpReq;
httpReq = function(type, url, callback, params, headers, data, contentType,
		username, password, allowCache) {
	headers = headers || {};
	headers["X-ControlView"] = "false";
	_httpReq.apply(this, arguments);
};

// register style sheet for backstage separately (important)
store.addNotification("StyleSheetBackstage", refreshStyles);

// option for default privacy setting
config.optionsDesc.chkPrivateMode = "Set your default privacy mode to private";
config.optionsSource.chkPrivateMode = "setting";
config.options.chkPrivateMode = config.options.chkPrivateMode || false;
saveSystemSetting("chkPrivateMode", true);
config.defaultCustomFields["server.workspace"] = plugin.
	getCurrentWorkspace(config.options.chkPrivateMode ? "private" : "public");

config.paramifiers.follow = {
	onstart: function(v) {
		if(!readOnly) {
			var bag = "%0_public".format(currentSpace);
			story.displayTiddler(null, v, DEFAULT_EDIT_TEMPLATE, null, null,
				"server.bag:%0 server.workspace:bags/%0".format(bag));
			story.setTiddlerTag(v, "follow", 1);
			story.focusTiddler(v, "text");
		}
	}
};

var fImport = config.macros.fileImport;
if(fImport) {
	fImport.uploadTo = "Upload to: ";
	var _createForm = config.macros.fileImport.createForm;
	config.macros.fileImport.createForm = function(place, wizard, iframeName) {
		var container = $("<div />").text(fImport.uploadTo).appendTo(place);
		var select = $('<select name="mode" />').appendTo(container)[0];
		$('<option value="private" selected>private</a>').appendTo(select);
		$('<option value="public">public</a>').appendTo(select);
		wizard.setValue("importmode", select);
		_createForm.apply(this, [place, wizard, iframeName]);
	};

	var _onGet = config.macros.importTiddlers.onGetTiddler;
	config.macros.importTiddlers.onGetTiddler = function(context, wizard) {
		var type = $(wizard.getValue("importmode")).val();
		var ws =  plugin.getCurrentWorkspace(type);
		wizard.setValue("workspace", ws);
		_onGet.apply(this, [context, wizard]);
	};
}

config.extensions.ServerSideSavingPlugin.reportSuccess = function(msg, tiddler) {
	plugin.checkSyncStatus(tiddler);
	msg = config.extensions.ServerSideSavingPlugin.locale[msg];
	var link = "/" + encodeURIComponent(tiddler.title);
	displayMessage(msg.format([tiddler.title]), link);
};


})(jQuery);
//}}}

!Empowering citizen scientists
do-it-yourself (DIY) biology labsjavascript:;
Nature Methods 12, 795 (2015) doi:10.1038/nmeth.3577

A scientifically literate general public ranks high on the wish list of biological researchers. According to a poll taken at a recent synthetic biology conference, scientists see a public uninformed about biotechnology as a threat to their work. Instead they want the 'man on the street' to understand and support what goes on in the lab. In our June Editorial we discussed different routes used to disseminate scientific information. We now want to encourage our readers to get involved in venues that give lay people a chance to get hands-on experience in biology: DIYbio labs.

These do-it-yourself (DIY) biology labs are organized and run locally, often by scientists who work on a volunteer basis. Their rationale, as Ellen Jorgensen—cofounder of Genspace in Brooklyn, New York—sums up in a TED talk, was to expand the use of biotechnology beyond the professionals and to put the tools in the hands of lay people to use in fun and creative ways.

Members of the DIYbio community, also known as biohackers, come from different educational and socioeconomic backgrounds; some have scientific training, but many do not. They span vast age ranges, from 11 year olds to retirees, but what unites them is the desire to demystify biology, particularly molecular biology. Inspired by the revolution in electronics in the 20th century, they want to see similar developments in biology.

The funding comes from donations, and crowdsourcing is often used to raise money for the initial costs. Once a DIYbio lab has reached a critical mass, it is sustained by membership fees and sometimes grants.

Over the past eight years, the movement has grown into an ever-expanding international community. DIYbio.org, founded in 2008 by Harvard- and MIT-trained scientists Jason Bobe and Mackenzie Cowell, is a public resource for information about local community labs and advice on how to start a lab or troubleshoot protocols.

The thought of people genetically modifying organisms in a community lab can evoke safety concerns. But such fears stem from a misunderstanding of what takes place in DIYbio labs. Citizen scientists do not work with pathogens, and they operate in an open environment in which everybody is curious about each other's projects and goals. DIYbio labs in the Europe and North America formulated a DIYbio code of ethics and follow community standards for aspects such as waste disposal. In the United States, the Federal Bureau of Investigation's weapons of mass destruction directorate is in contact with some of the organizers of DIYbio labs, has organized joint conferences and, as stated by more than one DIYbio lab organizer, is not worried about their activities.

DIYbio labs often have a three-pronged approach. Talks about current topics given by scientists seek to engage the public in a dialogue. The attendees receive information and have a chance to voice their concerns and objections, and the scientists take back a better understanding of how their work is perceived. Workshops and courses with illustrative titles such as “Biohacker Boot Camp” introduce the attendees to basic laboratory techniques. Labs also offer membership that allows one to pursue an individual project. These projects have included goals as diverse as making art with bacteria, designing a bacteria-based 3D printer, making vegan cheese and matching dog waste to its owner.

The scientific community can support the movement in different ways. The most obvious first step is to find out about a DIYbio lab in one's neighborhood and visit. Offers to give talks, help with workshops or mentor on a project are also likely to be much appreciated.

Aside from time, more tangible contributions, such as donating old lab equipment, are another way to get involved. The London Biohackspace team, for example, spent about a year outfitting their lab and were very grateful for the support of scientists at different universities who donated scales and centrifuges.

At a time of increased emphasis on STEM (science, technology, engineering and math) education in schools, DIYbio labs can be ideal grounds for high school students to gain laboratory experience. Genspace, for example, hosts a team of high schoolers who entered the iGEM (International Genetically Engineered Machine) competition, an event that requires participants to submit a proposal for the design of a genetically engineered biological system using standard parts. MadLab in Manchester, UK, runs workshops for science-curious amateurs including high school students. Asa Calow, one of the organizers, is inspired by the BBC's micro:bit project, a pocket-sized codable computer that will be given to every year 7 student across the UK to stimulate digital creativity. He wants to see the same thing happen in biology; providing safe spaces where students—of any age—can experiment is a start.
Go check it out.

Draft DIYbio Code of Ethics from European Congress
http://diybio.org/
https://opengenx.wordpress.com/protocol/
http://innovate.ee.ucla.edu/refereed-journal-publications.html
http://corticalcafe.com/prog_CGHmaker.htm
http://sourceforge.net/projects/cghconstruction/files/
http://manoharan.seas.harvard.edu/holopy/
https://launchpad.net/holopy

Transparency
Emphasize transparency and the sharing of ideas, knowledge, data and results.

Safety
Adopt safe practices.

Open Access
Promote citizen science and decentralized access to biotechnology.

Education
Help educate the public about biotechnology, its benefits and implications.

Modesty
Know you don’t know everything.

Community
Carefully listen to any concerns and questions and respond honestly.

Peaceful Purposes
Biotechnology must only be used for peaceful purposes.

Respect
Respect humans and all living systems.

Responsibility
Recognize the complexity and dynamics of living systems and our responsibility towards them.

Accountability
Remain accountable for your actions and for upholding this code.

/***
|''Name''|TiddlyWebAdaptor|
|''Description''|adaptor for interacting with TiddlyWeb|
|''Author:''|FND|
|''Contributors''|Chris Dent, Martin Budden|
|''Version''|1.4.10|
|''Status''|stable|
|''Source''|http://svn.tiddlywiki.org/Trunk/association/adaptors/TiddlyWebAdaptor.js|
|''CodeRepository''|http://svn.tiddlywiki.org/Trunk/association/|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
|''CoreVersion''|2.5|
|''Keywords''|serverSide TiddlyWeb|
!Notes
This plugin includes [[jQuery JSON|http://code.google.com/p/jquery-json/]].
!To Do
* createWorkspace
* document custom/optional context attributes (e.g. filters, query, revision) and tiddler fields (e.g. server.title, origin)
!Code
***/
//{{{
(function($) {

var adaptor = config.adaptors.tiddlyweb = function() {};

adaptor.prototype = new AdaptorBase();
adaptor.serverType = "tiddlyweb";
adaptor.serverLabel = "TiddlyWeb";
adaptor.mimeType = "application/json";

adaptor.parsingErrorMessage = "Error parsing result from server";
adaptor.noBagErrorMessage = "no bag specified for tiddler";
adaptor.locationIDErrorMessage = "no bag or recipe specified for tiddler"; // TODO: rename

// retrieve current status (requires TiddlyWeb status plugin)
adaptor.prototype.getStatus = function(context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	var uriTemplate = "%0/status";
	var uri = uriTemplate.format([context.host]);
	var req = httpReq("GET", uri, adaptor.getStatusCallback, context,
		null, null, null, null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.getStatusCallback = function(status, context, responseText, uri, xhr) {
	context.status = responseText ? status : false;
	try {
		context.statusText = xhr.statusText;
	} catch(exc) { // offline (Firefox)
		context.status = false;
		context.statusText = null;
	}
	context.httpStatus = xhr.status;
	if(context.status) {
		context.serverStatus = $.evalJSON(responseText); // XXX: error handling!?
	}
	if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// retrieve a list of workspaces
adaptor.prototype.getWorkspaceList = function(context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	context.workspaces = [];
	var uriTemplate = "%0/recipes"; // XXX: bags?
	var uri = uriTemplate.format([context.host]);
	var req = httpReq("GET", uri, adaptor.getWorkspaceListCallback,
		context, { accept: adaptor.mimeType }, null, null, null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.getWorkspaceListCallback = function(status, context, responseText, uri, xhr) {
	context.status = status;
	context.statusText = xhr.statusText;
	context.httpStatus = xhr.status;
	if(status) {
		try {
			var workspaces = $.evalJSON(responseText);
		} catch(ex) {
			context.status = false; // XXX: correct?
			context.statusText = exceptionText(ex, adaptor.parsingErrorMessage);
			if(context.callback) {
				context.callback(context, context.userParams);
			}
			return;
		}
		context.workspaces = workspaces.map(function(itm) { return { title: itm }; });
	}
	if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// retrieve a list of tiddlers
adaptor.prototype.getTiddlerList = function(context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	var uriTemplate = "%0/%1/%2/tiddlers%3";
	var params = context.filters ? "?" + context.filters : "";
	if(context.format) {
		params = context.format + params;
	}
	var workspace = adaptor.resolveWorkspace(context.workspace);
	var uri = uriTemplate.format([context.host, workspace.type + "s",
		adaptor.normalizeTitle(workspace.name), params]);
	var req = httpReq("GET", uri, adaptor.getTiddlerListCallback,
		context, merge({ accept: adaptor.mimeType }, context.headers), null, null, null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.getTiddlerListCallback = function(status, context, responseText, uri, xhr) {
	context.status = status;
	context.statusText = xhr.statusText;
	context.httpStatus = xhr.status;
	if(status) {
		context.tiddlers = [];
		try {
			var tiddlers = $.evalJSON(responseText); //# NB: not actual tiddler instances
		} catch(ex) {
			context.status = false; // XXX: correct?
			context.statusText = exceptionText(ex, adaptor.parsingErrorMessage);
			if(context.callback) {
				context.callback(context, context.userParams);
			}
			return;
		}
		for(var i = 0; i < tiddlers.length; i++) {
			var tiddler = adaptor.toTiddler(tiddlers[i], context.host);
			context.tiddlers.push(tiddler);
		}
	}
	if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// perform global search
adaptor.prototype.getSearchResults = function(context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	var uriTemplate = "%0/search?q=%1%2";
	var filterString = context.filters ? ";" + context.filters : "";
	var uri = uriTemplate.format([context.host, context.query, filterString]); // XXX: parameters need escaping?
	var req = httpReq("GET", uri, adaptor.getSearchResultsCallback,
		context, { accept: adaptor.mimeType }, null, null, null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.getSearchResultsCallback = function(status, context, responseText, uri, xhr) {
	adaptor.getTiddlerListCallback(status, context, responseText, uri, xhr); // XXX: use apply?
};

// retrieve a particular tiddler's revisions
adaptor.prototype.getTiddlerRevisionList = function(title, limit, context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	var uriTemplate = "%0/%1/%2/tiddlers/%3/revisions";
	var workspace = adaptor.resolveWorkspace(context.workspace);
	var uri = uriTemplate.format([context.host, workspace.type + "s",
		adaptor.normalizeTitle(workspace.name), adaptor.normalizeTitle(title)]);
	var req = httpReq("GET", uri, adaptor.getTiddlerRevisionListCallback,
		context, merge({ accept: adaptor.mimeType }, context.headers), null, null, null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.getTiddlerRevisionListCallback = function(status, context, responseText, uri, xhr) {
	context.status = status;
	context.statusText = xhr.statusText;
	context.httpStatus = xhr.status;
	if(status) {
		context.revisions = [];
		try {
			var tiddlers = $.evalJSON(responseText); //# NB: not actual tiddler instances
		} catch(ex) {
			context.status = false; // XXX: correct?
			context.statusText = exceptionText(ex, adaptor.parsingErrorMessage);
			if(context.callback) {
				context.callback(context, context.userParams);
			}
			return;
		}
		for(var i = 0; i < tiddlers.length; i++) {
			var tiddler = adaptor.toTiddler(tiddlers[i], context.host);
			context.revisions.push(tiddler);
		}
		var sortField = "server.page.revision";
		context.revisions.sort(function(a, b) {
			return a.fields[sortField] < b.fields[sortField] ? 1 :
				(a.fields[sortField] == b.fields[sortField] ? 0 : -1);
		});
	}
	if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// retrieve an individual tiddler revision -- XXX: breaks with standard arguments list -- XXX: convenience function; simply use getTiddler?
adaptor.prototype.getTiddlerRevision = function(title, revision, context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	context.revision = revision;
	return this.getTiddler(title, context, userParams, callback);
};

// retrieve an individual tiddler
//# context is an object with members host and workspace
//# callback is passed the new context and userParams
adaptor.prototype.getTiddler = function(title, context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	context.title = title;
	if(context.revision) {
		var uriTemplate = "%0/%1/%2/tiddlers/%3/revisions/%4";
	} else {
		uriTemplate = "%0/%1/%2/tiddlers/%3";
	}
	if(!context.tiddler) {
		context.tiddler = new Tiddler(title);
	}
	context.tiddler.fields["server.type"] = adaptor.serverType;
	context.tiddler.fields["server.host"] = AdaptorBase.minHostName(context.host);
	context.tiddler.fields["server.workspace"] = context.workspace;
	var workspace = adaptor.resolveWorkspace(context.workspace);
	var uri = uriTemplate.format([context.host, workspace.type + "s",
		adaptor.normalizeTitle(workspace.name), adaptor.normalizeTitle(title),
		context.revision]);
	var req = httpReq("GET", uri, adaptor.getTiddlerCallback, context,
		merge({ accept: adaptor.mimeType }, context.headers), null, null, null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.getTiddlerCallback = function(status, context, responseText, uri, xhr) {
	context.status = status;
	context.statusText = xhr.statusText;
	context.httpStatus = xhr.status;
	if(status) {
		try {
			var tid = $.evalJSON(responseText);
		} catch(ex) {
			context.status = false;
			context.statusText = exceptionText(ex, adaptor.parsingErrorMessage);
			if(context.callback) {
				context.callback(context, context.userParams);
			}
			return;
		}
		var tiddler = adaptor.toTiddler(tid, context.host);
		tiddler.title = context.tiddler.title;
		tiddler.fields["server.etag"] = xhr.getResponseHeader("Etag");
		// normally we'd assign context.tiddler = tiddler here - but we can't do
		// that because of IE, which triggers getTiddler in putTiddlerCallback,
		// and since ServerSideSavingPlugin foolishly relies on persistent
		// object references, we need to merge the data into the existing object
		$.extend(context.tiddler, tiddler);
	}
	if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// retrieve tiddler chronicle (all revisions)
adaptor.prototype.getTiddlerChronicle = function(title, context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	context.title = title;
	var uriTemplate = "%0/%1/%2/tiddlers/%3/revisions?fat=1";
	var workspace = adaptor.resolveWorkspace(context.workspace);
	var uri = uriTemplate.format([context.host, workspace.type + "s",
		adaptor.normalizeTitle(workspace.name), adaptor.normalizeTitle(title)]);
	var req = httpReq("GET", uri, adaptor.getTiddlerChronicleCallback,
		context, { accept: adaptor.mimeType }, null, null, null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.getTiddlerChronicleCallback = function(status, context, responseText, uri, xhr) {
	context.status = status;
	context.statusText = xhr.statusText;
	context.httpStatus = xhr.status;
	if(status) {
		context.responseText = responseText;
	}
	if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// store an individual tiddler
adaptor.prototype.putTiddler = function(tiddler, context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	context.title = tiddler.title;
	context.tiddler = tiddler;
	context.host = context.host || this.fullHostName(tiddler.fields["server.host"]);
	var uriTemplate = "%0/%1/%2/tiddlers/%3";
	try {
		context.workspace = context.workspace || tiddler.fields["server.workspace"];
		var workspace = adaptor.resolveWorkspace(context.workspace);
	} catch(ex) {
		return adaptor.locationIDErrorMessage;
	}
	var uri = uriTemplate.format([context.host, workspace.type + "s",
		adaptor.normalizeTitle(workspace.name),
		adaptor.normalizeTitle(tiddler.title)]);
	var etag = adaptor.generateETag(workspace, tiddler);
	var headers = etag ? { "If-Match": etag } : null;
	var payload = {
		type: tiddler.fields["server.content-type"] || null,
		text: tiddler.text,
		tags: tiddler.tags,
		fields: $.extend({}, tiddler.fields)
	};
	delete payload.fields.changecount;
	$.each(payload.fields, function(key, value) {
		if(key.indexOf("server.") == 0) {
			delete payload.fields[key];
		}
	});
	payload = $.toJSON(payload);
	var req = httpReq("PUT", uri, adaptor.putTiddlerCallback,
		context, headers, payload, adaptor.mimeType, null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.putTiddlerCallback = function(status, context, responseText, uri, xhr) {
	context.status = [204, 1223].contains(xhr.status);
	context.statusText = xhr.statusText;
	context.httpStatus = xhr.status;
	if(context.status) {
		var loc = xhr.getResponseHeader("Location");
		var etag = xhr.getResponseHeader("Etag");
		if(loc && etag) {
			var bag = loc.split("/bags/").pop().split("/")[0];
			context.tiddler.fields["server.bag"] = bag;
			context.tiddler.fields["server.workspace"] = "bags/" + bag;
			var rev = etag.split("/").pop().split(/;|:/)[0];
			context.tiddler.fields["server.page.revision"] = rev;
			context.tiddler.fields["server.etag"] = etag;
			if(context.callback) {
				context.callback(context, context.userParams);
			}
		} else { // IE
			context.adaptor.getTiddler(context.tiddler.title, context,
				context.userParams, context.callback);
		}
	} else if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// store a tiddler chronicle
adaptor.prototype.putTiddlerChronicle = function(revisions, context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	context.title = revisions[0].title;
	var headers = null;
	var uriTemplate = "%0/%1/%2/tiddlers/%3/revisions";
	var host = context.host || this.fullHostName(tiddler.fields["server.host"]);
	var workspace = adaptor.resolveWorkspace(context.workspace);
	var uri = uriTemplate.format([host, workspace.type + "s",
		adaptor.normalizeTitle(workspace.name),
		adaptor.normalizeTitle(context.title)]);
	if(workspace.type == "bag") { // generate ETag
		var etag = [adaptor.normalizeTitle(workspace.name),
			adaptor.normalizeTitle(context.title), 0].join("/"); //# zero-revision prevents overwriting existing contents
		headers = { "If-Match": '"' + etag + '"' };
	}
	var payload = $.toJSON(revisions);
	var req = httpReq("POST", uri, adaptor.putTiddlerChronicleCallback,
		context, headers, payload, adaptor.mimeType, null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.putTiddlerChronicleCallback = function(status, context, responseText, uri, xhr) {
	context.status = [204, 1223].contains(xhr.status);
	context.statusText = xhr.statusText;
	context.httpStatus = xhr.status;
	if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// store a collection of tiddlers (import TiddlyWiki HTML store)
adaptor.prototype.putTiddlerStore = function(store, context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	var uriTemplate = "%0/%1/%2/tiddlers";
	var host = context.host;
	var workspace = adaptor.resolveWorkspace(context.workspace);
	var uri = uriTemplate.format([host, workspace.type + "s",
		adaptor.normalizeTitle(workspace.name)]);
	var req = httpReq("POST", uri, adaptor.putTiddlerStoreCallback,
		context, null, store, "text/x-tiddlywiki", null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.putTiddlerStoreCallback = function(status, context, responseText, uri, xhr) {
	context.status = [204, 1223].contains(xhr.status);
	context.statusText = xhr.statusText;
	context.httpStatus = xhr.status;
	if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// rename an individual tiddler or move it to a different workspace -- TODO: make {from|to}.title optional
//# from and to are objects with members title and workspace (bag; optional),
//# representing source and target tiddler, respectively
adaptor.prototype.moveTiddler = function(from, to, context, userParams, callback) { // XXX: rename parameters (old/new)?
	var self = this;
	var newTiddler = store.getTiddler(from.title) || store.getTiddler(to.title); //# local rename might already have occurred
	var oldTiddler = $.extend(true, {}, newTiddler); //# required for eventual deletion
	oldTiddler.title = from.title; //# required for original tiddler's ETag
	var _getTiddlerChronicle = function(title, context, userParams, callback) {
		return self.getTiddlerChronicle(title, context, userParams, callback);
	};
	var _putTiddlerChronicle = function(context, userParams) {
		if(!context.status) {
			return callback(context, userParams);
		}
		var revisions = $.evalJSON(context.responseText); // XXX: error handling?
		// change current title while retaining previous location
		for(var i = 0; i < revisions.length; i++) {
			delete revisions[i].revision;
			if(!revisions[i].fields.origin) { // NB: origin = "<workspace>/<title>"
				revisions[i].fields.origin = ["bags", revisions[i].bag, revisions[i].title].join("/");
			}
			revisions[i].title = to.title;
		}
		// add new revision
		var rev = $.extend({}, revisions[0]);
		$.each(newTiddler, function(i, item) {
			if(!$.isFunction(item)) {
				rev[i] = item;
			}
		});
		rev.title = to.title;
		rev.created = rev.created.convertToYYYYMMDDHHMM();
		rev.modified = new Date().convertToYYYYMMDDHHMM();
		delete rev.fields.changecount;
		revisions.unshift(rev);
		if(to.workspace) {
			context.workspace = to.workspace;
		} else if(context.workspace.substring(0, 4) != "bags") { // NB: target workspace must be a bag
			context.workspace = "bags/" + rev.bag;
		}
		var subCallback = function(context, userParams) {
			if(!context.status) {
				return callback(context, userParams);
			}
			context.adaptor.getTiddler(newTiddler.title, context, userParams, _deleteTiddler);
		};
		return self.putTiddlerChronicle(revisions, context, context.userParams, subCallback);
	};
	var _deleteTiddler = function(context, userParams) {
		if(!context.status) {
			return callback(context, userParams);
		}
		$.extend(true, newTiddler, context.tiddler);
		context.callback = null;
		return self.deleteTiddler(oldTiddler, context, context.userParams, callback);
	};
	callback = callback || function() {};
	context = this.setContext(context, userParams);
	context.host = context.host || oldTiddler.fields["server.host"];
	context.workspace = from.workspace || oldTiddler.fields["server.workspace"];
	return _getTiddlerChronicle(from.title, context, userParams, _putTiddlerChronicle);
};

// delete an individual tiddler
adaptor.prototype.deleteTiddler = function(tiddler, context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	context.title = tiddler.title; // XXX: not required!?
	var uriTemplate = "%0/bags/%1/tiddlers/%2";
	var host = context.host || this.fullHostName(tiddler.fields["server.host"]);
	var bag = tiddler.fields["server.bag"];
	if(!bag) {
		return adaptor.noBagErrorMessage;
	}
	var uri = uriTemplate.format([host, adaptor.normalizeTitle(bag),
		adaptor.normalizeTitle(tiddler.title)]);
	var etag = adaptor.generateETag({ type: "bag", name: bag }, tiddler);
	var headers = etag ? { "If-Match": etag } : null;
	var req = httpReq("DELETE", uri, adaptor.deleteTiddlerCallback, context, headers,
		null, null, null, null, true);
	return typeof req == "string" ? req : true;
};

adaptor.deleteTiddlerCallback = function(status, context, responseText, uri, xhr) {
	context.status = [204, 1223].contains(xhr.status);
	context.statusText = xhr.statusText;
	context.httpStatus = xhr.status;
	if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// compare two revisions of a tiddler (requires TiddlyWeb differ plugin)
//# if context.rev1 is not specified, the latest revision will be used for comparison
//# if context.rev2 is not specified, the local revision will be sent for comparison
//# context.format is a string as determined by the TiddlyWeb differ plugin
adaptor.prototype.getTiddlerDiff = function(title, context, userParams, callback) {
	context = this.setContext(context, userParams, callback);
	context.title = title;

	var tiddler = store.getTiddler(title);
	try {
		var workspace = adaptor.resolveWorkspace(tiddler.fields["server.workspace"]);
	} catch(ex) {
		return adaptor.locationIDErrorMessage;
	}
	var tiddlerRef = [workspace.type + "s", workspace.name, tiddler.title].join("/");

	var rev1 = context.rev1 ? [tiddlerRef, context.rev1].join("/") : tiddlerRef;
	var rev2 = context.rev2 ? [tiddlerRef, context.rev2].join("/") : null;

	var uriTemplate = "%0/diff?rev1=%1";
	if(rev2) {
		uriTemplate += "&rev2=%2";
	}
	if(context.format) {
		uriTemplate += "&format=%3";
	}
	var host = context.host || this.fullHostName(tiddler.fields["server.host"]);
	var uri = uriTemplate.format([host, adaptor.normalizeTitle(rev1),
		adaptor.normalizeTitle(rev2), context.format]);

	if(rev2) {
		var req = httpReq("GET", uri, adaptor.getTiddlerDiffCallback, context, null,
			null, null, null, null, true);
	} else {
		var payload = {
			title: tiddler.title,
			text: tiddler.text,
			modifier: tiddler.modifier,
			tags: tiddler.tags,
			fields: $.extend({}, tiddler.fields)
		}; // XXX: missing attributes!?
		payload = $.toJSON(payload);
		req = httpReq("POST", uri, adaptor.getTiddlerDiffCallback, context,
			null, payload, adaptor.mimeType, null, null, true);
	}
	return typeof req == "string" ? req : true;
};

adaptor.getTiddlerDiffCallback = function(status, context, responseText, uri, xhr) {
	context.status = status;
	context.statusText = xhr.statusText;
	context.httpStatus = xhr.status;
	context.uri = uri;
	if(status) {
		context.diff = responseText;
	}
	if(context.callback) {
		context.callback(context, context.userParams);
	}
};

// generate tiddler information
adaptor.prototype.generateTiddlerInfo = function(tiddler) {
	var info = {};
	var uriTemplate = "%0/%1/%2/tiddlers/%3";
	var host = this.host || tiddler.fields["server.host"]; // XXX: this.host obsolete?
	host = this.fullHostName(host);
	var workspace = adaptor.resolveWorkspace(tiddler.fields["server.workspace"]);
	info.uri = uriTemplate.format([host, workspace.type + "s",
		adaptor.normalizeTitle(workspace.name),
		adaptor.normalizeTitle(tiddler.title)]);
	return info;
};

// create Tiddler instance from TiddlyWeb tiddler JSON
adaptor.toTiddler = function(json, host) {
	var created = Date.convertFromYYYYMMDDHHMM(json.created);
	var modified = Date.convertFromYYYYMMDDHHMM(json.modified);
	var fields = json.fields;
	fields["server.type"] = adaptor.serverType;
	fields["server.host"] = AdaptorBase.minHostName(host);
	fields["server.bag"] = json.bag;
	fields["server.title"] = json.title;
	if(json.recipe) {
		fields["server.recipe"] = json.recipe;
	}
	if(json.type && json.type != "None") {
		fields["server.content-type"] = json.type;
	}
	fields["server.permissions"] = json.permissions.join(", ");
	fields["server.page.revision"] = json.revision;
	fields["server.workspace"] = "bags/" + json.bag;
	var tiddler = new Tiddler(json.title);
	tiddler.assign(tiddler.title, json.text, json.modifier, modified, json.tags,
		created, json.fields, json.creator);
	return tiddler;
};

adaptor.resolveWorkspace = function(workspace) {
	var components = workspace.split("/");
	return {
		type: components[0] == "bags" ? "bag" : "recipe",
		name: components[1] || components[0]
	};
};

adaptor.generateETag = function(workspace, tiddler) {
	var revision = tiddler.fields["server.page.revision"];
	var etag = revision == "false" ? null : tiddler.fields["server.etag"];
	if(!etag && workspace.type == "bag") {
		if(typeof revision == "undefined") {
			revision = "0";
		} else if(revision == "false") {
			return null;
		}
		etag = [adaptor.normalizeTitle(workspace.name),
			adaptor.normalizeTitle(tiddler.title), revision].join("/");
		etag = '"' + etag + '"';
	}
	return etag;
};

adaptor.normalizeTitle = function(title) {
	return encodeURIComponent(title);
};

})(jQuery);


/*
 * jQuery JSON Plugin
 * version: 1.3
 * source: http://code.google.com/p/jquery-json/
 * license: MIT (http://www.opensource.org/licenses/mit-license.php)
 */
(function($){function toIntegersAtLease(n)
{return n<10?'0'+n:n;}
Date.prototype.toJSON=function(date)
{return this.getUTCFullYear()+'-'+
toIntegersAtLease(this.getUTCMonth())+'-'+
toIntegersAtLease(this.getUTCDate());};var escapeable=/["\\\x00-\x1f\x7f-\x9f]/g;var meta={'\b':'\\b','\t':'\\t','\n':'\\n','\f':'\\f','\r':'\\r','"':'\\"','\\':'\\\\'};$.quoteString=function(string)
{if(escapeable.test(string))
{return'"'+string.replace(escapeable,function(a)
{var c=meta[a];if(typeof c==='string'){return c;}
c=a.charCodeAt();return'\\u00'+Math.floor(c/16).toString(16)+(c%16).toString(16);})+'"';}
return'"'+string+'"';};$.toJSON=function(o,compact)
{var type=typeof(o);if(type=="undefined")
return"undefined";else if(type=="number"||type=="boolean")
return o+"";else if(o===null)
return"null";if(type=="string")
{return $.quoteString(o);}
if(type=="object"&&typeof o.toJSON=="function")
return o.toJSON(compact);if(type!="function"&&typeof(o.length)=="number")
{var ret=[];for(var i=0;i<o.length;i++){ret.push($.toJSON(o[i],compact));}
if(compact)
return"["+ret.join(",")+"]";else
return"["+ret.join(", ")+"]";}
if(type=="function"){throw new TypeError("Unable to convert object of type 'function' to json.");}
var ret=[];for(var k in o){var name;type=typeof(k);if(type=="number")
name='"'+k+'"';else if(type=="string")
name=$.quoteString(k);else
continue;var val=$.toJSON(o[k],compact);if(typeof(val)!="string"){continue;}
if(compact)
ret.push(name+":"+val);else
ret.push(name+": "+val);}
return"{"+ret.join(", ")+"}";};$.compactJSON=function(o)
{return $.toJSON(o,true);};$.evalJSON=function(src)
{return eval("("+src+")");};$.secureEvalJSON=function(src)
{var filtered=src;filtered=filtered.replace(/\\["\\\/bfnrtu]/g,'@');filtered=filtered.replace(/"[^"\\\n\r]*"|true|false|null|-?\d+(?:\.\d*)?(?:[eE][+\-]?\d+)?/g,']');filtered=filtered.replace(/(?:^|:|,)(?:\s*\[)+/g,'');if(/^[\],:{}\s]*$/.test(filtered))
return eval("("+src+")");else
throw new SyntaxError("Error parsing JSON, source is not valid.");};})(jQuery);
//}}}

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AouUPv5qk6z3XRRZORcYACSdmxnWjmKZ+gattbcvpWgBNZkKzC3iV5nQLygQ95czD1ok60ienVJPP5pYldPk3YONS+rK6LGzuI3AvZbkM4WG/4LnvZZ7OE+y/1w3cIkD80b+6b1NNIG7oI+uxhfhZNjxewlS5AEVhl9E0R5ANKU9QAAMuUx5CTMWjjpFYULzm9aTlBIYJ3j7/AZ5o7oTLqoto+fPruNeC9pA9nygMO658bX3h6zs93fwEzo6OpjPMYHbEbe+16zVRiz9I/Zs91A3JayiwYUWrjfqS4oYpWJXXq2OVyN2kwU84OUwZg9lfD+1V/UroQdPq6EHTh3eJSutDgRQ5b04rY7GYPpg5Dkx17QPPX1WHd00pmOTbd5o3k3nzlpNV85GA3evCxe56u8Dasbs+ANV3uT4i/jhqgRiBw5UihKwyqs1yXtBUub9ZjDiPaDpTCQ8LorrB9D8C0a06zN2oeKIAX25QVlP4/GdQ5/1o/Xl9Ob5I2laB0pBTO7BRjKnP79ah9c10WBcnjpZJgNE7IEB4T8oBbcxYGEIFZUB44k6BBRgR++uCC4VGG+R8TCHVM+oY+8+sZoem1wri4J7CvAsM7lhOaWqlO4/1Q3GtTUGEoe0I7j7Oe7plbL2BF+AUyBJzX9pnDLCf85IAtP6ir721vqErKoW93Qh4m6BHBltkfK8+Qn9ggfYLqz5Vd78C5ugKdX9ZQV7d96FpiuAEdNfLt8m8zdQWkTTUKFpmJofBvMbdzM+SdGue4Cr8GRVAs2Be4oJ5Ia4HYHG/QqvdvOsxPtnil7GD46vkoZar1IkgYYlphaePHMlXTd3rVMKQNIWhj1IOhplkjYfzKSTRc1EbhPNPLteFo0nFQPhh9QQt0PgZcxYwEDoF3zozyyB/1OGlNKc80bQNz5SWbCDVQcDr2/cJVs64GPXO1swHgGppmGQlElw2qXIQmR1pNEDSqRnNHd6vaz9BbSNEbvQbm7ikLdcFbtGyLsxMtkDUypD2kPp5XO5UdaN96nKN7Cd0ye5lzH5+VU0a71OREaaCUW6a9qH8N+XGN5vzETyif+EL5IPgNho/70LG+ja0RWRl7Poprc3JP5tEeYJALgCjhICAwEy7/0bE7inIHSz8AwJOm1of25gDsu6Yv1QA6YnfmfBJvrFsq3cpsC3zzCd06WjIhR7nhkoi1Qxaa5hjC4rob/mUvra0QMzzpIv+sa89QnMWE5t1FjAMSps4BcREGvoB7KAAkxO4ToMpURXrofobsB3jY+/skY2Q3HgNEPySJoCZmHqWbWLH/6TRid4RiQ/ALg7buKgUrpx7CAZBmjrc37Q+GSPYsCbXRzw5+wecDO78mINZQFVcdPufb1tiRiwjOE4fPuxdEL6yEtlBr6MOjZpYVh6gpibXcemH/c9L6kbwN3lenrz/BF0NZcSuczxKPYZhVLADLTMqGic2kVTgcDu/QEqM3eRJw3mFu7y05hyB6779aptautZQCZhhHeIfCfhtJF0BZtMN2cA5c3N0jqUqcHIKhZzvzdjpGxBhU8K7SmoXYkhgQaANQzEO0uMHQsYC2phBM5O7lhQrDttaseCZOjQr5ZvpROeW5mxLuwJQK/gTm53eYT54VllQCwbzChQRZ9fM4AeOr2G/nTxKLr9+KEdHgIoLoEa+eII1OxsJBJmN8AOonJzymiHwHjKeTY3SolPvtZEn5uzVopD60b1VGDS72cbBkoaRdJN0g4+jBeLUtix9cJh0svDVEPM/EIborNfoZOLmgWmfqqKCDuivcoLCXiLLNxRP0ImfmGHEVehbdUkYSmBTccQCWwMcig0WNF1rLGNXCz94hA5upp96GuYn3LeSPmuhIlL+C6TLxS7qk0jIIT/QM0A5h4i7m5+UO9ZHpp7kKd+R70MuOXdZvrc65ifyCULX1/K3r9yZNet1SwkYJLOTyZVJdMSBGmnLxu+uXyZ0wKjxIu5qoAiYb+vrmjQ60SddhjA20NejRPGZA4YTcv28Qj9+H/5YJNexwI2aEW3NRO7JwGr2vB12dIOpQBKBkz5W3xRA919UrVUq11dghbd/v6mxDff2cisqSdY5i1DPQ93IEuELAjReGZiXhu4+Ft6yei0rWPs/TV91mqSjWUkDH6DWInmcxerJ31pzQWYQIyX5KP1ZTIyfDC6+Nz4VM7y3VNjGJ7VCIqbCkN/kEUUCXZxEFxYW5axy/SH5l10JvfpjxpYIiNz57Pfx8+sOeSUAkAv5VvjBsta1YM17lP040WbE9iYLZmDlqkWIZWLKCbzfgHmRSnUav5VUVCDYEw+lwYSGqCHQFuzIIHhefRoimXWHDIPGQl4HlR5sYMqY7LQPXTzMFlCVo3n2mruVYoDA0z2wUq5ny9pkVlh2M/1yCeW01ubdlPRPYu3JHB+iAfyMs8ZAw1cyA2nQ6kRWWhAKYw5HVjrMmfjbqm6oQA4UWG/fc9S/J57PUX3L21JQFu8QshLHmiHDHurQ6S+Uz/i37H+Mis9tCq5aexg2TeqFwcGmPWFpYkoDXAAzzxWgHlMsRtAypRAn2dKGThytOi/l21NYHTROfCffMBhPna9v9IHonZY4td4P24eJ84Wae8cx160DYwiowezaOse+oDNey1MW/ayUrTSjlYuCZABlk3pIPnFf/ICM6v+5pzHivHwyq2JT85mxYhArgiAK8I7mHtMDm2MlSp/f8wQWWfai44DCoD1I8tZCVbs3EtLtrLZsU+2NXCr6AHLB6ZBlgjMSyRvGHF/irfPH0FFj6/ensCK7IzIcHFaxPxiPQhKi64+pqk96I49HhT/2MJATnLMBZ3IM9jxRdb1SmDD224mtGdzixtzU3rjmMqCUgpgmZyr0r2AsYzrseV1mNZmkNaxdPe0LT8ZTCm/OcVu0gYbFDNm4nYVJd0Cu6eBYWF1aQn9ZY472R1IoCXeHYFjNsr78kvm05mFmtZiQIC4u/djBDKzgFca2KETrBg69BnRMIWXmT2gEZ7/zJ9cn6Cbx1Z2ydaDncWbzbuDern7ANXyFSMGaPoCnInhY8iHNmQuCyNypRmhHixcJtCJYhQbAhBlBRZgKDOEMuOFuoswXvHnRxXmF1F047pqE7euxjVcagi8cgRA+ktPUXnLGMufEOHlaYKSEqNMzodieI0DdSLHmwxUYbKQ97Ii+uYxgwt2xhWGfHM9z73QMKW6lBoweozi3/II1Iymf0TmDeRwB4wCRTKkgPW0d06qkq0rZUg8OdMnCEU0L5MB0vHOjC4vkR3tChGoQVBiyAas3RBohPrqJMwj47Uaz2ZQQTSU9ZFwMOg4Z3o9bbxstGyhjTNdRutni6JNe/YlBj+6VCxRICAgVJxQ0wyhv4TsoIfN0goRUIqxT62gH3CCdHT7gYMNnEaF/b4zAVPysEE8qgPM8kIJg3mfYwf2pfEV/Wh8Zb+cdjcs2rt/f6Lvw0s4TzmDJW9dBkf0QTPdtWCBQBnkOkexCfr8C6InKBcSfrl8q5xP+rcfGUy3Hdc9h+hR6mGoG6vf0YjGDFpU2pi4g+ob1QIOFOxsw58VzGlXEprplvcCZD5IGjeTM71l3JCCVQpg5lp38B0O+u+uQFWAVXzYyvLs6v4ymwsUdsgxlyMfvUFZu1oeZqaxYf6CD5UhDnbHNoSFvNEJtjd8Zo0736wja1sONYhqySZikvtmgMCO6kXE8qeAnIm2dm8dN7igZ3LjYBrXTS3qluMYBxqiGDhy2oETTKoLy/QgAeNpqdUHHLA/5WWYwFrAuGexnpfO6HxB2/PhFEPqJFUIZDa6P2LiPBsgxqO0OFhzE3MBeiNPYXdcgJ9FFln1IitEMSr7WUKxAkjV4FhvkPvCiyWQu2MeL6ot7NLi9g82yTlqAn6+chvU68ZAbdiVNaIohnwBRVrJjYK7eX0JY5Dk8eLhWIZCfgFx2uIvl9lxnIg7DrYrrC++HQFGcMc9s4Kuf3ODHG6H9lM+FUUUQxJKGphmxC0JL4eDujOPJfzTqtt/wP2BAhLqr+et516ICvTBavt3f8Wo42do5m73Xdx2wnlmIx9fTifMXElffXO9rEnB3A30xDqKogTjXxduppvnYQmBiNhogFCESGmhSsEy9HMxaTTbEZUHG0igazBtURXCHu3pqbV0YU3hKnSumPr7xuCIcX4weXHBs2EWNQFOX8Jp1OPY4HDAo9igIGhr0bMoRjIBRcTGlCHkAbaLKCGLh56eUufEBQYUs3imH3Dbwq2u1+dQRV98yai8LgA+WEDpgCO1BJJN8XwDNcJ2/mFJKo7uwnyZOjY46QAKhEGxAdz2wvZLWOQlioHtfma8uMaHk4LgHgB6IK+eWy8LagsFmP6GXf/vXtIiZ35JMRqLN4AEWPux0T1i9fwdizbTjfOwvDRHpEmPON6fMVKOIZc2hpvBjauQmEpDg+4q5Op2SW3/glEK7KPx/Q82S0PsgpfW0KMrt9GuVpQSGnczGn/s791TtlQ4qryfey55PkiMD2jIO08BH8iV2jYMqhixhUDwY9SMpmVJUTHdmsMBcV0JlA6z1u2kz7zeREc/uZy++c4GnShrEWcErDSsASbn9KANWPBdJAl+4PCZDXj0dHJB9AUpL+njBzu1u1pMpTb6Cb/mH3WyGbETfWLkgC45GDYXYLr8HYu2yHFO58xqpP9Zvo12RL6HBfFFlGEAzxfJcRE9BSjp3c43eF41YtUHDqmyApN7OHf0dKwwlWDRZsBmXqJZpl3C858vaoj6sb9bjh0szm0B3yOW4LiEPADVxTV/WEuHc+lw49vraYHfLRdwcUsateNJjQLMY1pAT9pfFJvQlMucXX1myas4NT7JujQKBQxmwyWkWkxQcsqYaVPIq/2zowbmdPgsBltwBBM+6ecDt/yxmXsZ22ibnDuu8ZJoyZ8zwoMF71gvA5i/hlvchTx0315g6YfMHLcHlmdjY88I6qvRmFz4qAzbTxi8YnihKJFqUsBjnsU/5FBaYNEsZhihSIrWgR2DjFyuCLZy1Kh5CuizCQ3lgNoxiaVQZ5Z1FFDyrMP7kbRgi9lBI24Mth+OA3cUXjGODrf9s+8lAsejf5tta8AFLXvom/M30tQXGulDzsyvYoFMHnDbAnzn4AggPhanFJrGPWb/iyMrDtiBvQcSj51ZK3M1K+VYcRUaDWElR+gG3qodthyBXo7CKwZGxAS4XgxfAIOrmZ4+tBSuEaB3gDWVGIE7/tlV9P2Fm6mldR+NqeiblzPM0NP4Hw4/GZ+QKg+kyENZguq4NMTM9Z4IjGbK7O5LR9PdJw2j04aUcoM0li6Sh2ZXWZheANMxwYsvA1xg3tm8Rw6Cdz71IgCuzKMb8+K0+kiPBN8iMBtqR+t+GbdHrwGmhhsx+Rjn+LO56+jnS7ZqXDQiiK7VixJ18KBgQ3em/EOr/ZEzagt+vki+gDxZtG0P/S9Xv4+s2kbvtuyl/RAClm6aNgIRFXEJkaCNlx/hpwV6xcAJfIMeWZK6f4KBAxhd1lc2iT8QG6BgWHvsU8vdNDxESfJaM1wfxikBeIb4MZlSBs5CwUE5hyKQdJiL8sSa7fT0mh0yw1xOWoznMSdXA5eqSy9ObpznFQM45ukVsr+CywQ26snBCVASYJ/JfCwoQimVqft48/wNJKcipEYkQDY3oqsayuUMsp7UE+kM8N1o9sZd9OK6nfQSKwk2VLGTnPFR8ekptcIDEcW48rW1UgS5BA/BCYu01XzAXpQPnt7xBEfbAVtIfqy+TA5QiQMPgDELVE8pMF0QapZU/Dk3NrFBak8Z/s4EjBd19BmhFO9wLxILvdEw/0QwmTvy2p84GG9vqBR2Q5YFxc+vuUGIsYX2Ahl947wNMnLZvGcfXT0qffcR6z+ad6tSyH1xf+NDakYZ/lVw9+0eboTdOWnYIaEU02c1ylFZHQE+vZ/GnQr0akKlACKKgTPKXANFjaQrqBnYHfDh6r6lNjMqO/AAOKlxLFdVd6B64HD+48RhaWd+oV7EF9Ik4EnvbXGIU/7D5+RPjRxAb58/UsYrerhOCJCub/Dbjl4hTlmEPV+IKIZ8eZQE1TcwbnypkeAMTND1b62TafnZ8NvG7VJC3PDWetogR1Ik6BtjKzOOoGI3uXdkD4vYvWFwf186OIrtAb585ECazwrx0Bk13BfPPNbS04CqYMc+rEjD2e7NdOrMVXKCcz4QUQzMFpfTdvAa4m10r2XMgDDlH7Z3RrsEG4PFgRFQHDH9sZebZPTSXVNEY1gh/i7LmML9UgrpfUAlHgz0SDQMyDEYg0NuV0v/vZoOxUP3mnba/touXeZt2UOTX1jNDfeNsoSxM0jpWmAep88XvJTSwAOMGtgTizBucfkrTUIBfPC6bu46Onnmai5NcMS0iAU47BV1f6ZpZSgK5SQjOHuFkEjwT+/PBNc/fMZwOm94WUEviexq+LNYAyANMVVzApfSmCTcUaQoxnSMWCIPJD/4T3j8BbDiXJDwx0KiOMNq8vu4jdAqpwHq9Qoc1JJtRBQzsJqhYD54vRj3ExmW8SfoJ6xcqPYOdbjD/tWi6WMGbpe/soZmvLRGFkG3FymKgY3eK9DQwItoNwWEDwWMwA8mzqABJEWYvMT2JjsPmFfY1kDTk2v0rFEBrtN4GJhHw/KLh+vOMoc4/mQbwEAZAKSVmGSiYdrmCc+toq+8sT5tCZMJKYqBYnrasDJ3szBTssEiBPhr+HrNWzC3TRjS5iawL2A1ukAfNBIGyZmtPz4hODvsEMeCLToYqWmcTHxNP1g5H1sT++k/F3Ov8MkVMlyA6r4tRAa4DLKPxOvxTWENcjfH5ogK7jncNmGozD5GyYFPxaXFxdKlRAnTxK3Y1zbson9+v1m6q+mA2cxzp4+UodteuA+Yhz+xvP27A3GaY9+1q0YPlO02M/UO0yrG5r37ZQFLZ1u2+QJGWJ88q4bO7wFrQfIFfEvC6HBnhi7wkq6+dFTagcCUqgTAF7ZL6qyRiDubMQR20StzC/0AoRsQ8P660B0we9LtO1wN9SpFFDgRyimFppfn1Z6RAo6/rL4s4+hwWsUArjscE204gDBcK1y8LLTzHyhkZlSsDkqUtxrJZN6YnSnjsroyOVi2F1G8jBVoPp0k0cA4QO4YpQzxonYhCfpCmu9UhoyKcXZ1qZzn6XJQtcq3dlUGu8hiJp3cBqhCGYzJ/DWwOhkWvtx/6vBDYni7PUBJ8cp6fB+xNMtgZJoCDBDlj6s8TL6TZEJGxUC9/ley5TPHQhXNU2OEeGESEJkBQC1OsIhb3EOSgJZzdYYTh/Oxn1RPw4Y9+9xoMmBpBsbzASCDkfQ3DwnZmzzbC5c11a8aVe4Oq8NAlyicBmw3CTNb7HHDYqMCk5lRB3NXOWZdYZpaT5rqn09gNh3OX5UpfJZ2QJiOQoP0BjS9a/r3oc82ZN8vLatiYDLOzR/R+p3v4RHyIVLkaTyKyORKvTfH/CVrc1sRP5SBzwCY5/nY5FqdTecTkAHeDBBSx99wdGWbE63SdldD4AvehGdWusVD8AmlMypgi7QfHCsI/YR+5VZqSeeH6ZTq/jRzam2Pn0uRL+AbFT6aYXW/H1wI0xUQ3glRWuAMGbe9VmZkd2VgJFROKIq3CUyfhJibGvMbUvMf8QM2acds7gdPq+5VinYAYxH3n1ItX5rHV/SNpKdUJZbegoSsJGxLKYA2SwwAreALXmqk3621uRd2iamlZqSw6ialSOAmCO3qT8PoV1RMM8+uLeiNWAod2Prhrg+30PcWbKLmvfZJPglsoDJ3+oicXry2VYeBcPC53K2TZCBP0xn8SRfJwLzIFaFfM4Iiuv34ob1K0Umg7XHT2Ep6/6IG+vqYSje9QdMYLZH2zIHNSTEALAi+7Xjb/oADRwsX9wh7FiYTd9AY/DXGs+GIf3rkAPpaAZ6GVIj41QpuS/gXKj0wsfdHE6vojxeOpC9x7wUKA4qtpXNFTlWJARH6+Owm+o1NpgHsatjjIYlMHUSB4CHwyAQzr147b0ReliP0dGASTu1jy2TqATbJz7Upho4DlKU9adyu3EBEMAMbpYfA8hnQvBZEIswOogtM4ccoA7vkP8xdrl6lyA1YH4zZ9d9fuIm+uyD3WfrYb6y9adzuHEEr+OEzaqkSN5JSgI1VC2ZMFqfCOh5Kdu/J1bL2she5AR/OLD2/zQ3Mf35/k3PoAnToVcWI5INn1Oh8S339gZRSwahjPdj9G2MG0xUjegex2oNXoRiStpilT3TLu80ya66tNkdH0OEyHEva7uVqpQTFACJrOW/dVa8U5qZy9otJvN87rvf05vYAE3Nm256eCixWxjxbLOfMuOa4g+iwYgDYYefuk1k5ZCMoV0V4asbVH57Hzj0PnDa8dz1pO7Fqxz5ageUCPl0Zyv/boi103dz1ndoJOI5OKQaAg/HuZeWQ/rHFC9prfJD/pXy3h04f3ubcz16kYvaGNAu7Aj3AkPjHXm2S2Xf5QKcVA7h69EDJcNn2B0ohyoBYQ0GS5kcnDMs6B6AXmfEy2hex9BR7kM7IzGw7L7UHeVEMABuTPDu1LlYacCwRUS7uruWS5cs9bA+sA4nZG1FiWHrCgAfj8OmGcnpkck3euv55UwwAB7a9et4ImjhIFwOpMk8a3I9+Mqkq5wGZXkSBXQIWbNbZ4EEhAYMMxFGhaLdlWuHXEeRVMQAMpmDXHTRModlVpSUyE6t3EKvjwELvVtEEhpUU/CvleuPOE6vphxOr8t6Yb9eQeHuAvvXPFm+Rk3970m68BwMYr/juguhgFnbxfZBLia768NhlitGL/AG7BsgCcYBza9rwUnrg1OFu2mUXobd8L3DI5ijNblEyqgscNYZGflcqBdCrGAUObGCHvVOx+e6L59TRtw7QiZW9VUmB46cfbqH3W/bQ7ccNPaAN+F7FKHDgM/vBOPWxVzF6kQZE/w9IvPnTQ8Op2QAAAABJRU5ErkJggg==

!For ImageJ

!! I would like to change all the white in my image to transparent:
1) Convert to 32-bit (Image>Type>32-bit)
2) Apply a 0-254 threshold using Image>Adjust>Threshold...
3) Tick "Set Background Pixels to NaN" in the prompt
From that moment, 255 pixels should not appear in the profile plot as they are set to NaN, "Not a Number"

!! ImageJ reverse colors for the current window 

reverse colors for the current window in ImageJ
turn on color inversion imagej
how invert menu  background windows

linux
http://askubuntu.com/questions/56772/where-is-the-application-to-reverse-the-color-of-the-screen/56775


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SERIE 3 - IHC - CM magnetic selected on fibronectine coated in galactose for 3 days

---------------------------------------------------------------------------
◤8 7 6 5 ◥ ⇲Fibronectin
◣4 3 2 1 ◢ ⇲Fibronectin

Slide Nr ➊ (I) ⊣ Prolong Gold on section humide (wet slide)
◤ ▢▢▢▢ ◥ ⇲
◣ ▢▢▢▢ ◢ ⇲
[w8 = CTRL
w7 = 0. 05 μL/mL X XO (60 min)
w6 = 0. 10 μL/mL X XO (60 min)
w5=  0. 25 μL/mL X XO (30 min)

w4 = CTRL
w3 = 2.5 μM Ant A (60 min)
w2 = 5 μM Ant A (60 min)
w1 = 10 μM Ant A (30 min) ]

-----------------------------------------------------------------------------------------------------------------------------------------

Slide Nr ➋ (II) ⊣ Prolong Gold section humide (wet slide)

◤ ▢▢▢▢ ◥ ⇲
◣ ▢▢▢▢ ◢ ⇲
[w8 = CTRL
w7 = 0. 05 μL/mL X XO (60 min)
w6 = 0. 10 μL/mL X XO (60 min)
w5=  0. 50 μL/mL X XO (30 min)

w4 = CTRL
w3 = 1 μM Ant A (60 min)
w2 = 10 μM Ant A (60 min)
w1 = 15 μM Ant A (30 min) ]

-----------------------------------------------------------------------------------------------------------------------------------------

Slide Nr ➌ (III) ⊣ Prolong Gold on dry slide
◤ ▢▢▢▢ ◥ ⇲
◣ ▢▢▢▢ ◢ ⇲
[w8 = CTRL
w7 = 0. 05 μL/mL X XO (60 min)
w6 = 0. 10 μL/mL X XO (60 min)
w5=  0. 25 μL/mL X XO (30 min)

w4 = CTRL
w3 = 2.5 μM Ant A (60 min)
w2 = 5 μM Ant A (60 min)
w1 = 10 μM Ant A (30 min) ]

-----------------------------------------------------------------------------------------------------------------------------------------

Slide Nr ➍ (IV) ⊣ Prolong Gold on dry slide

◤ ▢▢▢▢ ◥ ⇲
◣ ▢▢▢▢ ◢ ⇲
[w8 = CTRL
w7 = 0. 05 μL/mL X XO (60 min)
w6 = 0. 10 μL/mL X XO (60 min)
w5=  0. 50 μL/mL X XO (30 min)

w4 = CTRL
w3 = 1 μM Ant A (60 min)
w2 = 10 μM Ant A (60 min)
w1 = 15 μM Ant A (30 min) ]

---------------------------------------------------------------------------

◤ ▢ 0 ▢ 2.5 μM ▢ 5 μM ▢ 50 μM◥ ⇲ X XO
◣ ▢ 0 ▢ 2.5 μM ▢ 5 μM ▢ 10 μM  ◢ ⇲ Ant A

◤ ▢ 0 ▢ 2.5 μM ▢ 5 μM ▢ 100 μM◥ ⇲ X XO
◣ ▢ 0 ▢ 1 μM ▢ 10 μM ▢ 15 μM  ◢ ⇲ Ant A

---------------------------------------------------------------------------
MARKER for plasma membrane

There is no 100% pure plasma membrane markers exist, If one consider highly dynamical protein exchange on plasma membrane (internalization, vesicle traffic etc)

To label the plasma membrane

1) in live cells (CellLight® reagents from ThermoFisher) CellLight® proteins can be multiplexed with other fluorescent probes for analysis in live cells, or after fixation for colocalization studies. These ready-to-use constructs express fluorescent fusion proteins targeted using the myristoylation/palmitoylation sequence from Lck tyrosine kinase (0.9 kDa).

https://www.thermofisher.com/ca/en/home/life-science/cell-analysis/cell-structure/plasma-membrane.html
CellLight® Plasma Membrane-CFP, BacMam 2.0 (baculovirus from insects transfection)
DAPI FILTER -  Catalog number: C10606 Molecular Probes  1mL 525.00$

CellLight® Plasma Membrane-CFP, BacMam 2.0, provides an easy way to label the plasma membrane with cyan fluorescent protein (CFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning. CFP (Cyan Fluorescent Protein) Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

http://www.thermofisher.com/order/catalog/product/C10606

2) alpha-1 subunit of Na/K-ATPase which is a membrane located protein. The antibody from Upstate (Clone 464.6)

3) WGA-Alexa fluor 594 (https://www.thermofisher.com/order/catalog/product/W11262)

http://www.ncbi.nlm.nih.gov/pubmed/25398455

4) the membrane dye octadecylrhodamine (R18).

https://www.thermofisher.com/order/catalog/product/O246

5) Abcam which you could use, anti-pan cadherin antibody(ab16505) and anti-sodium potassium ATPase (ab76020). 

6) transferrion receptor and epidermal growth factor receptor. Cadherins and transferrins are subjected to endocytosis and hence will not reflect true plasma membrane fractions but also reflect endosomes (early, recycling), TGN and often lyso/autophagosomes.

For Golgi marker

http://www.abcam.com/58k-golgi-protein-antibody-58k-9-golgi-marker-ab27043.html#description_images_2

! Cryopreservation of Human Blood Cells for Clinical Application

Slow cooling in the presence of a cryoprotectant to avoid the damaging effects of intracellular ice formation. 

! Collect & cryopreservation

⓪ The following protocol for freezing blood cells uses 2 cryosolution 
''freezing medium A'': FBS + DMSO [10%] 
''freezing medium B'': FBS + DMSO  [6%]  + Trehalose [30mM].

① Collect blood via venipuncture directly into 2 tubes (minim ''8'' mL max 48 mL) in BD Vacutainer ACD tubes (with yellow caps) Cat. No # REF 364606 8.5 mL 16x100mm) contain 1.5 mL of ACD (Anticoagulant Acid Citrate Dextrose). Store tube(s) at room temperature, for minimum 30 minutes, cell degradation will occur if tubes are stored for more than four hours.
② Centrifuge whole blood at 1900 rpm (rcf 500 × g) for ''15'' minutes at room temperature in a Centra CL 2 centrifuge (Rotor IEC 236 - with swinging bucket rotor) or equivalent. Be sure that the tubes are in good positions.
③ After centrifugation, bring the tubes to a biological safety hood and carefully open the tops. Using a glass pipette, gently remove the top layer that contains the Platelet Rich Plasma (PRP) plasma riche en plaquettes with a transfer pipette until 1 cm remains above the cell layer (Erythrocyte/Buffy Coat). 
Transfer the cell suspension from the tube(s) to a 15 ml conical polypropylene (Tube15mL). Set aside the PRP at room temperature for freezing step ⑧. High lipid levels, rheumatoid factor, anemia, and drug treatment are all possible causes for poor separation of a specific donor’s blood. If the plasma is not clear, this is an indication of high lipid levels.
④ ''Buffy Coat Part'': With a transfer pipette collect the thin layer of cells that “coats the red cells” Buffy Coat, so-called because it is usually buff in hue [aprox. 4 - max 6 mL]. To be sure take aprox. ''1'' + ''1'' cm layer and transfer to a sterile Tube15mL. Look at the scheme drawn. 
⑤ Divide all Buffy Coat in 2 tubes A and B, centrifuge at 3200 rpm (rcf 1,500 × g) for 10 min at room temperature (''?'').  Dilute tube A with 4 °C ''4'' mL freezing medium A while gently swirling the tube and dilute tube B with 4 °C ''4'' mL freezing medium B. Mix gently. Immediately place the tube on ice. Avoid any further mixing or agitation of the cells. The period of time between mixing the cryoprotectant with the cell suspension and beginning the cooling process is called the ''equilibration period''. For most cells, equilibration should occur for 10 minutes, allows time for the cryoprotective agent to penetrate the cells. Cells placed in solutions containing permeating solutes initially shrink rapidly from the osmotic loss of water and then re-expand more slowly as the permeating solutes penetrate and water renters to maintain osmotic equilibrium. The result is the so-called shrink-swell curve. 
⑥ Slowly remove the cell suspension into a pipet and dispense ''1'' mL per cryovial on ice.
⑦ Place the cryovials wrapped in aluminum foil in a pre-cooled ''Mr. Frosty''™ Freezing Container (thermoscientific Cat No:5100-0001)  that has been filled with 70-100% isopropyl alcohol (isopropanol) designed to achieve a rate of cooling very close to -1°C/minute. Place the freezing container at −80 °C for minimum 180 minutes to reach −60 °C stabilization temperature. The delivery can be done in dry ice (−78.5 °C). After one month the cells must be maintained below -130˚C to assure long-term stability for up to 3 years. 

⑧ ''PRP Part'':  centrifuge PRP tubes from step ③ 3200 rpm (rcf 1,500 × g) for 10 min at room temperature. 
⑨ Remove the plasma (can be use as FBS replacement). 
⑩ Wash cell pellet once with sterile 5 mL buffer (PBS Macs +BSA) supplemented with 1 µg/mL PGI2, PGI2 Prostacyclin (also called Prostaglandin I2) is a lipid - inhibits platelet activation. Cat. No: # 18220, Cayman Chemical. Divide in tube A and B.
⑪ Centrifuge 3200 rpm (rcf 1,500 × g) for 10 min at room temperature.
⑫ Suspend final pellet from tube A in 1 mL of freezing medium A. Same for B.
⑬ Mix gently. Immediately place the tube on ice. 
⑭ Slowly remove the cell suspension into a pipet and dispense ''1'' mL per cryovial on ice.
⑮ Place the cryovials wrapped in aluminum foil in a pre-cooled ''Mr. Frosty''™ Freezing Container.
⑯ Place the freezing container at −80 °C for minimum 180 minutes to reach −60 °C stabilization temperature.
⑰ Ready delivery in dry ice (−78.5 °C). After one month the cells must be maintained below -130˚C to assure long-term stability for up to 3 years. 

!! Thawing of cells
In general, cells should be thawed quickly but diluted slowly to remove DMSO. 
Cells with DMSO intercalated into their membranes are very fragile, and must be pelleted and handled gently.
      
⑱ Warm RPMi1640 to 22-37 °C in a 37 °C water bath before beginning thawing procedure.
⑲ Transfer the cryovial from liquid nitrogen to a 37 °C water bath. If liquid nitrogen has seeped into the cryovial, loosen the cap slightly to allow the nitrogen to escape during thawing.
⑳ Hold the cryovial in the surface of the water bath with an occasional gentle “flick” during thawing. Do not leave the cryovial unattended during the thawing process. It is important for cell viability that the cells are thawed and processed quickly; thawing takes only a minute or two. When a small bit of ice remains in the cryovial, transfer the cryovial to the biosafety hood. Dry off the outside of the cryovial and wipe with disinfectant before opening to prevent contamination.
㉑ Add warm RPMi1640 dropwise into the cryovial containing the cell suspension, slowly over a 30 second period. The final volume should be twice the volume of the cell suspension (e.g., add 1 mL RPMi1640 to a cryovial containing 1 mL cell suspension). Be careful not to exceed the capacity of the cryovial.
㉒ Transfer the diluted cell suspension to a 50 mL polypropylene centrifuge tube containing 8 mL of warm RPMi1640 for every vial of cells added (multiple cryovials from the same donor may be combined into one tube, if desired).
㉓ Centrifuge the cells at 1200 rpm for seven minutes. Decant the supernatant, and gently flick the tube with a finger to break up the pellet. Dilute to 24 mL with warm basal RPMI to at least 4x the starting buffy coat volume (1:4).

㉔ continue isolation with [5] Analysis and Monitoring of Human Mitocondrial Function. 

!! NOTES
Trehalose 
Stock concentration: [340 mM] Mass: 0.3902 g in 3.0335 mL water 
Final concentration: 30 mM  
|cssClass|k
|!➩%|! Trehalose|Total|h
|30 mM|0.79412 mL|9 mL|
|30 mM|0.88235 mL|10 mL|
|30 mM|0.97059 mL|11 mL|
|30 mM|1.05882 mL|12 mL|
|30 mM|1.14706 mL|13 mL|

◘ Medium RPMi1640  Cat No # 350 - 046 CL from Wisent Inc (no antibiotics, no phenol red, no FBS contain 4 mM L-Glutamine).
◘ D-(+)-Trehalose dihydrate Cat No # T9531 from Sigma Molecular Weight 378.33
soluble in water (soluble 0.1 g/mL), slightly soluble in ethanol, clear, colorless. (Synonym: α,α-Trehalose, α-D-Glucopyranosyl-α-D-glucopyranoside) A non-reducing disaccharide consisting of two glucose moieties joined together by an alpha-1,1 glucosidic bond. 
◘ FBS 
◘ cryovial Cat No:
◘  Mr. Frosty™ Freezing Container (thermoscientific #Cat No: 5100-0001) with 18 compartments for tube 1.0 to 2.0 mL. We have Nalgene® Cryo 1°C “Mr. Frosty” Freezing Container, Thermo Scientific # Cat No: 5100-0001  with 18 compartments, vials closure size: 120mm; dimensions (H x Dia.): 86 x 117mm (3-7/16 x 4-5/8 inches)

http://www.physiologyweb.com/calculators/percent_solutions_calculator.html
||cssClass|k
||!buffy|! FBS|Total|DMSO|DMSO➩%|h
||2 mL|7 mL|9| 0.54 mL|➩6%|
||3 mL|7.77 mL|10|0.60 mL|➩6%|
||4 mL|8.55 mL|11|0.66 mL|➩6%|
||5 mL|9.33 mL|12|0.72 mL|➩6%|
||6 mL|10.11 mL|13|0.78 mL|➩6%|

||cssClass|k
||!buffy|! FBS|Total|DMSO|DMSO➩%|h
||2 mL|7 mL|9| 0.90 mL|➩10%|
||3 mL|7.77 mL|10|1.00 mL|➩10%|
||4 mL|8.55 mL|11|1.10 mL|➩10%|
||5 mL|9.33 mL|12|1.20 mL|➩10%|
||6 mL|10.11 mL|13|1.30 mL|➩10%|



The cryoprotectant in popular use is dimethyl sulphoxide (DMSO) concentrations of 5–10%, and the use of a controlled rate freezing technique at 1 – 2.5 °C/min and rapid thawing is considered standard. Recovery is likely to be improved if the osmotic damage that occurs through the introduction and removal of the cryoprotectant is tempered by the application of slow addition/elution protocols (to introduce the cryoprotectant at low
temperatures (+4 °C) for as short a period).

''Fast cooling rate vs Slow cooling rate''  A cooling rate of 1°C per minute is preferred.
Ice forms at different rates during the cooling process. Slow cooling leads to freezing external to the cell before intracellular ice begins to form. As ice forms external to the cell, water is removed from the extracellular environment and an osmotic imbalance
occurs across the cell membrane leading to water migration out of the cell. The increase in solute concentration outside the cell, as well as intracellularly as water leaves the cell, can be detrimental to cell survival. If too much water remains inside the cell, damage due to ice crystal formation and re-crystallization during warming can occur and is usually lethal. The rate of cooling has a dramatic effect on these phenomena. Rapid cooling minimizes the solute concentration effects as ice forms uniformly, but leads to formation of more intracellular ice since water has not migrated out of the cell. Slow cooling
on the other hand, results in a greater loss of water from the cell and less internal ice being formed, but results in an increase in the solution effects. Cell permeability affects the rate of water loss.

''Vitrification'' is the solidification of a liquid without crystallization and the growth of ice by
the direct immersion in liquid nitrogen of finely drawn capillaries holding ultra-small volumes (~20 μL or less). This is achieved when solutes in the system are sufficiently concentrated and the system cooled sufficiently rapidly, that the increased viscosity inhibits nucleation and prevents the growth of ice. As cooling continues, viscosity continues to increase until all molecular motion is halted and the solution becomes a glass. In this condition, the system displays the properties of a solid but retains the molecular structure of a liquid. To avoid ice crystallization during thawing the straws were
re-warmed as rapidly as possible by direct immersion of the tip of the loaded straw into pre-warmed culture medium containing sucrose. Once thawed the colony fragments were then expelled into this medium and transferred stepwise through cryoprotectant wash-out solutions, containing decreasing concentration of sucrose as the osmotic buffer, until they were plated into culture medium. However, vitrification by this technique is technically challenging, that recovery rates are not as high in practice as those reported in the literature.

DMSO (dimethyl sulfoxide) is a strong polar solvent, mild oxidant, evaporates slowly at normal atmospheric pressure, strong allergic reactions. Because DMSO easily penetrates the skin, substances dissolved in DMSO may be quickly absorbed. Glove selection is important when working with DMSO.

200 mM trehalose (PMID:23349986), 190 mM, 100 mM 

The standard temperatures currently in use are:
 in the  ultrafreezer at −80°C 
 in the liquid nitrogen phase −196 (at –130˚C is also adequate)
 in the vapor nitrogen phase, at −178°C (neck −150°C)
 in the dry ice frozen CO2 at −78.5 °C.

㉕ ㉖ ㉗ ㉘ ㉙ ㉚ ㉛

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overlaying images [Overlay Stacks]
http://imagej.1557.x6.nabble.com/overlaying-images-td3689556.html
https://www.youtube.com/watch?v=Kk8MHRfFl_8
https://www.youtube.com/watch?v=WSOgGnOth60

!deconvolution
http://www.olympusmicro.com/primer/digitalimaging/deconvolution/deconintro.html

http://www.imperial.ac.uk/media/imperial-college/medicine/facilities/film/Deconvolution-training-140219.pdf

http://bigwww.epfl.ch/algorithms/deconvolutionlab/screenshot-win.png

https://www.researchgate.net/post/How_are_you_deconvolving_your_confocal_LSM_stacks_for_dendritic_spine_morphological_analyses

http://imagej.net/Deconvolution_tips
how to do blind deconvolution imagej
http://bigwww.epfl.ch/algorithms/deconvolutionlab/
https://www.leica-microsystems.com/science-lab/huygens-sted-deconvolution-quick-guide/

Metamorph files importer for ImageJ 

pluging de Tony Collins 
http://imagej.net//plugins/mbf/

http://zeiss-campus.magnet.fsu.edu/articles/superresolution/palm/practicalaspects.html

! to deconvolve confocal Z-stacks
http://imagejdocu.tudor.lu/doku.php?id=plugin:inputoutput:nd_stacks_builder:start
https://svi.nl/NyquistCalculator
http://www.bitplane.com/learning/full-analysis-of-dendritic-spines-neuroscience

   
   It deals with sequences of images generated with the Metamorph software, allowing, for instance, to import a series of images from a multi-positionning experiment into one stack per position, or to make projections of series of stacks from a 3D+time experiment.

https://www.moleculardevices.com/systems/metamorph-research-imaging/metamorph-microscopy-automation-and-image-analysis-software

http://mdc.custhelp.com/app/answers/detail/a_id/19319/session/L2F2LzEvdGltZS8xNDYzNTA5NzEwL3NpZC9WRXpRektRbQ%3D%3D

MetaMorph® Software price
https://micro-manager.org/wiki/Comparison_with_other_microscopy_software

Super-Resolution: Overview and Stimulated Emission Depletion 
https://www.youtube.com/watch?v=YyBGiZZSslY
https://www.youtube.com/watch?v=0NCNy6pVIZE

!Instructions pour utilisation du microscope confocal McGill 

    Suivre les étapes inscrites sur l’ordinateur pour allumer le microscope
    Sélectionner et ouvrir le logiciel Metamorph Si tout est bien allumé, «startoperation» devient noir et les lumières bleues du microscope sont allumées.
    Double cliquer sur «Neocam»
    Sur l’espace de travail du logiciel, choisir «Multidimentional acquisition»

    Créer un nouveau dossier à chaque visite dans «select directory» => «Sonia» => «date»

    Le nom du fichier doit terminer par «-1»
    Ajuster «Gain» à 60 bit («low noise, high…»)
    Ajuster «Digitizer» à 560MHz («fastestreadout»)
    Ajuster GFP à 500ms, exp
    Ajuster MCherry à 500 ms, exp
    Ajuster DAPI à 50 ms, exp
    Choisir l’objectif 100X via le panneau du logiciel, et non directement sur le microscope (malgré que ce soit possible)
    Placer la lame, coverslip du côté de l’huile

    ***Attention il y a 2 flacons : 1 pour l’huile et l’autre contient du silicone!!! Bien prendre celui qui contient de l’huile***
    En premier, faire le focus en visible (avec les yeux et la roulette du microscope…) en choisissant «Eye GFP», il faut que l’objectif soit immergé dans l’huile qui touche le coverslip
    Lorsque le focus est fait, choisir un cercle de couleur «con» (n’importe lequel)
    Dans le menu «Multi dimension acquisition», choisir «centre quadrant»
    Changer le temps d’exposition du GFP pour 50ms afin de faire le focus à l’ordinateur en mode live
    Choisir le mode «Live»
    Avec le bras de contrôle, centrer une cellule et refaire le focus avec la roulette
    Re cliquer sur «Live» pour pouvoir faire l’acquisition de l’image
    Re mettre le temps d’exposition du GFP à 500ms
    Faire un «preview»
    Sélectionner «Cancel»
    Sélectionner «Acquire»
    Visualiser l’overlay via le menu «display» => «Overlay images»
    Attribuer les bonnes couleurs aux bons fluorophores dans le menu
    Sélectionner «Apply»
    Bal doit toujours être à 50
    Sélectionner «File» => «Save as»
    Répéter pour le nombre de cellules désirées (habituellement : 10-12 cellules/slide et on regarde ½ coverslip)
    FIN

!HL-60 cells are predominantly a neutrophilic promyelocyte (precursor).
(Human promyelocytic leukemia cells)
The HL-60 (Human ''promyelocytic leukemia cells'') cell line has been used for laboratory research on how certain kinds of blood cells are formed. HL-60 proliferates continuously in suspension culture in nutriet and antibiotic chemicals. The doubling time is about 36–48 hours. The cell line was derived from a 36-year-old woman with acute promyelocytic leukemia at the National Cancer Institute. HL-60 cells are predominantly a neutrophilic promyelocyte (precursor). Proliferation of HL-60 cells occurs through the transferrin and insulin receptors, which are expressed on cell surface. The requirement for insulin and transferrin is absolute, as HL-60 proliferation immediately ceases if either of these compounds is removed from the serum-free culture media. With this line, spontaneous differentiation to mature granulocytes can be induced by compounds such as dimethyl sulfoxide (DMSO), or retinoic acid. Other compounds like 1,25-dihydroxyvitamin D3, 12-O-tetradecanoylphorbol-13-acetate (TPA) and GM-CSF can induce HL-60 to differentiate to monocytic, macrophage-like and eosinophil phenotypes, respectively.
The HL-60 cultured cell line provides a continuous source of human cells for studying the molecular events of myeloid differentiation and the effects of physiologic, pharmacologic, and virologic elements on this process. HL-60 cell model was used to study the effect of DNA topoisomerase (topo) IIα and IIβ on differentiation and apoptosis of cells and is especially useful in dielectrophoresis studies, which require an aqueous environment with suspended and round cells.

http://en.wikipedia.org/wiki/Acute_promyelocytic_leukemia

''Acute promyelocytic leukemia'' (APML, ''APL'') is a subtype of acute myelogenous leukemia (AML), a cancer of the white blood cells. In APL, there is an ''abnormal accumulation of immature granulocytes'' called promyelocytes. The disease is characterized by a chromosomal translocation involving the retinoic acid receptor alpha (RARα or RARA) gene and is distinguished from other forms of AML by its responsiveness to all-trans retinoic acid (ATRA; also known as tretinoin) therapy. Currently it is one of the most treatable forms of leukemia with a 12-year progression-free survival rate is estimated to be approximately 70%. Acute promyelocytic leukemia is characterized by a chromosomal translocation involving the retinoic acid receptor-alpha gene on chromosome 17 (RARA). In 95% of cases of APL, retinoic acid receptor-alpha (RARA) gene on chromosome 17 is involved in a reciprocal translocation with the promyelocytic leukemia gene (PML) on chromosome 15, a translocation denoted as t(15;17)(q22;q12). The RAR receptor is dependent on retinoic acid for regulation of transcription.

!Initial treatment APL
''Methotrexate''
APL is unique among leukemias due to its sensitivity to all-trans retinoic acid (ATRA; tretinoin), the acid form of vitamin A. Treatment with ATRA dissociates the NCOR-HDACL complex from RAR and allows DNA transcription and differentiation of the immature leukemic promyelocytes into mature granulocytes by targeting the oncogenic transcription factor and its aberrant action. Unlike other chemotherapies, ATRA does not directly kill the malignant cells. ATRA induces the terminal differentiation of the leukemic promyelocytes, after which these differentiated malignant cells undergo spontaneous apoptosis on their own. ATRA alone is capable of inducing remission but it is short-lived in the absence of concurrent "traditional" chemotherapy. As of 2013 the standard of treatment for concurrent chemotherapy has become Arsenic trioxide, before 2013 the standard of treatment was anthracycline (e.g.daunorubicin, doxorubicin, idarubicin or mitoxantrone)-based chemotherapy. Both chemotharapies result in a clinical remission in approximately 90% of patients with arsenic trioxide having a more favorable side effect profile. ATRA therapy is associated with the unique side effect of retinoic acid syndrome.This is associated with the development of dyspnea, fever, weight gain, peripheral edema and is treated with dexamethasone. The etiology of retinoic acid syndrome has been attributed to capillary leak syndrome from cytokine release from the differentiating promyelocytes. The monoclonal antibody, gemtuzumab ozogamicin, has been used successfully as a treatment for APL. Although it has been withdrawn from the US market due to concerns regarding potential toxicity of the drug and it is not currently marketed in Australia, Canada or the UK. It given in conjunction with ATRA produces a response in around 84% of patients with APL, which is comparable to the rate seen in patients treated with ATRA and anthracycline-based therapy. It produces less cardiotoxicity than anthracycline-based treatments and hence may be preferable in these patients.

''Consolidation therapy''
After stable remission is induced, the standard of care is to undergo 2 years of consolidation chemotherapy with methotrexate, mercaptopurine and ATRA. A significant portion of patients will relapse without consolidation therapy. In the 2000 European APL study, the 2-year relapse rate for those that did not receive consolidation chemotherapy (ATRA not included) therapy was 27% compared to 11% in those that did receive consolidation therapy (p<0.01). Likewise in the 2000 US APL study, the survival rates in those receiving ATRA maintenance was 61% compared to just 36% without ATRA maintenance.
''Relapsed or refractory disease''
Arsenic trioxide (As2O3) is currently being evaluated for treatment of relapsed / refractory disease. Remission with arsenic trioxide has been reported. Studies have shown arsenic reorganizes nuclear bodies and degrades the mutant PML-RAR fusion protein. Arsenic also increases caspase activity which then induces apoptosis. It does reduce the relapse rate for high risk patients. In Japan a synthetic retinoid, tamibarotene, is licensed for use as a treatment for ATRA-resistant APL.

''Investigational agents''
Some evidence supports the potential therapeutic utility of histone deacetylase inhibitors such as valproic acid or vorinostat in treating APL. According to one study, a cinnamon extract has effect on the apoptotic process in acute myeloid leukemia HL-60 cells.

!THP-1 cell line
THP1 is a human monocytic cell line derived from an acute monocytic leukemia patient. It is used to test leukemia cell lines. These cells show a large, round, single-cell morphology. They are derived from the peripheral blood of a 1 year old human male with acute monocytic leukemia. Some of their characteristics are: They produce IL-1. They stain positive for alpha-naphthyl butyrate esterase (At 6.1 pH value, alpha-naphthyl butyrate is a specific monocyte marker PMID: 6658305), produce lysozymes and are phagocytic (both for latex beads and sensitized erythrocytes). They can restore the response of purified T lymphocytes to Con A.They show increased CO2 production on phagocytosis and can be differentiated into macrophage-like cells using for example phorbol 12-myristate 13-acetate (commonly known as PMA or TPA). This cell line can provide continuous culture, grown in suspension; RPMI 1640 + 10% FBS + 2mM L-Glutamine. The average doubling time is 35 to 50 hours. You may also add 1 mM sodium pyruvate, penicillin (100 units/ml) and streptomycin (100 μg/ml) to inhibit bacterial contamination. Maintain cultures between 2-9x105 cells/ml. 37C, 5% CO2. Cells are non-adhesive. Hazard: Cell line of human origin. There is no evidence for the presence of infectious viruses or toxic products. However, it is recommended that cultures are handled under Biosafety Level 2 containment.

! Ionomycin
Is an ionophore produced by the bacterium Streptomyces conglobatus. It is used in research to raise the intracellular level of calcium (Ca2+). It is also used to stimulate the intracellular production of the following cytokines; interferon, perforin, IL-2, and IL-4 - usually in conjunction with PMA. These cytokines are important in the inflammatory response.

! (PMA) also commonly known as (TPA) (from cascarille)
Is a potent tumor promoter often employed in biomedical research to activate the signal transduction enzyme protein kinase C (PKC). TPA/PMA has been routinely used as an inducer for endogenous superoxide ROS production. TPA has a specific use in cancer diagnostics as a B-cell specific mitogen in cytogenetic testing. To view the chromosomes, a cytogenetic test requires dividing cells. TPA is used to stimulate division of B-cells during cytogenetic diagnosis of B-cell cancers such as chronic lymphocytic leukemia. TPA is also commonly used together with ionomycin to stimulate T-cell activation, proliferation, and cytokine production, and is used in protocols for intracellular staining of these cytokines.

Corning Cell-Tak cell tissue adhesive (# Cat.No.:354240, 354241)
Store at 2-8 °C. Coated plates can be stored 2 weeks air-dry before
storing at 2-8°C.

Bicarbonate (NaHCO3) Fisher Sci. # Cat.No: S233-500
Concentration = 0.1 M Formula Weight = 84.01 Vol.= 47 mL
Mass = 394 mg = 0.394 g pH 8.0 Filter-sterilise the buffer.

Total surface area to be coated 96 well with Cell-Tak
stock 2.54 mg = 2540.0 µg
2540 µg.......1000 µL
250 µg........w= 98.42 µL in 1000 µL water alicot 10µL
Place 10 µL diluted Cell-Tak into each well.
Add 20 µL of bicarbonate buffer to each well.
Shake delicate
Allow at least 20 minutes for adsorption.
Flick or aspirate off the Cell-Tak solution and wash with 3 drops of
distiled water air dry before storing at 2-8°C .

Plate map of plate 

A | M   M   M   M   M   M   M   M   M   M   M   M   
B | M   M   M   M   M   M   M   M   M   M   M   M   
C | M   M   M   M   M   M   M   M   M   M   M   M   
D | M   M   M   M   M   M   M   M   M   M   M   M   
E | M   M   M   M   M   M   M   M   M   M   M   M   
F | M   M   M   M   M   M   M   M   M   M   M   M   
G | M   M   M   M   M   M   M   M   M   M   M   M   
H | M   M   M   M   M   M   M   M   M   M   M   M   

Sterile Water molecular grade # Winsent Inc Multicell  Cat No: 809-115-CL

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Two mice perch side by side, nibbling a food pellet. As one turns to the left, it becomes clear that food is not all that they share — their front and back legs have been cinched together, and a neat row of sutures runs the length of their bodies, connecting their skin. Under the skin, however, the animals are joined in another, more profound way: they are pumping each other's blood.

[>img[http://www.nature.com/polopoly_fs/7.23114.1421833493!/image/Blood2.jpg_gen/derivatives/lightbox/Blood2.jpg]]

Parabiosis is a 150-year-old surgical technique that unites the vasculature of two living animals. (The word comes from the Greek para, meaning 'alongside', and bios, meaning 'life'.) It mimics natural instances of shared blood supply, such as in conjoined twins or animals that share a placenta in the womb.

In the lab, parabiosis presents a rare opportunity to test what circulating factors in the blood of one animal do when they enter another animal. Experiments with parabiotic rodent pairs have led to breakthroughs in endocrinology, tumour biology and immunology, but most of those discoveries occurred more than 35 years ago. For reasons that are not entirely clear, the technique fell out of favour after the 1970s.

In the past few years, however, a small number of labs have revived parabiosis, especially in the field of ageing research. By joining the circulatory system of an old mouse to that of a young mouse, scientists have produced some remarkable results. In the heart, brain, muscles and almost every other tissue examined, the blood of young mice seems to bring new life to ageing organs, making old mice stronger, smarter and healthier. It even makes their fur shinier. Now these labs have begun to identify the components of young blood that are responsible for these changes. And last September, a clinical trial in California became the first to start testing the benefits of young blood in older people with Alzheimer's disease.

LISTEN
Science writer Megan Scudellari discusses the rejuvenating effects of young blood

“I think it is rejuvenation,” says Tony Wyss-Coray, a neurologist at Stanford University in California who founded a company that is running the trial. “We are restarting the ageing clock.”

Many of his colleagues are more cautious about making such claims. “We're not de-ageing animals,” says Amy Wagers, a stem-cell researcher at Harvard University in Cambridge, Massachusetts, who has identified a muscle-rejuvenating factor in young mouse blood. Wagers argues that such factors are not turning old tissues into young ones, but are instead helping them to repair damage. “We're restoring function to tissues.”

She emphasizes that no one has convincingly shown that young blood lengthens lives, and there is no promise that it will. Still, she says that young blood, or factors from it, may hold promise for helping elderly people to heal after surgery, or treating diseases of ageing.

“It's very provocative,” says Mark Mattson, chief of the Laboratory of Neurosciences at the US National Institute on Aging in Bethesda, Maryland, who has not been involved in the parabiosis work. “It makes you think. Maybe I should bank some blood of my daughter's son, so if I start to have any cognitive problems, I'll have some help,” he says, only half-joking.
The power of two

Physiologist Paul Bert performed the earliest recorded parabiosis experiment in 1864, when he removed a strip of skin from the flanks of two albino rats, then stitched the animals together in hopes of creating a shared circulatory system1. Biology did the rest: natural wound-healing processes joined the animals' circulatory systems as capillaries regrew at the intersection. Bert found that fluid injected into a vein of one rat passed easily into the other, work that won him an award from the French Academy of Sciences in 1866.

Since Bert's initial experiments, the procedure has not changed much. It has been performed on hydra — small freshwater invertebrates related to jellyfish — frogs and insects, but it works best on rodents, which recover well from the surgery. Up to the mid-twentieth century, scientists used parabiotic pairs of mice or rats to study a variety of phenomena. For example, one team ruled out the idea that dental cavities are the result of sugar in the blood by using a pair of parabiosed rats, of which only one was fed a daily diet of glucose. The rats had similar blood glucose levels owing to their shared circulation, yet only the rat that actually ate the sugar developed cavities.

Nik Spencer/Nature; Chart Data: A. Eggel & T. Wyss-Coray Swiss Med. Wkly 144, W13914 (2014)
Expand

Clive McCay, a biochemist and gerontologist at Cornell University in Ithaca, New York, was the first to apply parabiosis to the study of ageing. In 1956, his team joined 69 pairs of rats, almost all of differing ages3. The linked rats included a 1.5-month-old paired with a 16-month-old — the equivalent of pairing a 5-year-old human with a 47-year-old. It was not a pretty experiment. “If two rats are not adjusted to each other, one will chew the head of the other until it is destroyed,” the authors wrote in one description of their work4. And of the 69 pairs, 11 died from a mysterious condition termed parabiotic disease, which occurs approximately one to two weeks after partners are joined, and may be a form of tissue rejection.

Today, parabiosis is performed carefully to reduce animal discomfort and mortality. “We observe the mice at length and have long discussions with our animal-care committee,” says Thomas Rando, a Stanford neurologist who has used the procedure. “We don't take this lightly.” Mice of the same sex and size are socialized with each other for two weeks before attachment, and the surgery itself is done in a sterile setting with anaesthesia, heating pads and antibiotics to prevent infection. Using inbred lab mice, genetically matched to one another, seems to reduce the risk of parabiotic disease. Joined mice eat, drink and behave normally — and they can be separated successfully.

In McCay's first parabiotic ageing experiment, after old and young rats were joined for 9–18 months, the older animals' bones became similar in weight and density to the bones of their younger counterparts5. More than 15 years later, in 1972, two researchers at the University of California studied the lifespans of old–young rat pairs. Older partners lived for four to five months longer than controls, suggesting for the first time that circulation of young blood might affect longevity6.

Despite these intriguing findings, parabiosis fell out of use. Those who have studied the technique's history speculate that researchers thought they had learned all they could from it, or that the bar for getting institutional approval for parabiosis studies had become too high. Whatever the reason, the experiments stopped. That is, until a stem-cell biologist named Irving Weissman brought parabiosis back to life.

Weissman learned to join mice together at the age of 16, under the supervision of a hospital pathologist in the small town of Great Falls, Montana, in 1955. His supervisor was studying transplantation antigens, proteins on the surface of transplanted cells or tissues that determine whether they are accepted or rejected by the host. Weissman remembers adding a fluorescent tracer to the blood of one mouse in a pair and watching it go back and forth between the animals. “It was really amazing,” he says.

He went on to spend three decades studying stem cells and regeneration in natural parabionts, sea squirts of the species Botryllus schlosseri. In 1999, Wagers, then a new postdoctoral fellow in Weissman's Stanford lab, wanted to study the movement and fate of blood stem cells, so Weissman recommended that she use parabiotic mice and fluorescently label the cells she wanted to track in one animal of a pair. Wagers' experiments led to two rapid-fire discoveries on the nature and migration of blood stem cells7, 8. It also inspired her Stanford neighbours.

In 2002, Irina Conboy, a postdoctoral fellow in Rando's lab, presented one of Wagers' papers at a journal-club meeting. Michael Conboy, Irina's husband and a postdoc in the same lab, was dozing in the back of the meeting room.

The mention of stitching mice together jolted him awake. “We had been in discussion for years that ageing seems to be all cells in the body, that all tissues seem to go to hell in a handbasket together,” says Michael. Yet they had been unable to think of a realistic experiment with which to investigate what coordinates ageing throughout the body.

“I thought, 'Hey wait, they're sharing blood,'” says Michael. “'This could answer that question we've been asking for years.'” At the end of the presentation, he ran up to Irina and Rando. He had not even finished his pitch before Rando said: “Let's do it.”

“I thought, 'Hey wait, they're sharing blood. This could answer the question we've been asking for years.'”

The researchers teamed up with Wagers, who performed the old–young pairings for the experiment and taught Michael the technique (see 'Share and share alike'). Rando says that he did not expect the experiment to work, but it did. Within five weeks, the young blood restored muscle and liver cells in the older mice, notably by causing aged stem cells to start dividing again9. The team also found that young blood resulted in enhanced growth of brain cells in old mice, although the work was left out of their 2005 paper describing the results. All in all, the results suggested that blood contains the elusive factor or factors that coordinate ageing in different tissues.

After the team published its results, Rando's phone started ringing incessantly. Some of the calls were from men's health magazines looking for ways to build muscle; others were from people fascinated by the prospect of forestalling death. They wanted to know whether young blood extended lifespan. But despite the hints that this was true from the 1970s, no one has yet properly tested the idea. It would be an expensive, labour-intensive experiment.

Instead, members of the original research team branched out into separate efforts to determine what exactly in the blood is responsible for the rejuvenating effects. In 2008, Irina and Michael Conboy, by then at the University of California, Berkeley, linked10 muscle rejuvenation to the activation of Notch signalling — which promotes cell division — or to the deactivation of the transforming growth factor (TGF)-β pathway, which blocks cell division.
''Then, in 2014, they identified11 one of the age-defying factors circulating in the blood: oxytocin, a hormone best known for its involvement in childbirth and bonding, and already a drug approved by the US Food and Drug Administration for inducing labour in pregnant women. Oxytocin levels decline with age in both men and women, and when injected systemically into older mice, the hormone quickly — within a couple of weeks — regenerates muscles by activating muscle stem cells''.

All the organs

Wagers was following up on the anti-ageing work at Harvard, where she had started her own lab in 2004. She recruited the help of experts in various organ systems to help her to evaluate the impact of young blood on their respective tissues. With neuroscientist Robin Franklin at the University of Cambridge, UK, her team showed12 that young blood promotes repair of damaged spinal cords in older mice. With Harvard neuroscientist Lee Rubin, she found13 that young blood sparks the formation of new neurons in the brain and olfactory system. And with cardiologist Richard Lee at Brigham and Women's Hospital in Boston, Massachusetts, she found14 that it reverses age-related thickening of the walls of the heart.

With Lee, Wagers began screening for proteins that were particularly abundant in young blood but not old blood. One leapt out at them: growth differentiation factor 11, or GDF11. Wagers and Lee showed14 that direct infusions of GDF11 alone were sufficient to physically increase the strength and stamina of muscles, as well as to reverse DNA damage inside muscle stem cells. No mouse studies outside of Wagers lab have yet replicated the finding, but a similar protein in fruit flies extends lifespan and prevents muscular degeneration15.

“You often have these lucrative markets emerge on a slender foundation of credible work.”

It is perhaps fitting that parabiosis' newfound popularity has spread among labs with close ties. Wyss-Coray, who worked in the room next to Rando's lab, had previously discovered prominent changes in levels of proteins and growth factors in the blood of ageing humans and people with Alzheimer's disease. Following up on Rando's unpublished brain results, he used old–young mouse pairs to show16 that old mice exposed to young blood did indeed have increased neuron growth, and that young mice exposed to old blood had reduced growth. Plasma alone had the same effects. “We didn't have to exchange the whole blood,” says Wyss-Coray. “It acts like a drug.” Next, the team looked at overall changes in the brain, and found that young plasma activates brain plasticity and memory formation in older mice, and increases learning and memory. “We could not believe that this worked,” says Wyss-Coray.

Neither could the reviewers. The first time Wyss-Coray submitted the work to a journal, it was rejected, he says, responding that it was too good to be true. So his team spent a year repeating the experiments at the University of California, San Francisco — a different facility with different staff, instruments and tools. The researchers got the same results. “After that, I was really reassured,” says Wyss-Coray. “I'm convinced it works.”

His research, published last May17, caught the attention of a company in Hong Kong owned by a family with a history of Alzheimer's disease, which is characterized by neuron loss. One family member's condition had reportedly temporarily improved after they received a plasma transfusion. So the company put forward the initial funding to translate Wyss-Coray's approach to human clinical trials. Wyss-Coray formed a start-up company, Alkahest in Menlo Park, California, and in September 2014 it began a randomized, placebo-controlled, double-blind trial at Stanford, testing the safety and efficacy of using young plasma to treat Alzheimer's disease. Six out of a planned 18 people with Alzheimer's, all aged 50 or above, have already begun to receive plasma harvested from men aged 30 or younger. In addition to monitoring disease symptoms, the researchers are looking for changes in brain scans and blood biomarkers of the disease.
Bad blood?

Wagers is eager to see the results, but she worries that a failure would be difficult to interpret and so could set the whole field back. Plasma from a 30-year-old donor may not contain factors beneficial to patients with Alzheimer's, for example. She, Rando and others would prefer to see testing for a specific blood factor or combination of known factors synthesized in the lab, for which the mechanism of action is fully understood.

There are also lingering concerns as to whether activating stem cells — which is what the young blood most often seems to do — over a long period of time would result in too much cell division. “My suspicion is that chronic treatments with anything — plasma, drugs — that rejuvenate cells in old animals is going to lead to an increase in cancer,” says Rando. “Even if we learn how to make cells young, it's something we'll want to do judiciously.”

Michael Conboy is concerned for another reason: he has seen enough paired mice die of parabiotic disease to be cautious about trying it in humans. “I would be leery” of any trial in which significant amounts of blood or plasma were transfused into an older person regularly, he says. Alkahest's chief executive, Karoly Nikolich, says that he understands the safety concerns, but he emphasizes that millions of blood and plasma transfusions have been carried out safely in humans.

The initial Alkahest study is expected to conclude by the end of this year, and the company plans to initiate further studies testing young plasma in the treatment of different types of dementia and age-related conditions.

All the caution over young blood is justified, given the history of dashed hopes in the anti-ageing field. In the past two decades, researchers have identified the anti-ageing properties of numerous treatments, including calorie-restricted diets; resveratrol, a chemical found in the skin of grapes; telomerase, an enzyme that protects the integrity of chromosomes (see Books & Arts, page 436); rapamycin, an immune-suppressing drug that extends lifespan in mice; and stem cells, which decline in function and number as people age.

Only two of these — caloric restriction and rapamycin — have been shown to reliably slow or reverse the effects of ageing across many mammalian tissue types, but neither has turned into an anti-ageing treatment. The former has produced conflicting results in primates; the latter has toxic side effects.

Young blood, by contrast, seems to turn back the effects of ageing, potentially with few known safety concerns in humans and, so far, with corroborated results from parabiotic ageing studies in multiple labs. But scientists and ethicists still worry about the treatment being tried in people outside approved clinical trials before evidence on its safety and effectiveness is in. Unlicensed stem-cell transplants are already a booming industry, warns Mattson, and unlicensed transfusion of young blood would be even easier.

“You often have these lucrative markets emerge on a slender foundation of credible work,” says Leigh Turner, a bioethicist at the University of Minnesota in Minneapolis who has studied the anti-ageing field.

For now, any claims that young blood or plasma will extend lifespan are false: the data are just not there. An experiment to test such claims would take upwards of six years — first waiting for the mice to age, then for them to die naturally, then analysing the data. “If we had funding to do this, I'd do it. But we don't,” says Michael Conboy. Still, he adds, “I hope that someone, somewhere is.”

Nature
517,
426–429
(22 January 2015)
doi:10.1038/517426a

2016-10-03

!The Nobel Assembly at Karolinska Institutet has today decided to award the 2016 Nobel Prize in Physiology or Medicine to Yoshinori Ohsumi for his discoveries of mechanisms for autophagy.

Summary

This year's Nobel Laureate discovered and elucidated mechanisms underlying autophagy, a fundamental process for degrading and recycling cellular components.

The word autophagy originates from the Greek words auto-, meaning "self", and phagein, meaning "to eat". Thus,autophagy denotes "self eating". This concept emerged during the 1960's, when researchers first observed that the cell could destroy its own contents by enclosing it in membranes, forming sack-like vesicles that were transported to a recycling compartment, called the lysosome, for degradation. Difficulties in studying the phenomenon meant that little was known until, in a series of brilliant experiments in the early 1990's, Yoshinori Ohsumi used baker's yeast to identify genes essential for autophagy. He then went on to elucidate the underlying mechanisms for autophagy in yeast and showed that similar sophisticated machinery is used in our cells.

Ohsumi's discoveries led to a new paradigm in our understanding of how the cell recycles its content. His discoveries opened the path to understanding the fundamental importance of autophagy in many physiological processes, such as in the adaptation to starvation or response to infection. Mutations in autophagy genes can cause disease, and the autophagic process is involved in several conditions including cancer and neurological disease.
Degradation – a central function in all living cells

In the mid 1950's scientists observed a new specialized cellular compartment, called an organelle, containing enzymes that digest proteins, carbohydrates and lipids. This specialized compartment is referred to as a "lysosome" and functions as a workstation for degradation of cellular constituents. The Belgian scientist Christian de Duve was awarded the Nobel Prize in Physiology or Medicine in 1974 for the discovery of the lysosome. New observations during the 1960's showed that large amounts of cellular content, and even whole organelles, could sometimes be found inside lysosomes. The cell therefore appeared to have a strategy for delivering large cargo to the lysosome. Further biochemical and microscopic analysis revealed a new type of vesicle transporting cellular cargo to the lysosome for degradation (Figure 1). Christian de Duve, the scientist behind the discovery of the lysosome, coined the term autophagy, "self-eating", to describe this process. The new vesicles were named autophagosomes.
Autophagosome.

[>img[http://www.lindau-nobel.org/wp-content/uploads/2016/10/Figure-1-Ohsumi.jpg]]

Figure 1: Our cells have different specialized compartments. Lysosomes constitute one such compartment and contain enzymes for digestion of cellular contents. A new type of vesicle called autophagosome was observed within the cell. As the autophagosome forms, it engulfs cellular contents, such as damaged proteins and organelles. Finally, it fuses with the lysosome, where the contents are degraded into smaller constituents. This process provides the cell with nutrients and building blocks for renewal.

During the 1970's and 1980's researchers focused on elucidating another system used to degrade proteins, namely the "proteasome". Within this research field Aaron Ciechanover, Avram Hershko and Irwin Rose were awarded the 2004 Nobel Prize in Chemistry for "the discovery of ubiquitin-mediated protein degradation". The proteasome efficiently degrades proteins one-by-one, but this mechanism did not explain how the cell got rid of larger protein complexes and worn-out organelles. Could the process of autophagy be the answer and, if so, what were the mechanisms?
A groundbreaking experiment

Yoshinori Ohsumi had been active in various research areas, but upon starting his own lab in 1988, he focused his efforts on protein degradation in the vacuole, an organelle that corresponds to the lysosome in human cells. Yeast cells are relatively easy to study and consequently they are often used as a model for human cells. They are particularly useful for the identification of genes that are important in complex cellular pathways. But Ohsumi faced a major challenge; yeast cells are small and their inner structures are not easily distinguished under the microscope and thus he was uncertain whether autophagy even existed in this organism. Ohsumi reasoned that if he could disrupt the degradation process in the vacuole while the process of autophagy was active, then autophagosomes should accumulate within the vacuole and become visible under the microscope. He therefore cultured mutated yeast lacking vacuolar degradation enzymes and simultaneously stimulated autophagy by starving the cells. The results were striking! Within hours, the vacuoles were filled with small vesicles that had not been degraded (Figure 2). The vesicles were autophagosomes and Ohsumi's experiment proved that authophagy exists in yeast cells. But even more importantly, he now had a method to identify and characterize key genes involved this process. This was a major break-through and Ohsumi published the results in 1992.
Yeast.

[>img[https://www.nobelprize.org/nobel_prizes/medicine/laureates/2016/images/med-press-2-en.jpg]]

Figure 2: In yeast (left panel) a large compartment called the vacuole corresponds to the lysosome in mammalian cells. Ohsumi generated yeast lacking vacuolar degradation enzymes. When these yeast cells were starved, autophagosomes rapidly accumulated in the vacuole (middle panel). His experiment demonstrated that autophagy exists in yeast. As a next step, Ohsumi studied thousands of yeast mutants (right panel) and identified 15 genes that are essential for autophagy.
Autophagy genes are discovered

Ohsumi now took advantage of his engineered yeast strains in which autophagosomes accumulated during starvation. This accumulation should not occur if genes important for autophagy were inactivated. Ohsumi exposed the yeast cells to a chemical that randomly introduced mutations in many genes, and then he induced autophagy. His strategy worked! Within a year of his discovery of autophagy in yeast, Ohsumi had identified the first genes essential for autophagy. In his subsequent series of elegant studies, the proteins encoded by these genes were functionally characterized. The results showed that autophagy is controlled by a cascade of proteins and protein complexes, each regulating a distinct stage of autophagosome initiation and formation (Figure 3).
Stages of autophagosome formation

[>img[https://www.nobelprize.org/nobel_prizes/medicine/laureates/2016/images/med-press-3-en.jpg]]

Figure 3: Ohsumi studied the function of the proteins encoded by key autophagy genes. He delineated how stress signals initiate autophagy and the mechanism by which proteins and protein complexes promote distinct stages of autophagosome formation.
Autophagy – an essential mechanism in our cells

After the identification of the machinery for autophagy in yeast, a key question remained. Was there a corresponding mechanism to control this process in other organisms? Soon it became clear that virtually identical mechanisms operate in our own cells. The research tools required to investigate the importance of autophagy in humans were now available.

Thanks to Ohsumi and others following in his footsteps, we now know that autophagy controls important physiological functions where cellular components need to be degraded and recycled. Autophagy can rapidly provide fuel for energy and building blocks for renewal of cellular components, and is therefore essential for the cellular response to starvation and other types of stress. After infection, autophagy can eliminate invading intracellular bacteria and viruses. Autophagy contributes to embryo development and cell differentiation. Cells also use autophagy to eliminate damaged proteins and organelles, a quality control mechanism that is critical for counteracting the negative consequences of aging.

Disrupted autophagy has been linked to Parkinson's disease, type 2 diabetes and other disorders that appear in the elderly. Mutations in autophagy genes can cause genetic disease. Disturbances in the autophagic machinery have also been linked to cancer. Intense research is now ongoing to develop drugs that can target autophagy in various diseases.

Autophagy has been known for over 50 years but its fundamental importance in physiology and medicine was only recognized after Yoshinori Ohsumi's paradigm-shifting research in the 1990's. For his discoveries, he is awarded this year's Nobel Prize in physiology or medicine.

Key publications

Takeshige, K., Baba, M., Tsuboi, S., Noda, T. and Ohsumi, Y. (1992). Autophagy in yeast demonstrated with proteinase-deficient mutants and conditions for its induction. Journal of Cell Biology 119, 301-311

Tsukada, M. and Ohsumi, Y. (1993). Isolation and characterization of autophagy-defective mutants of Saccharomyces cervisiae. FEBS Letters 333, 169-174

Mizushima, N., Noda, T., Yoshimori, T., Tanaka, Y., Ishii, T., George, M.D., Klionsky, D.J., Ohsumi, M. and Ohsumi, Y. (1998). A protein conjugation system essential for autophagy. Nature 395, 395-398

Ichimura, Y., Kirisako T., Takao, T., Satomi, Y., Shimonishi, Y., Ishihara, N., Mizushima, N., Tanida, I., Kominami, E., Ohsumi, M., Noda, T. and Ohsumi, Y. (2000). A ubiquitin-like system mediates protein lipidation. Nature, 408, 488-492

Yoshinori Ohsumi was born 1945 in Fukuoka, Japan. He received a Ph.D. from University of Tokyo in 1974. After spending three years at Rockefeller University, New York, USA, he returned to the University of Tokyo where he established his research group in 1988. He is since 2009 a professor at the Tokyo Institute of Technology.

The Nobel Assembly, consisting of 50 professors at Karolinska Institutet, awards the Nobel Prize in Physiology or Medicine. Its Nobel Committee evaluates the nominations. Since 1901 the Nobel Prize has been awarded to scientists who have made the most important discoveries for the benefit of mankind.

http://www.lindau-nobel.org/nobel-prize-for-yoshinori-ohsumi/

[>img[http://www.google.ca/url?sa=i&rct=j&q=&esrc=s&source=images&cd=&cad=rja&uact=8&ved=&url=http%3A%2F%2Fwww.the-scientist.com%2F%3Farticles.view%2FarticleNo%2F47183%2Ftitle%2FAutophagy-Pioneer-Wins-Nobel%2F&psig=AFQjCNEXu3rbB-DFhQTN0TnuiHErg1Vx5w&ust=1475797775958875]]

[>img[http://www.nature.com/polopoly_fs/7.23114.1421833493!/image/Blood2.jpg_gen/derivatives/lightbox/Blood2.jpg]]

Space mitolab

■ 1 vial MitoXpress® Xtra reagent 1000  μL for 10μL/well ~100 assays ~ 3$ /well http://luxcel.com Cat. No. MX-200.   (only MitoXpress® Xtra reagent vial Cat. No. MX-400, HS Mineral Oil Cat. No. HS-100D.
■ In a 384-well format, with one vial of probe is sufficient for ~ 200 wells  ~ 1.5 $ /well .
■ Optimisation for MitoXpress® Xtra (MXX) 10 μL per well in 150 µL pre-warmed culture medium (MC) and 2 Mil.cells.

''(1)'' Reconstitute contents of the MitoXpress® Xtra vial in 1 mL of ''water'', PBS or culture media, gently
aspirating 3-4 times. NOTE: Reconstituted probe stock can be stored in the dark between +2 to +8°C for
several days or stored as aliquots in water at -20°C for use within one month (avoid freeze thaw).
Prepare 3 (orizontal line) replicate of a 96-well plate to be easily handled and the calculated results in excell, the samples will be distributed in this way (transparent plates are also OK):

A | ➊ ➊ ➊ ➋ ➋ ➋ ➌ ➌ ➌ ➍ ➍ ➍

''(2)'' Guidelines for cell numbers: suspension 2 000,000 U937 cells per well in 150 μL should provide sufficient signal. [150 μL  x 9 = ] [2 mil. cel x 9 = in μL MC]. 
''(3)'' Add 10 μL x 9  MXX to the cells and distribute 450 μL in 3 different tubes eppendorf. 
''(4)'' Prepare 1 separate tube eppendorf with 450 μL MC for CONTROL SiGNAL without cells and add 30 μL MXX.  
''(5)'' Add test compound stock inhibitor.
''(6)''  Prompty seal each well by adding 2 drops (or 100 µL) pre-warmed Mineral Oil to all MXX replicate wells (avoid air bubbles).   

Description of distribution:
Line ➊ respectively A1-A3 is CONTROL SiGNAL no cells + MXX
Line ➋ respectively A4-A6 is BAZAL sample cells	
Line ➌ respectively A7-A9 is stimulatory 1 μM CCCP	
Line ➍ respectively A10-A12 is inhibitory 1 μM Oly

''(7)''  Read plate immediately Magellan V 7.2 
''(8)''  Set Temperature Control/ Temperature Control On / Target temperature 30°C. / Apply / OK .
''(9)'' Move plate in 
''(10)'' Start Measurment / CONTINUE / Obtain raw data / Make your selection /  Kinetic measurment/ measurment Parameters. 
''(11)'' General/ Fluorescence Intensity; Plate / Plate definition file: NUN96ft.pdf; Part of the plate ''A1-A12''; Wavelengths / Fixed wavelengths / OxY-bog (Excitation wavelength: 380 nm Emission wavelength: 650 nm) Excitation bandwidth: 12.0 nm Emission bandwidth: 12.0 nm; Meas.Param / Gain Manual / ''115'' (must enter a value lower than the optimal, to not get overflow),  Read Mode: Bottom , Z pozition 6320 μm,  Integration Lag time: 30 µs, Integration time: 100 µs, Nr Flash 10 Time betwen move and flash 0.  Kinetic Number of kinetic cycles ''20''  Kinetic interval: 30 s,  00:00:''30'' (read every 30 seconds). Total kinetic run time: _h _min _s 
''(12)'' SHOW SUMARY / START
''(13)'' When mesurement is completed, remove the plate and save measured data to Magelan file. 
''(14)'' Export data to Excell for Normalised Intensity data:
EDIT Method/ Dat Handling/ Data export/ Instrument Data / Raw data (Export options: Matrix separated or..)select -> Evaluate Results / File Excell Export. Save also Measurement parameters from SAFIRE and Time points.

''HOW 1'' In Excell if must delete blank rows from excel spreadsheets.	
Select SAFIRE data	.
Press F5 celules. This opens “Go to” (Atteindre) dialog in Excel. Now hit on that “select” (Cellules) button.	
From “select special”  screen, select “Blanks” (Cellules vides) (shown aside)	
Now, all the blank cells will be selected. Just press CTRL and Minus sign (-)	
Select “shift cells up” or “entire row” as needed removed blank rows.	

''HOW 2''
Gain Manual / ''215''  overflow
Gain Optimal / ''155''  40 000
Gain Manual / ''115''  4000 OK

''HOW 3'' lifetime calculation for TR-F 
Take results form Raw Intensity data and calculate lifetime
Normalised I =It/It0
(intensity at time t divided by intensity at time t0)
[where It is intensity at any given time and t0 is time at time zero]

EG:  dividing and keeping the same denominator by formula 
=A1/A1 
A1must be block
=A2/$A$1 in next down cell and copy it down
=A3/$A$1
etc etc. this is done for each individual sample. 

=B1/B1
=B2/$B$1
=B3/$B$1
etc etc. 
Use dollar sign to fix the cell.
Resuts are Normalised Intensity data points are mean values of 3 - plicate measurements in 96-well microtiter plates ± standard deviation. 
Calculate the Slope over the linear portion of the curve.

|cssClass|k
|!Time|!A|!B|h
|5|2	|0,9961841|
|6|2,5	|1,001571|
|7|3	|1,020875|
|8|3,5	|1,004714|
|9|4	|1,019753|
|10|4,5	|1,010999|
|11|5	|1,007183|
|12|5,5	|1,015937|
|13|6	|1,009876|
|14|6,5	|1,011897|
|15|7	|1,015713|
=PENTE(B5:B15;$A$5:$A$15)


''Preparation of CCCP''
SStock CCCP is [''50 mM''].
SI [''100 µM''] 20 µL of stock in 10 mL MC 
SF [''1 µM''] 5 µL of 100 µM in 450 µL MC (enough for 3 wells)

''Preparation of Omy (Oligomycin)''
SStock Omy is [''100 mM''].
(SF) [''1 µM''] ''4.5 µL'' stock dilute in 450 µL MC (enough for 3 wells).

''NOTE MitoXpress® Xtra '' – Oxygen Consumption Assay [High Sensitivity (HS) Method] Time-resolved fluorescence measurement (TR-F) is 96 -well fluorescence plate reader  - based approach, for the direct, real-time analysis of cellular respiration and mitochondrial function. MitoXpress reagent is biopolymer-based, chemically stable and inert, water-soluble and cell impermeable. The reaction is non destructive and fully reversible (neither MitoXpress nor O2 are consumed). MitoXpress is quenched by O2 through molecular collision, and thus the amount of fluorescence signal is inversely proportional to the amount of extracellular O2 in the sample. HS Mineral Oil: CatNo # is used to restrict oxygen back diffusion. Measurement of extracellular oxygen consumption rates (OCR) with:
(O) whole cell populations (both adherent and suspension cells) (O) isolated mitochondria (O) permeabilised cells (O) 3D cultures (O)  isolated enzymes, bacteria, yeasts and moulds.

! Cryopreservation of Human Blood Cells for Clinical Application

Slow cooling in the presence of a cryoprotectant to avoid the damaging effects of intracellular ice formation.

! Collect & cryopreservation

Volontaires/Pacient 1 - 8 DATE Programation
* Mardi 22 mars 2016 vers 8:30 (P1 & P2)
* Mercredi 23 mars 2016 vers 8:30 (P3 & P4)
* Mercredi 30 mars 2016 vers 8:30 (P5 & P6)
* Jeudi 31 mars vers 8:30 (P7 & P8)

⓪ The following protocol for freezing blood cells uses 2 cryosolution
''freezing medium A'': plasma serum + DMSO [10%]
''freezing medium B'': plasma serum + DMSO [6%] + Trehalose [30mM].

① Collect blood via venipuncture directly into 10 tubes (× 8 mL = 80 mL) in BD Vacutainer ACD tubes (with yellow caps) Cat. No # REF 364606 8.5 mL 16x100mm) contain 1.5 mL of ACD (Anticoagulant Acid Citrate Dextrose). Store tube(s) at room temperature, for minimum 30 minutes, cell degradation will occur if tubes are stored for more than four hours.
② Centrifuge whole blood at 1900 rpm (rcf 500 × g) for 15 minutes at room temperature in a Centra CL 2 centrifuge (Rotor IEC 236 - with swinging bucket rotor) or equivalent. Be sure that the tubes are in good positions. P1 first (4 + 1 & 4 + 1) and P2 after.
③ After centrifugation, bring the tubes to a biological safety hood and carefully open the tops. Using a glass pipette, gently remove the top layer that contains the Platelet Rich Plasma (PRP) //plasma riche en plaquettes// with a transfer pipette until 1 cm remains above the cell layer (Erythrocyte/Buffy Coat).
Transfer the cell suspension from the tube(s) to a 15 ml conical polypropylene (Tube15mL). Set aside the PRP at room temperature for freezing step ⑧. High lipid levels, rheumatoid factor, anemia, and drug treatment are all possible causes for poor separation of a specific donor’s blood. If the plasma is not clear, this is an indication of high lipid levels.

④ ''Buffy Coat Part'': With a transfer pipette collect the thin layer of cells that “coats the red cells” Buffy Coat, so-called because it is usually buff in hue [aprox. 4 - max 6 mL]. To be sure take aprox. ''1'' + ''1'' cm layer and transfer to a sterile Tube15mL. Look at the scheme drawn.
⑤ Take small sample for ''counting'' and FACS and divide all Buffy Coat in 2 tubes A and B, centrifuge at 1900 rpm (rcf 500 × g) for 15 min at room temperature. Dilute tube A with 4 °C ''4'' mL freezing medium A while gently swirling the tube and dilute tube B with 4 °C ''4'' mL freezing medium B. Mix gently. Immediately place the tube on ice. Avoid any further mixing or agitation of the cells. The period of time between mixing the cryoprotectant with the cell suspension and beginning the cooling process is called the ''equilibration period''. For most cells, equilibration should occur for 10 minutes, allows time for the cryoprotective agent to penetrate the cells. Cells placed in solutions containing permeating solutes initially shrink rapidly from the osmotic loss of water and then re-expand more slowly as the permeating solutes penetrate and water renters to maintain osmotic equilibrium. The result is the so-called shrink-swell curve.
⑥ Slowly remove the cell suspension into a pipet and dispense ''1'' mL per cryovial on ice.
⑦ Place the cryovials wrapped in aluminum foil in a pre-cooled ''Mr. Frosty''™ Freezing Container (thermoscientific Cat No:5100-0001) that has been filled with 70-100% isopropyl alcohol (isopropanol) designed to achieve a rate of cooling very close to -1°C/minute. Place the freezing container at −80 °C for minimum 180 minutes to reach −60 °C stabilization temperature. The delivery can be done in dry ice (−78.5 °C). After one month the cells must be maintained below -130˚C to assure long-term stability for up to 3 years.

⑧ ''PRP Part'': centrifuge PRP tubes from step ③ 3200 rpm (rcf 1,500 × g) for 10 min at room temperature.
⑨ Remove the plasma (can be use as FBS replacement).
⑩ Wash cell pellet once with sterile 5 mL buffer (PBS Macs +BSA) supplemented with 1 µg/mL PGI2, PGI2 Prostacyclin (also called Prostaglandin I2) is a lipid - inhibits platelet activation. Cat. No: # 18220, Cayman Chemical. Take small sample for ''counting'' and FACS. Divide in tube A and B.
⑪ Centrifuge 3200 rpm (rcf 1,500 × g) for 10 min at room temperature.
⑫ Suspend final pellet from tube A in 1 mL of freezing medium A. Same for B.
⑬ Mix gently. Immediately place the tube on ice.
⑭ Slowly remove the cell suspension into a pipet and dispense ''1'' mL per cryovial on ice.
⑮ Place the cryovials wrapped in aluminum foil in a pre-cooled ''Mr. Frosty''™ Freezing Container.
⑯ Place the freezing container at −80 °C for minimum 180 minutes to reach −60 °C stabilization temperature.
⑰ Ready delivery in dry ice (−78.5 °C). After one month the cells must be maintained below -130˚C to assure long-term stability for up to 3 years.

! Thawing of cells
@@color:blue; In general, cells should be thawed quickly but diluted slowly to remove DMSO.
Cells with DMSO intercalated into their membranes are very fragile, and must be pelleted and handled gently.

⑱ Warm RPMi1640 to 22-37 °C in a 37 °C water bath before beginning thawing procedure.
⑲ Transfer the cryovial from liquid nitrogen to a 37 °C water bath. If liquid nitrogen has seeped into the cryovial, loosen the cap slightly to allow the nitrogen to escape during thawing.
⑳ Hold the cryovial in the surface of the water bath with an occasional gentle “flick” during thawing. Do not leave the cryovial unattended during the thawing process. It is important for cell viability that the cells are thawed and processed quickly; thawing takes only a minute or two. When a small bit of ice remains in the cryovial, transfer the cryovial to the biosafety hood. Dry off the outside of the cryovial and wipe with disinfectant before opening to prevent contamination.
㉑ Add warm RPMi1640 dropwise into the cryovial containing the cell suspension, slowly over a 30 second period. The final volume should be twice the volume of the cell suspension (e.g., add 1 mL RPMi1640 to a cryovial containing 1 mL cell suspension). Be careful not to exceed the capacity of the cryovial.
㉒ Transfer the diluted cell suspension to a 50 mL polypropylene centrifuge tube containing 8 mL of warm RPMi1640 for every vial of cells added (multiple cryovials from the same donor may be combined into one tube, if desired).
㉓ Centrifuge the cells at 1200 rpm for seven minutes. Decant the supernatant, and gently flick the tube with a finger to break up the pellet. Dilute to 24 mL with warm basal RPMI to at least 4x the starting buffy coat volume (1:4). Take small sample for ''counting'' and FACS.
㉔ Continue isolation with [5] Analysis and Monitoring of Human Mitocondrial Function @@.

T1 after 2 weeks
T2 after 4 weeks
T3 after 6 weeks
T4 after 8 weeks
T0 fresh

!! NOTES

|cssClass|k
|!SAMPLE|!PLASMA|!➩DMSO%|! Trehalose stock➩30 mM|Total|h
|P1 BC A|4 mL|10% 400 μL| 0 μL|4 mL|
|P1 BC B|4 mL|6% 240 μL| 352 μL|4 mL|
|P1 PL A|4 mL|10% 400 μL| 0 μL|4 mL|
|P1 PL B|4 mL|6% 240 μL| 352 μL|4 mL|
|P2 BC A|4 mL|10% 400 μL| 0 μL|4 mL|
|P2 BC B|4 mL|6% 240 μL| 352 μL|4 mL|
|P2 PL A|4 mL|10% 400 μL| 0 μL|4 mL|
|P2 PL B|4 mL|6% 240 μL| 352 μL|4 mL|

http://www.physiologyweb.com/calculators/percent_solutions_calculator.html

@@color:purple; ◘ Trehalose Stock concentration: [340 mM] Mass: 0.3902 g in 3.0335 mL water
Final concentration: 30 mM ➩%
◘ Medium RPMi1640 Cat No # 350 - 046 CL from Wisent Inc (no antibiotics, no phenol red, no FBS contain 4 mM L-Glutamine).
◘ D-(+)-Trehalose dihydrate Cat No # T9531 from Sigma Molecular Weight 378.33
soluble in water (soluble 0.1 g/mL), slightly soluble in ethanol, clear, colorless. (Synonym: α,α-Trehalose, α-D-Glucopyranosyl-α-D-glucopyranoside) A non-reducing disaccharide consisting of two glucose moieties joined together by an alpha-1,1 glucosidic bond.
◘ cryovial Cat No: microtube 2 mL Starstedt #72.694.006
◘ Mr. Frosty™ Freezing Container (thermoscientific #Cat No: 5100-0001) with 18 compartments for tube 1.0 to 2.0 mL. We have Nalgene® Cryo 1°C “Mr. Frosty” Freezing Container, Thermo Scientific # Cat No: 5100-0001 with 18 compartments, vials closure size: 120mm; dimensions (H x Dia.): 86 x 117mm (3-7/16 x 4-5/8 inches)
◘ The standard temperatures currently in use are: ❆ in the ultra freezer at −80°C ; ❆ in the liquid nitrogen phase −196 (at –130˚C is also adequate); ❆ in the vapour nitrogen phase, at −178°C (neck −150°C); ❆ in the dry ice frozen CO2 at −78.5 °C.

''Fast cooling rate vs Slow cooling rate''. A cooling rate of 1°C per minute is preferred. Ice forms at different rates during the cooling process. Slow cooling leads to freezing external to the cell before intracellular ice begins to form. As ice forms external to the cell, water is removed from the extracellular environment and an osmotic imbalance occurs across the cell membrane leading to water migration out of the cell. The increase in solute concentration outside the cell, as well as intracellularly as water leaves the cell, can be detrimental to cell survival. If too much water remains inside the cell, damage due to ice crystal formation and re-crystallization during warming can occur and is usually lethal. The rate of cooling has a dramatic effect on these phenomena. Rapid cooling minimizes the solute concentration effects as ice forms uniformly, but leads to formation of more intracellular ice since water has not migrated out of the cell. Slow cooling on the other hand, results in a greater loss of water from the cell and less internal ice being formed, but results in an increase in the solution effects. Cell permeability affects the rate of water loss.
''Vitrification'' is the solidification of a liquid without crystallization and the growth of ice by the direct immersion in liquid nitrogen of finely drawn capillaries holding ultra-small volumes (~20 μL or less). This is achieved when solutes in the system are sufficiently concentrated and the system cooled sufficiently rapidly, that the increased viscosity inhibits nucleation and prevents the growth of ice. As cooling continues, viscosity continues to increase until all molecular motion is halted and the solution becomes a glass. In this condition, the system displays the properties of a solid but retains the molecular structure of a liquid. To avoid ice crystallization during thawing the straws were re-warmed as rapidly as possible by direct immersion of the tip of the loaded straw into pre-warmed culture medium containing sucrose. Once thawed the colony fragments were then expelled into this medium and transferred stepwise through cryoprotectant wash-out solutions, containing decreasing concentration of sucrose as the osmotic buffer, until they were plated into culture medium. However, vitrification by this technique is technically challenging, that recovery rates are not as high in practice as those reported in the literature.
The ''cryoprotectant'' in popular use is dimethyl sulphoxide (DMSO) concentrations of 5-10%, and the use of a controlled rate freezing technique at 1 - 2.5 °C/min and rapid thawing is considered standard. ) is a strong polar solvent, mild oxidant, evaporates slowly at normal atmospheric pressure, strong allergic reactions. Because DMSO easily penetrates the skin, substances dissolved in DMSO may be quickly absorbed. Glove selection is important when working with DMSO. Recovery is likely to be improved if the osmotic damage that occurs through the introduction and removal of the cryoprotectant is tempered by the application of slow addition/elution protocols (to introduce the cryoprotectant at low temperatures (+4 °C) for as short a period).

200 mM trehalose (PMID:23349986), 190 mM, 100 mM
㉕ ㉖ ㉗ ㉘ ㉙ ㉚ ㉛

The purity of each fraction was assessed using FACS analysis:

''Monocytes'' (FITC anti-CD14) were contaminated with ~11% lymphocytes and 35% platelets
''Lymphocytes'' (APC anti-CD45), over 80% pure
''Neutrophils'' (PE anti-CD15) over 80% pure

''Monocytes'' FITC,Mouse Anti-Human CD14 (Em 520 nm Green)
''Lymphocytes'' APC Mouse Anti-Human CD45 (Em 660 nm Red)
''Neutrophils'' PE Mouse Anti-human CD15 SSEA-1
R-phycoerythrin (PE) Em 578 nm emits orange-yellow ) Target Cell Types: Neutrophils, eosinophils, monocytes

Fixation is performed with a 2% formaldehyde solution in PBS pH 7.2; cells are incubated for 10 minutes at room temperature. Cells are washed with PBS pH 7.2 with BSA 0.5% to block the fixation solution. Staining is then performed at the same time with mAb directed against the membrane ( for epitope highly express as CD14, CD45, CD15), After a 15 minute incubation at room temperature, cells are washed with PBS pH7.2 containing BSA 0.5% and saponin 0.5% to remove the excess of non-bound mAbs. Cells are then suspended into PBS pH 7.2 and BSA 0.5 % for flow cytometric analysis.
Fixation for more 20 minutes in 2% PFA is a lot, just accumulate autoflorescence. As for the prevention of non-specific antibody staining we can use Fc-block (e.g. BioLegend's TruStain fcX (anti-mouse or anti-human)) or 1% mouse serum for five minutes before start with surface staining process. Blocking Fc is very important in preventing the non-specific binding @@.

!''Version ▶ N°1'' Create Mask

➀ Open original

➁ Image -> Type -> 8-bit

➂ Image -> Adjust -> Brightness/Contrast -> Auto -> Apply

➃ Image -> Adjust -> Threshold -> (adjust with sliders) -> Apply

➄ Edit -> Selection -> Create Mask

➅ Analyze -> Analyze particles (0-Infinity, Show: Outlines; Display Results, Clear Results, Summarize) -> OK – you then get three windows: “Drawing of  mask”, “Results” and “Summary”

!''Version ▶ N°2'' Particle Analyzer

Extended Particle Analyzer with Fiji - ThresholdCheck with BioVoxxel Toolbox. On Fiji an automatic update for the BioVoxxel Toolbox. Just run the Updater ( Help -> Update...) and switch in the main window to 'Advanced mode'. Then click on 'Manage update sites'. Here you simply need to activate the "BioVoxxel" update site. You will find all functions of the BioVoxxel Toolbox under the icon of the green BioVoxxel cube after selectingBioVoxxel Toolbox from the More Tools Icon (last Icon in the ImageJ/Fiji Icon list with the double arrow).
http://imagej.net/BioVoxxel_Toolbox

!''Version ▶ N°3'' 

➀ Open original RGB jpg or tiff
➁ Image -> Color -> Split Channels -> Apply
➂ Close blue pictures.
➃ Plugings  -> Coloclaization Analisys ->  Coloclaization Finder -> Apply
➄ On colocalized points image: Image -> Adjust -> Brightness/Contrast -> Auto or adjust with sliders -> Apply
➅ Image -> Type -> 8-bit color
Image -> Pluging -> Analyse -> Cell Counter  -> Apply
Initialize use zoom and point tool for diffrent type of color. Export image with point and numbers

!''Version ▶ N°4'' Manual Particle Counting and Marking (plugin required) 
Count particles by clicking in the cell image. Each click marks the particle with a colored square and adds the particle to a tally sheet. You can mark up to four different groups of particles/cells, and each group is tallied separately and marked with a different color square.
➀ Open the image you want to count. Cell counter only works on single images, not stacks. You can use Image  -> Stacks -> Stack to Images to convert a .tiff stack or .stk to single .tif files. 
➁ You must convert the image to an RGB color image with Image  -> Type  -> RGB color. Greyscale images are supported by the counter plugin, but the squares are white or black, so difficult to distinguish between types. 


 ➀ ➁ ➂ ➃ ➄ ➅ ➆ ➇ ➈ ➉ ⑪ ⑫ ⑬ ⑭ ⑮ ⑯ ⑰ ⑱ ⑲ ⑳ ㉑ ㉒ ㉓ ㉔ ㉕ ㉖ ㉗ ㉘ ㉙ ㉚ ㉛
Three-dimensional counting: 
//An accurate and direct method to estimate numbers of MDVs//
http://nervenet.org/papers/3DCounting.html

!Comparative size of a cell and its internal strucutres. 
//The Factor 10^^7^^ is selected so that 1 A is equivalent to 1 mm//

CELL 5 – 50  μm ''×10^^7^^'' →  Village, Small lake 50 –500 m
''Internal Structures''
Nucleus 3 – 15  μm → Sports field, large (10 floor) building 30 –150 m
Golgi Apparatus 1 – 5 mm → Medium building (3-6 floors), Airplane 10 – 50 m
Membrane (thickness) 5 – 7 nm → Wall (internal), Front door 5 – 7 cm
Ribosome 30 nm → Cat 30 cm
''Proteins''
GFP, Actin 3 – 4 nm → Apricot 3 – 4 cm
Spectrin 100 nm → Snake 1 m
NFkB complex 10 – 12 nm → Grapefruit 10 – 12 cm
''DNA''
double helix diameter 2 nm → Small pipe, 2 cm
lenght 2 m From → North to South pole 20.000 km
''Other molecules''
ATP 1,5 nm → Cherry 1,5 cm
Ca++ ion (without water) 0,2 nm → Flea 2 mm
Ca++ ion (with 1 shell of water) 1,2 nm → Hazel nut 1.2 cm
Water 0,28 nm → Small ant 2.8 mm
Sugar (glucose) 0,6 nm → Pea 6 mm
Cholesterol 2 nm → Bee 2 cm
''Virus (HIV)'' 100 nm → 5-6 y human 1 m
//from BioBlender-Proceedings of the Blender Conference 2008, Zoppè et al.//
A good idea of the relations that take place within cells, can be obtained by 'exploding' a typical cell to a size with which we are familiar. As reported, if we look at a medium size cell of about 10 mm size, and we compare it to a village or to a lake, not very big but very deep, all internal components can be represented accordingly, and we see that the nucleus, which can occupy up to half the volume of a cell is the major internal object. Objects of this size (including the Endoplasmic reticulum, the Golgi apparatus, mitochondria chloroplasts and some other structures) can be seen with microscopic techniques that allow us to visualize their shape and (sometimes) their dynamic activity. It is important to note that, in contrast with the humansize world with which we are familiar, the entire volume is occupied, such that it might be easier to imagine a water body rather than one filled with air. Furthermore, we have to notice that gravity is irrelevant at this size (the mass of objects is too small to be significantly affected by the Earth gravity field), and the movements of cellular components is mostly driven by thermal agitation. The boundary of the cell, as well as the walls delimiting internal volumes, is made of membrane, a soft, flexible and (relatively) thin layer that mediates communication and transport of material and information between the inside and the outside of cells. This is an extremely important structure that deserves more detailed description, which is out of the purpose of this document, and which can be studied in any of the many excellent textbooks dedicated to cellular and molecular biology. Going smaller, we meet nucleic acids: DNA and RNA. Everyone is familiar with the double helix of DNA, but few people realize that in relative size, if the diameter of the helix is 2 cm (a very thick rope or hi tension cable), its length is 20.000 km, about half the Earth circumference. DNA is packed in a very efficient organization that allows access to it both for retrieving information and for replicating it every time a cell divides. This organization is accomplished thanks to the involvement of proteins, the major players of cellular life, and the most immediate subjects of our animation efforts.

[[GettingStarted]]

''First PART'': Isolation and plating of  Monocytes, Lymphocytes, Neutrophils and Platelets from human blood without activation.  
''Second PART'': Measurement of mitochondrial function for monitoring pathological processes and the impact of treatments.  ^^key words (monitoring reactive oxygen species generation and bioenergetics in a clinical setting)^^.
    
''①'' Collect blood usual ''2'' tubes (minim ''8 mL'' max 20mL) in BD Vacutainer ACD tubes (with yellow caps)  ^^Cat. No # REF 364606^^ 8.5 mL 16x100mm) ^^ contain 1.5 mL of ACD (Anticoagulant Acid Citrate Dextrose)^^.  
After drawing, the blood should be allowed to cool at Room Temperature for minimum 30 - 45 minutes. If used immediately after being drawn, the number of Mononuclear cells collected will be low. Separation procedures are optimal when both blood and Histopaque (Ficoll) are at 18 – 20 °C, with an acceptable temperature range of 18 – 26 °C. 

''②'' Centrifuge whole blood at ''1900 rpm'' (rcf 500 × g) for ''15 min'' in a Centra CL 2 centrifuge (Rotor IEC 236 - swinging bucket rotor).

''③'' Remove the top layer that contains the Platelet Rich Plasma (''PRP'') ^^plasma riche en plaquettes 55% of blood^^ with a transfer pipette until ''1 cm'' remains above the cell layer (Erythrocyte/Buffy Coat). Set aside the PRP at room temperature for processing later at step ㉛. ^^High lipid levels, rheumatoid factor, anemia, and drug treatment are all possible causes for poor separation of a specific donor’s blood. If the plasma is not clear, this is an indication of high lipid levels.^^

''④'' Transfer the ''Buffy Coat'' ^^1% of blood^^ [aprox. 4 - (6) mL] 1 +1 cm to a sterile conical Tube50mL and dilute to 24 mL with basal RPMI to at least 4x the starting buffy coat volume (1:4). Mix gently. 
''RPMI 1640 (Wisent Inc) Cat # 350 - 046 CL (no antibiotics, no phenol red, no FBS) contain 4 mM L-Glutamine at 37 ºC''.

''⑤'' Prepare the Density Gradient.  Double gradient is formed by layering an equal volume of 1119 and 1077: Take out the Ficoll from frigo one day before. Add first 3 mL of low density ''Ficoll 1077'' (with a specific gravity of 1.077) to each tube in three conical ''Tubes15mL'' / 8 mL blood.  

^^''Details:'' (''1'') Histopaque® - 1077 (sterile-filtered, density: 1.077 g / mL) from Sigma, Cat. No #10771  for 100 mL; (''2'') Histopaque®-1119 (sterile-filtered, density: 1.119 g / mL) Cat. No # 11191 for 100mL. Temperature is extremely important when performing the procedure. A 100 mL bottle of Histopaque (Ficoll) stored at 2 – 8 °C may take several hours to reach 18 – 20 °C. When planning to use, we recommend removing the Histopaque from the refrigerator the previous day and let the bottles stand on the bench overnight. This ensures the solution is at room temperature and ready for use. When using both 1077 and  1119 to isolate neutrophils, careful technique must be used to prevent mixing at the solution interface. Check the integrity of the interface using [[Schlieren Optics]]. Any swirling or mixing at the interface between the layers should be evident when holding the tube up against the light. If the interface was properly prepared, there should be a sharply demarcated line. If the sharply defined line is not present or if swirling is present at the interface, discard the tube and start over. It is also important to use the gradient as soon as it is formed. There are no chemical differences between 1077 and 1119; the two solutions have the same components and ''will start diffusing together over time''. When this happens, recoveries will be poor or nonexistent.^^

''⑥'' In the morning by placing the pipette tip beneath (below) of 1077 add slowly 3 mL of  high density ''Ficoll 1119'' without mixing with the upper gradient (3 mL / minute). Use Syringue pump Model Sage Instrument Model 355 (Syringue 60 mL diameter ⊘ = 26.59mm RANGE: off - X¹⁄₁₀ and %FLOW: 500).

''⑦'' A total of 6 mL of density gradient media should be present at this stage with a visible phase of separation at the 3 mL mark. In the tube will be: Ficoll low1077 layer up and Ficoll  high1119 layer down.

''⑧''  Add on the surface of gradient, ''gently'', ''8 mL'' of diluted blood (from step ④) to each gradient tube using the low-power setting to prevent disturbing the gradient layers. (//better way with SyringuePipette//) The total volume should be 14 mL at this step. Centrifuge tubes at ''2200 rpm'' (rcf 700 x g) for ''30 min'' at room temperature.

''⑨'' Three distinct cell bands should be evident. The upper most bands (between 1077 and plasma) contains ''M''ononuclear cells (''M''NCs) and Platelets, and the middle band (between 1007 and 1119) contains ''P''olymorphonuclear (''N''eutrophiles) cells (PM''N''s) and lower band (below 1119) contains RBCs.

''⑩'' Detail of three distinct cell layers (see details on graph) click here [[blood layers]]. 

''⑪'' Collect the ''M''NC by using sterile ''glass pipettes'' without disturbing the other cell bands. Combine the ''M'' population from each tube into a sterile conical Tube50mL.  
Add ''4'' volumes of RPMI to the Tube50mL containing the MNC fractions respectively to dilute the density gradient.

''⑫'' Repeat this for the PM''N'' population as well and add ''10'' volumes of RPMI to the ''N'' fractions to dilute the density gradient.

''⑬'' & ''⑭'' Centrifuge tubes at ''2200 rpm'' (rcf 700 × g) for ''10 min'' at room temperature. Discard the supernatant. 

''⑮'' & ''⑯'' Resuspend ''M''NC cell pellet and PM''N'' cell pellet in 1 mL RPMI buffer containing 0.5% ultra-pure fatty acid-free BSA (Milteny-BSA) and transfer to sterile tube ''Eppendorf''. ^^NOTE dilution^^//(Milteny-BSA # 130-091-376 add 2500 µL BSA in 50 mL RPMI)//.
''Pellet'' (spin down) the cells using a benchtop picofuge for ''30 sec''. Discard the supernatant. Resuspend each cell pellet in ''80 µL'' RPMI buffer-BSA.

^^NOTE centrifugation^^
FOR Tube Eppendorf - Pellet (spin down) the cells using a benchtop picofuge for 30 sec.
FOR Tubes15mL - Centrifuge at 1400 rpm (rcf 300 × g) for 5 minutes.

''⑰'' Add ''20 µL'' of magnetic beads (from the frigo at 4 ºC) labeled-antiCD''14'' antibody to the tube containing the ''M''NC fraction for positive selection of ''M''onocytes. For the tube containing the PM''N'' cell fraction, add ''20 µL'' of magnetic beads labeled-antiCD''15'' antibody for positive selection of ''N''eutrophils. 
''Mnemonics: M14 and  N15''

''⑱'' Mix well with tips and no bubbles, and incubate for 15 min at 4 ºC in the frigo.

''⑲'' Wash each cell suspension with 1 mL RPMI-BSA. 
''Pellet'' (spin down) the cells using a benchtop picofuge  for ''30 sec''. 

''⑳'' Discard the supernatant. Resuspend each pellet in ''500 µL'' RPMI-BSA.

''㉑'' Proceed to magnetic separation.

''㉒'' Place column in the magnetic field. Prepare (activate) LS column (one for each cell suspension) by rinsing with 3 mL buffer MACS PBS - BSA. 

''㉓'' Apply ''500 µL'' cell suspension onto the column. Attention: ''Collect unlabeled cells which pass through'' that means collect total efluent. ''This is ''M''(-) the unlabeled CD14 (-) cell fraction containing ''L'' cells''. Wash column with  3 mL buffer. Perform washing steps by adding buffer three times, each time once the column reservoir is empty. (3mL + 3mL + 3mL + 500µL).

''㉔'' To isolate monocytes and neutrophils. Remove column from the separator and place it on a suitable collection tube. Pipette 5 mL of buffer onto the column. Immediately fush out fraction (+)  with the magnetically labeled cells by firmly applying the  plunger supplied with the column. This is the labeled CD14 (+) monocytes ''M'' and respectively CD15 (+) neutrophils ''N'' cell fraction. (Ready for counting or reduce the volume to 1 mL for count).

''㉕'' To isolate lymphocytes ''L''. Centrifuge ''1400 rpm'' (rcf 300 × g) for ''10 min'' the flow-through-wash fraction of the ''M''NCs (-) from step ㉓. Discard the supernatant and resuspend the cell pellet in ''80 µL'' buffer. Add ''20 µL'' of CD61 and ''20 µL'' CD235a antibodies in the same Eppendorf.

''㉖'' Mix well and incubate cell suspension for 15 min at 4 ºC. 

''㉗'' Repeat the MACS separation as before ⑲ - ㉓ and collect ''the flow'' (negative selection) though containing the ''L''ymphocytes ''L''. This is the labeled CD61(-)  and CD235a (-) lymphocytes fraction. (Ready for counting or reduce the volume to 1 mL for count).

''㉘'' In the column are the cells magnetic labeled CD61(+) megakaryocytes ^^responsible for the production of blood thrombocytes (platelets)^^ and also platelets (plaquettes) and CD235a (+) erythrocytes or //(Érythrocytes)// or //(RBC)//. Discard.

''㉙'' To pellet ''M''onocytes, ''N''eutrophils, and ''L''ymphocytes fractions: 
Centrifuge tubes at ''2200 rpm'' (rcf 700 × g) for ''10 min'' at room temperature. 
Discard supernatants. Cell pellets (//les culots//) should be resuspended in ''1 mL'' extracellular flux media (XF-DMEM) for counting.

''㉚''  ''8 mL'' of whole blood should result in 1 - 5 × 10^^6^^ ''M''onocytes / mL, and 5 - 20 × 10^^6^^ ''L''ymphocytes and ''N''eutrophils / mL.

''㉛'' To isolate ''P''latelets:
Centrifuge ''P''RP tubes (from step ③) ''3200 rpm'' (rcf 1,500 × g) for ''10 min'' at room temperature. Remove the plasma. Wash cell pellet once with sterile ''5 mL'' buffer (PBS Macs +BSA) supplemented with ''1'' µg/mL ''PGI2'', ^^PGI2 Prostacyclin (also called Prostaglandin I2) {//Sir John Vane + Salvador Moncada, R Gryglewski S Bunting//} is a lipid - inhibits platelet activation. Cat. No: # 18220, Cayman Chemical^^. 
Centrifuge ''3200 rpm'' (rcf 1,500 × g) for ''10 min'' at room temperature. 
Suspend final pellet in ''1 mL'' of PBS - PGI2 buffer.

Determine platelet count by turbidimetry once the platelets are suspended in PBS-PGI2 buffer by microplate reader as described by Walkowiak et al. 1997 (PMID 9253804) using the following equation: [6.23/(2.016 – (1.33×750×Ɛ/750) – 3.09 ]× dilution factor = # x 10^^8^^ platelets/mL/. In plate 98wells the meniscus works as an optical lens and refract the optical path extinction (Ɛ) value was corrected by substraction of reference sample exctinction. Ɛ = 0.5842666 (OD) at 750 nm.

!Preparation of ''PGI2'' 1 mM (synonym Prostacyclin) 
Prostacyclin (sodium salt,  Cat No: #18220, Cayman Chemical) 
FW: 374.5 is unstable at neutral or acidic pH soluble in (50 mM Tris-HCl pH 8.87).
(SS) [''1 mM''] Stock Solution: 1mg add in 2670 µL Tris 50 mM  and divided in 20 μL aliquots in eppendorf [store at -20°C or - 80°C for weekly use].
(SF) [''0.5 µM''] Final Solution: ''3'' µL in 6 mL Buffer-BSA. 
^^PGI2 is used at each step of platelet washing procedure at a final concentration of 0.5 μM (0.5 μL of the stock solution for 1 mL of platelet suspension. Since the half-life of PGI is short (a few minutes), it must be added to the washing solution just before centrifugation or platelet resuspension. The PGI solution should be stored at 4°C immediately after thawing and should not be frozen again^^ 

!Preparation of Tris 50 mM. FW:121.14
(SS) Tris [50 mM] for 1L solution first weigh out 6.057 g Tris in water;
Every 1 g of Tris requires 165 mL of water to be added.
(SF) [''50 mM''] Tris : 908.55 mg add in 150 mL water add HCl 01M for pH 8.87.

!''Plating of the Cells - CellTak Method''
See the tiddly [[Design Plate 96 wells]] and [[ [0] Platform synchron]]. Procedure for CELTAK PLATE PREPARING //Dispence within 10 minutes// (for 69 wells): add 210 µL Cell-Tak to 420 µL dH~~2~~O, 1453 µL of 0.1N Sodium Bicarbonate and ∓105 µL of 1N NaOH to  pH 8,0 - 8,5. Place ''30'' µL diluted Cell-Tak into each well.  Shake delicate. Allow at least ''20'' minutes for adsorption. Flick or aspirate off the Cell-Tak solution and wash with distiled water, air dry before storing at 2 - 8 °C for approximately two weeks. Adhesive extracted from //Mytilus edulis//. An aid to attaining this pH window is to use a volume of NaOH equal of half the volume Cell-Tak solutions. Put Cell-Tak also in the Blank Control of SeaHorse plate. 

|cssClass|k
|!cel tak ~~B~~|!H~~2~~O|!Bicarb|!NaOH|!Total|!wells30µL|h
| 41 | 400 | 820 | 20.5 | 1281 | 41 |
| 80 | 150 | 540 | //∓ 40// | 770 | 25 |
| 210 | 420 | 1453 | //∓ 105// | 2083 | 69  ᚙ |
|z | z |z |//∓ z// | z |64 × 2  ᚙ |
|307 |z |z |//∓ z// |z |96 × 1=96|
|614 |z |z |//∓ z// |z |96 × 2=192|
|1229 |z |z |//∓ z// |z |96 × 4=384|

new formula pH 8,0 - 8,5. 

!Seeding  
250k cells/well for ''M''onocytes, 
250k cells/well for ''L''ymphocytes,
250k cells/well for ''N''eutrophils, 
25 x 10^^6^^/well for ''P''latelets. 
Alternatively, to measure oxidative burst response, Neutrophils can be seeded at 125 k cells/well. The final seeding volume for each cell suspension should be 200 µL/well. For platform synchron the cells should be seeded in microplate ~150 000 cells/well. Centrifuge the plate at ''200 rcf'' for ''30 sec'', rotate the plate 180˚ and centrifuge again at ''300 rcf'' for ''30 sec''. 
Centrifuge Eppendorf  5430R, with rotor A-2-MTP Cat.No: # 5430/5430  START / STOP / OPEN. //Bring final well volume to ''660 µL'' with XF-DMEM and incubate at 37 ºC for 30 min prior to XF assay//.

!NOTES
⧓ RPMI no phenol red
[1] RPMI Cat # 17 - 105 - CV  (no antibiotics, no phenol red, no FBS) → 0 mM L-Glutamine.
[2] RPMI 1640 (Wisent Inc) Cat # 350 - 045 - CL(no antibiotics, no phenol red, no FBS) → 0 mM L-Glutamine  (add 2 mM).
[3] RPMI 1640 (Wisent Inc) Cat # 350 - 046 - CL(no antibiotics, no phenol red, no FBS) → with 4 mM L-Glutamine.
[4] DMEM XF buffer → 4 mM L-Glutamine, glucose and pyruvate.

⧓ ⚡ orthography //pellets// ≠ //platelets// 
⧓ In plate 98wells the meniscus works as an optical lens and refract the optical path extinction (Ɛ) value was corrected by subtraction of reference sample extinction.
Ɛ = 0.5842666 (OD)
on Excell turbidity formula
[ 6.23/ (2.016 - ( 1.33 × 750 × 0.5842666/750 ) ) - 3.09 ] ×1= 1.9385518
[ 6,23/ (2,016 - ( 1,33 × 750 × 0,5842666/750 ) ) - 3,09 ] ×1=1,9385518
or on Casio Scientific Calculator
(29355Ɛ+4)/100(-95Ɛ + 144) × dilution factor =  #  10^^8^^ platelets/mL/^^
⧓ https://en.wikipedia.org/wiki/Plasmapheresis
⧓ Histopaque is a density gradient cell separation medium of Ficoll and sodium diatrizoate adjusted to a density of x g / mL Diatrizoate is a radiocontrast agent, containing iodine.is considered a high-osmolality contrast agent. Its osmolality ranges from approximately 1500 mOsm/kg (50% solution) to over 2000 mOsm/kg (76% solution).
⧓ Bioenergetics and the Oxidative Burst: Protocols for the Isolation and Evaluation of Human Leukocytes and Platelets (Victor Usmar). On google keyword: Jove e51301 oxidative burst (52201). For video: Ctr+Shift+K web console  "Net" and "Logging" check video extension
⧓ Detail for download open video flash 
1. open jove page
2. open Chrome Inspector by pressing these 3 keyboard buttons
together: Ctrl  Shift i and (Ctr+Shift+K for Firefox)
3. Click the tab marked "Network" at the top of the Inspector window
4. refresh the webpage from the Inspector by pressing these keyboard
buttons together: Ctrl R
5. shortly after you hear the audio playing in the background, you
should see a line in the Inspector for the video
6. Identify the video by looking at the 'Type' column, find the only
entry for 'video/mp4' or 'video/quicktime'
7. right-click on the video entry's first column (column name 'Path'),
then click 'copy link address' 

⧓  Counting Chamber Hausser Scientific Company (Fuchs-Rosenthal ) #Cat.No.: 3720. Mix 10 µL cells + 10 µL (0.4%) Trypan Blue stain Invitrogen Gibco #Cat.No.: 15250-061 (storage 15-30°C) in counting chamber 20 µL. Count 16 squares (1 mm^^2^^). 
≡≡≡≡≡≡≡≡≡≡
║ ☒ ☒ ☒ ☒ ║ = 24
║ ☒ ☒ ☒ ☒ ║ = 29 
║ ☒ ☒ ☒ ☒ ║ = 26
║ ☒ ☒ ☒ ☒ ║ = 25
 ≡≡≡≡≡≡≡≡≡≡
= 104 cells in 16 ☒ 
104 × dilution 2 × 5000 = 1 040 000 cells/ mL = 1.04 M 
1.04 M × 5 mL total = 5.2 Mil. cells total.

⧓ Counting Bright-Line™ Hemacytometer  Sigma #Cat.No.: Z359629. Mix 10 µL Blue + 10 µL cells in counting chamber and count 5 squares (from 25) big 25 of 25.
 ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡
║☒ | ☒ | ☒ | ☒ | ☒║ = 52
║☐ | ☐ | ☐ | ☐ | ☐║
║☐ | ☐ | ☐ | ☐ | ☐║
║☐ | ☐ | ☐ | ☐ | ☐║
║☐ | ☐ | ☐ | ☐ | ☐║
 ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡
= 52 cells in 5 ☒ = 0.52 M / mL
 dilution 1/2 = × dilution 2 = 1.04 M cells / mL 
1.04 M × 5 mL total = 5.2 Mil. cells total
***
⧓ Convert to OD600:
The alternative way to measure cellular density is by using a spectrophotometer, which gives a reading in units of OD600.  An OD600 of 1 = 1 × 10^^7^^ cells / mL.

⧓ Important conversions:
(cm^^3^^ = mL) 
(mm^^3^^= µL) 
(50 µL ↔ 1 Drop)
(250000 µL ↔ Cup)  

⧓ Dozaj Cristal Violet
1- Retirer le milieu de culture par aspiration.
2- Ajouter 150 µL de p-formaldéhyde-PBS (4%).
3- Incuber 5 minutes à température pièce.
4- Enlever le p-formaldéhyde par aspiration.
5- Ajouter 150 µL de cristal violet (0,1%-H2O) et incuber 5 minutes à température pièce.
6- Enlever le cristal violet par aspiration.
8- Faire 2 lavages avec 1000 µL de PBS.
9- Ajouter 150 µL de PBS..
11- Lire la D.O. à 595 nm. (reference 0 nm)
(p-formaldéhyde 4% est fait en dissolvant 4 g de p-formaldéhyde dans 100 mL de PBS sous barreau magnétique. Il peut être nécessaire de chauffer a µOnde).

⧓   Tecan 
http://www.tecan.com/platform/apps/product/index.asp?MenuID=5167&ID=12045&Menu=1&Item=21.2.10.9
key words: ㋛ Accuracy, Precision, Reliable, Reproducible, Fast, Compact, Sensitive☺

http://www.sciencedirect.com/science/article/pii/S0966842X11000035

https://www.youtube.com/watch?v=hxbW-4sbMRk

Cecal ligation puncture model of sepsis 1 (17 min)

https://www.youtube.com/watch?v=YvT_n8qLans

Cecal ligation puncture model of sepsis 2

Procalcitonin (PCT) marker
Measurement of procalcitonin can be used as a marker of severe sepsis caused by bacteria and generally grades well with the degree of sepsis.
The level of procalcitonin in the blood stream of healthy individuals is below the limit of detection (0.01 µg/L) of clinical assays. The level of procalcitonin rises in a response to a proinflammatory stimulus, especially of bacterial origin. In this case, it is produced mainly by the cells of the lung and the intestine. It does not rise significantly with viral or non-infectious inflammations. With the derangements that a severe infection with an associated systemic response brings, the blood levels of procalcitonin may rise to 100 µg/L. In serum, procalcitonin has a half-life of 25 to 30 hours. Remarkably the high procalcitonin levels produced during infections are not followed by a parallel increase in calcitonin or a decrease in serum calcium levels.

Systemic sepsis following hemorrhagic shock PMID: 9155111 (1997) mice model to mimic battlefield wounds and hemorrhage.
Fluid Resuscitation in Sepsis and Hemorrhagic Shock

Mitochondrial dysfunction in septic shock and multiple organ dysfunction syndrome.
Crouser ED Mitochondrion. 2004 Sep;4(5-6):729-41. PMID: 16120428
Sepsis is the leading cause of death in medical intensive care units. In most fatal cases of sepsis the patient experiences an insidious, progressive decline in vital organ function, i.e. multiple organ dysfunction syndrome (MODS), which is commonly associated with signs of accelerated anaerobic metabolism despite supernormal systemic oxygen delivery. Based on this clinical scenario, tissue hypoxia has long been considered the putative mechanism of MODS. However, efforts to enhance tissue oxygenation during severe sepsis have proved ineffective, and a growing body of evidence indicates that mitochondria contribute significantly to the pathogenesis of sepsis-induced MODS. In addition to dysregulation of oxygen metabolism ('cytopathic hypoxia'), sepsis-induced mitochondrial dysfunction contributes to organ injury through accelerated oxidant production and by promoting cell death. Advances in our understanding of the mechanisms of mitochondrial damage and in its detection could revolutionize the management of this devastating disease.

Mitochondrial function and disturbances in the septic kidney. Semin Nephrol. 2015 Jan;35(1):108-19.PMID: 25795504. Per milligram of tissue, only the heart exceeds the kidney's abundance of mitochondria. Not surprisingly, renal mitochondria are most densely concentrated in the epithelium of the nephron, at sites where the chemical work of moving solutes against electrochemical gradients places large and constant demands for adenosine triphosphate. Derangements of renal epithelial mitochondria appear to be a hallmark for diverse forms of acute kidney injury (AKI). The pathogenesis of multiple-organ dysfunction syndrome in sepsis is complex, but a substantial body of experimental and observational human data supports the twin concepts that mitochondrial dysfunction contributes to impaired filtration and that recovery of mitochondrial structure and function is essential for recovery from sepsis-associated AKI. These insights have suggested novel methods to diagnose, stratify, prevent, or even treat this common and deadly complication of critical illness. This review will do the following: (1) describe the structure and functions of healthy mitochondria and how renal energy metabolism relates to solute transport; (2) provide an overview of the evidence linking mitochondrial pathology to renal disease; (3) summarize the mitochondrial lesions observed in septic AKI; (4) analyze the role of mitochondrial processes including fission/fusion, mitophagy, and biogenesis in the development of septic AKI and recovery from this disease; and (5) explore the potential for therapeutically targeting mitochondria to prevent or treat septic AKI.

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!forum research

two distinct dyes that both measure mitochondrial membrane potential. TMRE stains mitochondria only when there is a membrane potential. JC-1 is slightly different in that it has distinct emission spectra depending on whether mitochondria have high or low potential. TMRE can be measured in a spectophotometer, fluorescent microscope or flow cytometry. JC-1 can be measured in a spectrophotometer. Details are in the respective protocol booklets. http://www.abcam.com/ps/products/113/ab113850/documents/ab113850%20Protocol%20(Website)%20v2.pdf http://www.abcam.com/ps/products/113/ab113852/documents/ab113852%20protocol%20final%20v2%20(website(.pdf For you, wewould recommend TMRE with analysis on a flow cytometer. Flow cytometry is both sensitive and amenable to very few cells.
Therefore for both the microplate and flow cytometry protocols, the TMRE wavelengths are 549/575.
The lack of signal may be due to working outside the peak excitation (549nm) and peak emission (575nm). Getting as close as possible to these parameters is critical for maximal signal.
Many fluorescent spectrophotometers read only in the center of the well. It may help to ensure that your plate reader is capable of reading at the bottom of the plate and ensure the instrument is set up as such. We would also recommend to increase the PMT gain (photomultiplier tube) on the instrument.
Another option is to increase the concentration of TMRE to 1000nM and increase the density of the cells. With mouse embryonic fibroblasts, we would recommend to test the following densities on a 96 well plate to find optimal seeding = 50,000 / 25,000 / 10,000 / 5,000. Using a titration of cells, we recommend testing different TMRE concentrations (1000nM, 200nM, 50nM).
TMRE can only be used with live cells (including JC-1). For dead cells one possibility is to look at Cytochrome C release from the mitochondria by ICC, e.g. the mouse monoclonal ab110325. (see also Figure 11 in the MitoSciences Apoptosis Playbook here: http://mitosciences.com/PDF/Apoptosis_Playbook.pdf
Another option might be the ApoTrack™ Cytochrome c Apoptosis ICC Antibody Kit (ab110417)
http://www.abcam.com/ApoTrack™-Cytochrome-c-Apoptosis-ICC-Antibody-Kit-ab110417.html

Culture media is known to cause background. For suspension cells, we recommend pelleting the cells, removing the culture media, resuspending in the same volume of 0.2% BSA in PBS, pelleting again, and resuspending a second time in 0.2% BSA in PBS before transferring to a microplate.

Alternatively, the cells can be fluorescently imaged with a microscope if they are applied to the slide by cytospinning, or as a cell film. Protocols for these techniques can be found on IHC World:
http://www.ihcworld.com/_protocols/general_ICC/cell_p

!What is the best probe to evaluate change in membrane potential JC1 or TMRE ?

Where as TMRE is monochromatic JC-1 is ratiometric probe. The latter produces a green fluorescence in its monomeric form which then aggregates in mitochondria to induce a spectral shift to Red. Both dyes are semiquantitative but JC-1 can be less accurate. This is due to a number of reasons such as time such as rate of change in green vs red fluorescence and the sensitivity of JC-1 towards changes in hydrogen peroxide. The former point is important since equilibration of the monomeric green signal only takes 15 min (similar to TMRE or TMRM) whereas equilibration of the aggregate can take up to 90 min. Essentially this means that the JC-1 probe can provide false positives in terms of measurement of membrane potential.
Thus, TMRE or TMRM or for isolated mitochondria Safranin O, are typically used for more sensitive measurements time dependent measurements in membrane potential whereas JC-1 is more suitable for end-point analysis.
in short...JC1 is ratiometric (if you have the 2 lasers) while TMRE is not. So it means that JC1 is more realiable (in the ratiometric way of analysis), and in my experience, also less "dirty" (almost no spurious binding outside the mitochondria). that is ..good luck
I confirm above information about JC-1. This fluorescent lable works very well in cytometr analysis as well as in spectrofluorimetic measurements. Nevertheless, it is a good practise to read more about these probes (JC-1 and TMRE) before experiments to know advantages and disadvantages of each of them. If you have this possibility, try to use both of these probes :)
Where as TMRE is monochromatic JC-1 is ratiometric probe. The latter produces a green fluorescence in its monomeric form which then aggregates in mitochondria to induce a spectral shift to Red. Both dyes are semiquantitative but JC-1 can be less accurate. This is due to a number of reasons such as time such as rate of change in green vs red fluorescence and the sensitivity of JC-1 towards changes in hydrogen peroxide. The former point is important since equilibration of the monomeric green signal only takes 15 min (similar to TMRE or TMRM) whereas equilibration of the aggregate can take up to 90 min. Essentially this means that the JC-1 probe can provide false positives in terms of measurement of membrane potential.
Thus, TMRE or TMRM or for isolated mitochondria Safranin O, are typically used for more sensitive measurements time dependent measurements in membrane potential whereas JC-1 is more suitable for end-point analysis.
very valuable information from Ryan :) I agree with him in 100%. It is very important to stress that in theory the mechanism of JC-1activity is esasy and reliable but in practise - not always it is so obvious. I know people who use JC-9 and they are very glad from this 'changing" :)
I use Mitotracker orange.
In my hands, JC-1 works pretty well... and i agree with Ryan poster that JC-1 is best suits for end-point analysis
Mitotracker and JC-1 both are good. For both you should perform additional essay to identify possible factors contributing to the results observed.
JC-1 is more specific to mitochondrial membrane potential, whereas TMRE will respond to changes in both, mitochondrial and plasma membrane changes
JC1 unfortunately leads to artefacts. To date the best probes are TMRM or TMRE. If you use the confocal intact cells you should take in account also the plasma membrane potential
Both TMRE and JC1 dyes are lipophilic cations which accumulate in mitochondria according to the Nernst equation. JC-1 is slightly different in that aggregation causes a shift in fluorescence from green to red, with the ratio between the two signals giving a measurement of ??m. Particular care must be taken when interpreting results derived from JC-1 measurements as the red aggregated signal has been reported to be influenced by factors other than ??m. So my experience with TMRE or TMRM was better. See Parihar et al., Biochimica et Biophysica Acta 1780 (2008) 921–926; The International Journal of Biochemistry & Cell Biology 41 (2009) 2015–2024; Journal of Neuroscience Research 85:1018–1032 (2007)
JC1 aggregation has been reported to depend also from factors independent from Dpsi and, most importantly, it inhibits mitochondrial respirations (which will affect the Dpsi)
Agree with all of the above. The experimental design should also be considered.
As Ryan pointed out, JC-1 is better suited for end-point measurements, given the time it takes to equilibrate between non-aggregated and aggregated forms. In addition, in my hands this process was not reversible, at least not in the dynamic sense that would allow time-resolved measurements.
I have been able to perform time-resolved imaging with TMRE where cells were stained prior to treatment and I measured the decrease in fluorescence intensity over time. The advantage of the latter is that your results are expressed as rates or ratios or fluorescence at time=t over time=0, therefore each sample serves as its own control and variances in staining efficiency can be rooted out this way.
I am in agreement with Sebastien Boridy.
Our lab uses JC-1 but not other reagents for endpoint measurements of inner mitochondrial membrane potential. I tried to adapt JC-1 for a real-time measurements, which the company (Cayman) said was "theoretically possible". I was not able to do so, however I also work with mixed human-bacterial cell samples, so I suspect that the bacteria in the sample took up some JC-1 reagent (due to their similarities in membrane structure to mitochondria). The appropriate controls supported this. Because this was my end goal, I did not look into human cell-only samples, though the company (Cayman) does say it's possible.
Sebastien, if I go back to do this experiment again, I will try with TMRE due to your real-time success with it. However, it doesn't change the caveat for my research of working with mixed human cell-bacterial cell samples, too. Appreciated!
I recommend that, no matter if you use JC-1 or TMRE/TMRM, to use an uncoupler such as FCCP, CCCP, or DNP as control. This will verify that what you measure is truly mitochondrial membrane potential.
JC-1 is easier to get usable data with the least optimization, especially if your experiment is cell culture and you're using a plate reader to detect red vs green. If you have easy access to flow cytometer or fluorescence microscope, I'd recommend TMRE/TMRM. See John Lemaster's papers using Mitotracker Green and TMRM as one idea to visualize both mitochondria and membrane potential. Lastly, TMRM/TMRE with microscopy allows you to calculate membrane potential (also see Lemaster's papers), whereas JC-1 is very qualitative (more vs less than control group).
I agree that TMRM or TMRE would be better probe for measuring membrane potential using FCCP to depolarise at the end
We have not tried JC-1 so far, but we use other fluorescence probes in conjuntion with respirometry and observed considerable toxicity of safranin and also TMRM at higher concentrations (which however are often used). However, up to 2 µM TMRM is apparently not toxic. You may not see the toxic effects without simultaneous respirometry, but that does not mean they are not there then.
For reference please see:
Scaduto et al. Biophys J 1999: 469–477.
Krumschnabel et al. Methods Enzymol 2014: 163-81.

!Can you help solve this problem with JC-1 (Mitochondria membrane potential dye) staining?
I have been attempting to stain LN229 glioblastoma and MSU1.1 human fibroblast cells with the mitochondrial membrane potential dye (JC-1). The dye localizes to mitochondria using the potential gradient and depending on JC-1 localized concentration, will emit red (large membrane potential) to green (low potential) light.The dye is considered a "living" dye and requires the cell to be alive to properly work and also prevents fixing with formaldehyde.
So far I have had cytotoxicity problems, my guess to high a concentration of DMSO; it is now at recommended .1% DMSO concentration, as well as keeping the cells on the coverslip and mounted onto a microscope slide. Any tips, tricks, or protocols would greatly help.

Protocol:
0.5 ml of diluted cells in media is added to a cell plate well containing a Poly-L-lysine coated coverslip and is incubated for 3 days at 37C and 5% CO2. Following the 3 day period, the media is removed and 200uL of JC-1 dye diluted in culture media is added:
Different used dye-media solutions:
(10ug JC-1, 5% DMSO) in culture media
(10ug JC-1, 1% DMSO) in culture media
(5ug JC-1, .1% DMSO) in culture media = current
Incubated for 15 minutes at 37C and 5% CO2
Dye media is removed and 0.5 ml of 1X PBS is added for 1 min and removed.
The coverslips are then removed and placed on a drop of PBS on top of a glass slide and mounted with nail pollish. Ever step involved the JC-1 is performed at minimal light (lights turned off) or in a dark room.
When looking at the slides, it seems that many of the previously adhered cells have "washed off" or have lysed do to cytotoxicity, which with the current DMSO concentration should not happen.
Would DMSO or PBS cause the cells to detach from the coverslip?
Do adhered cells fall of easily?
Hi Walter Valdez,
we use JC1 for FACS analysis of mitochondria. However, I recognize several issues:
ad1.) Cells or Mitochondria need to be energized to develop J-Aggregates. Airtight mounting results in hypoxia and collapse of ??m. JC1 does (only) stain living cells/mitochondria.
ad2.) If your PBS is Ca2+-free, Cells will not adhere
ad3.) PBS is a poor medium for this analysis, because of stressing your cells
ad4.) We dissolve JC1 in DMSO, too. Because of its high reducing capacity, we perform further dilution with PBS to achieve a reduced DMSO concentration
ad5.) Since JC1 accumulates in living cells, I recommend to omit your final washing step
With best regards
SPS
Hi Reem A.m
attached you´ll find our protocol as described earlier:

"Flow cytometric analysis of mitochondrial membrane potential (??m).
In presence of rotenone and succinate 100 µg of mitochondria were suspended in 100 µl Buffer 5 and energized by 10 mM succinate after inhibition of complex I by 2 µM rotenone. Mitochondria were stained by 2 µM 5,5',6,6'-tetrachloro-1,1',3,3'-tetraethylbenzimidazolylcarbocyanine iodide (JC1, Enzo Life Sciences GmbH Lörrach, Germany). ??m-stability was assessed after CCCP-induced (0.5 µM) mitochondrial uncoupling. Fluorescence-activated cell sorting (FACS) was performed using a BD FACScan Flow-Cytometer (Becton Dickenson Heidelberg, Germany) as described by Lecoeur (7). Briefly, settings of FACScan were applied as followed: Mitochondrial size was measured by the forward scatter (FWS) adjusted to an E-00 setting with logarithmic amplification of 5.41. Mitochondrial granulation was detected by the sideward scatter (SSC) adjusted to linear amplification at a voltage of 581 and a gain of 4.27. JC-1 green fluorescence reflects JC-1 monomers and was detected using the FL-1 channel. Formation of J-aggregates led to orange fluorescence measured in the FL-2 channel. Fluorescence was recorded using the logarithmic amplifier mode. FL-1 was adjusted to a voltage of 907 mV and 622 mV for FL-2, respectively. Spectral compensation was performed as follows: FL1 – 18.5% * FL2 and FL2 – 25.4% * FL1. 25000 counts of the main mitochondrial region gated on FSW / SSC parameters were recorded. Data were analyzed using the WinMDI software (http://facs.scripps.edu/software.html). The ratio of J-aggregate+-mitochondria and JC1+-mitochondria was used to assess ??m. Measurements were performed in native mitochondria, immediately after JC 1 staining, 10 min after JC 1, immediately after uncoupling with CCCP and 1,2 and 3 min after CCCP.

7. Lecoeur H, Langonne A, Baux L, et al.: Real-time flow cytometry analysis of permeability transition in isolated mitochondria. Exp Cell Res 2004;294:106-17."
I hope you will succeed with your analysis.
With best regards
Sebastian Sommer
Consider staining with the Rhodamin 123 dye. It has several advantages when compared to JC1. ??m is represented by only one wavelength and it is more specific than JC1.
Rhodamine 6G is another dye you could try, but a regular TRITC filter set will not see it properly so you need to be careful. This is true of all these dyes - if you don't have the proper filters, you won't see anything, or you'll see the wrong thing. MitoTrackers (Life Technologies, I think) come in different colors so you can pick one to match the filters you have.

!What is the most efficient method for JC-1 analysis?
I have been using JC-1 only and JC-1 + CCCP with different cell populations acquiring data by flow cytometry. I am using FlowJo to analyse the data I acquired and I have been told there are different methods of analysis.
I would like some advice about recommended techniques
If you have good negative and positive controls (i.e. untreated healthy cells as the negative control and CCCP treated cells as the positive control) you should be able to define the apparent populations easily. If by "different cell populations" you mean a single sample that has multiple cell phenotypes present, then you'll need to separately analyze the various subpopulations. For example if you were looking at PBMCs, you'd need to analyze JC-1 on the lymphocytes separately from the Monocytes. The uptake of JC-1 will be different depending on the cell type, so there is no hard fastened rule about setting up gates. Allow your controls to guide the placement of gates.
Hi Ryan
Thank you for your answer. I have done the gating of the sub population. My question is relative to the way I could express the result. Would it be correct to express them as the red/green ratio of the samples treated only with JC-1?

I see. Ratios may be difficult as this sort of reduction could hide smaller effects. If the difference between your groups is large enough, and the population acts as a whole (that is, the cells as a whole experience mitochondrial depolarization) a simple red/green ratio could be used. However, I think it's more common to set a dividing line between green and red channels based on the untreated and treated controls, and then look at the frequency of cells that lose red fluorescence.

Note to measure toxicity of a drug (ATP analogue) to mitochondria human samples Which is the best kit to use: The kit ab110217 (MitoBiogenesis™ In-Cell ELISA Kit (Colorimetric)) measures the levels of a protein encoded in the "mtDNA" (Complex IV subunit 1) in comparison with a protein encoded in the "nuclear DNA" (Complex II). This kit is particularly useful in cell based experimental conditions that decrease the rate at which proteins encoded in the mtDNA are generated. This is particularly the case of antiretroviral treatments (which inhibit the mtDNA polymerase gamma) and therefore replication of the mtDNA or in the presence of antibiotics that affect the mitochondrial translational machinery (chloramphenicol, tetracyclines, linezolid etc.). In contrast ab109903 (MitoTox™ Complex I OXPHOS Activity Microplate Assay) is a non-cell based assay. The kit measures Complex I activity on bovine heart mitochondria (which comes with the kit). Typically it is use to determine whether a compound has a direct inhibitory effect on the enzyme after immunocapture (i.e. rotenone inhibits Complex I). This kit does not measure ATP output, nor oxidative phosphorylation output. When it comes to ATP analogues it depends on whether the customer has a good indication about the potential acute or chronic mitochondrial toxicity of this compound. If they do not have an answer to this question, then the first place to start would be to determine whether or not this compound induces acute/chronic mitochondrial toxicity. To test Acute mitochondrial toxicity (less than 24 hours of treatment – typically 4 hours) we would recommend to test all of the following parameters (recommended kits in brackets): - Bioenergetic status in glucose and galactose (ATP detection kit ab113849) http://www.abcam.com/Luminescent-ATP-Detection-Assay-Kit-ab113849.html. - Mitochondrial Membrane Potential (JC1 or TMRE kits, to be released soon as kits ab113852 and ab113850) - Production of Reactive Oxygen species (DCFDA kit, to be released soon as ab113851) - Generation of Apoptosis (cleavage of PARP-1 kit ab110215) http://www.abcam.com/PARP-1-cleaved-In-Cell-ELISA-Kit-IR-ab110215.html And if all what they want to know is whether or not the compound is toxic to mitochondria I would recommend to test in broad terms whether or not the specific ATP analogue has a signature of mitochondrial toxicity. If none of these tests show toxicity then the customer can purchase kit ab110217 which tests chronic toxicity of mitochondria (due to depletion of mtDNA or inhibition of mitochondrial protein synthesis). If the acute tests show toxicity, then the customer could investigate the molecular causes of such inhibition by testing direct inhibition of all OXPHOS complexes (OXC kit, ab110419) http://www.abcam.com/MitoTox%E2%84%A2-Complete-OXPHOS-Activity-Assay-Kit-5-Assays-ab110419.html. The OX5 in this pane of kits would be interesting with ATP analogues, since this kit measures the reverse reaction of ATPase by hydrolyzing ATP. One would assume that an ATP analogue would compete with ATP and perhaps inhibit the enzyme. There is also the possibility that an ATP analogue could compete with the ANT (ADENINE NUCLEOTIDE TRANSPORTER) which in turn could lead to ATP depletion.

MITOCHODRIOLOGIE
mitochodrioOLOGY
mitochondrioPATHOLOGY 

TVR1
http://www.freeintertv.com/view/id-2562

TOPAZ
https://topaz.uottawa.ca/TOPAZElements/default.aspx

Mail pour OTW
https://mail.uottawa.ca/owa/

MedPurch - Comenzi
https://purchasing.med.uottawa.ca

R & Bioconductor Manual
http://manuals.bioinformatics.ucr.edu/home/R_BioCondManual

Assurance pour OTW
http://hrdocrh.uottawa.ca/info/fr-ca/nuro/insurances.html

VirtuO
http://www.uottawa.ca/fr/employes
?

Mandatory training
http://orm.uottawa.ca/training/worker

about hazards - Material Safety Data Sheets (MSDS)
http://orm.uottawa.ca/whmis/
http://orm.uottawa.ca/resources/material-safety-data-sheet
Safety Data Sheet (SDS) 
http://www.ccohs.ca/oshanswers/chemicals/whmis_ghs/sds.html

IBM Manager
https://accesuoaccess.uottawa.ca/itim/self/Home.do
Books and e-books
https://biblio.uottawa.ca/en/find/books-and-e-books

cell ontario
http://www.speakout7eleven.ca/prepaid-cellphones

Core Centers and Services
http://www.medecine.uottawa.ca/cellmed/eng/corelab.html
http://www.medecine.uottawa.ca/cellmed/eng/research_interests_cellmed_graduate_program.html#KD

MICRO
http://www.olympusmicro.com/primer/photomicrography/javaindex.html
http://www.microscopyu.com/articles/formulas/index.html

TOP2016 (I) UTor30 McGill42 UdM118 UdOtt193 UdLav234 UdSh478 UConc479 Uqam639
http://cwur.org/2016.php

TOP2016 (II) UTor30 McGill32 UdM126 UdOtt291 UdLav372 UdSh601-650 UConc461-470 Uqam501-550
http://www.topuniversities.com/universities/universit%C3%A9-de-montr%C3%A9al#wur
http://www.topuniversities.com/university-rankings/world-university-rankings/2016

https://en.wikipedia.org/wiki/Masha_and_the_Bear

http://ontario.compareschoolrankings.org/secondary/SchoolsByRankLocationName.aspx
http://ontario.compareschoolrankings.org/secondary/Earl_of_March_Secondary_School/Kanata/Report_Card.aspx

Mito-Morphology Macro 
http://imagejdocu.tudor.lu/doku.php?id=plugin:morphology:mitochondrial_morphology_macro_plug-in:start

kids
http://www.microbehunter.com/

Scientific data management system
http://www.limswiki.org/index.php/Scientific_data_management_system

Transport through the outer membrane: characteristics of Tom complex.   
http://cytochemistry.net/cell-biology/mitoch3.htm

mmd holographic
https://www.youtube.com/results?search_query=mmd+holographic
https://youtu.be/UjwXLEkRNRA?list=PLz85aO9GVegkI5dPEzaUAyNIiGjg6_RHX
https://www.youtube.com/watch?v=Y60mfBvXCj8

Eppendorf Centrifuge Speed Calculator
https://www.eppendorf.com/US-en/Products/Special/Webtools/centrifuge-speed-calculator/?_ga=1.60063085.1398891800.1462893803

https://www.sciencedaily.com/

https://www.treated.com/dr-wayne-osborne/which-countrys-christmas-dinner-packs-the-most-calories-find-out-with-our-heat-map-of-europe

microcopie open
http://www.openmicroscopy.org/site/products/omero
http://www.openmicroscopy.org/site
http://www.glencoesoftware.com/

http://people.csail.mit.edu/mrub/vidmag/
The underlying technology used by the software is called Eulerian Video Magnification (EVM), which essentially tracks the variation of individual pixels over time — and then exaggerates those differences. (free Matlab code and executables implementing Eulerian video processing for amplifying color and motion changes)
http://video.sciencemag.org/VideoLab/2127025900001/

http://www.physiologyweb.com/index.html

http://www.popsci.com/

Deuterium depletion and mitochondrial NADPH production
https://www.youtube.com/watch?v=GkYAjabGxJs

http://www.aerobiology.ca/forecasting/

LINK 
http://www.mnh.si.edu/exhibits/backyard-dinosaurs/finding-fossils.cfm

C2C12 and BC3H-1 cell lines cardiac

http://www.johnkyrk.com/krebs.html

/%

Hello,

If you choose to change this GettingStarted tiddler, you may wish to add the following to your new content if you expect you space to be included:

<<<
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Hello,
''This ~GettingStarted tiddler has been customized.''
If you want to see the original system tiddler just click the following link: GettingStarted@system-info at system-info.
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%/

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!EXemple

Safe Minimum Cooking Temperatures

Use this chart and a food thermometer to ensure that meat, poultry, seafood, and other cooked foods reach a safe minimum internal temperature.
Remember, you can’t tell whether meat is safely cooked by looking at it. Any cooked, uncured red meats – including pork – can be pink, even when the meat has reached a safe internal temperature. 
Why the Rest Time is Important
After you remove meat from a grill, oven, or other heat source, allow it to rest for the specified amount of time. During the rest time, its temperature remains constant or continues to rise, which destroys harmful germs. How Do You Use a Food Thermometer? Place the food thermometer in the thickest part of the food. It should not touch bone, fat, or gristle. Start checking the temperature toward the end of cooking, but before you expect it to be done. Be sure to clean your food thermometer with hot soapy water before and after each use.

|cssClass|k
|!Category Food|Temperature (°F) 	|Rest Time|h
|Ground Meat & Meat Mixtures Beef, Pork, Veal, Lamb	|160	|None|
|Turkey, Chicken|165|None|
|Fresh Beef, Veal, Lamb	Steaks, roasts, chops|145|3 minutes|
|Poultry Chicken & Turkey, whole|165|None|
|Poultry breasts, roasts|165	|None|
|Poultry thighs, legs, wings|165|None|
|Duck & Goose|165	|None|
|Stuffing (cooked alone or in bird)|165|None|
|Pork and Ham	Fresh pork|145|3 minutes|
|Fresh ham (raw)|145|3 minutes|
|Precooked ham (to reheat)|140|None|
|Eggs & Egg Dishes	Eggs|Cook until yolk and white are firm	|None|
|Egg dishes|160|None|
|Leftovers & Casseroles	Leftovers	|165	|None|
|Casseroles|165|None|
|Seafood	Fin Fish|145 or cook until flesh is opaque and separates easily with a fork |None|
|Shrimp, lobster, and crabs|Cook until flesh is pearly and opaque|None|
|Clams, oysters, and mussels	|Cook until shells open during cooking|None|
|Scallops	|Cook until flesh is milky white or opaque and firm|None|

www.fsis.usda.gov/wps/portal/fsis/topics/food-safety-education/teach-others/fsis-educational-campaigns/is-it-done-yet/thermometer-placment-and-temperatures/CT_Index

!Recipe Whiskey BBQ Sauce 
Ingredients
1 cup good quality organic ketchup
1/2 cup tomato passata or pure
1/2 cup beef stock
3 shots bourbon whiskey
1/4 cup Worcestershire sauce
2 tablespoons light brown sugar
2 tablespoons cider vinegar
1 teaspoon coarse black pepper
1 teaspoon celery seed
1 tablespoon chili powder or hot paprika
1 rib celery, minced with leafy tops
1/4 cup grated onion
2 large cloves garlic, grated or finely chopped - See more at: http://www.rachaelrayshow.com/recipe/13129_Whiskey_BBQ_Sauce/#sthash.MvbXZ7QH.dpuf
Combine sauce ingredients in a small pot and reduce over a low bubble for about 30 minutes.

!version 2 Whiskey BBQ Sauce
Prep time 20 mins Cook time 1 hour 15 mins
When you make this easy Whiskey BBQ Sauce, the end product is a tangy dance of flavors that give your summer barbecued meats a mouthwatering finish.Author: Krissy Allori
Ingredients

    1/2 small yellow onion, minced
    4 cloves garlic, minced
    3/4 cup bourbon whiskey (I used Jack Daniels)
    1/2 teaspoon fresh ground pepper
    1/2 tablespoon kosher salt
    2 cups ketchup
    1/4 cup tomato paste
    1/3 cup apple cider vinegar
    2 tablespoons liquid smoke
    1/4 cup Worcestershire sauce
    1/2 cup packed brown sugar
    Dash of hot pepper sauce

Instructions: Over medium heat in heavy bottom sauce pan, cook onion and garlic in whiskey until tender and translucent, about 10 minutes. Mix in remaining ingredients and stir.Bring to a boil, then reduce heat to a simmer and cook for 1 hour. This recipe can be doubled, tripled or quadrupled, if desired, and canned in a water bath for future use.

https://en.wikipedia.org/wiki/Diffraction_grating

!Standard tuning
https://en.wikipedia.org/wiki/Guitar_chord#CAGED_major_chords
https://de.wikipedia.org/wiki/Gitarrengriff
http://my.vexflow.com/articles/119?source=enabled
http://www.looknohands.com/chordhouse/guitar/index_rb.html
http://lectii-chitara.ro/category/chitara-acustica/incepator/page/2/

!Guitar chords java
http://jtab.tardate.com/

http://musictheorysite.com/namethatchord

C D E F G A B 
adica
Cdo Dre Emi Ffa Gsol Ala Bsi 

!Hotel Calif
Bm F# A E G D Em F#
G D F# Bm G D Em F#

!If It Hadn't Been For Love - Adele
Am F E Am
C G Dm C 
C G Dm Am

!You Shook Me All Night Long - AC/DC
  G C G4 C D G D G
 C9
 G C D G C D G 
 G C D G C D D7
 G C G D C D 

!Highway To Hell - AC/DC
A  D5/F#  G5 D5/F# A
A D5/F#  G5 D5/F#  E5

https://www.youtube.com/watch?v=OHiNYPeixa4
Fractions on a Number Line using Fraction Tower Cubes

http://www.ubble.co.uk/
the UbbLE Risk Calculator

https://portail.csdm.qc.ca/Anonym/Accueil/Accueil.aspx?ReturnUrl=%2fSecure%2fAssembleur%2fNewAssembleur.aspx%3fIdPage%3d5497420&IdPage=5497420

http://yuccie.tiddlyspace.com/tw5

https://ro.wikipedia.org/wiki/Lista_monumentelor_istorice_din_jude%C8%9Bul_Suceava#SV-IV-m-B-05697

Rosu 650 nm Green 532 nm Diametru par  - O / (distance laser wall and distance of the first dark area) = 8,8cm / 880 cm = 0,01 x 532 = 53 µm (?)

(SF) TMRE 30nM (SF) CsA 5µM (SF) CCCP 50µM (SF) Oly 5µM

http://www.nature.com/nature/journal/vaop/ncurrent/full/nature14558.html
Neanderthals are thought to have disappeared in Europe approximately 39,000–41,000 years ago but they have contributed 1–3% of the DNA of present-day people in Eurasia1. Here we analyse DNA from a 37,000–42,000-year-old2 modern human from Peştera cu Oase ... suggesting that the Oase population did not contribute substantially to later humans in Europe.

!Engineered Water Nanostructures (EWNS) Harvard
Il ya maintenant une eau modifié physiquement, émet des ROS pendant 30 minutes puis devient l'eau ordinaire.
   The water nanostructures (atomized water)contain reactive oxygen species, such as hydroxyl and superoxide radicals. Toxicological studies on mice by Demokritou’s team have shown that the EWNS have minimal toxicological effects. No respiratory tract toxicity was found at exposure levels and times higher and longer than those needed to inactivate the bacteria. Demokritou explains that the radicals are harmless to cell membranes in the lungs of test animals because ‘the organic matter in the lung lining fluid which covers the epithelial cells neutralises the reactive oxygen species, so they never reach the cells.’
https://youtu.be/iYLvosH7_Uw
http://www.hsph.harvard.edu/nano/in-the-news/
http://www.the-scientist.com/?articles.view/articleNo/42346/title/Nanobombs-Terminate-Foodborne-Microbes/
http://pubs.rsc.org/en/Content/ArticleLanding/2014/EN/c3en00007a#!divAbstract

!Garcinia cambogia, 
a tropical fruit The active ingredient in the fruit's rind, hydroxycitric acid, or HCA, has boosted fat-burning and cut back appetite in studies. It appears to block an enzyme called citrate lyase, which your body uses to make fat. It also raises levels of the brain chemical serotonin, which may make you feel less hungry.
ATP citrate lyase is an enzyme that represents an important step in fatty acid biosynthesis.This step in fatty acid biosynthesis occurs because ATP citrate lyase is the link between the metabolism of carbohydrates (which causes energy) and the production of fatty acids.
L’ATP citrate lyase est une acyltransférase importante de la biosynthèse des acides gras qui clive le citrate en oxaloacétate et acétyl-CoA avec hydrolyse concomitante d'une molécule d'ATP en ADP et Pi.
    citrate + ATP + CoA + H2O-->oxaloacetate + Acetyl-CoA + ADP + Pi.
This enzyme was formerly listed as EC 4.1.3.8

!Le risque cardiaque peut être détecté dans les cheveux trois mois avant une crise éventuelle.
(En paraphrase peut être appliquée aux mitochondries ds Primary Human Renal Proximal Tubule Epithelial Cells) 
Le stress chronique étant un facteur important dans la survenue d'une crise cardiaque, Gideon Koren et ses collègues de l'université Western Ontario (Canada) ont analysé le niveau de cortisol, l'hormone du stress, dans les cheveux d'hommes venant juste d'avoir une crise. Sachant que le cheveu pousse d'environ 1 cm par mois, les chercheurs ont observé que l'augmentation de cortisol remontait à trois mois avant la crise.
http://www.ncbi.nlm.nih.gov/pubmed/20812871

!ctv.ca
http://www.ctv.ca/video/player?vid=68993&liveid=CTV

!Digital holographic microscopy (DHM)
https://en.wikipedia.org/wiki/Digital_holographic_microscopy
Digital holographic microscopy distinguishes itself from other microscopy methods by not recording the projected image of the object. Instead, the light wave front information originating from the object is digitally recorded as a hologram, from which a computer calculates the object image by using a numerical reconstruction algorithm.

!!Phase Holographic Imaging AB (Lund Sweden)
http://www.phiab.se/
Video of HoloMonitor in incubator
https://www.youtube.com/watch?v=LAr63pQPunA
Time-lapse-cytometry
http://www.phiab.se/applications/time-lapse-cytometry

Cellular apoptosis imaged by holographic microscopy 
https://www.youtube.com/watch?v=cEqQK3OBC5g

https://www.youtube.com/watch?v=zCtB_n0LsNE

!!Lyncée Tec (Lausanne, Switzerland)
explication 
http://www.lynceetec.com/dhm-tutorials/
APPLICATIONS
http://www.lynceetec.com/category/applications/
Cell Based Assays, Ion Channels, 4D Cell Imaging, Red Blood Cell RBC,
electro neutral ionic transport measurement, Water Channels.
http://www.lynceetec.com/transmembrane-water-flux/
http://www.lynceetec.com/high-content-screening/
^^IN MONTREAL  SOQUELEC Ltée
5757, boulevard Cavendish, bureau 540 Montréal, QC H4W 2W8 Canada
www.soquelec.com Tel: +1 514 482 6427 Fax: +1 514 482 1929 slakmon@soquelec.com^^

!!4-deep (Halifax, Nova Scotia)
oceanic research oriented
http://4-deep.com/desktop-microscope/ 

http://www.gapminder.org/world/#$majorMode=chart$is;shi=t;ly=2003;lb=f;il=t;fs=11;al=30;stl=t;st=t;nsl=t;se=t$wst;tts=C$ts;sp=5.59290322580644;ti=1800$zpv;v=0$inc_x;mmid=XCOORDS;iid=-;by=ind$inc_y;mmid=YCOORDS;iid=-;by=ind$inc_s;uniValue=8.21;iid=-;by=ind$inc_c;uniValue=255;iid=-;by=ind$map_x;scale=log;dataMin=194;dataMax=96846$map_y;scale=lin;dataMin=23;dataMax=86$map_s;sma=49;smi=2.65$map_c;scale=lin$cd;bd=0$inds=;example=60

Interactive Live Holography - From Science Fiction to Science Fact 
https://www.youtube.com/watch?v=AIj2xEd_z78

!Heart 3d
http://www.smithsonianmag.com/smart-news/travel-inside-human-heart-video-180955757/
https://www.youtube.com/watch?t=159&v=2LPboySOSvo

!Traking obj (for mitochondria mouvment)
http://www.researchgate.net/publication/255979617_Real-time_tracking_and_fast_retrieval_of_persons_in_multiple_surveillance_cameras_of_a_shopping_mall
http://openeuroscience.com/software/computer-vision-and-motion-tracking-software/
http://openvisionc.sourceforge.net/
https://www.youtube.com/watch?v=ECa4lUD-WFs
https://www.youtube.com/watch?feature=player_detailpage&v=YHmRJHp0k5M

http://www.tldvision.com/
https://github.com/zk00006/OpenTLD
https://github.com/zk00006/OpenTLD/wiki

!omotenashi
http://gakuran.com/top-50-japanese-buzzwords-of-2013/

http://mitobusters.tiddlyspace.com/#

http://ed.ted.com/lessons

!calorie
https://www.youtube.com/watch?v=VEQaH4LruUo

!Evolutia artei: cum se creeaza personaje umane folosind arta digitala
primul episod al producției ReForm
https://www.youtube.com/watch?v=lTC3k9Iv4r0

cel de-al doilea episod al producției ReForm, parte din The Creators Project, care conține informații cu privire la evoluția culturii vizuale contemporane și la cele mai recente tehnologii utilizate în cinematografie pentru crearea personajelor umane.
https://www.youtube.com/watch?t=72&v=99gMbK2QCKE

!Solar cycle 24
Every 11 years as part of the solar cycle, the Sun's magnetic field flips.
http://www.smithsonianmag.com/science-nature/the-suns-magnetic-field-is-about-to-reverse-3738753/#DHqEwUqu1CgIIOye.99
https://en.wikipedia.org/wiki/Solar_cycle


!The Golden Quarter
Some of our greatest cultural and technological achievements took place between 1945 and 1971. Why has progress stalled? Yet there once was an age when speculation matched reality. It spluttered to a halt more than 40 years ago. Most of what has happened since has been merely incremental improvements upon what came before. That true age of innovation – I’ll call it the Golden Quarter – ran from approximately 1945 to 1971. Just about everything that defines the modern world either came about, or had its seeds sown, during this time. The Pill. Electronics. Computers and the birth of the internet. Nuclear power. Television. Antibiotics. Space travel. Civil rights. There is more...Today, progress is defined almost entirely by consumer-driven, often banal improvements in information technology. The US economist Tyler Cowen, in his essay The Great Stagnation (2011), argues that, in the US at least, a technological plateau has been reached. Sure, our phones are great, but that’s not the same as being able to fly across the Atlantic in eight hours or eliminating smallpox. As the US technologist Peter Thiel once put it: ‘We wanted flying cars, we got 140 characters.’ 
http://aeon.co/magazine/science/why-has-human-progress-ground-to-a-halt/

!Filme trend
http://priceonomics.com/the-rise-of-the-action-movie/
Why Wes Anderson Films Are Pastel and “The Matrix” Is Mostly Green 
http://tss.nautil.us/5188
How Animals See the World
http://nautil.us/issue/26/color/how-animals-see-the-world-rp

!microscopy4kids
http://virtual.itg.uiuc.edu/training/LM_tutorial/
from
http://microscopy4kids.org/9-12_educators
from 
http://valelab.ucsf.edu/
[micromanager nih creators]

!BBC Documentary - The Cell 1 of 3 The Hidden Kingdom 
https://www.youtube.com/watch?v=nc9aSq22nmo

Recombinant immunoblot assay (RIBA) (?) multi-antigen test according to the Western blot principle.

!Lanosterol reverses protein aggregation in cataracts
http://www.nature.com/nature/journal/vaop/ncurrent/full/nature14650.html

!Overlaying graphs on a Prism layout.
http://www.graphpad.com/support/faqid/1469/

TMRE KIT
http://www.immunochemistry.com/products/mitopt-tmre-assay-kit.html

http://www.mathpapa.com/algebra-calculator.html

http://phenolyzer.usc.edu/
http://www.nature.com/nmeth/journal/v12/n9/abs/nmeth.3484.html

!Count cells with Casio fx-991MS 
tips and tricks
counting up by 1:
press > ON (open casio)
> AC
> 1 > Ans
> AC
> 1 > + > Ans > =
then > = > = >= 
result will be counting 2 3 4 5 6 7 8 ....
To Reset Memory:
Press >Shift > [CLR] > 3 = (clear All).
To close:
SHIFT AC (shut down CASI0)

short version 
ON
1 > + > Ans > = = = 
Shift > [CLR] > 3
AC
SHIFT AC 

!Infected Mitochondria? 
The bacterium //Midichloria mitochondrii// infects mitochondria. (The name of this bacterial genus, //Midichloria// is derived from the midi-chlorians, a an endo - symbiont, microscopic life form described in the fictional Star Wars universe. They are organisms described in the Star Wars as being present inside all living cells, and being responsible for the Force ^^Roman Kroitor^^. While their paper (2006) was being reviewed, Nate Lo submitted the suggested name to George Lucas, and received a reply from Lucas's assistant which gave permission for them to name the bacterium). //Midichloria mitochondrii// is a species of bacteria which infects the ovaries of the tick species //Ixodes ricinus//. Unusually, it specifically infects the mitochondria. The infection seems to have no effect on the ticks. 

In case of HIV, viral RNA have been found inside mitochondria. //Herpes// can directly induce mitochondrial degradation, but is not a prime requirement for replication. In case of /Flock house virus/, RNA replication occurs on outer mitochondrial membranes. //Nodamura virus// is another debated example. 
Eliminate mutated "older" mito for new "younger". There's no way of getting a bacterio phage to get it into the eukaryotic host cell first  and then into the mitochondria. But trojan horse bacteriovirus basically, you make a phage genome but you package it in vitro with eukaryotic viral coat proteins. This infects the eukaryotic cell. The phage genome encodes the packaging proteins necessary to re-package it as an active bacterio phage to enter the mitochondria. The phage would also encode, senquence for mutaion in mitochondrion. Personal mtDNA is screwed, evolutionarily speaking, fetal DNA is as "old" as the mother's DNA as far as its genes go that means all mtDNA is realy old.

!The Loebner Prize in Artificial Intelligence
http://www.loebner.net/Prizef/loebner-prize.html
The Loebner Prize is an annual competition in artificial intelligence that awards prizes to the chatterbot considered by the judges to be the most human-like. Marvin Minsky (confocal AI) - (5000 î.Hr. și alte fantezii filosofice pdf)

http://rationalwiki.org/wiki/RationalWiki:Contents
http://rationalwiki.org/wiki/Leonard_Coldwell

http://www.christelleisflabbergasting.com/2011/04/financier-noisette-et-creme-de-marrons.html

PMID 26385109 Regensburg Oxytocin Challenge (ROC) test  sport or .. increases in salivary OXT approximately 2.5-fold after 10-15min.
PMID 26390829 single-nucleotide polymorphisms (SNPs) rs7632287 and rs4564970 in the OXT receptor gene (OXTR) are associated with the expression of antisocial behavior.

!Top-50 Books lista Daniel David
1. Biblia (care merită comparată în perioada adultă cu Coranul, Scrierile Vedice şi Budiste) 2. Basme (Andersen, Creangă, Ispirescu, fraţii Grimm) 3. Legendele Olimpului (în adaptarea lui Mitru Alexandru) 4. Homer: Iliada (la care trebuie adăugate Odiseea şi lucrarea lui Vergilius: Eneida) 5. M. Ludemis: Icar 6. K. May: Winnetou (dar merită citite toate lucrările din serie) 7. J. Verne: 20.000 de Leghe Sub Mări (dar merită citite toate lucrările din serie) 8. D. Defoe: Robinson Crusoe 9. M. Twain: Aventurile lui Huckleberry Finn 10. J. London: Chemarea Străbunilor (Sălbăticiei, aş fi spus eu) 11. A. Dumas: Contele de Monte Cristo 12. I. Asimov: Roboţii de pe Aurora (dar şi Zeii Înşişi) 13. J.R.R. Tolkien: Hobbitul (dar şi Lord of the Rings) 14. L. Carroll: Alice în Ţara Minunilor 15. M. Eliade: Maitreyi 16. U. Eco: Numele Trandafirului 17. T. Mann: Muntele Vrăjit 18. H. Hesse: Jocul cu Mărgele de Sticlă 19. E. Hemingway: Zăpezile de pe Kilimanjaro (dar şi The Old Man and the Sea) 20. F. Dostoievski: Fraţii Karamazov 21. L. Tolstoi: Război şi Pace 22. F. Kafka: Procesul 23. Platon: Republica 24. Aristotel: Politica 25. Plutarch: Lives of the Noble Greeks and Romans 26. I. Kant: Critica Raţiunii Pure (dublată de celelalte două „Critici”) 27. F. Nietzsche: Aşa Grăit-a Zarathustra (dar şi Omenesc, prea Omenesc) 28. A.N. Whitehead şi B. Russell: Principia Mathematica 29. L. Wittgenstein: Tractatus Logico-Philosophicus (traducerea Pears-McGuinness din 1961) 30. R. Carnap: The Logical Structure of the World (dar şi Pseudoproblems in Philosophy) 31. K. Popper: The Logic of Scientific Discovery 32. W. Quine: From a Logical Point of View (conţine „Two Dogmas of Empiricism”) 33. T. Kuhn: Structura Revoluţiilor Ştiinţifice 34. P. Feyerabend: Against Method 35. C. Peirce: Collected Papers (lucrările fundamentale despre pragmatism; editori: Charles Hartshorne şi Paul Weiss). 36. C. Perelman: The New Rhetoric and the Humanities: Essays on Rhetoric and its Applications 37. Epictet: Discourses 38. Marcus Aurelius: Gânduri către sine însuşi 39. Sfântul Augustin: Confesiuni 40. Sun Tzu: Arta războiului 41. N. Machiavelli: Principele 42. J. Piaget: Înţelepciunea şi Iluziile Filozofiei 43. C. Darwin: Expresia emoţiilor la om şi animale (dublată de Originea Speciilor) 44. B.F. Skinner: Walden Two (dublată de About Behaviorism) 45. A. Ellis şi R. Harper: Ghid pentru o Viaţă Raţională (dublată de Reason and Emotion in Psychotherapy) 46. P. Churchland: Matter and Consciousness 47. D. Dennet: Conştiinţa explicată 48. R. Dawkins: Gena egoistă 49. G. Orwell: 1984 (dar şi Ferma Animaleor) 50. S.P. Huntington: Ciocnirea civilizaţiilor. 
Lucrările 1-11: Fundamentale pentru copilărie (formarea personalităţii) Lucrările 12-14: Fundamentale pentru dezvoltarea imaginaţiei Lucrările 15-22: Fundamentale pentru stabilizarea şi nuanţarea personalităţii Lucrările 23-36: Fundamentale pentru minte şi anvergură intelectuală/culturală (cum să înţelegem corect lumea şi pe noi înşine) Lucrările 37-50: Fundamentale pentru înţelepciune (cum să ne înţelegem pe noi înşine, în mod adecvat, în raport cu viaţa cotidiană) 

https://en.wikipedia.org/wiki/IMac_G4
Restart, hold down Command(Apple) + Option(alt) + O + F. as it boots.
https://wiki.ubuntu.com/PowerPCFAQ#Which_Macs_are_compatible_with_Ubuntu.3F
https://support.apple.com/kb/SP104?locale=en_US
http://www.makeuseof.com/tag/how-to-boot-a-linux-live-usb-stick-on-your-mac/

backup to 
http://mitolab.tiddlyspot.com/index.html#

http://classic.tiddlywiki.com/
http://themes.tiddlywiki.com/#Hawk
http://tiddlywiki.com/alltiddlers.html
http://tesis.tiddlyspot.com/
https://www.mercurial-scm.org/about

https://www.dokuwiki.org/dokuwiki#
stores all data in plain text files.
http://zim-wiki.org/
pt desktop
http://fossil-scm.org/index.html/doc/trunk/www/index.wiki

波格丹

http://lowendmac.com/2003/20-inch-imac-g4-late-2003/
http://lowendmac.com/imacs/g4-imac-index.html
Installing lubuntu on OldWorld Macs

!Electronic Lab Notebook
LabArchives
Sparklix
sciNote
LabGuru ($10/user/month)
http://www.labguru.com/
Evernote
Accelrys Electronic Lab Notebook
eLabJournal 
https://www.elabjournal.com
Docollab
https://www.docollab.com/#/
http://www.elabmanager.com/
OpenLab by Agilent.

benchling
https://benchling.com/?utm_source=researchgate&utm_medium=nishant&utm_campaign=forum-09-2015


https://mynotebook.labarchives.com/
(gmail) [udm]
https://elabftw.readthedocs.org/en/next/install-gnulinux.html
linux open source

http://openwetware.org/wiki/Protocols

http://tiddlywiki.com/languages/fr-FR/

http://www.wikimatrix.org/show/alphawiki
exemplu 
http://epsilonwiki.free.fr/alphawiki_2/

https://soundcloud.com/teknology
https://soundcloud.com/teknology/porsche-ad-demo-nick-fowler
https://soundcloud.com/teknology/daily-planet-theme-main-credits

!CANICULA - PREDICT TEMPERATURE WITH CRICKETS 
To convert cricket chirps to degrees Fahrenheit, count number of chirps in 14 seconds, then add 40 to get temperature.
Example: 30 chirps + 40 = 70° F
To convert cricket chirps to degrees Celsius, count number of chirps in 25 seconds, divide by 3, then add 4 to get temperature.
Example: 48 chirps /(divided by) 3 + 4 = 20° C
http://www.almanac.com/

https://www.researchgate.net/post/Counting_Mouse_Cardiomyocytes-Using_Sigma_CatNo_Z359629_Bright-Line_Hemacytometer_How_many_mouse_cardiomyocytes_you_count_from_this_capture

!Nocturne/Night vision screen mode on ImageJ
I'm looking for a night reading mode/pluging who invert the colors in menu for night-friendly for ImageJ.
Most computer screens emit white light that looks good in daytime, but becomes uncomfortable to look at in a dark room with a microscope (like looking to a big, bright, lamp). Research suggests that reading on a tablet for two hours before bedtime can delay your sleep by about an hour. I'am looking for an option in menu bar to instantly switch over to a dark, monochrome look to help reduce eyestrain. Photoshop is allready adapted.
For text editing I use Dark Room, based off the Mac software WriteRoom. it's a black background with a CRT-style green foreground color for your text that aims to offer a distraction-free application for writing. For text editing with Gedit (linux) the black background is easy to change:  Open gedit and go to Edit > Preferences > Font&Color. You can change it there (gedit-plugins with Obivion - dark color schema). 

!How to make Pepsi-Cola at home
PepsiCola is basically a mix of caramel, caffeine, sugar, fizzy water, citric or phosphoric acid, and eight essential oils. The emulsifier used in most soft drinks is dried acacia sap, better known as gum arabic.
Kate Rich and Kayle Brandon are bar managers at the Cube Microplex, an "alternative" cinema in central Bristol.
Brew it yourself NB. 1 batch of 7x formula will produce three batches cola syrup, or approximately 54 litres of cola.
http://www.wikihow.com/Make-OpenCola

!Tensiomètre de BIOS Diagnostics
http://biosmedical.com/downloads

!Creating a Brain Neuron Scene in Blender
https://www.youtube.com/watch?v=TPLRHBPP7QM
http://www.bioblender.eu/
http://www.scivis.it/about/
https://www.youtube.com/watch?v=qJJRC2ebvSE
https://www.youtube.com/watch?v=s6Se3hxgLSM

!pulse 15 sec x 4:
http://www.trachtenbergsystem.org/multiply-by-4/
https://fr.wikipedia.org/wiki/M%C3%A9thode_Trachtenberg

!DE PE HARD PE TXT
On explorer, select all, shift + right click, copy as path. paste on Notepad. Select all Paste in Excell.
Excell Go to Data > Text to Columns, and the wizard will walk you through the process. 
text colums selectat delimitat \ 
Order in Alfabetic order paste in Notpad.

!scos parola de pe win
1) Hold the window button + press R.
2) a little box will pop up called "run"
3) type in "netplwiz" and press ENTER
4) untick the option saying " users must enter a password....."
5) then click on 'apply'.
6) enter your password twice and click 'ok'
7) restart your computer and it'll be done.

!Eau de cologne vs toilette vs parfum
Eau fraiche - 1% to 3% aromatic oil essence dissolved in alcohol of 60º or 70º. 
Eau de cologne - 4% to 7% aromatic oil essence. 
Eau de toilette - 8% to 15% aromatic oil essence. 
Eau de parfum - 15% 22% aromatic oil essence. 
Perfume- perfume extract -The average concentration of essence in a perfume is 25% (Can go up to 40%).
from the Latin per – through – and fumare – smoke

!Hatzegopteryx thambema 
https://scontent.fyhu1-1.fna.fbcdn.net/v/t1.0-9/13876452_1299880143374118_5229657713787542348_n.jpg?oh=adc6c8fb5b554a98af1a9c4760547152&oe=58181614
- la Antipa - pterozaur ce mai mare reptila zburatoare
acum 44 ani Dan Grigorescu Valioara, in Tara Hategului

!IN-SPIRE Visual analytics
http://in-spire.pnnl.gov/videos/

!Ice Bucket Challenge- LA DÉCOUVERTE
TDP-43, une protéine qui a un drôle de comportement chez les patients atteints de la sclérose latérale amyotrophique (SLA). La TDP-43 sort du noyau des cellules des malades et s'accumule en amas. Johns Hopkins School of Medicine, à Baltimore - Science, les chercheurs montrent que la TDP-43 empêche les cellules d'utiliser de la mauvaise information génétique lorsqu'elles fabriquent des protéines. Résultat : sans cette protéine, les cellules deviennent dysfonctionnelles et meurent rapidement. voire glutamate fotbalisti ital.

!Assurance
https://fr.wikipedia.org/wiki/Prime_d%27assurance

http://hrdocrh.uottawa.ca/info/fr-ca/nuro/dental-basic.html

http://hrdocrh.uottawa.ca/info/fr-ca/nuro/dental-optional.html

https://wwwec7.manulife.com/GBEnrolmentUI/Login.aspx?language=French

http://www.manuvie.ca/wps/portal/manulifeca/Manulife.caHome/Groupbenefits/manage%20your%20plan/plan%20members/!ut/p/b1/hZJJjqNAEEXPUgdwkZh5CYbEDInNTLJBUDaYGWwMmNO3q9Xbrordl14o9L6CiImIiLt0Lot0Kvsubb5zzCaqBgLFC3SeBnsINMYFNMuZlIq4N4B_AGzqt_2QiBy8X-UeFVAJkhsO4wAoJt4E2eLtboiVo-JU_I4d5Kew1Yy-1WXdoKodn9kGX6WepbCJwdS7htlAON6WJ5YT1lk3vmuGFq3Gs4-zLMTJw1XJ7pqdFTroQ_TF0pBSr8wFzaFmdC254tUqB9vmhcIytDlWzoBsqm4aJecQXiTpSDKJD8_3QTPFj49_3uA_I4LfvN38_naPf8S-2_sL_HAGvwEuQbokUZChAc-APdBMyjUEX6UAzRAeEQE6cavXoG315lSb_UIZWtDmL8iEmueFpCWnwFJGMMku5cp48Sp_9Sq8B0ggA2gr4rk9xcrXB6ETcZm1n8tX-wk-WYFjSZJkeJKhOAAoIqgwK8gPbZE1J9fxdFQfwoOTV5G9Yr8BmVExIT2ZiyC6iu0dtu6UtDW3X2ePO42cqEgkFU2zNl_aw7mA9WksoPlScwm5Xe9Jt3Xza2a8sXlMnlOxvmhuguwqSBM-LcRd0bWdt3SLP2vl2h3LVzgJybM6MEMa4dKx3w_d6p0OIuMuZLuzcX_c0YD3fqQ7hyf9MPObPULjcbkdvevOc5p9wh-ynIeylVe0zXLiKhWEdezbKzG0_mzSdW7lFv0H41oB7Q!!/dl4/d5/L2dBISEvZ0FBIS9nQSEh/


!Cells Weekly 
is a digest of the most interesting news and events in stem cell research, cell therapy and regenerative medicine. Cells Weekly is posted every Sunday night!
http://stemcellassays.com/

http://tiddlymap.org/

https://benchling.com/
https://benchling.com/tutorials/24/writing-notebook-entries

https://fr.wikipedia.org/wiki/Liste_des_%C3%A9tablissements_d%27enseignement_coll%C3%A9gial_de_l%27agglom%C3%A9ration_de_Montr%C3%A9al

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/***
|''Name''|TiddlySpacePublishingCommands|
|''Version''|0.8.5|
|''Status''|@@beta@@|
|''Description''|toolbar commands for drafting and publishing|
|''Author''|Jon Robson|
|''Source''|http://github.com/TiddlySpace/tiddlyspace/raw/master/src/plugins/TiddlySpacePublishingCommands.js|
|''CoreVersion''|2.6.1|
|''Requires''|TiddlySpaceConfig TiddlySpaceFilters|
!Usage
Provides changeToPrivate, changeToPublic and saveDraft commands
Provides TiddlySpacePublisher macro.
{{{<<TiddlySpacePublisher type:private>>}}} make lots of private tiddlers public.
{{{<<TiddlySpacePublisher type:public>>}}} make lots of public tiddlers public.
!TODO
* add public argument?
!Code
***/
//{{{
(function($) {

var tiddlyspace = config.extensions.tiddlyspace;
var originMacro = config.macros.tiddlerOrigin;

tiddlyspace.getTiddlerStatusType = function(tiddler) {
	var isShadow = store.isShadowTiddler(tiddler.title);
	var exists = store.tiddlerExists(tiddler.title);
	if(isShadow && !exists) {
		return "shadow";
	} else if(!exists) {
		return "missing";
	} else {
		var types = ["private", "public"];
		var type = "external";
		for(var i = 0; i < types.length; i++) {
			var t = types[i];
			type = config.filterHelpers.is[t](tiddler) ? t : type;
		}
		if(config.filterHelpers.is.unsynced(tiddler)) {
			type = type == "private" ? "unsyncedPrivate" : "unsyncedPublic";
		}
		return type;
	}
};

var cmd = config.commands.publishTiddler = {
	text: "make public",
	tooltip: "Change this private tiddler into a public tiddler",
	errorMsg: "Error publishing %0: %1",

	isEnabled: function(tiddler) {
		return !readOnly && config.filterHelpers.is["private"](tiddler);
	},
	handler: function(ev, src, title) {
		var tiddler = store.getTiddler(title);
		if(tiddler) {
			var newBag = cmd.toggleBag(tiddler.fields["server.bag"]);
			this.moveTiddler(tiddler, {
				title: tiddler.fields["publish.name"] || tiddler.title,
				fields: { "server.bag": newBag }
			});
		}
	},
	toggleBag: function(bag, to) {
		var newBag;
		if(typeof bag != typeof "") {
			var tiddler = bag;
			bag = tiddler.fields["server.bag"];
		}
		if(bag.indexOf("_private") > -1) { // should make use of endsWith
			to = to ? to : "public";
			newBag = bag.replace("_private", "_" + to);
		} else {
			to = to ? to : "private";
			newBag = bag.replace("_public", "_" + to);
		}
		return newBag;
	},
	copyTiddler: function(title, newTitle, newBag, callback) {
		var original = store.getTiddler(title);
		newTitle = newTitle ? newTitle : title;
		var adaptor = original.getAdaptor();
		var publish = function(original, callback) {
			var tiddler = $.extend(new Tiddler(newTitle), original);
			tiddler.fields = $.extend({}, original.fields, {
				"server.bag": newBag,
				"server.workspace": "bags/%0".format(newBag),
				"server.page.revision": "false"
			});
			delete tiddler.fields["server.title"];
			tiddler.title = newTitle;
			adaptor.putTiddler(tiddler, null, null, callback);
		};
		publish(original, callback);
	},
	moveTiddler: function(tiddler, newTiddler, callback) {
			var info = {
			copyContext: {},
			deleteContext: {}
		};
		var _dirty = store.isDirty();
		var adaptor = tiddler.getAdaptor();
		var newTitle = newTiddler.title;
		var oldTitle = tiddler.title;
		delete tiddler.fields["server.workspace"];
		var oldBag = tiddler.fields["server.bag"];
		var newBag = newTiddler.fields["server.bag"];
		var newWorkspace = "bags/%0".format(newBag);
		cmd.copyTiddler(oldTitle, newTitle, newBag, function(ctx) {
				info.copyContext = ctx;
				var context = {
					tiddler: tiddler,
					workspace: newWorkspace
				};
				store.addTiddler(ctx.tiddler);
				tiddler.title = oldTitle; // for cases where a rename occurs
				if(ctx.status) { // only do if a success
					if(oldBag != newBag) {
						adaptor.deleteTiddler(tiddler, context, {}, function(ctx) {
							info.deleteContext = ctx;
							var el;
							if(tiddler) {
								tiddler.fields["server.workspace"] = newWorkspace;
								tiddler.fields["server.bag"] = newBag;
							}
							el = el ? el : story.refreshTiddler(oldTitle, null, true);
							if(oldTitle != newTitle) {
								store.deleteTiddler(oldTitle);
								store.notify(oldTitle, true);
							}
							if(el) {
								story.displayTiddler(el, newTitle);
							}
							if(oldTitle != newTitle) {
								story.closeTiddler(oldTitle);
							}
							if(callback) {
								callback(info);
							}
							store.setDirty(_dirty);
						});
					} else {
						if(callback) {
							callback(info);
						}
					}
					refreshDisplay();
				}
		});
	}
};

var changeToPrivate = config.commands.changeToPrivate = {
	text: "make private",
	tooltip: "turn this public tiddler into a private tiddler",
	isEnabled: function(tiddler) {
		return !readOnly && config.filterHelpers.is["public"](tiddler);
	},
	handler: function(event, src, title) {
		var tiddler = store.getTiddler(title);
		var newBag = cmd.toggleBag(tiddler, "private");
		var newTiddler = { title: title, fields: { "server.bag": newBag }};
		cmd.moveTiddler(tiddler, newTiddler);
	}
};
config.commands.changeToPublic = cmd;

/* Save as draft command */
var saveDraftCmd = config.commands.saveDraft = {
	text: "save draft",
	tooltip: "Save as a private draft",
	isEnabled: function(tiddler) {
		return changeToPrivate.isEnabled(tiddler);
	},
	getDraftTitle: function(title) {
		var draftTitle;
		var draftNum = "";
		while(!draftTitle) {
			var suggestedTitle = "%0 [draft%1]".format(title, draftNum);
			if(store.getTiddler(suggestedTitle)) {
				draftNum = !draftNum ? 2 : draftNum + 1;
			} else {
				draftTitle = suggestedTitle;
			}
		}
		return draftTitle;
	},
	createDraftTiddler: function(title, gatheredFields) {
		var tiddler = store.getTiddler(title);
		var draftTitle = saveDraftCmd.getDraftTitle(title);
		var draftTiddler = new Tiddler(draftTitle);
		if(tiddler) {
			$.extend(true, draftTiddler, tiddler);
		} else {
			$.extend(draftTiddler.fields, config.defaultCustomFields);
		}
		for(var fieldName in gatheredFields) {
			if(TiddlyWiki.isStandardField(fieldName)) {
				draftTiddler[fieldName] = gatheredFields[fieldName];
			} else {
				draftTiddler.fields[fieldName] = gatheredFields[fieldName];
			}
		}
		var privateBag = tiddlyspace.getCurrentBag("private");
		var privateWorkspace = tiddlyspace.getCurrentWorkspace("private");
		draftTiddler.title = draftTitle;
		draftTiddler.fields["publish.name"] = title;
		draftTiddler.fields["server.workspace"] = privateWorkspace;
		draftTiddler.fields["server.bag"] = privateBag;
		draftTiddler.fields["server.title"] = draftTitle;
		draftTiddler.fields["server.page.revision"] = "false";
		delete draftTiddler.fields["server.etag"];
		return draftTiddler;
	},
	handler: function(ev, src, title) {
		var tiddler = store.getTiddler(title); // original tiddler
		var tidEl = story.getTiddler(title);
		var uiFields = {};
		story.gatherSaveFields(tidEl, uiFields);
		var tid = saveDraftCmd.createDraftTiddler(title, uiFields);
		tid = store.saveTiddler(tid.title, tid.title, tid.text, tid.modifier,
			new Date(), tid.tags, tid.fields);
		autoSaveChanges(null, [tid]);
		story.closeTiddler(title);
		story.displayTiddler(src, title);
		story.displayTiddler(src, tid.title);
	}
};

var macro = config.macros.TiddlySpacePublisher = {
	locale: {
		title: "Batch Publisher",
		changeStatusLabel: "Make %0",
		noTiddlersText: "No tiddlers to publish",
		changeStatusPrompt: "Make all the selected tiddlers %0.",
		description: "Change tiddlers from %0 to %1 in this space"
	},

	listViewTemplate: {
		columns: [
			{ name: "Selected", field: "Selected", rowName: "title", type: "Selector" },
			{ name: "Tiddler", field: "tiddler", title: "Tiddler", type: "Tiddler" },
			{ name: "Status", field: "status", title: "Status", type: "WikiText" }
		],
		rowClasses: []
	},

	changeStatus: function(tiddlers, status, callback) { // this is what is called when you click the publish button
		var publicBag;
		for(var i = 0; i < tiddlers.length; i++) {
			var tiddler = tiddlers[i];
			var newTiddler = {
				title: tiddler.title,
				fields: { "server.bag": cmd.toggleBag(tiddler, status) }
			};
			cmd.moveTiddler(tiddler, newTiddler, callback);
		}
	},
	getMode: function(paramString) {
		var params = paramString.parseParams("anon")[0];
		var status = params.type ?
			(["public", "private"].contains(params.type[0]) ? params.type[0] : "private") :
			"private";
		var newStatus = status == "public" ? "private" : "public";
		return [status, newStatus];
	},
	handler: function(place, macroName, params, wikifier, paramString, tiddler) {
		var wizard = new Wizard();
		var locale = macro.locale;
		var status = macro.getMode(paramString);
		wizard.createWizard(place, locale.title);
		wizard.addStep(macro.locale.description.format(status[0], status[1]),
			'<input type="hidden" name="markList" />');
		var markList = wizard.getElement("markList");
		var listWrapper = $("<div />").addClass("batchPublisher").
			attr("refresh", "macro").attr("macroName", macroName).
			attr("params", paramString)[0];
		markList.parentNode.insertBefore(listWrapper, markList);
		$.data(listWrapper, "wizard", wizard);
		macro.refresh(listWrapper);
	},
	getCheckedTiddlers: function(listWrapper, titlesOnly) {
		var tiddlers = [];
		$(".chkOptionInput[rowName]:checked", listWrapper).each(function(i, el) {
			var title = $(el).attr("rowName");
			if(titlesOnly) {
				tiddlers.push(title);
			} else {
				tiddlers.push(store.getTiddler(title));
			}
		});
		return tiddlers;
	},
	refresh: function(listWrapper) {
		var checked = macro.getCheckedTiddlers(listWrapper, true);
		var paramString = $(listWrapper).empty().attr("params");
		var wizard = $.data(listWrapper, "wizard");
		var locale = macro.locale;
		var params = paramString.parseParams("anon")[0];
		var publishCandidates = [];
		var status = macro.getMode(paramString);
		var pubType = status[0];
		var newPubType = status[1];
		var tiddlers = params.filter ? store.filterTiddlers(params.filter[0]) :
			store.filterTiddlers("[is[%0]]".format(pubType));
		var enabled = [];
		for(var i = 0; i < tiddlers.length; i++) {
			var tiddler = tiddlers[i];
			var title = tiddler.title;
			if(!tiddler.tags.contains("excludePublisher") && title !== "SystemSettings") {
				publishCandidates.push({ title: title, tiddler: tiddler, status: pubType});
			}
			if(checked.contains(title)) {
				enabled.push("[rowname=%0]".format(title));
			}
		}

		if(publishCandidates.length === 0) {
			createTiddlyElement(listWrapper, "em", null, null, locale.noTiddlersText);
		} else {
			var listView = ListView.create(listWrapper, publishCandidates, macro.listViewTemplate);
			wizard.setValue("listView", listView);
			var btnHandler = function(ev) {
				var tiddlers = macro.getCheckedTiddlers(listWrapper);
				var callback = function(status) {
					$(".batchPublisher").each(function(i, el) {
						macro.refresh(el);
					});
				};
				macro.changeStatus(tiddlers, newPubType, callback);
			};
			wizard.setButtons([{
				caption: locale.changeStatusLabel.format(newPubType),
				tooltip: locale.changeStatusPrompt.format(newPubType),
				onClick: btnHandler
			}]);
			$(enabled.join(",")).attr("checked", true); // retain what was checked before
		}
	}
};

})(jQuery);
//}}}

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

!Spaces
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!Drafts
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''First PART'': Cryopreservation of Human Blood Cells
''Second PART'': Isolation and plating of  Monocytes, Lymphocytes, Neutrophils and Platelets from human blood without activation.   
''Third PART'': Measurement of mitochondrial function for monitoring pathological processes and the impact of treatments.
''Fourth PART'': Analysis and FACS measurmets

BD Vacutainer® CPT glass molecular diagnostics tube. 
http://catalog.bd.com/nexus-ecat/getProductDetail?productId=362761

PROCEDURE

    The BD Vacutainer® CPT™ Tube with Sodium Citrate should be at room temperature (18-25ºC) and properly labeled for patient identification.

    Collect blood into the tube using the standard technique for BD Vacutainer® Evacuated Blood Collection Tubes (see Venipuncture Technique & Sample Collection section and Prevention of Backflow section).

    After collection, store tube upright at room temperature until centrifugation. Blood samples should be centrifuged within two hours of blood collection for best results. 

 Centrifuge tube/blood sample at room temperature (18-25ºC) in a horizontal rotor (swing-out head) for a minimum of 20 minutes at 1500 to 1800 RCF (Relative Centrifugal Force).

NOTE: Remix the blood sample immediately prior to centrifugation by gently inverting the tube 8 to 10 times. Also, check to see that the tube is in the proper centrifuge carrier/adapter.

    After centrifugation, mononuclear cells and platelets will be in a whitish layer just under the plasma layer (see Figure). Aspirate approximately half of the plasma without disturbing the cell layer. Collect cell layer with a Pasteur pipette and transfer to a 15 mL size conical centrifuge tube with cap. Collection of cells immediately following centrifugation will yield best results.

    An alternative procedure for recovering the separated mononuclear cells is to resuspend the cells into the plasma by inverting the unopened BD Vacutainer® CPT™ Tube gently 5 to 10 times. This is the preferred method for storing or transporting the separated sample for up to 24 hours after centrifugation. To collect the cells, open the BD Vacutainer® CPT™ Tube and pipette the entire contents of the tube above the gel into a separate vessel.

Suggested Cell Washing Steps:

    Add PBS to bring volume to 15 mL. Cap tube. Mix cells by inverting tube 5 times.

    Centrifuge for 15 minutes at 300 RCF. Aspirate as much supernatant as possible without disturbing cell pellet.

    Resuspend cell pellet by gently vortexing or tapping tube with index finger.

    Add PBS to bring volume to 10 mL. Cap tube. Mix cells by inverting tube 5 times.

    Centrifuge for 10 minutes at 300 RCF. Aspirate as much supernatant as possible without disturbing cell pellet. Resuspend cell pellet in the desired medium for subsequent procedure. 

LIMITATIONS Volume of Blood

The exact quantity of blood drawn will vary with the altitude, ambient temperature, barometric pressure, and venous pressure. The minimum volume of blood that can be processed without significantly affecting the recovery of mononuclear cells is approximately 3.0 mL for 4 mL draw and approximately 6 mL for 8 mL draw. However, hematological parameters such as a low hematocrit or a low mean corpuscular hemoglobin concentration may also adversely affect product performance, with increased red blood cell contamination above gel barrier.

Temperature
Since the principle of separation depends on a density gradient, and the density of the components varies with temperature, the temperature of the system should be controlled between 18-25ºC during separation.

Centrifugation
Since the principle of separation depends on the movement of formed elements in the blood through the separation media, the "RCF" should be controlled at 1500 RCF to 1800 RCF. The time of centrifugation should be a minimum of 20 minutes. (As noted in the trouble shooting section, some specimens may require up to 30 minutes for optimal separation.) Centrifugation of the BD Vacutainer® CPT™ Tube up to 30 minutes has the effect of reducing red blood cell contamination of the mononuclear cell fraction. Centrifugation beyond 30 minutes has little additional effect. The BD Vacutainer® CPT™ Tube may be recentrifuged if the mononuclear "band" or layer is not disturbed. 
Time

Blood samples should be centrifuged/separated within two hours of blood drawing. Red blood cell contamination in the separated mononuclear cell fraction increases with longer delays in sample separation. Mononuclear cell recovery decreases with increased time delay before centrifugation, falling to approximately 40% mononuclear cell recovery at 24 hours.

Cell Separation
As with other separation media, density gradient separation using BD Vacutainer® CPT™ Tubes may alter the proportion of some lymphocyte subsets (e.g., T and B cells) from those in unseparated whole blood (4,5). This alteration is believed to be relatively insignificant in normal cases. However, in cases where the subject is leucopenic or lymphopenic, the selective loss of one subset may alter proportions significantly.

Certain disease states and/or drugs may also alter cell density and therefore affect separation using BD Vacutainer® CPT™ Tubes(6).

Microbial Contamination
Microbial contamination of reagents may alter the results obtained on cells separated using BD Vacutainer® CPT™ Tubes.

Separated Cell Assays
For determinations other than those described in the results section, the user should establish to his or her satisfaction that the values obtained meet his or her criteria for his or her application.

Platelet Contamination
Studies indicate that mononuclear cell samples separated by the BD Vacutainer® CPT™ Tube method have approximately 1.3 times the platelet concentration
obtained using the FICOLL™ Hypaque™ method. 


http://www.jove.com/video/52227/rapid-fractionation-isolation-whole-blood-components-samples-o

http://www.stemcell.com/en/Products/Popular-Product-Lines/SepMate.aspx

https://www.researchgate.net/topic/white_blood_cells

https://www.researchgate.net/post/How_can_one_isolate_WBCs_from_a_buffy_coat

https://www.researchgate.net/file.PostFileLoader.html?id=56e044be217e20378d7728be&assetKey=AS%3A337754006278144%401457538238139


! First PART Collect & Cryopreservation of Human Blood Cells 

Slow cooling in the presence of a cryoprotectant to avoid the damaging effects of intracellular ice formation. 
Volontaires/Pacients P1 - P8; Date Programation:
  *   Mardi 22 mars 2016 vers 8:30 (P1 & P2)
  *   Mercredi 23 mars 2016 vers 8:30  (P3 & P4)
  *   Mercredi 30 mars 2016 vers 8:30  (P5 & P6)
  *   Jeudi 31 mars vers 8:30  (P7 & P8)

(A →  DMSO [10%] ) (B →  DMSO  [6%]  + Trehalose [30mM])
  *   T1 after 2 weeks  
mer 6 april P1A P1B jeu 7 april P2(A) P2(B)

  *   T2 after 4 weeks
  *   T3 after 6 weeks
  *   T4 after 8 weeks
  *   T0 fresh temp 0

⓪ The following protocol for freezing blood cells uses 2 cryosolution 
''freezing medium A'': plasma serum + DMSO [10%] 
''freezing medium B'': plasma serum + DMSO  [6%]  + Trehalose [30mM].

''ONE Day before PREPARATION''
⧓ Keep RT Mr. Frosty™ Freezing Container
⧓ Prepare plates with CelTak
⧓ Remove the Histopaque from the refrigerator the previous day and let the bottles stand on the bench overnight.
⧓ Heat water bath
⧓ Heat Seahorse plate
⧓ Prepare BD Vacutainer ACD tubes

① Collect blood via venipuncture directly into 10 tubes (× 8 mL = 80 mL) in BD Vacutainer ACD tubes (with yellow caps) Cat. No # REF 364606 8.5 mL 16 × 100 mm) contain 1.5 mL of ACD (Anticoagulant Acid Citrate Dextrose). Store tube(s) at room temperature, for minimum 30 minutes, cell degradation will occur if tubes are stored for more than four hours.

② Centrifuge whole blood at ''1900'' rpm (rcf 500 × g) for ''15'' minutes at room temperature in a Centra CL 2 centrifuge (Rotor IEC 236 - with swinging bucket rotor) or equivalent. Be sure that the tubes are in good positions. Centrifuge P1 first (4 + 1 & 4 + 1) and P2 after that.

③ After centrifugation, bring the tubes to a biological safety hood and carefully open the yellow tops. Using a glass pipette, gently remove the top layer that contains the Platelet Rich Plasma (''PRP'') //Plasma Riche en Plaquettes// with a transfer pipette until 1 cm remains above the cell layer (Erythrocyte/Buffy Coat). 
Transfer the cell suspension from the tube(s) to a 15 mL conical polypropylene (Tube15mL). Set aside the PRP at room temperature for freezing step ⑧. High lipid levels, rheumatoid factor, anemia, and drug treatment are all possible causes for poor separation of a specific donor’s blood. If the plasma is not clear, this is an indication of high lipid levels.

④ ''Buffy Coat Part'': With a transfer pipette collect the thin layer of cells that “coats the red cells” Buffy Coat, so-called because it is usually buff in hue [aprox. 4 - max 6 mL]. To be sure take aprox. ''1'' + ''1'' cm layer and transfer to a sterile Tube15mL. 
Look at the schema drawn. 

⑤ Take small sample for ''counting'' and FACS and divide all Buffy Coat in 3 tubes A, B and (C for fresh analysis). Centrifuge A^^Buffy Coat^^ and B^^Buffy Coat^^ at ''1900'' rpm (rcf 500 × g) for ''15'' min at room temperature.  
Tube C dilute with 4 × RPMI for magnetic selection.  
Dilute tube A^^Buffy Coat^^ with 4°C ''4'' mL freezing medium A while gently swirling the tube and dilute tube B^^Buffy Coat^^ with 4°C ''4'' mL freezing medium B. 
Mix gently. Immediately place the tube on ice. Avoid any further mixing or agitation of the cells. The period of time between mixing the cryoprotectant with the cell suspension and beginning the cooling process is called the ''equilibration period''. For most cells, equilibration should occur for ''10'' minutes, allows time for the cryoprotective agent to penetrate the cells. Cells placed in solutions containing permeating solutes initially shrink rapidly from the osmotic loss of water and then re-expand more slowly as the permeating solutes penetrate and water renters to maintain osmotic equilibrium. The result is the so-called shrink-swell curve. 

⑥ Slowly remove the cell suspension into a pipet and dispense ''1'' mL per cryovial on ice.

⑦ Place the cryovials wrapped in aluminum foil in a pre-cooled ''Mr. Frosty''™ Freezing Container that has been filled with 250 mL isopropyl alcohol (isopropanol) 70-100% designed to achieve a rate of cooling very close to −1°C/minute. Place the freezing container at − 80 °C for minimum 180 minutes to reach − 60 °C stabilization temperature. The delivery can be done in dry ice (− 78.5 °C). After one month the cells must be maintained below −130˚C to assure long-term stability for up to 3 years. Use isopropanol for max. 5 cycles.

⑧ ''PRP Part'':  centrifuge PRP tubes from step ③ ''3200'' rpm (rcf 1,500 × g) for ''10'' min at room temperature. 

⑨ Remove the plasma serum (will be use as FBS replacement). 

⑩ Wash cell pellet once with sterile ''5'' mL buffer (PBS Macs +BSA) supplemented with 1 µg/mL PGI2. [dilute ''3'' µL stok in 6 mL or 15µL in 30 ]
Take small sample for countig by turbimetry. 
Divide in tube A^^PRP^^ B^^PRP^^ & (C^^PRP^^ - fresh).

⑪ Centrifuge ''3200'' rpm (rcf 1,500 × g) for ''10'' min at room temperature.

⑫ Suspend final pellet from tube A^^PRP^^ in ''4'' mL of freezing medium A. Same for B^^PRP^^.

⑬ Mix gently. Immediately place the tube on ice. 

⑭ Slowly remove the cell suspension into a pipet and dispense ''1'' mL per cryovial on ice.

⑮ Place the cryovials wrapped in aluminum foil ''Mr. Frosty''™ Freezing Container.

⑯ Place the freezing container at ❆ − 80 °C for minimum 180 minutes max 24h to reach − 60 °C stabilization temperature.

⑰ After 180 min is ready for delivery in dry ice (❆ − 78.5 °C). After one month the cells must be maintained below (❆ − 130˚C - − 178°C) to assure long-term stability for up to 3 years. 

! Thawing of cells
@@color:blue; In general, cells should be thawed quickly but diluted slowly to remove DMSO. Cells with DMSO intercalated into their membranes are very fragile, and must be pelleted and handled gently.
      
⑱ Warm RPMi1640 to 22-37 °C in a 37 °C water bath before beginning thawing procedure.

⑲ Transfer the cryovial from liquid nitrogen to a 37 °C water bath. If liquid nitrogen has seeped into the cryovial, loosen the cap slightly to allow the nitrogen to escape during thawing.

⑳ Hold the cryovial in the surface of the water bath with an occasional gentle “flick” during thawing. Do not leave the cryovial unattended during the thawing process. It is important for cell viability that the cells are thawed and processed quickly; thawing takes only a minute or two. When a small bit of ice remains in the cryovial, transfer the cryovial to the biosafety hood. Dry off the outside of the cryovial and wipe with disinfectant before opening to prevent contamination.

㉑ Add warm RPMi1640 dropwise into the cryovial containing the cell suspension, slowly over a 30 second period. The final volume should be twice the volume of the cell suspension (e.g., add ''1'' mL RPMi1640 to a cryovial containing 1 mL cell suspension). Be careful not to exceed the capacity of the cryovial.

㉒ Transfer the diluted cell suspension to a 15 mL polypropylene centrifuge tube containing ''8'' mL of warm RPMi1640 for every vial of cells added (multiple cryovials from the same donor may be combined into one tube, if desired).

㉓ Centrifuge the cells at ''1400'' rpm for ''7'' minutes. Decant the supernatant, and gently flick the tube with a finger to break up the pellet. Dilute to ''24'' mL with warm basal RPMI to at least 4× the starting Buffy Coat volume (1:4). Take 2 samples  (200 μL) for ''vivid''.

㉔ Continue with magnetic isolation @@.

@@color:purple;
''Vivid Stain''
2 μL Vivid par vial (ajuter 18 μL du FACS Buffer (PBS +FBS 2%) ca donne 20 μL il faut utiliser 1 μL par million de cellules.
Wash les cellules et resuspendre dans 50 μL Vivid FACS 
(49 μL FACS + 1μL Vivid) incuber 30 min RT. Wash Fix formaldehyde 2%, aussi fixer les celulles unstained CTRL)
Control color V500 qui a le meme chanenel que le vivid amCYAN
LIVE/DEAD Fixable Aqua Dead Cell Stain Kit, for 405 nm
Catalog number: L34957
Flow Cytometer Laser Lines: 	405
Excitation⁄Emission (nm):367⁄526
In cells with compromised membranes, the dye reacts with free amines both in the cell interior and on the cell surface, yielding intense fluorescent staining. In viable cells, the dye's reactivity is restricted to the cell-surface amines, resulting in less intense fluorescence. The difference in intensity is typically greater than 50-fold between live and dead cells, allowing for easy discrimination @@.




!! NOTES freezing medium A & B
make 2 tbues P1A & P1B and add 8 mL serum
prepare P1A with DMSO (for 8 mL)
prepare P1B with DMSO and Trehalose (for 8 mL)
divide cells in ½ and add corresponding medium.

|cssClass|k
|!SAMPLE|!PLASMA|!➩DMSO%|! Trehalose stock➩30 mM|Total|h
|P1 BC A|4 mL|10% 400 μL| 0 μL|4 mL|
|P1 BC B|4 mL|6% 240 μL| 352 μL|4 mL|
|P1 PL A|4 mL|10% 400 μL| 0 μL|4 mL|
|P1 PL B|4 mL|6% 240 μL| 352  μL|4 mL|
|P2 BC A|4 mL|10% 400 μL| 0 μL|4 mL|
|P2 BC B|4 mL|6% 240 μL| 352 μL|4 mL|
|P2 PL A|4 mL|10% 400 μL| 0 μL|4 mL|
|P2 PL B|4 mL|6% 240 μL| 352 μL|4 mL|

http://www.physiologyweb.com/calculators/percent_solutions_calculator.html

@@color:purple; 
⧓ 

◘ [''0''] Trehalose  Stock concentration: [340 mM] Mass: 0.3902 g in 3.0335 mL water 
Final concentration: 30 mM ➩%
D-(+)-Trehalose dihydrate Cat No # T9531 from Sigma Molecular Weight 378.33
soluble in water (soluble 0.1 g/mL), slightly soluble in ethanol, clear, colorless. (Synonym: α,α-Trehalose, α-D-Glucopyranosyl-α-D-glucopyranoside) A non-reducing disaccharide consisting of two glucose moieties joined together by an alpha-1,1 glucosidic bond. 
◘ [''1''] RPMI Cat # 17 - 105 - CV  (no antibiotics, no phenol red, no FBS) → 0 mM L-Glutamine.
◘ [''2''] RPMI 1640 (Wisent Inc) Cat # 350 - 045 - CL(no antibiotics, no phenol red, no FBS) → 0 mM L-Glutamine  (add 2 mM).
◘ [''3''] RPMI 1640 (Wisent Inc) Cat # 350 - 046 - CL(no antibiotics, no phenol red, no FBS) → with 4 mM L-Glutamine.
◘ [''4''] DMEM XF buffer → 4 mM L-Glutamine, glucose and pyruvate. heat at 37 °C.
◘ [''5''] Cryovial Cat No: microtube 2 mL Starstedt Cat No. #72.694.006.
◘ [''6''] Mr. Frosty™ Freezing Container (thermoscientific #Cat No: 5100-0001) with 18 compartments for tube 1.0 to 2.0 mL. We have Nalgene® Cryo 1°C, Thermo Scientific # Cat No: 5100-0001 with 18 compartments, vials closure size: 120mm; dimensions (H × Dia.): 86 × 117mm.
◘ [''7''] PGI2 Prostacyclin (also called Prostaglandin I2)
''1'' µg/mL {//Sir John Vane + Salvador Moncada, R Gryglewski S Bunting//} is a lipid - inhibits platelet activation. Cat. No: # 18220, Cayman Chemical. 
dilute ''3'' µL stok in ''6'' mL Buffer-BSA. 
◘ [''8''] NOTE centrifugation:
FOR Tube Eppendorf - Pellet (spin down) the cells using a benchtop picofuge for 30 sec.
FOR Tubes15mL - Centrifuge at 1400 rpm (rcf 300 × g) for 5 minutes.
◘  [''9''] Histopaque® - 1077 (sterile-filtered, density: 1.077 g / mL) from Sigma, Cat. No #10771  for 100 mL; 
◘ [''10''] Histopaque®-1119 (sterile-filtered, density: 1.119 g / mL) Cat. No # 11191 for 100 mL. Temperature is extremely important when performing the procedure. A 100 mL bottle of Histopaque (Ficoll) stored at 2 – 8 °C.
◘ [''11'']  ⚡ orthography //pellets// ≠ //platelets// 
◘ [''12'']  In plate 98wells the meniscus works as an optical lens and refract the optical path extinction (Ɛ) value was corrected by subtraction of reference sample extinction.
Ɛ = 0.5842666 (OD)
on Excell turbidity formula
[ 6.23/ (2.016 - ( 1.33 × 750 × 0.5842666/750 ) ) - 3.09 ] ×1= 1.9385518
or on Casio Scientific Calculator
(29355Ɛ+4)/100(-95Ɛ + 144) × dilution factor =  #  10^^8^^ platelets/mL
◘ [''13''] Bioenergetics and the Oxidative Burst: Protocols for the Isolation and Evaluation of Human Leukocytes and Platelets (Victor Usmar). On google keyword: Jove e51301 oxidative burst (52201). For video: Ctr+Shift+K.
◘ [''14''] Convert to OD600:
The alternative way to measure cellular density is by using a spectrophotometer, which gives a reading in units of OD600.  An OD600 of 1 = 1 × 10^^7^^ cells / mL.
◘ [''15'']  Important conversions:
(cm^^3^^ = mL) (mm^^3^^= µL) (50 µL ↔ 1 Drop) (250000 µL ↔ Cup)  
◘ [''16''] key words: ㋛ Accuracy, Precision, Reliable, Reproducible, Fast, Compact, Sensitive
◘ [''17''] vivid LIVE/DEAD Fixable Aqua Dead Cell Stain Kit, for 405 nm Catalog number: L34957.
◘ [''18''] 
 @@

! Magnetic selection

''㉕'' Prepare the Density Gradient.  Double gradient is formed by layering an equal volume of 1119 and 1077: Take out the Ficoll from frigo one day before. Add first 3 mL of low density ''Ficoll 1077'' (with a specific gravity of 1.077) to each tube in three conical ''Tubes15mL'' / 8 mL blood. There are no chemical differences between 1077 and 1119; the two solutions have the same components and ''will start diffusing together over time''. 

''㉖'' One day before or in the morning by placing the pipette tip beneath (below) of 1077 add slowly ''3'' mL of  high density ''Ficoll 1119'' without mixing with the upper gradient (3 mL / minute). Use Syringue pump Model Sage Instrument Model 355 (Syringue 60 mL diameter ⊘ = 26.59mm RANGE: off - X¹⁄₁₀ and % FLOW: 500).

''㉗'' A total of ''6'' mL of density gradient media should be present at this stage with a visible phase of separation at the 3 mL mark. In the tube will be: Ficoll low1077 layer up and Ficoll  high1119 layer down.

''㉘''  Add on the surface of gradient, ''gently'', ''8'' mL of diluted blood (from step ④) to each gradient tube using the low-power setting to prevent disturbing the gradient layers. (//better way with SyringuePipette//) The total volume should be 14 mL at this step. Centrifuge tubes at ''2200 rpm'' (rcf 700 × g) for ''30 min'' at room temperature.

''㉙'' Three distinct cell bands should be evident. The upper most bands (between 1077 and plasma) contains ''M''ononuclear cells (''M''NCs) and Platelets, and the middle band (between 1007 and 1119) contains ''P''olymorphonuclear (''N''eutrophiles) cells (PM''N''s) and lower band (below 1119) contains RBCs.

''㉚'' Detail of three distinct cell layers (see details on graph) click here [[blood layers]]. 

''㉛'' Collect the ''M''NC by using sterile ''glass pipettes'' without disturbing the other cell bands. Combine the ''M'' population from each tube into a sterile conical Tube50mL.  
Add ''4'' volumes of RPMI to the Tube50mL containing the MNC fractions respectively to dilute the density gradient.

''⑫'' Repeat this for the PM''N'' population as well and add ''10'' volumes of RPMI to the ''N'' fractions to dilute the density gradient.

''⑬'' & ''⑭'' Centrifuge tubes at ''2200 rpm'' (rcf 700 × g) for ''10 min'' at room temperature. Discard the supernatant. 

''⑮'' & ''⑯'' Resuspend ''M''NC cell pellet and PM''N'' cell pellet in 1 mL RPMI buffer containing 0.5% ultra-pure fatty acid-free BSA (Milteny-BSA) and transfer to sterile tube ''Eppendorf''. ^^NOTE dilution^^//(Milteny-BSA # 130-091-376 add 2500 µL BSA in 50 mL RPMI)//.
''Pellet'' (spin down) the cells using a benchtop picofuge for ''30 sec''. Discard the supernatant. Resuspend each cell pellet in ''80 µL'' RPMI buffer-BSA.

''⑰'' Add ''20 µL'' of magnetic beads (from the frigo at 4 ºC) labeled-antiCD''14'' antibody to the tube containing the ''M''NC fraction for positive selection of ''M''onocytes. For the tube containing the PM''N'' cell fraction, add ''20 µL'' of magnetic beads labeled-antiCD''15'' antibody for positive selection of ''N''eutrophils. 
''Mnemonics: M14 and  N15''

''⑱'' Mix well with tips and no bubbles, and incubate for 15 min at 4 ºC in the frigo.

''⑲'' Wash each cell suspension with 1 mL RPMI-BSA. 
''Pellet'' (spin down) the cells using a benchtop picofuge  for ''30 sec''. 

''⑳'' Discard the supernatant. Resuspend each pellet in ''500 µL'' RPMI-BSA.

''㉑'' Proceed to magnetic separation.

''㉒'' Place column in the magnetic field. Prepare (activate) LS column (one for each cell suspension) by rinsing with 3 mL buffer MACS PBS - BSA. 

''㉓'' Apply ''500 µL'' cell suspension onto the column. Attention: ''Collect unlabeled cells which pass through'' that means collect total efluent. ''This is ''M''(-) the unlabeled CD14 (-) cell fraction containing ''L'' cells''. Wash column with  3 mL buffer. Perform washing steps by adding buffer three times, each time once the column reservoir is empty. (3mL + 3mL + 3mL + 500µL).

''㉔'' To isolate monocytes and neutrophils. Remove column from the separator and place it on a suitable collection tube. Pipette 5 mL of buffer onto the column. Immediately fush out fraction (+)  with the magnetically labeled cells by firmly applying the  plunger supplied with the column. This is the labeled CD14 (+) monocytes ''M'' and respectively CD15 (+) neutrophils ''N'' cell fraction. (Ready for counting or reduce the volume to 1 mL for count).

''㉕'' To isolate lymphocytes ''L''. Centrifuge ''1400 rpm'' (rcf 300 × g) for ''10 min'' the flow-through-wash fraction of the ''M''NCs (-) from step ㉓. Discard the supernatant and resuspend the cell pellet in ''80 µL'' buffer. Add ''20 µL'' of CD61 and ''20 µL'' CD235a antibodies in the same Eppendorf.

''㉖'' Mix well and incubate cell suspension for 15 min at 4 ºC. 

''㉗'' Repeat the MACS separation as before ⑲ - ㉓ and collect ''the flow'' (negative selection) though containing the ''L''ymphocytes ''L''. This is the labeled CD61(-)  and CD235a (-) lymphocytes fraction. (Ready for counting or reduce the volume to 1 mL for count).

''㉘'' In the column are the cells magnetic labeled CD61(+) megakaryocytes ^^responsible for the production of blood thrombocytes (platelets)^^ and also platelets (plaquettes) and CD235a (+) erythrocytes or //(Érythrocytes)// or //(RBC)//. Discard.

''㉙'' To pellet ''M''onocytes, ''N''eutrophils, and ''L''ymphocytes fractions: 
Centrifuge tubes at ''2200 rpm'' (rcf 700 × g) for ''10 min'' at room temperature. 
Discard supernatants. Cell pellets (//les culots//) should be resuspended in ''1 mL'' extracellular flux media (XF-DMEM) for counting.

''㉚''  ''8 mL'' of whole blood should result in 1 - 5 × 10^^6^^ ''M''onocytes / mL, and 5 - 20 × 10^^6^^ ''L''ymphocytes and ''N''eutrophils / mL.

''㉛'' To isolate ''P''latelets:
Centrifuge ''P''RP tubes (from step ③) ''3200 rpm'' (rcf 1,500 × g) for ''10 min'' at room temperature. Remove the plasma. Wash cell pellet once with sterile ''5 mL'' buffer (PBS Macs +BSA) supplemented with ''1'' µg/mL ''PGI2''. 
Centrifuge ''3200 rpm'' (rcf 1,500 × g) for ''10 min'' at room temperature. 
Suspend final pellet in ''1 mL'' of PBS - PGI2 buffer.
Determine platelet count by turbidimetry once the platelets are suspended in PBS-PGI2 buffer by microplate reader as described by Walkowiak et al. 1997 (PMID 9253804) using the following equation: [6.23/(2.016 – (1.33×750×Ɛ/750) – 3.09 ]× dilution factor = # x 10^^8^^ platelets/mL/. In plate 98wells the meniscus works as an optical lens and refract the optical path extinction (Ɛ) value was corrected by substraction of reference sample exctinction. Ɛ = 0.5842666 (OD) at 750 nm.

jove version [6.23/(2.016 – Abs~~800~~)] – 3.09 × dilution factor = # × 10^^8^^ platelets/mL

! SAMPLE FOR FACS
The purity of each fraction using FACS analysis:
''Monocytes'' were contaminated with ~11% lymphocytes and 35% platelets 
''Lymphocytes''  over 80% pure
''Neutrophils'' over 80% pure

Target Cell Types: 
@@color:green;Monocytes FITC,Mouse Anti-Human CD^^14^^ (Em 520 nm Green)@@
@@color:red;Target Cell Types: Lymphocytes APC Mouse Anti-Human CD^^45^^ (Em 660 nm Red)@@
@@color:orange;Target Cell Types: Neutrophils PE Mouse Anti-human CD^^15^^  R-phycoerythrin (PE) Em 578 nm emits orange-yellow)@@

Fixation is performed with a 2% formaldehyde solution in PBS pH 7.2; cells are incubated for 10 minutes at room temperature. Cells are washed with PBS pH 7.2 with BSA 0.5% to block the fixation solution. Staining is then performed at the same time with mAb directed against the membrane ( for epitope highly express as CD14, CD45, CD15), After a 15 minute incubation at room temperature, cells are washed with PBS pH7.2 containing BSA 0.5% and saponin 0.5% to remove the excess of non-bound mAbs. Cells are then suspended into PBS pH 7.2 and BSA 0.5 % for flow cytometric analysis.

!Preparation of ''PGI~~2~~'' 1 mM (synonym Prostacyclin) 
Prostacyclin (sodium salt,  Cat No: #18220, Cayman Chemical) FW: 374.5 is unstable at neutral or acidic pH soluble in (50 mM Tris-HCl pH 8.87).
(SS) [''1 mM''] Stock Solution: 1mg add in 2670 µL Tris 50 mM  and divided in 20 μL aliquots in eppendorf [store at -20°C or - 80°C for weekly use].
(SF) [''0.5 µM''] Final Solution: ''3'' µL in 6 mL Buffer-BSA. PGI2 is used at each step of platelet washing procedure at a final concentration of 0.5 μM (0.5 μL of the stock solution for 1 mL of platelet suspension. Since the half-life of PGI is short (a few minutes), it must be added to the washing solution just before centrifugation or platelet resuspension. The PGI solution should be stored at 4°C immediately after thawing and should not be frozen again. 

!Preparation of Tris 50 mM. FW:121.14
(SS) Tris [50 mM] for 1L solution first weigh out 6.057 g Tris in water;
Every 1 g of Tris requires 165 mL of water to be added.
(SF) [''50 mM''] Tris : 908.55 mg add in 150 mL water add HCl 01M for pH 8.87.

!''Plating of the Cells - CellTak Method''
See the tiddly [[Design Plate 96 wells]] and [[ [0] Platform synchron]]. Procedure for CELTAK PLATE PREPARING //Dispence within 10 minutes// 

(for 28 wells): add 90 µL Cell-Tak to 180 µL dH~~2~~O, 540 µL of 0.1N Sodium Bicarbonate and ∓45 µL of 1N NaOH to  pH 8,0 - 8,5. 
855 / 30 = 28; 90/28.5 ~ 3.1 [µg] Cell-Tak

Place ''30'' µL diluted Cell-Tak into each well.  Shake delicate. Allow at least ''20'' minutes for adsorption. Flick or aspirate off the Cell-Tak solution and wash with distiled water, air dry before storing at 2 - 8 °C for approximately two weeks. Adhesive extracted from //Mytilus edulis//. An aid to attaining this pH window is to use a volume of NaOH equal of half the volume Cell-Tak solutions. Put Cell-Tak also in the Blank Control of SeaHorse plate. 

![0.1 M] Bicarbonate (NaHCO3) ''[TUBE 2]''
Fisher Sci. # Cat.No: S233-500; Concentration = 0.1 M Formula Weight = 84.01 Vol.= 47 mL; Mass = 394 mg = 0.394 g pH 8.0 Filter-sterilise the buffer.

![1 M] NaOH  ''[TUBE 3]''
Fisher #BP 359-500 FW: 40.0 add 2 milligrams in 50 mL

|cssClass|k
|!cel tak ~~B~~|!H~~2~~O|!Bicarb|!NaOH|!Total|!wells30µL|h
| 41 | 400 | 820 | 20.5 | 1281 | 41 [1µg] |
| 80 | 150 | 540 | //∓ 40// | 770 | 25 [3µg]ᚙ |
| 90 | 180 | 540 | //∓ 45// | 855 | 28 [3µg] j ᚙ |
| 210 | 420 | 1453 | //∓ 105// | 2083 | 69  ᚙ |
| 304 | 609 | 2106 | //∓ 152// | z | 100  ᚙ |
| 321 |642 | 1928 | //∓ 160// | z | 100 [3µg] j ᚙ |
| 642 | 1284 | 3856 | //∓ 321// | z | 200 [3µg] j ᚙ |


New Note:  The cell adhesive should be prepared fresh for each use.
New formula pH 8,0 - 8,5. 

!Seeding plate 96 wells
150k cells/well for ''M''onocytes, 
150k cells/well for ''L''ymphocytes,
150k cells/well for ''N''eutrophils, 
15 x 10^^6^^/well for ''P''latelets. 
Alternatively, to measure oxidative burst response, Neutrophils can be seeded at 125 k cells/well. The final seeding volume for each cell suspension should be 200 µL/well. For platform synchron the cells should be seeded in microplate ~150 000 cells/well. Centrifuge the plate at ''200 rcf'' for ''30 sec'', rotate the plate 180˚ and centrifuge again at ''300 rcf'' for ''30 sec''. 
Centrifuge Eppendorf  5430R, with rotor A-2-MTP Cat.No: # 5430/5430  START / STOP / OPEN. //Bring final well volume to ''660 µL'' with XF-DMEM and incubate at 37 ºC for 30 min prior to XF assay//.

!NOTES
⧓  Counting Chamber Hausser Scientific Company (Fuchs-Rosenthal ) #Cat.No.: 3720. 
2 × chambers (up & down)
[4 × 4  Cells 1 mm Depth: 0.2 mm Volume: 0.2 µL] 
Mix 10 µL cells + 10 µL (0.4%) Trypan Blue stain Invitrogen Gibco #Cat.No.: 15250-061 (storage 15-30°C) in counting chamber 20 µL. Count 16 squares (1 mm^^2^^). 
≡≡≡≡≡≡≡≡≡≡
║ ☒ ☒ ☒ ☒ ║ = 24
║ ☒ ☒ ☒ ☒ ║ = 29 
║ ☒ ☒ ☒ ☒ ║ = 26
║ ☒ ☒ ☒ ☒ ║ = 25
 ≡≡≡≡≡≡≡≡≡≡
= 104 cells in 16 ☒ 
104 × dilution 2 × 5000 = 1 040 000 cells/ mL = 1.04 M 
1.04 M × 5 mL total = 5.2 Mil. cells total.

⧓ Counting Bright-Line™ Hemacytometer  Sigma #Cat.No.: Z359629. 
2 × chambers (up & down) 
original method:
count all the cells in the 1 mm center square and four 1 mm corner squares. (5 in total). If the average count per square of unstained (viable) cells is 37.5, the total viable cells = [37.5 × 5 × 10^^4^^] viable cells/ml × 10 mL (original volume) = 1.875 × 10^^7^^ viable cells. Cell viability (%) = 1.875 × 10^^7^^ (viable cells) ÷ 2.25 × 10^^7^^ (total cells) × 100 = 83% viability

Mix 10 µL Blue + 10 µL cells in counting chamber and count 5 squares (from 25) big 25 of 25.
 ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡
║☒ | ☒ | ☒ | ☒ | ☒║ = 52
║☐ | ☐ | ☐ | ☐ | ☐║
║☐ | ☐ | ☐ | ☐ | ☐║
║☐ | ☐ | ☐ | ☐ | ☐║
║☐ | ☐ | ☐ | ☐ | ☐║
 ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡
= 52 cells in 5 ☒ = 0.52 M / mL
 dilution 1/2 = × dilution 2 = 1.04 M cells / mL 
1.04 M × 5 mL total = 5.2 Mil. cells total

🚀
P1A ≡≡≡≡≡≡≡ | P2 A≡≡≡≡≡≡≡
◍ⓂⓂⓂⓂⓂ |ⓂⓂⓂⓂⓂ◍
ⓁⓁⓁⓁⓁⓁ | ⓁⓁⓁⓁⓁⓁ
ⓃⓃⓃⓃⓃⓃ | ⓃⓃⓃⓃⓃⓃ
ⓅⓅⓅⓅⓅ◍ | ◍ⓅⓅⓅⓅⓅ
P1B ≡≡≡≡≡≡≡ | P2 B≡≡≡≡≡≡≡
ⓂⓂⓂⓂⓂ◍ | ◍ⓂⓂⓂⓂⓂ
ⓁⓁⓁⓁⓁⓁ | ⓁⓁⓁⓁⓁⓁ
ⓃⓃⓃⓃⓃⓃ | ⓃⓃⓃⓃⓃⓃ
◍ⓅⓅⓅⓅⓅ | ⓅⓅⓅⓅⓅ◍
black🅿
 P1 A mSOX tmre/mtg  | P2 A mSOX tmre/mtg
≡ | ⓂⓂⓂ ⓂⓂⓂ | ⓂⓂⓂ ⓂⓂⓂ | 
≡ | ⓁⓁⓁ ⓁⓁⓁ | ⓁⓁⓁ ⓁⓁⓁ | 
≡ | ⓃⓃⓃ ⓃⓃⓃ | ⓃⓃⓃ ⓃⓃⓃ | 
≡ | ⓅⓅⓅ ⓅⓅⓅ | ⓅⓅⓅ ⓅⓅⓅ | 
 P1 B mSOX tmre/mtg  | P2 B mSOX tmre/mtg
≡ | ⓂⓂⓂ ⓂⓂⓂ | ⓂⓂⓂ ⓂⓂⓂ | 
≡ | ⓁⓁⓁ ⓁⓁⓁ | ⓁⓁⓁ ⓁⓁⓁ | 
≡ | ⓃⓃⓃ ⓃⓃⓃ | ⓃⓃⓃ ⓃⓃⓃ | 
≡ | ⓅⓅⓅ ⓅⓅⓅ | ⓅⓅⓅ ⓅⓅⓅ | 

|cssClass|k
|!black 🅿late|!mSOX (P1)|!TMRE/MTG (P1)|! mSOX  (P2)|!TMRE/MTG (P2)|h
|A|MMM|MMM|MMM|MMM|
|A|LLL|LLL|LLL|LLL|
|A|NNN|NNN|NNN|NNN|
|A|PPP|PPP|PPP|PPP|
|B|MMM|MMM|MMM|MMM|
|B|LLL|LLL|LLL|LLL|
|B|NNN|NNN|NNN|NNN|
|B|PPP|PPP|PPP|PPP|

/***
|''Name''|TiddlySpaceBackstage|
|''Version''|0.8.0|
|''Description''|Provides a TiddlySpace version of the backstage and a homeLink macro|
|''Status''|@@beta@@|
|''Contributors''|Jon Lister, Jon Robson, Colm Britton|
|''Source''|http://github.com/TiddlySpace/tiddlyspace/raw/master/src/plugins/TiddlySpaceBackstage.js|
|''Requires''|TiddlySpaceConfig ImageMacroPlugin TiddlySpaceViewTypes|
!StyleSheet
.tiddler .error.annotation .button{
	display: inline-block;
}

#backstageArea {
	z-index: 49;
	color: white;
	background-color: black;
	background: -webkit-gradient(linear,left bottom,left top,color-stop(0, #222),color-stop(0.5, #333),color-stop(1, #555));
	background: -moz-linear-gradient(center bottom,#222 0%, #333 50%, #555 100%);
	filter: progid:DXImageTransform.Microsoft.gradient(startColorstr=#ff555555, endColorstr=#ff222222);
	-ms-filter: "progid:DXImageTransform.Microsoft.gradient(startColorstr=#ff555555, endColorstr=#ff222222)";
	height: 25px;
	padding: 0;
}

#backstageButton {
	overflow: hidden;
}

#backstageButton #backstageShow,
#backstageButton #backstageHide {
	margin: 0px;
	padding: 0px;
}

#backstageButton #backstageShow:hover,
#backstageButton #backstageHide:hover {
	background: none;
	color: none;
}

#backstageButton img,
#backstageButton svg {
	width: 24px;
	height: 24px;
}

#messageArea {
	top: 50px;
}

#backstageToolbar {
	position: relative;
}

#backstageArea a {
	padding: 0px;
	margin-left: 0px;
	color: white;
	background: none;
}

#backstageArea a:hover {
	background-color: white;
}

#backstage ol,
#backstage ul {
	padding: auto;
}

#backstageButton a {
	margin: 0;
}

.backstagePanelBody ul {
	padding: 5px;
	margin: 5px;
}

#backstage #backstagePanel {
	margin-left: 5%;
	padding: 0em;
	margin-right: 5%;
}

#backstageToolbar a {
	position: relative;
}

#backstageArea a.backstageSelTab,
#backstageToolbar .backstageTask {
	line-height: 25px;
	color: #767676;
}

.backstageTask .externalImage,
.backstageTask .image {
	display: inline;
}

#backstageToolbar a span {
	z-index: 2;
}

a.backstageTask {
	display: inline;
        margin-left: 1em !important;
}

.backstagePanelBody .button {
	display: inline-block;
	margin-right: 10px;
}

.backstagePanelBody {
	margin: 0 0 0 0.6em;
	padding: 0.4em 0.5em 1px 0.5em;
}

#backstage table {
	margin: auto;
}

#backstage .wizard table {
	border: 0px;
	margin: 0;
}

#backstage div  li.listLink {
	border: 0px;
	width: 78%;
	font-size: 0.7em;
}

#backstage div li.listTitle {
	font-weight: bold;
	text-decoration: underline;
	font-size: 1em;
	background: #ccc;
	width: 100%;
}

#backstage fieldset {
	border: solid 1px [[ColorPalette::Background]];
}

#backstage .viewer table,#backstage table.twtable {
	border: 0px;
}

#backstageToolbar img {
	padding: 0;
}

#backstage .wizard,
#backstage .wizardFooter {
	background: none;
}

.viewer td, .viewer tr, .twtable td, .twtable tr {
	border: 1px solid #eee;
}

#backstage .inlineList ul li {
	background-color: [[ColorPalette::Background]];
	border: solid 1px [[ColorPalette::TertiaryMid]];
	display: block;
	float: left;
	list-style: none;
	margin-right: 1em;
	padding: 0.5em;
}

.backstageClear, .inlineList form {
	clear: both;
	display: block;
	margin-top: 3em;
}

.tiddlyspaceMenu {
	text-align: center;
}

span.chunkyButton {
	display: inline-block;
	padding: 0;
	margin: 0;
	border: solid 2px #000;
	background-color: #04b;
}

span.chunkyButton a.button, span.chunkyButton a:active.button {
	white-space: nowrap;
	font-weight: bold;
	font-size: 1.8em;
	color: #fff;
	text-align: center;
	padding: 0.5em 0.5em;
	margin: 0;
	border-style: none;
	display: block;
}

span.chunkyButton:hover {
	background-color: #014;
}

span.chunkyButton a.button:hover {
	border-style: none;
	background: none;
	color: #fff;
}

#backstage .unpluggedSpaceTab .wizard,
.unpluggedSpaceTab .wizard {
	background: white;
	border: 2px solid #CCC;
	padding: 5px;
}

.syncKey .keyItem {
	border: 1px solid black;
	display: inline-block;
	margin: 0.2em;
	padding: 0.1em 0.1em 0.1em 0.1em;
}

.keyHeading {
	font-size: 2em;
	font-weight: bold;
	margin: 0.4em 0em -0.2em;
}

.unpluggedSpaceTab .putToServer,
.unpluggedSpaceTab .notChanged {
	display: none;
}

.tiddlyspaceMenu ul {
	margin: 0;
	padding: 0;
}

.tiddlyspaceMenu ul li {
	list-style: none;
}

.unsyncedChanges .unsyncedList {
	display: block;
}

.unsyncedList {
	display: none;
}
!Code
***/
//{{{
(function ($) {
    var name = "StyleSheet" + tiddler.title;
    config.shadowTiddlers[name] = "/*{{{*/\n%0\n/*}}}*/".
        format(store.getTiddlerText(tiddler.title + "##StyleSheet")); // this accesses the StyleSheet section of the current tiddler (the plugin that contains it)
    store.addNotification(name, refreshStyles);

    if (!config.extensions.tiddlyweb.status.tiddlyspace_version) { // unplugged
        config.extensions.tiddlyweb.status.tiddlyspace_version = "<unknown>";
        config.extensions.tiddlyweb.status.server_host = {
            url:config.extensions.tiddlyweb.host }; // TiddlySpaceLinkPlugin expects this
    }
    var disabled_tasks_for_nonmembers = ["tiddlers", "plugins", "batch", "sync"];

    var tweb = config.extensions.tiddlyweb;
    var tiddlyspace = config.extensions.tiddlyspace;
    var currentSpace = tiddlyspace.currentSpace.name;
    var imageMacro = config.macros.image;

    if (config.options.chkBackstage === undefined) {
        config.options.chkBackstage = false;
    }

// Set up Backstage
    config.tasks = {};
    config.tasks.status = {
        text:"status",
        tooltip:"TiddlySpace Info",
        content:"<<tiddler Backstage##Menu>>"
    };
    config.tasks.tiddlers = {
        text:"tiddlers",
        tooltip:"tiddlers control panel",
        content:"<<tiddler Backstage##BackstageTiddlers>>"
    };
    config.tasks.plugins = {
        text:"plugins",
        tooltip:"Manage installed plugins",
        content:"<<tiddler Backstage##Plugins>>"
    };
    config.tasks.batch = {
        text:"batch",
        tooltip:"Batch manage public/private tiddlers",
        content:"<<tiddler Backstage##BatchOps>>"
    };
    config.tasks.tweaks = {
        text:"tweaks",
        tooltip:"Tweak TiddlyWiki behaviors",
        content:"<<tiddler Backstage##Tweaks>>"
    };
    config.tasks.exportTiddlers = {
        text:"import/export",
        tooltip:"Import/export tiddlers from/to a TiddlyWiki",
        content:"<<tiddler Backstage##ImportExport>>"
    };
    config.tasks.sync = {
        text:"sync",
        tooltip:"Check Sync status",
        content:"<<tiddler Backstage##SpaceUnplugged>>"
    };

    if (window.location.protocol === "file:") {
        config.unplugged = true;
    }

    config.backstageTasks = ["status", "tiddlers", "plugins",
        "batch", "tweaks", "exportTiddlers", "sync"];

    config.messages.backstage.prompt = "";
// initialize state
    var _show = backstage.show;
    backstage.show = function () {
        // selectively hide backstage tasks and tabs based on user status
        var tasks = $("#backstageToolbar .backstageTask").show();
        var bs = backstage.tiddlyspace;
        if (!config.unplugged) {
            tweb.getUserInfo(function (user) {
                if (user.anon) {
                    jQuery.each(disabled_tasks_for_nonmembers, function (i, task) {
                        var taskIndex = config.backstageTasks.indexOf(task);
                        if (taskIndex !== -1) {
                            config.backstageTasks.splice(taskIndex, 1);
                        }
                    });
                    config.messages.memberStatus = bs.locale.loggedout;
                } else {
                    config.messages.memberStatus = readOnly ?
                        bs.locale.nonmember : bs.locale.member;
                }
            });
        } else {
            config.messages.memberStatus = bs.locale.unplugged;
        }

        // display backstage
        return _show.apply(this, arguments);
    };
    if (readOnly) {
        jQuery.each(disabled_tasks_for_nonmembers, function (i, task) {
            var taskIndex = config.backstageTasks.indexOf(task);
            if (taskIndex !== -1) {
                config.backstageTasks.splice(taskIndex, 1);
            }
        });
    }

    var tasks = config.tasks;
    var commonUrl = "/bags/common/tiddlers/%0";

    backstage.tiddlyspace = {
        locale:{
            member:"You are a member of this space.",
            nonmember:"You are not a member of this space.",
            loggedout:"You are currently logged out of TiddlySpace.",
            unplugged:"You are unplugged."
        },
        showButton:function () {
            var showBtn = $("#backstageShow")[0];
            var altText = $(showBtn).text();
            $(showBtn).empty();
            imageMacro.renderImage(showBtn, "backstage.svg",
                { altImage:commonUrl.format("backstage.png"), alt:altText});
        },
        hideButton:function () {
            var hideBtn = $("#backstageHide")[0];
            var altText = $(hideBtn).text();
            $(hideBtn).empty();
            imageMacro.renderImage(hideBtn, "close.svg",
                { altImage:commonUrl.format("close.png"), alt:altText, width:24, height:24 });
        }
    };

    var _init = backstage.init;
    backstage.init = function () {
        _init.apply(this, arguments);
        var init = function (user) {
            var bs = backstage.tiddlyspace;
            bs.showButton();
            bs.hideButton();
        };
        tweb.getUserInfo(init);
    };

    var home = config.macros.homeLink = {
        locale:{
            linkText:"your home space"
        },
        handler:function (place) {
            var container = $("<span />").appendTo(place)[0];
            tweb.getUserInfo(function (user) {
                if (!user.anon && user.name !== currentSpace) {
                    createSpaceLink(container, user.name, null, home.locale.linkText);
                }
            });
        }
    };

    config.macros.exportSpace = {
        handler:function (place, macroName, params) {
            var filename = params[0] ||
                "/tiddlers.wiki?download=%0.html".format(currentSpace);
            $('<a class="button">download</a>').// XXX: i18n
                attr("href", filename).appendTo(place);
        }
    };

}(jQuery));
//}}}

⓪ 
◤ ▢▢▢▢ ◥ ⇲ 
◣ ▢▢▢▢ ◢ ⇲ 
@r 488 
@m 594
lasers: 405 nm, 488 nm, 515 nm, 561 nm, 640 nm.  
50 - 200 μL total → 6400 →  7 mL      

 ① Fix the cells by adding pre-warmed 4-5% PFA/PBS pH at 7.4 at 37°C for ''15 min''  Wash 3 times in PBS (PBS at RT).
② Quench the PFA by incubating the cells in 50mM NH4Cl/PBS for ''10 min'' at RT. Wash 3 times in PBS (PBS at RT).
③ Permeabilize the cells by incubating in 0.1% Triton in PBS for ''10 min''. Wash 3 times in PBS (PBS at RT).
④ Block by incubating with 10% FBS in PBS for ''30 min'' [1 mL / 10 mL]
⑤ Incubate with primary antibody (dil. ''1/2000'') in 5% FBS in PBS, for ''60 minutes'', at RT. [4 μL / 7 mL]
Tom 20: sc-11415 rabbit de SantaCruz dil. (1/2000)
PHD: ab110333 mouse de Abcam dil. (1/2000) at RT. Wash 3 times in 5% FBS in PBS 5 min. max 1/5000.
⑥ Incubate with secondary antibody dil. ''1/1000''  in the dark for ''45 min''. [7 μL / 7 mL]
@rabbit Alexa Fluor 488: A11070 de Invitrogen [FITC](1/1000) confocal GFP
@mouse Alexa Fluor 594: A11005 de Invitrogen [TRITC](1/1000) confocal mcherry.Wash 3 times in PBS 5 min.
⑦ Immerse it in distilled water for a second to take
out the salt of PBS. Then let the water slide in a Kleenex towel.
⑧ leaves the slide ''dry'' at RT in the dark.  
⑨ drop of mounting medium ProlongGold antifade reagent with DAPI de Invitrogen P36931 in a slide. Use Coverslip: VWR International 24x60mm No.1 Cat. No: 48393 106
 ⑩ Incubate at 37°C for 15 min or at RT for 1h to let it dry.
⑪ Then, keeps the slides in a box at 4°C.


⑫ ⑬ ⑭ ⑮ ⑯ ⑰ ⑱ ⑲ ⑳ ㉑ ㉒ ㉓ ㉔ ㉕ ㉖ ㉗ ㉘ ㉙ ㉚ ㉛

/***
|''Name''|RevisionsCommandPlugin|
|''Description''|provides access to tiddler revisions|
|''Author''|FND|
|''Contributors''|Martin Budden|
|''Version''|0.3.3|
|''Status''|@@beta@@|
|''Source''|http://svn.tiddlywiki.org/Trunk/association/plugins/RevisionsCommandPlugin.js|
|''CodeRepository''|http://svn.tiddlywiki.org/Trunk/association/plugins/|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
|''CoreVersion''|2.6.0|
|''Keywords''|serverSide|
!Usage
Extend [[ToolbarCommands]] with {{{revisions}}}.
!Revision History
!!v0.1 (2009-07-23)
* initial release (renamed from experimental ServerCommandsPlugin)
!!v0.2 (2010-03-04)
* suppressed wikification in diff view
!!v0.3 (2010-04-07)
* restored wikification in diff view
* added link to side-by-side diff view
!To Do
* strip server.* fields from revision tiddlers
* resolve naming conflicts
* i18n, l10n
* code sanitizing
* documentation
!Code
***/
//{{{
(function($) {

jQuery.twStylesheet(".diff { white-space: pre, font-family: monospace }",
	{ id: "diff" });

var cmd = config.commands.revisions = {
	type: "popup",
	hideShadow: true,
	text: "revisions",
	tooltip: "display tiddler revisions",
	revTooltip: "", // TODO: populate dynamically?
	loadLabel: "loading...",
	loadTooltip: "loading revision list",
	selectLabel: "select",
	selectTooltip: "select revision for comparison",
	selectedLabel: "selected",
	compareLabel: "compare",
	linkLabel: "side-by-side view",
	revSuffix: " [rev. #%0]",
	diffSuffix: " [diff: #%0 #%1]",
	dateFormat: "YYYY-0MM-0DD 0hh:0mm",
	listError: "revisions could not be retrieved",

	handlePopup: function(popup, title) {
		title = this.stripSuffix("rev", title);
		title = this.stripSuffix("diff", title);
		var tiddler = store.getTiddler(title);
		var type = _getField("server.type", tiddler);
		var adaptor = new config.adaptors[type]();
		var limit = null; // TODO: customizable
		var context = {
			host: _getField("server.host", tiddler),
			workspace: _getField("server.workspace", tiddler)
		};
		var loading = createTiddlyButton(popup, cmd.loadLabel, cmd.loadTooltip);
		var params = { popup: popup, loading: loading, origin: title };
		adaptor.getTiddlerRevisionList(title, limit, context, params, this.displayRevisions);
	},

	displayRevisions: function(context, userParams) {
		removeNode(userParams.loading);
		if(context.status) {
			var callback = function(ev) {
				var e = ev || window.event;
				var revision = resolveTarget(e).getAttribute("revision");
				context.adaptor.getTiddlerRevision(tiddler.title, revision, context,
					userParams, cmd.displayTiddlerRevision);
			};
			var table = createTiddlyElement(userParams.popup, "table");
			for(var i = 0; i < context.revisions.length; i++) {
				var tiddler = context.revisions[i];
				var row = createTiddlyElement(table, "tr");
				var timestamp = tiddler.modified.formatString(cmd.dateFormat);
				var revision = tiddler.fields["server.page.revision"];
				var cell = createTiddlyElement(row, "td");
				createTiddlyButton(cell, timestamp, cmd.revTooltip, callback, null,
					null, null, { revision: revision });
				cell = createTiddlyElement(row, "td", null, null, tiddler.modifier);
				cell = createTiddlyElement(row, "td");
				createTiddlyButton(cell, cmd.selectLabel, cmd.selectTooltip,
					cmd.revisionSelected, null, null, null,
					{ index:i, revision: revision, col: 2 });
				cmd.context = context; // XXX: unsafe (singleton)!?
			}
		} else {
			$("<li />").text(cmd.listError).appendTo(userParams.popup);
		}
	},

	revisionSelected: function(ev) {
		var e = ev || window.event;
		e.cancelBubble = true;
		if(e.stopPropagation) {
			e.stopPropagation();
		}
		var n = resolveTarget(e);
		var index = n.getAttribute("index");
		var col = n.getAttribute("col");
		while(!index || !col) {
			n = n.parentNode;
			index = n.getAttribute("index");
			col = n.getAttribute("col");
		}
		cmd.revision = n.getAttribute("revision");
		var table = n.parentNode.parentNode.parentNode;
		var rows = table.childNodes;
		for(var i = 0; i < rows.length; i++) {
			var c = rows[i].childNodes[col].firstChild;
			if(i == index) {
				if(c.textContent) {
					c.textContent = cmd.selectedLabel;
				} else {
					c.text = cmd.selectedLabel;
				}
			} else {
				if(c.textContent) {
					c.textContent = cmd.compareLabel;
				} else {
					c.text = cmd.compareLabel;
				}
				c.onclick = cmd.compareSelected;
			}
		}
	},

	compareSelected: function(ev) {
		var e = ev || window.event;
		var n = resolveTarget(e);
		var context = cmd.context;
		context.rev1 = n.getAttribute("revision");
		context.rev2 = cmd.revision;
		context.tiddler = context.revisions[n.getAttribute("index")];
		context.format = "unified";
		context.adaptor.getTiddlerDiff(context.tiddler.title, context,
			context.userParams, cmd.displayTiddlerDiffs);
	},

	displayTiddlerDiffs: function(context, userParams) {
		var tiddler = context.tiddler;
		tiddler.title += cmd.diffSuffix.format([context.rev1, context.rev2]);
		tiddler.text = "{{diff{\n" + context.diff + "\n}}}";
		tiddler.tags = ["diff"];
		tiddler.fields.doNotSave = "true"; // XXX: correct?
		if(!store.getTiddler(tiddler.title)) {
			store.addTiddler(tiddler);
		}
		var src = story.getTiddler(userParams.origin);
		var tiddlerEl = story.displayTiddler(src, tiddler);
		var uri = context.uri.replace("format=unified", "format=horizontal");
		var link = $('<a target="_blank" />').attr("href", uri).text(cmd.linkLabel);
		$(".viewer", tiddlerEl).prepend(link);
	},

	displayTiddlerRevision: function(context, userParams) {
		var tiddler = context.tiddler;
		tiddler.title += cmd.revSuffix.format([tiddler.fields["server.page.revision"]]);
		tiddler.fields.doNotSave = "true"; // XXX: correct?
		if(!store.getTiddler(tiddler.title)) {
			store.addTiddler(tiddler);
		}
		var src = story.getTiddler(userParams.origin);
		story.displayTiddler(src, tiddler);
	},

	stripSuffix: function(type, title) {
		var str = cmd[type + "Suffix"];
		var i = str.indexOf("%0");
		i = title.indexOf(str.substr(0, i));
		if(i != -1) {
			title = title.substr(0, i);
		}
		return title;
	}
};

var _getField = function(name, tiddler) {
	return tiddler.fields[name] || config.defaultCustomFields[name];
};

})(jQuery);
//}}}

/***
|''Description''|Sanitisation for dynamically pulling tiddlers into your space and displaying them|
!Notes
Works both inside and outside TiddlyWiki. Uses the HTML Sanitizer provided by the Google Caja project
(see http://code.google.com/p/google-caja/wiki/JsHtmlSanitizer for more on this), which is licensed under
an Apache License (see http://www.apache.org/licenses/LICENSE-2.0).
!Code
***/
//{{{
(function($) {

var cleanURL = function(url) {
	var regexp = /^(?:http|https|mailto|ftp|irc|news):\/\//;
	return (regexp.test(url)) ? url : null;
};

$.sanitize = function(html) {
	return html_sanitize(html, cleanURL);
};

/*
 * HTML Sanitizer, provided by Google Caja
 */

/* Copyright Google Inc.
 * Licensed under the Apache Licence Version 2.0
 * Autogenerated at Tue May 17 17:39:24 BST 2011
 * @provides html4
 */var 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del::cite":0,"form::action":2,"img::src":1,"input::src":1,"ins::cite":0,"q::cite":0},html4.ltypes={UNSANDBOXED:2,SANDBOXED:1,DATA:0},html4.LOADERTYPES={"a::href":2,"area::href":2,"blockquote::cite":2,"body::background":1,"del::cite":2,"form::action":2,"img::src":1,"input::src":1,"ins::cite":2,"q::cite":2};var html=function(a){function x(b,c,d){var e=[];w(function(b,e){for(var f=0;f<e.length;f+=2){var g=e[f],h=e[f+1],i=null,j;if((j=b+"::"+g,a.ATTRIBS.hasOwnProperty(j))||(j="*::"+g,a.ATTRIBS.hasOwnProperty(j)))i=a.ATTRIBS[j];if(i!==null)switch(i){case a.atype.NONE:break;case a.atype.SCRIPT:case a.atype.STYLE:h=null;break;case a.atype.ID:case a.atype.IDREF:case a.atype.IDREFS:case a.atype.GLOBAL_NAME:case a.atype.LOCAL_NAME:case a.atype.CLASSES:h=d?d(h):h;break;case a.atype.URI:h=c&&c(h);break;case a.atype.URI_FRAGMENT:h&&"#"===h.charAt(0)?(h=d?d(h):h,h&&(h="#"+h)):h=null;break;default:h=null}else h=null;e[f+1]=h}return e})(b,e);return e.join("")}function w(b){var c,d;return v({startDoc:function(a){c=[],d=!1},startTag:function(e,f,g){if(!d){if(!a.ELEMENTS.hasOwnProperty(e))return;var h=a.ELEMENTS[e];if(h&a.eflags.FOLDABLE)return;if(h&a.eflags.UNSAFE){d=!(h&a.eflags.EMPTY);return}f=b(e,f);if(f){h&a.eflags.EMPTY||c.push(e),g.push("<",e);for(var i=0,j=f.length;i<j;i+=2){var 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// stop here if we're not in TiddlyWiki
// XXX: is this the correct way of checking for TiddlyWiki?
if (!window.TiddlyWiki || !window.store || !store instanceof TiddlyWiki) {
	return;
}

var tiddlyspace = config.extensions.tiddlyspace;

var _subWikify = Wikifier.prototype.subWikify;

var cleanedTitle = 'This section has been cleaned of any potentially harmful code';

var replaceFunctions = {
	html: function(w) {
		var sanitizedHTML, spanEl;
		this.lookaheadRegExp.lastIndex = w.matchStart;
		var lookaheadMatch = this.lookaheadRegExp.exec(w.source);
		if(lookaheadMatch && lookaheadMatch.index == w.matchStart) {
			sanitizedHTML = $.sanitize(lookaheadMatch[1]);
			spanEl = createTiddlyElement(w.output, 'span', null, 'sanitized');
			spanEl.innerHTML = sanitizedHTML;
			spanEl.setAttribute('title', cleanedTitle);
			w.nextMatch = this.lookaheadRegExp.lastIndex;
		}
	},
	customFormat: function(w) {
		switch(w.matchText) {
			case '@@':
				var e = createTiddlyElement(w.output, 'span');
				var styles = config.formatterHelpers.inlineCssHelper(w);
				if (styles.length === 0) {
					e.className = 'marked';
				}
				w.subWikifyTerm(e, /(@@)/mg);
				break;
			case '{{':
				var lookaheadRegExp = /\{\{[\s]*([\w]+[\s\w]*)[\s]*\{(\n?)/mg;
				lookaheadRegExp.lastIndex = w.matchStart;
				var lookaheadMatch = lookaheadRegExp.exec(w.source);
				if(lookaheadMatch) {
					w.nextMatch = lookaheadRegExp.lastIndex;
					e = createTiddlyElement(w.output,lookaheadMatch[2] == "\n" ? "div" : "span",null,lookaheadMatch[1]);
					w.subWikifyTerm(e,/(\}\}\})/mg);
				}
				break;
		}
	}
};

Wikifier.prototype.subWikify = function(output, terminator) {
	var tid = this.tiddler,
		spaceName = tiddlyspace.currentSpace.name,
		tidSpace, recipeName, stripped;
	try {
		recipeName = tid.fields['server.recipe'] ||
			tid.fields['server.workspace'];
		tidSpace = tiddlyspace.resolveSpaceName(recipeName);
		if (tidSpace !== spaceName) {
			// external tiddler, so replace dangerous formatters
			stripped = stripHTML(tid, this.formatter);
		}
	} catch(e) {
		// do nothing. There's no tiddler, so assume it's safe (?!?!?)
	}

	_subWikify.apply(this, arguments);

	if (stripped) {
		// change back to the original function
		unstripHTML(stripped, this.formatter);
	}
};

// replace potentially unsafe formatters with versions that strip bad HTML/CSS
var stripHTML = function(tid, formatter) {
	var popped = {}, _handler;
	for (var i = 0; i < formatter.formatters.length; i++) {
		var f = formatter.formatters[i];
		if (replaceFunctions[f.name]) {
			_handler = f.handler;
			popped[f.name] = _handler;
			f.handler = replaceFunctions[f.name];
		}
	};

	return popped;
};

// put the original formatters back where they belong
var unstripHTML = function(stripped, formatter) {
	for (var i = 0; i < formatter.formatters.length; i++) {
		var f = formatter.formatters[i];
		if (stripped[f.name]) {
			f.handler = stripped[f.name];
		}
	};
};

})(jQuery);
//}}}

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

!On Fiji an automatic update for the BioVoxxel Toolbox. 
Just run the Updater ( Help  ▶ Update...) and switch in the main window to 'Advanced mode'. Then click on 'Manage update sites'. Here you simply need to activate the "BioVoxxel" update site.

You will find all functions of the BioVoxxel Toolbox under the icon of the green BioVoxxel cube after selecting BioVoxxel Toolbox from the More Tools Icon (last Icon in the ImageJ/Fiji Icon list with the double arrow).

http://imagej.net/BioVoxxel_Toolbox

!Launch - START
https://en.wikipedia.org/wiki/Gene_set_enrichment
http://software.broadinstitute.org/gsea/login.jsp


Tutorial GSEA  - CYTOSCAPE
http://baderlab.org/Software/EnrichmentMap/AutoEMFromGSEA_Cyto3

http://www.microarrays.org/

!Original - Quick Tour of the GSEA Java Desktop Application
http://software.broadinstitute.org/gsea/doc/desktop_tutorial.jsp

!Original - Documentation
http://www.broadinstitute.org/cancer/software/gsea/wiki/index.php/Main_Page

!Original - Home Institute
http://www.broadinstitute.org/scientific-community/software?criteria=Gene%20Expression
http://software.broadinstitute.org/gsea/index.jsp

!Video tutorial for GSEA
japoneza - GSEA softwareの使い方　〜基本編〜 
https://www.youtube.com/watch?v=TPDir3MPlCg
Portal GSEA Tutorial 
https://www.youtube.com/watch?v=fcHbSMn9B1o

Science in Action: Todd Golub and Justin Lamb 
https://www.youtube.com/watch?v=W_bZOGL3ZbE

!explicatii valori
ES (enrichment score), NES (normalized enrichment score), NES (normalized enrichment score) etc
http://www.baderlab.org/CancerStemCellProject/VeroniqueVoisin/AdditionalResources/GSEA

!example 
Oxidative phosphorylation gene expression falls at onset and throughout the development of meningococcal sepsis-induced multi-organ failure in children
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4502289/

File Formats Guide
http://software.broadinstitute.org/cancer/software/genepattern/file-formats-guide#CLS

http://software.broadinstitute.org/cancer/software/genepattern/modules/docs/GSEA/14

tutorial cu exemplu practic pt estrogeni 
http://www.baderlab.org/Software/EnrichmentMap/Tutorial

!Original - Example Datasets
http://software.broadinstitute.org/gsea/datasets.jsp

Functional Enrichment Analysis in a Set of Genes
https://www.youtube.com/watch?v=7-pfOtmRWgI
https://www.youtube.com/watch?v=I_1cr_6xPBM

!Using DAVID
Using DAVID for Functional Enrichment Analysis in a Set of Genes (Part 1) 
https://www.youtube.com/watch?v=xIu9mm6b7N0
Using DAVID for Functional Enrichment Analysis in a Set of Genes (Part 2) 
https://www.youtube.com/watch?v=zedjRViji2c

!general staff
Bioinformatics Fundamentals 
https://www.youtube.com/watch?v=MyarDT1cojg

https://www.youtube.com/watch?v=_eHz6qzTCfc

https://www.youtube.com/watch?v=Mph3GfDKM-o

https://www.youtube.com/watch?v=kyMzPwS88F8

https://www.youtube.com/watch?v=TDD6bExnR38

https://www.youtube.com/watch?v=-kTcFZxP6kM

!Need 

instalation of Cytoscape
http://cytoscape.org/

Also Install the Enrichment Map plugin
from the Cytoscape plugin manager - aici
http://apps.cytoscape.org/apps/enrichmentmap

http://apps.cytoscape.org/apps/cyanimator
http://www.rbvi.ucsf.edu/cytoscape/CyAnimator/sampleVideo.mp4

http://www.cgl.ucsf.edu/cytoscape/CyAnimator/index.shtml
http://baderlab.org/Software/EnrichmentMap
how to convert DAVID gene-sets to GMT: R script

altele 
http://apps.cytoscape.org/apps/with_tag/enrichmentanalysis

!GRAFICA metabolic link 
https://en.wikipedia.org/wiki/Cytoscape
https://en.wikipedia.org/wiki/Graph_drawing

schema leningher
http://biochemical-pathways.com/#/map/1

https://en.wikipedia.org/wiki/File:Metabolic_Metro_Map.svg

https://en.wikipedia.org/wiki/Metabolic_pathway

http://biochemical-pathways.com/#/map/2


!explicatii cytoscape
http://opentutorials.cgl.ucsf.edu/index.php/Tutorial:Introduction_to_Cytoscape

!Gene Set: MITOCHONDRION
http://software.broadinstitute.org/gsea/msigdb/geneset_page.jsp?geneSetName=MITOCHONDRION

    A semiautonomous, self replicating organelle that occurs in varying numbers, shapes, and sizes in the cytoplasm of virtually all eukaryotic cells. It is notably the site of tissue respiration.  Some anaerobic or microaerophilic organisms (e.g. //Entamoeba histolytica, Giardia intestinalis// and several //Microsporidia// species) do not have mitochondria, and contain mitochondrion-related organelles (MROs) instead, called mitosomes or hydrogenosomes, very likely derived from mitochondria. To annotate gene products located in these mitochondrial relics in species such as //Entamoeba histolytica, Giardia intestinalis// or others, please use GO:0032047 'mitosome' or GO:0042566 'hydrogenosome'. (See PMID:24316280 for a list of species currently known to contain mitochondrion-related organelles.)

!Genes up-regulated in peripheral blood monocytes (PMBC): Gram positive sepsis versus mixed infection sepsis.
http://software.broadinstitute.org/gsea/msigdb/cards/GSE9960_GRAM_POS_VS_GRAM_NEG_AND_POS_SEPSIS_PBMC_UP

!@@Duncan Illumina μarray@@
➊ 
https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE40180
➋ 
@@Use GEO2R@@
Linear models and empirical Bayes methods for assessing differential expression in microarray experiments. (with R script)

dataset browser
http://www.ncbi.nlm.nih.gov/geo/
o colectie de 4348 DataSet records
https://www.ncbi.nlm.nih.gov/sites/GDSbrowser/
➌ 
Cipul este Illumina MouseWG-6 v2.0 expression beadchip
https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GPL6887

➍ Illumina
http://support.illumina.com/array/array_kits/mousewg-6_v2_expression_beadchip_kit/downloads.html
➎ 
http://support.illumina.com/array/array_kits/mousewg-6_v2_expression_beadchip_kit/training.html

https://omictools.com/gene-set-analysis-category
http://www.webgestalt.org/

! Affymetrix Human Genome
http://www.affymetrix.com/catalog/131455/AFFY/Human+Genome+U133+Plus+2.0+Array#1_3
GeneChip® Human Genome U133 Plus 2.0 Array 

!DETALII: 
Affymetrix microarray (U133plus2)
Technology type: in situ oligonucleotide
synonime
[HG-U133_Plus_2] Affymetrix Human Genome U133 Plus 2.0 Array

with 54,675 transcript
Data was divided into a training set (n=35) and a validation set (n=35)

detalii 1 
https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE9960

detalii 2
https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GPL570
https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE40180

http://www.atsjournals.org/doi/pdf/10.1164/ajrccm-conference.2016.193.1_MeetingAbstracts.A6281

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3585423/

Gene ral
1
https://www.youtube.com/watch?v=CLV1nrzGyBA

https://www.youtube.com/watch?v=5zSrLlEwHRk

https://www.youtube.com/watch?v=6Udqou3vmng

aging intretinere
https://www.youtube.com/watch?v=1Xdyj0GS0Vg

TEST 003
GSE40180
http://www.ncbi.nlm.nih.gov/geo/
http://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE40180

Did you know: 
1. that 90% of the genetic variation between humans comes from single nucleotide polymorphisms (SNPs)

!proiect Jupyter - vizualisation for Gene pattern
http://jupyter.org/widgets.html

!array protein ab demo
https://www.youtube.com/watch?v=IuBUKLivW08

!cool visualizator
http://www.biolayout.org/

900470  	GeneChip® Human Genome U133 Plus 2.0 Array contains 2 arrays    	$1,350.00 	

900466 	GeneChip® Human Genome U133 Plus 2.0 Array contains 6 arrays    	$4,050.00 	

900467 	GeneChip® Human Genome U133 Plus 2.0 Array	contains 30 arrays    	$20,250.00 	

902482 	GeneChip® Human Genome U133 Plus 2.0 Assay	10 reactions    	$7,740.00 	

902483 	GeneChip® Human Genome U133 Plus 2.0 Assay	30 reactions    	$22,620.00 	



GeneChip® miRNA Arrays
GeneChip® miRNA Arrays are powerful tools for studying the role of small non-coding RNA (miRNA, snoRNA, and scaRNA) and their importance in cancer and other diseases. 

902445 	
GeneChip® miRNA 4.0 Array and Flashtag™ Bundle
	Sufficient for 10 samples    	$2,600.00 	
902446 	
GeneChip® miRNA 4.0 Array and Flashtag™ Bundle
	Sufficient for 30 samples    	$7,795.00 	
902411 	
GeneChip® miRNA 4.0 Array
	Contains 2 arrays    	$450.00 	
902412 	
GeneChip® miRNA 4.0 Array
	Contains 6 arrays    	$1,350.00 	
902413 	
GeneChip® miRNA 4.0 Array
	Contains 30 arrays    	$6,750.00 	
902017 	
GeneChip® miRNA 3.0 Array
	Contains 2 arrays    	$530.00 	
902018 	
GeneChip® miRNA 3.0 Array
	Contains 6 arrays    	$1,590.00 	
902019 	
GeneChip® miRNA 3.0 Array
	Contains 30 arrays    	$7,950.00 	
901753 	
GeneChip® miRNA 2.0 Array
	Contains 2 arrays    	$530.00 	
901754 	
GeneChip® miRNA 2.0 Array
	Contains 6 arrays    	$1,590.00 	
901755 	
GeneChip® miRNA 2.0 Array
	Contains 30 arrays    	$7,950.00 	

Genetica presupune un sir de evenimente care pornesc de la informatia stocata in gene, activarea genelor (care este un proces epigenetic), genele activate genereaza un ARN mesager care trece in citoplasma unde este citit de catre ribozomi care, impreuna cu microa ARN-urile din citoplasma citesc mesajul si il transforma in text proteic (lanturile de aminoacizi care, ulterior prin combinatii complexe si foldare genereaza proteinele mature). Investigarea acestor procese la un individ oarecare necesita tehnici extreme de precise care sa identifice ce gene sint activate intr-un anumit moment. In acest scop se foloseste identificarea ARN-urilor implicate in acest proces. 
https://geomarz.wordpress.com/category/epigenetica/

In acest moment exista urmatoarelel tehnici


    Gene Set Enrichment Analysis (GSEA)
    Pathway and gene set overdispersion analysis (PAGODA)

Pathway Studio enables the analysis and visualization of disease mechanisms, gene expression and proteomics and metabolomics data. 
https://www.elsevier.com/solutions/pathway-studio-biological-research

Human Transcriptome Array (HTA) Analysis: How to run an analysis in the Expression Console Software from Affymetrix
https://www.youtube.com/watch?v=t11i0A8A_vY

Gene Expression and Regulation
https://www.youtube.com/watch?v=ee54qugMJGM
operon
https://en.wikipedia.org/wiki/Post-transcriptional_modification

The Brown Lab's complete guide to microarraying for the molecular biologist.
http://cmgm.stanford.edu/pbrown/mguide/index.html

to capt
http://www.slideshare.net/ruchibioinfo/microarray

How to perform Gene Set Enrichment Analysis (GSEA) with Blast2GO
https://www.youtube.com/watch?v=aPhWVF7Ucck
https://www.blast2go.com/
ow to create the ranked gene list, used parameters, how to run the analysis and interpret the different result tables and plots and how to generate charts and graphs to summarize the functional profiles.
Register for a free Blast2GO Basic Account
Pro for academic 1 year price: 850 €

didactic future
https://www.youtube.com/watch?v=OnhDijxJkDM


!FREE GENE EXPRESSION ANALYSIS SOFTWARE

AltAnalyze 

http://www.altanalyze.org/
http://altanalyze.readthedocs.io/en/latest/ResultsAnalysis/

R 
http://cran.r-project.org
 
BioConductor 
http://www.bioconductor.org/

geWorkbench 2.5.1 from NCI
https://wiki.nci.nih.gov/display/geWorkbench/geWorkbench

Babelomics 
http://babelomics.bioinfo.cipf.es/

MultiExperiment Viewer from TIGR 
http://www.tm4.org/mev.html

ExAtlas 
http://lgsun.grc.nia.nih.gov/exatlas/

Database

http://www.ebi.ac.uk/arrayexpress/

the Allen Institute.
http://human.brain-map.org/microarray/search/show?search_term=91&search_type=gene_classification&page_num=0



http://www.ncbi.nlm.nih.gov/sra

http://www.ebi.ac.uk/ena

 	
!Webgestalt (webformă)
@@WEB-based GEne SeT AnaLysis Toolkit@@
http://www.webgestalt.org/

https://omictools.com/gene-set-analysis-category

!R & RStudio : What's the Difference?

R the application is installed on your computer and uses your personal computer resources to process R programming language.  RStudio integrates with R as an IDE (Integrated Developmet Environment) to provide further functionality.  RStudio combines a source code editor, build automation tools and a debugger.

We recommend you install both R and RStudio on your personal computer.

@@Installing R@@

To install R to your local computer follow these steps:

    Download the R installer at http://cran.stat.ucla.edu
    Install R by opening the installer and following the steps
    That's it!  You can now run R from your local computer

@@Installing RStudio@@

To install RStudio to your local computer follow these steps:

    Verify you have already installed R and that you can launch the R application
    Download the RStudio Desktop installer at http://www.rstudio.com/ide/download/
    Install RStudio Desktop by opening the installer and following the steps
    That's it!  You can now run RStudio from your local computer.

https://www.rstudio.com/products/rstudio/

! punct cu punct
http://baderlab.org/VeroniqueVoisin/Intranet/Protocol
A to Z protocol to create an EnrichmentMap from Gene Expression Data and using GSEA (Gene Set Enrichment Analysis)

despre R
http://www.cyclismo.org/tutorial/R/
video(economie)
data science
https://www.youtube.com/watch?v=TR2bHSJ_eck
➊ 
https://www.youtube.com/watch?v=qEJHYIa-EhI


https://www.youtube.com/watch?feature=player_detailpage&v=7cGwYMhPDUY
https://www.youtube.com/watch?v=qEJHYIa-EhI

!Analyse GEO2R data with R and Bioconductor
http://wiki.bits.vib.be/index.php/Analyse_GEO2R_data_with_R_and_Bioconductor

@@The human mitochondrial transcriptome@@
! The dataset for the mitochondrial genes
Mercer TR, Mattick JS mtUPR genes Illumina Genome Analyzer II (Homo sapiens) Mitochondria RNAseq
https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE30772

Quenching refers to any process which decreases the fluorescence intensity of a given substance.

Un désactivateur (noté par exemple D) ou quencher (extincteur en anglais) est une entité moléculaire, ou une espèce chimique, capable de désactiver un état excité (E*) créé dans une entité moléculaire (E) par transfert d'énergie, d'électron ou par un mécanisme chimique.

In optics, photobleaching (sometimes termed fading) is the photochemical alteration of a dye or a fluorophore molecule such that it permanently is unable to fluoresce. This is caused by cleaving of covalent bonds or non-specific reactions between the fluorophore and surrounding molecules.[1] In microscopy, photobleaching may complicate the observation of fluorescent molecules, since they will eventually be destroyed by the light exposure necessary to stimulate them into fluorescing. This is especially problematic in time-lapse microscopy.

Fluorescence-lifetime imaging microscopy or FLIM is an imaging technique for producing an image based on the differences in the exponential decay rate of the fluorescence from a fluorescent sample. It can be used as an imaging technique in confocal microscopy, two-photon excitation microscopy, and multiphoton tomography.
 
The lifetime of the fluorophore signal, rather than its intensity, is used to create the image in FLIM. This has the advantage of minimizing the effect of photon scattering in thick layers of sample.

! iBlot Dry Blotting System  from gel to membrane 
only for transfer in 7 minutes
[img[https://www.thermofisher.com/ca/en/home/life-science/protein-biology/protein-assays-analysis/western-blotting/transfer-proteins-western-blot/iblot-dry-blotting-system/_jcr_content/MainParsys/textimage_ee7d/image.img.jpg/1468614065460.jpg]]

https://www.thermofisher.com/ca/en/home/life-science/protein-biology/protein-assays-analysis/western-blotting/transfer-proteins-western-blot/iblot-dry-blotting-system.html

! iBind no electic System  incubation membrane 
with Abodys over night
1000$ par capilarite 
Bind Western Systems allow all solutions to be prepared and loaded in the device at the start of the procedure, from which point all steps proceed automatically and uninterrupted by sequential lateral flow technology (SLF), i.e., simple capillary action—no electricity or batteries are required.
Schema
[>img[https://www.thermofisher.com/content/dam/LifeTech/global/life-sciences/ProteinExpressionAnalysis/Images/0515/ibind-wells.jpg]]
foto
[img[http://media.biocompare.com/m/37/product/5339258-400x300.jpg]]

https://www.youtube.com/watch?v=Ta4gxyjQp7g

[img[https://www.thermofisher.com/content/dam/LifeTech/global/migrationimages/ibind-western-device-cvc.jpgl]]

How to use the iBind™ Western System 
https://www.youtube.com/embed/ds9wYZXLYng?rel=0

https://www.thermofisher.com/ca/en/home/life-science/protein-biology/protein-assays-analysis/western-blotting/detect-proteins-western-blot/ibind-western-system.html

!Experion from Biorad
for Protein (cartige bleu) Pro260 Chip Layout
for DNA (cartige green)
for RNA (cartige ciclamen yellow)


http://www.bio-rad.com/en-ca/category/experion-automated-electrophoresis-system


This automated platform for nucleic acid and protein analysis incorporates LabChip technology into an integrated system that performs multiple electrophoresis steps in one. Software analysis tools are offered for flexible data analysis

[img[http://t1.gstatic.com/images?q=tbn:ANd9GcSGpe02L3t43yHxcr0D8j2wEMXf6zIp6AEtJ73EsxJMBojbmRodW4j0vg]]

[img[http://www.bio-rad.com/webroot/web/images/lsr/solutions/applications/automated_electrophoresis/application_detail/aea11_img1.jpg]]

https://www.youtube.com/watch?v=6i-yFtmDxeE
https://www.youtube.com/watch?v=pOTck3Yx3Rs
https://www.youtube.com/watch?v=EnGO9jJ3VPs
https://www.youtube.com/watch?v=2VCAZFkhxO8

http://www.ebay.com/itm/Bio-Rad-Experion-Automated-Electrophoresis-System-/231367887692
US $2,000

[img[http://www.bio-rad.com/webroot/web/images/lsr/products/electrophoresis/category_feature/global/lsr_experion_auto_electro_systm.jpg]]

//Bio-Rad’s Experion is an automated gel electrophoresis system for analysis of RNA, DNA and protein samples using patented Lab-On-Chip technology from Caliper Life Sciences. This versatile instrument is suited for laboratories that need to analyze the quantity and quality of samples without sacrificing large amounts of sample. The complete package includes the main instrument, chip priming station, vortexer, and Windows-based software for instrument control and data analyses. One training session is included in the purchase and supplemented by a wealth of information on Bio-Rad’s website, including demonstration videos.Two different types of RNA chips (high sensitivity and standard sensitivity) are designed for analyses of mRNA or total RNA in order to determine integrity and concentration prior to downstream applications, such as qRT-PCR or microarrays. By offering a fast turn-around alternative for denaturing agarose gels, Experion RNA chips reduce exposure to hazardous formaldehyde and ethidium bromide, decrease the amount of sample needed for analyses and provide a reliable system for documentation of results. Similarly, DNA chips can be used instead of agarose gels for analyses of DNA samples, such as plasmids, long oligonucleotides, PCR products or restriction digests. Finally, protein chips could be used to evaluate integrity, purity and concentration of purified protein samples or lysates, thereby offering an alternative to SDS-PAGE. All chips are disposable and sold separately or within kits, which include buffers, dyes and molecular weight markers. Compared to Agilent Bioanalyzer 2100, the industry standard for Lab-On-Chip systems, Experion is more affordable and more end-user oriented, which makes it an ideal choice for an individual laboratory or a small core facility. I have been using Experion primarily for quality control of total RNA samples prior to qRT-PCR. In addition, I have been using the Experion RNA chips for quality control of in vitro transcription reactions. Each assay allows for analysis of up to 12 samples within 1 h with only about 30 min “hands-on” time. The results are presented as a virtual gel and a table with values for RNA concentration and 28S/18S ratio, when applicable, as a measure of RNA integrity. The latter value serves as a checkpoint prior to qRT-PCR assays and gives me confidence in the subsequent results. Particularly, I would recommend using Experion RNA assays for samples obtained from in vivo experiments or in vitro experiments involving inhibitors that may affect RNA integrity, for samples that were stored for extended period of time or went through a freeze/thaw cycle, or any samples that would be subjected to multiple qRT-PCR reactions or microarray analyses. In the beginning, I had a mixed experience with the system due to a defective vortexer. However, once the vortexer was replaced (under warranty), I found the system worth the investment. The only complaint I have is that Bio-Rad is not transparent on the design and specifications of the system and does not seem to support user’s initiated novel applications of the system. //

! Agilent 2100 Bioanalyzer Instruments
http://www.genomics.agilent.com/en/Bioanalyzer-System/2100-Bioanalyzer-Instruments/?cid=AG-PT-106

[img[http://www.agilent.com/about/newsroom/imagelibrary/images/lsca_125_dna_kit.jpg]]

!inflamation test - Proteome Profiler™ Antibody Arrays (300-400$)
https://www.rndsystems.com/products/proteome-profiler-antibody-arrays

https://www.rndsystems.com/profiling-changes-receptor-tyrosine-kinase-phosphorylation-using-antibody-arrays

Proteome Profiler Mouse XL Cytokine Array for mouse USD $799
Contains 4 membranes-each spotted in duplicate with 111 different cytokine antibodies

[img[https://www.rndsystems.com/sites/rndsystems.com/files/reviews/approved/review_ary028_4406.png]]

[https://www.rndsystems.com/sites/rndsystems.com/files/reviews/approved/review_ary028_4406.png]]

!MESOSCALE KIT 
 U-PLEX Proinflam Combo 1 (NHP) SECTOR (1 PL)
https://www.mesoscale.com/en/products/k15070k-1/
Price in USD	 	$1,384
[https://www.mesoscale.com/~/media/images/products/assay%20kits/im_kit_1.png?h=166&la=en&mh=220&mw=220&w=220]]


!ELISA Ready-SET-Go!®
http://www.ebioscience.com/mouse-il-6-ready-set-go-elisa.htm
from cedarlane (ebioscience)  (Affimetrix)

!Automated Live Cell Imager
Lionheart™ FX Automated Live Cell Imager with Augmented Microscopy™ is an all inclusive microscopy system. Brightfield, color brightfield, phase contrast and fluorescence channels offer maximum support for a wide range of imaging applications. The system is optimized for live cell imaging with temperature and CO2/O2 control, plus an available humidity chamber and reagent injector to add greater optimization for live cell imaging under ideal physiological conditions.

Gen5™ 3.0  software provides automated image capture and analysis, plus annotation and movie maker functions. Capture and analyze images across a broad range of live and fixed cell applications, including perfusion assays. Augmented Microscopy is the combination of all of these features in one compact system. With Lionheart FX, you can capture, analyze, annotate and produce videos with ease.
http://www.biotek.com/products/imaging/lionheartfx_automated_live_cell_imager.html?tab=overview

[http://www.biospx.com/images/lionheart_1140x600.jpg]]

[http://www.biotek.com/images/products/lionheart/Lionheart4.jpg]]

Nowadays there are not specific markers to cardiac stem cells or endothelial progenitor cells. most times you could isolate a mixture of different cells expressing the same surface antigens. Maybe in the culture you can try to decrease the heterogenety, but it is difficult.

ALCAM (CD166) a Surface Marker for Early Murine Cardiomyocytes.
ALCAM (activated leukocyte cell adhesion molecule, CD166) belongs to the immunoglobulin superfamily and is involved in axon guidance, hematopoiesis, immune response and tumor metastasis. During embryogenesis, mRNA encoding ALCAM was expressed in the cardiac crescent and the neural groove at embryonic day (E) 7.75 and predominately in the tubular heart at E8.5. A newly generated monoclonal antibody against the ALCAM molecule (ALC-48) exclusively stained cardiomyocytes at E8.25–10.5. However, ALCAM expression was lost by cardiomyocytes by E12.5 and its expression shifts to a variety of organs during later stages. ALCAM was found to be a prominent surface marker for cardiomyocytes in early embryonic hearts. The transient expression of ALCAM during early developmental stages marks specific developmental stages in cardiomyocyte differentiation.
PMID: 17409743

Adrenomedullin

· a regulated modulator of neonatal cardiomyocyte hypertrophy in vitro. PMID: 11470465

ALCAM (CD166)

· a Surface Marker for Early Murine Cardiomyocytes. PMID: 17409743

alpha-Actinin

· an actin-binding protein that plays a key role in the formation and maintenance of Z-lines, during the T. cruzi-cardiomyocyte interaction in vitro. Immunolocalization of alpha-actinin in control cardiomyocytes demonstrated a typical periodicity in the Z line of cardiac myofibrils, as well as its distribution at focal adhesion sites and along the cell-cell junctions. PMID: 16650336

Annexin 5

· in vivo as in vitro annexin A5 might be involved in the regulation of early apoptotic events during cardiac pathological situations. PMID: 16501019

· Western blot analysis shows that annexin V is abundantly present in the heart. Using isolated myocytes and cultured cardiac endothelial and fibroblast-like cells, it is demonstrated that the localization of Annexin V is confined to non-myocytes. PMID: 1480159

Annexin 6

· one of a widely expressed family of calcium-binding proteins found in most mammalian tissues, including the heart, is a negative inotropic factor in the regulation of cardiomyocyte mechanics. PMID: 11919174, PMID: 8780208

ANP (atrial natriuretic peptide)

· a sensitive cardiomyocyte marker of ventricular hypertrophy. PMID: 17275806

· through its guanylyl cyclase-A (GC-A) receptor, not only is critically involved in the endocrine regulation of arterial blood pressure but also locally moderates cardiomyocyte growth. PMID: 16216978

· ANF and BNP expression is a marker of cardiomyocyte differentiation, and is regulated spatially, developmentally and hormonally. PMID: 15837526

bFGF

· plays a role in cardiomyocyte differentiation during early stages of development. PMID: 7898073

BNP (brain natriuretic peptides)

· a marker of cardiomyocyte differentiation, and is regulated spatially, developmentally and hormonally. PMID: 15837526

· cardiomyocyte-specific peptide hormones. PMID: 15913645

· a cardiac hormone constitutively expressed in the adult heart. PMID: 12067842

Cardiac troponin I (cTnI)

· a cardiomyocyte specific marker. PMID: 16382259, PMID: 15579650, PMID: 12878946

· a key regulatory protein in cardiac muscle contraction and relaxation. PMID: 15769444

· Measurement of plasma cardiac troponin I concentration ([cTnI]) is a sensitive and specific means for detecting myocardial damage in many mammalian species. PMID: 12322706

· has proven to be a highly specific and sensitive marker for myocardial cellular damage in many mammalian species. PMID: 11596740

· highly sensitive and specific for detecting myocardial damage even in the presence of skeletal muscle injury. PMID: 10190525

· a new highly specific diagnostic marker of cardiomyocyte damage, is a reliable marker of cardiac ischemia during heart operations under cardiopulmonary bypass (CPB). PMID: 9814799

Cardiac troponin-T (cTnT)

· cardiac-specific protein. PMID: 16831561

· a specific marker of cardiomyocytes. PMID: 16730572

· one prominent substrate through which protein kinase C (PKC) exerts its effect on cardiomyocyte function. PMID: 12832403

· a cardiac-specific marker for necrotic damage. PMID: 12183413

· a highly sensitive and specific serum marker of irreversible cardiomyocyte injury. PMID: 10519973, PMID: 10190525

· a recently developed serological marker used as a sensitive diagnostic tool for early myocardial damage in 'at risk' human patients. PMID: 7719731

CARP (cardiac adriamycin-responsive protein)

· a nuclear modulator of gene expression in cardiac progenitor cells and cardiomyocytes.PMID: 9278441

Caveolin-2

· caveolin-2 and caveolin-3 are detected at low levels in ventricular myocardium and increase dramatically with age or when neonatal cardiomyocytes are placed in culture.PMID: 12649076

Caveolin-3

· cardiomyocyte-specific marker. PMID: 16397145

· a major constituent of cardiac caveolae, has been suggested to interact with several signaling molecules. PMID: 15725944

· a structural component of cardiac caveolae, is associated with cellular signaling. PMID: 12847114

CHAMP

· expressed specifically in embryonic and postnatal cardiomyocytes. PMID: 11397016

CNP (C-type natriuretic peptide)

· recently found to play a cardioprotective role in preventing myocardial ischaemia/reperfusion (I/R) injury and improving cardiac remodelling after myocardial infarction (MI) in rats. PMID: 17407830

Connexin-43

· localized at left ventricular (LV) gap junctions and in cardiomyocyte mitochondria. PMID: 17142336, PMID: 16100048, PMID: 12373152
the constitutive protein for the formation of cardiac gap junctions and therefore essential for cell-cell coupling and normal cardiac function. PMID: 16537100

· localized at cardiomyocyte mitochondria and that ischemic preconditioning (IP) enhances such mitochondrial localization. PMID: 15919068

· main constituent of cardiomyocyte gap junctions. PMID: 12619863

Desmin

· the major muscle-specific intermediate filament (IF) protein, is essential for mitochondrial behavior and function and maintenance of healthy muscle. PMID: 15733906

· protein marker of cardiomyocyte hypertrophy. PMID: 15699919

· the muscle-specific member of the intermediate filament gene family, display defects in all muscle types and particularly in the myocardium. PMID: 14734054, PMID: 9501201

· the muscle-specific member of the intermediate filament family of cytoskeletal proteins, expressed both in striated and smooth muscle tissues. PMID: 10591032

dHAND

· early cardiomyocyte gene. PMID: 11437454, PMID: 10964476

· essential for heart development and extra embryonic structures, is thought to regulate cardiomyocyte-specific gene expression through combinatorial interactions with other cardiac-restricted transcription factors such as GATA4 and NKX2.5. PMID: 15486975

eHAND

· cardiomyocyte-specific transcription factor. PMID: 12163362, PMID: 16433623

GATA-4

· cardiac marker gene. PMID: 16487072

· cardiomyocyte-specific transcription factor. PMID: 16433623

· a survival factor for differentiated, postnatal cardiomyocytes and an upstream activator of the antiapoptotic gene Bcl-X. PMID: 15100413

· a key regulator of cardiac genes, is a nuclear mediator of RhoA signaling and is involved in the control of sarcomere assembly in cardiomyocytes. PMID: 11641276

· involved in cardiomyocyte differentiation. PMID: 11418590

· a cardiac-specific member of the GATA family of zinc finger transcription factors. PMID: 9199365

· a critical regulator of cardiac gene expression where it controls embryonic development, cardiomyocyte differentiation, and stress responsiveness of the adult heart. PMID: 16514068

GATA-6

· expressed in presumptive cardiac mesoderm before gastrulation, proper maturation of cardiac mesoderm requires GATA-6, which functions to maintain BMP-4 and Nkx2 expression. PMID: 12912923

H-FABP

· a cytosolic protein that is released rapidly from the cardiomyocyte in response to myocardial injury. PMID: 16880323

· released into the circulation when the myocardium is injured, and H-FABP has been recently used as a novel marker for the diagnosis of ongoing myocardial damage. PMID: 16363617, PMID: 15704065

· available as a biomarker for predicting ongoing cardiomyocyte damage in the mouse model. PMID: 16026778

· involved in regulating cardiomyocyte growth and differentiation in mouse neonatal hearts. PMID: 15064945

Insulin-like growth factor 1 (IGF-1)

· a cardiomyocyte growth and differentiation factor. PMID: 16698918

· may provide cardiac protection against glucose in part through a PI-3 kinase/Akt/mTOR/ p70s6k-dependent and calcineurin-independent pathway. PMID: 16135669

· synthesized locally in the heart is known to be associated with the hypertrophic process. Cardiac-synthesized IGF-I is an initiating or early-enhancing factor for hypertrophy of LV cardiomyocytes. PMID: 14624474

· in cardiomyocytes, the antiapoptotic effect of IGF-I requires both PI3K- and MEK1-dependent pathways leading to the activation of the transcription factor CREB, which then induces the expression of the antiapoptotic factor bcl-2. PMID: 11673351

· can directly alleviate the hypoxia-induced cardiomyocyte apoptosis. PMID: 11256230

MEF2C

· is required for the efficient differentiation of cardiomyoblasts into cardiomyocytes.PMID: 17003108

· a MADS-box transcription factor required for cardiac myogenesis and morphogenesis.PMID: 11397016

MHC (myosin heavy chain)

· cardiac-specific gene. PMID: 16831561

MLC (myosin light chain)

· MLC-2V is a marker of cardiomyocytes. PMID: 17300799

· MLC-2a and MLC-2v are cardiac-specific genes. PMID: 15753841

· MLC-2v is a cardiomyocyte-specific gene. PMID: 15639472

N-cadherin

· a useful marker for the progenitor of cardiomyocytes differentiated from mouse ES cells in serum-free condition. PMID: 17097609

· belongs to a superfamily of calcium-dependent transmembrane adhesion proteins. It mediates adhesion in the intercalated discs at the termini of cardiomyocytes thereby serving as anchor for myofibrils at cell-cell contacts. PMID: 16228908

· cardiomyocyte marker. PMID: 15579650

Nkx2.5 (cardiac homeobox protein)

· cardiac marker gene. PMID: 16487072

· cardiomyocyte-specific transcription factor. PMID: 16433623

· involved in cardiomyocyte differentiation. PMID: 11418590, PMID: 15505807

· cardiomyocyte marker. PMID: 17300799

· Nkx2.5(+) lineage cells possess the potential to differentiate into various cardiomyocyte cell types and that RA can modify the differentiation potential of Nkx2.5(+) cardiomyocytes at an early stage. PMID: 12594186

· essential in cardiac development, and mutations in Csx (which encodes Nkx2-5) cause various congenital heart diseases. PMID: 11431700

· the putative cardiomyocyte specification gene. PMID: 9986733

Oct-4

· involved in cardiomyocyte and osteoblast differentiation. PMID: 15505807

Pnmt (Phenylethanolamine N-methyltransferase)

· besides PNMT in neuronal and intrinsic cardiac cells, this enzyme is expressed also in rat cardiomyocytes, as shown by immunofluorescence in isolated cardiomyocytes, is a novelmarker of cardiomyocyte stem cells. PMID: 17175506

· localized, not predominantly in cardiac ganglion cells, but in a wide range in atrial cardiomyocytes. PMID: 15240396

· the final enzyme in the pathway for epinephrine biosynthesis, serves as a marker for tissues and cells producing epinephrine. PMID: 8877775

Sarcomeric alpha Actin/Actinin

· cardiomyocyte-specific marker. PMID: 17045908, PMID: 16637898, PMID: 16433623,PMID: 15878162, PMID: 12628942

Sarcomeric Myosin

· a marker for cardiomyocytes. PMID: 13678453, PMID: 16516919, PMID: 14578102

· Cardiac myocyte specific protein marker. PMID: 15896309

Sarcomeric Tropomyosin

· Expressed on cardiomyocytes purified from embryoid bodies. PMID: 12594186

Skeletal alpha-Actin

· gene normally expressed in the fetal ventricular cardiomyocyte. PMID: 7499296

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

Experience mSOX {Hoechst ~ mSOX ~ Antimicin A} 

Procedure:
1. Equilibrate all materials and prepare solutions to 37 °C prior to use. Cells should be seeded in microplate ~150 000 cells/well. The plates must be treated with Cel-Tak. Cell Line U-937 ATCC #Cat.No.: CRL-1593.2 human monocytes

2. Prepare the tubes:
Tube (1) (Assay Buffer 12 mL) + 12 µL mSOX (ss)+ 12uL Hoechst (ss) (take 6mL)
Tube (2) 6mL from Tube 1 + 300 µL Ant-A (1mM) ss
Tube (3) (Assay Buffer 6 mL) + 300 µL Ant-A (1mM) ss
(ss: sollution intermediaire, ss: solution stock)

(A) Add 98.42 µL Cell-Tak in 1000 µL water and place 10 µL diluted Cell-Tak into each well.
(B) Add 20 µL of bicarbonate buffer to each well.
(C) Shake delicate.
(D) Allow at least 20 minutes for adsorption.
(E) Flick or aspirate off the Cell-Tak solution and wash with 100 µL of distiled water, air dry before storing at 2-8 °C. (BioTeK ELX450)

3. Count - Cells should be seeded in microplate ~150 000 cells/well.

4. Centrifuge the plate at 200 rcf for 30 sec, rotate the plate 180
and centrifuge again at 300 rcf for 30 sec. EppendorfCentrifuge 5430R,
with rotor A-2-MTP #Cat.No.: 5430/5430 (max. 4680 rpm) START / STOP / OPEN.

5. Treat one vertical line (STIMULATION line) of wells with 50 µL/well from TUBE 2 {mitoSOX ~ Hoechst 33342 ~ Antimicin A}

6. Treat SAMPLE line of wells except BLANK (Assay Buffer), with 50µL from TUBE 1 {mitoSOX ~ Hoechst 33342 }
for 10 minutes at 37 °C in dark.

7. Wash 3 times warm Assay Buffer

8. Read (Scan 1) the plate on a fluorescence plate reader wit settings
suitable for mitoSOX (bottom, Ex: 510nm, Em: 580nm) Gain144
and for Hoechst (bottom, Ex: 354nm, Em: 442nm) Gain 92

NOTE: Monitoring the oxidation of MitoSOX™ Red probe with 396 nm excitation, you can more selectively detect mitochondrial O2•– production and distinguish it from other nonspecific intracellular oxidative
processes in live cells.

Read the plate on a fluorescence plate reader with settings suitable for:
mitoSOX (bottom, Ex: 396nm, Em: 580nm) [Gain224]
MTG (bottom, Ex: 490nm, Em: 516nm),  [Gain: 100]

9. Treat STIMULATION line of wells with 50 µL from TUBE 3 { Antimicin A}
and apply 50 µL Assay Buffer for Control and 50 µL Assay Buffer for BLANK
and incubate 30 min. at 37 °C in dark.

11. Read (Scan 2 T30 min) the plate on a fluorescence plate reader wit settings
suitable for mitoSOX (bottom, Ex: 510nm, Em: 580nm) Gain144

12. Incubate again (20 minutes) at 37 °C in dark.
Read (Scan 3 T50 min) the plate on a fluorescence plate reader wit settings
suitable for mitoSOX (bottom, Ex: 510nm, Em: 580nm) Gain144

13. Incubate again (20 minutes) at 37 °C in dark.
Read (Scan 4 T70 min) the plate on a fluorescence plate reader wit settings
suitable for mitoSOX (bottom, Ex: 510nm, Em: 580nm) Gain144

14.Incubate again (20 minutes) at 37 °C in dark.
Read (Scan 5 T90 min) the plate on a fluorescence plate reader wit settings
suitable for mitoSOX (bottom, Ex: 510nm, Em: 580nm) Gain144

15. Incubate again (20 minutes) at 37 °C in dark.
Read (Scan 6 T120 min) the plate on a fluorescence plate reader wit settings
suitable for mitoSOX (bottom, Ex: 510nm, Em: 580nm) Gain144


Preparation of:

Assay Buffer "Buffer-BSA"for 200 mL pH 7.4 (with 1N NaOH):
[I] (80 mM) NaCl [FM:58.44] 0.93504 g {Fisher #S2713}
[II] (75 mM) KCl [FM:74.55] 1.118 g {Sigma #P-4504}
[III] (25 mM) D-glucose [FM:180.16] 0.9008 g {Sigma #158968-500G}
[IV] (25 mM) HEPES [FM:238.30] 1.1915 g {Sigma #H3375-250G}
filter 0.20 µm { #83.1826.001} alicot in red tubes 50mL [ -4°C]
[V] (0.2%) fresh BSA [from -4°C] 0.100 g in 50 mL Buffer
(powder weighed before and distributed in eppendorf ready to use).


mitoSOX Molecular Probe #Cat.No.: M36008
www.lifetechnologies.com MW: 759 ((recomand [0.1 - 25 µM]))
Stock concentration: 5 mM (add 13 µL DMSO in original tube 50 µg)
Preparation of (5 µM) mitoSOX Working Solution: 
add 2 µL (of 5 mM stock) in 2 mL PBS
Preparation of (25 µM) mitoSOX Working Solution:
add 13 µL (of 5 mM stock) in 2600 µL PBS {1/2_1/2}
((vol. max. 13uL in 13 000mL)) (incubation 40 min at 37 °C)

Hoechst 33342 Stock concentration: 1mg/mL (1µg/mL)
Working Solution Hoechst 33342 : add 2 µL stock) in same 2 mL PBS
(incubation same 40 min at 37 °C).

(MTG) MitoTracker Green FM [MW:671.9797], non-fluorescent in aqueous solutions, which becomes fluorescent  only when accumulated in the mitochondrial lipid environment, regardless of membrane potential. 
Invitrogen/Molecular Probe (#Cat. No:M-7514) soluble in DMSO 
[I] (1 mM) MTG Stock Solution: 50µg dilute in 74 µL DMSO (store at -20°C in the dark)
[III] (200 µM) Final Solution (Working Solution): 2 µL stock dilute in in 1 mL Buffer-BSA + 9 mL

Antimycin A (Ant-A) from Streptomyces sp. Sigma#Cat.No: A8674-100MG
store -20 °C.
Ant-A Stock concentration (1mM):
 Formula Weight: 548.63 g/mol Mass: 0.01204 g
Vol: 21.94 mL (dilute in 1 mL EtOH + 20.94 mL PBS) filter 0.22um
alicote and store -20 °C.
Ant-A Working Solution 100µM:
add 100 µL stock (1mM) in 1 mL PBS (incubation 40 min)



Plate preparation
Corning Cell-Tak cell tissue adhesive (#Cat.No.:354240, 354241)
Store at 2-8 °C. Coated plates can be stored 2 weeks air-dry before
storing at 2-8°C.

Bicarbonate (NaHCO3) Fisher Sci. #Cat.No: S233-500
Concentration = 0.1 M Formula Weight = 84.01 Vol.= 47 mL
Mass = 394 mg = 0.394 g pH 8.0 Filter-sterilise the buffer.

Total surface area to be coated 96 well with Cell-Tak
stock 2.54 mg = 2540.0 µg
2540 µg.......1000 µL
250 µg........w= 98.42 µL in 1000 µL water alicot 10µL
Place 10 µL diluted Cell-Tak into each well.
Add 20 µL of bicarbonate buffer to each well.
Shake delicate
Allow at least 20 minutes for adsorption.
Flick or aspirate off the Cell-Tak solution and wash with 3 drops of
distiled water air dry before storing at 2-8°C .

=====================

version with mitotraker green

/***
|''Name''|BinaryTiddlersPlugin|
|''Description''|renders base64-encoded binary tiddlers as images or links|
|''Author''|FND|
|''Version''|0.3.2|
|''Status''|@@beta@@|
|''Source''|http://svn.tiddlywiki.org/Trunk/association/plugins/BinaryTiddlersPlugin.js|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
|''CoreVersion''|2.5|
!Code
***/
//{{{
(function($) {

"use strict";

var ctfield = "server.content-type";

var plugin = config.extensions.BinaryTiddlersPlugin = {
	isWikiText: function(tiddler) {
		var ctype = tiddler.fields[ctfield];
		if(ctype) {
			if (ctype === 'text/x-tiddlywiki') {
				return true;
			}
			return !this.isBinary(tiddler) && !this.isTextual(ctype);
		} else {
			return true;
		}
	},
	// NB: pseudo-binaries are considered non-binary here
	isBinary: function(tiddler) {
		var ctype = tiddler.fields[ctfield];
		return ctype ? !this.isTextual(ctype) : false;
	},
	isTextual: function(ctype) {
		return ctype.indexOf("text/") === 0
			|| this.endsWith(ctype, "+xml")
			|| ctype === 'application/json'
			|| ctype === 'application/javascript';
	},
	endsWith: function(str, suffix) {
		return str.length >= suffix.length &&
			str.substr(str.length - suffix.length) === suffix;
	},
	isLink: function(tiddler) {
		return this.isBinary(tiddler) && tiddler.text.indexOf("<html>") !== -1;
	}
};

// Disable edit for linked tiddlers (for now)
// This will be changed to a GET then PUT
config.commands.editTiddler.isEnabled = function(tiddler) {
    var existingTest = config.commands.editTiddler.isEnabled;
    if (existingTest) {
        return existingTest && !plugin.isLink(tiddler);
    } else {
        return !plugin.isLink(tiddler);
    }
};

// hijack text viewer to add special handling for binary tiddlers
var _view = config.macros.view.views.wikified;
config.macros.view.views.wikified = function(value, place, params, wikifier,
		paramString, tiddler) {
	var ctype = tiddler.fields["server.content-type"];
	if(params[0] === "text" && ctype && ctype !== 'text/x-tiddlywiki' &&
			!tiddler.tags.contains("systemConfig") && !plugin.isLink(tiddler)) {
		var el;
		if(plugin.isBinary(tiddler)) {
			var uri = "data:%0;base64,%1".format([ctype, tiddler.text]); // TODO: fallback for legacy browsers
			if(ctype.indexOf("image/") === 0) {
				el = $("<img />").attr("alt", tiddler.title).attr("src", uri);
			} else {
				el = $("<a />").attr("href", uri).text(tiddler.title);
			}
		} else {
			el = $("<pre />").text(tiddler.text);
		}
		el.appendTo(place);
	} else {
		_view.apply(this, arguments);
	}
};

// hijack edit macro to disable editing of binary tiddlers' body
var _editHandler = config.macros.edit.handler;
config.macros.edit.handler = function(place, macroName, params, wikifier,
		paramString, tiddler) {
	if(params[0] === "text" && plugin.isBinary(tiddler)) {
		return false;
	} else {
		_editHandler.apply(this, arguments);
	}
};

// hijack autoLinkWikiWords to ignore binary tiddlers
var _autoLink = Tiddler.prototype.autoLinkWikiWords;
Tiddler.prototype.autoLinkWikiWords = function() {
	return plugin.isWikiText(this) ? _autoLink.apply(this, arguments) : false;
};

}(jQuery));
//}}}

/***
|''Name''|ImageMacroPlugin|
|''Version''|0.9.4|
|''Description''|Allows the rendering of svg images in a TiddlyWiki|
|''Author''|Osmosoft|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
|''Notes''|Currently only works in modern browsers (not IE)|
|''Requires''|BinaryTiddlersPlugin|
!Usage
{{{<<image SVG>>}}} will render the text of the tiddler with title SVG as an SVG image (but not in ie where it will fail silently)
!!Parameters
width/height: specify width/height parameters
link: make the image link to a given location
tiddlyLink: link to a tiddler

!Notes
Binary tiddlers in TiddlyWeb when passed through the wikifier will be shown as images.
eg. {{{<<view text wikified>>}}} on a binary tiddler will show the image.
{{{<<view fieldname image>>}}}
will render the value of the tiddler field 'fieldname' as an image. This field can contain a tid
{{{<<image SiteIcon>>}}}
will create an image tag where the tiddler has content type beginning image and not ending +xml
will attempt to create svg object in other scenarios
{{{<<image /photos/x.jpg>>}}}
will create an image tag with src /photos/x.jpg as long as there is not a tiddler called /photos/x.jpg in 
which case it will render that tiddler as an image. Note for the case of svg files it will attempt to render as an svg if possible via the image
tag. It doesn't embed the svg in the dom for security reasons as svg code can contain javascript.
!Code
***/
//{{{
(function($) {

var macro = config.macros.image = {
	shim: "/bags/common/tiddlers/shim",
	ieVersion: config.browser.isIE ? parseInt(config.browser.ieVersion[1], 10) : false,
	svgns: "http://www.w3.org/2000/svg",
	xlinkns: "http://www.w3.org/1999/xlink", 
	svgAvailable: document.implementation.hasFeature("http://www.w3.org/TR/SVG11/feature#BasicStructure", "1.1"),
	_fixPrefix: 1,
	_external_cache: {},
	_image_tag_cache: {},
	_image_dimensions: {},
	locale: {
		badImage: "This image cannot be displayed."
	},
	handler: function(place, macroName, params, wikifier, paramString, tiddler){
		var imageSource = params[0];
		// collect named arguments
		var args = macro.getArguments(paramString, params);
		this.renderImage(place, imageSource, args);
	},
	init: function() {
		var startupImages = store.getTaggedTiddlers("systemImage");
		var place = $("<div />").attr("id", "systemImageArea").appendTo("body").hide()[0];
		for(var i = 0; i < startupImages.length; i++) {
			var image = startupImages[i];
			macro.renderImage(place, image.title, { idPrefix: "" });
		}
		var data = new Image();
		data.onload = function() {
			// note ie 8 only supports data uris up to 32k so cannot be relied on
			macro.supportsDataUris = this.width != 1 || this.height != 1 ? false : true;
			macro.supportsDataUris = macro.ieVersion && macro.ieVersion < 9 ? false : macro.supportsDataUris;
		};
		data.onerror = data.onload;
		data.src = "data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///ywAAAAAAQABAAACAUwAOw==";
	},
	refreshImage: function(src) {
		var elements = macro._image_tag_cache[src] ? macro._image_tag_cache[src] : [];
		if(macro._image_dimensions[src]) {
			macro._image_dimensions[src] = false;
		}
		for(var i = 0; i < elements.length; i++) {
			var el = $(elements[i]);
			var newSrc = "%0?nocache=%1".format(src, Math.random());
			el.attr("src", newSrc); // force reload
		}
	},
	isBinaryImageType: function(contentType) {
		return (contentType && contentType.indexOf("image") === 0 &&
			contentType.indexOf("+xml") != contentType.length - 4) ? true : false;
	},
	isImageTiddler: function(tiddler) {
		return macro.isSVGTiddler(tiddler) || macro.isBinaryImageTiddler(tiddler);
	},
	isSVGTiddler: function(tiddler) {
		var type = tiddler ? tiddler.fields['server.content-type'] : false;
		return type == "image/svg+xml";
	},
	isBinaryImageTiddler: function(tiddler) {
		return macro.isBinaryImageType(tiddler.fields['server.content-type']);
	},
	renderImage: function(place, imageSource, options) {
		var imageTiddler = store.getTiddler(imageSource);
		var container;
		var classes = ["image"];
		if(options.link) {
			classes = classes.concat(["imageLink", "externalLink"]);
			container = $("<a />").attr("href", options.link).appendTo(place)[0];
		} else if(options.tiddlyLink) {
			classes.push("imageLink");
			container = createTiddlyLink(place, options.tiddlyLink, false);
		} else {
			container = $("<span />").appendTo(place)[0];
		}
		$(container).addClass(classes.join(" "));

		options = options ? options : {};
		if(imageTiddler && macro.isBinaryImageTiddler(imageTiddler)) { // handle the case where we have an image url
			return macro._renderBinaryImageTiddler(container, imageTiddler, options);
		} else if(imageTiddler){ // handle the case where we have a tiddler
			return macro._renderSVGTiddler(container, imageTiddler, options);
		} else { // we have a string representing a url
			return macro._renderBinaryImageUrl(container, imageSource, options);
		}
	},
	_renderAlternateText: function(container, options) {
		var img;
		var src = options.src || "";
		if(options.width && options.height) {
			img = $("<img />").attr("src", src).addClass("svgImageText").attr("width", options.width).
				attr("height", options.height).appendTo(container);
		}
		var alt = options.alt;
		if(img && alt) {
			img.attr("alt", alt).attr("title", alt);
		} else if(alt) {
			$(container).addClass("svgImageText").text(alt);
		}
		macro._image_tag_cache[src] = img;
	},
	_renderSVGTiddler: function(place, tiddler, options) {
		if(!options) {
			options = {};
		}
		merge(options, { tiddler: tiddler, fix: true});

		if(macro.svgAvailable) {
			this._importSVG(place, options); // display the svg
		} else if(options.altImage) {
			var image = options.altImage;
			delete options.altImage;
			this._renderBinaryImageUrl(place, image, options);
		} else {
			this._renderAlternateText(place, options); // instead of showing the image show the alternate text.
		}
	},
	_renderBinaryImageTiddler: function(place, tiddler, options) {
		var resourceURI;
		var fields = tiddler.fields;
		if(fields["server.type"] == "tiddlyweb") { // construct an accurate url for the resource
			resourceURI = "%0/%1/tiddlers/%2".format(config.defaultCustomFields["server.host"],
				fields["server.workspace"], encodeURI(fields["server.title"]));
		} else { // guess the url for the resource
			resourceURI = tiddler.title;
		}
		var ctype = fields["server.content-type"] || tiddler.type;
		var text = tiddler.text;
		if(macro.supportsDataUris && ctype && text.indexOf("<html") == -1) {
			var uri = "data:%0;base64,%1".format(ctype, text);
			options.src = resourceURI;
			return macro._renderBinaryImageUrl(place, uri, options);
		} else if(options.src) {
			return macro._renderBinaryImageUrl(place, options.src, options);
		} else {
			return macro._renderBinaryImageUrl(place, resourceURI, options);
		}
	},
	_renderImageTag: function(container, src, width, height, options) {
		var img;
		img = $("<img />").appendTo(container);
		if(height) {
			img.attr("height", height);
		}
		if(width) {
			img.attr("width", width);
		}
		if(macro.ieVersion && macro.ieVersion < 7 && macro.shim && options.ie6png) {
			$(img).css({width: userW, height: userH,
					filter: "progid:DXImageTransform.Microsoft.AlphaImageLoader(src='%0', sizingMethod='scale')".format(src)
				}).attr("src", macro.shim);
		} else {
			img.attr("src", src);
		}
		if(!macro._image_tag_cache[options.srcUrl]) {
			macro._image_tag_cache[options.srcUrl] = [];
		}
		img = $(img).addClass(options.imageClass)[0];
		macro._image_tag_cache[options.srcUrl].push(img);
		return img;
	},
	_getDimensions: function(realDimensions, reqDimensions, preserve) {
		var w = realDimensions.width;
		var h = realDimensions.height;
		var reqh = reqDimensions.height;
		var reqw = reqDimensions.width;
		var finalw = w, finalh = h;
		var ratiow = reqw / w, ratioh = reqh / h;
		var scaledw = ratioh * w;
		var scaledh = ratiow * h;
		if(!reqw && reqh) {
			finalw = scaledw;
			finalh = reqh;
		} else if(reqw && !reqh) {
			finalw = reqw;
			finalh = scaledh;
		} else if(reqh && reqw) {
			var preserveWidth = w > h ? true : false;
			if(preserve) {
				if(preserveWidth && scaledh < reqh) {
					finalh = scaledh;
					finalw = reqw;
				} else {
					finalh = reqh;
					finalw = scaledw;
				}
			} else {
				finalw = reqw;
				finalh = reqh;
			}
		}
		return { width: parseInt(finalw, 10), height: parseInt(finalh, 10) };
	},
	_renderBinaryImageUrl: function(container, src, options) {
		var srcUrl = options.src ? options.src : src;
		srcUrl = srcUrl.indexOf("/") === -1 ? "/%0".format(srcUrl) : srcUrl; // for IE. 
		var image_dimensions = macro._image_dimensions[srcUrl];
		var image = new Image(); // due to weird scaling issues where you use just a width or just a height
		var createImageTag = function(dimensions, error) {
			if(error) {
				var altImage = options.altImage;
				if(altImage) {
					delete options.altImage;
					macro._renderBinaryImageUrl(container, altImage, options);
				} else {
					options.src = src;
					macro._renderAlternateText(container, options);
				}
			} else {
				var dim = macro._getDimensions(dimensions, { 
					width: options.width, height: options.height }, options.preserveAspectRatio);
				options.srcUrl = srcUrl;
				macro._renderImageTag(container, src, dim.width, dim.height, options);
			}
		};

		if(!image_dimensions) {
			image.onload = function() {
				var dimensions = { width: image.width, height: image.height};
				macro._image_dimensions[srcUrl] = dimensions;
				createImageTag(dimensions);
			};
			image.onerror = function() {
				createImageTag(null, true);
			};
			image.src = src;
		} else {
			createImageTag(image_dimensions);
		}
	},
	_generateIdPrefix: function(){
		return "twsvgfix_" + (this._fixPrefix++).toString() + "_";
	},
	_fixSVG: function(childNodes, idPrefix) {
		var urlPattern = /url\(\#([^\)]*)\)*/ig;
		var fixes = [
		{ attr: "id", pattern: /^(.*)$/ig },
		{ attr: "href", namespace: macro.xlinkns, pattern: /^#(.*)$/ig }
		];
		var url_fixes = ["filter", "fill", "mask", "stroke", "style"];
		for(var i = 0; i < url_fixes.length; i++) {
			fixes.push({ attr: url_fixes[i], pattern: urlPattern });
		}
		for(var t = 0; t < childNodes.length; t++) {
			var node = childNodes[t];
			for(var a = 0; a < fixes.length; a++) {
				var fix = fixes[a];
				var attr = fix.attr;
				var ns = fix.namespace || "";
				if(node.hasAttributeNS && node.hasAttributeNS(ns, attr)) {
					var v = node.getAttributeNS(ns, attr);
					fix.pattern.lastIndex = 0;
					var match = fix.pattern.exec(v);
					if(match) {
						// Make sure replacement string doesn't contain any single dollar signs
						var toReplace = match[1];
						if(toReplace.indexOf(idPrefix) !== 0 && toReplace.indexOf("twglobal_") !== 0) {
							var replacement = (idPrefix + toReplace).replace("$", "$$$$"); 
							v = v.replace(match[1], replacement);
						}
						node.setAttributeNS(ns, attr,v);
					}
				}
			}
			var children = node.childNodes;
			if(children.length > 0) {
				this._fixSVG(children, idPrefix);
			}
		}
	},
	_importSVG: function(place, options){
		options = options ? options : {};
		var svgDoc, tiddlerText = options.tiddler.text;
		if (window.DOMParser) {
			svgDoc = new DOMParser().parseFromString(tiddlerText, "application/xml").documentElement;
			var idPrefix = options.idPrefix || this._generateIdPrefix();
			this._fixSVG([svgDoc], idPrefix);
			var el = document.importNode(svgDoc, true);
			var svgHolder = document.createElementNS(macro.svgns,"svg");
			var width = options.width;
			var height = options.height;
			if(width || height) {
				if(width && height) { // set view box of containing svg element based on the svg viewbox and width and height.
					var viewBox = el.getAttribute("viewBox");
					var topLeft = "0 0";
					if(viewBox) {
						topLeft = viewBox.replace(/([0-9]*) +([0-9]*) +([0-9]*) +([0-9]*) */gi,"$1 $2");
					}
					svgHolder.setAttributeNS(macro.svgns, "viewBox", "0 0 %0 %1".format(width, height));
				} else {
					if(!width) {
						width = el.getAttribute("width");
					}
					if(!height) {
						height = el.getAttribute("height");
					}
				}
				svgHolder.setAttribute("width", width);
				svgHolder.setAttribute("height", height);

				el.setAttribute("width", "100%");
				el.setAttribute("height", "100%");
				svgHolder.setAttribute("class", "svgImage svgIcon %0".format(options.imageClass || ""));
				svgHolder.appendChild(el);
				place.appendChild(svgHolder);
			}
			else {
				var existing = el.className ? el.className.baseVal : "";
				el.setAttribute("class","svgImage %0".format(existing));
				place.appendChild(el);
			}
			// if a tiddler attribute is set this is read as a link
			$("[tiddler], [tiddlyLink]", place).attr("refresh", "link").click(function(ev) {
				var tiddler = $(ev.target).attr("tiddlyLink");
				if(tiddler) {
					story.displayTiddler(ev.target, tiddler);
				}
			});
		}
	},
	getArguments: function(paramString, params) {
		var args = paramString.parseParams("name", null, true, false, true)[0];
		var options = {};
		for(var id in args) {
			if(true) {
				var p = args[id];
				if(id == "def") {
					options[id] = p;
				} else {
					options[id] = p[0];
				}
			}
		}
		var width = isNaN(params[1]) ? false : parseInt(params[1], 10);
		var height = isNaN(params[2]) ? false : parseInt(params[2], 10);

		options.width = macro.lookupArgument(options, "width", width);
		options.height = macro.lookupArgument(options, "height", height);
		options.preserveAspectRatio = args.preserveAspectRatio && 
			args.preserveAspectRatio[0] == "yes" ? true : false;
		options.tiddlyLink = macro.lookupArgument(options, "tiddlyLink", false);
		options.link = macro.lookupArgument(options, "link", false);
		return options;
	},
	lookupArgument: function(args, id, ifEmpty) {
		return args[id] ? args[id] : ifEmpty;
	}
};

// update views
var _oldwikifiedview = config.macros.view.views.wikified;
// update wikifier to check tiddler type before rendering
merge(config.macros.view.views, {
	wikified: function(value, place, params, wikifier, paramString, tiddler) {
		if(macro.isImageTiddler(tiddler) && params[0] == "text") {
			var newplace = $("<div />").addClass("wikifiedImage").appendTo(place)[0];
			macro.renderImage(newplace, tiddler.title, { alt: macro.locale.badImage });
		} else {
			_oldwikifiedview.apply(this, arguments);
		}
	},
	image: function(value, place, params, wikifier, paramString, tiddler) {
		// a field can point to another tiddler whereas text is the current tiddler.
		var title = params[0] == "text" ? tiddler.title : value;
		var args = macro.getArguments(paramString, params);
		macro.renderImage(place, title, args);
	}
});
config.shadowTiddlers.StyleSheetImageMacro = [".wikifiedImage svg, .wikifiedImage .image { width: 80%; }",
	".svgImageText { background-color:[[ColorPalette::Error]]; color:#ddd; display: inline-block; }",
	"span.svgImageText { display: inline-block; overflow: hidden; }"
].join("");
store.addNotification("StyleSheetImageMacro", refreshStyles);

})(jQuery);
//}}}

/*{{{*/
Background: #f3f8dc
Foreground: #1d2206
PrimaryPale: #fdfefa
PrimaryLight: #e5edc4
PrimaryMid: #a2b648
PrimaryDark: #52534a
SecondaryPale: #fefafc
SecondaryLight: #edc4de
SecondaryMid: #b6488e
SecondaryDark: #534a50
TertiaryPale: #fafefe
TertiaryLight: #c4eded
TertiaryMid: #48b6b6
TertiaryDark: #4a5353
Error: #f88
ColorPaletteParameters: HSL([71|71], [0.67|0.53|0.43|0.06],[0.31|0.5|0.85|0.99])
/*}}}*/

Unless you're delighted with the default theme you can make some quick changes by generating a new random color palette, hit this button to cycle through some alternatives.

<<RandomColorPaletteButton saturation_pale:0.67 saturation_light:0.53
saturation_mid:0.43 saturation_dark:0.06 pale:0.99 light:0.85 mid:0.5 dark:0.31>>

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MAGNETIC SPLINA 
Isolation:
monocytes/macrophage/ granulocytes
CD11b+ mh #130-049-601

monoclonal IgG2b
produced in rat@ mouse and human.

CD11b+ = Integrin alpha M (ITGAM) macrophage-1 antigen (Mac-1 alpha integrin alpha M chain)
identify macrophages and microglia.

1 000 000 000 human total cells
(1x10^9)
2 000 000 000 human total cells
(2x10^9)

REAGENT [ frigo ]:
(A) MACS BSA Stock Sol. [# 130 - 091 - 376]
(B) autoMACS Rinsing Sol. [# 130 - 091 - 222]
(C) Beads CD11b+ [#130-049-601]
(X) LS Columns [#130-...]

!A propos de Seahorse Bioscience

Comprendre comment la bioénergétique régule les fonctions cellulaires est une question essentielle pour de nombreux chercheurs. La technologie XF et les kits associés rendent les analyses bioénergétiques simples, efficaces et conviviales. Cette technologie introduite en 2006 combine un instrument optico-électrique avec des cartouches d’analyse, et permet de mesurer en temps réel la bioénergétique cellulaire sur un format micro-plaques en étant non-invasif.
Une mesure rapide, précise et en temps réel

La technologie XF de SeaHorse Bioscience réalise in vitro un profil de l’activité métabolique. Les scientifiques ont accès à des essais cellulaires physiologiques mesurant les taux de consommation d’oxygène et de glycolyse, la production d’ATP, la capacité respiratoire en une unique expérience permettant de mieux appréhender les dysfonctionnements mitochondriaux.

En mesurant les deux principales voies de productions d’énergie simultanément, la respiration mitochondriale et la glycolyse, les scientifiques ont ainsi accès à une meilleure vue générale du métabolisme. La technologie XF permet aussi de mesurer l‘oxydation des acides gras et le métabolisme du glucose et des acides aminés.
Une analyse non destructive et non invasive

Pas de marquage fluorescent ou radioactif, pas de tripsination ou de perméabilisation.

Les cellules adhérentes, les cellules primaires, les cellules en suspension tout comme des mitochondries isolées peuvent être analysées. La technologie XF permet de remplacer les expériences longues réalisées par des électrodes de Clark.

La référence de mesure de métabolisme

Les analyseurs Seahorse s’imposent comme la référence pour la mesure du métabolisme permettant de mesurer simultanément les deux principales voies du métabolisme que sont la respiration mitochondriale et la glycolyse en micro-plaques et en temps réel.

Les analyseurs XFe96 et XFe24 et les réactifs associés permettent de déterminer la consommation d’oxygène, la glycolyse, les dysfonctionnements mitochondriaux, l’oxydation des acides gras…

Les systèmes XFe fonctionnent en temps réel et sans marquage permettant une analyse au cours du temps et la réutilisation des cellules après la mesure.
La chambre de mesure est maintenue à 37°C tout au cours de l’analyse.

Le logiciel XFe Wave vous permet d’établir vos protocoles rapidement en 4 étapes et vous propose un résumé rapide en fin d’analyse. Vos données peuvent être réanalysées sur le logiciel ou bien exportées vers d’autres suites logicielles.

Le système XFe96 permet la mesure de 96 échantillons au cours de la même expérience. Les cartouches comportent 4 ports d’injections pour des réactifs. Ce système permet de travailler avec des faibles quantités de cellules et de réactifs.

Le système XFe24 permet de travailler avec des micro-plaques format 24 puits et offre une plus large surface de cultures permettant de s’adapter à une grande diversité d’échantillons biologiques.

Le système s’intègre facilement dans votre laboratoire en tenant sur votre paillasse. Il est piloté par un écran tactile par un logiciel convivial et facile d’utilisation.

Les réactifs et tests proposés en complément du système vous permettent de réaliser rapidement et facilement vos essais biologiques. Les réactifs pré-calibrés, validés par notre contrôle qualité et les protocoles standardisés vous assurent des mesures fiables et reproductibles. Retrouvez l’ensemble des consommables et kits dédiés sur notre catalogue en ligne.

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^^Primary cultures of neonatal mouse cardiac myocytes. 
(Worthington Biochemical Corp. Lakewood, NJ) kit Cedarlane #LK003300
The Worthington Neonatal Cardiomyocyte Isolation System
The kit has been formulated in conjunction with Dr. Ronal MacGregor of the University of Kansas Medical Center. The method is based on that described by Toraason, et al. (1988) is a commercial isolation kit  originally developed for neonatal rat ventricular myocytes. Myocytes were isolated using the neonatal rat cardiac myocyte isolation kit with minor modifications to the manufacturer's protocol designed to accommodate the smaller amount of starting tissue^^.

!! ENGLISH VERSION (working version)
''Day 1: Preparation of hearts''

@@color:purple;Pet age ''1-3'' max ''4'' days:
^^NOTE 1^^ Serie nr.01_(d''4'') × [8] - 14dec2015.
^^NOTE 2^^ Serie nr.02_(d''6'') × [8] +  (d''3'') × [3] - 7jan2016.
^^NOTE 3^^ Serie nr.03_(d''3'') × [5] - 18jan2016.
^^NOTE 4^^ Serie nr.04_(d''5'') × [9] - 8feb2016 type -/-
^^NOTE 5^^ Serie nr.05_(d''3-4'') × [23] - 20feb2016 type +/+.
^^NOTE 6^^ Serie nr.06_(d''5'') × [10] - 20 avril 2016 type +/+.
^^NOTE 7^^ Serie nr.07_ (d''1'') × [6] {DOB 27/04/16} & _(d''5'') × [5] {DOB 23/04/16} - 28 avril 2016 type +/+.
(//d: pet age; DOB: date of birth; [ _ ] No. of animals //)@@

⓪ Transfer approximately 30 mL HBSS in a sterile Tube50mL on ice.
//The mice are anesthetized on ice for a few minutes before decapitation//.
① The mice killed by cutting the head. The hearts are placed in one PetriØ35mm with HBSS, on ice.
② Hearts are washed with HBSS by transfer in another PetriØ35mm with HBSS, on ice.
③ Transfer to a sterile PetriØ100mm.
④ With scissors or razor blade, chop the hearts [a[rpx. 3 - 4mm] in a volume of ''5'' mL HBSS.
⑤ Reconstitute ❷ Trypsin - vial with 2 mL of HBSS on ice. Add ''2'' mL Trypsin in the Petri. 
⑥ Adjust volume → ''10'' mL final (transfer to PetriØ35 or 60mm).
⑦ Seal with parafilm and place at 4 °C over night (16-20 h) in fridge.

''Day 2 of Isolation:'' 
Heat MC DMEM medium and prepare 37 °C bath with movement.
⑧ Transfer the contents (10 mL) of Petri in new Tube50mL on ice.
⑨ Reconstitute vial ❸-Trypsin Inhibitor  with ''1'' mL HBSS on ice.
⑩ Add toTube50mL.
⑪ Oxygenate the tissue for 30 sec max ''1'' min, in surface.
⑫ Place in a the bath at 37 °C for ''10'' min.
⑬ Reconstitute vial ❹-collagenase with ''5'' mL L15Medium.
⑭ Add to Tube50mL. Ensure the cap with the ParaFilm, protect from light with aluminum.
⑮ Place the tube horizontally in an incubator at 37 °C with low movement (⇄ 81 mpm) for ''45'' minutes.
⑯ Back under the hood. Triturate with Pipette10mL approximately 10 × as gently as possible. Avoid bubble formation.
⑰ Rinse cell filter (70 microns) with 1mL L15Medium.
⑱ Filter the contents.
⑲ Rinse with 1mL all that remains in the filter.
⑳ Allow cells to settle for ''20'' min.
㉑ Centrifuge ''5'' min at ''1400'' rpm (300 rcf × g). Aspirate supernatant.
㉒ ''FIRST'' ATTACHMENT: Resuspend pellet in ''25'' mL DMEM LOW GLUCOSE 10% FBS 1% P/S. Transfer in 2 Great Pétri Tissue Tissue 150Ø×20mm Corning # 430599 or # 83.1803.(Adjust volume → 20 mL for each).
㉓ Incubate ''30'' min at 37 °C.
㉔ ''SECOND'' ATTACHMENT: Recover the supernatant and transfer to a second series of 5 Great Plaque150mmØ. Rinse the dish with 5 mL DMEM, restore and incubate for 30 min at 37 °C.
㉕ ''THIRD'' ATTACHMENT: Repeat for the third series (ok for rats). Following isolation, fibroblasts remains on the Great Plate150mmØ. To use the fibroblasts wait reached confluence ≈ 80% (2-4 days). Freeze cell for reserves.
㉖ Counting on hematocytometer cardiomyocytes. 
Serie nr.01_(d''4'') × [8]-14dec2015= 0.41M × 7 mL = 2.87 M total (0.35 /well).
㉗ Inoculate the number of desired cells in the kneaded selected for experiments. Ex: 150 000 cells / 60mmØ; 85% confluence after 72 hours. //^^NOTE Wlt recommendation^^: Isolated cells were plated at a density of 400,000 cells / mL or 25,000 cardiomyocytes per cm^^2^^. Adhesion may be Improved by fibronectin or collagen coating of the plastic//.
㉘ Change ''24'' hours later DMEM medium to LOW GLUCOSE 10% FBSm 1% P/S.
㉙ Cells begin to beat irregularly on day ''3'' (✔), more stably on day ''4''.
㉚ Starvation 0.1% FBS is done on day 4 for 24 hours with an ideal confluence of 70 - 75%.
㉛ Experience at the day ''5 - ''.


!! VERSION en FRANCAISE (doit être corrigé la version précédente est la version la plus récente)
''Jour 1: Preparation du coeurs''
La gestation dure 3 sem, entre 19 et 21 jours (voire 23 pour les grosses portées).
3–14 souriceaux (moy 6 - 8 souriceaux). [5-10 grosses / a]

Service d'animalerie les souriceaux 1 - 3 max 4 jours:  
⓪ Transférer environ 30 mL HBSS dans un Tube50mL stérile (1/portée) sur glace.
''Les souriceaux seront anesthésiés sur la glace pendant quelques minutes avant la décapitation''.
① Les souriceaux tués en coupant la tête. Les coeurs sont déposés dans le tube de HBSS.
② Les coeurs sont lavés 2 × avec HBSS.
③ Transférer dans un pétri stérile.
④ Avec ciseau ou lame de rasoir, émincer les coeurs dans un volume de 5 mL.
⑤ Reconstituer le vial ❷-Trypsine avec 2 mL de HBSS sur glace. Ajouter 2 mL Trypsine au pétri. 
⑥ Ajuster volume à → 10 mL final.
⑦ Placer à 4°C O/N (16 - 20 h) dans frigo. 

''Jour 2 isolation:''
⑧ Transférer le contenu du pétri dans Tube50mL stérile, sur glace.
⑨ Reconstituer vial ❸-Inhibiteur Trypsine avec 1 mL HBSS sur glace. 
⑩ Ajouter au Tube50mL.
⑪ Oxygéner le tissus pendant 30 sec à 1 min, en surface.
⑫ Mettre dans un bain à 30 - 37°C pendant 10min.
⑬ Reconstituer vial ❹-Collagénase avec 5 mL L15 Medium.
⑭ Ajouter au Tube50mL. Assurer le bouchon avec la pellicule de Parafilm, proteger de la lumiere avec Aluminium.
⑮ Placer dans un incubateur à 37 °C avec rotation faible (101 rpm) pendant 45 min.
⑯ Retourner sous la hotte. Triturer avec pipette 10 mL environ 10× le plus doucement possible. Éviter la formation de bulles.
⑰ Rincer filtre cellulaire (70 μm ou 100 μm) avec 1mL L15.
⑱ Filtrer.
⑲ Rincer ensuite avec 1mL tout qui reste dans filtre.
⑳ Laisser les cellules sédimenter de 20 min.
㉑ Centrifuger 5 min à 1400 rpm (rcf 300 × g). Aspirer surnageant. 
㉒ Resuspendre culot dans 25 ml de DMEM LOW GLUCOSE 10%FBS 1%P/S. Plater dans 5 Grande Pétris Tissulaire Tissulaire 150×20mm Corning #430599 ou #83.1803.
(ajout 15 mL pour chaque).
㉓ Incuber 30min à 37°C.
㉔ Récupérer le surnageant et transférer dans un 2e serie de 5 petri Grande Plaque150mm. Rincer le plat avec 5 mL DMEM, récupérer encore  et incuber 30 min à 37°C.
㉕ Repeter pour 3e serie (ok pour le rat). Suite à l’isolation, les fibroblastes reste sur la Grande Plaque 150 mm. Pour les utiliser attendre que les fibroblastes atteignent une confluence de ≈ 80% (2 - 4 jours) Congeler pour reserve cellulaire.
㉖ Compter les cardiomyocytes sur hématocytomètre. Compter sur hématocytomètre 5 cares, faire la moyenne result × 5 = Z00 = Z,00 Million de cellules par mL.
^^ Version2 Prendre 10μL solution de cellules + 10μL Trypan Blue 0.4% + 80μL Media Les cellules bleus sont mortes.(facteur de dilution FD = 2). Compter sur hématocytomètre trois rangs du grand carré au milieu, faire la moyenne : (MOY × 5 (nb de rangs) x 2 (FD)/100 = Million de cellules par mL. Multiplier par volume = total # de cell en million.^^
㉗ Ensemencer le nombre de cellules voulues dans les pétris choisis pour les expériences. Ex : 150 000 Cellules / 60mm; confluence 85% après 72 h.
Note //Isolated cells were plated at a density of 400,000 cells/mL or
25,000 cardiomyocytes per cm^^2^^ of culture wells or flasks. Adhesion may be improved by collagen or fibronectin coating of the plastic.//
㉘ Changer le milieu 24h plus tard pour DMEM LOW GLUCOSE 10%FBS 1%P/S frais.
㉙ Cellules commencent à battre irrégulièrement au jour 3, de manière plus stable au jour 4.
㉚ La privation à 0,1% FBS se fait le jour 4, pour 24h avec une confluence idéale de 70 - 75%.
㉛ L’expérience se fait le jour 5.

!!NOTES

⓿ DMEM LOW GLUCOSE (Invitrogen 11885 (+ D-Glucose L- Glutamine Sodium Pyruvate)
Worthington Biochemical Corp. Cedarlane #LK003300 Store at 2-8°C.
Vial ❶: 1 bottle, 500 mL Ca2+ and Mg2+-free Hanks’ balanced salt solution (HBSS), pH 7.4.
Vial ❷: 5 vials, 1000 µg Trypsin.
Vial ❸: 5 vials, 2000µg Soybean Trypsin Inhibitor.
Vial ❹ : 5 vials, 1500 Units Collagenase reconstitute with 5 ml Leibovitz L-15.
Pouch ❺ Leibovitz L-15 Media Powder: for 1 L. Reconstitute entire contents of pouch by cutting open top of envelope and pouring contents into beaker containing 800 mL of cell culture grade water. Rinse pouch 2 - 3 times with additional 100 mL. Bring total volume to 1 liter and filter through a 0.22 micron filter.

!!Culture des Fibroblastes néonataux

Effectuer le premier passage :
1. Aspirer le milieu des pétris
2. Laver 1× avec PBS stérile 1×
3. Aspirer le PBS
4. Mettre Trypsin-EDTA 0.05% (Invitrogen 25300) dans pétris (5mL pour un pétri de 150mm)
5. Mettre dans l’incubateur à 37 °C, 1 à 2 min (pas plus, la trypsine endommage les cellules)
6 .Immédiatement mettre 10 mL de milieu complété avec FBS dans pétri (le FBS inhibe la trypsine)
7. Bien récupérer les cellules avec le milieu, mettre dans un Tube50mL.
8. Centrifuger 5 min à 1000 rpm à RT
9. Aspirer le surnageant
10. Resuspendre le culot dans 10 mL de milieu par portée
11. Ensemencer 5 mL par pétris de 150mm (pour chaque pétris initial de
150mm en faire 2 : on double la quantité de pétri qui devrait être à
environ 45% confluent)
Effectuer le deuxième passage (2 - 4 jours suivant le premier passage : confluence ≈ 80%
12. Aspirer le milieu des pétris
13. Laver 1× avec PBS stérile 1×
14. Aspirer le PBS
15. Mettre Trypsin-EDTA 0.05% dans pétris (5 mL pour un pétri de 150mm)
16. Mettre dans l’incubateur à 37 °C, 1 à 2 min (pas plus, la trypsine endommage les cellules)
17. Immédiatement mettre 10 mL de milieu complété avec FBS dans pétri (le FBS inhibe la trypsine)
18. Bien récupérer les cellules avec le milieu, mettre dans un Tube50mL.
19. Centrifuger 5 min à 1000 rpm à RT
20. Aspirer le surnageant

!! ENGLISH VERSION
''Day 1: Preparation of hearts''

Pet age 1-3 max 4 days:
⓪ Transfer approximately 30 mL HBSS in a sterile Tube50mL on ice.
The mice are anesthetized on ice for a few minutes before decapitation.
① The mice killed by cutting the head. The hearts are placed in the tube of HBSS.
② Hearts are washed × with HBSS.
③ Transfer to a sterile Petri.
④ With scissors or razor blade, chop the hearts in a volume of 5 mL.
⑤ Reconstitute ❷ Trypsin - vial with 2 mL of HBSS on ice. Add 2 mL Trypsin in the Petri. 
⑥ Adjust volume → 10 mL final.
⑦ Seal with parafilm and place at 4 °C over night (16-20 h) in fridge.


The pups are born blind and without fur or ears. The ears are fully developed by the fourth day, fur begins to appear at about six days and the eyes open around 13 days after birth; the pups are weaned at around 21 days. Females reach maturity at about six weeks of age and males at about eight weeks.

!!  Hypothermia 1
1. Protect pup with glove or by placing in a paper-lined test tube to avoid freeze damage to the skin. A thin material such as a latex glove, works better than a thicker material such as a neoprene glove.
2. Immerse container holding pup in ice water or place on a barrier such as a glove or other water-proof material over crushed ice. If crushed ice is used, it must be carefully packed, to provide close contact between ice and pup. The ice can be packed flat or a frozen block of ice covered with a thin lining can be used.
3. Induction time: 2-4 minutes. Observe the pup closely.
4. Anesthesia time: 5-15 minutes.
5. Recovery time: Variable (up to 1 hour).
6. Pup can be kept on cooling platform (i.e. water-proof material covered ice cube or cold glass plate or a frozen ice block) to provide more constant level of hypothermia.
7. Use of a fiber optic surgical lamp rather than an incandescent one minimizes surface warming and helps in maintaining hypothermia.

!!  Recovery of neonate from hypothermia
1. Recover the neonate by holding it in your gloved hand or placing it in a Petri dish on a warm water circulating heating pad or under a heat lamp for less than 5 minutes and not too close to the lamp watching carefully to avoid overheating.

!!   Preparing the neonate for return to dam
1. Recover neonate on home cage/dam bedding so as to make it smell similar to what it did before removal from cage.
2. Make sure neonate is warm and pink and breathing and capable of spontaneous movement before returning it to dam.
3. Returning neonates as a group (the entire litter) is best to minimize disturbing dam.
4. If isoflurane anesthesia has been used, it may help to accustom dam to the smell for 1-2 days before surgery on neonate (see Preparation of Dam).3
5. It may help with dam accepting the pups back after the procedure if all vestiges of blood and disinfectant are removed from the pups by gently wiping them with a wet gauze pad before returning them to the dam.4

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/%

list included:

<<<
----
Hello,
''This ~GettingStarted tiddler has been customized.''
If you want to see the original system tiddler just click the following link: GettingStarted@system-info at system-info.
<<<
%/

Welcome to your brand new [[TiddlySpace|http://docs.tiddlyspace.com/TiddlySpace]].

You're almost ready to go, there are just a couple of things left to do.

!Customise your space
Go to [[SpaceSettings]] to finish customising  your space. When you're done, come back here (just scroll up). Don't worry though, this will still be open when you've finished.

!Further Customisation

For advanced options, the [[ServerSettings]] tiddler is used to enable the following features:

#index: The value is the name of a tiddler that will be presented when loading the space.  For example, when set to {{{Hello}}} for the space hello.tiddlyspace.com, navigating to that URL will present the Hello tiddler. If there is no {{{Hello}}} you will get an error.
#editor: The name of an [[editor application|http://docs.tiddlyspace.com/Example%20Tiddler%20Editors]] to edit tiddlers with.  Applications come from [[included spaces|http://docs.tiddlyspace.com/How%20do%20I%20include%2Fexclude%20spaces%3F]]

//If you do not need or understand these features there is no need to create a ServerSettings tiddler.//

To edit these options: 

* click [[here|ServerSettings]] to open the [[ServerSettings]] tiddler
* click on the edit button (the pencil icon)
* add the options you wish to set 
* click on the save button (the tick icon).

An example [[ServerSettings]] tiddler:
{{{
index: HelloThere
editor: /edit#{tiddler}
}}}

The additional text after /edit allows a tiddler to be opened in edit mode e.g:
{{{http://hello.tiddlyspace.com/edit#MyTiddler}}}

!!See Also

* [[ServerSettings shadow tiddler|http://docs.tiddlyspace.com/ServerSettings%20shadow%20tiddler]]
* [[Choosing a non-TiddlyWiki Default Application for your Space|http://docs.tiddlyspace.com/Choosing%20a%20non-TiddlyWiki%20Default%20Application%20for%20your%20Space]]

!Finished customising?
You can [[Start writing]] some [[tiddlers|http://docs.tiddlyspace.com/Tiddler]].
If you're not done tweaking yet though, you can always [[Customise this space|SpaceSettings]] a bit more.

You can also [[access and read other tiddlers in various ways|http://docs.tiddlyspace.com/Viewing%20Tiddlers]].

!Administration
If you'd like to change your password or create another space, visit "Your Account" from the [[Universal Backstage|http://docs.tiddlyspace.com/UniversalBackstage]] (the blue dot in the upper right of the page). If you'd like to add a member or [[include a space|http://docs.tiddlyspace.com/How%20do%20I%20include%2Fexclude%20spaces%3F]] visit "This Space" from the [[Universal Backstage|http://docs.tiddlyspace.com/UniversalBackstage]].

You can have as many spaces as you like and each space can have as many members as you or your group need.

!Stuck?
If you're stuck, and would like some help, please visit the [[help|http://help.tiddlyspace.com]] space, which can point you in the right direction.

There are a lot of interesting people using ~TiddlySpace that you might like to keep track of and interact with. There are a number of ways of doing this.

If you see a number in the speech bubble in one of your tiddlers, it means that someone is writing about the same thing as you. You can find out what they're saying by clicking on it. Likewise, if you see something interesting in someone else's space, you can respond to it and write up your own thoughts on the subject by clicking "Reply to this tiddler".

Additionally, if you find anyone interesting, or you find an interesting looking space and you'd like to know when it's changed, you can "follow" that space. To do this, simply create a tiddler with the title: {{{@space-name}}} and tag it {{{follow}}}. If you want, you can store some notes about that space in the body of the tiddler.

If you then want to know what happening, simply [[include|How do I include/exclude spaces?]]@docs the @tivity space and then visit your activity stream at [[/activity|/activity]], or just visit the @tapas space directly.

!Not sure who to follow?
Here's a few suggestions:
* @fnd
* @cdent
* @pmario
* @bengillies
* @dickon

/***
|''Name''|TiddlySpaceFollowingPlugin|
|''Version''|0.7.1|
|''Description''|Provides a following macro|
|''Author''|Jon Robson|
|''Requires''|TiddlySpaceConfig TiddlySpaceTiddlerIconsPlugin ErrorHandler|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
!Usage
Tag a tiddler with "follow" to express a list of followers.
Using the {{{<<followTiddlers X>>}}}
will reveal the number of tiddlers with name X in the set of spaces the *current* user viewing your space follows.
{{{<<following jon>>}}} will list all the users following Jon.
{{{<<followers jon>>}}} will list all the followers of jon.
{{{<linkedTiddlers>>}}} will list all tiddlers across TiddlySpace linked to the current tiddler
{{{<linkedTiddlers follow:yes>>}}} will list all tiddlers across TiddlySpace that come from your list of followers
adds spaceLink view type {{{<<view server.bag spaceLink>>}}} creates a link to the space described in server.bag
{{{<<view server.bag spaceLink title>>}}} makes a link to the tiddler with title expressed in the field title in space server.bag
If no name is given eg. {{{<<following>>}}} or {{{<<follow>>}}} it will default the current user.
!StyleSheet
.followTiddlersList li {
	list-style:none;
}

.followButton {
	width: 2em;
}

.followTiddlersList li .siteIcon {
	height:48px;
	width: 48px;
}

#sidebarTabs .followers li a,
.followers .siteIcon,
.followers .siteIcon div {
	display: inline;
}

.followTiddlersList li .externalImage, .followTiddlersList li .image {
	display: inline;
}

.scanResults li {
	list-style: none;
}
!Code
***/
//{{{
(function($) {
var LIMIT_FOLLOWING = 100;

var tweb = config.extensions.tiddlyweb;
var tiddlyspace = config.extensions.tiddlyspace;
var currentSpace = tiddlyspace.currentSpace.name;

var shadows = config.shadowTiddlers;
config.annotations.ScanTemplate = "This tiddler is the default template used in the display of tiddlers founding using the tsScan macro. To access attributes use the view macro e.g. {{{<<view title text>>}}}";
shadows.ScanTemplate = "<<view modifier SiteIcon width:24 height:24 spaceLink:yes label:no>> <<view title link>>";
shadows.FollowersTemplate = "<<view server.bag SiteIcon width:24 height:24 spaceLink:yes label:no>> <<view server.bag spaceLink>>";
shadows.FollowingTemplate = "<<view title SiteIcon width:24 height:24 spaceLink:yes label:no>> <<view title spaceLink>>";
shadows.FollowTiddlersBlackList = "";
shadows.FollowTiddlersHeading = "There are tiddlers in spaces you follow using the follow tag which use the title <<view title text>>";
shadows.FollowTiddlersTemplate = ["* <<view server.space SiteIcon width:24 height:24 spaceLink:yes label:no>> ",
	"<<view server.space spaceLink title external:no>> modified by <<view modifier spaceLink>> ",
	"in the <<view server.space spaceLink>> space (<<view modified date>> @ <<view modified date 0hh:0mm>>).\n"].join("");

var name = "StyleSheetFollowing";
shadows[name] = "/*{{{*/\n%0\n/*}}}*/".
	format(store.getTiddlerText(tiddler.title + "##StyleSheet"));
store.addNotification(name, refreshStyles);

// provide support for sucking in tiddlers from the server
tiddlyspace.displayServerTiddler = function(src, title, workspace, callback) {
	var adaptor = store.getTiddlers()[0].getAdaptor();
	var localTitle = tiddlyspace.getLocalTitle(title, workspace);
	var tiddler = new Tiddler(localTitle);
	tiddler.text = "Please wait while this tiddler is retrieved...";
	tiddler.fields.doNotSave = "true";
	store.addTiddler(tiddler);
	src = story.displayTiddler(src || null, tiddler.title);
	tweb.getStatus(function(status) {
		var context = {
			host: tweb.host, // TODO: inherit from source tiddler?
			workspace: workspace,
			headers: { "X-ControlView": "false" }
		};
		var getCallback = function(context, userParams) {
			var tiddler = context.tiddler;
			tiddler.title = localTitle;
			store.addTiddler(tiddler);
			story.refreshTiddler(localTitle, null, true); // overriding existing allows updating
			if(callback) {
				callback(src, tiddler);
			}
		};
		adaptor.getTiddler(title, context, null, getCallback);
	});
};

tiddlyspace.scroller = {
	runHandler: function(title, top, bottom, height) {
		var i;
		var handlers = tiddlyspace.scroller.handlers;
		var tidEl = story.getTiddler(title);
		if(tidEl) {
			var topEl = $(tidEl).offset().top + 20;
			if(top === false || (topEl > top && topEl < bottom)) {
				var h = handlers[title];
				for(i = 0; i < h.length; i++) {
					h[i]();
				}
				tiddlyspace.scroller.clearHandlers(title);
			}
		} else {
			tiddlyspace.scroller.clearHandlers(title);
		}
	},
	clearHandlers: function(title) {
		tiddlyspace.scroller.handlers[title] = [];
	},
	registerIsVisibleEvent: function(title, handler) {
		tiddlyspace.scroller.handlers[title] = tiddlyspace.scroller.handlers[title] || [];
		tiddlyspace.scroller.handlers[title].push(handler);
	},
	init: function() {
		this.handlers = {};
		this.interval = window.setInterval(function() {
			var top = $(window).scrollTop();
			var height = $(window).height();
			var bottom = top + height;
			var title;
			for(title in tiddlyspace.scroller.handlers) {
				if(title) {
					tiddlyspace.scroller.runHandler(title, top, bottom, height);
				}
			}
		}, 2000); // every 2 seconds check scroll position
	}
};
tiddlyspace.scroller.init();

var followMacro = config.macros.followTiddlers = {
	locale: {
		followListHeader: "Here are tiddlers from spaces you follow using the follow tag which use this title.",
		noTiddlersFromFollowers: "None of the spaces you follow contain a tiddler with this name.",
		errorMessage: "There was a problem retrieving tiddlers from the server. Please try again later."
	},
	init: function() {
		followMacro.lookup = {};
	},
	followTag: "follow",
	getHosts: function(callback) {
		tweb.getStatus(function(status) {
			callback(tweb.host, tiddlyspace.getHost(status.server_host, "%0"));
		});
	},
	getBlacklist: function() {
		return store.getTiddlerText("FollowTiddlersBlackList").split("\n");
	},
	handler: function(place, macroName, params, wikifier, paramString, tiddler) {
		var args = paramString.parseParams("anon")[0];
		var containingTiddler = story.findContainingTiddler(place).getAttribute('tiddler');
		var title = (args.anon && args.anon[0]) || tiddler.fields["server.title"] || tiddler.title;
		var tid = store.getTiddler(title);
		var user = params[1] || false;
		if(tid) {
			followMacro.makeButton(place, {
				url: "/search?q=title:%22" + encodeURIComponent(title) + "%22",
				containingTiddler: containingTiddler,
				blacklisted: followMacro.getBlacklist(), title: title, user: user,
				consultFollowRelationship: (args.follow &&
					args.follow[0] === 'false') ? false : true });
		}
	},
	makeButton: function(place, options) { // this is essentially the same code in TiddlySpaceFollowingPlugin
		var title = options.title;
		var blacklisted = options.blacklisted;
		var tiddler = store.getTiddler(title);
		var btn = $('<div class="followButton" />').addClass("notLoaded").appendTo(place)[0];
		if(blacklisted.contains(title)) {
			$(btn).remove();
			return;
		} else {
			var user = options.user;
			window.setTimeout(function() { // prevent multiple calls due to refresh
				tiddlyspace.scroller.registerIsVisibleEvent(options.containingTiddler, function() {
					var mkButton = function(followers, ignore) {
						if(!followers && !ignore) {
							$(btn).remove();
						} else {
							$("<a />").appendTo(btn);
							var scanOptions = { url: options.url,
								spaceField: options.spaceField || "bag", template: null, sort: "-modified",
								callback: function(tiddlers) {
									$(btn).removeClass("notLoaded");
									followMacro.constructInterface(btn, tiddlers);
								}
							};
							if(!ignore) {
								scanOptions.showBags = followMacro._getFollowerBags(followers);
							}
							scanOptions.hideBags = [tiddler.fields["server.bag"]];
							scanMacro.scan(null, scanOptions, user);
						}
					};
					if(options.consultFollowRelationship) {
						followMacro.getFollowers(mkButton);
					} else {
						mkButton([], true);
					}
				});
			}, 1000);
		}
	},
	constructInterface: function(container, tiddlers) {
		var txt = tiddlers.length;
		var className = txt > 0 ? "hasReplies" : "noReplies";
		var el = $(story.findContainingTiddler(container));
		$(container).empty().addClass(className);
		var btn = $("<a />").addClass("followedTiddlers").text(txt).
			click(function(ev) {
				followMacro.followingOnClick(ev);
			}).appendTo('<div class="followedTiddlers" />').appendTo(container)[0];
		$.data(btn, "tiddlers", tiddlers);
	},
	followingOnClick: function(ev) {
		var target = ev.target;
		var locale = followMacro.locale;
		var el = $('<div class="followTiddlersList" />')[0];
		var popup = Popup.create(target,"div");
		$(popup).addClass("taggedTiddlerList followList").click(function(ev) { // make it so only clicking on the document outside the popup removes the popup
			if(ev.target.parentNode != document) {
				ev.stopPropagation();
			}
		}).append(el);
		var tiddlers = $.data(target, "tiddlers") || [];
		scanMacro.template(el, tiddlers.slice(0,1), "FollowTiddlersHeading");
		scanMacro.template(el, tiddlers, "FollowTiddlersTemplate");
		if(tiddlers.length === 0) {
			$("<li />").text(locale.noTiddlersFromFollowers).appendTo(el);
		}
		Popup.show();
		ev.stopPropagation();
		return popup;
	},
	_getFollowerBags: function(followers) { // XXX: private or not?
		return $.map(followers, function(name, i) {
			return name != currentSpace ? "%0_public".format(name) : null;
		});
	},
	getFollowers: function(callback, username) {
		// returns a list of spaces being followed by the existing space
		var followersCallback = function(user) {
			if(!user.anon) {
				scanMacro.scan(null, { 
					url: "/search?q=bag:%0_public tag:%1 _limit:%2".format(user.name, followMacro.followTag, LIMIT_FOLLOWING),
					spaceField: "title", template: null, cache: true,
					callback: function(tiddlers) {
						var followers = [];
						for(var i = 0; i < tiddlers.length; i++) {
							followers.push(tiddlyspace.resolveSpaceName(tiddlers[i].title));
						}
						callback(followers);
					}
				});
			} else {
				callback(false);
			}
		};
		return !username ? tweb.getUserInfo(followersCallback) : followersCallback({ name: username });
	}
};

var scanMacro = config.macros.tsScan = {
	init: function () {
		this.scanned = {};
	},
	_tiddlerfy: function(jsontiddlers, options) {
		var tiddlers = [];
		var spaceField = options.spaceField || "bag"; // TODO: phase out use view types instead
		$.each(jsontiddlers, function(i, t) {
			var use = false;
			if(!options.showBags || (options.showBags && options.showBags.contains(t.bag))) {
				use = true;
			}
			if(options.hideBags && options.hideBags.contains(t.bag)) {
				use = false;
			}
			if(use) {
				var spaceName = t[spaceField];
				var tiddler = config.adaptors.tiddlyweb.toTiddler(t, tweb.host);
				tiddler.fields["server.space"] = tiddlyspace.resolveSpaceName(spaceName);
				tiddlers.push(tiddler);
			}
		});
		return tiddlers;
	},
	_scanCallback: function(place, jsontiddlers, options) {
		var locale = followersMacro.locale;
		var tiddlers = scanMacro._tiddlerfy(jsontiddlers, options);
		
		if(options.sort) {
			tiddlers = store.sortTiddlers(tiddlers, options.sort);
		}
		if(options.filter) {
			var _store = new TiddlyWiki();
			config.lastStore = _store;
			for(var i = 0; i < tiddlers.length; i++) {
				var clone = tiddlers[i];
				clone.title = tiddlyspace.getLocalTitle(clone.title, clone.fields['server.workspace']);
				_store.addTiddler(clone);
			}
			tiddlers = _store.filterTiddlers(options.filter);
		}
		if(place) {
			$(place).empty();
			var list = $("<ul />").appendTo(place)[0];
			scanMacro.template(list, tiddlers, options.template);
			if(tiddlers.length === 0) {
				$("<li />").text(options.emptyMessage || locale.noone).appendTo(list);
				$(list).addClass("emptyList");
			}
		}
		if(options.callback) {
			options.callback(tiddlers);
		}
	},
	constructSearchUrl: function(host, options) {
		if(options.url) {
			return options.url;
		}
		var inputs = options.searchValues;
		var tag = options.tag;
		var searchField = options.searchField || "title";
		var searchQuery = [];
		for(var i = 0; i < inputs.length; i++) {
			searchQuery.push('%0:"%1"'.format(searchField, inputs[i]));
		}
		var query = searchQuery.join(" OR ");
		query = tag ? "(%0) AND tag:%1".format(query, tag) : query;
		query = options.query ? "%0;%1;".format(query, options.query) : query;
		query = options.fat ? "%0&fat=1".format(query) : query;
		return '%0/search?q=%1'.format(host, query);
	},
	scan: function(place, options) { // TODO: make use of list macro with url filter
		var locale = followersMacro.locale;
		options.template = options.template ? options.template : "ScanTemplate";
		followMacro.getHosts(function(host, tsHost) {
			$(place).text(followersMacro.locale.pleaseWait);
			options = options ? options: {};
			var url = scanMacro.constructSearchUrl(host, options);
			if(options.cache && scanMacro.scanned[url]) {
				var tiddlers = scanMacro.scanned[url].tiddlers;
				var run = function(tiddlers) {
					scanMacro._scanCallback(place, tiddlers, options);
				};
				if(tiddlers) {
					run(tiddlers);
				} else {
					scanMacro.scanned[url].callbacks.push(run);
				}
			} else {
				var callback = function(tiddlers) {
					scanMacro._scanCallback(place, tiddlers, options);
				};
				if(scanMacro.scanned[url] && scanMacro.scanned[url].callbacks) {
					scanMacro.scanned[url].callbacks.push(callback);
				} else {
					scanMacro.scanned[url] = {
						callbacks: [callback]
					};
				}
				ajaxReq({
					url: url,
					dataType: "json",
					success: function(tiddlers) {
						scanMacro.scanned[url].tiddlers = tiddlers;
						var callbacks = scanMacro.scanned[url].callbacks;
						while(callbacks.length > 0) {
							callbacks.pop()(tiddlers);
						}
					},
					error: function(xhr) {
						$(place).empty();
						$("<span />").addClass("annotation error").text(locale.error.format(xhr.status)).appendTo(place);
					}
				});
			}
		});
	},
	template: function(place, tiddlers, template) { // TODO: make use of list macro.
		for(var i = 0; i < tiddlers.length; i++) {
			var tiddler = tiddlers[i];
			var item = $('<li class="spaceName" />').appendTo(place)[0];
			var spaceName = tiddler.fields["server.space"] || "";
			var templateText = store.getTiddlerText(template).replace(/\$1/mg, spaceName);
			wikify(templateText, item, null, tiddler);
		}
	},
	getOptions: function(paramString, tiddler) {
		var args = paramString.parseParams("name", null, true, false, true)[0];
		var options = { query: false, sort: false, tag: false, template: false, showBags: args.show || false,
			hideBags: args.hide || false, filter: false, spaceField: "bag", searchField: "title", fat: false,
			emptyMessage: false };
		for(var name in args) {
			if(name != "name") {
				if(name == "fat") {
					options[name] = true;
				} else {
					options[name] = args[name][0];
				}
			}
		}
		// if user has set searchField to modifier, then use the modifiers value if available otherwise use searchValues.
		var searchField = options.searchField;
		var searchValues = args[searchField] ? args[searchField] : args.searchValues;
		// if neither of those were used use the first parameter
		var defaultValues = tiddler ? [ tiddler.title ] : [];
		options.searchValues = searchValues ? searchValues : ( args.name ? [args.name[0]] : defaultValues);
		return options;
	},
	handler: function(place, macroName, params, wikifier, paramString, tiddler) {
		var container = $("<div />").addClass("scanResults resultsArea").appendTo(place)[0];
		var options = scanMacro.getOptions(paramString, tiddler);
		scanMacro.scan(container, options);
	}
};

var followersMacro = config.macros.followers = {
	locale: {
		loggedOut: "Please login to see the list of followers",
		noSupport: "We were unable to retrieve followers as your browser does not support following.",
		pleaseWait: "Please wait while we look this up...",
		error: "Error %0 occurred whilst retrieving data from server",
		noone: "None."
	},
	handler: function(place, macroName, params, wikifier, paramString, tiddler) {
		var locale = followersMacro.locale;
		var args = paramString.parseParams("name", null, true, false, true)[0];
		var username = args.name ? args.name[0] : false;
		var container = $('<div class="followers" />').text(locale.pleaseWait).
			appendTo(place)[0];
		var followersCallback = function(user) {
			if(user.anon) {
				$("<span />").text(locale.loggedOut).appendTo(container);
			} else {
				var options = scanMacro.getOptions(paramString);
				$.extend(options, {
					url: "/search?q=title:@%0 OR title:%0 tag:%1 _limit:%2".
						format(user.name, followMacro.followTag, LIMIT_FOLLOWING),
					spaceField: "bag",
					template: options.template ? options.template : "FollowersTemplate"
				});
				scanMacro.scan(container, options);
			}
		};
		return !username ? followersCallback({ name: currentSpace }) : followersCallback({ name: username });
	}
};

var followingMacro = config.macros.following = {
	locale: {
		pleaseWait: followersMacro.locale.pleaseWait,
		loggedOut: "Please login to see who you are following",
		noSupport: followersMacro.locale.noSupport,
		error: followersMacro.locale.error,
		noone: followersMacro.locale.noone
	},
	handler: function(place, macroName, params, wikifier, paramString, tiddler) {
		var locale = followingMacro.locale;
		var args = paramString.parseParams("name", null, true, false, true)[0];
		var fat = args.fat ? true : false;
		var username = args.name ? args.name[0] : false;
		var container = $('<div class="following" />').text(locale.pleaseWait).
			appendTo(place)[0];
		var followingCallback = function(user) {
			if(user.anon) {
				$("<span />").text(locale.loggedOut).appendTo(container);
			} else {
				var options = scanMacro.getOptions(paramString);
				$.extend(options, {
					url: "/search?q=bag:%0_public tag:%1 _limit:%2".format(user.name, followMacro.followTag, LIMIT_FOLLOWING),
					spaceField: "title",
					template: options.template ? options.template : "FollowingTemplate"
				});
				scanMacro.scan(container, options);
			}
		};
		return !username ? followingCallback({ name: currentSpace }) : followingCallback({ name: username });
	}
};

var linkedMacro = config.macros.linkedTiddlers = {
	handler: function(place, macroName, params, wikifier, paramString, tiddler) {
		var args = paramString.parseParams("anon")[0];
		var title = params[0] || tiddler.fields["server.title"] || tiddler.title;
		var tid = store.getTiddler(title);
		var containingTiddler = story.findContainingTiddler(place).getAttribute('tiddler');
		if(tid) {
			followMacro.makeButton(place, {
				spaceField: "recipe",
				url: "/bags/%0/tiddlers/%1/backlinks".format(tid.fields['server.bag'],
					encodeURIComponent(tid.title)),
				blacklisted: followMacro.getBlacklist(),
				title: title,
				containingTiddler: containingTiddler,
				user: params[1] || false,
				consultFollowRelationship: args.follow ? true : false });
		}
	}
};

if(config.options.chkFollowTiddlersIsLinkedTiddlers) {
	merge(config.macros.followTiddlers, config.macros.linkedTiddlers);
	config.shadowTiddlers.FollowTiddlersHeading = "These are the other tiddlers that link to this tiddler.";
}

})(jQuery);
//}}}

chkPrivateMode: false

/*{{{*/
body {
	font-size: 1em;
	font-family: helvetica, arial, sans-serif;
	background-color: #fff;
	color: [[ColorPalette::Foreground]];
}

body ul { margin: 0; }

#popup {
	background-color: [[ColorPalette::TertiaryPale]];
}

#popup.confirmationPopup, .followList {
	font-size: 0.8em;
	padding: 1em;
	border: solid 1px [[ColorPalette::SecondaryMid]];
	background-color: [[ColorPalette::SecondaryPale]];
}

.followList .listTitle {
	text-decoration: underline;
}

#popup .followTiddlersList a {
	display: inline;
	padding: 0;
}

#popup li a {
	color: [[ColorPalette::PrimaryMid]];
	font-weight: bold;
}

#popup li a:hover {
	color: [[ColorPalette::PrimaryPale]];
	background: [[ColorPalette::PrimaryMid]];
}

#popup li.listTitle {
	border-bottom: 1px solid #000;
	font-weight: bold;
	margin-bottom: 10px;
}

#popup.followList {
	margin-left: 50px;
	margin-top: -30px;
}

.followTiddlersList .label {
	display: block;
	left: 10px;
	top: 0px;
	line-height: 16px;
	position: relative;
}

#popup .followTiddlersList .siteIcon{
	height: auto;
}

#popup .followTiddlersList li{
	clear: both;
	display: block;
	height: 48px;
	margin-bottom: 8px;
	position: relative;
}

#popup .followTiddlersList a{
	display: inline;
}

#displayArea {
	margin: 0;
	top: 0px;
	left: 0px;
	width: 100%;
	position: relative;
}

.revisionCloak {
	position: absolute;
	position: fixed !important;
	height: 100%;
	width: 100%;
	top: 0;
	left: 0;
	border: 0;
	margin: 0;
	padding: 0;
	opacity: 0.5;
	filter: alpha(opacity=50);
	background-color: #000;
}

/* *** Header *** */
.header {
	position: relative;
	background-color: [[ColorPalette::PrimaryMid]];
	_width: 100%; /* ie 6 demands */
}

.headerForeground {
	background-color: [[ColorPalette::PrimaryMid]];
	float: left;
	margin: 24px 16px 0px 72px;
	padding: 0;
	position: relative;
	top: 0;
	_width: 70%; /*ie6: needed for the background to actually be transparent*/
	_background-color: transparent; /*ie6: needed to show the search box*/
}

.clearFloat {
	clear: both;
}

#contentWrapper {
	position: relative;
	padding-top: 1px;
	top: -1px;
}

#tiddlerDisplay {
	_position: relative; /* ie 6*/
}

.siteTitle {
	clear: both;
	display: block;
	font-size: 32px;
	font-weight: bold;
	line-height: 32px;
}

.siteSubtitle {
	display: block;
	font-size: 14px;
	height: 16px;
	margin-bottom: 8px;
}

#sidebarSearch {
	padding: 0;
	position: absolute;
	right: 80px;
	top: 8px;
	width: 176px;
}

#sidebarSearch .txtOptionInput {
	width: 100%;
	margin-top: 5px;
	_color: #bbb; /* ie6 danger */
}

#sidebarSearch .txtOptionInput:focus {
	color: #000;
}

#sidebarSearch .searchButton {
	display: none;
}

/* *** Menu Bar *** */

#mainMenu {
	position: static;
	text-align: left;
	margin-left: 72px;
	float: left;
	width: auto;
	padding: 0;
	font-size: 1em;
	line-height: normal;
}

#mainMenu a {
	color: #fff;
	padding: 8px;
	font-size: 0.9em;
	margin-right: 16px;
}

#mainMenu a:hover {
	background-color: [[ColorPalette::PrimaryMid]];
	color: [[ColorPalette::Background]]
}

#sidebarOptions {
	margin-right: 72px;
	float: right;
	font-size: 1.1em;
	line-height: 1.6em;
	min-height: 1em;
	padding-top: 0;
}

#sidebarOptions a {
	margin-right: 8px;
}

.confirmationPopup .button,
#sidebarOptions .button {
	cursor: pointer;
	line-height: 1.4em;
	text-align: center;
	margin-right: 8px;
	margin-left:-2px;
}

.confirmationPopup .button {
	font-size: 0.9em;
	padding: 2px;
}

#sidebarOptions .button {
	font-size: 0.7em;
	float: left;
	width: 80px;
	padding: 0px;
        color: #fff;
}

.confirmationPopup a.button,
#sidebarOptions a {
	border: none;
	margin: 0 0.2em;
	padding: 0.6em 0.25em;
	display: inline;
	color: #666;
}

.confirmationPopup a.button:hover,
#sidebarOptions a:hover {
	color: #000;
}

.confirmationPopup a.button:active,
#sidebarOptions a:active {
	border: solid 1px [[ColorPalette::PrimaryMid]];
	background-color: #fff;
	background: -webkit-gradient( linear, left bottom, left top, color-stop(0.1,rgb(200,200,200)), color-stop(1, rgb(100,100,100)));
	background: -moz-linear-gradient(center bottom , rgb(200,200,200) 10%,rgb(100,100,100) 100%) repeat scroll 0 0 transparent;
}
/* *** Sidebar *** */

#sidebar .wizard table {
	margin: 0px;
}

.tabContents .listTitle:first-child {
	margin-top: 0px;
}

#menuBar {
	background: [[ColorPalette::PrimaryLight]];
	left: 0;
	right: 0;
	position: relative;
	margin: 0;
	padding: 0.5em 0 0.5em 0;
	min-height: 1em;
	overflow: hidden;
	_width: 100%; /* for ie 6 */
}

#sidebarOptions a.button:hover {
	color: [[ColorPalette::PrimaryPale]];
    background: [[ColorPalette::PrimaryMid]];
}

#tiddlerDisplay, #searchResults {
	margin: 16px 448px 0 72px;
}

#sidebarTabs {
	position: absolute;
	right: 72px;
	width: 352px;
	top: 0;
}

#sidebarTabs .tabsetWrapper .tabset {
	width: 87px;
	border-top: 1px solid [[ColorPalette::PrimaryPale]];
	border-left: 1px solid [[ColorPalette::PrimaryPale]];
	border-bottom: 1px solid [[ColorPalette::PrimaryPale]];
	height: auto;
	float: left;
	word-wrap: break-word;
	top: 0;
	padding: 0;
}

#sidebarTabs .tabsetWrapper .tabContents {
	background-color: [[ColorPalette::PrimaryPale]];
	border: 3px solid [[ColorPalette::PrimaryMid]];
	width: 242px;
	_width: 238px;
	left: -3px;
	_left: -5px;
	position: relative;
	min-height: 34em;
	padding: 8px;
	font-size: 0.8em;
}

/* ---- Side style --- */

#sidebarTabs .tabsetWrapper .tabset .tab {
	font-size: 0.9em;
	padding: 0.7em 8px 0.5em;
	color: #fff;
	background: [[ColorPalette::PrimaryLight]];
	border: none;
	line-height: 16px;
	position: relative;
	display: block;
	margin: 0;
}

#sidebarTabs .tabsetWrapper .tabset .tabSelected {
	color: [[ColorPalette::PrimaryMid]];
	background: [[ColorPalette::PrimaryPale]];
	border-top: 3px solid [[ColorPalette::PrimaryMid]];
	border-bottom: 3px solid [[ColorPalette::PrimaryMid]];
	border-left: 3px solid [[ColorPalette::PrimaryMid]];
	z-index: 10;
	margin-top: -1px;
	font-weight: bold;
}

#sidebarTabs .tabContents li {
	border: none;
	margin-left: 0;
	word-wrap: break-word;
}

.tabContents .timeline {
	background: [[ColorPalette::PrimaryPale]];
	margin-bottom: 8px;
}

#sidebarTabs .timeline li.listTitle {
	color: #132E43;
	margin-left: 8px 0;
	padding: 0.3em 0.11em;
	font-size: 1em;
	border-bottom: none;
}

#sidebarTabs .tabContents li a {
	display: block;
	text-align: left;
	margin: 0 0 1px 0;
	padding: 0.3em 1em;
	background: [[ColorPalette::PrimaryPale]];
}

#sidebarTabs .tabsetWrapper .tabset a:hover,
#sidebarTabs .tabContents li a:hover {
	color: [[ColorPalette::PrimaryPale]];
	background: [[ColorPalette::PrimaryMid]];
}

/* Activity Stream */
#sidebarTabs .tabContents .activityStream .feedItem a {
	display: inline-block;
	padding: 0;
	background: none;
}

/* ---- Tagging box --- */
.tagInfo {
	border: 1px solid #cccccc;
	padding: 10px 15px;
	-moz-box-shadow: 0 2px 2px rgba(0, 0, 0, 0.2);
	box-shadow: 0 2px 2px rgba(0,0,0,0.2);
	color: [[ColorPalette::TertiaryMid]];
	background: -moz-linear-gradient(100% 100% 90deg, #f4f4f4, #e5e5e5);
	background: -webkit-gradient(linear, left top, right top, from(#e5e5e5), to(#f4f4f4));
	margin-top: 1em;
	font-size: 13px;
	margin: 0 0 0 56px;
}

.tagInfo ul {
	list-style: none;
	padding-left: 2.2em;
}

.tagInfo ul li {
	display: inline;
}

.tagInfo ul li.listTitle,
.tagInfo .tagging ul li.listTitle {
	color: [[ColorPalette::PrimaryMid]];
	font-size: 13px;
}

.tagInfo ul li a {
	border: none;
}

.tagInfo .tagging ul li {
	float: none;
	display: inline-block;
}

.tagInfo .tagging {
	padding: 0;
}

.viewRevision .toolbar {
	right: 48px;
	top: 8px;
}

.viewRevision .modifierIcon img,
.viewRevision .modifierIcon svg {
	margin-right: 8px;
}

.viewRevision .toolbar svg {
	width: 32px;
	height: 32px;
}

/* --- IE hacks from lattice --- */

/* ie hacks */
* html #menuBar {
	margin-bottom: 8px;
}
.toolbar .svgIconText {
	*display: inline;
}

div.tiddler .toolbar a {
	cursor: pointer;
	float: left\9;
	display: inline\9;
}

* html .toolbar {
	right: 8px;
}
* html .followButton a {
	margin-top: 0px;
	margin-right: 8px;
}
* html #tiddlerDisplay {
	margin-top: 0px;
}

/* for printing purposes */
@media print {
	#mainMenu,
	#sidebar,
	#messageArea,
	.toolbar,
	.followPlaceHolder,
	#backstageButton,
	#backstageArea,
	#sidebarTabs,
	#sidebarSearch .txtOptionInput,
	#sidebarOptions {
		display: none !important;
	}
	#displayArea {
		margin: 1em 1em 0em;
	}
	noscript {
		display:none; /* Fixes a feature in Firefox 1.5.0.2 where print preview displays the noscript content */
	}
	#tiddlerDisplay {
		margin: 16px 16px;
	}
}

@media all and (max-width: 960px){
	#tiddlerDisplay,
	#searchResults {
		margin: 16px 366px 0 16px;
	}

	#mainMenu {
		margin-left: 16px;
	}

	.headerForeground {
		margin-left: 16px;
	}

	#sidebarSearch {
		right: 16px;
	}

	#sidebarOptions {
		margin-right: 16px;
	}

	#sidebarTabs {
		right: 16px;
		width: 326px;
	}

	#sidebarTabs .tabsetWrapper .tabset {
		font-size: 0.9em;
		width: 77px;
	}

	#sidebarTabs .tabsetWrapper .tabContents {
		width: 226px;
		_width: 222px;
	}

	#sidebarTabs .tabContents li a {
		font-size: 0.9em;
	}
}
/*}}}*/
[[StyleSheetTiddler]]

!Schlieren GRADIENT Visualization for FICOLL 1119 and 1077
Schlieren, shadowgraph and interferometric techniques have been used for many years to study the distribution of density gradients within a transparent medium. Of these methods, the schlieren technique combines relatively low cost with high sensitivity. Its principal limitations are field sizes limited by the diameter of the optical field elements and that it is usually only a qualitative visualization process.

https://www.youtube.com/watch?v=mLp_rSBzteI

Schlieren Flow Visualization is a method to see small differences of gradients
http://www.fas.harvard.edu/~scdiroff/lds/LightOptics/SchleirenOptics/SchleirenOptics.html
http://www.instructables.com/id/DIY-Schlieren-Flow-Visualization/
https://www.grc.nasa.gov/www/k-12/airplane/tunvschlrn.html
http://spie.org/x92893.xml
http://www.ian.org/Schlieren/
http://people.rit.edu/andpph/text-schlieren.html

Refraction due to small changes in the index of refraction in air are made visible by Schlieren Optics. A sphere, by definition, is a surface which is everywhere perpendicular to a radius drawn from its center of curvature. Hence, all light emerging from a given point on the object will be reflected to a corresponding point symmetric about the center of curvature. This produces a real image. Here the object is a point light source and it is imaged onto a razor blade; in particular, it is imaged as close to the edge of the razor blade as possible. A knife edge at the point source-image location is positioned as to partially block some light from reaching the viewing screen. The illumination of the image is reduced uniformly. A person (or a camera) looks over the razor blade at an object in front of the mirror. If, for any reason, the path of the light rays is perturbed so that the image is shifted upwards, then the light previously blocked by the razor blade reaches the eye (or camera). This results in an illusion of brightness in the region that is the cause of the perturbation. The effect is visually quite remarkable. One can also demonstrate the diffraction of light around objects. This is done by turning down most of the lights so that there is very little ambient illumination—basically, it's very dark. An object placed in front of the mirror is seen as dark (not surprisingly) but surrounded by a thin, bright, outline of light. This light, whose origin is the point light source, is being diffracted by the edges of the object into the eye of the observer—another striking effect.

see Background-oriented schlieren (BOS) is a novel technique for flow visualization of density gradients in fluids using the Gladstone–Dale relation between density and refractive index of the fluid.
BRIX Refractometer

L M N cells selected by beads testing purity of each fraction by FACS with 
Ⓜ Monocytes (FITC anti-CD14) BioLegend #367116
Ⓛ Lymphocytes (APC anti-CD45) BioLegend #304012
Ⓝ Neutrophils (PE anti-CD15) BioLegend #125606
After magnetic selection of Ⓝ Ⓛ Ⓜ staining is then performed at the same time with Ab directed against the membrane (for epitope as CD14, CD45, CD15)5 μL Ab in 200 μL cell solution for 20 minutes. Fixation is performed with a 2% formaldehyde solution in PBS pH 7.2; cells are incubated for 10 minutes at Room Temperature. Cells are washed with PBS pH 7.2 with BSA 0.5% to block the fixation solution. Cells are then suspended into 1000 μL PBS pH 7.2 and BSA 0.5 % for flow cytometric analysis. Before scanning spin down and filter with 500 μL FACS Buffer. 

!! Details
@@color:purple;''PART A For testing Cryopreservation viability''@@
Take small sample for counting of fresh/thaw Buffy Coat:
+ ''20'' μL Buffy Coat + ''380'' μL Muse™ Count & Viability Reagent
(''20''-fold dilution)
Allow the cells to stain for a minimum of ''5'' minutes.
Go for Muse™ Count viability  Results : No of cells & [%viability]


@@color:purple;''PART B For testing purity of each fraction''@@
Ⓜ Monocytes ^^(FITC anti-CD14)^^ BioLegend #367116
Ⓛ Lymphocytes ^^(APC anti-CD45)^^ BioLegend #304012
Ⓝ Neutrophils ^^(PE anti-CD15)^^ BioLegend #125606

[Volume stock: 500 μL / tube] frigo 4 °C recommend 5 μL Abs / 100 μL cells or 1 × 10^^4^^ cells.

After magnetic selection of Ⓝ Ⓛ Ⓜ fixation is performed with a 2% formaldehyde solution in PBS pH 7.2; cells are incubated for ''10'' minutes at Room Temperature. Cells are ''washed'' with PBS pH 7.2 with BSA 0.5% to block the fixation solution. Staining is then performed at the same time with Ab directed against the membrane (for epitope as CD^^14^^, CD^^45^^, CD^^15^^).

∓ step of blocking with 1% mouse serum for ''5'' minutes before start with surface staining process.  

LIST of TUBES for verify purity of each fraction Ⓝ Ⓛ Ⓜ  using FACS analysis:

Tube 1 -  CTRL Tube Ⓝ sans mAb
Tube 2 -  CTRL Tube Ⓛ sans mAb
Tube 3 -  CTRL Tube Ⓜ sans mAb

Tube 4 - [PE anti-CD^^15^^] Tube Ⓝ
Tube 5 - [APC anti-CD^^45^^] Tube Ⓛ
Tube 6 - [FITC anti-CD^^14^^] Tube Ⓜ

MIX PE APC FITC = [PE anti-CD^^15^^] + [APC anti-CD^^45^^] + [FITC anti-CD^^14^^]

Tube 7 -  MIX ^^PE15 APC45 FITC14^^ Tube Ⓝ
Tube 8 -  MIX ^^PE15 APC45 FITC14^^ Tube Ⓛ
Tube 9 -  MIX ^^PE15 APC45 FITC14^^ Tube Ⓜ


Add:
10 μL cellⓃ + 100 μL PBS^^-BSA^^ + 5 μL [PE @h CD^^15^^] (Tube4)
10 μL cellⓁ + 100 μL PBS^^-BSA^^ + 5 μL [APC @h CD^^45^^] (Tube 5 )
10 μL cellⓂ + 100 μL PBS^^-BSA^^ + 5 μL [FITC @h CD^^14^^] (Tube 6)
10 μL cellⓃ + 100 μL PBS^^-BSA^^ + 15 μL [MIX] (Tube 7)
10 μL cellⓁ + 100 μL PBS^^-BSA^^ + 15 μL [MIX] (Tube 8)
10 μL cellⓂ + 100 μL PBS^^-BSA^^ + 15 μL [MIX] (Tube 9)

After (15) - ''30'' minutes incubation at Room Temperature, cells are washed with PBS pH 7.2 containing BSA 0.5% to remove the excess of non-bound Abs. 
Cells are then suspended into ''100'' μL PBS pH 7.2 and BSA 0.5 % for flow cytometric analysis.


Add ''CTRL'' in the list:
10 μL cellules Ⓝ + 100 μL PBS-BSA (Tube 1) CTRL Ⓝ
10 μL cellules Ⓛ + 100 μL PBS-BSA (Tube 2) CTRL Ⓛ
10 μL cellules Ⓜ + 100 μL PBS-BSA (Tube 3) CTRL Ⓜ


Target Cell Types: 
@@color:green;Monocytes FITC,Mouse Anti-Human CD^^14^^ (Em 520 nm Green)@@
@@color:red;Target Cell Types: Lymphocytes APC Mouse Anti-Human CD^^45^^ (Em 660 nm Red)@@
@@color:orange;Target Cell Types: Neutrophils PE Mouse Anti-human CD^^15^^  R-phycoerythrin (PE) Em 578 nm emits orange-yellow)@@

Possible Results:
Monocytes were contaminated with ~11% lymphocytes and 35% platelets
Lymphocytes  over 80% pure
Neutrophils over 80% pure

Total: 9 x ''4 P'' = 36 tubes

//Fixation for more 20 minutes in 2% PFA is a lot, just accumulate autoflorescence. As for the prevention of non-specific antibody staining we can use ''Fc-block'' (e.g. BioLegend's TruStain fcX (anti-human)) Cat. No # 422302 or 1% mouse serum for five minutes before start with surface staining process. Blocking Fc is very important in preventing the non-specific binding.

^^Fc-block blocks non-specific binding of Fc receptor expressing cells, such as myeloid and B cells. Human Fc block inhibits non-specific binding in human samples during flow cytometry. Preventing non-specific binding reduces high background, can increase the specificity
of antibody labeling in extremely rare target cells^^. 

^^''Fc receptors’ role in biological detection''
Fcγ receptors belong to the immunoglobulin superfamily and are expressed at varying levels in multiple cell lineages. High expression is observed particularly in myeloid and B cells. The major function of the Fc receptors is to serve as protection for the immune system. There are multiple different types of Fc
receptors, reflecting a variety of different biological activities. The Fc receptors become modulated when they are aggregated by multivalent antigen-antibody complexes^^//.

(function() {
var getCSRFToken = function(window) {
	// XXX: should not use RegEx - cf.
	// http://www.quirksmode.org/js/cookies.html
	// https://github.com/TiddlySpace/tiddlyspace/commit/5f4adbe009ed4bda3ce39058a3fb07de1420358d
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	var match = regex.exec(document.cookie);
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http://www.agilent.com/en-us/products/cell-analysis-(seahorse)/software-download-for-wave-desktop

Hosting Your Own TiddlySpace

http://tiddlyweb.tiddlyspace.com/bags/tiddlyweb_public/tiddlers/Hosting%20Your%20Own%20TiddlySpace

!Launch - START
https://en.wikipedia.org/wiki/Gene_set_enrichment
http://software.broadinstitute.org/gsea/login.jsp

!Original - Quick Tour of the GSEA Java Desktop Application
http://software.broadinstitute.org/gsea/doc/desktop_tutorial.jsp

!Original - Documentation
http://www.broadinstitute.org/cancer/software/gsea/wiki/index.php/Main_Page

!Original - Home Institute
http://www.broadinstitute.org/scientific-community/software?criteria=Gene%20Expression
http://software.broadinstitute.org/gsea/index.jsp

!Video tutorial for GSEA
japoneza - GSEA softwareの使い方　〜基本編〜 
https://www.youtube.com/watch?v=TPDir3MPlCg

!explicatii valori
ES (enrichment score), NES (normalized enrichment score), NES (normalized enrichment score) etc
http://www.baderlab.org/CancerStemCellProject/VeroniqueVoisin/AdditionalResources/GSEA

!example 
Oxidative phosphorylation gene expression falls at onset and throughout the development of meningococcal sepsis-induced multi-organ failure in children
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4502289/

File Formats Guide
http://software.broadinstitute.org/cancer/software/genepattern/file-formats-guide#CLS

http://software.broadinstitute.org/cancer/software/genepattern/modules/docs/GSEA/14

tutorial cu exemplu practic pt estrogeni 
http://www.baderlab.org/Software/EnrichmentMap/Tutorial

!Original - Example Datasets
http://software.broadinstitute.org/gsea/datasets.jsp

Functional Enrichment Analysis in a Set of Genes
https://www.youtube.com/watch?v=7-pfOtmRWgI
https://www.youtube.com/watch?v=I_1cr_6xPBM

!Using DAVID
Using DAVID for Functional Enrichment Analysis in a Set of Genes (Part 1) 
https://www.youtube.com/watch?v=xIu9mm6b7N0
Using DAVID for Functional Enrichment Analysis in a Set of Genes (Part 2) 
https://www.youtube.com/watch?v=zedjRViji2c

!general staff
Bioinformatics Fundamentals 
https://www.youtube.com/watch?v=MyarDT1cojg

https://www.youtube.com/watch?v=_eHz6qzTCfc

https://www.youtube.com/watch?v=Mph3GfDKM-o

https://www.youtube.com/watch?v=kyMzPwS88F8

https://www.youtube.com/watch?v=TDD6bExnR38

https://www.youtube.com/watch?v=-kTcFZxP6kM

!Need 

instalation of Cytoscape
http://cytoscape.org/

Also Install the Enrichment Map plugin
from the Cytoscape plugin manager - aici
http://apps.cytoscape.org/apps/enrichmentmap

http://apps.cytoscape.org/apps/cyanimator
http://www.rbvi.ucsf.edu/cytoscape/CyAnimator/sampleVideo.mp4

altele 
http://apps.cytoscape.org/apps/with_tag/enrichmentanalysis

!GRAFICA metabolic link 
https://en.wikipedia.org/wiki/Cytoscape
https://en.wikipedia.org/wiki/Graph_drawing

schema leningher
http://biochemical-pathways.com/#/map/1

https://en.wikipedia.org/wiki/File:Metabolic_Metro_Map.svg

https://en.wikipedia.org/wiki/Metabolic_pathway

http://biochemical-pathways.com/#/map/2


!explicatii cytoscape
http://opentutorials.cgl.ucsf.edu/index.php/Tutorial:Introduction_to_Cytoscape

!Gene Set: MITOCHONDRION
http://software.broadinstitute.org/gsea/msigdb/geneset_page.jsp?geneSetName=MITOCHONDRION

!Genes up-regulated in peripheral blood monocytes (PMBC): Gram positive sepsis versus mixed infection sepsis.
http://software.broadinstitute.org/gsea/msigdb/cards/GSE9960_GRAM_POS_VS_GRAM_NEG_AND_POS_SEPSIS_PBMC_UP

http://www.affymetrix.com/catalog/131455/AFFY/Human+Genome+U133+Plus+2.0+Array#1_3
GeneChip® Human Genome U133 Plus 2.0 Array 

cipul este: 
Affymetrix microarray (U133plus2)
with 54,675 transcript
Data was divided into a training set (n=35) and a validation set (n=35)

detalii 1 
https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE9960
detalii 2

https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE40180

http://www.atsjournals.org/doi/pdf/10.1164/ajrccm-conference.2016.193.1_MeetingAbstracts.A6281

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3585423/

Gene ral
1
https://www.youtube.com/watch?v=CLV1nrzGyBA

https://www.youtube.com/watch?v=5zSrLlEwHRk

https://www.youtube.com/watch?v=6Udqou3vmng

aging intretinere
https://www.youtube.com/watch?v=1Xdyj0GS0Vg

TEST 003
GSE40180
http://www.ncbi.nlm.nih.gov/geo/
http://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE40180

Did you know: 
1. that 90% of the genetic variation between humans comes from single nucleotide polymorphisms (SNPs)

!proiect Jupyter - vizualisation for Gene pattern
http://jupyter.org/widgets.html

!array protein ab demo
https://www.youtube.com/watch?v=IuBUKLivW08

!cool visualizator
http://www.biolayout.org/

250 000 cellules / puits
M1: 200ng /mL LPS & 100 U / mL IFN-Y
M2: 20ng / mL TGFb 

! ng/mL U/L to  AND U/L to ng/mL conversion

"Units" are measured by the biological activity they have, and can be very different, even for similar compounds.
1 international unit (IU) = _ mg IFN-Y mouse.

0.5 ng / mL = 10 x 10^^6^^ Units / mg
0.5 nanograms = 0.0005 µg = 5e-7 mg
we have 100 µg / mL
0.0005 µg - 10 mil UI - 1000 µL

2.5 mil UI ds 250 µL 
100µg - X= 200 000 UI
200 000 UI-250µL
y= 800 UI - 1µL 
200UI ds 4 mL or

''◙◙◙ Label to print ◙◙◙:''
''1'' →Ⓐ 
Tube ^^~Hoechst^^
☒ 5 mL Buffer
☐ 50 µL Hoechst (SS)

''2'' →Ⓒ 
Tube^^~A^^
☒ 2600 µL Buffer
☐ 13 µL MitoSOX (SS)
☐ 13 µL MitoSOX (SS)

''3'' →Ⓑ
Tube ^^~B^^
☒ 1300 µL Sol from Tube " ^^~A^^
☐ 130 µL of 1mM Ant - A (SS)

''4'' →Ⓙ 
Tube ^^~C^^
☒ 1300 µL Buffer
☐ 130 µL of 1mM Ant - A (SS)

''5A''
Tube Si [1 M] ^^~H~~2~~O~~2~~ ^^
☒ 1000 µL H~~2~~O
☐ 100 µL of 9.79 M perox 

''5B''
Tube Sii [100 mM] ^^~H~~2~~O~~2~~ ^^
☒ 1000 µL H~~2~~O
☐ 100 µL of 1 M perox  

''5C'' →Ⓓ
Tube Siii [500 µM] ^^~H~~2~~O~~2~~ ^^
☒ 1300 µL MC
☐ 13 µL of 100 mM perox 

''6'' → Ⓔ & Ⓕ
Tube ^^FITC~~LEHD-FMK~~ Hoechst^^
☒ 2000 µL MC
☐ 7 µL of FITC-LEHD-FMK
☐ 10 µL of Hoechst

''7''
Tube [100 µM] TMRE ^^~~Si~~^^
☒ 50 µL ethanol 100%
☐ 5 µL of [1 mM] Stock TMRE 

''8'' → Tube ''2'' and →Ⓖ 
Tube ''1'' ^^~~[200 nM]TMRE 
+ [200 µM]MTG~~+ [5 µg] Hoechst^^
☒ 1+9 mL mix Buffer
☐ 20 µL of [100 µM] Si TMRE 
☐ 2 µL [1 mM] SS MTG 
☐ 50 µL SS Hoechst 

''9''
Tube [1 mM] Si ^^~~Omy~~^^
☒ 500 µL ethanol 
☐ 5 µL of stock [100 mM] Omy

''10''
Tube [500 µM] Si ^^~~CCCP~~^^
☒ 1000 µL ethanol 
☐ 10 µL of stock [50 mM] CCCP

''11'' →Ⓗ
Tube ''2'' ^^~~TMRE + MTG + Hoechst 
+ [5 µM]Omy + [50 µM]CCCP~~^^
☒ 5 mL mix Tube ''2'' 
☐ 25 µL of  [1 mM] Si Omy
☐ 500 µL of [500 µM] Si CCCP

''12'' →Ⓘ 
Tube  ''3'' ^^~~[5 µM] Omy + [50 µM] CCCP~~^^
☒ 5 mL mix Buffer
☐ 25 µL of  [1 mM] Si Omy
☐ 500 µL of [500 µM] Si CCCP

◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙

Enregistreur de température USB PCE-TD 60 
https://www.pce-instruments.com/french/instruments-de-mesure/mesureur/enregistreur-donnees-pce-instruments-enregistreur-de-temp_rature-usb-pce-td-60-det_406320.htm

http://www.geneq.com/biotechnologie/nouveaut%C3%A9s-67/enregistreur-de-temp%C3%A9rature-usb-pdf.html

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

A yellow fluorescent protein having a long stokes shift 
(excitation at 406 nanometers and emission at 526 nanometers) has been developed. 
Named Ametrine, this protein also has found utility as a FRET donor for orange and red fluorescent proteins.

TEST nr 1 Connexin 43 & TMRE 

Test nr 2 (9 mart 2016)
SNX9 Ametrine
SNX9 Ametrine +TMRE -
SNX9 Ametrine + MTG
TMRE
MTG 
CTRL

RAB9

PINK1

PARKIN

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

CM NOTE F01 Serie F01_ (d4) {DOB 09/11/16} × [4] - Luni 12 sept 2016; type Parkin^^+/+^^38.

!Peparation Tube (H2O2) for induction of MDVs (µvesicles):

[SS] S. Stock [9.79 M] H2O2 (30%) MW:34.01
[Si] 1 M [1000 mM] add 1 mL (30%) in 10 mL H2O
[Sii] [100 mM] add 1 mL (1M) in 10 mL H2O

[SF1] [1.2 mM] add  60 µL (100 mM) in  5 mL MC
[SF2] [900 µM] add  45 µL (100 mM) in  5 mL MC
[SF3] [600 µM] add  30 µL (100 mM) in  5 mL MC
[SF4] [300 µM] add  15 µL (100 mM) in  5 mL MC
[SF5] [100 µM] add  5 µL (100 mM) in  5 mL MC
[SF6] [50 µM] add  2.5 µL (100 mM) in  5 mL MC
[SF7] [5 µM] add  250 µL (100 µM) in  5 mL MC

5. Incubate for induction of MDVs at (37°C).
1H
2H
4H
24H

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

<<closeAll>><<permaview>><<newTiddler>>

1- Retirer le milieu de culture par aspiration.
2- Ajouter 750 µL de p-formaldéhyde-PBS (4%).
3- Incuber 30 minutes à température pièce.
4- Enlever le p-formaldéhyde par aspiration.
5- Faire 3 lavages avec 1000 µL de PBS pendant 5 minutes (si la plaque sera gardé au réfrigérateur, laisser le PBS, sinon l’enlever par aspiration).
6- Ajouter 500 µL de cristal violet (0,1%-H2O) et incuber 30 minutes à température pièce.
7- Enlever le cristal violet par aspiration.
8- Faire 3 lavages avec 1000 µL de PBS pendant 5 minutes.
[ 9- Ajouter 500 µL d’acide acétique (10%) et incuber 5 minutes à température pièce en brassant quelques fois la plaque.
10- Diluer 1 dans 4 avec de l’acide acétique 10% et transférer dans une microplaque de 96 puits.]
11- Lire la D.O. à 595 nm.

p-formaldéhyde 4% est fait en dissolvant 4 g de p-formaldéhyde dans 100 mL de PBS sous barreau magnétique. Il peut être nécessaire de chauffer.

!Version UV avec AO (Acridine Orange).

AO is a fluorochrome stain absorbe ultraviolet light and emits visible light - in red can be visualised the lysosomes and in green the cytoplasme, nuclei were dyed with yellow-green.
Coloration à l’acridine orange/iodure de propidium
- Faire une solution stock Acridine orange (AO) à 1,5mg/mL : 150 µL + 850 µL d’eau. (AO reçue est à 10mg/mL).
- Faire une solution stock d’iodure de propidium à 1mg/mL dans l’eau.
Version 1 :
1. Préparer une solution de travail 1X à 10µg/mL d’IP et 1,5µg/mL d’AO :
pour 10mL : 9,890 mL de PBS
10 µL de solution stock d’AcOr*
100 µL de solution stock d’IP
La solution de colorant mettre dans une bouteille ambrée recouverte de papier d’aluminium et gardée à 4˚C.
2. Laver les cellules 3 fois au PBS pendant 5 min.
3. Ajouter le volume minimal pour recouvrir les cellules de solution de travail 1X.
4. Incuber 30-45 minutes à la noirceur.
5. Regarder au microscope à fluoresence à 470nm et compter les cellules rouges et les cellules vertes.

Version 2 :
1. Mélanger 50μl de cellules et 50μl de colorant (10μg/ml d’iodure de propidium et 1,5μg/ml d’acridine orange). La solution de colorant est déjà préparée dans une bouteille ambrée recouverte de papier d’aluminium et gardée à 4˚C.
2. Compter les cellules rouges et les cellules vertes avec un hémacytomètre (16 carreaux)
3. Calculer le pourcentage de viabilité cellulaire.
% viabilité = ¢ vertes /(¢ vertes + ¢ rouges) x 100
excitation à 470nm, fluorescence à 515nm.
- l'acridine orange, qui a la propriété d'émettre une fluorescence verte quand il se fixe à de l'ADN natif (double brin), et une fluorescence rouge quand il se fixe à de l'ADN dénaturé (mono brin).
- l'iodure de propidium ne pénètre que dans les cellules dont la membrane est lésée.
- les cellules vivantes émettront une fluorescence verte et les cellules mortes une fluorescence rouge.

7-AAD (7-Aminoactinomycin D) is the best in DNA analysis for flow cytometry because it is DNA specific binding.

Acridine orange is less specific because it binds also to lysosomes.

Ethidium bromide is lesser specific because it binds to DNA and RNA.

Acridine orange combined with Pserine assay gives you an idea about how may cells die of apoptosis at a low cost...consult Jamison Jm et al

If acridine only marks the nucleus it is necrosis or autoschizis, if it marks nucleus and phosphatidylserine altogether and then the nucleus appears yellow through the green if green used, then apoptosis is there. This can be used for flow cytometry.

Using acridine orange, you can analyze micronuclei (green fluorescence) and apoptotic cells (cytoplasm emitted orange/yellow fluorescence) with fragmented nucleus (green fluorescence)

acridine orange fluorescence : [DNA - green fluorescence; RNA - orange/yellow fluorescence)

!✪ ➊ 
http://www.autopack.org/cellpack-recipes/blood-plasma

Graham Johnson - nature
http://www.autopack.org/
autoPACK is an open-source general packing algorithm
autoPACK packs 3D objects onto surfaces, into volumes, and around volumes 

http://autopack.cgsociety.org/autopack

http://vina.scripps.edu/
(similar molegro)

http://www.benchfly.com/video-protocols

http://www.jove.com/video/2704/determination-mitochondrial-membrane-potential-reactive-oxygen

http://howmusicreallyworks.com/CompleteGuitarChordPoster_WayneChase_FreeEdition.pdf

ZBrush
http://pixologic.com/

Modo
https://www.thefoundry.co.uk/products/modo/

!✪ ➋ 
Cluster 3.0 for Windows, Mac OS X, Linux, Unix +  TreeView
http://bonsai.hgc.jp/~mdehoon/software/cluster/manual/index.html

http://bonsai.hgc.jp/~mdehoon/software/cluster/software.htm#ctv

http://www.strand-ngs.com/features

http://rnaseq-mats.sourceforge.net/index.html

http://david.abcc.ncifcrf.gov/

http://www.biomart.org/
BioMart

http://www.ingenuity.com/science/platform
Ingenuity Pathway Analysis

http://gemologyproject.com/wiki/index.php?title=Refractometer
http://gemologyproject.com/wiki/index.php?title=Polariscope
https://www.youtube.com/watch?v=Co0wJ7YdK0c&feature=player_embedded

!✪ ➌ 
Shazam
Siri
Musipedia.org
a music search engine that works differently from others because instead of using techniques to identify recorded music, it can identify pieces of music from a single melody or rhythm.
!✪ ➍ 
✪ ➎ ✪ ➏ ✪ ➐ ✪ ➑ ✪ ➒ ✪ ➓

Bioenergo - This space aims to catalyse the science, art, tech and society landscape to explore and impact potential futures at the intersection of different disciplines with biology.

http://www.ma-tt-er.org/wp-content/uploads/2016/01/Ma-tt-er-Microfulidics.jpg

http://innovation.kaust.edu.sa/wp-content/uploads/2015/06/main-image7.jpg

http://ibidi.com/xtproducts/media/images/category/popup/S_8037X_III_3D_Perfusion_ia_RGB.jpg

Clinical diagnostic methods involving immunological procedures are advantageous due to increased specificity and sensitivity, with many immunological assay methods available both in research and clinical settings. Advancements in microfluidics and assay miniaturization have reduced sample consumption and improved reaction kinetics, resulting in shortened processing times while keeping high sensitivity. KAUST has developed a novel suite of technologies for quantitative analysis of target analytes, such as DNA or protein, based on agglutination in microchannels. The developed technologies could lead to improvements in throughput and overall utility of agglutination assays for diagnostic applications, particularly within biochip/lab-on-a-chip constructs.
Prof. Ian Foulds
Lead Inventor
Technology Summary

The suite of technologies developed are based on agglutination in microchannels and include two separate systems. The first system involves assay droplets flowed through microchannels that provide efficient mixing, greater throughput of agglutination tests and a platform for on-site quantification. The second system includes a process of adding analyte to the assay in a time varying fashion to prevent possible false negatives resulting in greater reliability. The technologies are not assay-dependent, but rather can be incorporated into existing assays to enhance throughput and sensitivity.
Why It Is Better

side-image

The two novel systems can improve the throughput and sensitivity of agglutination-based assays for protein and DNA detection that are commercially available, or as a tool to facilitate the development of new assays. These systems are not dependent on any specific assay. They can also be used in more novel ways, such as agglutination of nano-particles for the detection of heavy metals.

The first system developed results in a highly efficient mixing of functionalized microbeads with the analyte, eliminating the need for incubation and external mixing structures or processes such as magnetic actuation. This system was shown to reliably quantify the agglutination of both protein and DNA-based agglutination assays rapidly and at high flow rates of up to 30 to 50 times higher than existing assays. The setup involves a silicon capillary tube filled with mineral oil and driven by a syringe pump. Droplets containing a bead and analyte mixture are inserted into the tube by the open end. Agglutination can be quantified optically by computer processing images taken mid-length of the tube.

The second system includes the detection and continuous quantification of agglutination assays within a capillary tube. With this system, a false negative that naturally occurs at high concentrations in agglutination assays, referred to as the “prozone effect,” is avoided by slowly adding the analyte while running the test. This allows the concentration of the analyte to asymptotically approach the sample value and prevent prozone level attainment before agglutination can occur, resulting in greater reliability of measurement.

http://innovation.kaust.edu.sa/technologies/microfluidic-methods-for-quantification-of-protein-and-dna-agglutination%C2%AD-based-assays/

http://pubs.rsc.org/en/content/articlehtml/2013/ra/c3ra44453h

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

http://gizmodo.com/5642561/seeking-mojo-chasing-the-perfect-cup-of-coffee-through-science



ExtractMoJo is, very simply, a refractometer paired with the universal brewing control chart

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![|] Gelatin Cell Attachment Protocol
Using 2% Solution Sigma (Catalog No. G1393) frigo 2 - 8°C
1. Aliqote 10 mL of gelatin solution and allow  to completely liquefy at
37 °C.
2. Coat culture surface with 200 μL / well. Incubate at room temperature.
3. Allow surface to dry at least 2 hours before introducing cells and medium.

![|] Poly-Lysine Cell Attachment Protocol
Using 0.01% P4832 Sigma (Catalog No. G1393) frigo 2 - 8°C
1. Coat culture surface with 200 μL / well.
Add enough solution to pool over surface of sterile glass coverslip.
2. Incubate 5 minutes at room temperature.
3. Aspirate solution allow surface to dry at room temperature.

![|] Laminin Cell Attachment Protocol
Using Sigma (Catalog No. L2020-1MG)
Thaw this solution slowly before use at 2 - 8°C to avoid gel formation. 
1. Stock solution is prepared by dissolving 1-2 mg/ml laminin in PBS.  Volume from stock to aliquots 30 μL
Freeze aliquots. Diluted stock solution 1 alqot to [10 μg/mL] in 3 mL basal medium or PBS.
2. Coat culture surface with 50-200 μL / well.
Add enough solution to pool over surface of sterile glass coverslip.
3 Incubate 2 hours at room temperature.
4. Aspirate to remove laminin and rinse coverslips with media or PBS before plating cells .
5. Immediately add cell suspension or growth media.  Do not allow coating to dry.
Coating the glass coverslip first with polylysine then laminin may increase the concentration of laminin applied using this method.

![|] Fibronectin Cell Attachment Protocol

Using Sigma F1141-2MG (new version) Merck USA index 14, 4075
The product is good for at least a year at 2-8 °C if kept sterile. Fibronectin coated cultureware can be stored for 2-4 weeks at 2-8 °C in a closed sterile container, or in sterile sealable bags. The procedure for coating culture surfaces with fibronectin: 1. Dilute fibronectin in sterile balanced salt solution and coat the culture surface (1-5 μg/cm2) with a minimal volume.  2. Allow to air dry for at least 45 minutes at room temperature.  Excess fibronectin may be removed by aspiration, but this is not necessary. 
2mg in 20 000 µLPBS - aliquot 1mL freeze -20°C  ⇲500 µL /well ⇲50 µg /well.

//^^Dissolve at 1 mg/mL in water. Allow to dissolve for at least 30 minutes at 37 °C. 
What is the procedure for coating culture surfaces with fibronectin? 
How do I determine how much fibronectin is in solution? 
A small amount of undissolved material may remain. This will not affect product performance. As the product may contain undissolved material, the amount of fibronectin in solution can be determined by UV absorbance.  The extinction coefficient for a 1% solution (10 mg/ml) is 13.5 at 280 nm^^//. 

Using Calbiochem (Catalog No. 341631) - first time OK
1. Thaw the fibronectin by placing the vial in a 37°C water bath until it is completely thawed. 
Be VERY careful during the thawing process. 
DO NOT DISTURB OR REMOVE THE VIAL AT ANY TIME DURING THE THAWING PERIOD. 
If the vial is disturbed or removed prior to complete thawing, the product will gel and be unusable. 
DO NOT VORTEX. DO NOT SHAKE AFTER THAWING. Mix very gently after thawing
2. After thawing, bring the solution to a final volume of 20 mL with sterile,
 serum-free medium or PBS that has been pre-heated to 37°C. 
This yields a fibronectin solution of 50 µg/mL.
3. Add enough solution and swirl gently to completely coat the entrie surface of sterile glass coverslip.
4. Incubate the dishes at room temperature for ~45 min to permit binding of the fibronectin to the growth surfaces.
5. Aspirate to remove fibronectin and rinse coverslips with media or PBS.
6. Immediately add cell suspension or growth media.  Do not allow coating to dry.

![|] Collagen Cell Attachment Protocol

1. Dilute collagen solution 1:10 - 1:50 with 30% ethanol and spread over surface of sterile glass coverslip.
2. Aspirate to remove collagen.
3. Air dry in a tissue culture hood.
4. Cells can be seeded directly on the collagen surface.
    For long-term cultures, collagen I and IV can be applied to glass coverslips 
by first coating the glass with polylysine. 
This provides a more stable collagen coating.

Before add cells wash with media or PBS.
Immediately add cell suspension or growth media.

Nr ➊ ⊣ pour X-XO
◤ ▢▢▢▢ ◥ ⇲ Poly-Lysine
◣ ▢▢▢▢ ◢ ⇲ Fibronectin

Nr ➋ ⊣ pour Ant-A
◤ ▢▢▢▢ ◥ ⇲ Poly-Lysine
◣ ▢▢▢▢ ◢ ⇲ Fibronectin

Nr ➌ ⊣ pour X-XO
◤ ▢▢▢▢ ◥ ⇲ Laminin
◣ ▢▢▢▢ ◢ ⇲ Gelatin

Nr ➍ ⊣ pour Ant-A
◤ ▢▢▢▢ ◥ ⇲ Laminin
◣ ▢▢▢▢ ◢ ⇲ Gelatin



Nr ➎ reserve
◤ ∏∏∏∏ ◥
◣ ∐∐∐∐ ◢

Nr ➏
◤ ∏∏∏∏ ◥
◣ ∐∐∐∐ ◢



SERIE 2

8 7 6 5 Poly-Lysine
4 3 2 1 Fibronectin

Nr ➊ ⊣ 
◤ ▢▢▢▢ ◥ ⇲ Poly-Lysine
◣ ▢▢▢▢ ◢ ⇲ Fibronectin
[4 = AntA 20uM ds Low Gluc 
3 = XXO 0.15 ds Galactose
2 = XXO 0.15 ds Galactose
1=  XXO 0.15 ds Galactose]

Nr ➋ ⊣ 
◤ ▢▢▢▢ ◥ ⇲ Poly-Lysine
◣ ▢▢▢▢ ◢ ⇲ Fibronectin

[4 = CTRL Low Glucose 
3 = AntA 15 uM ds Galactose
2 = XXO 0.25 ds Galactose
1=  XXO 0.25 ds Galactose]

Nr ➌ ⊣ 
◤ ▢▢▢▢ ◥ ⇲ Laminin
◣ ▢▢▢▢ ◢ ⇲ Gelatin

[4 = CTRL Low Glucose 
3 = XXO 0.5 ds Galactose
2 = AntA 5 uM ds Galactose 
1=  AntA 10 uM ds Galactose]

Nr ➍ ⊣ 
◤ ▢▢▢▢ ◥ ⇲ Laminin
◣ ▢▢▢▢ ◢ ⇲ Gelatin

[4 = CTRL Low Glucose 
3 = XXO 0.5 ds Galactose
2 = AntA 5 uM ds Galactose 
1=  AntA 10 uM ds Galactose]



Fix the cells by adding pre-warmed 4-5% PFA/PBS pH at 7.4 at 37°C for 15 min  
Wash 3 times in PBS (PBS at RT). 
Quench the PFA by incubating the cells in 50mM NH4Cl/PBS for 10 min at RT.
Wash 3 times in PBS (PBS at RT). 
Permeabilize the cells by incubating in 0.1% Triton in PBS for 10 min.
Wash 3 times in PBS (PBS at RT). 
Block by incubating with 10% FBS in PBS for 30 min
Incubate with primary antibody (dil. 1/2000) in 5% FBS in PBS, 
for 1 hour, at RT
Tom 20:sc-11415 rabbit de SantaCruz (1/2000) 
PHD:ab110333 mouse de Abcam (1/2000)  
Wash 3 times in 5% FBS in PBS 5 min
Incubate with secondary antibody dil. 1/1000  in the dark for 45 min
@rabbit Alexa Fluor 488: A11070 de Invitrogen [FITC](1/1000) GFP
@mouse Alexa Fluor 594: A11005 de Invitrogen [TRITC](1/1000) mCerry
Wash 3 times in PBS 5 min
Immerse it in distilled water for a second to take
out the salt (PBS). 
Then let the water slide in a Kleenex towel 
drop of mounting medium ProlongGold antifade reagent with DAPI de Invitrogen P36931 in a 
slide. 
Incubate at 37°C for 15 min or at RT for 1h to let it dry.
Ayumu doesn’t immerse in water and he leaves the slide dry O/N at RT in the 
dark. Then, he keeps the slides in a box at 4°C.
Coverslip: VWR International 24x60mm No.1 Cat. No48393 106


Xanthine: X0626-56 (Sigma) FW: 152.1 soluble ds NaOH (50 mg / mL max). 
Preparation stock NaOH 1 M 1 M = 152.1 g → 1 L 
Xanthine Sol. stock [0.05 M] = 76.05 mg → 10 mL 
Xanthine Sol. stock [0.05 M] = 64.58 mg → 8.49 mL (28/04/16) 
Donc preparation Xanthine sol finale de [100 μM]: 
C1 × V1 = C2 × V2 50 mM × Z = 0.1 mM × 1 mM 
Z = 2 μL Xanthine-oxidase: X1875-5UN (Sigma) 
100 mU / mL 5 U → 200 μL 0.05 U → Z μL Z = 2 μL 
Donc pour xanthine [100 μM] + Xanthine-oxidase [50 mU/mL] =
2 μL Xanthine stock de [50 mM] + 2 μL Xanthine - oxidase stock dans 1 mL de MC. 
Note Dans les H9C2 nous utilisions xanthine [50 μM] + Xanthine-oxidase [25 mU/mL] 
soit 1 μL X + 1 μL X-O dans 1mL MC. 

Serie 2 IHC  nr.09_ (d3) × [8]   26 mai 2016 type +/+.
J ✄ V ▼ 0.2 M/w S D L (low glucose) L M M (galactose) ◁ IHC ▷

http://www.lifetechnologies.com/ca/en/home/life-science/cell-analysis/labeling-chemistry/fluorescence-spectraviewer.html?s_kwcid=AL!3652!3!35962835711!e!!g!!spectraviewer&ef_id=VJQ9sgAABEwXnHA7:20150210150532:s

Parmi les formes familiales de maladie de Parkinson, certaines sont liées à une mutation du gène de la dardarine (LRKK2) : une mutation du gène LRRK2 est même la cause héréditaire la plus courante de la maladie de Parkinson. Les neurones ont des besoins énergétiques importants, les mitochondries sont déficientes, le système nerveux peut être affecté. Or, les patients qui possèdent la mutation LRRK2, mais aussi d’autres malades touchés par la maladie de Parkinson, présentent des problèmes mitochondriaux.

Dans une étude publiée dans Neurology, des chercheurs des universités de Sheffield et d’York (Royaume-Uni) ont testé un médicament, l’AUDC, ou acide ursodésoxycholique, dans un modèle animal de Parkinson. L'AUDC est un acide biliaire présent dans la bile humaine, mais aussi en grande quantité dans celle de l’ours brun, d’où son nom ; il est utilisé pour traiter des maladies cholestatiques du foie (cirrhose biliaire). Dans une étude datant de 2013, l'AUDC avait été identifié parmi 2.000 molécules comme efficace pour restaurer la fonction mitochondriale.

Les chercheurs ont travaillé sur un modèle de mouche portant la même mutation que certains patients souffrant de Parkinson.
Les chercheurs ont travaillé sur un modèle de mouche portant la même mutation que certains patients souffrant de Parkinson.
!L’AUDC bénéfique pour les mitochondries.
Les chercheurs ont testé l’AUDC sur le fonctionnement neuronal in vivo en utilisant la mouche Drosophila melanogaster. Chez la drosophile, les problèmes induits par la mutation LRKK2 sur les neurones dopaminergiques peuvent être suivis par la perte de la fonction visuelle. Les chercheurs ont ainsi montré que les mouches mutées pour LRKK2 conservaient leur réponse visuelle lorsqu’elles étaient nourries avec l’AUDC, comme l’explique Chris Elliott : « Le fait de nourrir les mouches avec de l’AUDC partiellement au cours de leur vie diminue la vitesse à laquelle le cerveau de la mouche dégénère ». La signalisation dopaminergique était donc sauvée par l’AUDC.

En plus d’empêcher la perte de vision, la molécule améliorait la fonction mitochondriale chez ces mouches, comme le souligne Heather Mortiboys, principale auteure de l’article : « L’AUDC améliore la fonction mitochondriale comme cela a été démontré par l’augmentation de la consommation d’oxygène et des niveaux d’énergie cellulaire ». Ces effets bénéfiques sur la fonction mitochondriale et les neurones dopaminergiques suggèrent donc que l’AUDC représente un médicament prometteur pour de futurs essais cliniques.

! Standard Operating Procedures (SOPs) Cecal ligature and poncture ou ligature et ponction caecale comme modèle de souris en choc septique (sepsis) version en fr

(version 3) The cecal ligation and puncture (CLP) model of experimental sepsis

Objectifs de l’étude :
Le but de cette étude est d’investiguer le rôle des dysfonctions mitochondriales dans le choc septique. Le sepsis "la septicémie" (et la phase plus grave - le choc septique) reste en effet la première cause de mortalité dans les unités de soins intensifs. En plus le risque nosocomial et l'antibiorésistance restent un problème encore préoccupante. Les résultats des recherches peuvent finalement contribuer la compréhension de la pathogenèse de la septicémie, ce qui représente un problème majeur en médecine de soins intensifs. Le choc septique est un syndrome d’insuffisance circulatoire aiguë associé à une hypo-perfusion tissulaire, ayant un effet secondaire l’activation excessive et incontrôlée du système immunitaire.

La septicémie expérimentale peut être induite chez des souris en utilisant: la méthode (CLP) de ligature du cæcum et la ponction et en utilisant la méthode d’injection d’endotoxines bactériennes lipopolysaccharides (LPS) (5 mg/kg). Le modèle du CLP est une procédure le plus accepté et couramment utilisée pour la modélisation du sepsis in vivo qui provoque une septicémie microbienne qui est similaire à modèle clinique. Le caecum est saturé de bactéries, après la ponction le résultat sera une péritonite. Les bactéries peuvent également pénétrer dans le sang (bactériémie) vont provoquer le choc septique, la dysfonction de multiples organes et la mort. Il est généralement admis que CLP reflète clinique la réalité avec plus de précision que les techniques antérieures, telles que l'injection d'endotoxine (LPS) ou de bactéries. Ainsi CLP est considéré comme standard pour l'induction expérimentale. Pour comprendre la septicémie à différents niveaux, il est crucial d'avoir un modèle animal approprié, qui reproduit l'évolution clinique de la maladie. Il est urgent de promouvoir le développement de thérapies nouvelles et plus efficaces.

Au cours du sepsis, il y a 2 phases hémodynamiques qui peuvent se produire: La phase initiale (hyperdynamique) est définie comme une production massive de cytokines pro-inflammatoires et des espèces réactives de l'oxygène par les macrophages et les neutrophiles qui simule la perméabilité vasculaire (conduisant à une hypotension). La fonction cardiaque induit des changements métaboliques aboutissant à une nécrose des tissus et de défaillance d'un organe. En conséquence, la cause la plus fréquente de mortalité est lésions rénales aiguës. La deuxième phase (hypodynamique) est un processus anti-inflammatoire impliquant la présentation des antigènes de monocytes, avec une diminution de la prolifération et la fonction des lymphocytes accompagnée d’une apoptose accrue. Cet état connu comme une immunosuppression ou immunodépression qui peut augmenter fortement le risque d'infections nosocomiales et, finalement, la mort.

Les mécanismes de ces processus physiopathologiques ne sont pas bien caractérisés. Parce que les deux phases du sepsis peuvent causer des dommages irréversibles et irréparables, il est essentiel de déterminer le statut immunologique et physiologique du patient, et évaluer la fonction mitochondriale. C'est la principale raison pour laquelle de nombreux médicaments ont échoué. Le même médicament donné à différents stades du sepsis peut être thérapeutique ou autrement nuisibles ou n'ont pas d'effet. Il est important de caractériser les mécanismes physiopathologiques survenant au cours de la septicémie et de contrôler les conditions de modèle pour tester des agents thérapeutiques potentiels.

Cette annexe fournit donc une ventilation des nombres d’animaux prévus pour l’année à venir. La description du suivi des animaux est également reprise pour les expériences pouvant être sujettes à questionnement par le comité.

PROCÉDURES EXPÉRIMENTALES :

!Modèle CLP :

Procédure :
Les procédures peuvent commencer après une semaine d’acclimatation au laboratoire avec un libre accès à l’eau et à la nourriture. Les souris males âgé de 8-10 semaines sont d’origine commerciales (C57BL/6J) fournis par Jackson Lab (https://www.jax.org/strain/000664). Des souris femelles sont plus résistantes que les males contre la létalité induite par le sepsis. Souris âgées de 8 semaines donnent des résultats moins variables que les souris plus jeunes en termes de survie après CLP. Les animaux sont répartis en huit groupes contrôles « sham » et huit groupes « péritonites » qui sont euthanasiés aux quatre (3, 6, 12 et 24h) temps d’évaluations suivant : ShamCLP3h CLP3h & Control LPS [donc 3 heures après chirurgie, l’apparition du choc septique définie par une pression artérielle systolique inférieure à 80 mmHg pendant au moins 10 minutes]. ShamCLP6h CLP6h & [6h donc 3 heures après le début du choc septique] ShamCLP12h CLP12h & [donc après 12 heures] ShamCLP24h CLP24h & LPS24h [donc après 24 heures]. Afin que les durées d’expérimentation soient identiques entre les deux groupes, à chaque animal groupe CLP et on doit faire le contrôle "sham operated" en même temps.

➀ Pour assurer des conditions d'asepsie au cours de la procédure, porter des gants, masque et blouse chirurgicale. Préparer et utilisez de petits instruments chirurgicaux stériles approprié pour la chirurgie des souris (scalpel, ciseaux et des pinces anatomiques, iode, coton, 70% alcohol swab, etc ).

➁Anesthésie pour les animaux CLP et Sham: anesthésie générale avec le mélange anesthésique 1:1 ketamine (Ketaset) [75mg/kg] et xylazine AnaSed [15mg/kg]. Par exemple, pour une souris de 20 g, on peut injecter 30 μL de solution 1:1. Alternativement, les souris peuvent être anesthésiées par inhalation d'isoflurane (1,5 et 1%) et ventilation sous l'aide d'un vaporisateur d'anesthésique. Tout au long de l’expérimentation les animaux sont laissés sous anesthésie générale (isoflurane entre 1,5 et 1%), et sous ventilation mécanique. Les paramètres ventilatoires sont réglés de la façon suivante: volume courant 0,8 ml pour 100g de poids ; fréquence respiratoire 70 cycles/minute, pression positive expiratoire 2cm H20. Peser les animaux. Injecter par voie intrapéritonéale (ip), le mélange mentionné 1:1. Assurez-vous que l'anesthésie est suffisante, pas de flexion du membre doit être produite après pincement de l'orteil. Utilisez une pommade ophtalmique sur les yeux pour prévenir la sécheresse.

➂ Placer les 2 animaux (CLP et Sham) sur une surface de travail propre sur leur dos sur un matelas chauffant. Les pattes postérieures sont orientées vers l'enquêteur. Zone chirurgicale doit être complètement rasé, pour éviter la contamination de la plaie par le contact avec fourrure. Désinfectez la peau de l'abdomen de l'alcool (solution EtOH 70%) ou Chlorhexidine.

➃ En utilisant un fine ciseau, faire une petite (environ 1 cm) incision cutanée longitudinale environ 1 cm à gauche de la ligne médiane. Ne pas pénétrer encore dans la cavité péritonéale. Utilisez de petits ciseaux pour prolonger l'incision initiale.

➄ Identifier les muscles abdominaux et les séparer (disséquer) pour accéder dans la cavité péritonéale. En utilisant des pinces anatomiques émoussés, identifier le caecum et le déplacer en dehors de la cavité péritonéale. Veillez à ne pas endommager les vaisseaux sanguins mésentériques (ce qui pourrait entraîner une hémorragie mortelle). Pour les souris « sham », sauter les étapes ➅, ➆, ➇ et ➈.

➅ Pour atteindre une septicémie ligaturer à 60% du caecum (aprox 1cm) avec 6.0 silk suture (6-0 PROLENE, 8680G; Ethicon). Une ligature égale ou supérieure à 75% du caecum se traduit généralement par une septicémie à haute teneur, grave, tandis que la ligature égale ou inférieure à 25% va générer une septicémie légère. Veillez à ne pas ligaturer la valvule iléo-colique (ce qui pourrait bloquer la continuité intestinale). (Please note that the length of ligated cecum defined as the distance from the distal end of cecum to ligation point will determine the degree of severity. A distance of >1cm produces high grade sepsis while a distance of ≤1 cm produces mid-to-low grade sepsis).

➆ En utilisant un aiguille (21 G), perforer le caecum par une ponction d'un bout à l'autre à proximité de la ligature. Veillez à ne pas percer les vaisseaux sanguins mésentériques. On peut faire 1 ou 2 ponction (piqûres) distinctes.

➇ Retirez l'aiguille. Appuyez doucement sur le caecum ligaturé pour confirmer la perméabilité à travers les deux trous, mais seulement une petite quantité de matières fécales doit être extrudé à travers eux.

➈ Déplacez le caecum ligaturé et placez dans la cavité péritonéale.

➉ Utilisez soie sutures chirurgicales 6-0 à la fine aiguille pour fermer la musculature abdominale en suture continue et pour fermer la peau abdominale utilisant la suture en points séparés. The skin can be closed with Reflex 7mm clips (RS-9258, Roboz Surgical Instruments) or Michel wound clips (7 mm, RS-9270).

Ne pas oublier d'identifier les souris avec un marqueur permanent.

⑪ Ressusciter le souris. Injecter IP 1 mL préchauffé (37 ° C) de solution saline normale (.9%) pour remplacer la chaleur et l'hydratation perdue au cours de la procédure avec un aiguille 25G. This is a critical step. This fluid resuscitation measure will induce the hyperdynamic phase of sepsis. Placez la souris dans le chage sous une lampe chauffante de 150W jusqu'à leur réanimation. Un dispositif de réchauffement plus sûr (such comme un tampon d'eau chaude circulant / heating pad) peut être utilisé à la place d'une lampe de chaleur.

⑫ Après l'opération injecter s.c. buprénorphine (0,05 mg / kg de poids corporel) ou tramadol (20mg / kg body weight) pour obtenir une analgésie post opératoire. Be advised that these opiates can suppress respiration and locomotion and these effects can be misinterpreted as signs of sepsis. L'animal ne doit pas être laissé sans surveillance jusqu'à ce qu'elle ait repris conscience suffisante pour maintenir décubitus sternal. Un animal qui a subi un traitement chirurgical ne doit pas être retourné à la compagnie d'autres animaux jusqu'à ce que complètement rétabli.

⑬ Placez animaux retour dans leurs cages avec un accès illimité à la nourriture (hydrogel) et de l'eau. Souris seront euthanasiés quand ils deviennent moribonds (indiqué par des signes cliniques tels que le défaut de se déplacer quand on les touche ou cyanose). Vérifiez souris toutes les 4 heures pour éviter d'avoir mourir avant l'euthanasie. As control for the experimental design, sham animals would follow the laparotomy technique without ligation and puncture.

⑭ Six à 12 heures après la procédure chirurgicale les souris deviendront léthargiques et développent une fièvre, piloerection, diarrhée et un malaise; tous sont des symptômes de la septicémie. Les souris avec sepsis sévère peut décéder et présentent une diminution dramatique de la température corporelle. A ce stade souris doivent être euthanasiés pour éviter la douleur et la souffrance prolongée.

Suivi de santé et points limites :

Tous les animaux opéré pour modèle CLP ou injectés avec le LPS reçoivent un soutien pour faciliter leur nutrition et leur hydratation. Les animaux reçoivent ainsi une injection de saline sous-cutanée et de la nourriture humide est déposée au fond de la cage. Les animaux ayant reçu une injection de LPS sont examinés 3 heures après l’injection. À ce moment, les animaux identifiés comme étant à risque de détérioration de santé recevront un traitement additionnel : 1) injection de saline à 37°C s.c. 2) ajout de nourriture humidifiée et 3) réévaluation dans les 4 à 8 heures suivantes. Une détérioration de leur état à ce moment mènera à l’euthanasie de l’animal. Les éléments surveillés au moment de l’examen sont : la démarche de l’animal, sa posture et sa respiration. Tout animal montrant des signes de prostration, une perte de réflexe de redressement, une inactivité prolongée ou un non réponse aux stimuli sera sacrifié. Il est à noter que lors de nos expériences antérieures nous n’avons pas noté de modification de la température rectale chez les souris traitées. Nous n’utilisons donc pas cette mesure pour le suivi.

Moyens entrepris pour aider les animaux, suivi de santé et points limites :

Moyen entrepris pour aider les animaux: 1) mise à disposition de nourriture humidifiée à l’eau au fond de la cage à 0 et 24 heures; 2) mise à disposition de gel hydratant au fond de la cage au temps 0; 3) chauffage du fond de la cage (tapis chauffant préférablement à recirculation d’eau chaude ou électrique au réglage minimum) sur la moitié de sa surface pour favoriser la thermorégulation; 4) mise à disposition d’un nid défait (Nestlet et Envirodry) jusqu’à l’euthanasie et 5) au besoin si l’animal montre des signes de déshydratation (test de la permanence du pli cutané positif), injection de 1 mL de saline tiède s.c. en un site. De plus, seul des souris de 21 g possédant vraisemblablement un peu plus de réserves lipidiques seront utilisées de manière à mieux résister au stress.

Suivi des animaux: Les points limites pour l’euthanasie à surveiller sont: signes de prostration, perte de réflexe de redressement, inactivité prolongée ou une non réponse aux stimuli. Pour le protocole préconisant une injection de LPS de 5 mg/kg a été observé que la présence de signes cliniques significatifs à 24 h post injection avec absence d’amélioration dans les heures qui suivent (observations de midi au deuxième jour effectuées par la même personne) sont prédicateurs de mortalité, et justifient l’euthanasie immédiate. Avant cette période il s’avère difficile de juger puisque la majeure partie des animaux sont encore en état fébrile. Par ailleurs, il est à noter que lors de nos expériences antérieures nous n’avons pas noté de modification de la température rectale chez les souris traitées avec 20 mg/kg de LPS. Nous ne préconisons donc pas l’utilisation de cette mesure pour le suivi.

Registre sur place dans la salle d’hébergement: un registre indiquant l’identité des souris, la dose administrée, la date d’injection, et les observations sur l’état de santé est présent en permanence dans la salle. Le nom des personnes responsables dans le laboratoire et leurs numéros de téléphone d’urgence sont également disponibles sur ce registre.

⑮ Paramètres analysés plus courants Pour évaluer le résultat de la procédure, différents paramètres peuvent être analysés dans des organes, des extraits cellulaires ou de fluides corporels. Des échantillons peuvent être prélevés à différents points de temps après l'intervention chirurgicale comme l'activité fonctionnelle des mitochondries dans le muscle squelettique, le muscle cardiaque, du foie, du pancréas, du rein, du sang.

//Cytokines and chemokines in serum, peritoneal cavity and organ extracts.

1. Interleukin-6: Produced and released by monocytes, dendritic cells, macrophages, B cells, T cells, granulocytes, mast cells and many more cell types. It plays an important role in acute phase reaction and inflammation.

2. Tumor necrosis factor-α: Pleiotrophic cytokine that plays a central role in inflammation and apoptosis. Produced by monocytes, macrophages, neutrophils, dendritic cells and fibroblasts.

3. Interleukin-1β: Produced by monocytes, NK cells, dendritic cells, B cells and T cells. Induces fever and acute phase protein synthesis.

4. Interleukin 10: Promotes phagocytic uptake and Th2 responses but suppresses antigen presentation and Th1 proinflammatory responses.

5. Monocyte chemotactic protein-1 (also known as CCL2): Recruits monocytes, memory T cells, and dendritic cells to sites of tissue injury and infection.

6. KC (CXCL1): Produced by macrophages and endothelial cells. Mouse KC is a potent neutrophil attractant and activator.

7. RANTES: A monocyte chemoattractant. It can chemoattract unstimulated CD4+/CD45RO+ memory T cells and stimulated CD4+ and CD8+ T cells with naïve and memory phenotypes.

8. Interferon-γ: Secreted by Th1 cells, cytotoxic T cells, dendritic cells and natural killer (NK) cells. Increases antigen presentation and lytic activity in macrophages and suppresses Th2 cell activity. Promotes adhesion and binding required for leukocyte migration and promotes NK cell activity.

9. High-mobility group B-1 protein: In monocytes is a nuclear factor kappa B activator by binding to the cellular receptor for advance glycation end products (RAGE), activating the release of proinflammatory mediators in the late phase of sepsis.

10. Myeloperoxidase (MPO) determination in organs as a measure of neutrophil infiltration. MPO is a peroxidase enzyme most abundantly present in neutrophil granulocytes. It is a lysosomal protein stored in azurophilic granules of the neutrophil. MPO has a heme pigment, which causes its green color in secretions rich in neutrophils, such as pus and some forms of mucus.

11. Bacteria load in organs and blood stream, measure as the number of colony forming units per milliliter//.

⑯ Récolte de tissu. Les animaux sont sacrifiés par exsanguination. Le sang est prélevé sur EDTA par l’intermédiaire du cathéter artériel. Les organes sont ensuite prélevés en commençant par le lobe gauche du foie, le cœur, le rein droit, et on termine par muscle squelettique. Les organes sont immergé dans solution tampon respiration jusqu'à la analyse ou immédiatement congelés dans de l'azote liquide pour un traitement différé.

!Modèle LPS :

Procédure :
Les souris recevront une injection de LPS (5 mg/kg) ou le véhicule i.p. et seront replacées dans leurs cages. Les souris seront par la suite euthanasiées pour le prélèvement d’organes à 24 h post-injection. Nous avons à ce jour réalisé plusieurs expériences à l’aide de ce modèle dans notre laboratoire et avons collaboré avec le personnel de l’AJMC pour optimiser le suivi de santé et les points limites qui à ce jour fonctionne bien.

!Globalement, l’injection de LPS induit un état de malaise accompagné d’une détérioration de la fonction cardiaque à 24 heures. Cependant, après 48 heures :

Plus de 75% des souris affichent une récupération complète des paramètres hémodynamiques et leur apparence générale est redevenue similaire à celle des souris injectées avec de la saline.
Environ 15% des souris sont en voie de récupération mais sont encore indisposées.
Selon le génotype entre 1 et 5% des souris atteignent les points limites fixés.

!Suivi de santé et points limites :

Tous les animaux injectés avec le LPS reçoivent un soutien pour faciliter leur nutrition et leur hydratation. Les animaux reçoivent ainsi une injection de saline sous-cutanée et de la nourriture humide est déposée au fond de la cage. Les animaux ayant reçu une injection de LPS sont examinés 24 heures après l’injection. À ce moment, les animaux identifiés comme étant à risque de détérioration de santé recevront un traitement additionnel : 1) injection de saline à 37oC s.c. 2) ajout de nourriture humidifiée et 3) réévaluation dans les 4 à 8 heures suivantes. Une détérioration de leur état à ce moment mènera à l’euthanasie de l’animal. Les éléments surveillés au moment de l’examen sont : la démarche de l’animal, sa posture et sa respiration. Tout animal montrant des signes de prostration, une perte de réflexe de redressement, une inactivité prolongée ou un non réponse aux stimuli sera sacrifié. Il est à noter que lors de nos expériences antérieures nous n’avons pas noté de modification de la température rectale chez les souris traitées. Nous n’utilisons donc pas cette mesure pour le suivi.

Moyens entrepris pour aider les animaux, suivi de santé et points limites :

Identique à CLP

!Note 1

Les états septiques :
1. le syndrome de réponse inflammatoire
2. le sepsis non compliqué,
3. le sepsis grave : sepsis avec dysfonction aiguë d'un ou plusieurs organes « septicémie »,
4. le choc septique : sepsis grave avec hypotension artérielle réfractaire à un remplissage adéquat.

!Note 2 (Bog info)

Oxytocin Protects Against Sepsis-Induced Multiple Organ Damage: Role of Neutrophils (2005) İşeri, Sevgin Özlem et al. Journal of Surgical Research , Volume 126 , Issue 1 , 73 - 81 In sepsis - measurement of myeloperoxidase (MPO) activity [increased]- indicating neutrophil infiltration, malondialdehyde (MDA) - indicating lipid peroxidation, and glutathione (GSH) [decreased]- a key antioxidant, levels. OT treatment reversed the MDA and GSH levels back to the control levels. OT treatment abolished the elevated MPO activity. OT may have a therapeutic value in limiting
sepsis-associated multiple organ damage. Mecanism - The protective actions of OT may be associated with decreased levels of circulating proinflammatory cytokines and decreased neutrophil infiltration to the site of injury, OT inhibits LPS-stimulated pro-inflammatory cytokine secretion from macrophages and endothelial cells.

Procedure of "Cecal ligation puncture" model of sepsis at Inoue's Labo in School of Medicine in Tokai University.
https://www.youtube.com/watch?v=YvT_n8qLans

animation
https://www.youtube.com/watch?v=giwxnHgZ0Ig

Update on Sepsis and septic shock
https://www.youtube.com/watch?v=44teNfxuACo
https://www.youtube.com/watch?v=rSIoG_QuMmg
https://www.youtube.com/watch?v=6Tl3NpoMoV0

best practice
https://www.youtube.com/watch?v=MbCh5_gcqqU

nod
https://www.youtube.com/watch?v=VBQ2t7ubcLc
https://www.youtube.com/watch?v=xJTgOsLcLZM
https://www.youtube.com/watch?v=CFor4CkE7W4
https://www.youtube.com/watch?v=iYts9c6Jrx8
https://www.youtube.com/watch?v=SBgYXMjjYaM
https://www.youtube.com/watch?v=n9LzgGVxEZY
https://www.youtube.com/watch?v=NUCkUh0qMFg
https://www.youtube.com/watch?v=j0lz4YzSNAw

noduri
http://www.animatedknots.com/surgicalinstrument/index.php?Categ=surgical&LogoImage=LogoGrog.png&Website=www.animatedknots.com#ScrollPoint

https://www.youtube.com/watch?v=TFwFMav_cpE

marti 04 10 2016

!Olimpus  IMMOIL-F30CC 
imersion oil 
ne=1,518
ve=41 
23C exp 07/2017
sylicon oil
ne=1,405
ve=52





http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3094023/?report=printable
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3590112/
https://www.google.ca/url?sa=t&rct=j&q=&esrc=s&source=web&cd=7&ved=0ahUKEwj-yvD-x9PNAhWKFx4KHdomCyIQFghPMAY&url=http%3A%2F%2Fbenthamopen.com%2Fcontents%2Fpdf%2FTOCBMJ%2FTOCBMJ-2-65.pdf&usg=AFQjCNHiv_lMZDT_6QflUaoZG1gLMniQuA&cad=rja
http://onlinelibrary.wiley.com/doi/10.1002/cyto.10080/full
http://www.nature.com/cdd/journal/v19/n7/full/cdd2011195a.html


In ''conventional widefield'' optical microscopy the specimen is bathed in the light used to excite fluorophores. 
[>img[http://www.andor.com/Portals/0/spinning_disc_confocal1.jpg]]
The fluorescence emitted by the specimen outside the focal plane of the objective interferes with the resolution of in focus features. As the sample increases in thickness, the ability to capture fine detail above out-of-focus signal becomes increasingly challenging. The confocal principle rejects out-of-focus light through the use of a pinhole, with the added benefit of an improvement in lateral and axial resolution. It is these benefits that make confocal microscopy so popular and why you find one in most core imaging facilities. As can be seen in Figure 
[>img[http://www.andor.com/Portals/0/spinning_disc_confocal2.jpg]]
, only light (denoted by green) from the right plane passes through the pinhole. Light from the plane above the imaged plane (denoted in red) is focussed above the pinhole so most of the light fails to pass through the pinhole. Conversely light from the plane below the imaged plane (denoted in yellow) focuses before the pinhole and fails to pass through the pinhole. Therefore only light from one plane is in focus to pass through the pinhole or as the name suggest 'confocal'. A similar principal applies to a pinhole camera which uses a pinhole to obtain crisp images without a lens.

Confocal microscopy is now a routinely used optical technique across a wide range of biological sciences, from plant science to mammalian models. Its use is popular because it has several benefits over conventional widefield microscopy, namely in its ability to remove out-of-focus signal, capture information from a reduced depth of focus, image discreet optical sections in thick samples and so create high contrast 3D image sets.
The most common confocal technology is that of ''confocal laser scanning microscopy (CLSM)''. In this format the sample is illuminated by a ''single point of light from a laser'' (Figure 1b). The laser beam is scanned point by point in a raster pattern and signal is detected sequentially from each point by a ''photomultiplier tube'' until an entire image is created. With CLSM, there is a trade-off between image resolution and speed. If the array consists of a 512x512 pixel array and each point is illuminated for 1 microsecond, then each scan will take about 262 milliseconds. The signal from each point must be acquired in that 1 µs and there is time 'skew' of 0.26 second between the first and last points in the scan. To compensate for the brief illumination of each pixel, an intense laser beam is required, and if the specimen is dynamic the time skew can lead to errors in observation. 
''Spinning disk confocal laser microscopy (SDCLM)'' overcomes this problem by exploiting the multiplex principle. This Fig illustrates how the sample is illuminated, and so light detected, at multiple points simultaneously and deteced with a CCD camera. This was originally proven by Felgett in spectroscopy and shows that using parallel detection delivers enhanced sensitivity. A publication by Wang provides a quantitative comparison of point and disk scanning systems for imaging live-cell specimens. Unlike a conventional laser-scanning microscope, where a narrow laser beam sequentially scans the sample, in SDCLM an expanded beam illuminates an array of microlenses arranged on a (collector) disk. Each microlens has an associated pinhole laterally co-aligned on a second (pinhole) disk and axially positioned at the focal plane of the microlenses. The disks are fixed to a common shaft that is driven at high speed by an electric motor. When the disks spin, and the scanner is coupled to a microscope with the pinhole disk located in its primary image plane, an array of focused laser beams scan across the specimen. Yokogawa realised the benefit of this approach and created their CSU spinning disk confocal unit which is now widely used for confocal live cell imaging.The pinholes (and microlenses) are arranged in a pattern, which scans a field of view defined by the array aperture size and the microscope objective magnification. The scanning laser beams excite fluorescent labels in the specimen. Fluorescence emission will be most intense where this array is focused - the focal plane. Some fraction of this light will return along the excitation path where it will be preferentially selected by the same 'confocal' pinholes. A dichroic mirror, which reflects emission wavelengths, is located between the two disks. This separates the laser emission from any excitation light reflected or scattered from the microscope optics. The geometry of the emission path results in a confocal fluorescence signal with extremely low background noise.
[>img[http://www.andor.com/Portals/0/spinning_disc_confocal1.jpg]]


! Image Formation

In a point-scanning LSM, the single-plane image is created by a point illumination source imaged to a diffraction-limited spot at the sample, which is then imaged to a point detector. Two-dimensional en face images are created by scanning the diffraction-limited spot across the specimen, point by point, to form a line, then line by line in a raster fashion.

The illuminated volume emits a signal which is imaged to a single-element detector. The most common single-element detector used is a photomultiplier tube (PMT), although in certain cases, avalanche photodiodes (APDs) can be used. CCD cameras are not typically used in point-scanning microscopes, though are the detector of choice in multifocal (i.e. spinning disk confocal) applications.

The signal from the detector is then passed to a computer which constructs a two-dimensional image as an array of intensities for each spot scanned across the sample. Because no true image is formed, LSM is referred to as a digital imaging technique. A clear advantage of single-point scanning and single-point detection is that the displayed image resolution, optical resolution, and scan field can be set to match a particular experimental requirement and are not predefined by the imaging optics of the system.

Confocal Optical Path Confocal LSM

In confocal LSM, point illumination, typically from a single mode, optical-fiber-coupled CW laser, is the critical feature that allows optical sectioning. The light emitted from the core of the single mode optical fiber is collimated and used as the illumination beam for scanning. The scan system is then imaged to the back aperture of the objective lens which focuses the scanned beam to a diffraction-limited spot on the sample. The signal generated by the focused illumination beam is collected back through the objective and passed through the scan system. After the scan system, the signal is separated from the illumination beam by a dichroic mirror and brought to a focus. The confocal pinhole is located at this focus. In this configuration, signals that are generated above or below the focal plane are blocked from passing through the pinhole, creating the optically sectioned image (Figure 2, above). The detector is placed after the confocal pinhole, as illustrated in Figure 4 to the right. It can be inferred that the size of the pinhole has direct consequences on the imaging capabilities (particularly, contrast, resolution and optical section thickness) of the confocal microscope. The lateral resolution of a confocal microscope is determined by the ability of the system to create a diffraction-limited spot at the sample. Forming a diffraction-limited spot depends on the quality of the laser beam as well as that of the scan optics and objective lens.

[>img[https://www.thorlabs.com/images/TabImages/Confocal_Microscope_A1-593.jpg]]

confocal laser scanning microscopy (CLSM)
Spinning disk confocal laser microscopy (SDCLM)


The FLUOVIEW FV3000 Series from olympus
Confocal Laser Scanning Microscope FV3000

http://www.olympus-lifescience.com/en/laser-scanning/fv3000/?apd=1&adid=all&acid=fv3000gle&gclid=CN2t6bj1z80CFQ5bhgodm9wAcg

http://www.andor.com/learning-academy/4d-microscopy-in-biology-may-2013

https://www.youtube.com/watch?v=JQy94K94nL0

https://www.youtube.com/watch?v=MJ2FOFqr7hw

https://www.youtube.com/watch?v=w2Qo__sppcI

https://www.youtube.com/watch?v=iPrZ84kHH2U

https://www.youtube.com/watch?v=egmJIalDR48

http://bme.pku.edu.cn/~xipeng/tools/build_confocal_1_4/index.htm

! Multiphoton LSM

In multiphoton LSM, a short pulsed free-space laser supplies the collimated illumination beam that passes through the scanning system and is focused by the objective. The very low probability of a multiphoton absorption event occurring, due to the I2 dependence of the signal on incident power, ensures signal is confined to the focal plane of the objective lens. Therefore, very little signal is generated from the regions above and below the focal plane. This effective elimination of out-of-focus signal provides inherent optical sectioning capabilities (Figure 2, above) without the need for a confocal pinhole. As a result of this configuration, the collected signal does not have to go back through the scanning system, allowing the detector to be placed as close to the objective as possible to maximize collection efficiency, as illustrated in Figure 5 to the right. A detector that collects signal before it travels back through the scan system is referred to as a non-descanned detector.

[>img[https://www.thorlabs.com/images/TabImages/Multiphoton_Microscope_A1-593.jpg]]

he goal of any microscope is to generate high-contrast, high-resolution images. In much the same way that a telescope allows scientists to discern the finest details of the universe, a microscope allows us to observe biological functioning at the nanometer scale. Modern laser scanning microscopes are capable of generating multidimensional data (X, Y, Z, τ, λ), leading to a plethora of high-resolution imaging capabilities that further the understanding of underlying biological processes.

In conventional widefield microscopy (Figure 1, below left), high-quality images can only be obtained when using thin specimens (on the order of one to two cell layers thick). However, many applications require imaging of thick samples, where volume datasets or selection of data from within a specific focal plane is desired. Conventional widefield microscopes are unable to address these needs.

LSM, in particular confocal LSM and multiphoton LSM, allows for the visualization of thin planes from within a thick bulk sample, a technique known as optical sectioning. In confocal LSM, signals generated by the sample outside of the optical focus are physically blocked by an aperture, preventing their detection. Multiphoton LSM, as we will discuss later, does not generate any appreciable signal outside of the focal plane. By combining optical sectioning with incremented changes in focus (Figure 2, below right), laser scanning microscopy techniques can recreate 3D representations of thick specimen.

[>img[https://www.thorlabs.com/images/TabImages/Wide_field_Microscopy_A1-644.jpg]]


[img[https://www.thorlabs.com/images/TabImages/confocal_microscopy_A1-572.jpg]]


[img[https://www.thorlabs.com/images/TabImages/Multiphoton_Microscopy_A2-572.jpg]]


[img[https://www.thorlabs.com/images/TabImages/Laser_Scanning_Microsopy_A3-710.jpg]]


! Spectroscopy in Microscopy

Spectral imaging merges the disciplines of microscopy and spectroscopy into a combination that enables determining the both the intensity and spectral properties of a specimen for each pixel in an image. Recent technological advances in imaging have produced highly sophisticated digital cameras and point-source detectors (such as photomultipliers) capable of creating information-rich images with high spatial resolution and dynamic range from a variety of specimens under numerous contrast-enhancing techniques, including brightfield, phase contrast, and fluorescence microscopy. These detector advances also extend the ability to create suitable images of faintly fluorescent specimens whose low signal levels were previously lost in the noise floor. In contrast, spectroscopy is a well-established field that involves gathering and analyzing a quantitative collection of light intensity values over a defined wavelength band, which can encompass any portion of the electromagnetic radiation spectrum. In microscopy, spectroscopic imaging techniques are generally limited to wavelengths ranging from the near-ultraviolet to the near-infrared.

Atoms and molecules have an intrinsic energy-band structure that can be examined with spectroscopy. Briefly, the process of light absorption excites an electron from the ground state to a higher energy level from which it can relax through several pathways, including decay back to the ground state with the associated emission of lower-energy light (fluorescence). Energy levels are intrinsic properties of each molecule and thus provide a precise spectroscopic fingerprint for that molecule. In fluorescence, specific molecules (termed fluorochromes or fluorophores) are attached to the structure of interest and used as light sources for imaging. An important concept to note in fluorescence microscopy is that there is often a direct linear relationship between fluorophore concentration and the amount of fluorescence intensity, especially at low concentrations. This situation enables the quantitative analysis of fluorescence in cases where the necessary signal can be successfully segregated from saturation, photoconversion, and photobleaching effects that often tend to disrupt the expected linearity.

Unlike the case with fluorescence, in other forms of optical microscopy including brightfield, enhanced contrast transmitted modes (phase contrast; Hoffman modulation contrast, HMC; differential interference contrast, DIC), reflected light, and scattering, the specimen is illuminated with an external broadband light source and the detector measures that same light after it interacts with the specimen. In order to analyze spectral data, the spectrum emitted by the light source must be taken into account and the measured signal is usually not directly proportional to the concentration of the chromophores or absorbing species in the specimen unless it is first converted to optical density units in accordance with the Beer-Lambert law. Nevertheless, most cells and tissues stained with absorbing dyes and imaged using brightfield techniques are prime candidates for spectral imaging analysis.

In order to measure the spectrum of an absorbing dye, fluorophore, or complete specimen with multiple labels, the transmitted or emitted light is first dispersed into its component wavelengths and the intensity at each wavelength or a very narrow band of wavelengths is measured. The spectral resolution is dependent upon the bandwidth of each measurement and increases as the bandwidth of the sampled channels decreses. A variety of different techniques can be used to disperse light, and most of them have been applied (at least in prototype instruments) to microscopy scenarios. Among the most important characteristics to consider when measuring spectra are resolution, wavelength range, and dynamic range. Spectral resolution is determined by the closest wavelengths that can be distinguished from one another and is a critical parameter for highly accurate spectral imaging measurements. Spectral range refers to the total number of wavelengths (in effect, the bandwidth) in a particular measurement. Finally, the detection limit and dynamic range define the minimum level of signal necessary for conducting measurements and number of distinguishable levels in a particular measurement, respectively. All of these values can vary for each fluorophore or absorbing species as a function of the spectral profile.

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]]
32-Channel Spectral Image Lambda Stack Acquisition

First plot in R

++++++++++++++++++++++++++++++++
head (DNase)

##   Run   conc density
## 1   1 0.0488   0.017
## 2   1 0.0488   0.018
## 3   1 0.1953   0.121
## 4   1 0.1953   0.124
## 5   1 0.3906   0.206
## 6   1 0.3906   0.215
plot (DNase$conc,  DNase$density,
ylab = attr(DNase, "labels") $y,
xlab = paste(attr(DNase, "labels")$x, attr (DNase, "units") $x),
pch = 3, col = "blue")

+++++++++++++++++++++++++++++++
!R by example
http://www.mayin.org/ajayshah/KB/R/

http://www.skilledup.com/articles/18-free-tutorials-learning-r-programming

[img[http://cdn.skilledup.com/wp-content/uploads/2015/01/Quick-R-Screenshot.jpg]] 

http://www.r-graph-gallery.com/portfolio/animation/

[img[http://www.r-graph-gallery.com/wp-content/uploads/2015/09/3_lecube1.gif]] 
http://www.r-graph-gallery.com/

+++++++++++++++++++++++++++++++

How to delete the previously saved workspace restored

If you start R, type : 

unlink(".RData")

This deletes the workspace file. 

+++++++++++++++++++++++++++++++

www.rstudio.com/wp-content/uploads/2015/12/ggplot2-cheatsheet-2.0.pdf

+++++++++++++++++++++++++++++++

@@Please do not modify this tiddler; it was created automatically upon space creation.@@

Cell Line U-937 ATCC #Cat.No.: CRL-1593.2 human monocytes (malignant cells male 37y histiocytic lymphoma 1974) - Biosafety Level 1. (original frozen 25/11/2002 UdM_P7->P8)(175$). Frozen cells it shuld be stored in liquid nitrogen vapor phase and not at -70°C. 
Storage at -70°C will result in loss of viability. 

Cryoprotectant medium (MC medium with 5% (v/v) DMSO (or 1 mL DMSO in 4 mL FBS +5 mL MC). Incubate the flask in an upright postion at 37°C. 

Cetrifuge 1200 rpm 10 minutes (125 xg). (Thermo electron corporation Centra CL2 centrifuge RPM×1000: 1.2 for 5 min).
Resuspend the cell pellet (bottom MC) in 10mL of MC medium 10%FBS1%P/S [(ATCC RPMI -164 #Cat.No: 30-2001 with High glucose L-glut HEPES +50 mL FBS, +5 mL Pen/Strep].

From this cell suspension remove 10 µL sample for cell count and viability and mix with 10 µL of Blue. Cont and adjust the cell density of suspension to 0.3 M/mL in 25mL MC Falcon Flask #Cat.No.: 353110 

Do not allow the cell concentration to exceed 2 × 10^^6^^ cells/mL (2 Mil.cells). Perform cell count, and bring to appropiate volume to allow a seeding density of 0,150 Milion cells/well (150k cells/well). 

! Counting Chamber Hausser Scientific Company (Fuchs-Rosenthal )
#Cat.No.: 3720 Fuchs Rosenthal Ultraplane 1/16 sq mm^^2^^
2/10 mm deep  Blue print,  Usage: Cell Counts in Cerebro-Spinal Fluid,  Cell Depth: 0.2 mm Volume: 0.2 microliters Ruling Pattern: Fuchs-Rosenthal (Dark-Line)
Version 1 
Calculating Formula if 16 one square millimeter areas were counted:
Number of cells counted /3 = Cells per CMM
***
Version 2 
For Hausser Fuchs-Rosenthal 1/16 sq 
Mix 10 µL cells + 10 µL (0.4%) Trypan Blue stain Invitrogen Gibco #Cat.No.: 15250-061 (storage 15-30°C) 
mix and add 10 µL Blue + 10 µL cells in counting chamber 20 µL.
count 16 squares (1 mm ^^2^^)
 ≡≡≡≡≡≡≡≡≡≡
║ ☒ ☒ ☒ ☒ ║ = 24
║ ☒ ☒ ☒ ☒ ║ = 29 
║ ☒ ☒ ☒ ☒ ║ = 26
║ ☒ ☒ ☒ ☒ ║ = 25
 ≡≡≡≡≡≡≡≡≡≡
= 104 cells in 16 ☒ 
104 × dilution 2 × 5000 = 1 040 000 cells/ mL = 1.04 M 
1.04 M × 5 mL total = 5.2 Mil. cells total
***
! Bright-Line™ Hemacytometer 
Sigma #Cat.No.: Z359629 
General description: The Bright-Line™ Hemacytometer is molded from a single piece of thermal and shock-resistant glass. An H-shaped moat forms two counting areas, or plateaus. A "V" slash at the loading side of each plateau facilitates charing and reduces the possibility of overflow into the moat. Each plateau features enhanced Neubauer rulings.
The ruled surface is 0.1mm below the cover glass, limiting the volume of blood or fluid over a square mm at 0.1cu.mm and over each of 400 squares (within the central square mm) to 0.00025 cu. mm. Contact of the flat, polished cover glass surfaces with cover glass supports produces an exact volume of fluid over the counting area. The difference in surface tension characteristics between the metallic surface on the chamber and the polished cover glass assures smooth capillarity for precise loading and more even cell distribution. Replacement cover slips sold separately: Z375357

For Bright-Line™ Hemacytometer
Mix 10 µL cells + 10 µL (0.4%) Trypan Blue stain Invitrogen Gibco #Cat.No.: 15250-061 (storage 15-30°C) 
//Count 5 squares (*5) = 325 cells = 3,25 Mil. cells/mL//
mix and add 10 µL Blue + 10 µL cells in counting chamber 
count 5 squares (25) big 25 of 25
 ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡
║☒ | ☒ | ☒ | ☒ | ☒║ = 52
║⦊ | ⦋ | ⦌ | ⦍ | ⦌║
║⦊ | ⦋ | ⦌ | ⦍ | ⦌║
║⦊ | ⦋ | ⦌ | ⦍ | ⦌║
║⦊ | ⦋ | ⦌ | ⦍ | ⦌║
 ≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡≡
= 52 cells in 5 ☒ = 0.52 M / mL
 dilution 1/2 = × 2 = 1.04 M cells / mL 
1.04 M × 5 mL total = 5.2 Mil. cells total
***
!Convert to OD600

    The alternative way to measure cellular density is by using a spectrophotometer, which gives a reading in units of OD600.  An OD600 of 1 = 1 × 10^^7^^ cells / mL.

! Important conversions 
(cm^^3^^ = mL) 
(mm^^3^^= µL) 
(50 µL ↔ 1 Drop)
(250000 µL ↔ Cup)

<svg xmlns="http://www.w3.org/2000/svg" xmlns:xl="http://www.w3.org/1999/xlink" version="1.1" viewBox="301 225 48 52"
width="30" height="30">
<g stroke="none" stroke-opacity="1" stroke-dasharray="none" fill="none" fill-opacity="1">
	<g>
		<path d="M 333.00003 234 L 306 258.75003 L 301.5 270 L 312.75 265.50003 L 339.75 240.74998 Z M 337.5 229.50002 
		L 335.24988 231.75008 L 341.99997 238.50003 L 344.24997 236.24995 Z M 342 225.00003 L 339.74988 227.25009 
		L 346.5 234.00005 L 348.75 231.75003 Z M 301.5 273.9719 C 301.5 273.9719 309.59888 277.99927 317.70013 273.97183 
		C 325.80066 269.94437 341.99997 276.65686 341.99997 276.65686 L 341.99997 273.97195 
		C 341.99997 273.97195 325.80014 267.2594 317.70013 271.28687 C 309.6 275.31451 301.5 271.28683 301.5 271.28683 Z" 
		fill="#101010" class="glyph"/>
	</g>
</g>
</svg>

http://www.graphpad.com/quickcalcs/Molarityform.cfm

http://www.physiologyweb.com/calculators/dilution_calculator_molarity_percent.html

http://www.physiologyweb.com/calculators/dilution_calculator_mass_per_volume.html

http://www.physiologyweb.com/calculators/mass_per_volume_solution_concentration_calculator.html

http://www.endmemo.com/sconvert/g_lper.php

http://www.metric-conversions.org/weight/grams-to-milligrams.htm
================================================

Nota pentru tastele 1E-3 →10^^-3^^ 
10^^-3^^  → 0. 0 0 1
10^^-7^^  → 0. 0 0 0 0 0 0 1
E is read "Exponent" or "Ten to the power of" or "Ten exponent"
5E1 → 5 × 10¹ →  50 

SETTING THE NUMBER OF DECIMAL DIGITS
Numbers of decimal digits of calculation results can be specified by pressing [C-CE] twice, then press [C-CE]and [M+] simultaneously.
The decimal digit assignment will appear as “F” (for “floating point”), “2” or “0” on the LCD. (The default is “F”.)
Press and hold [C-CE] and [M+] until the symbol changes.
AC = all clear = sterge tot
CE = clear entry = sterge ultima cifra
C = clear - sterge afisajul
M r M c = memory recall / clear = recupereaza din memorie / sterge din memorie
M+ = adauga in memorie 
M- = sterge memorie
ANS = afiseaza ultimul rapuns
================================================
0.001 pM = 1 fM =1x 10^^-15^^M =1/ 100 000 000 000 000
0.010 pM = 10 fM = ^^-14^^M
0.100 pM = 100 fM = ^^-13^^M
1.000 pM = 1000 fM = ^^-12^^M

0.001 nM = 1 pM =1x 10^^-12^^M= 1/ 100 000 000 000
0.010 nM = 10 pM = ^^-11^^M
0.100 nM = 100 pM = ^^-10^^M 
1.000 nM = 1000 pM = ^^-9^^M

0.001 µM = 1 nM =1x 10^^-9^^M =1/100 000 000
0.010 µM = 10 nM = ^^-8^^M 
0.100 µM = 100 nM = ^^-7^^M
1.000 µM = 1000 nM = ^^-6^^M

0.001 mM = 1 µM =1x 10^^-6^^M = 1/100 000 
0.010 mM = 10 µM = ^^-5^^M
0.100 mM = 100 µM = ^^-4^^M
1.000 mM = 1000 µM = ^^-3^^M

0.001 M = 1 mM =1x 10^^-3^^M = 1/1000
0.010 M = 10 mM = ^^-2^^M
0.100 M = 100 mM = ^^-1^^M
1.000 M = 1000 mM = ^^0^^M
================================================
EXEMPLU de baza: 
pe eticheta scrie:
{OT oxytocin M.W 1006.41} 
{H-Cys-Tyr-Ile-Glin-Asn-Cys-Pro-Leu-Gly-NH2} 
{C43H66N12O12S2} 
{COD 8152 lot 036648} 
{1mg Peninsula Laboratories Inc...adresa} 
{1 milligram}

Asadar am 1.00 mg + 1000µL H2O si vortex 
1mg/mL = 1000µg/mL = 1000/1006.41 =0.993 = 1 → 1mM 

1000 µM = 1x 10-3M ou 1mMol/L = 1mM = 0.001 M = 1/1000
================================================

!The samples will be distributed in this way:

A | ➊ ➊ ➊ ➋ ➋ ➋ ➌ ➌ ➌ 
B | ➊ ➊ ➊ ➋ ➋ ➋ ➌ ➌ ➌    
C | ➊ ➊ ➊ ➋ ➋ ➋ ➌ ➌ ➌ 
D | ➊ ➊ ➊ ➋ ➋ ➋ ➌ ➌ ➌ 
E | ➊ ➊ ➊ ➋ ➋ ➋ ➌ ➌ ➌   
F | ➊ ➊ ➊ ➋ ➋ ➋ ➌ ➌ ➌   

➊ M 0 
➋ M 1 
➌ M 2 

ⓦ = wash


A | + TMRE + H ⓦ SCAN^^(T1)^^ and SCAN^^kinetics^^
B | + TMRE + H ⓦ SCAN^^(T1)^^ + Oly^^(2)^^ SCAN^^kinetics^^
C | + TMRE + H + Oly^^(1)^^ ⓦ SCAN^^(T1)^^ + Oly^^(2)^^ SCAN^^kinetics^^
D | + CsA + TMRE + H ⓦ SCAN^^(T1)^^ and SCAN^^kinetics^^
E | + CsA + TMRE + H ⓦ SCAN^^(T1)^^ + Oly^^(2)^^ SCAN^^kinetics^^
F | + CsA + TMRE + H + Oly^^(1)^^ ⓦ SCAN^^(T1)^^+ Oly^^(2)^^ SCAN^^kinetics^^

! Test ZERO
➊ M 0 

A | ➊ ➊ 
B | ➊ ➊     
C | ➊ ➊  
D | ➊  

1 | + TMRE + Hoechst, Wash and SCAN ^^kinetics^^
2 | + TMRE + Hoechst, Wash and + Oly ^^[5 µM]^^ SCAN ^^kinetics^^
3 | + TMRE + Hoechst + Oly ^^[5 µM]^^, Wash and + Oly  ^^[5 µM]^^ SCAN ^^kinetics^^
4 | + CsA ^^[10 µM]^^ + TMRE + Hoechst, Wash and SCAN ^^kinetics^^
5 | + CsA ^^[10 µM]^^ + TMRE + Hoechst, Wash and + Oly  ^^[5 µM]^^ SCAN ^^kinetics^^
6 | + CsA ^^[10 µM]^^ + TMRE + Hoechst + Oly  ^^[5 µM]^^, Wash and + Oly  ^^[5 µM]^^ SCAN ^^kinetics^^

|cssClass|k
|!SAMPLE|! TMRE|! Hoechst|!CsA|!Oly|!Wash|!CsA|!Oly|h
| 1 | ☒ | ☒ | ☐ | ☐ | ◙ | ☐ | ☐ |
| 2 | ☒ | ☒ | ☐ | ☒ | ◙ | ☐ | ☐ |
| 3 | ☒ | ☒ | ☐ | ☒ | ◙ | ☐ | ☒ |
| 4 | ☒ | ☒ | ☒ | ☐ | ◙ | ☒ | ☐ |
| 5 | ☒ | ☒ | ☒ | ☒ | ◙ | ☒ | ☐ |
| 6 | ☒ | ☒ | ☒ | ☒ | ◙ | ☒ | ☒ |

!Prepare ''Tube 1'' (10 mL) {TMRE~Hoechst}:

TMRE 
(SS) [1 mM] Stock Solution: 2.5748 miligrams dilute in 5 mL ethanol 100% (store at -20°C in the dark)
(Si) [100 µM] Intermediate Solution: 5 µL stock dilute in 50 µL ethanol 100%
(SF) [200 nM] Final Solution: 20 µL Intermediate Solution dilute in 1+9 mL Buffer-BSA.
+
(H) Hoechst 33342 
(SS) [1 µg/µL] Hoechst Sol.Stock 
(SF) [5 µg/mL] Final Solution: 50 µL stock in 1+9 mL Buffer-BSA.

!Prepare ''Tube 2'' (5 mL) {CsA~TMRE~Hoechst}:

CsA (Cyclosporin A) 
Tocris Bioscience Cat. No. 1101;  M.Wt: 1202.63
(SS) [10 mM] Stock Solution: 0.0120 g disolve in 1000 µL DMSO.
(SF) [10 µM] Final Solution: 5 µL of (CsA SS) in 5 mL {TMRE~Hoechst}.

!Prepare ''Tube 3'' (5 mL)  {Omy}:

Omy (Oligomycin):
(SS) [100 mM] Stock Solution: 0.00505 g disolve in 638.4 µL ethanol 100% and
alicote in 50 µL small eppendorf [store at -20°C].
(Si) [1 mM] Intermediate Solution: 5 µL stock dilute in 500 µL ethanol 100%
(SF) [5 µM] Final Solution: 25 µL in 5 mL mix Buffer-BSA. 


!Prepare ''Tube 4'' {CsA}:

CsA (Cyclosporin A) 
Tocris Bioscience Cat. No. 1101;  M.Wt: 1202.63
(SS) [10 mM] Stock Solution: 0.0120 g disolve in 1000 µL DMSO.
(SF) [10 µM] Final Solution: 5 µL of (CsA SS) in 5 mL mix.

!Prepare ''Tube 5'' {CsA+Omy}:

 [5 µM]  25 µL of (Omy Si) in 5 mL mix Buffer-BSA.
 [10 µM] 5 µL of (CsA SS) in 5 mL mix.

!Procedure:

''(1)'' aspire MC and add sol.

A |  TMRE~Hoechst (Tube 1)
B |  TMRE~Hoechst (Tube 1)
C |  TMRE~Hoechst + CsA (Tube 2)
D |  TMRE~Hoechst + CsA (Tube 2)

''(2)'' incubate both 20 min at 37°C in dark.

|cssClass|k
|!Chronometer|! T|h
|20:00 |☒ ☐ |

''(3)'' wash once 

SCAN^^(T1)^^ Read the plate on a fluorescence plate reader with settings suitable for: Select: ''fluoresecence'', wells number ''A1-D9'', ''bottom'' and specific  ''gain'' (manual)// Plate definition file: COS96fw.pdf or Costar  96-well  flat bottom  black (COS96fb.pdf) Excitation bandwidth: 12.0 nm Number of flashes: 10 Lag time: 10 µs Integration time: 500 µs //Save excell file as Scan ^^T^^ for TMRE, Scan^^H^^ for H.

''(4)'' Scan ^^T1^^ TMRE 
 (Ex: 549 nm, Em: 575 nm), [Gain: 129] "for  lines A-D"


''(5)'' Scan ^^H1^^ Hoechst  
(Ex: 354nm, Em: 442nm) [Gain: 100] "for lines A-D"

''(6)'' 

add sol. Buffer to the line ''A''.
and
add sol.{Omy} from the  Tube ^^3^^ again to the line ''B''.
and
add sol.{CsA} from the  Tube ^^4^^ again to the line ''C''.
and
add sol.{Omy + CsA} from the  Tube ^^5^^ again to the line ''D''.

A | + Buff 
B | + Omy (Tube 3)
C | + CsA (Tube 4)
D | + Omy + CsA (Tube 5)

''(7)'' Scan ^^kinetics^^ TMRE & H 
1 2 3 4 5 6 etc or 
10 20 30 60 min

FINAL 

A|➊➋➌TMRE~Hoechst
B|➊➋➌TMRE~Hoechst (+ Omy) ➋_ 
C|➊➋➌TMRE~Hoechst+CsA 
D|➊➋➌TMRE~Hoechst+CsA(+Omy) ➋

ⒶⒶⒶⒶⒶⒶⒶⒶⒶT1
ⒷⒷⒷⒷⒷⒷⒷⒷⒷT2
ⓧⓧⓧⓧⓧⓧⓧⓧⓧBff.
ⒸⒸⒸⒸⒸⒸⒸⒸⒸT3 
ⒹⒹⒹⒹⒹⒹⒹⒹⒹT4
ⒺⒺⒺⒺⒺⒺⒺⒺⒺT5

Scaduto, R.C. et al.
Measurement of mitochondrial membrane potential using fluorescent rhodamine derivatives.
We investigated the use of rhodamine 123 (R123), tetramethylrhodamine methyl ester (TMRM), and tetramethylrhodamine ethyl ester (TMRE) as fluorescent probes to monitor the membrane potential of mitochondria. These indicator dyes are lipophilic cations accumulated by mitochondria in proportion to DeltaPsi. Upon accumulation, all three dyes exhibit a red shift in both their absorption and fluorescence emission spectra. The fluorescence intensity is quenched when the dyes are accumulated by mitochondria. These properties have been used to develop a method to dynamically monitor DeltaPsi of isolated rat heart mitochondria using a ratio fluorescence approach. All three dyes bound to the inner and outer aspects of the inner mitochondrial membrane and, as a result, were accumulated by mitochondria in a greater quantity than predicted by the Nernst equation. Binding to mitochondria was temperature-dependent and the degree of binding was in the order of TMRE > R123 > TMRM. The internal and external partition coefficients for binding were determined to correct for binding in the calculation of DeltaPsi. All three dyes suppressed mitochondrial respiratory control to some extent. Inhibition of respiration was greatest with TMRE, followed by R123 and TMRM. When used at low concentrations, TMRM did not suppress respiration. The use of these dyes and ratio fluorescence techniques affords a simple method for measurement of DeltaPsi of isolated mitochondria. We also applied this approach to the isolated perfused heart to determine whether DeltaPsi could be monitored in an intact tissue. Wavelength scanning of the surface fluorescence of the heart under various conditions after accumulation of TMRM indicated that the mitochondrial matrix-induced wavelength shift of TMRM also occurs in the heart cytosol, eliminating the use of this approach in the intact heart.[1]


http://www.bio.davidson.edu/Courses/Molbio/MolStudents/spring2003/Bennett/protein1.htm

The Food and Drug Administration has given the go-ahead for clinical trials of what may be the world’s ''first anti-aging medication'' to begin in ''winter 2016''. The medication is a common diabetes drug known as ''metformin'', and experts believe it may be able to extend human lifespan well into a person's 120s.

Metformin is a common, inexpensive medication widely used to help control the sugar levels of those with type 2 diabetes. However, a 2014 study revealed an interesting ''side effect of the medication: It can increase users’ lifespan''.

“Patients treated with metformin had a small but statistically significant improvement in survival compared with the cohort of non-diabetics,” explained lead study author Craig Currie, a professor from Cardiff University’s School of Medicine in Wales. “This was true even without any clever statistical manipulation.”

Experts believe metformin works to prevent aging by ''increasing the number of oxygen molecules released into a cell, which in turn boosts an individual's robustness'', The Telegraph reported. The medication has already been proven to extend the lifespan of animals and the FDA has now allowed for a similar trial, referred to as Targeting Aging with Metformin, or TAME, to be replicated in humans. In preparation for the trial’s launch, scientists are currently raising funds and recruiting around 3,000
70- to 80-year-old participants to take part.

According to Dr. Jay Olshansky, a researcher from the University of Illinois, Chicago, who outlined the upcoming study in the National Geographic documentary, "Breakthrough: The Age of Ageing," a drug capable of slowing down aging could be the most important medical intervention in the modern era. "If we can slow aging in humans, even by just a little bit, it would be monumental," Olshansky told The Telegraph.

The trial’s ultimate goal is to create an ''anti-aging “vaccine”'' which, when taken, could slow down the aging process. However, this is not to be confused with eternal youth, although slowing down aging may be able to reduce the prevalence of many age-related conditions, such as loss of muscle tone, dementia, and loss of eyesight.

According to Professor Gordon Lithgow, an aging expert at the Buck Institute for Research on Ageing in California and one of the study’s advisors, expanding a population’s lifespan may even be more beneficial to humanity than finding a cure to cancer.

“If we were to cure all cancers, it would only raise life expectancy by around three years, because something else is coming behind the cancer, but if we could slow down the aging process you could dramatically improve how long people can live,” Lithgow told The Telegraph. (http://www.medicaldaily.com)

/***
https://raw.github.com/tiddlyweb/chrjs/master/main.js
***/
//{{{
// TiddlyWeb adaptor
// v0.14.3

/*jslint vars: true, unparam: true, nomen: true, white: true */
/*global jQuery */

var tiddlyweb = (function($) {

"use strict";

var tw = {
	routes: {
		// host is the TiddlyWeb instance's URI (including server_prefix)
		// placeholders "_type" & "name" refer to the respective bag/recipe
		root     : "{host}/",
		bags     : "{host}/bags",
		bag      : "{host}/bags/{name}",
		recipes  : "{host}/recipes",
		recipe   : "{host}/recipes/{name}",
		tiddlers : "{host}/{_type}s/{name}/tiddlers",
		tiddler  : "{host}/{_type}s/{name}/tiddlers/{title}",
		revisions: "{host}/{_type}s/{name}/tiddlers/{title}/revisions",
		revision : "{host}/{_type}s/{name}/tiddlers/{title}/revisions/{revision}",
		search   : "{host}/search?q={query}"
	}
};

var convertTimestamp, supplant;

// host (optional) is the URI of the originating TiddlyWeb instance
tw.Resource = function(type, host) {
	if(arguments.length) { // initialization
		this._type = type;
		if(host !== false) {
			this.host = host !== undefined ? host.replace(/\/$/, "") : null;
		}
	}
};
$.extend(tw.Resource.prototype, {
	// retrieves resource from server
	// callback is passed resource, status, XHR (cf. jQuery.ajax success)
	// errback is passed XHR, error, exception, resource (cf. jQuery.ajax error)
	// filters is an optional filter string (e.g. "select=tag:foo;limit=5")
	get: function(callback, errback, filters) {
		var uri = this.route();
		if(filters) {
			var separator = uri.indexOf("?") === -1 ? "?" : ";";
			uri += separator + filters;
		}
		var self = this;
		return $.ajax({
			url: uri,
			type: "GET",
			dataType: "json",
			success: function(data, status, xhr) {
				var resource = self.parse(data);
				resource.etag = xhr.getResponseHeader("Etag");
				callback(resource, status, xhr);
			},
			error: function(xhr, error, exc) {
				errback(xhr, error, exc, self);
			}
		});
	},
	// sends resource to server
	// callback is passed data, status, XHR (cf. jQuery.ajax success)
	// errback is passed XHR, error, exception, resource (cf. jQuery.ajax error)
	put: function(callback, errback) {
		var self = this;
		var options = {
			url: this.route(),
			type: "PUT",
			contentType: "application/json",
			data: JSON.stringify(this.baseData()),
			success: function(data, status, xhr) {
				callback(self, status, xhr);
			},
			error: function(xhr, error, exc) {
				errback(xhr, error, exc, self);
			}
		};
		if(this.ajaxSetup) {
			this.ajaxSetup(options);
		}
		return $.ajax(options);
	},
	// deletes resource on server
	// callback is passed data, status, XHR (cf. jQuery.ajax success)
	// errback is passed XHR, error, exception, resource (cf. jQuery.ajax error)
	"delete": function(callback, errback) {
		var self = this;
		var options = {
			url: this.route(),
			type: "DELETE",
			success: function(data, status, xhr) {
				callback(self, status, xhr);
			},
			error: function(xhr, error, exc) {
				errback(xhr, error, exc, self);
			}
		};
		if(this.ajaxSetup) {
			this.ajaxSetup(options);
		}
		return $.ajax(options);
	},
	// returns an object carrying only the essential information of the resource
	baseData: function() {
		var data = {},
			self = this;
		$.each(this.data, function(i, item) {
			var value = self[item];
			if(value !== undefined) {
				data[item] = value;
			}
		});
		return data;
	},
	// returns corresponding instance from a raw object (if applicable)
	parse: function(data) {
		return data;
	},
	// list of accepted keys in serialization
	data: [],
	// returns resource's URI
	route: function() {
		return supplant(tw.routes[this._type], this);
	}
});

var Container = function(type, name, host) {
	if(arguments.length) { // initialization
		tw.Resource.apply(this, [type, host]);
		this.name = name;
		this.desc = "";
		this.policy = new tw.Policy({});
	}
};
Container.prototype = new tw.Resource();
$.extend(Container.prototype, {
	tiddlers: function() {
		return new tw.TiddlerCollection(this);
	},
	parse: function(data) {
		var type = tw._capitalize(this._type),
			container = new tw[type](this.name, this.host);
		data.policy = new tw.Policy(data.policy);
		return $.extend(container, data);
	},
	data: ["desc", "policy"]
});

// attribs is an object whose members are merged into the instance (e.g. query)
tw.Collection = function(type, host, attribs) {
	if(arguments.length) { // initialization
		tw.Resource.apply(this, [type, host]);
		$.extend(this, attribs);
	}
};
tw.Collection.prototype = new tw.Resource();

tw.TiddlerCollection = function(container, tiddler) {
	if(arguments.length) { // initialization
		tw.Collection.apply(this, [tiddler ? "revisions" : "tiddlers"]);
		this.container = container || null;
		this.tiddler = tiddler || null;
	}
};
tw.TiddlerCollection.prototype = new tw.Collection();
$.extend(tw.TiddlerCollection.prototype, {
	parse: function(data) {
		var container = this.container;
		return $.map(data, function(item, i) {
			var tiddler = new tw.Tiddler(item.title, container),
				bag = item.bag;
			tiddler = tw.Tiddler.prototype.parse.apply(tiddler, [item]);
			if(!tiddler.bag && bag) { // XXX: bag always present!?
				tiddler.bag = new tw.Bag(bag, container.host);
			}
			if(!tiddler.recipe && item.recipe) {
				tiddler.recipe = new tw.Recipe(item.recipe, container.host);
			}
			delete item.recipe;
			return $.extend(tiddler, item);
		});
	},
	route: function() {
		var params = this.container;
		if(this.tiddler) {
			var container = this.tiddler.bag || this.tiddler.recipe;
			params = {
				_type: container._type,
				host: container.host,
				name: container.name,
				title: this.tiddler.title
			};
		}
		return supplant(tw.routes[this._type], params);
	}
});

tw.Search = function(query, host) {
	tw.Collection.apply(this, ["search", host]);
	this.query = query;
};
tw.Search.prototype = new tw.Collection();
$.extend(tw.Search.prototype, {
	parse: function(data) {
		this.container = { // XXX: hacky
			_type: "bag",
			host: this.host
		};
		var tiddlers = tw.TiddlerCollection.prototype.parse.apply(this, arguments);
		delete this.container;
		return tiddlers;
	}
});

// title is the name of the tiddler
// container (optional) is an instance of either Bag or Recipe
// optionally accepts a single object representing tiddler attributes
tw.Tiddler = function(title, container) {
	tw.Resource.apply(this, ["tiddler", false]);
	this.title = title;
	this.bag = container && container._type === "bag" ? container : null;
	this.recipe = container && container._type === "recipe" ? container : null;
	var self = this;
	$.each(this.data, function(i, item) {
		self[item] = undefined; // exposes list of standard attributes for inspectability
	});
	if(title && title.title) { // title is an object of tiddler attributes
		$.extend(this, title);
	}
};
tw.Tiddler.prototype = new tw.Resource();
$.extend(tw.Tiddler.prototype, {
	revisions: function() {
		return new tw.TiddlerCollection(this.bag || this.recipe, this);
	},
	route: function() {
		var container = this.bag || this.recipe;
		var params = $.extend({}, this, {
			host: container ? container.host : null,
			_type: this.bag ? "bag" : (this.recipe ? "recipe" : null),
			name: container ? container.name : null
		});
		return supplant(tw.routes[this._type], params);
	},
	parse: function(data) {
		var tiddler = new tw.Tiddler(this.title),
			container = this.bag || this.recipe;
		if(data.bag) {
			tiddler.bag = new tw.Bag(data.bag, container.host);
			delete data.bag;
		}
		delete data.recipe;
		tiddler.created = data.created ? convertTimestamp(data.created) : new Date();
		delete data.created;
		tiddler.modified = data.modified ? convertTimestamp(data.modified) : new Date();
		delete data.modified;
		if(this.recipe) {
			tiddler.recipe = this.recipe;
		}
		return $.extend(tiddler, data);
	},
	data: ["created", "creator", "modifier", "modified", "tags", "type", "text",
			"fields"],
	ajaxSetup: function(options) {
		var self = this;
		if(this.etag && (options.type === "PUT" || options.type === "DELETE")) {
			options.beforeSend = function(xhr) {
				xhr.setRequestHeader("If-Match", self.etag);
			};
		}
		if(options.type === "PUT") {
			var callback = options.success;
			options.success = function(data, status, xhr) {
				var loc = xhr.getResponseHeader("Location"),
					etag = xhr.getResponseHeader("Etag");
				if(loc && etag) {
					self.etag = etag;
					if(!self.bag) {
						var bag = loc.split("/bags/").pop().split("/")[0];
						self.bag = new tw.Bag(bag, self.recipe.host);
					}
					callback(self, status, xhr);
				} else { // IE
					self.get(callback, options.error);
				}
			};
		}
	}
});

tw.Revision = function(id, tiddler) {
	var container = tiddler.bag || tiddler.recipe;
	tw.Tiddler.apply(this, [tiddler.title, container]);
	this._type = "revision";
	this.revision = id;
};
tw.Revision.prototype = new tw.Tiddler();
$.extend(tw.Revision.prototype, {
	revisions: false,
	data: false,
	put: false,
	"delete": false
});

tw.Bag = function(name, host) {
	Container.apply(this, ["bag", name, host]);
};
tw.Bag.prototype = new Container();

tw.Recipe = function(name, host) {
	Container.apply(this, ["recipe", name, host]);
	this.recipe = [];
};
tw.Recipe.prototype = new Container();
$.extend(tw.Recipe.prototype, {
	data: ["recipe"].concat(Container.prototype.data)
});

tw.Policy = function(constraints) { // TODO: validation?
	var self = this;
	$.each(this.constraints, function(i, item) {
		self[item] = constraints[item];
	});
};
tw.Policy.prototype.constraints = ["read", "write", "create", "delete",
	"manage", "accept", "owner"];

/*
 * utilities
 */

tw._capitalize = function(str) {
	return str.charAt(0).toUpperCase() + str.slice(1);
};

// convert YYYYMMDDhhmmss timestamp to Date instance
convertTimestamp = function(t) {
	if (t.match(/^\d{12,17}$/)) {
		return new Date(Date.UTC(
			parseInt(t.substr(0, 4), 10),
			parseInt(t.substr(4, 2), 10) - 1,
			parseInt(t.substr(6, 2), 10),
			parseInt(t.substr(8, 2), 10),
			parseInt(t.substr(10, 2), 10),
			parseInt(t.substr(12, 2) || "0", 10),
			parseInt(t.substr(14, 3) || "0", 10)
		));
	} else {
		return new Date(Date.parse(t));
	}
};

// adapted from Crockford (http://javascript.crockford.com/remedial.html)
supplant = function(str, obj) {
	return str.replace(/{([^{}]*)}/g, function (a, b) {
		var r = obj[b];
		r = typeof r === "string" || typeof r === "number" ? r : a;
		return $.inArray(b, ["host", "query"]) !== -1 ? r : encodeURIComponent(r); // XXX: special-casing
	});
};

return tw;

}(jQuery));
//}}}

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Bibliografie 
http://genomespot.blogspot.ca/

Return to GSE40180

https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE40180
Stewart DJ Series GSE40180 [◣ Link ◢ = https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE40180]

► Mouse  Expression data from total RNA from 
murine spleen, liver, lungs, kidneys and hearts.
Sepsis by cecal ligation and puncture (CLP), 
followed 6 hours later by injection of 
Mesenchymal Stem Cell (MSC) ◀

▶ Analyze with GEO2R ▲ working for top 250
▶ Platforms (1) Illumina MouseWG-6 v2.0 expression beadchip [◣ Link ◢ = https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GPL6887]

▶ Samples (72) GSM987870 ...to... GSM987941

take first GSM987870 	Spleen_s1

//on the web it is a long list
start with// 
#ID_REF = 
#VALUE = quantile normalized
ID_REF	VALUE
//from 01//
ILMN_1212602	6.00155
ILMN_1212603	5.14938
ILMN_1212605	10.1335
ILMN_1212607	5.14476
ILMN_1212612	6.92141
ILMN_1212614	3.23757
ILMN_1212619	5.96235
ILMN_1212623	4.8814
... etc
ILMN_3163577	5.2191
ILMN_3163581	5.62403
ILMN_3163582	5.70842
//to 45285//
 
//copy to Notpad ++ and save as GSE40180_GSM987870 Spleen_s1.txt
if i want to open with CSVeditor it's working //

FILE No 1 GSE40180_phenotype.cls.

10 2 1
# Sham CLP
Sham Sham Sham Sham Sham CLP CLP CLP CLP CLP

FILE No 2 GSE40180_series_matrix.gct

#1.2											
45281 10										
ID_REF	Description	GSM987879	GSM987880	GSM987881	GSM987882	GSM987883	GSM987903	GSM987904	GSM987905	GSM987906	GSM987907
ILMN_1212602	na	5.10408	5.57899	5.22403	5.5017	5.42047	6.99873	7.56258	6.06675	7.1258	6.97116 
etc

!cool
Differential Gene Expression using R 
https://www.youtube.com/watch?v=7UKMU5HK380

surse
https://github.com/mistrm82/msu_ngs2015/blob/master/hands-on.Rmd
https://etherpad.wikimedia.org/p/2016-04-27-diff-exp-r

Make a Heatmap on R Studio
https://www.youtube.com/watch?v=QD3XAla94rQ

http://marianattestad.com/blog/
https://www.youtube.com/watch?v=gu9pTq9U2iU

alte explicatii
http://davetang.org/muse/2010/12/06/making-a-heatmap-with-r/
http://sebastianraschka.com/Articles/heatmaps_in_r.html

https://www.youtube.com/watch?v=J5h5WxOn3Gw
citesc primul rind e[1,] 
coloana e[,1]

https://www.youtube.com/watch?v=g80DzGuwSuY

plots
https://www.youtube.com/watch?v=pibGllDeBPM

Tutorial Gene Expression analysis using R 
https://www.youtube.com/watch?v=sasqpE0g0Do
https://github.com/abhik1368/dsdht/tree/master/Microarray%20Data%20Analysis

◣ ▲ ▼ ◄ ► ▶ ◀ ◣ ◢ ◥ ◤ ◥ ◢ [◣ Link ◢ =]

/***
|''Name''|BinaryUploadPlugin|
|''Version''|0.3.16|
|''Author''|Ben Gillies and Jon Robson|
|''Type''|plugin|
|''Source''|http://github.com/TiddlySpace/tiddlyspace/raw/master/src/plugins/BinaryUploadPlugin.js|
|''Description''|Upload a binary file to TiddlyWeb|
|''CoreVersion''|2.6.1|
|''Requires''|TiddlySpaceConfig TiddlyWebConfig|
!Usage
{{{
<<binaryUpload bag:<name> edit:tags edit:title tags:<default tags> title:<title> >>
}}}
* {{{bag:<name>}}}: optional; if left out, the file will be saved to the current workspace
* {{{edit:tags}}}: specifies that you want to tag the file being uploaded
* {{{edit:title}}}: specifies that you want to set the title to something other than the filename
* {{{tags:<default tags>}}}: specifies a default set of tags to apply to the file (requires {{{edit:tags}}} to be set)
* {{{title:<title>}}}: predefines the title of the binary tiddler
!Requires
TiddlyWeb
tiddlywebplugins.form
!Code
***/
//{{{
(function($) {

var tiddlyspace = config.extensions.tiddlyspace;

var macro = config.macros.binaryUpload = {
	locale: {
		titleDefaultValue: "Please enter a title...",
		tagsDefaultValue: "Please enter some tags...",
		titlePrefix: "title: ",
		tagsPrefix: "tags: ",
		loadSuccess: 'Tiddler %0 successfully uploaded',
		loadError: "An error occurred when uploading the tiddler %0",
		uploadInProgress: "Please wait while the file is uploaded...",
		membersOnly: "Only members can upload."
	},
	renderInputFields: function(container, options) {
		var locale = macro.locale;
		var editableFields = options.edit;
		var includeFields = {
			tags:  editableFields && editableFields.contains("tags") ? true : false,
			title: editableFields && editableFields.contains("title") ? true : false
		};
		var fields = ["title", "tags"];
		for(var i = 0; i < fields.length; i++) {
			var fieldName = fields[i];
			var userDefault = options[fieldName];
			var defaultValue = userDefault ? userDefault[0] : false;
			if(includeFields[fieldName] || defaultValue) {
				var localeDefault = locale["%0DefaultValue".format(fieldName)];
				var className = defaultValue ? "userInput" : "userInput notEdited";
				var inputEl;
				var val = defaultValue || localeDefault || "";
				var iContainer = $("<div />").addClass("binaryUpload%0".format(fieldName)).
					appendTo(container);
				if(defaultValue && !includeFields[fieldName]) {
					var label = locale["%0Prefix".format(fieldName)];
					$("<span />").text(label).appendTo(iContainer);
					$("<span />").addClass("disabledInput").text(val).appendTo(iContainer);
					inputEl = $("<input />").attr("type", "hidden");
				} else {
					inputEl = $("<input />").attr("type", "text");
				}
				inputEl.attr("name", fieldName).
					addClass("%0Edit".format(fieldName)).
					val(val).addClass(className).appendTo(iContainer);
			}
		}
	},
	getTiddlerName: function(fileName) {
		var fStart = fileName.lastIndexOf("\\");
		var fStart2 = fileName.lastIndexOf("/");
		fStart = fStart < fStart2 ? fStart2 : fStart;
		fileName = fileName.substr(fStart+1);
		return fileName;
	},
	errorHandler: function(fileName) {
		displayMessage("upload of file %0 failed".format(fileName));
	},
	uploadFile: function(place, baseURL, workspace, options) {
		var pleaseWait = $(".uploadProgress", place);
		var iframeName = options.target;
		var form = $("form", place);
		var existingVal = $("input[name=title]", form).val();
		var fileName = existingVal || $('input:file', form).val();
		if(!fileName) {
			return false; // the user hasn't selected a file yet
		}
		fileName = macro.getTiddlerName(fileName);
		$("input[name=title]", place).val(fileName);
		// we need to go somewhere afterwards to ensure the onload event triggers
		var redirectTo = "/%0/tiddlers.txt?select=title:%1".
			format(workspace, fileName);
		var token = tiddlyspace ? tiddlyspace.getCSRFToken() : "";
		var action = "%0?csrf_token=%1&redirect=%2"
			.format(baseURL, token, redirectTo);
		form[0].action = action; // dont use jquery to work with ie
		form[0].target = iframeName;
		// do not refactor following line... won't work in IE6 otherwise
		$(place).append($('<iframe name="' + iframeName + '" id="' + iframeName + '"/>').css('display','none'));
		macro.iFrameLoader(iframeName, function() {
			var content = document.getElementById(iframeName).contentWindow.document.documentElement;
			if($(content).text().indexOf(fileName) > -1) {
				options.callback(place, fileName, workspace, baseURL);
			} else {
				macro.errorHandler(fileName);
			}
			form.show(1000);
			pleaseWait.hide(1000);
		});
		form.hide(1000);
		pleaseWait.show(1000);
		return true;
	},
	createUploadForm: function(place, options) {
		var locale = macro.locale;
		if(readOnly) {
			$('<div class="annotation" />').text(locale.membersOnly).
				appendTo(place);
			return;
		}
		var bag = options.bag;
		options.callback = options.callback ? options.callback :
			function(place, fileName, workspace, baseurl) {
				macro.displayFile(place, fileName, workspace);
				displayMessage(locale.loadSuccess.format(fileName));
				$("input[type=text]", place).val("");
			};
		var defaults = config.defaultCustomFields;
		place = $("<div />").addClass("container").appendTo(place)[0];
		var workspace = bag ? "bags/%0".format(bag) : config.defaultCustomFields["server.workspace"];
		var baseURL = defaults["server.host"];
		baseURL += (baseURL[baseURL.length - 1] !== "/") ? "/" : "";
		baseURL = "%0%1/tiddlers".format(baseURL, workspace);
		//create the upload form, complete with invisible iframe
		var iframeName = "binaryUploadiframe%0".format(Math.random());
		// do not refactor following line of code to work in IE6.
		var form = $('<form action="%0" method="POST" enctype="multipart/form-data" />'.
					format(baseURL)).addClass("binaryUploadForm").
			appendTo(place)[0];
		macro.renderInputFields(form, options);
		$(form).
			append('<div class="binaryUploadFile"><input type="file" name="file" /></div>').
			append('<div class="binaryUploadSubmit"><input type="submit" value="Upload" disabled /></div>').
			submit(function(ev) {
				this.target = iframeName;
				options.target = iframeName;
				macro.uploadFile(place, baseURL, workspace, options);
			})
			.find('[type="file"]').bind('change', function() {
				$(form).find('[type="submit"]').prop('disabled', false);
			}).end();
		$('<div />').addClass("uploadProgress").text(locale.uploadInProgress).hide().appendTo(place);
		$("input[name=file]", place).change(function(ev) {
			var target = $(ev.target);
			var fileName = target.val();
			var title = $("input[type=text][name=title]", place);
			if(!title.val()) {
				title.val(fileName);
			}
		});
	},
	handler: function(place, macroName, params, wikifier, paramString, tiddler) {
		params = paramString.parseParams(null, null, true);
		macro.createUploadForm(place, params[0]);
	},
	iFrameLoader: function(iframeName, callback) {
		var iframe = document.getElementById(iframeName); //jQuery doesn't seem to want to do this!?
		var locale = macro.locale;
		$(".userInput").addClass("notEdited"); // reset editing
		var finishedLoading = function() {
			callback();
		};
		var iFrameLoadHandler = function() {
			finishedLoading.apply();
			return;
		};

		iframe.onload = iFrameLoadHandler;
		//IE
		completeReadyStateChanges = 0;
		iframe.onreadystatechange = function() {
			if (++(completeReadyStateChanges) == 3) {
				iFrameLoadHandler();
			}
		};
	},
	displayFile: function(place, title, workspace) {
		var adaptor = store.getTiddlers()[0].getAdaptor();
		var context = {
			workspace: workspace,
			host: config.defaultCustomFields['server.host']
		};
		adaptor.getTiddler(title, context, null, function(context) {
			if(context.status) {
				store.addTiddler(context.tiddler);
				story.displayTiddler(place, title);
				var image = config.macros.image;
				if(image && image.refreshImage) {
					image.refreshImage("/%0/tiddlers/%1".format(workspace, title));
					image.refreshImage(title);
					image.refreshImage("/%0".format(title));
					image.refreshImage("%0/%1/tiddlers/%2".format(config.extensions.tiddlyweb.host, workspace, title));
				}
			} else {
				displayMessage(macro.locale.loadError.format(title));
			}
		});
	}
};

if(tiddlyspace) {
	config.macros.binaryUploadPublic = {
		handler: function(place, macroName, params, wikifier, paramString, tiddler) {
			var options = paramString.parseParams(null, null, true)[0];
			var bag = tiddlyspace.getCurrentBag("public");
			options.bag = bag;
			macro.createUploadForm(place, options);
		}
	};
	config.messages.privacySetting = config.options.chkPrivateMode ?
		"private" : "public";
	config.macros.binaryUpload.defaultWorkspace = tiddlyspace.
		getCurrentWorkspace(config.messages.privacySetting);
}

})(jQuery);
//}}}

^^Primary cultures of neonatal mouse cardiac myocytes. 
(Worthington Biochemical Corp. Lakewood, NJ) kit Cedarlane #LK003300
The Worthington Neonatal Cardiomyocyte Isolation System
The kit has been formulated in conjunction with Dr. Ronal MacGregor of the University of Kansas Medical Center. The method is based on that described by Toraason, et al. (1988) is a commercial isolation kit  originally developed for neonatal rat ventricular myocytes. Myocytes were isolated using the neonatal rat cardiac myocyte isolation kit with minor modifications to the manufacturer's protocol designed to accommodate the smaller amount of starting tissue^^.

!! ENGLISH VERSION (working version)
''Day 1: Preparation of hearts''

@@color:purple;Pet age ''1-3'' max ''4'' days:
^^NOTE 1^^ Serie nr.01_(d''4'') × [8] - 14dec2015.
^^NOTE 2^^ Serie nr.02_(d''6'') × [8] +  (d''3'') × [3] - 7jan2016.
^^NOTE 3^^ Serie nr.03_(d''3'') × [5] - 18jan2016.
^^NOTE 4^^ Serie nr.04_(d''5'') × [9] - 8feb2016 type -/-
^^NOTE 5^^ Serie nr.05_(d''3-4'') × [23] - 20feb2016 type +/+.
^^NOTE 6^^ Serie nr.06_(d''5'') × [10] - 20 avril 2016 type +/+.
^^NOTE 7^^ Serie nr.07_ (d''1'') × [6] {DOB 27/04/16} & _(d''5'') × [5] {DOB 23/04/16} - 28 avril 2016 type +/+.
Melania poste 44051
^^NOTE F01^^ Serie F01_ (d''4'') {DOB 09/11/16} × [4] - Luni 12 sept 2016; type Parkin+/+38.

(//d: pet age; DOB: date of birth; [ _ ] No. of animals //)@@

⓪ Transfer approximately 30 mL HBSS in a sterile Tube50mL on ice.
//The mice are anesthetized on ice for a few minutes before decapitation//.
① The mice killed by cutting the head. The hearts are placed in one PetriØ35mm with HBSS, on ice.
② Hearts are washed with HBSS by transfer in another PetriØ35mm with HBSS, on ice.
③ Transfer to a sterile PetriØ100mm.
④ With scissors or razor blade, chop the hearts [a[rpx. 3 - 4mm] in a volume of ''5'' mL HBSS.
⑤ Reconstitute ❷ Trypsin - vial with 2 mL of HBSS on ice. Add ''2'' mL Trypsin in the Petri. 
⑥ Adjust volume → ''10'' mL final (transfer to PetriØ35 or 60mm).
⑦ Seal with parafilm and place at 4 °C over night (16-20 h) in fridge.

''Day 2 of Isolation:'' 
Heat MC DMEM medium and prepare 37 °C bath with movement.
⑧ Transfer the contents (10 mL) of Petri in new Tube50mL on ice.
⑨ Reconstitute vial ❸-Trypsin Inhibitor  with ''1'' mL HBSS on ice.
⑩ Add toTube50mL.
⑪ Oxygenate the tissue for 30 sec max ''1'' min, in surface.
⑫ Place in a the bath at 37 °C for ''10'' min.
⑬ Reconstitute vial ❹-collagenase with ''5'' mL L15Medium.
⑭ Add to Tube50mL. Ensure the cap with the ParaFilm, protect from light with aluminum.
⑮ Place the tube horizontally in an incubator at 37 °C with low movement (⇄ 81 mpm) for ''45'' minutes.
⑯ Back under the hood. Triturate with Pipette10mL approximately 10 × as gently as possible. Avoid bubble formation.
⑰ Rinse cell filter (70 microns) with 1mL L15Medium.
⑱ Filter the contents.
⑲ Rinse with 1mL all that remains in the filter.
⑳ Allow cells to settle for ''20'' min.
㉑ Centrifuge ''5'' min at ''1400'' rpm (300 rcf × g). Aspirate supernatant.
㉒ ''FIRST'' ATTACHMENT: Resuspend pellet in ''25'' mL DMEM LOW GLUCOSE 10% FBS 1% P/S. Transfer in 2 Great Pétri Tissue Tissue 150Ø×20mm Corning # 430599 or # 83.1803.(Adjust volume → 20 mL for each).
㉓ Incubate ''30'' min at 37 °C.
㉔ ''SECOND'' ATTACHMENT: Recover the supernatant and transfer to a second series of 5 Great Plaque150mmØ. Rinse the dish with 5 mL DMEM, restore and incubate for 30 min at 37 °C.
㉕ ''THIRD'' ATTACHMENT: Repeat for the third series (ok for rats). Following isolation, fibroblasts remains on the Great Plate150mmØ. To use the fibroblasts wait reached confluence ≈ 80% (2-4 days). Freeze cell for reserves.
㉖ Counting on hematocytometer cardiomyocytes. 
Serie nr.01_(d''4'') × [8]-14dec2015= 0.41M × 7 mL = 2.87 M total (0.35 /well).
㉗ Inoculate the number of desired cells in the kneaded selected for experiments. Ex: 150 000 cells / 60mmØ; 85% confluence after 72 hours. //^^NOTE Wlt recommendation^^: Isolated cells were plated at a density of 400,000 cells / mL or 25,000 cardiomyocytes per cm^^2^^. Adhesion may be Improved by fibronectin or collagen coating of the plastic//.
㉘ Change ''24'' hours later DMEM medium to LOW GLUCOSE 10% FBSm 1% P/S.
㉙ Cells begin to beat irregularly on day ''3'' (✔), more stably on day ''4''.
㉚ Starvation 0.1% FBS is done on day 4 for 24 hours with an ideal confluence of 70 - 75%.
㉛ Experience at the day ''5 - ''.


!! VERSION en FRANCAISE (doit être corrigé la version précédente est la version la plus récente)
''Jour 1: Preparation du coeurs''
La gestation dure 3 sem, entre 19 et 21 jours (voire 23 pour les grosses portées).
3–14 souriceaux (moy 6 - 8 souriceaux). [5-10 grosses / a]

Service d'animalerie les souriceaux 1 - 3 max 4 jours:  
⓪ Transférer environ 30 mL HBSS dans un Tube50mL stérile (1/portée) sur glace.
''Les souriceaux seront anesthésiés sur la glace pendant quelques minutes avant la décapitation''.
① Les souriceaux tués en coupant la tête. Les coeurs sont déposés dans le tube de HBSS.
② Les coeurs sont lavés 2 × avec HBSS.
③ Transférer dans un pétri stérile.
④ Avec ciseau ou lame de rasoir, émincer les coeurs dans un volume de 5 mL.
⑤ Reconstituer le vial ❷-Trypsine avec 2 mL de HBSS sur glace. Ajouter 2 mL Trypsine au pétri. 
⑥ Ajuster volume à → 10 mL final.
⑦ Placer à 4°C O/N (16 - 20 h) dans frigo. 

''Jour 2 isolation:''
⑧ Transférer le contenu du pétri dans Tube50mL stérile, sur glace.
⑨ Reconstituer vial ❸-Inhibiteur Trypsine avec 1 mL HBSS sur glace. 
⑩ Ajouter au Tube50mL.
⑪ Oxygéner le tissus pendant 30 sec à 1 min, en surface.
⑫ Mettre dans un bain à 30 - 37°C pendant 10min.
⑬ Reconstituer vial ❹-Collagénase avec 5 mL L15 Medium.
⑭ Ajouter au Tube50mL. Assurer le bouchon avec la pellicule de Parafilm, proteger de la lumiere avec Aluminium.
⑮ Placer dans un incubateur à 37 °C avec rotation faible (101 rpm) pendant 45 min.
⑯ Retourner sous la hotte. Triturer avec pipette 10 mL environ 10× le plus doucement possible. Éviter la formation de bulles.
⑰ Rincer filtre cellulaire (70 μm ou 100 μm) avec 1mL L15.
⑱ Filtrer.
⑲ Rincer ensuite avec 1mL tout qui reste dans filtre.
⑳ Laisser les cellules sédimenter de 20 min.
㉑ Centrifuger 5 min à 1400 rpm (rcf 300 × g). Aspirer surnageant. 
㉒ Resuspendre culot dans 25 ml de DMEM LOW GLUCOSE 10%FBS 1%P/S. Plater dans 5 Grande Pétris Tissulaire Tissulaire 150×20mm Corning #430599 ou #83.1803.
(ajout 15 mL pour chaque).
㉓ Incuber 30min à 37°C.
㉔ Récupérer le surnageant et transférer dans un 2e serie de 5 petri Grande Plaque150mm. Rincer le plat avec 5 mL DMEM, récupérer encore  et incuber 30 min à 37°C.
㉕ Repeter pour 3e serie (ok pour le rat). Suite à l’isolation, les fibroblastes reste sur la Grande Plaque 150 mm. Pour les utiliser attendre que les fibroblastes atteignent une confluence de ≈ 80% (2 - 4 jours) Congeler pour reserve cellulaire.
㉖ Compter les cardiomyocytes sur hématocytomètre. Compter sur hématocytomètre 5 cares, faire la moyenne result × 5 = Z00 = Z,00 Million de cellules par mL.
^^ Version2 Prendre 10μL solution de cellules + 10μL Trypan Blue 0.4% + 80μL Media Les cellules bleus sont mortes.(facteur de dilution FD = 2). Compter sur hématocytomètre trois rangs du grand carré au milieu, faire la moyenne : (MOY × 5 (nb de rangs) x 2 (FD)/100 = Million de cellules par mL. Multiplier par volume = total # de cell en million.^^
㉗ Ensemencer le nombre de cellules voulues dans les pétris choisis pour les expériences. Ex : 150 000 Cellules / 60mm; confluence 85% après 72 h.
Note //Isolated cells were plated at a density of 400,000 cells/mL or
25,000 cardiomyocytes per cm^^2^^ of culture wells or flasks. Adhesion may be improved by collagen or fibronectin coating of the plastic.//
㉘ Changer le milieu 24h plus tard pour DMEM LOW GLUCOSE 10%FBS 1%P/S frais.
㉙ Cellules commencent à battre irrégulièrement au jour 3, de manière plus stable au jour 4.
㉚ La privation à 0,1% FBS se fait le jour 4, pour 24h avec une confluence idéale de 70 - 75%.
㉛ L’expérience se fait le jour 5.

!!NOTES

⓿ DMEM LOW GLUCOSE (Invitrogen 11885 (+ D-Glucose L- Glutamine Sodium Pyruvate)
Worthington Biochemical Corp. Cedarlane #LK003300 Store at 2-8°C.
Vial ❶: 1 bottle, 500 mL Ca2+ and Mg2+-free Hanks’ balanced salt solution (HBSS), pH 7.4.
Vial ❷: 5 vials, 1000 µg Trypsin.
Vial ❸: 5 vials, 2000µg Soybean Trypsin Inhibitor.
Vial ❹ : 5 vials, 1500 Units Collagenase reconstitute with 5 ml Leibovitz L-15.
Pouch ❺ Leibovitz L-15 Media Powder: for 1 L. Reconstitute entire contents of pouch by cutting open top of envelope and pouring contents into beaker containing 800 mL of cell culture grade water. Rinse pouch 2 - 3 times with additional 100 mL. Bring total volume to 1 liter and filter through a 0.22 micron filter.

!!Culture des Fibroblastes néonataux

Effectuer le premier passage :
1. Aspirer le milieu des pétris
2. Laver 1× avec PBS stérile 1×
3. Aspirer le PBS
4. Mettre Trypsin-EDTA 0.05% (Invitrogen 25300) dans pétris (5mL pour un pétri de 150mm)
5. Mettre dans l’incubateur à 37 °C, 1 à 2 min (pas plus, la trypsine endommage les cellules)
6 .Immédiatement mettre 10 mL de milieu complété avec FBS dans pétri (le FBS inhibe la trypsine)
7. Bien récupérer les cellules avec le milieu, mettre dans un Tube50mL.
8. Centrifuger 5 min à 1000 rpm à RT
9. Aspirer le surnageant
10. Resuspendre le culot dans 10 mL de milieu par portée
11. Ensemencer 5 mL par pétris de 150mm (pour chaque pétris initial de
150mm en faire 2 : on double la quantité de pétri qui devrait être à
environ 45% confluent)
Effectuer le deuxième passage (2 - 4 jours suivant le premier passage : confluence ≈ 80%
12. Aspirer le milieu des pétris
13. Laver 1× avec PBS stérile 1×
14. Aspirer le PBS
15. Mettre Trypsin-EDTA 0.05% dans pétris (5 mL pour un pétri de 150mm)
16. Mettre dans l’incubateur à 37 °C, 1 à 2 min (pas plus, la trypsine endommage les cellules)
17. Immédiatement mettre 10 mL de milieu complété avec FBS dans pétri (le FBS inhibe la trypsine)
18. Bien récupérer les cellules avec le milieu, mettre dans un Tube50mL.
19. Centrifuger 5 min à 1000 rpm à RT
20. Aspirer le surnageant

!! ENGLISH VERSION
''Day 1: Preparation of hearts''

Pet age 1-3 max 4 days:
⓪ Transfer approximately 30 mL HBSS in a sterile Tube50mL on ice.
The mice are anesthetized on ice for a few minutes before decapitation.
① The mice killed by cutting the head. The hearts are placed in the tube of HBSS.
② Hearts are washed × with HBSS.
③ Transfer to a sterile Petri.
④ With scissors or razor blade, chop the hearts in a volume of 5 mL.
⑤ Reconstitute ❷ Trypsin - vial with 2 mL of HBSS on ice. Add 2 mL Trypsin in the Petri. 
⑥ Adjust volume → 10 mL final.
⑦ Seal with parafilm and place at 4 °C over night (16-20 h) in fridge.


The pups are born blind and without fur or ears. The ears are fully developed by the fourth day, fur begins to appear at about six days and the eyes open around 13 days after birth; the pups are weaned at around 21 days. Females reach maturity at about six weeks of age and males at about eight weeks.

!!  Hypothermia 1
1. Protect pup with glove or by placing in a paper-lined test tube to avoid freeze damage to the skin. A thin material such as a latex glove, works better than a thicker material such as a neoprene glove.
2. Immerse container holding pup in ice water or place on a barrier such as a glove or other water-proof material over crushed ice. If crushed ice is used, it must be carefully packed, to provide close contact between ice and pup. The ice can be packed flat or a frozen block of ice covered with a thin lining can be used.
3. Induction time: 2-4 minutes. Observe the pup closely.
4. Anesthesia time: 5-15 minutes.
5. Recovery time: Variable (up to 1 hour).
6. Pup can be kept on cooling platform (i.e. water-proof material covered ice cube or cold glass plate or a frozen ice block) to provide more constant level of hypothermia.
7. Use of a fiber optic surgical lamp rather than an incandescent one minimizes surface warming and helps in maintaining hypothermia.

!!  Recovery of neonate from hypothermia
1. Recover the neonate by holding it in your gloved hand or placing it in a Petri dish on a warm water circulating heating pad or under a heat lamp for less than 5 minutes and not too close to the lamp watching carefully to avoid overheating.

!!   Preparing the neonate for return to dam
1. Recover neonate on home cage/dam bedding so as to make it smell similar to what it did before removal from cage.
2. Make sure neonate is warm and pink and breathing and capable of spontaneous movement before returning it to dam.
3. Returning neonates as a group (the entire litter) is best to minimize disturbing dam.
4. If isoflurane anesthesia has been used, it may help to accustom dam to the smell for 1-2 days before surgery on neonate (see Preparation of Dam).3
5. It may help with dam accepting the pups back after the procedure if all vestiges of blood and disinfectant are removed from the pups by gently wiping them with a wet gauze pad before returning them to the dam.4

Experience appoptosis detection for Caspase-9 {PI ~ LEHD-AFC ~ H2O2}

Caspase-9 fluorimetric assay kit (# K118-100) for cells in suspension BioVision Incorporated Milpitas CA, wwwbiovision.com. Ac-LEHD-AFC is a membrane permeable fluorogenic substrate that can be cleaved by caspase that recognize the amino acid sequence LEHD. The cleavage of the peptide by the caspase releases the AFC that, (free AFC after cleavage) when excited by light at 400 nm wavelength, emits fluorescence at 505 nm. The level of caspase enzymatic activity in the cell lysate is directly proportional to the fluorescence signal detected with a fluorescent microplate reader. 
NOTE 0: [Ac-LEHD-AFC = N-Acetyl-Leu-Glu-His-Asp-7-amino-4-trifluoromethylcoumarin]
                AFC = 7-amino-4-trifluoromethylcoumarin .

1. Preparation:

Aliquot 1000 µL of 2x Reaction Buffer (4°C) + 10 µL of 0.1 M DTT stock (-20°C). 
{Reac. Buff.+DTT} {Add DTT to the 2X Reaction Buffer immediately before use} 
NOTE 1  [minimum 25 μL of cold Lysis Buffer per 1 x 10^6 cells]
NOTE 2: [Equilibrate LEHD-AFC solution and protect from light].

2. Count cells and add 8 µL PI/ 5 mL of cells. Concurrently keep a BLANK culture without PI.

3. Distribute 3x 1 Mil cells in 1mL tube with MC. in 3 tubes (10 mL): 

(Tube A) INDUCED apoptosis with H2O2 
(Tube B) SAMPLE without induction 
(Tube C) BLANK as control.

4. Peparation Tube (A) for induction of appotosis: 

[SS] S. Stock 9.79 M H2O2 (30%) MW:34.01
[Si] 1 M (1000 mM) add 1 mL (30%) in 10 mL H2O
[Sii] 100 mM add 1 mL (1M) in 10 mL H2O
[Siii] 500 µM add 50 µL (100 mM) in 5 mL MC

5. Incubate for induction of appotosis 5 minutes  (4°C).

6. Centrifuge 3000 rpm 5 minutes.

7. Carefully take out supernatant.

8. add:

3x 50 µL Lysis Buff. (chilled) in tube (A)
3x 50 µL Lysis Buff. (chilled) in tube (B) 
3x 50 µL Lysis Buff. (chilled) in tube (C) 

9. Incubate 10 min 4°C 

10. Add: 

3x 50 µL Reaction Buffer + DTT in tube (A) 
3x 50 µL Reaction Buffer + DTT in tube (B) 
3x 50 µL Reaction Buffer + DTT in tube (C) 

11. Add:

3x 5 µL LEHD-AFC in tube (A) INDUCED
3x 5 µL LEHD-AFC in tube (B) SAMPLE
3x 5 µL Reaction Buffer DTT in tube (C) BLK

12. Distribute 100 µL mix / wells.

13. Incubate (60 minutes or 2 hour) at 37°C in dark.

14. Read (Scan Z - T60 min) the plate on a fluorescence plate reader with settings suitable for :

(Scan Z1 - T60 min) 
PI 
(top, Ex: 535nm, Em: 617nm) Gain 149)

(Scan Z2 - T60 min) 
LEHD-AFC 
(top, Ex: 400nm, Em: 505nm) Gain 100).

Fold-increase in Caspase-9 activity can be determined by comparing these results with the level of the uninduced control. Free AFC emits a yellow-green fluorescence (λmax = 505 nm)

NOTE 3: [H2O2 (Hydrogen peroxide) Catalog number #is commercialy avaiable as 30 % (W/W) aqueous sol. ~ 30g of H2O2 in 100g H2O. MW H2O2 = 34.01 = 9.79 Molar].

NOTE 4: [P.I. Propidium Iodide - 1.0 mg ⁄ mL Solution in Water Invitrogen- lifetechnologies.com‎ Catalog number # P3566 4 - 8°C].

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<!--{{{-->
<div class='header'>
	<div id='sidebarSearch'>
		<span macro='search'></span>
	</div>
	<div class='headerForeground'>
		<span class='siteTitle' refresh='content' tiddler='SiteTitle'></span>
		<span class='siteSubtitle' refresh='content' tiddler='SiteSubtitle'></span>
	</div>
	<div class='clearFloat'></div>
</div>

<div id='menuBar'>
	<div id='mainMenu' refresh='content' tiddler='MainMenu'></div>
	<div id='sidebarOptions' refresh='content' tiddler='SideBarOptions'></div>
</div>
<div id='displayArea'>
	<div id='messageArea'></div>
	<div id='tiddlerDisplay'></div>
	<div id='sidebarTabs' refresh='content' force='true' tiddler='SideBarTabs'></div>
</div>
<!--}}}-->

Experience mSOX {INDEPENDENT mSOX ~ Antimicin A ~ MTG ~ Hoechst ~ PI} 

Procedure:
1. Equilibrate all materials and prepare solutions to 37 °C prior to use. Cells should be seeded in microplate ~150 000 cells/well. The plates must be treated with Cel-Tak. Cell Line U-937 ATCC #Cat.No.: CRL-1593.2 human monocytes.

2. Prepare the tubes in order:

[[TUBE 1]] add 13 µL (of 5 mM stock mitoSOX ) in 2600 µL { [25µM] mitoSOX}.

[[TUBE 2]] add 130 µL (of 1mM Antimicin -A stock) in 1300 µL from TUBE1 {mitoSOX~ [100µM] Antimicin A }.
  
[[TUBE 3]] (15ml):  2 µL stock from freezer dilute in in 1 mL Assay Buffer + 9 mL Assay Buffer {~ MTG}.
                 
[[TUBE 4]] add 10 µL (of Hoechst stock) in 5000 µL = {~Hoechst} .  

[[TUBE 5]] add 20 µL (of PI stock) in 5000 µL = {~PI}.   

[[TUBE 6]] add 130 µL (of 1mM Antimicin -A stock) in 1300 µL Assay Buffer {~ [100µM] Antimicin A }.


3. Prepare black plate
(A) Add 98.42 µL Cell-Tak in 1000 µL water and place 10 µL diluted Cell-Tak into each well.
(B) Add 20 µL of bicarbonate buffer to each well.
(C) Shake delicate.
(D) Allow at least 20 minutes for adsorption.
(E) Flick or aspirate off the Cell-Tak solution and wash with 100 µL of distiled water, air dry before storing at 2-8 °C. 

4. Count - Cells should be seeded in microplate ~150 000 cells/well.

5. Centrifuge the plate at 200 rcf for 30 sec, rotate the plate 180
and centrifuge again at 300 rcf for 30 sec. EppendorfCentrifuge 5430R,
with rotor A-2-MTP #Cat.No.: 5430/5430 START / STOP / OPEN.

6. Treat one vertical line (STIMULATION line) of wells with 200 µL/well from TUBE 2.
7. Treat SAMPLE line of wells with 200 µL/well from TUBE  1.
8. Treat MTG line of wells with 200 µL/well from TUBE 3.
9. Add 200 µL/well Assay Buffer for blank line.
10. Treat Hoechst line of wells with 200 µL/well from TUBE 4.
11. Treat PI line of wells with 200 µL/well from TUBE 5.

12. Incubate for 40 minutes at 37 °C in dark.

13. Wash carefully 3 times with warm Assay Buffer.

14. Treat one vertical line (STIMULATION line) of wells with 200 µL/well from TUBE 6 { ~ Antimicin A}.

15 . Read (Scan T1) the plate on a fluorescence plate reader with settings suitable for: 
mitoSOX396 (bottom, Ex: 396 nm, Em: 580 nm) [Gain 200]
mitoSOX510 (bottom, Ex: 510 nm, Em: 580 nm) [Gain 200]
MTG (bottom, Ex: 490 nm, Em: 516 nm) [Gain 169]
Hoechst (bottom, Ex: 354nm, Em: 442nm) [Gain 92]
PI (bottom, Ex: 535nm, Em: 617nm) [Gain 166]

16. Incubate again (40 minutes) at 37 °C in dark. Repeat  Scan 2.

Preparation of:

Assay Buffer "Buffer-BSA"for 200 mL pH 7.4 (with 1M KOH):
[I] (80 mM) NaCl [FM:58.44] 0.93504 g {#  Fisher Cat. No: S2713}
[II] (75 mM) KCl [FM:74.55] 1.118 g {# Sigma Cat. No: P-4504}
[III] (25 mM) D-glucose [FM:180.16] 0.9008 g {#  Cat. No: 158968-500G}
[IV] (25 mM) HEPES [FM:238.30] 1.1915 g {{# Sigma Cat. No :H3375-250G}
filter 0.20 µm { # 83.1826.001} alicot in red tubes 50mL [ -4°C]
[V] (0.2%) fresh BSA [from -4°C] 0.100 g in 50 mL Buffer
(powder weighed before and distributed in eppendorf ready to use)
[VI](1M KOH) [FM:56.11] 2.8055 g {# Sigma Cat. No: P-1767-1kg} in 50 mL .

MitoSOX {# Molecular Probe  Cat.No : M36008}
www.lifetechnologies.com MW: 759 ((recomand [0.1 - 25 µM]))
Stock concentration: 5 mM (add 13 µL DMSO in original tube 50 µg)
Preparation of (25 µM) mitoSOX Working Solution:
add 13 µL (of 5 mM stock) in 2600 µL PBS {1/2_1/2}

(MTG) MitoTracker Green FM [MW:671.9797], non-fluorescent in aqueous solutions, which becomes fluorescent  only when accumulated in the mitochondrial lipid environment, regardless of membrane potential. 
{# Invitrogen/Molecular Probe Cat. No: M-7514} soluble in DMSO 
[I] (1 mM) MTG Stock Solution: 50µg dilute in 74 µL DMSO (store at -20°C in the dark)
[III] (200 µM) Final Solution (Working Solution): 2 µL stock dilute in in 1 mL Assay Buffer + 9 mL Assay Buffer

Antimycin A (Ant-A) from Streptomyces sp. { # SigmaCat.No: A8674-100MG}
store -20 °C.
Ant-A Stock concentration (1mM):
 Formula Weight: 548.63 g/mol Mass: 0.01204 g
Vol: 21.94 mL (dilute in 1 mL EtOH + 20.94 mL PBS) filter 0.22um
alicote and store -20 °C.
Ant-A Working Solution 100µM: add 130 µL stock (1mM) in 1300 µL Assay Buffer

(PI) Propidium Iodide - 1.0 mg⁄mL Solution in Water { # Invitrogen- lifetechnologies.com‎ Cat. No: P3566}
 4 - 8°C.

/***
|''Name''|TiddlySpaceInitialization|
|''Version''|0.7.3|
|''Description''|Initializes new TiddlySpaces the first time they are created|
|''Status''|@@beta@@|
|''Source''|http://github.com/TiddlySpace/tiddlyspace/blob/master/src/plugins/TiddlySpaceInit.js|
|''CoreVersion''|2.6.1|
|''Requires''|TiddlySpaceConfig RandomColorPalettePlugin chrjs ImageMacroPlugin|
!TODO
* robust error notification and recovery
!MarkupPreHead
<!--{{{-->
<link href="/bags/%0_public/tiddlers.atom" rel="alternate"
	type="application/atom+xml" title="%0's public feed" />
<link rel="canonical" href="%1/" />
<!--}}}-->
!Code
***/
//{{{
(function($) {

var versionField = "tiddlyspaceinit_version";
var markupPreHead = store.getTiddlerText(tiddler.title + "##MarkupPreHead", "");
var tiddlyspace = config.extensions.tiddlyspace;
var currentSpace = tiddlyspace.currentSpace;
var tweb = config.extensions.tiddlyweb;

var plugin = config.extensions.TiddlySpaceInit = {
	version: "0.6",
	SiteTitle: "%0",
	SiteSubtitle: "a TiddlySpace",
	flagTitle: "%0SetupFlag",
	flagWarning: "Please do not modify this tiddler; it was created " +
		"automatically upon space creation.",

	dispatch: function(ev) {
		var title = plugin.flagTitle.format([currentSpace.name]);
		config.annotations[title] = plugin.flagWarning;
		if(currentSpace.type != "private") {
			return;
		}
		var tiddlers = [];
		var tid = store.getTiddler(title);
		if(tid) {
			curVersion = parseFloat(tid.fields[versionField]);
			reqVersion = parseFloat(plugin.version);
			if(curVersion < reqVersion) {
				plugin.update(curVersion, tid);
				tid.fields[versionField] = plugin.version;
				tid.incChangeCount();
				tid = store.saveTiddler(tid);
				tiddlers.push(tid);
			}
		} else { // first run
			tid = new Tiddler(title);
			tid.tags = ["excludeLists", "excludeSearch", "excludePublisher"];
			tid.fields = $.extend({}, config.defaultCustomFields);
			tid.fields[versionField] = plugin.version;
			tid.text = "@@%0@@".format([plugin.flagWarning]);
			tid = store.saveTiddler(tid);
			tiddlers = tiddlers.concat(plugin.firstRun(), tid);
		}
		autoSaveChanges(null, tiddlers);
	},
	update: function(curVersion, flagTiddler) {
		if(curVersion < 0.2) {
			this.createAvatar();
		}
		if(curVersion < 0.3) {
			flagTiddler.tags.pushUnique("excludePublisher"); // XXX: never persisted
		}
		if(curVersion < 0.5) { // v0.4 was faulty
			this.setupMarkupPreHead();
		}
		if(curVersion < 0.6) {
			this.purgeSystemSettings();
		}
	},
	pubTid: {
		tags: ["excludeLists", "excludeSearch"],
		fields: $.extend({}, config.defaultCustomFields, {
			"server.workspace": tiddlyspace.getCurrentWorkspace("public")
		})
	},
	makeTiddlerIfNot: function(tiddler) {
		if (!store.tiddlerExists(tiddler.title)) {
			$.extend(true, tiddler, plugin.pubTid);
			return [store.saveTiddler(tiddler)];
		} else {
			return [];
		}
	},
	firstRun: function() {
		var tiddlers = [];
		// generate Site*itle
		$.each(["SiteTitle", "SiteSubtitle"], function(i, item) {
			var tid = new Tiddler(item);
			tid.text = plugin[item].format([currentSpace.name]);
			tiddlers.push.apply(tiddlers,
				plugin.makeTiddlerIfNot(tid));
		});
		// generate public ColorPalette
		var tid = new Tiddler("ColorPalette");
		tid.text = config.macros.RandomColorPalette.generatePalette({
			saturation_pale: 0.67, saturation_light: 0.53,
			saturation_mid: 0.43, saturation_dark: 0.06,
			pale: 0.99, light: 0.85, mid: 0.5, dark: 0.31
		},
			false);
		tiddlers.push.apply(tiddlers, plugin.makeTiddlerIfNot(tid));
		this.createAvatar();
		this.setupMarkupPreHead();
		return tiddlers;
	},
	// remove _cookie slices (TiddlyWiki 2.6.2 beta 6 remnants)
	purgeSystemSettings: function() {
		var ss = store.getTiddler("SystemSettings");
		if(ss) {
			var lines = ss.text.split("\n");
			var persistentOptions = $.grep(lines, function(line, i) {
				return line.indexOf("_cookie:") == -1;
			});
			ss.text = persistentOptions.join("\n");
			ss = store.saveTiddler(ss);
			autoSaveChanges(null, [ss]);
		}
	},
	createAvatar: function() {
		var avatar = "SiteIcon";
		var host = tweb.host;
		var notify = function(xhr, error, exc) {
			displayMessage("ERROR: could not create avatar - " + // TODO: i18n
				"%0: %1".format([xhr.statusText, xhr.responseText]));
			// TODO: resolve!?
		};

		var pubBag = tiddlyspace.getCurrentBag("public");
		var tid = new tiddlyweb.Tiddler(avatar);
		tid.bag = new tiddlyweb.Bag(pubBag, host);

		var callback = function(data, status, xhr) {}; // avatar already exists; do nothing
		var errback = function(xhr, error, exc) {
			if(xhr.status != 404) {
				return;
			}
			// copy default avatar
			var _notify = function(tid, status, xhr) {
				displayMessage("created avatar"); // TODO: i18n
				var image = config.macros.image;
				if(image && image.refreshImage) {
					var uri = "/%0/tiddlers/SiteIcon".
						format(tiddlyspace.getCurrentWorkspace("public"));
					image.refreshImage(uri);
					image.refreshImage("SiteIcon");
				}
			};
			var _callback = function(tid, status, xhr) {
				tid.title = avatar;
				tid.bag.name = pubBag;
				delete tid.etag;
				tid.put(_notify, notify); // TODO: add to current session document (via adaptor?)
			};
			tweb.getUserInfo(function(user) {
				var avatarTitle = currentSpace.name == user.name ?
					"defaultUserIcon" : "defaultSiteIcon";
				var tid = new tiddlyweb.Tiddler(avatarTitle);
				tid.bag = new tiddlyweb.Bag("common", host);
				tid.get(_callback, notify);
			});
		};
		tid.get(callback, errback);
	},
	savePublicTiddlerText: function(title, text, pubWorkspace) {
		var tid = new Tiddler(title);
		tid.text = text;
		tid.tags = ["excludeLists"];
		tid.fields = $.extend({}, config.defaultCustomFields);
		tid.fields["server.workspace"] = pubWorkspace;
		tid.fields["server.page.revision"] = "false";
		tid = store.saveTiddler(tid);
		autoSaveChanges(null, [tid]);
	},
	setupMarkupPreHead: function() {
		var pubWorkspace = tiddlyspace.getCurrentWorkspace("public");
		var existing = store.getTiddler("MarkupPreHead");
		if(!existing || existing.fields["server.workspace"] != pubWorkspace) {
			var context = this;
			tweb.getStatus(function(status) {
				var text = markupPreHead.format(currentSpace.name,
					tiddlyspace.getHost(status.server_host, currentSpace.name));
				context.savePublicTiddlerText("MarkupPreHead", text,
					pubWorkspace);
			});
		}
		// also set up DefaultTiddlers
		var title = "DefaultTiddlers";
		existing = store.getTiddler(title) || new Tiddler(title);
		if(existing.fields["server.workspace"] != pubWorkspace) {
			var text = existing.text || store.getShadowTiddlerText(title);
			this.savePublicTiddlerText(title, text, pubWorkspace);
		}
	}
};

$(document).bind("startup", plugin.dispatch);

})(jQuery);
//}}}

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Experience mSOX {INDEPENDENT mSOX ~ Antimicin A ~ Hoechst} 

Procedure:
1. Equilibrate all materials and prepare solutions to 37 °C prior to use. Cells should be seeded in microplate ~150 000 cells/well. The plates must be treated with Cel-Tak. Cell Line U-937 ATCC #Cat.No.: CRL-1593.2 human monocytes.

2. Prepare the tubes in order:

[[TUBE 1]] add 13 µL (of 5 mM stock mitoSOX ) in 2600 µL. Rezult ->{ [25µM] mitoSOX}.

[[TUBE 2]] add 130 µL (of 1mM Antimicin -A stock) in 1300 µL from TUBE1 
Rezult-> {mitoSOX~ [100µM] Antimicin A }.
                 
[[TUBE 3]] add 10 µL (of Hoechst stock) in 5000 µL Rezult-> {~Hoechst} .  

[[TUBE 4]] add 130 µL (of 1mM Antimicin -A stock) in 1300 µL Assay Buffer 
Rezult-> {~ [100µM] Antimicin A }.


3. Prepare black plate
(A) Add 98.42 µL Cell-Tak in 1000 µL water and place 10 µL diluted Cell-Tak into each well.
(B) Add 20 µL of bicarbonate buffer to each well.
(C) Shake delicate.
(D) Allow at least 20 minutes for adsorption.
(E) Flick or aspirate off the Cell-Tak solution and wash with 100 µL of distiled water, air dry before storing at 2-8 °C. 

4. Count - Cells should be seeded in microplate ~150 000 cells/well.

5. Centrifuge the plate at 200 rcf for 30 sec, rotate the plate 180
and centrifuge again at 300 rcf for 30 sec. EppendorfCentrifuge 5430R,
with rotor A-2-MTP #Cat.No.: 5430/5430 START / STOP / OPEN.

6. Treat one vertical line (STIMULATION line) of wells with 200 µL/well from TUBE 2 {mitoSOX~ [100µM] Antimicin A }.
7. Treat SAMPLE line of wells with 200 µL/well from TUBE  1 { [25µM] mitoSOX}. 
8. Add 200 µL/well Assay Buffer for blank line.
9. Treat Hoechst line of wells with 200 µL/well from TUBE 3  {~Hoechst} .


10. Incubate for 40 minutes at 37 °C in dark.

11. Wash carefully 3 times with warm Assay Buffer.

12. Treat one vertical line (STIMULATION line) of wells with 200 µL/well from TUBE 4  {~ [100µM] Antimicin A }.

13 . Read (Scan T1) the plate on a fluorescence plate reader with settings suitable for: 

mitoSOX510 (bottom, Ex: 510 nm, Em: 580 nm) [Gain 200]

Hoechst (bottom, Ex: 354nm, Em: 442nm) [Gain 92]

14. Incubate again (60-180 minutes) at 37 °C in dark. Repeat  Scan 2.



Preparation of:

Assay Buffer "Buffer-BSA"for 200 mL pH 7.4 (with 1M KOH):
[I] (80 mM) NaCl [FM:58.44] 0.93504 g {#  Fisher Cat. No: S2713}
[II] (75 mM) KCl [FM:74.55] 1.118 g {# Sigma Cat. No: P-4504}
[III] (25 mM) D-glucose [FM:180.16] 0.9008 g {#  Cat. No: 158968-500G}
[IV] (25 mM) HEPES [FM:238.30] 1.1915 g {{# Sigma Cat. No :H3375-250G}
filter 0.20 µm { # 83.1826.001} alicot in red tubes 50mL [ -4°C]
[V] (0.2%) fresh BSA [from -4°C] 0.100 g in 50 mL Buffer
(powder weighed before and distributed in eppendorf ready to use)
[VI](1M KOH) [FM:56.11] 2.8055 g {# Sigma Cat. No: P-1767-1kg} in 50 mL .

MitoSOX {# Molecular Probe  Cat.No : M36008}
www.lifetechnologies.com MW: 759 ((recomand [0.1 - 25 µM]))
Stock concentration: 5 mM (add 13 µL DMSO in original tube 50 µg)
Preparation of (25 µM) mitoSOX Working Solution:
add 13 µL (of 5 mM stock) in 2600 µL PBS {1/2_1/2}


Antimycin A (Ant-A) from Streptomyces sp. { Sigma # Cat.No: A8674-100MG}
store -20 °C.
Ant-A Stock concentration (1mM):
 Formula Weight: 548.63 g/mol Mass: 0.01204 g
Vol: 21.94 mL (dilute in 1 mL EtOH + 20.94 mL PBS) filter 0.22um
alicote and store -20 °C.
Ant-A Working Solution 100µM: add 130 µL stock (1mM) in 1300 µL Assay Buffer.

Hoechst 33342 [MW: 561.93] {Sigma #Cat. No:B2261} (bisBenzimide H 33342 trihydrochloride) B2261-25MG (36.80$CAD) (store at 4°C in the dark) soluble in H2O
[I] (1 µg/µL) Stock concentration: 1 mg/mL (1 µg/µL)
[II] (1 µg/mL) Final Solution (Working Solution): Hoechst 33342 : add 10 µL stock) in 1 mL Buffer-BSA + 9 mL.

http://www.lonza.com/products-services/bio-research/transfection/generation-of-ipscs.aspx

!iPSC Generation 

For iPSC generation, various adult cell types including peripheral blood mononuclear cells (PBMCs), fibroblasts or CD34+ hematopoietic progenitor cells can be reprogrammed to a pluripotent state by introduction of defined transcription factors.  The resulting induced pluripotent stem cells (iPSCs) appear to be phenotypically and functionally equivalent to human embryonic stem cells (hESCs). The ability of hESCs and iPSCs to self-renew in culture and their potential to differentiate into cell types from all three germ layers makes them a powerful research tool.  

!iPSC generation and potential applications:

Identifying the mechanisms of human development
Generating new models to study human disease pathogenesis
Production of specific cell types for in vitro drug screening and toxicity studies  
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!Nucleofector™ Technology for iPSC Generation

For human cells, this cellular reprogramming process was first described in 2007 by two independent research groups (Yu J et al. (2007) Science 318 (5858): 1917–1920; Takahashi K et al. (2007) Cell 131 (5): 861–872). These reprogramming factors were initially transferred into the somatic cells by retroviral transduction, thereby diminishing their applicability to the clinic. Lonza’s Nucleofector™ Technology has been demonstrated to be a convenient, efficient, and cost-effective non-viral alternative for iPSC generation and is currently being used by leading scientists around the world.
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Guidelines for iPSC Generation from Various Starting Cell Types
a) Human PBMCs
For reprogramming of peripheral blood mononuclear cells (PBMCs), Lonza’s Pluripotent Stem Cell Innovation Team has developed an optimized protocol using the 4D-Nucleofector™ System and episomal vectors. The protocol is accompanied by supporting products, i.e. the L7™ PBMC Reprogramming Bundle. 
Positive control cells:	 	Human Peripheral Blood Mononuclear Cells
Cell-specific media:	 	L7™ PBMC Priming-Recovery Kit 
4D-Nucleofector™ Kit:	 	P3 Primary Cell 4D-Nucleofector™ Kit 
iPSC Culture:	 	L7™ hPSC Culture System 

a) Human PBMCs
b) Human fibroblasts
c) Human CD34+ hematopoietic progenitors
d1) Human Keratinocytes
d2) Human Bone Marrow Mononuclear Cells
d3) Human Neural Progenitor Cells 
d4) Human Adipose-derived Stem Cells

!Need exosomes? ExoQuick
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http://en.wikipedia.org/wiki/Hematopoietic_stem_cell

In reference to phenotype, hematopoeitic stem cells are identified by their small size, lack of lineage (lin) markers, low staining (side population) with vital dyes such as rhodamine 123 (rhodamineDULL, also called rholo) or Hoechst 33342, and presence of various antigenic markers on their surface.

Purification of hematopoietic stem cells using the side population. 2006 Hematopoietic stem cells (HSCs) primarily reside in bone marrow, are defined by their ability to maintain blood homeostasis, and replenish themselves through self-renewal. Although HSC purification schemes vary from laboratory to laboratory, the resulting cell populations are similar, if not the same. This chapter will discuss different enrichment methods for HSCs and provide a detailed protocol for staining HSC with Hoechst 33342 for the side population (SP). PMID: 17161700

The ABCG2 transporter is an efficient Hoechst 33342 efflux pump and is preferentially expressed by immature human hematopoietic progenitors

There are many differences between the human and mice hematopoietic cell markers for the commonly accepted type of hematopoietic stem cells.

Mouse HSC : CD34lo/−, SCA-1+, Thy1.1+/lo, CD38+, C-kit+, lin−
Human HSC : CD34+, CD59+, Thy1/CD90+, CD38lo/−, C-kit/CD117+, lin−

HUMAN The CD34 MicroBead Kit has been developed for the positive selection of CD34+ hematopoietic stem and progenitor cells in a single step. CD34+ cells can be isolated from: peripheral blood (PBMCs), bone marrow, leukapheresis product, cord blood, differentiated ES and iPS cell lines. 130-046-702

MOUSE CD117 (c-kit) MicroBeads have been developed for the positive selection of hematopoietic stem and progenitor cells from mouse bone marrow or differentiated embryonic stem cell cultures. In addition, CD117 MicroBeads have been successfully used for the isolation of a variety of tissue stem cells, e.g. amniotic fluid-derived stem cells

Hematopoietic stem cells (HSC) are rare with estimated frequencies of 1 in 10,000 bone marrow cells and 1 in every 100,000 blood cells. The most important characteristic of HSC is their capacity to provide complete restoration of all blood cell lineages after bone marrow ablation. Therefore they are considered as the ideal targets for various clinical applications including stem cell transplantation and gene therapy. In adult mice and men, the main stem cell source is the bone marrow. For clinical applications HSC derived from umbilical cord blood (UCB) and G-CSF mobilized peripheral blood (PB) have been demonstrated to have several advantages compared to bone marrow; therefore, they are slowly replacing BM as alternative source of stem cells. The mouse is the model organism of choice for immunological and hematological research; therefore, studies of murine HSC are an important research topic. PMID: 19110616

The future direction of the study of hematopoietic stem cells will probably make use of pluripotent stem cells to yield specific immune cell lineages and eventual clinical applications.
fPMID: 25889009

Specifically, we elaborate on the role of TLR4 and its ligands on proliferation, differentiation and migration of mesenchymal stem cells, hematopoietic stem cells as well as neural stem cells.
PMID: 25865145

Mesenchymal stem cells (MSCs) are adult stem cells that can be isolated from most adult tissues, including bone marrow, adipose, liver, amniotic fluid, lung, skeletal muscle and kidney. The term MSC is currently being used to represent both mesenchymal stem cells and multipotent mesenchymal stromal cells. Numerous reports on systemic administration of MSCs leading to functional improvements based on the paradigm of engraftment and differentiation have been published. However, it is not only difficult to demonstrate extensive engraftment of cells, but also no convincing clinical results have been generated from phase 3 trials as of yet and prolonged responses to therapy have been noted after identification of MSCs had discontinued. It is now clear that there is another mechanism by which MSCs exert their reparative benefits. Recently, MSCs have been shown to possess immunomodulatory properties. These include suppression of T cell proliferation, influencing dendritic cell maturation and function, suppression of B cell proliferation and terminal differentiation, and immune modulation of other immune cells such as NK cells and macrophages. In terms of the clinical applications of MSCs, they are being tested in four main areas: tissue regeneration for cartilage, bone, muscle, tendon and neuronal cells; as cell vehicles for gene therapy; enhancement of hematopoietic stem cell engraftment; and treatment of immune diseases such as graft-versus-host disease, rheumatoid arthritis, experimental autoimmune encephalomyelitis, sepsis, acute pancreatitis and multiple sclerosis. In this review, the mechanisms of immunomodulatory effects of MSCs and examples of animal and clinical uses of their immunomodulatory effects are described. PMID: 22370776

how to deliver genes in mice targeting hematopoietic cells
I've tried lentiviral transduction, basing on several experiments using CD34+ HSCs from different donors, the efficiency varied from 18 to 44%. Median is about 33%. I wouldnt say its much but it would be sufficient for majority of experiments that I was intending to do. I am not sure about what you are hoping to do. If the delivered gene is fluorescent-tagged then you can enrich the transduced cells to almost 100% n use it for assays that are planning to do, if such a high percent of gene delivery is needed.

NOD/SCID mice are completely immuno-deficient (they have no mature immune cells and have many defects in cytokine pathways and innate immunity). By transplanting them with human cell, you will create a "human immune system" in them.
Mice treated with ciclosporine are only immuno-suppressed (you mainly impair T-ell immunity). I'm not sure there is an interest in treating them before transplantation (with TBI as conditionning), but you will definitely need to treat them after in order to prevent rejection.

Some hematologists believe that the risk of relapse can be reduced by performing splenectomy before allogeneic hematopoietic stem cell transplantation in patients with CMML, and it is considered to help with reducing the leukemic burden; however, I am not sure about this argument.
The risk of leaving a massive spleen in a patient about to undergo allogeneic BMT is of engraftment in the spleen. This is not only seen in patients with PMF, but also with other haematological disorders associated with massive splenomegaly.

sca1
The whole hearts extracted from male C57BL6 mice (12 weeks old) were perfused and washed several times with ice-cold PBS to remove the blood cells. Aorta, pulmonary artery, and pericardium were removed carefully. The hearts were minced and digested for 20-minutes at 37°C with 0.1% type-II collagenase (Invitrogen) and 0.01% DNAse-I (Worthington Biochemical Corporation). The cells were passed through 40 µm filter, fractionated with 70%Percoll (Fluka) and cultured in maintenance medium containing serum-free DMEM/F12 (Invitrogen) supplemented with B27 (Invitrogen), 20 ng/ml epidermal growth factor (EGF; Sigma), and 40 ng/ml basic fibroblast growth factor (bFGF; PeproTech). The cells were collected 1-week later and re-seeded on new culture dishes with serum-free maintenance medium at a low density (100 cells/cm2) to initiate colony formation. Sixteen days later, the colonies thus obtained were transferred into 24-well dish and cultured individually in expansion medium containing DMEM/F12 (Invitrogen) supplemented with 2%FBS, B27-Supplement (Invitrogen), 20 ng/ml EGF (Sigma), 40 ng/ml bFGF (PeproTech), and 10 ng/ml leukemia inhibitory factor (LIF; Chemicon). All colony-derived cells were re-seeded on new dishes after they reached 90–100% confluence and were maintained with expansion medium. i agrre withHaider Sabah Kadhim tha best protocol with Sca-1+ with Magnetic Cell Sorting system anti-Sca-1 MicroBead Kit (Miltenyi Biotec)
For Differentiation assay
These cells were cultured in specific differentiation media for smooth muscle, endothelial cells, cardiomyocyte, osteogenic, chondrogenic, and adipogenic differentiation and detected by specific staining as described earlier
ells will bee initially seeded at a density of 1 × 10^4 cells/cm^2 in normal medium, then converted into specific differentiation medium when they approached 80-90% confluence. For smooth muscle cell induction, cellswill be cultured in DMEM-F12 medium supplemented with 10 ng/ml transforming growth factor-β1 (TGF-β1) for 10 days. For endothelial cell induction, cells will be cultured in EBM-2 medium plus the EGM-2 Single Quots kit but without hydrocortisone, plus 20 ng/ml vascular endothelial growth factor-165 (VEGF165), and will be grown on fibronectin-coated dishes for 14 days. For cardiomyocyte induction, cells will be cultured with DMEM/F12 supplemented with 2% FBS, 2% B27, 100 ng/ml bone morphogenetic protein-2 (BMP-2), and 100 ng/ml fibroblast growth factor-4 (FGF-4) on gelatin-coated dishes for 14 days. In control group, cells will be cultured in the same medium for differentiation without growth factors. All the media will bechanged every 3 days.

You mix two questions: 1) to detect the hematopoietic stem cell after injection in the tissue, and 2) to detect the degree of their participation in the newly formed tissue.

Ad 1) you can inject purified HSCs either from GFP (or YFP, RFP...) mouse strains, or you can stain them with CFSE or similar stain. Then you will make tissue section and look at fluorescent microscope.

Ad 2) you don't look at HSCs but on their progeny. In mouse, the mostly used model are CD45.1 and CD45.2 congenic mouse strains. You will collect cells (bone marrow, spleen...), stain for CD45.1 and CD45.2 and look at the flow cytometer for chimerism. Be careful with GFP and other GMO strains. The insert can compromise the HSC quality and thus its competition with host surviving stem cells. Test your model for fitness of HSCs by competitive repopulation assay first.

highly purified CD34+Thy-1+ hematopoietic stem cells

Hematopoietic Stem Cells
With more than 50 years of experience studying blood-forming stem cells called hematopoietic stem cells, scientists have developed sufficient understanding to actually use them as a therapy. Currently, no other type of stem cell, adult, fetal or embryonic, has attained such status. Hematopoietic stem cell transplants are now routinely used to treat patients with cancers and other disorders of the blood and immune systems. Recently, researchers have observed in animal studies that hematopoietic stem cells appear to be able to form other kinds of cells, such as muscle, blood vessels, and bone. If this can be applied to human cells, it may eventually be possible to use hematopoietic stem cells to replace a wider array of cells and tissues than once thought.

Despite the vast experience with hematopoietic stem cells, scientists face major roadblocks in expanding their use beyond the replacement of blood and immune cells. First, hematopoietic stem cells are unable to proliferate (replicate themselves) and differentiate (become specialized to other cell types) in vitro (in the test tube or culture dish). Second, scientists do not yet have an accurate method to distinguish stem cells from other cells recovered from the blood or bone marrow. Until scientists overcome these technical barriers, they believe it is unlikely that hematopoietic stem cells will be applied as cell replacement therapy in diseases such as diabetes, Parkinson's Disease, spinal cord injury, and many others.
Introduction

Blood cells are responsible for constant maintenance and immune protection of every cell type of the body. This relentless and brutal work requires that blood cells, along with skin cells, have the greatest powers of self-renewal of any adult tissue.

The stem cells that form blood and immune cells are known as hematopoietic stem cells (HSCs). They are ultimately responsible for the constant renewal of blood—the production of billions of new blood cells each day. Physicians and basic researchers have known and capitalized on this fact for more than 50 years in treating many diseases. The first evidence and definition of blood-forming stem cells came from studies of people exposed to lethal doses of radiation in 1945.

Basic research soon followed. After duplicating radiation sickness in mice, scientists found they could rescue the mice from death with bone marrow transplants from healthy donor animals. In the early 1960s, Till and McCulloch began analyzing the bone marrow to find out which components were responsible for regenerating blood [56]. They defined what remain the two hallmarks of an HSC: it can renew itself and it can produce cells that give rise to all the different types of blood cells (see Chapter 4. The Adult Stem Cell).
What Is a Hematopoietic Stem Cell?

A hematopoietic stem cell is a cell isolated from the blood or bone marrow that can renew itself, can differentiate to a variety of specialized cells, can mobilize out of the bone marrow into circulating blood, and can undergo programmed cell death, called apoptosis—a process by which cells that are detrimental or unneeded self-destruct.

A major thrust of basic HSC research since the 1960s has been identifying and characterizing these stem cells. Because HSCs look and behave in culture like ordinary white blood cells, this has been a difficult challenge and this makes them difficult to identify by morphology (size and shape). Even today, scientists must rely on cell surface proteins, which serve, only roughly, as markers of white blood cells.

Identifying and characterizing properties of HSCs began with studies in mice, which laid the groundwork for human studies. The challenge is formidable as about 1 in every 10,000 to 15,000 bone marrow cells is thought to be a stem cell. In the blood stream the proportion falls to 1 in 100,000 blood cells. To this end, scientists began to develop tests for proving the self-renewal and the plasticity of HSCs.

The "gold standard" for proving that a cell derived from mouse bone marrow is indeed an HSC is still based on the same proof described above and used in mice many years ago. That is, the cells are injected into a mouse that has received a dose of irradiation sufficient to kill its own blood-producing cells. If the mouse recovers and all types of blood cells reappear (bearing a genetic marker from the donor animal), the transplanted cells are deemed to have included stem cells.

These studies have revealed that there appear to be two kinds of HSCs. If bone marrow cells from the transplanted mouse can, in turn, be transplanted to another lethally irradiated mouse and restore its hematopoietic system over some months, they are considered to be long-term stem cells that are capable of self-renewal. Other cells from bone marrow can immediately regenerate all the different types of blood cells, but under normal circumstances cannot renew themselves over the long term, and these are referred to as short-term progenitor or precursor cells. Progenitor or precursor cells are relatively immature cells that are precursors to a fully differentiated cell of the same tissue type. They are capable of proliferating, but they have a limited capacity to differentiate into more than one cell type as HSCs do. For example, a blood progenitor cell may only be able to make a red blood cell (see Figure 5.1. Hematopoietic and Stromal Stem Cell Differentiation).
Hematopoietic and Stromal Stem Cell Differentiation

Figure 5.1. Hematopoietic and Stromal Stem Cell Differentiation.

Harrison et al. write that short-term blood-progenitor cells in a mouse may restore hematopoiesis for three to four months [36]. The longevity of short-term stem cells for humans is not firmly established. A true stem cell, capable of self-renewal, must be able to renew itself for the entire lifespan of an organism. It is these long-term replicating HSCs that are most important for developing HSC-based cell therapies. Unfortunately, to date, researchers cannot distinguish the long-term from the short-term cells when they are removed from the bloodstream or bone marrow.

The central problem of the assays used to identify long-term stem cells and short-term progenitor cells is that they are difficult, expensive, and time-consuming and cannot be done in humans. A few assays are now available that test cells in culture for their ability to form primitive and long-lasting colonies of cells, but these tests are not accepted as proof that a cell is a long-term stem cell. Some genetically altered mice can receive transplanted human HSCs to test the cells' self-renewal and hematopoietic capabilities during the life of a mouse, but the relevance of this test for the cells in humans—who may live for decades—is open to question.

The difficulty of HSC assays has contributed to two mutually confounding research problems: definitively identifying the HSC and getting it to proliferate, or increase its numbers, in a culture dish. More rapid research progress on characterizing and using HSCs would be possible if they could be readily grown in the laboratory. Conversely, progress in identifying growth conditions suitable for HSCs and getting the cells to multiply would move more quickly if scientists could reliably and readily identify true HSCs.
Can Cell Markers Be Used to Identify Hematopoietic Stem Cells?

HSCs have an identity problem. First, the ones with long-term replicating ability are rare. Second, there are multiple types of stem cells. And, third, the stem cells look like many other blood or bone marrow cells. So how do researchers find the desired cell populations? The most common approach is through markers that appear on the surface of cells. (For a more detailed discussion, see Appendix E.i. Markers: How Do Researchers Use Them to Identify Stem Cells?) These are useful, but not perfect tools for the research laboratory.

In 1988, in an effort to develop a reliable means of identifying these cells, Irving Weissman and his collaborators focused attention on a set of protein markers on the surface of mouse blood cells that were associated with increased likelihood that the cell was a long-term HSC [50]. Four years later, the laboratory proposed a comparable set of markers for the human stem cell [3]. Weissman proposes the markers shown in Table 5.1 as the closest markers for mouse and human HSCs [62].
Table 5.1. Proposed cell-surface markers of undifferentiated hematopoietic stem cells. Listed here are cell surface markers found on mouse and human hematopoietic stem cells as they exist in their undifferentiated state in vivo and in vitro. As these cells begin to develop as distinct cell lineages the cell surface markers are no longer identified.
Mouse Human
CD34low/- CD 34+
SCA-1+ CD59+*
Thy1+/low Thy1+
CD38+ CD38low/-
C-kit+ C-kit-/low
lin-* lin-**

* Only one of a family of CD59 markers has thus far been evaluated.
** Lin- cells lack 13 to 14 different mature blood-lineage markers.

Such cell markers can be tagged with monoclonal antibodies bearing a fluorescent label and culled out of bone marrow with fluorescence-activated cell sorting (FACS).

The groups of cells thus sorted by surface markers are heterogeneous and include some cells that are true, long-term self-renewing stem cells, some shorter-term progenitors, and some non-stem cells. Weissman's group showed that as few as five genetically tagged cells, injected along with larger doses of stem cells into lethally irradiated mice, could establish themselves and produce marked donor cells in all blood cell lineages for the lifetime of the mouse. A single tagged cell could produce all lineages for as many as seven weeks, and 30 purified cells were sufficient to rescue mice and fully repopulate the bone marrow without extra doses of backup cells to rescue the mice [49]. Despite these efforts, researchers remain divided on the most consistently expressed set of HSC markers [27, 32]. Connie Eaves of the University of British Columbia says none of the markers are tied to unique stem cell functions or truly define the stem cell [14]. "Almost every marker I am aware of has been shown to be fickle," she says.

More recently, Diane Krause and her colleagues at Yale University, New York University, and Johns Hopkins University, used a new technique to home in on a single cell capable of reconstituting all blood cell lineages of an irradiated mouse [27]. After marking bone marrow cells from donor male mice with a nontoxic dye, they injected the cells into female recipient mice that had been given a lethal dose of radiation. Over the next two days, some of the injected cells migrated, or homed, to the bone marrow of the recipients and did not divide; when transplanted into a second set of irradiated female mice, they eventually proved to be a concentrated pool of self-renewing stem cells. The cells also reconstituted blood production. The scientists estimate that their technique concentrated the long-term stem cells 500 to 1,000- fold compared with bone marrow.
What Are the Sources of Hematopoietic Stem Cells?
Bone Marrow

The classic source of hematopoietic stem cells (HSCs) is bone marrow. For more than 40 years, doctors performed bone marrow transplants by anesthetizing the stem cell donor, puncturing a bone—typically a hipbone—and drawing out the bone marrow cells with a syringe. About 1 in every 100,000 cells in the marrow is a long-term, blood-forming stem cell; other cells present include stromal cells, stromal stem cells, blood progenitor cells, and mature and maturing white and red blood cells.
Peripheral Blood

As a source of HSCs for medical treatments, bone marrow retrieval directly from bone is quickly fading into history. For clinical transplantation of human HSCs, doctors now prefer to harvest donor cells from peripheral, circulating blood. It has been known for decades that a small number of stem and progenitor cells circulate in the bloodstream, but in the past 10 years, researchers have found that they can coax the cells to migrate from marrow to blood in greater numbers by injecting the donor with a cytokine, such as granulocyte-colony stimulating factor (GCSF). The donor is injected with GCSF a few days before the cell harvest. To collect the cells, doctors insert an intravenous tube into the donor's vein and pass his blood through a filtering system that pulls out CD34+ white blood cells and returns the red blood cells to the donor. Of the cells collected, just 5 to 20 percent will be true HSCs. Thus, when medical researchers commonly refer to peripherally harvested "stem cells," this is something of a misnomer. As is true for bone marrow, the CD34+ cells are a mixture of stem cells, progenitors, and white blood cells of various degrees of maturity.

In the past three years, the majority of autologous (where the donor and recipient are the same person) and allogeneic (where the donor and recipient are different individuals) "bone marrow" transplants have actually been white blood cells drawn from peripheral circulation, not bone marrow. Richard Childs, an intramural investigator at the NIH, says peripheral harvest of cells is easier on the donor—with minimal pain, no anesthesia, and no hospital stay—but also yields better cells for transplants [6]. Childs points to evidence that patients receiving peripherally harvested cells have higher survival rates than bone marrow recipients do. The peripherally harvested cells contain twice as many HSCs as stem cells taken from bone marrow and engraft more quickly. This means patients may recover white blood cells, platelets, and their immune and clotting protection several days faster than they would with a bone marrow graft. Scientists at Stanford report that highly purified, mobilized peripheral cells that have CD34+ and Thy-1+ surface markers engraft swiftly and without complication in breast cancer patients receiving an autologous transplant of the cells after intensive chemotherapy [41].
Umbilical Cord Blood

In the late 1980s and early 1990s, physicians began to recognize that blood from the human umbilical cord and placenta was a rich source of HSCs. This tissue supports the developing fetus during pregnancy, is delivered along with the baby, and, is usually discarded. Since the first successful umbilical cord blood transplants in children with Fanconi anemia, the collection and therapeutic use of these cells has grown quickly. The New York Blood Center's Placental Blood Program, supported by NIH, is the largest U.S. public umbilical cord blood bank and now has 13,000 donations available for transplantation into small patients who need HSCs. Since it began collecting umbilical cord blood in 1992, the center has provided thousands of cord blood units to patients. Umbilical cord blood recipients—typically children—have now lived in excess of eight years, relying on the HSCs from an umbilical cord blood transplant [31, 57].

There is a substantial amount of research being conducted on umbilical cord blood to search for ways to expand the number of HSCs and compare and contrast the biological properties of cord blood with adult bone marrow stem cells. There have been suggestions that umbilical cord blood contains stem cells that have the capability of developing cells of multiple germ layers (multipotent) or even all germ layers, e.g., endoderm, ectoderm, and mesoderm (pluripotent). To date, there is no published scientific evidence to support this claim. While umbilical cord blood represents a valuable resource for HSCs, research data have not conclusively shown qualitative differences in the differentiated cells produced between this source of HSCs and peripheral blood and bone marrow.
Fetal Hematopoietic System

An important source of HSCs in research, but not in clinical use, is the developing blood-producing tissues of fetal animals. Hematopoietic cells appear early in the development of all vertebrates. Most extensively studied in the mouse, HSC production sweeps through the developing embryo and fetus in waves. Beginning at about day 7 in the life of the mouse embryo, the earliest hematopoietic activity is indicated by the appearance of blood islands in the yolk sac (see Appendix A. Early Development). The point is disputed, but some scientists contend that yolk sac blood production is transient and will generate some blood cells for the embryo, but probably not the bulk of the HSCs for the adult animal [12, 26, 44]. According to this proposed scenario, most stem cells that will be found in the adult bone marrow and circulation are derived from cells that appear slightly later and in a different location. This other wave of hematopoietic stem cell production occurs in the AGM—the region where the aorta, gonads, and fetal kidney (mesonephros) begin to develop. The cells that give rise to the HSCs in the AGM may also give rise to endothelial cells that line blood vessels. [13]. These HSCs arise at around days 10 to 11 in the mouse embryo (weeks 4 to 6 in human gestation), divide, and within a couple of days, migrate to the liver [11]. The HSCs in the liver continue to divide and migrate, spreading to the spleen, thymus, and—near the time of birth—to the bone marrow.

Whereas an increasing body of fetal HSC research is emerging from mice and other animals, there is much less information about human fetal and embryonic HSCs. Scientists in Europe, including Coulombel, Peault, and colleagues, first described hematopoietic precursors in human embryos only a few years ago [20, 53]. Most recently, Gallacher and others reported finding HSCs circulating in the blood of 12- to 18-week aborted human fetuses [16, 28, 54] that was rich in HSCs. These circulating cells had different markers than did cells from fetal liver, fetal bone marrow, or umbilical cord blood.
Embryonic Stem Cells and Embryonic Germ Cells

In 1985, it was shown that it is possible to obtain precursors to many different blood cells from mouse embryonic stem cells [9]. Perkins was able to obtain all the major lineages of progenitor cells from mouse embryoid bodies, even without adding hematopoietic growth factors [45].

Mouse embryonic stem cells in culture, given the right growth factors, can generate most, if not all, the different blood cell types [19], but no one has yet achieved the "gold standard" of proof that they can produce long-term HSCs from these sources—namely by obtaining cells that can be transplanted into lethally irradiated mice to reconstitute long-term hematopoiesis [32].

The picture for human embryonic stem and germ cells is even less clear. Scientists from James Thomson's laboratory reported in 1999 that they were able to direct human embryonic stem cells—which can now be cultured in the lab—to produce blood progenitor cells [23]. Israeli scientists reported that they had induced human ES cells to produce hematopoietic cells, as evidenced by their production of a blood protein, gamma-globin [21]. Cell lines derived from human embryonic germ cells (cultured cells derived originally from cells in the embryo that would ultimately give rise to eggs or sperm) that are cultured under certain conditions will produce CD34+ cells [47]. The blood-producing cells derived from human ES and embryonic germ (EG) cells have not been rigorously tested for long-term self-renewal or the ability to give rise to all the different blood cells.
The Stem Cell Database

http://stemcell.princeton.edu

Ihor Lemischka and colleagues at Princeton University and the Computational Biology and Informatics Laboratory at the University of Pennsylvania are collaborating to record all the findings about hematopoietic stem cell (HSC) genes and markers in the Stem Cell Database.

The collaborators started the database five years ago. Its goal is listing and annotating all the genes that are differentially expressed in mouse liver HSCs and their cellular progeny. The database is growing to include human HSCs from different blood sources, and a related database, constructed in collaboration with Kateri A. Moore, also at Princeton University, will document all genes active in stromal cells, which provide the microenvironment in which stem cells are maintained. The combined power of the two databases, along with new tools and methods for studying molecular biology, will help researchers put together a complete portrait of the hematopoietic stem cell and how it works. The databases will continue to grow and take advantage of other efforts, such as those to complete the gene sequences of mammals. Data will be publicly available to researchers around the world.

As sketchy as data may be on the hematopoietic powers of human ES and EG cells, blood experts are intrigued by their clinical potential and their potential to answer basic questions on renewal and differentiation of HSCs [19]. Connie Eaves, who has made comparisons of HSCs from fetal liver, cord blood, and adult bone marrow, expects cells derived from embryonic tissues to have some interesting traits. She says actively dividing blood-producing cells from ES cell culture—if they are like other dividing cells—will not themselves engraft or rescue hematopoiesis in an animal whose bone marrow has been destroyed. However, they may play a critical role in developing an abundant supply of HSCs grown in the lab. Indications are that the dividing cells will also more readily lend themselves to gene manipulations than do adult HSCs. Eaves anticipates that HSCs derived from early embryo sources will be developmentally more "plastic" than later HSCs, and more capable of self-renewal [14].
How Do HSCs from Varying Sources Differ?

Scientists in the laboratory and clinic are beginning to measure the differences among HSCs from different sources. In general, they find that HSCs taken from tissues at earlier developmental stages have a greater ability to self-replicate, show different homing and surface characteristics, and are less likely to be rejected by the immune system—making them potentially more useful for therapeutic transplantation.
Stem cell populations of the bone marrow

When do HSCs move from the early locations in the developing fetus to their adult "home" in the bone marrow? European scientists have found that the relative number of CD34+ cells in the collections of cord blood declined with gestational age, but expression of cell-adhesion molecules on these cells increased.

The authors believe these changes reflect preparations for the cells to relocate—from homing in fetal liver to homing in bone marrow [52].

The point is controversial, but a paper by Chen et al. provides evidence that at least in some strains of mice, HSCs from old mice are less able to repopulate bone marrow after transplantation than are cells from young adult mice [5]. Cells from fetal mice were 50 to 100 percent better at repopulating marrow than were cells from young adult mice were. The specific potential for repopulating marrow appears to be strain-specific, but the scientists found this potential declined with age for both strains. Other scientists find no decreases or sometimes increases in numbers of HSCs with age [51]. Because of the difficulty in identifying a long-term stem cell, it remains difficult to quantify changes in numbers of HSCs as a person ages.
Effectiveness of Transplants of Adult versus Umbilical Cord Blood Stem Cells

A practical and important difference between HSCs collected from adult human donors and from umbilical cord blood is simply quantitative. Doctors are rarely able to extract more than a few million HSCs from a placenta and umbilical cord—too few to use in a transplant for an adult, who would ideally get 7 to 10 million CD34+ cells per kilogram body weight, but often adequate for a transplant for a child [33, 48].

Leonard Zon says that HSCs from cord blood are less likely to cause a transplantation complication called graft-versus-host disease, in which white blood cells from a donor attack tissues of the recipient [65]. In a recent review of umbilical cord blood transplantation, Laughlin cites evidence that cord blood causes less graft-versus-host disease [31]. Laughlin writes that it is yet to be determined whether umbilical cord blood HSCs are, in fact, longer lived in a transplant recipient.

In lab and mouse-model tests comparing CD34+ cells from human cord with CD34+ cells derived from adult bone marrow, researchers found cord blood had greater proliferation capacity [24]. White blood cells from cord blood engrafted better in a mouse model, which was genetically altered to tolerate the human cells, than did their adult counterparts.
Effectiveness in Transplants of Peripheral Versus Bone Marrow Stem Cells

In addition to being far easier to collect, peripherally harvested white blood cells have other advantages over bone marrow. Cutler and Antin's review says that peripherally harvested cells engraft more quickly, but are more likely to cause graft-versus-host disease [8]. Prospecting for the most receptive HSCs for gene therapy, Orlic and colleagues found that mouse HSCs mobilized with cytokines were more likely to take up genes from a viral vector than were non-mobilized bone marrow HSCs [43].
What Do Hematopoietic Stem Cells Do and What Factors Are Involved in These Activities?

As stated earlier, an HSC in the bone marrow has four actions in its repertoire: 1) it can renew itself, 2) it can differentiate, 3) it can mobilize out of the bone marrow into circulation (or the reverse), or 4) it can undergo programmed cell death, or apoptosis. Understanding the how, when, where, which, and why of this simple repertoire will allow researchers to manipulate and use HSCs for tissue and organ repair.
Self-renewal of Hematopoietic Stem Cells

Scientists have had a tough time trying to grow—or even maintain—true stem cells in culture. This is an important goal because cultures of HSCs that could maintain their characteristic properties of self-renewal and lack of differentiation could provide an unlimited source of cells for therapeutic transplantation and study. When bone marrow or blood cells are observed in culture, one often observes large increases in the number of cells. This usually reflects an increase in differentiation of cells to progenitor cells that can give rise to different lineages of blood cells but cannot renew themselves. True stem cells divide and replace themselves slowly in adult bone marrow.

New tools for gene-expression analysis will now allow scientists to study developmental changes in telomerase activity and telomeres. Telomeres are regions of DNA found at the end of chromosomes that are extended by the enzyme telomerase. Telomerase activity is necessary for cells to proliferate and activity decreases with age leading to shortened telomeres. Scientists hypothesize that declines in stem cell renewal will be associated with declines in telomere length and telomerase activity. Telomerase activity in hematopoietic cells is associated with self-renewal potential [40].

Because self-renewal divisions are rare, hard to induce in culture, and difficult to prove, scientists do not have a definitive answer to the burning question: what puts—or perhaps keeps—HSCs in a self-renewal division mode? HSCs injected into an anemic patient or mouse—or one whose HSCs have otherwise been suppressed or killed—will home to the bone marrow and undergo active division to both replenish all the different types of blood cells and yield additional self-renewing HSCs. But exactly how this happens remains a mystery that scientists are struggling to solve by manipulating cultures of HSCs in the laboratory.

Two recent examples of progress in the culturing studies of mouse HSCs are by Ema and coworkers and Audet and colleagues [2, 15]. Ema et al. found that two cytokines—stem cell factor and thrombo-poietin—efficiently induced an unequal first cell division in which one daughter cell gave rise to repopulating cells with self-renewal potential. Audet et al. found that activation of the signaling molecule gp130 is critical to survival and proliferation of mouse HSCs in culture.

Work with specific cytokines and signaling molecules builds on several earlier studies demonstrating modest increases in the numbers of stem cells that could be induced briefly in culture. For example, Van Zant and colleagues used continuous-perfusion culture and bioreactors in an attempt to boost human HSC numbers in single cord blood samples incubated for one to two weeks [58]. They obtained a 20-fold increase in "long-term culture initiating cells."

More clues on how to increase numbers of stem cells may come from looking at other animals and various developmental stages. During early developmental stages—in the fetal liver, for example—HSCs may undergo more active cell division to increase their numbers, but later in life, they divide far less often [30, 42]. Culturing HSCs from 10- and 11-day-old mouse embryos, Elaine Dzierzak at Erasmus University in the Netherlands finds she can get a 15-fold increase in HSCs within the first 2 or 3 days after she removes the AGM from the embryos [38]. Dzierzak recognizes that this is dramatically different from anything seen with adult stem cells and suggests it is a difference with practical importance. She suspects that the increase is not so much a response to what is going on in the culture but rather, it represents the developmental momentum of this specific embryonic tissue. That is, it is the inevitable consequence of divisions that were cued by that specific embryonic microenvironment. After five days, the number of HSCs plateaus and can be maintained for up to a month. Dzierzak says that the key to understanding how adult-derived HSCs can be expanded and manipulated for clinical purposes may very well be found by defining the cellular composition and complex molecular signals in the AGM region during development [13].

In another approach, Lemischka and coworkers have been able to maintain mouse HSCs for four to seven weeks when they are grown on a clonal line of cells (AFT024) derived from the stroma, the other major cellular constituent of bone marrow [39]. No one knows which specific factors secreted by the stromal cells maintain the stem cells. He says ongoing gene cloning is rapidly zeroing in on novel molecules from the stromal cells that may "talk" to the stem cells and persuade them to remain stem cells—that is, continue to divide and not differentiate.

If stromal factors provide the key to stem cell self-renewal, research on maintaining stromal cells may be an important prerequisite. In 1999, researchers at Osiris Therapeutics and Johns Hopkins University reported culturing and expanding the numbers of mesenchymal stem cells, which produce the stromal environment [46]. Whereas cultured HSCs rush to differentiate and fail to retain primitive, self-renewing cells, the mesenchymal stem cells could be increased in numbers and still retained their powers to generate the full repertoire of descendant lineages.
Differentiation of HSCs into Components of the Blood and Immune System

Producing differentiated white and red blood cells is the real work of HSCs and progenitor cells. M.C. MacKey calculates that in the course of producing a mature, circulating blood cell, the original hematopoietic stem cell will undergo between 17 and 19.5 divisions, "giving a net amplification of between ~170,000 and ~720,000" [35].

Through a series of careful studies of cultured cells—often cells with mutations found in leukemia patients or cells that have been genetically altered—investigators have discovered many key growth factors and cytokines that induce progenitor cells to make different types of blood cells. These factors interact with one another in complex ways to create a system of exquisite genetic control and coordination of blood cell production.
Migration of Hematopoietic Stem Cells Into and Out of Marrow and Tissues

Scientists know that much of the time, HSCs live in intimate connection with the stroma of bone marrow in adults (see Chapter 4. The Adult Stem Cell). But HSCs may also be found in the spleen, in peripheral blood circulation, and other tissues. Connection to the interstices of bone marrow is important to both the engraftment of transplanted cells and to the maintenance of stem cells as a self-renewing population. Connection to stroma is also important to the orderly proliferation, differentiation, and maturation of blood cells [63].

Weissman says HSCs appear to make brief forays out of the marrow into tissues, then duck back into marrow [62]. At this time, scientists do not understand why or how HSCs leave bone marrow or return to it [59]. Scientists find that HSCs that have been mobilized into peripheral circulation are mostly non-dividing cells [64]. They report that adhesion molecules on the stroma, play a role in mobilization, in attachment to the stroma, and in transmitting signals that regulate HSC self-renewal and progenitor differentiation [61].
Apoptosis and Regulation of Hematopoietic Stem Cell Populations

The number of blood cells in the bone marrow and blood is regulated by genetic and molecular mechanisms. How do hematopoietic stem cells know when to stop proliferating? Apoptosis is the process of programmed cell death that leads cells to self-destruct when they are unneeded or detrimental. If there are too few HSCs in the body, more cells divide and boost the numbers. If excess stem cells were injected into an animal, they simply wouldn't divide or would undergo apoptosis and be eliminated [62]. Excess numbers of stem cells in an HSC transplant actually seem to improve the likelihood and speed of engraftment, though there seems to be no rigorous identification of a mechanism for this empirical observation.

The particular signals that trigger apoptosis in HSCs are as yet unknown. One possible signal for apoptosis might be the absence of life-sustaining signals from bone marrow stroma. Michael Wang and others found that when they used antibodies to disrupt the adhesion of HSCs to the stroma via VLA-4/VCAM-1, the cells were predisposed to apoptosis [61].

Understanding the forces at play in HSC apoptosis is important to maintaining or increasing their numbers in culture. For example, without growth factors, supplied in the medium or through serum or other feeder layers of cells, HSCs undergo apoptosis. Domen and Weissman found that stem cells need to get two growth factor signals to continue life and avoid apoptosis: one via a protein called BCL-2, the other from steel factor, which, by itself, induces HSCs to produce progenitor cells but not to self-renew [10].
What Are the Clinical Uses of Hematopoietic Stem Cells?
Leukemia and Lymphoma

Among the first clinical uses of HSCs were the treatment of cancers of the blood—leukemia and lymphoma, which result from the uncontrolled proliferation of white blood cells. In these applications, the patient's own cancerous hematopoietic cells were destroyed via radiation or chemotherapy, then replaced with a bone marrow transplant, or, as is done now, with a transplant of HSCs collected from the peripheral circulation of a matched donor. A matched donor is typically a sister or brother of the patient who has inherited similar human leukocyte antigens (HLAs) on the surface of their cells. Cancers of the blood include acute lymphoblastic leukemia, acute myeloblastic leukemia, chronic myelogenous leukemia (CML), Hodgkin's disease, multiple myeloma, and non-Hodgkin's lymphoma.

Thomas and Clift describe the history of treatment for chronic myeloid leukemia as it moved from largely ineffective chemotherapy to modestly successful use of a cytokine, interferon, to bone marrow trans-plants—first in identical twins, then in HLA-matched siblings [55]. Although there was significant risk of patient death soon after the transplant either from infection or from graft-versus-host disease, for the first time, many patients survived this immediate challenge and had survival times measured in years or even decades, rather than months. The authors write, "In the space of 20 years, marrow transplantation has contributed to the transformation of [chronic myelogenous leukemia] CML from a fatal disease to one that is frequently curable. At the same time, experience acquired in this setting has improved our understanding of many transplant-related problems. It is now clear that morbidity and mortality are not inevitable consequences of allogeneic transplantation, [and] that an allogeneic effect can add to the anti-leukemic power of conditioning regimens…"

In a recent development, CML researchers have taken their knowledge of hematopoietic regulation one step farther. On May 10, 2001, the Food and Drug Administration approved Gleevec™ (imatinib mesylate), a new, rationally designed oral drug for treatment of CML. The new drug specifically targets a mutant protein, produced in CML cancer cells, that sabotages the cell signals controlling orderly division of progenitor cells. By silencing this protein, the new drug turns off cancerous overproduction of white blood cells, so doctors do not have to resort to bone marrow transplantation. At this time, it is unknown whether the new drug will provide sustained remission or will prolong life for CML patients.
Inherited Blood Disorders

Another use of allogeneic bone marrow transplants is in the treatment of hereditary blood disorders, such as different types of inherited anemia (failure to produce blood cells), and inborn errors of metabolism (genetic disorders characterized by defects in key enzymes need to produce essential body components or degrade chemical byproducts). The blood disorders include aplastic anemia, beta-thalassemia, Blackfan-Diamond syndrome, globoid cell leukodystrophy, sickle-cell anemia, severe combined immunodeficiency, X-linked lymphoproliferative syndrome, and Wiskott-Aldrich syndrome. Inborn errors of metabolism that are treated with bone marrow transplants include: Hunter's syndrome, Hurler's syndrome, Lesch Nyhan syndrome, and osteopetrosis. Because bone marrow transplantation has carried a significant risk of death, this is usually a treatment of last resort for otherwise fatal diseases.
Hematopoietic Stem Cell Rescue in Cancer Chemotherapy

Chemotherapy aimed at rapidly dividing cancer cells inevitably hits another target—rapidly dividing hematopoietic cells. Doctors may give cancer patients an autologous stem cell transplant to replace the cells destroyed by chemotherapy. They do this by mobilizing HSCs and collecting them from peripheral blood. The cells are stored while the patient undergoes intensive chemotherapy or radiotherapy to destroy the cancer cells. Once the drugs have washed out of a patient's body, the patient receives a transfusion of his or her stored HSCs. Because patients get their own cells back, there is no chance of immune mismatch or graft-versus-host disease. One problem with the use of autologous HSC transplants in cancer therapy has been that cancer cells are sometimes inadvertently collected and reinfused back into the patient along with the stem cells. One team of investigators finds that they can prevent reintroducing cancer cells by purifying the cells and preserving only the cells that are CD34+, Thy-1+[41].
The National Marrow Donor Program

http://www.marrow.org

Launched in 1987, the National Marrow Donor Program (NMDP) was created to connect patients who need blood-forming stem cells or bone marrow with potential nonrelated donors. About 70 percent of patients who need a life-saving HSC transplant cannot find a match in their own family.

The NMDP is made up of an international network of centers and banks that collect cord blood, bone marrow, and peripherally harvested stem cells and that recruit potential donors. As of February 28, 2001, the NMDP listed 4,291,434 potential donors. Since its start, the Minneapolis-based group has facilitated almost 12,000 transplants—75 percent of them for leukemia. Major recruiting efforts have led to substantial increases in the number of donations from minorities, but the chance that African Americans, Native Americans, Asian/Pacific Islanders, or Hispanics will find a match is still lower than it is for Caucasians.
Graft-Versus-Tumor Treatment of Cancer

One of the most exciting new uses of HSC transplantation puts the cells to work attacking otherwise untreatable tumors. A group of researchers in NIH's intramural research program recently described this approach to treating metastatic kidney cancer [7]. Just under half of the 38 patients treated so far have had their tumors reduced. The research protocol is now expanding to treatment of other solid tumors that resist standard therapy, including cancer of the lung, prostate, ovary, colon, esophagus, liver, and pancreas.

This experimental treatment relies on an allogeneic stem cell transplant from an HLA-matched sibling whose HSCs are collected peripherally. The patient's own immune system is suppressed, but not totally destroyed. The donor's cells are transfused into the patient, and for the next three months, doctors closely monitor the patient's immune cells, using DNA fingerprinting to follow the engraftment of the donor's cells and regrowth of the patient's own blood cells. They must also judiciously suppress the patient's immune system as needed to deter his/her T cells from attacking the graft and to reduce graft-versus-host disease.

A study by Joshi et al. shows that umbilical cord blood and peripherally harvested human HSCs show antitumor activity in the test tube against leukemia cells and breast cancer cells [22]. Grafted into a mouse model that tolerates human cells, HSCs attack human leukemia and breast cancer cells. Although untreated cord blood lacks natural killer (NK) lymphocytes capable of killing tumor cells, researchers have found that at least in the test tube and in mice, they can greatly enhance the activity and numbers of these cells with cytokines IL-15 [22, 34].
Other Applications of Hematopoietic Stem Cells

Substantial basic and limited clinical research exploring the experimental uses of HSCs for other diseases is underway. Among the primary applications are autoimmune diseases, such as diabetes, rheumatoid arthritis, and system lupus erythematosis. Here, the body's immune system turns to destroying body tissues. Experimental approaches similar to those applied above for cancer therapies are being conducted to see if the immune system can be reconstituted or reprogrammed. More detailed discussion on this application is provided in Chapter 6. Autoimmune Diseases and the Promise of Stem Cell-Based Therapies. The use of HSCs as a means to deliver genes to repair damaged cells is another application being explored. The use of HSCs for gene therapies is discussed in detail in Chapter 11. Use of Genetically Modified Stem Cells in Experimental Gene Therapies.
Plasticity of Hematopoietic Stem Cells

A few recent reports indicate that scientists have been able to induce bone marrow or HSCs to differentiate into other types of tissue, such as brain, muscle, and liver cells. These concepts and the experimental evidence supporting this concept are discussed in Chapter 4. The Adult Stem Cell.

Research in a mouse model indicates that cells from grafts of bone marrow or selected HSCs may home to damaged skeletal and cardiac muscle or liver and regenerate those tissues [4, 29]. One recent advance has been in the study of muscular dystrophy, a genetic disease that occurs in young people and leads to progressive weakness of the skeletal muscles. Bittner and colleagues used mdx mice, a genetically modified mouse with muscle cell defects similar to those in human muscular dystrophy. Bone marrow from non-mdx male mice was transplanted into female mdx mice with chronic muscle damage; after 70 days, researchers found that nuclei from the males had taken up residence in skeletal and cardiac muscle cells.

Lagasse and colleagues' demonstration of liver repair by purified HSCs is a similarly encouraging sign that HSCs may have the potential to integrate into and grow in some non-blood tissues. These scientists lethally irradiated female mice that had an unusual genetic liver disease that could be halted with a drug. The mice were given transplants of genetically marked, purified HSCs from male mice that did not have the liver disease. The transplants were given a chance to engraft for a couple of months while the mice were on the liver-protective drug. The drug was then removed, launching deterioration of the liver—and a test to see whether cells from the transplant would be recruited and rescue the liver. The scientists found that transplants of as few as 50 cells led to abundant growth of marked, donor-derived liver cells in the female mice.

Recently, Krause has shown in mice that a single selected donor hematopoietic stem cell could do more than just repopulate the marrow and hematopoietic system of the recipient [27]. These investigators also found epithelial cells derived from the donors in the lungs, gut, and skin of the recipient mice. This suggests that HSCs may have grown in the other tissues in response to infection or damage from the irradiation the mice received.

In humans, observations of male liver cells in female patients who have received bone marrow grafts from males, and in male patients who have received liver transplants from female donors, also suggest the possibility that some cells in bone marrow have the capacity to integrate into the liver and form hepatocytes [1].
What Are the Barriers to the Development of New and Improved Treatments Using Hematopoietic Stem Cells?
Boosting the Numbers of Hematopoietic Stem Cells

Clinical investigators share the same fundamental problem as basic investigators—limited ability to grow and expand the numbers of human HSCs. Clinicians repeatedly see that larger numbers of cells in stem cell grafts have a better chance of survival in a patient than do smaller numbers of cells. The limited number of cells available from a placenta and umbilical cord blood transplant currently means that cord blood banks are useful to pediatric but not adult patients. Investigators believe that the main cause of failure of HSCs to engraft is host-versus-graft disease, and larger grafts permit at least some donor cells to escape initial waves of attack from a patient's residual or suppressed immune system [6]. Ability to expand numbers of human HSCs in vivo or in vitro would clearly be an enormous boost to all current and future medical uses of HSC transplantation.

Once stem cells and their progeny can be multiplied in culture, gene therapists and blood experts could combine their talents to grow limitless quantities of "universal donor" stem cells, as well as progenitors and specific types of red and white blood cells. If the cells were engineered to be free of markers that provoke rejection, these could be transfused to any recipient to treat any of the diseases that are now addressed with marrow, peripheral, cord, or other transfused blood. If gene therapy and studies of the plasticity of HSCs succeed, the cells could also be grown to repair other tissues and treat non-blood-related disorders [32].

Several research groups in the United States, Canada, and abroad have been striving to find the key factor or factors for boosting HSC production. Typical approaches include comparing genes expressed in primitive HSCs versus progenitor cells; comparing genes in actively dividing fetal HSCs versus adult HSCs; genetic screening of hematopoietically mutated zebrafish; studying dysregulated genes in cancerous hematopoietic cells; analyzing stromal or feeder-layer factors that appear to boost HSC division; and analyzing factors promoting homing and attachment to the stroma. Promising candidate factors have been tried singly and in combination, and researchers claim they can now increase the number of long-term stem cells 20-fold, albeit briefly, in culture.

The specific assays researchers use to prove that their expanded cells are stem cells vary, which makes it difficult to compare the claims of different research groups. To date, there is only a modest ability to expand true, long-term, self-renewing human HSCs. Numbers of progenitor cells are, however, more readily increased. Kobari et al., for example, can increase progenitor cells for granulocytes and macrophages 278-fold in culture [25].

Some investigators are now evaluating whether these comparatively modest increases in HSCs are clinically useful. At this time, the increases in cell numbers are not sustainable over periods beyond a few months, and the yield is far too low for mass production. In addition, the cells produced are often not rigorously characterized. A host of other questions remain—from how well the multiplied cells can be altered for gene therapy to their potential longevity, immunogenicity, ability to home correctly, and susceptibility to cancerous transformation. Glimm et al. [17] highlight some of these problems, for example, with their confirmation that human stem cells lose their ability to repopulate the bone marrow as they enter and progress through the cell cycleælike mouse stem cells that have been stimulated to divide lose their transplantability [18]. Observations on the inverse relationship between progenitor cell division rate and longevity in strains of mice raise an additional concern that culture tricks or selection of cells that expand rapidly may doom the cells to a short life.

Pragmatically, some scientists say it may not be necessary to be able to induce the true, long-term HSC to divide in the lab. If they can manipulate progenitors and coax them into division on command, gene uptake, and differentiation into key blood cells and other tissues, that may be sufficient to accomplish clinical goals. It might be sufficient to boost HSCs or subpopulations of hematopoietic cells within the body by chemically prodding the bone marrow to supply the as-yet-elusive factors to rejuvenate cell division.
Outfoxing the Immune System in Host, Graft, and Pathogen Attacks

Currently, the risks of bone marrow transplants—graft rejection, host-versus-graft disease, and infection during the period before HSCs have engrafted and resumed full blood cell production—restrict their use to patients with serious or fatal illnesses. Allogeneic grafts must come from donors with a close HLA match to the patient (see Chapter 6. Autoimmune Diseases and the Promise of Stem Cell-Based Therapies). If doctors could precisely manipulate immune reactions and protect patients from pathogens before their transplants begin to function, HSC transplants could be extended to less ill patients and patients for whom the HLA match was not as close as it must now be. Physicians might use transplants with greater impunity in gene therapy, autoimmune disease, HIV/AIDS treatment, and the preconditioning of patients to accept a major organ transplant.

Scientists are zeroing in on subpopulations of T cells that may cause or suppress potentially lethal host-versus-graft rejection and graft-versus-host disease in allogeneic-transplant recipients. T cells in a graft are a two-edged sword. They fight infections and help the graft become established, but they also can cause graft-versus-host disease. Identifying subpopulations of T cells responsible for deleterious and beneficial effects—in the graft, but also in residual cells surviving or returning in the host—could allow clinicians to make grafts safer and to ratchet up graft-versus-tumor effects [48]. Understanding the presentation of antigens to the immune system and the immune system's healthy and unhealthy responses to these antigens and maturation and programmed cell death of T cells is crucial.

The approach taken by investigators at Stanford—purifying peripheral blood—may also help eliminate the cells causing graft-versus-host disease. Transplants in mouse models support the idea that purified HSCs, cleansed of mature lymphocytes, engraft readily and avoid graft-versus-host disease [60].

Knowledge of the key cellular actors in autoimmune disease, immune grafting, and graft rejection could also permit scientists to design gentler "minitransplants." Rather than obliterating and replacing the patient's entire hematopoietic system, they could replace just the faulty components with a selection of cells custom tailored to the patient's needs. Clinicians are currently experimenting with deletion of T cells from transplants in some diseases, for example, thereby reducing graft-versus-host disease.

Researchers are also experimenting with the possibility of knocking down the patient's immune system—but not knocking it out. A blow that is sublethal to the patient's hematopoietic cells given before an allogeneic transplant can be enough to give the graft a chance to take up residence in the bone marrow. The cells replace some or all of the patient's original stem cells, often making their blood a mix of donor and original cells. For some patients, this mix of cells will be enough to accomplish treatment objectives but without subjecting them to the vicious side effects and infection hazards of the most powerful treatments used for total destruction of their hematopoietic systems [37].
Understanding the Differentiating Environment and Developmental Plasticity

At some point in embryonic development, all cells are plastic, or developmentally flexible enough to grow into a variety of different tissues. Exactly what is it about the cell or the embryonic environment that instructs cells to grow into one organ and not another?

Could there be embryological underpinnings to the apparent plasticity of adult cells? Researchers have suggested that a lot of the tissues that are showing plasticity are adjacent to one another after gastrulation in the sheet of mesodermal tissue that will go on to form blood—muscle, blood vessels, kidney, mesenchyme, and notochord. Plasticity may reflect derivation from the mesoderm, rather than being a fixed trait of hematopoietic cells. One lab is now studying the adjacency of embryonic cells and how the developing embryo makes the decision to make one tissue instead of another—and whether the decision is reversible [65].

In vivo studies of the plasticity of bone marrow or purified stem cells injected into mice are in their infancy. Even if follow-up studies confirm and more precisely characterize and quantify plasticity potential of HSCs in mice, there is no guarantee that it will occur or can be induced in humans.
Summary

Grounded in half a century of research, the study of hematopoietic stem cells is one of the most exciting and rapidly advancing disciplines in biomedicine today. Breakthrough discoveries in both the laboratory and clinic have sharply expanded the use and supply of life-saving stem cells. Yet even more promising applications are on the horizon and scientists' current inability to grow HSCs outside the body could delay or thwart progress with these new therapies. New treatments include graft-versus-tumor therapy for currently incurable cancers, autologous transplants for autoimmune diseases, and gene therapy and tissue repair for a host of other problems. The techniques, cells, and knowledge that researchers have now are inadequate to realize the full promise of HSC-based therapy.

Key issues for tapping the potential of hematopoietic stem cells will be finding ways to safely and efficiently expand the numbers of transplantable human HSCs in vitro or in vivo. It will also be important to gain a better understanding of the fundamentals of how immune cells work—in fighting infections, in causing transplant rejection, and in graft-versus-host disease as well as master the basics of HSC differentiation. Concomitant advances in gene therapy techniques and the understanding of cellular plasticity could make HSCs one of the most powerful tools for healing.
http://stemcells.nih.gov/info/scireport/pages/chapter5.aspx

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Plate White (3) 96 well clear bottom with lid {Corning #Cat.No. 3610} treated with Corning Cell-Tak cell tissue adhesive (#Cat.No.:354240, 354241)

Equilibrate all materials and prepare solutions to 25°C prior to use.
Prepare tubes Sol. Fin: 
Tube 1 (Assay Buffer 10 mL) + 50 µL Omy (si) + 2 µL CCCP (ss);
Tube 2 (Assay Buffer 10 mL) + 50 µL Omy (si) + 2 µL CCCP (ss) + 10 µL Hoechst (ss)+ 15 µL TMRE (si) + 2 µL MTG (ss);
Tube 3 (Assay Buffer 10 mL) + 10 µL Hoechst (ss)+ 15 µL TMRE (si) + 2 µL MTG (ss).

{si: solution intermediaire; ss: solution stock}

Procedure:
1. Add 98.42 µL Cell-Tak in 1000 µL water and place 10 µL diluted Cell-Tak into each well.
2. Add 20 µL of bicarbonate buffer to each well.
3. Shake delicate.
4. Allow at least 20 minutes for adsorption.
5. Flick or aspirate off the Cell-Tak solution and wash with 100 µL of distiled water air dry before storing at 2-8°C. (BioTeK ELX450)

6. Count - Cells should be seeded in microplate ~150 000 cells/well.
7. Centrifuge the plate at 200 rcf for 30 sec, rotate the plate 180 and centrifuge again at 300 rcf for 30 sec. EppendorfCentrifuge 5430R, with rotor A-2-MTP #Cat.No.: 5430/5430 (max. 4680 rpm) START/ STOP/ OPEN.

8. Treat one vertical line (INHIBITION line) of wells with 100 µL from TUBE 1 {Omy ~ CCCP} for 10 minutes.
9. Gently aspirate old media and {Omy ~ CCCP} solution.
10. Incubate same vertical INHIBITION line with 100 µL from TUBE 2 {Omy ~ CCCP ~ Hoechst ~ TMRE ~ MTG} and
the SAMPLE wells, except BLANK, with 100 µL from TUBE 3 {Hoechst ~ TMRE ~ MTG} for 10 minutes at 37°C in dark.

11. After Hoechst/ TMRE / MTG staining gently aspirate the media and replace with 100 µL 0.2% BSA in Assay Buffer. 
12. Repeat total 4 times.
13. Gently aspirate inhibition line and replace with 100 µL from TUBE 1 {Omy ~ CCCP} to keep respiratory inhibition.

15. Read the plate on a fluorescence plate reader with settings suitable for:
Select: fluoresecence, wells number, bottom and gain
Hoechst (Ex: 354nm, Em: 442nm) bottom, 10 [Gain: 100]
TMRE (Ex: 549nm, Em: 575nm) bottom, 50 [Gain: 120]
MTG (Ex: 490nm, Em: 516nm) bottom, 10 [Gain: 100]

16. ANALYSE in Graphpad Prism 

Preparation of:

Assay Buffer "Buffer-BSA"for 200 mL pH 7.4 (with 1N NaOH):
[I] (80 mM) NaCl [FM:58.44] 0.93504 g {Fisher #S2713}
[II] (75 mM) KCl [FM:74.55] 1.118 g {Sigma #P-4504}
[III] (25 mM) D-glucose [FM:180.16] 0.9008 g {Sigma #}
[IV] (25 mM) HEPES [FM:238.30] 1.1915 g {Sigma #H3375-250G}
filter 0.20 µm { #83.1826.001} alicot in red tubes 50mL [-4°C] 
[V] (0.2%) fresh BSA [from -4°C] 0.100 g in 50 mL Buffer 
(powder weighed before and distributed in eppendorf ready to use).


Omy (Oligomycin) [FM: 791] {Sigma # O4876-5MG [O = from Oli...]} 
toxic for eye and kindey, ATP-ase inhibitor.
[I] (100 mM) Stock Solution: 0.00505 g disolve in 638.4 µL ethanol 100%
alicote in 50 µL small eppendorf [store at -20°C].
[II] (1 mM) Intermediate Solution: 10 µL stock dilute in 1 mL ethanol 100%
[III] (5 µM) Final Solution (Working Solution): 50 µL dilute in 1 mL Buffer-BSA + 9 mL.

CCCP [MW:204.62] (protonophore) induce depolarisation of Δψm within minutes and eliminate TMRE staining. 
CCCP ~ carbonyl cyanide Sigma (#Cat. No: C2759) soluble in DMSO, is a ionophore uncupler of oxidative phosphorilation 
[I] (50 mM) Stock Solution: 10.231 miligrams in 1 mL DMSO. (50 mM CCCP ~ 2500X); Storage condition before preparation 4°C. For longer term storage keep at -20°C in the dark. 
[II] (10 µM) Final Solution (Working Solution): 2 µL Stock Solution dilute in 1 mL Buffer-BSA + 9 mL. 

Hoechst 33342 [MW: 561.93] {Sigma #Cat. No:B2261} (bisBenzimide H 33342 trihydrochloride) B2261-25MG (36.80$CAD) (store at 4°C in the dark) soluble in H2O
[I] (1 µg/µL) Stock concentration: 1 mg/mL (1 µg/µL)
[II] (1 µg/mL) Final Solution (Working Solution): Hoechst 33342 : add 10 µL stock) in 1 mL Buffer-BSA + 9 mL.

TMRE [MW:514.96] - Mitochondrial Membrane Potential Assay Invitrogen/Molecular Probe (#Cat. No: T669)
TMRE is (+) charged and bind to active mitochondria matrix (-) charged. Depolarised or inactive mitochondria have decrased Membrane Potential and fail to bind TMRE. 
(#Cat. No:T669) soluble in EtOH, (1 mM TMRE ~ 1000X) storage condition before preparation 4°C
[I] (1 mM) TMRE Stock Solution: 2.5748 miligrams dilute in 5 mL ethanol 100%
[II] (100 µM) Intermediate Solution: 10 µL stock dilute in 100 µL ethanol 100%
[III] (150 nM) Final Solution (Working Solution): 15 µL Intermediate Solution dilute in 1 mL Buffer-BSA + 9 mL.

(MTG) MitoTracker Green FM [MW:671.9797], non-fluorescent in aqueous solutions, which becomes fluorescent 
only when accumulated in the mitochondrial lipid environment, regardless of membrane potential. 
Invitrogen/Molecular Probe (#Cat. No:M-7514) soluble in DMSO 
[I] (1 mM) MTG Stock Solution: 50µg dilute in 74 µL DMSO (store at -20°C in the dark)
[III] (200 µM) Final Solution (Working Solution): 2 µL stock dilute in in 1 mL Buffer-BSA + 9 mL.

Cell Line U-937 ATCC #Cat.No.: CRL-1593.2 human monocytes (malignant cells male 37y histiocytic lymphoma 1974) - Biosafety Level 1. (original frozen 25/11/2002 UdM_P7->P8)(175$). Frozen cells it shuld be stored in liquid nitrogen vapor phase and not at -70°C. Storage at -70°C will result in loss of viability. Cryoprotectant medium (MC medium with 5% (v/v) DMSO (or 1 mL DMSO in 4 mL FBS +5 mL MC). Incubate the flask in an upright postion at 37°C. Cetrifuge 1200 rpm 10 minutes (125 xg). Resuspend the cell pellet (bottom MC) in 10mL of MC medium 10%FBS1%P/S [(ATCC RPMI -164 #Cat.No: 30-2001 with High glucose L-glut HEPES +50 mL FBS, +5 mL Pen/Strep]. From this cell suspension remove 10 µL sample for cell count and viability and mix with 10 µL of Blue. Cont and adjust the cell density of suspension to 0.3 M/mL in 34mL MC Falcon Flask #Cat.No.: 353110 Do not allow the cell concentration to exceed 2x10^6 cells/mL (2 Mil.cells). Perform cell count, and bring to appropiate volume to allow a seeding density of 0,150 Milion cells/well (150k cells/well). Counting Chamber Hausser Scientific Company #Cat.No.: 3720 Fuchs Rosenthal Ultraplane 1/16 sq mm^2/10 mm deep Mix 10 µL cells + 10 µL (0.4%) Trypan Blue stain Invitrogen Gibco #Cat.No.: 15250-061 (storage 15-30°C) Count 5 squares (*5) = 325 cells = 3,25 Mil. cells/mL

Corning Cell-Tak cell tissue adhesive (#Cat.No.:354240, 354241) www.corning.com Bedford MA ~ polyphenolic proteins extracted from the marin mussel Mytilus edulis. 2.54 mg/mL in 5% acetic acid. Store at 2-8°C. Coated plates can be stored 2 weeks air-dry before storing at 2-8°C. 
Prepare Bicarbonate (NaHCO3) [MW: 84.01] Fisher Sci. #Cat.No: S233-500 Concentration = 0.1 M Vol.= 47 mL Mass = 394 mg = 0.394 g pH 8.0 Filter-sterilise the buffer.

Plate Black (4) 96 well optical Btm Plt Polymer Base Black w/Lid Cell Culture Sterile PS 10/Bag 0,4 mL Well ThermoScientific Nunc (Fisher) #Cat. No 165305 75 Panorama Creek Drive Rochester, NY 14625-2385
www.thermoscientific.com

Label to print:

TUBE 1

Assay Buffer
10 mL <>
+
50 µL Omy (si) <>
2 µL CCCP (ss) <>

TUBE 2

Assay Buffer
10 mL <>
+
50 µL Omy (si) <>
2 µL CCCP (ss) <>
10 µL H (ss) <>
15 µL TMRE (si) <>
2 µL MTG (ss) <>

TUBE 3

Assay Buffer
10 mL <>
+
10 µL H (ss) <>
15 µL TMRE (si) <>
2 µL MTG (ss) <>

| Δψm | = the inner mitochondrial membrane potential (also transmembrane potential or membrane voltage) is the difference in electric potential between the interior and the exterior of a biological cell. With respect to the exterior of the cell, typical values of membrane potential range from –40 mV to –80 mV.
http://en.wikipedia.org/wiki/Membrane_potential

''◙◙◙ Label to print ◙◙◙:''
''1'' →Ⓐ 
Tube ^^~Hoechst^^
☒ 5 mL Buffer
☐ 50 µL Hoechst (SS)

''2'' →Ⓒ 
Tube^^~A^^
☒ 2600 µL Buffer
☐ 13 µL MitoSOX (SS)
☐ 13 µL MitoSOX (SS)

''3'' →Ⓑ
Tube ^^~B^^
☒ 1300 µL Sol from Tube " ^^~A^^
☐ 130 µL of 1mM Ant - A (SS)

''4'' →Ⓙ 
Tube ^^~C^^
☒ 1300 µL Buffer
☐ 130 µL of 1mM Ant - A (SS)

''5A''
Tube Si [1 M] ^^~H~~2~~O~~2~~ ^^
☒ 1000 µL H~~2~~O
☐ 100 µL of 9.79 M perox 

''5B''
Tube Sii [100 mM] ^^~H~~2~~O~~2~~ ^^
☒ 1000 µL H~~2~~O
☐ 100 µL of 1 M perox  

''5C'' →Ⓓ
Tube Siii [500 µM] ^^~H~~2~~O~~2~~ ^^
☒ 1300 µL MC
☐ 13 µL of 100 mM perox 

''6'' → Ⓔ & Ⓕ
Tube ^^FITC~~LEHD-FMK~~ Hoechst^^
☒ 2000 µL MC
☐ 7 µL of FITC-LEHD-FMK
☐ 10 µL of Hoechst

''7''
Tube [100 µM] TMRE ^^~~Si~~^^
☒ 50 µL ethanol 100%
☐ 5 µL of [1 mM] Stock TMRE 

''8'' → Tube ''2'' and →Ⓖ 
Tube ''1'' ^^~~[200 nM]TMRE 
+ [200 µM]MTG~~+ [5 µg] Hoechst^^
☒ 1+9 mL mix Buffer
☐ 20 µL of [100 µM] Si TMRE 
☐ 2 µL [1 mM] SS MTG 
☐ 50 µL SS Hoechst 

''9''
Tube [1 mM] Si ^^~~Omy~~^^
☒ 500 µL ethanol 
☐ 5 µL of stock [100 mM] Omy

''10''
Tube [500 µM] Si ^^~~CCCP~~^^
☒ 1000 µL ethanol 
☐ 10 µL of stock [50 mM] CCCP

''11'' →Ⓗ
Tube ''2'' ^^~~TMRE + MTG + Hoechst 
+ [5 µM]Omy + [50 µM]CCCP~~^^
☒ 5 mL mix Tube ''2'' 
☐ 25 µL of  [1 mM] Si Omy
☐ 500 µL of [500 µM] Si CCCP

''12'' →Ⓘ 
Tube  ''3'' ^^~~[5 µM] Omy + [50 µM] CCCP~~^^
☒ 5 mL mix Buffer
☐ 25 µL of  [1 mM] Si Omy
☐ 500 µL of [500 µM] Si CCCP

◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙

|~ViewToolbar|+editTiddler +cloneTiddler > fields refreshTiddler changeToPublic changeToPrivate revisions syncing permalink references jump closeOthers < closeTiddler|
|~EditToolbar|+saveTiddler saveDraft -cancelTiddler deleteTiddler|
|~RevisionToolbar|> fields revert|

http://en.wikipedia.org/wiki/Dendritic_cell

Les cellules dendritiques peuvent être tolérogènes lorsqu'elles activent des lymphocytes T régulateurs.

Étant donné la position-clé des cellules dendritiques dans l'initiation des réponses immunitaires spécifiques, leur manipulation est envisageable à des fins thérapeutiques. Dans le cas des maladies auto-immunes, il s'agirait de provoquer une réponse tolérogène des cellules dendritiques aux antigènes du soi. Dans une optique d'immunothérapie du cancer, au contraire, leur stimulation ex vivo par des antigènes tumoraux permettrait d'induire une réponse immunitaire anti-tumorale.

deux fonctions principales :

le déclenchement de la réponse immunitaire adaptative, dont les acteurs principaux sont les lymphocytes T et les lymphocytes B, dirigée contre des antigènes du « non-soi » ;
le maintien de la tolérance centrale au « soi » dans le thymus, par le processus impliquant les lymphocytes T dit de sélection négative.

However, the principal function of dendritic cells as known to date is always to act as an immune sentinel. They survey the body and collect information relevant to the immune system, they are then able to instruct and direct the adaptive arms to respond to challenges.

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The ZetaView® is a high performance integrated instrument for individual exosome particle tracking, classical micro-electrophoresis and Brownian motion.
Auto-alignment and auto-focussing capabilities make the ZetaView® both fast and easy to use. A throughput of >20 samples per hour can readily be achieved. Highly resolved zeta potential and size histograms, as well as profiles, are routinely derived from thousands of particles. In addition, low concentrations of particles can be  determined.
The ZetaView® provides analysis certainty, leading to a better level of exosome characterization and enabling new discoveries in microvescicle and exosome research.

http://www.cellgs.com/Shop/Exosomes/Particle-Metrix.html

https://www.youtube.com/watch?v=Xqy33s59bk4

https://en.wikipedia.org/wiki/Zeta_potential

! CELLS C2C12&nbsp;(ATCC®&nbsp;CRL1772™)

Organism:&nbsp;Mus&nbsp;musculus,&nbsp;mouse Strain:&nbsp;C3H Tissue: muscle Cell&nbsp;Type:&nbsp;myoblast Morphology:&nbsp;myoblast Growth&nbsp;Properties:&nbsp;adherent

Handling&nbsp;Procedure&nbsp;for&nbsp;Frozen&nbsp;Cells

1.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Thaw&nbsp;the&nbsp;vial&nbsp;by&nbsp;gentle&nbsp;agitation&nbsp;in&nbsp;a&nbsp;37°C&nbsp;water&nbsp;bath.&nbsp;To&nbsp;reduce&nbsp;the&nbsp;possibility&nbsp;of&nbsp;contamination,&nbsp;keep the&nbsp;Oring&nbsp;and&nbsp;cap&nbsp;out&nbsp;of&nbsp;the&nbsp;water.&nbsp;&nbsp;Thawing&nbsp;should&nbsp;be&nbsp;rapid&nbsp;(approximately&nbsp;2&nbsp;minutes). &nbsp; 2.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Remove&nbsp;the&nbsp;vial&nbsp;from&nbsp;the&nbsp;water&nbsp;bath&nbsp;as&nbsp;soon&nbsp;as&nbsp;the&nbsp;contents&nbsp;are&nbsp;thawed,&nbsp;and&nbsp;decontaminate&nbsp;by&nbsp;dipping in&nbsp;or&nbsp;spraying&nbsp;with&nbsp;70%&nbsp;ethanol.&nbsp;All&nbsp;of&nbsp;the&nbsp;operations&nbsp;from&nbsp;this&nbsp;point&nbsp;on&nbsp;should&nbsp;be&nbsp;carried&nbsp;out&nbsp;under&nbsp;strict aseptic&nbsp;conditions. 3.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Transfer&nbsp;the&nbsp;vial&nbsp;contents&nbsp;to&nbsp;a&nbsp;centrifuge&nbsp;tube&nbsp;containing&nbsp;&nbsp;9.0&nbsp;ml&nbsp;complete&nbsp;culture&nbsp;medium.&nbsp;and&nbsp;spin&nbsp;at approximately&nbsp;125&nbsp;xg&nbsp;for&nbsp;5&nbsp;to7&nbsp;minutes. 4.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Discard&nbsp;the&nbsp;supernatant&nbsp;and&nbsp;resuspend&nbsp;the&nbsp;cell&nbsp;pellet&nbsp;in&nbsp;an&nbsp;appropriate&nbsp;amount&nbsp;of&nbsp;fresh&nbsp;growth&nbsp;medium. 5.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Transfer&nbsp;the&nbsp;cell&nbsp;suspension&nbsp;to&nbsp;an&nbsp;appropriate&nbsp;size&nbsp;vessel.&nbsp;&nbsp;It&nbsp;is&nbsp;important&nbsp;to&nbsp;avoid&nbsp;excessive&nbsp;alkalinity&nbsp;of the&nbsp;medium&nbsp;during&nbsp;recovery&nbsp;of&nbsp;the&nbsp;cells.&nbsp;&nbsp;It&nbsp;is&nbsp;suggested&nbsp;that,&nbsp;prior&nbsp;to&nbsp;the&nbsp;addition&nbsp;of&nbsp;the&nbsp;vial&nbsp;contents,&nbsp;the culture&nbsp;vessel&nbsp;containing&nbsp;the&nbsp;growth&nbsp;medium&nbsp;be&nbsp;placed&nbsp;into&nbsp;the&nbsp;incubator&nbsp;for&nbsp;at&nbsp;least&nbsp;15&nbsp;minutes&nbsp;to&nbsp;allow&nbsp;the medium&nbsp;to&nbsp;reach&nbsp;its&nbsp;normal&nbsp;pH&nbsp;(7.0&nbsp;to&nbsp;7.6). 6.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Incubate&nbsp;the&nbsp;culture&nbsp;at&nbsp;37°C&nbsp;in&nbsp;a&nbsp;suitable&nbsp;incubator.&nbsp;&nbsp;A&nbsp;5%&nbsp;CO2&nbsp;in&nbsp;air&nbsp;atmosphere&nbsp;is&nbsp;recommended&nbsp;if&nbsp;using the&nbsp;medium&nbsp;described&nbsp;on&nbsp;this&nbsp;product&nbsp;sheet.

Handling&nbsp;Procedure&nbsp;for&nbsp;Flask&nbsp;Cultures

The&nbsp;flask&nbsp;was&nbsp;seeded&nbsp;with&nbsp;cells&nbsp;(see&nbsp;specific&nbsp;batch&nbsp;information)&nbsp;grown&nbsp;and&nbsp;completely&nbsp;filled&nbsp;with&nbsp;medium&nbsp;at ATCC&nbsp;to&nbsp;prevent&nbsp;loss&nbsp;of&nbsp;cells&nbsp;during&nbsp;shipping. 1.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Upon&nbsp;receipt&nbsp;visually&nbsp;examine&nbsp;the&nbsp;culture&nbsp;for&nbsp;macroscopic&nbsp;evidence&nbsp;of&nbsp;any&nbsp;microbial&nbsp;contamination.&nbsp;Using an&nbsp;inverted&nbsp;microscope&nbsp;(preferably&nbsp;equipped&nbsp;with&nbsp;phasecontrast&nbsp;optics),&nbsp;carefully&nbsp;check&nbsp;for&nbsp;any&nbsp;evidence of&nbsp;microbial&nbsp;contamination.&nbsp;&nbsp;Also&nbsp;check&nbsp;to&nbsp;determine&nbsp;if&nbsp;the&nbsp;majority&nbsp;of&nbsp;cells&nbsp;are&nbsp;still&nbsp;attached&nbsp;to&nbsp;the&nbsp;bottom&nbsp;of the&nbsp;flask;&nbsp;during&nbsp;shipping&nbsp;the&nbsp;cultures&nbsp;are&nbsp;sometimes&nbsp;handled&nbsp;roughly&nbsp;and&nbsp;many&nbsp;of&nbsp;the&nbsp;cells&nbsp;often&nbsp;detach&nbsp;and become&nbsp;suspended&nbsp;in&nbsp;the&nbsp;culture&nbsp;medium&nbsp;(but&nbsp;are&nbsp;still&nbsp;viable).
2.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;If&nbsp;the&nbsp;cells&nbsp;are&nbsp;still&nbsp;attached,&nbsp;aseptically&nbsp;remove&nbsp;all&nbsp;but&nbsp;5&nbsp;to&nbsp;10&nbsp;mL&nbsp;of&nbsp;the&nbsp;shipping&nbsp;medium.&nbsp;&nbsp;The shipping&nbsp;medium&nbsp;can&nbsp;be&nbsp;saved&nbsp;for&nbsp;reuse.&nbsp;&nbsp;Incubate&nbsp;the&nbsp;cells&nbsp;at&nbsp;37°C&nbsp;in&nbsp;a&nbsp;5%&nbsp;CO2&nbsp;&nbsp;&nbsp;in&nbsp;air&nbsp;atmosphere&nbsp;until&nbsp;they are&nbsp;ready&nbsp;to&nbsp;be&nbsp;subcultured. 3.&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;If&nbsp;the&nbsp;cells&nbsp;are&nbsp;not&nbsp;attached,&nbsp;aseptically&nbsp;remove&nbsp;the&nbsp;entire&nbsp;contents&nbsp;of&nbsp;the&nbsp;flask&nbsp;and&nbsp;centrifuge&nbsp;at&nbsp;125 xg&nbsp;for&nbsp;5&nbsp;to&nbsp;10&nbsp;minutes.&nbsp;&nbsp;Remove&nbsp;shipping&nbsp;medium&nbsp;and&nbsp;save.&nbsp;&nbsp;Resuspend&nbsp;the&nbsp;pelleted&nbsp;cells&nbsp;in&nbsp;10&nbsp;mL&nbsp;of&nbsp;this medium&nbsp;and&nbsp;add&nbsp;to&nbsp;25&nbsp;cm2&nbsp;flask.&nbsp;&nbsp;Incubate&nbsp;at&nbsp;37°C&nbsp;in&nbsp;a&nbsp;5%&nbsp;CO2&nbsp;&nbsp;in&nbsp;air&nbsp;atmosphere&nbsp;until&nbsp;cells&nbsp;are&nbsp;ready&nbsp;to&nbsp;be subcultured.

Subculturing&nbsp;Procedure

IMPORTANT&nbsp;&nbsp;DO&nbsp;NOT&nbsp;ALLOW&nbsp;CULTURES&nbsp;TO&nbsp;BECOME&nbsp;CONFLUENT. Cultures&nbsp;must&nbsp;not&nbsp;be&nbsp;allowed&nbsp;to&nbsp;become&nbsp;confluent&nbsp;as&nbsp;this&nbsp;will&nbsp;deplete&nbsp;the&nbsp;myoblastic&nbsp;population&nbsp;in&nbsp;the&nbsp;culture. Myotube&nbsp;formation&nbsp;is&nbsp;enhanced&nbsp;when&nbsp;the&nbsp;medium&nbsp;is&nbsp;supplemented&nbsp;with&nbsp;10%&nbsp;horse&nbsp;serum&nbsp;instead&nbsp;of&nbsp;fetal bovine&nbsp;serum. 1.&nbsp; Remove&nbsp;and&nbsp;discard&nbsp;culture&nbsp;medium. 2.&nbsp; Briefly&nbsp;rinse&nbsp;the&nbsp;cell&nbsp;layer&nbsp;with&nbsp;0.25%&nbsp;(w/v)&nbsp;Trypsin&nbsp;0.53&nbsp;mM&nbsp;EDTA&nbsp;solution&nbsp;to&nbsp;remove&nbsp;all&nbsp;traces&nbsp;of serum&nbsp;which&nbsp;contains&nbsp;trypsin&nbsp;inhibitor. 3.&nbsp; Add&nbsp;2.0&nbsp;to&nbsp;3.0&nbsp;mL&nbsp;of&nbsp;TrypsinEDTA&nbsp;solution&nbsp;to&nbsp;flask&nbsp;and&nbsp;observe&nbsp;cells&nbsp;under&nbsp;an&nbsp;inverted&nbsp;microscope until&nbsp;cell&nbsp;layer&nbsp;is&nbsp;dispersed&nbsp;(usually&nbsp;within&nbsp;5&nbsp;to&nbsp;15&nbsp;minutes). Note:&nbsp;To&nbsp;avoid&nbsp;clumping&nbsp;do&nbsp;not&nbsp;agitate&nbsp;the&nbsp;cells&nbsp;by&nbsp;hitting&nbsp;or&nbsp;shaking&nbsp;the&nbsp;flask&nbsp;while&nbsp;waiting&nbsp;for&nbsp;the&nbsp;cells to&nbsp;detach.&nbsp;Cells&nbsp;that&nbsp;are&nbsp;difficult&nbsp;to&nbsp;detach&nbsp;may&nbsp;be&nbsp;placed&nbsp;at&nbsp;37°C&nbsp;to&nbsp;facilitate&nbsp;dispersal. 4.&nbsp; Add&nbsp;6.0&nbsp;to&nbsp;8.0&nbsp;mL&nbsp;of&nbsp;complete&nbsp;growth&nbsp;medium&nbsp;and&nbsp;aspirate&nbsp;cells&nbsp;by&nbsp;gently&nbsp;pipetting. 5.&nbsp; Add&nbsp;appropriate&nbsp;aliquots&nbsp;of&nbsp;the&nbsp;cell&nbsp;suspension&nbsp;to&nbsp;new&nbsp;culture&nbsp;vessels. Inoculate&nbsp;at&nbsp;a&nbsp;cell&nbsp;concentration&nbsp;between&nbsp;1.5&nbsp;X&nbsp;10&nbsp;5&nbsp;and&nbsp;1.0&nbsp;X&nbsp;10&nbsp;6&nbsp;viable&nbsp;cells/75&nbsp;cm2.&nbsp;Corning®&nbsp;T75 flasks&nbsp;(catalog&nbsp;#430641)&nbsp;are&nbsp;recommended&nbsp;for&nbsp;subculturing&nbsp;this&nbsp;product. 6.&nbsp; Incubate&nbsp;cultures&nbsp;at&nbsp;37°C. Medium&nbsp;Renewal:&nbsp;Every&nbsp;two&nbsp;to&nbsp;three&nbsp;days

The&nbsp;C2C12&nbsp;cell&nbsp;line&nbsp;differentiates&nbsp;rapidly,&nbsp;forming&nbsp;contractile&nbsp;myotubes&nbsp;and&nbsp;producing&nbsp;characteristic&nbsp;muscle proteins. Treatment&nbsp;with&nbsp;bone&nbsp;morphogenic&nbsp;protein&nbsp;2&nbsp;(BMP2)&nbsp;cause&nbsp;a&nbsp;shift&nbsp;in&nbsp;the&nbsp;differentiation&nbsp;pathway&nbsp;from myoblastic&nbsp;to&nbsp;osteoblastic. Tested&nbsp;and&nbsp;found&nbsp;negative&nbsp;for&nbsp;ectromelia&nbsp;virus&nbsp;(mousepox).

Complete&nbsp;Growth&nbsp;Medium
The&nbsp;base&nbsp;medium&nbsp;for&nbsp;this&nbsp;cell&nbsp;line&nbsp;is&nbsp;ATCCformulated Dulbecco's&nbsp;Modified&nbsp;Eagle's&nbsp;Medium,&nbsp;Catalog&nbsp;No.&nbsp;302002.&nbsp;To&nbsp;make&nbsp;the&nbsp;complete&nbsp;growth&nbsp;medium,&nbsp;add&nbsp;the following&nbsp;components&nbsp;to&nbsp;the&nbsp;base&nbsp;medium:&nbsp;fetal&nbsp;bovine serum&nbsp;to&nbsp;a&nbsp;final&nbsp;concentration&nbsp;of&nbsp;10%.

Citation&nbsp;of&nbsp;Strain
If&nbsp;use&nbsp;of&nbsp;this&nbsp;culture&nbsp;results&nbsp;in&nbsp;a&nbsp;scientific&nbsp;publication,&nbsp;it should&nbsp;be&nbsp;cited&nbsp;in&nbsp;that&nbsp;manuscript&nbsp;in&nbsp;the&nbsp;following manner:&nbsp;C2C12&nbsp;(ATCC®&nbsp;CRL1772™)

a TiddlySpace

/***
|''Name''|TiddlySpaceRevisionView|
|''Description''|Show tiddler revisions in a stack of cards view|
|''Author''|BenGillies|
|''Version''|0.2.0|
|''Status''|beta|
|''Source''|http://github.com/TiddlySpace/tiddlyspace|
|''CodeRepository''|http://github.com/TiddlySpace/tiddlyspace|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
|''CoreVersion''|2.6.0|
|''Requires''|TiddlyWebAdaptor|
!Usage
The viewRevisions macro can be attached to any element, which should be passed
in as a parameter.

For example:

&lt;&lt;viewRevisions page:10 link:"<<view modified date>>"&gt;&gt;

would show the revisions "stack of cards" view, 10 at a time, when the modified
date is clicked.
!Code
***/
//{{{
(function($) {

var me = config.macros.viewRevisions = {
	revisionTemplate: "RevisionTemplate",
	revSuffix: " [rev. #%0]", // text to append to each tiddler title
	defaultPageSize: 5, // default number of revisions to show
	defaultLinkText: "View Revisions", // when there's nothing else to use
	offsetTop: 30, // in px
	offsetLeft: 10, // in px
	shiftDownDelay: 50, // in ms
	visibleSlideAmount: 20, // amount of revisions to show on left hand edge after sliding
	zIndex: 100, // default z-index
	handler: function(place, macroName, params, wikifier, paramString, tiddler) {
		params = paramString.parseParams(null, null, true)[0];
		var tiddlerElem = story.findContainingTiddler(place);

		var revButton;
		var pageSize = parseInt(params.page[0], 10) || me.defaultPageSize;
		var linkObj = params.link ? params.link[0] || me.defaultLinkText : false;
		if(linkObj) {
			revButton = $('<span class="button openRevisions" />')
				.appendTo(place);
			wikify(linkObj, revButton[0], null, tiddler);
		} else {
			revButton = place;
		}

		$(revButton).click(function() {
			if (!$(tiddlerElem).hasClass("revisions")) {
				me.showRevisions(tiddlerElem, tiddler, pageSize);
			} else {
				me.closeRevisions(tiddlerElem);
			}
		});
	},

	// initialisation for revision view
	showRevisions: function(tiddlerElem, tiddler, pageSize) {
		var context = {
			host: tiddler.fields["server.host"],
			workspace: tiddler.fields["server.workspace"]
		};
		$(tiddlerElem).addClass("revisions").attr("revName", tiddler.title);
		// ensure toolbar commands deactivate RevisionsView
		$("a", ".toolbar", tiddlerElem).each(function(index, btn) {
			var _onclick = btn.onclick;
			btn.onclick = function(e) {
				me.closeRevisions(tiddlerElem);
				_onclick.apply(this, arguments);
			};
		});
		// ensure default action deactivates RevisionsView
		var _ondblclick = tiddlerElem.ondblclick;
		tiddlerElem.ondblclick = function(e) {
			me.closeRevisions(tiddlerElem);
			_ondblclick.apply(this, arguments);
		};
		var type = tiddler.fields["server.type"];
		var adaptor = new config.adaptors[type]();
		var userParams = {
			tiddlerElem: tiddlerElem,
			pageSize: pageSize,
			title: tiddler.title
		};
		me.createCloak(tiddlerElem);
		adaptor.getTiddlerRevisionList(tiddler.title, null, context, userParams,
				function(context, userParams) {
					// strip the current revision
					context.revisions.shift();
					me.expandStack(context, userParams);
				});
	},

	// fetch the actual revision and put it in the tiddler div
	showRevision: function(place, revision, callback) {
		var context = {
			host: revision.fields["server.host"],
			workspace: revision.fields["server.workspace"]
		};
		var userParams = {
			revElem: place
		};
		var type = revision.fields["server.type"];
		var adaptor = new config.adaptors[type]();
		var revNo = revision.fields["server.page.revision"];
		adaptor.getTiddlerRevision(revision.title, revNo, context, userParams,
			function(context, userParams) {
				var tiddler = context.tiddler;
				tiddler.title += me.revSuffix
					.format([$(place).attr("revision")]);
				tiddler.fields.doNotSave = true;
				if (store.getTiddler(tiddler.title)) {
					store.deleteTiddler(tiddler.title);
				}
				store.addTiddler(tiddler);

				//now, populate the existing div
				var revElem = userParams.revElem;
				$(revElem).attr("id", story.tiddlerId(tiddler.title));
				$(revElem).attr("refresh", "tiddler");
				var getTemplate = function() {
					var themeName = config.options.txtTheme;
					if (themeName) {
						return store.getTiddlerSlice(themeName,
							me.revisionTemplate) || me.revisionTemplate ||
							"ViewTemplate";
					} else {
						return (store.getTiddler(me.revisionTemplate)) ?
							me.revisionTemplate : "ViewTemplate";
					}
				};
				var template = getTemplate();
				story.refreshTiddler(tiddler.title, template, true);
				callback(tiddler);
			});
	},

	createCloak: function(promoteElem) {
		var el = $(promoteElem);
		// cache styles for resetting later
		el.data({
			top: el.css("top"),
			left: el.css("left"),
			zIndex: el.css("z-index")
		});

		$('<div class="revisionCloak" />').css("z-index", me.zIndex)
			.click(function() {
				me.closeRevisions(promoteElem);
			})
			.appendTo(document.body);

		el.css("z-index", me.zIndex + 1);
	},

	// clean up, removing all evidence of revision view
	closeRevisions: function(promoteElem) {
		var el = $(promoteElem);
		// revert the original tiddler back to its previous state
		el.removeAttr("revName").removeClass("revisions").css({
			top: el.data("top"),
			left: el.data("left"),
			zIndex: el.data("zIndex")
		});

		// remove any revisions still in the store
		var revisions = $(".revisions");
		revisions.each(function(index, revision) {
			var revAttributes = revision.attributes;
			if ((revAttributes.revname) &&
					(revAttributes.revision)) {
				var revName = revAttributes.revname.value;
				var revNo = revAttributes.revision.value;
				var title = revName + me.revSuffix.format([revNo]);

				if (store.getTiddler(title)) {
					store.deleteTiddler(title);
				}
			}
		});

		// delete the previous revisions
		revisions.remove();

		// remove the cloak
		$(".revisionCloak").remove();
	},

	// calback from getting list of revisions
	expandStack: function(context, userParams) {
		var pageSize = userParams.pageSize;

		var from = userParams.from || 0;
		var tiddlerElem = userParams.tiddlerElem;

		userParams.defaultHeight = $(tiddlerElem).height();
		userParams.defaultWidth = $(tiddlerElem).width();
		if (from < context.revisions.length) {
			me.displayNextRevision(tiddlerElem, userParams, context, from,
				from + pageSize - 1);
		}
	},

	// place the next div above and behind the previous one
	displayNextRevision: function(tiddlerElem, userParams, context, from, to) {
		var revision = context.revisions[from];
		var callback = function() {
			var revText = revBtn.getRevisionText(tiddlerElem, revision);
			tiddlerElem = me.createRevisionObject(tiddlerElem, context,
				userParams, revText);
			$(tiddlerElem)
				.attr("revision", (context.revisions.length - from));
			if ((from < to) && ((from + 1) < context.revisions.length)){
				me.displayNextRevision(tiddlerElem, userParams, context,
					from + 1, to);
			} else if ((context.revisions.length - 1) > to) {
				me.showMoreButton(tiddlerElem, context, userParams, to + 1);
			}
		};
		me.shiftVisibleDown(userParams.title, callback);
	},

	createRevisionObject: function(tiddlerElem, context, userParams, text) {
		var newPosition = me.calculatePosition(tiddlerElem, context);
		return $('<div class="revisions tiddler" />')
			.css({
				position: "absolute",
				top: newPosition.top,
				left: newPosition.left,
				"z-index": me.zIndex + 1,
				height: userParams.defaultHeight,
				width: userParams.defaultWidth
			})
			.attr("revName", userParams.title)
			.append(text)
			.insertBefore(tiddlerElem);
	},

	// move the already present revisions down by 1 to fit the next one in
	shiftVisibleDown: function(title, callback) {
		var revisions = $("[revName='%0'].revisions".format([title]));
		var revisionCount = revisions.length;

		$(revisions).animate({top: "+=" + me.offsetTop},
				me.shiftDownDelay, function() {
					revisionCount -= 1;
					if ((callback) && (!revisionCount)) {
						callback();
					}
				});
	},

	// where we put the new revision
	calculatePosition: function(elem, context) {
		var offset = $(elem).offset();
		var currentPosition = $(elem).position();
		var newPosition = {
			top: currentPosition.top - me.offsetTop
		};
		if ((context.restrictLeft) ||
				((offset.left - me.offsetLeft) <
				$("#contentWrapper").offset().left)) {
			newPosition.left = $(elem).position().left;
			context.restrictLeft = true;
		} else {
			newPosition.left = currentPosition.left - me.offsetLeft;
		}
		return newPosition;
	},

	// equivalent of displayNextRevision, but for the more button
	showMoreButton: function(tiddlerElem, context, userParams, moreIndex) {
		userParams.from = moreIndex + 1;
		me.shiftVisibleDown(userParams.title, function() {
			var btn = me.createRevisionObject(tiddlerElem, context, userParams,
				"");

			var more = createTiddlyButton(btn[0], "more...", "show more revisions",
				function() {
					if ($(".viewRevision").length) {
						return;
					}
					userParams.tiddlerElem = btn[0];
					$(btn).text("")
						.append(revBtn
							.getRevisionText(btn[0], context.revisions[moreIndex]))
						.attr("revision", context.revisions.length - moreIndex);
					me.expandStack(context, userParams);
				});
			$(more).css("float", "right");
		});
	},

	stripRevFromTitle: function(revisionTitle) {
		return revisionTitle.split(/ ?\[rev\. #[0-9]+\]$/)[0];
	},

	onClickRevision: function(revElem, revision, callback) {
		// don't do anything if we are still loading
		if ($(".revisions").hasClass("loading")) {
			return null;
		}

		var origTitle = me.stripRevFromTitle(revision.title);
		if ($(revElem).hasClass("viewRevision")) {
			$(".revisions").addClass("loading");
			me.slideIn(revElem, revision, origTitle, function() {
				store.deleteTiddler(revision.title);
				revision.title = origTitle;
				$(revElem).text("").append(revBtn.getRevisionText(revElem,
						revision))
					.removeAttr("tags").removeAttr("tiddler")
					.removeAttr("refresh").removeAttr("template")
					.removeAttr("id");
				$(".revisions").removeClass("loading");
				if (callback) {
					callback();
				}
			});
			$(revElem).removeAttr("prevPos").removeClass("viewRevision");
		} else {
			var viewRevision = function() {
				var prevPos = $(revElem).position().left;
				$(revElem).addClass("viewRevision").attr("prevPos", prevPos);
				$(".revisions").addClass("loading");
				me.showRevision(revElem, revision, function(rev) {
					me.slideOut(revElem, rev, origTitle, function() {
						$(".revisions").removeClass("loading");
					});
				});
			};
			// make sure another revision isn't already out
			if ($(".viewRevision").length) {
				var newRevElem = $(".viewRevision")[0];
				var newRevision = store.getTiddler($(newRevElem)
					.attr("tiddler"));
				me.onClickRevision(newRevElem, newRevision, viewRevision);
			} else {
				viewRevision();
			}
		}
	},

	slideOut: function(revElem, revision, title, callback) {
		var leftMostPos = $("[revName='%0'].revisions".format([title]))
			.offset().left;
		var width = $(revElem).width();
		var originalLeftPos = $(story.getTiddler(title))
			.position().left;

		var slideAmount = leftMostPos + width - me.visibleSlideAmount;
		$("[revName='%0'].revisions:not(.viewRevision)".format([title]))
			.animate({left: "-=" + slideAmount}, 1000);
		$(revElem)
			.attr("baseHeight", $(revElem).css("height"))
			.css("height", "auto")
			.animate({left: originalLeftPos}, 1000, callback);
	},

	slideIn: function(revElem, revision, title, callback) {
		var slideAmount = $(revElem).offset().left -
			$(story.getTiddler(title)).offset().left;
		var origRevPos = $(revElem).attr("prevPos");

		$("[revName='%0'].revisions:not(.viewRevision)".format([title]))
			.animate({left: "+=" + slideAmount}, 1000);
		$(revElem).animate({left: origRevPos}, 1000, function() {
			$(revElem)
				.css("height", $(revElem).attr("baseHeight"))
				.removeAttr("baseHeight");
			callback();
		});
	}
};

var revBtn;
config.macros.slideRevision = revBtn = {
	btnText: "created by %0 at %1 on %2",
	handler: function(place, macroName, params, wikifier, paramString, tiddler) {
		var btn = revBtn.getRevisionText(place, tiddler);
		$(place).append(btn);
	},

	getRevisionText: function(place, revision) {
		var text = revBtn.btnText.format([revision.modifier,
			revision.modified.formatString("0hh:0mm"),
			revision.modified.formatString("0DD MMM YYYY")]);
		var btn = $('<a href="javascript:;" class="button revButton" />')
			.text(text)
			.click(function() {
				var revElem = story.findContainingTiddler(this);
				me.onClickRevision(revElem, revision);
			});
		return btn;
	}
};

})(jQuery);
//}}}

Preparing adherent cells
1. Using accutase, detach the cells from their culture vessel.
2. Add fresh serum- or albumin-containing medium to each well so final concentration is between 1  × 10^^5^^ to 1 × 10^^7^^ cells/mL.

Staining Protocol
1. Prepare a uniform cell suspension for counting. Be sure adherent cells are completely removed from flasks and are well mixed.

2. Prepare stained cell samples by mixing cells with Muse™ Count & Viability Reagent in a sample tube. Accurate cell counting occurs at a concentration range of 1 × 10^^4^^ cells/mL to 5 × 10^^5^^ cells/mL in the stained sample.

If you do not know the approximate concentration of your original cell suspension, prepare a stained cell sample by mixing with Reagent at a 20-fold dilution (for example, 20 μL of cell suspension into 380 μL  Reagent). If your cell sample shows a Total Cells per mL value of 1 x 10^^7^^ or higher, we recommend that you prepare additional dilutions (for example, 40- and 80-fold dilutions) for the assay to verify the cell count.

Cell Suspension in 1 mL Dilution Table (recommended volumes)

|cssClass|k
|!Original Suspension|! Dilution Factor|Cell Volume|Reagent Volume |Diluted Cells|h
|0.100 Mil - 1 Mil|10×|50μL|450 μL|0.100 Mil|
|1Mil - 10 Mil|20×|20μL|380 μL|0.500 Mil|
|10 Mil - 20 Mil|40×|20μL|780 μL|0.500 Mil|

If you dilute your original sample 1:10 with PBS, then dilute the sample 1:10 with Reagent during sample preparation, the final dilution factor is 100.

If the final concentration of the stained cell sample for data acquisition is too concentrated (>5 ×10^^5^^ cells/ mL), the cell count may not be accurate.

3. Allow the cells to stain for a minimum of 5 minutes.

1 × 10^^5^^ = 100 000 = 0.100 Milions
1 × 10^^6^^ = 1 000 000 = 1 Milions
1 ×10^^7^^ = 10 000 000 = 10 Milions
5 × 10^^5^^ = 500 000 = 0.500 Milions
2 × 10^^7^^ = 20 000 000 = 20 Milions
https://www.mathsisfun.com/index-notation-powers.html

4. Run a System Check
5. Select Count & Viability from the main menu.
6. Select Run Assay
7. Load a stained sample for adjusting the settings and select Run.
8. Adjust the Cell Size Index slider to the left of the plot to move
the cellular population into the green region.
9. Drag the threshold to exclude any cellular debris.
10. Select Next when you’ve completed the adjustments
11. Adjust the vertical and horizontal sliders (to the left of and below the plot) to position the viable cells
12. Adjust the horizontal line to separate the viable cells from debris.
13. Adjust the vertical/angled marker (viability discriminator) to separate the viable cells (left) from the dead cells (right).
14. Select Next when the adjustments are complete.
15. If the settings are correct, select Next.
16. Enter the sample ID by touching the field change the Events to Acquire, Dilution Factor, and/or Original Volume.
17. Select Next
18. Mix the first sample and load it on the instrument. Select Run to run the sample.
19. If no adjustments are needed, select Next Run
20. During the run, a message may appear prompting you to
load a tube of DI water for a Quick Clean. Load the water then
select Clean to perform the Quick Clean. Select Next to continue
with the run.
21. When you have acquired the last sample, select Finish.
22. Periodically run Quick Clean using a tube of DI water (after every 20 sample acquisitions).

The default number of events to acquire is 1000. You may select a different number; however, your statistical error will increase as you decrease the number of acquisition events.

Microcentrifuge tubes with screw caps, 1.5 mL (VWR, Catalog No. 16466-030,
Muse™ Count & Viability Reagent (frigo, refrigerated at 2 to 8°C) Catalog No. MCH600103, 600 tests contains sodium azide, which is toxic

Nathan Stitziel "New England Journal of Medicine"

http://www.nejm.org/doi/full/10.1056/NEJMoa1507652?af=R&rss=currentIssue&
Coding Variation in ANGPTL4, LPL, and SVEP1 and the Risk of Coronary Disease

http://www.eurekalert.org/pub_releases/2016-03/wuso-nig022916.php

doua gene care pot creste sau reduce riscul de boli cardiovasculare
Anomaliile rare ale genei ANGPTL4 R sunt legate de un risc scazut de patologii ale arterelor coronare, care variaza intre o rata de 14% a modificarilor reduse, pana la o rata de 50% in cazul in care o copie intreaga a acestei gene este dezafectata.

Aceasta gena ANGPTL4 este cunoscuta de mult timp ca actionand asupra trigliceridelor, ale caror niveluri din sange sunt considerate un marker al riscului cardiovascular.

Cealalta gena, SVEP1 indica o corelatie opusa cu riscul de patologii ale arterelor coronare, o alterare rara a sa crescand acest risc cu 14%.

Aceasta descoperire pare sa confirme ca nivelurile ridicate ale trigliceridelor cresc riscul de boli cardiace coronariene. Cercetatorii au crezut pana acum ca o prea mare concentrare a acestor grasimi poate fi un semn al manifestarii unor boli cardiovasculare, dar nu si cauza acestora.

[[StyleSheetTiddlySpace]]

! FW [Formula Weight] 

Antimycin A (Ant-A) Formula Weight: 548.63 g/mol (dilute in EtOH)

<!doctype html>
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<html>
<head>
<meta http-equiv="X-UA-Compatible" content="IE=edge" />		<!-- Force IE standards mode for Intranet and HTA - should be the first meta -->
<meta http-equiv="Content-Type" content="text/html;charset=utf-8" />
<meta name="application-name" content="TiddlyWiki" />
<meta name="generator" content="TiddlyWiki" />
<meta name="tiddlywiki-version" content="5.1.10" />
<meta name="viewport" content="width=device-width, initial-scale=1.0" />
<meta name="apple-mobile-web-app-capable" content="yes" />
<meta name="apple-mobile-web-app-status-bar-style" content="black-translucent" />
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<meta name="copyright" content="TiddlyWiki created by Jeremy Ruston, (jeremy [at] jermolene [dot] com)

Copyright © Jeremy Ruston 2004-2007
Copyright © UnaMesa Association 2007-2016

Redistribution and use in source and binary forms, with or without modification,
are permitted provided that the following conditions are met:

Redistributions of source code must retain the above copyright notice, this
list of conditions and the following disclaimer.

Redistributions in binary form must reproduce the above copyright notice, this
list of conditions and the following disclaimer in the documentation and/or other
materials provided with the distribution.

Neither the name of the UnaMesa Association nor the names of its contributors may be
used to endorse or promote products derived from this software without specific
prior written permission.

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 'AS IS' AND ANY
EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
DAMAGE.
" />
<link id="faviconLink" rel="shortcut icon" href="favicon.ico">
<title>TiddlyWiki in the Sky — for TiddlyWeb</title>
<!--~~ This is a Tiddlywiki file. The points of interest in the file are marked with this pattern ~~--><!--~~ Raw markup ~~-->

</head>
<body class="tc-body">
<!--~~ Static styles ~~-->
<div id="styleArea">
<style data-tiddler-title="$:/boot/boot.css" data-tiddler-type="text/css" type="text/css">/*
Basic styles used before we boot up the parsing engine
*/

/*
Error message and password prompt
*/

.tc-password-wrapper, .tc-error-form {
    font-family: sans-serif;
	z-index: 20000;
	position: fixed;
	text-align: center;
	width: 200px;
	top: 4em;
    left: 50%;
    margin-left: -144px; /* - width/2 - paddingHorz/2 - border */
	padding: 16px 16px 16px 16px;
	border-radius: 8px;
}

.tc-error-form {
	color: #fff;
	text-shadow: 0 1px 0 rgba(0, 0, 0, 0.5);
	background-color: rgb(255, 75, 75);
	border: 8px solid rgb(255, 0, 0);
	width: 480px;
    margin-left: -244px; /* - width/2 - paddingHorz/2 - border */
}

.tc-error-form div {
	padding-bottom: 1em;
}

.tc-error-prompt {
	color: #000;
	text-shadow: none;
}

.tc-password-wrapper {
	color: #000;
	text-shadow: 0 1px 0 rgba(255, 255, 255, 0.5);
	background-color: rgb(197, 235, 183);
	border: 8px solid rgb(164, 197, 152);
}

.tc-password-wrapper form {
	text-align: left;
}

.tc-password-wrapper h1 {
	font-size: 16px;
	line-height: 20px;
	padding-bottom: 16px;
}

.tc-password-wrapper input {
	width: 100%;
}
</style>
</div>
<!--~~ Static content for Google and browsers without JavaScript ~~-->
<noscript>
<div id="splashArea">

<p>This <a class="tc-tiddlylink-external" href="http://tiddlywiki.com" target="_blank">TiddlyWiki</a> contains the following tiddlers:</p><p><ul>

<li>$:/core</li>

<li>$:/DefaultTiddlers</li>

<li>$:/isEncrypted</li>

<li>$:/plugins/tiddlywiki/tiddlyweb</li>

<li>$:/SiteSubtitle</li>

<li>$:/SiteTitle</li>

<li>$:/StoryList</li>

<li>$:/temp/info-plugin</li>

<li>$:/themes/tiddlywiki/snowwhite</li>

<li>$:/themes/tiddlywiki/vanilla</li>

<li>TiddlerListTemplate</li>

<li>TiddlyWiki5 for TiddlyWeb</li>

</ul>
</p>



</div>
</noscript>
<!--~~ Ordinary tiddlers ~~-->

<div id="storeArea" style="display:none;">
<div author="JeremyRuston" core-version="&gt;=5.0.0" dependents="" description="TiddlyWiki5 core" list="readme" plugin-priority="0" plugin-type="plugin" title="$:/core" type="application/json" version="5.1.10" revision="0" bag="default">
<pre>{
    &quot;tiddlers&quot;: {
        &quot;$:/Acknowledgements&quot;: {
            &quot;title&quot;: &quot;$:/Acknowledgements&quot;,
            &quot;type&quot;: &quot;text/vnd.tiddlywiki&quot;,
            &quot;text&quot;: &quot;TiddlyWiki incorporates code from these fine OpenSource projects:\n\n* [[The Stanford Javascript Crypto Library|http://bitwiseshiftleft.github.io/sjcl/]]\n* [[The Jasmine JavaScript Test Framework|http://pivotal.github.io/jasmine/]]\n* [[Normalize.css by Nicolas Gallagher|http://necolas.github.io/normalize.css/]]\n\nAnd media from these projects:\n\n* World flag icons from [[Wikipedia|http://commons.wikimedia.org/wiki/Category:SVG_flags_by_country]]\n&quot;
        },
        &quot;$:/core/copyright.txt&quot;: {
            &quot;title&quot;: &quot;$:/core/copyright.txt&quot;,
            &quot;type&quot;: &quot;text/plain&quot;,
            &quot;text&quot;: &quot;TiddlyWiki created by Jeremy Ruston, (jeremy [at] jermolene [dot] com)\n\nCopyright © Jeremy Ruston 2004-2007\nCopyright © UnaMesa Association 2007-2016\n\nRedistribution and use in source and binary forms, with or without modification,\nare permitted provided that the following conditions are met:\n\nRedistributions of source code must retain the above copyright notice, this\nlist of conditions and the following disclaimer.\n\nRedistributions in binary form must reproduce the above copyright notice, this\nlist of conditions and the following disclaimer in the documentation and/or other\nmaterials provided with the distribution.\n\nNeither the name of the UnaMesa Association nor the names of its contributors may be\nused to endorse or promote products derived from this software without specific\nprior written permission.\n\nTHIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 'AS IS' AND ANY\nEXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES\nOF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT\nSHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,\nINCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED\nTO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR\nBUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN\nCONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN\nANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH\nDAMAGE.\n&quot;
        },
        &quot;$:/core/icon&quot;: {
            &quot;title&quot;: &quot;$:/core/icon&quot;,
            &quot;tags&quot;: &quot;$:/tags/Image&quot;,
            &quot;text&quot;: &quot;&lt;svg width=\&quot;22pt\&quot; height=\&quot;22pt\&quot; viewBox=\&quot;0 0 128 128\&quot;&gt;&lt;path d=\&quot;M64 0l54.56 32v64L64 128 9.44 96V32L64 0zm21.127 95.408c-3.578-.103-5.15-.094-6.974-3.152l-1.42.042c-1.653-.075-.964-.04-2.067-.097-1.844-.07-1.548-1.86-1.873-2.8-.52-3.202.687-6.43.65-9.632-.014-1.14-1.593-5.17-2.157-6.61-1.768.34-3.546.406-5.34.497-4.134-.01-8.24-.527-12.317-1.183-.8 3.35-3.16 8.036-1.21 11.44 2.37 3.52 4.03 4.495 6.61 4.707 2.572.212 3.16 3.18 2.53 4.242-.55.73-1.52.864-2.346 1.04l-1.65.08c-1.296-.046-2.455-.404-3.61-.955-1.93-1.097-3.925-3.383-5.406-5.024.345.658.55 1.938.24 2.53-.878 1.27-4.665 1.26-6.4.47-1.97-.89-6.73-7.162-7.468-11.86 1.96-3.78 4.812-7.07 6.255-11.186-3.146-2.05-4.83-5.384-4.61-9.16l.08-.44c-3.097.59-1.49.37-4.82.628-10.608-.032-19.935-7.37-14.68-18.774.34-.673.664-1.287 1.243-.994.466.237.4 1.18.166 2.227-3.005 13.627 11.67 13.732 20.69 11.21.89-.25 2.67-1.936 3.905-2.495 2.016-.91 4.205-1.282 6.376-1.55 5.4-.63 11.893 2.276 15.19 2.37 3.3.096 7.99-.805 10.87-.615 2.09.098 4.143.483 6.16 1.03 1.306-6.49 1.4-11.27 4.492-12.38 1.814.293 3.213 2.818 4.25 4.167 2.112-.086 4.12.46 6.115 1.066 3.61-.522 6.642-2.593 9.833-4.203-3.234 2.69-3.673 7.075-3.303 11.127.138 2.103-.444 4.386-1.164 6.54-1.348 3.507-3.95 7.204-6.97 7.014-1.14-.036-1.805-.695-2.653-1.4-.164 1.427-.81 2.7-1.434 3.96-1.44 2.797-5.203 4.03-8.687 7.016-3.484 2.985 1.114 13.65 2.23 15.594 1.114 1.94 4.226 2.652 3.02 4.406-.37.58-.936.785-1.54 1.01l-.82.11zm-40.097-8.85l.553.14c.694-.27 2.09.15 2.83.353-1.363-1.31-3.417-3.24-4.897-4.46-.485-1.47-.278-2.96-.174-4.46l.02-.123c-.582 1.205-1.322 2.376-1.72 3.645-.465 1.71 2.07 3.557 3.052 4.615l.336.3z\&quot; fill-rule=\&quot;evenodd\&quot;/&gt;&lt;/svg&gt;&quot;
        },
        &quot;$:/core/images/advanced-search-button&quot;: {
            &quot;title&quot;: &quot;$:/core/images/advanced-search-button&quot;,
            &quot;tags&quot;: &quot;$:/tags/Image&quot;,
            &quot;text&quot;: &quot;&lt;svg class=\&quot;tc-image-advanced-search-button tc-image-button\&quot; width=\&quot;22pt\&quot; height=\&quot;22pt\&quot; viewBox=\&quot;0 0 128 128\&quot;&gt;\n    &lt;g fill-rule=\&quot;evenodd\&quot;&gt;\n        &lt;path d=\&quot;M74.5651535,87.9848361 C66.9581537,93.0488876 57.8237115,96 48,96 C21.490332,96 0,74.509668 0,48 C0,21.490332 21.490332,0 48,0 C74.509668,0 96,21.490332 96,48 C96,57.8541369 93.0305793,67.0147285 87.9377231,74.6357895 L122.284919,108.982985 C125.978897,112.676963 125.973757,118.65366 122.284271,122.343146 C118.593975,126.033442 112.613238,126.032921 108.92411,122.343793 L74.5651535,87.9848361 Z M48,80 C65.673112,80 80,65.673112 80,48 C80,30.326888 65.673112,16 48,16 C30.326888,16 16,30.326888 16,48 C16,65.673112 30.326888,80 48,80 Z\&quot;&gt;&lt;/path&gt;\n        &lt;circle cx=\&quot;48\&quot; cy=\&quot;48\&quot; r=\&quot;8\&quot;&gt;&lt;/circle&gt;\n        &lt;circle cx=\&quot;28\&quot; cy=\&quot;48\&quot; r=\&quot;8\&quot;&gt;&lt;/circle&gt;\n        &lt;circle cx=\&quot;68\&quot; cy=\&quot;48\&quot; r=\&quot;8\&quot;&gt;&lt;/circle&gt;\n    &lt;/g&gt;\n&lt;/svg&gt;&quot;
        },
        &quot;$:/core/images/blank&quot;: {
            &quot;title&quot;: &quot;$:/core/images/blank&quot;,
            &quot;tags&quot;: &quot;$:/tags/Image&quot;,
            &quot;text&quot;: &quot;&lt;svg class=\&quot;tc-image-blank tc-image-button\&quot; viewBox=\&quot;0 0 128 128\&quot; width=\&quot;22pt\&quot; height=\&quot;22pt\&quot;&gt;&lt;/svg&gt;&quot;
        },
        &quot;$:/core/images/cancel-button&quot;: {
            &quot;title&quot;: &quot;$:/core/images/cancel-button&quot;,
            &quot;tags&quot;: &quot;$:/tags/Image&quot;,
            &quot;text&quot;: &quot;&lt;svg class=\&quot;tc-image-cancel-button tc-image-button\&quot; viewBox=\&quot;0 0 128 128\&quot; width=\&quot;22pt\&quot; height=\&quot;22pt\&quot;&gt;\n\t&lt;g fill-rule=\&quot;evenodd\&quot;&gt;\n\t    &lt;path d=\&quot;M64,76.3137085 L47.0294734,93.2842351 C43.9038742,96.4098343 38.8399231,96.4084656 35.7157288,93.2842712 C32.5978915,90.166434 32.5915506,85.0947409 35.7157649,81.9705266 L52.6862915,65 L35.7157649,48.0294734 C32.5901657,44.9038742 32.5915344,39.8399231 35.7157288,36.7157288 C38.833566,33.5978915 43.9052591,33.5915506 47.0294734,36.7157649 L64,53.6862915 L80.9705266,36.7157649 C84.0961258,33.5901657 89.1600769,33.5915344 92.2842712,36.7157288 C95.4021085,39.833566 95.4084494,44.9052591 92.2842351,48.0294734 L75.3137085,65 L92.2842351,81.9705266 C95.4098343,85.0961258 95.4084656,90.1600769 92.2842712,93.2842712 C89.166434,96.4021085 84.0947409,96.4084494 80.9705266,93.2842351 L64,76.3137085 Z M64,129 C99.346224,129 128,100.346224 128,65 C128,29.653776 99.346224,1 64,1 C28.653776,1 1.13686838e-13,29.653776 1.13686838e-13,65 C1.13686838e-13,100.346224 28.653776,129 64,129 Z M64,113 C90.509668,113 112,91.509668 112,65 C112,38.490332 90.509668,17 64,17 C37.490332,17 16,38.490332 16,65 C16,91.509668 37.490332,113 64,113 Z\&quot;&gt;&lt;/path&gt;\n    &lt;/g&gt;\n&lt;/svg&gt;&quot;
        },
        &quot;$:/core/images/chevron-down&quot;: {
            &quot;title&quot;: &quot;$:/core/images/chevron-down&quot;,
            &quot;tags&quot;: &quot;$:/tags/Image&quot;,
            &quot;text&quot;: &quot;&lt;svg class=\&quot;tc-image-chevron-down tc-image-button\&quot; width=\&quot;22pt\&quot; height=\&quot;22pt\&quot; viewBox=\&quot;0 0 128 128\&quot;&gt;\n\t&lt;g fill-rule=\&quot;evenodd\&quot; transform=\&quot;translate(64.000000, 40.500000) rotate(-270.000000) translate(-64.000000, -40.500000) translate(-22.500000, -26.500000)\&quot;&gt;\n        &lt;path d=\&quot;M112.743107,112.12741 C111.310627,113.561013 109.331747,114.449239 107.145951,114.449239 L27.9777917,114.449239 C23.6126002,114.449239 20.0618714,110.904826 20.0618714,106.532572 C20.0618714,102.169214 23.6059497,98.6159054 27.9777917,98.6159054 L99.2285381,98.6159054 L99.2285381,27.365159 C99.2285381,22.9999675 102.77295,19.4492387 107.145205,19.4492387 C111.508562,19.4492387 115.061871,22.993317 115.061871,27.365159 L115.061871,106.533318 C115.061871,108.71579 114.175869,110.694669 112.743378,112.127981 Z\&quot; transform=\&quot;translate(67.561871, 66.949239) rotate(-45.000000) translate(-67.561871, -66.949239) \&quot;&gt;&lt;/path&gt;\n        &lt;path d=\&quot;M151.35638,112.12741 C149.923899,113.561013 147.94502,114.449239 145.759224,114.449239 L66.5910645,114.449239 C62.225873,114.449239 58.6751442,110.904826 58.6751442,106.532572 C58.6751442,102.169214 62.2192225,98.6159054 66.5910645,98.6159054 L137.841811,98.6159054 L137.841811,27.365159 C137.841811,22.9999675 141.386223,19.4492387 145.758478,19.4492387 C150.121835,19.4492387 153.675144,22.993317 153.675144,27.365159 L153.675144,106.533318 C153.675144,108.71579 152.789142,110.694669 151.356651,112.127981 Z\&quot; transform=\&quot;translate(106.175144, 66.949239) rotate(-45.000000) translate(-106.175144, -66.949239) \&quot;&gt;&lt;/path&gt;\n\t&lt;/g&gt;\n&lt;/svg&gt;&quot;
        },
        &quot;$:/core/images/chevron-left&quot;: {
            &quot;title&quot;: &quot;$:/core/images/chevron-left&quot;,
            &quot;tags&quot;: &quot;$:/tags/Image&quot;,
            &quot;text&quot;: &quot;&lt;svg class=\&quot;tc-image-chevron-left tc-image-button\&quot; width=\&quot;22pt\&quot; height=\&quot;22pt\&quot; viewBox=\&quot;0 0 128 128\&quot; version=\&quot;1.1\&quot;&gt;\n    &lt;g fill-rule=\&quot;evenodd\&quot; transform=\&quot;translate(92.500000, 64.000000) rotate(-180.000000) translate(-92.500000, -64.000000) translate(6.000000, -3.000000)\&quot;&gt;\n        &lt;path d=\&quot;M112.743107,112.12741 C111.310627,113.561013 109.331747,114.449239 107.145951,114.449239 L27.9777917,114.449239 C23.6126002,114.449239 20.0618714,110.904826 20.0618714,106.532572 C20.0618714,102.169214 23.6059497,98.6159054 27.9777917,98.6159054 L99.2285381,98.6159054 L99.2285381,27.365159 C99.2285381,22.9999675 102.77295,19.4492387 107.145205,19.4492387 C111.508562,19.4492387 115.061871,22.993317 115.061871,27.365159 L115.061871,106.533318 C115.061871,108.71579 114.175869,110.694669 112.743378,112.127981 Z\&quot; transform=\&quot;translate(67.561871, 66.949239) rotate(-45.000000) translate(-67.561871, -66.949239) \&quot;&gt;&lt;/path&gt;\n        &lt;path d=\&quot;M151.35638,112.12741 C149.923899,113.561013 147.94502,114.449239 145.759224,114.449239 L66.5910645,114.449239 C62.225873,114.449239 58.6751442,110.904826 58.6751442,106.532572 C58.6751442,102.169214 62.2192225,98.6159054 66.5910645,98.6159054 L137.841811,98.6159054 L137.841811,27.365159 C137.841811,22.9999675 141.386223,19.4492387 145.758478,19.4492387 C150.121835,19.4492387 153.675144,22.993317 153.675144,27.365159 L153.675144,106.533318 C153.675144,108.71579 152.789142,110.694669 151.356651,112.127981 Z\&quot; transform=\&quot;translate(106.175144, 66.949239) rotate(-45.000000) translate(-106.175144, -66.949239) \&quot;&gt;&lt;/path&gt;\n    &lt;/g&gt;\n&lt;/svg&gt;&quot;
        },
        &quot;$:/core/images/chevron-right&quot;: {
            &quot;title&quot;: &quot;$:/core/images/chevron-right&quot;,
            &quot;tags&quot;: &quot;$:/tags/Image&quot;,
            &quot;text&quot;: &quot;&lt;svg class=\&quot;tc-image-chevron-right tc-image-button\&quot; width=\&quot;22pt\&quot; height=\&quot;22pt\&quot; viewBox=\&quot;0 0 128 128\&quot;&gt;\n    &lt;g fill-rule=\&quot;evenodd\&quot; transform=\&quot;translate(-48.000000, -3.000000)\&quot;&gt;\n        &lt;path d=\&quot;M112.743107,112.12741 C111.310627,113.561013 109.331747,114.449239 107.145951,114.449239 L27.9777917,114.449239 C23.6126002,114.449239 20.0618714,110.904826 20.0618714,106.532572 C20.0618714,102.169214 23.6059497,98.6159054 27.9777917,98.6159054 L99.2285381,98.6159054 L99.2285381,27.365159 C99.2285381,22.9999675 102.77295,19.4492387 107.145205,19.4492387 C111.508562,19.4492387 115.061871,22.993317 115.061871,27.365159 L115.061871,106.533318 C115.061871,108.71579 114.175869,110.694669 112.743378,112.127981 Z\&quot; transform=\&quot;translate(67.561871, 66.949239) rotate(-45.000000) translate(-67.561871, -66.949239) \&quot;&gt;&lt;/path&gt;\n        &lt;path d=\&quot;M151.35638,112.12741 C149.923899,113.561013 147.94502,114.449239 145.759224,114.449239 L66.5910645,114.449239 C62.225873,114.449239 58.6751442,110.904826 58.6751442,106.532572 C58.6751442,102.169214 62.2192225,98.6159054 66.5910645,98.6159054 L137.841811,98.6159054 L137.841811,27.365159 C137.841811,22.9999675 141.386223,19.4492387 145.758478,19.4492387 C150.121835,19.4492387 153.675144,22.993317 153.675144,27.365159 L153.675144,106.533318 C153.675144,108.71579 152.789142,110.694669 151.356651,112.127981 Z\&quot; transform=\&quot;translate(106.175144, 66.949239) rotate(-45.000000) translate(-106.175144, -66.949239) \&quot;&gt;&lt;/path&gt;\n    &lt;/g&gt;\n&lt;/svg&gt;&quot;
        },
        &quot;$:/core/images/chevron-up&quot;: {
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        &quot;$:/core/images/warning&quot;: {
            &quot;title&quot;: &quot;$:/core/images/warning&quot;,
            &quot;tags&quot;: &quot;$:/tags/Image&quot;,
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        },
        &quot;$:/language/Buttons/AdvancedSearch/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/AdvancedSearch/Caption&quot;,
            &quot;text&quot;: &quot;advanced search&quot;
        },
        &quot;$:/language/Buttons/AdvancedSearch/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/AdvancedSearch/Hint&quot;,
            &quot;text&quot;: &quot;Advanced search&quot;
        },
        &quot;$:/language/Buttons/Cancel/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Cancel/Caption&quot;,
            &quot;text&quot;: &quot;cancel&quot;
        },
        &quot;$:/language/Buttons/Cancel/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Cancel/Hint&quot;,
            &quot;text&quot;: &quot;Discard changes to this tiddler&quot;
        },
        &quot;$:/language/Buttons/Clone/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Clone/Caption&quot;,
            &quot;text&quot;: &quot;clone&quot;
        },
        &quot;$:/language/Buttons/Clone/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Clone/Hint&quot;,
            &quot;text&quot;: &quot;Clone this tiddler&quot;
        },
        &quot;$:/language/Buttons/Close/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Close/Caption&quot;,
            &quot;text&quot;: &quot;close&quot;
        },
        &quot;$:/language/Buttons/Close/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Close/Hint&quot;,
            &quot;text&quot;: &quot;Close this tiddler&quot;
        },
        &quot;$:/language/Buttons/CloseAll/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/CloseAll/Caption&quot;,
            &quot;text&quot;: &quot;close all&quot;
        },
        &quot;$:/language/Buttons/CloseAll/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/CloseAll/Hint&quot;,
            &quot;text&quot;: &quot;Close all tiddlers&quot;
        },
        &quot;$:/language/Buttons/CloseOthers/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/CloseOthers/Caption&quot;,
            &quot;text&quot;: &quot;close others&quot;
        },
        &quot;$:/language/Buttons/CloseOthers/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/CloseOthers/Hint&quot;,
            &quot;text&quot;: &quot;Close other tiddlers&quot;
        },
        &quot;$:/language/Buttons/ControlPanel/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/ControlPanel/Caption&quot;,
            &quot;text&quot;: &quot;control panel&quot;
        },
        &quot;$:/language/Buttons/ControlPanel/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/ControlPanel/Hint&quot;,
            &quot;text&quot;: &quot;Open control panel&quot;
        },
        &quot;$:/language/Buttons/Delete/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Delete/Caption&quot;,
            &quot;text&quot;: &quot;delete&quot;
        },
        &quot;$:/language/Buttons/Delete/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Delete/Hint&quot;,
            &quot;text&quot;: &quot;Delete this tiddler&quot;
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        &quot;$:/language/Buttons/Edit/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Edit/Caption&quot;,
            &quot;text&quot;: &quot;edit&quot;
        },
        &quot;$:/language/Buttons/Edit/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Edit/Hint&quot;,
            &quot;text&quot;: &quot;Edit this tiddler&quot;
        },
        &quot;$:/language/Buttons/Encryption/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Encryption/Caption&quot;,
            &quot;text&quot;: &quot;encryption&quot;
        },
        &quot;$:/language/Buttons/Encryption/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Encryption/Hint&quot;,
            &quot;text&quot;: &quot;Set or clear a password for saving this wiki&quot;
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        &quot;$:/language/Buttons/Encryption/ClearPassword/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Encryption/ClearPassword/Caption&quot;,
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        &quot;$:/language/Buttons/Encryption/ClearPassword/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Encryption/ClearPassword/Hint&quot;,
            &quot;text&quot;: &quot;Clear the password and save this wiki without encryption&quot;
        },
        &quot;$:/language/Buttons/Encryption/SetPassword/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Encryption/SetPassword/Caption&quot;,
            &quot;text&quot;: &quot;set password&quot;
        },
        &quot;$:/language/Buttons/Encryption/SetPassword/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Encryption/SetPassword/Hint&quot;,
            &quot;text&quot;: &quot;Set a password for saving this wiki with encryption&quot;
        },
        &quot;$:/language/Buttons/ExportPage/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/ExportPage/Caption&quot;,
            &quot;text&quot;: &quot;export all&quot;
        },
        &quot;$:/language/Buttons/ExportPage/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/ExportPage/Hint&quot;,
            &quot;text&quot;: &quot;Export all tiddlers&quot;
        },
        &quot;$:/language/Buttons/ExportTiddler/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/ExportTiddler/Caption&quot;,
            &quot;text&quot;: &quot;export tiddler&quot;
        },
        &quot;$:/language/Buttons/ExportTiddler/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/ExportTiddler/Hint&quot;,
            &quot;text&quot;: &quot;Export tiddler&quot;
        },
        &quot;$:/language/Buttons/ExportTiddlers/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/ExportTiddlers/Caption&quot;,
            &quot;text&quot;: &quot;export tiddlers&quot;
        },
        &quot;$:/language/Buttons/ExportTiddlers/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/ExportTiddlers/Hint&quot;,
            &quot;text&quot;: &quot;Export tiddlers&quot;
        },
        &quot;$:/language/Buttons/Fold/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Fold/Caption&quot;,
            &quot;text&quot;: &quot;fold tiddler&quot;
        },
        &quot;$:/language/Buttons/Fold/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Fold/Hint&quot;,
            &quot;text&quot;: &quot;Fold the body of this tiddler&quot;
        },
        &quot;$:/language/Buttons/Fold/FoldBar/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Fold/FoldBar/Caption&quot;,
            &quot;text&quot;: &quot;fold-bar&quot;
        },
        &quot;$:/language/Buttons/Fold/FoldBar/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Fold/FoldBar/Hint&quot;,
            &quot;text&quot;: &quot;Optional bars to fold and unfold tiddlers&quot;
        },
        &quot;$:/language/Buttons/Unfold/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Unfold/Caption&quot;,
            &quot;text&quot;: &quot;unfold tiddler&quot;
        },
        &quot;$:/language/Buttons/Unfold/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Unfold/Hint&quot;,
            &quot;text&quot;: &quot;Unfold the body of this tiddler&quot;
        },
        &quot;$:/language/Buttons/FoldOthers/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/FoldOthers/Caption&quot;,
            &quot;text&quot;: &quot;fold other tiddlers&quot;
        },
        &quot;$:/language/Buttons/FoldOthers/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/FoldOthers/Hint&quot;,
            &quot;text&quot;: &quot;Fold the bodies of other opened tiddlers&quot;
        },
        &quot;$:/language/Buttons/FoldAll/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/FoldAll/Caption&quot;,
            &quot;text&quot;: &quot;fold all tiddlers&quot;
        },
        &quot;$:/language/Buttons/FoldAll/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/FoldAll/Hint&quot;,
            &quot;text&quot;: &quot;Fold the bodies of all opened tiddlers&quot;
        },
        &quot;$:/language/Buttons/UnfoldAll/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/UnfoldAll/Caption&quot;,
            &quot;text&quot;: &quot;unfold all tiddlers&quot;
        },
        &quot;$:/language/Buttons/UnfoldAll/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/UnfoldAll/Hint&quot;,
            &quot;text&quot;: &quot;Unfold the bodies of all opened tiddlers&quot;
        },
        &quot;$:/language/Buttons/FullScreen/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/FullScreen/Caption&quot;,
            &quot;text&quot;: &quot;full-screen&quot;
        },
        &quot;$:/language/Buttons/FullScreen/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/FullScreen/Hint&quot;,
            &quot;text&quot;: &quot;Enter or leave full-screen mode&quot;
        },
        &quot;$:/language/Buttons/Help/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Help/Caption&quot;,
            &quot;text&quot;: &quot;help&quot;
        },
        &quot;$:/language/Buttons/Help/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Help/Hint&quot;,
            &quot;text&quot;: &quot;Show help panel&quot;
        },
        &quot;$:/language/Buttons/Import/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Import/Caption&quot;,
            &quot;text&quot;: &quot;import&quot;
        },
        &quot;$:/language/Buttons/Import/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Import/Hint&quot;,
            &quot;text&quot;: &quot;Import many types of file including text, image, TiddlyWiki or JSON&quot;
        },
        &quot;$:/language/Buttons/Info/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Info/Caption&quot;,
            &quot;text&quot;: &quot;info&quot;
        },
        &quot;$:/language/Buttons/Info/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Info/Hint&quot;,
            &quot;text&quot;: &quot;Show information for this tiddler&quot;
        },
        &quot;$:/language/Buttons/Home/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Home/Caption&quot;,
            &quot;text&quot;: &quot;home&quot;
        },
        &quot;$:/language/Buttons/Home/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Home/Hint&quot;,
            &quot;text&quot;: &quot;Open the default tiddlers&quot;
        },
        &quot;$:/language/Buttons/Language/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Language/Caption&quot;,
            &quot;text&quot;: &quot;language&quot;
        },
        &quot;$:/language/Buttons/Language/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Language/Hint&quot;,
            &quot;text&quot;: &quot;Choose the user interface language&quot;
        },
        &quot;$:/language/Buttons/More/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/More/Caption&quot;,
            &quot;text&quot;: &quot;more&quot;
        },
        &quot;$:/language/Buttons/More/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/More/Hint&quot;,
            &quot;text&quot;: &quot;More actions&quot;
        },
        &quot;$:/language/Buttons/NewHere/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/NewHere/Caption&quot;,
            &quot;text&quot;: &quot;new here&quot;
        },
        &quot;$:/language/Buttons/NewHere/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/NewHere/Hint&quot;,
            &quot;text&quot;: &quot;Create a new tiddler tagged with this one&quot;
        },
        &quot;$:/language/Buttons/NewJournal/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/NewJournal/Caption&quot;,
            &quot;text&quot;: &quot;new journal&quot;
        },
        &quot;$:/language/Buttons/NewJournal/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/NewJournal/Hint&quot;,
            &quot;text&quot;: &quot;Create a new journal tiddler&quot;
        },
        &quot;$:/language/Buttons/NewJournalHere/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/NewJournalHere/Caption&quot;,
            &quot;text&quot;: &quot;new journal here&quot;
        },
        &quot;$:/language/Buttons/NewJournalHere/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/NewJournalHere/Hint&quot;,
            &quot;text&quot;: &quot;Create a new journal tiddler tagged with this one&quot;
        },
        &quot;$:/language/Buttons/NewTiddler/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/NewTiddler/Caption&quot;,
            &quot;text&quot;: &quot;new tiddler&quot;
        },
        &quot;$:/language/Buttons/NewTiddler/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/NewTiddler/Hint&quot;,
            &quot;text&quot;: &quot;Create a new tiddler&quot;
        },
        &quot;$:/language/Buttons/OpenWindow/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/OpenWindow/Caption&quot;,
            &quot;text&quot;: &quot;open in new window&quot;
        },
        &quot;$:/language/Buttons/OpenWindow/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/OpenWindow/Hint&quot;,
            &quot;text&quot;: &quot;Open tiddler in new window&quot;
        },
        &quot;$:/language/Buttons/Palette/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Palette/Caption&quot;,
            &quot;text&quot;: &quot;palette&quot;
        },
        &quot;$:/language/Buttons/Palette/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Palette/Hint&quot;,
            &quot;text&quot;: &quot;Choose the colour palette&quot;
        },
        &quot;$:/language/Buttons/Permalink/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Permalink/Caption&quot;,
            &quot;text&quot;: &quot;permalink&quot;
        },
        &quot;$:/language/Buttons/Permalink/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Permalink/Hint&quot;,
            &quot;text&quot;: &quot;Set browser address bar to a direct link to this tiddler&quot;
        },
        &quot;$:/language/Buttons/Permaview/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Permaview/Caption&quot;,
            &quot;text&quot;: &quot;permaview&quot;
        },
        &quot;$:/language/Buttons/Permaview/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Permaview/Hint&quot;,
            &quot;text&quot;: &quot;Set browser address bar to a direct link to all the tiddlers in this story&quot;
        },
        &quot;$:/language/Buttons/Refresh/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Refresh/Caption&quot;,
            &quot;text&quot;: &quot;refresh&quot;
        },
        &quot;$:/language/Buttons/Refresh/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Refresh/Hint&quot;,
            &quot;text&quot;: &quot;Perform a full refresh of the wiki&quot;
        },
        &quot;$:/language/Buttons/Save/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Save/Caption&quot;,
            &quot;text&quot;: &quot;ok&quot;
        },
        &quot;$:/language/Buttons/Save/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Save/Hint&quot;,
            &quot;text&quot;: &quot;Confirm changes to this tiddler&quot;
        },
        &quot;$:/language/Buttons/SaveWiki/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/SaveWiki/Caption&quot;,
            &quot;text&quot;: &quot;save changes&quot;
        },
        &quot;$:/language/Buttons/SaveWiki/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/SaveWiki/Hint&quot;,
            &quot;text&quot;: &quot;Save changes&quot;
        },
        &quot;$:/language/Buttons/StoryView/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/StoryView/Caption&quot;,
            &quot;text&quot;: &quot;storyview&quot;
        },
        &quot;$:/language/Buttons/StoryView/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/StoryView/Hint&quot;,
            &quot;text&quot;: &quot;Choose the story visualisation&quot;
        },
        &quot;$:/language/Buttons/HideSideBar/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/HideSideBar/Caption&quot;,
            &quot;text&quot;: &quot;hide sidebar&quot;
        },
        &quot;$:/language/Buttons/HideSideBar/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/HideSideBar/Hint&quot;,
            &quot;text&quot;: &quot;Hide sidebar&quot;
        },
        &quot;$:/language/Buttons/ShowSideBar/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/ShowSideBar/Caption&quot;,
            &quot;text&quot;: &quot;show sidebar&quot;
        },
        &quot;$:/language/Buttons/ShowSideBar/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/ShowSideBar/Hint&quot;,
            &quot;text&quot;: &quot;Show sidebar&quot;
        },
        &quot;$:/language/Buttons/TagManager/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/TagManager/Caption&quot;,
            &quot;text&quot;: &quot;tag manager&quot;
        },
        &quot;$:/language/Buttons/TagManager/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/TagManager/Hint&quot;,
            &quot;text&quot;: &quot;Open tag manager&quot;
        },
        &quot;$:/language/Buttons/Theme/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Theme/Caption&quot;,
            &quot;text&quot;: &quot;theme&quot;
        },
        &quot;$:/language/Buttons/Theme/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Buttons/Theme/Hint&quot;,
            &quot;text&quot;: &quot;Choose the display theme&quot;
        },
        &quot;$:/language/ControlPanel/Advanced/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Advanced/Caption&quot;,
            &quot;text&quot;: &quot;Advanced&quot;
        },
        &quot;$:/language/ControlPanel/Advanced/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Advanced/Hint&quot;,
            &quot;text&quot;: &quot;Internal information about this TiddlyWiki&quot;
        },
        &quot;$:/language/ControlPanel/Appearance/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Appearance/Caption&quot;,
            &quot;text&quot;: &quot;Appearance&quot;
        },
        &quot;$:/language/ControlPanel/Appearance/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Appearance/Hint&quot;,
            &quot;text&quot;: &quot;Ways to customise the appearance of your TiddlyWiki.&quot;
        },
        &quot;$:/language/ControlPanel/Basics/AnimDuration/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/AnimDuration/Prompt&quot;,
            &quot;text&quot;: &quot;Animation duration:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/Caption&quot;,
            &quot;text&quot;: &quot;Basics&quot;
        },
        &quot;$:/language/ControlPanel/Basics/DefaultTiddlers/BottomHint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/DefaultTiddlers/BottomHint&quot;,
            &quot;text&quot;: &quot;Use &amp;#91;&amp;#91;double square brackets&amp;#93;&amp;#93; for titles with spaces. Or you can choose to &lt;$button set=\&quot;$:/DefaultTiddlers\&quot; setTo=\&quot;[list[$:/StoryList]]\&quot;&gt;retain story ordering&lt;/$button&gt;&quot;
        },
        &quot;$:/language/ControlPanel/Basics/DefaultTiddlers/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/DefaultTiddlers/Prompt&quot;,
            &quot;text&quot;: &quot;Default tiddlers:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/DefaultTiddlers/TopHint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/DefaultTiddlers/TopHint&quot;,
            &quot;text&quot;: &quot;Choose which tiddlers are displayed at startup:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/Language/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/Language/Prompt&quot;,
            &quot;text&quot;: &quot;Hello! Current language:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/NewJournal/Title/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/NewJournal/Title/Prompt&quot;,
            &quot;text&quot;: &quot;Title of new journal tiddlers&quot;
        },
        &quot;$:/language/ControlPanel/Basics/NewJournal/Tags/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/NewJournal/Tags/Prompt&quot;,
            &quot;text&quot;: &quot;Tags for new journal tiddlers&quot;
        },
        &quot;$:/language/ControlPanel/Basics/OverriddenShadowTiddlers/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/OverriddenShadowTiddlers/Prompt&quot;,
            &quot;text&quot;: &quot;Number of overridden shadow tiddlers:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/ShadowTiddlers/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/ShadowTiddlers/Prompt&quot;,
            &quot;text&quot;: &quot;Number of shadow tiddlers:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/Subtitle/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/Subtitle/Prompt&quot;,
            &quot;text&quot;: &quot;Subtitle:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/SystemTiddlers/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/SystemTiddlers/Prompt&quot;,
            &quot;text&quot;: &quot;Number of system tiddlers:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/Tags/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/Tags/Prompt&quot;,
            &quot;text&quot;: &quot;Number of tags:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/Tiddlers/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/Tiddlers/Prompt&quot;,
            &quot;text&quot;: &quot;Number of tiddlers:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/Title/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/Title/Prompt&quot;,
            &quot;text&quot;: &quot;Title of this ~TiddlyWiki:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/Username/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/Username/Prompt&quot;,
            &quot;text&quot;: &quot;Username for signing edits:&quot;
        },
        &quot;$:/language/ControlPanel/Basics/Version/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Basics/Version/Prompt&quot;,
            &quot;text&quot;: &quot;~TiddlyWiki version:&quot;
        },
        &quot;$:/language/ControlPanel/EditorTypes/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/EditorTypes/Caption&quot;,
            &quot;text&quot;: &quot;Editor Types&quot;
        },
        &quot;$:/language/ControlPanel/EditorTypes/Editor/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/EditorTypes/Editor/Caption&quot;,
            &quot;text&quot;: &quot;Editor&quot;
        },
        &quot;$:/language/ControlPanel/EditorTypes/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/EditorTypes/Hint&quot;,
            &quot;text&quot;: &quot;These tiddlers determine which editor is used to edit specific tiddler types.&quot;
        },
        &quot;$:/language/ControlPanel/EditorTypes/Type/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/EditorTypes/Type/Caption&quot;,
            &quot;text&quot;: &quot;Type&quot;
        },
        &quot;$:/language/ControlPanel/Info/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Info/Caption&quot;,
            &quot;text&quot;: &quot;Info&quot;
        },
        &quot;$:/language/ControlPanel/Info/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Info/Hint&quot;,
            &quot;text&quot;: &quot;Information about this TiddlyWiki&quot;
        },
        &quot;$:/language/ControlPanel/LoadedModules/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/LoadedModules/Caption&quot;,
            &quot;text&quot;: &quot;Loaded Modules&quot;
        },
        &quot;$:/language/ControlPanel/LoadedModules/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/LoadedModules/Hint&quot;,
            &quot;text&quot;: &quot;These are the currently loaded tiddler modules linked to their source tiddlers. Any italicised modules lack a source tiddler, typically because they were setup during the boot process.&quot;
        },
        &quot;$:/language/ControlPanel/Palette/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Palette/Caption&quot;,
            &quot;text&quot;: &quot;Palette&quot;
        },
        &quot;$:/language/ControlPanel/Palette/Editor/Clone/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Palette/Editor/Clone/Caption&quot;,
            &quot;text&quot;: &quot;clone&quot;
        },
        &quot;$:/language/ControlPanel/Palette/Editor/Clone/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Palette/Editor/Clone/Prompt&quot;,
            &quot;text&quot;: &quot;It is recommended that you clone this shadow palette before editing it&quot;
        },
        &quot;$:/language/ControlPanel/Palette/Editor/Prompt/Modified&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Palette/Editor/Prompt/Modified&quot;,
            &quot;text&quot;: &quot;This shadow palette has been modified&quot;
        },
        &quot;$:/language/ControlPanel/Palette/Editor/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Palette/Editor/Prompt&quot;,
            &quot;text&quot;: &quot;Editing&quot;
        },
        &quot;$:/language/ControlPanel/Palette/Editor/Reset/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Palette/Editor/Reset/Caption&quot;,
            &quot;text&quot;: &quot;reset&quot;
        },
        &quot;$:/language/ControlPanel/Palette/HideEditor/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Palette/HideEditor/Caption&quot;,
            &quot;text&quot;: &quot;hide editor&quot;
        },
        &quot;$:/language/ControlPanel/Palette/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Palette/Prompt&quot;,
            &quot;text&quot;: &quot;Current palette:&quot;
        },
        &quot;$:/language/ControlPanel/Palette/ShowEditor/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Palette/ShowEditor/Caption&quot;,
            &quot;text&quot;: &quot;show editor&quot;
        },
        &quot;$:/language/ControlPanel/Parsing/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Parsing/Caption&quot;,
            &quot;text&quot;: &quot;Parsing&quot;
        },
        &quot;$:/language/ControlPanel/Parsing/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Parsing/Hint&quot;,
            &quot;text&quot;: &quot;Here you can globally disable individual wiki parser rules. Take care as disabling some parser rules can prevent ~TiddlyWiki functioning correctly (you can restore normal operation with [[safe mode|http://tiddlywiki.com/#SafeMode]] )&quot;
        },
        &quot;$:/language/ControlPanel/Parsing/Block/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Parsing/Block/Caption&quot;,
            &quot;text&quot;: &quot;Block Parse Rules&quot;
        },
        &quot;$:/language/ControlPanel/Parsing/Inline/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Parsing/Inline/Caption&quot;,
            &quot;text&quot;: &quot;Inline Parse Rules&quot;
        },
        &quot;$:/language/ControlPanel/Parsing/Pragma/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Parsing/Pragma/Caption&quot;,
            &quot;text&quot;: &quot;Pragma Parse Rules&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Add/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Add/Hint&quot;,
            &quot;text&quot;: &quot;Install plugins from the official library&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Add/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Add/Caption&quot;,
            &quot;text&quot;: &quot;Get more plugins&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Caption&quot;,
            &quot;text&quot;: &quot;Plugins&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Disable/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Disable/Caption&quot;,
            &quot;text&quot;: &quot;disable&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Disable/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Disable/Hint&quot;,
            &quot;text&quot;: &quot;Disable this plugin when reloading page&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Disabled/Status&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Disabled/Status&quot;,
            &quot;text&quot;: &quot;(disabled)&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Empty/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Empty/Hint&quot;,
            &quot;text&quot;: &quot;None&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Enable/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Enable/Caption&quot;,
            &quot;text&quot;: &quot;enable&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Enable/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Enable/Hint&quot;,
            &quot;text&quot;: &quot;Enable this plugin when reloading page&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Install&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Install&quot;,
            &quot;text&quot;: &quot;install&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Installed/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Installed/Hint&quot;,
            &quot;text&quot;: &quot;Currently installed plugins:&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Languages/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Languages/Caption&quot;,
            &quot;text&quot;: &quot;Languages&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Languages/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Languages/Hint&quot;,
            &quot;text&quot;: &quot;Language pack plugins&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/OpenPluginLibrary&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/OpenPluginLibrary&quot;,
            &quot;text&quot;: &quot;open plugin library&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Plugins/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Plugins/Caption&quot;,
            &quot;text&quot;: &quot;Plugins&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Plugins/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Plugins/Hint&quot;,
            &quot;text&quot;: &quot;Plugins&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Reinstall&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Reinstall&quot;,
            &quot;text&quot;: &quot;reinstall&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Themes/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Themes/Caption&quot;,
            &quot;text&quot;: &quot;Themes&quot;
        },
        &quot;$:/language/ControlPanel/Plugins/Themes/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Plugins/Themes/Hint&quot;,
            &quot;text&quot;: &quot;Theme plugins&quot;
        },
        &quot;$:/language/ControlPanel/Saving/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/Caption&quot;,
            &quot;text&quot;: &quot;Saving&quot;
        },
        &quot;$:/language/ControlPanel/Saving/Heading&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/Heading&quot;,
            &quot;text&quot;: &quot;Saving&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/Advanced/Heading&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/Advanced/Heading&quot;,
            &quot;text&quot;: &quot;Advanced Settings&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/BackupDir&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/BackupDir&quot;,
            &quot;text&quot;: &quot;Backup Directory&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/Backups&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/Backups&quot;,
            &quot;text&quot;: &quot;Backups&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/Description&quot;,
            &quot;text&quot;: &quot;These settings are only used when saving to http://tiddlyspot.com or a compatible remote server&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/Filename&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/Filename&quot;,
            &quot;text&quot;: &quot;Upload Filename&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/Heading&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/Heading&quot;,
            &quot;text&quot;: &quot;~TiddlySpot&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/Hint&quot;,
            &quot;text&quot;: &quot;//The server URL defaults to `http://&lt;wikiname&gt;.tiddlyspot.com/store.cgi` and can be changed to use a custom server address, e.g. `http://example.com/store.php`.//&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/Password&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/Password&quot;,
            &quot;text&quot;: &quot;Password&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/ServerURL&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/ServerURL&quot;,
            &quot;text&quot;: &quot;Server URL&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/UploadDir&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/UploadDir&quot;,
            &quot;text&quot;: &quot;Upload Directory&quot;
        },
        &quot;$:/language/ControlPanel/Saving/TiddlySpot/UserName&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Saving/TiddlySpot/UserName&quot;,
            &quot;text&quot;: &quot;Wiki Name&quot;
        },
        &quot;$:/language/ControlPanel/Settings/AutoSave/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/AutoSave/Caption&quot;,
            &quot;text&quot;: &quot;Autosave&quot;
        },
        &quot;$:/language/ControlPanel/Settings/AutoSave/Disabled/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/AutoSave/Disabled/Description&quot;,
            &quot;text&quot;: &quot;Do not save changes automatically&quot;
        },
        &quot;$:/language/ControlPanel/Settings/AutoSave/Enabled/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/AutoSave/Enabled/Description&quot;,
            &quot;text&quot;: &quot;Save changes automatically&quot;
        },
        &quot;$:/language/ControlPanel/Settings/AutoSave/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/AutoSave/Hint&quot;,
            &quot;text&quot;: &quot;Automatically save changes during editing&quot;
        },
        &quot;$:/language/ControlPanel/Settings/CamelCase/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/CamelCase/Caption&quot;,
            &quot;text&quot;: &quot;Camel Case Wiki Links&quot;
        },
        &quot;$:/language/ControlPanel/Settings/CamelCase/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/CamelCase/Hint&quot;,
            &quot;text&quot;: &quot;You can globally disable automatic linking of ~CamelCase phrases. Requires reload to take effect&quot;
        },
        &quot;$:/language/ControlPanel/Settings/CamelCase/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/CamelCase/Description&quot;,
            &quot;text&quot;: &quot;Enable automatic ~CamelCase linking&quot;
        },
        &quot;$:/language/ControlPanel/Settings/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/Caption&quot;,
            &quot;text&quot;: &quot;Settings&quot;
        },
        &quot;$:/language/ControlPanel/Settings/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/Hint&quot;,
            &quot;text&quot;: &quot;These settings let you customise the behaviour of TiddlyWiki.&quot;
        },
        &quot;$:/language/ControlPanel/Settings/NavigationAddressBar/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/NavigationAddressBar/Caption&quot;,
            &quot;text&quot;: &quot;Navigation Address Bar&quot;
        },
        &quot;$:/language/ControlPanel/Settings/NavigationAddressBar/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/NavigationAddressBar/Hint&quot;,
            &quot;text&quot;: &quot;Behaviour of the browser address bar when navigating to a tiddler:&quot;
        },
        &quot;$:/language/ControlPanel/Settings/NavigationAddressBar/No/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/NavigationAddressBar/No/Description&quot;,
            &quot;text&quot;: &quot;Do not update the address bar&quot;
        },
        &quot;$:/language/ControlPanel/Settings/NavigationAddressBar/Permalink/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/NavigationAddressBar/Permalink/Description&quot;,
            &quot;text&quot;: &quot;Include the target tiddler&quot;
        },
        &quot;$:/language/ControlPanel/Settings/NavigationAddressBar/Permaview/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/NavigationAddressBar/Permaview/Description&quot;,
            &quot;text&quot;: &quot;Include the target tiddler and the current story sequence&quot;
        },
        &quot;$:/language/ControlPanel/Settings/NavigationHistory/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/NavigationHistory/Caption&quot;,
            &quot;text&quot;: &quot;Navigation History&quot;
        },
        &quot;$:/language/ControlPanel/Settings/NavigationHistory/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/NavigationHistory/Hint&quot;,
            &quot;text&quot;: &quot;Update browser history when navigating to a tiddler:&quot;
        },
        &quot;$:/language/ControlPanel/Settings/NavigationHistory/No/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/NavigationHistory/No/Description&quot;,
            &quot;text&quot;: &quot;Do not update history&quot;
        },
        &quot;$:/language/ControlPanel/Settings/NavigationHistory/Yes/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/NavigationHistory/Yes/Description&quot;,
            &quot;text&quot;: &quot;Update history&quot;
        },
        &quot;$:/language/ControlPanel/Settings/PerformanceInstrumentation/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/PerformanceInstrumentation/Caption&quot;,
            &quot;text&quot;: &quot;Performance Instrumentation&quot;
        },
        &quot;$:/language/ControlPanel/Settings/PerformanceInstrumentation/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/PerformanceInstrumentation/Hint&quot;,
            &quot;text&quot;: &quot;Displays performance statistics in the browser developer console. Requires reload to take effect&quot;
        },
        &quot;$:/language/ControlPanel/Settings/PerformanceInstrumentation/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/PerformanceInstrumentation/Description&quot;,
            &quot;text&quot;: &quot;Enable performance instrumentation&quot;
        },
        &quot;$:/language/ControlPanel/Settings/ToolbarButtonStyle/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/ToolbarButtonStyle/Caption&quot;,
            &quot;text&quot;: &quot;Toolbar Button Style&quot;
        },
        &quot;$:/language/ControlPanel/Settings/ToolbarButtonStyle/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/ToolbarButtonStyle/Hint&quot;,
            &quot;text&quot;: &quot;Choose the style for toolbar buttons:&quot;
        },
        &quot;$:/language/ControlPanel/Settings/ToolbarButtonStyle/Styles/Borderless&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/ToolbarButtonStyle/Styles/Borderless&quot;,
            &quot;text&quot;: &quot;Borderless&quot;
        },
        &quot;$:/language/ControlPanel/Settings/ToolbarButtonStyle/Styles/Boxed&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/ToolbarButtonStyle/Styles/Boxed&quot;,
            &quot;text&quot;: &quot;Boxed&quot;
        },
        &quot;$:/language/ControlPanel/Settings/ToolbarButtonStyle/Styles/Rounded&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/ToolbarButtonStyle/Styles/Rounded&quot;,
            &quot;text&quot;: &quot;Rounded&quot;
        },
        &quot;$:/language/ControlPanel/Settings/ToolbarButtons/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/ToolbarButtons/Caption&quot;,
            &quot;text&quot;: &quot;Toolbar Buttons&quot;
        },
        &quot;$:/language/ControlPanel/Settings/ToolbarButtons/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/ToolbarButtons/Hint&quot;,
            &quot;text&quot;: &quot;Default toolbar button appearance:&quot;
        },
        &quot;$:/language/ControlPanel/Settings/ToolbarButtons/Icons/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/ToolbarButtons/Icons/Description&quot;,
            &quot;text&quot;: &quot;Include icon&quot;
        },
        &quot;$:/language/ControlPanel/Settings/ToolbarButtons/Text/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/ToolbarButtons/Text/Description&quot;,
            &quot;text&quot;: &quot;Include text&quot;
        },
        &quot;$:/language/ControlPanel/Settings/DefaultSidebarTab/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/DefaultSidebarTab/Caption&quot;,
            &quot;text&quot;: &quot;Default Sidebar Tab&quot;
        },
        &quot;$:/language/ControlPanel/Settings/DefaultSidebarTab/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/DefaultSidebarTab/Hint&quot;,
            &quot;text&quot;: &quot;Specify which sidebar tab is displayed by default&quot;
        },
        &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/Caption&quot;,
            &quot;text&quot;: &quot;Tiddler Opening Behaviour&quot;
        },
        &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/InsideRiver/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/InsideRiver/Hint&quot;,
            &quot;text&quot;: &quot;Navigation from //within// the story river&quot;
        },
        &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/OutsideRiver/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/OutsideRiver/Hint&quot;,
            &quot;text&quot;: &quot;Navigation from //outside// the story river&quot;
        },
        &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/OpenAbove&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/OpenAbove&quot;,
            &quot;text&quot;: &quot;Open above the current tiddler&quot;
        },
        &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/OpenBelow&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/OpenBelow&quot;,
            &quot;text&quot;: &quot;Open below the current tiddler&quot;
        },
        &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/OpenAtTop&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/OpenAtTop&quot;,
            &quot;text&quot;: &quot;Open at the top of the story river&quot;
        },
        &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/OpenAtBottom&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/LinkToBehaviour/OpenAtBottom&quot;,
            &quot;text&quot;: &quot;Open at the bottom of the story river&quot;
        },
        &quot;$:/language/ControlPanel/Settings/TitleLinks/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/TitleLinks/Caption&quot;,
            &quot;text&quot;: &quot;Tiddler Titles&quot;
        },
        &quot;$:/language/ControlPanel/Settings/TitleLinks/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/TitleLinks/Hint&quot;,
            &quot;text&quot;: &quot;Optionally display tiddler titles as links&quot;
        },
        &quot;$:/language/ControlPanel/Settings/TitleLinks/No/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/TitleLinks/No/Description&quot;,
            &quot;text&quot;: &quot;Do not display tiddler titles as links&quot;
        },
        &quot;$:/language/ControlPanel/Settings/TitleLinks/Yes/Description&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Settings/TitleLinks/Yes/Description&quot;,
            &quot;text&quot;: &quot;Display tiddler titles as links&quot;
        },
        &quot;$:/language/ControlPanel/StoryView/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/StoryView/Caption&quot;,
            &quot;text&quot;: &quot;Story View&quot;
        },
        &quot;$:/language/ControlPanel/StoryView/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/StoryView/Prompt&quot;,
            &quot;text&quot;: &quot;Current view:&quot;
        },
        &quot;$:/language/ControlPanel/Theme/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Theme/Caption&quot;,
            &quot;text&quot;: &quot;Theme&quot;
        },
        &quot;$:/language/ControlPanel/Theme/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Theme/Prompt&quot;,
            &quot;text&quot;: &quot;Current theme:&quot;
        },
        &quot;$:/language/ControlPanel/TiddlerFields/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/TiddlerFields/Caption&quot;,
            &quot;text&quot;: &quot;Tiddler Fields&quot;
        },
        &quot;$:/language/ControlPanel/TiddlerFields/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/TiddlerFields/Hint&quot;,
            &quot;text&quot;: &quot;This is the full set of TiddlerFields in use in this wiki (including system tiddlers but excluding shadow tiddlers).&quot;
        },
        &quot;$:/language/ControlPanel/Toolbars/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Toolbars/Caption&quot;,
            &quot;text&quot;: &quot;Toolbars&quot;
        },
        &quot;$:/language/ControlPanel/Toolbars/EditToolbar/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Toolbars/EditToolbar/Caption&quot;,
            &quot;text&quot;: &quot;Edit Toolbar&quot;
        },
        &quot;$:/language/ControlPanel/Toolbars/EditToolbar/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Toolbars/EditToolbar/Hint&quot;,
            &quot;text&quot;: &quot;Choose which buttons are displayed for tiddlers in edit mode&quot;
        },
        &quot;$:/language/ControlPanel/Toolbars/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Toolbars/Hint&quot;,
            &quot;text&quot;: &quot;Select which toolbar buttons are displayed&quot;
        },
        &quot;$:/language/ControlPanel/Toolbars/PageControls/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Toolbars/PageControls/Caption&quot;,
            &quot;text&quot;: &quot;Page Toolbar&quot;
        },
        &quot;$:/language/ControlPanel/Toolbars/PageControls/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Toolbars/PageControls/Hint&quot;,
            &quot;text&quot;: &quot;Choose which buttons are displayed on the main page toolbar&quot;
        },
        &quot;$:/language/ControlPanel/Toolbars/ViewToolbar/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Toolbars/ViewToolbar/Caption&quot;,
            &quot;text&quot;: &quot;View Toolbar&quot;
        },
        &quot;$:/language/ControlPanel/Toolbars/ViewToolbar/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Toolbars/ViewToolbar/Hint&quot;,
            &quot;text&quot;: &quot;Choose which buttons are displayed for tiddlers in view mode&quot;
        },
        &quot;$:/language/ControlPanel/Tools/Download/Full/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ControlPanel/Tools/Download/Full/Caption&quot;,
            &quot;text&quot;: &quot;Download full wiki&quot;
        },
        &quot;$:/language/Date/DaySuffix/1&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/1&quot;,
            &quot;text&quot;: &quot;st&quot;
        },
        &quot;$:/language/Date/DaySuffix/2&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/2&quot;,
            &quot;text&quot;: &quot;nd&quot;
        },
        &quot;$:/language/Date/DaySuffix/3&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/3&quot;,
            &quot;text&quot;: &quot;rd&quot;
        },
        &quot;$:/language/Date/DaySuffix/4&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/4&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/5&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/5&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/6&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/6&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/7&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/7&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/8&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/8&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/9&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/9&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/10&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/10&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/11&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/11&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/12&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/12&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/13&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/13&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/14&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/14&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/15&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/15&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/16&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/16&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/17&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/17&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/18&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/18&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/19&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/19&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/20&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/20&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/21&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/21&quot;,
            &quot;text&quot;: &quot;st&quot;
        },
        &quot;$:/language/Date/DaySuffix/22&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/22&quot;,
            &quot;text&quot;: &quot;nd&quot;
        },
        &quot;$:/language/Date/DaySuffix/23&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/23&quot;,
            &quot;text&quot;: &quot;rd&quot;
        },
        &quot;$:/language/Date/DaySuffix/24&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/24&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/25&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/25&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/26&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/26&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/27&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/27&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/28&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/28&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/29&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/29&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/30&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/30&quot;,
            &quot;text&quot;: &quot;th&quot;
        },
        &quot;$:/language/Date/DaySuffix/31&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/DaySuffix/31&quot;,
            &quot;text&quot;: &quot;st&quot;
        },
        &quot;$:/language/Date/Long/Day/0&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Day/0&quot;,
            &quot;text&quot;: &quot;Sunday&quot;
        },
        &quot;$:/language/Date/Long/Day/1&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Day/1&quot;,
            &quot;text&quot;: &quot;Monday&quot;
        },
        &quot;$:/language/Date/Long/Day/2&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Day/2&quot;,
            &quot;text&quot;: &quot;Tuesday&quot;
        },
        &quot;$:/language/Date/Long/Day/3&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Day/3&quot;,
            &quot;text&quot;: &quot;Wednesday&quot;
        },
        &quot;$:/language/Date/Long/Day/4&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Day/4&quot;,
            &quot;text&quot;: &quot;Thursday&quot;
        },
        &quot;$:/language/Date/Long/Day/5&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Day/5&quot;,
            &quot;text&quot;: &quot;Friday&quot;
        },
        &quot;$:/language/Date/Long/Day/6&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Day/6&quot;,
            &quot;text&quot;: &quot;Saturday&quot;
        },
        &quot;$:/language/Date/Long/Month/1&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/1&quot;,
            &quot;text&quot;: &quot;January&quot;
        },
        &quot;$:/language/Date/Long/Month/2&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/2&quot;,
            &quot;text&quot;: &quot;February&quot;
        },
        &quot;$:/language/Date/Long/Month/3&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/3&quot;,
            &quot;text&quot;: &quot;March&quot;
        },
        &quot;$:/language/Date/Long/Month/4&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/4&quot;,
            &quot;text&quot;: &quot;April&quot;
        },
        &quot;$:/language/Date/Long/Month/5&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/5&quot;,
            &quot;text&quot;: &quot;May&quot;
        },
        &quot;$:/language/Date/Long/Month/6&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/6&quot;,
            &quot;text&quot;: &quot;June&quot;
        },
        &quot;$:/language/Date/Long/Month/7&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/7&quot;,
            &quot;text&quot;: &quot;July&quot;
        },
        &quot;$:/language/Date/Long/Month/8&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/8&quot;,
            &quot;text&quot;: &quot;August&quot;
        },
        &quot;$:/language/Date/Long/Month/9&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/9&quot;,
            &quot;text&quot;: &quot;September&quot;
        },
        &quot;$:/language/Date/Long/Month/10&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/10&quot;,
            &quot;text&quot;: &quot;October&quot;
        },
        &quot;$:/language/Date/Long/Month/11&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/11&quot;,
            &quot;text&quot;: &quot;November&quot;
        },
        &quot;$:/language/Date/Long/Month/12&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Long/Month/12&quot;,
            &quot;text&quot;: &quot;December&quot;
        },
        &quot;$:/language/Date/Period/am&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Period/am&quot;,
            &quot;text&quot;: &quot;am&quot;
        },
        &quot;$:/language/Date/Period/pm&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Period/pm&quot;,
            &quot;text&quot;: &quot;pm&quot;
        },
        &quot;$:/language/Date/Short/Day/0&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Day/0&quot;,
            &quot;text&quot;: &quot;Sun&quot;
        },
        &quot;$:/language/Date/Short/Day/1&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Day/1&quot;,
            &quot;text&quot;: &quot;Mon&quot;
        },
        &quot;$:/language/Date/Short/Day/2&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Day/2&quot;,
            &quot;text&quot;: &quot;Tue&quot;
        },
        &quot;$:/language/Date/Short/Day/3&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Day/3&quot;,
            &quot;text&quot;: &quot;Wed&quot;
        },
        &quot;$:/language/Date/Short/Day/4&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Day/4&quot;,
            &quot;text&quot;: &quot;Thu&quot;
        },
        &quot;$:/language/Date/Short/Day/5&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Day/5&quot;,
            &quot;text&quot;: &quot;Fri&quot;
        },
        &quot;$:/language/Date/Short/Day/6&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Day/6&quot;,
            &quot;text&quot;: &quot;Sat&quot;
        },
        &quot;$:/language/Date/Short/Month/1&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/1&quot;,
            &quot;text&quot;: &quot;Jan&quot;
        },
        &quot;$:/language/Date/Short/Month/2&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/2&quot;,
            &quot;text&quot;: &quot;Feb&quot;
        },
        &quot;$:/language/Date/Short/Month/3&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/3&quot;,
            &quot;text&quot;: &quot;Mar&quot;
        },
        &quot;$:/language/Date/Short/Month/4&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/4&quot;,
            &quot;text&quot;: &quot;Apr&quot;
        },
        &quot;$:/language/Date/Short/Month/5&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/5&quot;,
            &quot;text&quot;: &quot;May&quot;
        },
        &quot;$:/language/Date/Short/Month/6&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/6&quot;,
            &quot;text&quot;: &quot;Jun&quot;
        },
        &quot;$:/language/Date/Short/Month/7&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/7&quot;,
            &quot;text&quot;: &quot;Jul&quot;
        },
        &quot;$:/language/Date/Short/Month/8&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/8&quot;,
            &quot;text&quot;: &quot;Aug&quot;
        },
        &quot;$:/language/Date/Short/Month/9&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/9&quot;,
            &quot;text&quot;: &quot;Sep&quot;
        },
        &quot;$:/language/Date/Short/Month/10&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/10&quot;,
            &quot;text&quot;: &quot;Oct&quot;
        },
        &quot;$:/language/Date/Short/Month/11&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/11&quot;,
            &quot;text&quot;: &quot;Nov&quot;
        },
        &quot;$:/language/Date/Short/Month/12&quot;: {
            &quot;title&quot;: &quot;$:/language/Date/Short/Month/12&quot;,
            &quot;text&quot;: &quot;Dec&quot;
        },
        &quot;$:/language/RelativeDate/Future/Days&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Future/Days&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; days from now&quot;
        },
        &quot;$:/language/RelativeDate/Future/Hours&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Future/Hours&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; hours from now&quot;
        },
        &quot;$:/language/RelativeDate/Future/Minutes&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Future/Minutes&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; minutes from now&quot;
        },
        &quot;$:/language/RelativeDate/Future/Months&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Future/Months&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; months from now&quot;
        },
        &quot;$:/language/RelativeDate/Future/Second&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Future/Second&quot;,
            &quot;text&quot;: &quot;1 second from now&quot;
        },
        &quot;$:/language/RelativeDate/Future/Seconds&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Future/Seconds&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; seconds from now&quot;
        },
        &quot;$:/language/RelativeDate/Future/Years&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Future/Years&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; years from now&quot;
        },
        &quot;$:/language/RelativeDate/Past/Days&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Past/Days&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; days ago&quot;
        },
        &quot;$:/language/RelativeDate/Past/Hours&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Past/Hours&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; hours ago&quot;
        },
        &quot;$:/language/RelativeDate/Past/Minutes&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Past/Minutes&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; minutes ago&quot;
        },
        &quot;$:/language/RelativeDate/Past/Months&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Past/Months&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; months ago&quot;
        },
        &quot;$:/language/RelativeDate/Past/Second&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Past/Second&quot;,
            &quot;text&quot;: &quot;1 second ago&quot;
        },
        &quot;$:/language/RelativeDate/Past/Seconds&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Past/Seconds&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; seconds ago&quot;
        },
        &quot;$:/language/RelativeDate/Past/Years&quot;: {
            &quot;title&quot;: &quot;$:/language/RelativeDate/Past/Years&quot;,
            &quot;text&quot;: &quot;&lt;&lt;period&gt;&gt; years ago&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/animation&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/animation&quot;,
            &quot;text&quot;: &quot;Animations that may be used with the RevealWidget.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/command&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/command&quot;,
            &quot;text&quot;: &quot;Commands that can be executed under Node.js.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/config&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/config&quot;,
            &quot;text&quot;: &quot;Data to be inserted into `$tw.config`.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/filteroperator&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/filteroperator&quot;,
            &quot;text&quot;: &quot;Individual filter operator methods.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/global&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/global&quot;,
            &quot;text&quot;: &quot;Global data to be inserted into `$tw`.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/isfilteroperator&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/isfilteroperator&quot;,
            &quot;text&quot;: &quot;Operands for the ''is'' filter operator.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/macro&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/macro&quot;,
            &quot;text&quot;: &quot;JavaScript macro definitions.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/parser&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/parser&quot;,
            &quot;text&quot;: &quot;Parsers for different content types.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/saver&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/saver&quot;,
            &quot;text&quot;: &quot;Savers handle different methods for saving files from the browser.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/startup&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/startup&quot;,
            &quot;text&quot;: &quot;Startup functions.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/storyview&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/storyview&quot;,
            &quot;text&quot;: &quot;Story views customise the animation and behaviour of list widgets.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/tiddlerdeserializer&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/tiddlerdeserializer&quot;,
            &quot;text&quot;: &quot;Converts different content types into tiddlers.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/tiddlerfield&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/tiddlerfield&quot;,
            &quot;text&quot;: &quot;Defines the behaviour of an individual tiddler field.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/tiddlermethod&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/tiddlermethod&quot;,
            &quot;text&quot;: &quot;Adds methods to the `$tw.Tiddler` prototype.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/upgrader&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/upgrader&quot;,
            &quot;text&quot;: &quot;Applies upgrade processing to tiddlers during an upgrade/import.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/utils&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/utils&quot;,
            &quot;text&quot;: &quot;Adds methods to `$tw.utils`.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/utils-node&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/utils-node&quot;,
            &quot;text&quot;: &quot;Adds Node.js-specific methods to `$tw.utils`.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/widget&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/widget&quot;,
            &quot;text&quot;: &quot;Widgets encapsulate DOM rendering and refreshing.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/wikimethod&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/wikimethod&quot;,
            &quot;text&quot;: &quot;Adds methods to `$tw.Wiki`.&quot;
        },
        &quot;$:/language/Docs/ModuleTypes/wikirule&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/ModuleTypes/wikirule&quot;,
            &quot;text&quot;: &quot;Individual parser rules for the main WikiText parser.&quot;
        },
        &quot;$:/language/Docs/PaletteColours/alert-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/alert-background&quot;,
            &quot;text&quot;: &quot;Alert background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/alert-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/alert-border&quot;,
            &quot;text&quot;: &quot;Alert border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/alert-highlight&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/alert-highlight&quot;,
            &quot;text&quot;: &quot;Alert highlight&quot;
        },
        &quot;$:/language/Docs/PaletteColours/alert-muted-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/alert-muted-foreground&quot;,
            &quot;text&quot;: &quot;Alert muted foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/background&quot;,
            &quot;text&quot;: &quot;General background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/blockquote-bar&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/blockquote-bar&quot;,
            &quot;text&quot;: &quot;Blockquote bar&quot;
        },
        &quot;$:/language/Docs/PaletteColours/button-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/button-background&quot;,
            &quot;text&quot;: &quot;Default button background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/button-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/button-border&quot;,
            &quot;text&quot;: &quot;Default button border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/button-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/button-foreground&quot;,
            &quot;text&quot;: &quot;Default button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/dirty-indicator&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/dirty-indicator&quot;,
            &quot;text&quot;: &quot;Unsaved changes indicator&quot;
        },
        &quot;$:/language/Docs/PaletteColours/code-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/code-background&quot;,
            &quot;text&quot;: &quot;Code background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/code-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/code-border&quot;,
            &quot;text&quot;: &quot;Code border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/code-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/code-foreground&quot;,
            &quot;text&quot;: &quot;Code foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/download-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/download-background&quot;,
            &quot;text&quot;: &quot;Download button background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/download-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/download-foreground&quot;,
            &quot;text&quot;: &quot;Download button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/dragger-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/dragger-background&quot;,
            &quot;text&quot;: &quot;Dragger background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/dragger-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/dragger-foreground&quot;,
            &quot;text&quot;: &quot;Dragger foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/dropdown-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/dropdown-background&quot;,
            &quot;text&quot;: &quot;Dropdown background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/dropdown-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/dropdown-border&quot;,
            &quot;text&quot;: &quot;Dropdown border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/dropdown-tab-background-selected&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/dropdown-tab-background-selected&quot;,
            &quot;text&quot;: &quot;Dropdown tab background for selected tabs&quot;
        },
        &quot;$:/language/Docs/PaletteColours/dropdown-tab-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/dropdown-tab-background&quot;,
            &quot;text&quot;: &quot;Dropdown tab background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/dropzone-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/dropzone-background&quot;,
            &quot;text&quot;: &quot;Dropzone background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/external-link-background-hover&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/external-link-background-hover&quot;,
            &quot;text&quot;: &quot;External link background hover&quot;
        },
        &quot;$:/language/Docs/PaletteColours/external-link-background-visited&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/external-link-background-visited&quot;,
            &quot;text&quot;: &quot;External link background visited&quot;
        },
        &quot;$:/language/Docs/PaletteColours/external-link-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/external-link-background&quot;,
            &quot;text&quot;: &quot;External link background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/external-link-foreground-hover&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/external-link-foreground-hover&quot;,
            &quot;text&quot;: &quot;External link foreground hover&quot;
        },
        &quot;$:/language/Docs/PaletteColours/external-link-foreground-visited&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/external-link-foreground-visited&quot;,
            &quot;text&quot;: &quot;External link foreground visited&quot;
        },
        &quot;$:/language/Docs/PaletteColours/external-link-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/external-link-foreground&quot;,
            &quot;text&quot;: &quot;External link foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/foreground&quot;,
            &quot;text&quot;: &quot;General foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/message-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/message-background&quot;,
            &quot;text&quot;: &quot;Message box background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/message-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/message-border&quot;,
            &quot;text&quot;: &quot;Message box border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/message-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/message-foreground&quot;,
            &quot;text&quot;: &quot;Message box foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/modal-backdrop&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/modal-backdrop&quot;,
            &quot;text&quot;: &quot;Modal backdrop&quot;
        },
        &quot;$:/language/Docs/PaletteColours/modal-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/modal-background&quot;,
            &quot;text&quot;: &quot;Modal background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/modal-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/modal-border&quot;,
            &quot;text&quot;: &quot;Modal border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/modal-footer-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/modal-footer-background&quot;,
            &quot;text&quot;: &quot;Modal footer background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/modal-footer-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/modal-footer-border&quot;,
            &quot;text&quot;: &quot;Modal footer border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/modal-header-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/modal-header-border&quot;,
            &quot;text&quot;: &quot;Modal header border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/muted-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/muted-foreground&quot;,
            &quot;text&quot;: &quot;General muted foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/notification-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/notification-background&quot;,
            &quot;text&quot;: &quot;Notification background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/notification-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/notification-border&quot;,
            &quot;text&quot;: &quot;Notification border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/page-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/page-background&quot;,
            &quot;text&quot;: &quot;Page background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/pre-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/pre-background&quot;,
            &quot;text&quot;: &quot;Preformatted code background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/pre-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/pre-border&quot;,
            &quot;text&quot;: &quot;Preformatted code border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/primary&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/primary&quot;,
            &quot;text&quot;: &quot;General primary&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-button-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-button-foreground&quot;,
            &quot;text&quot;: &quot;Sidebar button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-controls-foreground-hover&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-controls-foreground-hover&quot;,
            &quot;text&quot;: &quot;Sidebar controls foreground hover&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-controls-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-controls-foreground&quot;,
            &quot;text&quot;: &quot;Sidebar controls foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-foreground-shadow&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-foreground-shadow&quot;,
            &quot;text&quot;: &quot;Sidebar foreground shadow&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-foreground&quot;,
            &quot;text&quot;: &quot;Sidebar foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-muted-foreground-hover&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-muted-foreground-hover&quot;,
            &quot;text&quot;: &quot;Sidebar muted foreground hover&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-muted-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-muted-foreground&quot;,
            &quot;text&quot;: &quot;Sidebar muted foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-tab-background-selected&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-tab-background-selected&quot;,
            &quot;text&quot;: &quot;Sidebar tab background for selected tabs&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-tab-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-tab-background&quot;,
            &quot;text&quot;: &quot;Sidebar tab background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-tab-border-selected&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-tab-border-selected&quot;,
            &quot;text&quot;: &quot;Sidebar tab border for selected tabs&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-tab-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-tab-border&quot;,
            &quot;text&quot;: &quot;Sidebar tab border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-tab-divider&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-tab-divider&quot;,
            &quot;text&quot;: &quot;Sidebar tab divider&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-tab-foreground-selected&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-tab-foreground-selected&quot;,
            &quot;text&quot;: &quot;Sidebar tab foreground for selected tabs&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-tab-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-tab-foreground&quot;,
            &quot;text&quot;: &quot;Sidebar tab foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-tiddler-link-foreground-hover&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-tiddler-link-foreground-hover&quot;,
            &quot;text&quot;: &quot;Sidebar tiddler link foreground hover&quot;
        },
        &quot;$:/language/Docs/PaletteColours/sidebar-tiddler-link-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/sidebar-tiddler-link-foreground&quot;,
            &quot;text&quot;: &quot;Sidebar tiddler link foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/site-title-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/site-title-foreground&quot;,
            &quot;text&quot;: &quot;Site title foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/static-alert-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/static-alert-foreground&quot;,
            &quot;text&quot;: &quot;Static alert foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tab-background-selected&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tab-background-selected&quot;,
            &quot;text&quot;: &quot;Tab background for selected tabs&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tab-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tab-background&quot;,
            &quot;text&quot;: &quot;Tab background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tab-border-selected&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tab-border-selected&quot;,
            &quot;text&quot;: &quot;Tab border for selected tabs&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tab-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tab-border&quot;,
            &quot;text&quot;: &quot;Tab border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tab-divider&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tab-divider&quot;,
            &quot;text&quot;: &quot;Tab divider&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tab-foreground-selected&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tab-foreground-selected&quot;,
            &quot;text&quot;: &quot;Tab foreground for selected tabs&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tab-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tab-foreground&quot;,
            &quot;text&quot;: &quot;Tab foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/table-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/table-border&quot;,
            &quot;text&quot;: &quot;Table border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/table-footer-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/table-footer-background&quot;,
            &quot;text&quot;: &quot;Table footer background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/table-header-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/table-header-background&quot;,
            &quot;text&quot;: &quot;Table header background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tag-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tag-background&quot;,
            &quot;text&quot;: &quot;Tag background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tag-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tag-foreground&quot;,
            &quot;text&quot;: &quot;Tag foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-background&quot;,
            &quot;text&quot;: &quot;Tiddler background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-border&quot;,
            &quot;text&quot;: &quot;Tiddler border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-controls-foreground-hover&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-controls-foreground-hover&quot;,
            &quot;text&quot;: &quot;Tiddler controls foreground hover&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-controls-foreground-selected&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-controls-foreground-selected&quot;,
            &quot;text&quot;: &quot;Tiddler controls foreground for selected controls&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-controls-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-controls-foreground&quot;,
            &quot;text&quot;: &quot;Tiddler controls foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-editor-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-editor-background&quot;,
            &quot;text&quot;: &quot;Tiddler editor background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-editor-border-image&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-editor-border-image&quot;,
            &quot;text&quot;: &quot;Tiddler editor border image&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-editor-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-editor-border&quot;,
            &quot;text&quot;: &quot;Tiddler editor border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-editor-fields-even&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-editor-fields-even&quot;,
            &quot;text&quot;: &quot;Tiddler editor background for even fields&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-editor-fields-odd&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-editor-fields-odd&quot;,
            &quot;text&quot;: &quot;Tiddler editor background for odd fields&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-info-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-info-background&quot;,
            &quot;text&quot;: &quot;Tiddler info panel background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-info-border&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-info-border&quot;,
            &quot;text&quot;: &quot;Tiddler info panel border&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-info-tab-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-info-tab-background&quot;,
            &quot;text&quot;: &quot;Tiddler info panel tab background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-link-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-link-background&quot;,
            &quot;text&quot;: &quot;Tiddler link background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-link-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-link-foreground&quot;,
            &quot;text&quot;: &quot;Tiddler link foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-subtitle-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-subtitle-foreground&quot;,
            &quot;text&quot;: &quot;Tiddler subtitle foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/tiddler-title-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/tiddler-title-foreground&quot;,
            &quot;text&quot;: &quot;Tiddler title foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/toolbar-new-button&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/toolbar-new-button&quot;,
            &quot;text&quot;: &quot;Toolbar 'new tiddler' button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/toolbar-options-button&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/toolbar-options-button&quot;,
            &quot;text&quot;: &quot;Toolbar 'options' button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/toolbar-save-button&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/toolbar-save-button&quot;,
            &quot;text&quot;: &quot;Toolbar 'save' button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/toolbar-info-button&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/toolbar-info-button&quot;,
            &quot;text&quot;: &quot;Toolbar 'info' button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/toolbar-edit-button&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/toolbar-edit-button&quot;,
            &quot;text&quot;: &quot;Toolbar 'edit' button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/toolbar-close-button&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/toolbar-close-button&quot;,
            &quot;text&quot;: &quot;Toolbar 'close' button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/toolbar-delete-button&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/toolbar-delete-button&quot;,
            &quot;text&quot;: &quot;Toolbar 'delete' button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/toolbar-cancel-button&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/toolbar-cancel-button&quot;,
            &quot;text&quot;: &quot;Toolbar 'cancel' button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/toolbar-done-button&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/toolbar-done-button&quot;,
            &quot;text&quot;: &quot;Toolbar 'done' button foreground&quot;
        },
        &quot;$:/language/Docs/PaletteColours/untagged-background&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/untagged-background&quot;,
            &quot;text&quot;: &quot;Untagged pill background&quot;
        },
        &quot;$:/language/Docs/PaletteColours/very-muted-foreground&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/PaletteColours/very-muted-foreground&quot;,
            &quot;text&quot;: &quot;Very muted foreground&quot;
        },
        &quot;$:/language/EditTemplate/Body/External/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Body/External/Hint&quot;,
            &quot;text&quot;: &quot;This is an external tiddler stored outside of the main TiddlyWiki file. You can edit the tags and fields but cannot directly edit the content itself&quot;
        },
        &quot;$:/language/EditTemplate/Body/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Body/Hint&quot;,
            &quot;text&quot;: &quot;Use [[wiki text|http://tiddlywiki.com/static/WikiText.html]] to add formatting, images, and dynamic features&quot;
        },
        &quot;$:/language/EditTemplate/Body/Placeholder&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Body/Placeholder&quot;,
            &quot;text&quot;: &quot;Type the text for this tiddler&quot;
        },
        &quot;$:/language/EditTemplate/Body/Preview/Button/Hide&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Body/Preview/Button/Hide&quot;,
            &quot;text&quot;: &quot;hide preview&quot;
        },
        &quot;$:/language/EditTemplate/Body/Preview/Button/Show&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Body/Preview/Button/Show&quot;,
            &quot;text&quot;: &quot;show preview&quot;
        },
        &quot;$:/language/EditTemplate/Field/Remove/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Field/Remove/Caption&quot;,
            &quot;text&quot;: &quot;remove field&quot;
        },
        &quot;$:/language/EditTemplate/Field/Remove/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Field/Remove/Hint&quot;,
            &quot;text&quot;: &quot;Remove field&quot;
        },
        &quot;$:/language/EditTemplate/Fields/Add/Button&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Fields/Add/Button&quot;,
            &quot;text&quot;: &quot;add&quot;
        },
        &quot;$:/language/EditTemplate/Fields/Add/Name/Placeholder&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Fields/Add/Name/Placeholder&quot;,
            &quot;text&quot;: &quot;field name&quot;
        },
        &quot;$:/language/EditTemplate/Fields/Add/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Fields/Add/Prompt&quot;,
            &quot;text&quot;: &quot;Add a new field:&quot;
        },
        &quot;$:/language/EditTemplate/Fields/Add/Value/Placeholder&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Fields/Add/Value/Placeholder&quot;,
            &quot;text&quot;: &quot;field value&quot;
        },
        &quot;$:/language/EditTemplate/Fields/Add/Dropdown/System&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Fields/Add/Dropdown/System&quot;,
            &quot;text&quot;: &quot;System fields&quot;
        },
        &quot;$:/language/EditTemplate/Fields/Add/Dropdown/User&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Fields/Add/Dropdown/User&quot;,
            &quot;text&quot;: &quot;User fields&quot;
        },
        &quot;$:/language/EditTemplate/Shadow/Warning&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Shadow/Warning&quot;,
            &quot;text&quot;: &quot;This is a shadow tiddler. Any changes you make will override the default version from the plugin &lt;&lt;pluginLink&gt;&gt;&quot;
        },
        &quot;$:/language/EditTemplate/Shadow/OverriddenWarning&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Shadow/OverriddenWarning&quot;,
            &quot;text&quot;: &quot;This is a modified shadow tiddler. You can revert to the default version in the plugin &lt;&lt;pluginLink&gt;&gt; by deleting this tiddler&quot;
        },
        &quot;$:/language/EditTemplate/Tags/Add/Button&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Tags/Add/Button&quot;,
            &quot;text&quot;: &quot;add&quot;
        },
        &quot;$:/language/EditTemplate/Tags/Add/Placeholder&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Tags/Add/Placeholder&quot;,
            &quot;text&quot;: &quot;tag name&quot;
        },
        &quot;$:/language/EditTemplate/Tags/Dropdown/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Tags/Dropdown/Caption&quot;,
            &quot;text&quot;: &quot;tag list&quot;
        },
        &quot;$:/language/EditTemplate/Tags/Dropdown/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Tags/Dropdown/Hint&quot;,
            &quot;text&quot;: &quot;Show tag list&quot;
        },
        &quot;$:/language/EditTemplate/Type/Dropdown/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Type/Dropdown/Caption&quot;,
            &quot;text&quot;: &quot;content type list&quot;
        },
        &quot;$:/language/EditTemplate/Type/Dropdown/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Type/Dropdown/Hint&quot;,
            &quot;text&quot;: &quot;Show content type list&quot;
        },
        &quot;$:/language/EditTemplate/Type/Delete/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Type/Delete/Caption&quot;,
            &quot;text&quot;: &quot;delete content type&quot;
        },
        &quot;$:/language/EditTemplate/Type/Delete/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Type/Delete/Hint&quot;,
            &quot;text&quot;: &quot;Delete content type&quot;
        },
        &quot;$:/language/EditTemplate/Type/Placeholder&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Type/Placeholder&quot;,
            &quot;text&quot;: &quot;content type&quot;
        },
        &quot;$:/language/EditTemplate/Type/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/EditTemplate/Type/Prompt&quot;,
            &quot;text&quot;: &quot;Type:&quot;
        },
        &quot;$:/language/Exporters/StaticRiver&quot;: {
            &quot;title&quot;: &quot;$:/language/Exporters/StaticRiver&quot;,
            &quot;text&quot;: &quot;Static HTML&quot;
        },
        &quot;$:/language/Exporters/JsonFile&quot;: {
            &quot;title&quot;: &quot;$:/language/Exporters/JsonFile&quot;,
            &quot;text&quot;: &quot;JSON file&quot;
        },
        &quot;$:/language/Exporters/CsvFile&quot;: {
            &quot;title&quot;: &quot;$:/language/Exporters/CsvFile&quot;,
            &quot;text&quot;: &quot;CSV file&quot;
        },
        &quot;$:/language/Exporters/TidFile&quot;: {
            &quot;title&quot;: &quot;$:/language/Exporters/TidFile&quot;,
            &quot;text&quot;: &quot;\&quot;.tid\&quot; file&quot;
        },
        &quot;$:/language/Docs/Fields/_canonical_uri&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/_canonical_uri&quot;,
            &quot;text&quot;: &quot;The full URI of an external image tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/bag&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/bag&quot;,
            &quot;text&quot;: &quot;The name of the bag from which a tiddler came&quot;
        },
        &quot;$:/language/Docs/Fields/caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/caption&quot;,
            &quot;text&quot;: &quot;The text to be displayed on a tab or button&quot;
        },
        &quot;$:/language/Docs/Fields/color&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/color&quot;,
            &quot;text&quot;: &quot;The CSS color value associated with a tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/component&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/component&quot;,
            &quot;text&quot;: &quot;The name of the component responsible for an [[alert tiddler|AlertMechanism]]&quot;
        },
        &quot;$:/language/Docs/Fields/current-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/current-tiddler&quot;,
            &quot;text&quot;: &quot;Used to cache the top tiddler in a [[history list|HistoryMechanism]]&quot;
        },
        &quot;$:/language/Docs/Fields/created&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/created&quot;,
            &quot;text&quot;: &quot;The date a tiddler was created&quot;
        },
        &quot;$:/language/Docs/Fields/creator&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/creator&quot;,
            &quot;text&quot;: &quot;The name of the person who created a tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/dependents&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/dependents&quot;,
            &quot;text&quot;: &quot;For a plugin, lists the dependent plugin titles&quot;
        },
        &quot;$:/language/Docs/Fields/description&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/description&quot;,
            &quot;text&quot;: &quot;The descriptive text for a plugin, or a modal dialogue&quot;
        },
        &quot;$:/language/Docs/Fields/draft.of&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/draft.of&quot;,
            &quot;text&quot;: &quot;For draft tiddlers, contains the title of the tiddler of which this is a draft&quot;
        },
        &quot;$:/language/Docs/Fields/draft.title&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/draft.title&quot;,
            &quot;text&quot;: &quot;For draft tiddlers, contains the proposed new title of the tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/footer&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/footer&quot;,
            &quot;text&quot;: &quot;The footer text for a wizard&quot;
        },
        &quot;$:/language/Docs/Fields/hack-to-give-us-something-to-compare-against&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/hack-to-give-us-something-to-compare-against&quot;,
            &quot;text&quot;: &quot;A temporary storage field used in [[$:/core/templates/static.content]]&quot;
        },
        &quot;$:/language/Docs/Fields/icon&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/icon&quot;,
            &quot;text&quot;: &quot;The title of the tiddler containing the icon associated with a tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/library&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/library&quot;,
            &quot;text&quot;: &quot;If set to \&quot;yes\&quot; indicates that a tiddler should be saved as a JavaScript library&quot;
        },
        &quot;$:/language/Docs/Fields/list&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/list&quot;,
            &quot;text&quot;: &quot;An ordered list of tiddler titles associated with a tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/list-before&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/list-before&quot;,
            &quot;text&quot;: &quot;If set, the title of a tiddler before which this tiddler should be added to the ordered list of tiddler titles, or at the start of the list if this field is present but empty&quot;
        },
        &quot;$:/language/Docs/Fields/list-after&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/list-after&quot;,
            &quot;text&quot;: &quot;If set, the title of the tiddler after which this tiddler should be added to the ordered list of tiddler titles&quot;
        },
        &quot;$:/language/Docs/Fields/modified&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/modified&quot;,
            &quot;text&quot;: &quot;The date and time at which a tiddler was last modified&quot;
        },
        &quot;$:/language/Docs/Fields/modifier&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/modifier&quot;,
            &quot;text&quot;: &quot;The tiddler title associated with the person who last modified a tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/name&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/name&quot;,
            &quot;text&quot;: &quot;The human readable name associated with a plugin tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/plugin-priority&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/plugin-priority&quot;,
            &quot;text&quot;: &quot;A numerical value indicating the priority of a plugin tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/plugin-type&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/plugin-type&quot;,
            &quot;text&quot;: &quot;The type of plugin in a plugin tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/revision&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/revision&quot;,
            &quot;text&quot;: &quot;The revision of the tiddler held at the server&quot;
        },
        &quot;$:/language/Docs/Fields/released&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/released&quot;,
            &quot;text&quot;: &quot;Date of a TiddlyWiki release&quot;
        },
        &quot;$:/language/Docs/Fields/source&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/source&quot;,
            &quot;text&quot;: &quot;The source URL associated with a tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/subtitle&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/subtitle&quot;,
            &quot;text&quot;: &quot;The subtitle text for a wizard&quot;
        },
        &quot;$:/language/Docs/Fields/tags&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/tags&quot;,
            &quot;text&quot;: &quot;A list of tags associated with a tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/text&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/text&quot;,
            &quot;text&quot;: &quot;The body text of a tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/title&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/title&quot;,
            &quot;text&quot;: &quot;The unique name of a tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/type&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/type&quot;,
            &quot;text&quot;: &quot;The content type of a tiddler&quot;
        },
        &quot;$:/language/Docs/Fields/version&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Fields/version&quot;,
            &quot;text&quot;: &quot;Version information for a plugin&quot;
        },
        &quot;$:/language/Filters/AllTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/AllTiddlers&quot;,
            &quot;text&quot;: &quot;All tiddlers except system tiddlers&quot;
        },
        &quot;$:/language/Filters/RecentSystemTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/RecentSystemTiddlers&quot;,
            &quot;text&quot;: &quot;Recently modified tiddlers, including system tiddlers&quot;
        },
        &quot;$:/language/Filters/RecentTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/RecentTiddlers&quot;,
            &quot;text&quot;: &quot;Recently modified tiddlers&quot;
        },
        &quot;$:/language/Filters/AllTags&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/AllTags&quot;,
            &quot;text&quot;: &quot;All tags except system tags&quot;
        },
        &quot;$:/language/Filters/Missing&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/Missing&quot;,
            &quot;text&quot;: &quot;Missing tiddlers&quot;
        },
        &quot;$:/language/Filters/Drafts&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/Drafts&quot;,
            &quot;text&quot;: &quot;Draft tiddlers&quot;
        },
        &quot;$:/language/Filters/Orphans&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/Orphans&quot;,
            &quot;text&quot;: &quot;Orphan tiddlers&quot;
        },
        &quot;$:/language/Filters/SystemTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/SystemTiddlers&quot;,
            &quot;text&quot;: &quot;System tiddlers&quot;
        },
        &quot;$:/language/Filters/ShadowTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/ShadowTiddlers&quot;,
            &quot;text&quot;: &quot;Shadow tiddlers&quot;
        },
        &quot;$:/language/Filters/OverriddenShadowTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/OverriddenShadowTiddlers&quot;,
            &quot;text&quot;: &quot;Overridden shadow tiddlers&quot;
        },
        &quot;$:/language/Filters/SystemTags&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/SystemTags&quot;,
            &quot;text&quot;: &quot;System tags&quot;
        },
        &quot;$:/language/Filters/TypedTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/language/Filters/TypedTiddlers&quot;,
            &quot;text&quot;: &quot;Non wiki-text tiddlers&quot;
        },
        &quot;GettingStarted&quot;: {
            &quot;title&quot;: &quot;GettingStarted&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Basics/\nWelcome to ~TiddlyWiki and the ~TiddlyWiki community\n\nBefore you start storing important information in ~TiddlyWiki it is important to make sure that you can reliably save changes. See http://tiddlywiki.com/#GettingStarted for details\n\n!! Set up this ~TiddlyWiki\n\n&lt;div class=\&quot;tc-control-panel\&quot;&gt;\n\n|&lt;$link to=\&quot;$:/SiteTitle\&quot;&gt;&lt;&lt;lingo Title/Prompt&gt;&gt;&lt;/$link&gt; |&lt;$edit-text tiddler=\&quot;$:/SiteTitle\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;$link to=\&quot;$:/SiteSubtitle\&quot;&gt;&lt;&lt;lingo Subtitle/Prompt&gt;&gt;&lt;/$link&gt; |&lt;$edit-text tiddler=\&quot;$:/SiteSubtitle\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;$link to=\&quot;$:/DefaultTiddlers\&quot;&gt;&lt;&lt;lingo DefaultTiddlers/Prompt&gt;&gt;&lt;/$link&gt; |&lt;&lt;lingo DefaultTiddlers/TopHint&gt;&gt;&lt;br&gt; &lt;$edit-text tag=\&quot;textarea\&quot; tiddler=\&quot;$:/DefaultTiddlers\&quot;/&gt;&lt;br&gt;//&lt;&lt;lingo DefaultTiddlers/BottomHint&gt;&gt;// |\n&lt;/div&gt;\n\nSee the [[control panel|$:/ControlPanel]] for more options.\n&quot;
        },
        &quot;$:/language/Help/build&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/build&quot;,
            &quot;description&quot;: &quot;Automatically run configured commands&quot;,
            &quot;text&quot;: &quot;Build the specified build targets for the current wiki. If no build targets are specified then all available targets will be built.\n\n```\n--build &lt;target&gt; [&lt;target&gt; ...]\n```\n\nBuild targets are defined in the `tiddlywiki.info` file of a wiki folder.\n\n&quot;
        },
        &quot;$:/language/Help/clearpassword&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/clearpassword&quot;,
            &quot;description&quot;: &quot;Clear a password for subsequent crypto operations&quot;,
            &quot;text&quot;: &quot;Clear the password for subsequent crypto operations\n\n```\n--clearpassword\n```\n&quot;
        },
        &quot;$:/language/Help/default&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/default&quot;,
            &quot;text&quot;: &quot;\\define commandTitle()\n$:/language/Help/$(command)$\n\\end\n```\nusage: tiddlywiki [&lt;wikifolder&gt;] [--&lt;command&gt; [&lt;args&gt;...]...]\n```\n\nAvailable commands:\n\n&lt;ul&gt;\n&lt;$list filter=\&quot;[commands[]sort[title]]\&quot; variable=\&quot;command\&quot;&gt;\n&lt;li&gt;&lt;$link to=&lt;&lt;commandTitle&gt;&gt;&gt;&lt;$macrocall $name=\&quot;command\&quot; $type=\&quot;text/plain\&quot; $output=\&quot;text/plain\&quot;/&gt;&lt;/$link&gt;: &lt;$transclude tiddler=&lt;&lt;commandTitle&gt;&gt; field=\&quot;description\&quot;/&gt;&lt;/li&gt;\n&lt;/$list&gt;\n&lt;/ul&gt;\n\nTo get detailed help on a command:\n\n```\ntiddlywiki --help &lt;command&gt;\n```\n&quot;
        },
        &quot;$:/language/Help/editions&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/editions&quot;,
            &quot;description&quot;: &quot;Lists the available editions of TiddlyWiki&quot;,
            &quot;text&quot;: &quot;Lists the names and descriptions of the available editions. You can create a new wiki of a specified edition with the `--init` command.\n\n```\n--editions\n```\n&quot;
        },
        &quot;$:/language/Help/help&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/help&quot;,
            &quot;description&quot;: &quot;Display help for TiddlyWiki commands&quot;,
            &quot;text&quot;: &quot;Displays help text for a command:\n\n```\n--help [&lt;command&gt;]\n```\n\nIf the command name is omitted then a list of available commands is displayed.\n&quot;
        },
        &quot;$:/language/Help/init&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/init&quot;,
            &quot;description&quot;: &quot;Initialise a new wiki folder&quot;,
            &quot;text&quot;: &quot;Initialise an empty [[WikiFolder|WikiFolders]] with a copy of the specified edition.\n\n```\n--init &lt;edition&gt; [&lt;edition&gt; ...]\n```\n\nFor example:\n\n```\ntiddlywiki ./MyWikiFolder --init empty\n```\n\nNote:\n\n* The wiki folder directory will be created if necessary\n* The \&quot;edition\&quot; defaults to ''empty''\n* The init command will fail if the wiki folder is not empty\n* The init command removes any `includeWikis` definitions in the edition's `tiddlywiki.info` file\n* When multiple editions are specified, editions initialised later will overwrite any files shared with earlier editions (so, the final `tiddlywiki.info` file will be copied from the last edition)\n* `--editions` returns a list of available editions\n&quot;
        },
        &quot;$:/language/Help/load&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/load&quot;,
            &quot;description&quot;: &quot;Load tiddlers from a file&quot;,
            &quot;text&quot;: &quot;Load tiddlers from 2.x.x TiddlyWiki files (`.html`), `.tiddler`, `.tid`, `.json` or other files\n\n```\n--load &lt;filepath&gt;\n```\n\nTo load tiddlers from an encrypted TiddlyWiki file you should first specify the password with the PasswordCommand. For example:\n\n```\ntiddlywiki ./MyWiki --password pa55w0rd --load my_encrypted_wiki.html\n```\n\nNote that TiddlyWiki will not load an older version of an already loaded plugin.\n&quot;
        },
        &quot;$:/language/Help/makelibrary&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/makelibrary&quot;,
            &quot;description&quot;: &quot;Construct library plugin required by upgrade process&quot;,
            &quot;text&quot;: &quot;Constructs the `$:/UpgradeLibrary` tiddler for the upgrade process.\n\nThe upgrade library is formatted as an ordinary plugin tiddler with the plugin type `library`. It contains a copy of each of the plugins, themes and language packs available within the TiddlyWiki5 repository.\n\nThis command is intended for internal use; it is only relevant to users constructing a custom upgrade procedure.\n\n```\n--makelibrary &lt;title&gt;\n```\n\nThe title argument defaults to `$:/UpgradeLibrary`.\n&quot;
        },
        &quot;$:/language/Help/notfound&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/notfound&quot;,
            &quot;text&quot;: &quot;No such help item&quot;
        },
        &quot;$:/language/Help/output&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/output&quot;,
            &quot;description&quot;: &quot;Set the base output directory for subsequent commands&quot;,
            &quot;text&quot;: &quot;Sets the base output directory for subsequent commands. The default output directory is the `output` subdirectory of the edition directory.\n\n```\n--output &lt;pathname&gt;\n```\n\nIf the specified pathname is relative then it is resolved relative to the current working directory. For example `--output .` sets the output directory to the current working directory.\n\n&quot;
        },
        &quot;$:/language/Help/password&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/password&quot;,
            &quot;description&quot;: &quot;Set a password for subsequent crypto operations&quot;,
            &quot;text&quot;: &quot;Set a password for subsequent crypto operations\n\n```\n--password &lt;password&gt;\n```\n\n''Note'': This should not be used for serving TiddlyWiki with password protection. Instead, see the password option under the [[ServerCommand]].\n&quot;
        },
        &quot;$:/language/Help/rendertiddler&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/rendertiddler&quot;,
            &quot;description&quot;: &quot;Render an individual tiddler as a specified ContentType&quot;,
            &quot;text&quot;: &quot;Render an individual tiddler as a specified ContentType, defaulting to `text/html` and save it to the specified filename. Optionally a template can be specified, in which case the template tiddler is rendered with the \&quot;currentTiddler\&quot; variable set to the tiddler that is being rendered (the first parameter value).\n\n```\n--rendertiddler &lt;title&gt; &lt;filename&gt; [&lt;type&gt;] [&lt;template&gt;]\n```\n\nBy default, the filename is resolved relative to the `output` subdirectory of the edition directory. The `--output` command can be used to direct output to a different directory.\n\nAny missing directories in the path to the filename are automatically created.\n&quot;
        },
        &quot;$:/language/Help/rendertiddlers&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/rendertiddlers&quot;,
            &quot;description&quot;: &quot;Render tiddlers matching a filter to a specified ContentType&quot;,
            &quot;text&quot;: &quot;Render a set of tiddlers matching a filter to separate files of a specified ContentType (defaults to `text/html`) and extension (defaults to `.html`).\n\n```\n--rendertiddlers &lt;filter&gt; &lt;template&gt; &lt;pathname&gt; [&lt;type&gt;] [&lt;extension&gt;] [\&quot;noclean\&quot;]\n```\n\nFor example:\n\n```\n--rendertiddlers [!is[system]] $:/core/templates/static.tiddler.html ./static text/plain\n```\n\nBy default, the pathname is resolved relative to the `output` subdirectory of the edition directory. The `--output` command can be used to direct output to a different directory.\n\nAny files in the target directory are deleted unless the ''noclean'' flag is specified. The target directory is recursively created if it is missing.\n&quot;
        },
        &quot;$:/language/Help/savetiddler&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/savetiddler&quot;,
            &quot;description&quot;: &quot;Saves a raw tiddler to a file&quot;,
            &quot;text&quot;: &quot;Saves an individual tiddler in its raw text or binary format to the specified filename.\n\n```\n--savetiddler &lt;title&gt; &lt;filename&gt;\n```\n\nBy default, the filename is resolved relative to the `output` subdirectory of the edition directory. The `--output` command can be used to direct output to a different directory.\n\nAny missing directories in the path to the filename are automatically created.\n&quot;
        },
        &quot;$:/language/Help/savetiddlers&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/savetiddlers&quot;,
            &quot;description&quot;: &quot;Saves a group of raw tiddlers to a directory&quot;,
            &quot;text&quot;: &quot;Saves a group of tiddlers in their raw text or binary format to the specified directory.\n\n```\n--savetiddlers &lt;filter&gt; &lt;pathname&gt; [\&quot;noclean\&quot;]\n```\n\nBy default, the pathname is resolved relative to the `output` subdirectory of the edition directory. The `--output` command can be used to direct output to a different directory.\n\nThe output directory is cleared of existing files before saving the specified files. The deletion can be disabled by specifying the ''noclean'' flag.\n\nAny missing directories in the pathname are automatically created.\n&quot;
        },
        &quot;$:/language/Help/server&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/server&quot;,
            &quot;description&quot;: &quot;Provides an HTTP server interface to TiddlyWiki&quot;,
            &quot;text&quot;: &quot;The server built in to TiddlyWiki5 is very simple. Although compatible with TiddlyWeb it doesn't support many of the features needed for robust Internet-facing usage.\n\nAt the root, it serves a rendering of a specified tiddler. Away from the root, it serves individual tiddlers encoded in JSON, and supports the basic HTTP operations for `GET`, `PUT` and `DELETE`.\n\n```\n--server &lt;port&gt; &lt;roottiddler&gt; &lt;rendertype&gt; &lt;servetype&gt; &lt;username&gt; &lt;password&gt; &lt;host&gt; &lt;pathprefix&gt;\n```\n\nThe parameters are:\n\n* ''port'' - port number to serve from (defaults to \&quot;8080\&quot;)\n* ''roottiddler'' - the tiddler to serve at the root (defaults to \&quot;$:/core/save/all\&quot;)\n* ''rendertype'' - the content type to which the root tiddler should be rendered (defaults to \&quot;text/plain\&quot;)\n* ''servetype'' - the content type with which the root tiddler should be served (defaults to \&quot;text/html\&quot;)\n* ''username'' - the default username for signing edits\n* ''password'' - optional password for basic authentication\n* ''host'' - optional hostname to serve from (defaults to \&quot;127.0.0.1\&quot; aka \&quot;localhost\&quot;)\n* ''pathprefix'' - optional prefix for paths\n\nIf the password parameter is specified then the browser will prompt the user for the username and password. Note that the password is transmitted in plain text so this implementation isn't suitable for general use.\n\nFor example:\n\n```\n--server 8080 $:/core/save/all text/plain text/html MyUserName passw0rd\n```\n\nThe username and password can be specified as empty strings if you need to set the hostname or pathprefix and don't want to require a password:\n\n```\n--server 8080 $:/core/save/all text/plain text/html \&quot;\&quot; \&quot;\&quot; 192.168.0.245\n```\n\nTo run multiple TiddlyWiki servers at the same time you'll need to put each one on a different port.\n&quot;
        },
        &quot;$:/language/Help/setfield&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/setfield&quot;,
            &quot;description&quot;: &quot;Prepares external tiddlers for use&quot;,
            &quot;text&quot;: &quot;//Note that this command is experimental and may change or be replaced before being finalised//\n\nSets the specified field of a group of tiddlers to the result of wikifying a template tiddler with the `currentTiddler` variable set to the tiddler.\n\n```\n--setfield &lt;filter&gt; &lt;fieldname&gt; &lt;templatetitle&gt; &lt;rendertype&gt;\n```\n\nThe parameters are:\n\n* ''filter'' - filter identifying the tiddlers to be affected\n* ''fieldname'' - the field to modify (defaults to \&quot;text\&quot;)\n* ''templatetitle'' - the tiddler to wikify into the specified field. If blank or missing then the specified field is deleted\n* ''rendertype'' - the text type to render (defaults to \&quot;text/plain\&quot;; \&quot;text/html\&quot; can be used to include HTML tags)\n&quot;
        },
        &quot;$:/language/Help/unpackplugin&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/unpackplugin&quot;,
            &quot;description&quot;: &quot;Unpack the payload tiddlers from a plugin&quot;,
            &quot;text&quot;: &quot;Extract the payload tiddlers from a plugin, creating them as ordinary tiddlers:\n\n```\n--unpackplugin &lt;title&gt;\n```\n&quot;
        },
        &quot;$:/language/Help/verbose&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/verbose&quot;,
            &quot;description&quot;: &quot;Triggers verbose output mode&quot;,
            &quot;text&quot;: &quot;Triggers verbose output, useful for debugging\n\n```\n--verbose\n```\n&quot;
        },
        &quot;$:/language/Help/version&quot;: {
            &quot;title&quot;: &quot;$:/language/Help/version&quot;,
            &quot;description&quot;: &quot;Displays the version number of TiddlyWiki&quot;,
            &quot;text&quot;: &quot;Displays the version number of TiddlyWiki.\n\n```\n--version\n```\n&quot;
        },
        &quot;$:/language/Import/Imported&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Imported&quot;,
            &quot;text&quot;: &quot;The following tiddlers were imported:&quot;
        },
        &quot;$:/language/Import/Listing/Cancel/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Listing/Cancel/Caption&quot;,
            &quot;text&quot;: &quot;Cancel&quot;
        },
        &quot;$:/language/Import/Listing/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Listing/Hint&quot;,
            &quot;text&quot;: &quot;These tiddlers are ready to import:&quot;
        },
        &quot;$:/language/Import/Listing/Import/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Listing/Import/Caption&quot;,
            &quot;text&quot;: &quot;Import&quot;
        },
        &quot;$:/language/Import/Listing/Select/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Listing/Select/Caption&quot;,
            &quot;text&quot;: &quot;Select&quot;
        },
        &quot;$:/language/Import/Listing/Status/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Listing/Status/Caption&quot;,
            &quot;text&quot;: &quot;Status&quot;
        },
        &quot;$:/language/Import/Listing/Title/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Listing/Title/Caption&quot;,
            &quot;text&quot;: &quot;Title&quot;
        },
        &quot;$:/language/Import/Upgrader/Plugins/Suppressed/Incompatible&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Upgrader/Plugins/Suppressed/Incompatible&quot;,
            &quot;text&quot;: &quot;Blocked incompatible or obsolete plugin&quot;
        },
        &quot;$:/language/Import/Upgrader/Plugins/Suppressed/Version&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Upgrader/Plugins/Suppressed/Version&quot;,
            &quot;text&quot;: &quot;Blocked plugin (due to incoming &lt;&lt;incoming&gt;&gt; being older than existing &lt;&lt;existing&gt;&gt;)&quot;
        },
        &quot;$:/language/Import/Upgrader/Plugins/Upgraded&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Upgrader/Plugins/Upgraded&quot;,
            &quot;text&quot;: &quot;Upgraded plugin from &lt;&lt;incoming&gt;&gt; to &lt;&lt;upgraded&gt;&gt;&quot;
        },
        &quot;$:/language/Import/Upgrader/State/Suppressed&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Upgrader/State/Suppressed&quot;,
            &quot;text&quot;: &quot;Blocked temporary state tiddler&quot;
        },
        &quot;$:/language/Import/Upgrader/System/Suppressed&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Upgrader/System/Suppressed&quot;,
            &quot;text&quot;: &quot;Blocked system tiddler&quot;
        },
        &quot;$:/language/Import/Upgrader/ThemeTweaks/Created&quot;: {
            &quot;title&quot;: &quot;$:/language/Import/Upgrader/ThemeTweaks/Created&quot;,
            &quot;text&quot;: &quot;Migrated theme tweak from &lt;$text text=&lt;&lt;from&gt;&gt;/&gt;&quot;
        },
        &quot;$:/language/AboveStory/ClassicPlugin/Warning&quot;: {
            &quot;title&quot;: &quot;$:/language/AboveStory/ClassicPlugin/Warning&quot;,
            &quot;text&quot;: &quot;It looks like you are trying to load a plugin designed for ~TiddlyWiki Classic. Please note that [[these plugins do not work with TiddlyWiki version 5.x.x|http://tiddlywiki.com/#TiddlyWikiClassic]]. ~TiddlyWiki Classic plugins detected:&quot;
        },
        &quot;$:/language/BinaryWarning/Prompt&quot;: {
            &quot;title&quot;: &quot;$:/language/BinaryWarning/Prompt&quot;,
            &quot;text&quot;: &quot;This tiddler contains binary data&quot;
        },
        &quot;$:/language/ClassicWarning/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/ClassicWarning/Hint&quot;,
            &quot;text&quot;: &quot;This tiddler is written in TiddlyWiki Classic wiki text format, which is not fully compatible with TiddlyWiki version 5. See http://tiddlywiki.com/static/Upgrading.html for more details.&quot;
        },
        &quot;$:/language/ClassicWarning/Upgrade/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/ClassicWarning/Upgrade/Caption&quot;,
            &quot;text&quot;: &quot;upgrade&quot;
        },
        &quot;$:/language/CloseAll/Button&quot;: {
            &quot;title&quot;: &quot;$:/language/CloseAll/Button&quot;,
            &quot;text&quot;: &quot;close all&quot;
        },
        &quot;$:/language/ConfirmCancelTiddler&quot;: {
            &quot;title&quot;: &quot;$:/language/ConfirmCancelTiddler&quot;,
            &quot;text&quot;: &quot;Do you wish to discard changes to the tiddler \&quot;&lt;$text text=&lt;&lt;title&gt;&gt;/&gt;\&quot;?&quot;
        },
        &quot;$:/language/ConfirmDeleteTiddler&quot;: {
            &quot;title&quot;: &quot;$:/language/ConfirmDeleteTiddler&quot;,
            &quot;text&quot;: &quot;Do you wish to delete the tiddler \&quot;&lt;$text text=&lt;&lt;title&gt;&gt;/&gt;\&quot;?&quot;
        },
        &quot;$:/language/ConfirmOverwriteTiddler&quot;: {
            &quot;title&quot;: &quot;$:/language/ConfirmOverwriteTiddler&quot;,
            &quot;text&quot;: &quot;Do you wish to overwrite the tiddler \&quot;&lt;$text text=&lt;&lt;title&gt;&gt;/&gt;\&quot;?&quot;
        },
        &quot;$:/language/ConfirmEditShadowTiddler&quot;: {
            &quot;title&quot;: &quot;$:/language/ConfirmEditShadowTiddler&quot;,
            &quot;text&quot;: &quot;You are about to edit a ShadowTiddler. Any changes will override the default system making future upgrades non-trivial. Are you sure you want to edit \&quot;&lt;$text text=&lt;&lt;title&gt;&gt;/&gt;\&quot;?&quot;
        },
        &quot;$:/language/DefaultNewTiddlerTitle&quot;: {
            &quot;title&quot;: &quot;$:/language/DefaultNewTiddlerTitle&quot;,
            &quot;text&quot;: &quot;New Tiddler&quot;
        },
        &quot;$:/language/DropMessage&quot;: {
            &quot;title&quot;: &quot;$:/language/DropMessage&quot;,
            &quot;text&quot;: &quot;Drop here (or use the 'Escape' key to cancel)&quot;
        },
        &quot;$:/language/Encryption/Cancel&quot;: {
            &quot;title&quot;: &quot;$:/language/Encryption/Cancel&quot;,
            &quot;text&quot;: &quot;Cancel&quot;
        },
        &quot;$:/language/Encryption/ConfirmClearPassword&quot;: {
            &quot;title&quot;: &quot;$:/language/Encryption/ConfirmClearPassword&quot;,
            &quot;text&quot;: &quot;Do you wish to clear the password? This will remove the encryption applied when saving this wiki&quot;
        },
        &quot;$:/language/Encryption/PromptSetPassword&quot;: {
            &quot;title&quot;: &quot;$:/language/Encryption/PromptSetPassword&quot;,
            &quot;text&quot;: &quot;Set a new password for this TiddlyWiki&quot;
        },
        &quot;$:/language/Encryption/Username&quot;: {
            &quot;title&quot;: &quot;$:/language/Encryption/Username&quot;,
            &quot;text&quot;: &quot;Username&quot;
        },
        &quot;$:/language/Encryption/Password&quot;: {
            &quot;title&quot;: &quot;$:/language/Encryption/Password&quot;,
            &quot;text&quot;: &quot;Password&quot;
        },
        &quot;$:/language/Encryption/RepeatPassword&quot;: {
            &quot;title&quot;: &quot;$:/language/Encryption/RepeatPassword&quot;,
            &quot;text&quot;: &quot;Repeat password&quot;
        },
        &quot;$:/language/Encryption/PasswordNoMatch&quot;: {
            &quot;title&quot;: &quot;$:/language/Encryption/PasswordNoMatch&quot;,
            &quot;text&quot;: &quot;Passwords do not match&quot;
        },
        &quot;$:/language/Encryption/SetPassword&quot;: {
            &quot;title&quot;: &quot;$:/language/Encryption/SetPassword&quot;,
            &quot;text&quot;: &quot;Set password&quot;
        },
        &quot;$:/language/InternalJavaScriptError/Title&quot;: {
            &quot;title&quot;: &quot;$:/language/InternalJavaScriptError/Title&quot;,
            &quot;text&quot;: &quot;Internal JavaScript Error&quot;
        },
        &quot;$:/language/InternalJavaScriptError/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/InternalJavaScriptError/Hint&quot;,
            &quot;text&quot;: &quot;Well, this is embarrassing. It is recommended that you restart TiddlyWiki by refreshing your browser&quot;
        },
        &quot;$:/language/InvalidFieldName&quot;: {
            &quot;title&quot;: &quot;$:/language/InvalidFieldName&quot;,
            &quot;text&quot;: &quot;Illegal characters in field name \&quot;&lt;$text text=&lt;&lt;fieldName&gt;&gt;/&gt;\&quot;. Fields can only contain lowercase letters, digits and the characters underscore (`_`), hyphen (`-`) and period (`.`)&quot;
        },
        &quot;$:/language/LazyLoadingWarning&quot;: {
            &quot;title&quot;: &quot;$:/language/LazyLoadingWarning&quot;,
            &quot;text&quot;: &quot;&lt;p&gt;Loading external text from ''&lt;$text text={{!!_canonical_uri}}/&gt;''&lt;/p&gt;&lt;p&gt;If this message doesn't disappear you may be using a browser that doesn't support external text in this configuration. See http://tiddlywiki.com/#ExternalText&lt;/p&gt;&quot;
        },
        &quot;$:/language/MissingTiddler/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/MissingTiddler/Hint&quot;,
            &quot;text&quot;: &quot;Missing tiddler \&quot;&lt;$text text=&lt;&lt;currentTiddler&gt;&gt;/&gt;\&quot; - click {{$:/core/images/edit-button}} to create&quot;
        },
        &quot;$:/language/OfficialPluginLibrary&quot;: {
            &quot;title&quot;: &quot;$:/language/OfficialPluginLibrary&quot;,
            &quot;text&quot;: &quot;Official ~TiddlyWiki Plugin Library&quot;
        },
        &quot;$:/language/OfficialPluginLibrary/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/OfficialPluginLibrary/Hint&quot;,
            &quot;text&quot;: &quot;The official ~TiddlyWiki plugin library at tiddlywiki.com. Plugins, themes and language packs are maintained by the core team.&quot;
        },
        &quot;$:/language/PluginReloadWarning&quot;: {
            &quot;title&quot;: &quot;$:/language/PluginReloadWarning&quot;,
            &quot;text&quot;: &quot;Please save {{$:/core/ui/Buttons/save-wiki}} and reload {{$:/core/ui/Buttons/refresh}} to allow changes to plugins to take effect&quot;
        },
        &quot;$:/language/RecentChanges/DateFormat&quot;: {
            &quot;title&quot;: &quot;$:/language/RecentChanges/DateFormat&quot;,
            &quot;text&quot;: &quot;DDth MMM YYYY&quot;
        },
        &quot;$:/language/SystemTiddler/Tooltip&quot;: {
            &quot;title&quot;: &quot;$:/language/SystemTiddler/Tooltip&quot;,
            &quot;text&quot;: &quot;This is a system tiddler&quot;
        },
        &quot;$:/language/TagManager/Colour/Heading&quot;: {
            &quot;title&quot;: &quot;$:/language/TagManager/Colour/Heading&quot;,
            &quot;text&quot;: &quot;Colour&quot;
        },
        &quot;$:/language/TagManager/Count/Heading&quot;: {
            &quot;title&quot;: &quot;$:/language/TagManager/Count/Heading&quot;,
            &quot;text&quot;: &quot;Count&quot;
        },
        &quot;$:/language/TagManager/Icon/Heading&quot;: {
            &quot;title&quot;: &quot;$:/language/TagManager/Icon/Heading&quot;,
            &quot;text&quot;: &quot;Icon&quot;
        },
        &quot;$:/language/TagManager/Info/Heading&quot;: {
            &quot;title&quot;: &quot;$:/language/TagManager/Info/Heading&quot;,
            &quot;text&quot;: &quot;Info&quot;
        },
        &quot;$:/language/TagManager/Tag/Heading&quot;: {
            &quot;title&quot;: &quot;$:/language/TagManager/Tag/Heading&quot;,
            &quot;text&quot;: &quot;Tag&quot;
        },
        &quot;$:/language/Tiddler/DateFormat&quot;: {
            &quot;title&quot;: &quot;$:/language/Tiddler/DateFormat&quot;,
            &quot;text&quot;: &quot;DDth MMM YYYY at hh12:0mmam&quot;
        },
        &quot;$:/language/UnsavedChangesWarning&quot;: {
            &quot;title&quot;: &quot;$:/language/UnsavedChangesWarning&quot;,
            &quot;text&quot;: &quot;You have unsaved changes in TiddlyWiki&quot;
        },
        &quot;$:/language/Modals/Download&quot;: {
            &quot;title&quot;: &quot;$:/language/Modals/Download&quot;,
            &quot;type&quot;: &quot;text/vnd.tiddlywiki&quot;,
            &quot;subtitle&quot;: &quot;Download changes&quot;,
            &quot;footer&quot;: &quot;&lt;$button message=\&quot;tm-close-tiddler\&quot;&gt;Close&lt;/$button&gt;&quot;,
            &quot;help&quot;: &quot;http://tiddlywiki.com/static/DownloadingChanges.html&quot;,
            &quot;text&quot;: &quot;Your browser only supports manual saving.\n\nTo save your modified wiki, right click on the download link below and select \&quot;Download file\&quot; or \&quot;Save file\&quot;, and then choose the folder and filename.\n\n//You can marginally speed things up by clicking the link with the control key (Windows) or the options/alt key (Mac OS X). You will not be prompted for the folder or filename, but your browser is likely to give it an unrecognisable name -- you may need to rename the file to include an `.html` extension before you can do anything useful with it.//\n\nOn smartphones that do not allow files to be downloaded you can instead bookmark the link, and then sync your bookmarks to a desktop computer from where the wiki can be saved normally.\n&quot;
        },
        &quot;$:/language/Modals/SaveInstructions&quot;: {
            &quot;title&quot;: &quot;$:/language/Modals/SaveInstructions&quot;,
            &quot;type&quot;: &quot;text/vnd.tiddlywiki&quot;,
            &quot;subtitle&quot;: &quot;Save your work&quot;,
            &quot;footer&quot;: &quot;&lt;$button message=\&quot;tm-close-tiddler\&quot;&gt;Close&lt;/$button&gt;&quot;,
            &quot;help&quot;: &quot;http://tiddlywiki.com/static/SavingChanges.html&quot;,
            &quot;text&quot;: &quot;Your changes to this wiki need to be saved as a ~TiddlyWiki HTML file.\n\n!!! Desktop browsers\n\n# Select ''Save As'' from the ''File'' menu\n# Choose a filename and location\n#* Some browsers also require you to explicitly specify the file saving format as ''Webpage, HTML only'' or similar\n# Close this tab\n\n!!! Smartphone browsers\n\n# Create a bookmark to this page\n#* If you've got iCloud or Google Sync set up then the bookmark will automatically sync to your desktop where you can open it and save it as above\n# Close this tab\n\n//If you open the bookmark again in Mobile Safari you will see this message again. If you want to go ahead and use the file, just click the ''close'' button below//\n&quot;
        },
        &quot;$:/config/NewJournal/Title&quot;: {
            &quot;title&quot;: &quot;$:/config/NewJournal/Title&quot;,
            &quot;text&quot;: &quot;DDth MMM YYYY&quot;
        },
        &quot;$:/config/NewJournal/Tags&quot;: {
            &quot;title&quot;: &quot;$:/config/NewJournal/Tags&quot;,
            &quot;text&quot;: &quot;Journal&quot;
        },
        &quot;$:/language/Notifications/Save/Done&quot;: {
            &quot;title&quot;: &quot;$:/language/Notifications/Save/Done&quot;,
            &quot;text&quot;: &quot;Saved wiki&quot;
        },
        &quot;$:/language/Notifications/Save/Starting&quot;: {
            &quot;title&quot;: &quot;$:/language/Notifications/Save/Starting&quot;,
            &quot;text&quot;: &quot;Starting to save wiki&quot;
        },
        &quot;$:/language/Search/DefaultResults/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/DefaultResults/Caption&quot;,
            &quot;text&quot;: &quot;List&quot;
        },
        &quot;$:/language/Search/Filter/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Filter/Caption&quot;,
            &quot;text&quot;: &quot;Filter&quot;
        },
        &quot;$:/language/Search/Filter/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Filter/Hint&quot;,
            &quot;text&quot;: &quot;Search via a [[filter expression|http://tiddlywiki.com/static/Filters.html]]&quot;
        },
        &quot;$:/language/Search/Filter/Matches&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Filter/Matches&quot;,
            &quot;text&quot;: &quot;//&lt;small&gt;&lt;&lt;resultCount&gt;&gt; matches&lt;/small&gt;//&quot;
        },
        &quot;$:/language/Search/Matches&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Matches&quot;,
            &quot;text&quot;: &quot;//&lt;small&gt;&lt;&lt;resultCount&gt;&gt; matches&lt;/small&gt;//&quot;
        },
        &quot;$:/language/Search/Matches/All&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Matches/All&quot;,
            &quot;text&quot;: &quot;All matches:&quot;
        },
        &quot;$:/language/Search/Matches/Title&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Matches/Title&quot;,
            &quot;text&quot;: &quot;Title matches:&quot;
        },
        &quot;$:/language/Search/Search&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Search&quot;,
            &quot;text&quot;: &quot;Search&quot;
        },
        &quot;$:/language/Search/Shadows/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Shadows/Caption&quot;,
            &quot;text&quot;: &quot;Shadows&quot;
        },
        &quot;$:/language/Search/Shadows/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Shadows/Hint&quot;,
            &quot;text&quot;: &quot;Search for shadow tiddlers&quot;
        },
        &quot;$:/language/Search/Shadows/Matches&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Shadows/Matches&quot;,
            &quot;text&quot;: &quot;//&lt;small&gt;&lt;&lt;resultCount&gt;&gt; matches&lt;/small&gt;//&quot;
        },
        &quot;$:/language/Search/Standard/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Standard/Caption&quot;,
            &quot;text&quot;: &quot;Standard&quot;
        },
        &quot;$:/language/Search/Standard/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Standard/Hint&quot;,
            &quot;text&quot;: &quot;Search for standard tiddlers&quot;
        },
        &quot;$:/language/Search/Standard/Matches&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/Standard/Matches&quot;,
            &quot;text&quot;: &quot;//&lt;small&gt;&lt;&lt;resultCount&gt;&gt; matches&lt;/small&gt;//&quot;
        },
        &quot;$:/language/Search/System/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/System/Caption&quot;,
            &quot;text&quot;: &quot;System&quot;
        },
        &quot;$:/language/Search/System/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/System/Hint&quot;,
            &quot;text&quot;: &quot;Search for system tiddlers&quot;
        },
        &quot;$:/language/Search/System/Matches&quot;: {
            &quot;title&quot;: &quot;$:/language/Search/System/Matches&quot;,
            &quot;text&quot;: &quot;//&lt;small&gt;&lt;&lt;resultCount&gt;&gt; matches&lt;/small&gt;//&quot;
        },
        &quot;$:/language/SideBar/All/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/All/Caption&quot;,
            &quot;text&quot;: &quot;All&quot;
        },
        &quot;$:/language/SideBar/Contents/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Contents/Caption&quot;,
            &quot;text&quot;: &quot;Contents&quot;
        },
        &quot;$:/language/SideBar/Drafts/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Drafts/Caption&quot;,
            &quot;text&quot;: &quot;Drafts&quot;
        },
        &quot;$:/language/SideBar/Missing/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Missing/Caption&quot;,
            &quot;text&quot;: &quot;Missing&quot;
        },
        &quot;$:/language/SideBar/More/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/More/Caption&quot;,
            &quot;text&quot;: &quot;More&quot;
        },
        &quot;$:/language/SideBar/Open/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Open/Caption&quot;,
            &quot;text&quot;: &quot;Open&quot;
        },
        &quot;$:/language/SideBar/Orphans/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Orphans/Caption&quot;,
            &quot;text&quot;: &quot;Orphans&quot;
        },
        &quot;$:/language/SideBar/Recent/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Recent/Caption&quot;,
            &quot;text&quot;: &quot;Recent&quot;
        },
        &quot;$:/language/SideBar/Shadows/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Shadows/Caption&quot;,
            &quot;text&quot;: &quot;Shadows&quot;
        },
        &quot;$:/language/SideBar/System/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/System/Caption&quot;,
            &quot;text&quot;: &quot;System&quot;
        },
        &quot;$:/language/SideBar/Tags/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Tags/Caption&quot;,
            &quot;text&quot;: &quot;Tags&quot;
        },
        &quot;$:/language/SideBar/Tags/Untagged/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Tags/Untagged/Caption&quot;,
            &quot;text&quot;: &quot;untagged&quot;
        },
        &quot;$:/language/SideBar/Tools/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Tools/Caption&quot;,
            &quot;text&quot;: &quot;Tools&quot;
        },
        &quot;$:/language/SideBar/Types/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/SideBar/Types/Caption&quot;,
            &quot;text&quot;: &quot;Types&quot;
        },
        &quot;$:/SiteSubtitle&quot;: {
            &quot;title&quot;: &quot;$:/SiteSubtitle&quot;,
            &quot;text&quot;: &quot;a non-linear personal web notebook&quot;
        },
        &quot;$:/SiteTitle&quot;: {
            &quot;title&quot;: &quot;$:/SiteTitle&quot;,
            &quot;text&quot;: &quot;My ~TiddlyWiki&quot;
        },
        &quot;$:/language/TiddlerInfo/Advanced/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Advanced/Caption&quot;,
            &quot;text&quot;: &quot;Advanced&quot;
        },
        &quot;$:/language/TiddlerInfo/Advanced/PluginInfo/Empty/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Advanced/PluginInfo/Empty/Hint&quot;,
            &quot;text&quot;: &quot;none&quot;
        },
        &quot;$:/language/TiddlerInfo/Advanced/PluginInfo/Heading&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Advanced/PluginInfo/Heading&quot;,
            &quot;text&quot;: &quot;Plugin Details&quot;
        },
        &quot;$:/language/TiddlerInfo/Advanced/PluginInfo/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Advanced/PluginInfo/Hint&quot;,
            &quot;text&quot;: &quot;This plugin contains the following shadow tiddlers:&quot;
        },
        &quot;$:/language/TiddlerInfo/Advanced/ShadowInfo/Heading&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Advanced/ShadowInfo/Heading&quot;,
            &quot;text&quot;: &quot;Shadow Status&quot;
        },
        &quot;$:/language/TiddlerInfo/Advanced/ShadowInfo/NotShadow/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Advanced/ShadowInfo/NotShadow/Hint&quot;,
            &quot;text&quot;: &quot;The tiddler &lt;$link to=&lt;&lt;infoTiddler&gt;&gt;&gt;&lt;$text text=&lt;&lt;infoTiddler&gt;&gt;/&gt;&lt;/$link&gt; is not a shadow tiddler&quot;
        },
        &quot;$:/language/TiddlerInfo/Advanced/ShadowInfo/Shadow/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Advanced/ShadowInfo/Shadow/Hint&quot;,
            &quot;text&quot;: &quot;The tiddler &lt;$link to=&lt;&lt;infoTiddler&gt;&gt;&gt;&lt;$text text=&lt;&lt;infoTiddler&gt;&gt;/&gt;&lt;/$link&gt; is a shadow tiddler&quot;
        },
        &quot;$:/language/TiddlerInfo/Advanced/ShadowInfo/Shadow/Source&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Advanced/ShadowInfo/Shadow/Source&quot;,
            &quot;text&quot;: &quot;It is defined in the plugin &lt;$link to=&lt;&lt;pluginTiddler&gt;&gt;&gt;&lt;$text text=&lt;&lt;pluginTiddler&gt;&gt;/&gt;&lt;/$link&gt;&quot;
        },
        &quot;$:/language/TiddlerInfo/Advanced/ShadowInfo/OverriddenShadow/Hint&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Advanced/ShadowInfo/OverriddenShadow/Hint&quot;,
            &quot;text&quot;: &quot;It is overridden by an ordinary tiddler&quot;
        },
        &quot;$:/language/TiddlerInfo/Fields/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Fields/Caption&quot;,
            &quot;text&quot;: &quot;Fields&quot;
        },
        &quot;$:/language/TiddlerInfo/List/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/List/Caption&quot;,
            &quot;text&quot;: &quot;List&quot;
        },
        &quot;$:/language/TiddlerInfo/List/Empty&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/List/Empty&quot;,
            &quot;text&quot;: &quot;This tiddler does not have a list&quot;
        },
        &quot;$:/language/TiddlerInfo/Listed/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Listed/Caption&quot;,
            &quot;text&quot;: &quot;Listed&quot;
        },
        &quot;$:/language/TiddlerInfo/Listed/Empty&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Listed/Empty&quot;,
            &quot;text&quot;: &quot;This tiddler is not listed by any others&quot;
        },
        &quot;$:/language/TiddlerInfo/References/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/References/Caption&quot;,
            &quot;text&quot;: &quot;References&quot;
        },
        &quot;$:/language/TiddlerInfo/References/Empty&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/References/Empty&quot;,
            &quot;text&quot;: &quot;No tiddlers link to this one&quot;
        },
        &quot;$:/language/TiddlerInfo/Tagging/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Tagging/Caption&quot;,
            &quot;text&quot;: &quot;Tagging&quot;
        },
        &quot;$:/language/TiddlerInfo/Tagging/Empty&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Tagging/Empty&quot;,
            &quot;text&quot;: &quot;No tiddlers are tagged with this one&quot;
        },
        &quot;$:/language/TiddlerInfo/Tools/Caption&quot;: {
            &quot;title&quot;: &quot;$:/language/TiddlerInfo/Tools/Caption&quot;,
            &quot;text&quot;: &quot;Tools&quot;
        },
        &quot;$:/language/Docs/Types/application/javascript&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/application/javascript&quot;,
            &quot;description&quot;: &quot;JavaScript code&quot;,
            &quot;name&quot;: &quot;application/javascript&quot;,
            &quot;group&quot;: &quot;Developer&quot;
        },
        &quot;$:/language/Docs/Types/application/json&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/application/json&quot;,
            &quot;description&quot;: &quot;JSON data&quot;,
            &quot;name&quot;: &quot;application/json&quot;,
            &quot;group&quot;: &quot;Developer&quot;
        },
        &quot;$:/language/Docs/Types/application/x-tiddler-dictionary&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/application/x-tiddler-dictionary&quot;,
            &quot;description&quot;: &quot;Data dictionary&quot;,
            &quot;name&quot;: &quot;application/x-tiddler-dictionary&quot;,
            &quot;group&quot;: &quot;Developer&quot;
        },
        &quot;$:/language/Docs/Types/image/gif&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/image/gif&quot;,
            &quot;description&quot;: &quot;GIF image&quot;,
            &quot;name&quot;: &quot;image/gif&quot;,
            &quot;group&quot;: &quot;Image&quot;
        },
        &quot;$:/language/Docs/Types/image/jpeg&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/image/jpeg&quot;,
            &quot;description&quot;: &quot;JPEG image&quot;,
            &quot;name&quot;: &quot;image/jpeg&quot;,
            &quot;group&quot;: &quot;Image&quot;
        },
        &quot;$:/language/Docs/Types/image/png&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/image/png&quot;,
            &quot;description&quot;: &quot;PNG image&quot;,
            &quot;name&quot;: &quot;image/png&quot;,
            &quot;group&quot;: &quot;Image&quot;
        },
        &quot;$:/language/Docs/Types/image/svg+xml&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/image/svg+xml&quot;,
            &quot;description&quot;: &quot;Structured Vector Graphics image&quot;,
            &quot;name&quot;: &quot;image/svg+xml&quot;,
            &quot;group&quot;: &quot;Image&quot;
        },
        &quot;$:/language/Docs/Types/image/x-icon&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/image/x-icon&quot;,
            &quot;description&quot;: &quot;ICO format icon file&quot;,
            &quot;name&quot;: &quot;image/x-icon&quot;,
            &quot;group&quot;: &quot;Image&quot;
        },
        &quot;$:/language/Docs/Types/text/css&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/text/css&quot;,
            &quot;description&quot;: &quot;Static stylesheet&quot;,
            &quot;name&quot;: &quot;text/css&quot;,
            &quot;group&quot;: &quot;Developer&quot;
        },
        &quot;$:/language/Docs/Types/text/html&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/text/html&quot;,
            &quot;description&quot;: &quot;HTML markup&quot;,
            &quot;name&quot;: &quot;text/html&quot;,
            &quot;group&quot;: &quot;Text&quot;
        },
        &quot;$:/language/Docs/Types/text/plain&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/text/plain&quot;,
            &quot;description&quot;: &quot;Plain text&quot;,
            &quot;name&quot;: &quot;text/plain&quot;,
            &quot;group&quot;: &quot;Text&quot;
        },
        &quot;$:/language/Docs/Types/text/vnd.tiddlywiki&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/text/vnd.tiddlywiki&quot;,
            &quot;description&quot;: &quot;TiddlyWiki 5&quot;,
            &quot;name&quot;: &quot;text/vnd.tiddlywiki&quot;,
            &quot;group&quot;: &quot;Text&quot;
        },
        &quot;$:/language/Docs/Types/text/x-tiddlywiki&quot;: {
            &quot;title&quot;: &quot;$:/language/Docs/Types/text/x-tiddlywiki&quot;,
            &quot;description&quot;: &quot;TiddlyWiki Classic&quot;,
            &quot;name&quot;: &quot;text/x-tiddlywiki&quot;,
            &quot;group&quot;: &quot;Text&quot;
        },
        &quot;$:/languages/en-GB/icon&quot;: {
            &quot;title&quot;: &quot;$:/languages/en-GB/icon&quot;,
            &quot;type&quot;: &quot;image/svg+xml&quot;,
            &quot;text&quot;: &quot;&lt;svg xmlns=\&quot;http://www.w3.org/2000/svg\&quot; viewBox=\&quot;0 0 60 30\&quot; width=\&quot;1200\&quot; height=\&quot;600\&quot;&gt;\n&lt;clipPath id=\&quot;t\&quot;&gt;\n\t&lt;path d=\&quot;M30,15 h30 v15 z v15 h-30 z h-30 v-15 z v-15 h30 z\&quot;/&gt;\n&lt;/clipPath&gt;\n&lt;path d=\&quot;M0,0 v30 h60 v-30 z\&quot; fill=\&quot;#00247d\&quot;/&gt;\n&lt;path d=\&quot;M0,0 L60,30 M60,0 L0,30\&quot; stroke=\&quot;#fff\&quot; stroke-width=\&quot;6\&quot;/&gt;\n&lt;path d=\&quot;M0,0 L60,30 M60,0 L0,30\&quot; clip-path=\&quot;url(#t)\&quot; stroke=\&quot;#cf142b\&quot; stroke-width=\&quot;4\&quot;/&gt;\n&lt;path d=\&quot;M30,0 v30 M0,15 h60\&quot; stroke=\&quot;#fff\&quot; stroke-width=\&quot;10\&quot;/&gt;\n&lt;path d=\&quot;M30,0 v30 M0,15 h60\&quot; stroke=\&quot;#cf142b\&quot; stroke-width=\&quot;6\&quot;/&gt;\n&lt;/svg&gt;\n&quot;
        },
        &quot;$:/languages/en-GB&quot;: {
            &quot;title&quot;: &quot;$:/languages/en-GB&quot;,
            &quot;name&quot;: &quot;en-GB&quot;,
            &quot;description&quot;: &quot;English (British)&quot;,
            &quot;author&quot;: &quot;JeremyRuston&quot;,
            &quot;core-version&quot;: &quot;&gt;=5.0.0\&quot;&quot;,
            &quot;text&quot;: &quot;Stub pseudo-plugin for the default language&quot;
        },
        &quot;$:/core/modules/commander.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commander.js\ntype: application/javascript\nmodule-type: global\n\nThe $tw.Commander class is a command interpreter\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nParse a sequence of commands\n\tcommandTokens: an array of command string tokens\n\twiki: reference to the wiki store object\n\tstreams: {output:, error:}, each of which has a write(string) method\n\tcallback: a callback invoked as callback(err) where err is null if there was no error\n*/\nvar Commander = function(commandTokens,callback,wiki,streams) {\n\tvar path = require(\&quot;path\&quot;);\n\tthis.commandTokens = commandTokens;\n\tthis.nextToken = 0;\n\tthis.callback = callback;\n\tthis.wiki = wiki;\n\tthis.streams = streams;\n\tthis.outputPath = path.resolve($tw.boot.wikiPath,$tw.config.wikiOutputSubDir);\n};\n\n/*\nAdd a string of tokens to the command queue\n*/\nCommander.prototype.addCommandTokens = function(commandTokens) {\n\tvar params = commandTokens.slice(0);\n\tparams.unshift(0);\n\tparams.unshift(this.nextToken);\n\tArray.prototype.splice.apply(this.commandTokens,params);\n};\n\n/*\nExecute the sequence of commands and invoke a callback on completion\n*/\nCommander.prototype.execute = function() {\n\tthis.executeNextCommand();\n};\n\n/*\nExecute the next command in the sequence\n*/\nCommander.prototype.executeNextCommand = function() {\n\tvar self = this;\n\t// Invoke the callback if there are no more commands\n\tif(this.nextToken &gt;= this.commandTokens.length) {\n\t\tthis.callback(null);\n\t} else {\n\t\t// Get and check the command token\n\t\tvar commandName = this.commandTokens[this.nextToken++];\n\t\tif(commandName.substr(0,2) !== \&quot;--\&quot;) {\n\t\t\tthis.callback(\&quot;Missing command: \&quot; + commandName);\n\t\t} else {\n\t\t\tcommandName = commandName.substr(2); // Trim off the --\n\t\t\t// Accumulate the parameters to the command\n\t\t\tvar params = [];\n\t\t\twhile(this.nextToken &lt; this.commandTokens.length &amp;&amp; \n\t\t\t\tthis.commandTokens[this.nextToken].substr(0,2) !== \&quot;--\&quot;) {\n\t\t\t\tparams.push(this.commandTokens[this.nextToken++]);\n\t\t\t}\n\t\t\t// Get the command info\n\t\t\tvar command = $tw.commands[commandName],\n\t\t\t\tc,err;\n\t\t\tif(!command) {\n\t\t\t\tthis.callback(\&quot;Unknown command: \&quot; + commandName);\n\t\t\t} else {\n\t\t\t\tif(this.verbose) {\n\t\t\t\t\tthis.streams.output.write(\&quot;Executing command: \&quot; + commandName + \&quot; \&quot; + params.join(\&quot; \&quot;) + \&quot;\\n\&quot;);\n\t\t\t\t}\n\t\t\t\tif(command.info.synchronous) {\n\t\t\t\t\t// Synchronous command\n\t\t\t\t\tc = new command.Command(params,this);\n\t\t\t\t\terr = c.execute();\n\t\t\t\t\tif(err) {\n\t\t\t\t\t\tthis.callback(err);\n\t\t\t\t\t} else {\n\t\t\t\t\t\tthis.executeNextCommand();\n\t\t\t\t\t}\n\t\t\t\t} else {\n\t\t\t\t\t// Asynchronous command\n\t\t\t\t\tc = new command.Command(params,this,function(err) {\n\t\t\t\t\t\tif(err) {\n\t\t\t\t\t\t\tself.callback(err);\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tself.executeNextCommand();\n\t\t\t\t\t\t}\n\t\t\t\t\t});\n\t\t\t\t\terr = c.execute();\n\t\t\t\t\tif(err) {\n\t\t\t\t\t\tthis.callback(err);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t}\n};\n\nCommander.initCommands = function(moduleType) {\n\tmoduleType = moduleType || \&quot;command\&quot;;\n\t$tw.commands = {};\n\t$tw.modules.forEachModuleOfType(moduleType,function(title,module) {\n\t\tvar c = $tw.commands[module.info.name] = {};\n\t\t// Add the methods defined by the module\n\t\tfor(var f in module) {\n\t\t\tif($tw.utils.hop(module,f)) {\n\t\t\t\tc[f] = module[f];\n\t\t\t}\n\t\t}\n\t});\n};\n\nexports.Commander = Commander;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commander.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;global&quot;
        },
        &quot;$:/core/modules/commands/build.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/build.js\ntype: application/javascript\nmodule-type: command\n\nCommand to build a build target\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;build\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander) {\n\tthis.params = params;\n\tthis.commander = commander;\n};\n\nCommand.prototype.execute = function() {\n\t// Get the build targets defined in the wiki\n\tvar buildTargets = $tw.boot.wikiInfo.build;\n\tif(!buildTargets) {\n\t\treturn \&quot;No build targets defined\&quot;;\n\t}\n\t// Loop through each of the specified targets\n\tvar targets;\n\tif(this.params.length &gt; 0) {\n\t\ttargets = this.params;\n\t} else {\n\t\ttargets = Object.keys(buildTargets);\n\t}\n\tfor(var targetIndex=0; targetIndex&lt;targets.length; targetIndex++) {\n\t\tvar target = targets[targetIndex],\n\t\t\tcommands = buildTargets[target];\n\t\tif(!commands) {\n\t\t\treturn \&quot;Build target '\&quot; + target + \&quot;' not found\&quot;;\n\t\t}\n\t\t// Add the commands to the queue\n\t\tthis.commander.addCommandTokens(commands);\n\t}\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/build.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/clearpassword.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/clearpassword.js\ntype: application/javascript\nmodule-type: command\n\nClear password for crypto operations\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;clearpassword\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\t$tw.crypto.setPassword(null);\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/clearpassword.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/editions.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/editions.js\ntype: application/javascript\nmodule-type: command\n\nCommand to list the available editions\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;editions\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander) {\n\tthis.params = params;\n\tthis.commander = commander;\n};\n\nCommand.prototype.execute = function() {\n\tvar self = this;\n\t// Output the list\n\tthis.commander.streams.output.write(\&quot;Available editions:\\n\\n\&quot;);\n\tvar editionInfo = $tw.utils.getEditionInfo();\n\t$tw.utils.each(editionInfo,function(info,name) {\n\t\tself.commander.streams.output.write(\&quot;    \&quot; + name + \&quot;: \&quot; + info.description + \&quot;\\n\&quot;);\n\t});\n\tthis.commander.streams.output.write(\&quot;\\n\&quot;);\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/editions.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/help.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/help.js\ntype: application/javascript\nmodule-type: command\n\nHelp command\n\n\\*/\n(function(){\n\n/*jshint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;help\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander) {\n\tthis.params = params;\n\tthis.commander = commander;\n};\n\nCommand.prototype.execute = function() {\n\tvar subhelp = this.params[0] || \&quot;default\&quot;,\n\t\thelpBase = \&quot;$:/language/Help/\&quot;,\n\t\ttext;\n\tif(!this.commander.wiki.getTiddler(helpBase + subhelp)) {\n\t\tsubhelp = \&quot;notfound\&quot;;\n\t}\n\t// Wikify the help as formatted text (ie block elements generate newlines)\n\ttext = this.commander.wiki.renderTiddler(\&quot;text/plain-formatted\&quot;,helpBase + subhelp);\n\t// Remove any leading linebreaks\n\ttext = text.replace(/^(\\r?\\n)*/g,\&quot;\&quot;);\n\tthis.commander.streams.output.write(text);\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/help.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/init.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/init.js\ntype: application/javascript\nmodule-type: command\n\nCommand to initialise an empty wiki folder\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;init\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander) {\n\tthis.params = params;\n\tthis.commander = commander;\n};\n\nCommand.prototype.execute = function() {\n\tvar fs = require(\&quot;fs\&quot;),\n\t\tpath = require(\&quot;path\&quot;);\n\t// Check that we don't already have a valid wiki folder\n\tif($tw.boot.wikiTiddlersPath || ($tw.utils.isDirectory($tw.boot.wikiPath) &amp;&amp; !$tw.utils.isDirectoryEmpty($tw.boot.wikiPath))) {\n\t\treturn \&quot;Wiki folder is not empty\&quot;;\n\t}\n\t// Loop through each of the specified editions\n\tvar editions = this.params.length &gt; 0 ? this.params : [\&quot;empty\&quot;];\n\tfor(var editionIndex=0; editionIndex&lt;editions.length; editionIndex++) {\n\t\tvar editionName = editions[editionIndex];\n\t\t// Check the edition exists\n\t\tvar editionPath = $tw.findLibraryItem(editionName,$tw.getLibraryItemSearchPaths($tw.config.editionsPath,$tw.config.editionsEnvVar));\n\t\tif(!$tw.utils.isDirectory(editionPath)) {\n\t\t\treturn \&quot;Edition '\&quot; + editionName + \&quot;' not found\&quot;;\n\t\t}\n\t\t// Copy the edition content\n\t\tvar err = $tw.utils.copyDirectory(editionPath,$tw.boot.wikiPath);\n\t\tif(!err) {\n\t\t\tthis.commander.streams.output.write(\&quot;Copied edition '\&quot; + editionName + \&quot;' to \&quot; + $tw.boot.wikiPath + \&quot;\\n\&quot;);\n\t\t} else {\n\t\t\treturn err;\n\t\t}\n\t}\n\t// Tweak the tiddlywiki.info to remove any included wikis\n\tvar packagePath = $tw.boot.wikiPath + \&quot;/tiddlywiki.info\&quot;,\n\t\tpackageJson = JSON.parse(fs.readFileSync(packagePath));\n\tdelete packageJson.includeWikis;\n\tfs.writeFileSync(packagePath,JSON.stringify(packageJson,null,$tw.config.preferences.jsonSpaces));\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/init.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/load.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/load.js\ntype: application/javascript\nmodule-type: command\n\nCommand to load tiddlers from a file\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;load\&quot;,\n\tsynchronous: false\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tvar self = this,\n\t\tfs = require(\&quot;fs\&quot;),\n\t\tpath = require(\&quot;path\&quot;);\n\tif(this.params.length &lt; 1) {\n\t\treturn \&quot;Missing filename\&quot;;\n\t}\n\tvar ext = path.extname(self.params[0]);\n\tfs.readFile(this.params[0],$tw.utils.getTypeEncoding(ext),function(err,data) {\n\t\tif (err) {\n\t\t\tself.callback(err);\n\t\t} else {\n\t\t\tvar fields = {title: self.params[0]},\n\t\t\t\ttype = path.extname(self.params[0]);\n\t\t\tvar tiddlers = self.commander.wiki.deserializeTiddlers(type,data,fields);\n\t\t\tif(!tiddlers) {\n\t\t\t\tself.callback(\&quot;No tiddlers found in file \\\&quot;\&quot; + self.params[0] + \&quot;\\\&quot;\&quot;);\n\t\t\t} else {\n\t\t\t\tfor(var t=0; t&lt;tiddlers.length; t++) {\n\t\t\t\t\tself.commander.wiki.importTiddler(new $tw.Tiddler(tiddlers[t]));\n\t\t\t\t}\n\t\t\t\tself.callback(null);\t\n\t\t\t}\n\t\t}\n\t});\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/load.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/makelibrary.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/makelibrary.js\ntype: application/javascript\nmodule-type: command\n\nCommand to pack all of the plugins in the library into a plugin tiddler of type \&quot;library\&quot;\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;makelibrary\&quot;,\n\tsynchronous: true\n};\n\nvar UPGRADE_LIBRARY_TITLE = \&quot;$:/UpgradeLibrary\&quot;;\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tvar wiki = this.commander.wiki,\n\t\tfs = require(\&quot;fs\&quot;),\n\t\tpath = require(\&quot;path\&quot;),\n\t\tupgradeLibraryTitle = this.params[0] || UPGRADE_LIBRARY_TITLE,\n\t\ttiddlers = {};\n\t// Collect up the library plugins\n\tvar collectPlugins = function(folder) {\n\t\t\tvar pluginFolders = fs.readdirSync(folder);\n\t\t\tfor(var p=0; p&lt;pluginFolders.length; p++) {\n\t\t\t\tif(!$tw.boot.excludeRegExp.test(pluginFolders[p])) {\n\t\t\t\t\tpluginFields = $tw.loadPluginFolder(path.resolve(folder,\&quot;./\&quot; + pluginFolders[p]));\n\t\t\t\t\tif(pluginFields &amp;&amp; pluginFields.title) {\n\t\t\t\t\t\ttiddlers[pluginFields.title] = pluginFields;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t},\n\t\tcollectPublisherPlugins = function(folder) {\n\t\t\tvar publisherFolders = fs.readdirSync(folder);\n\t\t\tfor(var t=0; t&lt;publisherFolders.length; t++) {\n\t\t\t\tif(!$tw.boot.excludeRegExp.test(publisherFolders[t])) {\n\t\t\t\t\tcollectPlugins(path.resolve(folder,\&quot;./\&quot; + publisherFolders[t]));\n\t\t\t\t}\n\t\t\t}\n\t\t};\n\tcollectPublisherPlugins(path.resolve($tw.boot.corePath,$tw.config.pluginsPath));\n\tcollectPublisherPlugins(path.resolve($tw.boot.corePath,$tw.config.themesPath));\n\tcollectPlugins(path.resolve($tw.boot.corePath,$tw.config.languagesPath));\n\t// Save the upgrade library tiddler\n\tvar pluginFields = {\n\t\ttitle: upgradeLibraryTitle,\n\t\ttype: \&quot;application/json\&quot;,\n\t\t\&quot;plugin-type\&quot;: \&quot;library\&quot;,\n\t\t\&quot;text\&quot;: JSON.stringify({tiddlers: tiddlers},null,$tw.config.preferences.jsonSpaces)\n\t};\n\twiki.addTiddler(new $tw.Tiddler(pluginFields));\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/makelibrary.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/output.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/output.js\ntype: application/javascript\nmodule-type: command\n\nCommand to set the default output location (defaults to current working directory)\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;output\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tvar fs = require(\&quot;fs\&quot;),\n\t\tpath = require(\&quot;path\&quot;);\n\tif(this.params.length &lt; 1) {\n\t\treturn \&quot;Missing output path\&quot;;\n\t}\n\tthis.commander.outputPath = path.resolve(process.cwd(),this.params[0]);\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/output.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/password.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/password.js\ntype: application/javascript\nmodule-type: command\n\nSave password for crypto operations\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;password\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tif(this.params.length &lt; 1) {\n\t\treturn \&quot;Missing password\&quot;;\n\t}\n\t$tw.crypto.setPassword(this.params[0]);\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/password.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/rendertiddler.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/rendertiddler.js\ntype: application/javascript\nmodule-type: command\n\nCommand to render a tiddler and save it to a file\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;rendertiddler\&quot;,\n\tsynchronous: false\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tif(this.params.length &lt; 2) {\n\t\treturn \&quot;Missing filename\&quot;;\n\t}\n\tvar self = this,\n\t\tfs = require(\&quot;fs\&quot;),\n\t\tpath = require(\&quot;path\&quot;),\n\t\ttitle = this.params[0],\n\t\tfilename = path.resolve(this.commander.outputPath,this.params[1]),\n\t\ttype = this.params[2] || \&quot;text/html\&quot;,\n\t\ttemplate = this.params[3],\n\t\tvariables = {};\n\t$tw.utils.createFileDirectories(filename);\n\tif(template) {\n\t\tvariables.currentTiddler = title;\n\t\ttitle = template;\n\t}\n\tfs.writeFile(filename,this.commander.wiki.renderTiddler(type,title,{variables: variables}),\&quot;utf8\&quot;,function(err) {\n\t\tself.callback(err);\n\t});\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/rendertiddler.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/rendertiddlers.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/rendertiddlers.js\ntype: application/javascript\nmodule-type: command\n\nCommand to render several tiddlers to a folder of files\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;);\n\nexports.info = {\n\tname: \&quot;rendertiddlers\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tif(this.params.length &lt; 2) {\n\t\treturn \&quot;Missing filename\&quot;;\n\t}\n\tvar self = this,\n\t\tfs = require(\&quot;fs\&quot;),\n\t\tpath = require(\&quot;path\&quot;),\n\t\twiki = this.commander.wiki,\n\t\tfilter = this.params[0],\n\t\ttemplate = this.params[1],\n\t\toutputPath = this.commander.outputPath,\n\t\tpathname = path.resolve(outputPath,this.params[2]),\t\t\n\t\ttype = this.params[3] || \&quot;text/html\&quot;,\n\t\textension = this.params[4] || \&quot;.html\&quot;,\n\t\tdeleteDirectory = (this.params[5] || \&quot;\&quot;).toLowerCase() !== \&quot;noclean\&quot;,\n\t\ttiddlers = wiki.filterTiddlers(filter);\n\tif(deleteDirectory) {\n\t\t$tw.utils.deleteDirectory(pathname);\n\t}\n\t$tw.utils.each(tiddlers,function(title) {\n\t\tvar parser = wiki.parseTiddler(template),\n\t\t\twidgetNode = wiki.makeWidget(parser,{variables: {currentTiddler: title}}),\n\t\t\tcontainer = $tw.fakeDocument.createElement(\&quot;div\&quot;);\n\t\twidgetNode.render(container,null);\n\t\tvar text = type === \&quot;text/html\&quot; ? container.innerHTML : container.textContent,\n\t\t\texportPath = null;\n\t\tif($tw.utils.hop($tw.macros,\&quot;tv-get-export-path\&quot;)) {\n\t\t\tvar macroPath = $tw.macros[\&quot;tv-get-export-path\&quot;].run.apply(self,[title]);\n\t\t\tif(macroPath) {\n\t\t\t\texportPath = path.resolve(outputPath,macroPath + extension);\n\t\t\t}\n\t\t}\n\t\tvar finalPath = exportPath || path.resolve(pathname,encodeURIComponent(title) + extension);\n\t\t$tw.utils.createFileDirectories(finalPath);\n\t\tfs.writeFileSync(finalPath,text,\&quot;utf8\&quot;);\n\t});\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/rendertiddlers.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/savelibrarytiddlers.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/savelibrarytiddlers.js\ntype: application/javascript\nmodule-type: command\n\nCommand to save the subtiddlers of a bundle tiddler as a series of JSON files\n\n--savelibrarytiddlers &lt;tiddler&gt; &lt;pathname&gt; &lt;skinnylisting&gt;\n\nThe tiddler identifies the bundle tiddler that contains the subtiddlers.\n\nThe pathname specifies the pathname to the folder in which the JSON files should be saved. The filename is the URL encoded title of the subtiddler.\n\nThe skinnylisting specifies the title of the tiddler to which a JSON catalogue of the subtiddlers will be saved. The JSON file contains the same data as the bundle tiddler but with the `text` field removed.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;savelibrarytiddlers\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tif(this.params.length &lt; 2) {\n\t\treturn \&quot;Missing filename\&quot;;\n\t}\n\tvar self = this,\n\t\tfs = require(\&quot;fs\&quot;),\n\t\tpath = require(\&quot;path\&quot;),\n\t\tcontainerTitle = this.params[0],\n\t\tfilter = this.params[1],\n\t\tbasepath = this.params[2],\n\t\tskinnyListTitle = this.params[3];\n\t// Get the container tiddler as data\n\tvar containerData = self.commander.wiki.getTiddlerDataCached(containerTitle,undefined);\n\tif(!containerData) {\n\t\treturn \&quot;'\&quot; + containerTitle + \&quot;' is not a tiddler bundle\&quot;;\n\t}\n\t// Filter the list of plugins\n\tvar pluginList = [];\n\t$tw.utils.each(containerData.tiddlers,function(tiddler,title) {\n\t\tpluginList.push(title);\n\t});\n\tvar filteredPluginList;\n\tif(filter) {\n\t\tfilteredPluginList = self.commander.wiki.filterTiddlers(filter,null,self.commander.wiki.makeTiddlerIterator(pluginList));\n\t} else {\n\t\tfilteredPluginList = pluginList;\n\t}\n\t// Iterate through the plugins\n\tvar skinnyList = [];\n\t$tw.utils.each(filteredPluginList,function(title) {\n\t\tvar tiddler = containerData.tiddlers[title];\n\t\t// Save each JSON file and collect the skinny data\n\t\tvar pathname = path.resolve(self.commander.outputPath,basepath + encodeURIComponent(title) + \&quot;.json\&quot;);\n\t\t$tw.utils.createFileDirectories(pathname);\n\t\tfs.writeFileSync(pathname,JSON.stringify(tiddler,null,$tw.config.preferences.jsonSpaces),\&quot;utf8\&quot;);\n\t\t// Collect the skinny list data\n\t\tvar pluginTiddlers = JSON.parse(tiddler.text),\n\t\t\treadmeContent = (pluginTiddlers.tiddlers[title + \&quot;/readme\&quot;] || {}).text,\n\t\t\ticonTiddler = pluginTiddlers.tiddlers[title + \&quot;/icon\&quot;] || {},\n\t\t\ticonType = iconTiddler.type,\n\t\t\ticonText = iconTiddler.text,\n\t\t\ticonContent;\n\t\tif(iconType &amp;&amp; iconText) {\n\t\t\ticonContent = $tw.utils.makeDataUri(iconText,iconType);\n\t\t}\n\t\tskinnyList.push($tw.utils.extend({},tiddler,{text: undefined, readme: readmeContent, icon: iconContent}));\n\t});\n\t// Save the catalogue tiddler\n\tif(skinnyListTitle) {\n\t\tself.commander.wiki.setTiddlerData(skinnyListTitle,skinnyList);\n\t}\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/savelibrarytiddlers.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/savetiddler.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/savetiddler.js\ntype: application/javascript\nmodule-type: command\n\nCommand to save the content of a tiddler to a file\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;savetiddler\&quot;,\n\tsynchronous: false\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tif(this.params.length &lt; 2) {\n\t\treturn \&quot;Missing filename\&quot;;\n\t}\n\tvar self = this,\n\t\tfs = require(\&quot;fs\&quot;),\n\t\tpath = require(\&quot;path\&quot;),\n\t\ttitle = this.params[0],\n\t\tfilename = path.resolve(this.commander.outputPath,this.params[1]),\n\t\ttiddler = this.commander.wiki.getTiddler(title),\n\t\ttype = tiddler.fields.type || \&quot;text/vnd.tiddlywiki\&quot;,\n\t\tcontentTypeInfo = $tw.config.contentTypeInfo[type] || {encoding: \&quot;utf8\&quot;};\n\t$tw.utils.createFileDirectories(filename);\n\tfs.writeFile(filename,tiddler.fields.text,contentTypeInfo.encoding,function(err) {\n\t\tself.callback(err);\n\t});\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/savetiddler.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/savetiddlers.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/savetiddlers.js\ntype: application/javascript\nmodule-type: command\n\nCommand to save several tiddlers to a folder of files\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;);\n\nexports.info = {\n\tname: \&quot;savetiddlers\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tif(this.params.length &lt; 1) {\n\t\treturn \&quot;Missing filename\&quot;;\n\t}\n\tvar self = this,\n\t\tfs = require(\&quot;fs\&quot;),\n\t\tpath = require(\&quot;path\&quot;),\n\t\twiki = this.commander.wiki,\n\t\tfilter = this.params[0],\n\t\tpathname = path.resolve(this.commander.outputPath,this.params[1]),\n\t\tdeleteDirectory = (this.params[2] || \&quot;\&quot;).toLowerCase() !== \&quot;noclean\&quot;,\n\t\ttiddlers = wiki.filterTiddlers(filter);\n\tif(deleteDirectory) {\n\t\t$tw.utils.deleteDirectory(pathname);\n\t}\n\t$tw.utils.createDirectory(pathname);\n\t$tw.utils.each(tiddlers,function(title) {\n\t\tvar tiddler = self.commander.wiki.getTiddler(title),\n\t\t\ttype = tiddler.fields.type || \&quot;text/vnd.tiddlywiki\&quot;,\n\t\t\tcontentTypeInfo = $tw.config.contentTypeInfo[type] || {encoding: \&quot;utf8\&quot;},\n\t\t\tfilename = path.resolve(pathname,encodeURIComponent(title));\n\t\tfs.writeFileSync(filename,tiddler.fields.text,contentTypeInfo.encoding);\n\t});\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/savetiddlers.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/server.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/server.js\ntype: application/javascript\nmodule-type: command\n\nServe tiddlers over http\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nif($tw.node) {\n\tvar util = require(\&quot;util\&quot;),\n\t\tfs = require(\&quot;fs\&quot;),\n\t\turl = require(\&quot;url\&quot;),\n\t\tpath = require(\&quot;path\&quot;),\n\t\thttp = require(\&quot;http\&quot;);\n}\n\nexports.info = {\n\tname: \&quot;server\&quot;,\n\tsynchronous: true\n};\n\n/*\nA simple HTTP server with regexp-based routes\n*/\nfunction SimpleServer(options) {\n\tthis.routes = options.routes || [];\n\tthis.wiki = options.wiki;\n\tthis.variables = options.variables || {};\n}\n\nSimpleServer.prototype.set = function(obj) {\n\tvar self = this;\n\t$tw.utils.each(obj,function(value,name) {\n\t\tself.variables[name] = value;\n\t});\n};\n\nSimpleServer.prototype.get = function(name) {\n\treturn this.variables[name];\n};\n\nSimpleServer.prototype.addRoute = function(route) {\n\tthis.routes.push(route);\n};\n\nSimpleServer.prototype.findMatchingRoute = function(request,state) {\n\tvar pathprefix = this.get(\&quot;pathprefix\&quot;) || \&quot;\&quot;;\n\tfor(var t=0; t&lt;this.routes.length; t++) {\n\t\tvar potentialRoute = this.routes[t],\n\t\t\tpathRegExp = potentialRoute.path,\n\t\t\tpathname = state.urlInfo.pathname,\n\t\t\tmatch;\n\t\tif(pathprefix) {\n\t\t\tif(pathname.substr(0,pathprefix.length) === pathprefix) {\n\t\t\t\tpathname = pathname.substr(pathprefix.length);\n\t\t\t\tmatch = potentialRoute.path.exec(pathname);\n\t\t\t} else {\n\t\t\t\tmatch = false;\n\t\t\t}\n\t\t} else {\n\t\t\tmatch = potentialRoute.path.exec(pathname);\n\t\t}\n\t\tif(match &amp;&amp; request.method === potentialRoute.method) {\n\t\t\tstate.params = [];\n\t\t\tfor(var p=1; p&lt;match.length; p++) {\n\t\t\t\tstate.params.push(match[p]);\n\t\t\t}\n\t\t\treturn potentialRoute;\n\t\t}\n\t}\n\treturn null;\n};\n\nSimpleServer.prototype.checkCredentials = function(request,incomingUsername,incomingPassword) {\n\tvar header = request.headers.authorization || \&quot;\&quot;,\n\t\ttoken = header.split(/\\s+/).pop() || \&quot;\&quot;,\n\t\tauth = $tw.utils.base64Decode(token),\n\t\tparts = auth.split(/:/),\n\t\tusername = parts[0],\n\t\tpassword = parts[1];\n\tif(incomingUsername === username &amp;&amp; incomingPassword === password) {\n\t\treturn \&quot;ALLOWED\&quot;;\n\t} else {\n\t\treturn \&quot;DENIED\&quot;;\n\t}\n};\n\nSimpleServer.prototype.listen = function(port,host) {\n\tvar self = this;\n\thttp.createServer(function(request,response) {\n\t\t// Compose the state object\n\t\tvar state = {};\n\t\tstate.wiki = self.wiki;\n\t\tstate.server = self;\n\t\tstate.urlInfo = url.parse(request.url);\n\t\t// Find the route that matches this path\n\t\tvar route = self.findMatchingRoute(request,state);\n\t\t// Check for the username and password if we've got one\n\t\tvar username = self.get(\&quot;username\&quot;),\n\t\t\tpassword = self.get(\&quot;password\&quot;);\n\t\tif(username &amp;&amp; password) {\n\t\t\t// Check they match\n\t\t\tif(self.checkCredentials(request,username,password) !== \&quot;ALLOWED\&quot;) {\n\t\t\t\tvar servername = state.wiki.getTiddlerText(\&quot;$:/SiteTitle\&quot;) || \&quot;TiddlyWiki5\&quot;;\n\t\t\t\tresponse.writeHead(401,\&quot;Authentication required\&quot;,{\n\t\t\t\t\t\&quot;WWW-Authenticate\&quot;: 'Basic realm=\&quot;Please provide your username and password to login to ' + servername + '\&quot;'\n\t\t\t\t});\n\t\t\t\tresponse.end();\n\t\t\t\treturn;\n\t\t\t}\n\t\t}\n\t\t// Return a 404 if we didn't find a route\n\t\tif(!route) {\n\t\t\tresponse.writeHead(404);\n\t\t\tresponse.end();\n\t\t\treturn;\n\t\t}\n\t\t// Set the encoding for the incoming request\n\t\t// TODO: Presumably this would need tweaking if we supported PUTting binary tiddlers\n\t\trequest.setEncoding(\&quot;utf8\&quot;);\n\t\t// Dispatch the appropriate method\n\t\tswitch(request.method) {\n\t\t\tcase \&quot;GET\&quot;: // Intentional fall-through\n\t\t\tcase \&quot;DELETE\&quot;:\n\t\t\t\troute.handler(request,response,state);\n\t\t\t\tbreak;\n\t\t\tcase \&quot;PUT\&quot;:\n\t\t\t\tvar data = \&quot;\&quot;;\n\t\t\t\trequest.on(\&quot;data\&quot;,function(chunk) {\n\t\t\t\t\tdata += chunk.toString();\n\t\t\t\t});\n\t\t\t\trequest.on(\&quot;end\&quot;,function() {\n\t\t\t\t\tstate.data = data;\n\t\t\t\t\troute.handler(request,response,state);\n\t\t\t\t});\n\t\t\t\tbreak;\n\t\t}\n\t}).listen(port,host);\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n\t// Set up server\n\tthis.server = new SimpleServer({\n\t\twiki: this.commander.wiki\n\t});\n\t// Add route handlers\n\tthis.server.addRoute({\n\t\tmethod: \&quot;PUT\&quot;,\n\t\tpath: /^\\/recipes\\/default\\/tiddlers\\/(.+)$/,\n\t\thandler: function(request,response,state) {\n\t\t\tvar title = decodeURIComponent(state.params[0]),\n\t\t\t\tfields = JSON.parse(state.data);\n\t\t\t// Pull up any subfields in the `fields` object\n\t\t\tif(fields.fields) {\n\t\t\t\t$tw.utils.each(fields.fields,function(field,name) {\n\t\t\t\t\tfields[name] = field;\n\t\t\t\t});\n\t\t\t\tdelete fields.fields;\n\t\t\t}\n\t\t\t// Remove any revision field\n\t\t\tif(fields.revision) {\n\t\t\t\tdelete fields.revision;\n\t\t\t}\n\t\t\tstate.wiki.addTiddler(new $tw.Tiddler(state.wiki.getCreationFields(),fields,{title: title},state.wiki.getModificationFields()));\n\t\t\tvar changeCount = state.wiki.getChangeCount(title).toString();\n\t\t\tresponse.writeHead(204, \&quot;OK\&quot;,{\n\t\t\t\tEtag: \&quot;\\\&quot;default/\&quot; + encodeURIComponent(title) + \&quot;/\&quot; + changeCount + \&quot;:\\\&quot;\&quot;,\n\t\t\t\t\&quot;Content-Type\&quot;: \&quot;text/plain\&quot;\n\t\t\t});\n\t\t\tresponse.end();\n\t\t}\n\t});\n\tthis.server.addRoute({\n\t\tmethod: \&quot;DELETE\&quot;,\n\t\tpath: /^\\/bags\\/default\\/tiddlers\\/(.+)$/,\n\t\thandler: function(request,response,state) {\n\t\t\tvar title = decodeURIComponent(state.params[0]);\n\t\t\tstate.wiki.deleteTiddler(title);\n\t\t\tresponse.writeHead(204, \&quot;OK\&quot;, {\n\t\t\t\t\&quot;Content-Type\&quot;: \&quot;text/plain\&quot;\n\t\t\t});\n\t\t\tresponse.end();\n\t\t}\n\t});\n\tthis.server.addRoute({\n\t\tmethod: \&quot;GET\&quot;,\n\t\tpath: /^\\/$/,\n\t\thandler: function(request,response,state) {\n\t\t\tresponse.writeHead(200, {\&quot;Content-Type\&quot;: state.server.get(\&quot;serveType\&quot;)});\n\t\t\tvar text = state.wiki.renderTiddler(state.server.get(\&quot;renderType\&quot;),state.server.get(\&quot;rootTiddler\&quot;));\n\t\t\tresponse.end(text,\&quot;utf8\&quot;);\n\t\t}\n\t});\n\tthis.server.addRoute({\n\t\tmethod: \&quot;GET\&quot;,\n\t\tpath: /^\\/status$/,\n\t\thandler: function(request,response,state) {\n\t\t\tresponse.writeHead(200, {\&quot;Content-Type\&quot;: \&quot;application/json\&quot;});\n\t\t\tvar text = JSON.stringify({\n\t\t\t\tusername: state.server.get(\&quot;username\&quot;),\n\t\t\t\tspace: {\n\t\t\t\t\trecipe: \&quot;default\&quot;\n\t\t\t\t},\n\t\t\t\ttiddlywiki_version: $tw.version\n\t\t\t});\n\t\t\tresponse.end(text,\&quot;utf8\&quot;);\n\t\t}\n\t});\n\tthis.server.addRoute({\n\t\tmethod: \&quot;GET\&quot;,\n\t\tpath: /^\\/favicon.ico$/,\n\t\thandler: function(request,response,state) {\n\t\t\tresponse.writeHead(200, {\&quot;Content-Type\&quot;: \&quot;image/x-icon\&quot;});\n\t\t\tvar buffer = state.wiki.getTiddlerText(\&quot;$:/favicon.ico\&quot;,\&quot;\&quot;);\n\t\t\tresponse.end(buffer,\&quot;base64\&quot;);\n\t\t}\n\t});\n\tthis.server.addRoute({\n\t\tmethod: \&quot;GET\&quot;,\n\t\tpath: /^\\/recipes\\/default\\/tiddlers.json$/,\n\t\thandler: function(request,response,state) {\n\t\t\tresponse.writeHead(200, {\&quot;Content-Type\&quot;: \&quot;application/json\&quot;});\n\t\t\tvar tiddlers = [];\n\t\t\tstate.wiki.forEachTiddler({sortField: \&quot;title\&quot;},function(title,tiddler) {\n\t\t\t\tvar tiddlerFields = {};\n\t\t\t\t$tw.utils.each(tiddler.fields,function(field,name) {\n\t\t\t\t\tif(name !== \&quot;text\&quot;) {\n\t\t\t\t\t\ttiddlerFields[name] = tiddler.getFieldString(name);\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t\ttiddlerFields.revision = state.wiki.getChangeCount(title);\n\t\t\t\ttiddlerFields.type = tiddlerFields.type || \&quot;text/vnd.tiddlywiki\&quot;;\n\t\t\t\ttiddlers.push(tiddlerFields);\n\t\t\t});\n\t\t\tvar text = JSON.stringify(tiddlers);\n\t\t\tresponse.end(text,\&quot;utf8\&quot;);\n\t\t}\n\t});\n\tthis.server.addRoute({\n\t\tmethod: \&quot;GET\&quot;,\n\t\tpath: /^\\/recipes\\/default\\/tiddlers\\/(.+)$/,\n\t\thandler: function(request,response,state) {\n\t\t\tvar title = decodeURIComponent(state.params[0]),\n\t\t\t\ttiddler = state.wiki.getTiddler(title),\n\t\t\t\ttiddlerFields = {},\n\t\t\t\tknownFields = [\n\t\t\t\t\t\&quot;bag\&quot;, \&quot;created\&quot;, \&quot;creator\&quot;, \&quot;modified\&quot;, \&quot;modifier\&quot;, \&quot;permissions\&quot;, \&quot;recipe\&quot;, \&quot;revision\&quot;, \&quot;tags\&quot;, \&quot;text\&quot;, \&quot;title\&quot;, \&quot;type\&quot;, \&quot;uri\&quot;\n\t\t\t\t];\n\t\t\tif(tiddler) {\n\t\t\t\t$tw.utils.each(tiddler.fields,function(field,name) {\n\t\t\t\t\tvar value = tiddler.getFieldString(name);\n\t\t\t\t\tif(knownFields.indexOf(name) !== -1) {\n\t\t\t\t\t\ttiddlerFields[name] = value;\n\t\t\t\t\t} else {\n\t\t\t\t\t\ttiddlerFields.fields = tiddlerFields.fields || {};\n\t\t\t\t\t\ttiddlerFields.fields[name] = value;\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t\ttiddlerFields.revision = state.wiki.getChangeCount(title);\n\t\t\t\ttiddlerFields.type = tiddlerFields.type || \&quot;text/vnd.tiddlywiki\&quot;;\n\t\t\t\tresponse.writeHead(200, {\&quot;Content-Type\&quot;: \&quot;application/json\&quot;});\n\t\t\t\tresponse.end(JSON.stringify(tiddlerFields),\&quot;utf8\&quot;);\n\t\t\t} else {\n\t\t\t\tresponse.writeHead(404);\n\t\t\t\tresponse.end();\n\t\t\t}\n\t\t}\n\t});\n};\n\nCommand.prototype.execute = function() {\n\tif(!$tw.boot.wikiTiddlersPath) {\n\t\t$tw.utils.warning(\&quot;Warning: Wiki folder '\&quot; + $tw.boot.wikiPath + \&quot;' does not exist or is missing a tiddlywiki.info file\&quot;);\n\t}\n\tvar port = this.params[0] || \&quot;8080\&quot;,\n\t\trootTiddler = this.params[1] || \&quot;$:/core/save/all\&quot;,\n\t\trenderType = this.params[2] || \&quot;text/plain\&quot;,\n\t\tserveType = this.params[3] || \&quot;text/html\&quot;,\n\t\tusername = this.params[4],\n\t\tpassword = this.params[5],\n\t\thost = this.params[6] || \&quot;127.0.0.1\&quot;,\n\t\tpathprefix = this.params[7];\n\tthis.server.set({\n\t\trootTiddler: rootTiddler,\n\t\trenderType: renderType,\n\t\tserveType: serveType,\n\t\tusername: username,\n\t\tpassword: password,\n\t\tpathprefix: pathprefix\n\t});\n\tthis.server.listen(port,host);\n\tconsole.log(\&quot;Serving on \&quot; + host + \&quot;:\&quot; + port);\n\tconsole.log(\&quot;(press ctrl-C to exit)\&quot;);\n\t// Warn if required plugins are missing\n\tif(!$tw.wiki.getTiddler(\&quot;$:/plugins/tiddlywiki/tiddlyweb\&quot;) || !$tw.wiki.getTiddler(\&quot;$:/plugins/tiddlywiki/filesystem\&quot;)) {\n\t\t$tw.utils.warning(\&quot;Warning: Plugins required for client-server operation (\\\&quot;tiddlywiki/filesystem\\\&quot; and \\\&quot;tiddlywiki/tiddlyweb\\\&quot;) are missing from tiddlywiki.info file\&quot;);\n\t}\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/server.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/setfield.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/setfield.js\ntype: application/javascript\nmodule-type: command\n\nCommand to modify selected tiddlers to set a field to the text of a template tiddler that has been wikified with the selected tiddler as the current tiddler.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;);\n\nexports.info = {\n\tname: \&quot;setfield\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tif(this.params.length &lt; 4) {\n\t\treturn \&quot;Missing parameters\&quot;;\n\t}\n\tvar self = this,\n\t\twiki = this.commander.wiki,\n\t\tfilter = this.params[0],\n\t\tfieldname = this.params[1] || \&quot;text\&quot;,\n\t\ttemplatetitle = this.params[2],\n\t\trendertype = this.params[3] || \&quot;text/plain\&quot;,\n\t\ttiddlers = wiki.filterTiddlers(filter);\n\t$tw.utils.each(tiddlers,function(title) {\n\t\tvar parser = wiki.parseTiddler(templatetitle),\n\t\t\tnewFields = {},\n\t\t\ttiddler = wiki.getTiddler(title);\n\t\tif(parser) {\n\t\t\tvar widgetNode = wiki.makeWidget(parser,{variables: {currentTiddler: title}});\n\t\t\tvar container = $tw.fakeDocument.createElement(\&quot;div\&quot;);\n\t\t\twidgetNode.render(container,null);\n\t\t\tnewFields[fieldname] = rendertype === \&quot;text/html\&quot; ? container.innerHTML : container.textContent;\n\t\t} else {\n\t\t\tnewFields[fieldname] = undefined;\n\t\t}\n\t\twiki.addTiddler(new $tw.Tiddler(tiddler,newFields));\n\t});\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/setfield.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/unpackplugin.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/unpackplugin.js\ntype: application/javascript\nmodule-type: command\n\nCommand to extract the shadow tiddlers from within a plugin\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;unpackplugin\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander,callback) {\n\tthis.params = params;\n\tthis.commander = commander;\n\tthis.callback = callback;\n};\n\nCommand.prototype.execute = function() {\n\tif(this.params.length &lt; 1) {\n\t\treturn \&quot;Missing plugin name\&quot;;\n\t}\n\tvar self = this,\n\t\ttitle = this.params[0],\n\t\tpluginData = this.commander.wiki.getTiddlerDataCached(title);\n\tif(!pluginData) {\n\t\treturn \&quot;Plugin '\&quot; + title + \&quot;' not found\&quot;;\n\t}\n\t$tw.utils.each(pluginData.tiddlers,function(tiddler) {\n\t\tself.commander.wiki.addTiddler(new $tw.Tiddler(tiddler));\n\t});\n\treturn null;\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/unpackplugin.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/verbose.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/verbose.js\ntype: application/javascript\nmodule-type: command\n\nVerbose command\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;verbose\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander) {\n\tthis.params = params;\n\tthis.commander = commander;\n};\n\nCommand.prototype.execute = function() {\n\tthis.commander.verbose = true;\n\t// Output the boot message log\n\tthis.commander.streams.output.write(\&quot;Boot log:\\n  \&quot; + $tw.boot.logMessages.join(\&quot;\\n  \&quot;) + \&quot;\\n\&quot;);\n\treturn null; // No error\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/verbose.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/commands/version.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/commands/version.js\ntype: application/javascript\nmodule-type: command\n\nVersion command\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.info = {\n\tname: \&quot;version\&quot;,\n\tsynchronous: true\n};\n\nvar Command = function(params,commander) {\n\tthis.params = params;\n\tthis.commander = commander;\n};\n\nCommand.prototype.execute = function() {\n\tthis.commander.streams.output.write($tw.version + \&quot;\\n\&quot;);\n\treturn null; // No error\n};\n\nexports.Command = Command;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/commands/version.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;command&quot;
        },
        &quot;$:/core/modules/config.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/config.js\ntype: application/javascript\nmodule-type: config\n\nCore configuration constants\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.preferences = {};\n\nexports.preferences.notificationDuration = 3 * 1000;\nexports.preferences.jsonSpaces = 4;\n\nexports.textPrimitives = {\n\tupperLetter: \&quot;[A-Z\\u00c0-\\u00d6\\u00d8-\\u00de\\u0150\\u0170]\&quot;,\n\tlowerLetter: \&quot;[a-z\\u00df-\\u00f6\\u00f8-\\u00ff\\u0151\\u0171]\&quot;,\n\tanyLetter:   \&quot;[A-Za-z0-9\\u00c0-\\u00d6\\u00d8-\\u00de\\u00df-\\u00f6\\u00f8-\\u00ff\\u0150\\u0170\\u0151\\u0171]\&quot;,\n\tblockPrefixLetters:\t\&quot;[A-Za-z0-9-_\\u00c0-\\u00d6\\u00d8-\\u00de\\u00df-\\u00f6\\u00f8-\\u00ff\\u0150\\u0170\\u0151\\u0171]\&quot;\n};\n\nexports.textPrimitives.unWikiLink = \&quot;~\&quot;;\nexports.textPrimitives.wikiLink = exports.textPrimitives.upperLetter + \&quot;+\&quot; +\n\texports.textPrimitives.lowerLetter + \&quot;+\&quot; +\n\texports.textPrimitives.upperLetter +\n\texports.textPrimitives.anyLetter + \&quot;*\&quot;;\n\nexports.htmlEntities = {quot:34, amp:38, apos:39, lt:60, gt:62, nbsp:160, iexcl:161, cent:162, pound:163, curren:164, yen:165, brvbar:166, sect:167, uml:168, copy:169, ordf:170, laquo:171, not:172, shy:173, reg:174, macr:175, deg:176, plusmn:177, sup2:178, sup3:179, acute:180, micro:181, para:182, middot:183, cedil:184, sup1:185, ordm:186, raquo:187, frac14:188, frac12:189, frac34:190, iquest:191, Agrave:192, Aacute:193, Acirc:194, Atilde:195, Auml:196, Aring:197, AElig:198, Ccedil:199, Egrave:200, Eacute:201, Ecirc:202, Euml:203, Igrave:204, Iacute:205, Icirc:206, Iuml:207, ETH:208, Ntilde:209, Ograve:210, Oacute:211, Ocirc:212, Otilde:213, Ouml:214, times:215, Oslash:216, Ugrave:217, Uacute:218, Ucirc:219, Uuml:220, Yacute:221, THORN:222, szlig:223, agrave:224, aacute:225, acirc:226, atilde:227, auml:228, aring:229, aelig:230, ccedil:231, egrave:232, eacute:233, ecirc:234, euml:235, igrave:236, iacute:237, icirc:238, iuml:239, eth:240, ntilde:241, ograve:242, oacute:243, ocirc:244, otilde:245, ouml:246, divide:247, oslash:248, ugrave:249, uacute:250, ucirc:251, uuml:252, yacute:253, thorn:254, yuml:255, OElig:338, oelig:339, Scaron:352, scaron:353, Yuml:376, fnof:402, circ:710, tilde:732, Alpha:913, Beta:914, Gamma:915, Delta:916, Epsilon:917, Zeta:918, Eta:919, Theta:920, Iota:921, Kappa:922, Lambda:923, Mu:924, Nu:925, Xi:926, Omicron:927, Pi:928, Rho:929, Sigma:931, Tau:932, Upsilon:933, Phi:934, Chi:935, Psi:936, Omega:937, alpha:945, beta:946, gamma:947, delta:948, epsilon:949, zeta:950, eta:951, theta:952, iota:953, kappa:954, lambda:955, mu:956, nu:957, xi:958, omicron:959, pi:960, rho:961, sigmaf:962, sigma:963, tau:964, upsilon:965, phi:966, chi:967, psi:968, omega:969, thetasym:977, upsih:978, piv:982, ensp:8194, emsp:8195, thinsp:8201, zwnj:8204, zwj:8205, lrm:8206, rlm:8207, ndash:8211, mdash:8212, lsquo:8216, rsquo:8217, sbquo:8218, ldquo:8220, rdquo:8221, bdquo:8222, dagger:8224, Dagger:8225, bull:8226, hellip:8230, permil:8240, prime:8242, Prime:8243, lsaquo:8249, rsaquo:8250, oline:8254, frasl:8260, euro:8364, image:8465, weierp:8472, real:8476, trade:8482, alefsym:8501, larr:8592, uarr:8593, rarr:8594, darr:8595, harr:8596, crarr:8629, lArr:8656, uArr:8657, rArr:8658, dArr:8659, hArr:8660, forall:8704, part:8706, exist:8707, empty:8709, nabla:8711, isin:8712, notin:8713, ni:8715, prod:8719, sum:8721, minus:8722, lowast:8727, radic:8730, prop:8733, infin:8734, ang:8736, and:8743, or:8744, cap:8745, cup:8746, int:8747, there4:8756, sim:8764, cong:8773, asymp:8776, ne:8800, equiv:8801, le:8804, ge:8805, sub:8834, sup:8835, nsub:8836, sube:8838, supe:8839, oplus:8853, otimes:8855, perp:8869, sdot:8901, lceil:8968, rceil:8969, lfloor:8970, rfloor:8971, lang:9001, rang:9002, loz:9674, spades:9824, clubs:9827, hearts:9829, diams:9830 };\n\nexports.htmlVoidElements = \&quot;area,base,br,col,command,embed,hr,img,input,keygen,link,meta,param,source,track,wbr\&quot;.split(\&quot;,\&quot;);\n\nexports.htmlBlockElements = \&quot;address,article,aside,audio,blockquote,canvas,dd,div,dl,fieldset,figcaption,figure,footer,form,h1,h2,h3,h4,h5,h6,header,hgroup,hr,li,noscript,ol,output,p,pre,section,table,tfoot,ul,video\&quot;.split(\&quot;,\&quot;);\n\nexports.htmlUnsafeElements = \&quot;script\&quot;.split(\&quot;,\&quot;);\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/config.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;config&quot;
        },
        &quot;$:/core/modules/deserializers.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/deserializers.js\ntype: application/javascript\nmodule-type: tiddlerdeserializer\n\nFunctions to deserialise tiddlers from a block of text\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nUtility function to parse an old-style tiddler DIV in a *.tid file. It looks like this:\n\n&lt;div title=\&quot;Title\&quot; creator=\&quot;JoeBloggs\&quot; modifier=\&quot;JoeBloggs\&quot; created=\&quot;201102111106\&quot; modified=\&quot;201102111310\&quot; tags=\&quot;myTag [[my long tag]]\&quot;&gt;\n&lt;pre&gt;The text of the tiddler (without the expected HTML encoding).\n&lt;/pre&gt;\n&lt;/div&gt;\n\nNote that the field attributes are HTML encoded, but that the body of the &lt;PRE&gt; tag is not encoded.\n\nWhen these tiddler DIVs are encountered within a TiddlyWiki HTML file then the body is encoded in the usual way.\n*/\nvar parseTiddlerDiv = function(text /* [,fields] */) {\n\t// Slot together the default results\n\tvar result = {};\n\tif(arguments.length &gt; 1) {\n\t\tfor(var f=1; f&lt;arguments.length; f++) {\n\t\t\tvar fields = arguments[f];\n\t\t\tfor(var t in fields) {\n\t\t\t\tresult[t] = fields[t];\t\t\n\t\t\t}\n\t\t}\n\t}\n\t// Parse the DIV body\n\tvar startRegExp = /^\\s*&lt;div\\s+([^&gt;]*)&gt;(\\s*&lt;pre&gt;)?/gi,\n\t\tendRegExp,\n\t\tmatch = startRegExp.exec(text);\n\tif(match) {\n\t\t// Old-style DIVs don't have the &lt;pre&gt; tag\n\t\tif(match[2]) {\n\t\t\tendRegExp = /&lt;\\/pre&gt;\\s*&lt;\\/div&gt;\\s*$/gi;\n\t\t} else {\n\t\t\tendRegExp = /&lt;\\/div&gt;\\s*$/gi;\n\t\t}\n\t\tvar endMatch = endRegExp.exec(text);\n\t\tif(endMatch) {\n\t\t\t// Extract the text\n\t\t\tresult.text = text.substring(match.index + match[0].length,endMatch.index);\n\t\t\t// Process the attributes\n\t\t\tvar attrRegExp = /\\s*([^=\\s]+)\\s*=\\s*(?:\&quot;([^\&quot;]*)\&quot;|'([^']*)')/gi,\n\t\t\t\tattrMatch;\n\t\t\tdo {\n\t\t\t\tattrMatch = attrRegExp.exec(match[1]);\n\t\t\t\tif(attrMatch) {\n\t\t\t\t\tvar name = attrMatch[1];\n\t\t\t\t\tvar value = attrMatch[2] !== undefined ? attrMatch[2] : attrMatch[3];\n\t\t\t\t\tresult[name] = value;\n\t\t\t\t}\n\t\t\t} while(attrMatch);\n\t\t\treturn result;\n\t\t}\n\t}\n\treturn undefined;\n};\n\nexports[\&quot;application/x-tiddler-html-div\&quot;] = function(text,fields) {\n\treturn [parseTiddlerDiv(text,fields)];\n};\n\nexports[\&quot;application/json\&quot;] = function(text,fields) {\n\tvar incoming = JSON.parse(text),\n\t\tresults = [];\n\tif($tw.utils.isArray(incoming)) {\n\t\tfor(var t=0; t&lt;incoming.length; t++) {\n\t\t\tvar incomingFields = incoming[t],\n\t\t\t\tfields = {};\n\t\t\tfor(var f in incomingFields) {\n\t\t\t\tif(typeof incomingFields[f] === \&quot;string\&quot;) {\n\t\t\t\t\tfields[f] = incomingFields[f];\n\t\t\t\t}\n\t\t\t}\n\t\t\tresults.push(fields);\n\t\t}\n\t}\n\treturn results;\n};\n\n/*\nParse an HTML file into tiddlers. There are three possibilities:\n# A TiddlyWiki classic HTML file containing `text/x-tiddlywiki` tiddlers\n# A TiddlyWiki5 HTML file containing `text/vnd.tiddlywiki` tiddlers\n# An ordinary HTML file\n*/\nexports[\&quot;text/html\&quot;] = function(text,fields) {\n\t// Check if we've got a store area\n\tvar storeAreaMarkerRegExp = /&lt;div id=[\&quot;']?storeArea['\&quot;]?( style=[\&quot;']?display:none;[\&quot;']?)?&gt;/gi,\n\t\tmatch = storeAreaMarkerRegExp.exec(text);\n\tif(match) {\n\t\t// If so, it's either a classic TiddlyWiki file or an unencrypted TW5 file\n\t\t// First read the normal tiddlers\n\t\tvar results = deserializeTiddlyWikiFile(text,storeAreaMarkerRegExp.lastIndex,!!match[1],fields);\n\t\t// Then any system tiddlers\n\t\tvar systemAreaMarkerRegExp = /&lt;div id=[\&quot;']?systemArea['\&quot;]?( style=[\&quot;']?display:none;[\&quot;']?)?&gt;/gi,\n\t\t\tsysMatch = systemAreaMarkerRegExp.exec(text);\n\t\tif(sysMatch) {\n\t\t\tresults.push.apply(results,deserializeTiddlyWikiFile(text,systemAreaMarkerRegExp.lastIndex,!!sysMatch[1],fields));\n\t\t}\n\t\treturn results;\n\t} else {\n\t\t// Check whether we've got an encrypted file\n\t\tvar encryptedStoreArea = $tw.utils.extractEncryptedStoreArea(text);\n\t\tif(encryptedStoreArea) {\n\t\t\t// If so, attempt to decrypt it using the current password\n\t\t\treturn $tw.utils.decryptStoreArea(encryptedStoreArea);\n\t\t} else {\n\t\t\t// It's not a TiddlyWiki so we'll return the entire HTML file as a tiddler\n\t\t\treturn deserializeHtmlFile(text,fields);\n\t\t}\n\t}\n};\n\nfunction deserializeHtmlFile(text,fields) {\n\tvar result = {};\n\t$tw.utils.each(fields,function(value,name) {\n\t\tresult[name] = value;\n\t});\n\tresult.text = text;\n\tresult.type = \&quot;text/html\&quot;;\n\treturn [result];\n}\n\nfunction deserializeTiddlyWikiFile(text,storeAreaEnd,isTiddlyWiki5,fields) {\n\tvar results = [],\n\t\tendOfDivRegExp = /(&lt;\\/div&gt;\\s*)/gi,\n\t\tstartPos = storeAreaEnd,\n\t\tdefaultType = isTiddlyWiki5 ? undefined : \&quot;text/x-tiddlywiki\&quot;;\n\tendOfDivRegExp.lastIndex = startPos;\n\tvar match = endOfDivRegExp.exec(text);\n\twhile(match) {\n\t\tvar endPos = endOfDivRegExp.lastIndex,\n\t\t\ttiddlerFields = parseTiddlerDiv(text.substring(startPos,endPos),fields,{type: defaultType});\n\t\tif(!tiddlerFields) {\n\t\t\tbreak;\n\t\t}\n\t\t$tw.utils.each(tiddlerFields,function(value,name) {\n\t\t\tif(typeof value === \&quot;string\&quot;) {\n\t\t\t\ttiddlerFields[name] = $tw.utils.htmlDecode(value);\n\t\t\t}\n\t\t});\n\t\tif(tiddlerFields.text !== null) {\n\t\t\tresults.push(tiddlerFields);\n\t\t}\n\t\tstartPos = endPos;\n\t\tmatch = endOfDivRegExp.exec(text);\n\t}\n\treturn results;\n}\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/deserializers.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;tiddlerdeserializer&quot;
        },
        &quot;$:/core/modules/filters/addprefix.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/addprefix.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for adding a prefix to each title in the list. This is\nespecially useful in contexts where only a filter expression is allowed\nand macro substitution isn't available.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.addprefix = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tresults.push(operator.operand + title);\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/addprefix.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/addsuffix.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/addsuffix.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for adding a suffix to each title in the list. This is\nespecially useful in contexts where only a filter expression is allowed\nand macro substitution isn't available.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.addsuffix = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tresults.push(title + operator.operand);\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/addsuffix.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/after.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/after.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator returning the tiddler from the current list that is after the tiddler named in the operand.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.after = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tresults.push(title);\n\t});\n\tvar index = results.indexOf(operator.operand);\n\tif(index === -1 || index &gt; (results.length - 2)) {\n\t\treturn [];\n\t} else {\n\t\treturn [results[index + 1]];\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/after.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/all/current.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/all/current.js\ntype: application/javascript\nmodule-type: allfilteroperator\n\nFilter function for [all[current]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.current = function(source,prefix,options) {\n\tvar currTiddlerTitle = options.widget &amp;&amp; options.widget.getVariable(\&quot;currentTiddler\&quot;);\n\tif(currTiddlerTitle) {\n\t\treturn [currTiddlerTitle];\n\t} else {\n\t\treturn [];\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/all/current.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;allfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/all/missing.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/all/missing.js\ntype: application/javascript\nmodule-type: allfilteroperator\n\nFilter function for [all[missing]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.missing = function(source,prefix,options) {\n\treturn options.wiki.getMissingTitles();\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/all/missing.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;allfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/all/orphans.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/all/orphans.js\ntype: application/javascript\nmodule-type: allfilteroperator\n\nFilter function for [all[orphans]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.orphans = function(source,prefix,options) {\n\treturn options.wiki.getOrphanTitles();\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/all/orphans.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;allfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/all/shadows.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/all/shadows.js\ntype: application/javascript\nmodule-type: allfilteroperator\n\nFilter function for [all[shadows]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.shadows = function(source,prefix,options) {\n\treturn options.wiki.allShadowTitles();\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/all/shadows.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;allfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/all/tiddlers.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/all/tiddlers.js\ntype: application/javascript\nmodule-type: allfilteroperator\n\nFilter function for [all[tiddlers]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.tiddlers = function(source,prefix,options) {\n\treturn options.wiki.allTitles();\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/all/tiddlers.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;allfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/all.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/all.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for selecting tiddlers\n\n[all[shadows+tiddlers]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar allFilterOperators;\n\nfunction getAllFilterOperators() {\n\tif(!allFilterOperators) {\n\t\tallFilterOperators = {};\n\t\t$tw.modules.applyMethods(\&quot;allfilteroperator\&quot;,allFilterOperators);\n\t}\n\treturn allFilterOperators;\n}\n\n/*\nExport our filter function\n*/\nexports.all = function(source,operator,options) {\n\t// Get our suboperators\n\tvar allFilterOperators = getAllFilterOperators();\n\t// Cycle through the suboperators accumulating their results\n\tvar results = [],\n\t\tsubops = operator.operand.split(\&quot;+\&quot;);\n\t// Check for common optimisations\n\tif(subops.length === 1 &amp;&amp; subops[0] === \&quot;\&quot;) {\n\t\treturn source;\n\t} else if(subops.length === 1 &amp;&amp; subops[0] === \&quot;tiddlers\&quot;) {\n\t\treturn options.wiki.each;\n\t} else if(subops.length === 1 &amp;&amp; subops[0] === \&quot;shadows\&quot;) {\n\t\treturn options.wiki.eachShadow;\n\t} else if(subops.length === 2 &amp;&amp; subops[0] === \&quot;tiddlers\&quot; &amp;&amp; subops[1] === \&quot;shadows\&quot;) {\n\t\treturn options.wiki.eachTiddlerPlusShadows;\n\t} else if(subops.length === 2 &amp;&amp; subops[0] === \&quot;shadows\&quot; &amp;&amp; subops[1] === \&quot;tiddlers\&quot;) {\n\t\treturn options.wiki.eachShadowPlusTiddlers;\n\t}\n\t// Do it the hard way\n\tfor(var t=0; t&lt;subops.length; t++) {\n\t\tvar subop = allFilterOperators[subops[t]];\n\t\tif(subop) {\n\t\t\t$tw.utils.pushTop(results,subop(source,operator.prefix,options));\n\t\t}\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/all.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/backlinks.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/backlinks.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning all the backlinks from a tiddler\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.backlinks = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\t$tw.utils.pushTop(results,options.wiki.getTiddlerBacklinks(title));\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/backlinks.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/before.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/before.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator returning the tiddler from the current list that is before the tiddler named in the operand.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.before = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tresults.push(title);\n\t});\n\tvar index = results.indexOf(operator.operand);\n\tif(index &lt;= 0) {\n\t\treturn [];\n\t} else {\n\t\treturn [results[index - 1]];\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/before.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/commands.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/commands.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the names of the commands available in this wiki\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.commands = function(source,operator,options) {\n\tvar results = [];\n\t$tw.utils.each($tw.commands,function(commandInfo,name) {\n\t\tresults.push(name);\n\t});\n\tresults.sort();\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/commands.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/days.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/days.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator that selects tiddlers with a specified date field within a specified date interval.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.days = function(source,operator,options) {\n\tvar results = [],\n\t\tfieldName = operator.suffix || \&quot;modified\&quot;,\n\t\tdayInterval = (parseInt(operator.operand,10)||0),\n\t\tdayIntervalSign = $tw.utils.sign(dayInterval),\n\t\ttargetTimeStamp = (new Date()).setHours(0,0,0,0) + 1000*60*60*24*dayInterval,\n\t\tisWithinDays = function(dateField) {\n\t\t\tvar sign = $tw.utils.sign(targetTimeStamp - (new Date(dateField)).setHours(0,0,0,0));\n\t\t\treturn sign === 0 || sign === dayIntervalSign;\n\t\t};\n\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(tiddler &amp;&amp; tiddler.fields[fieldName]) {\n\t\t\t\tif(!isWithinDays($tw.utils.parseDate(tiddler.fields[fieldName]))) {\n\t\t\t\t\tresults.push(title);\n\t\t\t\t}\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(tiddler &amp;&amp; tiddler.fields[fieldName]) {\n\t\t\t\tif(isWithinDays($tw.utils.parseDate(tiddler.fields[fieldName]))) {\n\t\t\t\t\tresults.push(title);\n\t\t\t\t}\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/days.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/each.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/each.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator that selects one tiddler for each unique value of the specified field.\nWith suffix \&quot;list\&quot;, selects all tiddlers that are values in a specified list field.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.each = function(source,operator,options) {\n\tvar results =[] ,\n\t\tvalue,values = {},\n\t\tfield = operator.operand || \&quot;title\&quot;;\n\tif(operator.suffix !== \&quot;list-item\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(tiddler) {\n\t\t\t\tvalue = (field === \&quot;title\&quot;) ? title : tiddler.getFieldString(field);\n\t\t\t\tif(!$tw.utils.hop(values,value)) {\n\t\t\t\t\tvalues[value] = true;\n\t\t\t\t\tresults.push(title);\n\t\t\t\t}\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(tiddler) {\n\t\t\t\t$tw.utils.each(\n\t\t\t\t\toptions.wiki.getTiddlerList(title,field),\n\t\t\t\t\tfunction(value) {\n\t\t\t\t\t\tif(!$tw.utils.hop(values,value)) {\n\t\t\t\t\t\t\tvalues[value] = true;\n\t\t\t\t\t\t\tresults.push(value);\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/each.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/eachday.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/eachday.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator that selects one tiddler for each unique day covered by the specified date field\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.eachday = function(source,operator,options) {\n\tvar results = [],\n\t\tvalues = [],\n\t\tfieldName = operator.operand || \&quot;modified\&quot;;\n\t// Function to convert a date/time to a date integer\n\tvar toDate = function(value) {\n\t\tvalue = (new Date(value)).setHours(0,0,0,0);\n\t\treturn value+0;\n\t};\n\tsource(function(tiddler,title) {\n\t\tif(tiddler &amp;&amp; tiddler.fields[fieldName]) {\n\t\t\tvar value = toDate($tw.utils.parseDate(tiddler.fields[fieldName]));\n\t\t\tif(values.indexOf(value) === -1) {\n\t\t\t\tvalues.push(value);\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t}\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/eachday.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/editiondescription.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/editiondescription.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the descriptions of the specified edition names\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.editiondescription = function(source,operator,options) {\n\tvar results = [],\n\t\teditionInfo = $tw.utils.getEditionInfo();\n\tif(editionInfo) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif($tw.utils.hop(editionInfo,title)) {\n\t\t\t\tresults.push(editionInfo[title].description || \&quot;\&quot;);\t\t\t\t\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/editiondescription.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/editions.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/editions.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the names of the available editions in this wiki\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.editions = function(source,operator,options) {\n\tvar results = [],\n\t\teditionInfo = $tw.utils.getEditionInfo();\n\tif(editionInfo) {\n\t\t$tw.utils.each(editionInfo,function(info,name) {\n\t\t\tresults.push(name);\n\t\t});\n\t}\n\tresults.sort();\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/editions.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/field.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/field.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for comparing fields for equality\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.field = function(source,operator,options) {\n\tvar results = [],\n\t\tfieldname = (operator.suffix || operator.operator || \&quot;title\&quot;).toLowerCase();\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tif(operator.regexp) {\n\t\t\tsource(function(tiddler,title) {\n\t\t\t\tif(tiddler) {\n\t\t\t\t\tvar text = tiddler.getFieldString(fieldname);\n\t\t\t\t\tif(text !== null &amp;&amp; !operator.regexp.exec(text)) {\n\t\t\t\t\t\tresults.push(title);\n\t\t\t\t\t}\n\t\t\t\t} else {\n\t\t\t\t\tresults.push(title);\n\t\t\t\t}\n\t\t\t});\n\t\t} else {\n\t\t\tsource(function(tiddler,title) {\n\t\t\t\tif(tiddler) {\n\t\t\t\t\tvar text = tiddler.getFieldString(fieldname);\n\t\t\t\t\tif(text !== null &amp;&amp; text !== operator.operand) {\n\t\t\t\t\t\tresults.push(title);\n\t\t\t\t\t}\n\t\t\t\t} else {\n\t\t\t\t\tresults.push(title);\n\t\t\t\t}\n\t\t\t});\n\t\t}\n\t} else {\n\t\tif(operator.regexp) {\n\t\t\tsource(function(tiddler,title) {\n\t\t\t\tif(tiddler) {\n\t\t\t\t\tvar text = tiddler.getFieldString(fieldname);\n\t\t\t\t\tif(text !== null &amp;&amp; !!operator.regexp.exec(text)) {\n\t\t\t\t\t\tresults.push(title);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t});\n\t\t} else {\n\t\t\tsource(function(tiddler,title) {\n\t\t\t\tif(tiddler) {\n\t\t\t\t\tvar text = tiddler.getFieldString(fieldname);\n\t\t\t\t\tif(text !== null &amp;&amp; text === operator.operand) {\n\t\t\t\t\t\tresults.push(title);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t});\n\t\t}\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/field.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/fields.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/fields.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the names of the fields on the selected tiddlers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.fields = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tif(tiddler) {\n\t\t\tfor(var fieldName in tiddler.fields) {\n\t\t\t\t$tw.utils.pushTop(results,fieldName);\n\t\t\t}\n\t\t}\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/fields.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/get.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/get.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for replacing tiddler titles by the value of the field specified in the operand.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.get = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tif(tiddler) {\n\t\t\tvar value = tiddler.getFieldString(operator.operand);\n\t\t\tif(value) {\n\t\t\t\tresults.push(value);\n\t\t\t}\n\t\t}\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/get.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/getindex.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/getindex.js\ntype: application/javascript\nmodule-type: filteroperator\n\nreturns the value at a given index of datatiddlers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.getindex = function(source,operator,options) {\n\tvar data,title,results = [];\n\tif(operator.operand){\n\t\tsource(function(tiddler,title) {\n\t\t\ttitle = tiddler ? tiddler.fields.title : title;\n\t\t\tdata = options.wiki.extractTiddlerDataItem(tiddler,operator.operand);\n\t\t\tif(data) {\n\t\t\t\tresults.push(data);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/getindex.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/has.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/has.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for checking if a tiddler has the specified field\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.has = function(source,operator,options) {\n\tvar results = [];\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(!tiddler || (tiddler &amp;&amp; (!$tw.utils.hop(tiddler.fields,operator.operand) || tiddler.fields[operator.operand] === \&quot;\&quot;))) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(tiddler &amp;&amp; $tw.utils.hop(tiddler.fields,operator.operand) &amp;&amp; tiddler.fields[operator.operand] !== \&quot;\&quot;) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/has.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/haschanged.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/haschanged.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator returns tiddlers from the list that have a non-zero changecount.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.haschanged = function(source,operator,options) {\n\tvar results = [];\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(options.wiki.getChangeCount(title) === 0) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(options.wiki.getChangeCount(title) &gt; 0) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/haschanged.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/indexes.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/indexes.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the indexes of a data tiddler\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.indexes = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tvar data = options.wiki.getTiddlerDataCached(title);\n\t\tif(data) {\n\t\t\t$tw.utils.pushTop(results,Object.keys(data));\n\t\t}\n\t});\n\tresults.sort();\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/indexes.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/is/current.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/is/current.js\ntype: application/javascript\nmodule-type: isfilteroperator\n\nFilter function for [is[current]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.current = function(source,prefix,options) {\n\tvar results = [],\n\t\tcurrTiddlerTitle = options.widget &amp;&amp; options.widget.getVariable(\&quot;currentTiddler\&quot;);\n\tif(prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(title !== currTiddlerTitle) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(title === currTiddlerTitle) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/is/current.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;isfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/is/image.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/is/image.js\ntype: application/javascript\nmodule-type: isfilteroperator\n\nFilter function for [is[image]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.image = function(source,prefix,options) {\n\tvar results = [];\n\tif(prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(!options.wiki.isImageTiddler(title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(options.wiki.isImageTiddler(title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/is/image.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;isfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/is/missing.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/is/missing.js\ntype: application/javascript\nmodule-type: isfilteroperator\n\nFilter function for [is[missing]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.missing = function(source,prefix,options) {\n\tvar results = [];\n\tif(prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(options.wiki.tiddlerExists(title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(!options.wiki.tiddlerExists(title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/is/missing.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;isfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/is/orphan.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/is/orphan.js\ntype: application/javascript\nmodule-type: isfilteroperator\n\nFilter function for [is[orphan]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.orphan = function(source,prefix,options) {\n\tvar results = [],\n\t\torphanTitles = options.wiki.getOrphanTitles();\n\tif(prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(orphanTitles.indexOf(title) === -1) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(orphanTitles.indexOf(title) !== -1) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/is/orphan.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;isfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/is/shadow.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/is/shadow.js\ntype: application/javascript\nmodule-type: isfilteroperator\n\nFilter function for [is[shadow]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.shadow = function(source,prefix,options) {\n\tvar results = [];\n\tif(prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(!options.wiki.isShadowTiddler(title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(options.wiki.isShadowTiddler(title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/is/shadow.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;isfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/is/system.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/is/system.js\ntype: application/javascript\nmodule-type: isfilteroperator\n\nFilter function for [is[system]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.system = function(source,prefix,options) {\n\tvar results = [];\n\tif(prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(!options.wiki.isSystemTiddler(title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(options.wiki.isSystemTiddler(title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/is/system.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;isfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/is/tag.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/is/tag.js\ntype: application/javascript\nmodule-type: isfilteroperator\n\nFilter function for [is[tag]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.tag = function(source,prefix,options) {\n\tvar results = [],\n\t\ttagMap = options.wiki.getTagMap();\n\tif(prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(!$tw.utils.hop(tagMap,title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif($tw.utils.hop(tagMap,title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/is/tag.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;isfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/is/tiddler.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/is/tiddler.js\ntype: application/javascript\nmodule-type: isfilteroperator\n\nFilter function for [is[tiddler]]\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.tiddler = function(source,prefix,options) {\n\tvar results = [];\n\tif(prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(!options.wiki.tiddlerExists(title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(options.wiki.tiddlerExists(title)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/is/tiddler.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;isfilteroperator&quot;
        },
        &quot;$:/core/modules/filters/is.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/is.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for checking tiddler properties\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar isFilterOperators;\n\nfunction getIsFilterOperators() {\n\tif(!isFilterOperators) {\n\t\tisFilterOperators = {};\n\t\t$tw.modules.applyMethods(\&quot;isfilteroperator\&quot;,isFilterOperators);\n\t}\n\treturn isFilterOperators;\n}\n\n/*\nExport our filter function\n*/\nexports.is = function(source,operator,options) {\n\t// Dispatch to the correct isfilteroperator\n\tvar isFilterOperators = getIsFilterOperators();\n\tvar isFilterOperator = isFilterOperators[operator.operand];\n\tif(isFilterOperator) {\n\t\treturn isFilterOperator(source,operator.prefix,options);\n\t} else {\n\t\treturn [\&quot;Filter Error: Unknown operand for the 'is' filter operator\&quot;];\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/is.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/limit.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/limit.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for chopping the results to a specified maximum number of entries\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.limit = function(source,operator,options) {\n\tvar results = [];\n\t// Convert to an array\n\tsource(function(tiddler,title) {\n\t\tresults.push(title);\n\t});\n\t// Slice the array if necessary\n\tvar limit = Math.min(results.length,parseInt(operator.operand,10));\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tresults = results.slice(-limit);\n\t} else {\n\t\tresults = results.slice(0,limit);\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/limit.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/links.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/links.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning all the links from a tiddler\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.links = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\t$tw.utils.pushTop(results,options.wiki.getTiddlerLinks(title));\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/links.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/list.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/list.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator returning the tiddlers whose title is listed in the operand tiddler\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.list = function(source,operator,options) {\n\tvar results = [],\n\t\ttr = $tw.utils.parseTextReference(operator.operand),\n\t\tcurrTiddlerTitle = options.widget &amp;&amp; options.widget.getVariable(\&quot;currentTiddler\&quot;),\n\t\tlist = options.wiki.getTiddlerList(tr.title || currTiddlerTitle,tr.field,tr.index);\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(list.indexOf(title) === -1) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tresults = list;\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/list.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/listed.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/listed.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator returning all tiddlers that have the selected tiddlers in a list\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.listed = function(source,operator,options) {\n\tvar field = operator.operand || \&quot;list\&quot;,\n\t\tresults = [];\n\tsource(function(tiddler,title) {\n\t\t$tw.utils.pushTop(results,options.wiki.findListingsOfTiddler(title,field));\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/listed.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/listops.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/listops.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operators for manipulating the current selection list\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nReverse list\n*/\nexports.reverse = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tresults.unshift(title);\n\t});\n\treturn results;\n};\n\n/*\nFirst entry/entries in list\n*/\nexports.first = function(source,operator,options) {\n\tvar count = parseInt(operator.operand) || 1,\n\t\tresults = [];\n\tsource(function(tiddler,title) {\n\t\tresults.push(title);\n\t});\n\treturn results.slice(0,count);\n};\n\n/*\nLast entry/entries in list\n*/\nexports.last = function(source,operator,options) {\n\tvar count = parseInt(operator.operand) || 1,\n\t\tresults = [];\n\tsource(function(tiddler,title) {\n\t\tresults.push(title);\n\t});\n\treturn results.slice(-count);\n};\n\n/*\nAll but the first entry/entries of the list\n*/\nexports.rest = function(source,operator,options) {\n\tvar count = parseInt(operator.operand) || 1,\n\t\tresults = [];\n\tsource(function(tiddler,title) {\n\t\tresults.push(title);\n\t});\n\treturn results.slice(count);\n};\nexports.butfirst = exports.rest;\nexports.bf = exports.rest;\n\n/*\nAll but the last entry/entries of the list\n*/\nexports.butlast = function(source,operator,options) {\n\tvar count = parseInt(operator.operand) || 1,\n\t\tresults = [];\n\tsource(function(tiddler,title) {\n\t\tresults.push(title);\n\t});\n\treturn results.slice(0,-count);\n};\nexports.bl = exports.butlast;\n\n/*\nThe nth member of the list\n*/\nexports.nth = function(source,operator,options) {\n\tvar count = parseInt(operator.operand) || 1,\n\t\tresults = [];\n\tsource(function(tiddler,title) {\n\t\tresults.push(title);\n\t});\n\treturn results.slice(count - 1,count);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/listops.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/modules.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/modules.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the titles of the modules of a given type in this wiki\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.modules = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\t$tw.utils.each($tw.modules.types[title],function(moduleInfo,moduleName) {\n\t\t\tresults.push(moduleName);\n\t\t});\n\t});\n\tresults.sort();\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/modules.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/moduletypes.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/moduletypes.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the names of the module types in this wiki\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.moduletypes = function(source,operator,options) {\n\tvar results = [];\n\t$tw.utils.each($tw.modules.types,function(moduleInfo,type) {\n\t\tresults.push(type);\n\t});\n\tresults.sort();\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/moduletypes.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/next.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/next.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator returning the tiddler whose title occurs next in the list supplied in the operand tiddler\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.next = function(source,operator,options) {\n\tvar results = [],\n\t\tlist = options.wiki.getTiddlerList(operator.operand);\n\tsource(function(tiddler,title) {\n\t\tvar match = list.indexOf(title);\n\t\t// increment match and then test if result is in range\n\t\tmatch++;\n\t\tif(match &gt; 0 &amp;&amp; match &lt; list.length) {\n\t\t\tresults.push(list[match]);\n\t\t}\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/next.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/plugintiddlers.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/plugintiddlers.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the titles of the shadow tiddlers within a plugin\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.plugintiddlers = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tvar pluginInfo = options.wiki.getPluginInfo(title) || options.wiki.getTiddlerDataCached(title,{tiddlers:[]});\n\t\tif(pluginInfo &amp;&amp; pluginInfo.tiddlers) {\n\t\t\t$tw.utils.each(pluginInfo.tiddlers,function(fields,title) {\n\t\t\t\tresults.push(title);\n\t\t\t});\n\t\t}\n\t});\n\tresults.sort();\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/plugintiddlers.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/prefix.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/prefix.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for checking if a title starts with a prefix\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.prefix = function(source,operator,options) {\n\tvar results = [];\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(title.substr(0,operator.operand.length) !== operator.operand) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(title.substr(0,operator.operand.length) === operator.operand) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/prefix.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/previous.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/previous.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator returning the tiddler whose title occurs immediately prior in the list supplied in the operand tiddler\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.previous = function(source,operator,options) {\n\tvar results = [],\n\t\tlist = options.wiki.getTiddlerList(operator.operand);\n\tsource(function(tiddler,title) {\n\t\tvar match = list.indexOf(title);\n\t\t// increment match and then test if result is in range\n\t\tmatch--;\n\t\tif(match &gt;= 0) {\n\t\t\tresults.push(list[match]);\n\t\t}\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/previous.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/regexp.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/regexp.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for regexp matching\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.regexp = function(source,operator,options) {\n\tvar results = [],\n\t\tfieldname = (operator.suffix || \&quot;title\&quot;).toLowerCase(),\n\t\tregexpString, regexp, flags = \&quot;\&quot;, match,\n\t\tgetFieldString = function(tiddler,title) {\n\t\t\tif(tiddler) {\n\t\t\t\treturn tiddler.getFieldString(fieldname);\n\t\t\t} else if(fieldname === \&quot;title\&quot;) {\n\t\t\t\treturn title;\n\t\t\t} else {\n\t\t\t\treturn null;\n\t\t\t}\n\t\t};\n\t// Process flags and construct regexp\n\tregexpString = operator.operand;\n\tmatch = /^\\(\\?([gim]+)\\)/.exec(regexpString);\n\tif(match) {\n\t\tflags = match[1];\n\t\tregexpString = regexpString.substr(match[0].length);\n\t} else {\n\t\tmatch = /\\(\\?([gim]+)\\)$/.exec(regexpString);\n\t\tif(match) {\n\t\t\tflags = match[1];\n\t\t\tregexpString = regexpString.substr(0,regexpString.length - match[0].length);\n\t\t}\n\t}\n\ttry {\n\t\tregexp = new RegExp(regexpString,flags);\n\t} catch(e) {\n\t\treturn [\&quot;\&quot; + e];\n\t}\n\t// Process the incoming tiddlers\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tvar text = getFieldString(tiddler,title);\n\t\t\tif(text !== null) {\n\t\t\t\tif(!regexp.exec(text)) {\n\t\t\t\t\tresults.push(title);\n\t\t\t\t}\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tvar text = getFieldString(tiddler,title);\n\t\t\tif(text !== null) {\n\t\t\t\tif(!!regexp.exec(text)) {\n\t\t\t\t\tresults.push(title);\n\t\t\t\t}\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/regexp.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/removeprefix.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/removeprefix.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for removing a prefix from each title in the list. Titles that do not start with the prefix are removed.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.removeprefix = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tif(title.substr(0,operator.operand.length) === operator.operand) {\n\t\t\tresults.push(title.substr(operator.operand.length));\n\t\t}\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/removeprefix.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/removesuffix.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/removesuffix.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for removing a suffix from each title in the list. Titles that do not end with the suffix are removed.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.removesuffix = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tif(title.substr(-operator.operand.length) === operator.operand) {\n\t\t\tresults.push(title.substr(0,title.length - operator.operand.length));\n\t\t}\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/removesuffix.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/sameday.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/sameday.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator that selects tiddlers with a modified date field on the same day as the provided value.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.sameday = function(source,operator,options) {\n\tvar results = [],\n\t\tfieldName = operator.suffix || \&quot;modified\&quot;,\n\t\ttargetDate = (new Date($tw.utils.parseDate(operator.operand))).setHours(0,0,0,0);\n\t// Function to convert a date/time to a date integer\n\tvar isSameDay = function(dateField) {\n\t\t\treturn (new Date(dateField)).setHours(0,0,0,0) === targetDate;\n\t\t};\n\tsource(function(tiddler,title) {\n\t\tif(tiddler &amp;&amp; tiddler.fields[fieldName]) {\n\t\t\tif(isSameDay($tw.utils.parseDate(tiddler.fields[fieldName]))) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t}\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/sameday.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/search.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/search.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for searching for the text in the operand tiddler\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.search = function(source,operator,options) {\n\tvar invert = operator.prefix === \&quot;!\&quot;;\n\tif(operator.suffix) {\n\t\treturn options.wiki.search(operator.operand,{\n\t\t\tsource: source,\n\t\t\tinvert: invert,\n\t\t\tfield: operator.suffix\n\t\t});\n\t} else {\n\t\treturn options.wiki.search(operator.operand,{\n\t\t\tsource: source,\n\t\t\tinvert: invert\n\t\t});\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/search.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/shadowsource.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/shadowsource.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the source plugins for shadow tiddlers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.shadowsource = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tvar source = options.wiki.getShadowSource(title);\n\t\tif(source) {\n\t\t\t$tw.utils.pushTop(results,source);\n\t\t}\n\t});\n\tresults.sort();\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/shadowsource.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/sort.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/sort.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for sorting\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.sort = function(source,operator,options) {\n\tvar results = prepare_results(source);\n\toptions.wiki.sortTiddlers(results,operator.operand || \&quot;title\&quot;,operator.prefix === \&quot;!\&quot;,false,false);\n\treturn results;\n};\n\nexports.nsort = function(source,operator,options) {\n\tvar results = prepare_results(source);\n\toptions.wiki.sortTiddlers(results,operator.operand || \&quot;title\&quot;,operator.prefix === \&quot;!\&quot;,false,true);\n\treturn results;\n};\n\nexports.sortcs = function(source,operator,options) {\n\tvar results = prepare_results(source);\n\toptions.wiki.sortTiddlers(results,operator.operand || \&quot;title\&quot;,operator.prefix === \&quot;!\&quot;,true,false);\n\treturn results;\n};\n\nexports.nsortcs = function(source,operator,options) {\n\tvar results = prepare_results(source);\n\toptions.wiki.sortTiddlers(results,operator.operand || \&quot;title\&quot;,operator.prefix === \&quot;!\&quot;,true,true);\n\treturn results;\n};\n\nvar prepare_results = function (source) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tresults.push(title);\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/sort.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/splitbefore.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/splitbefore.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator that splits each result on the first occurance of the specified separator and returns the unique values.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.splitbefore = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\tvar parts = title.split(operator.operand);\n\t\tif(parts.length === 1) {\n\t\t\t$tw.utils.pushTop(results,parts[0]);\n\t\t} else {\n\t\t\t$tw.utils.pushTop(results,parts[0] + operator.operand);\n\t\t}\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/splitbefore.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/storyviews.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/storyviews.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the names of the story views in this wiki\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.storyviews = function(source,operator,options) {\n\tvar results = [],\n\t\tstoryviews = {};\n\t$tw.modules.applyMethods(\&quot;storyview\&quot;,storyviews);\n\t$tw.utils.each(storyviews,function(info,name) {\n\t\tresults.push(name);\n\t});\n\tresults.sort();\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/storyviews.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/suffix.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/suffix.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for checking if a title ends with a suffix\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.suffix = function(source,operator,options) {\n\tvar results = [];\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(title.substr(-operator.operand.length) !== operator.operand) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(title.substr(-operator.operand.length) === operator.operand) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/suffix.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/tag.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/tag.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for checking for the presence of a tag\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.tag = function(source,operator,options) {\n\tvar results = [];\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(tiddler &amp;&amp; !tiddler.hasTag(operator.operand)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(tiddler &amp;&amp; tiddler.hasTag(operator.operand)) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t\tresults = options.wiki.sortByList(results,operator.operand);\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/tag.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/tagging.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/tagging.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator returning all tiddlers that are tagged with the selected tiddlers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.tagging = function(source,operator,options) {\n\tvar results = [];\n\tsource(function(tiddler,title) {\n\t\t$tw.utils.pushTop(results,options.wiki.getTiddlersWithTag(title));\n\t});\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/tagging.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/tags.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/tags.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator returning all the tags of the selected tiddlers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.tags = function(source,operator,options) {\n\tvar tags = {};\n\tsource(function(tiddler,title) {\n\t\tvar t, length;\n\t\tif(tiddler &amp;&amp; tiddler.fields.tags) {\n\t\t\tfor(t=0, length=tiddler.fields.tags.length; t&lt;length; t++) {\n\t\t\t\ttags[tiddler.fields.tags[t]] = true;\n\t\t\t}\n\t\t}\n\t});\n\treturn Object.keys(tags);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/tags.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/title.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/title.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for comparing title fields for equality\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.title = function(source,operator,options) {\n\tvar results = [];\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(tiddler &amp;&amp; tiddler.fields.title !== operator.operand) {\n\t\t\t\tresults.push(title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tresults.push(operator.operand);\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/title.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/untagged.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/untagged.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator returning all the selected tiddlers that are untagged\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.untagged = function(source,operator,options) {\n\tvar results = [];\n\tif(operator.prefix === \&quot;!\&quot;) {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(tiddler &amp;&amp; $tw.utils.isArray(tiddler.fields.tags) &amp;&amp; tiddler.fields.tags.length &gt; 0) {\n\t\t\t\t$tw.utils.pushTop(results,title);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tsource(function(tiddler,title) {\n\t\t\tif(!tiddler || !tiddler.hasField(\&quot;tags\&quot;) || ($tw.utils.isArray(tiddler.fields.tags) &amp;&amp; tiddler.fields.tags.length === 0)) {\n\t\t\t\t$tw.utils.pushTop(results,title);\n\t\t\t}\n\t\t});\n\t}\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/untagged.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/wikiparserrules.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/wikiparserrules.js\ntype: application/javascript\nmodule-type: filteroperator\n\nFilter operator for returning the names of the wiki parser rules in this wiki\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nExport our filter function\n*/\nexports.wikiparserrules = function(source,operator,options) {\n\tvar results = [];\n\t$tw.utils.each($tw.modules.types.wikirule,function(mod) {\n\t\tvar exp = mod.exports;\n\t\tif(exp.types[operator.operand]) {\n\t\t\tresults.push(exp.name);\n\t\t}\n\t});\n\tresults.sort();\n\treturn results;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/wikiparserrules.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters/x-listops.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters/x-listops.js\ntype: application/javascript\nmodule-type: filteroperator\n\nExtended filter operators to manipulate the current list.\n\n\\*/\n(function () {\n\n    /*jslint node: true, browser: true */\n    /*global $tw: false */\n    \&quot;use strict\&quot;;\n\n    /*\n    Fetch titles from the current list\n    */\n    var prepare_results = function (source) {\n    var results = [];\n        source(function (tiddler, title) {\n            results.push(title);\n        });\n        return results;\n    };\n\n    /*\n    Moves a number of items from the tail of the current list before the item named in the operand\n    */\n    exports.putbefore = function (source, operator) {\n        var results = prepare_results(source),\n            index = results.indexOf(operator.operand),\n            count = parseInt(operator.suffix) || 1;\n        return (index === -1) ?\n            results.slice(0, -1) :\n            results.slice(0, index).concat(results.slice(-count)).concat(results.slice(index, -count));\n    };\n\n    /*\n    Moves a number of items from the tail of the current list after the item named in the operand\n    */\n    exports.putafter = function (source, operator) {\n        var results = prepare_results(source),\n            index = results.indexOf(operator.operand),\n            count = parseInt(operator.suffix) || 1;\n        return (index === -1) ?\n            results.slice(0, -1) :\n            results.slice(0, index + 1).concat(results.slice(-count)).concat(results.slice(index + 1, -count));\n    };\n\n    /*\n    Replaces the item named in the operand with a number of items from the tail of the current list\n    */\n    exports.replace = function (source, operator) {\n        var results = prepare_results(source),\n            index = results.indexOf(operator.operand),\n            count = parseInt(operator.suffix) || 1;\n        return (index === -1) ?\n            results.slice(0, -count) :\n            results.slice(0, index).concat(results.slice(-count)).concat(results.slice(index + 1, -count));\n    };\n\n    /*\n    Moves a number of items from the tail of the current list to the head of the list\n    */\n    exports.putfirst = function (source, operator) {\n        var results = prepare_results(source),\n            count = parseInt(operator.suffix) || 1;\n        return results.slice(-count).concat(results.slice(0, -count));\n    };\n\n    /*\n    Moves a number of items from the head of the current list to the tail of the list\n    */\n    exports.putlast = function (source, operator) {\n        var results = prepare_results(source),\n            count = parseInt(operator.suffix) || 1;\n        return results.slice(count).concat(results.slice(0, count));\n    };\n\n    /*\n    Moves the item named in the operand a number of places forward or backward in the list\n    */\n    exports.move = function (source, operator) {\n        var results = prepare_results(source),\n            index = results.indexOf(operator.operand),\n            count = parseInt(operator.suffix) || 1,\n            marker = results.splice(index, 1);\n        return results.slice(0, index + count).concat(marker).concat(results.slice(index + count));\n    };\n\n    /*\n    Returns the items from the current list that are after the item named in the operand\n    */\n    exports.allafter = function (source, operator) {\n        var results = prepare_results(source),\n            index = results.indexOf(operator.operand);\n        return (index === -1 || index &gt; (results.length - 2)) ? [] :\n            (operator.suffix) ? results.slice(index) :\n            results.slice(index + 1);\n    };\n\n    /*\n    Returns the items from the current list that are before the item named in the operand\n    */\n    exports.allbefore = function (source, operator) {\n        var results = prepare_results(source),\n            index = results.indexOf(operator.operand);\n        return (index &lt;= 0) ? [] :\n            (operator.suffix) ? results.slice(0, index + 1) :\n            results.slice(0, index);\n    };\n\n    /*\n    Appends the items listed in the operand array to the tail of the current list\n    */\n    exports.append = function (source, operator) {\n        var append = $tw.utils.parseStringArray(operator.operand, \&quot;true\&quot;),\n            results = prepare_results(source),\n            count = parseInt(operator.suffix) || append.length;\n        return (append.length === 0) ? results :\n            (operator.prefix) ? results.concat(append.slice(-count)) :\n            results.concat(append.slice(0, count));\n    };\n\n    /*\n    Prepends the items listed in the operand array to the head of the current list\n    */\n    exports.prepend = function (source, operator) {\n        var prepend = $tw.utils.parseStringArray(operator.operand, \&quot;true\&quot;),\n            results = prepare_results(source),\n            count = parseInt(operator.suffix) || prepend.length;\n        return (prepend.length === 0) ? results :\n            (operator.prefix) ? prepend.slice(-count).concat(results) :\n            prepend.slice(0, count).concat(results);\n    };\n\n    /*\n    Returns all items from the current list except the items listed in the operand array\n    */\n    exports.remove = function (source, operator) {\n        var array = $tw.utils.parseStringArray(operator.operand, \&quot;true\&quot;),\n            results = prepare_results(source),\n            count = parseInt(operator.suffix) || array.length,\n            p,\n            len,\n            index;\n        len = array.length - 1;\n        for (p = 0; p &lt; count; ++p) {\n            if (operator.prefix) {\n                index = results.indexOf(array[len - p]);\n            } else {\n                index = results.indexOf(array[p]);\n            }\n            if (index !== -1) {\n                results.splice(index, 1);\n            }\n        }\n        return results;\n    };\n\n    /*\n    Returns all items from the current list sorted in the order of the items in the operand array\n    */\n    exports.sortby = function (source, operator) {\n        var results = prepare_results(source);\n        if (!results || results.length &lt; 2) {\n            return results;\n        }\n        var lookup = $tw.utils.parseStringArray(operator.operand, \&quot;true\&quot;);\n        results.sort(function (a, b) {\n            return lookup.indexOf(a) - lookup.indexOf(b);\n        });\n        return results;\n    };\n\n    /*\n    Removes all duplicate items from the current list\n    */\n    exports.unique = function (source, operator) {\n        var results = prepare_results(source);\n        var set = results.reduce(function (a, b) {\n            if (a.indexOf(b) &lt; 0) {\n                a.push(b);\n            }\n            return a;\n        }, []);\n        return set;\n    };\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters/x-listops.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;filteroperator&quot;
        },
        &quot;$:/core/modules/filters.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/filters.js\ntype: application/javascript\nmodule-type: wikimethod\n\nAdds tiddler filtering methods to the $tw.Wiki object.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nParses an operation (i.e. a run) within a filter string\n\toperators: Array of array of operator nodes into which results should be inserted\n\tfilterString: filter string\n\tp: start position within the string\nReturns the new start position, after the parsed operation\n*/\nfunction parseFilterOperation(operators,filterString,p) {\n\tvar operator, operand, bracketPos, curlyBracketPos;\n\t// Skip the starting square bracket\n\tif(filterString.charAt(p++) !== \&quot;[\&quot;) {\n\t\tthrow \&quot;Missing [ in filter expression\&quot;;\n\t}\n\t// Process each operator in turn\n\tdo {\n\t\toperator = {};\n\t\t// Check for an operator prefix\n\t\tif(filterString.charAt(p) === \&quot;!\&quot;) {\n\t\t\toperator.prefix = filterString.charAt(p++);\n\t\t}\n\t\t// Get the operator name\n\t\tvar nextBracketPos = filterString.substring(p).search(/[\\[\\{&lt;\\/]/);\n\t\tif(nextBracketPos === -1) {\n\t\t\tthrow \&quot;Missing [ in filter expression\&quot;;\n\t\t}\n\t\tnextBracketPos += p;\n\t\tvar bracket = filterString.charAt(nextBracketPos);\n\t\toperator.operator = filterString.substring(p,nextBracketPos);\n\t\t\n\t\t// Any suffix?\n\t\tvar colon = operator.operator.indexOf(':');\n\t\tif(colon &gt; -1) {\n\t\t\toperator.suffix = operator.operator.substring(colon + 1);\n\t\t\toperator.operator = operator.operator.substring(0,colon) || \&quot;field\&quot;;\n\t\t}\n\t\t// Empty operator means: title\n\t\telse if(operator.operator === \&quot;\&quot;) {\n\t\t\toperator.operator = \&quot;title\&quot;;\n\t\t}\n\n\t\tp = nextBracketPos + 1;\n\t\tswitch (bracket) {\n\t\t\tcase \&quot;{\&quot;: // Curly brackets\n\t\t\t\toperator.indirect = true;\n\t\t\t\tnextBracketPos = filterString.indexOf(\&quot;}\&quot;,p);\n\t\t\t\tbreak;\n\t\t\tcase \&quot;[\&quot;: // Square brackets\n\t\t\t\tnextBracketPos = filterString.indexOf(\&quot;]\&quot;,p);\n\t\t\t\tbreak;\n\t\t\tcase \&quot;&lt;\&quot;: // Angle brackets\n\t\t\t\toperator.variable = true;\n\t\t\t\tnextBracketPos = filterString.indexOf(\&quot;&gt;\&quot;,p);\n\t\t\t\tbreak;\n\t\t\tcase \&quot;/\&quot;: // regexp brackets\n\t\t\t\tvar rex = /^((?:[^\\\\\\/]*|\\\\.)*)\\/(?:\\(([mygi]+)\\))?/g,\n\t\t\t\t\trexMatch = rex.exec(filterString.substring(p));\n\t\t\t\tif(rexMatch) {\n\t\t\t\t\toperator.regexp = new RegExp(rexMatch[1], rexMatch[2]);\n// DEPRECATION WARNING\nconsole.log(\&quot;WARNING: Filter\&quot;,operator.operator,\&quot;has a deprecated regexp operand\&quot;,operator.regexp);\n\t\t\t\t\tnextBracketPos = p + rex.lastIndex - 1;\n\t\t\t\t}\n\t\t\t\telse {\n\t\t\t\t\tthrow \&quot;Unterminated regular expression in filter expression\&quot;;\n\t\t\t\t}\n\t\t\t\tbreak;\n\t\t}\n\t\t\n\t\tif(nextBracketPos === -1) {\n\t\t\tthrow \&quot;Missing closing bracket in filter expression\&quot;;\n\t\t}\n\t\tif(!operator.regexp) {\n\t\t\toperator.operand = filterString.substring(p,nextBracketPos);\n\t\t}\n\t\tp = nextBracketPos + 1;\n\t\t\t\n\t\t// Push this operator\n\t\toperators.push(operator);\n\t} while(filterString.charAt(p) !== \&quot;]\&quot;);\n\t// Skip the ending square bracket\n\tif(filterString.charAt(p++) !== \&quot;]\&quot;) {\n\t\tthrow \&quot;Missing ] in filter expression\&quot;;\n\t}\n\t// Return the parsing position\n\treturn p;\n}\n\n/*\nParse a filter string\n*/\nexports.parseFilter = function(filterString) {\n\tfilterString = filterString || \&quot;\&quot;;\n\tvar results = [], // Array of arrays of operator nodes {operator:,operand:}\n\t\tp = 0, // Current position in the filter string\n\t\tmatch;\n\tvar whitespaceRegExp = /(\\s+)/mg,\n\t\toperandRegExp = /((?:\\+|\\-)?)(?:(\\[)|(?:\&quot;([^\&quot;]*)\&quot;)|(?:'([^']*)')|([^\\s\\[\\]]+))/mg;\n\twhile(p &lt; filterString.length) {\n\t\t// Skip any whitespace\n\t\twhitespaceRegExp.lastIndex = p;\n\t\tmatch = whitespaceRegExp.exec(filterString);\n\t\tif(match &amp;&amp; match.index === p) {\n\t\t\tp = p + match[0].length;\n\t\t}\n\t\t// Match the start of the operation\n\t\tif(p &lt; filterString.length) {\n\t\t\toperandRegExp.lastIndex = p;\n\t\t\tmatch = operandRegExp.exec(filterString);\n\t\t\tif(!match || match.index !== p) {\n\t\t\t\tthrow \&quot;Syntax error in filter expression\&quot;;\n\t\t\t}\n\t\t\tvar operation = {\n\t\t\t\tprefix: \&quot;\&quot;,\n\t\t\t\toperators: []\n\t\t\t};\n\t\t\tif(match[1]) {\n\t\t\t\toperation.prefix = match[1];\n\t\t\t\tp++;\n\t\t\t}\n\t\t\tif(match[2]) { // Opening square bracket\n\t\t\t\tp = parseFilterOperation(operation.operators,filterString,p);\n\t\t\t} else {\n\t\t\t\tp = match.index + match[0].length;\n\t\t\t}\n\t\t\tif(match[3] || match[4] || match[5]) { // Double quoted string, single quoted string or unquoted title\n\t\t\t\toperation.operators.push(\n\t\t\t\t\t{operator: \&quot;title\&quot;, operand: match[3] || match[4] || match[5]}\n\t\t\t\t);\n\t\t\t}\n\t\t\tresults.push(operation);\n\t\t}\n\t}\n\treturn results;\n};\n\nexports.getFilterOperators = function() {\n\tif(!this.filterOperators) {\n\t\t$tw.Wiki.prototype.filterOperators = {};\n\t\t$tw.modules.applyMethods(\&quot;filteroperator\&quot;,this.filterOperators);\n\t}\n\treturn this.filterOperators;\n};\n\nexports.filterTiddlers = function(filterString,widget,source) {\n\tvar fn = this.compileFilter(filterString);\n\treturn fn.call(this,source,widget);\n};\n\n/*\nCompile a filter into a function with the signature fn(source,widget) where:\nsource: an iterator function for the source tiddlers, called source(iterator), where iterator is called as iterator(tiddler,title)\nwidget: an optional widget node for retrieving the current tiddler etc.\n*/\nexports.compileFilter = function(filterString) {\n\tvar filterParseTree;\n\ttry {\n\t\tfilterParseTree = this.parseFilter(filterString);\n\t} catch(e) {\n\t\treturn function(source,widget) {\n\t\t\treturn [\&quot;Filter error: \&quot; + e];\n\t\t};\n\t}\n\t// Get the hashmap of filter operator functions\n\tvar filterOperators = this.getFilterOperators();\n\t// Assemble array of functions, one for each operation\n\tvar operationFunctions = [];\n\t// Step through the operations\n\tvar self = this;\n\t$tw.utils.each(filterParseTree,function(operation) {\n\t\t// Create a function for the chain of operators in the operation\n\t\tvar operationSubFunction = function(source,widget) {\n\t\t\tvar accumulator = source,\n\t\t\t\tresults = [],\n\t\t\t\tcurrTiddlerTitle = widget &amp;&amp; widget.getVariable(\&quot;currentTiddler\&quot;);\n\t\t\t$tw.utils.each(operation.operators,function(operator) {\n\t\t\t\tvar operand = operator.operand,\n\t\t\t\t\toperatorFunction;\n\t\t\t\tif(!operator.operator) {\n\t\t\t\t\toperatorFunction = filterOperators.title;\n\t\t\t\t} else if(!filterOperators[operator.operator]) {\n\t\t\t\t\toperatorFunction = filterOperators.field;\n\t\t\t\t} else {\n\t\t\t\t\toperatorFunction = filterOperators[operator.operator];\n\t\t\t\t}\n\t\t\t\tif(operator.indirect) {\n\t\t\t\t\toperand = self.getTextReference(operator.operand,\&quot;\&quot;,currTiddlerTitle);\n\t\t\t\t}\n\t\t\t\tif(operator.variable) {\n\t\t\t\t\toperand = widget.getVariable(operator.operand,{defaultValue: \&quot;\&quot;});\n\t\t\t\t}\n\t\t\t\t// Invoke the appropriate filteroperator module\n\t\t\t\tresults = operatorFunction(accumulator,{\n\t\t\t\t\t\t\toperator: operator.operator,\n\t\t\t\t\t\t\toperand: operand,\n\t\t\t\t\t\t\tprefix: operator.prefix,\n\t\t\t\t\t\t\tsuffix: operator.suffix,\n\t\t\t\t\t\t\tregexp: operator.regexp\n\t\t\t\t\t\t},{\n\t\t\t\t\t\t\twiki: self,\n\t\t\t\t\t\t\twidget: widget\n\t\t\t\t\t\t});\n\t\t\t\tif($tw.utils.isArray(results)) {\n\t\t\t\t\taccumulator = self.makeTiddlerIterator(results);\n\t\t\t\t} else {\n\t\t\t\t\taccumulator = results;\n\t\t\t\t}\n\t\t\t});\n\t\t\tif($tw.utils.isArray(results)) {\n\t\t\t\treturn results;\n\t\t\t} else {\n\t\t\t\tvar resultArray = [];\n\t\t\t\tresults(function(tiddler,title) {\n\t\t\t\t\tresultArray.push(title);\n\t\t\t\t});\n\t\t\t\treturn resultArray;\n\t\t\t}\n\t\t};\n\t\t// Wrap the operator functions in a wrapper function that depends on the prefix\n\t\toperationFunctions.push((function() {\n\t\t\tswitch(operation.prefix || \&quot;\&quot;) {\n\t\t\t\tcase \&quot;\&quot;: // No prefix means that the operation is unioned into the result\n\t\t\t\t\treturn function(results,source,widget) {\n\t\t\t\t\t\t$tw.utils.pushTop(results,operationSubFunction(source,widget));\n\t\t\t\t\t};\n\t\t\t\tcase \&quot;-\&quot;: // The results of this operation are removed from the main result\n\t\t\t\t\treturn function(results,source,widget) {\n\t\t\t\t\t\t$tw.utils.removeArrayEntries(results,operationSubFunction(source,widget));\n\t\t\t\t\t};\n\t\t\t\tcase \&quot;+\&quot;: // This operation is applied to the main results so far\n\t\t\t\t\treturn function(results,source,widget) {\n\t\t\t\t\t\t// This replaces all the elements of the array, but keeps the actual array so that references to it are preserved\n\t\t\t\t\t\tsource = self.makeTiddlerIterator(results);\n\t\t\t\t\t\tresults.splice(0,results.length);\n\t\t\t\t\t\t$tw.utils.pushTop(results,operationSubFunction(source,widget));\n\t\t\t\t\t};\n\t\t\t}\n\t\t})());\n\t});\n\t// Return a function that applies the operations to a source iterator of tiddler titles\n\treturn $tw.perf.measure(\&quot;filter\&quot;,function filterFunction(source,widget) {\n\t\tif(!source) {\n\t\t\tsource = self.each;\n\t\t} else if(typeof source === \&quot;object\&quot;) { // Array or hashmap\n\t\t\tsource = self.makeTiddlerIterator(source);\n\t\t}\n\t\tvar results = [];\n\t\t$tw.utils.each(operationFunctions,function(operationFunction) {\n\t\t\toperationFunction(results,source,widget);\n\t\t});\n\t\treturn results;\n\t});\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/filters.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikimethod&quot;
        },
        &quot;$:/core/modules/info/platform.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/info/platform.js\ntype: application/javascript\nmodule-type: info\n\nInitialise basic platform $:/info/ tiddlers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.getInfoTiddlerFields = function() {\n\tvar mapBoolean = function(value) {return value ? \&quot;yes\&quot; : \&quot;no\&quot;;},\n\t\tinfoTiddlerFields = [];\n\t// Basics\n\tinfoTiddlerFields.push({title: \&quot;$:/info/browser\&quot;, text: mapBoolean(!!$tw.browser)});\n\tinfoTiddlerFields.push({title: \&quot;$:/info/node\&quot;, text: mapBoolean(!!$tw.node)});\n\treturn infoTiddlerFields;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/info/platform.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;info&quot;
        },
        &quot;$:/core/modules/language.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/language.js\ntype: application/javascript\nmodule-type: global\n\nThe $tw.Language() manages translateable strings\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nCreate an instance of the language manager. Options include:\nwiki: wiki from which to retrieve translation tiddlers\n*/\nfunction Language(options) {\n\toptions = options || \&quot;\&quot;;\n\tthis.wiki = options.wiki || $tw.wiki;\n}\n\n/*\nReturn a wikified translateable string. The title is automatically prefixed with \&quot;$:/language/\&quot;\nOptions include:\nvariables: optional hashmap of variables to supply to the language wikification\n*/\nLanguage.prototype.getString = function(title,options) {\n\toptions = options || {};\n\ttitle = \&quot;$:/language/\&quot; + title;\n\treturn this.wiki.renderTiddler(\&quot;text/plain\&quot;,title,{variables: options.variables});\n};\n\n/*\nReturn a raw, unwikified translateable string. The title is automatically prefixed with \&quot;$:/language/\&quot;\n*/\nLanguage.prototype.getRawString = function(title) {\n\ttitle = \&quot;$:/language/\&quot; + title;\n\treturn this.wiki.getTiddlerText(title);\n};\n\nexports.Language = Language;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/language.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;global&quot;
        },
        &quot;$:/core/modules/macros/changecount.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/macros/changecount.js\ntype: application/javascript\nmodule-type: macro\n\nMacro to return the changecount for the current tiddler\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInformation about this macro\n*/\n\nexports.name = \&quot;changecount\&quot;;\n\nexports.params = [];\n\n/*\nRun the macro\n*/\nexports.run = function() {\n\treturn this.wiki.getChangeCount(this.getVariable(\&quot;currentTiddler\&quot;)) + \&quot;\&quot;;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/macros/changecount.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;macro&quot;
        },
        &quot;$:/core/modules/macros/contrastcolour.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/macros/contrastcolour.js\ntype: application/javascript\nmodule-type: macro\n\nMacro to choose which of two colours has the highest contrast with a base colour\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInformation about this macro\n*/\n\nexports.name = \&quot;contrastcolour\&quot;;\n\nexports.params = [\n\t{name: \&quot;target\&quot;},\n\t{name: \&quot;fallbackTarget\&quot;},\n\t{name: \&quot;colourA\&quot;},\n\t{name: \&quot;colourB\&quot;}\n];\n\n/*\nRun the macro\n*/\nexports.run = function(target,fallbackTarget,colourA,colourB) {\n\tvar rgbTarget = $tw.utils.parseCSSColor(target) || $tw.utils.parseCSSColor(fallbackTarget);\n\tif(!rgbTarget) {\n\t\treturn colourA;\n\t}\n\tvar rgbColourA = $tw.utils.parseCSSColor(colourA),\n\t\trgbColourB = $tw.utils.parseCSSColor(colourB);\n\tif(rgbColourA &amp;&amp; !rgbColourB) {\n\t\treturn rgbColourA;\n\t}\n\tif(rgbColourB &amp;&amp; !rgbColourA) {\n\t\treturn rgbColourB;\n\t}\n\tif(!rgbColourA &amp;&amp; !rgbColourB) {\n\t\t// If neither colour is readable, return a crude inverse of the target\n\t\treturn [255 - rgbTarget[0],255 - rgbTarget[1],255 - rgbTarget[2],rgbTarget[3]];\n\t}\n\t// Colour brightness formula derived from http://www.w3.org/WAI/ER/WD-AERT/#color-contrast\n\tvar brightnessTarget = rgbTarget[0] * 0.299 + rgbTarget[1] * 0.587 + rgbTarget[2] * 0.114,\n\t\tbrightnessA = rgbColourA[0] * 0.299 + rgbColourA[1] * 0.587 + rgbColourA[2] * 0.114,\n\t\tbrightnessB = rgbColourB[0] * 0.299 + rgbColourB[1] * 0.587 + rgbColourB[2] * 0.114;\n\treturn Math.abs(brightnessTarget - brightnessA) &gt; Math.abs(brightnessTarget - brightnessB) ? colourA : colourB;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/macros/contrastcolour.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;macro&quot;
        },
        &quot;$:/core/modules/macros/csvtiddlers.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/macros/csvtiddlers.js\ntype: application/javascript\nmodule-type: macro\n\nMacro to output tiddlers matching a filter to CSV\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInformation about this macro\n*/\n\nexports.name = \&quot;csvtiddlers\&quot;;\n\nexports.params = [\n\t{name: \&quot;filter\&quot;},\n\t{name: \&quot;format\&quot;},\n];\n\n/*\nRun the macro\n*/\nexports.run = function(filter,format) {\n\tvar self = this,\n\t\ttiddlers = this.wiki.filterTiddlers(filter),\n\t\ttiddler,\n\t\tfields = [],\n\t\tt,f;\n\t// Collect all the fields\n\tfor(t=0;t&lt;tiddlers.length; t++) {\n\t\ttiddler = this.wiki.getTiddler(tiddlers[t]);\n\t\tfor(f in tiddler.fields) {\n\t\t\tif(fields.indexOf(f) === -1) {\n\t\t\t\tfields.push(f);\n\t\t\t}\n\t\t}\n\t}\n\t// Sort the fields and bring the standard ones to the front\n\tfields.sort();\n\t\&quot;title text modified modifier created creator\&quot;.split(\&quot; \&quot;).reverse().forEach(function(value,index) {\n\t\tvar p = fields.indexOf(value);\n\t\tif(p !== -1) {\n\t\t\tfields.splice(p,1);\n\t\t\tfields.unshift(value)\n\t\t}\n\t});\n\t// Output the column headings\n\tvar output = [], row = [];\n\tfields.forEach(function(value) {\n\t\trow.push(quoteAndEscape(value))\n\t});\n\toutput.push(row.join(\&quot;,\&quot;));\n\t// Output each tiddler\n\tfor(var t=0;t&lt;tiddlers.length; t++) {\n\t\trow = [];\n\t\ttiddler = this.wiki.getTiddler(tiddlers[t]);\n\t\t\tfor(f=0; f&lt;fields.length; f++) {\n\t\t\t\trow.push(quoteAndEscape(tiddler ? tiddler.getFieldString(fields[f]) || \&quot;\&quot; : \&quot;\&quot;));\n\t\t\t}\n\t\toutput.push(row.join(\&quot;,\&quot;));\n\t}\n\treturn output.join(\&quot;\\n\&quot;);\n};\n\nfunction quoteAndEscape(value) {\n\treturn \&quot;\\\&quot;\&quot; + value.replace(/\&quot;/mg,\&quot;\\\&quot;\\\&quot;\&quot;) + \&quot;\\\&quot;\&quot;;\n}\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/macros/csvtiddlers.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;macro&quot;
        },
        &quot;$:/core/modules/macros/dumpvariables.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/macros/dumpvariables.js\ntype: application/javascript\nmodule-type: macro\n\nMacro to dump all active variable values\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInformation about this macro\n*/\n\nexports.name = \&quot;dumpvariables\&quot;;\n\nexports.params = [\n];\n\n/*\nRun the macro\n*/\nexports.run = function() {\n\tvar output = [\&quot;|!Variable |!Value |\&quot;],\n\t\tvariables = [], variable;\n\tfor(variable in this.variables) {\n\t\tvariables.push(variable);\n\t}\n\tvariables.sort();\n\tfor(var index=0; index&lt;variables.length; index++) {\n\t\tvar variable = variables[index];\n\t\toutput.push(\&quot;|\&quot; + variable + \&quot; |&lt;input size=50 value=&lt;&lt;\&quot; + variable + \&quot;&gt;&gt;/&gt; |\&quot;)\n\t}\n\treturn output.join(\&quot;\\n\&quot;);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/macros/dumpvariables.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;macro&quot;
        },
        &quot;$:/core/modules/macros/jsontiddlers.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/macros/jsontiddlers.js\ntype: application/javascript\nmodule-type: macro\n\nMacro to output tiddlers matching a filter to JSON\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInformation about this macro\n*/\n\nexports.name = \&quot;jsontiddlers\&quot;;\n\nexports.params = [\n\t{name: \&quot;filter\&quot;}\n];\n\n/*\nRun the macro\n*/\nexports.run = function(filter) {\n\tvar tiddlers = this.wiki.filterTiddlers(filter),\n\t\tdata = [];\n\tfor(var t=0;t&lt;tiddlers.length; t++) {\n\t\tvar tiddler = this.wiki.getTiddler(tiddlers[t]);\n\t\tif(tiddler) {\n\t\t\tvar fields = new Object();\n\t\t\tfor(var field in tiddler.fields) {\n\t\t\t\tfields[field] = tiddler.getFieldString(field);\n\t\t\t}\n\t\t\tdata.push(fields);\n\t\t}\n\t}\n\treturn JSON.stringify(data,null,$tw.config.preferences.jsonSpaces);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/macros/jsontiddlers.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;macro&quot;
        },
        &quot;$:/core/modules/macros/makedatauri.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/macros/makedatauri.js\ntype: application/javascript\nmodule-type: macro\n\nMacro to convert the content of a tiddler to a data URI\n\n&lt;&lt;makedatauri text:\&quot;Text to be converted\&quot; type:\&quot;text/vnd.tiddlywiki\&quot;&gt;&gt;\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInformation about this macro\n*/\n\nexports.name = \&quot;makedatauri\&quot;;\n\nexports.params = [\n\t{name: \&quot;text\&quot;},\n\t{name: \&quot;type\&quot;}\n];\n\n/*\nRun the macro\n*/\nexports.run = function(text,type) {\n\treturn $tw.utils.makeDataUri(text,type);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/macros/makedatauri.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;macro&quot;
        },
        &quot;$:/core/modules/macros/now.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/macros/now.js\ntype: application/javascript\nmodule-type: macro\n\nMacro to return a formatted version of the current time\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInformation about this macro\n*/\n\nexports.name = \&quot;now\&quot;;\n\nexports.params = [\n\t{name: \&quot;format\&quot;}\n];\n\n/*\nRun the macro\n*/\nexports.run = function(format) {\n\treturn $tw.utils.formatDateString(new Date(),format || \&quot;0hh:0mm, DDth MMM YYYY\&quot;);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/macros/now.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;macro&quot;
        },
        &quot;$:/core/modules/macros/qualify.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/macros/qualify.js\ntype: application/javascript\nmodule-type: macro\n\nMacro to qualify a state tiddler title according\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInformation about this macro\n*/\n\nexports.name = \&quot;qualify\&quot;;\n\nexports.params = [\n\t{name: \&quot;title\&quot;}\n];\n\n/*\nRun the macro\n*/\nexports.run = function(title) {\n\treturn title + \&quot;-\&quot; + this.getStateQualifier();\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/macros/qualify.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;macro&quot;
        },
        &quot;$:/core/modules/macros/resolvepath.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/macros/resolvepath.js\ntype: application/javascript\nmodule-type: macro\n\nResolves a relative path for an absolute rootpath.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;resolvepath\&quot;;\n\nexports.params = [\n\t{name: \&quot;source\&quot;},\n\t{name: \&quot;root\&quot;}\n];\n\n/*\nRun the macro\n*/\nexports.run = function(source, root) {\n\treturn $tw.utils.resolvePath(source, root);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/macros/resolvepath.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;macro&quot;
        },
        &quot;$:/core/modules/macros/version.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/macros/version.js\ntype: application/javascript\nmodule-type: macro\n\nMacro to return the TiddlyWiki core version number\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInformation about this macro\n*/\n\nexports.name = \&quot;version\&quot;;\n\nexports.params = [];\n\n/*\nRun the macro\n*/\nexports.run = function() {\n\treturn $tw.version;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/macros/version.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;macro&quot;
        },
        &quot;$:/core/modules/parsers/audioparser.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/audioparser.js\ntype: application/javascript\nmodule-type: parser\n\nThe audio parser parses an audio tiddler into an embeddable HTML element\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar AudioParser = function(type,text,options) {\n\tvar element = {\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\ttag: \&quot;audio\&quot;,\n\t\t\tattributes: {\n\t\t\t\tcontrols: {type: \&quot;string\&quot;, value: \&quot;controls\&quot;}\n\t\t\t}\n\t\t},\n\t\tsrc;\n\tif(options._canonical_uri) {\n\t\telement.attributes.src = {type: \&quot;string\&quot;, value: options._canonical_uri};\n\t} else if(text) {\n\t\telement.attributes.src = {type: \&quot;string\&quot;, value: \&quot;data:\&quot; + type + \&quot;;base64,\&quot; + text};\n\t}\n\tthis.tree = [element];\n};\n\nexports[\&quot;audio/ogg\&quot;] = AudioParser;\nexports[\&quot;audio/mpeg\&quot;] = AudioParser;\nexports[\&quot;audio/mp3\&quot;] = AudioParser;\nexports[\&quot;audio/mp4\&quot;] = AudioParser;\n\n})();\n\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/audioparser.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;parser&quot;
        },
        &quot;$:/core/modules/parsers/csvparser.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/csvparser.js\ntype: application/javascript\nmodule-type: parser\n\nThe CSV text parser processes CSV files into a table wrapped in a scrollable widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar CsvParser = function(type,text,options) {\n\t// Table framework\n\tthis.tree = [{\n\t\t\&quot;type\&quot;: \&quot;scrollable\&quot;, \&quot;children\&quot;: [{\n\t\t\t\&quot;type\&quot;: \&quot;element\&quot;, \&quot;tag\&quot;: \&quot;table\&quot;, \&quot;children\&quot;: [{\n\t\t\t\t\&quot;type\&quot;: \&quot;element\&quot;, \&quot;tag\&quot;: \&quot;tbody\&quot;, \&quot;children\&quot;: []\n\t\t\t}], \&quot;attributes\&quot;: {\n\t\t\t\t\&quot;class\&quot;: {\&quot;type\&quot;: \&quot;string\&quot;, \&quot;value\&quot;: \&quot;tc-csv-table\&quot;}\n\t\t\t}\n\t\t}]\n\t}];\n\t// Split the text into lines\n\tvar lines = text.split(/\\r?\\n/mg),\n\t\ttag = \&quot;th\&quot;;\n\tfor(var line=0; line&lt;lines.length; line++) {\n\t\tvar lineText = lines[line];\n\t\tif(lineText) {\n\t\t\tvar row = {\n\t\t\t\t\t\&quot;type\&quot;: \&quot;element\&quot;, \&quot;tag\&quot;: \&quot;tr\&quot;, \&quot;children\&quot;: []\n\t\t\t\t};\n\t\t\tvar columns = lineText.split(\&quot;,\&quot;);\n\t\t\tfor(var column=0; column&lt;columns.length; column++) {\n\t\t\t\trow.children.push({\n\t\t\t\t\t\t\&quot;type\&quot;: \&quot;element\&quot;, \&quot;tag\&quot;: tag, \&quot;children\&quot;: [{\n\t\t\t\t\t\t\t\&quot;type\&quot;: \&quot;text\&quot;,\n\t\t\t\t\t\t\t\&quot;text\&quot;: columns[column]\n\t\t\t\t\t\t}]\n\t\t\t\t\t});\n\t\t\t}\n\t\t\ttag = \&quot;td\&quot;;\n\t\t\tthis.tree[0].children[0].children[0].children.push(row);\n\t\t}\n\t}\n};\n\nexports[\&quot;text/csv\&quot;] = CsvParser;\n\n})();\n\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/csvparser.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;parser&quot;
        },
        &quot;$:/core/modules/parsers/htmlparser.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/htmlparser.js\ntype: application/javascript\nmodule-type: parser\n\nThe HTML parser displays text as raw HTML\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar HtmlParser = function(type,text,options) {\n\tvar src;\n\tif(options._canonical_uri) {\n\t\tsrc = options._canonical_uri;\n\t} else if(text) {\n\t\tsrc = \&quot;data:text/html;charset=utf-8,\&quot; + encodeURIComponent(text);\n\t}\n\tthis.tree = [{\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;iframe\&quot;,\n\t\tattributes: {\n\t\t\tsrc: {type: \&quot;string\&quot;, value: src},\n\t\t\tsandbox: {type: \&quot;string\&quot;, value: \&quot;sandbox\&quot;}\n\t\t}\n\t}];\n};\n\nexports[\&quot;text/html\&quot;] = HtmlParser;\n\n})();\n\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/htmlparser.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;parser&quot;
        },
        &quot;$:/core/modules/parsers/imageparser.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/imageparser.js\ntype: application/javascript\nmodule-type: parser\n\nThe image parser parses an image into an embeddable HTML element\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar ImageParser = function(type,text,options) {\n\tvar element = {\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\ttag: \&quot;img\&quot;,\n\t\t\tattributes: {}\n\t\t},\n\t\tsrc;\n\tif(options._canonical_uri) {\n\t\telement.attributes.src = {type: \&quot;string\&quot;, value: options._canonical_uri};\n\t\tif(type === \&quot;application/pdf\&quot; || type === \&quot;.pdf\&quot;) {\n\t\t\telement.tag = \&quot;embed\&quot;;\n\t\t}\n\t} else if(text) {\n\t\tif(type === \&quot;application/pdf\&quot; || type === \&quot;.pdf\&quot;) {\n\t\t\telement.attributes.src = {type: \&quot;string\&quot;, value: \&quot;data:application/pdf;base64,\&quot; + text};\n\t\t\telement.tag = \&quot;embed\&quot;;\n\t\t} else if(type === \&quot;image/svg+xml\&quot; || type === \&quot;.svg\&quot;) {\n\t\t\telement.attributes.src = {type: \&quot;string\&quot;, value: \&quot;data:image/svg+xml,\&quot; + encodeURIComponent(text)};\n\t\t} else {\n\t\t\telement.attributes.src = {type: \&quot;string\&quot;, value: \&quot;data:\&quot; + type + \&quot;;base64,\&quot; + text};\n\t\t}\n\t}\n\tthis.tree = [element];\n};\n\nexports[\&quot;image/svg+xml\&quot;] = ImageParser;\nexports[\&quot;image/jpg\&quot;] = ImageParser;\nexports[\&quot;image/jpeg\&quot;] = ImageParser;\nexports[\&quot;image/png\&quot;] = ImageParser;\nexports[\&quot;image/gif\&quot;] = ImageParser;\nexports[\&quot;application/pdf\&quot;] = ImageParser;\nexports[\&quot;image/x-icon\&quot;] = ImageParser;\n\n})();\n\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/imageparser.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;parser&quot;
        },
        &quot;$:/core/modules/utils/parseutils.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/parseutils.js\ntype: application/javascript\nmodule-type: utils\n\nUtility functions concerned with parsing text into tokens.\n\nMost functions have the following pattern:\n\n* The parameters are:\n** `source`: the source string being parsed\n** `pos`: the current parse position within the string\n** Any further parameters are used to identify the token that is being parsed\n* The return value is:\n** null if the token was not found at the specified position\n** an object representing the token with the following standard fields:\n*** `type`: string indicating the type of the token\n*** `start`: start position of the token in the source string\n*** `end`: end position of the token in the source string\n*** Any further fields required to describe the token\n\nThe exception is `skipWhiteSpace`, which just returns the position after the whitespace.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nLook for a whitespace token. Returns null if not found, otherwise returns {type: \&quot;whitespace\&quot;, start:, end:,}\n*/\nexports.parseWhiteSpace = function(source,pos) {\n\tvar p = pos,c;\n\twhile(true) {\n\t\tc = source.charAt(p);\n\t\tif((c === \&quot; \&quot;) || (c === \&quot;\\f\&quot;) || (c === \&quot;\\n\&quot;) || (c === \&quot;\\r\&quot;) || (c === \&quot;\\t\&quot;) || (c === \&quot;\\v\&quot;) || (c === \&quot;\\u00a0\&quot;)) { // Ignores some obscure unicode spaces\n\t\t\tp++;\n\t\t} else {\n\t\t\tbreak;\n\t\t}\n\t}\n\tif(p === pos) {\n\t\treturn null;\n\t} else {\n\t\treturn {\n\t\t\ttype: \&quot;whitespace\&quot;,\n\t\t\tstart: pos,\n\t\t\tend: p\n\t\t}\n\t}\n};\n\n/*\nConvenience wrapper for parseWhiteSpace. Returns the position after the whitespace\n*/\nexports.skipWhiteSpace = function(source,pos) {\n\tvar c;\n\twhile(true) {\n\t\tc = source.charAt(pos);\n\t\tif((c === \&quot; \&quot;) || (c === \&quot;\\f\&quot;) || (c === \&quot;\\n\&quot;) || (c === \&quot;\\r\&quot;) || (c === \&quot;\\t\&quot;) || (c === \&quot;\\v\&quot;) || (c === \&quot;\\u00a0\&quot;)) { // Ignores some obscure unicode spaces\n\t\t\tpos++;\n\t\t} else {\n\t\t\treturn pos;\n\t\t}\n\t}\n};\n\n/*\nLook for a given string token. Returns null if not found, otherwise returns {type: \&quot;token\&quot;, value:, start:, end:,}\n*/\nexports.parseTokenString = function(source,pos,token) {\n\tvar match = source.indexOf(token,pos) === pos;\n\tif(match) {\n\t\treturn {\n\t\t\ttype: \&quot;token\&quot;,\n\t\t\tvalue: token,\n\t\t\tstart: pos,\n\t\t\tend: pos + token.length\n\t\t};\n\t}\n\treturn null;\n};\n\n/*\nLook for a token matching a regex. Returns null if not found, otherwise returns {type: \&quot;regexp\&quot;, match:, start:, end:,}\n*/\nexports.parseTokenRegExp = function(source,pos,reToken) {\n\tvar node = {\n\t\ttype: \&quot;regexp\&quot;,\n\t\tstart: pos\n\t};\n\treToken.lastIndex = pos;\n\tnode.match = reToken.exec(source);\n\tif(node.match &amp;&amp; node.match.index === pos) {\n\t\tnode.end = pos + node.match[0].length;\n\t\treturn node;\n\t} else {\n\t\treturn null;\n\t}\n};\n\n/*\nLook for a string literal. Returns null if not found, otherwise returns {type: \&quot;string\&quot;, value:, start:, end:,}\n*/\nexports.parseStringLiteral = function(source,pos) {\n\tvar node = {\n\t\ttype: \&quot;string\&quot;,\n\t\tstart: pos\n\t};\n\tvar reString = /(?:\&quot;\&quot;\&quot;([\\s\\S]*?)\&quot;\&quot;\&quot;|\&quot;([^\&quot;]*)\&quot;)|(?:'([^']*)')/g;\n\treString.lastIndex = pos;\n\tvar match = reString.exec(source);\n\tif(match &amp;&amp; match.index === pos) {\n\t\tnode.value = match[1] !== undefined ? match[1] :(\n\t\t\tmatch[2] !== undefined ? match[2] : match[3] \n\t\t\t\t\t);\n\t\tnode.end = pos + match[0].length;\n\t\treturn node;\n\t} else {\n\t\treturn null;\n\t}\n};\n\n/*\nLook for a macro invocation parameter. Returns null if not found, or {type: \&quot;macro-parameter\&quot;, name:, value:, start:, end:}\n*/\nexports.parseMacroParameter = function(source,pos) {\n\tvar node = {\n\t\ttype: \&quot;macro-parameter\&quot;,\n\t\tstart: pos\n\t};\n\t// Define our regexp\n\tvar reMacroParameter = /(?:([A-Za-z0-9\\-_]+)\\s*:)?(?:\\s*(?:\&quot;\&quot;\&quot;([\\s\\S]*?)\&quot;\&quot;\&quot;|\&quot;([^\&quot;]*)\&quot;|'([^']*)'|\\[\\[([^\\]]*)\\]\\]|([^\\s&gt;\&quot;'=]+)))/g;\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Look for the parameter\n\tvar token = $tw.utils.parseTokenRegExp(source,pos,reMacroParameter);\n\tif(!token) {\n\t\treturn null;\n\t}\n\tpos = token.end;\n\t// Get the parameter details\n\tnode.value = token.match[2] !== undefined ? token.match[2] : (\n\t\t\t\t\ttoken.match[3] !== undefined ? token.match[3] : (\n\t\t\t\t\t\ttoken.match[4] !== undefined ? token.match[4] : (\n\t\t\t\t\t\t\ttoken.match[5] !== undefined ? token.match[5] : (\n\t\t\t\t\t\t\t\ttoken.match[6] !== undefined ? token.match[6] : (\n\t\t\t\t\t\t\t\t\t\&quot;\&quot;\n\t\t\t\t\t\t\t\t)\n\t\t\t\t\t\t\t)\n\t\t\t\t\t\t)\n\t\t\t\t\t)\n\t\t\t\t);\n\tif(token.match[1]) {\n\t\tnode.name = token.match[1];\n\t}\n\t// Update the end position\n\tnode.end = pos;\n\treturn node;\n};\n\n/*\nLook for a macro invocation. Returns null if not found, or {type: \&quot;macrocall\&quot;, name:, parameters:, start:, end:}\n*/\nexports.parseMacroInvocation = function(source,pos) {\n\tvar node = {\n\t\ttype: \&quot;macrocall\&quot;,\n\t\tstart: pos,\n\t\tparams: []\n\t};\n\t// Define our regexps\n\tvar reMacroName = /([^\\s&gt;\&quot;'=]+)/g;\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Look for a double less than sign\n\tvar token = $tw.utils.parseTokenString(source,pos,\&quot;&lt;&lt;\&quot;);\n\tif(!token) {\n\t\treturn null;\n\t}\n\tpos = token.end;\n\t// Get the macro name\n\tvar name = $tw.utils.parseTokenRegExp(source,pos,reMacroName);\n\tif(!name) {\n\t\treturn null;\n\t}\n\tnode.name = name.match[1];\n\tpos = name.end;\n\t// Process parameters\n\tvar parameter = $tw.utils.parseMacroParameter(source,pos);\n\twhile(parameter) {\n\t\tnode.params.push(parameter);\n\t\tpos = parameter.end;\n\t\t// Get the next parameter\n\t\tparameter = $tw.utils.parseMacroParameter(source,pos);\n\t}\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Look for a double greater than sign\n\ttoken = $tw.utils.parseTokenString(source,pos,\&quot;&gt;&gt;\&quot;);\n\tif(!token) {\n\t\treturn null;\n\t}\n\tpos = token.end;\n\t// Update the end position\n\tnode.end = pos;\n\treturn node;\n};\n\n/*\nLook for an HTML attribute definition. Returns null if not found, otherwise returns {type: \&quot;attribute\&quot;, name:, valueType: \&quot;string|indirect|macro\&quot;, value:, start:, end:,}\n*/\nexports.parseAttribute = function(source,pos) {\n\tvar node = {\n\t\tstart: pos\n\t};\n\t// Define our regexps\n\tvar reAttributeName = /([^\\/\\s&gt;\&quot;'=]+)/g,\n\t\treUnquotedAttribute = /([^\\/\\s&lt;&gt;\&quot;'=]+)/g,\n\t\treIndirectValue = /\\{\\{([^\\}]+)\\}\\}/g;\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Get the attribute name\n\tvar name = $tw.utils.parseTokenRegExp(source,pos,reAttributeName);\n\tif(!name) {\n\t\treturn null;\n\t}\n\tnode.name = name.match[1];\n\tpos = name.end;\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Look for an equals sign\n\tvar token = $tw.utils.parseTokenString(source,pos,\&quot;=\&quot;);\n\tif(token) {\n\t\tpos = token.end;\n\t\t// Skip whitespace\n\t\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t\t// Look for a string literal\n\t\tvar stringLiteral = $tw.utils.parseStringLiteral(source,pos);\n\t\tif(stringLiteral) {\n\t\t\tpos = stringLiteral.end;\n\t\t\tnode.type = \&quot;string\&quot;;\n\t\t\tnode.value = stringLiteral.value;\n\t\t} else {\n\t\t\t// Look for an indirect value\n\t\t\tvar indirectValue = $tw.utils.parseTokenRegExp(source,pos,reIndirectValue);\n\t\t\tif(indirectValue) {\n\t\t\t\tpos = indirectValue.end;\n\t\t\t\tnode.type = \&quot;indirect\&quot;;\n\t\t\t\tnode.textReference = indirectValue.match[1];\n\t\t\t} else {\n\t\t\t\t// Look for a unquoted value\n\t\t\t\tvar unquotedValue = $tw.utils.parseTokenRegExp(source,pos,reUnquotedAttribute);\n\t\t\t\tif(unquotedValue) {\n\t\t\t\t\tpos = unquotedValue.end;\n\t\t\t\t\tnode.type = \&quot;string\&quot;;\n\t\t\t\t\tnode.value = unquotedValue.match[1];\n\t\t\t\t} else {\n\t\t\t\t\t// Look for a macro invocation value\n\t\t\t\t\tvar macroInvocation = $tw.utils.parseMacroInvocation(source,pos);\n\t\t\t\t\tif(macroInvocation) {\n\t\t\t\t\t\tpos = macroInvocation.end;\n\t\t\t\t\t\tnode.type = \&quot;macro\&quot;;\n\t\t\t\t\t\tnode.value = macroInvocation;\n\t\t\t\t\t} else {\n\t\t\t\t\t\tnode.type = \&quot;string\&quot;;\n\t\t\t\t\t\tnode.value = \&quot;true\&quot;;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t} else {\n\t\tnode.type = \&quot;string\&quot;;\n\t\tnode.value = \&quot;true\&quot;;\n\t}\n\t// Update the end position\n\tnode.end = pos;\n\treturn node;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/parseutils.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/parsers/textparser.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/textparser.js\ntype: application/javascript\nmodule-type: parser\n\nThe plain text parser processes blocks of source text into a degenerate parse tree consisting of a single text node\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar TextParser = function(type,text,options) {\n\tthis.tree = [{\n\t\ttype: \&quot;codeblock\&quot;,\n\t\tattributes: {\n\t\t\tcode: {type: \&quot;string\&quot;, value: text},\n\t\t\tlanguage: {type: \&quot;string\&quot;, value: type}\n\t\t}\n\t}];\n};\n\nexports[\&quot;text/plain\&quot;] = TextParser;\nexports[\&quot;text/x-tiddlywiki\&quot;] = TextParser;\nexports[\&quot;application/javascript\&quot;] = TextParser;\nexports[\&quot;application/json\&quot;] = TextParser;\nexports[\&quot;text/css\&quot;] = TextParser;\nexports[\&quot;application/x-tiddler-dictionary\&quot;] = TextParser;\n\n})();\n\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/textparser.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;parser&quot;
        },
        &quot;$:/core/modules/parsers/videoparser.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/videoparser.js\ntype: application/javascript\nmodule-type: parser\n\nThe video parser parses a video tiddler into an embeddable HTML element\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar AudioParser = function(type,text,options) {\n\tvar element = {\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\ttag: \&quot;video\&quot;,\n\t\t\tattributes: {\n\t\t\t\tcontrols: {type: \&quot;string\&quot;, value: \&quot;controls\&quot;}\n\t\t\t}\n\t\t},\n\t\tsrc;\n\tif(options._canonical_uri) {\n\t\telement.attributes.src = {type: \&quot;string\&quot;, value: options._canonical_uri};\n\t} else if(text) {\n\t\telement.attributes.src = {type: \&quot;string\&quot;, value: \&quot;data:\&quot; + type + \&quot;;base64,\&quot; + text};\n\t}\n\tthis.tree = [element];\n};\n\nexports[\&quot;video/mp4\&quot;] = AudioParser;\n\n})();\n\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/videoparser.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;parser&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/codeblock.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/codeblock.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text rule for code blocks. For example:\n\n```\n\t```\n\tThis text will not be //wikified//\n\t```\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;codeblock\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match and get language if defined\n\tthis.matchRegExp = /```([\\w-]*)\\r?\\n/mg;\n};\n\nexports.parse = function() {\n\tvar reEnd = /(\\r?\\n```$)/mg;\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\n\t// Look for the end of the block\n\treEnd.lastIndex = this.parser.pos;\n\tvar match = reEnd.exec(this.parser.source),\n\t\ttext;\n\t// Process the block\n\tif(match) {\n\t\ttext = this.parser.source.substring(this.parser.pos,match.index);\n\t\tthis.parser.pos = match.index + match[0].length;\n\t} else {\n\t\ttext = this.parser.source.substr(this.parser.pos);\n\t\tthis.parser.pos = this.parser.sourceLength;\n\t}\n\t// Return the $codeblock widget\n\treturn [{\n\t\t\ttype: \&quot;codeblock\&quot;,\n\t\t\tattributes: {\n\t\t\t\t\tcode: {type: \&quot;string\&quot;, value: text},\n\t\t\t\t\tlanguage: {type: \&quot;string\&quot;, value: this.match[1]}\n\t\t\t}\n\t}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/codeblock.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/codeinline.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/codeinline.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for code runs. For example:\n\n```\n\tThis is a `code run`.\n\tThis is another ``code run``\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;codeinline\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /(``?)/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\tvar reEnd = new RegExp(this.match[1], \&quot;mg\&quot;);\n\t// Look for the end marker\n\treEnd.lastIndex = this.parser.pos;\n\tvar match = reEnd.exec(this.parser.source),\n\t\ttext;\n\t// Process the text\n\tif(match) {\n\t\ttext = this.parser.source.substring(this.parser.pos,match.index);\n\t\tthis.parser.pos = match.index + match[0].length;\n\t} else {\n\t\ttext = this.parser.source.substr(this.parser.pos);\n\t\tthis.parser.pos = this.parser.sourceLength;\n\t}\n\treturn [{\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;code\&quot;,\n\t\tchildren: [{\n\t\t\ttype: \&quot;text\&quot;,\n\t\t\ttext: text\n\t\t}]\n\t}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/codeinline.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/commentblock.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/commentblock.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text block rule for HTML comments. For example:\n\n```\n&lt;!-- This is a comment --&gt;\n```\n\nNote that the syntax for comments is simplified to an opening \&quot;&lt;!--\&quot; sequence and a closing \&quot;--&gt;\&quot; sequence -- HTML itself implements a more complex format (see http://ostermiller.org/findhtmlcomment.html)\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;commentblock\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\tthis.matchRegExp = /&lt;!--/mg;\n\tthis.endMatchRegExp = /--&gt;/mg;\n};\n\nexports.findNextMatch = function(startPos) {\n\tthis.matchRegExp.lastIndex = startPos;\n\tthis.match = this.matchRegExp.exec(this.parser.source);\n\tif(this.match) {\n\t\tthis.endMatchRegExp.lastIndex = startPos + this.match[0].length;\n\t\tthis.endMatch = this.endMatchRegExp.exec(this.parser.source);\n\t\tif(this.endMatch) {\n\t\t\treturn this.match.index;\n\t\t}\n\t}\n\treturn undefined;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.endMatchRegExp.lastIndex;\n\t// Don't return any elements\n\treturn [];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/commentblock.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/commentinline.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/commentinline.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for HTML comments. For example:\n\n```\n&lt;!-- This is a comment --&gt;\n```\n\nNote that the syntax for comments is simplified to an opening \&quot;&lt;!--\&quot; sequence and a closing \&quot;--&gt;\&quot; sequence -- HTML itself implements a more complex format (see http://ostermiller.org/findhtmlcomment.html)\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;commentinline\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\tthis.matchRegExp = /&lt;!--/mg;\n\tthis.endMatchRegExp = /--&gt;/mg;\n};\n\nexports.findNextMatch = function(startPos) {\n\tthis.matchRegExp.lastIndex = startPos;\n\tthis.match = this.matchRegExp.exec(this.parser.source);\n\tif(this.match) {\n\t\tthis.endMatchRegExp.lastIndex = startPos + this.match[0].length;\n\t\tthis.endMatch = this.endMatchRegExp.exec(this.parser.source);\n\t\tif(this.endMatch) {\n\t\t\treturn this.match.index;\n\t\t}\n\t}\n\treturn undefined;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.endMatchRegExp.lastIndex;\n\t// Don't return any elements\n\treturn [];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/commentinline.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/dash.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/dash.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for dashes. For example:\n\n```\nThis is an en-dash: --\n\nThis is an em-dash: ---\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;dash\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /-{2,3}(?!-)/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\tvar dash = this.match[0].length === 2 ? \&quot;&amp;ndash;\&quot; : \&quot;&amp;mdash;\&quot;;\n\treturn [{\n\t\ttype: \&quot;entity\&quot;,\n\t\tentity: dash\n\t}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/dash.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/bold.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/emphasis/bold.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for emphasis - bold. For example:\n\n```\n\tThis is ''bold'' text\n```\n\nThis wikiparser can be modified using the rules eg:\n\n```\n\\rules except bold \n\\rules only bold \n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;bold\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /''/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\n\t// Parse the run including the terminator\n\tvar tree = this.parser.parseInlineRun(/''/mg,{eatTerminator: true});\n\n\t// Return the classed span\n\treturn [{\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;strong\&quot;,\n\t\tchildren: tree\n\t}];\n};\n\n})();&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/bold.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/italic.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/emphasis/italic.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for emphasis - italic. For example:\n\n```\n\tThis is //italic// text\n```\n\nThis wikiparser can be modified using the rules eg:\n\n```\n\\rules except italic\n\\rules only italic\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;italic\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /\\/\\//mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\n\t// Parse the run including the terminator\n\tvar tree = this.parser.parseInlineRun(/\\/\\//mg,{eatTerminator: true});\n\n\t// Return the classed span\n\treturn [{\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;em\&quot;,\n\t\tchildren: tree\n\t}];\n};\n\n})();&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/italic.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/strikethrough.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/emphasis/strikethrough.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for emphasis - strikethrough. For example:\n\n```\n\tThis is ~~strikethrough~~ text\n```\n\nThis wikiparser can be modified using the rules eg:\n\n```\n\\rules except strikethrough \n\\rules only strikethrough \n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;strikethrough\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /~~/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\n\t// Parse the run including the terminator\n\tvar tree = this.parser.parseInlineRun(/~~/mg,{eatTerminator: true});\n\n\t// Return the classed span\n\treturn [{\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;strike\&quot;,\n\t\tchildren: tree\n\t}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/strikethrough.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/subscript.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/emphasis/subscript.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for emphasis - subscript. For example:\n\n```\n\tThis is ,,subscript,, text\n```\n\nThis wikiparser can be modified using the rules eg:\n\n```\n\\rules except subscript \n\\rules only subscript \n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;subscript\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /,,/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\n\t// Parse the run including the terminator\n\tvar tree = this.parser.parseInlineRun(/,,/mg,{eatTerminator: true});\n\n\t// Return the classed span\n\treturn [{\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;sub\&quot;,\n\t\tchildren: tree\n\t}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/subscript.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/superscript.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/emphasis/superscript.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for emphasis - superscript. For example:\n\n```\n\tThis is ^^superscript^^ text\n```\n\nThis wikiparser can be modified using the rules eg:\n\n```\n\\rules except superscript \n\\rules only superscript \n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;superscript\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /\\^\\^/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\n\t// Parse the run including the terminator\n\tvar tree = this.parser.parseInlineRun(/\\^\\^/mg,{eatTerminator: true});\n\n\t// Return the classed span\n\treturn [{\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;sup\&quot;,\n\t\tchildren: tree\n\t}];\n};\n\n})();&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/superscript.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/underscore.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/emphasis/underscore.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for emphasis - underscore. For example:\n\n```\n\tThis is __underscore__ text\n```\n\nThis wikiparser can be modified using the rules eg:\n\n```\n\\rules except underscore \n\\rules only underscore\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;underscore\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /__/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\n\t// Parse the run including the terminator\n\tvar tree = this.parser.parseInlineRun(/__/mg,{eatTerminator: true});\n\n\t// Return the classed span\n\treturn [{\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;u\&quot;,\n\t\tchildren: tree\n\t}];\n};\n\n})();&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/emphasis/underscore.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/entity.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/entity.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for HTML entities. For example:\n\n```\n\tThis is a copyright symbol: &amp;copy;\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;entity\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /(&amp;#?[a-zA-Z0-9]{2,8};)/mg;\n};\n\n/*\nParse the most recent match\n*/\nexports.parse = function() {\n\t// Get all the details of the match\n\tvar entityString = this.match[1];\n\t// Move past the macro call\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Return the entity\n\treturn [{type: \&quot;entity\&quot;, entity: this.match[0]}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/entity.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/extlink.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/extlink.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for external links. For example:\n\n```\nAn external link: http://www.tiddlywiki.com/\n\nA suppressed external link: ~http://www.tiddlyspace.com/\n```\n\nExternal links can be suppressed by preceding them with `~`.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;extlink\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /~?(?:file|http|https|mailto|ftp|irc|news|data|skype):[^\\s&lt;&gt;{}\\[\\]`|'\&quot;\\\\^~]+(?:\\/|\\b)/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Create the link unless it is suppressed\n\tif(this.match[0].substr(0,1) === \&quot;~\&quot;) {\n\t\treturn [{type: \&quot;text\&quot;, text: this.match[0].substr(1)}];\n\t} else {\n\t\treturn [{\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\ttag: \&quot;a\&quot;,\n\t\t\tattributes: {\n\t\t\t\thref: {type: \&quot;string\&quot;, value: this.match[0]},\n\t\t\t\t\&quot;class\&quot;: {type: \&quot;string\&quot;, value: \&quot;tc-tiddlylink-external\&quot;},\n\t\t\t\ttarget: {type: \&quot;string\&quot;, value: \&quot;_blank\&quot;}\n\t\t\t},\n\t\t\tchildren: [{\n\t\t\t\ttype: \&quot;text\&quot;, text: this.match[0]\n\t\t\t}]\n\t\t}];\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/extlink.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/filteredtranscludeblock.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/filteredtranscludeblock.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text rule for block-level filtered transclusion. For example:\n\n```\n{{{ [tag[docs]] }}}\n{{{ [tag[docs]] |tooltip}}}\n{{{ [tag[docs]] ||TemplateTitle}}}\n{{{ [tag[docs]] |tooltip||TemplateTitle}}}\n{{{ [tag[docs]] }}width:40;height:50;}.class.class\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;filteredtranscludeblock\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /\\{\\{\\{([^\\|]+?)(?:\\|([^\\|\\{\\}]+))?(?:\\|\\|([^\\|\\{\\}]+))?\\}\\}([^\\}]*)\\}(?:\\.(\\S+))?(?:\\r?\\n|$)/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Get the match details\n\tvar filter = this.match[1],\n\t\ttooltip = this.match[2],\n\t\ttemplate = $tw.utils.trim(this.match[3]),\n\t\tstyle = this.match[4],\n\t\tclasses = this.match[5];\n\t// Return the list widget\n\tvar node = {\n\t\ttype: \&quot;list\&quot;,\n\t\tattributes: {\n\t\t\tfilter: {type: \&quot;string\&quot;, value: filter}\n\t\t},\n\t\tisBlock: true\n\t};\n\tif(tooltip) {\n\t\tnode.attributes.tooltip = {type: \&quot;string\&quot;, value: tooltip};\n\t}\n\tif(template) {\n\t\tnode.attributes.template = {type: \&quot;string\&quot;, value: template};\n\t}\n\tif(style) {\n\t\tnode.attributes.style = {type: \&quot;string\&quot;, value: style};\n\t}\n\tif(classes) {\n\t\tnode.attributes.itemClass = {type: \&quot;string\&quot;, value: classes.split(\&quot;.\&quot;).join(\&quot; \&quot;)};\n\t}\n\treturn [node];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/filteredtranscludeblock.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/filteredtranscludeinline.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/filteredtranscludeinline.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text rule for inline filtered transclusion. For example:\n\n```\n{{{ [tag[docs]] }}}\n{{{ [tag[docs]] |tooltip}}}\n{{{ [tag[docs]] ||TemplateTitle}}}\n{{{ [tag[docs]] |tooltip||TemplateTitle}}}\n{{{ [tag[docs]] }}width:40;height:50;}.class.class\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;filteredtranscludeinline\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /\\{\\{\\{([^\\|]+?)(?:\\|([^\\|\\{\\}]+))?(?:\\|\\|([^\\|\\{\\}]+))?\\}\\}([^\\}]*)\\}(?:\\.(\\S+))?/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Get the match details\n\tvar filter = this.match[1],\n\t\ttooltip = this.match[2],\n\t\ttemplate = $tw.utils.trim(this.match[3]),\n\t\tstyle = this.match[4],\n\t\tclasses = this.match[5];\n\t// Return the list widget\n\tvar node = {\n\t\ttype: \&quot;list\&quot;,\n\t\tattributes: {\n\t\t\tfilter: {type: \&quot;string\&quot;, value: filter}\n\t\t}\n\t};\n\tif(tooltip) {\n\t\tnode.attributes.tooltip = {type: \&quot;string\&quot;, value: tooltip};\n\t}\n\tif(template) {\n\t\tnode.attributes.template = {type: \&quot;string\&quot;, value: template};\n\t}\n\tif(style) {\n\t\tnode.attributes.style = {type: \&quot;string\&quot;, value: style};\n\t}\n\tif(classes) {\n\t\tnode.attributes.itemClass = {type: \&quot;string\&quot;, value: classes.split(\&quot;.\&quot;).join(\&quot; \&quot;)};\n\t}\n\treturn [node];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/filteredtranscludeinline.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/hardlinebreaks.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/hardlinebreaks.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for marking areas with hard line breaks. For example:\n\n```\n\&quot;\&quot;\&quot;\nThis is some text\nThat is set like\nIt is a Poem\nWhen it is\nClearly\nNot\n\&quot;\&quot;\&quot;\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;hardlinebreaks\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /\&quot;\&quot;\&quot;(?:\\r?\\n)?/mg;\n};\n\nexports.parse = function() {\n\tvar reEnd = /(\&quot;\&quot;\&quot;)|(\\r?\\n)/mg,\n\t\ttree = [],\n\t\tmatch;\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\tdo {\n\t\t// Parse the run up to the terminator\n\t\ttree.push.apply(tree,this.parser.parseInlineRun(reEnd,{eatTerminator: false}));\n\t\t// Redo the terminator match\n\t\treEnd.lastIndex = this.parser.pos;\n\t\tmatch = reEnd.exec(this.parser.source);\n\t\tif(match) {\n\t\t\tthis.parser.pos = reEnd.lastIndex;\n\t\t\t// Add a line break if the terminator was a line break\n\t\t\tif(match[2]) {\n\t\t\t\ttree.push({type: \&quot;element\&quot;, tag: \&quot;br\&quot;});\n\t\t\t}\n\t\t}\n\t} while(match &amp;&amp; !match[1]);\n\t// Return the nodes\n\treturn tree;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/hardlinebreaks.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/heading.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/heading.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text block rule for headings\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;heading\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /(!{1,6})/mg;\n};\n\n/*\nParse the most recent match\n*/\nexports.parse = function() {\n\t// Get all the details of the match\n\tvar headingLevel = this.match[1].length;\n\t// Move past the !s\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Parse any classes, whitespace and then the heading itself\n\tvar classes = this.parser.parseClasses();\n\tthis.parser.skipWhitespace({treatNewlinesAsNonWhitespace: true});\n\tvar tree = this.parser.parseInlineRun(/(\\r?\\n)/mg);\n\t// Return the heading\n\treturn [{\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;h\&quot; + headingLevel, \n\t\tattributes: {\n\t\t\t\&quot;class\&quot;: {type: \&quot;string\&quot;, value: classes.join(\&quot; \&quot;)}\n\t\t},\n\t\tchildren: tree\n\t}];\n};\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/heading.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/horizrule.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/horizrule.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text block rule for rules. For example:\n\n```\n---\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;horizrule\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /-{3,}\\r?(?:\\n|$)/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\treturn [{type: \&quot;element\&quot;, tag: \&quot;hr\&quot;}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/horizrule.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/html.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/html.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki rule for HTML elements and widgets. For example:\n\n{{{\n&lt;aside&gt;\nThis is an HTML5 aside element\n&lt;/aside&gt;\n\n&lt;$slider target=\&quot;MyTiddler\&quot;&gt;\nThis is a widget invocation\n&lt;/$slider&gt;\n\n}}}\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;html\&quot;;\nexports.types = {inline: true, block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n};\n\nexports.findNextMatch = function(startPos) {\n\t// Find the next tag\n\tthis.nextTag = this.findNextTag(this.parser.source,startPos,{\n\t\trequireLineBreak: this.is.block\n\t});\n\treturn this.nextTag ? this.nextTag.start : undefined;\n};\n\n/*\nParse the most recent match\n*/\nexports.parse = function() {\n\t// Retrieve the most recent match so that recursive calls don't overwrite it\n\tvar tag = this.nextTag;\n\tthis.nextTag = null;\n\t// Advance the parser position to past the tag\n\tthis.parser.pos = tag.end;\n\t// Check for an immediately following double linebreak\n\tvar hasLineBreak = !tag.isSelfClosing &amp;&amp; !!$tw.utils.parseTokenRegExp(this.parser.source,this.parser.pos,/([^\\S\\n\\r]*\\r?\\n(?:[^\\S\\n\\r]*\\r?\\n|$))/g);\n\t// Set whether we're in block mode\n\ttag.isBlock = this.is.block || hasLineBreak;\n\t// Parse the body if we need to\n\tif(!tag.isSelfClosing &amp;&amp; $tw.config.htmlVoidElements.indexOf(tag.tag) === -1) {\n\t\t\tvar reEndString = \&quot;&lt;/\&quot; + $tw.utils.escapeRegExp(tag.tag) + \&quot;&gt;\&quot;,\n\t\t\t\treEnd = new RegExp(\&quot;(\&quot; + reEndString + \&quot;)\&quot;,\&quot;mg\&quot;);\n\t\tif(hasLineBreak) {\n\t\t\ttag.children = this.parser.parseBlocks(reEndString);\n\t\t} else {\n\t\t\ttag.children = this.parser.parseInlineRun(reEnd);\n\t\t}\n\t\treEnd.lastIndex = this.parser.pos;\n\t\tvar endMatch = reEnd.exec(this.parser.source);\n\t\tif(endMatch &amp;&amp; endMatch.index === this.parser.pos) {\n\t\t\tthis.parser.pos = endMatch.index + endMatch[0].length;\n\t\t}\n\t}\n\t// Return the tag\n\treturn [tag];\n};\n\n/*\nLook for an HTML tag. Returns null if not found, otherwise returns {type: \&quot;element\&quot;, name:, attributes: [], isSelfClosing:, start:, end:,}\n*/\nexports.parseTag = function(source,pos,options) {\n\toptions = options || {};\n\tvar token,\n\t\tnode = {\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\tstart: pos,\n\t\t\tattributes: {}\n\t\t};\n\t// Define our regexps\n\tvar reTagName = /([a-zA-Z0-9\\-\\$]+)/g;\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Look for a less than sign\n\ttoken = $tw.utils.parseTokenString(source,pos,\&quot;&lt;\&quot;);\n\tif(!token) {\n\t\treturn null;\n\t}\n\tpos = token.end;\n\t// Get the tag name\n\ttoken = $tw.utils.parseTokenRegExp(source,pos,reTagName);\n\tif(!token) {\n\t\treturn null;\n\t}\n\tnode.tag = token.match[1];\n\tif(node.tag.charAt(0) === \&quot;$\&quot;) {\n\t\tnode.type = node.tag.substr(1);\n\t}\n\tpos = token.end;\n\t// Process attributes\n\tvar attribute = $tw.utils.parseAttribute(source,pos);\n\twhile(attribute) {\n\t\tnode.attributes[attribute.name] = attribute;\n\t\tpos = attribute.end;\n\t\t// Get the next attribute\n\t\tattribute = $tw.utils.parseAttribute(source,pos);\n\t}\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Look for a closing slash\n\ttoken = $tw.utils.parseTokenString(source,pos,\&quot;/\&quot;);\n\tif(token) {\n\t\tpos = token.end;\n\t\tnode.isSelfClosing = true;\n\t}\n\t// Look for a greater than sign\n\ttoken = $tw.utils.parseTokenString(source,pos,\&quot;&gt;\&quot;);\n\tif(!token) {\n\t\treturn null;\n\t}\n\tpos = token.end;\n\t// Check for a required line break\n\tif(options.requireLineBreak) {\n\t\ttoken = $tw.utils.parseTokenRegExp(source,pos,/([^\\S\\n\\r]*\\r?\\n(?:[^\\S\\n\\r]*\\r?\\n|$))/g);\n\t\tif(!token) {\n\t\t\treturn null;\n\t\t}\n\t}\n\t// Update the end position\n\tnode.end = pos;\n\treturn node;\n};\n\nexports.findNextTag = function(source,pos,options) {\n\t// A regexp for finding candidate HTML tags\n\tvar reLookahead = /&lt;([a-zA-Z\\-\\$]+)/g;\n\t// Find the next candidate\n\treLookahead.lastIndex = pos;\n\tvar match = reLookahead.exec(source);\n\twhile(match) {\n\t\t// Try to parse the candidate as a tag\n\t\tvar tag = this.parseTag(source,match.index,options);\n\t\t// Return success\n\t\tif(tag &amp;&amp; this.isLegalTag(tag)) {\n\t\t\treturn tag;\n\t\t}\n\t\t// Look for the next match\n\t\treLookahead.lastIndex = match.index + 1;\n\t\tmatch = reLookahead.exec(source);\n\t}\n\t// Failed\n\treturn null;\n};\n\nexports.isLegalTag = function(tag) {\n\t// Widgets are always OK\n\tif(tag.type !== \&quot;element\&quot;) {\n\t\treturn true;\n\t// If it's an HTML tag that starts with a dash then it's not legal\n\t} else if(tag.tag.charAt(0) === \&quot;-\&quot;) {\n\t\treturn false;\n\t} else {\n\t\t// Otherwise it's OK\n\t\treturn true;\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/html.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/image.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/image.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for embedding images. For example:\n\n```\n[img[http://tiddlywiki.com/fractalveg.jpg]]\n[img width=23 height=24 [http://tiddlywiki.com/fractalveg.jpg]]\n[img width={{!!width}} height={{!!height}} [http://tiddlywiki.com/fractalveg.jpg]]\n[img[Description of image|http://tiddlywiki.com/fractalveg.jpg]]\n[img[TiddlerTitle]]\n[img[Description of image|TiddlerTitle]]\n```\n\nGenerates the `&lt;$image&gt;` widget.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;image\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n};\n\nexports.findNextMatch = function(startPos) {\n\t// Find the next tag\n\tthis.nextImage = this.findNextImage(this.parser.source,startPos);\n\treturn this.nextImage ? this.nextImage.start : undefined;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.nextImage.end;\n\tvar node = {\n\t\ttype: \&quot;image\&quot;,\n\t\tattributes: this.nextImage.attributes\n\t};\n\treturn [node];\n};\n\n/*\nFind the next image from the current position\n*/\nexports.findNextImage = function(source,pos) {\n\t// A regexp for finding candidate HTML tags\n\tvar reLookahead = /(\\[img)/g;\n\t// Find the next candidate\n\treLookahead.lastIndex = pos;\n\tvar match = reLookahead.exec(source);\n\twhile(match) {\n\t\t// Try to parse the candidate as a tag\n\t\tvar tag = this.parseImage(source,match.index);\n\t\t// Return success\n\t\tif(tag) {\n\t\t\treturn tag;\n\t\t}\n\t\t// Look for the next match\n\t\treLookahead.lastIndex = match.index + 1;\n\t\tmatch = reLookahead.exec(source);\n\t}\n\t// Failed\n\treturn null;\n};\n\n/*\nLook for an image at the specified position. Returns null if not found, otherwise returns {type: \&quot;image\&quot;, attributes: [], isSelfClosing:, start:, end:,}\n*/\nexports.parseImage = function(source,pos) {\n\tvar token,\n\t\tnode = {\n\t\t\ttype: \&quot;image\&quot;,\n\t\t\tstart: pos,\n\t\t\tattributes: {}\n\t\t};\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Look for the `[img`\n\ttoken = $tw.utils.parseTokenString(source,pos,\&quot;[img\&quot;);\n\tif(!token) {\n\t\treturn null;\n\t}\n\tpos = token.end;\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Process attributes\n\tif(source.charAt(pos) !== \&quot;[\&quot;) {\n\t\tvar attribute = $tw.utils.parseAttribute(source,pos);\n\t\twhile(attribute) {\n\t\t\tnode.attributes[attribute.name] = attribute;\n\t\t\tpos = attribute.end;\n\t\t\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t\t\tif(source.charAt(pos) !== \&quot;[\&quot;) {\n\t\t\t\t// Get the next attribute\n\t\t\t\tattribute = $tw.utils.parseAttribute(source,pos);\n\t\t\t} else {\n\t\t\t\tattribute = null;\n\t\t\t}\n\t\t}\n\t}\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Look for the `[` after the attributes\n\ttoken = $tw.utils.parseTokenString(source,pos,\&quot;[\&quot;);\n\tif(!token) {\n\t\treturn null;\n\t}\n\tpos = token.end;\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Get the source up to the terminating `]]`\n\ttoken = $tw.utils.parseTokenRegExp(source,pos,/(?:([^|\\]]*?)\\|)?([^\\]]+?)\\]\\]/g);\n\tif(!token) {\n\t\treturn null;\n\t}\n\tpos = token.end;\n\tif(token.match[1]) {\n\t\tnode.attributes.tooltip = {type: \&quot;string\&quot;, value: token.match[1].trim()};\n\t}\n\tnode.attributes.source = {type: \&quot;string\&quot;, value: (token.match[2] || \&quot;\&quot;).trim()};\n\t// Update the end position\n\tnode.end = pos;\n\treturn node;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/image.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/list.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/list.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text block rule for lists. For example:\n\n```\n* This is an unordered list\n* It has two items\n\n# This is a numbered list\n## With a subitem\n# And a third item\n\n; This is a term that is being defined\n: This is the definition of that term\n```\n\nNote that lists can be nested arbitrarily:\n\n```\n#** One\n#* Two\n#** Three\n#**** Four\n#**# Five\n#**## Six\n## Seven\n### Eight\n## Nine\n```\n\nA CSS class can be applied to a list item as follows:\n\n```\n* List item one\n*.active List item two has the class `active`\n* List item three\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;list\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /([\\*#;:&gt;]+)/mg;\n};\n\nvar listTypes = {\n\t\&quot;*\&quot;: {listTag: \&quot;ul\&quot;, itemTag: \&quot;li\&quot;},\n\t\&quot;#\&quot;: {listTag: \&quot;ol\&quot;, itemTag: \&quot;li\&quot;},\n\t\&quot;;\&quot;: {listTag: \&quot;dl\&quot;, itemTag: \&quot;dt\&quot;},\n\t\&quot;:\&quot;: {listTag: \&quot;dl\&quot;, itemTag: \&quot;dd\&quot;},\n\t\&quot;&gt;\&quot;: {listTag: \&quot;blockquote\&quot;, itemTag: \&quot;p\&quot;}\n};\n\n/*\nParse the most recent match\n*/\nexports.parse = function() {\n\t// Array of parse tree nodes for the previous row of the list\n\tvar listStack = [];\n\t// Cycle through the items in the list\n\twhile(true) {\n\t\t// Match the list marker\n\t\tvar reMatch = /([\\*#;:&gt;]+)/mg;\n\t\treMatch.lastIndex = this.parser.pos;\n\t\tvar match = reMatch.exec(this.parser.source);\n\t\tif(!match || match.index !== this.parser.pos) {\n\t\t\tbreak;\n\t\t}\n\t\t// Check whether the list type of the top level matches\n\t\tvar listInfo = listTypes[match[0].charAt(0)];\n\t\tif(listStack.length &gt; 0 &amp;&amp; listStack[0].tag !== listInfo.listTag) {\n\t\t\tbreak;\n\t\t}\n\t\t// Move past the list marker\n\t\tthis.parser.pos = match.index + match[0].length;\n\t\t// Walk through the list markers for the current row\n\t\tfor(var t=0; t&lt;match[0].length; t++) {\n\t\t\tlistInfo = listTypes[match[0].charAt(t)];\n\t\t\t// Remove any stacked up element if we can't re-use it because the list type doesn't match\n\t\t\tif(listStack.length &gt; t &amp;&amp; listStack[t].tag !== listInfo.listTag) {\n\t\t\t\tlistStack.splice(t,listStack.length - t);\n\t\t\t}\n\t\t\t// Construct the list element or reuse the previous one at this level\n\t\t\tif(listStack.length &lt;= t) {\n\t\t\t\tvar listElement = {type: \&quot;element\&quot;, tag: listInfo.listTag, children: [\n\t\t\t\t\t{type: \&quot;element\&quot;, tag: listInfo.itemTag, children: []}\n\t\t\t\t]};\n\t\t\t\t// Link this list element into the last child item of the parent list item\n\t\t\t\tif(t) {\n\t\t\t\t\tvar prevListItem = listStack[t-1].children[listStack[t-1].children.length-1];\n\t\t\t\t\tprevListItem.children.push(listElement);\n\t\t\t\t}\n\t\t\t\t// Save this element in the stack\n\t\t\t\tlistStack[t] = listElement;\n\t\t\t} else if(t === (match[0].length - 1)) {\n\t\t\t\tlistStack[t].children.push({type: \&quot;element\&quot;, tag: listInfo.itemTag, children: []});\n\t\t\t}\n\t\t}\n\t\tif(listStack.length &gt; match[0].length) {\n\t\t\tlistStack.splice(match[0].length,listStack.length - match[0].length);\n\t\t}\n\t\t// Process the body of the list item into the last list item\n\t\tvar lastListChildren = listStack[listStack.length-1].children,\n\t\t\tlastListItem = lastListChildren[lastListChildren.length-1],\n\t\t\tclasses = this.parser.parseClasses();\n\t\tthis.parser.skipWhitespace({treatNewlinesAsNonWhitespace: true});\n\t\tvar tree = this.parser.parseInlineRun(/(\\r?\\n)/mg);\n\t\tlastListItem.children.push.apply(lastListItem.children,tree);\n\t\tif(classes.length &gt; 0) {\n\t\t\t$tw.utils.addClassToParseTreeNode(lastListItem,classes.join(\&quot; \&quot;));\n\t\t}\n\t\t// Consume any whitespace following the list item\n\t\tthis.parser.skipWhitespace();\n\t}\n\t// Return the root element of the list\n\treturn [listStack[0]];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/list.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/macrocallblock.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/macrocallblock.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki rule for block macro calls\n\n```\n&lt;&lt;name value value2&gt;&gt;\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;macrocallblock\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /&lt;&lt;([^&gt;\\s]+)(?:\\s*)((?:[^&gt;]|(?:&gt;(?!&gt;)))*?)&gt;&gt;(?:\\r?\\n|$)/mg;\n};\n\n/*\nParse the most recent match\n*/\nexports.parse = function() {\n\t// Get all the details of the match\n\tvar macroName = this.match[1],\n\t\tparamString = this.match[2];\n\t// Move past the macro call\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\tvar params = [],\n\t\treParam = /\\s*(?:([A-Za-z0-9\\-_]+)\\s*:)?(?:\\s*(?:\&quot;\&quot;\&quot;([\\s\\S]*?)\&quot;\&quot;\&quot;|\&quot;([^\&quot;]*)\&quot;|'([^']*)'|\\[\\[([^\\]]*)\\]\\]|([^\&quot;'\\s]+)))/mg,\n\t\tparamMatch = reParam.exec(paramString);\n\twhile(paramMatch) {\n\t\t// Process this parameter\n\t\tvar paramInfo = {\n\t\t\tvalue: paramMatch[2] || paramMatch[3] || paramMatch[4] || paramMatch[5] || paramMatch[6]\n\t\t};\n\t\tif(paramMatch[1]) {\n\t\t\tparamInfo.name = paramMatch[1];\n\t\t}\n\t\tparams.push(paramInfo);\n\t\t// Find the next match\n\t\tparamMatch = reParam.exec(paramString);\n\t}\n\treturn [{\n\t\ttype: \&quot;macrocall\&quot;,\n\t\tname: macroName,\n\t\tparams: params,\n\t\tisBlock: true\n\t}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/macrocallblock.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/macrocallinline.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/macrocallinline.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki rule for macro calls\n\n```\n&lt;&lt;name value value2&gt;&gt;\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;macrocallinline\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /&lt;&lt;([^\\s&gt;]+)\\s*([\\s\\S]*?)&gt;&gt;/mg;\n};\n\n/*\nParse the most recent match\n*/\nexports.parse = function() {\n\t// Get all the details of the match\n\tvar macroName = this.match[1],\n\t\tparamString = this.match[2];\n\t// Move past the macro call\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\tvar params = [],\n\t\treParam = /\\s*(?:([A-Za-z0-9\\-_]+)\\s*:)?(?:\\s*(?:\&quot;\&quot;\&quot;([\\s\\S]*?)\&quot;\&quot;\&quot;|\&quot;([^\&quot;]*)\&quot;|'([^']*)'|\\[\\[([^\\]]*)\\]\\]|([^\&quot;'\\s]+)))/mg,\n\t\tparamMatch = reParam.exec(paramString);\n\twhile(paramMatch) {\n\t\t// Process this parameter\n\t\tvar paramInfo = {\n\t\t\tvalue: paramMatch[2] || paramMatch[3] || paramMatch[4] || paramMatch[5]|| paramMatch[6]\n\t\t};\n\t\tif(paramMatch[1]) {\n\t\t\tparamInfo.name = paramMatch[1];\n\t\t}\n\t\tparams.push(paramInfo);\n\t\t// Find the next match\n\t\tparamMatch = reParam.exec(paramString);\n\t}\n\treturn [{\n\t\ttype: \&quot;macrocall\&quot;,\n\t\tname: macroName,\n\t\tparams: params\n\t}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/macrocallinline.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/macrodef.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/macrodef.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki pragma rule for macro definitions\n\n```\n\\define name(param:defaultvalue,param2:defaultvalue)\ndefinition text, including $param$ markers\n\\end\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;macrodef\&quot;;\nexports.types = {pragma: true};\n\n/*\nInstantiate parse rule\n*/\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /^\\\\define\\s+([^(\\s]+)\\(\\s*([^)]*)\\)(\\s*\\r?\\n)?/mg;\n};\n\n/*\nParse the most recent match\n*/\nexports.parse = function() {\n\t// Move past the macro name and parameters\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Parse the parameters\n\tvar paramString = this.match[2],\n\t\tparams = [];\n\tif(paramString !== \&quot;\&quot;) {\n\t\tvar reParam = /\\s*([A-Za-z0-9\\-_]+)(?:\\s*:\\s*(?:\&quot;\&quot;\&quot;([\\s\\S]*?)\&quot;\&quot;\&quot;|\&quot;([^\&quot;]*)\&quot;|'([^']*)'|\\[\\[([^\\]]*)\\]\\]|([^\&quot;'\\s]+)))?/mg,\n\t\t\tparamMatch = reParam.exec(paramString);\n\t\twhile(paramMatch) {\n\t\t\t// Save the parameter details\n\t\t\tvar paramInfo = {name: paramMatch[1]},\n\t\t\t\tdefaultValue = paramMatch[2] || paramMatch[3] || paramMatch[4] || paramMatch[5] || paramMatch[6];\n\t\t\tif(defaultValue) {\n\t\t\t\tparamInfo[\&quot;default\&quot;] = defaultValue;\n\t\t\t}\n\t\t\tparams.push(paramInfo);\n\t\t\t// Look for the next parameter\n\t\t\tparamMatch = reParam.exec(paramString);\n\t\t}\n\t}\n\t// Is this a multiline definition?\n\tvar reEnd;\n\tif(this.match[3]) {\n\t\t// If so, the end of the body is marked with \\end\n\t\treEnd = /(\\r?\\n\\\\end[^\\S\\n\\r]*(?:$|\\r?\\n))/mg;\n\t} else {\n\t\t// Otherwise, the end of the definition is marked by the end of the line\n\t\treEnd = /(\\r?\\n)/mg;\n\t\t// Move past any whitespace\n\t\tthis.parser.pos = $tw.utils.skipWhiteSpace(this.parser.source,this.parser.pos);\n\t}\n\t// Find the end of the definition\n\treEnd.lastIndex = this.parser.pos;\n\tvar text,\n\t\tendMatch = reEnd.exec(this.parser.source);\n\tif(endMatch) {\n\t\ttext = this.parser.source.substring(this.parser.pos,endMatch.index);\n\t\tthis.parser.pos = endMatch.index + endMatch[0].length;\n\t} else {\n\t\t// We didn't find the end of the definition, so we'll make it blank\n\t\ttext = \&quot;\&quot;;\n\t}\n\t// Save the macro definition\n\treturn [{\n\t\ttype: \&quot;set\&quot;,\n\t\tattributes: {\n\t\t\tname: {type: \&quot;string\&quot;, value: this.match[1]},\n\t\t\tvalue: {type: \&quot;string\&quot;, value: text}\n\t\t},\n\t\tchildren: [],\n\t\tparams: params\n\t}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/macrodef.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/prettyextlink.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/prettyextlink.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for external links. For example:\n\n```\n[ext[http://tiddlywiki.com/fractalveg.jpg]]\n[ext[Tooltip|http://tiddlywiki.com/fractalveg.jpg]]\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;prettyextlink\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n};\n\nexports.findNextMatch = function(startPos) {\n\t// Find the next tag\n\tthis.nextLink = this.findNextLink(this.parser.source,startPos);\n\treturn this.nextLink ? this.nextLink.start : undefined;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.nextLink.end;\n\treturn [this.nextLink];\n};\n\n/*\nFind the next link from the current position\n*/\nexports.findNextLink = function(source,pos) {\n\t// A regexp for finding candidate links\n\tvar reLookahead = /(\\[ext\\[)/g;\n\t// Find the next candidate\n\treLookahead.lastIndex = pos;\n\tvar match = reLookahead.exec(source);\n\twhile(match) {\n\t\t// Try to parse the candidate as a link\n\t\tvar link = this.parseLink(source,match.index);\n\t\t// Return success\n\t\tif(link) {\n\t\t\treturn link;\n\t\t}\n\t\t// Look for the next match\n\t\treLookahead.lastIndex = match.index + 1;\n\t\tmatch = reLookahead.exec(source);\n\t}\n\t// Failed\n\treturn null;\n};\n\n/*\nLook for an link at the specified position. Returns null if not found, otherwise returns {type: \&quot;element\&quot;, tag: \&quot;a\&quot;, attributes: [], isSelfClosing:, start:, end:,}\n*/\nexports.parseLink = function(source,pos) {\n\tvar token,\n\t\ttextNode = {\n\t\t\ttype: \&quot;text\&quot;\n\t\t},\n\t\tnode = {\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\ttag: \&quot;a\&quot;,\n\t\t\tstart: pos,\n\t\t\tattributes: {\n\t\t\t\t\&quot;class\&quot;: {type: \&quot;string\&quot;, value: \&quot;tc-tiddlylink-external\&quot;},\n\t\t\t},\n\t\t\tchildren: [textNode]\n\t\t};\n\t// Skip whitespace\n\tpos = $tw.utils.skipWhiteSpace(source,pos);\n\t// Look for the `[ext[`\n\ttoken = $tw.utils.parseTokenString(source,pos,\&quot;[ext[\&quot;);\n\tif(!token) {\n\t\treturn null;\n\t}\n\tpos = token.end;\n\t// Look ahead for the terminating `]]`\n\tvar closePos = source.indexOf(\&quot;]]\&quot;,pos);\n\tif(closePos === -1) {\n\t\treturn null;\n\t}\n\t// Look for a `|` separating the tooltip\n\tvar splitPos = source.indexOf(\&quot;|\&quot;,pos);\n\tif(splitPos === -1 || splitPos &gt; closePos) {\n\t\tsplitPos = null;\n\t}\n\t// Pull out the tooltip and URL\n\tvar tooltip, URL;\n\tif(splitPos) {\n\t\tURL = source.substring(splitPos + 1,closePos).trim();\n\t\ttextNode.text = source.substring(pos,splitPos).trim();\n\t} else {\n\t\tURL = source.substring(pos,closePos).trim();\n\t\ttextNode.text = URL;\n\t}\n\tnode.attributes.href = {type: \&quot;string\&quot;, value: URL};\n\tnode.attributes.target = {type: \&quot;string\&quot;, value: \&quot;_blank\&quot;};\n\t// Update the end position\n\tnode.end = closePos + 2;\n\treturn node;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/prettyextlink.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/prettylink.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/prettylink.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for pretty links. For example:\n\n```\n[[Introduction]]\n\n[[Link description|TiddlerTitle]]\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;prettylink\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /\\[\\[(.*?)(?:\\|(.*?))?\\]\\]/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Process the link\n\tvar text = this.match[1],\n\t\tlink = this.match[2] || text;\n\tif($tw.utils.isLinkExternal(link)) {\n\t\treturn [{\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\ttag: \&quot;a\&quot;,\n\t\t\tattributes: {\n\t\t\t\thref: {type: \&quot;string\&quot;, value: link},\n\t\t\t\t\&quot;class\&quot;: {type: \&quot;string\&quot;, value: \&quot;tc-tiddlylink-external\&quot;},\n\t\t\t\ttarget: {type: \&quot;string\&quot;, value: \&quot;_blank\&quot;}\n\t\t\t},\n\t\t\tchildren: [{\n\t\t\t\ttype: \&quot;text\&quot;, text: text\n\t\t\t}]\n\t\t}];\n\t} else {\n\t\treturn [{\n\t\t\ttype: \&quot;link\&quot;,\n\t\t\tattributes: {\n\t\t\t\tto: {type: \&quot;string\&quot;, value: link}\n\t\t\t},\n\t\t\tchildren: [{\n\t\t\t\ttype: \&quot;text\&quot;, text: text\n\t\t\t}]\n\t\t}];\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/prettylink.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/quoteblock.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/quoteblock.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text rule for quote blocks. For example:\n\n```\n\t&lt;&lt;&lt;.optionalClass(es) optional cited from\n\ta quote\n\t&lt;&lt;&lt;\n\t\n\t&lt;&lt;&lt;.optionalClass(es)\n\ta quote\n\t&lt;&lt;&lt; optional cited from\n```\n\nQuotes can be quoted by putting more &lt;s\n\n```\n\t&lt;&lt;&lt;\n\tQuote Level 1\n\t\n\t&lt;&lt;&lt;&lt;\n\tQuoteLevel 2\n\t&lt;&lt;&lt;&lt;\n\t\n\t&lt;&lt;&lt;\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;quoteblock\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /(&lt;&lt;&lt;+)/mg;\n};\n\nexports.parse = function() {\n\tvar classes = [\&quot;tc-quote\&quot;];\n\t// Get all the details of the match\n\tvar reEndString = \&quot;^\&quot; + this.match[1] + \&quot;(?!&lt;)\&quot;;\n\t// Move past the &lt;s\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t\n\t// Parse any classes, whitespace and then the optional cite itself\n\tclasses.push.apply(classes, this.parser.parseClasses());\n\tthis.parser.skipWhitespace({treatNewlinesAsNonWhitespace: true});\n\tvar cite = this.parser.parseInlineRun(/(\\r?\\n)/mg);\n\t// before handling the cite, parse the body of the quote\n\tvar tree= this.parser.parseBlocks(reEndString);\n\t// If we got a cite, put it before the text\n\tif(cite.length &gt; 0) {\n\t\ttree.unshift({\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\ttag: \&quot;cite\&quot;,\n\t\t\tchildren: cite\n\t\t});\n\t}\n\t// Parse any optional cite\n\tthis.parser.skipWhitespace({treatNewlinesAsNonWhitespace: true});\n\tcite = this.parser.parseInlineRun(/(\\r?\\n)/mg);\n\t// If we got a cite, push it\n\tif(cite.length &gt; 0) {\n\t\ttree.push({\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\ttag: \&quot;cite\&quot;,\n\t\t\tchildren: cite\n\t\t});\n\t}\n\t// Return the blockquote element\n\treturn [{\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;blockquote\&quot;,\n\t\tattributes: {\n\t\t\tclass: { type: \&quot;string\&quot;, value: classes.join(\&quot; \&quot;) },\n\t\t},\n\t\tchildren: tree\n\t}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/quoteblock.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/rules.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/rules.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki pragma rule for rules specifications\n\n```\n\\rules except ruleone ruletwo rulethree\n\\rules only ruleone ruletwo rulethree\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;rules\&quot;;\nexports.types = {pragma: true};\n\n/*\nInstantiate parse rule\n*/\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /^\\\\rules[^\\S\\n]/mg;\n};\n\n/*\nParse the most recent match\n*/\nexports.parse = function() {\n\t// Move past the pragma invocation\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Parse whitespace delimited tokens terminated by a line break\n\tvar reMatch = /[^\\S\\n]*(\\S+)|(\\r?\\n)/mg,\n\t\ttokens = [];\n\treMatch.lastIndex = this.parser.pos;\n\tvar match = reMatch.exec(this.parser.source);\n\twhile(match &amp;&amp; match.index === this.parser.pos) {\n\t\tthis.parser.pos = reMatch.lastIndex;\n\t\t// Exit if we've got the line break\n\t\tif(match[2]) {\n\t\t\tbreak;\n\t\t}\n\t\t// Process the token\n\t\tif(match[1]) {\n\t\t\ttokens.push(match[1]);\n\t\t}\n\t\t// Match the next token\n\t\tmatch = reMatch.exec(this.parser.source);\n\t}\n\t// Process the tokens\n\tif(tokens.length &gt; 0) {\n\t\tthis.parser.amendRules(tokens[0],tokens.slice(1));\n\t}\n\t// No parse tree nodes to return\n\treturn [];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/rules.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/styleblock.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/styleblock.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text block rule for assigning styles and classes to paragraphs and other blocks. For example:\n\n```\n@@.myClass\n@@background-color:red;\nThis paragraph will have the CSS class `myClass`.\n\n* The `&lt;ul&gt;` around this list will also have the class `myClass`\n* List item 2\n\n@@\n```\n\nNote that classes and styles can be mixed subject to the rule that styles must precede classes. For example\n\n```\n@@.myFirstClass.mySecondClass\n@@width:100px;.myThirdClass\nThis is a paragraph\n@@\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;styleblock\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /@@((?:[^\\.\\r\\n\\s:]+:[^\\r\\n;]+;)+)?(?:\\.([^\\r\\n\\s]+))?\\r?\\n/mg;\n};\n\nexports.parse = function() {\n\tvar reEndString = \&quot;^@@(?:\\\\r?\\\\n)?\&quot;;\n\tvar classes = [], styles = [];\n\tdo {\n\t\t// Get the class and style\n\t\tif(this.match[1]) {\n\t\t\tstyles.push(this.match[1]);\n\t\t}\n\t\tif(this.match[2]) {\n\t\t\tclasses.push(this.match[2].split(\&quot;.\&quot;).join(\&quot; \&quot;));\n\t\t}\n\t\t// Move past the match\n\t\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t\t// Look for another line of classes and styles\n\t\tthis.match = this.matchRegExp.exec(this.parser.source);\n\t} while(this.match &amp;&amp; this.match.index === this.parser.pos);\n\t// Parse the body\n\tvar tree = this.parser.parseBlocks(reEndString);\n\tfor(var t=0; t&lt;tree.length; t++) {\n\t\tif(classes.length &gt; 0) {\n\t\t\t$tw.utils.addClassToParseTreeNode(tree[t],classes.join(\&quot; \&quot;));\n\t\t}\n\t\tif(styles.length &gt; 0) {\n\t\t\t$tw.utils.addAttributeToParseTreeNode(tree[t],\&quot;style\&quot;,styles.join(\&quot;\&quot;));\n\t\t}\n\t}\n\treturn tree;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/styleblock.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/styleinline.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/styleinline.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for assigning styles and classes to inline runs. For example:\n\n```\n@@.myClass This is some text with a class@@\n@@background-color:red;This is some text with a background colour@@\n@@width:100px;.myClass This is some text with a class and a width@@\n```\n\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;styleinline\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /@@((?:[^\\.\\r\\n\\s:]+:[^\\r\\n;]+;)+)?(\\.(?:[^\\r\\n\\s]+)\\s+)?/mg;\n};\n\nexports.parse = function() {\n\tvar reEnd = /@@/g;\n\t// Get the styles and class\n\tvar stylesString = this.match[1],\n\t\tclassString = this.match[2] ? this.match[2].split(\&quot;.\&quot;).join(\&quot; \&quot;) : undefined;\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Parse the run up to the terminator\n\tvar tree = this.parser.parseInlineRun(reEnd,{eatTerminator: true});\n\t// Return the classed span\n\tvar node = {\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;span\&quot;,\n\t\tattributes: {\n\t\t\t\&quot;class\&quot;: {type: \&quot;string\&quot;, value: \&quot;tc-inline-style\&quot;}\n\t\t},\n\t\tchildren: tree\n\t};\n\tif(classString) {\n\t\t$tw.utils.addClassToParseTreeNode(node,classString);\n\t}\n\tif(stylesString) {\n\t\t$tw.utils.addAttributeToParseTreeNode(node,\&quot;style\&quot;,stylesString);\n\t}\n\treturn [node];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/styleinline.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/syslink.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/syslink.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for system tiddler links.\nCan be suppressed preceding them with `~`.\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;syslink\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /~?\\$:\\/[a-zA-Z0-9/.\\-_]+/mg;\n};\n\nexports.parse = function() {\n\tvar match = this.match[0];\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Create the link unless it is suppressed\n\tif(match.substr(0,1) === \&quot;~\&quot;) {\n\t\treturn [{type: \&quot;text\&quot;, text: match.substr(1)}];\n\t} else {\n\t\treturn [{\n\t\t\ttype: \&quot;link\&quot;,\n\t\t\tattributes: {\n\t\t\t\tto: {type: \&quot;string\&quot;, value: match}\n\t\t\t},\n\t\t\tchildren: [{\n\t\t\t\ttype: \&quot;text\&quot;,\n\t\t\t\ttext: match\n\t\t\t}]\n\t\t}];\n\t}\n};\n\n})();&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/syslink.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/table.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/table.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text block rule for tables.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;table\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /^\\|(?:[^\\n]*)\\|(?:[fhck]?)\\r?(?:\\n|$)/mg;\n};\n\nvar processRow = function(prevColumns) {\n\tvar cellRegExp = /(?:\\|([^\\n\\|]*)\\|)|(\\|[fhck]?\\r?(?:\\n|$))/mg,\n\t\tcellTermRegExp = /((?:\\x20*)\\|)/mg,\n\t\ttree = [],\n\t\tcol = 0,\n\t\tcolSpanCount = 1,\n\t\tprevCell,\n\t\tvAlign;\n\t// Match a single cell\n\tcellRegExp.lastIndex = this.parser.pos;\n\tvar cellMatch = cellRegExp.exec(this.parser.source);\n\twhile(cellMatch &amp;&amp; cellMatch.index === this.parser.pos) {\n\t\tif(cellMatch[1] === \&quot;~\&quot;) {\n\t\t\t// Rowspan\n\t\t\tvar last = prevColumns[col];\n\t\t\tif(last) {\n\t\t\t\tlast.rowSpanCount++;\n\t\t\t\t$tw.utils.addAttributeToParseTreeNode(last.element,\&quot;rowspan\&quot;,last.rowSpanCount);\n\t\t\t\tvAlign = $tw.utils.getAttributeValueFromParseTreeNode(last.element,\&quot;valign\&quot;,\&quot;center\&quot;);\n\t\t\t\t$tw.utils.addAttributeToParseTreeNode(last.element,\&quot;valign\&quot;,vAlign);\n\t\t\t\tif(colSpanCount &gt; 1) {\n\t\t\t\t\t$tw.utils.addAttributeToParseTreeNode(last.element,\&quot;colspan\&quot;,colSpanCount);\n\t\t\t\t\tcolSpanCount = 1;\n\t\t\t\t}\n\t\t\t}\n\t\t\t// Move to just before the `|` terminating the cell\n\t\t\tthis.parser.pos = cellRegExp.lastIndex - 1;\n\t\t} else if(cellMatch[1] === \&quot;&gt;\&quot;) {\n\t\t\t// Colspan\n\t\t\tcolSpanCount++;\n\t\t\t// Move to just before the `|` terminating the cell\n\t\t\tthis.parser.pos = cellRegExp.lastIndex - 1;\n\t\t} else if(cellMatch[1] === \&quot;&lt;\&quot; &amp;&amp; prevCell) {\n\t\t\tcolSpanCount = 1 + $tw.utils.getAttributeValueFromParseTreeNode(prevCell,\&quot;colspan\&quot;,1);\n\t\t\t$tw.utils.addAttributeToParseTreeNode(prevCell,\&quot;colspan\&quot;,colSpanCount);\n\t\t\tcolSpanCount = 1;\n\t\t\t// Move to just before the `|` terminating the cell\n\t\t\tthis.parser.pos = cellRegExp.lastIndex - 1;\n\t\t} else if(cellMatch[2]) {\n\t\t\t// End of row\n\t\t\tif(prevCell &amp;&amp; colSpanCount &gt; 1) {\n\t\t\t\tif(prevCell.attributes &amp;&amp; prevCell.attributes &amp;&amp; prevCell.attributes.colspan) {\n\t\t\t\t\t\tcolSpanCount += prevCell.attributes.colspan.value;\n\t\t\t\t} else {\n\t\t\t\t\tcolSpanCount -= 1;\n\t\t\t\t}\n\t\t\t\t$tw.utils.addAttributeToParseTreeNode(prevCell,\&quot;colspan\&quot;,colSpanCount);\n\t\t\t}\n\t\t\tthis.parser.pos = cellRegExp.lastIndex - 1;\n\t\t\tbreak;\n\t\t} else {\n\t\t\t// For ordinary cells, step beyond the opening `|`\n\t\t\tthis.parser.pos++;\n\t\t\t// Look for a space at the start of the cell\n\t\t\tvar spaceLeft = false;\n\t\t\tvAlign = null;\n\t\t\tif(this.parser.source.substr(this.parser.pos).search(/^\\^([^\\^]|\\^\\^)/) === 0) {\n\t\t\t\tvAlign = \&quot;top\&quot;;\n\t\t\t} else if(this.parser.source.substr(this.parser.pos).search(/^,([^,]|,,)/) === 0) {\n\t\t\t\tvAlign = \&quot;bottom\&quot;;\n\t\t\t}\n\t\t\tif(vAlign) {\n\t\t\t\tthis.parser.pos++;\n\t\t\t}\n\t\t\tvar chr = this.parser.source.substr(this.parser.pos,1);\n\t\t\twhile(chr === \&quot; \&quot;) {\n\t\t\t\tspaceLeft = true;\n\t\t\t\tthis.parser.pos++;\n\t\t\t\tchr = this.parser.source.substr(this.parser.pos,1);\n\t\t\t}\n\t\t\t// Check whether this is a heading cell\n\t\t\tvar cell;\n\t\t\tif(chr === \&quot;!\&quot;) {\n\t\t\t\tthis.parser.pos++;\n\t\t\t\tcell = {type: \&quot;element\&quot;, tag: \&quot;th\&quot;, children: []};\n\t\t\t} else {\n\t\t\t\tcell = {type: \&quot;element\&quot;, tag: \&quot;td\&quot;, children: []};\n\t\t\t}\n\t\t\ttree.push(cell);\n\t\t\t// Record information about this cell\n\t\t\tprevCell = cell;\n\t\t\tprevColumns[col] = {rowSpanCount:1,element:cell};\n\t\t\t// Check for a colspan\n\t\t\tif(colSpanCount &gt; 1) {\n\t\t\t\t$tw.utils.addAttributeToParseTreeNode(cell,\&quot;colspan\&quot;,colSpanCount);\n\t\t\t\tcolSpanCount = 1;\n\t\t\t}\n\t\t\t// Parse the cell\n\t\t\tcell.children = this.parser.parseInlineRun(cellTermRegExp,{eatTerminator: true});\n\t\t\t// Set the alignment for the cell\n\t\t\tif(vAlign) {\n\t\t\t\t$tw.utils.addAttributeToParseTreeNode(cell,\&quot;valign\&quot;,vAlign);\n\t\t\t}\n\t\t\tif(this.parser.source.substr(this.parser.pos - 2,1) === \&quot; \&quot;) { // spaceRight\n\t\t\t\t$tw.utils.addAttributeToParseTreeNode(cell,\&quot;align\&quot;,spaceLeft ? \&quot;center\&quot; : \&quot;left\&quot;);\n\t\t\t} else if(spaceLeft) {\n\t\t\t\t$tw.utils.addAttributeToParseTreeNode(cell,\&quot;align\&quot;,\&quot;right\&quot;);\n\t\t\t}\n\t\t\t// Move back to the closing `|`\n\t\t\tthis.parser.pos--;\n\t\t}\n\t\tcol++;\n\t\tcellRegExp.lastIndex = this.parser.pos;\n\t\tcellMatch = cellRegExp.exec(this.parser.source);\n\t}\n\treturn tree;\n};\n\nexports.parse = function() {\n\tvar rowContainerTypes = {\&quot;c\&quot;:\&quot;caption\&quot;, \&quot;h\&quot;:\&quot;thead\&quot;, \&quot;\&quot;:\&quot;tbody\&quot;, \&quot;f\&quot;:\&quot;tfoot\&quot;},\n\t\ttable = {type: \&quot;element\&quot;, tag: \&quot;table\&quot;, children: []},\n\t\trowRegExp = /^\\|([^\\n]*)\\|([fhck]?)\\r?(?:\\n|$)/mg,\n\t\trowTermRegExp = /(\\|(?:[fhck]?)\\r?(?:\\n|$))/mg,\n\t\tprevColumns = [],\n\t\tcurrRowType,\n\t\trowContainer,\n\t\trowCount = 0;\n\t// Match the row\n\trowRegExp.lastIndex = this.parser.pos;\n\tvar rowMatch = rowRegExp.exec(this.parser.source);\n\twhile(rowMatch &amp;&amp; rowMatch.index === this.parser.pos) {\n\t\tvar rowType = rowMatch[2];\n\t\t// Check if it is a class assignment\n\t\tif(rowType === \&quot;k\&quot;) {\n\t\t\t$tw.utils.addClassToParseTreeNode(table,rowMatch[1]);\n\t\t\tthis.parser.pos = rowMatch.index + rowMatch[0].length;\n\t\t} else {\n\t\t\t// Otherwise, create a new row if this one is of a different type\n\t\t\tif(rowType !== currRowType) {\n\t\t\t\trowContainer = {type: \&quot;element\&quot;, tag: rowContainerTypes[rowType], children: []};\n\t\t\t\ttable.children.push(rowContainer);\n\t\t\t\tcurrRowType = rowType;\n\t\t\t}\n\t\t\t// Is this a caption row?\n\t\t\tif(currRowType === \&quot;c\&quot;) {\n\t\t\t\t// If so, move past the opening `|` of the row\n\t\t\t\tthis.parser.pos++;\n\t\t\t\t// Move the caption to the first row if it isn't already\n\t\t\t\tif(table.children.length !== 1) {\n\t\t\t\t\ttable.children.pop(); // Take rowContainer out of the children array\n\t\t\t\t\ttable.children.splice(0,0,rowContainer); // Insert it at the bottom\t\t\t\t\t\t\n\t\t\t\t}\n\t\t\t\t// Set the alignment - TODO: figure out why TW did this\n//\t\t\t\trowContainer.attributes.align = rowCount === 0 ? \&quot;top\&quot; : \&quot;bottom\&quot;;\n\t\t\t\t// Parse the caption\n\t\t\t\trowContainer.children = this.parser.parseInlineRun(rowTermRegExp,{eatTerminator: true});\n\t\t\t} else {\n\t\t\t\t// Create the row\n\t\t\t\tvar theRow = {type: \&quot;element\&quot;, tag: \&quot;tr\&quot;, children: []};\n\t\t\t\t$tw.utils.addClassToParseTreeNode(theRow,rowCount%2 ? \&quot;oddRow\&quot; : \&quot;evenRow\&quot;);\n\t\t\t\trowContainer.children.push(theRow);\n\t\t\t\t// Process the row\n\t\t\t\ttheRow.children = processRow.call(this,prevColumns);\n\t\t\t\tthis.parser.pos = rowMatch.index + rowMatch[0].length;\n\t\t\t\t// Increment the row count\n\t\t\t\trowCount++;\n\t\t\t}\n\t\t}\n\t\trowMatch = rowRegExp.exec(this.parser.source);\n\t}\n\treturn [table];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/table.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/transcludeblock.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/transcludeblock.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text rule for block-level transclusion. For example:\n\n```\n{{MyTiddler}}\n{{MyTiddler||TemplateTitle}}\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;transcludeblock\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /\\{\\{([^\\{\\}\\|]*)(?:\\|\\|([^\\|\\{\\}]+))?\\}\\}(?:\\r?\\n|$)/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Get the match details\n\tvar template = $tw.utils.trim(this.match[2]),\n\t\ttextRef = $tw.utils.trim(this.match[1]);\n\t// Prepare the transclude widget\n\tvar transcludeNode = {\n\t\t\ttype: \&quot;transclude\&quot;,\n\t\t\tattributes: {},\n\t\t\tisBlock: true\n\t\t};\n\t// Prepare the tiddler widget\n\tvar tr, targetTitle, targetField, targetIndex, tiddlerNode;\n\tif(textRef) {\n\t\ttr = $tw.utils.parseTextReference(textRef);\n\t\ttargetTitle = tr.title;\n\t\ttargetField = tr.field;\n\t\ttargetIndex = tr.index;\n\t\ttiddlerNode = {\n\t\t\ttype: \&quot;tiddler\&quot;,\n\t\t\tattributes: {\n\t\t\t\ttiddler: {type: \&quot;string\&quot;, value: targetTitle}\n\t\t\t},\n\t\t\tisBlock: true,\n\t\t\tchildren: [transcludeNode]\n\t\t};\n\t}\n\tif(template) {\n\t\ttranscludeNode.attributes.tiddler = {type: \&quot;string\&quot;, value: template};\n\t\tif(textRef) {\n\t\t\treturn [tiddlerNode];\n\t\t} else {\n\t\t\treturn [transcludeNode];\n\t\t}\n\t} else {\n\t\tif(textRef) {\n\t\t\ttranscludeNode.attributes.tiddler = {type: \&quot;string\&quot;, value: targetTitle};\n\t\t\tif(targetField) {\n\t\t\t\ttranscludeNode.attributes.field = {type: \&quot;string\&quot;, value: targetField};\n\t\t\t}\n\t\t\tif(targetIndex) {\n\t\t\t\ttranscludeNode.attributes.index = {type: \&quot;string\&quot;, value: targetIndex};\n\t\t\t}\n\t\t\treturn [tiddlerNode];\n\t\t} else {\n\t\t\treturn [transcludeNode];\n\t\t}\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/transcludeblock.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/transcludeinline.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/transcludeinline.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text rule for inline-level transclusion. For example:\n\n```\n{{MyTiddler}}\n{{MyTiddler||TemplateTitle}}\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;transcludeinline\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /\\{\\{([^\\{\\}\\|]*)(?:\\|\\|([^\\|\\{\\}]+))?\\}\\}/mg;\n};\n\nexports.parse = function() {\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Get the match details\n\tvar template = $tw.utils.trim(this.match[2]),\n\t\ttextRef = $tw.utils.trim(this.match[1]);\n\t// Prepare the transclude widget\n\tvar transcludeNode = {\n\t\t\ttype: \&quot;transclude\&quot;,\n\t\t\tattributes: {}\n\t\t};\n\t// Prepare the tiddler widget\n\tvar tr, targetTitle, targetField, targetIndex, tiddlerNode;\n\tif(textRef) {\n\t\ttr = $tw.utils.parseTextReference(textRef);\n\t\ttargetTitle = tr.title;\n\t\ttargetField = tr.field;\n\t\ttargetIndex = tr.index;\n\t\ttiddlerNode = {\n\t\t\ttype: \&quot;tiddler\&quot;,\n\t\t\tattributes: {\n\t\t\t\ttiddler: {type: \&quot;string\&quot;, value: targetTitle}\n\t\t\t},\n\t\t\tchildren: [transcludeNode]\n\t\t};\n\t}\n\tif(template) {\n\t\ttranscludeNode.attributes.tiddler = {type: \&quot;string\&quot;, value: template};\n\t\tif(textRef) {\n\t\t\treturn [tiddlerNode];\n\t\t} else {\n\t\t\treturn [transcludeNode];\n\t\t}\n\t} else {\n\t\tif(textRef) {\n\t\t\ttranscludeNode.attributes.tiddler = {type: \&quot;string\&quot;, value: targetTitle};\n\t\t\tif(targetField) {\n\t\t\t\ttranscludeNode.attributes.field = {type: \&quot;string\&quot;, value: targetField};\n\t\t\t}\n\t\t\tif(targetIndex) {\n\t\t\t\ttranscludeNode.attributes.index = {type: \&quot;string\&quot;, value: targetIndex};\n\t\t\t}\n\t\t\treturn [tiddlerNode];\n\t\t} else {\n\t\t\treturn [transcludeNode];\n\t\t}\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/transcludeinline.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/typedblock.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/typedblock.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text rule for typed blocks. For example:\n\n```\n$$$.js\nThis will be rendered as JavaScript\n$$$\n\n$$$.svg\n&lt;svg xmlns=\&quot;http://www.w3.org/2000/svg\&quot; width=\&quot;150\&quot; height=\&quot;100\&quot;&gt;\n  &lt;circle cx=\&quot;100\&quot; cy=\&quot;50\&quot; r=\&quot;40\&quot; stroke=\&quot;black\&quot; stroke-width=\&quot;2\&quot; fill=\&quot;red\&quot; /&gt;\n&lt;/svg&gt;\n$$$\n\n$$$text/vnd.tiddlywiki&gt;text/html\nThis will be rendered as an //HTML representation// of WikiText\n$$$\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;);\n\nexports.name = \&quot;typedblock\&quot;;\nexports.types = {block: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = /\\$\\$\\$([^ &gt;\\r\\n]*)(?: *&gt; *([^ \\r\\n]+))?\\r?\\n/mg;\n};\n\nexports.parse = function() {\n\tvar reEnd = /\\r?\\n\\$\\$\\$\\r?(?:\\n|$)/mg;\n\t// Save the type\n\tvar parseType = this.match[1],\n\t\trenderType = this.match[2];\n\t// Move past the match\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// Look for the end of the block\n\treEnd.lastIndex = this.parser.pos;\n\tvar match = reEnd.exec(this.parser.source),\n\t\ttext;\n\t// Process the block\n\tif(match) {\n\t\ttext = this.parser.source.substring(this.parser.pos,match.index);\n\t\tthis.parser.pos = match.index + match[0].length;\n\t} else {\n\t\ttext = this.parser.source.substr(this.parser.pos);\n\t\tthis.parser.pos = this.parser.sourceLength;\n\t}\n\t// Parse the block according to the specified type\n\tvar parser = this.parser.wiki.parseText(parseType,text,{defaultType: \&quot;text/plain\&quot;});\n\t// If there's no render type, just return the parse tree\n\tif(!renderType) {\n\t\treturn parser.tree;\n\t} else {\n\t\t// Otherwise, render to the rendertype and return in a &lt;PRE&gt; tag\n\t\tvar widgetNode = this.parser.wiki.makeWidget(parser),\n\t\t\tcontainer = $tw.fakeDocument.createElement(\&quot;div\&quot;);\n\t\twidgetNode.render(container,null);\n\t\ttext = renderType === \&quot;text/html\&quot; ? container.innerHTML : container.textContent;\n\t\treturn [{\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\ttag: \&quot;pre\&quot;,\n\t\t\tchildren: [{\n\t\t\t\ttype: \&quot;text\&quot;,\n\t\t\t\ttext: text\n\t\t\t}]\n\t\t}];\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/typedblock.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/wikilink.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/wikilink.js\ntype: application/javascript\nmodule-type: wikirule\n\nWiki text inline rule for wiki links. For example:\n\n```\nAWikiLink\nAnotherLink\n~SuppressedLink\n```\n\nPrecede a camel case word with `~` to prevent it from being recognised as a link.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.name = \&quot;wikilink\&quot;;\nexports.types = {inline: true};\n\nexports.init = function(parser) {\n\tthis.parser = parser;\n\t// Regexp to match\n\tthis.matchRegExp = new RegExp($tw.config.textPrimitives.unWikiLink + \&quot;?\&quot; + $tw.config.textPrimitives.wikiLink,\&quot;mg\&quot;);\n};\n\n/*\nParse the most recent match\n*/\nexports.parse = function() {\n\t// Get the details of the match\n\tvar linkText = this.match[0];\n\t// Move past the macro call\n\tthis.parser.pos = this.matchRegExp.lastIndex;\n\t// If the link starts with the unwikilink character then just output it as plain text\n\tif(linkText.substr(0,1) === $tw.config.textPrimitives.unWikiLink) {\n\t\treturn [{type: \&quot;text\&quot;, text: linkText.substr(1)}];\n\t}\n\t// If the link has been preceded with a blocked letter then don't treat it as a link\n\tif(this.match.index &gt; 0) {\n\t\tvar preRegExp = new RegExp($tw.config.textPrimitives.blockPrefixLetters,\&quot;mg\&quot;);\n\t\tpreRegExp.lastIndex = this.match.index-1;\n\t\tvar preMatch = preRegExp.exec(this.parser.source);\n\t\tif(preMatch &amp;&amp; preMatch.index === this.match.index-1) {\n\t\t\treturn [{type: \&quot;text\&quot;, text: linkText}];\n\t\t}\n\t}\n\treturn [{\n\t\ttype: \&quot;link\&quot;,\n\t\tattributes: {\n\t\t\tto: {type: \&quot;string\&quot;, value: linkText}\n\t\t},\n\t\tchildren: [{\n\t\t\ttype: \&quot;text\&quot;,\n\t\t\ttext: linkText\n\t\t}]\n\t}];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/wikilink.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikirule&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/wikiparser.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/wikiparser.js\ntype: application/javascript\nmodule-type: parser\n\nThe wiki text parser processes blocks of source text into a parse tree.\n\nThe parse tree is made up of nested arrays of these JavaScript objects:\n\n\t{type: \&quot;element\&quot;, tag: &lt;string&gt;, attributes: {}, children: []} - an HTML element\n\t{type: \&quot;text\&quot;, text: &lt;string&gt;} - a text node\n\t{type: \&quot;entity\&quot;, value: &lt;string&gt;} - an entity\n\t{type: \&quot;raw\&quot;, html: &lt;string&gt;} - raw HTML\n\nAttributes are stored as hashmaps of the following objects:\n\n\t{type: \&quot;string\&quot;, value: &lt;string&gt;} - literal string\n\t{type: \&quot;indirect\&quot;, textReference: &lt;textReference&gt;} - indirect through a text reference\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar WikiParser = function(type,text,options) {\n\tthis.wiki = options.wiki;\n\tvar self = this;\n\t// Check for an externally linked tiddler\n\tif($tw.browser &amp;&amp; (text || \&quot;\&quot;) === \&quot;\&quot; &amp;&amp; options._canonical_uri) {\n\t\tthis.loadRemoteTiddler(options._canonical_uri);\n\t\ttext = $tw.language.getRawString(\&quot;LazyLoadingWarning\&quot;);\n\t}\n\t// Initialise the classes if we don't have them already\n\tif(!this.pragmaRuleClasses) {\n\t\tWikiParser.prototype.pragmaRuleClasses = $tw.modules.createClassesFromModules(\&quot;wikirule\&quot;,\&quot;pragma\&quot;,$tw.WikiRuleBase);\n\t\tthis.setupRules(WikiParser.prototype.pragmaRuleClasses,\&quot;$:/config/WikiParserRules/Pragmas/\&quot;);\n\t}\n\tif(!this.blockRuleClasses) {\n\t\tWikiParser.prototype.blockRuleClasses = $tw.modules.createClassesFromModules(\&quot;wikirule\&quot;,\&quot;block\&quot;,$tw.WikiRuleBase);\n\t\tthis.setupRules(WikiParser.prototype.blockRuleClasses,\&quot;$:/config/WikiParserRules/Block/\&quot;);\n\t}\n\tif(!this.inlineRuleClasses) {\n\t\tWikiParser.prototype.inlineRuleClasses = $tw.modules.createClassesFromModules(\&quot;wikirule\&quot;,\&quot;inline\&quot;,$tw.WikiRuleBase);\n\t\tthis.setupRules(WikiParser.prototype.inlineRuleClasses,\&quot;$:/config/WikiParserRules/Inline/\&quot;);\n\t}\n\t// Save the parse text\n\tthis.type = type || \&quot;text/vnd.tiddlywiki\&quot;;\n\tthis.source = text || \&quot;\&quot;;\n\tthis.sourceLength = this.source.length;\n\t// Set current parse position\n\tthis.pos = 0;\n\t// Instantiate the pragma parse rules\n\tthis.pragmaRules = this.instantiateRules(this.pragmaRuleClasses,\&quot;pragma\&quot;,0);\n\t// Instantiate the parser block and inline rules\n\tthis.blockRules = this.instantiateRules(this.blockRuleClasses,\&quot;block\&quot;,0);\n\tthis.inlineRules = this.instantiateRules(this.inlineRuleClasses,\&quot;inline\&quot;,0);\n\t// Parse any pragmas\n\tthis.tree = [];\n\tvar topBranch = this.parsePragmas();\n\t// Parse the text into inline runs or blocks\n\tif(options.parseAsInline) {\n\t\ttopBranch.push.apply(topBranch,this.parseInlineRun());\n\t} else {\n\t\ttopBranch.push.apply(topBranch,this.parseBlocks());\n\t}\n\t// Return the parse tree\n};\n\n/*\n*/\nWikiParser.prototype.loadRemoteTiddler = function(url) {\n\tvar self = this;\n\t$tw.utils.httpRequest({\n\t\turl: url,\n\t\ttype: \&quot;GET\&quot;,\n\t\tcallback: function(err,data) {\n\t\t\tif(!err) {\n\t\t\t\tvar tiddlers = self.wiki.deserializeTiddlers(\&quot;.tid\&quot;,data,self.wiki.getCreationFields());\n\t\t\t\t$tw.utils.each(tiddlers,function(tiddler) {\n\t\t\t\t\ttiddler[\&quot;_canonical_uri\&quot;] = url;\n\t\t\t\t});\n\t\t\t\tif(tiddlers) {\n\t\t\t\t\tself.wiki.addTiddlers(tiddlers);\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t});\n};\n\n/*\n*/\nWikiParser.prototype.setupRules = function(proto,configPrefix) {\n\tvar self = this;\n\tif(!$tw.safemode) {\n\t\t$tw.utils.each(proto,function(object,name) {\n\t\t\tif(self.wiki.getTiddlerText(configPrefix + name,\&quot;enable\&quot;) !== \&quot;enable\&quot;) {\n\t\t\t\tdelete proto[name];\n\t\t\t}\n\t\t});\n\t}\n};\n\n/*\nInstantiate an array of parse rules\n*/\nWikiParser.prototype.instantiateRules = function(classes,type,startPos) {\n\tvar rulesInfo = [],\n\t\tself = this;\n\t$tw.utils.each(classes,function(RuleClass) {\n\t\t// Instantiate the rule\n\t\tvar rule = new RuleClass(self);\n\t\trule.is = {};\n\t\trule.is[type] = true;\n\t\trule.init(self);\n\t\tvar matchIndex = rule.findNextMatch(startPos);\n\t\tif(matchIndex !== undefined) {\n\t\t\trulesInfo.push({\n\t\t\t\trule: rule,\n\t\t\t\tmatchIndex: matchIndex\n\t\t\t});\n\t\t}\n\t});\n\treturn rulesInfo;\n};\n\n/*\nSkip any whitespace at the current position. Options are:\n\ttreatNewlinesAsNonWhitespace: true if newlines are NOT to be treated as whitespace\n*/\nWikiParser.prototype.skipWhitespace = function(options) {\n\toptions = options || {};\n\tvar whitespaceRegExp = options.treatNewlinesAsNonWhitespace ? /([^\\S\\n]+)/mg : /(\\s+)/mg;\n\twhitespaceRegExp.lastIndex = this.pos;\n\tvar whitespaceMatch = whitespaceRegExp.exec(this.source);\n\tif(whitespaceMatch &amp;&amp; whitespaceMatch.index === this.pos) {\n\t\tthis.pos = whitespaceRegExp.lastIndex;\n\t}\n};\n\n/*\nGet the next match out of an array of parse rule instances\n*/\nWikiParser.prototype.findNextMatch = function(rules,startPos) {\n\t// Find the best matching rule by finding the closest match position\n\tvar matchingRule,\n\t\tmatchingRulePos = this.sourceLength;\n\t// Step through each rule\n\tfor(var t=0; t&lt;rules.length; t++) {\n\t\tvar ruleInfo = rules[t];\n\t\t// Ask the rule to get the next match if we've moved past the current one\n\t\tif(ruleInfo.matchIndex !== undefined  &amp;&amp; ruleInfo.matchIndex &lt; startPos) {\n\t\t\truleInfo.matchIndex = ruleInfo.rule.findNextMatch(startPos);\n\t\t}\n\t\t// Adopt this match if it's closer than the current best match\n\t\tif(ruleInfo.matchIndex !== undefined &amp;&amp; ruleInfo.matchIndex &lt;= matchingRulePos) {\n\t\t\tmatchingRule = ruleInfo;\n\t\t\tmatchingRulePos = ruleInfo.matchIndex;\n\t\t}\n\t}\n\treturn matchingRule;\n};\n\n/*\nParse any pragmas at the beginning of a block of parse text\n*/\nWikiParser.prototype.parsePragmas = function() {\n\tvar currentTreeBranch = this.tree;\n\twhile(true) {\n\t\t// Skip whitespace\n\t\tthis.skipWhitespace();\n\t\t// Check for the end of the text\n\t\tif(this.pos &gt;= this.sourceLength) {\n\t\t\tbreak;\n\t\t}\n\t\t// Check if we've arrived at a pragma rule match\n\t\tvar nextMatch = this.findNextMatch(this.pragmaRules,this.pos);\n\t\t// If not, just exit\n\t\tif(!nextMatch || nextMatch.matchIndex !== this.pos) {\n\t\t\tbreak;\n\t\t}\n\t\t// Process the pragma rule\n\t\tvar subTree = nextMatch.rule.parse();\n\t\tif(subTree.length &gt; 0) {\n\t\t\t// Quick hack; we only cope with a single parse tree node being returned, which is true at the moment\n\t\t\tcurrentTreeBranch.push.apply(currentTreeBranch,subTree);\n\t\t\tsubTree[0].children = [];\n\t\t\tcurrentTreeBranch = subTree[0].children;\n\t\t}\n\t}\n\treturn currentTreeBranch;\n};\n\n/*\nParse a block from the current position\n\tterminatorRegExpString: optional regular expression string that identifies the end of plain paragraphs. Must not include capturing parenthesis\n*/\nWikiParser.prototype.parseBlock = function(terminatorRegExpString) {\n\tvar terminatorRegExp = terminatorRegExpString ? new RegExp(\&quot;(\&quot; + terminatorRegExpString + \&quot;|\\\\r?\\\\n\\\\r?\\\\n)\&quot;,\&quot;mg\&quot;) : /(\\r?\\n\\r?\\n)/mg;\n\tthis.skipWhitespace();\n\tif(this.pos &gt;= this.sourceLength) {\n\t\treturn [];\n\t}\n\t// Look for a block rule that applies at the current position\n\tvar nextMatch = this.findNextMatch(this.blockRules,this.pos);\n\tif(nextMatch &amp;&amp; nextMatch.matchIndex === this.pos) {\n\t\treturn nextMatch.rule.parse();\n\t}\n\t// Treat it as a paragraph if we didn't find a block rule\n\treturn [{type: \&quot;element\&quot;, tag: \&quot;p\&quot;, children: this.parseInlineRun(terminatorRegExp)}];\n};\n\n/*\nParse a series of blocks of text until a terminating regexp is encountered or the end of the text\n\tterminatorRegExpString: terminating regular expression\n*/\nWikiParser.prototype.parseBlocks = function(terminatorRegExpString) {\n\tif(terminatorRegExpString) {\n\t\treturn this.parseBlocksTerminated(terminatorRegExpString);\n\t} else {\n\t\treturn this.parseBlocksUnterminated();\n\t}\n};\n\n/*\nParse a block from the current position to the end of the text\n*/\nWikiParser.prototype.parseBlocksUnterminated = function() {\n\tvar tree = [];\n\twhile(this.pos &lt; this.sourceLength) {\n\t\ttree.push.apply(tree,this.parseBlock());\n\t}\n\treturn tree;\n};\n\n/*\nParse blocks of text until a terminating regexp is encountered\n*/\nWikiParser.prototype.parseBlocksTerminated = function(terminatorRegExpString) {\n\tvar terminatorRegExp = new RegExp(\&quot;(\&quot; + terminatorRegExpString + \&quot;)\&quot;,\&quot;mg\&quot;),\n\t\ttree = [];\n\t// Skip any whitespace\n\tthis.skipWhitespace();\n\t//  Check if we've got the end marker\n\tterminatorRegExp.lastIndex = this.pos;\n\tvar match = terminatorRegExp.exec(this.source);\n\t// Parse the text into blocks\n\twhile(this.pos &lt; this.sourceLength &amp;&amp; !(match &amp;&amp; match.index === this.pos)) {\n\t\tvar blocks = this.parseBlock(terminatorRegExpString);\n\t\ttree.push.apply(tree,blocks);\n\t\t// Skip any whitespace\n\t\tthis.skipWhitespace();\n\t\t//  Check if we've got the end marker\n\t\tterminatorRegExp.lastIndex = this.pos;\n\t\tmatch = terminatorRegExp.exec(this.source);\n\t}\n\tif(match &amp;&amp; match.index === this.pos) {\n\t\tthis.pos = match.index + match[0].length;\n\t}\n\treturn tree;\n};\n\n/*\nParse a run of text at the current position\n\tterminatorRegExp: a regexp at which to stop the run\n\toptions: see below\nOptions available:\n\teatTerminator: move the parse position past any encountered terminator (default false)\n*/\nWikiParser.prototype.parseInlineRun = function(terminatorRegExp,options) {\n\tif(terminatorRegExp) {\n\t\treturn this.parseInlineRunTerminated(terminatorRegExp,options);\n\t} else {\n\t\treturn this.parseInlineRunUnterminated(options);\n\t}\n};\n\nWikiParser.prototype.parseInlineRunUnterminated = function(options) {\n\tvar tree = [];\n\t// Find the next occurrence of an inline rule\n\tvar nextMatch = this.findNextMatch(this.inlineRules,this.pos);\n\t// Loop around the matches until we've reached the end of the text\n\twhile(this.pos &lt; this.sourceLength &amp;&amp; nextMatch) {\n\t\t// Process the text preceding the run rule\n\t\tif(nextMatch.matchIndex &gt; this.pos) {\n\t\t\ttree.push({type: \&quot;text\&quot;, text: this.source.substring(this.pos,nextMatch.matchIndex)});\n\t\t\tthis.pos = nextMatch.matchIndex;\n\t\t}\n\t\t// Process the run rule\n\t\ttree.push.apply(tree,nextMatch.rule.parse());\n\t\t// Look for the next run rule\n\t\tnextMatch = this.findNextMatch(this.inlineRules,this.pos);\n\t}\n\t// Process the remaining text\n\tif(this.pos &lt; this.sourceLength) {\n\t\ttree.push({type: \&quot;text\&quot;, text: this.source.substr(this.pos)});\n\t}\n\tthis.pos = this.sourceLength;\n\treturn tree;\n};\n\nWikiParser.prototype.parseInlineRunTerminated = function(terminatorRegExp,options) {\n\toptions = options || {};\n\tvar tree = [];\n\t// Find the next occurrence of the terminator\n\tterminatorRegExp.lastIndex = this.pos;\n\tvar terminatorMatch = terminatorRegExp.exec(this.source);\n\t// Find the next occurrence of a inlinerule\n\tvar inlineRuleMatch = this.findNextMatch(this.inlineRules,this.pos);\n\t// Loop around until we've reached the end of the text\n\twhile(this.pos &lt; this.sourceLength &amp;&amp; (terminatorMatch || inlineRuleMatch)) {\n\t\t// Return if we've found the terminator, and it precedes any inline rule match\n\t\tif(terminatorMatch) {\n\t\t\tif(!inlineRuleMatch || inlineRuleMatch.matchIndex &gt;= terminatorMatch.index) {\n\t\t\t\tif(terminatorMatch.index &gt; this.pos) {\n\t\t\t\t\ttree.push({type: \&quot;text\&quot;, text: this.source.substring(this.pos,terminatorMatch.index)});\n\t\t\t\t}\n\t\t\t\tthis.pos = terminatorMatch.index;\n\t\t\t\tif(options.eatTerminator) {\n\t\t\t\t\tthis.pos += terminatorMatch[0].length;\n\t\t\t\t}\n\t\t\t\treturn tree;\n\t\t\t}\n\t\t}\n\t\t// Process any inline rule, along with the text preceding it\n\t\tif(inlineRuleMatch) {\n\t\t\t// Preceding text\n\t\t\tif(inlineRuleMatch.matchIndex &gt; this.pos) {\n\t\t\t\ttree.push({type: \&quot;text\&quot;, text: this.source.substring(this.pos,inlineRuleMatch.matchIndex)});\n\t\t\t\tthis.pos = inlineRuleMatch.matchIndex;\n\t\t\t}\n\t\t\t// Process the inline rule\n\t\t\ttree.push.apply(tree,inlineRuleMatch.rule.parse());\n\t\t\t// Look for the next inline rule\n\t\t\tinlineRuleMatch = this.findNextMatch(this.inlineRules,this.pos);\n\t\t\t// Look for the next terminator match\n\t\t\tterminatorRegExp.lastIndex = this.pos;\n\t\t\tterminatorMatch = terminatorRegExp.exec(this.source);\n\t\t}\n\t}\n\t// Process the remaining text\n\tif(this.pos &lt; this.sourceLength) {\n\t\ttree.push({type: \&quot;text\&quot;, text: this.source.substr(this.pos)});\n\t}\n\tthis.pos = this.sourceLength;\n\treturn tree;\n};\n\n/*\nParse zero or more class specifiers `.classname`\n*/\nWikiParser.prototype.parseClasses = function() {\n\tvar classRegExp = /\\.([^\\s\\.]+)/mg,\n\t\tclassNames = [];\n\tclassRegExp.lastIndex = this.pos;\n\tvar match = classRegExp.exec(this.source);\n\twhile(match &amp;&amp; match.index === this.pos) {\n\t\tthis.pos = match.index + match[0].length;\n\t\tclassNames.push(match[1]);\n\t\tmatch = classRegExp.exec(this.source);\n\t}\n\treturn classNames;\n};\n\n/*\nAmend the rules used by this instance of the parser\n\ttype: `only` keeps just the named rules, `except` keeps all but the named rules\n\tnames: array of rule names\n*/\nWikiParser.prototype.amendRules = function(type,names) {\n\tnames = names || [];\n\t// Define the filter function\n\tvar keepFilter;\n\tif(type === \&quot;only\&quot;) {\n\t\tkeepFilter = function(name) {\n\t\t\treturn names.indexOf(name) !== -1;\n\t\t};\n\t} else if(type === \&quot;except\&quot;) {\n\t\tkeepFilter = function(name) {\n\t\t\treturn names.indexOf(name) === -1;\n\t\t};\n\t} else {\n\t\treturn;\n\t}\n\t// Define a function to process each of our rule arrays\n\tvar processRuleArray = function(ruleArray) {\n\t\tfor(var t=ruleArray.length-1; t&gt;=0; t--) {\n\t\t\tif(!keepFilter(ruleArray[t].rule.name)) {\n\t\t\t\truleArray.splice(t,1);\n\t\t\t}\n\t\t}\n\t};\n\t// Process each rule array\n\tprocessRuleArray(this.pragmaRules);\n\tprocessRuleArray(this.blockRules);\n\tprocessRuleArray(this.inlineRules);\n};\n\nexports[\&quot;text/vnd.tiddlywiki\&quot;] = WikiParser;\n\n})();\n\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/wikiparser.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;parser&quot;
        },
        &quot;$:/core/modules/parsers/wikiparser/rules/wikirulebase.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/parsers/wikiparser/rules/wikirulebase.js\ntype: application/javascript\nmodule-type: global\n\nBase class for wiki parser rules\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nThis constructor is always overridden with a blank constructor, and so shouldn't be used\n*/\nvar WikiRuleBase = function() {\n};\n\n/*\nTo be overridden by individual rules\n*/\nWikiRuleBase.prototype.init = function(parser) {\n\tthis.parser = parser;\n};\n\n/*\nDefault implementation of findNextMatch uses RegExp matching\n*/\nWikiRuleBase.prototype.findNextMatch = function(startPos) {\n\tthis.matchRegExp.lastIndex = startPos;\n\tthis.match = this.matchRegExp.exec(this.parser.source);\n\treturn this.match ? this.match.index : undefined;\n};\n\nexports.WikiRuleBase = WikiRuleBase;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/parsers/wikiparser/rules/wikirulebase.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;global&quot;
        },
        &quot;$:/core/modules/pluginswitcher.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/pluginswitcher.js\ntype: application/javascript\nmodule-type: global\n\nManages switching plugins for themes and languages.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\noptions:\nwiki: wiki store to be used\npluginType: type of plugin to be switched\ncontrollerTitle: title of tiddler used to control switching of this resource\ndefaultPlugins: array of default plugins to be used if nominated plugin isn't found\n*/\nfunction PluginSwitcher(options) {\n\tthis.wiki = options.wiki;\n\tthis.pluginType = options.pluginType;\n\tthis.controllerTitle = options.controllerTitle;\n\tthis.defaultPlugins = options.defaultPlugins || [];\n\t// Switch to the current plugin\n\tthis.switchPlugins();\n\t// Listen for changes to the selected plugin\n\tvar self = this;\n\tthis.wiki.addEventListener(\&quot;change\&quot;,function(changes) {\n\t\tif($tw.utils.hop(changes,self.controllerTitle)) {\n\t\t\tself.switchPlugins();\n\t\t}\n\t});\n}\n\nPluginSwitcher.prototype.switchPlugins = function() {\n\t// Get the name of the current theme\n\tvar selectedPluginTitle = this.wiki.getTiddlerText(this.controllerTitle);\n\t// If it doesn't exist, then fallback to one of the default themes\n\tvar index = 0;\n\twhile(!this.wiki.getTiddler(selectedPluginTitle) &amp;&amp; index &lt; this.defaultPlugins.length) {\n\t\tselectedPluginTitle = this.defaultPlugins[index++];\n\t}\n\t// Accumulate the titles of the plugins that we need to load\n\tvar plugins = [],\n\t\tself = this,\n\t\taccumulatePlugin = function(title) {\n\t\t\tvar tiddler = self.wiki.getTiddler(title);\n\t\t\tif(tiddler &amp;&amp; tiddler.isPlugin() &amp;&amp; plugins.indexOf(title) === -1) {\n\t\t\t\tplugins.push(title);\n\t\t\t\tvar pluginInfo = JSON.parse(self.wiki.getTiddlerText(title)),\n\t\t\t\t\tdependents = $tw.utils.parseStringArray(tiddler.fields.dependents || \&quot;\&quot;);\n\t\t\t\t$tw.utils.each(dependents,function(title) {\n\t\t\t\t\taccumulatePlugin(title);\n\t\t\t\t});\n\t\t\t}\n\t\t};\n\taccumulatePlugin(selectedPluginTitle);\n\t// Unregister any existing theme tiddlers\n\tvar unregisteredTiddlers = $tw.wiki.unregisterPluginTiddlers(this.pluginType);\n\t// Register any new theme tiddlers\n\tvar registeredTiddlers = $tw.wiki.registerPluginTiddlers(this.pluginType,plugins);\n\t// Unpack the current theme tiddlers\n\t$tw.wiki.unpackPluginTiddlers();\n};\n\nexports.PluginSwitcher = PluginSwitcher;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/pluginswitcher.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;global&quot;
        },
        &quot;$:/core/modules/saver-handler.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/saver-handler.js\ntype: application/javascript\nmodule-type: global\n\nThe saver handler tracks changes to the store and handles saving the entire wiki via saver modules.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInstantiate the saver handler with the following options:\nwiki: wiki to be synced\ndirtyTracking: true if dirty tracking should be performed\n*/\nfunction SaverHandler(options) {\n\tvar self = this;\n\tthis.wiki = options.wiki;\n\tthis.dirtyTracking = options.dirtyTracking;\n\tthis.pendingAutoSave = false;\n\t// Make a logger\n\tthis.logger = new $tw.utils.Logger(\&quot;saver-handler\&quot;);\n\t// Initialise our savers\n\tif($tw.browser) {\n\t\tthis.initSavers();\n\t}\n\t// Only do dirty tracking if required\n\tif($tw.browser &amp;&amp; this.dirtyTracking) {\n\t\t// Compile the dirty tiddler filter\n\t\tthis.filterFn = this.wiki.compileFilter(this.wiki.getTiddlerText(this.titleSyncFilter));\n\t\t// Count of changes that have not yet been saved\n\t\tthis.numChanges = 0;\n\t\t// Listen out for changes to tiddlers\n\t\tthis.wiki.addEventListener(\&quot;change\&quot;,function(changes) {\n\t\t\t// Filter the changes so that we only count changes to tiddlers that we care about\n\t\t\tvar filteredChanges = self.filterFn.call(self.wiki,function(callback) {\n\t\t\t\t$tw.utils.each(changes,function(change,title) {\n\t\t\t\t\tvar tiddler = self.wiki.getTiddler(title);\n\t\t\t\t\tcallback(tiddler,title);\n\t\t\t\t});\n\t\t\t});\n\t\t\t// Adjust the number of changes\n\t\t\tself.numChanges += filteredChanges.length;\n\t\t\tself.updateDirtyStatus();\n\t\t\t// Do any autosave if one is pending and there's no more change events\n\t\t\tif(self.pendingAutoSave &amp;&amp; self.wiki.getSizeOfTiddlerEventQueue() === 0) {\n\t\t\t\t// Check if we're dirty\n\t\t\t\tif(self.numChanges &gt; 0) {\n\t\t\t\t\tself.saveWiki({\n\t\t\t\t\t\tmethod: \&quot;autosave\&quot;,\n\t\t\t\t\t\tdownloadType: \&quot;text/plain\&quot;\n\t\t\t\t\t});\n\t\t\t\t}\n\t\t\t\tself.pendingAutoSave = false;\n\t\t\t}\n\t\t});\n\t\t// Listen for the autosave event\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-auto-save-wiki\&quot;,function(event) {\n\t\t\t// Do the autosave unless there are outstanding tiddler change events\n\t\t\tif(self.wiki.getSizeOfTiddlerEventQueue() === 0) {\n\t\t\t\t// Check if we're dirty\n\t\t\t\tif(self.numChanges &gt; 0) {\n\t\t\t\t\tself.saveWiki({\n\t\t\t\t\t\tmethod: \&quot;autosave\&quot;,\n\t\t\t\t\t\tdownloadType: \&quot;text/plain\&quot;\n\t\t\t\t\t});\n\t\t\t\t}\n\t\t\t} else {\n\t\t\t\t// Otherwise put ourselves in the \&quot;pending autosave\&quot; state and wait for the change event before we do the autosave\n\t\t\t\tself.pendingAutoSave = true;\n\t\t\t}\n\t\t});\n\t\t// Set up our beforeunload handler\n\t\t$tw.addUnloadTask(function(event) {\n\t\t\tvar confirmationMessage;\n\t\t\tif(self.isDirty()) {\n\t\t\t\tconfirmationMessage = $tw.language.getString(\&quot;UnsavedChangesWarning\&quot;);\n\t\t\t\tevent.returnValue = confirmationMessage; // Gecko\n\t\t\t}\n\t\t\treturn confirmationMessage;\n\t\t});\n\t}\n\t// Install the save action handlers\n\tif($tw.browser) {\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-save-wiki\&quot;,function(event) {\n\t\t\tself.saveWiki({\n\t\t\t\ttemplate: event.param,\n\t\t\t\tdownloadType: \&quot;text/plain\&quot;,\n\t\t\t\tvariables: event.paramObject\n\t\t\t});\n\t\t});\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-download-file\&quot;,function(event) {\n\t\t\tself.saveWiki({\n\t\t\t\tmethod: \&quot;download\&quot;,\n\t\t\t\ttemplate: event.param,\n\t\t\t\tdownloadType: \&quot;text/plain\&quot;,\n\t\t\t\tvariables: event.paramObject\n\t\t\t});\n\t\t});\n\t}\n}\n\nSaverHandler.prototype.titleSyncFilter = \&quot;$:/config/SaverFilter\&quot;;\nSaverHandler.prototype.titleAutoSave = \&quot;$:/config/AutoSave\&quot;;\nSaverHandler.prototype.titleSavedNotification = \&quot;$:/language/Notifications/Save/Done\&quot;;\n\n/*\nSelect the appropriate saver modules and set them up\n*/\nSaverHandler.prototype.initSavers = function(moduleType) {\n\tmoduleType = moduleType || \&quot;saver\&quot;;\n\t// Instantiate the available savers\n\tthis.savers = [];\n\tvar self = this;\n\t$tw.modules.forEachModuleOfType(moduleType,function(title,module) {\n\t\tif(module.canSave(self)) {\n\t\t\tself.savers.push(module.create(self.wiki));\n\t\t}\n\t});\n\t// Sort the savers into priority order\n\tthis.savers.sort(function(a,b) {\n\t\tif(a.info.priority &lt; b.info.priority) {\n\t\t\treturn -1;\n\t\t} else {\n\t\t\tif(a.info.priority &gt; b.info.priority) {\n\t\t\t\treturn +1;\n\t\t\t} else {\n\t\t\t\treturn 0;\n\t\t\t}\n\t\t}\n\t});\n};\n\n/*\nSave the wiki contents. Options are:\n\tmethod: \&quot;save\&quot;, \&quot;autosave\&quot; or \&quot;download\&quot;\n\ttemplate: the tiddler containing the template to save\n\tdownloadType: the content type for the saved file\n*/\nSaverHandler.prototype.saveWiki = function(options) {\n\toptions = options || {};\n\tvar self = this,\n\t\tmethod = options.method || \&quot;save\&quot;,\n\t\tvariables = options.variables || {},\n\t\ttemplate = options.template || \&quot;$:/core/save/all\&quot;,\n\t\tdownloadType = options.downloadType || \&quot;text/plain\&quot;,\n\t\ttext = this.wiki.renderTiddler(downloadType,template,options),\n\t\tcallback = function(err) {\n\t\t\tif(err) {\n\t\t\t\talert(\&quot;Error while saving:\\n\\n\&quot; + err);\n\t\t\t} else {\n\t\t\t\t// Clear the task queue if we're saving (rather than downloading)\n\t\t\t\tif(method !== \&quot;download\&quot;) {\n\t\t\t\t\tself.numChanges = 0;\n\t\t\t\t\tself.updateDirtyStatus();\n\t\t\t\t}\n\t\t\t\t$tw.notifier.display(self.titleSavedNotification);\n\t\t\t\tif(options.callback) {\n\t\t\t\t\toptions.callback();\n\t\t\t\t}\n\t\t\t}\n\t\t};\n\t// Ignore autosave if disabled\n\tif(method === \&quot;autosave\&quot; &amp;&amp; this.wiki.getTiddlerText(this.titleAutoSave,\&quot;yes\&quot;) !== \&quot;yes\&quot;) {\n\t\treturn false;\n\t}\n\t// Call the highest priority saver that supports this method\n\tfor(var t=this.savers.length-1; t&gt;=0; t--) {\n\t\tvar saver = this.savers[t];\n\t\tif(saver.info.capabilities.indexOf(method) !== -1 &amp;&amp; saver.save(text,method,callback,{variables: {filename: variables.filename}})) {\n\t\t\tthis.logger.log(\&quot;Saving wiki with method\&quot;,method,\&quot;through saver\&quot;,saver.info.name);\n\t\t\treturn true;\n\t\t}\n\t}\n\treturn false;\n};\n\n/*\nChecks whether the wiki is dirty (ie the window shouldn't be closed)\n*/\nSaverHandler.prototype.isDirty = function() {\n\treturn this.numChanges &gt; 0;\n};\n\n/*\nUpdate the document body with the class \&quot;tc-dirty\&quot; if the wiki has unsaved/unsynced changes\n*/\nSaverHandler.prototype.updateDirtyStatus = function() {\n\tif($tw.browser) {\n\t\t$tw.utils.toggleClass(document.body,\&quot;tc-dirty\&quot;,this.isDirty());\n\t}\n};\n\nexports.SaverHandler = SaverHandler;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/saver-handler.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;global&quot;
        },
        &quot;$:/core/modules/savers/andtidwiki.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/savers/andtidwiki.js\ntype: application/javascript\nmodule-type: saver\n\nHandles saving changes via the AndTidWiki Android app\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false, netscape: false, Components: false */\n\&quot;use strict\&quot;;\n\nvar AndTidWiki = function(wiki) {\n};\n\nAndTidWiki.prototype.save = function(text,method,callback) {\n\t// Get the pathname of this document\n\tvar pathname = decodeURIComponent(document.location.toString().split(\&quot;#\&quot;)[0]);\n\t// Strip the file://\n\tif(pathname.indexOf(\&quot;file://\&quot;) === 0) {\n\t\tpathname = pathname.substr(7);\n\t}\n\t// Strip any query or location part\n\tvar p = pathname.indexOf(\&quot;?\&quot;);\n\tif(p !== -1) {\n\t\tpathname = pathname.substr(0,p);\n\t}\n\tp = pathname.indexOf(\&quot;#\&quot;);\n\tif(p !== -1) {\n\t\tpathname = pathname.substr(0,p);\n\t}\n\t// Save the file\n\twindow.twi.saveFile(pathname,text);\n\t// Call the callback\n\tcallback(null);\n\treturn true;\n};\n\n/*\nInformation about this saver\n*/\nAndTidWiki.prototype.info = {\n\tname: \&quot;andtidwiki\&quot;,\n\tpriority: 1600,\n\tcapabilities: [\&quot;save\&quot;, \&quot;autosave\&quot;]\n};\n\n/*\nStatic method that returns true if this saver is capable of working\n*/\nexports.canSave = function(wiki) {\n\treturn !!window.twi &amp;&amp; !!window.twi.saveFile;\n};\n\n/*\nCreate an instance of this saver\n*/\nexports.create = function(wiki) {\n\treturn new AndTidWiki(wiki);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/savers/andtidwiki.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;saver&quot;
        },
        &quot;$:/core/modules/savers/download.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/savers/download.js\ntype: application/javascript\nmodule-type: saver\n\nHandles saving changes via HTML5's download APIs\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nSelect the appropriate saver module and set it up\n*/\nvar DownloadSaver = function(wiki) {\n};\n\nDownloadSaver.prototype.save = function(text,method,callback,options) {\n\toptions = options || {};\n\t// Get the current filename\n\tvar filename = options.variables.filename;\n\tif(!filename) {\n\t\tvar p = document.location.pathname.lastIndexOf(\&quot;/\&quot;);\n\t\tif(p !== -1) {\n\t\t\tfilename = document.location.pathname.substr(p+1);\n\t\t}\n\t}\n\tif(!filename) {\n\t\tfilename = \&quot;tiddlywiki.html\&quot;;\n\t}\n\t// Set up the link\n\tvar link = document.createElement(\&quot;a\&quot;);\n\tlink.setAttribute(\&quot;target\&quot;,\&quot;_blank\&quot;);\n\tif(Blob !== undefined) {\n\t\tvar blob = new Blob([text], {type: \&quot;text/html\&quot;});\n\t\tlink.setAttribute(\&quot;href\&quot;, URL.createObjectURL(blob));\n\t} else {\n\t\tlink.setAttribute(\&quot;href\&quot;,\&quot;data:text/html,\&quot; + encodeURIComponent(text));\n\t}\n\tlink.setAttribute(\&quot;download\&quot;,filename);\n\tdocument.body.appendChild(link);\n\tlink.click();\n\tdocument.body.removeChild(link);\n\t// Callback that we succeeded\n\tcallback(null);\n\treturn true;\n};\n\n/*\nInformation about this saver\n*/\nDownloadSaver.prototype.info = {\n\tname: \&quot;download\&quot;,\n\tpriority: 100,\n\tcapabilities: [\&quot;save\&quot;, \&quot;download\&quot;]\n};\n\n/*\nStatic method that returns true if this saver is capable of working\n*/\nexports.canSave = function(wiki) {\n\treturn document.createElement(\&quot;a\&quot;).download !== undefined;\n};\n\n/*\nCreate an instance of this saver\n*/\nexports.create = function(wiki) {\n\treturn new DownloadSaver(wiki);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/savers/download.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;saver&quot;
        },
        &quot;$:/core/modules/savers/fsosaver.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/savers/fsosaver.js\ntype: application/javascript\nmodule-type: saver\n\nHandles saving changes via MS FileSystemObject ActiveXObject\n\nNote: Since TiddlyWiki's markup contains the MOTW, the FileSystemObject normally won't be available. \nHowever, if the wiki is loaded as an .HTA file (Windows HTML Applications) then the FSO can be used.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nSelect the appropriate saver module and set it up\n*/\nvar FSOSaver = function(wiki) {\n};\n\nFSOSaver.prototype.save = function(text,method,callback) {\n\t// Get the pathname of this document\n\tvar pathname = unescape(document.location.pathname);\n\t// Test for a Windows path of the form /x:\\blah...\n\tif(/^\\/[A-Z]\\:\\\\[^\\\\]+/i.test(pathname)) {\t// ie: ^/[a-z]:/[^/]+\n\t\t// Remove the leading slash\n\t\tpathname = pathname.substr(1);\n\t} else if(document.location.hostname !== \&quot;\&quot; &amp;&amp; /^\\/\\\\[^\\\\]+\\\\[^\\\\]+/i.test(pathname)) {\t// test for \\\\server\\share\\blah... - ^/[^/]+/[^/]+\n\t\t// Remove the leading slash\n\t\tpathname = pathname.substr(1);\n\t\t// reconstruct UNC path\n\t\tpathname = \&quot;\\\\\\\\\&quot; + document.location.hostname + pathname;\n\t} else {\n\t\treturn false;\n\t}\n\t// Save the file (as UTF-16)\n\tvar fso = new ActiveXObject(\&quot;Scripting.FileSystemObject\&quot;);\n\tvar file = fso.OpenTextFile(pathname,2,-1,-1);\n\tfile.Write(text);\n\tfile.Close();\n\t// Callback that we succeeded\n\tcallback(null);\n\treturn true;\n};\n\n/*\nInformation about this saver\n*/\nFSOSaver.prototype.info = {\n\tname: \&quot;FSOSaver\&quot;,\n\tpriority: 120,\n\tcapabilities: [\&quot;save\&quot;, \&quot;autosave\&quot;]\n};\n\n/*\nStatic method that returns true if this saver is capable of working\n*/\nexports.canSave = function(wiki) {\n\ttry {\n\t\treturn (window.location.protocol === \&quot;file:\&quot;) &amp;&amp; !!(new ActiveXObject(\&quot;Scripting.FileSystemObject\&quot;));\n\t} catch(e) { return false; }\n};\n\n/*\nCreate an instance of this saver\n*/\nexports.create = function(wiki) {\n\treturn new FSOSaver(wiki);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/savers/fsosaver.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;saver&quot;
        },
        &quot;$:/core/modules/savers/manualdownload.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/savers/manualdownload.js\ntype: application/javascript\nmodule-type: saver\n\nHandles saving changes via HTML5's download APIs\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Title of the tiddler containing the download message\nvar downloadInstructionsTitle = \&quot;$:/language/Modals/Download\&quot;;\n\n/*\nSelect the appropriate saver module and set it up\n*/\nvar ManualDownloadSaver = function(wiki) {\n};\n\nManualDownloadSaver.prototype.save = function(text,method,callback) {\n\t$tw.modal.display(downloadInstructionsTitle,{\n\t\tdownloadLink: \&quot;data:text/html,\&quot; + encodeURIComponent(text)\n\t});\n\t// Callback that we succeeded\n\tcallback(null);\n\treturn true;\n};\n\n/*\nInformation about this saver\n*/\nManualDownloadSaver.prototype.info = {\n\tname: \&quot;manualdownload\&quot;,\n\tpriority: 0,\n\tcapabilities: [\&quot;save\&quot;, \&quot;download\&quot;]\n};\n\n/*\nStatic method that returns true if this saver is capable of working\n*/\nexports.canSave = function(wiki) {\n\treturn true;\n};\n\n/*\nCreate an instance of this saver\n*/\nexports.create = function(wiki) {\n\treturn new ManualDownloadSaver(wiki);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/savers/manualdownload.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;saver&quot;
        },
        &quot;$:/core/modules/savers/msdownload.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/savers/msdownload.js\ntype: application/javascript\nmodule-type: saver\n\nHandles saving changes via window.navigator.msSaveBlob()\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nSelect the appropriate saver module and set it up\n*/\nvar MsDownloadSaver = function(wiki) {\n};\n\nMsDownloadSaver.prototype.save = function(text,method,callback) {\n\t// Get the current filename\n\tvar filename = \&quot;tiddlywiki.html\&quot;,\n\t\tp = document.location.pathname.lastIndexOf(\&quot;/\&quot;);\n\tif(p !== -1) {\n\t\tfilename = document.location.pathname.substr(p+1);\n\t}\n\t// Set up the link\n\tvar blob = new Blob([text], {type: \&quot;text/html\&quot;});\n\twindow.navigator.msSaveBlob(blob,filename);\n\t// Callback that we succeeded\n\tcallback(null);\n\treturn true;\n};\n\n/*\nInformation about this saver\n*/\nMsDownloadSaver.prototype.info = {\n\tname: \&quot;msdownload\&quot;,\n\tpriority: 110,\n\tcapabilities: [\&quot;save\&quot;, \&quot;download\&quot;]\n};\n\n/*\nStatic method that returns true if this saver is capable of working\n*/\nexports.canSave = function(wiki) {\n\treturn !!window.navigator.msSaveBlob;\n};\n\n/*\nCreate an instance of this saver\n*/\nexports.create = function(wiki) {\n\treturn new MsDownloadSaver(wiki);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/savers/msdownload.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;saver&quot;
        },
        &quot;$:/core/modules/savers/tiddlyfox.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/savers/tiddlyfox.js\ntype: application/javascript\nmodule-type: saver\n\nHandles saving changes via the TiddlyFox file extension\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false, netscape: false, Components: false */\n\&quot;use strict\&quot;;\n\nvar TiddlyFoxSaver = function(wiki) {\n};\n\nTiddlyFoxSaver.prototype.save = function(text,method,callback) {\n\tvar messageBox = document.getElementById(\&quot;tiddlyfox-message-box\&quot;);\n\tif(messageBox) {\n\t\t// Get the pathname of this document\n\t\tvar pathname = document.location.toString().split(\&quot;#\&quot;)[0];\n\t\t// Replace file://localhost/ with file:///\n\t\tif(pathname.indexOf(\&quot;file://localhost/\&quot;) === 0) {\n\t\t\tpathname = \&quot;file://\&quot; + pathname.substr(16);\n\t\t}\n\t\t// Windows path file:///x:/blah/blah --&gt; x:\\blah\\blah\n\t\tif(/^file\\:\\/\\/\\/[A-Z]\\:\\//i.test(pathname)) {\n\t\t\t// Remove the leading slash and convert slashes to backslashes\n\t\t\tpathname = pathname.substr(8).replace(/\\//g,\&quot;\\\\\&quot;);\n\t\t// Firefox Windows network path file://///server/share/blah/blah --&gt; //server/share/blah/blah\n\t\t} else if(pathname.indexOf(\&quot;file://///\&quot;) === 0) {\n\t\t\tpathname = \&quot;\\\\\\\\\&quot; + unescape(pathname.substr(10)).replace(/\\//g,\&quot;\\\\\&quot;);\n\t\t// Mac/Unix local path file:///path/path --&gt; /path/path\n\t\t} else if(pathname.indexOf(\&quot;file:///\&quot;) === 0) {\n\t\t\tpathname = unescape(pathname.substr(7));\n\t\t// Mac/Unix local path file:/path/path --&gt; /path/path\n\t\t} else if(pathname.indexOf(\&quot;file:/\&quot;) === 0) {\n\t\t\tpathname = unescape(pathname.substr(5));\n\t\t// Otherwise Windows networth path file://server/share/path/path --&gt; \\\\server\\share\\path\\path\n\t\t} else {\n\t\t\tpathname = \&quot;\\\\\\\\\&quot; + unescape(pathname.substr(7)).replace(new RegExp(\&quot;/\&quot;,\&quot;g\&quot;),\&quot;\\\\\&quot;);\n\t\t}\n\t\t// Create the message element and put it in the message box\n\t\tvar message = document.createElement(\&quot;div\&quot;);\n\t\tmessage.setAttribute(\&quot;data-tiddlyfox-path\&quot;,decodeURIComponent(pathname));\n\t\tmessage.setAttribute(\&quot;data-tiddlyfox-content\&quot;,text);\n\t\tmessageBox.appendChild(message);\n\t\t// Add an event handler for when the file has been saved\n\t\tmessage.addEventListener(\&quot;tiddlyfox-have-saved-file\&quot;,function(event) {\n\t\t\tcallback(null);\n\t\t}, false);\n\t\t// Create and dispatch the custom event to the extension\n\t\tvar event = document.createEvent(\&quot;Events\&quot;);\n\t\tevent.initEvent(\&quot;tiddlyfox-save-file\&quot;,true,false);\n\t\tmessage.dispatchEvent(event);\n\t\treturn true;\n\t} else {\n\t\treturn false;\n\t}\n};\n\n/*\nInformation about this saver\n*/\nTiddlyFoxSaver.prototype.info = {\n\tname: \&quot;tiddlyfox\&quot;,\n\tpriority: 1500,\n\tcapabilities: [\&quot;save\&quot;, \&quot;autosave\&quot;]\n};\n\n/*\nStatic method that returns true if this saver is capable of working\n*/\nexports.canSave = function(wiki) {\n\treturn (window.location.protocol === \&quot;file:\&quot;);\n};\n\n/*\nCreate an instance of this saver\n*/\nexports.create = function(wiki) {\n\treturn new TiddlyFoxSaver(wiki);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/savers/tiddlyfox.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;saver&quot;
        },
        &quot;$:/core/modules/savers/tiddlyie.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/savers/tiddlyie.js\ntype: application/javascript\nmodule-type: saver\n\nHandles saving changes via Internet Explorer BHO extenion (TiddlyIE)\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nSelect the appropriate saver module and set it up\n*/\nvar TiddlyIESaver = function(wiki) {\n};\n\nTiddlyIESaver.prototype.save = function(text,method,callback) {\n\t// Check existence of TiddlyIE BHO extension (note: only works after document is complete)\n\tif(typeof(window.TiddlyIE) != \&quot;undefined\&quot;) {\n\t\t// Get the pathname of this document\n\t\tvar pathname = unescape(document.location.pathname);\n\t\t// Test for a Windows path of the form /x:/blah...\n\t\tif(/^\\/[A-Z]\\:\\/[^\\/]+/i.test(pathname)) {\t// ie: ^/[a-z]:/[^/]+ (is this better?: ^/[a-z]:/[^/]+(/[^/]+)*\\.[^/]+ )\n\t\t\t// Remove the leading slash\n\t\t\tpathname = pathname.substr(1);\n\t\t\t// Convert slashes to backslashes\n\t\t\tpathname = pathname.replace(/\\//g,\&quot;\\\\\&quot;);\n\t\t} else if(document.hostname !== \&quot;\&quot; &amp;&amp; /^\\/[^\\/]+\\/[^\\/]+/i.test(pathname)) {\t// test for \\\\server\\share\\blah... - ^/[^/]+/[^/]+\n\t\t\t// Convert slashes to backslashes\n\t\t\tpathname = pathname.replace(/\\//g,\&quot;\\\\\&quot;);\n\t\t\t// reconstruct UNC path\n\t\t\tpathname = \&quot;\\\\\\\\\&quot; + document.location.hostname + pathname;\n\t\t} else return false;\n\t\t// Prompt the user to save the file\n\t\twindow.TiddlyIE.save(pathname, text);\n\t\t// Callback that we succeeded\n\t\tcallback(null);\n\t\treturn true;\n\t} else {\n\t\treturn false;\n\t}\n};\n\n/*\nInformation about this saver\n*/\nTiddlyIESaver.prototype.info = {\n\tname: \&quot;tiddlyiesaver\&quot;,\n\tpriority: 1500,\n\tcapabilities: [\&quot;save\&quot;]\n};\n\n/*\nStatic method that returns true if this saver is capable of working\n*/\nexports.canSave = function(wiki) {\n\treturn (window.location.protocol === \&quot;file:\&quot;);\n};\n\n/*\nCreate an instance of this saver\n*/\nexports.create = function(wiki) {\n\treturn new TiddlyIESaver(wiki);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/savers/tiddlyie.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;saver&quot;
        },
        &quot;$:/core/modules/savers/twedit.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/savers/twedit.js\ntype: application/javascript\nmodule-type: saver\n\nHandles saving changes via the TWEdit iOS app\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false, netscape: false, Components: false */\n\&quot;use strict\&quot;;\n\nvar TWEditSaver = function(wiki) {\n};\n\nTWEditSaver.prototype.save = function(text,method,callback) {\n\t// Bail if we're not running under TWEdit\n\tif(typeof DeviceInfo !== \&quot;object\&quot;) {\n\t\treturn false;\n\t}\n\t// Get the pathname of this document\n\tvar pathname = decodeURIComponent(document.location.pathname);\n\t// Strip any query or location part\n\tvar p = pathname.indexOf(\&quot;?\&quot;);\n\tif(p !== -1) {\n\t\tpathname = pathname.substr(0,p);\n\t}\n\tp = pathname.indexOf(\&quot;#\&quot;);\n\tif(p !== -1) {\n\t\tpathname = pathname.substr(0,p);\n\t}\n\t// Remove the leading \&quot;/Documents\&quot; from path\n\tvar prefix = \&quot;/Documents\&quot;;\n\tif(pathname.indexOf(prefix) === 0) {\n\t\tpathname = pathname.substr(prefix.length);\n\t}\n\t// Error handler\n\tvar errorHandler = function(event) {\n\t\t// Error\n\t\tcallback(\&quot;Error saving to TWEdit: \&quot; + event.target.error.code);\n\t};\n\t// Get the file system\n\twindow.requestFileSystem(LocalFileSystem.PERSISTENT,0,function(fileSystem) {\n\t\t// Now we've got the filesystem, get the fileEntry\n\t\tfileSystem.root.getFile(pathname, {create: true}, function(fileEntry) {\n\t\t\t// Now we've got the fileEntry, create the writer\n\t\t\tfileEntry.createWriter(function(writer) {\n\t\t\t\twriter.onerror = errorHandler;\n\t\t\t\twriter.onwrite = function() {\n\t\t\t\t\tcallback(null);\n\t\t\t\t};\n\t\t\t\twriter.position = 0;\n\t\t\t\twriter.write(text);\n\t\t\t},errorHandler);\n\t\t}, errorHandler);\n\t}, errorHandler);\n\treturn true;\n};\n\n/*\nInformation about this saver\n*/\nTWEditSaver.prototype.info = {\n\tname: \&quot;twedit\&quot;,\n\tpriority: 1600,\n\tcapabilities: [\&quot;save\&quot;, \&quot;autosave\&quot;]\n};\n\n/*\nStatic method that returns true if this saver is capable of working\n*/\nexports.canSave = function(wiki) {\n\treturn true;\n};\n\n/*\nCreate an instance of this saver\n*/\nexports.create = function(wiki) {\n\treturn new TWEditSaver(wiki);\n};\n\n/////////////////////////// Hack\n// HACK: This ensures that TWEdit recognises us as a TiddlyWiki document\nif($tw.browser) {\n\twindow.version = {title: \&quot;TiddlyWiki\&quot;};\n}\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/savers/twedit.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;saver&quot;
        },
        &quot;$:/core/modules/savers/upload.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/savers/upload.js\ntype: application/javascript\nmodule-type: saver\n\nHandles saving changes via upload to a server.\n\nDesigned to be compatible with BidiX's UploadPlugin at http://tiddlywiki.bidix.info/#UploadPlugin\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nSelect the appropriate saver module and set it up\n*/\nvar UploadSaver = function(wiki) {\n\tthis.wiki = wiki;\n};\n\nUploadSaver.prototype.save = function(text,method,callback) {\n\t// Get the various parameters we need\n\tvar backupDir = this.wiki.getTextReference(\&quot;$:/UploadBackupDir\&quot;) || \&quot;.\&quot;,\n\t\tusername = this.wiki.getTextReference(\&quot;$:/UploadName\&quot;),\n\t\tpassword = $tw.utils.getPassword(\&quot;upload\&quot;),\n\t\tuploadDir = this.wiki.getTextReference(\&quot;$:/UploadDir\&quot;) || \&quot;.\&quot;,\n\t\tuploadFilename = this.wiki.getTextReference(\&quot;$:/UploadFilename\&quot;) || \&quot;index.html\&quot;,\n\t\turl = this.wiki.getTextReference(\&quot;$:/UploadURL\&quot;);\n\t// Bail out if we don't have the bits we need\n\tif(!username || username.toString().trim() === \&quot;\&quot; || !password || password.toString().trim() === \&quot;\&quot;) {\n\t\treturn false;\n\t}\n\t// Construct the url if not provided\n\tif(!url) {\n\t\turl = \&quot;http://\&quot; + username + \&quot;.tiddlyspot.com/store.cgi\&quot;;\n\t}\n\t// Assemble the header\n\tvar boundary = \&quot;---------------------------\&quot; + \&quot;AaB03x\&quot;;\t\n\tvar uploadFormName = \&quot;UploadPlugin\&quot;;\n\tvar head = [];\n\thead.push(\&quot;--\&quot; + boundary + \&quot;\\r\\nContent-disposition: form-data; name=\\\&quot;UploadPlugin\\\&quot;\\r\\n\&quot;);\n\thead.push(\&quot;backupDir=\&quot; + backupDir + \&quot;;user=\&quot; + username + \&quot;;password=\&quot; + password + \&quot;;uploaddir=\&quot; + uploadDir + \&quot;;;\&quot;); \n\thead.push(\&quot;\\r\\n\&quot; + \&quot;--\&quot; + boundary);\n\thead.push(\&quot;Content-disposition: form-data; name=\\\&quot;userfile\\\&quot;; filename=\\\&quot;\&quot; + uploadFilename + \&quot;\\\&quot;\&quot;);\n\thead.push(\&quot;Content-Type: text/html;charset=UTF-8\&quot;);\n\thead.push(\&quot;Content-Length: \&quot; + text.length + \&quot;\\r\\n\&quot;);\n\thead.push(\&quot;\&quot;);\n\t// Assemble the tail and the data itself\n\tvar tail = \&quot;\\r\\n--\&quot; + boundary + \&quot;--\\r\\n\&quot;,\n\t\tdata = head.join(\&quot;\\r\\n\&quot;) + text + tail;\n\t// Do the HTTP post\n\tvar http = new XMLHttpRequest();\n\thttp.open(\&quot;POST\&quot;,url,true,username,password);\n\thttp.setRequestHeader(\&quot;Content-Type\&quot;,\&quot;multipart/form-data; ;charset=UTF-8; boundary=\&quot; + boundary);\n\thttp.onreadystatechange = function() {\n\t\tif(http.readyState == 4 &amp;&amp; http.status == 200) {\n\t\t\tif(http.responseText.substr(0,4) === \&quot;0 - \&quot;) {\n\t\t\t\tcallback(null);\n\t\t\t} else {\n\t\t\t\tcallback(http.responseText);\n\t\t\t}\n\t\t}\n\t};\n\ttry {\n\t\thttp.send(data);\n\t} catch(ex) {\n\t\treturn callback(\&quot;Error:\&quot; + ex);\n\t}\n\t$tw.notifier.display(\&quot;$:/language/Notifications/Save/Starting\&quot;);\n\treturn true;\n};\n\n/*\nInformation about this saver\n*/\nUploadSaver.prototype.info = {\n\tname: \&quot;upload\&quot;,\n\tpriority: 2000,\n\tcapabilities: [\&quot;save\&quot;, \&quot;autosave\&quot;]\n};\n\n/*\nStatic method that returns true if this saver is capable of working\n*/\nexports.canSave = function(wiki) {\n\treturn true;\n};\n\n/*\nCreate an instance of this saver\n*/\nexports.create = function(wiki) {\n\treturn new UploadSaver(wiki);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/savers/upload.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;saver&quot;
        },
        &quot;$:/core/modules/browser-messaging.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/browser-messaging.js\ntype: application/javascript\nmodule-type: startup\n\nBrowser message handling\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;browser-messaging\&quot;;\nexports.platforms = [\&quot;browser\&quot;];\nexports.after = [\&quot;startup\&quot;];\nexports.synchronous = true;\n\n/*\nLoad a specified url as an iframe and call the callback when it is loaded. If the url is already loaded then the existing iframe instance is used\n*/\nfunction loadIFrame(url,callback) {\n\t// Check if iframe already exists\n\tvar iframeInfo = $tw.browserMessaging.iframeInfoMap[url];\n\tif(iframeInfo) {\n\t\t// We've already got the iframe\n\t\tcallback(null,iframeInfo);\n\t} else {\n\t\t// Create the iframe and save it in the list\n\t\tvar iframe = document.createElement(\&quot;iframe\&quot;),\n\t\t\tiframeInfo = {\n\t\t\t\turl: url,\n\t\t\t\tstatus: \&quot;loading\&quot;,\n\t\t\t\tdomNode: iframe\n\t\t\t};\n\t\t$tw.browserMessaging.iframeInfoMap[url] = iframeInfo;\n\t\tsaveIFrameInfoTiddler(iframeInfo);\n\t\t// Add the iframe to the DOM and hide it\n\t\tiframe.style.display = \&quot;none\&quot;;\n\t\tdocument.body.appendChild(iframe);\n\t\t// Set up onload\n\t\tiframe.onload = function() {\n\t\t\tiframeInfo.status = \&quot;loaded\&quot;;\n\t\t\tsaveIFrameInfoTiddler(iframeInfo);\n\t\t\tcallback(null,iframeInfo);\n\t\t};\n\t\tiframe.onerror = function() {\n\t\t\tcallback(\&quot;Cannot load iframe\&quot;);\n\t\t};\n\t\ttry {\n\t\t\tiframe.src = url;\n\t\t} catch(ex) {\n\t\t\tcallback(ex);\n\t\t}\n\t}\n}\n\nfunction saveIFrameInfoTiddler(iframeInfo) {\n\t$tw.wiki.addTiddler(new $tw.Tiddler($tw.wiki.getCreationFields(),{\n\t\ttitle: \&quot;$:/temp/ServerConnection/\&quot; + iframeInfo.url,\n\t\ttext: iframeInfo.status,\n\t\ttags: [\&quot;$:/tags/ServerConnection\&quot;],\n\t\turl: iframeInfo.url\n\t},$tw.wiki.getModificationFields()));\n}\n\nexports.startup = function() {\n\t// Initialise the store of iframes we've created\n\t$tw.browserMessaging = {\n\t\tiframeInfoMap: {} // Hashmap by URL of {url:,status:\&quot;loading/loaded\&quot;,domNode:}\n\t};\n\t// Listen for widget messages to control loading the plugin library\n\t$tw.rootWidget.addEventListener(\&quot;tm-load-plugin-library\&quot;,function(event) {\n\t\tvar paramObject = event.paramObject || {},\n\t\t\turl = paramObject.url;\n\t\tif(url) {\n\t\t\tloadIFrame(url,function(err,iframeInfo) {\n\t\t\t\tif(err) {\n\t\t\t\t\talert(\&quot;Error loading plugin library: \&quot; + url);\n\t\t\t\t} else {\n\t\t\t\t\tiframeInfo.domNode.contentWindow.postMessage({\n\t\t\t\t\t\tverb: \&quot;GET\&quot;,\n\t\t\t\t\t\turl: \&quot;recipes/library/tiddlers.json\&quot;,\n\t\t\t\t\t\tcookies: {\n\t\t\t\t\t\t\ttype: \&quot;save-info\&quot;,\n\t\t\t\t\t\t\tinfoTitlePrefix: paramObject.infoTitlePrefix || \&quot;$:/temp/RemoteAssetInfo/\&quot;,\n\t\t\t\t\t\t\turl: url\n\t\t\t\t\t\t}\n\t\t\t\t\t},\&quot;*\&quot;);\n\t\t\t\t}\n\t\t\t});\n\t\t}\n\t});\n\t$tw.rootWidget.addEventListener(\&quot;tm-load-plugin-from-library\&quot;,function(event) {\n\t\tvar paramObject = event.paramObject || {},\n\t\t\turl = paramObject.url,\n\t\t\ttitle = paramObject.title;\n\t\tif(url &amp;&amp; title) {\n\t\t\tloadIFrame(url,function(err,iframeInfo) {\n\t\t\t\tif(err) {\n\t\t\t\t\talert(\&quot;Error loading plugin library: \&quot; + url);\n\t\t\t\t} else {\n\t\t\t\t\tiframeInfo.domNode.contentWindow.postMessage({\n\t\t\t\t\t\tverb: \&quot;GET\&quot;,\n\t\t\t\t\t\turl: \&quot;recipes/library/tiddlers/\&quot; + encodeURIComponent(title) + \&quot;.json\&quot;,\n\t\t\t\t\t\tcookies: {\n\t\t\t\t\t\t\ttype: \&quot;save-tiddler\&quot;,\n\t\t\t\t\t\t\turl: url\n\t\t\t\t\t\t}\n\t\t\t\t\t},\&quot;*\&quot;);\n\t\t\t\t}\n\t\t\t});\n\t\t}\n\t});\n\t// Listen for window messages from other windows\n\twindow.addEventListener(\&quot;message\&quot;,function listener(event){\n\t\tconsole.log(\&quot;browser-messaging: \&quot;,document.location.toString())\n\t\tconsole.log(\&quot;browser-messaging: Received message from\&quot;,event.origin);\n\t\tconsole.log(\&quot;browser-messaging: Message content\&quot;,event.data);\n\t\tswitch(event.data.verb) {\n\t\t\tcase \&quot;GET-RESPONSE\&quot;:\n\t\t\t\tif(event.data.status.charAt(0) === \&quot;2\&quot;) {\n\t\t\t\t\tif(event.data.cookies) {\n\t\t\t\t\t\tif(event.data.cookies.type === \&quot;save-info\&quot;) {\n\t\t\t\t\t\t\tvar tiddlers = JSON.parse(event.data.body);\n\t\t\t\t\t\t\t$tw.utils.each(tiddlers,function(tiddler) {\n\t\t\t\t\t\t\t\t$tw.wiki.addTiddler(new $tw.Tiddler($tw.wiki.getCreationFields(),tiddler,{\n\t\t\t\t\t\t\t\t\ttitle: event.data.cookies.infoTitlePrefix + event.data.cookies.url + \&quot;/\&quot; + tiddler.title,\n\t\t\t\t\t\t\t\t\t\&quot;original-title\&quot;: tiddler.title,\n\t\t\t\t\t\t\t\t\ttext: \&quot;\&quot;,\n\t\t\t\t\t\t\t\t\ttype: \&quot;text/vnd.tiddlywiki\&quot;,\n\t\t\t\t\t\t\t\t\t\&quot;original-type\&quot;: tiddler.type,\n\t\t\t\t\t\t\t\t\t\&quot;plugin-type\&quot;: undefined,\n\t\t\t\t\t\t\t\t\t\&quot;original-plugin-type\&quot;: tiddler[\&quot;plugin-type\&quot;],\n\t\t\t\t\t\t\t\t\t\&quot;module-type\&quot;: undefined,\n\t\t\t\t\t\t\t\t\t\&quot;original-module-type\&quot;: tiddler[\&quot;module-type\&quot;],\n\t\t\t\t\t\t\t\t\ttags: [\&quot;$:/tags/RemoteAssetInfo\&quot;],\n\t\t\t\t\t\t\t\t\t\&quot;original-tags\&quot;: $tw.utils.stringifyList(tiddler.tags || []),\n\t\t\t\t\t\t\t\t\t\&quot;server-url\&quot;: event.data.cookies.url\n\t\t\t\t\t\t\t\t},$tw.wiki.getModificationFields()));\n\t\t\t\t\t\t\t});\n\t\t\t\t\t\t} else if(event.data.cookies.type === \&quot;save-tiddler\&quot;) {\n\t\t\t\t\t\t\tvar tiddler = JSON.parse(event.data.body);\n\t\t\t\t\t\t\t$tw.wiki.addTiddler(new $tw.Tiddler(tiddler));\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\tbreak;\n\t\t}\n\t},false);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/browser-messaging.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/startup/commands.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/startup/commands.js\ntype: application/javascript\nmodule-type: startup\n\nCommand processing\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;commands\&quot;;\nexports.platforms = [\&quot;node\&quot;];\nexports.after = [\&quot;story\&quot;];\nexports.synchronous = false;\n\nexports.startup = function(callback) {\n\t// On the server, start a commander with the command line arguments\n\tvar commander = new $tw.Commander(\n\t\t$tw.boot.argv,\n\t\tfunction(err) {\n\t\t\tif(err) {\n\t\t\t\treturn $tw.utils.error(\&quot;Error: \&quot; + err);\n\t\t\t}\n\t\t\tcallback();\n\t\t},\n\t\t$tw.wiki,\n\t\t{output: process.stdout, error: process.stderr}\n\t);\n\tcommander.execute();\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/startup/commands.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/startup/favicon.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/startup/favicon.js\ntype: application/javascript\nmodule-type: startup\n\nFavicon handling\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;favicon\&quot;;\nexports.platforms = [\&quot;browser\&quot;];\nexports.after = [\&quot;startup\&quot;];\nexports.synchronous = true;\n\t\t\n// Favicon tiddler\nvar FAVICON_TITLE = \&quot;$:/favicon.ico\&quot;;\n\nexports.startup = function() {\n\t// Set up the favicon\n\tsetFavicon();\n\t// Reset the favicon when the tiddler changes\n\t$tw.wiki.addEventListener(\&quot;change\&quot;,function(changes) {\n\t\tif($tw.utils.hop(changes,FAVICON_TITLE)) {\n\t\t\tsetFavicon();\n\t\t}\n\t});\n};\n\nfunction setFavicon() {\n\tvar tiddler = $tw.wiki.getTiddler(FAVICON_TITLE);\n\tif(tiddler) {\n\t\tvar faviconLink = document.getElementById(\&quot;faviconLink\&quot;);\n\t\tfaviconLink.setAttribute(\&quot;href\&quot;,\&quot;data:\&quot; + tiddler.fields.type + \&quot;;base64,\&quot; + tiddler.fields.text);\n\t}\n}\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/startup/favicon.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/startup/info.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/startup/info.js\ntype: application/javascript\nmodule-type: startup\n\nInitialise $:/info tiddlers via $:/temp/info-plugin pseudo-plugin\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;info\&quot;;\nexports.before = [\&quot;startup\&quot;];\nexports.after = [\&quot;load-modules\&quot;];\nexports.synchronous = true;\n\nexports.startup = function() {\n\t// Collect up the info tiddlers\n\tvar infoTiddlerFields = {};\n\t// Give each info module a chance to fill in as many info tiddlers as they want\n\t$tw.modules.forEachModuleOfType(\&quot;info\&quot;,function(title,moduleExports) {\n\t\tif(moduleExports &amp;&amp; moduleExports.getInfoTiddlerFields) {\n\t\t\tvar tiddlerFieldsArray = moduleExports.getInfoTiddlerFields(infoTiddlerFields);\n\t\t\t$tw.utils.each(tiddlerFieldsArray,function(fields) {\n\t\t\t\tif(fields) {\n\t\t\t\t\tinfoTiddlerFields[fields.title] = fields;\n\t\t\t\t}\n\t\t\t});\n\t\t}\n\t});\n\t// Bake the info tiddlers into a plugin\n\tvar fields = {\n\t\ttitle: \&quot;$:/temp/info-plugin\&quot;,\n\t\ttype: \&quot;application/json\&quot;,\n\t\t\&quot;plugin-type\&quot;: \&quot;info\&quot;,\n\t\ttext: JSON.stringify({tiddlers: infoTiddlerFields},null,$tw.config.preferences.jsonSpaces)\n\t};\n\t$tw.wiki.addTiddler(new $tw.Tiddler(fields));\n\t$tw.wiki.readPluginInfo();\n\t$tw.wiki.registerPluginTiddlers(\&quot;info\&quot;);\n\t$tw.wiki.unpackPluginTiddlers();\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/startup/info.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/startup/load-modules.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/startup/load-modules.js\ntype: application/javascript\nmodule-type: startup\n\nLoad core modules\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;load-modules\&quot;;\nexports.synchronous = true;\n\nexports.startup = function() {\n\t// Load modules\n\t$tw.modules.applyMethods(\&quot;utils\&quot;,$tw.utils);\n\tif($tw.node) {\n\t\t$tw.modules.applyMethods(\&quot;utils-node\&quot;,$tw.utils);\n\t}\n\t$tw.modules.applyMethods(\&quot;global\&quot;,$tw);\n\t$tw.modules.applyMethods(\&quot;config\&quot;,$tw.config);\n\t$tw.Tiddler.fieldModules = $tw.modules.getModulesByTypeAsHashmap(\&quot;tiddlerfield\&quot;);\n\t$tw.modules.applyMethods(\&quot;tiddlermethod\&quot;,$tw.Tiddler.prototype);\n\t$tw.modules.applyMethods(\&quot;wikimethod\&quot;,$tw.Wiki.prototype);\n\t$tw.modules.applyMethods(\&quot;tiddlerdeserializer\&quot;,$tw.Wiki.tiddlerDeserializerModules);\n\t$tw.macros = $tw.modules.getModulesByTypeAsHashmap(\&quot;macro\&quot;);\n\t$tw.wiki.initParsers();\n\t$tw.Commander.initCommands();\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/startup/load-modules.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/startup/password.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/startup/password.js\ntype: application/javascript\nmodule-type: startup\n\nPassword handling\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;password\&quot;;\nexports.platforms = [\&quot;browser\&quot;];\nexports.after = [\&quot;startup\&quot;];\nexports.synchronous = true;\n\nexports.startup = function() {\n\t$tw.rootWidget.addEventListener(\&quot;tm-set-password\&quot;,function(event) {\n\t\t$tw.passwordPrompt.createPrompt({\n\t\t\tserviceName: $tw.language.getString(\&quot;Encryption/PromptSetPassword\&quot;),\n\t\t\tnoUserName: true,\n\t\t\tsubmitText: $tw.language.getString(\&quot;Encryption/SetPassword\&quot;),\n\t\t\tcanCancel: true,\n\t\t\trepeatPassword: true,\n\t\t\tcallback: function(data) {\n\t\t\t\tif(data) {\n\t\t\t\t\t$tw.crypto.setPassword(data.password);\n\t\t\t\t}\n\t\t\t\treturn true; // Get rid of the password prompt\n\t\t\t}\n\t\t});\n\t});\n\t$tw.rootWidget.addEventListener(\&quot;tm-clear-password\&quot;,function(event) {\n\t\tif($tw.browser) {\n\t\t\tif(!confirm($tw.language.getString(\&quot;Encryption/ConfirmClearPassword\&quot;))) {\n\t\t\t\treturn;\n\t\t\t}\n\t\t}\n\t\t$tw.crypto.setPassword(null);\n\t});\n\t// Ensure that $:/isEncrypted is maintained properly\n\t$tw.wiki.addEventListener(\&quot;change\&quot;,function(changes) {\n\t\tif($tw.utils.hop(changes,\&quot;$:/isEncrypted\&quot;)) {\n\t\t\t$tw.crypto.updateCryptoStateTiddler();\n\t\t}\n\t});\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/startup/password.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/startup/render.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/startup/render.js\ntype: application/javascript\nmodule-type: startup\n\nTitle, stylesheet and page rendering\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;render\&quot;;\nexports.platforms = [\&quot;browser\&quot;];\nexports.after = [\&quot;story\&quot;];\nexports.synchronous = true;\n\n// Default story and history lists\nvar PAGE_TITLE_TITLE = \&quot;$:/core/wiki/title\&quot;;\nvar PAGE_STYLESHEET_TITLE = \&quot;$:/core/ui/PageStylesheet\&quot;;\nvar PAGE_TEMPLATE_TITLE = \&quot;$:/core/ui/PageTemplate\&quot;;\n\n// Time (in ms) that we defer refreshing changes to draft tiddlers\nvar DRAFT_TIDDLER_TIMEOUT_TITLE = \&quot;$:/config/Drafts/TypingTimeout\&quot;;\nvar DRAFT_TIDDLER_TIMEOUT = 400;\n\nexports.startup = function() {\n\t// Set up the title\n\t$tw.titleWidgetNode = $tw.wiki.makeTranscludeWidget(PAGE_TITLE_TITLE,{document: $tw.fakeDocument, parseAsInline: true});\n\t$tw.titleContainer = $tw.fakeDocument.createElement(\&quot;div\&quot;);\n\t$tw.titleWidgetNode.render($tw.titleContainer,null);\n\tdocument.title = $tw.titleContainer.textContent;\n\t$tw.wiki.addEventListener(\&quot;change\&quot;,function(changes) {\n\t\tif($tw.titleWidgetNode.refresh(changes,$tw.titleContainer,null)) {\n\t\t\tdocument.title = $tw.titleContainer.textContent;\n\t\t}\n\t});\n\t// Set up the styles\n\t$tw.styleWidgetNode = $tw.wiki.makeTranscludeWidget(PAGE_STYLESHEET_TITLE,{document: $tw.fakeDocument});\n\t$tw.styleContainer = $tw.fakeDocument.createElement(\&quot;style\&quot;);\n\t$tw.styleWidgetNode.render($tw.styleContainer,null);\n\t$tw.styleElement = document.createElement(\&quot;style\&quot;);\n\t$tw.styleElement.innerHTML = $tw.styleContainer.textContent;\n\tdocument.head.insertBefore($tw.styleElement,document.head.firstChild);\n\t$tw.wiki.addEventListener(\&quot;change\&quot;,$tw.perf.report(\&quot;styleRefresh\&quot;,function(changes) {\n\t\tif($tw.styleWidgetNode.refresh(changes,$tw.styleContainer,null)) {\n\t\t\t$tw.styleElement.innerHTML = $tw.styleContainer.textContent;\n\t\t}\n\t}));\n\t// Display the $:/core/ui/PageTemplate tiddler to kick off the display\n\t$tw.perf.report(\&quot;mainRender\&quot;,function() {\n\t\t$tw.pageWidgetNode = $tw.wiki.makeTranscludeWidget(PAGE_TEMPLATE_TITLE,{document: document, parentWidget: $tw.rootWidget});\n\t\t$tw.pageContainer = document.createElement(\&quot;div\&quot;);\n\t\t$tw.utils.addClass($tw.pageContainer,\&quot;tc-page-container-wrapper\&quot;);\n\t\tdocument.body.insertBefore($tw.pageContainer,document.body.firstChild);\n\t\t$tw.pageWidgetNode.render($tw.pageContainer,null);\n\t})();\n\t// Prepare refresh mechanism\n\tvar deferredChanges = Object.create(null),\n\t\ttimerId;\n\tfunction refresh() {\n\t\t// Process the refresh\n\t\t$tw.pageWidgetNode.refresh(deferredChanges);\n\t\tdeferredChanges = Object.create(null);\n\t}\n\t// Add the change event handler\n\t$tw.wiki.addEventListener(\&quot;change\&quot;,$tw.perf.report(\&quot;mainRefresh\&quot;,function(changes) {\n\t\t// Check if only drafts have changed\n\t\tvar onlyDraftsHaveChanged = true;\n\t\tfor(var title in changes) {\n\t\t\tvar tiddler = $tw.wiki.getTiddler(title);\n\t\t\tif(!tiddler || !tiddler.hasField(\&quot;draft.of\&quot;)) {\n\t\t\t\tonlyDraftsHaveChanged = false;\n\t\t\t}\n\t\t}\n\t\t// Defer the change if only drafts have changed\n\t\tif(timerId) {\n\t\t\tclearTimeout(timerId);\n\t\t}\n\t\ttimerId = null;\n\t\tif(onlyDraftsHaveChanged) {\n\t\t\tvar timeout = parseInt($tw.wiki.getTiddlerText(DRAFT_TIDDLER_TIMEOUT_TITLE,\&quot;\&quot;),10);\n\t\t\tif(isNaN(timeout)) {\n\t\t\t\ttimeout = DRAFT_TIDDLER_TIMEOUT;\n\t\t\t}\n\t\t\ttimerId = setTimeout(refresh,timeout);\n\t\t\t$tw.utils.extend(deferredChanges,changes);\n\t\t} else {\n\t\t\t$tw.utils.extend(deferredChanges,changes);\n\t\t\trefresh();\n\t\t}\n\t}));\n\t// Fix up the link between the root widget and the page container\n\t$tw.rootWidget.domNodes = [$tw.pageContainer];\n\t$tw.rootWidget.children = [$tw.pageWidgetNode];\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/startup/render.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/startup/rootwidget.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/startup/rootwidget.js\ntype: application/javascript\nmodule-type: startup\n\nSetup the root widget and the core root widget handlers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;rootwidget\&quot;;\nexports.platforms = [\&quot;browser\&quot;];\nexports.after = [\&quot;startup\&quot;];\nexports.before = [\&quot;story\&quot;];\nexports.synchronous = true;\n\nexports.startup = function() {\n\t// Install the modal message mechanism\n\t$tw.modal = new $tw.utils.Modal($tw.wiki);\n\t$tw.rootWidget.addEventListener(\&quot;tm-modal\&quot;,function(event) {\n\t\t$tw.modal.display(event.param,{variables: event.paramObject});\n\t});\n\t// Install the notification  mechanism\n\t$tw.notifier = new $tw.utils.Notifier($tw.wiki);\n\t$tw.rootWidget.addEventListener(\&quot;tm-notify\&quot;,function(event) {\n\t\t$tw.notifier.display(event.param);\n\t});\n\t// Install the scroller\n\t$tw.pageScroller = new $tw.utils.PageScroller();\n\t$tw.rootWidget.addEventListener(\&quot;tm-scroll\&quot;,function(event) {\n\t\t$tw.pageScroller.handleEvent(event);\n\t});\n\tvar fullscreen = $tw.utils.getFullScreenApis();\n\tif(fullscreen) {\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-full-screen\&quot;,function(event) {\n\t\t\tif(document[fullscreen._fullscreenElement]) {\n\t\t\t\tdocument[fullscreen._exitFullscreen]();\n\t\t\t} else {\n\t\t\t\tdocument.documentElement[fullscreen._requestFullscreen](Element.ALLOW_KEYBOARD_INPUT);\n\t\t\t}\n\t\t});\n\t}\n\t// If we're being viewed on a data: URI then give instructions for how to save\n\tif(document.location.protocol === \&quot;data:\&quot;) {\n\t\t$tw.rootWidget.dispatchEvent({\n\t\t\ttype: \&quot;tm-modal\&quot;,\n\t\t\tparam: \&quot;$:/language/Modals/SaveInstructions\&quot;\n\t\t});\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/startup/rootwidget.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/startup.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/startup.js\ntype: application/javascript\nmodule-type: startup\n\nMiscellaneous startup logic for both the client and server.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;startup\&quot;;\nexports.after = [\&quot;load-modules\&quot;];\nexports.synchronous = true;\n\n// Set to `true` to enable performance instrumentation\nvar PERFORMANCE_INSTRUMENTATION_CONFIG_TITLE = \&quot;$:/config/Performance/Instrumentation\&quot;;\n\nvar widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;);\n\nexports.startup = function() {\n\tvar modules,n,m,f;\n\tif($tw.browser) {\n\t\t$tw.browser.isIE = (/msie|trident/i.test(navigator.userAgent));\n\t}\n\t$tw.version = $tw.utils.extractVersionInfo();\n\t// Set up the performance framework\n\t$tw.perf = new $tw.Performance($tw.wiki.getTiddlerText(PERFORMANCE_INSTRUMENTATION_CONFIG_TITLE,\&quot;no\&quot;) === \&quot;yes\&quot;);\n\t// Kick off the language manager and switcher\n\t$tw.language = new $tw.Language();\n\t$tw.languageSwitcher = new $tw.PluginSwitcher({\n\t\twiki: $tw.wiki,\n\t\tpluginType: \&quot;language\&quot;,\n\t\tcontrollerTitle: \&quot;$:/language\&quot;,\n\t\tdefaultPlugins: [\n\t\t\t\&quot;$:/languages/en-US\&quot;\n\t\t]\n\t});\n\t// Kick off the theme manager\n\t$tw.themeManager = new $tw.PluginSwitcher({\n\t\twiki: $tw.wiki,\n\t\tpluginType: \&quot;theme\&quot;,\n\t\tcontrollerTitle: \&quot;$:/theme\&quot;,\n\t\tdefaultPlugins: [\n\t\t\t\&quot;$:/themes/tiddlywiki/snowwhite\&quot;,\n\t\t\t\&quot;$:/themes/tiddlywiki/vanilla\&quot;\n\t\t]\n\t});\n\t// Clear outstanding tiddler store change events to avoid an unnecessary refresh cycle at startup\n\t$tw.wiki.clearTiddlerEventQueue();\n\t// Create a root widget for attaching event handlers. By using it as the parentWidget for another widget tree, one can reuse the event handlers\n\tif($tw.browser) {\n\t\t$tw.rootWidget = new widget.widget({\n\t\t\ttype: \&quot;widget\&quot;,\n\t\t\tchildren: []\n\t\t},{\n\t\t\twiki: $tw.wiki,\n\t\t\tdocument: document\n\t\t});\n\t}\n\t// Find a working syncadaptor\n\t$tw.syncadaptor = undefined;\n\t$tw.modules.forEachModuleOfType(\&quot;syncadaptor\&quot;,function(title,module) {\n\t\tif(!$tw.syncadaptor &amp;&amp; module.adaptorClass) {\n\t\t\t$tw.syncadaptor = new module.adaptorClass({wiki: $tw.wiki});\n\t\t}\n\t});\n\t// Set up the syncer object if we've got a syncadaptor\n\tif($tw.syncadaptor) {\n\t\t$tw.syncer = new $tw.Syncer({wiki: $tw.wiki, syncadaptor: $tw.syncadaptor});\n\t} \n\t// Setup the saver handler\n\t$tw.saverHandler = new $tw.SaverHandler({wiki: $tw.wiki, dirtyTracking: !$tw.syncadaptor});\n\t// Host-specific startup\n\tif($tw.browser) {\n\t\t// Install the popup manager\n\t\t$tw.popup = new $tw.utils.Popup();\n\t\t// Install the animator\n\t\t$tw.anim = new $tw.utils.Animator();\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/startup.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/startup/story.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/startup/story.js\ntype: application/javascript\nmodule-type: startup\n\nLoad core modules\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;story\&quot;;\nexports.after = [\&quot;startup\&quot;];\nexports.synchronous = true;\n\n// Default story and history lists\nvar DEFAULT_STORY_TITLE = \&quot;$:/StoryList\&quot;;\nvar DEFAULT_HISTORY_TITLE = \&quot;$:/HistoryList\&quot;;\n\n// Default tiddlers\nvar DEFAULT_TIDDLERS_TITLE = \&quot;$:/DefaultTiddlers\&quot;;\n\n// Config\nvar CONFIG_UPDATE_ADDRESS_BAR = \&quot;$:/config/Navigation/UpdateAddressBar\&quot;; // Can be \&quot;no\&quot;, \&quot;permalink\&quot;, \&quot;permaview\&quot;\nvar CONFIG_UPDATE_HISTORY = \&quot;$:/config/Navigation/UpdateHistory\&quot;; // Can be \&quot;yes\&quot; or \&quot;no\&quot;\n\nexports.startup = function() {\n\t// Open startup tiddlers\n\topenStartupTiddlers();\n\tif($tw.browser) {\n\t\t// Set up location hash update\n\t\t$tw.wiki.addEventListener(\&quot;change\&quot;,function(changes) {\n\t\t\tif($tw.utils.hop(changes,DEFAULT_STORY_TITLE) || $tw.utils.hop(changes,DEFAULT_HISTORY_TITLE)) {\n\t\t\t\tupdateLocationHash({\n\t\t\t\t\tupdateAddressBar: $tw.wiki.getTiddlerText(CONFIG_UPDATE_ADDRESS_BAR,\&quot;permaview\&quot;).trim(),\n\t\t\t\t\tupdateHistory: $tw.wiki.getTiddlerText(CONFIG_UPDATE_HISTORY,\&quot;no\&quot;).trim()\n\t\t\t\t});\n\t\t\t}\n\t\t});\n\t\t// Listen for changes to the browser location hash\n\t\twindow.addEventListener(\&quot;hashchange\&quot;,function() {\n\t\t\tvar hash = $tw.utils.getLocationHash();\n\t\t\tif(hash !== $tw.locationHash) {\n\t\t\t\t$tw.locationHash = hash;\n\t\t\t\topenStartupTiddlers({defaultToCurrentStory: true});\n\t\t\t}\n\t\t},false);\n\t\t// Listen for the tm-browser-refresh message\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-browser-refresh\&quot;,function(event) {\n\t\t\twindow.location.reload(true);\n\t\t});\n\t\t// Listen for the tm-home message\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-home\&quot;,function(event) {\n\t\t\twindow.location.hash = \&quot;\&quot;;\n\t\t\tvar storyFilter = $tw.wiki.getTiddlerText(DEFAULT_TIDDLERS_TITLE),\n\t\t\t\tstoryList = $tw.wiki.filterTiddlers(storyFilter);\n\t\t\t//invoke any hooks that might change the default story list\n\t\t\tstoryList = $tw.hooks.invokeHook(\&quot;th-opening-default-tiddlers-list\&quot;,storyList);\n\t\t\t$tw.wiki.addTiddler({title: DEFAULT_STORY_TITLE, text: \&quot;\&quot;, list: storyList},$tw.wiki.getModificationFields());\n\t\t\tif(storyList[0]) {\n\t\t\t\t$tw.wiki.addToHistory(storyList[0]);\t\t\t\t\n\t\t\t}\n\t\t});\n\t\t// Listen for the tm-permalink message\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-permalink\&quot;,function(event) {\n\t\t\tupdateLocationHash({\n\t\t\t\tupdateAddressBar: \&quot;permalink\&quot;,\n\t\t\t\tupdateHistory: $tw.wiki.getTiddlerText(CONFIG_UPDATE_HISTORY,\&quot;no\&quot;).trim(),\n\t\t\t\ttargetTiddler: event.param || event.tiddlerTitle\n\t\t\t});\n\t\t});\n\t\t// Listen for the tm-permaview message\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-permaview\&quot;,function(event) {\n\t\t\tupdateLocationHash({\n\t\t\t\tupdateAddressBar: \&quot;permaview\&quot;,\n\t\t\t\tupdateHistory: $tw.wiki.getTiddlerText(CONFIG_UPDATE_HISTORY,\&quot;no\&quot;).trim(),\n\t\t\t\ttargetTiddler: event.param || event.tiddlerTitle\n\t\t\t});\n\t\t});\n\t}\n};\n\n/*\nProcess the location hash to open the specified tiddlers. Options:\ndefaultToCurrentStory: If true, the current story is retained as the default, instead of opening the default tiddlers\n*/\nfunction openStartupTiddlers(options) {\n\toptions = options || {};\n\t// Work out the target tiddler and the story filter. \&quot;null\&quot; means \&quot;unspecified\&quot;\n\tvar target = null,\n\t\tstoryFilter = null;\n\tif($tw.locationHash.length &gt; 1) {\n\t\tvar hash = $tw.locationHash.substr(1),\n\t\t\tsplit = hash.indexOf(\&quot;:\&quot;);\n\t\tif(split === -1) {\n\t\t\ttarget = decodeURIComponent(hash.trim());\n\t\t} else {\n\t\t\ttarget = decodeURIComponent(hash.substr(0,split).trim());\n\t\t\tstoryFilter = decodeURIComponent(hash.substr(split + 1).trim());\n\t\t}\n\t}\n\t// If the story wasn't specified use the current tiddlers or a blank story\n\tif(storyFilter === null) {\n\t\tif(options.defaultToCurrentStory) {\n\t\t\tvar currStoryList = $tw.wiki.getTiddlerList(DEFAULT_STORY_TITLE);\n\t\t\tstoryFilter = $tw.utils.stringifyList(currStoryList);\n\t\t} else {\n\t\t\tif(target &amp;&amp; target !== \&quot;\&quot;) {\n\t\t\t\tstoryFilter = \&quot;\&quot;;\n\t\t\t} else {\n\t\t\t\tstoryFilter = $tw.wiki.getTiddlerText(DEFAULT_TIDDLERS_TITLE);\n\t\t\t}\n\t\t}\n\t}\n\t// Process the story filter to get the story list\n\tvar storyList = $tw.wiki.filterTiddlers(storyFilter);\n\t// Invoke any hooks that want to change the default story list\n\tstoryList = $tw.hooks.invokeHook(\&quot;th-opening-default-tiddlers-list\&quot;,storyList);\n\t// If the target tiddler isn't included then splice it in at the top\n\tif(target &amp;&amp; storyList.indexOf(target) === -1) {\n\t\tstoryList.unshift(target);\n\t}\n\t// Save the story list\n\t$tw.wiki.addTiddler({title: DEFAULT_STORY_TITLE, text: \&quot;\&quot;, list: storyList},$tw.wiki.getModificationFields());\n\t// If a target tiddler was specified add it to the history stack\n\tif(target &amp;&amp; target !== \&quot;\&quot;) {\n\t\t// The target tiddler doesn't need double square brackets, but we'll silently remove them if they're present\n\t\tif(target.indexOf(\&quot;[[\&quot;) === 0 &amp;&amp; target.substr(-2) === \&quot;]]\&quot;) {\n\t\t\ttarget = target.substr(2,target.length - 4);\n\t\t}\n\t\t$tw.wiki.addToHistory(target);\n\t} else if(storyList.length &gt; 0) {\n\t\t$tw.wiki.addToHistory(storyList[0]);\n\t}\n}\n\n/*\noptions: See below\noptions.updateAddressBar: \&quot;permalink\&quot;, \&quot;permaview\&quot; or \&quot;no\&quot; (defaults to \&quot;permaview\&quot;)\noptions.updateHistory: \&quot;yes\&quot; or \&quot;no\&quot; (defaults to \&quot;no\&quot;)\noptions.targetTiddler: optional title of target tiddler for permalink\n*/\nfunction updateLocationHash(options) {\n\tif(options.updateAddressBar !== \&quot;no\&quot;) {\n\t\t// Get the story and the history stack\n\t\tvar storyList = $tw.wiki.getTiddlerList(DEFAULT_STORY_TITLE),\n\t\t\thistoryList = $tw.wiki.getTiddlerData(DEFAULT_HISTORY_TITLE,[]),\n\t\t\ttargetTiddler = \&quot;\&quot;;\n\t\tif(options.targetTiddler) {\n\t\t\ttargetTiddler = options.targetTiddler;\n\t\t} else {\n\t\t\t// The target tiddler is the one at the top of the stack\n\t\t\tif(historyList.length &gt; 0) {\n\t\t\t\ttargetTiddler = historyList[historyList.length-1].title;\n\t\t\t}\n\t\t\t// Blank the target tiddler if it isn't present in the story\n\t\t\tif(storyList.indexOf(targetTiddler) === -1) {\n\t\t\t\ttargetTiddler = \&quot;\&quot;;\n\t\t\t}\n\t\t}\n\t\t// Assemble the location hash\n\t\tif(options.updateAddressBar === \&quot;permalink\&quot;) {\n\t\t\t$tw.locationHash = \&quot;#\&quot; + encodeURIComponent(targetTiddler);\n\t\t} else {\n\t\t\t$tw.locationHash = \&quot;#\&quot; + encodeURIComponent(targetTiddler) + \&quot;:\&quot; + encodeURIComponent($tw.utils.stringifyList(storyList));\n\t\t}\n\t\t// Only change the location hash if we must, thus avoiding unnecessary onhashchange events\n\t\tif($tw.utils.getLocationHash() !== $tw.locationHash) {\n\t\t\tif(options.updateHistory === \&quot;yes\&quot;) {\n\t\t\t\t// Assign the location hash so that history is updated\n\t\t\t\twindow.location.hash = $tw.locationHash;\n\t\t\t} else {\n\t\t\t\t// We use replace so that browser history isn't affected\n\t\t\t\twindow.location.replace(window.location.toString().split(\&quot;#\&quot;)[0] + $tw.locationHash);\n\t\t\t}\n\t\t}\n\t}\n}\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/startup/story.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/startup/windows.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/startup/windows.js\ntype: application/javascript\nmodule-type: startup\n\nSetup root widget handlers for the messages concerned with opening external browser windows\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Export name and synchronous status\nexports.name = \&quot;windows\&quot;;\nexports.platforms = [\&quot;browser\&quot;];\nexports.after = [\&quot;startup\&quot;];\nexports.synchronous = true;\n\n// Global to keep track of open windows (hashmap by title)\nvar windows = {};\n\nexports.startup = function() {\n\t// Handle open window message\n\t$tw.rootWidget.addEventListener(\&quot;tm-open-window\&quot;,function(event) {\n\t\t// Get the parameters\n\t\tvar refreshHandler,\n\t\t\ttitle = event.param || event.tiddlerTitle,\n\t\t\tparamObject = event.paramObject || {},\n\t\t\ttemplate = paramObject.template || \&quot;$:/core/templates/single.tiddler.window\&quot;,\n\t\t\twidth = paramObject.width || \&quot;700\&quot;,\n\t\t\theight = paramObject.height || \&quot;600\&quot;,\n\t\t\tvariables = $tw.utils.extend({},paramObject,{currentTiddler: title});\n\t\t// Open the window\n\t\tvar srcWindow = window.open(\&quot;\&quot;,\&quot;external-\&quot; + title,\&quot;scrollbars,width=\&quot; + width + \&quot;,height=\&quot; + height),\n\t\t\tsrcDocument = srcWindow.document;\n\t\twindows[title] = srcWindow;\n\t\t// Check for reopening the same window\n\t\tif(srcWindow.haveInitialisedWindow) {\n\t\t\treturn;\n\t\t}\n\t\t// Initialise the document\n\t\tsrcDocument.write(\&quot;&lt;html&gt;&lt;head&gt;&lt;/head&gt;&lt;body class='tc-body tc-single-tiddler-window'&gt;&lt;/body&gt;&lt;/html&gt;\&quot;);\n\t\tsrcDocument.close();\n\t\tsrcDocument.title = title;\n\t\tsrcWindow.addEventListener(\&quot;beforeunload\&quot;,function(event) {\n\t\t\tdelete windows[title];\n\t\t\t$tw.wiki.removeEventListener(\&quot;change\&quot;,refreshHandler);\n\t\t},false);\n\t\t// Set up the styles\n\t\tvar styleWidgetNode = $tw.wiki.makeTranscludeWidget(\&quot;$:/core/ui/PageStylesheet\&quot;,{document: $tw.fakeDocument, variables: variables}),\n\t\t\tstyleContainer = $tw.fakeDocument.createElement(\&quot;style\&quot;);\n\t\tstyleWidgetNode.render(styleContainer,null);\n\t\tvar styleElement = srcDocument.createElement(\&quot;style\&quot;);\n\t\tstyleElement.innerHTML = styleContainer.textContent;\n\t\tsrcDocument.head.insertBefore(styleElement,srcDocument.head.firstChild);\n\t\t// Render the text of the tiddler\n\t\tvar parser = $tw.wiki.parseTiddler(template),\n\t\t\twidgetNode = $tw.wiki.makeWidget(parser,{document: srcDocument, parentWidget: $tw.rootWidget, variables: variables});\n\t\twidgetNode.render(srcDocument.body,srcDocument.body.firstChild);\n\t\t// Function to handle refreshes\n\t\trefreshHandler = function(changes) {\n\t\t\tif(styleWidgetNode.refresh(changes,styleContainer,null)) {\n\t\t\t\tstyleElement.innerHTML = styleContainer.textContent;\n\t\t\t}\n\t\t\twidgetNode.refresh(changes);\n\t\t};\n\t\t$tw.wiki.addEventListener(\&quot;change\&quot;,refreshHandler);\n\t\tsrcWindow.haveInitialisedWindow = true;\n\t});\n\t// Close open windows when unloading main window\n\t$tw.addUnloadTask(function() {\n\t\t$tw.utils.each(windows,function(win) {\n\t\t\twin.close();\n\t\t});\n\t});\n\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/startup/windows.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;startup&quot;
        },
        &quot;$:/core/modules/story.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/story.js\ntype: application/javascript\nmodule-type: global\n\nLightweight object for managing interactions with the story and history lists.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nConstruct Story object with options:\nwiki: reference to wiki object to use to resolve tiddler titles\nstoryTitle: title of story list tiddler\nhistoryTitle: title of history list tiddler\n*/\nfunction Story(options) {\n\toptions = options || {};\n\tthis.wiki = options.wiki || $tw.wiki;\n\tthis.storyTitle = options.storyTitle || \&quot;$:/StoryList\&quot;;\n\tthis.historyTitle = options.historyTitle || \&quot;$:/HistoryList\&quot;;\n};\n\nStory.prototype.navigateTiddler = function(navigateTo,navigateFromTitle,navigateFromClientRect) {\n\tthis.addToStory(navigateTo,navigateFromTitle);\n\tthis.addToHistory(navigateTo,navigateFromClientRect);\n};\n\nStory.prototype.getStoryList = function() {\n\treturn this.wiki.getTiddlerList(this.storyTitle) || [];\n};\n\nStory.prototype.addToStory = function(navigateTo,navigateFromTitle,options) {\n\toptions = options || {};\n\tvar storyList = this.getStoryList();\n\t// See if the tiddler is already there\n\tvar slot = storyList.indexOf(navigateTo);\n\t// Quit if it already exists in the story river\n\tif(slot &gt;= 0) {\n\t\treturn;\n\t}\n\t// First we try to find the position of the story element we navigated from\n\tvar fromIndex = storyList.indexOf(navigateFromTitle);\n\tif(fromIndex &gt;= 0) {\n\t\t// The tiddler is added from inside the river\n\t\t// Determine where to insert the tiddler; Fallback is \&quot;below\&quot;\n\t\tswitch(options.openLinkFromInsideRiver) {\n\t\t\tcase \&quot;top\&quot;:\n\t\t\t\tslot = 0;\n\t\t\t\tbreak;\n\t\t\tcase \&quot;bottom\&quot;:\n\t\t\t\tslot = storyList.length;\n\t\t\t\tbreak;\n\t\t\tcase \&quot;above\&quot;:\n\t\t\t\tslot = fromIndex;\n\t\t\t\tbreak;\n\t\t\tcase \&quot;below\&quot;: // Intentional fall-through\n\t\t\tdefault:\n\t\t\t\tslot = fromIndex + 1;\n\t\t\t\tbreak;\n\t\t}\n\t} else {\n\t\t// The tiddler is opened from outside the river. Determine where to insert the tiddler; default is \&quot;top\&quot;\n\t\tif(options.openLinkFromOutsideRiver === \&quot;bottom\&quot;) {\n\t\t\t// Insert at bottom\n\t\t\tslot = storyList.length;\n\t\t} else {\n\t\t\t// Insert at top\n\t\t\tslot = 0;\n\t\t}\n\t}\n\t// Add the tiddler\n\tstoryList.splice(slot,0,navigateTo);\n\t// Save the story\n\tthis.saveStoryList(storyList);\n};\n\nStory.prototype.saveStoryList = function(storyList) {\n\tvar storyTiddler = this.wiki.getTiddler(this.storyTitle);\n\tthis.wiki.addTiddler(new $tw.Tiddler(\n\t\tthis.wiki.getCreationFields(),\n\t\t{title: this.storyTitle},\n\t\tstoryTiddler,\n\t\t{list: storyList},\n\t\tthis.wiki.getModificationFields()\n\t));\n};\n\nStory.prototype.addToHistory = function(navigateTo,navigateFromClientRect) {\n\tvar titles = $tw.utils.isArray(navigateTo) ? navigateTo : [navigateTo];\n\t// Add a new record to the top of the history stack\n\tvar historyList = this.wiki.getTiddlerData(this.historyTitle,[]);\n\t$tw.utils.each(titles,function(title) {\n\t\thistoryList.push({title: title, fromPageRect: navigateFromClientRect});\n\t});\n\tthis.wiki.setTiddlerData(this.historyTitle,historyList,{\&quot;current-tiddler\&quot;: titles[titles.length-1]});\n};\n\nStory.prototype.storyCloseTiddler = function(targetTitle) {\n// TBD\n};\n\nStory.prototype.storyCloseAllTiddlers = function() {\n// TBD\n};\n\nStory.prototype.storyCloseOtherTiddlers = function(targetTitle) {\n// TBD\n};\n\nStory.prototype.storyEditTiddler = function(targetTitle) {\n// TBD\n};\n\nStory.prototype.storyDeleteTiddler = function(targetTitle) {\n// TBD\n};\n\nStory.prototype.storySaveTiddler = function(targetTitle) {\n// TBD\n};\n\nStory.prototype.storyCancelTiddler = function(targetTitle) {\n// TBD\n};\n\nStory.prototype.storyNewTiddler = function(targetTitle) {\n// TBD\n};\n\nexports.Story = Story;\n\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/story.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;global&quot;
        },
        &quot;$:/core/modules/storyviews/classic.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/storyviews/classic.js\ntype: application/javascript\nmodule-type: storyview\n\nViews the story as a linear sequence\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar easing = \&quot;cubic-bezier(0.645, 0.045, 0.355, 1)\&quot;; // From http://easings.net/#easeInOutCubic\n\nvar ClassicStoryView = function(listWidget) {\n\tthis.listWidget = listWidget;\n};\n\nClassicStoryView.prototype.navigateTo = function(historyInfo) {\n\tvar listElementIndex = this.listWidget.findListItem(0,historyInfo.title);\n\tif(listElementIndex === undefined) {\n\t\treturn;\n\t}\n\tvar listItemWidget = this.listWidget.children[listElementIndex],\n\t\ttargetElement = listItemWidget.findFirstDomNode();\n\t// Abandon if the list entry isn't a DOM element (it might be a text node)\n\tif(!(targetElement instanceof Element)) {\n\t\treturn;\n\t}\n\t// Scroll the node into view\n\tthis.listWidget.dispatchEvent({type: \&quot;tm-scroll\&quot;, target: targetElement});\n};\n\nClassicStoryView.prototype.insert = function(widget) {\n\tvar targetElement = widget.findFirstDomNode(),\n\t\tduration = $tw.utils.getAnimationDuration();\n\t// Abandon if the list entry isn't a DOM element (it might be a text node)\n\tif(!(targetElement instanceof Element)) {\n\t\treturn;\n\t}\n\t// Get the current height of the tiddler\n\tvar computedStyle = window.getComputedStyle(targetElement),\n\t\tcurrMarginBottom = parseInt(computedStyle.marginBottom,10),\n\t\tcurrMarginTop = parseInt(computedStyle.marginTop,10),\n\t\tcurrHeight = targetElement.offsetHeight + currMarginTop;\n\t// Reset the margin once the transition is over\n\tsetTimeout(function() {\n\t\t$tw.utils.setStyle(targetElement,[\n\t\t\t{transition: \&quot;none\&quot;},\n\t\t\t{marginBottom: \&quot;\&quot;}\n\t\t]);\n\t},duration);\n\t// Set up the initial position of the element\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transition: \&quot;none\&quot;},\n\t\t{marginBottom: (-currHeight) + \&quot;px\&quot;},\n\t\t{opacity: \&quot;0.0\&quot;}\n\t]);\n\t$tw.utils.forceLayout(targetElement);\n\t// Transition to the final position\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transition: \&quot;opacity \&quot; + duration + \&quot;ms \&quot; + easing + \&quot;, \&quot; +\n\t\t\t\t\t\&quot;margin-bottom \&quot; + duration + \&quot;ms \&quot; + easing},\n\t\t{marginBottom: currMarginBottom + \&quot;px\&quot;},\n\t\t{opacity: \&quot;1.0\&quot;}\n\t]);\n};\n\nClassicStoryView.prototype.remove = function(widget) {\n\tvar targetElement = widget.findFirstDomNode(),\n\t\tduration = $tw.utils.getAnimationDuration(),\n\t\tremoveElement = function() {\n\t\t\twidget.removeChildDomNodes();\n\t\t};\n\t// Abandon if the list entry isn't a DOM element (it might be a text node)\n\tif(!(targetElement instanceof Element)) {\n\t\tremoveElement();\n\t\treturn;\n\t}\n\t// Get the current height of the tiddler\n\tvar currWidth = targetElement.offsetWidth,\n\t\tcomputedStyle = window.getComputedStyle(targetElement),\n\t\tcurrMarginBottom = parseInt(computedStyle.marginBottom,10),\n\t\tcurrMarginTop = parseInt(computedStyle.marginTop,10),\n\t\tcurrHeight = targetElement.offsetHeight + currMarginTop;\n\t// Remove the dom nodes of the widget at the end of the transition\n\tsetTimeout(removeElement,duration);\n\t// Animate the closure\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transition: \&quot;none\&quot;},\n\t\t{transform: \&quot;translateX(0px)\&quot;},\n\t\t{marginBottom:  currMarginBottom + \&quot;px\&quot;},\n\t\t{opacity: \&quot;1.0\&quot;}\n\t]);\n\t$tw.utils.forceLayout(targetElement);\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transition: $tw.utils.roundTripPropertyName(\&quot;transform\&quot;) + \&quot; \&quot; + duration + \&quot;ms \&quot; + easing + \&quot;, \&quot; +\n\t\t\t\t\t\&quot;opacity \&quot; + duration + \&quot;ms \&quot; + easing + \&quot;, \&quot; +\n\t\t\t\t\t\&quot;margin-bottom \&quot; + duration + \&quot;ms \&quot; + easing},\n\t\t{transform: \&quot;translateX(-\&quot; + currWidth + \&quot;px)\&quot;},\n\t\t{marginBottom: (-currHeight) + \&quot;px\&quot;},\n\t\t{opacity: \&quot;0.0\&quot;}\n\t]);\n};\n\nexports.classic = ClassicStoryView;\n\n})();&quot;,
            &quot;title&quot;: &quot;$:/core/modules/storyviews/classic.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;storyview&quot;
        },
        &quot;$:/core/modules/storyviews/pop.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/storyviews/pop.js\ntype: application/javascript\nmodule-type: storyview\n\nAnimates list insertions and removals\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar PopStoryView = function(listWidget) {\n\tthis.listWidget = listWidget;\n};\n\nPopStoryView.prototype.navigateTo = function(historyInfo) {\n\tvar listElementIndex = this.listWidget.findListItem(0,historyInfo.title);\n\tif(listElementIndex === undefined) {\n\t\treturn;\n\t}\n\tvar listItemWidget = this.listWidget.children[listElementIndex],\n\t\ttargetElement = listItemWidget.findFirstDomNode();\n\t// Abandon if the list entry isn't a DOM element (it might be a text node)\n\tif(!(targetElement instanceof Element)) {\n\t\treturn;\n\t}\n\t// Scroll the node into view\n\tthis.listWidget.dispatchEvent({type: \&quot;tm-scroll\&quot;, target: targetElement});\n};\n\nPopStoryView.prototype.insert = function(widget) {\n\tvar targetElement = widget.findFirstDomNode(),\n\t\tduration = $tw.utils.getAnimationDuration();\n\t// Abandon if the list entry isn't a DOM element (it might be a text node)\n\tif(!(targetElement instanceof Element)) {\n\t\treturn;\n\t}\n\t// Reset once the transition is over\n\tsetTimeout(function() {\n\t\t$tw.utils.setStyle(targetElement,[\n\t\t\t{transition: \&quot;none\&quot;},\n\t\t\t{transform: \&quot;none\&quot;}\n\t\t]);\n\t},duration);\n\t// Set up the initial position of the element\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transition: \&quot;none\&quot;},\n\t\t{transform: \&quot;scale(2)\&quot;},\n\t\t{opacity: \&quot;0.0\&quot;}\n\t]);\n\t$tw.utils.forceLayout(targetElement);\n\t// Transition to the final position\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transition: $tw.utils.roundTripPropertyName(\&quot;transform\&quot;) + \&quot; \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;opacity \&quot; + duration + \&quot;ms ease-in-out\&quot;},\n\t\t{transform: \&quot;scale(1)\&quot;},\n\t\t{opacity: \&quot;1.0\&quot;}\n\t]);\n};\n\nPopStoryView.prototype.remove = function(widget) {\n\tvar targetElement = widget.findFirstDomNode(),\n\t\tduration = $tw.utils.getAnimationDuration(),\n\t\tremoveElement = function() {\n\t\t\tif(targetElement.parentNode) {\n\t\t\t\twidget.removeChildDomNodes();\n\t\t\t}\n\t\t};\n\t// Abandon if the list entry isn't a DOM element (it might be a text node)\n\tif(!(targetElement instanceof Element)) {\n\t\tremoveElement();\n\t\treturn;\n\t}\n\t// Remove the element at the end of the transition\n\tsetTimeout(removeElement,duration);\n\t// Animate the closure\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transition: \&quot;none\&quot;},\n\t\t{transform: \&quot;scale(1)\&quot;},\n\t\t{opacity: \&quot;1.0\&quot;}\n\t]);\n\t$tw.utils.forceLayout(targetElement);\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transition: $tw.utils.roundTripPropertyName(\&quot;transform\&quot;) + \&quot; \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;opacity \&quot; + duration + \&quot;ms ease-in-out\&quot;},\n\t\t{transform: \&quot;scale(0.1)\&quot;},\n\t\t{opacity: \&quot;0.0\&quot;}\n\t]);\n};\n\nexports.pop = PopStoryView;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/storyviews/pop.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;storyview&quot;
        },
        &quot;$:/core/modules/storyviews/zoomin.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/storyviews/zoomin.js\ntype: application/javascript\nmodule-type: storyview\n\nZooms between individual tiddlers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar easing = \&quot;cubic-bezier(0.645, 0.045, 0.355, 1)\&quot;; // From http://easings.net/#easeInOutCubic\n\nvar ZoominListView = function(listWidget) {\n\tvar self = this;\n\tthis.listWidget = listWidget;\n\t// Get the index of the tiddler that is at the top of the history\n\tvar history = this.listWidget.wiki.getTiddlerDataCached(this.listWidget.historyTitle,[]),\n\t\ttargetTiddler;\n\tif(history.length &gt; 0) {\n\t\ttargetTiddler = history[history.length-1].title;\n\t}\n\t// Make all the tiddlers position absolute, and hide all but the top (or first) one\n\t$tw.utils.each(this.listWidget.children,function(itemWidget,index) {\n\t\tvar domNode = itemWidget.findFirstDomNode();\n\t\t// Abandon if the list entry isn't a DOM element (it might be a text node)\n\t\tif(!(domNode instanceof Element)) {\n\t\t\treturn;\n\t\t}\n\t\tif((targetTiddler &amp;&amp; targetTiddler !== itemWidget.parseTreeNode.itemTitle) || (!targetTiddler &amp;&amp; index)) {\n\t\t\tdomNode.style.display = \&quot;none\&quot;;\n\t\t} else {\n\t\t\tself.currentTiddlerDomNode = domNode;\n\t\t}\n\t\t$tw.utils.addClass(domNode,\&quot;tc-storyview-zoomin-tiddler\&quot;);\n\t});\n};\n\nZoominListView.prototype.navigateTo = function(historyInfo) {\n\tvar duration = $tw.utils.getAnimationDuration(),\n\t\tlistElementIndex = this.listWidget.findListItem(0,historyInfo.title);\n\tif(listElementIndex === undefined) {\n\t\treturn;\n\t}\n\tvar listItemWidget = this.listWidget.children[listElementIndex],\n\t\ttargetElement = listItemWidget.findFirstDomNode();\n\t// Abandon if the list entry isn't a DOM element (it might be a text node)\n\tif(!(targetElement instanceof Element)) {\n\t\treturn;\n\t}\n\t// Make the new tiddler be position absolute and visible so that we can measure it\n\t$tw.utils.addClass(targetElement,\&quot;tc-storyview-zoomin-tiddler\&quot;);\n\t$tw.utils.setStyle(targetElement,[\n\t\t{display: \&quot;block\&quot;},\n\t\t{transformOrigin: \&quot;0 0\&quot;},\n\t\t{transform: \&quot;translateX(0px) translateY(0px) scale(1)\&quot;},\n\t\t{transition: \&quot;none\&quot;},\n\t\t{opacity: \&quot;0.0\&quot;}\n\t]);\n\t// Get the position of the source node, or use the centre of the window as the source position\n\tvar sourceBounds = historyInfo.fromPageRect || {\n\t\t\tleft: window.innerWidth/2 - 2,\n\t\t\ttop: window.innerHeight/2 - 2,\n\t\t\twidth: window.innerWidth/8,\n\t\t\theight: window.innerHeight/8\n\t\t};\n\t// Try to find the title node in the target tiddler\n\tvar titleDomNode = findTitleDomNode(listItemWidget) || listItemWidget.findFirstDomNode(),\n\t\tzoomBounds = titleDomNode.getBoundingClientRect();\n\t// Compute the transform for the target tiddler to make the title lie over the source rectange\n\tvar targetBounds = targetElement.getBoundingClientRect(),\n\t\tscale = sourceBounds.width / zoomBounds.width,\n\t\tx = sourceBounds.left - targetBounds.left - (zoomBounds.left - targetBounds.left) * scale,\n\t\ty = sourceBounds.top - targetBounds.top - (zoomBounds.top - targetBounds.top) * scale;\n\t// Transform the target tiddler to its starting position\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transform: \&quot;translateX(\&quot; + x + \&quot;px) translateY(\&quot; + y + \&quot;px) scale(\&quot; + scale + \&quot;)\&quot;}\n\t]);\n\t// Force layout\n\t$tw.utils.forceLayout(targetElement);\n\t// Apply the ending transitions with a timeout to ensure that the previously applied transformations are applied first\n\tvar self = this,\n\t\tprevCurrentTiddler = this.currentTiddlerDomNode;\n\tthis.currentTiddlerDomNode = targetElement;\n\t// Transform the target tiddler to its natural size\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transition: $tw.utils.roundTripPropertyName(\&quot;transform\&quot;) + \&quot; \&quot; + duration + \&quot;ms \&quot; + easing + \&quot;, opacity \&quot; + duration + \&quot;ms \&quot; + easing},\n\t\t{opacity: \&quot;1.0\&quot;},\n\t\t{transform: \&quot;translateX(0px) translateY(0px) scale(1)\&quot;},\n\t\t{zIndex: \&quot;500\&quot;},\n\t]);\n\t// Transform the previous tiddler out of the way and then hide it\n\tif(prevCurrentTiddler &amp;&amp; prevCurrentTiddler !== targetElement) {\n\t\tscale = zoomBounds.width / sourceBounds.width;\n\t\tx =  zoomBounds.left - targetBounds.left - (sourceBounds.left - targetBounds.left) * scale;\n\t\ty =  zoomBounds.top - targetBounds.top - (sourceBounds.top - targetBounds.top) * scale;\n\t\t$tw.utils.setStyle(prevCurrentTiddler,[\n\t\t\t{transition: $tw.utils.roundTripPropertyName(\&quot;transform\&quot;) + \&quot; \&quot; + duration + \&quot;ms \&quot; + easing + \&quot;, opacity \&quot; + duration + \&quot;ms \&quot; + easing},\n\t\t\t{opacity: \&quot;0.0\&quot;},\n\t\t\t{transformOrigin: \&quot;0 0\&quot;},\n\t\t\t{transform: \&quot;translateX(\&quot; + x + \&quot;px) translateY(\&quot; + y + \&quot;px) scale(\&quot; + scale + \&quot;)\&quot;},\n\t\t\t{zIndex: \&quot;0\&quot;}\n\t\t]);\n\t\t// Hide the tiddler when the transition has finished\n\t\tsetTimeout(function() {\n\t\t\tif(self.currentTiddlerDomNode !== prevCurrentTiddler) {\n\t\t\t\tprevCurrentTiddler.style.display = \&quot;none\&quot;;\n\t\t\t}\n\t\t},duration);\n\t}\n\t// Scroll the target into view\n//\t$tw.pageScroller.scrollIntoView(targetElement);\n};\n\n/*\nFind the first child DOM node of a widget that has the class \&quot;tc-title\&quot;\n*/\nfunction findTitleDomNode(widget,targetClass) {\n\ttargetClass = targetClass || \&quot;tc-title\&quot;;\n\tvar domNode = widget.findFirstDomNode();\n\tif(domNode &amp;&amp; domNode.querySelector) {\n\t\treturn domNode.querySelector(\&quot;.\&quot; + targetClass);\n\t}\n\treturn null;\n}\n\nZoominListView.prototype.insert = function(widget) {\n\tvar targetElement = widget.findFirstDomNode();\n\t// Abandon if the list entry isn't a DOM element (it might be a text node)\n\tif(!(targetElement instanceof Element)) {\n\t\treturn;\n\t}\n\t// Make the newly inserted node position absolute and hidden\n\t$tw.utils.addClass(targetElement,\&quot;tc-storyview-zoomin-tiddler\&quot;);\n\t$tw.utils.setStyle(targetElement,[\n\t\t{display: \&quot;none\&quot;}\n\t]);\n};\n\nZoominListView.prototype.remove = function(widget) {\n\tvar targetElement = widget.findFirstDomNode(),\n\t\tduration = $tw.utils.getAnimationDuration(),\n\t\tremoveElement = function() {\n\t\t\twidget.removeChildDomNodes();\n\t\t};\n\t// Abandon if the list entry isn't a DOM element (it might be a text node)\n\tif(!(targetElement instanceof Element)) {\n\t\tremoveElement();\n\t\treturn;\n\t}\n\t// Abandon if hidden\n\tif(targetElement.style.display != \&quot;block\&quot; ) {\n\t\tremoveElement();\n\t\treturn;\n\t}\n\t// Set up the tiddler that is being closed\n\t$tw.utils.addClass(targetElement,\&quot;tc-storyview-zoomin-tiddler\&quot;);\n\t$tw.utils.setStyle(targetElement,[\n\t\t{display: \&quot;block\&quot;},\n\t\t{transformOrigin: \&quot;50% 50%\&quot;},\n\t\t{transform: \&quot;translateX(0px) translateY(0px) scale(1)\&quot;},\n\t\t{transition: \&quot;none\&quot;},\n\t\t{zIndex: \&quot;0\&quot;}\n\t]);\n\t// We'll move back to the previous or next element in the story\n\tvar toWidget = widget.previousSibling();\n\tif(!toWidget) {\n\t\ttoWidget = widget.nextSibling();\n\t}\n\tvar toWidgetDomNode = toWidget &amp;&amp; toWidget.findFirstDomNode();\n\t// Set up the tiddler we're moving back in\n\tif(toWidgetDomNode) {\n\t\t$tw.utils.addClass(toWidgetDomNode,\&quot;tc-storyview-zoomin-tiddler\&quot;);\n\t\t$tw.utils.setStyle(toWidgetDomNode,[\n\t\t\t{display: \&quot;block\&quot;},\n\t\t\t{transformOrigin: \&quot;50% 50%\&quot;},\n\t\t\t{transform: \&quot;translateX(0px) translateY(0px) scale(10)\&quot;},\n\t\t\t{transition: $tw.utils.roundTripPropertyName(\&quot;transform\&quot;) + \&quot; \&quot; + duration + \&quot;ms \&quot; + easing + \&quot;, opacity \&quot; + duration + \&quot;ms \&quot; + easing},\n\t\t\t{opacity: \&quot;0\&quot;},\n\t\t\t{zIndex: \&quot;500\&quot;}\n\t\t]);\n\t\tthis.currentTiddlerDomNode = toWidgetDomNode;\n\t}\n\t// Animate them both\n\t// Force layout\n\t$tw.utils.forceLayout(this.listWidget.parentDomNode);\n\t// First, the tiddler we're closing\n\t$tw.utils.setStyle(targetElement,[\n\t\t{transformOrigin: \&quot;50% 50%\&quot;},\n\t\t{transform: \&quot;translateX(0px) translateY(0px) scale(0.1)\&quot;},\n\t\t{transition: $tw.utils.roundTripPropertyName(\&quot;transform\&quot;) + \&quot; \&quot; + duration + \&quot;ms \&quot; + easing + \&quot;, opacity \&quot; + duration + \&quot;ms \&quot; + easing},\n\t\t{opacity: \&quot;0\&quot;},\n\t\t{zIndex: \&quot;0\&quot;}\n\t]);\n\tsetTimeout(removeElement,duration);\n\t// Now the tiddler we're going back to\n\tif(toWidgetDomNode) {\n\t\t$tw.utils.setStyle(toWidgetDomNode,[\n\t\t\t{transform: \&quot;translateX(0px) translateY(0px) scale(1)\&quot;},\n\t\t\t{opacity: \&quot;1\&quot;}\n\t\t]);\n\t}\n\treturn true; // Indicate that we'll delete the DOM node\n};\n\nexports.zoomin = ZoominListView;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/storyviews/zoomin.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;storyview&quot;
        },
        &quot;$:/core/modules/syncer.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/syncer.js\ntype: application/javascript\nmodule-type: global\n\nThe syncer tracks changes to the store. If a syncadaptor is used then individual tiddlers are synchronised through it. If there is no syncadaptor then the entire wiki is saved via saver modules.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nInstantiate the syncer with the following options:\nsyncadaptor: reference to syncadaptor to be used\nwiki: wiki to be synced\n*/\nfunction Syncer(options) {\n\tvar self = this;\n\tthis.wiki = options.wiki;\n\tthis.syncadaptor = options.syncadaptor;\n\t// Make a logger\n\tthis.logger = new $tw.utils.Logger(\&quot;syncer\&quot; + ($tw.browser ? \&quot;-browser\&quot; : \&quot;\&quot;) + ($tw.node ? \&quot;-server\&quot; : \&quot;\&quot;));\n\t// Compile the dirty tiddler filter\n\tthis.filterFn = this.wiki.compileFilter(this.wiki.getTiddlerText(this.titleSyncFilter));\n\t// Record information for known tiddlers\n\tthis.readTiddlerInfo();\n\t// Tasks are {type: \&quot;load\&quot;/\&quot;save\&quot;/\&quot;delete\&quot;, title:, queueTime:, lastModificationTime:}\n\tthis.taskQueue = {}; // Hashmap of tasks yet to be performed\n\tthis.taskInProgress = {}; // Hash of tasks in progress\n\tthis.taskTimerId = null; // Timer for task dispatch\n\tthis.pollTimerId = null; // Timer for polling server\n\t// Listen out for changes to tiddlers\n\tthis.wiki.addEventListener(\&quot;change\&quot;,function(changes) {\n\t\tself.syncToServer(changes);\n\t});\n\t// Browser event handlers\n\tif($tw.browser) {\n\t\t// Set up our beforeunload handler\n\t\t$tw.addUnloadTask(function(event) {\n\t\t\tvar confirmationMessage;\n\t\t\tif(self.isDirty()) {\n\t\t\t\tconfirmationMessage = $tw.language.getString(\&quot;UnsavedChangesWarning\&quot;);\n\t\t\t\tevent.returnValue = confirmationMessage; // Gecko\n\t\t\t}\n\t\t\treturn confirmationMessage;\n\t\t});\n\t\t// Listen out for login/logout/refresh events in the browser\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-login\&quot;,function() {\n\t\t\tself.handleLoginEvent();\n\t\t});\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-logout\&quot;,function() {\n\t\t\tself.handleLogoutEvent();\n\t\t});\n\t\t$tw.rootWidget.addEventListener(\&quot;tm-server-refresh\&quot;,function() {\n\t\t\tself.handleRefreshEvent();\n\t\t});\n\t}\n\t// Listen out for lazyLoad events\n\tthis.wiki.addEventListener(\&quot;lazyLoad\&quot;,function(title) {\n\t\tself.handleLazyLoadEvent(title);\n\t});\n\t// Get the login status\n\tthis.getStatus(function(err,isLoggedIn) {\n\t\t// Do a sync from the server\n\t\tself.syncFromServer();\n\t});\n}\n\n/*\nConstants\n*/\nSyncer.prototype.titleIsLoggedIn = \&quot;$:/status/IsLoggedIn\&quot;;\nSyncer.prototype.titleUserName = \&quot;$:/status/UserName\&quot;;\nSyncer.prototype.titleSyncFilter = \&quot;$:/config/SyncFilter\&quot;;\nSyncer.prototype.titleSavedNotification = \&quot;$:/language/Notifications/Save/Done\&quot;;\nSyncer.prototype.taskTimerInterval = 1 * 1000; // Interval for sync timer\nSyncer.prototype.throttleInterval = 1 * 1000; // Defer saving tiddlers if they've changed in the last 1s...\nSyncer.prototype.fallbackInterval = 10 * 1000; // Unless the task is older than 10s\nSyncer.prototype.pollTimerInterval = 60 * 1000; // Interval for polling for changes from the adaptor\n\n\n/*\nRead (or re-read) the latest tiddler info from the store\n*/\nSyncer.prototype.readTiddlerInfo = function() {\n\t// Hashmap by title of {revision:,changeCount:,adaptorInfo:}\n\tthis.tiddlerInfo = {};\n\t// Record information for known tiddlers\n\tvar self = this,\n\t\ttiddlers = this.filterFn.call(this.wiki);\n\t$tw.utils.each(tiddlers,function(title) {\n\t\tvar tiddler = self.wiki.getTiddler(title);\n\t\tself.tiddlerInfo[title] = {\n\t\t\trevision: tiddler.fields.revision,\n\t\t\tadaptorInfo: self.syncadaptor &amp;&amp; self.syncadaptor.getTiddlerInfo(tiddler),\n\t\t\tchangeCount: self.wiki.getChangeCount(title)\n\t\t};\n\t});\n};\n\n/*\nChecks whether the wiki is dirty (ie the window shouldn't be closed)\n*/\nSyncer.prototype.isDirty = function() {\n\treturn (this.numTasksInQueue() &gt; 0) || (this.numTasksInProgress() &gt; 0);\n};\n\n/*\nUpdate the document body with the class \&quot;tc-dirty\&quot; if the wiki has unsaved/unsynced changes\n*/\nSyncer.prototype.updateDirtyStatus = function() {\n\tif($tw.browser) {\n\t\t$tw.utils.toggleClass(document.body,\&quot;tc-dirty\&quot;,this.isDirty());\n\t}\n};\n\n/*\nSave an incoming tiddler in the store, and updates the associated tiddlerInfo\n*/\nSyncer.prototype.storeTiddler = function(tiddlerFields) {\n\t// Save the tiddler\n\tvar tiddler = new $tw.Tiddler(this.wiki.getTiddler(tiddlerFields.title),tiddlerFields);\n\tthis.wiki.addTiddler(tiddler);\n\t// Save the tiddler revision and changeCount details\n\tthis.tiddlerInfo[tiddlerFields.title] = {\n\t\trevision: tiddlerFields.revision,\n\t\tadaptorInfo: this.syncadaptor.getTiddlerInfo(tiddler),\n\t\tchangeCount: this.wiki.getChangeCount(tiddlerFields.title)\n\t};\n};\n\nSyncer.prototype.getStatus = function(callback) {\n\tvar self = this;\n\t// Check if the adaptor supports getStatus()\n\tif(this.syncadaptor &amp;&amp; this.syncadaptor.getStatus) {\n\t\t// Mark us as not logged in\n\t\tthis.wiki.addTiddler({title: this.titleIsLoggedIn,text: \&quot;no\&quot;});\n\t\t// Get login status\n\t\tthis.syncadaptor.getStatus(function(err,isLoggedIn,username) {\n\t\t\tif(err) {\n\t\t\t\tself.logger.alert(err);\n\t\t\t\treturn;\n\t\t\t}\n\t\t\t// Set the various status tiddlers\n\t\t\tself.wiki.addTiddler({title: self.titleIsLoggedIn,text: isLoggedIn ? \&quot;yes\&quot; : \&quot;no\&quot;});\n\t\t\tif(isLoggedIn) {\n\t\t\t\tself.wiki.addTiddler({title: self.titleUserName,text: username || \&quot;\&quot;});\n\t\t\t} else {\n\t\t\t\tself.wiki.deleteTiddler(self.titleUserName);\n\t\t\t}\n\t\t\t// Invoke the callback\n\t\t\tif(callback) {\n\t\t\t\tcallback(err,isLoggedIn,username);\n\t\t\t}\n\t\t});\n\t} else {\n\t\tcallback(null,true,\&quot;UNAUTHENTICATED\&quot;);\n\t}\n};\n\n/*\nSynchronise from the server by reading the skinny tiddler list and queuing up loads for any tiddlers that we don't already have up to date\n*/\nSyncer.prototype.syncFromServer = function() {\n\tif(this.syncadaptor &amp;&amp; this.syncadaptor.getSkinnyTiddlers) {\n\t\tthis.logger.log(\&quot;Retrieving skinny tiddler list\&quot;);\n\t\tvar self = this;\n\t\tif(this.pollTimerId) {\n\t\t\tclearTimeout(this.pollTimerId);\n\t\t\tthis.pollTimerId = null;\n\t\t}\n\t\tthis.syncadaptor.getSkinnyTiddlers(function(err,tiddlers) {\n\t\t\t// Trigger the next sync\n\t\t\tself.pollTimerId = setTimeout(function() {\n\t\t\t\tself.pollTimerId = null;\n\t\t\t\tself.syncFromServer.call(self);\n\t\t\t},self.pollTimerInterval);\n\t\t\t// Check for errors\n\t\t\tif(err) {\n\t\t\t\tself.logger.alert(\&quot;Error retrieving skinny tiddler list:\&quot;,err);\n\t\t\t\treturn;\n\t\t\t}\n\t\t\t// Process each incoming tiddler\n\t\t\tfor(var t=0; t&lt;tiddlers.length; t++) {\n\t\t\t\t// Get the incoming tiddler fields, and the existing tiddler\n\t\t\t\tvar tiddlerFields = tiddlers[t],\n\t\t\t\t\tincomingRevision = tiddlerFields.revision + \&quot;\&quot;,\n\t\t\t\t\ttiddler = self.wiki.getTiddler(tiddlerFields.title),\n\t\t\t\t\ttiddlerInfo = self.tiddlerInfo[tiddlerFields.title],\n\t\t\t\t\tcurrRevision = tiddlerInfo ? tiddlerInfo.revision : null;\n\t\t\t\t// Ignore the incoming tiddler if it's the same as the revision we've already got\n\t\t\t\tif(currRevision !== incomingRevision) {\n\t\t\t\t\t// Do a full load if we've already got a fat version of the tiddler\n\t\t\t\t\tif(tiddler &amp;&amp; tiddler.fields.text !== undefined) {\n\t\t\t\t\t\t// Do a full load of this tiddler\n\t\t\t\t\t\tself.enqueueSyncTask({\n\t\t\t\t\t\t\ttype: \&quot;load\&quot;,\n\t\t\t\t\t\t\ttitle: tiddlerFields.title\n\t\t\t\t\t\t});\n\t\t\t\t\t} else {\n\t\t\t\t\t\t// Load the skinny version of the tiddler\n\t\t\t\t\t\tself.storeTiddler(tiddlerFields);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t});\n\t}\n};\n\n/*\nSynchronise a set of changes to the server\n*/\nSyncer.prototype.syncToServer = function(changes) {\n\tvar self = this,\n\t\tnow = Date.now(),\n\t\tfilteredChanges = this.filterFn.call(this.wiki,function(callback) {\n\t\t\t$tw.utils.each(changes,function(change,title) {\n\t\t\t\tvar tiddler = self.wiki.getTiddler(title);\n\t\t\t\tcallback(tiddler,title);\n\t\t\t});\n\t\t});\n\t$tw.utils.each(changes,function(change,title,object) {\n\t\t// Process the change if it is a deletion of a tiddler we're already syncing, or is on the filtered change list\n\t\tif((change.deleted &amp;&amp; $tw.utils.hop(self.tiddlerInfo,title)) || filteredChanges.indexOf(title) !== -1) {\n\t\t\t// Queue a task to sync this tiddler\n\t\t\tself.enqueueSyncTask({\n\t\t\t\ttype: change.deleted ? \&quot;delete\&quot; : \&quot;save\&quot;,\n\t\t\t\ttitle: title\n\t\t\t});\n\t\t}\n\t});\n};\n\n/*\nLazily load a skinny tiddler if we can\n*/\nSyncer.prototype.handleLazyLoadEvent = function(title) {\n\t// Queue up a sync task to load this tiddler\n\tthis.enqueueSyncTask({\n\t\ttype: \&quot;load\&quot;,\n\t\ttitle: title\n\t});\n};\n\n/*\nDispay a password prompt and allow the user to login\n*/\nSyncer.prototype.handleLoginEvent = function() {\n\tvar self = this;\n\tthis.getStatus(function(err,isLoggedIn,username) {\n\t\tif(!isLoggedIn) {\n\t\t\t$tw.passwordPrompt.createPrompt({\n\t\t\t\tserviceName: \&quot;Login to TiddlySpace\&quot;,\n\t\t\t\tcallback: function(data) {\n\t\t\t\t\tself.login(data.username,data.password,function(err,isLoggedIn) {\n\t\t\t\t\t\tself.syncFromServer();\n\t\t\t\t\t});\n\t\t\t\t\treturn true; // Get rid of the password prompt\n\t\t\t\t}\n\t\t\t});\n\t\t}\n\t});\n};\n\n/*\nAttempt to login to TiddlyWeb.\n\tusername: username\n\tpassword: password\n\tcallback: invoked with arguments (err,isLoggedIn)\n*/\nSyncer.prototype.login = function(username,password,callback) {\n\tthis.logger.log(\&quot;Attempting to login as\&quot;,username);\n\tvar self = this;\n\tif(this.syncadaptor.login) {\n\t\tthis.syncadaptor.login(username,password,function(err) {\n\t\t\tif(err) {\n\t\t\t\treturn callback(err);\n\t\t\t}\n\t\t\tself.getStatus(function(err,isLoggedIn,username) {\n\t\t\t\tif(callback) {\n\t\t\t\t\tcallback(null,isLoggedIn);\n\t\t\t\t}\n\t\t\t});\n\t\t});\n\t} else {\n\t\tcallback(null,true);\n\t}\n};\n\n/*\nAttempt to log out of TiddlyWeb\n*/\nSyncer.prototype.handleLogoutEvent = function() {\n\tthis.logger.log(\&quot;Attempting to logout\&quot;);\n\tvar self = this;\n\tif(this.syncadaptor.logout) {\n\t\tthis.syncadaptor.logout(function(err) {\n\t\t\tif(err) {\n\t\t\t\tself.logger.alert(err);\n\t\t\t} else {\n\t\t\t\tself.getStatus();\n\t\t\t}\n\t\t});\n\t}\n};\n\n/*\nImmediately refresh from the server\n*/\nSyncer.prototype.handleRefreshEvent = function() {\n\tthis.syncFromServer();\n};\n\n/*\nQueue up a sync task. If there is already a pending task for the tiddler, just update the last modification time\n*/\nSyncer.prototype.enqueueSyncTask = function(task) {\n\tvar self = this,\n\t\tnow = Date.now();\n\t// Set the timestamps on this task\n\ttask.queueTime = now;\n\ttask.lastModificationTime = now;\n\t// Fill in some tiddlerInfo if the tiddler is one we haven't seen before\n\tif(!$tw.utils.hop(this.tiddlerInfo,task.title)) {\n\t\tthis.tiddlerInfo[task.title] = {\n\t\t\trevision: null,\n\t\t\tadaptorInfo: {},\n\t\t\tchangeCount: -1\n\t\t};\n\t}\n\t// Bail if this is a save and the tiddler is already at the changeCount that the server has\n\tif(task.type === \&quot;save\&quot; &amp;&amp; this.wiki.getChangeCount(task.title) &lt;= this.tiddlerInfo[task.title].changeCount) {\n\t\treturn;\n\t}\n\t// Check if this tiddler is already in the queue\n\tif($tw.utils.hop(this.taskQueue,task.title)) {\n\t\t// this.logger.log(\&quot;Re-queueing up sync task with type:\&quot;,task.type,\&quot;title:\&quot;,task.title);\n\t\tvar existingTask = this.taskQueue[task.title];\n\t\t// If so, just update the last modification time\n\t\texistingTask.lastModificationTime = task.lastModificationTime;\n\t\t// If the new task is a save then we upgrade the existing task to a save. Thus a pending load is turned into a save if the tiddler changes locally in the meantime. But a pending save is not modified to become a load\n\t\tif(task.type === \&quot;save\&quot; || task.type === \&quot;delete\&quot;) {\n\t\t\texistingTask.type = task.type;\n\t\t}\n\t} else {\n\t\t// this.logger.log(\&quot;Queuing up sync task with type:\&quot;,task.type,\&quot;title:\&quot;,task.title);\n\t\t// If it is not in the queue, insert it\n\t\tthis.taskQueue[task.title] = task;\n\t\tthis.updateDirtyStatus();\n\t}\n\t// Process the queue\n\t$tw.utils.nextTick(function() {self.processTaskQueue.call(self);});\n};\n\n/*\nReturn the number of tasks in progress\n*/\nSyncer.prototype.numTasksInProgress = function() {\n\treturn $tw.utils.count(this.taskInProgress);\n};\n\n/*\nReturn the number of tasks in the queue\n*/\nSyncer.prototype.numTasksInQueue = function() {\n\treturn $tw.utils.count(this.taskQueue);\n};\n\n/*\nTrigger a timeout if one isn't already outstanding\n*/\nSyncer.prototype.triggerTimeout = function() {\n\tvar self = this;\n\tif(!this.taskTimerId) {\n\t\tthis.taskTimerId = setTimeout(function() {\n\t\t\tself.taskTimerId = null;\n\t\t\tself.processTaskQueue.call(self);\n\t\t},self.taskTimerInterval);\n\t}\n};\n\n/*\nProcess the task queue, performing the next task if appropriate\n*/\nSyncer.prototype.processTaskQueue = function() {\n\tvar self = this;\n\t// Only process a task if we're not already performing a task. If we are already performing a task then we'll dispatch the next one when it completes\n\tif(this.numTasksInProgress() === 0) {\n\t\t// Choose the next task to perform\n\t\tvar task = this.chooseNextTask();\n\t\t// Perform the task if we had one\n\t\tif(task) {\n\t\t\t// Remove the task from the queue and add it to the in progress list\n\t\t\tdelete this.taskQueue[task.title];\n\t\t\tthis.taskInProgress[task.title] = task;\n\t\t\tthis.updateDirtyStatus();\n\t\t\t// Dispatch the task\n\t\t\tthis.dispatchTask(task,function(err) {\n\t\t\t\tif(err) {\n\t\t\t\t\tself.logger.alert(\&quot;Sync error while processing '\&quot; + task.title + \&quot;':\\n\&quot; + err);\n\t\t\t\t}\n\t\t\t\t// Mark that this task is no longer in progress\n\t\t\t\tdelete self.taskInProgress[task.title];\n\t\t\t\tself.updateDirtyStatus();\n\t\t\t\t// Process the next task\n\t\t\t\tself.processTaskQueue.call(self);\n\t\t\t});\n\t\t} else {\n\t\t\t// Make sure we've set a time if there wasn't a task to perform, but we've still got tasks in the queue\n\t\t\tif(this.numTasksInQueue() &gt; 0) {\n\t\t\t\tthis.triggerTimeout();\n\t\t\t}\n\t\t}\n\t}\n};\n\n/*\nChoose the next applicable task\n*/\nSyncer.prototype.chooseNextTask = function() {\n\tvar self = this,\n\t\tcandidateTask = null,\n\t\tnow = Date.now();\n\t// Select the best candidate task\n\t$tw.utils.each(this.taskQueue,function(task,title) {\n\t\t// Exclude the task if there's one of the same name in progress\n\t\tif($tw.utils.hop(self.taskInProgress,title)) {\n\t\t\treturn;\n\t\t}\n\t\t// Exclude the task if it is a save and the tiddler has been modified recently, but not hit the fallback time\n\t\tif(task.type === \&quot;save\&quot; &amp;&amp; (now - task.lastModificationTime) &lt; self.throttleInterval &amp;&amp;\n\t\t\t(now - task.queueTime) &lt; self.fallbackInterval) {\n\t\t\treturn;\n\t\t}\n\t\t// Exclude the task if it is newer than the current best candidate\n\t\tif(candidateTask &amp;&amp; candidateTask.queueTime &lt; task.queueTime) {\n\t\t\treturn;\n\t\t}\n\t\t// Now this is our best candidate\n\t\tcandidateTask = task;\n\t});\n\treturn candidateTask;\n};\n\n/*\nDispatch a task and invoke the callback\n*/\nSyncer.prototype.dispatchTask = function(task,callback) {\n\tvar self = this;\n\tif(task.type === \&quot;save\&quot;) {\n\t\tvar changeCount = this.wiki.getChangeCount(task.title),\n\t\t\ttiddler = this.wiki.getTiddler(task.title);\n\t\tthis.logger.log(\&quot;Dispatching 'save' task:\&quot;,task.title);\n\t\tif(tiddler) {\n\t\t\tthis.syncadaptor.saveTiddler(tiddler,function(err,adaptorInfo,revision) {\n\t\t\t\tif(err) {\n\t\t\t\t\treturn callback(err);\n\t\t\t\t}\n\t\t\t\t// Adjust the info stored about this tiddler\n\t\t\t\tself.tiddlerInfo[task.title] = {\n\t\t\t\t\tchangeCount: changeCount,\n\t\t\t\t\tadaptorInfo: adaptorInfo,\n\t\t\t\t\trevision: revision\n\t\t\t\t};\n\t\t\t\t// Invoke the callback\n\t\t\t\tcallback(null);\n\t\t\t},{\n\t\t\t\ttiddlerInfo: self.tiddlerInfo[task.title]\n\t\t\t});\n\t\t} else {\n\t\t\tthis.logger.log(\&quot; Not Dispatching 'save' task:\&quot;,task.title,\&quot;tiddler does not exist\&quot;);\n\t\t\treturn callback(null);\n\t\t}\n\t} else if(task.type === \&quot;load\&quot;) {\n\t\t// Load the tiddler\n\t\tthis.logger.log(\&quot;Dispatching 'load' task:\&quot;,task.title);\n\t\tthis.syncadaptor.loadTiddler(task.title,function(err,tiddlerFields) {\n\t\t\tif(err) {\n\t\t\t\treturn callback(err);\n\t\t\t}\n\t\t\t// Store the tiddler\n\t\t\tif(tiddlerFields) {\n\t\t\t\tself.storeTiddler(tiddlerFields);\n\t\t\t}\n\t\t\t// Invoke the callback\n\t\t\tcallback(null);\n\t\t});\n\t} else if(task.type === \&quot;delete\&quot;) {\n\t\t// Delete the tiddler\n\t\tthis.logger.log(\&quot;Dispatching 'delete' task:\&quot;,task.title);\n\t\tthis.syncadaptor.deleteTiddler(task.title,function(err) {\n\t\t\tif(err) {\n\t\t\t\treturn callback(err);\n\t\t\t}\n\t\t\tdelete self.tiddlerInfo[task.title];\n\t\t\t// Invoke the callback\n\t\t\tcallback(null);\n\t\t},{\n\t\t\ttiddlerInfo: self.tiddlerInfo[task.title]\n\t\t});\n\t}\n};\n\nexports.Syncer = Syncer;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/syncer.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;global&quot;
        },
        &quot;$:/core/modules/tiddler.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/tiddler.js\ntype: application/javascript\nmodule-type: tiddlermethod\n\nExtension methods for the $tw.Tiddler object (constructor and methods required at boot time are in boot/boot.js)\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.hasTag = function(tag) {\n\treturn this.fields.tags &amp;&amp; this.fields.tags.indexOf(tag) !== -1;\n};\n\nexports.isPlugin = function() {\n\treturn this.fields.type === \&quot;application/json\&quot; &amp;&amp; this.hasField(\&quot;plugin-type\&quot;);\n};\n\nexports.isDraft = function() {\n\treturn this.hasField(\&quot;draft.of\&quot;);\n};\n\nexports.getFieldString = function(field) {\n\tvar value = this.fields[field];\n\t// Check for a missing field\n\tif(value === undefined || value === null) {\n\t\treturn \&quot;\&quot;;\n\t}\n\t// Parse the field with the associated module (if any)\n\tvar fieldModule = $tw.Tiddler.fieldModules[field];\n\tif(fieldModule &amp;&amp; fieldModule.stringify) {\n\t\treturn fieldModule.stringify.call(this,value);\n\t} else {\n\t\treturn value.toString();\n\t}\n};\n\n/*\nGet all the fields as a name:value block. Options:\n\texclude: an array of field names to exclude\n*/\nexports.getFieldStringBlock = function(options) {\n\toptions = options || {};\n\tvar exclude = options.exclude || [];\n\tvar fields = [];\n\tfor(var field in this.fields) {\n\t\tif($tw.utils.hop(this.fields,field)) {\n\t\t\tif(exclude.indexOf(field) === -1) {\n\t\t\t\tfields.push(field + \&quot;: \&quot; + this.getFieldString(field));\n\t\t\t}\n\t\t}\n\t}\n\treturn fields.join(\&quot;\\n\&quot;);\n};\n\n/*\nCompare two tiddlers for equality\ntiddler: the tiddler to compare\nexcludeFields: array of field names to exclude from the comparison\n*/\nexports.isEqual = function(tiddler,excludeFields) {\n\tif(!(tiddler instanceof $tw.Tiddler)) {\n\t\treturn false;\n\t}\n\texcludeFields = excludeFields || [];\n\tvar self = this,\n\t\tdifferences = []; // Fields that have differences\n\t// Add to the differences array\n\tfunction addDifference(fieldName) {\n\t\t// Check for this field being excluded\n\t\tif(excludeFields.indexOf(fieldName) === -1) {\n\t\t\t// Save the field as a difference\n\t\t\t$tw.utils.pushTop(differences,fieldName);\n\t\t}\n\t}\n\t// Returns true if the two values of this field are equal\n\tfunction isFieldValueEqual(fieldName) {\n\t\tvar valueA = self.fields[fieldName],\n\t\t\tvalueB = tiddler.fields[fieldName];\n\t\t// Check for identical string values\n\t\tif(typeof(valueA) === \&quot;string\&quot; &amp;&amp; typeof(valueB) === \&quot;string\&quot; &amp;&amp; valueA === valueB) {\n\t\t\treturn true;\n\t\t}\n\t\t// Check for identical array values\n\t\tif($tw.utils.isArray(valueA) &amp;&amp; $tw.utils.isArray(valueB) &amp;&amp; $tw.utils.isArrayEqual(valueA,valueB)) {\n\t\t\treturn true;\n\t\t}\n\t\t// Otherwise the fields must be different\n\t\treturn false;\n\t}\n\t// Compare our fields\n\tfor(var fieldName in this.fields) {\n\t\tif(!isFieldValueEqual(fieldName)) {\n\t\t\taddDifference(fieldName);\n\t\t}\n\t}\n\t// There's a difference for every field in the other tiddler that we don't have\n\tfor(fieldName in tiddler.fields) {\n\t\tif(!(fieldName in this.fields)) {\n\t\t\taddDifference(fieldName);\n\t\t}\n\t}\n\t// Return whether there were any differences\n\treturn differences.length === 0;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/tiddler.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;tiddlermethod&quot;
        },
        &quot;$:/core/modules/upgraders/plugins.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/upgraders/plugins.js\ntype: application/javascript\nmodule-type: upgrader\n\nUpgrader module that checks that plugins are newer than any already installed version\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar UPGRADE_LIBRARY_TITLE = \&quot;$:/UpgradeLibrary\&quot;;\n\nvar BLOCKED_PLUGINS = {\n\t\&quot;$:/themes/tiddlywiki/stickytitles\&quot;: {\n\t\tversions: [\&quot;*\&quot;]\n\t},\n\t\&quot;$:/plugins/tiddlywiki/fullscreen\&quot;: {\n\t\tversions: [\&quot;*\&quot;]\n\t}\n};\n\nexports.upgrade = function(wiki,titles,tiddlers) {\n\tvar self = this,\n\t\tmessages = {},\n\t\tupgradeLibrary,\n\t\tgetLibraryTiddler = function(title) {\n\t\t\tif(!upgradeLibrary) {\n\t\t\t\tupgradeLibrary = wiki.getTiddlerData(UPGRADE_LIBRARY_TITLE,{});\n\t\t\t\tupgradeLibrary.tiddlers = upgradeLibrary.tiddlers || {};\n\t\t\t}\n\t\t\treturn upgradeLibrary.tiddlers[title];\n\t\t};\n\n\t// Go through all the incoming tiddlers\n\t$tw.utils.each(titles,function(title) {\n\t\tvar incomingTiddler = tiddlers[title];\n\t\t// Check if we're dealing with a plugin\n\t\tif(incomingTiddler &amp;&amp; incomingTiddler[\&quot;plugin-type\&quot;] &amp;&amp; incomingTiddler.version) {\n\t\t\t// Upgrade the incoming plugin if it is in the upgrade library\n\t\t\tvar libraryTiddler = getLibraryTiddler(title);\n\t\t\tif(libraryTiddler &amp;&amp; libraryTiddler[\&quot;plugin-type\&quot;] &amp;&amp; libraryTiddler.version) {\n\t\t\t\ttiddlers[title] = libraryTiddler;\n\t\t\t\tmessages[title] = $tw.language.getString(\&quot;Import/Upgrader/Plugins/Upgraded\&quot;,{variables: {incoming: incomingTiddler.version, upgraded: libraryTiddler.version}});\n\t\t\t\treturn;\n\t\t\t}\n\t\t\t// Suppress the incoming plugin if it is older than the currently installed one\n\t\t\tvar existingTiddler = wiki.getTiddler(title);\n\t\t\tif(existingTiddler &amp;&amp; existingTiddler.hasField(\&quot;plugin-type\&quot;) &amp;&amp; existingTiddler.hasField(\&quot;version\&quot;)) {\n\t\t\t\t// Reject the incoming plugin by blanking all its fields\n\t\t\t\tif($tw.utils.checkVersions(existingTiddler.fields.version,incomingTiddler.version)) {\n\t\t\t\t\ttiddlers[title] = Object.create(null);\n\t\t\t\t\tmessages[title] = $tw.language.getString(\&quot;Import/Upgrader/Plugins/Suppressed/Version\&quot;,{variables: {incoming: incomingTiddler.version, existing: existingTiddler.fields.version}});\n\t\t\t\t\treturn;\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t\tif(incomingTiddler &amp;&amp; incomingTiddler[\&quot;plugin-type\&quot;]) {\n\t\t\t// Check whether the plugin is on the blocked list\n\t\t\tvar blockInfo = BLOCKED_PLUGINS[title];\n\t\t\tif(blockInfo) {\n\t\t\t\tif(blockInfo.versions.indexOf(\&quot;*\&quot;) !== -1 || (incomingTiddler.version &amp;&amp; blockInfo.versions.indexOf(incomingTiddler.version) !== -1)) {\n\t\t\t\t\ttiddlers[title] = Object.create(null);\n\t\t\t\t\tmessages[title] = $tw.language.getString(\&quot;Import/Upgrader/Plugins/Suppressed/Incompatible\&quot;);\n\t\t\t\t\treturn;\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t});\n\treturn messages;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/upgraders/plugins.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;upgrader&quot;
        },
        &quot;$:/core/modules/upgraders/system.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/upgraders/system.js\ntype: application/javascript\nmodule-type: upgrader\n\nUpgrader module that suppresses certain system tiddlers that shouldn't be imported\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar DONT_IMPORT_LIST = [\&quot;$:/StoryList\&quot;,\&quot;$:/HistoryList\&quot;],\n\tDONT_IMPORT_PREFIX_LIST = [\&quot;$:/temp/\&quot;,\&quot;$:/state/\&quot;];\n\nexports.upgrade = function(wiki,titles,tiddlers) {\n\tvar self = this,\n\t\tmessages = {};\n\t// Check for tiddlers on our list\n\t$tw.utils.each(titles,function(title) {\n\t\tif(DONT_IMPORT_LIST.indexOf(title) !== -1) {\n\t\t\ttiddlers[title] = Object.create(null);\n\t\t\tmessages[title] = $tw.language.getString(\&quot;Import/Upgrader/System/Suppressed\&quot;);\n\t\t} else {\n\t\t\tfor(var t=0; t&lt;DONT_IMPORT_PREFIX_LIST.length; t++) {\n\t\t\t\tvar prefix = DONT_IMPORT_PREFIX_LIST[t];\n\t\t\t\tif(title.substr(0,prefix.length) === prefix) {\n\t\t\t\t\ttiddlers[title] = Object.create(null);\n\t\t\t\t\tmessages[title] = $tw.language.getString(\&quot;Import/Upgrader/State/Suppressed\&quot;);\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t});\n\treturn messages;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/upgraders/system.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;upgrader&quot;
        },
        &quot;$:/core/modules/upgraders/themetweaks.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/upgraders/themetweaks.js\ntype: application/javascript\nmodule-type: upgrader\n\nUpgrader module that handles the change in theme tweak storage introduced in 5.0.14-beta.\n\nPreviously, theme tweaks were stored in two data tiddlers:\n\n* $:/themes/tiddlywiki/vanilla/metrics\n* $:/themes/tiddlywiki/vanilla/settings\n\nNow, each tweak is stored in its own separate tiddler.\n\nThis upgrader copies any values from the old format to the new. The old data tiddlers are not deleted in case they have been used to store additional indexes.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar MAPPINGS = {\n\t\&quot;$:/themes/tiddlywiki/vanilla/metrics\&quot;: {\n\t\t\&quot;fontsize\&quot;: \&quot;$:/themes/tiddlywiki/vanilla/metrics/fontsize\&quot;,\n\t\t\&quot;lineheight\&quot;: \&quot;$:/themes/tiddlywiki/vanilla/metrics/lineheight\&quot;,\n\t\t\&quot;storyleft\&quot;: \&quot;$:/themes/tiddlywiki/vanilla/metrics/storyleft\&quot;,\n\t\t\&quot;storytop\&quot;: \&quot;$:/themes/tiddlywiki/vanilla/metrics/storytop\&quot;,\n\t\t\&quot;storyright\&quot;: \&quot;$:/themes/tiddlywiki/vanilla/metrics/storyright\&quot;,\n\t\t\&quot;storywidth\&quot;: \&quot;$:/themes/tiddlywiki/vanilla/metrics/storywidth\&quot;,\n\t\t\&quot;tiddlerwidth\&quot;: \&quot;$:/themes/tiddlywiki/vanilla/metrics/tiddlerwidth\&quot;\n\t},\n\t\&quot;$:/themes/tiddlywiki/vanilla/settings\&quot;: {\n\t\t\&quot;fontfamily\&quot;: \&quot;$:/themes/tiddlywiki/vanilla/settings/fontfamily\&quot;\n\t}\n};\n\nexports.upgrade = function(wiki,titles,tiddlers) {\n\tvar self = this,\n\t\tmessages = {};\n\t// Check for tiddlers on our list\n\t$tw.utils.each(titles,function(title) {\n\t\tvar mapping = MAPPINGS[title];\n\t\tif(mapping) {\n\t\t\tvar tiddler = new $tw.Tiddler(tiddlers[title]),\n\t\t\t\ttiddlerData = wiki.getTiddlerDataCached(tiddler,{});\n\t\t\tfor(var index in mapping) {\n\t\t\t\tvar mappedTitle = mapping[index];\n\t\t\t\tif(!tiddlers[mappedTitle] || tiddlers[mappedTitle].title !== mappedTitle) {\n\t\t\t\t\ttiddlers[mappedTitle] = {\n\t\t\t\t\t\ttitle: mappedTitle,\n\t\t\t\t\t\ttext: tiddlerData[index]\n\t\t\t\t\t};\n\t\t\t\t\tmessages[mappedTitle] = $tw.language.getString(\&quot;Import/Upgrader/ThemeTweaks/Created\&quot;,{variables: {\n\t\t\t\t\t\tfrom: title + \&quot;##\&quot; + index\n\t\t\t\t\t}});\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t});\n\treturn messages;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/upgraders/themetweaks.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;upgrader&quot;
        },
        &quot;$:/core/modules/utils/crypto.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/crypto.js\ntype: application/javascript\nmodule-type: utils\n\nUtility functions related to crypto.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nLook for an encrypted store area in the text of a TiddlyWiki file\n*/\nexports.extractEncryptedStoreArea = function(text) {\n\tvar encryptedStoreAreaStartMarker = \&quot;&lt;pre id=\\\&quot;encryptedStoreArea\\\&quot; type=\\\&quot;text/plain\\\&quot; style=\\\&quot;display:none;\\\&quot;&gt;\&quot;,\n\t\tencryptedStoreAreaStart = text.indexOf(encryptedStoreAreaStartMarker);\n\tif(encryptedStoreAreaStart !== -1) {\n\t\tvar encryptedStoreAreaEnd = text.indexOf(\&quot;&lt;/pre&gt;\&quot;,encryptedStoreAreaStart);\n\t\tif(encryptedStoreAreaEnd !== -1) {\n\t\t\treturn $tw.utils.htmlDecode(text.substring(encryptedStoreAreaStart + encryptedStoreAreaStartMarker.length,encryptedStoreAreaEnd-1));\n\t\t}\n\t}\n\treturn null;\n};\n\n/*\nAttempt to extract the tiddlers from an encrypted store area using the current password. If the password is not provided then the password in the password store will be used\n*/\nexports.decryptStoreArea = function(encryptedStoreArea,password) {\n\tvar decryptedText = $tw.crypto.decrypt(encryptedStoreArea,password);\n\tif(decryptedText) {\n\t\tvar json = JSON.parse(decryptedText),\n\t\t\ttiddlers = [];\n\t\tfor(var title in json) {\n\t\t\tif(title !== \&quot;$:/isEncrypted\&quot;) {\n\t\t\t\ttiddlers.push(json[title]);\n\t\t\t}\n\t\t}\n\t\treturn tiddlers;\n\t} else {\n\t\treturn null;\n\t}\n};\n\n\n/*\nAttempt to extract the tiddlers from an encrypted store area using the current password. If that fails, the user is prompted for a password.\nencryptedStoreArea: text of the TiddlyWiki encrypted store area\ncallback: function(tiddlers) called with the array of decrypted tiddlers\n\nThe following configuration settings are supported:\n\n$tw.config.usePasswordVault: causes any password entered by the user to also be put into the system password vault\n*/\nexports.decryptStoreAreaInteractive = function(encryptedStoreArea,callback,options) {\n\t// Try to decrypt with the current password\n\tvar tiddlers = $tw.utils.decryptStoreArea(encryptedStoreArea);\n\tif(tiddlers) {\n\t\tcallback(tiddlers);\n\t} else {\n\t\t// Prompt for a new password and keep trying\n\t\t$tw.passwordPrompt.createPrompt({\n\t\t\tserviceName: \&quot;Enter a password to decrypt the imported TiddlyWiki\&quot;,\n\t\t\tnoUserName: true,\n\t\t\tcanCancel: true,\n\t\t\tsubmitText: \&quot;Decrypt\&quot;,\n\t\t\tcallback: function(data) {\n\t\t\t\t// Exit if the user cancelled\n\t\t\t\tif(!data) {\n\t\t\t\t\treturn false;\n\t\t\t\t}\n\t\t\t\t// Attempt to decrypt the tiddlers\n\t\t\t\tvar tiddlers = $tw.utils.decryptStoreArea(encryptedStoreArea,data.password);\n\t\t\t\tif(tiddlers) {\n\t\t\t\t\tif($tw.config.usePasswordVault) {\n\t\t\t\t\t\t$tw.crypto.setPassword(data.password);\n\t\t\t\t\t}\n\t\t\t\t\tcallback(tiddlers);\n\t\t\t\t\t// Exit and remove the password prompt\n\t\t\t\t\treturn true;\n\t\t\t\t} else {\n\t\t\t\t\t// We didn't decrypt everything, so continue to prompt for password\n\t\t\t\t\treturn false;\n\t\t\t\t}\n\t\t\t}\n\t\t});\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/crypto.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/dom/animations/slide.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/dom/animations/slide.js\ntype: application/javascript\nmodule-type: animation\n\nA simple slide animation that varies the height of the element\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nfunction slideOpen(domNode,options) {\n\toptions = options || {};\n\tvar duration = options.duration || $tw.utils.getAnimationDuration();\n\t// Get the current height of the domNode\n\tvar computedStyle = window.getComputedStyle(domNode),\n\t\tcurrMarginBottom = parseInt(computedStyle.marginBottom,10),\n\t\tcurrMarginTop = parseInt(computedStyle.marginTop,10),\n\t\tcurrPaddingBottom = parseInt(computedStyle.paddingBottom,10),\n\t\tcurrPaddingTop = parseInt(computedStyle.paddingTop,10),\n\t\tcurrHeight = domNode.offsetHeight;\n\t// Reset the margin once the transition is over\n\tsetTimeout(function() {\n\t\t$tw.utils.setStyle(domNode,[\n\t\t\t{transition: \&quot;none\&quot;},\n\t\t\t{marginBottom: \&quot;\&quot;},\n\t\t\t{marginTop: \&quot;\&quot;},\n\t\t\t{paddingBottom: \&quot;\&quot;},\n\t\t\t{paddingTop: \&quot;\&quot;},\n\t\t\t{height: \&quot;auto\&quot;},\n\t\t\t{opacity: \&quot;\&quot;}\n\t\t]);\n\t\tif(options.callback) {\n\t\t\toptions.callback();\n\t\t}\n\t},duration);\n\t// Set up the initial position of the element\n\t$tw.utils.setStyle(domNode,[\n\t\t{transition: \&quot;none\&quot;},\n\t\t{marginTop: \&quot;0px\&quot;},\n\t\t{marginBottom: \&quot;0px\&quot;},\n\t\t{paddingTop: \&quot;0px\&quot;},\n\t\t{paddingBottom: \&quot;0px\&quot;},\n\t\t{height: \&quot;0px\&quot;},\n\t\t{opacity: \&quot;0\&quot;}\n\t]);\n\t$tw.utils.forceLayout(domNode);\n\t// Transition to the final position\n\t$tw.utils.setStyle(domNode,[\n\t\t{transition: \&quot;margin-top \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;margin-bottom \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;padding-top \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;padding-bottom \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;height \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;opacity \&quot; + duration + \&quot;ms ease-in-out\&quot;},\n\t\t{marginBottom: currMarginBottom + \&quot;px\&quot;},\n\t\t{marginTop: currMarginTop + \&quot;px\&quot;},\n\t\t{paddingBottom: currPaddingBottom + \&quot;px\&quot;},\n\t\t{paddingTop: currPaddingTop + \&quot;px\&quot;},\n\t\t{height: currHeight + \&quot;px\&quot;},\n\t\t{opacity: \&quot;1\&quot;}\n\t]);\n}\n\nfunction slideClosed(domNode,options) {\n\toptions = options || {};\n\tvar duration = options.duration || $tw.utils.getAnimationDuration(),\n\t\tcurrHeight = domNode.offsetHeight;\n\t// Clear the properties we've set when the animation is over\n\tsetTimeout(function() {\n\t\t$tw.utils.setStyle(domNode,[\n\t\t\t{transition: \&quot;none\&quot;},\n\t\t\t{marginBottom: \&quot;\&quot;},\n\t\t\t{marginTop: \&quot;\&quot;},\n\t\t\t{paddingBottom: \&quot;\&quot;},\n\t\t\t{paddingTop: \&quot;\&quot;},\n\t\t\t{height: \&quot;auto\&quot;},\n\t\t\t{opacity: \&quot;\&quot;}\n\t\t]);\n\t\tif(options.callback) {\n\t\t\toptions.callback();\n\t\t}\n\t},duration);\n\t// Set up the initial position of the element\n\t$tw.utils.setStyle(domNode,[\n\t\t{height: currHeight + \&quot;px\&quot;},\n\t\t{opacity: \&quot;1\&quot;}\n\t]);\n\t$tw.utils.forceLayout(domNode);\n\t// Transition to the final position\n\t$tw.utils.setStyle(domNode,[\n\t\t{transition: \&quot;margin-top \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;margin-bottom \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;padding-top \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;padding-bottom \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;height \&quot; + duration + \&quot;ms ease-in-out, \&quot; +\n\t\t\t\t\t\&quot;opacity \&quot; + duration + \&quot;ms ease-in-out\&quot;},\n\t\t{marginTop: \&quot;0px\&quot;},\n\t\t{marginBottom: \&quot;0px\&quot;},\n\t\t{paddingTop: \&quot;0px\&quot;},\n\t\t{paddingBottom: \&quot;0px\&quot;},\n\t\t{height: \&quot;0px\&quot;},\n\t\t{opacity: \&quot;0\&quot;}\n\t]);\n}\n\nexports.slide = {\n\topen: slideOpen,\n\tclose: slideClosed\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom/animations/slide.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;animation&quot;
        },
        &quot;$:/core/modules/utils/dom/animator.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/dom/animator.js\ntype: application/javascript\nmodule-type: utils\n\nOrchestrates animations and transitions\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nfunction Animator() {\n\t// Get the registered animation modules\n\tthis.animations = {};\n\t$tw.modules.applyMethods(\&quot;animation\&quot;,this.animations);\n}\n\nAnimator.prototype.perform = function(type,domNode,options) {\n\toptions = options || {};\n\t// Find an animation that can handle this type\n\tvar chosenAnimation;\n\t$tw.utils.each(this.animations,function(animation,name) {\n\t\tif($tw.utils.hop(animation,type)) {\n\t\t\tchosenAnimation = animation[type];\n\t\t}\n\t});\n\tif(!chosenAnimation) {\n\t\tchosenAnimation = function(domNode,options) {\n\t\t\tif(options.callback) {\n\t\t\t\toptions.callback();\n\t\t\t}\n\t\t};\n\t}\n\t// Call the animation\n\tchosenAnimation(domNode,options);\n};\n\nexports.Animator = Animator;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom/animator.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/dom/browser.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/dom/browser.js\ntype: application/javascript\nmodule-type: utils\n\nBrowser feature detection\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nSet style properties of an element\n\telement: dom node\n\tstyles: ordered array of {name: value} pairs\n*/\nexports.setStyle = function(element,styles) {\n\tif(element.nodeType === 1) { // Element.ELEMENT_NODE\n\t\tfor(var t=0; t&lt;styles.length; t++) {\n\t\t\tfor(var styleName in styles[t]) {\n\t\t\t\telement.style[$tw.utils.convertStyleNameToPropertyName(styleName)] = styles[t][styleName];\n\t\t\t}\n\t\t}\n\t}\n};\n\n/*\nConverts a standard CSS property name into the local browser-specific equivalent. For example:\n\t\&quot;background-color\&quot; --&gt; \&quot;backgroundColor\&quot;\n\t\&quot;transition\&quot; --&gt; \&quot;webkitTransition\&quot;\n*/\n\nvar styleNameCache = {}; // We'll cache the style name conversions\n\nexports.convertStyleNameToPropertyName = function(styleName) {\n\t// Return from the cache if we can\n\tif(styleNameCache[styleName]) {\n\t\treturn styleNameCache[styleName];\n\t}\n\t// Convert it by first removing any hyphens\n\tvar propertyName = $tw.utils.unHyphenateCss(styleName);\n\t// Then check if it needs a prefix\n\tif($tw.browser &amp;&amp; document.body.style[propertyName] === undefined) {\n\t\tvar prefixes = [\&quot;O\&quot;,\&quot;MS\&quot;,\&quot;Moz\&quot;,\&quot;webkit\&quot;];\n\t\tfor(var t=0; t&lt;prefixes.length; t++) {\n\t\t\tvar prefixedName = prefixes[t] + propertyName.substr(0,1).toUpperCase() + propertyName.substr(1);\n\t\t\tif(document.body.style[prefixedName] !== undefined) {\n\t\t\t\tpropertyName = prefixedName;\n\t\t\t\tbreak;\n\t\t\t}\n\t\t}\n\t}\n\t// Put it in the cache too\n\tstyleNameCache[styleName] = propertyName;\n\treturn propertyName;\n};\n\n/*\nConverts a JS format CSS property name back into the dashed form used in CSS declarations. For example:\n\t\&quot;backgroundColor\&quot; --&gt; \&quot;background-color\&quot;\n\t\&quot;webkitTransform\&quot; --&gt; \&quot;-webkit-transform\&quot;\n*/\nexports.convertPropertyNameToStyleName = function(propertyName) {\n\t// Rehyphenate the name\n\tvar styleName = $tw.utils.hyphenateCss(propertyName);\n\t// If there's a webkit prefix, add a dash (other browsers have uppercase prefixes, and so get the dash automatically)\n\tif(styleName.indexOf(\&quot;webkit\&quot;) === 0) {\n\t\tstyleName = \&quot;-\&quot; + styleName;\n\t} else if(styleName.indexOf(\&quot;-m-s\&quot;) === 0) {\n\t\tstyleName = \&quot;-ms\&quot; + styleName.substr(4);\n\t}\n\treturn styleName;\n};\n\n/*\nRound trip a stylename to a property name and back again. For example:\n\t\&quot;transform\&quot; --&gt; \&quot;webkitTransform\&quot; --&gt; \&quot;-webkit-transform\&quot;\n*/\nexports.roundTripPropertyName = function(propertyName) {\n\treturn $tw.utils.convertPropertyNameToStyleName($tw.utils.convertStyleNameToPropertyName(propertyName));\n};\n\n/*\nConverts a standard event name into the local browser specific equivalent. For example:\n\t\&quot;animationEnd\&quot; --&gt; \&quot;webkitAnimationEnd\&quot;\n*/\n\nvar eventNameCache = {}; // We'll cache the conversions\n\nvar eventNameMappings = {\n\t\&quot;transitionEnd\&quot;: {\n\t\tcorrespondingCssProperty: \&quot;transition\&quot;,\n\t\tmappings: {\n\t\t\ttransition: \&quot;transitionend\&quot;,\n\t\t\tOTransition: \&quot;oTransitionEnd\&quot;,\n\t\t\tMSTransition: \&quot;msTransitionEnd\&quot;,\n\t\t\tMozTransition: \&quot;transitionend\&quot;,\n\t\t\twebkitTransition: \&quot;webkitTransitionEnd\&quot;\n\t\t}\n\t},\n\t\&quot;animationEnd\&quot;: {\n\t\tcorrespondingCssProperty: \&quot;animation\&quot;,\n\t\tmappings: {\n\t\t\tanimation: \&quot;animationend\&quot;,\n\t\t\tOAnimation: \&quot;oAnimationEnd\&quot;,\n\t\t\tMSAnimation: \&quot;msAnimationEnd\&quot;,\n\t\t\tMozAnimation: \&quot;animationend\&quot;,\n\t\t\twebkitAnimation: \&quot;webkitAnimationEnd\&quot;\n\t\t}\n\t}\n};\n\nexports.convertEventName = function(eventName) {\n\tif(eventNameCache[eventName]) {\n\t\treturn eventNameCache[eventName];\n\t}\n\tvar newEventName = eventName,\n\t\tmappings = eventNameMappings[eventName];\n\tif(mappings) {\n\t\tvar convertedProperty = $tw.utils.convertStyleNameToPropertyName(mappings.correspondingCssProperty);\n\t\tif(mappings.mappings[convertedProperty]) {\n\t\t\tnewEventName = mappings.mappings[convertedProperty];\n\t\t}\n\t}\n\t// Put it in the cache too\n\teventNameCache[eventName] = newEventName;\n\treturn newEventName;\n};\n\n/*\nReturn the names of the fullscreen APIs\n*/\nexports.getFullScreenApis = function() {\n\tvar d = document,\n\t\tdb = d.body,\n\t\tresult = {\n\t\t\&quot;_requestFullscreen\&quot;: db.webkitRequestFullscreen !== undefined ? \&quot;webkitRequestFullscreen\&quot; :\n\t\t\t\t\t\t\tdb.mozRequestFullScreen !== undefined ? \&quot;mozRequestFullScreen\&quot; :\n\t\t\t\t\t\t\tdb.msRequestFullscreen !== undefined ? \&quot;msRequestFullscreen\&quot; :\n\t\t\t\t\t\t\tdb.requestFullscreen !== undefined ? \&quot;requestFullscreen\&quot; : \&quot;\&quot;,\n\t\t\&quot;_exitFullscreen\&quot;: d.webkitExitFullscreen !== undefined ? \&quot;webkitExitFullscreen\&quot; :\n\t\t\t\t\t\t\td.mozCancelFullScreen !== undefined ? \&quot;mozCancelFullScreen\&quot; :\n\t\t\t\t\t\t\td.msExitFullscreen !== undefined ? \&quot;msExitFullscreen\&quot; :\n\t\t\t\t\t\t\td.exitFullscreen !== undefined ? \&quot;exitFullscreen\&quot; : \&quot;\&quot;,\n\t\t\&quot;_fullscreenElement\&quot;: d.webkitFullscreenElement !== undefined ? \&quot;webkitFullscreenElement\&quot; :\n\t\t\t\t\t\t\td.mozFullScreenElement !== undefined ? \&quot;mozFullScreenElement\&quot; :\n\t\t\t\t\t\t\td.msFullscreenElement !== undefined ? \&quot;msFullscreenElement\&quot; :\n\t\t\t\t\t\t\td.fullscreenElement !== undefined ? \&quot;fullscreenElement\&quot; : \&quot;\&quot;,\n\t\t\&quot;_fullscreenChange\&quot;: d.webkitFullscreenElement !== undefined ? \&quot;webkitfullscreenchange\&quot; :\n\t\t\t\t\t\t\td.mozFullScreenElement !== undefined ? \&quot;mozfullscreenchange\&quot; :\n\t\t\t\t\t\t\td.msFullscreenElement !== undefined ? \&quot;MSFullscreenChange\&quot; :\n\t\t\t\t\t\t\td.fullscreenElement !== undefined ? \&quot;fullscreenchange\&quot; : \&quot;\&quot;\n\t};\n\tif(!result._requestFullscreen || !result._exitFullscreen || !result._fullscreenElement || !result._fullscreenChange) {\n\t\treturn null;\n\t} else {\n\t\treturn result;\n\t}\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom/browser.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/dom/csscolorparser.js&quot;: {
            &quot;text&quot;: &quot;// (c) Dean McNamee &lt;dean@gmail.com&gt;, 2012.\n//\n// https://github.com/deanm/css-color-parser-js\n//\n// Permission is hereby granted, free of charge, to any person obtaining a copy\n// of this software and associated documentation files (the \&quot;Software\&quot;), to\n// deal in the Software without restriction, including without limitation the\n// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or\n// sell copies of the Software, and to permit persons to whom the Software is\n// furnished to do so, subject to the following conditions:\n//\n// The above copyright notice and this permission notice shall be included in\n// all copies or substantial portions of the Software.\n//\n// THE SOFTWARE IS PROVIDED \&quot;AS IS\&quot;, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR\n// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,\n// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE\n// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER\n// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING\n// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS\n// IN THE SOFTWARE.\n\n// http://www.w3.org/TR/css3-color/\nvar kCSSColorTable = {\n  \&quot;transparent\&quot;: [0,0,0,0], \&quot;aliceblue\&quot;: [240,248,255,1],\n  \&quot;antiquewhite\&quot;: [250,235,215,1], \&quot;aqua\&quot;: [0,255,255,1],\n  \&quot;aquamarine\&quot;: [127,255,212,1], \&quot;azure\&quot;: [240,255,255,1],\n  \&quot;beige\&quot;: [245,245,220,1], \&quot;bisque\&quot;: [255,228,196,1],\n  \&quot;black\&quot;: [0,0,0,1], \&quot;blanchedalmond\&quot;: [255,235,205,1],\n  \&quot;blue\&quot;: [0,0,255,1], \&quot;blueviolet\&quot;: [138,43,226,1],\n  \&quot;brown\&quot;: [165,42,42,1], \&quot;burlywood\&quot;: [222,184,135,1],\n  \&quot;cadetblue\&quot;: [95,158,160,1], \&quot;chartreuse\&quot;: [127,255,0,1],\n  \&quot;chocolate\&quot;: [210,105,30,1], \&quot;coral\&quot;: [255,127,80,1],\n  \&quot;cornflowerblue\&quot;: [100,149,237,1], \&quot;cornsilk\&quot;: [255,248,220,1],\n  \&quot;crimson\&quot;: [220,20,60,1], \&quot;cyan\&quot;: [0,255,255,1],\n  \&quot;darkblue\&quot;: [0,0,139,1], \&quot;darkcyan\&quot;: [0,139,139,1],\n  \&quot;darkgoldenrod\&quot;: [184,134,11,1], \&quot;darkgray\&quot;: [169,169,169,1],\n  \&quot;darkgreen\&quot;: [0,100,0,1], \&quot;darkgrey\&quot;: [169,169,169,1],\n  \&quot;darkkhaki\&quot;: [189,183,107,1], \&quot;darkmagenta\&quot;: [139,0,139,1],\n  \&quot;darkolivegreen\&quot;: [85,107,47,1], \&quot;darkorange\&quot;: [255,140,0,1],\n  \&quot;darkorchid\&quot;: [153,50,204,1], \&quot;darkred\&quot;: [139,0,0,1],\n  \&quot;darksalmon\&quot;: [233,150,122,1], \&quot;darkseagreen\&quot;: [143,188,143,1],\n  \&quot;darkslateblue\&quot;: [72,61,139,1], \&quot;darkslategray\&quot;: [47,79,79,1],\n  \&quot;darkslategrey\&quot;: [47,79,79,1], \&quot;darkturquoise\&quot;: [0,206,209,1],\n  \&quot;darkviolet\&quot;: [148,0,211,1], \&quot;deeppink\&quot;: [255,20,147,1],\n  \&quot;deepskyblue\&quot;: [0,191,255,1], \&quot;dimgray\&quot;: [105,105,105,1],\n  \&quot;dimgrey\&quot;: [105,105,105,1], \&quot;dodgerblue\&quot;: [30,144,255,1],\n  \&quot;firebrick\&quot;: [178,34,34,1], \&quot;floralwhite\&quot;: [255,250,240,1],\n  \&quot;forestgreen\&quot;: [34,139,34,1], \&quot;fuchsia\&quot;: [255,0,255,1],\n  \&quot;gainsboro\&quot;: [220,220,220,1], \&quot;ghostwhite\&quot;: [248,248,255,1],\n  \&quot;gold\&quot;: [255,215,0,1], \&quot;goldenrod\&quot;: [218,165,32,1],\n  \&quot;gray\&quot;: [128,128,128,1], \&quot;green\&quot;: [0,128,0,1],\n  \&quot;greenyellow\&quot;: [173,255,47,1], \&quot;grey\&quot;: [128,128,128,1],\n  \&quot;honeydew\&quot;: [240,255,240,1], \&quot;hotpink\&quot;: [255,105,180,1],\n  \&quot;indianred\&quot;: [205,92,92,1], \&quot;indigo\&quot;: [75,0,130,1],\n  \&quot;ivory\&quot;: [255,255,240,1], \&quot;khaki\&quot;: [240,230,140,1],\n  \&quot;lavender\&quot;: [230,230,250,1], \&quot;lavenderblush\&quot;: [255,240,245,1],\n  \&quot;lawngreen\&quot;: [124,252,0,1], \&quot;lemonchiffon\&quot;: [255,250,205,1],\n  \&quot;lightblue\&quot;: [173,216,230,1], \&quot;lightcoral\&quot;: [240,128,128,1],\n  \&quot;lightcyan\&quot;: [224,255,255,1], \&quot;lightgoldenrodyellow\&quot;: [250,250,210,1],\n  \&quot;lightgray\&quot;: [211,211,211,1], \&quot;lightgreen\&quot;: [144,238,144,1],\n  \&quot;lightgrey\&quot;: [211,211,211,1], \&quot;lightpink\&quot;: [255,182,193,1],\n  \&quot;lightsalmon\&quot;: [255,160,122,1], \&quot;lightseagreen\&quot;: [32,178,170,1],\n  \&quot;lightskyblue\&quot;: [135,206,250,1], \&quot;lightslategray\&quot;: [119,136,153,1],\n  \&quot;lightslategrey\&quot;: [119,136,153,1], \&quot;lightsteelblue\&quot;: [176,196,222,1],\n  \&quot;lightyellow\&quot;: [255,255,224,1], \&quot;lime\&quot;: [0,255,0,1],\n  \&quot;limegreen\&quot;: [50,205,50,1], \&quot;linen\&quot;: [250,240,230,1],\n  \&quot;magenta\&quot;: [255,0,255,1], \&quot;maroon\&quot;: [128,0,0,1],\n  \&quot;mediumaquamarine\&quot;: [102,205,170,1], \&quot;mediumblue\&quot;: [0,0,205,1],\n  \&quot;mediumorchid\&quot;: [186,85,211,1], \&quot;mediumpurple\&quot;: [147,112,219,1],\n  \&quot;mediumseagreen\&quot;: [60,179,113,1], \&quot;mediumslateblue\&quot;: [123,104,238,1],\n  \&quot;mediumspringgreen\&quot;: [0,250,154,1], \&quot;mediumturquoise\&quot;: [72,209,204,1],\n  \&quot;mediumvioletred\&quot;: [199,21,133,1], \&quot;midnightblue\&quot;: [25,25,112,1],\n  \&quot;mintcream\&quot;: [245,255,250,1], \&quot;mistyrose\&quot;: [255,228,225,1],\n  \&quot;moccasin\&quot;: [255,228,181,1], \&quot;navajowhite\&quot;: [255,222,173,1],\n  \&quot;navy\&quot;: [0,0,128,1], \&quot;oldlace\&quot;: [253,245,230,1],\n  \&quot;olive\&quot;: [128,128,0,1], \&quot;olivedrab\&quot;: [107,142,35,1],\n  \&quot;orange\&quot;: [255,165,0,1], \&quot;orangered\&quot;: [255,69,0,1],\n  \&quot;orchid\&quot;: [218,112,214,1], \&quot;palegoldenrod\&quot;: [238,232,170,1],\n  \&quot;palegreen\&quot;: [152,251,152,1], \&quot;paleturquoise\&quot;: [175,238,238,1],\n  \&quot;palevioletred\&quot;: [219,112,147,1], \&quot;papayawhip\&quot;: [255,239,213,1],\n  \&quot;peachpuff\&quot;: [255,218,185,1], \&quot;peru\&quot;: [205,133,63,1],\n  \&quot;pink\&quot;: [255,192,203,1], \&quot;plum\&quot;: [221,160,221,1],\n  \&quot;powderblue\&quot;: [176,224,230,1], \&quot;purple\&quot;: [128,0,128,1],\n  \&quot;red\&quot;: [255,0,0,1], \&quot;rosybrown\&quot;: [188,143,143,1],\n  \&quot;royalblue\&quot;: [65,105,225,1], \&quot;saddlebrown\&quot;: [139,69,19,1],\n  \&quot;salmon\&quot;: [250,128,114,1], \&quot;sandybrown\&quot;: [244,164,96,1],\n  \&quot;seagreen\&quot;: [46,139,87,1], \&quot;seashell\&quot;: [255,245,238,1],\n  \&quot;sienna\&quot;: [160,82,45,1], \&quot;silver\&quot;: [192,192,192,1],\n  \&quot;skyblue\&quot;: [135,206,235,1], \&quot;slateblue\&quot;: [106,90,205,1],\n  \&quot;slategray\&quot;: [112,128,144,1], \&quot;slategrey\&quot;: [112,128,144,1],\n  \&quot;snow\&quot;: [255,250,250,1], \&quot;springgreen\&quot;: [0,255,127,1],\n  \&quot;steelblue\&quot;: [70,130,180,1], \&quot;tan\&quot;: [210,180,140,1],\n  \&quot;teal\&quot;: [0,128,128,1], \&quot;thistle\&quot;: [216,191,216,1],\n  \&quot;tomato\&quot;: [255,99,71,1], \&quot;turquoise\&quot;: [64,224,208,1],\n  \&quot;violet\&quot;: [238,130,238,1], \&quot;wheat\&quot;: [245,222,179,1],\n  \&quot;white\&quot;: [255,255,255,1], \&quot;whitesmoke\&quot;: [245,245,245,1],\n  \&quot;yellow\&quot;: [255,255,0,1], \&quot;yellowgreen\&quot;: [154,205,50,1]}\n\nfunction clamp_css_byte(i) {  // Clamp to integer 0 .. 255.\n  i = Math.round(i);  // Seems to be what Chrome does (vs truncation).\n  return i &lt; 0 ? 0 : i &gt; 255 ? 255 : i;\n}\n\nfunction clamp_css_float(f) {  // Clamp to float 0.0 .. 1.0.\n  return f &lt; 0 ? 0 : f &gt; 1 ? 1 : f;\n}\n\nfunction parse_css_int(str) {  // int or percentage.\n  if (str[str.length - 1] === '%')\n    return clamp_css_byte(parseFloat(str) / 100 * 255);\n  return clamp_css_byte(parseInt(str));\n}\n\nfunction parse_css_float(str) {  // float or percentage.\n  if (str[str.length - 1] === '%')\n    return clamp_css_float(parseFloat(str) / 100);\n  return clamp_css_float(parseFloat(str));\n}\n\nfunction css_hue_to_rgb(m1, m2, h) {\n  if (h &lt; 0) h += 1;\n  else if (h &gt; 1) h -= 1;\n\n  if (h * 6 &lt; 1) return m1 + (m2 - m1) * h * 6;\n  if (h * 2 &lt; 1) return m2;\n  if (h * 3 &lt; 2) return m1 + (m2 - m1) * (2/3 - h) * 6;\n  return m1;\n}\n\nfunction parseCSSColor(css_str) {\n  // Remove all whitespace, not compliant, but should just be more accepting.\n  var str = css_str.replace(/ /g, '').toLowerCase();\n\n  // Color keywords (and transparent) lookup.\n  if (str in kCSSColorTable) return kCSSColorTable[str].slice();  // dup.\n\n  // #abc and #abc123 syntax.\n  if (str[0] === '#') {\n    if (str.length === 4) {\n      var iv = parseInt(str.substr(1), 16);  // TODO(deanm): Stricter parsing.\n      if (!(iv &gt;= 0 &amp;&amp; iv &lt;= 0xfff)) return null;  // Covers NaN.\n      return [((iv &amp; 0xf00) &gt;&gt; 4) | ((iv &amp; 0xf00) &gt;&gt; 8),\n              (iv &amp; 0xf0) | ((iv &amp; 0xf0) &gt;&gt; 4),\n              (iv &amp; 0xf) | ((iv &amp; 0xf) &lt;&lt; 4),\n              1];\n    } else if (str.length === 7) {\n      var iv = parseInt(str.substr(1), 16);  // TODO(deanm): Stricter parsing.\n      if (!(iv &gt;= 0 &amp;&amp; iv &lt;= 0xffffff)) return null;  // Covers NaN.\n      return [(iv &amp; 0xff0000) &gt;&gt; 16,\n              (iv &amp; 0xff00) &gt;&gt; 8,\n              iv &amp; 0xff,\n              1];\n    }\n\n    return null;\n  }\n\n  var op = str.indexOf('('), ep = str.indexOf(')');\n  if (op !== -1 &amp;&amp; ep + 1 === str.length) {\n    var fname = str.substr(0, op);\n    var params = str.substr(op+1, ep-(op+1)).split(',');\n    var alpha = 1;  // To allow case fallthrough.\n    switch (fname) {\n      case 'rgba':\n        if (params.length !== 4) return null;\n        alpha = parse_css_float(params.pop());\n        // Fall through.\n      case 'rgb':\n        if (params.length !== 3) return null;\n        return [parse_css_int(params[0]),\n                parse_css_int(params[1]),\n                parse_css_int(params[2]),\n                alpha];\n      case 'hsla':\n        if (params.length !== 4) return null;\n        alpha = parse_css_float(params.pop());\n        // Fall through.\n      case 'hsl':\n        if (params.length !== 3) return null;\n        var h = (((parseFloat(params[0]) % 360) + 360) % 360) / 360;  // 0 .. 1\n        // NOTE(deanm): According to the CSS spec s/l should only be\n        // percentages, but we don't bother and let float or percentage.\n        var s = parse_css_float(params[1]);\n        var l = parse_css_float(params[2]);\n        var m2 = l &lt;= 0.5 ? l * (s + 1) : l + s - l * s;\n        var m1 = l * 2 - m2;\n        return [clamp_css_byte(css_hue_to_rgb(m1, m2, h+1/3) * 255),\n                clamp_css_byte(css_hue_to_rgb(m1, m2, h) * 255),\n                clamp_css_byte(css_hue_to_rgb(m1, m2, h-1/3) * 255),\n                alpha];\n      default:\n        return null;\n    }\n  }\n\n  return null;\n}\n\ntry { exports.parseCSSColor = parseCSSColor } catch(e) { }\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom/csscolorparser.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/dom.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/dom.js\ntype: application/javascript\nmodule-type: utils\n\nVarious static DOM-related utility functions.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nDetermines whether element 'a' contains element 'b'\nCode thanks to John Resig, http://ejohn.org/blog/comparing-document-position/\n*/\nexports.domContains = function(a,b) {\n\treturn a.contains ?\n\t\ta !== b &amp;&amp; a.contains(b) :\n\t\t!!(a.compareDocumentPosition(b) &amp; 16);\n};\n\nexports.removeChildren = function(node) {\n\twhile(node.hasChildNodes()) {\n\t\tnode.removeChild(node.firstChild);\n\t}\n};\n\nexports.hasClass = function(el,className) {\n\treturn el &amp;&amp; el.className &amp;&amp; el.className.toString().split(\&quot; \&quot;).indexOf(className) !== -1;\n};\n\nexports.addClass = function(el,className) {\n\tvar c = el.className.split(\&quot; \&quot;);\n\tif(c.indexOf(className) === -1) {\n\t\tc.push(className);\n\t}\n\tel.className = c.join(\&quot; \&quot;);\n};\n\nexports.removeClass = function(el,className) {\n\tvar c = el.className.split(\&quot; \&quot;),\n\t\tp = c.indexOf(className);\n\tif(p !== -1) {\n\t\tc.splice(p,1);\n\t\tel.className = c.join(\&quot; \&quot;);\n\t}\n};\n\nexports.toggleClass = function(el,className,status) {\n\tif(status === undefined) {\n\t\tstatus = !exports.hasClass(el,className);\n\t}\n\tif(status) {\n\t\texports.addClass(el,className);\n\t} else {\n\t\texports.removeClass(el,className);\n\t}\n};\n\n/*\nGet the scroll position of the viewport\nReturns:\n\t{\n\t\tx: horizontal scroll position in pixels,\n\t\ty: vertical scroll position in pixels\n\t}\n*/\nexports.getScrollPosition = function() {\n\tif(\&quot;scrollX\&quot; in window) {\n\t\treturn {x: window.scrollX, y: window.scrollY};\n\t} else {\n\t\treturn {x: document.documentElement.scrollLeft, y: document.documentElement.scrollTop};\n\t}\n};\n\n/*\nGets the bounding rectangle of an element in absolute page coordinates\n*/\nexports.getBoundingPageRect = function(element) {\n\tvar scrollPos = $tw.utils.getScrollPosition(),\n\t\tclientRect = element.getBoundingClientRect();\n\treturn {\n\t\tleft: clientRect.left + scrollPos.x,\n\t\twidth: clientRect.width,\n\t\tright: clientRect.right + scrollPos.x,\n\t\ttop: clientRect.top + scrollPos.y,\n\t\theight: clientRect.height,\n\t\tbottom: clientRect.bottom + scrollPos.y\n\t};\n};\n\n/*\nSaves a named password in the browser\n*/\nexports.savePassword = function(name,password) {\n\ttry {\n\t\tif(window.localStorage) {\n\t\t\tlocalStorage.setItem(\&quot;tw5-password-\&quot; + name,password);\n\t\t}\n\t} catch(e) {\n\t}\n};\n\n/*\nRetrieve a named password from the browser\n*/\nexports.getPassword = function(name) {\n\ttry {\n\t\treturn window.localStorage ? localStorage.getItem(\&quot;tw5-password-\&quot; + name) : \&quot;\&quot;;\n\t} catch(e) {\n\t\treturn \&quot;\&quot;;\n\t}\n};\n\n/*\nForce layout of a dom node and its descendents\n*/\nexports.forceLayout = function(element) {\n\tvar dummy = element.offsetWidth;\n};\n\n/*\nPulse an element for debugging purposes\n*/\nexports.pulseElement = function(element) {\n\t// Event handler to remove the class at the end\n\telement.addEventListener($tw.browser.animationEnd,function handler(event) {\n\t\telement.removeEventListener($tw.browser.animationEnd,handler,false);\n\t\t$tw.utils.removeClass(element,\&quot;pulse\&quot;);\n\t},false);\n\t// Apply the pulse class\n\t$tw.utils.removeClass(element,\&quot;pulse\&quot;);\n\t$tw.utils.forceLayout(element);\n\t$tw.utils.addClass(element,\&quot;pulse\&quot;);\n};\n\n/*\nAttach specified event handlers to a DOM node\ndomNode: where to attach the event handlers\nevents: array of event handlers to be added (see below)\nEach entry in the events array is an object with these properties:\nhandlerFunction: optional event handler function\nhandlerObject: optional event handler object\nhandlerMethod: optionally specifies object handler method name (defaults to `handleEvent`)\n*/\nexports.addEventListeners = function(domNode,events) {\n\t$tw.utils.each(events,function(eventInfo) {\n\t\tvar handler;\n\t\tif(eventInfo.handlerFunction) {\n\t\t\thandler = eventInfo.handlerFunction;\n\t\t} else if(eventInfo.handlerObject) {\n\t\t\tif(eventInfo.handlerMethod) {\n\t\t\t\thandler = function(event) {\n\t\t\t\t\teventInfo.handlerObject[eventInfo.handlerMethod].call(eventInfo.handlerObject,event);\n\t\t\t\t};\t\n\t\t\t} else {\n\t\t\t\thandler = eventInfo.handlerObject;\n\t\t\t}\n\t\t}\n\t\tdomNode.addEventListener(eventInfo.name,handler,false);\n\t});\n};\n\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/dom/http.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/dom/http.js\ntype: application/javascript\nmodule-type: utils\n\nBrowser HTTP support\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nA quick and dirty HTTP function; to be refactored later. Options are:\n\turl: URL to retrieve\n\ttype: GET, PUT, POST etc\n\tcallback: function invoked with (err,data)\n*/\nexports.httpRequest = function(options) {\n\tvar type = options.type || \&quot;GET\&quot;,\n\t\theaders = options.headers || {accept: \&quot;application/json\&quot;},\n\t\trequest = new XMLHttpRequest(),\n\t\tdata = \&quot;\&quot;,\n\t\tf,results;\n\t// Massage the data hashmap into a string\n\tif(options.data) {\n\t\tif(typeof options.data === \&quot;string\&quot;) { // Already a string\n\t\t\tdata = options.data;\n\t\t} else { // A hashmap of strings\n\t\t\tresults = [];\n\t\t\t$tw.utils.each(options.data,function(dataItem,dataItemTitle) {\n\t\t\t\tresults.push(dataItemTitle + \&quot;=\&quot; + encodeURIComponent(dataItem));\n\t\t\t});\n\t\t\tdata = results.join(\&quot;&amp;\&quot;);\n\t\t}\n\t}\n\t// Set up the state change handler\n\trequest.onreadystatechange = function() {\n\t\tif(this.readyState === 4) {\n\t\t\tif(this.status === 200 || this.status === 201 || this.status === 204) {\n\t\t\t\t// Success!\n\t\t\t\toptions.callback(null,this.responseText,this);\n\t\t\t\treturn;\n\t\t\t}\n\t\t// Something went wrong\n\t\toptions.callback(\&quot;XMLHttpRequest error code: \&quot; + this.status);\n\t\t}\n\t};\n\t// Make the request\n\trequest.open(type,options.url,true);\n\tif(headers) {\n\t\t$tw.utils.each(headers,function(header,headerTitle,object) {\n\t\t\trequest.setRequestHeader(headerTitle,header);\n\t\t});\n\t}\n\tif(data &amp;&amp; !$tw.utils.hop(headers,\&quot;Content-type\&quot;)) {\n\t\trequest.setRequestHeader(\&quot;Content-type\&quot;,\&quot;application/x-www-form-urlencoded; charset=UTF-8\&quot;);\n\t}\n\ttry {\n\t\trequest.send(data);\n\t} catch(e) {\n\t\toptions.callback(e);\n\t}\n\treturn request;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom/http.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/dom/keyboard.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/dom/keyboard.js\ntype: application/javascript\nmodule-type: utils\n\nKeyboard utilities\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar namedKeys = {\n\t\&quot;backspace\&quot;: 8,\n\t\&quot;tab\&quot;: 9,\n\t\&quot;enter\&quot;: 13,\n\t\&quot;escape\&quot;: 27\n};\n\n/*\nParses a key descriptor into the structure:\n{\n\tkeyCode: numeric keycode\n\tshiftKey: boolean\n\taltKey: boolean\n\tctrlKey: boolean\n}\nKey descriptors have the following format:\n\tctrl+enter\n\tctrl+shift+alt+A\n*/\nexports.parseKeyDescriptor = function(keyDescriptor) {\n\tvar components = keyDescriptor.split(\&quot;+\&quot;),\n\t\tinfo = {\n\t\t\tkeyCode: 0,\n\t\t\tshiftKey: false,\n\t\t\taltKey: false,\n\t\t\tctrlKey: false\n\t\t};\n\tfor(var t=0; t&lt;components.length; t++) {\n\t\tvar s = components[t].toLowerCase();\n\t\t// Look for modifier keys\n\t\tif(s === \&quot;ctrl\&quot;) {\n\t\t\tinfo.ctrlKey = true;\n\t\t} else if(s === \&quot;shift\&quot;) {\n\t\t\tinfo.shiftKey = true;\n\t\t} else if(s === \&quot;alt\&quot;) {\n\t\t\tinfo.altKey = true;\n\t\t} else if(s === \&quot;meta\&quot;) {\n\t\t\tinfo.metaKey = true;\n\t\t}\n\t\t// Replace named keys with their code\n\t\tif(namedKeys[s]) {\n\t\t\tinfo.keyCode = namedKeys[s];\n\t\t}\n\t}\n\treturn info;\n};\n\nexports.checkKeyDescriptor = function(event,keyInfo) {\n\tvar metaKeyStatus = !!keyInfo.metaKey; // Using a temporary variable to keep JSHint happy\n\treturn event.keyCode === keyInfo.keyCode &amp;&amp; \n\t\t\tevent.shiftKey === keyInfo.shiftKey &amp;&amp; \n\t\t\tevent.altKey === keyInfo.altKey &amp;&amp; \n\t\t\tevent.ctrlKey === keyInfo.ctrlKey &amp;&amp; \n\t\t\tevent.metaKey === metaKeyStatus;\t\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom/keyboard.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/dom/modal.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/dom/modal.js\ntype: application/javascript\nmodule-type: utils\n\nModal message mechanism\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;);\n\nvar Modal = function(wiki) {\n\tthis.wiki = wiki;\n\tthis.modalCount = 0;\n};\n\n/*\nDisplay a modal dialogue\n\ttitle: Title of tiddler to display\n\toptions: see below\nOptions include:\n\tdownloadLink: Text of a big download link to include\n*/\nModal.prototype.display = function(title,options) {\n\toptions = options || {};\n\tvar self = this,\n\t\trefreshHandler,\n\t\tduration = $tw.utils.getAnimationDuration(),\n\t\ttiddler = this.wiki.getTiddler(title);\n\t// Don't do anything if the tiddler doesn't exist\n\tif(!tiddler) {\n\t\treturn;\n\t}\n\t// Create the variables\n\tvar variables = $tw.utils.extend({currentTiddler: title},options.variables);\n\t// Create the wrapper divs\n\tvar wrapper = document.createElement(\&quot;div\&quot;),\n\t\tmodalBackdrop = document.createElement(\&quot;div\&quot;),\n\t\tmodalWrapper = document.createElement(\&quot;div\&quot;),\n\t\tmodalHeader = document.createElement(\&quot;div\&quot;),\n\t\theaderTitle = document.createElement(\&quot;h3\&quot;),\n\t\tmodalBody = document.createElement(\&quot;div\&quot;),\n\t\tmodalLink = document.createElement(\&quot;a\&quot;),\n\t\tmodalFooter = document.createElement(\&quot;div\&quot;),\n\t\tmodalFooterHelp = document.createElement(\&quot;span\&quot;),\n\t\tmodalFooterButtons = document.createElement(\&quot;span\&quot;);\n\t// Up the modal count and adjust the body class\n\tthis.modalCount++;\n\tthis.adjustPageClass();\n\t// Add classes\n\t$tw.utils.addClass(wrapper,\&quot;tc-modal-wrapper\&quot;);\n\t$tw.utils.addClass(modalBackdrop,\&quot;tc-modal-backdrop\&quot;);\n\t$tw.utils.addClass(modalWrapper,\&quot;tc-modal\&quot;);\n\t$tw.utils.addClass(modalHeader,\&quot;tc-modal-header\&quot;);\n\t$tw.utils.addClass(modalBody,\&quot;tc-modal-body\&quot;);\n\t$tw.utils.addClass(modalFooter,\&quot;tc-modal-footer\&quot;);\n\t// Join them together\n\twrapper.appendChild(modalBackdrop);\n\twrapper.appendChild(modalWrapper);\n\tmodalHeader.appendChild(headerTitle);\n\tmodalWrapper.appendChild(modalHeader);\n\tmodalWrapper.appendChild(modalBody);\n\tmodalFooter.appendChild(modalFooterHelp);\n\tmodalFooter.appendChild(modalFooterButtons);\n\tmodalWrapper.appendChild(modalFooter);\n\t// Render the title of the message\n\tvar headerWidgetNode = this.wiki.makeTranscludeWidget(title,{\n\t\tfield: \&quot;subtitle\&quot;,\n\t\tmode: \&quot;inline\&quot;,\n\t\tchildren: [{\n\t\t\ttype: \&quot;text\&quot;,\n\t\t\tattributes: {\n\t\t\t\ttext: {\n\t\t\t\t\ttype: \&quot;string\&quot;,\n\t\t\t\t\tvalue: title\n\t\t}}}],\n\t\tparentWidget: $tw.rootWidget,\n\t\tdocument: document,\n\t\tvariables: variables\n\t});\n\theaderWidgetNode.render(headerTitle,null);\n\t// Render the body of the message\n\tvar bodyWidgetNode = this.wiki.makeTranscludeWidget(title,{\n\t\tparentWidget: $tw.rootWidget,\n\t\tdocument: document,\n\t\tvariables: variables\n\t});\n\tbodyWidgetNode.render(modalBody,null);\n\t// Setup the link if present\n\tif(options.downloadLink) {\n\t\tmodalLink.href = options.downloadLink;\n\t\tmodalLink.appendChild(document.createTextNode(\&quot;Right-click to save changes\&quot;));\n\t\tmodalBody.appendChild(modalLink);\n\t}\n\t// Render the footer of the message\n\tif(tiddler &amp;&amp; tiddler.fields &amp;&amp; tiddler.fields.help) {\n\t\tvar link = document.createElement(\&quot;a\&quot;);\n\t\tlink.setAttribute(\&quot;href\&quot;,tiddler.fields.help);\n\t\tlink.setAttribute(\&quot;target\&quot;,\&quot;_blank\&quot;);\n\t\tlink.appendChild(document.createTextNode(\&quot;Help\&quot;));\n\t\tmodalFooterHelp.appendChild(link);\n\t\tmodalFooterHelp.style.float = \&quot;left\&quot;;\n\t}\n\tvar footerWidgetNode = this.wiki.makeTranscludeWidget(title,{\n\t\tfield: \&quot;footer\&quot;,\n\t\tmode: \&quot;inline\&quot;,\n\t\tchildren: [{\n\t\t\ttype: \&quot;button\&quot;,\n\t\t\tattributes: {\n\t\t\t\tmessage: {\n\t\t\t\t\ttype: \&quot;string\&quot;,\n\t\t\t\t\tvalue: \&quot;tm-close-tiddler\&quot;\n\t\t\t\t}\n\t\t\t},\n\t\t\tchildren: [{\n\t\t\t\ttype: \&quot;text\&quot;,\n\t\t\t\tattributes: {\n\t\t\t\t\ttext: {\n\t\t\t\t\t\ttype: \&quot;string\&quot;,\n\t\t\t\t\t\tvalue: \&quot;Close\&quot;\n\t\t\t}}}\n\t\t]}],\n\t\tparentWidget: $tw.rootWidget,\n\t\tdocument: document,\n\t\tvariables: variables\n\t});\n\tfooterWidgetNode.render(modalFooterButtons,null);\n\t// Set up the refresh handler\n\trefreshHandler = function(changes) {\n\t\theaderWidgetNode.refresh(changes,modalHeader,null);\n\t\tbodyWidgetNode.refresh(changes,modalBody,null);\n\t\tfooterWidgetNode.refresh(changes,modalFooterButtons,null);\n\t};\n\tthis.wiki.addEventListener(\&quot;change\&quot;,refreshHandler);\n\t// Add the close event handler\n\tvar closeHandler = function(event) {\n\t\t// Remove our refresh handler\n\t\tself.wiki.removeEventListener(\&quot;change\&quot;,refreshHandler);\n\t\t// Decrease the modal count and adjust the body class\n\t\tself.modalCount--;\n\t\tself.adjustPageClass();\n\t\t// Force layout and animate the modal message away\n\t\t$tw.utils.forceLayout(modalBackdrop);\n\t\t$tw.utils.forceLayout(modalWrapper);\n\t\t$tw.utils.setStyle(modalBackdrop,[\n\t\t\t{opacity: \&quot;0\&quot;}\n\t\t]);\n\t\t$tw.utils.setStyle(modalWrapper,[\n\t\t\t{transform: \&quot;translateY(\&quot; + window.innerHeight + \&quot;px)\&quot;}\n\t\t]);\n\t\t// Set up an event for the transition end\n\t\twindow.setTimeout(function() {\n\t\t\tif(wrapper.parentNode) {\n\t\t\t\t// Remove the modal message from the DOM\n\t\t\t\tdocument.body.removeChild(wrapper);\n\t\t\t}\n\t\t},duration);\n\t\t// Don't let anyone else handle the tm-close-tiddler message\n\t\treturn false;\n\t};\n\theaderWidgetNode.addEventListener(\&quot;tm-close-tiddler\&quot;,closeHandler,false);\n\tbodyWidgetNode.addEventListener(\&quot;tm-close-tiddler\&quot;,closeHandler,false);\n\tfooterWidgetNode.addEventListener(\&quot;tm-close-tiddler\&quot;,closeHandler,false);\n\t// Set the initial styles for the message\n\t$tw.utils.setStyle(modalBackdrop,[\n\t\t{opacity: \&quot;0\&quot;}\n\t]);\n\t$tw.utils.setStyle(modalWrapper,[\n\t\t{transformOrigin: \&quot;0% 0%\&quot;},\n\t\t{transform: \&quot;translateY(\&quot; + (-window.innerHeight) + \&quot;px)\&quot;}\n\t]);\n\t// Put the message into the document\n\tdocument.body.appendChild(wrapper);\n\t// Set up animation for the styles\n\t$tw.utils.setStyle(modalBackdrop,[\n\t\t{transition: \&quot;opacity \&quot; + duration + \&quot;ms ease-out\&quot;}\n\t]);\n\t$tw.utils.setStyle(modalWrapper,[\n\t\t{transition: $tw.utils.roundTripPropertyName(\&quot;transform\&quot;) + \&quot; \&quot; + duration + \&quot;ms ease-in-out\&quot;}\n\t]);\n\t// Force layout\n\t$tw.utils.forceLayout(modalBackdrop);\n\t$tw.utils.forceLayout(modalWrapper);\n\t// Set final animated styles\n\t$tw.utils.setStyle(modalBackdrop,[\n\t\t{opacity: \&quot;0.7\&quot;}\n\t]);\n\t$tw.utils.setStyle(modalWrapper,[\n\t\t{transform: \&quot;translateY(0px)\&quot;}\n\t]);\n};\n\nModal.prototype.adjustPageClass = function() {\n\tif($tw.pageContainer) {\n\t\t$tw.utils.toggleClass($tw.pageContainer,\&quot;tc-modal-displayed\&quot;,this.modalCount &gt; 0);\n\t}\n};\n\nexports.Modal = Modal;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom/modal.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/dom/notifier.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/dom/notifier.js\ntype: application/javascript\nmodule-type: utils\n\nNotifier mechanism\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;);\n\nvar Notifier = function(wiki) {\n\tthis.wiki = wiki;\n};\n\n/*\nDisplay a notification\n\ttitle: Title of tiddler containing the notification text\n\toptions: see below\nOptions include:\n*/\nNotifier.prototype.display = function(title,options) {\n\toptions = options || {};\n\t// Create the wrapper divs\n\tvar self = this,\n\t\tnotification = document.createElement(\&quot;div\&quot;),\n\t\ttiddler = this.wiki.getTiddler(title),\n\t\tduration = $tw.utils.getAnimationDuration(),\n\t\trefreshHandler;\n\t// Don't do anything if the tiddler doesn't exist\n\tif(!tiddler) {\n\t\treturn;\n\t}\n\t// Add classes\n\t$tw.utils.addClass(notification,\&quot;tc-notification\&quot;);\n\t// Create the variables\n\tvar variables = $tw.utils.extend({currentTiddler: title},options.variables);\n\t// Render the body of the notification\n\tvar widgetNode = this.wiki.makeTranscludeWidget(title,{parentWidget: $tw.rootWidget, document: document, variables: variables});\n\twidgetNode.render(notification,null);\n\trefreshHandler = function(changes) {\n\t\twidgetNode.refresh(changes,notification,null);\n\t};\n\tthis.wiki.addEventListener(\&quot;change\&quot;,refreshHandler);\n\t// Set the initial styles for the notification\n\t$tw.utils.setStyle(notification,[\n\t\t{opacity: \&quot;0\&quot;},\n\t\t{transformOrigin: \&quot;0% 0%\&quot;},\n\t\t{transform: \&quot;translateY(\&quot; + (-window.innerHeight) + \&quot;px)\&quot;},\n\t\t{transition: \&quot;opacity \&quot; + duration + \&quot;ms ease-out, \&quot; + $tw.utils.roundTripPropertyName(\&quot;transform\&quot;) + \&quot; \&quot; + duration + \&quot;ms ease-in-out\&quot;}\n\t]);\n\t// Add the notification to the DOM\n\tdocument.body.appendChild(notification);\n\t// Force layout\n\t$tw.utils.forceLayout(notification);\n\t// Set final animated styles\n\t$tw.utils.setStyle(notification,[\n\t\t{opacity: \&quot;1.0\&quot;},\n\t\t{transform: \&quot;translateY(0px)\&quot;}\n\t]);\n\t// Set a timer to remove the notification\n\twindow.setTimeout(function() {\n\t\t// Remove our change event handler\n\t\tself.wiki.removeEventListener(\&quot;change\&quot;,refreshHandler);\n\t\t// Force layout and animate the notification away\n\t\t$tw.utils.forceLayout(notification);\n\t\t$tw.utils.setStyle(notification,[\n\t\t\t{opacity: \&quot;0.0\&quot;},\n\t\t\t{transform: \&quot;translateX(\&quot; + (notification.offsetWidth) + \&quot;px)\&quot;}\n\t\t]);\n\t\t// Remove the modal message from the DOM once the transition ends\n\t\tsetTimeout(function() {\n\t\t\tif(notification.parentNode) {\n\t\t\t\tdocument.body.removeChild(notification);\n\t\t\t}\n\t\t},duration);\n\t},$tw.config.preferences.notificationDuration);\n};\n\nexports.Notifier = Notifier;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom/notifier.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/dom/popup.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/dom/popup.js\ntype: application/javascript\nmodule-type: utils\n\nModule that creates a $tw.utils.Popup object prototype that manages popups in the browser\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nCreates a Popup object with these options:\n\trootElement: the DOM element to which the popup zapper should be attached\n*/\nvar Popup = function(options) {\n\toptions = options || {};\n\tthis.rootElement = options.rootElement || document.documentElement;\n\tthis.popups = []; // Array of {title:,wiki:,domNode:} objects\n};\n\n/*\nTrigger a popup open or closed. Parameters are in a hashmap:\n\ttitle: title of the tiddler where the popup details are stored\n\tdomNode: dom node to which the popup will be positioned\n\twiki: wiki\n\tforce: if specified, forces the popup state to true or false (instead of toggling it)\n*/\nPopup.prototype.triggerPopup = function(options) {\n\t// Check if this popup is already active\n\tvar index = this.findPopup(options.title);\n\t// Compute the new state\n\tvar state = index === -1;\n\tif(options.force !== undefined) {\n\t\tstate = options.force;\n\t}\n\t// Show or cancel the popup according to the new state\n\tif(state) {\n\t\tthis.show(options);\n\t} else {\n\t\tthis.cancel(index);\n\t}\n};\n\nPopup.prototype.findPopup = function(title) {\n\tvar index = -1;\n\tfor(var t=0; t&lt;this.popups.length; t++) {\n\t\tif(this.popups[t].title === title) {\n\t\t\tindex = t;\n\t\t}\n\t}\n\treturn index;\n};\n\nPopup.prototype.handleEvent = function(event) {\n\tif(event.type === \&quot;click\&quot;) {\n\t\t// Find out what was clicked on\n\t\tvar info = this.popupInfo(event.target),\n\t\t\tcancelLevel = info.popupLevel - 1;\n\t\t// Don't remove the level that was clicked on if we clicked on a handle\n\t\tif(info.isHandle) {\n\t\t\tcancelLevel++;\n\t\t}\n\t\t// Cancel\n\t\tthis.cancel(cancelLevel);\n\t}\n};\n\n/*\nFind the popup level containing a DOM node. Returns:\npopupLevel: count of the number of nested popups containing the specified element\nisHandle: true if the specified element is within a popup handle\n*/\nPopup.prototype.popupInfo = function(domNode) {\n\tvar isHandle = false,\n\t\tpopupCount = 0,\n\t\tnode = domNode;\n\t// First check ancestors to see if we're within a popup handle\n\twhile(node) {\n\t\tif($tw.utils.hasClass(node,\&quot;tc-popup-handle\&quot;)) {\n\t\t\tisHandle = true;\n\t\t\tpopupCount++;\n\t\t}\n\t\tif($tw.utils.hasClass(node,\&quot;tc-popup-keep\&quot;)) {\n\t\t\tisHandle = true;\n\t\t}\n\t\tnode = node.parentNode;\n\t}\n\t// Then count the number of ancestor popups\n\tnode = domNode;\n\twhile(node) {\n\t\tif($tw.utils.hasClass(node,\&quot;tc-popup\&quot;)) {\n\t\t\tpopupCount++;\n\t\t}\n\t\tnode = node.parentNode;\n\t}\n\tvar info = {\n\t\tpopupLevel: popupCount,\n\t\tisHandle: isHandle\n\t};\n\treturn info;\n};\n\n/*\nDisplay a popup by adding it to the stack\n*/\nPopup.prototype.show = function(options) {\n\t// Find out what was clicked on\n\tvar info = this.popupInfo(options.domNode);\n\t// Cancel any higher level popups\n\tthis.cancel(info.popupLevel);\n\t// Store the popup details if not already there\n\tif(this.findPopup(options.title) === -1) {\n\t\tthis.popups.push({\n\t\t\ttitle: options.title,\n\t\t\twiki: options.wiki,\n\t\t\tdomNode: options.domNode\n\t\t});\n\t}\n\t// Set the state tiddler\n\toptions.wiki.setTextReference(options.title,\n\t\t\t\&quot;(\&quot; + options.domNode.offsetLeft + \&quot;,\&quot; + options.domNode.offsetTop + \&quot;,\&quot; + \n\t\t\t\toptions.domNode.offsetWidth + \&quot;,\&quot; + options.domNode.offsetHeight + \&quot;)\&quot;);\n\t// Add the click handler if we have any popups\n\tif(this.popups.length &gt; 0) {\n\t\tthis.rootElement.addEventListener(\&quot;click\&quot;,this,true);\t\t\n\t}\n};\n\n/*\nCancel all popups at or above a specified level or DOM node\nlevel: popup level to cancel (0 cancels all popups)\n*/\nPopup.prototype.cancel = function(level) {\n\tvar numPopups = this.popups.length;\n\tlevel = Math.max(0,Math.min(level,numPopups));\n\tfor(var t=level; t&lt;numPopups; t++) {\n\t\tvar popup = this.popups.pop();\n\t\tif(popup.title) {\n\t\t\tpopup.wiki.deleteTiddler(popup.title);\n\t\t}\n\t}\n\tif(this.popups.length === 0) {\n\t\tthis.rootElement.removeEventListener(\&quot;click\&quot;,this,false);\n\t}\n};\n\n/*\nReturns true if the specified title and text identifies an active popup\n*/\nPopup.prototype.readPopupState = function(text) {\n\tvar popupLocationRegExp = /^\\((-?[0-9\\.E]+),(-?[0-9\\.E]+),(-?[0-9\\.E]+),(-?[0-9\\.E]+)\\)$/;\n\treturn popupLocationRegExp.test(text);\n};\n\nexports.Popup = Popup;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom/popup.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/dom/scroller.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/dom/scroller.js\ntype: application/javascript\nmodule-type: utils\n\nModule that creates a $tw.utils.Scroller object prototype that manages scrolling in the browser\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nEvent handler for when the `tm-scroll` event hits the document body\n*/\nvar PageScroller = function() {\n\tthis.idRequestFrame = null;\n\tthis.requestAnimationFrame = window.requestAnimationFrame ||\n\t\twindow.webkitRequestAnimationFrame ||\n\t\twindow.mozRequestAnimationFrame ||\n\t\tfunction(callback) {\n\t\t\treturn window.setTimeout(callback, 1000/60);\n\t\t};\n\tthis.cancelAnimationFrame = window.cancelAnimationFrame ||\n\t\twindow.webkitCancelAnimationFrame ||\n\t\twindow.webkitCancelRequestAnimationFrame ||\n\t\twindow.mozCancelAnimationFrame ||\n\t\twindow.mozCancelRequestAnimationFrame ||\n\t\tfunction(id) {\n\t\t\twindow.clearTimeout(id);\n\t\t};\n};\n\nPageScroller.prototype.cancelScroll = function() {\n\tif(this.idRequestFrame) {\n\t\tthis.cancelAnimationFrame.call(window,this.idRequestFrame);\n\t\tthis.idRequestFrame = null;\n\t}\n};\n\n/*\nHandle an event\n*/\nPageScroller.prototype.handleEvent = function(event) {\n\tif(event.type === \&quot;tm-scroll\&quot;) {\n\t\treturn this.scrollIntoView(event.target);\n\t}\n\treturn true;\n};\n\n/*\nHandle a scroll event hitting the page document\n*/\nPageScroller.prototype.scrollIntoView = function(element) {\n\tvar duration = $tw.utils.getAnimationDuration();\n\t// Now get ready to scroll the body\n\tthis.cancelScroll();\n\tthis.startTime = Date.now();\n\tvar scrollPosition = $tw.utils.getScrollPosition();\n\t// Get the client bounds of the element and adjust by the scroll position\n\tvar clientBounds = element.getBoundingClientRect(),\n\t\tbounds = {\n\t\t\tleft: clientBounds.left + scrollPosition.x,\n\t\t\ttop: clientBounds.top + scrollPosition.y,\n\t\t\twidth: clientBounds.width,\n\t\t\theight: clientBounds.height\n\t\t};\n\t// We'll consider the horizontal and vertical scroll directions separately via this function\n\t// targetPos/targetSize - position and size of the target element\n\t// currentPos/currentSize - position and size of the current scroll viewport\n\t// returns: new position of the scroll viewport\n\tvar getEndPos = function(targetPos,targetSize,currentPos,currentSize) {\n\t\t\tvar newPos = currentPos;\n\t\t\t// If the target is above/left of the current view, then scroll to it's top/left\n\t\t\tif(targetPos &lt;= currentPos) {\n\t\t\t\tnewPos = targetPos;\n\t\t\t// If the target is smaller than the window and the scroll position is too far up, then scroll till the target is at the bottom of the window\n\t\t\t} else if(targetSize &lt; currentSize &amp;&amp; currentPos &lt; (targetPos + targetSize - currentSize)) {\n\t\t\t\tnewPos = targetPos + targetSize - currentSize;\n\t\t\t// If the target is big, then just scroll to the top\n\t\t\t} else if(currentPos &lt; targetPos) {\n\t\t\t\tnewPos = targetPos;\n\t\t\t// Otherwise, stay where we are\n\t\t\t} else {\n\t\t\t\tnewPos = currentPos;\n\t\t\t}\n\t\t\t// If we are scrolling within 50 pixels of the top/left then snap to zero\n\t\t\tif(newPos &lt; 50) {\n\t\t\t\tnewPos = 0;\n\t\t\t}\n\t\t\treturn newPos;\n\t\t},\n\t\tendX = getEndPos(bounds.left,bounds.width,scrollPosition.x,window.innerWidth),\n\t\tendY = getEndPos(bounds.top,bounds.height,scrollPosition.y,window.innerHeight);\n\t// Only scroll if the position has changed\n\tif(endX !== scrollPosition.x || endY !== scrollPosition.y) {\n\t\tvar self = this,\n\t\t\tdrawFrame;\n\t\tdrawFrame = function () {\n\t\t\tvar t;\n\t\t\tif(duration &lt;= 0) {\n\t\t\t\tt = 1;\n\t\t\t} else {\n\t\t\t\tt = ((Date.now()) - self.startTime) / duration;\t\n\t\t\t}\n\t\t\tif(t &gt;= 1) {\n\t\t\t\tself.cancelScroll();\n\t\t\t\tt = 1;\n\t\t\t}\n\t\t\tt = $tw.utils.slowInSlowOut(t);\n\t\t\twindow.scrollTo(scrollPosition.x + (endX - scrollPosition.x) * t,scrollPosition.y + (endY - scrollPosition.y) * t);\n\t\t\tif(t &lt; 1) {\n\t\t\t\tself.idRequestFrame = self.requestAnimationFrame.call(window,drawFrame);\n\t\t\t}\n\t\t};\n\t\tdrawFrame();\n\t}\n};\n\nexports.PageScroller = PageScroller;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/dom/scroller.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/edition-info.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/edition-info.js\ntype: application/javascript\nmodule-type: utils-node\n\nInformation about the available editions\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar fs = require(\&quot;fs\&quot;),\n\tpath = require(\&quot;path\&quot;);\n\nvar editionInfo;\n\nexports.getEditionInfo = function() {\n\tif(!editionInfo) {\n\t\t// Enumerate the edition paths\n\t\tvar editionPaths = $tw.getLibraryItemSearchPaths($tw.config.editionsPath,$tw.config.editionsEnvVar);\n\t\teditionInfo = {};\n\t\tfor(var editionIndex=0; editionIndex&lt;editionPaths.length; editionIndex++) {\n\t\t\tvar editionPath = editionPaths[editionIndex];\n\t\t\t// Enumerate the folders\n\t\t\tvar entries = fs.readdirSync(editionPath);\n\t\t\tfor(var entryIndex=0; entryIndex&lt;entries.length; entryIndex++) {\n\t\t\t\tvar entry = entries[entryIndex];\n\t\t\t\t// Check if directories have a valid tiddlywiki.info\n\t\t\t\tif(!editionInfo[entry] &amp;&amp; $tw.utils.isDirectory(path.resolve(editionPath,entry))) {\n\t\t\t\t\tvar info;\n\t\t\t\t\ttry {\n\t\t\t\t\t\tinfo = JSON.parse(fs.readFileSync(path.resolve(editionPath,entry,\&quot;tiddlywiki.info\&quot;),\&quot;utf8\&quot;));\n\t\t\t\t\t} catch(ex) {\n\t\t\t\t\t}\n\t\t\t\t\tif(info) {\n\t\t\t\t\t\teditionInfo[entry] = info;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t}\n\treturn editionInfo;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/edition-info.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils-node&quot;
        },
        &quot;$:/core/modules/utils/fakedom.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/fakedom.js\ntype: application/javascript\nmodule-type: global\n\nA barebones implementation of DOM interfaces needed by the rendering mechanism.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Sequence number used to enable us to track objects for testing\nvar sequenceNumber = null;\n\nvar bumpSequenceNumber = function(object) {\n\tif(sequenceNumber !== null) {\n\t\tobject.sequenceNumber = sequenceNumber++;\n\t}\n};\n\nvar TW_TextNode = function(text) {\n\tbumpSequenceNumber(this);\n\tthis.textContent = text;\n};\n\nObject.defineProperty(TW_TextNode.prototype, \&quot;nodeType\&quot;, {\n\tget: function() {\n\t\treturn 3;\n\t}\n});\n\nObject.defineProperty(TW_TextNode.prototype, \&quot;formattedTextContent\&quot;, {\n\tget: function() {\n\t\treturn this.textContent.replace(/(\\r?\\n)/g,\&quot;\&quot;);\n\t}\n});\n\nvar TW_Element = function(tag,namespace) {\n\tbumpSequenceNumber(this);\n\tthis.isTiddlyWikiFakeDom = true;\n\tthis.tag = tag;\n\tthis.attributes = {};\n\tthis.isRaw = false;\n\tthis.children = [];\n\tthis.style = {};\n\tthis.namespaceURI = namespace || \&quot;http://www.w3.org/1999/xhtml\&quot;;\n};\n\nObject.defineProperty(TW_Element.prototype, \&quot;nodeType\&quot;, {\n\tget: function() {\n\t\treturn 1;\n\t}\n});\n\nTW_Element.prototype.getAttribute = function(name) {\n\tif(this.isRaw) {\n\t\tthrow \&quot;Cannot getAttribute on a raw TW_Element\&quot;;\n\t}\n\treturn this.attributes[name];\n};\n\nTW_Element.prototype.setAttribute = function(name,value) {\n\tif(this.isRaw) {\n\t\tthrow \&quot;Cannot setAttribute on a raw TW_Element\&quot;;\n\t}\n\tthis.attributes[name] = value;\n};\n\nTW_Element.prototype.setAttributeNS = function(namespace,name,value) {\n\tthis.setAttribute(name,value);\n};\n\nTW_Element.prototype.removeAttribute = function(name) {\n\tif(this.isRaw) {\n\t\tthrow \&quot;Cannot removeAttribute on a raw TW_Element\&quot;;\n\t}\n\tif($tw.utils.hop(this.attributes,name)) {\n\t\tdelete this.attributes[name];\n\t}\n};\n\nTW_Element.prototype.appendChild = function(node) {\n\tthis.children.push(node);\n\tnode.parentNode = this;\n};\n\nTW_Element.prototype.insertBefore = function(node,nextSibling) {\n\tif(nextSibling) {\n\t\tvar p = this.children.indexOf(nextSibling);\n\t\tif(p !== -1) {\n\t\t\tthis.children.splice(p,0,node);\n\t\t\tnode.parentNode = this;\n\t\t} else {\n\t\t\tthis.appendChild(node);\n\t\t}\n\t} else {\n\t\tthis.appendChild(node);\n\t}\n};\n\nTW_Element.prototype.removeChild = function(node) {\n\tvar p = this.children.indexOf(node);\n\tif(p !== -1) {\n\t\tthis.children.splice(p,1);\n\t}\n};\n\nTW_Element.prototype.hasChildNodes = function() {\n\treturn !!this.children.length;\n};\n\nObject.defineProperty(TW_Element.prototype, \&quot;childNodes\&quot;, {\n\tget: function() {\n\t\treturn this.children;\n\t}\n});\n\nObject.defineProperty(TW_Element.prototype, \&quot;firstChild\&quot;, {\n\tget: function() {\n\t\treturn this.children[0];\n\t}\n});\n\nTW_Element.prototype.addEventListener = function(type,listener,useCapture) {\n\t// Do nothing\n};\n\nObject.defineProperty(TW_Element.prototype, \&quot;tagName\&quot;, {\n\tget: function() {\n\t\treturn this.tag || \&quot;\&quot;;\n\t}\n});\n\nObject.defineProperty(TW_Element.prototype, \&quot;className\&quot;, {\n\tget: function() {\n\t\treturn this.attributes[\&quot;class\&quot;] || \&quot;\&quot;;\n\t},\n\tset: function(value) {\n\t\tthis.attributes[\&quot;class\&quot;] = value;\n\t}\n});\n\nObject.defineProperty(TW_Element.prototype, \&quot;value\&quot;, {\n\tget: function() {\n\t\treturn this.attributes.value || \&quot;\&quot;;\n\t},\n\tset: function(value) {\n\t\tthis.attributes.value = value;\n\t}\n});\n\nObject.defineProperty(TW_Element.prototype, \&quot;outerHTML\&quot;, {\n\tget: function() {\n\t\tvar output = [],attr,a,v;\n\t\toutput.push(\&quot;&lt;\&quot;,this.tag);\n\t\tif(this.attributes) {\n\t\t\tattr = [];\n\t\t\tfor(a in this.attributes) {\n\t\t\t\tattr.push(a);\n\t\t\t}\n\t\t\tattr.sort();\n\t\t\tfor(a=0; a&lt;attr.length; a++) {\n\t\t\t\tv = this.attributes[attr[a]];\n\t\t\t\tif(v !== undefined) {\n\t\t\t\t\toutput.push(\&quot; \&quot;,attr[a],\&quot;=\\\&quot;\&quot;,$tw.utils.htmlEncode(v),\&quot;\\\&quot;\&quot;);\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t\tif(this.style) {\n\t\t\tvar style = [];\n\t\t\tfor(var s in this.style) {\n\t\t\t\tstyle.push(s + \&quot;:\&quot; + this.style[s] + \&quot;;\&quot;);\n\t\t\t}\n\t\t\tif(style.length &gt; 0) {\n\t\t\t\toutput.push(\&quot; style=\\\&quot;\&quot;,style.join(\&quot;\&quot;),\&quot;\\\&quot;\&quot;)\n\t\t\t}\n\t\t}\n\t\toutput.push(\&quot;&gt;\&quot;);\n\t\tif($tw.config.htmlVoidElements.indexOf(this.tag) === -1) {\n\t\t\toutput.push(this.innerHTML);\n\t\t\toutput.push(\&quot;&lt;/\&quot;,this.tag,\&quot;&gt;\&quot;);\n\t\t}\n\t\treturn output.join(\&quot;\&quot;);\n\t}\n});\n\nObject.defineProperty(TW_Element.prototype, \&quot;innerHTML\&quot;, {\n\tget: function() {\n\t\tif(this.isRaw) {\n\t\t\treturn this.rawHTML;\n\t\t} else {\n\t\t\tvar b = [];\n\t\t\t$tw.utils.each(this.children,function(node) {\n\t\t\t\tif(node instanceof TW_Element) {\n\t\t\t\t\tb.push(node.outerHTML);\n\t\t\t\t} else if(node instanceof TW_TextNode) {\n\t\t\t\t\tb.push($tw.utils.htmlEncode(node.textContent));\n\t\t\t\t}\n\t\t\t});\n\t\t\treturn b.join(\&quot;\&quot;);\n\t\t}\n\t},\n\tset: function(value) {\n\t\tthis.isRaw = true;\n\t\tthis.rawHTML = value;\n\t}\n});\n\nObject.defineProperty(TW_Element.prototype, \&quot;textContent\&quot;, {\n\tget: function() {\n\t\tif(this.isRaw) {\n\t\t\tthrow \&quot;Cannot get textContent on a raw TW_Element\&quot;;\n\t\t} else {\n\t\t\tvar b = [];\n\t\t\t$tw.utils.each(this.children,function(node) {\n\t\t\t\tb.push(node.textContent);\n\t\t\t});\n\t\t\treturn b.join(\&quot;\&quot;);\n\t\t}\n\t},\n\tset: function(value) {\n\t\tthis.children = [new TW_TextNode(value)];\n\t}\n});\n\nObject.defineProperty(TW_Element.prototype, \&quot;formattedTextContent\&quot;, {\n\tget: function() {\n\t\tif(this.isRaw) {\n\t\t\tthrow \&quot;Cannot get formattedTextContent on a raw TW_Element\&quot;;\n\t\t} else {\n\t\t\tvar b = [],\n\t\t\t\tisBlock = $tw.config.htmlBlockElements.indexOf(this.tag) !== -1;\n\t\t\tif(isBlock) {\n\t\t\t\tb.push(\&quot;\\n\&quot;);\n\t\t\t}\n\t\t\tif(this.tag === \&quot;li\&quot;) {\n\t\t\t\tb.push(\&quot;* \&quot;);\n\t\t\t}\n\t\t\t$tw.utils.each(this.children,function(node) {\n\t\t\t\tb.push(node.formattedTextContent);\n\t\t\t});\n\t\t\tif(isBlock) {\n\t\t\t\tb.push(\&quot;\\n\&quot;);\n\t\t\t}\n\t\t\treturn b.join(\&quot;\&quot;);\n\t\t}\n\t}\n});\n\nvar document = {\n\tsetSequenceNumber: function(value) {\n\t\tsequenceNumber = value;\n\t},\n\tcreateElementNS: function(namespace,tag) {\n\t\treturn new TW_Element(tag,namespace);\n\t},\n\tcreateElement: function(tag) {\n\t\treturn new TW_Element(tag);\n\t},\n\tcreateTextNode: function(text) {\n\t\treturn new TW_TextNode(text);\n\t},\n\tcompatMode: \&quot;CSS1Compat\&quot;, // For KaTeX to know that we're not a browser in quirks mode\n\tisTiddlyWikiFakeDom: true\n};\n\nexports.fakeDocument = document;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/fakedom.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;global&quot;
        },
        &quot;$:/core/modules/utils/filesystem.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/filesystem.js\ntype: application/javascript\nmodule-type: utils-node\n\nFile system utilities\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar fs = require(\&quot;fs\&quot;),\n\tpath = require(\&quot;path\&quot;);\n\n/*\nRecursively (and synchronously) copy a directory and all its content\n*/\nexports.copyDirectory = function(srcPath,dstPath) {\n\t// Remove any trailing path separators\n\tsrcPath = $tw.utils.removeTrailingSeparator(srcPath);\n\tdstPath = $tw.utils.removeTrailingSeparator(dstPath);\n\t// Create the destination directory\n\tvar err = $tw.utils.createDirectory(dstPath);\n\tif(err) {\n\t\treturn err;\n\t}\n\t// Function to copy a folder full of files\n\tvar copy = function(srcPath,dstPath) {\n\t\tvar srcStats = fs.lstatSync(srcPath),\n\t\t\tdstExists = fs.existsSync(dstPath);\n\t\tif(srcStats.isFile()) {\n\t\t\t$tw.utils.copyFile(srcPath,dstPath);\n\t\t} else if(srcStats.isDirectory()) {\n\t\t\tvar items = fs.readdirSync(srcPath);\n\t\t\tfor(var t=0; t&lt;items.length; t++) {\n\t\t\t\tvar item = items[t],\n\t\t\t\t\terr = copy(srcPath + path.sep + item,dstPath + path.sep + item);\n\t\t\t\tif(err) {\n\t\t\t\t\treturn err;\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t};\n\tcopy(srcPath,dstPath);\n\treturn null;\n};\n\n/*\nCopy a file\n*/\nvar FILE_BUFFER_LENGTH = 64 * 1024,\n\tfileBuffer;\n\nexports.copyFile = function(srcPath,dstPath) {\n\t// Create buffer if required\n\tif(!fileBuffer) {\n\t\tfileBuffer = new Buffer(FILE_BUFFER_LENGTH);\n\t}\n\t// Create any directories in the destination\n\t$tw.utils.createDirectory(path.dirname(dstPath));\n\t// Copy the file\n\tvar srcFile = fs.openSync(srcPath,\&quot;r\&quot;),\n\t\tdstFile = fs.openSync(dstPath,\&quot;w\&quot;),\n\t\tbytesRead = 1,\n\t\tpos = 0;\n\twhile (bytesRead &gt; 0) {\n\t\tbytesRead = fs.readSync(srcFile,fileBuffer,0,FILE_BUFFER_LENGTH,pos);\n\t\tfs.writeSync(dstFile,fileBuffer,0,bytesRead);\n\t\tpos += bytesRead;\n\t}\n\tfs.closeSync(srcFile);\n\tfs.closeSync(dstFile);\n\treturn null;\n};\n\n/*\nRemove trailing path separator\n*/\nexports.removeTrailingSeparator = function(dirPath) {\n\tvar len = dirPath.length;\n\tif(dirPath.charAt(len-1) === path.sep) {\n\t\tdirPath = dirPath.substr(0,len-1);\n\t}\n\treturn dirPath;\n};\n\n/*\nRecursively create a directory\n*/\nexports.createDirectory = function(dirPath) {\n\tif(dirPath.substr(dirPath.length-1,1) !== path.sep) {\n\t\tdirPath = dirPath + path.sep;\n\t}\n\tvar pos = 1;\n\tpos = dirPath.indexOf(path.sep,pos);\n\twhile(pos !== -1) {\n\t\tvar subDirPath = dirPath.substr(0,pos);\n\t\tif(!$tw.utils.isDirectory(subDirPath)) {\n\t\t\ttry {\n\t\t\t\tfs.mkdirSync(subDirPath);\n\t\t\t} catch(e) {\n\t\t\t\treturn \&quot;Error creating directory '\&quot; + subDirPath + \&quot;'\&quot;;\n\t\t\t}\n\t\t}\n\t\tpos = dirPath.indexOf(path.sep,pos + 1);\n\t}\n\treturn null;\n};\n\n/*\nRecursively create directories needed to contain a specified file\n*/\nexports.createFileDirectories = function(filePath) {\n\treturn $tw.utils.createDirectory(path.dirname(filePath));\n};\n\n/*\nRecursively delete a directory\n*/\nexports.deleteDirectory = function(dirPath) {\n\tif(fs.existsSync(dirPath)) {\n\t\tvar entries = fs.readdirSync(dirPath);\n\t\tfor(var entryIndex=0; entryIndex&lt;entries.length; entryIndex++) {\n\t\t\tvar currPath = dirPath + path.sep + entries[entryIndex];\n\t\t\tif(fs.lstatSync(currPath).isDirectory()) {\n\t\t\t\t$tw.utils.deleteDirectory(currPath);\n\t\t\t} else {\n\t\t\t\tfs.unlinkSync(currPath);\n\t\t\t}\n\t\t}\n\tfs.rmdirSync(dirPath);\n\t}\n\treturn null;\n};\n\n/*\nCheck if a path identifies a directory\n*/\nexports.isDirectory = function(dirPath) {\n\treturn fs.existsSync(dirPath) &amp;&amp; fs.statSync(dirPath).isDirectory();\n};\n\n/*\nCheck if a path identifies a directory that is empty\n*/\nexports.isDirectoryEmpty = function(dirPath) {\n\tif(!$tw.utils.isDirectory(dirPath)) {\n\t\treturn false;\n\t}\n\tvar files = fs.readdirSync(dirPath),\n\t\tempty = true;\n\t$tw.utils.each(files,function(file,index) {\n\t\tif(file.charAt(0) !== \&quot;.\&quot;) {\n\t\t\tempty = false;\n\t\t}\n\t});\n\treturn empty;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/filesystem.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils-node&quot;
        },
        &quot;$:/core/modules/utils/logger.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/logger.js\ntype: application/javascript\nmodule-type: utils\n\nA basic logging implementation\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar ALERT_TAG = \&quot;$:/tags/Alert\&quot;;\n\n/*\nMake a new logger\n*/\nfunction Logger(componentName) {\n\tthis.componentName = componentName || \&quot;\&quot;;\n}\n\n/*\nLog a message\n*/\nLogger.prototype.log = function(/* args */) {\n\tif(console !== undefined &amp;&amp; console.log !== undefined) {\n\t\treturn Function.apply.call(console.log, console, [this.componentName + \&quot;:\&quot;].concat(Array.prototype.slice.call(arguments,0)));\n\t}\n};\n\n/*\nAlert a message\n*/\nLogger.prototype.alert = function(/* args */) {\n\t// Prepare the text of the alert\n\tvar text = Array.prototype.join.call(arguments,\&quot; \&quot;);\n\t// Create alert tiddlers in the browser\n\tif($tw.browser) {\n\t\t// Check if there is an existing alert with the same text and the same component\n\t\tvar existingAlerts = $tw.wiki.getTiddlersWithTag(ALERT_TAG),\n\t\t\talertFields,\n\t\t\texistingCount,\n\t\t\tself = this;\n\t\t$tw.utils.each(existingAlerts,function(title) {\n\t\t\tvar tiddler = $tw.wiki.getTiddler(title);\n\t\t\tif(tiddler.fields.text === text &amp;&amp; tiddler.fields.component === self.componentName &amp;&amp; tiddler.fields.modified &amp;&amp; (!alertFields || tiddler.fields.modified &lt; alertFields.modified)) {\n\t\t\t\t\talertFields = $tw.utils.extend({},tiddler.fields);\n\t\t\t}\n\t\t});\n\t\tif(alertFields) {\n\t\t\texistingCount = alertFields.count || 1;\n\t\t} else {\n\t\t\talertFields = {\n\t\t\t\ttitle: $tw.wiki.generateNewTitle(\&quot;$:/temp/alerts/alert\&quot;,{prefix: \&quot;\&quot;}),\n\t\t\t\ttext: text,\n\t\t\t\ttags: [ALERT_TAG],\n\t\t\t\tcomponent: this.componentName\n\t\t\t};\n\t\t\texistingCount = 0;\n\t\t}\n\t\talertFields.modified = new Date();\n\t\tif(++existingCount &gt; 1) {\n\t\t\talertFields.count = existingCount;\n\t\t} else {\n\t\t\talertFields.count = undefined;\n\t\t}\n\t\t$tw.wiki.addTiddler(new $tw.Tiddler(alertFields));\n\t\t// Log the alert as well\n\t\tthis.log.apply(this,Array.prototype.slice.call(arguments,0));\n\t} else {\n\t\t// Print an orange message to the console if not in the browser\n\t\tconsole.error(\&quot;\\x1b[1;33m\&quot; + text + \&quot;\\x1b[0m\&quot;);\n\t}\n};\n\nexports.Logger = Logger;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/logger.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/parsetree.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/parsetree.js\ntype: application/javascript\nmodule-type: utils\n\nParse tree utility functions.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nexports.addAttributeToParseTreeNode = function(node,name,value) {\n\tnode.attributes = node.attributes || {};\n\tnode.attributes[name] = {type: \&quot;string\&quot;, value: value};\n};\n\nexports.getAttributeValueFromParseTreeNode = function(node,name,defaultValue) {\n\tif(node.attributes &amp;&amp; node.attributes[name] &amp;&amp; node.attributes[name].value !== undefined) {\n\t\treturn node.attributes[name].value;\n\t}\n\treturn defaultValue;\n};\n\nexports.addClassToParseTreeNode = function(node,classString) {\n\tvar classes = [];\n\tnode.attributes = node.attributes || {};\n\tnode.attributes[\&quot;class\&quot;] = node.attributes[\&quot;class\&quot;] || {type: \&quot;string\&quot;, value: \&quot;\&quot;};\n\tif(node.attributes[\&quot;class\&quot;].type === \&quot;string\&quot;) {\n\t\tif(node.attributes[\&quot;class\&quot;].value !== \&quot;\&quot;) {\n\t\t\tclasses = node.attributes[\&quot;class\&quot;].value.split(\&quot; \&quot;);\n\t\t}\n\t\tif(classString !== \&quot;\&quot;) {\n\t\t\t$tw.utils.pushTop(classes,classString.split(\&quot; \&quot;));\n\t\t}\n\t\tnode.attributes[\&quot;class\&quot;].value = classes.join(\&quot; \&quot;);\n\t}\n};\n\nexports.addStyleToParseTreeNode = function(node,name,value) {\n\t\tnode.attributes = node.attributes || {};\n\t\tnode.attributes.style = node.attributes.style || {type: \&quot;string\&quot;, value: \&quot;\&quot;};\n\t\tif(node.attributes.style.type === \&quot;string\&quot;) {\n\t\t\tnode.attributes.style.value += name + \&quot;:\&quot; + value + \&quot;;\&quot;;\n\t\t}\n};\n\nexports.findParseTreeNode = function(nodeArray,search) {\n\tfor(var t=0; t&lt;nodeArray.length; t++) {\n\t\tif(nodeArray[t].type === search.type &amp;&amp; nodeArray[t].tag === search.tag) {\n\t\t\treturn nodeArray[t];\n\t\t}\n\t}\n\treturn undefined;\n};\n\n/*\nHelper to get the text of a parse tree node or array of nodes\n*/\nexports.getParseTreeText = function getParseTreeText(tree) {\n\tvar output = [];\n\tif($tw.utils.isArray(tree)) {\n\t\t$tw.utils.each(tree,function(node) {\n\t\t\toutput.push(getParseTreeText(node));\n\t\t});\n\t} else {\n\t\tif(tree.type === \&quot;text\&quot;) {\n\t\t\toutput.push(tree.text);\n\t\t}\n\t\tif(tree.children) {\n\t\t\treturn getParseTreeText(tree.children);\n\t\t}\n\t}\n\treturn output.join(\&quot;\&quot;);\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/parsetree.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/performance.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/performance.js\ntype: application/javascript\nmodule-type: global\n\nPerformance measurement.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nfunction Performance(enabled) {\n\tthis.enabled = !!enabled;\n\tthis.measures = {}; // Hashmap of current values of measurements\n\tthis.logger = new $tw.utils.Logger(\&quot;performance\&quot;);\n}\n\n/*\nWrap performance reporting around a top level function\n*/\nPerformance.prototype.report = function(name,fn) {\n\tvar self = this;\n\tif(this.enabled) {\n\t\treturn function() {\n\t\t\tself.measures = {};\n\t\t\tvar startTime = $tw.utils.timer(),\n\t\t\t\tresult = fn.apply(this,arguments);\n\t\t\tself.logger.log(name + \&quot;: \&quot; + $tw.utils.timer(startTime).toFixed(2) + \&quot;ms\&quot;);\n\t\t\tfor(var m in self.measures) {\n\t\t\t\tself.logger.log(\&quot;+\&quot; + m + \&quot;: \&quot; + self.measures[m].toFixed(2) + \&quot;ms\&quot;);\n\t\t\t}\n\t\t\treturn result;\n\t\t};\n\t} else {\n\t\treturn fn;\n\t}\n};\n\n/*\nWrap performance measurements around a subfunction\n*/\nPerformance.prototype.measure = function(name,fn) {\n\tvar self = this;\n\tif(this.enabled) {\n\t\treturn function() {\n\t\t\tvar startTime = $tw.utils.timer(),\n\t\t\t\tresult = fn.apply(this,arguments),\n\t\t\t\tvalue = self.measures[name] || 0;\n\t\t\tself.measures[name] = value + $tw.utils.timer(startTime);\n\t\t\treturn result;\n\t\t};\n\t} else {\n\t\treturn fn;\n\t}\n};\n\nexports.Performance = Performance;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/performance.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;global&quot;
        },
        &quot;$:/core/modules/utils/pluginmaker.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/pluginmaker.js\ntype: application/javascript\nmodule-type: utils\n\nA quick and dirty way to pack up plugins within the browser.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nRepack a plugin, and then delete any non-shadow payload tiddlers\n*/\nexports.repackPlugin = function(title,additionalTiddlers,excludeTiddlers) {\n\tadditionalTiddlers = additionalTiddlers || [];\n\texcludeTiddlers = excludeTiddlers || [];\n\t// Get the plugin tiddler\n\tvar pluginTiddler = $tw.wiki.getTiddler(title);\n\tif(!pluginTiddler) {\n\t\tthrow \&quot;No such tiddler as \&quot; + title;\n\t}\n\t// Extract the JSON\n\tvar jsonPluginTiddler;\n\ttry {\n\t\tjsonPluginTiddler = JSON.parse(pluginTiddler.fields.text);\n\t} catch(e) {\n\t\tthrow \&quot;Cannot parse plugin tiddler \&quot; + title + \&quot;\\nError: \&quot; + e;\n\t}\n\t// Get the list of tiddlers\n\tvar tiddlers = Object.keys(jsonPluginTiddler.tiddlers);\n\t// Add the additional tiddlers\n\t$tw.utils.pushTop(tiddlers,additionalTiddlers);\n\t// Remove any excluded tiddlers\n\tfor(var t=tiddlers.length-1; t&gt;=0; t--) {\n\t\tif(excludeTiddlers.indexOf(tiddlers[t]) !== -1) {\n\t\t\ttiddlers.splice(t,1);\n\t\t}\n\t}\n\t// Pack up the tiddlers into a block of JSON\n\tvar plugins = {};\n\t$tw.utils.each(tiddlers,function(title) {\n\t\tvar tiddler = $tw.wiki.getTiddler(title),\n\t\t\tfields = {};\n\t\t$tw.utils.each(tiddler.fields,function (value,name) {\n\t\t\tfields[name] = tiddler.getFieldString(name);\n\t\t});\n\t\tplugins[title] = fields;\n\t});\n\t// Retrieve and bump the version number\n\tvar pluginVersion = $tw.utils.parseVersion(pluginTiddler.getFieldString(\&quot;version\&quot;) || \&quot;0.0.0\&quot;) || {\n\t\t\tmajor: \&quot;0\&quot;,\n\t\t\tminor: \&quot;0\&quot;,\n\t\t\tpatch: \&quot;0\&quot;\n\t\t};\n\tpluginVersion.patch++;\n\tvar version = pluginVersion.major + \&quot;.\&quot; + pluginVersion.minor + \&quot;.\&quot; + pluginVersion.patch;\n\tif(pluginVersion.prerelease) {\n\t\tversion += \&quot;-\&quot; + pluginVersion.prerelease;\n\t}\n\tif(pluginVersion.build) {\n\t\tversion += \&quot;+\&quot; + pluginVersion.build;\n\t}\n\t// Save the tiddler\n\t$tw.wiki.addTiddler(new $tw.Tiddler(pluginTiddler,{text: JSON.stringify({tiddlers: plugins},null,4), version: version}));\n\t// Delete any non-shadow constituent tiddlers\n\t$tw.utils.each(tiddlers,function(title) {\n\t\tif($tw.wiki.tiddlerExists(title)) {\n\t\t\t$tw.wiki.deleteTiddler(title);\n\t\t}\n\t});\n\t// Trigger an autosave\n\t$tw.rootWidget.dispatchEvent({type: \&quot;tm-auto-save-wiki\&quot;});\n\t// Return a heartwarming confirmation\n\treturn \&quot;Plugin \&quot; + title + \&quot; successfully saved\&quot;;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/pluginmaker.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/utils/utils.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/utils/utils.js\ntype: application/javascript\nmodule-type: utils\n\nVarious static utility functions.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nDisplay a warning, in colour if we're on a terminal\n*/\nexports.warning = function(text) {\n\tconsole.log($tw.node ? \&quot;\\x1b[1;33m\&quot; + text + \&quot;\\x1b[0m\&quot; : text);\n}\n\n/*\nTrim whitespace from the start and end of a string\nThanks to Steven Levithan, http://blog.stevenlevithan.com/archives/faster-trim-javascript\n*/\nexports.trim = function(str) {\n\tif(typeof str === \&quot;string\&quot;) {\n\t\treturn str.replace(/^\\s\\s*/, '').replace(/\\s\\s*$/, '');\n\t} else {\n\t\treturn str;\n\t}\n};\n\n/*\nReturn the number of keys in an object\n*/\nexports.count = function(object) {\n\treturn Object.keys(object || {}).length;\n};\n\n/*\nCheck if an array is equal by value and by reference.\n*/\nexports.isArrayEqual = function(array1,array2) {\n\tif(array1 === array2) {\n\t\treturn true;\n\t}\n\tarray1 = array1 || [];\n\tarray2 = array2 || [];\n\tif(array1.length !== array2.length) {\n\t\treturn false;\n\t}\n\treturn array1.every(function(value,index) {\n\t\treturn value === array2[index];\n\t});\n};\n\n/*\nPush entries onto an array, removing them first if they already exist in the array\n\tarray: array to modify (assumed to be free of duplicates)\n\tvalue: a single value to push or an array of values to push\n*/\nexports.pushTop = function(array,value) {\n\tvar t,p;\n\tif($tw.utils.isArray(value)) {\n\t\t// Remove any array entries that are duplicated in the new values\n\t\tif(value.length !== 0) {\n\t\t\tif(array.length !== 0) {\n\t\t\t\tif(value.length &lt; array.length) {\n\t\t\t\t\tfor(t=0; t&lt;value.length; t++) {\n\t\t\t\t\t\tp = array.indexOf(value[t]);\n\t\t\t\t\t\tif(p !== -1) {\n\t\t\t\t\t\t\tarray.splice(p,1);\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t} else {\n\t\t\t\t\tfor(t=array.length-1; t&gt;=0; t--) {\n\t\t\t\t\t\tp = value.indexOf(array[t]);\n\t\t\t\t\t\tif(p !== -1) {\n\t\t\t\t\t\t\tarray.splice(t,1);\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t\t// Push the values on top of the main array\n\t\t\tarray.push.apply(array,value);\n\t\t}\n\t} else {\n\t\tp = array.indexOf(value);\n\t\tif(p !== -1) {\n\t\t\tarray.splice(p,1);\n\t\t}\n\t\tarray.push(value);\n\t}\n\treturn array;\n};\n\n/*\nRemove entries from an array\n\tarray: array to modify\n\tvalue: a single value to remove, or an array of values to remove\n*/\nexports.removeArrayEntries = function(array,value) {\n\tvar t,p;\n\tif($tw.utils.isArray(value)) {\n\t\tfor(t=0; t&lt;value.length; t++) {\n\t\t\tp = array.indexOf(value[t]);\n\t\t\tif(p !== -1) {\n\t\t\t\tarray.splice(p,1);\n\t\t\t}\n\t\t}\n\t} else {\n\t\tp = array.indexOf(value);\n\t\tif(p !== -1) {\n\t\t\tarray.splice(p,1);\n\t\t}\n\t}\n};\n\n/*\nCheck whether any members of a hashmap are present in another hashmap\n*/\nexports.checkDependencies = function(dependencies,changes) {\n\tvar hit = false;\n\t$tw.utils.each(changes,function(change,title) {\n\t\tif($tw.utils.hop(dependencies,title)) {\n\t\t\thit = true;\n\t\t}\n\t});\n\treturn hit;\n};\n\nexports.extend = function(object /* [, src] */) {\n\t$tw.utils.each(Array.prototype.slice.call(arguments, 1), function(source) {\n\t\tif(source) {\n\t\t\tfor(var property in source) {\n\t\t\t\tobject[property] = source[property];\n\t\t\t}\n\t\t}\n\t});\n\treturn object;\n};\n\nexports.deepCopy = function(object) {\n\tvar result,t;\n\tif($tw.utils.isArray(object)) {\n\t\t// Copy arrays\n\t\tresult = object.slice(0);\n\t} else if(typeof object === \&quot;object\&quot;) {\n\t\tresult = {};\n\t\tfor(t in object) {\n\t\t\tif(object[t] !== undefined) {\n\t\t\t\tresult[t] = $tw.utils.deepCopy(object[t]);\n\t\t\t}\n\t\t}\n\t} else {\n\t\tresult = object;\n\t}\n\treturn result;\n};\n\nexports.extendDeepCopy = function(object,extendedProperties) {\n\tvar result = $tw.utils.deepCopy(object),t;\n\tfor(t in extendedProperties) {\n\t\tif(extendedProperties[t] !== undefined) {\n\t\t\tresult[t] = $tw.utils.deepCopy(extendedProperties[t]);\n\t\t}\n\t}\n\treturn result;\n};\n\nexports.deepFreeze = function deepFreeze(object) {\n\tvar property, key;\n\tObject.freeze(object);\n\tfor(key in object) {\n\t\tproperty = object[key];\n\t\tif($tw.utils.hop(object,key) &amp;&amp; (typeof property === \&quot;object\&quot;) &amp;&amp; !Object.isFrozen(property)) {\n\t\t\tdeepFreeze(property);\n\t\t}\n\t}\n};\n\nexports.slowInSlowOut = function(t) {\n\treturn (1 - ((Math.cos(t * Math.PI) + 1) / 2));\n};\n\nexports.formatDateString = function(date,template) {\n\tvar result = \&quot;\&quot;,\n\t\tt = template,\n\t\tmatches = [\n\t\t\t[/^0hh12/, function() {\n\t\t\t\treturn $tw.utils.pad($tw.utils.getHours12(date));\n\t\t\t}],\n\t\t\t[/^wYYYY/, function() {\n\t\t\t\treturn $tw.utils.getYearForWeekNo(date);\n\t\t\t}],\n\t\t\t[/^hh12/, function() {\n\t\t\t\treturn $tw.utils.getHours12(date);\n\t\t\t}],\n\t\t\t[/^DDth/, function() {\n\t\t\t\treturn date.getDate() + $tw.utils.getDaySuffix(date);\n\t\t\t}],\n\t\t\t[/^YYYY/, function() {\n\t\t\t\treturn date.getFullYear();\n\t\t\t}],\n\t\t\t[/^0hh/, function() {\n\t\t\t\treturn $tw.utils.pad(date.getHours());\n\t\t\t}],\n\t\t\t[/^0mm/, function() {\n\t\t\t\treturn $tw.utils.pad(date.getMinutes());\n\t\t\t}],\n\t\t\t[/^0ss/, function() {\n\t\t\t\treturn $tw.utils.pad(date.getSeconds());\n\t\t\t}],\n\t\t\t[/^0DD/, function() {\n\t\t\t\treturn $tw.utils.pad(date.getDate());\n\t\t\t}],\n\t\t\t[/^0MM/, function() {\n\t\t\t\treturn $tw.utils.pad(date.getMonth()+1);\n\t\t\t}],\n\t\t\t[/^0WW/, function() {\n\t\t\t\treturn $tw.utils.pad($tw.utils.getWeek(date));\n\t\t\t}],\n\t\t\t[/^ddd/, function() {\n\t\t\t\treturn $tw.language.getString(\&quot;Date/Short/Day/\&quot; + date.getDay());\n\t\t\t}],\n\t\t\t[/^mmm/, function() {\n\t\t\t\treturn $tw.language.getString(\&quot;Date/Short/Month/\&quot; + (date.getMonth() + 1));\n\t\t\t}],\n\t\t\t[/^DDD/, function() {\n\t\t\t\treturn $tw.language.getString(\&quot;Date/Long/Day/\&quot; + date.getDay());\n\t\t\t}],\n\t\t\t[/^MMM/, function() {\n\t\t\t\treturn $tw.language.getString(\&quot;Date/Long/Month/\&quot; + (date.getMonth() + 1));\n\t\t\t}],\n\t\t\t[/^TZD/, function() {\n\t\t\t\tvar tz = date.getTimezoneOffset(),\n\t\t\t\tatz = Math.abs(tz);\n\t\t\t\treturn (tz &lt; 0 ? '+' : '-') + $tw.utils.pad(Math.floor(atz / 60)) + ':' + $tw.utils.pad(atz % 60);\n\t\t\t}],\n\t\t\t[/^wYY/, function() {\n\t\t\t\treturn $tw.utils.pad($tw.utils.getYearForWeekNo(date) - 2000);\n\t\t\t}],\n\t\t\t[/^[ap]m/, function() {\n\t\t\t\treturn $tw.utils.getAmPm(date).toLowerCase();\n\t\t\t}],\n\t\t\t[/^hh/, function() {\n\t\t\t\treturn date.getHours();\n\t\t\t}],\n\t\t\t[/^mm/, function() {\n\t\t\t\treturn date.getMinutes();\n\t\t\t}],\n\t\t\t[/^ss/, function() {\n\t\t\t\treturn date.getSeconds();\n\t\t\t}],\n\t\t\t[/^[AP]M/, function() {\n\t\t\t\treturn $tw.utils.getAmPm(date).toUpperCase();\n\t\t\t}],\n\t\t\t[/^DD/, function() {\n\t\t\t\treturn date.getDate();\n\t\t\t}],\n\t\t\t[/^MM/, function() {\n\t\t\t\treturn date.getMonth() + 1;\n\t\t\t}],\n\t\t\t[/^WW/, function() {\n\t\t\t\treturn $tw.utils.getWeek(date);\n\t\t\t}],\n\t\t\t[/^YY/, function() {\n\t\t\t\treturn $tw.utils.pad(date.getFullYear() - 2000);\n\t\t\t}]\n\t\t];\n\twhile(t.length){\n\t\tvar matchString = \&quot;\&quot;;\n\t\t$tw.utils.each(matches, function(m) {\n\t\t\tvar match = m[0].exec(t);\n\t\t\tif(match) {\n\t\t\t\tmatchString = m[1].call();\n\t\t\t\tt = t.substr(match[0].length);\n\t\t\t\treturn false;\n\t\t\t}\n\t\t});\n\t\tif(matchString) {\n\t\t\tresult += matchString;\n\t\t} else {\n\t\t\tresult += t.charAt(0);\n\t\t\tt = t.substr(1);\n\t\t}\n\t}\n\tresult = result.replace(/\\\\(.)/g,\&quot;$1\&quot;);\n\treturn result;\n};\n\nexports.getAmPm = function(date) {\n\treturn $tw.language.getString(\&quot;Date/Period/\&quot; + (date.getHours() &gt;= 12 ? \&quot;pm\&quot; : \&quot;am\&quot;));\n};\n\nexports.getDaySuffix = function(date) {\n\treturn $tw.language.getString(\&quot;Date/DaySuffix/\&quot; + date.getDate());\n};\n\nexports.getWeek = function(date) {\n\tvar dt = new Date(date.getTime());\n\tvar d = dt.getDay();\n\tif(d === 0) {\n\t\td = 7; // JavaScript Sun=0, ISO Sun=7\n\t}\n\tdt.setTime(dt.getTime() + (4 - d) * 86400000);// shift day to Thurs of same week to calculate weekNo\n\tvar n = Math.floor((dt.getTime()-new Date(dt.getFullYear(),0,1) + 3600000) / 86400000);\n\treturn Math.floor(n / 7) + 1;\n};\n\nexports.getYearForWeekNo = function(date) {\n\tvar dt = new Date(date.getTime());\n\tvar d = dt.getDay();\n\tif(d === 0) {\n\t\td = 7; // JavaScript Sun=0, ISO Sun=7\n\t}\n\tdt.setTime(dt.getTime() + (4 - d) * 86400000);// shift day to Thurs of same week\n\treturn dt.getFullYear();\n};\n\nexports.getHours12 = function(date) {\n\tvar h = date.getHours();\n\treturn h &gt; 12 ? h-12 : ( h &gt; 0 ? h : 12 );\n};\n\n/*\nConvert a date delta in milliseconds into a string representation of \&quot;23 seconds ago\&quot;, \&quot;27 minutes ago\&quot; etc.\n\tdelta: delta in milliseconds\nReturns an object with these members:\n\tdescription: string describing the delta period\n\tupdatePeriod: time in millisecond until the string will be inaccurate\n*/\nexports.getRelativeDate = function(delta) {\n\tvar futurep = false;\n\tif(delta &lt; 0) {\n\t\tdelta = -1 * delta;\n\t\tfuturep = true;\n\t}\n\tvar units = [\n\t\t{name: \&quot;Years\&quot;,   duration:      365 * 24 * 60 * 60 * 1000},\n\t\t{name: \&quot;Months\&quot;,  duration: (365/12) * 24 * 60 * 60 * 1000},\n\t\t{name: \&quot;Days\&quot;,    duration:            24 * 60 * 60 * 1000},\n\t\t{name: \&quot;Hours\&quot;,   duration:                 60 * 60 * 1000},\n\t\t{name: \&quot;Minutes\&quot;, duration:                      60 * 1000},\n\t\t{name: \&quot;Seconds\&quot;, duration:                           1000}\n\t];\n\tfor(var t=0; t&lt;units.length; t++) {\n\t\tvar result = Math.floor(delta / units[t].duration);\n\t\tif(result &gt;= 2) {\n\t\t\treturn {\n\t\t\t\tdelta: delta,\n\t\t\t\tdescription: $tw.language.getString(\n\t\t\t\t\t\&quot;RelativeDate/\&quot; + (futurep ? \&quot;Future\&quot; : \&quot;Past\&quot;) + \&quot;/\&quot; + units[t].name,\n\t\t\t\t\t{variables:\n\t\t\t\t\t\t{period: result.toString()}\n\t\t\t\t\t}\n\t\t\t\t),\n\t\t\t\tupdatePeriod: units[t].duration\n\t\t\t};\n\t\t}\n\t}\n\treturn {\n\t\tdelta: delta,\n\t\tdescription: $tw.language.getString(\n\t\t\t\&quot;RelativeDate/\&quot; + (futurep ? \&quot;Future\&quot; : \&quot;Past\&quot;) + \&quot;/Second\&quot;,\n\t\t\t{variables:\n\t\t\t\t{period: \&quot;1\&quot;}\n\t\t\t}\n\t\t),\n\t\tupdatePeriod: 1000\n\t};\n};\n\n// Convert &amp; to \&quot;&amp;amp;\&quot;, &lt; to \&quot;&amp;lt;\&quot;, &gt; to \&quot;&amp;gt;\&quot;, \&quot; to \&quot;&amp;quot;\&quot;\nexports.htmlEncode = function(s) {\n\tif(s) {\n\t\treturn s.toString().replace(/&amp;/mg,\&quot;&amp;amp;\&quot;).replace(/&lt;/mg,\&quot;&amp;lt;\&quot;).replace(/&gt;/mg,\&quot;&amp;gt;\&quot;).replace(/\\\&quot;/mg,\&quot;&amp;quot;\&quot;);\n\t} else {\n\t\treturn \&quot;\&quot;;\n\t}\n};\n\n// Converts all HTML entities to their character equivalents\nexports.entityDecode = function(s) {\n\tvar e = s.substr(1,s.length-2); // Strip the &amp; and the ;\n\tif(e.charAt(0) === \&quot;#\&quot;) {\n\t\tif(e.charAt(1) === \&quot;x\&quot; || e.charAt(1) === \&quot;X\&quot;) {\n\t\t\treturn String.fromCharCode(parseInt(e.substr(2),16));\t\n\t\t} else {\n\t\t\treturn String.fromCharCode(parseInt(e.substr(1),10));\n\t\t}\n\t} else {\n\t\tvar c = $tw.config.htmlEntities[e];\n\t\tif(c) {\n\t\t\treturn String.fromCharCode(c);\n\t\t} else {\n\t\t\treturn s; // Couldn't convert it as an entity, just return it raw\n\t\t}\n\t}\n};\n\nexports.unescapeLineBreaks = function(s) {\n\treturn s.replace(/\\\\n/mg,\&quot;\\n\&quot;).replace(/\\\\b/mg,\&quot; \&quot;).replace(/\\\\s/mg,\&quot;\\\\\&quot;).replace(/\\r/mg,\&quot;\&quot;);\n};\n\n/*\n * Returns an escape sequence for given character. Uses \\x for characters &lt;=\n * 0xFF to save space, \\u for the rest.\n *\n * The code needs to be in sync with th code template in the compilation\n * function for \&quot;action\&quot; nodes.\n */\n// Copied from peg.js, thanks to David Majda\nexports.escape = function(ch) {\n\tvar charCode = ch.charCodeAt(0);\n\tif(charCode &lt;= 0xFF) {\n\t\treturn '\\\\x' + $tw.utils.pad(charCode.toString(16).toUpperCase());\n\t} else {\n\t\treturn '\\\\u' + $tw.utils.pad(charCode.toString(16).toUpperCase(),4);\n\t}\n};\n\n// Turns a string into a legal JavaScript string\n// Copied from peg.js, thanks to David Majda\nexports.stringify = function(s) {\n\t/*\n\t* ECMA-262, 5th ed., 7.8.4: All characters may appear literally in a string\n\t* literal except for the closing quote character, backslash, carriage return,\n\t* line separator, paragraph separator, and line feed. Any character may\n\t* appear in the form of an escape sequence.\n\t*\n\t* For portability, we also escape all non-ASCII characters.\n\t*/\n\treturn (s || \&quot;\&quot;)\n\t\t.replace(/\\\\/g, '\\\\\\\\')            // backslash\n\t\t.replace(/\&quot;/g, '\\\\\&quot;')              // double quote character\n\t\t.replace(/'/g, \&quot;\\\\'\&quot;)              // single quote character\n\t\t.replace(/\\r/g, '\\\\r')             // carriage return\n\t\t.replace(/\\n/g, '\\\\n')             // line feed\n\t\t.replace(/[\\x80-\\uFFFF]/g, exports.escape); // non-ASCII characters\n};\n\n/*\nEscape the RegExp special characters with a preceding backslash\n*/\nexports.escapeRegExp = function(s) {\n    return s.replace(/[\\-\\/\\\\\\^\\$\\*\\+\\?\\.\\(\\)\\|\\[\\]\\{\\}]/g, '\\\\$&amp;');\n};\n\n// Checks whether a link target is external, i.e. not a tiddler title\nexports.isLinkExternal = function(to) {\n\tvar externalRegExp = /(?:file|http|https|mailto|ftp|irc|news|data|skype):[^\\s&lt;&gt;{}\\[\\]`|'\&quot;\\\\^~]+(?:\\/|\\b)/i;\n\treturn externalRegExp.test(to);\n};\n\nexports.nextTick = function(fn) {\n/*global window: false */\n\tif(typeof process === \&quot;undefined\&quot;) {\n\t\t// Apparently it would be faster to use postMessage - http://dbaron.org/log/20100309-faster-timeouts\n\t\twindow.setTimeout(fn,4);\n\t} else {\n\t\tprocess.nextTick(fn);\n\t}\n};\n\n/*\nConvert a hyphenated CSS property name into a camel case one\n*/\nexports.unHyphenateCss = function(propName) {\n\treturn propName.replace(/-([a-z])/gi, function(match0,match1) {\n\t\treturn match1.toUpperCase();\n\t});\n};\n\n/*\nConvert a camelcase CSS property name into a dashed one (\&quot;backgroundColor\&quot; --&gt; \&quot;background-color\&quot;)\n*/\nexports.hyphenateCss = function(propName) {\n\treturn propName.replace(/([A-Z])/g, function(match0,match1) {\n\t\treturn \&quot;-\&quot; + match1.toLowerCase();\n\t});\n};\n\n/*\nParse a text reference of one of these forms:\n* title\n* !!field\n* title!!field\n* title##index\n* etc\nReturns an object with the following fields, all optional:\n* title: tiddler title\n* field: tiddler field name\n* index: JSON property index\n*/\nexports.parseTextReference = function(textRef) {\n\t// Separate out the title, field name and/or JSON indices\n\tvar reTextRef = /(?:(.*?)!!(.+))|(?:(.*?)##(.+))|(.*)/mg,\n\t\tmatch = reTextRef.exec(textRef),\n\t\tresult = {};\n\tif(match &amp;&amp; reTextRef.lastIndex === textRef.length) {\n\t\t// Return the parts\n\t\tif(match[1]) {\n\t\t\tresult.title = match[1];\n\t\t}\n\t\tif(match[2]) {\n\t\t\tresult.field = match[2];\n\t\t}\n\t\tif(match[3]) {\n\t\t\tresult.title = match[3];\n\t\t}\n\t\tif(match[4]) {\n\t\t\tresult.index = match[4];\n\t\t}\n\t\tif(match[5]) {\n\t\t\tresult.title = match[5];\n\t\t}\n\t} else {\n\t\t// If we couldn't parse it\n\t\tresult.title = textRef\n\t}\n\treturn result;\n};\n\n/*\nChecks whether a string is a valid fieldname\n*/\nexports.isValidFieldName = function(name) {\n\tif(!name || typeof name !== \&quot;string\&quot;) {\n\t\treturn false;\n\t}\n\tname = name.toLowerCase().trim();\n\tvar fieldValidatorRegEx = /^[a-z0-9\\-\\._]+$/mg;\n\treturn fieldValidatorRegEx.test(name);\n};\n\n/*\nExtract the version number from the meta tag or from the boot file\n*/\n\n// Browser version\nexports.extractVersionInfo = function() {\n\tif($tw.packageInfo) {\n\t\treturn $tw.packageInfo.version;\n\t} else {\n\t\tvar metatags = document.getElementsByTagName(\&quot;meta\&quot;);\n\t\tfor(var t=0; t&lt;metatags.length; t++) {\n\t\t\tvar m = metatags[t];\n\t\t\tif(m.name === \&quot;tiddlywiki-version\&quot;) {\n\t\t\t\treturn m.content;\n\t\t\t}\n\t\t}\n\t}\n\treturn null;\n};\n\n/*\nGet the animation duration in ms\n*/\nexports.getAnimationDuration = function() {\n\treturn parseInt($tw.wiki.getTiddlerText(\&quot;$:/config/AnimationDuration\&quot;,\&quot;400\&quot;),10);\n};\n\n/*\nHash a string to a number\nDerived from http://stackoverflow.com/a/15710692\n*/\nexports.hashString = function(str) {\n\treturn str.split(\&quot;\&quot;).reduce(function(a,b) {\n\t\ta = ((a &lt;&lt; 5) - a) + b.charCodeAt(0);\n\t\treturn a &amp; a;\n\t},0);\n};\n\n/*\nDecode a base64 string\n*/\nexports.base64Decode = function(string64) {\n\tif($tw.browser) {\n\t\t// TODO\n\t\tthrow \&quot;$tw.utils.base64Decode() doesn't work in the browser\&quot;;\n\t} else {\n\t\treturn (new Buffer(string64,\&quot;base64\&quot;)).toString();\n\t}\n};\n\n/*\nConvert a hashmap into a tiddler dictionary format sequence of name:value pairs\n*/\nexports.makeTiddlerDictionary = function(data) {\n\tvar output = [];\n\tfor(var name in data) {\n\t\toutput.push(name + \&quot;: \&quot; + data[name]);\n\t}\n\treturn output.join(\&quot;\\n\&quot;);\n};\n\n/*\nHigh resolution microsecond timer for profiling\n*/\nexports.timer = function(base) {\n\tvar m;\n\tif($tw.node) {\n\t\tvar r = process.hrtime();\t\t\n\t\tm =  r[0] * 1e3 + (r[1] / 1e6);\n\t} else if(window.performance) {\n\t\tm = performance.now();\n\t} else {\n\t\tm = Date.now();\n\t}\n\tif(typeof base !== \&quot;undefined\&quot;) {\n\t\tm = m - base;\n\t}\n\treturn m;\n};\n\n/*\nConvert text and content type to a data URI\n*/\nexports.makeDataUri = function(text,type) {\n\ttype = type || \&quot;text/vnd.tiddlywiki\&quot;;\n\tvar typeInfo = $tw.config.contentTypeInfo[type] || $tw.config.contentTypeInfo[\&quot;text/plain\&quot;],\n\t\tisBase64 = typeInfo.encoding === \&quot;base64\&quot;,\n\t\tparts = [];\n\tparts.push(\&quot;data:\&quot;);\n\tparts.push(type);\n\tparts.push(isBase64 ? \&quot;;base64\&quot; : \&quot;\&quot;);\n\tparts.push(\&quot;,\&quot;);\n\tparts.push(isBase64 ? text : encodeURIComponent(text));\n\treturn parts.join(\&quot;\&quot;);\n};\n\n/*\nUseful for finding out the fully escaped CSS selector equivalent to a given tag. For example:\n\n$tw.utils.tagToCssSelector(\&quot;$:/tags/Stylesheet\&quot;) --&gt; tc-tagged-\\%24\\%3A\\%2Ftags\\%2FStylesheet\n*/\nexports.tagToCssSelector = function(tagName) {\n\treturn \&quot;tc-tagged-\&quot; + encodeURIComponent(tagName).replace(/[!\&quot;#$%&amp;'()*+,\\-./:;&lt;=&gt;?@[\\\\\\]^`{\\|}~,]/mg,function(c) {\n\t\treturn \&quot;\\\\\&quot; + c;\n\t});\n};\n\n\n/*\nIE does not have sign function\n*/\nexports.sign = Math.sign || function(x) {\n\tx = +x; // convert to a number\n\tif (x === 0 || isNaN(x)) {\n\t\treturn x;\n\t}\n\treturn x &gt; 0 ? 1 : -1;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/utils/utils.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;utils&quot;
        },
        &quot;$:/core/modules/widgets/action-deletefield.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/action-deletefield.js\ntype: application/javascript\nmodule-type: widget\n\nAction widget to delete fields of a tiddler.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar DeleteFieldWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nDeleteFieldWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nDeleteFieldWidget.prototype.render = function(parent,nextSibling) {\n\tthis.computeAttributes();\n\tthis.execute();\n};\n\n/*\nCompute the internal state of the widget\n*/\nDeleteFieldWidget.prototype.execute = function() {\n\tthis.actionTiddler = this.getAttribute(\&quot;$tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.actionField = this.getAttribute(\&quot;$field\&quot;);\n};\n\n/*\nRefresh the widget by ensuring our attributes are up to date\n*/\nDeleteFieldWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes[\&quot;$tiddler\&quot;]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n\n/*\nInvoke the action associated with this widget\n*/\nDeleteFieldWidget.prototype.invokeAction = function(triggeringWidget,event) {\n\tvar self = this,\n\t\ttiddler = this.wiki.getTiddler(self.actionTiddler),\n\t\tremoveFields = {};\n\tif(this.actionField) {\n\t\tremoveFields[this.actionField] = undefined;\n\t}\n\tif(tiddler) {\n\t\t$tw.utils.each(this.attributes,function(attribute,name) {\n\t\t\tif(name.charAt(0) !== \&quot;$\&quot; &amp;&amp; name !== \&quot;title\&quot;) {\n\t\t\t\tremoveFields[name] = undefined;\n\t\t\t}\n\t\t});\n\t\tthis.wiki.addTiddler(new $tw.Tiddler(this.wiki.getModificationFields(),tiddler,removeFields,this.wiki.getCreationFields()));\n\t}\n\treturn true; // Action was invoked\n};\n\nexports[\&quot;action-deletefield\&quot;] = DeleteFieldWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/action-deletefield.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/action-deletetiddler.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/action-deletetiddler.js\ntype: application/javascript\nmodule-type: widget\n\nAction widget to delete a tiddler.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar DeleteTiddlerWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nDeleteTiddlerWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nDeleteTiddlerWidget.prototype.render = function(parent,nextSibling) {\n\tthis.computeAttributes();\n\tthis.execute();\n};\n\n/*\nCompute the internal state of the widget\n*/\nDeleteTiddlerWidget.prototype.execute = function() {\n\tthis.actionFilter = this.getAttribute(\&quot;$filter\&quot;);\n\tthis.actionTiddler = this.getAttribute(\&quot;$tiddler\&quot;);\n};\n\n/*\nRefresh the widget by ensuring our attributes are up to date\n*/\nDeleteTiddlerWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes[\&quot;$filter\&quot;] || changedAttributes[\&quot;$tiddler\&quot;]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n\n/*\nInvoke the action associated with this widget\n*/\nDeleteTiddlerWidget.prototype.invokeAction = function(triggeringWidget,event) {\n\tvar tiddlers = [];\n\tif(this.actionFilter) {\n\t\ttiddlers = this.wiki.filterTiddlers(this.actionFilter,this);\n\t}\n\tif(this.actionTiddler) {\n\t\ttiddlers.push(this.actionTiddler);\n\t}\n\tfor(var t=0; t&lt;tiddlers.length; t++) {\n\t\tthis.wiki.deleteTiddler(tiddlers[t]);\n\t}\n\treturn true; // Action was invoked\n};\n\nexports[\&quot;action-deletetiddler\&quot;] = DeleteTiddlerWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/action-deletetiddler.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/action-listops.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/action-listops.js\ntype: application/javascript\nmodule-type: widget\n\nAction widget to apply list operations to any tiddler field (defaults to the 'list' field of the current tiddler)\n\n\\*/\n(function() {\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\nvar ActionListopsWidget = function(parseTreeNode, options) {\n\tthis.initialise(parseTreeNode, options);\n};\n/**\n * Inherit from the base widget class\n */\nActionListopsWidget.prototype = new Widget();\n/**\n * Render this widget into the DOM\n */\nActionListopsWidget.prototype.render = function(parent, nextSibling) {\n\tthis.computeAttributes();\n\tthis.execute();\n};\n/**\n * Compute the internal state of the widget\n */\nActionListopsWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.target = this.getAttribute(\&quot;$tiddler\&quot;, this.getVariable(\n\t\t\&quot;currentTiddler\&quot;));\n\tthis.filter = this.getAttribute(\&quot;$filter\&quot;);\n\tthis.subfilter = this.getAttribute(\&quot;$subfilter\&quot;);\n\tthis.listField = this.getAttribute(\&quot;$field\&quot;, \&quot;list\&quot;);\n\tthis.listIndex = this.getAttribute(\&quot;$index\&quot;);\n\tthis.filtertags = this.getAttribute(\&quot;$tags\&quot;);\n};\n/**\n * \tRefresh the widget by ensuring our attributes are up to date\n */\nActionListopsWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.$tiddler || changedAttributes.$filter ||\n\t\tchangedAttributes.$subfilter || changedAttributes.$field ||\n\t\tchangedAttributes.$index || changedAttributes.$tags) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n/**\n * \tInvoke the action associated with this widget\n */\nActionListopsWidget.prototype.invokeAction = function(triggeringWidget,\n\tevent) {\n\t//Apply the specified filters to the lists\n\tvar field = this.listField,\n\t\tindex,\n\t\ttype = \&quot;!!\&quot;,\n\t\tlist = this.listField;\n\tif(this.listIndex) {\n\t\tfield = undefined;\n\t\tindex = this.listIndex;\n\t\ttype = \&quot;##\&quot;;\n\t\tlist = this.listIndex;\n\t}\n\tif(this.filter) {\n\t\tthis.wiki.setText(this.target, field, index, $tw.utils.stringifyList(\n\t\t\tthis.wiki\n\t\t\t.filterTiddlers(this.filter, this)));\n\t}\n\tif(this.subfilter) {\n\t\tvar subfilter = \&quot;[list[\&quot; + this.target + type + list + \&quot;]] \&quot; + this.subfilter;\n\t\tthis.wiki.setText(this.target, field, index, $tw.utils.stringifyList(\n\t\t\tthis.wiki\n\t\t\t.filterTiddlers(subfilter, this)));\n\t}\n\tif(this.filtertags) {\n\t\tvar tagfilter = \&quot;[list[\&quot; + this.target + \&quot;!!tags]] \&quot; + this.filtertags;\n\t\tthis.wiki.setText(this.target, \&quot;tags\&quot;, undefined, $tw.utils.stringifyList(\n\t\t\tthis.wiki.filterTiddlers(tagfilter, this)));\n\t}\n\treturn true; // Action was invoked\n};\n\nexports[\&quot;action-listops\&quot;] = ActionListopsWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/action-listops.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/action-navigate.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/action-navigate.js\ntype: application/javascript\nmodule-type: widget\n\nAction widget to navigate to a tiddler\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar NavigateWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nNavigateWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nNavigateWidget.prototype.render = function(parent,nextSibling) {\n\tthis.computeAttributes();\n\tthis.execute();\n};\n\n/*\nCompute the internal state of the widget\n*/\nNavigateWidget.prototype.execute = function() {\n\tthis.actionTo = this.getAttribute(\&quot;$to\&quot;);\n\tthis.actionScroll = this.getAttribute(\&quot;$scroll\&quot;);\n};\n\n/*\nRefresh the widget by ensuring our attributes are up to date\n*/\nNavigateWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes[\&quot;$to\&quot;] || changedAttributes[\&quot;$scroll\&quot;]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n\n/*\nInvoke the action associated with this widget\n*/\nNavigateWidget.prototype.invokeAction = function(triggeringWidget,event) {\n\tvar bounds = triggeringWidget &amp;&amp; triggeringWidget.getBoundingClientRect &amp;&amp; triggeringWidget.getBoundingClientRect(),\n\t\tsuppressNavigation = event.metaKey || event.ctrlKey || (event.button === 1);\n\tif(this.actionScroll === \&quot;yes\&quot;) {\n\t\tsuppressNavigation = false;\n\t} else if(this.actionScroll === \&quot;no\&quot;) {\n\t\tsuppressNavigation = true;\n\t}\n\tthis.dispatchEvent({\n\t\ttype: \&quot;tm-navigate\&quot;,\n\t\tnavigateTo: this.actionTo === undefined ? this.getVariable(\&quot;currentTiddler\&quot;) : this.actionTo,\n\t\tnavigateFromTitle: this.getVariable(\&quot;storyTiddler\&quot;),\n\t\tnavigateFromNode: triggeringWidget,\n\t\tnavigateFromClientRect: bounds &amp;&amp; { top: bounds.top, left: bounds.left, width: bounds.width, right: bounds.right, bottom: bounds.bottom, height: bounds.height\n\t\t},\n\t\tnavigateSuppressNavigation: suppressNavigation\n\t});\n\treturn true; // Action was invoked\n};\n\nexports[\&quot;action-navigate\&quot;] = NavigateWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/action-navigate.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/action-sendmessage.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/action-sendmessage.js\ntype: application/javascript\nmodule-type: widget\n\nAction widget to send a message\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar SendMessageWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nSendMessageWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nSendMessageWidget.prototype.render = function(parent,nextSibling) {\n\tthis.computeAttributes();\n\tthis.execute();\n};\n\n/*\nCompute the internal state of the widget\n*/\nSendMessageWidget.prototype.execute = function() {\n\tthis.actionMessage = this.getAttribute(\&quot;$message\&quot;);\n\tthis.actionParam = this.getAttribute(\&quot;$param\&quot;);\n\tthis.actionName = this.getAttribute(\&quot;$name\&quot;);\n\tthis.actionValue = this.getAttribute(\&quot;$value\&quot;,\&quot;\&quot;);\n};\n\n/*\nRefresh the widget by ensuring our attributes are up to date\n*/\nSendMessageWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(Object.keys(changedAttributes).length) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n\n/*\nInvoke the action associated with this widget\n*/\nSendMessageWidget.prototype.invokeAction = function(triggeringWidget,event) {\n\t// Get the string parameter\n\tvar param = this.actionParam;\n\t// Assemble the attributes as a hashmap\n\tvar paramObject = Object.create(null);\n\tvar count = 0;\n\t$tw.utils.each(this.attributes,function(attribute,name) {\n\t\tif(name.charAt(0) !== \&quot;$\&quot;) {\n\t\t\tparamObject[name] = attribute;\n\t\t\tcount++;\n\t\t}\n\t});\n\t// Add name/value pair if present\n\tif(this.actionName) {\n\t\tparamObject[this.actionName] = this.actionValue;\n\t}\n\t// Dispatch the message\n\tthis.dispatchEvent({\n\t\ttype: this.actionMessage,\n\t\tparam: param,\n\t\tparamObject: paramObject,\n\t\ttiddlerTitle: this.getVariable(\&quot;currentTiddler\&quot;),\n\t\tnavigateFromTitle: this.getVariable(\&quot;storyTiddler\&quot;)\n\t});\n\treturn true; // Action was invoked\n};\n\nexports[\&quot;action-sendmessage\&quot;] = SendMessageWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/action-sendmessage.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/action-setfield.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/action-setfield.js\ntype: application/javascript\nmodule-type: widget\n\nAction widget to set a single field or index on a tiddler.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar SetFieldWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nSetFieldWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nSetFieldWidget.prototype.render = function(parent,nextSibling) {\n\tthis.computeAttributes();\n\tthis.execute();\n};\n\n/*\nCompute the internal state of the widget\n*/\nSetFieldWidget.prototype.execute = function() {\n\tthis.actionTiddler = this.getAttribute(\&quot;$tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.actionField = this.getAttribute(\&quot;$field\&quot;);\n\tthis.actionIndex = this.getAttribute(\&quot;$index\&quot;);\n\tthis.actionValue = this.getAttribute(\&quot;$value\&quot;);\n\tthis.actionTimestamp = this.getAttribute(\&quot;$timestamp\&quot;,\&quot;yes\&quot;) === \&quot;yes\&quot;;\n};\n\n/*\nRefresh the widget by ensuring our attributes are up to date\n*/\nSetFieldWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes[\&quot;$tiddler\&quot;] || changedAttributes[\&quot;$field\&quot;] || changedAttributes[\&quot;$index\&quot;] || changedAttributes[\&quot;$value\&quot;]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n\n/*\nInvoke the action associated with this widget\n*/\nSetFieldWidget.prototype.invokeAction = function(triggeringWidget,event) {\n\tvar self = this,\n\t\toptions = {};\n\toptions.suppressTimestamp = !this.actionTimestamp;\n\tif((typeof this.actionField == \&quot;string\&quot;) || (typeof this.actionIndex == \&quot;string\&quot;)  || (typeof this.actionValue == \&quot;string\&quot;)) {\n\t\tthis.wiki.setText(this.actionTiddler,this.actionField,this.actionIndex,this.actionValue,options);\n\t}\n\t$tw.utils.each(this.attributes,function(attribute,name) {\n\t\tif(name.charAt(0) !== \&quot;$\&quot;) {\n\t\t\tself.wiki.setText(self.actionTiddler,name,undefined,attribute,options);\n\t\t}\n\t});\n\treturn true; // Action was invoked\n};\n\nexports[\&quot;action-setfield\&quot;] = SetFieldWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/action-setfield.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/browse.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/browse.js\ntype: application/javascript\nmodule-type: widget\n\nBrowse widget for browsing for files to import\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar BrowseWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nBrowseWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nBrowseWidget.prototype.render = function(parent,nextSibling) {\n\tvar self = this;\n\t// Remember parent\n\tthis.parentDomNode = parent;\n\t// Compute attributes and execute state\n\tthis.computeAttributes();\n\tthis.execute();\n\t// Create element\n\tvar domNode = this.document.createElement(\&quot;input\&quot;);\n\tdomNode.setAttribute(\&quot;type\&quot;,\&quot;file\&quot;);\n\tif(this.browseMultiple) {\n\t\tdomNode.setAttribute(\&quot;multiple\&quot;,\&quot;multiple\&quot;);\n\t}\n\tif(this.tooltip) {\n\t\tdomNode.setAttribute(\&quot;title\&quot;,this.tooltip);\n\t}\n\t// Nw.js supports \&quot;nwsaveas\&quot; to force a \&quot;save as\&quot; dialogue that allows a new or existing file to be selected\n\tif(this.nwsaveas) {\n\t\tdomNode.setAttribute(\&quot;nwsaveas\&quot;,this.nwsaveas);\n\t}\n\t// Nw.js supports \&quot;webkitdirectory\&quot; to allow a directory to be selected\n\tif(this.webkitdirectory) {\n\t\tdomNode.setAttribute(\&quot;webkitdirectory\&quot;,this.webkitdirectory);\n\t}\n\t// Add a click event handler\n\tdomNode.addEventListener(\&quot;change\&quot;,function (event) {\n\t\tif(self.message) {\n\t\t\tself.dispatchEvent({type: self.message, param: self.param, files: event.target.files});\n\t\t} else {\n\t\t\tself.wiki.readFiles(event.target.files,function(tiddlerFieldsArray) {\n\t\t\t\tself.dispatchEvent({type: \&quot;tm-import-tiddlers\&quot;, param: JSON.stringify(tiddlerFieldsArray)});\n\t\t\t});\n\t\t}\n\t\treturn false;\n\t},false);\n\t// Insert element\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.renderChildren(domNode,null);\n\tthis.domNodes.push(domNode);\n};\n\n/*\nCompute the internal state of the widget\n*/\nBrowseWidget.prototype.execute = function() {\n\tthis.browseMultiple = this.getAttribute(\&quot;multiple\&quot;);\n\tthis.message = this.getAttribute(\&quot;message\&quot;);\n\tthis.param = this.getAttribute(\&quot;param\&quot;);\n\tthis.tooltip = this.getAttribute(\&quot;tooltip\&quot;);\n\tthis.nwsaveas = this.getAttribute(\&quot;nwsaveas\&quot;);\n\tthis.webkitdirectory = this.getAttribute(\&quot;webkitdirectory\&quot;);\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nBrowseWidget.prototype.refresh = function(changedTiddlers) {\n\treturn false;\n};\n\nexports.browse = BrowseWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/browse.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/button.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/button.js\ntype: application/javascript\nmodule-type: widget\n\nButton widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar ButtonWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nButtonWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nButtonWidget.prototype.render = function(parent,nextSibling) {\n\tvar self = this;\n\t// Remember parent\n\tthis.parentDomNode = parent;\n\t// Compute attributes and execute state\n\tthis.computeAttributes();\n\tthis.execute();\n\t// Create element\n\tvar tag = \&quot;button\&quot;;\n\tif(this.buttonTag &amp;&amp; $tw.config.htmlUnsafeElements.indexOf(this.buttonTag) === -1) {\n\t\ttag = this.buttonTag;\n\t}\n\tvar domNode = this.document.createElement(tag);\n\t// Assign classes\n\tvar classes = this[\&quot;class\&quot;].split(\&quot; \&quot;) || [],\n\t\tisPoppedUp = this.popup &amp;&amp; this.isPoppedUp();\n\tif(this.selectedClass) {\n\t\tif(this.set &amp;&amp; this.setTo &amp;&amp; this.isSelected()) {\n\t\t\t$tw.utils.pushTop(classes,this.selectedClass.split(\&quot; \&quot;));\n\t\t}\n\t\tif(isPoppedUp) {\n\t\t\t$tw.utils.pushTop(classes,this.selectedClass.split(\&quot; \&quot;));\n\t\t}\n\t}\n\tif(isPoppedUp) {\n\t\t$tw.utils.pushTop(classes,\&quot;tc-popup-handle\&quot;);\n\t}\n\tdomNode.className = classes.join(\&quot; \&quot;);\n\t// Assign other attributes\n\tif(this.style) {\n\t\tdomNode.setAttribute(\&quot;style\&quot;,this.style);\n\t}\n\tif(this.tooltip) {\n\t\tdomNode.setAttribute(\&quot;title\&quot;,this.tooltip);\n\t}\n\tif(this[\&quot;aria-label\&quot;]) {\n\t\tdomNode.setAttribute(\&quot;aria-label\&quot;,this[\&quot;aria-label\&quot;]);\n\t}\n\t// Add a click event handler\n\tdomNode.addEventListener(\&quot;click\&quot;,function (event) {\n\t\tvar handled = false;\n\t\tif(self.invokeActions(this,event)) {\n\t\t\thandled = true;\n\t\t}\n\t\tif(self.to) {\n\t\t\tself.navigateTo(event);\n\t\t\thandled = true;\n\t\t}\n\t\tif(self.message) {\n\t\t\tself.dispatchMessage(event);\n\t\t\thandled = true;\n\t\t}\n\t\tif(self.popup) {\n\t\t\tself.triggerPopup(event);\n\t\t\thandled = true;\n\t\t}\n\t\tif(self.set) {\n\t\t\tself.setTiddler();\n\t\t\thandled = true;\n\t\t}\n\t\tif(handled) {\n\t\t\tevent.preventDefault();\n\t\t\tevent.stopPropagation();\n\t\t}\n\t\treturn handled;\n\t},false);\n\t// Insert element\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.renderChildren(domNode,null);\n\tthis.domNodes.push(domNode);\n};\n\n/*\nWe don't allow actions to propagate because we trigger actions ourselves\n*/\nButtonWidget.prototype.allowActionPropagation = function() {\n\treturn false;\n};\n\nButtonWidget.prototype.getBoundingClientRect = function() {\n\treturn this.domNodes[0].getBoundingClientRect();\n};\n\nButtonWidget.prototype.isSelected = function() {\n    return this.wiki.getTextReference(this.set,this.defaultSetValue,this.getVariable(\&quot;currentTiddler\&quot;)) === this.setTo;\n};\n\nButtonWidget.prototype.isPoppedUp = function() {\n\tvar tiddler = this.wiki.getTiddler(this.popup);\n\tvar result = tiddler &amp;&amp; tiddler.fields.text ? $tw.popup.readPopupState(tiddler.fields.text) : false;\n\treturn result;\n};\n\nButtonWidget.prototype.navigateTo = function(event) {\n\tvar bounds = this.getBoundingClientRect();\n\tthis.dispatchEvent({\n\t\ttype: \&quot;tm-navigate\&quot;,\n\t\tnavigateTo: this.to,\n\t\tnavigateFromTitle: this.getVariable(\&quot;storyTiddler\&quot;),\n\t\tnavigateFromNode: this,\n\t\tnavigateFromClientRect: { top: bounds.top, left: bounds.left, width: bounds.width, right: bounds.right, bottom: bounds.bottom, height: bounds.height\n\t\t},\n\t\tnavigateSuppressNavigation: event.metaKey || event.ctrlKey || (event.button === 1)\n\t});\n};\n\nButtonWidget.prototype.dispatchMessage = function(event) {\n\tthis.dispatchEvent({type: this.message, param: this.param, tiddlerTitle: this.getVariable(\&quot;currentTiddler\&quot;)});\n};\n\nButtonWidget.prototype.triggerPopup = function(event) {\n\t$tw.popup.triggerPopup({\n\t\tdomNode: this.domNodes[0],\n\t\ttitle: this.popup,\n\t\twiki: this.wiki\n\t});\n};\n\nButtonWidget.prototype.setTiddler = function() {\n\tthis.wiki.setTextReference(this.set,this.setTo,this.getVariable(\&quot;currentTiddler\&quot;));\n};\n\n/*\nCompute the internal state of the widget\n*/\nButtonWidget.prototype.execute = function() {\n\t// Get attributes\n\tthis.to = this.getAttribute(\&quot;to\&quot;);\n\tthis.message = this.getAttribute(\&quot;message\&quot;);\n\tthis.param = this.getAttribute(\&quot;param\&quot;);\n\tthis.set = this.getAttribute(\&quot;set\&quot;);\n\tthis.setTo = this.getAttribute(\&quot;setTo\&quot;);\n\tthis.popup = this.getAttribute(\&quot;popup\&quot;);\n\tthis.hover = this.getAttribute(\&quot;hover\&quot;);\n\tthis[\&quot;class\&quot;] = this.getAttribute(\&quot;class\&quot;,\&quot;\&quot;);\n\tthis[\&quot;aria-label\&quot;] = this.getAttribute(\&quot;aria-label\&quot;);\n\tthis.tooltip = this.getAttribute(\&quot;tooltip\&quot;);\n\tthis.style = this.getAttribute(\&quot;style\&quot;);\n\tthis.selectedClass = this.getAttribute(\&quot;selectedClass\&quot;);\n\tthis.defaultSetValue = this.getAttribute(\&quot;default\&quot;,\&quot;\&quot;);\n\tthis.buttonTag = this.getAttribute(\&quot;tag\&quot;);\n\t// Make child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nButtonWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.to || changedAttributes.message || changedAttributes.param || changedAttributes.set || changedAttributes.setTo || changedAttributes.popup || changedAttributes.hover || changedAttributes[\&quot;class\&quot;] || changedAttributes.selectedClass || changedAttributes.style || (this.set &amp;&amp; changedTiddlers[this.set]) || (this.popup &amp;&amp; changedTiddlers[this.popup])) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n\nexports.button = ButtonWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/button.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/checkbox.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/checkbox.js\ntype: application/javascript\nmodule-type: widget\n\nCheckbox widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar CheckboxWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nCheckboxWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nCheckboxWidget.prototype.render = function(parent,nextSibling) {\n\t// Save the parent dom node\n\tthis.parentDomNode = parent;\n\t// Compute our attributes\n\tthis.computeAttributes();\n\t// Execute our logic\n\tthis.execute();\n\t// Create our elements\n\tthis.labelDomNode = this.document.createElement(\&quot;label\&quot;);\n\tthis.labelDomNode.setAttribute(\&quot;class\&quot;,this.checkboxClass);\n\tthis.inputDomNode = this.document.createElement(\&quot;input\&quot;);\n\tthis.inputDomNode.setAttribute(\&quot;type\&quot;,\&quot;checkbox\&quot;);\n\tif(this.getValue()) {\n\t\tthis.inputDomNode.setAttribute(\&quot;checked\&quot;,\&quot;true\&quot;);\n\t}\n\tthis.labelDomNode.appendChild(this.inputDomNode);\n\tthis.spanDomNode = this.document.createElement(\&quot;span\&quot;);\n\tthis.labelDomNode.appendChild(this.spanDomNode);\n\t// Add a click event handler\n\t$tw.utils.addEventListeners(this.inputDomNode,[\n\t\t{name: \&quot;change\&quot;, handlerObject: this, handlerMethod: \&quot;handleChangeEvent\&quot;}\n\t]);\n\t// Insert the label into the DOM and render any children\n\tparent.insertBefore(this.labelDomNode,nextSibling);\n\tthis.renderChildren(this.spanDomNode,null);\n\tthis.domNodes.push(this.labelDomNode);\n};\n\nCheckboxWidget.prototype.getValue = function() {\n\tvar tiddler = this.wiki.getTiddler(this.checkboxTitle);\n\tif(tiddler) {\n\t\tif(this.checkboxTag) {\n\t\t\tif(this.checkboxInvertTag) {\n\t\t\t\treturn !tiddler.hasTag(this.checkboxTag);\n\t\t\t} else {\n\t\t\t\treturn tiddler.hasTag(this.checkboxTag);\n\t\t\t}\n\t\t}\n\t\tif(this.checkboxField) {\n\t\t\tvar value = tiddler.fields[this.checkboxField] || this.checkboxDefault || \&quot;\&quot;;\n\t\t\tif(value === this.checkboxChecked) {\n\t\t\t\treturn true;\n\t\t\t}\n\t\t\tif(value === this.checkboxUnchecked) {\n\t\t\t\treturn false;\n\t\t\t}\n\t\t}\n\t} else {\n\t\tif(this.checkboxTag) {\n\t\t\treturn false;\n\t\t}\n\t\tif(this.checkboxField) {\n\t\t\tif(this.checkboxDefault === this.checkboxChecked) {\n\t\t\t\treturn true;\n\t\t\t}\n\t\t\tif(this.checkboxDefault === this.checkboxUnchecked) {\n\t\t\t\treturn false;\n\t\t\t}\n\t\t}\n\t}\n\treturn false;\n};\n\nCheckboxWidget.prototype.handleChangeEvent = function(event) {\n\tvar checked = this.inputDomNode.checked,\n\t\ttiddler = this.wiki.getTiddler(this.checkboxTitle),\n\t\tfallbackFields = {text: \&quot;\&quot;},\n\t\tnewFields = {title: this.checkboxTitle},\n\t\thasChanged = false,\n\t\ttagCheck = false,\n\t\thasTag = tiddler &amp;&amp; tiddler.hasTag(this.checkboxTag);\n\tif(this.checkboxTag &amp;&amp; this.checkboxInvertTag === \&quot;yes\&quot;) {\n\t\ttagCheck = hasTag === checked;\n\t} else {\n\t\ttagCheck = hasTag !== checked;\n\t}\n\t// Set the tag if specified\n\tif(this.checkboxTag &amp;&amp; (!tiddler || tagCheck)) {\n\t\tnewFields.tags = tiddler ? (tiddler.fields.tags || []).slice(0) : [];\n\t\tvar pos = newFields.tags.indexOf(this.checkboxTag);\n\t\tif(pos !== -1) {\n\t\t\tnewFields.tags.splice(pos,1);\n\t\t}\n\t\tif(this.checkboxInvertTag === \&quot;yes\&quot; &amp;&amp; !checked) {\n\t\t\tnewFields.tags.push(this.checkboxTag);\n\t\t} else if(this.checkboxInvertTag !== \&quot;yes\&quot; &amp;&amp; checked) {\n\t\t\tnewFields.tags.push(this.checkboxTag);\n\t\t}\n\t\thasChanged = true;\n\t}\n\t// Set the field if specified\n\tif(this.checkboxField) {\n\t\tvar value = checked ? this.checkboxChecked : this.checkboxUnchecked;\n\t\tif(!tiddler || tiddler.fields[this.checkboxField] !== value) {\n\t\t\tnewFields[this.checkboxField] = value;\n\t\t\thasChanged = true;\n\t\t}\n\t}\n\tif(hasChanged) {\n\t\tthis.wiki.addTiddler(new $tw.Tiddler(this.wiki.getCreationFields(),fallbackFields,tiddler,newFields,this.wiki.getModificationFields()));\n\t}\n};\n\n/*\nCompute the internal state of the widget\n*/\nCheckboxWidget.prototype.execute = function() {\n\t// Get the parameters from the attributes\n\tthis.checkboxTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.checkboxTag = this.getAttribute(\&quot;tag\&quot;);\n\tthis.checkboxField = this.getAttribute(\&quot;field\&quot;);\n\tthis.checkboxChecked = this.getAttribute(\&quot;checked\&quot;);\n\tthis.checkboxUnchecked = this.getAttribute(\&quot;unchecked\&quot;);\n\tthis.checkboxDefault = this.getAttribute(\&quot;default\&quot;);\n\tthis.checkboxClass = this.getAttribute(\&quot;class\&quot;,\&quot;\&quot;);\n\tthis.checkboxInvertTag = this.getAttribute(\&quot;invertTag\&quot;,\&quot;\&quot;);\n\t// Make the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nCheckboxWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.tiddler || changedAttributes.tag || changedAttributes.invertTag || changedAttributes.field || changedAttributes.checked || changedAttributes.unchecked || changedAttributes[\&quot;default\&quot;] || changedAttributes[\&quot;class\&quot;]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\tvar refreshed = false;\n\t\tif(changedTiddlers[this.checkboxTitle]) {\n\t\t\tthis.inputDomNode.checked = this.getValue();\n\t\t\trefreshed = true;\n\t\t}\n\t\treturn this.refreshChildren(changedTiddlers) || refreshed;\n\t}\n};\n\nexports.checkbox = CheckboxWidget;\n\n})();&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/checkbox.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/codeblock.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/codeblock.js\ntype: application/javascript\nmodule-type: widget\n\nCode block node widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar CodeBlockWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nCodeBlockWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nCodeBlockWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tvar codeNode = this.document.createElement(\&quot;code\&quot;),\n\t\tdomNode = this.document.createElement(\&quot;pre\&quot;);\n\tcodeNode.appendChild(this.document.createTextNode(this.getAttribute(\&quot;code\&quot;)));\n\tdomNode.appendChild(codeNode);\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.domNodes.push(domNode);\n\tif(this.postRender) {\n\t\tthis.postRender();\n\t}\n};\n\n/*\nCompute the internal state of the widget\n*/\nCodeBlockWidget.prototype.execute = function() {\n\tthis.language = this.getAttribute(\&quot;language\&quot;);\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nCodeBlockWidget.prototype.refresh = function(changedTiddlers) {\n\treturn false;\n};\n\nexports.codeblock = CodeBlockWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/codeblock.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/count.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/count.js\ntype: application/javascript\nmodule-type: widget\n\nCount widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar CountWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nCountWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nCountWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tvar textNode = this.document.createTextNode(this.currentCount);\n\tparent.insertBefore(textNode,nextSibling);\n\tthis.domNodes.push(textNode);\n};\n\n/*\nCompute the internal state of the widget\n*/\nCountWidget.prototype.execute = function() {\n\t// Get parameters from our attributes\n\tthis.filter = this.getAttribute(\&quot;filter\&quot;);\n\t// Execute the filter\n\tif(this.filter) {\n\t\tthis.currentCount = this.wiki.filterTiddlers(this.filter,this).length;\n\t} else {\n\t\tthis.currentCount = undefined;\n\t}\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nCountWidget.prototype.refresh = function(changedTiddlers) {\n\t// Re-execute the filter to get the count\n\tthis.computeAttributes();\n\tvar oldCount = this.currentCount;\n\tthis.execute();\n\tif(this.currentCount !== oldCount) {\n\t\t// Regenerate and rerender the widget and replace the existing DOM node\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn false;\n\t}\n\n};\n\nexports.count = CountWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/count.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/dropzone.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/dropzone.js\ntype: application/javascript\nmodule-type: widget\n\nDropzone widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar DropZoneWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nDropZoneWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nDropZoneWidget.prototype.render = function(parent,nextSibling) {\n\tvar self = this;\n\t// Remember parent\n\tthis.parentDomNode = parent;\n\t// Compute attributes and execute state\n\tthis.computeAttributes();\n\tthis.execute();\n\t// Create element\n\tvar domNode = this.document.createElement(\&quot;div\&quot;);\n\tdomNode.className = \&quot;tc-dropzone\&quot;;\n\t// Add event handlers\n\t$tw.utils.addEventListeners(domNode,[\n\t\t{name: \&quot;dragenter\&quot;, handlerObject: this, handlerMethod: \&quot;handleDragEnterEvent\&quot;},\n\t\t{name: \&quot;dragover\&quot;, handlerObject: this, handlerMethod: \&quot;handleDragOverEvent\&quot;},\n\t\t{name: \&quot;dragleave\&quot;, handlerObject: this, handlerMethod: \&quot;handleDragLeaveEvent\&quot;},\n\t\t{name: \&quot;drop\&quot;, handlerObject: this, handlerMethod: \&quot;handleDropEvent\&quot;},\n\t\t{name: \&quot;paste\&quot;, handlerObject: this, handlerMethod: \&quot;handlePasteEvent\&quot;}\n\t]);\n\tdomNode.addEventListener(\&quot;click\&quot;,function (event) {\n\t},false);\n\t// Insert element\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.renderChildren(domNode,null);\n\tthis.domNodes.push(domNode);\n};\n\nDropZoneWidget.prototype.enterDrag = function() {\n\t// Check for this window being the source of the drag\n\tif($tw.dragInProgress) {\n\t\treturn false;\n\t}\n\t// We count enter/leave events\n\tthis.dragEnterCount = (this.dragEnterCount || 0) + 1;\n\t// If we're entering for the first time we need to apply highlighting\n\tif(this.dragEnterCount === 1) {\n\t\t$tw.utils.addClass(this.domNodes[0],\&quot;tc-dragover\&quot;);\n\t}\n};\n\nDropZoneWidget.prototype.leaveDrag = function() {\n\t// Reduce the enter count\n\tthis.dragEnterCount = (this.dragEnterCount || 0) - 1;\n\t// Remove highlighting if we're leaving externally\n\tif(this.dragEnterCount &lt;= 0) {\n\t\t$tw.utils.removeClass(this.domNodes[0],\&quot;tc-dragover\&quot;);\n\t}\n};\n\nDropZoneWidget.prototype.handleDragEnterEvent  = function(event) {\n\tthis.enterDrag();\n\t// Tell the browser that we're ready to handle the drop\n\tevent.preventDefault();\n\t// Tell the browser not to ripple the drag up to any parent drop handlers\n\tevent.stopPropagation();\n};\n\nDropZoneWidget.prototype.handleDragOverEvent  = function(event) {\n\t// Check for being over a TEXTAREA or INPUT\n\tif([\&quot;TEXTAREA\&quot;,\&quot;INPUT\&quot;].indexOf(event.target.tagName) !== -1) {\n\t\treturn false;\n\t}\n\t// Check for this window being the source of the drag\n\tif($tw.dragInProgress) {\n\t\treturn false;\n\t}\n\t// Tell the browser that we're still interested in the drop\n\tevent.preventDefault();\n\tevent.dataTransfer.dropEffect = \&quot;copy\&quot;; // Explicitly show this is a copy\n};\n\nDropZoneWidget.prototype.handleDragLeaveEvent  = function(event) {\n\tthis.leaveDrag();\n};\n\nDropZoneWidget.prototype.handleDropEvent  = function(event) {\n\tthis.leaveDrag();\n\t// Check for being over a TEXTAREA or INPUT\n\tif([\&quot;TEXTAREA\&quot;,\&quot;INPUT\&quot;].indexOf(event.target.tagName) !== -1) {\n\t\treturn false;\n\t}\n\t// Check for this window being the source of the drag\n\tif($tw.dragInProgress) {\n\t\treturn false;\n\t}\n\tvar self = this,\n\t\tdataTransfer = event.dataTransfer;\n\t// Reset the enter count\n\tthis.dragEnterCount = 0;\n\t// Remove highlighting\n\t$tw.utils.removeClass(this.domNodes[0],\&quot;tc-dragover\&quot;);\n\t// Import any files in the drop\n\tvar numFiles = this.wiki.readFiles(dataTransfer.files,function(tiddlerFieldsArray) {\n\t\tself.dispatchEvent({type: \&quot;tm-import-tiddlers\&quot;, param: JSON.stringify(tiddlerFieldsArray)});\n\t});\n\t// Try to import the various data types we understand\n\tif(numFiles === 0) {\n\t\tthis.importData(dataTransfer);\n\t}\n\t// Tell the browser that we handled the drop\n\tevent.preventDefault();\n\t// Stop the drop ripple up to any parent handlers\n\tevent.stopPropagation();\n};\n\nDropZoneWidget.prototype.importData = function(dataTransfer) {\n\t// Try each provided data type in turn\n\tfor(var t=0; t&lt;this.importDataTypes.length; t++) {\n\t\tif(!$tw.browser.isIE || this.importDataTypes[t].IECompatible) {\n\t\t\t// Get the data\n\t\t\tvar dataType = this.importDataTypes[t];\n\t\t\t\tvar data = dataTransfer.getData(dataType.type);\n\t\t\t// Import the tiddlers in the data\n\t\t\tif(data !== \&quot;\&quot; &amp;&amp; data !== null) {\n\t\t\t\tif($tw.log.IMPORT) {\n\t\t\t\t\tconsole.log(\&quot;Importing data type '\&quot; + dataType.type + \&quot;', data: '\&quot; + data + \&quot;'\&quot;)\n\t\t\t\t}\n\t\t\t\tvar tiddlerFields = dataType.convertToFields(data);\n\t\t\t\tif(!tiddlerFields.title) {\n\t\t\t\t\ttiddlerFields.title = this.wiki.generateNewTitle(\&quot;Untitled\&quot;);\n\t\t\t\t}\n\t\t\t\tthis.dispatchEvent({type: \&quot;tm-import-tiddlers\&quot;, param: JSON.stringify([tiddlerFields])});\n\t\t\t\treturn;\n\t\t\t}\n\t\t}\n\t}\n};\n\nDropZoneWidget.prototype.importDataTypes = [\n\t{type: \&quot;text/vnd.tiddler\&quot;, IECompatible: false, convertToFields: function(data) {\n\t\treturn JSON.parse(data);\n\t}},\n\t{type: \&quot;URL\&quot;, IECompatible: true, convertToFields: function(data) {\n\t\t// Check for tiddler data URI\n\t\tvar match = decodeURIComponent(data).match(/^data\\:text\\/vnd\\.tiddler,(.*)/i);\n\t\tif(match) {\n\t\t\treturn JSON.parse(match[1]);\n\t\t} else {\n\t\t\treturn { // As URL string\n\t\t\t\ttext: data\n\t\t\t};\n\t\t}\n\t}},\n\t{type: \&quot;text/x-moz-url\&quot;, IECompatible: false, convertToFields: function(data) {\n\t\t// Check for tiddler data URI\n\t\tvar match = decodeURIComponent(data).match(/^data\\:text\\/vnd\\.tiddler,(.*)/i);\n\t\tif(match) {\n\t\t\treturn JSON.parse(match[1]);\n\t\t} else {\n\t\t\treturn { // As URL string\n\t\t\t\ttext: data\n\t\t\t};\n\t\t}\n\t}},\n\t{type: \&quot;text/html\&quot;, IECompatible: false, convertToFields: function(data) {\n\t\treturn {\n\t\t\ttext: data\n\t\t};\n\t}},\n\t{type: \&quot;text/plain\&quot;, IECompatible: false, convertToFields: function(data) {\n\t\treturn {\n\t\t\ttext: data\n\t\t};\n\t}},\n\t{type: \&quot;Text\&quot;, IECompatible: true, convertToFields: function(data) {\n\t\treturn {\n\t\t\ttext: data\n\t\t};\n\t}},\n\t{type: \&quot;text/uri-list\&quot;, IECompatible: false, convertToFields: function(data) {\n\t\treturn {\n\t\t\ttext: data\n\t\t};\n\t}}\n];\n\nDropZoneWidget.prototype.handlePasteEvent  = function(event) {\n\t// Let the browser handle it if we're in a textarea or input box\n\tif([\&quot;TEXTAREA\&quot;,\&quot;INPUT\&quot;].indexOf(event.target.tagName) == -1) {\n\t\tvar self = this,\n\t\t\titems = event.clipboardData.items;\n\t\t// Enumerate the clipboard items\n\t\tfor(var t = 0; t&lt;items.length; t++) {\n\t\t\tvar item = items[t];\n\t\t\tif(item.kind === \&quot;file\&quot;) {\n\t\t\t\t// Import any files\n\t\t\t\tthis.wiki.readFile(item.getAsFile(),function(tiddlerFieldsArray) {\n\t\t\t\t\tself.dispatchEvent({type: \&quot;tm-import-tiddlers\&quot;, param: JSON.stringify(tiddlerFieldsArray)});\n\t\t\t\t});\n\t\t\t} else if(item.kind === \&quot;string\&quot;) {\n\t\t\t\t// Create tiddlers from string items\n\t\t\t\tvar type = item.type;\n\t\t\t\titem.getAsString(function(str) {\n\t\t\t\t\tvar tiddlerFields = {\n\t\t\t\t\t\ttitle: self.wiki.generateNewTitle(\&quot;Untitled\&quot;),\n\t\t\t\t\t\ttext: str,\n\t\t\t\t\t\ttype: type\n\t\t\t\t\t};\n\t\t\t\t\tif($tw.log.IMPORT) {\n\t\t\t\t\t\tconsole.log(\&quot;Importing string '\&quot; + str + \&quot;', type: '\&quot; + type + \&quot;'\&quot;);\n\t\t\t\t\t}\n\t\t\t\t\tself.dispatchEvent({type: \&quot;tm-import-tiddlers\&quot;, param: JSON.stringify([tiddlerFields])});\n\t\t\t\t});\n\t\t\t}\n\t\t}\n\t\t// Tell the browser that we've handled the paste\n\t\tevent.stopPropagation();\n\t\tevent.preventDefault();\n\t}\n};\n\n/*\nCompute the internal state of the widget\n*/\nDropZoneWidget.prototype.execute = function() {\n\t// Make child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nDropZoneWidget.prototype.refresh = function(changedTiddlers) {\n\treturn this.refreshChildren(changedTiddlers);\n};\n\nexports.dropzone = DropZoneWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/dropzone.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/edit-binary.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/edit-binary.js\ntype: application/javascript\nmodule-type: widget\n\nEdit-binary widget; placeholder for editing binary tiddlers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar BINARY_WARNING_MESSAGE = \&quot;$:/core/ui/BinaryWarning\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar EditBinaryWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nEditBinaryWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nEditBinaryWidget.prototype.render = function(parent,nextSibling) {\n\tvar self = this;\n\t// Save the parent dom node\n\tthis.parentDomNode = parent;\n\t// Compute our attributes\n\tthis.computeAttributes();\n\t// Execute our logic\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nEditBinaryWidget.prototype.execute = function() {\n\t// Construct the child widgets\n\tthis.makeChildWidgets([{\n\t\ttype: \&quot;transclude\&quot;,\n\t\tattributes: {\n\t\t\ttiddler: {type: \&quot;string\&quot;, value: BINARY_WARNING_MESSAGE}\n\t\t}\n\t}]);\n};\n\n/*\nRefresh by refreshing our child widget\n*/\nEditBinaryWidget.prototype.refresh = function(changedTiddlers) {\n\treturn this.refreshChildren(changedTiddlers);\n};\n\nexports[\&quot;edit-binary\&quot;] = EditBinaryWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/edit-binary.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/edit-bitmap.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/edit-bitmap.js\ntype: application/javascript\nmodule-type: widget\n\nEdit-bitmap widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n// Default image sizes\nvar DEFAULT_IMAGE_WIDTH = 300,\n\tDEFAULT_IMAGE_HEIGHT = 185;\n\n// Configuration tiddlers\nvar LINE_WIDTH_TITLE = \&quot;$:/config/BitmapEditor/LineWidth\&quot;,\n\tLINE_COLOUR_TITLE = \&quot;$:/config/BitmapEditor/Colour\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar EditBitmapWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nEditBitmapWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nEditBitmapWidget.prototype.render = function(parent,nextSibling) {\n\tvar self = this;\n\t// Save the parent dom node\n\tthis.parentDomNode = parent;\n\t// Compute our attributes\n\tthis.computeAttributes();\n\t// Execute our logic\n\tthis.execute();\n\t// Create our element\n\tthis.canvasDomNode = $tw.utils.domMaker(\&quot;canvas\&quot;,{\n\t\tdocument: this.document,\n\t\t\&quot;class\&quot;:\&quot;tc-edit-bitmapeditor\&quot;,\n\t\teventListeners: [{\n\t\t\tname: \&quot;touchstart\&quot;, handlerObject: this, handlerMethod: \&quot;handleTouchStartEvent\&quot;\n\t\t},{\n\t\t\tname: \&quot;touchmove\&quot;, handlerObject: this, handlerMethod: \&quot;handleTouchMoveEvent\&quot;\n\t\t},{\n\t\t\tname: \&quot;touchend\&quot;, handlerObject: this, handlerMethod: \&quot;handleTouchEndEvent\&quot;\n\t\t},{\n\t\t\tname: \&quot;mousedown\&quot;, handlerObject: this, handlerMethod: \&quot;handleMouseDownEvent\&quot;\n\t\t},{\n\t\t\tname: \&quot;mousemove\&quot;, handlerObject: this, handlerMethod: \&quot;handleMouseMoveEvent\&quot;\n\t\t},{\n\t\t\tname: \&quot;mouseup\&quot;, handlerObject: this, handlerMethod: \&quot;handleMouseUpEvent\&quot;\n\t\t}]\n\t});\n\tthis.widthDomNode = $tw.utils.domMaker(\&quot;input\&quot;,{\n\t\tdocument: this.document,\n\t\t\&quot;class\&quot;:\&quot;tc-edit-bitmapeditor-width\&quot;,\n\t\teventListeners: [{\n\t\t\tname: \&quot;change\&quot;, handlerObject: this, handlerMethod: \&quot;handleWidthChangeEvent\&quot;\n\t\t}]\n\t});\n\tthis.heightDomNode = $tw.utils.domMaker(\&quot;input\&quot;,{\n\t\tdocument: this.document,\n\t\t\&quot;class\&quot;:\&quot;tc-edit-bitmapeditor-height\&quot;,\n\t\teventListeners: [{\n\t\t\tname: \&quot;change\&quot;, handlerObject: this, handlerMethod: \&quot;handleHeightChangeEvent\&quot;\n\t\t}]\n\t});\n\t// Insert the elements into the DOM\n\tparent.insertBefore(this.canvasDomNode,nextSibling);\n\tparent.insertBefore(this.widthDomNode,nextSibling);\n\tparent.insertBefore(this.heightDomNode,nextSibling);\n\tthis.domNodes.push(this.canvasDomNode,this.widthDomNode,this.heightDomNode);\n\t// Load the image into the canvas\n\tif($tw.browser) {\n\t\tthis.loadCanvas();\n\t}\n};\n\n/*\nCompute the internal state of the widget\n*/\nEditBitmapWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.editTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n};\n\n/*\nNote that the bitmap editor intentionally doesn't try to refresh itself because it would be confusing to have the image changing spontaneously while editting it\n*/\nEditBitmapWidget.prototype.refresh = function(changedTiddlers) {\n\treturn false;\n};\n\nEditBitmapWidget.prototype.loadCanvas = function() {\n\tvar tiddler = this.wiki.getTiddler(this.editTitle),\n\t\tcurrImage = new Image();\n\t// Set up event handlers for loading the image\n\tvar self = this;\n\tcurrImage.onload = function() {\n\t\t// Copy the image to the on-screen canvas\n\t\tself.initCanvas(self.canvasDomNode,currImage.width,currImage.height,currImage);\n\t\t// And also copy the current bitmap to the off-screen canvas\n\t\tself.currCanvas = self.document.createElement(\&quot;canvas\&quot;);\n\t\tself.initCanvas(self.currCanvas,currImage.width,currImage.height,currImage);\n\t\t// Set the width and height input boxes\n\t\tself.updateSize();\n\t};\n\tcurrImage.onerror = function() {\n\t\t// Set the on-screen canvas size and clear it\n\t\tself.initCanvas(self.canvasDomNode,DEFAULT_IMAGE_WIDTH,DEFAULT_IMAGE_HEIGHT);\n\t\t// Set the off-screen canvas size and clear it\n\t\tself.currCanvas = self.document.createElement(\&quot;canvas\&quot;);\n\t\tself.initCanvas(self.currCanvas,DEFAULT_IMAGE_WIDTH,DEFAULT_IMAGE_HEIGHT);\n\t\t// Set the width and height input boxes\n\t\tself.updateSize();\n\t};\n\t// Get the current bitmap into an image object\n\tcurrImage.src = \&quot;data:\&quot; + tiddler.fields.type + \&quot;;base64,\&quot; + tiddler.fields.text;\n};\n\nEditBitmapWidget.prototype.initCanvas = function(canvas,width,height,image) {\n\tcanvas.width = width;\n\tcanvas.height = height;\n\tvar ctx = canvas.getContext(\&quot;2d\&quot;);\n\tif(image) {\n\t\tctx.drawImage(image,0,0);\n\t} else {\n\t\tctx.fillStyle = \&quot;#fff\&quot;;\n\t\tctx.fillRect(0,0,canvas.width,canvas.height);\n\t}\n};\n\n/*\n** Update the input boxes with the actual size of the canvas\n*/\nEditBitmapWidget.prototype.updateSize = function() {\n\tthis.widthDomNode.value = this.currCanvas.width;\n\tthis.heightDomNode.value = this.currCanvas.height;\n};\n\n/*\n** Change the size of the canvas, preserving the current image\n*/\nEditBitmapWidget.prototype.changeCanvasSize = function(newWidth,newHeight) {\n\t// Create and size a new canvas\n\tvar newCanvas = this.document.createElement(\&quot;canvas\&quot;);\n\tthis.initCanvas(newCanvas,newWidth,newHeight);\n\t// Copy the old image\n\tvar ctx = newCanvas.getContext(\&quot;2d\&quot;);\n\tctx.drawImage(this.currCanvas,0,0);\n\t// Set the new canvas as the current one\n\tthis.currCanvas = newCanvas;\n\t// Set the size of the onscreen canvas\n\tthis.canvasDomNode.width = newWidth;\n\tthis.canvasDomNode.height = newHeight;\n\t// Paint the onscreen canvas with the offscreen canvas\n\tctx = this.canvasDomNode.getContext(\&quot;2d\&quot;);\n\tctx.drawImage(this.currCanvas,0,0);\n};\n\nEditBitmapWidget.prototype.handleWidthChangeEvent = function(event) {\n\t// Get the new width\n\tvar newWidth = parseInt(this.widthDomNode.value,10);\n\t// Update if necessary\n\tif(newWidth &gt; 0 &amp;&amp; newWidth !== this.currCanvas.width) {\n\t\tthis.changeCanvasSize(newWidth,this.currCanvas.height);\n\t}\n\t// Update the input controls\n\tthis.updateSize();\n};\n\nEditBitmapWidget.prototype.handleHeightChangeEvent = function(event) {\n\t// Get the new width\n\tvar newHeight = parseInt(this.heightDomNode.value,10);\n\t// Update if necessary\n\tif(newHeight &gt; 0 &amp;&amp; newHeight !== this.currCanvas.height) {\n\t\tthis.changeCanvasSize(this.currCanvas.width,newHeight);\n\t}\n\t// Update the input controls\n\tthis.updateSize();\n};\n\nEditBitmapWidget.prototype.handleTouchStartEvent = function(event) {\n\tthis.brushDown = true;\n\tthis.strokeStart(event.touches[0].clientX,event.touches[0].clientY);\n\tevent.preventDefault();\n\tevent.stopPropagation();\n\treturn false;\n};\n\nEditBitmapWidget.prototype.handleTouchMoveEvent = function(event) {\n\tif(this.brushDown) {\n\t\tthis.strokeMove(event.touches[0].clientX,event.touches[0].clientY);\n\t}\n\tevent.preventDefault();\n\tevent.stopPropagation();\n\treturn false;\n};\n\nEditBitmapWidget.prototype.handleTouchEndEvent = function(event) {\n\tif(this.brushDown) {\n\t\tthis.brushDown = false;\n\t\tthis.strokeEnd();\n\t}\n\tevent.preventDefault();\n\tevent.stopPropagation();\n\treturn false;\n};\n\nEditBitmapWidget.prototype.handleMouseDownEvent = function(event) {\n\tthis.strokeStart(event.clientX,event.clientY);\n\tthis.brushDown = true;\n\tevent.preventDefault();\n\tevent.stopPropagation();\n\treturn false;\n};\n\nEditBitmapWidget.prototype.handleMouseMoveEvent = function(event) {\n\tif(this.brushDown) {\n\t\tthis.strokeMove(event.clientX,event.clientY);\n\t\tevent.preventDefault();\n\t\tevent.stopPropagation();\n\t\treturn false;\n\t}\n\treturn true;\n};\n\nEditBitmapWidget.prototype.handleMouseUpEvent = function(event) {\n\tif(this.brushDown) {\n\t\tthis.brushDown = false;\n\t\tthis.strokeEnd();\n\t\tevent.preventDefault();\n\t\tevent.stopPropagation();\n\t\treturn false;\n\t}\n\treturn true;\n};\n\nEditBitmapWidget.prototype.adjustCoordinates = function(x,y) {\n\tvar canvasRect = this.canvasDomNode.getBoundingClientRect(),\n\t\tscale = this.canvasDomNode.width/canvasRect.width;\n\treturn {x: (x - canvasRect.left) * scale, y: (y - canvasRect.top) * scale};\n};\n\nEditBitmapWidget.prototype.strokeStart = function(x,y) {\n\t// Start off a new stroke\n\tthis.stroke = [this.adjustCoordinates(x,y)];\n};\n\nEditBitmapWidget.prototype.strokeMove = function(x,y) {\n\tvar ctx = this.canvasDomNode.getContext(\&quot;2d\&quot;),\n\t\tt;\n\t// Add the new position to the end of the stroke\n\tthis.stroke.push(this.adjustCoordinates(x,y));\n\t// Redraw the previous image\n\tctx.drawImage(this.currCanvas,0,0);\n\t// Render the stroke\n\tctx.strokeStyle = this.wiki.getTiddlerText(LINE_COLOUR_TITLE,\&quot;#ff0\&quot;);\n\tctx.lineWidth = parseInt(this.wiki.getTiddlerText(LINE_WIDTH_TITLE,\&quot;3\&quot;),10);\n\tctx.lineCap = \&quot;round\&quot;;\n\tctx.lineJoin = \&quot;round\&quot;;\n\tctx.beginPath();\n\tctx.moveTo(this.stroke[0].x,this.stroke[0].y);\n\tfor(t=1; t&lt;this.stroke.length-1; t++) {\n\t\tvar s1 = this.stroke[t],\n\t\t\ts2 = this.stroke[t-1],\n\t\t\ttx = (s1.x + s2.x)/2,\n\t\t\tty = (s1.y + s2.y)/2;\n\t\tctx.quadraticCurveTo(s2.x,s2.y,tx,ty);\n\t}\n\tctx.stroke();\n};\n\nEditBitmapWidget.prototype.strokeEnd = function() {\n\t// Copy the bitmap to the off-screen canvas\n\tvar ctx = this.currCanvas.getContext(\&quot;2d\&quot;);\n\tctx.drawImage(this.canvasDomNode,0,0);\n\t// Save the image into the tiddler\n\tthis.saveChanges();\n};\n\nEditBitmapWidget.prototype.saveChanges = function() {\n\tvar tiddler = this.wiki.getTiddler(this.editTitle);\n\tif(tiddler) {\n\t\t// data URIs look like \&quot;data:&lt;type&gt;;base64,&lt;text&gt;\&quot;\n\t\tvar dataURL = this.canvasDomNode.toDataURL(tiddler.fields.type,1.0),\n\t\t\tposColon = dataURL.indexOf(\&quot;:\&quot;),\n\t\t\tposSemiColon = dataURL.indexOf(\&quot;;\&quot;),\n\t\t\tposComma = dataURL.indexOf(\&quot;,\&quot;),\n\t\t\ttype = dataURL.substring(posColon+1,posSemiColon),\n\t\t\ttext = dataURL.substring(posComma+1);\n\t\tvar update = {type: type, text: text};\n\t\tthis.wiki.addTiddler(new $tw.Tiddler(this.wiki.getModificationFields(),tiddler,update,this.wiki.getCreationFields()));\n\t}\n};\n\nexports[\&quot;edit-bitmap\&quot;] = EditBitmapWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/edit-bitmap.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/edit-text.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/edit-text.js\ntype: application/javascript\nmodule-type: widget\n\nEdit-text widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar DEFAULT_MIN_TEXT_AREA_HEIGHT = \&quot;100px\&quot;; // Minimum height of textareas in pixels\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar EditTextWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nEditTextWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nEditTextWidget.prototype.render = function(parent,nextSibling) {\n\tvar self = this;\n\t// Save the parent dom node\n\tthis.parentDomNode = parent;\n\t// Compute our attributes\n\tthis.computeAttributes();\n\t// Execute our logic\n\tthis.execute();\n\t// Create our element\n\tvar editInfo = this.getEditInfo(),\n\t\ttag = this.editTag;\n\tif($tw.config.htmlUnsafeElements.indexOf(tag) !== -1) {\n\t\ttag = \&quot;input\&quot;;\n\t}\n\tvar domNode = this.document.createElement(tag);\n\tif(this.editType) {\n\t\tdomNode.setAttribute(\&quot;type\&quot;,this.editType);\n\t}\n\tif(editInfo.value === \&quot;\&quot; &amp;&amp; this.editPlaceholder) {\n\t\tdomNode.setAttribute(\&quot;placeholder\&quot;,this.editPlaceholder);\n\t}\n\tif(this.editSize) {\n\t\tdomNode.setAttribute(\&quot;size\&quot;,this.editSize);\n\t}\n\tif(this.editRows) {\n\t\tdomNode.setAttribute(\&quot;rows\&quot;,this.editRows);\n\t}\n\t// Assign classes\n\tif(this.editClass) {\n\t\tdomNode.className = this.editClass;\n\t}\n\t// Set the text\n\tif(this.editTag === \&quot;textarea\&quot;) {\n\t\tdomNode.appendChild(this.document.createTextNode(editInfo.value));\n\t} else {\n\t\tdomNode.value = editInfo.value;\n\t}\n\t// Add an input event handler\n\t$tw.utils.addEventListeners(domNode,[\n\t\t{name: \&quot;focus\&quot;, handlerObject: this, handlerMethod: \&quot;handleFocusEvent\&quot;},\n\t\t{name: \&quot;input\&quot;, handlerObject: this, handlerMethod: \&quot;handleInputEvent\&quot;}\n\t]);\n\t// Insert the element into the DOM\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.domNodes.push(domNode);\n\tif(this.postRender) {\n\t\tthis.postRender();\n\t}\n\t// Fix height\n\tthis.fixHeight();\n\t// Focus field\n\tif(this.editFocus === \&quot;true\&quot;) {\n\t\tif(domNode.focus &amp;&amp; domNode.select) {\n\t\t\tdomNode.focus();\n\t\t\tdomNode.select();\n\t\t}\n\t}\n};\n\n/*\nGet the tiddler being edited and current value\n*/\nEditTextWidget.prototype.getEditInfo = function() {\n\t// Get the edit value\n\tvar self = this,\n\t\tvalue,\n\t\tupdate;\n\tif(this.editIndex) {\n\t\tvalue = this.wiki.extractTiddlerDataItem(this.editTitle,this.editIndex,this.editDefault);\n\t\tupdate = function(value) {\n\t\t\tvar data = self.wiki.getTiddlerData(self.editTitle,{});\n\t\t\tif(data[self.editIndex] !== value) {\n\t\t\t\tdata[self.editIndex] = value;\n\t\t\t\tself.wiki.setTiddlerData(self.editTitle,data);\n\t\t\t}\n\t\t};\n\t} else {\n\t\t// Get the current tiddler and the field name\n\t\tvar tiddler = this.wiki.getTiddler(this.editTitle);\n\t\tif(tiddler) {\n\t\t\t// If we've got a tiddler, the value to display is the field string value\n\t\t\tvalue = tiddler.getFieldString(this.editField);\n\t\t} else {\n\t\t\t// Otherwise, we need to construct a default value for the editor\n\t\t\tswitch(this.editField) {\n\t\t\t\tcase \&quot;text\&quot;:\n\t\t\t\t\tvalue = \&quot;Type the text for the tiddler '\&quot; + this.editTitle + \&quot;'\&quot;;\n\t\t\t\t\tbreak;\n\t\t\t\tcase \&quot;title\&quot;:\n\t\t\t\t\tvalue = this.editTitle;\n\t\t\t\t\tbreak;\n\t\t\t\tdefault:\n\t\t\t\t\tvalue = \&quot;\&quot;;\n\t\t\t\t\tbreak;\n\t\t\t}\n\t\t\tif(this.editDefault !== undefined) {\n\t\t\t\tvalue = this.editDefault;\n\t\t\t}\n\t\t}\n\t\tupdate = function(value) {\n\t\t\tvar tiddler = self.wiki.getTiddler(self.editTitle),\n\t\t\t\tupdateFields = {\n\t\t\t\t\ttitle: self.editTitle\n\t\t\t\t};\n\t\t\tupdateFields[self.editField] = value;\n\t\t\tself.wiki.addTiddler(new $tw.Tiddler(self.wiki.getCreationFields(),tiddler,updateFields,self.wiki.getModificationFields()));\n\t\t};\n\t}\n\treturn {value: value, update: update};\n};\n\n/*\nCompute the internal state of the widget\n*/\nEditTextWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.editTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.editField = this.getAttribute(\&quot;field\&quot;,\&quot;text\&quot;);\n\tthis.editIndex = this.getAttribute(\&quot;index\&quot;);\n\tthis.editDefault = this.getAttribute(\&quot;default\&quot;);\n\tthis.editClass = this.getAttribute(\&quot;class\&quot;);\n\tthis.editPlaceholder = this.getAttribute(\&quot;placeholder\&quot;);\n\tthis.editSize = this.getAttribute(\&quot;size\&quot;);\n\tthis.editRows = this.getAttribute(\&quot;rows\&quot;);\n\tthis.editAutoHeight = this.getAttribute(\&quot;autoHeight\&quot;,\&quot;yes\&quot;) === \&quot;yes\&quot;;\n\tthis.editMinHeight = this.getAttribute(\&quot;minHeight\&quot;,DEFAULT_MIN_TEXT_AREA_HEIGHT);\n\tthis.editFocusPopup = this.getAttribute(\&quot;focusPopup\&quot;);\n\tthis.editFocus = this.getAttribute(\&quot;focus\&quot;);\n\t// Get the editor element tag and type\n\tvar tag,type;\n\tif(this.editField === \&quot;text\&quot;) {\n\t\ttag = \&quot;textarea\&quot;;\n\t} else {\n\t\ttag = \&quot;input\&quot;;\n\t\tvar fieldModule = $tw.Tiddler.fieldModules[this.editField];\n\t\tif(fieldModule &amp;&amp; fieldModule.editTag) {\n\t\t\ttag = fieldModule.editTag;\n\t\t}\n\t\tif(fieldModule &amp;&amp; fieldModule.editType) {\n\t\t\ttype = fieldModule.editType;\n\t\t}\n\t\ttype = type || \&quot;text\&quot;;\n\t}\n\t// Get the rest of our parameters\n\tthis.editTag = this.getAttribute(\&quot;tag\&quot;,tag);\n\tthis.editType = this.getAttribute(\&quot;type\&quot;,type);\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nEditTextWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\t// Completely rerender if any of our attributes have changed\n\tif(changedAttributes.tiddler || changedAttributes.field || changedAttributes.index || changedAttributes[\&quot;default\&quot;] || changedAttributes[\&quot;class\&quot;] || changedAttributes.placeholder || changedAttributes.size || changedAttributes.autoHeight || changedAttributes.minHeight || changedAttributes.focusPopup ||  changedAttributes.rows) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else if(changedTiddlers[this.editTitle]) {\n\t\tthis.updateEditor(this.getEditInfo().value);\n\t\treturn true;\n\t}\n\t// Fix the height anyway in case there has been a reflow\n\tthis.fixHeight();\n\treturn false;\n};\n\n/*\nUpdate the editor with new text. This method is separate from updateEditorDomNode()\nso that subclasses can override updateEditor() and still use updateEditorDomNode()\n*/\nEditTextWidget.prototype.updateEditor = function(text) {\n\tthis.updateEditorDomNode(text);\n};\n\n/*\nUpdate the editor dom node with new text\n*/\nEditTextWidget.prototype.updateEditorDomNode = function(text) {\n\t// Replace the edit value if the tiddler we're editing has changed\n\tvar domNode = this.domNodes[0];\n\tif(!domNode.isTiddlyWikiFakeDom) {\n\t\tif(this.document.activeElement !== domNode) {\n\t\t\tdomNode.value = text;\n\t\t}\n\t\t// Fix the height if needed\n\t\tthis.fixHeight();\n\t}\n};\n\n/*\nGet the first parent element that has scrollbars or use the body as fallback.\n*/\nEditTextWidget.prototype.getScrollContainer = function(el) {\n\twhile(el.parentNode) {\t\n\t\tel = el.parentNode;\n\t\tif(el.scrollTop) {\n\t\t\treturn el;\n\t\t}\n\t}\n\treturn this.document.body;\n};\n\n/*\nFix the height of textareas to fit their content\n*/\nEditTextWidget.prototype.fixHeight = function() {\n\tvar domNode = this.domNodes[0];\n\tif(this.editAutoHeight &amp;&amp; domNode &amp;&amp; !domNode.isTiddlyWikiFakeDom &amp;&amp; this.editTag === \&quot;textarea\&quot;) {\n\t\t// Resize the textarea to fit its content, preserving scroll position\n\t\t// Get the scroll container and register the current scroll position\n\t\tvar container = this.getScrollContainer(domNode),\n\t\t\tscrollTop = container.scrollTop;\n                // Measure the specified minimum height\n\t\tdomNode.style.height = this.editMinHeight;\n\t\tvar minHeight = domNode.offsetHeight;\n\t\t// Set its height to auto so that it snaps to the correct height\n\t\tdomNode.style.height = \&quot;auto\&quot;;\n\t\t// Calculate the revised height\n\t\tvar newHeight = Math.max(domNode.scrollHeight + domNode.offsetHeight - domNode.clientHeight,minHeight);\n\t\t// Only try to change the height if it has changed\n\t\tif(newHeight !== domNode.offsetHeight) {\n\t\t\tdomNode.style.height = newHeight + \&quot;px\&quot;;\n\t\t\t// Make sure that the dimensions of the textarea are recalculated\n\t\t\t$tw.utils.forceLayout(domNode);\n\t\t\t// Set the container to the position we registered at the beginning\n\t\t\tcontainer.scrollTop = scrollTop;\n\t\t}\n\t}\n};\n\n/*\nHandle a dom \&quot;input\&quot; event\n*/\nEditTextWidget.prototype.handleInputEvent = function(event) {\n\tthis.saveChanges(this.domNodes[0].value);\n\tthis.fixHeight();\n\treturn true;\n};\n\nEditTextWidget.prototype.handleFocusEvent = function(event) {\n\tif(this.editFocusPopup) {\n\t\t$tw.popup.triggerPopup({\n\t\t\tdomNode: this.domNodes[0],\n\t\t\ttitle: this.editFocusPopup,\n\t\t\twiki: this.wiki,\n\t\t\tforce: true\n\t\t});\n\t}\n\treturn true;\n};\n\nEditTextWidget.prototype.saveChanges = function(text) {\n\tvar editInfo = this.getEditInfo();\n\tif(text !== editInfo.value) {\n\t\teditInfo.update(text);\n\t}\n};\n\nexports[\&quot;edit-text\&quot;] = EditTextWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/edit-text.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/edit.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/edit.js\ntype: application/javascript\nmodule-type: widget\n\nEdit widget is a meta-widget chooses the appropriate actual editting widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar EditWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nEditWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nEditWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n// Mappings from content type to editor type are stored in tiddlers with this prefix\nvar EDITOR_MAPPING_PREFIX = \&quot;$:/config/EditorTypeMappings/\&quot;;\n\n/*\nCompute the internal state of the widget\n*/\nEditWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.editTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.editField = this.getAttribute(\&quot;field\&quot;,\&quot;text\&quot;);\n\tthis.editIndex = this.getAttribute(\&quot;index\&quot;);\n\tthis.editClass = this.getAttribute(\&quot;class\&quot;);\n\tthis.editPlaceholder = this.getAttribute(\&quot;placeholder\&quot;);\n\t// Choose the appropriate edit widget\n\tthis.editorType = this.getEditorType();\n\t// Make the child widgets\n\tthis.makeChildWidgets([{\n\t\ttype: \&quot;edit-\&quot; + this.editorType,\n\t\tattributes: {\n\t\t\ttiddler: {type: \&quot;string\&quot;, value: this.editTitle},\n\t\t\tfield: {type: \&quot;string\&quot;, value: this.editField},\n\t\t\tindex: {type: \&quot;string\&quot;, value: this.editIndex},\n\t\t\t\&quot;class\&quot;: {type: \&quot;string\&quot;, value: this.editClass},\n\t\t\t\&quot;placeholder\&quot;: {type: \&quot;string\&quot;, value: this.editPlaceholder}\n\t\t}\n\t}]);\n};\n\nEditWidget.prototype.getEditorType = function() {\n\t// Get the content type of the thing we're editing\n\tvar type;\n\tif(this.editField === \&quot;text\&quot;) {\n\t\tvar tiddler = this.wiki.getTiddler(this.editTitle);\n\t\tif(tiddler) {\n\t\t\ttype = tiddler.fields.type;\n\t\t}\n\t}\n\ttype = type || \&quot;text/vnd.tiddlywiki\&quot;;\n\tvar editorType = this.wiki.getTiddlerText(EDITOR_MAPPING_PREFIX + type);\n\tif(!editorType) {\n\t\tvar typeInfo = $tw.config.contentTypeInfo[type];\n\t\tif(typeInfo &amp;&amp; typeInfo.encoding === \&quot;base64\&quot;) {\n\t\t\teditorType = \&quot;binary\&quot;;\n\t\t} else {\n\t\t\teditorType = \&quot;text\&quot;;\n\t\t}\n\t}\n\treturn editorType;\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nEditWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\t// Refresh if an attribute has changed, or the type associated with the target tiddler has changed\n\tif(changedAttributes.tiddler || changedAttributes.field || changedAttributes.index || (changedTiddlers[this.editTitle] &amp;&amp; this.getEditorType() !== this.editorType)) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn this.refreshChildren(changedTiddlers);\t\t\n\t}\n};\n\nexports.edit = EditWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/edit.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/element.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/element.js\ntype: application/javascript\nmodule-type: widget\n\nElement widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar ElementWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nElementWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nElementWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\t// Neuter blacklisted elements\n\tvar tag = this.parseTreeNode.tag;\n\tif($tw.config.htmlUnsafeElements.indexOf(tag) !== -1) {\n\t\ttag = \&quot;safe-\&quot; + tag;\n\t}\n\tvar domNode = this.document.createElementNS(this.namespace,tag);\n\tthis.assignAttributes(domNode,{excludeEventAttributes: true});\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.renderChildren(domNode,null);\n\tthis.domNodes.push(domNode);\n};\n\n/*\nCompute the internal state of the widget\n*/\nElementWidget.prototype.execute = function() {\n\t// Select the namespace for the tag\n\tvar tagNamespaces = {\n\t\t\tsvg: \&quot;http://www.w3.org/2000/svg\&quot;,\n\t\t\tmath: \&quot;http://www.w3.org/1998/Math/MathML\&quot;,\n\t\t\tbody: \&quot;http://www.w3.org/1999/xhtml\&quot;\n\t\t};\n\tthis.namespace = tagNamespaces[this.parseTreeNode.tag];\n\tif(this.namespace) {\n\t\tthis.setVariable(\&quot;namespace\&quot;,this.namespace);\n\t} else {\n\t\tthis.namespace = this.getVariable(\&quot;namespace\&quot;,{defaultValue: \&quot;http://www.w3.org/1999/xhtml\&quot;});\n\t}\n\t// Make the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nElementWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes(),\n\t\thasChangedAttributes = $tw.utils.count(changedAttributes) &gt; 0;\n\tif(hasChangedAttributes) {\n\t\t// Update our attributes\n\t\tthis.assignAttributes(this.domNodes[0],{excludeEventAttributes: true});\n\t}\n\treturn this.refreshChildren(changedTiddlers) || hasChangedAttributes;\n};\n\nexports.element = ElementWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/element.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/encrypt.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/encrypt.js\ntype: application/javascript\nmodule-type: widget\n\nEncrypt widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar EncryptWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nEncryptWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nEncryptWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tvar textNode = this.document.createTextNode(this.encryptedText);\n\tparent.insertBefore(textNode,nextSibling);\n\tthis.domNodes.push(textNode);\n};\n\n/*\nCompute the internal state of the widget\n*/\nEncryptWidget.prototype.execute = function() {\n\t// Get parameters from our attributes\n\tthis.filter = this.getAttribute(\&quot;filter\&quot;,\&quot;[!is[system]]\&quot;);\n\t// Encrypt the filtered tiddlers\n\tvar tiddlers = this.wiki.filterTiddlers(this.filter),\n\t\tjson = {},\n\t\tself = this;\n\t$tw.utils.each(tiddlers,function(title) {\n\t\tvar tiddler = self.wiki.getTiddler(title),\n\t\t\tjsonTiddler = {};\n\t\tfor(var f in tiddler.fields) {\n\t\t\tjsonTiddler[f] = tiddler.getFieldString(f);\n\t\t}\n\t\tjson[title] = jsonTiddler;\n\t});\n\tthis.encryptedText = $tw.utils.htmlEncode($tw.crypto.encrypt(JSON.stringify(json)));\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nEncryptWidget.prototype.refresh = function(changedTiddlers) {\n\t// We don't need to worry about refreshing because the encrypt widget isn't for interactive use\n\treturn false;\n};\n\nexports.encrypt = EncryptWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/encrypt.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/entity.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/entity.js\ntype: application/javascript\nmodule-type: widget\n\nHTML entity widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar EntityWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nEntityWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nEntityWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.execute();\n\tvar textNode = this.document.createTextNode($tw.utils.entityDecode(this.parseTreeNode.entity));\n\tparent.insertBefore(textNode,nextSibling);\n\tthis.domNodes.push(textNode);\n};\n\n/*\nCompute the internal state of the widget\n*/\nEntityWidget.prototype.execute = function() {\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nEntityWidget.prototype.refresh = function(changedTiddlers) {\n\treturn false;\n};\n\nexports.entity = EntityWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/entity.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/fieldmangler.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/fieldmangler.js\ntype: application/javascript\nmodule-type: widget\n\nField mangler widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar FieldManglerWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n\tthis.addEventListeners([\n\t\t{type: \&quot;tm-remove-field\&quot;, handler: \&quot;handleRemoveFieldEvent\&quot;},\n\t\t{type: \&quot;tm-add-field\&quot;, handler: \&quot;handleAddFieldEvent\&quot;},\n\t\t{type: \&quot;tm-remove-tag\&quot;, handler: \&quot;handleRemoveTagEvent\&quot;},\n\t\t{type: \&quot;tm-add-tag\&quot;, handler: \&quot;handleAddTagEvent\&quot;}\n\t]);\n};\n\n/*\nInherit from the base widget class\n*/\nFieldManglerWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nFieldManglerWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nFieldManglerWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.mangleTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\t// Construct the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nFieldManglerWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.tiddler) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn this.refreshChildren(changedTiddlers);\t\t\n\t}\n};\n\nFieldManglerWidget.prototype.handleRemoveFieldEvent = function(event) {\n\tvar tiddler = this.wiki.getTiddler(this.mangleTitle),\n\t\tdeletion = {};\n\tdeletion[event.param] = undefined;\n\tthis.wiki.addTiddler(new $tw.Tiddler(tiddler,deletion));\n\treturn true;\n};\n\nFieldManglerWidget.prototype.handleAddFieldEvent = function(event) {\n\tvar tiddler = this.wiki.getTiddler(this.mangleTitle),\n\t\taddition = this.wiki.getModificationFields(),\n\t\thadInvalidFieldName = false,\n\t\taddField = function(name,value) {\n\t\t\tvar trimmedName = name.toLowerCase().trim();\n\t\t\tif(!$tw.utils.isValidFieldName(trimmedName)) {\n\t\t\t\tif(!hadInvalidFieldName) {\n\t\t\t\t\talert($tw.language.getString(\n\t\t\t\t\t\t\&quot;InvalidFieldName\&quot;,\n\t\t\t\t\t\t{variables:\n\t\t\t\t\t\t\t{fieldName: trimmedName}\n\t\t\t\t\t\t}\n\t\t\t\t\t));\n\t\t\t\t\thadInvalidFieldName = true;\n\t\t\t\t\treturn;\n\t\t\t\t}\n\t\t\t} else {\n\t\t\t\tif(!value &amp;&amp; tiddler) {\n\t\t\t\t\tvalue = tiddler.fields[trimmedName];\n\t\t\t\t}\n\t\t\t\taddition[trimmedName] = value || \&quot;\&quot;;\n\t\t\t}\n\t\t\treturn;\n\t\t};\n\taddition.title = this.mangleTitle;\n\tif(typeof event.param === \&quot;string\&quot;) {\n\t\taddField(event.param,\&quot;\&quot;);\n\t}\n\tif(typeof event.paramObject === \&quot;object\&quot;) {\n\t\tfor(var name in event.paramObject) {\n\t\t\taddField(name,event.paramObject[name]);\n\t\t}\n\t}\n\tthis.wiki.addTiddler(new $tw.Tiddler(tiddler,addition));\n\treturn true;\n};\n\nFieldManglerWidget.prototype.handleRemoveTagEvent = function(event) {\n\tvar tiddler = this.wiki.getTiddler(this.mangleTitle);\n\tif(tiddler &amp;&amp; tiddler.fields.tags) {\n\t\tvar p = tiddler.fields.tags.indexOf(event.param);\n\t\tif(p !== -1) {\n\t\t\tvar modification = this.wiki.getModificationFields();\n\t\t\tmodification.tags = (tiddler.fields.tags || []).slice(0);\n\t\t\tmodification.tags.splice(p,1);\n\t\t\tif(modification.tags.length === 0) {\n\t\t\t\tmodification.tags = undefined;\n\t\t\t}\n\t\tthis.wiki.addTiddler(new $tw.Tiddler(tiddler,modification));\n\t\t}\n\t}\n\treturn true;\n};\n\nFieldManglerWidget.prototype.handleAddTagEvent = function(event) {\n\tvar tiddler = this.wiki.getTiddler(this.mangleTitle);\n\tif(tiddler &amp;&amp; typeof event.param === \&quot;string\&quot;) {\n\t\tvar tag = event.param.trim();\n\t\tif(tag !== \&quot;\&quot;) {\n\t\t\tvar modification = this.wiki.getModificationFields();\n\t\t\tmodification.tags = (tiddler.fields.tags || []).slice(0);\n\t\t\t$tw.utils.pushTop(modification.tags,tag);\n\t\t\tthis.wiki.addTiddler(new $tw.Tiddler(tiddler,modification));\t\t\t\n\t\t}\n\t} else if(typeof event.param === \&quot;string\&quot; &amp;&amp; event.param.trim() !== \&quot;\&quot; &amp;&amp; this.mangleTitle.trim() !== \&quot;\&quot;) {\n\t\tvar tag = [];\n\t\ttag.push(event.param.trim());\n\t\tthis.wiki.addTiddler({title: this.mangleTitle, tags: tag});\t\t\n\t}\n\treturn true;\n};\n\nexports.fieldmangler = FieldManglerWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/fieldmangler.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/fields.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/fields.js\ntype: application/javascript\nmodule-type: widget\n\nFields widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar FieldsWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nFieldsWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nFieldsWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tvar textNode = this.document.createTextNode(this.text);\n\tparent.insertBefore(textNode,nextSibling);\n\tthis.domNodes.push(textNode);\n};\n\n/*\nCompute the internal state of the widget\n*/\nFieldsWidget.prototype.execute = function() {\n\t// Get parameters from our attributes\n\tthis.tiddlerTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.template = this.getAttribute(\&quot;template\&quot;);\n\tthis.exclude = this.getAttribute(\&quot;exclude\&quot;);\n\tthis.stripTitlePrefix = this.getAttribute(\&quot;stripTitlePrefix\&quot;,\&quot;no\&quot;) === \&quot;yes\&quot;;\n\t// Get the value to display\n\tvar tiddler = this.wiki.getTiddler(this.tiddlerTitle);\n\t// Get the exclusion list\n\tvar exclude;\n\tif(this.exclude) {\n\t\texclude = this.exclude.split(\&quot; \&quot;);\n\t} else {\n\t\texclude = [\&quot;text\&quot;]; \n\t}\n\t// Compose the template\n\tvar text = [];\n\tif(this.template &amp;&amp; tiddler) {\n\t\tvar fields = [];\n\t\tfor(var fieldName in tiddler.fields) {\n\t\t\tif(exclude.indexOf(fieldName) === -1) {\n\t\t\t\tfields.push(fieldName);\n\t\t\t}\n\t\t}\n\t\tfields.sort();\n\t\tfor(var f=0; f&lt;fields.length; f++) {\n\t\t\tfieldName = fields[f];\n\t\t\tif(exclude.indexOf(fieldName) === -1) {\n\t\t\t\tvar row = this.template,\n\t\t\t\t\tvalue = tiddler.getFieldString(fieldName);\n\t\t\t\tif(this.stripTitlePrefix &amp;&amp; fieldName === \&quot;title\&quot;) {\n\t\t\t\t\tvar reStrip = /^\\{[^\\}]+\\}(.+)/mg,\n\t\t\t\t\t\treMatch = reStrip.exec(value);\n\t\t\t\t\tif(reMatch) {\n\t\t\t\t\t\tvalue = reMatch[1];\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\trow = row.replace(\&quot;$name$\&quot;,fieldName);\n\t\t\t\trow = row.replace(\&quot;$value$\&quot;,value);\n\t\t\t\trow = row.replace(\&quot;$encoded_value$\&quot;,$tw.utils.htmlEncode(value));\n\t\t\t\ttext.push(row);\n\t\t\t}\n\t\t}\n\t}\n\tthis.text = text.join(\&quot;\&quot;);\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nFieldsWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.tiddler || changedAttributes.template || changedAttributes.exclude || changedAttributes.stripTitlePrefix || changedTiddlers[this.tiddlerTitle]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn false;\t\n\t}\n};\n\nexports.fields = FieldsWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/fields.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/image.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/image.js\ntype: application/javascript\nmodule-type: widget\n\nThe image widget displays an image referenced with an external URI or with a local tiddler title.\n\n```\n&lt;$image src=\&quot;TiddlerTitle\&quot; width=\&quot;320\&quot; height=\&quot;400\&quot; class=\&quot;classnames\&quot;&gt;\n```\n\nThe image source can be the title of an existing tiddler or the URL of an external image.\n\nExternal images always generate an HTML `&lt;img&gt;` tag.\n\nTiddlers that have a _canonical_uri field generate an HTML `&lt;img&gt;` tag with the src attribute containing the URI.\n\nTiddlers that contain image data generate an HTML `&lt;img&gt;` tag with the src attribute containing a base64 representation of the image.\n\nTiddlers that contain wikitext could be rendered to a DIV of the usual size of a tiddler, and then transformed to the size requested.\n\nThe width and height attributes are interpreted as a number of pixels, and do not need to include the \&quot;px\&quot; suffix.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar ImageWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nImageWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nImageWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\t// Create element\n\t// Determine what type of image it is\n\tvar tag = \&quot;img\&quot;, src = \&quot;\&quot;,\n\t\ttiddler = this.wiki.getTiddler(this.imageSource);\n\tif(!tiddler) {\n\t\t// The source isn't the title of a tiddler, so we'll assume it's a URL\n\t\tsrc = this.getVariable(\&quot;tv-get-export-image-link\&quot;,{params: [{name: \&quot;src\&quot;,value: this.imageSource}],defaultValue: this.imageSource});\n\t} else {\n\t\t// Check if it is an image tiddler\n\t\tif(this.wiki.isImageTiddler(this.imageSource)) {\n\t\t\tvar type = tiddler.fields.type,\n\t\t\t\ttext = tiddler.fields.text,\n\t\t\t\t_canonical_uri = tiddler.fields._canonical_uri;\n\t\t\t// If the tiddler has body text then it doesn't need to be lazily loaded\n\t\t\tif(text) {\n\t\t\t\t// Render the appropriate element for the image type\n\t\t\t\tswitch(type) {\n\t\t\t\t\tcase \&quot;application/pdf\&quot;:\n\t\t\t\t\t\ttag = \&quot;embed\&quot;;\n\t\t\t\t\t\tsrc = \&quot;data:application/pdf;base64,\&quot; + text;\n\t\t\t\t\t\tbreak;\n\t\t\t\t\tcase \&quot;image/svg+xml\&quot;:\n\t\t\t\t\t\tsrc = \&quot;data:image/svg+xml,\&quot; + encodeURIComponent(text);\n\t\t\t\t\t\tbreak;\n\t\t\t\t\tdefault:\n\t\t\t\t\t\tsrc = \&quot;data:\&quot; + type + \&quot;;base64,\&quot; + text;\n\t\t\t\t\t\tbreak;\n\t\t\t\t}\n\t\t\t} else if(_canonical_uri) {\n\t\t\t\tswitch(type) {\n\t\t\t\t\tcase \&quot;application/pdf\&quot;:\n\t\t\t\t\t\ttag = \&quot;embed\&quot;;\n\t\t\t\t\t\tsrc = _canonical_uri;\n\t\t\t\t\t\tbreak;\n\t\t\t\t\tcase \&quot;image/svg+xml\&quot;:\n\t\t\t\t\t\tsrc = _canonical_uri;\n\t\t\t\t\t\tbreak;\n\t\t\t\t\tdefault:\n\t\t\t\t\t\tsrc = _canonical_uri;\n\t\t\t\t\t\tbreak;\n\t\t\t\t}\t\n\t\t\t}\n\t\t}\n\t}\n\t// Create the element and assign the attributes\n\tvar domNode = this.document.createElement(tag);\n\tdomNode.setAttribute(\&quot;src\&quot;,src);\n\tif(this.imageClass) {\n\t\tdomNode.setAttribute(\&quot;class\&quot;,this.imageClass);\t\t\n\t}\n\tif(this.imageWidth) {\n\t\tdomNode.setAttribute(\&quot;width\&quot;,this.imageWidth);\n\t}\n\tif(this.imageHeight) {\n\t\tdomNode.setAttribute(\&quot;height\&quot;,this.imageHeight);\n\t}\n\tif(this.imageTooltip) {\n\t\tdomNode.setAttribute(\&quot;title\&quot;,this.imageTooltip);\t\t\n\t}\n\tif(this.imageAlt) {\n\t\tdomNode.setAttribute(\&quot;alt\&quot;,this.imageAlt);\t\t\n\t}\n\t// Insert element\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.domNodes.push(domNode);\n};\n\n/*\nCompute the internal state of the widget\n*/\nImageWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.imageSource = this.getAttribute(\&quot;source\&quot;);\n\tthis.imageWidth = this.getAttribute(\&quot;width\&quot;);\n\tthis.imageHeight = this.getAttribute(\&quot;height\&quot;);\n\tthis.imageClass = this.getAttribute(\&quot;class\&quot;);\n\tthis.imageTooltip = this.getAttribute(\&quot;tooltip\&quot;);\n\tthis.imageAlt = this.getAttribute(\&quot;alt\&quot;);\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nImageWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.source || changedAttributes.width || changedAttributes.height || changedAttributes[\&quot;class\&quot;] || changedAttributes.tooltip || changedTiddlers[this.imageSource]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn false;\t\t\n\t}\n};\n\nexports.image = ImageWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/image.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/importvariables.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/importvariables.js\ntype: application/javascript\nmodule-type: widget\n\nImport variable definitions from other tiddlers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar ImportVariablesWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nImportVariablesWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nImportVariablesWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nImportVariablesWidget.prototype.execute = function(tiddlerList) {\n\tvar self = this;\n\t// Get our parameters\n\tthis.filter = this.getAttribute(\&quot;filter\&quot;);\n\t// Compute the filter\n\tthis.tiddlerList = tiddlerList || this.wiki.filterTiddlers(this.filter,this);\n\t// Accumulate the &lt;$set&gt; widgets from each tiddler\n\tvar widgetStackStart,widgetStackEnd;\n\tfunction addWidgetNode(widgetNode) {\n\t\tif(widgetNode) {\n\t\t\tif(!widgetStackStart &amp;&amp; !widgetStackEnd) {\n\t\t\t\twidgetStackStart = widgetNode;\n\t\t\t\twidgetStackEnd = widgetNode;\n\t\t\t} else {\n\t\t\t\twidgetStackEnd.children = [widgetNode];\n\t\t\t\twidgetStackEnd = widgetNode;\n\t\t\t}\n\t\t}\n\t}\n\t$tw.utils.each(this.tiddlerList,function(title) {\n\t\tvar parser = self.wiki.parseTiddler(title);\n\t\tif(parser) {\n\t\t\tvar parseTreeNode = parser.tree[0];\n\t\t\twhile(parseTreeNode &amp;&amp; parseTreeNode.type === \&quot;set\&quot;) {\n\t\t\t\taddWidgetNode({\n\t\t\t\t\ttype: \&quot;set\&quot;,\n\t\t\t\t\tattributes: parseTreeNode.attributes,\n\t\t\t\t\tparams: parseTreeNode.params\n\t\t\t\t});\n\t\t\t\tparseTreeNode = parseTreeNode.children[0];\n\t\t\t}\n\t\t} \n\t});\n\t// Add our own children to the end of the pile\n\tvar parseTreeNodes;\n\tif(widgetStackStart &amp;&amp; widgetStackEnd) {\n\t\tparseTreeNodes = [widgetStackStart];\n\t\twidgetStackEnd.children = this.parseTreeNode.children;\n\t} else {\n\t\tparseTreeNodes = this.parseTreeNode.children;\n\t}\n\t// Construct the child widgets\n\tthis.makeChildWidgets(parseTreeNodes);\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nImportVariablesWidget.prototype.refresh = function(changedTiddlers) {\n\t// Recompute our attributes and the filter list\n\tvar changedAttributes = this.computeAttributes(),\n\t\ttiddlerList = this.wiki.filterTiddlers(this.getAttribute(\&quot;filter\&quot;),this);\n\t// Refresh if the filter has changed, or the list of tiddlers has changed, or any of the tiddlers in the list has changed\n\tfunction haveListedTiddlersChanged() {\n\t\tvar changed = false;\n\t\ttiddlerList.forEach(function(title) {\n\t\t\tif(changedTiddlers[title]) {\n\t\t\t\tchanged = true;\n\t\t\t}\n\t\t});\n\t\treturn changed;\n\t}\n\tif(changedAttributes.filter || !$tw.utils.isArrayEqual(this.tiddlerList,tiddlerList) || haveListedTiddlersChanged()) {\n\t\t// Compute the filter\n\t\tthis.removeChildDomNodes();\n\t\tthis.execute(tiddlerList);\n\t\tthis.renderChildren(this.parentDomNode,this.findNextSiblingDomNode());\n\t\treturn true;\n\t} else {\n\t\treturn this.refreshChildren(changedTiddlers);\t\t\n\t}\n};\n\nexports.importvariables = ImportVariablesWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/importvariables.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/keyboard.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/keyboard.js\ntype: application/javascript\nmodule-type: widget\n\nKeyboard shortcut widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar KeyboardWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nKeyboardWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nKeyboardWidget.prototype.render = function(parent,nextSibling) {\n\tvar self = this;\n\t// Remember parent\n\tthis.parentDomNode = parent;\n\t// Compute attributes and execute state\n\tthis.computeAttributes();\n\tthis.execute();\n\t// Create element\n\tvar domNode = this.document.createElement(\&quot;div\&quot;);\n\t// Assign classes\n\tvar classes = (this[\&quot;class\&quot;] || \&quot;\&quot;).split(\&quot; \&quot;);\n\tclasses.push(\&quot;tc-keyboard\&quot;);\n\tdomNode.className = classes.join(\&quot; \&quot;);\n\t// Add a keyboard event handler\n\tdomNode.addEventListener(\&quot;keydown\&quot;,function (event) {\n\t\tif($tw.utils.checkKeyDescriptor(event,self.keyInfo)) {\n\t\t\tself.invokeActions(this,event);\n\t\t\tself.dispatchMessage(event);\n\t\t\tevent.preventDefault();\n\t\t\tevent.stopPropagation();\n\t\t\treturn true;\n\t\t}\n\t\treturn false;\n\t},false);\n\t// Insert element\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.renderChildren(domNode,null);\n\tthis.domNodes.push(domNode);\n};\n\nKeyboardWidget.prototype.dispatchMessage = function(event) {\n\tthis.dispatchEvent({type: this.message, param: this.param, tiddlerTitle: this.getVariable(\&quot;currentTiddler\&quot;)});\n};\n\n/*\nCompute the internal state of the widget\n*/\nKeyboardWidget.prototype.execute = function() {\n\t// Get attributes\n\tthis.message = this.getAttribute(\&quot;message\&quot;);\n\tthis.param = this.getAttribute(\&quot;param\&quot;);\n\tthis.key = this.getAttribute(\&quot;key\&quot;);\n\tthis.keyInfo = $tw.utils.parseKeyDescriptor(this.key);\n\tthis[\&quot;class\&quot;] = this.getAttribute(\&quot;class\&quot;);\n\t// Make child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nKeyboardWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.message || changedAttributes.param || changedAttributes.key || changedAttributes[\&quot;class\&quot;]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n\nexports.keyboard = KeyboardWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/keyboard.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/link.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/link.js\ntype: application/javascript\nmodule-type: widget\n\nLink widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar LinkWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nLinkWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nLinkWidget.prototype.render = function(parent,nextSibling) {\n\t// Save the parent dom node\n\tthis.parentDomNode = parent;\n\t// Compute our attributes\n\tthis.computeAttributes();\n\t// Execute our logic\n\tthis.execute();\n\t// Get the value of the tv-wikilinks configuration macro\n\tvar wikiLinksMacro = this.getVariable(\&quot;tv-wikilinks\&quot;),\n\t\tuseWikiLinks = wikiLinksMacro ? (wikiLinksMacro.trim() !== \&quot;no\&quot;) : true;\n\t// Render the link if required\n\tif(useWikiLinks) {\n\t\tthis.renderLink(parent,nextSibling);\n\t} else {\n\t\t// Just insert the link text\n\t\tvar domNode = this.document.createElement(\&quot;span\&quot;);\n\t\tparent.insertBefore(domNode,nextSibling);\n\t\tthis.renderChildren(domNode,null);\n\t\tthis.domNodes.push(domNode);\n\t}\n};\n\n/*\nRender this widget into the DOM\n*/\nLinkWidget.prototype.renderLink = function(parent,nextSibling) {\n\tvar self = this;\n\t// Sanitise the specified tag\n\tvar tag = this.linkTag;\n\tif($tw.config.htmlUnsafeElements.indexOf(tag) !== -1) {\n\t\ttag = \&quot;a\&quot;;\n\t}\n\t// Create our element\n\tvar domNode = this.document.createElement(tag);\n\t// Assign classes\n\tvar classes = [];\n\tif(this.linkClasses) {\n\t\tclasses.push(this.linkClasses);\n\t}\n\tclasses.push(\&quot;tc-tiddlylink\&quot;);\n\tif(this.isShadow) {\n\t\tclasses.push(\&quot;tc-tiddlylink-shadow\&quot;);\n\t}\n\tif(this.isMissing &amp;&amp; !this.isShadow) {\n\t\tclasses.push(\&quot;tc-tiddlylink-missing\&quot;);\n\t} else {\n\t\tif(!this.isMissing) {\n\t\t\tclasses.push(\&quot;tc-tiddlylink-resolves\&quot;);\n\t\t}\n\t}\n\tdomNode.setAttribute(\&quot;class\&quot;,classes.join(\&quot; \&quot;));\n\t// Set an href\n\tvar wikiLinkTemplateMacro = this.getVariable(\&quot;tv-wikilink-template\&quot;),\n\t\twikiLinkTemplate = wikiLinkTemplateMacro ? wikiLinkTemplateMacro.trim() : \&quot;#$uri_encoded$\&quot;,\n\t\twikiLinkText = wikiLinkTemplate.replace(\&quot;$uri_encoded$\&quot;,encodeURIComponent(this.to));\n\twikiLinkText = wikiLinkText.replace(\&quot;$uri_doubleencoded$\&quot;,encodeURIComponent(encodeURIComponent(this.to)));\n\twikiLinkText = this.getVariable(\&quot;tv-get-export-link\&quot;,{params: [{name: \&quot;to\&quot;,value: this.to}],defaultValue: wikiLinkText});\n\tif(tag === \&quot;a\&quot;) {\n\t\tdomNode.setAttribute(\&quot;href\&quot;,wikiLinkText);\n\t}\n\tif(this.tabIndex) {\n\t\tdomNode.setAttribute(\&quot;tabindex\&quot;,this.tabIndex);\n\t}\n\t// Set the tooltip\n\t// HACK: Performance issues with re-parsing the tooltip prevent us defaulting the tooltip to \&quot;&lt;$transclude field='tooltip'&gt;&lt;$transclude field='title'/&gt;&lt;/$transclude&gt;\&quot;\n\tvar tooltipWikiText = this.tooltip || this.getVariable(\&quot;tv-wikilink-tooltip\&quot;);\n\tif(tooltipWikiText) {\n\t\tvar tooltipText = this.wiki.renderText(\&quot;text/plain\&quot;,\&quot;text/vnd.tiddlywiki\&quot;,tooltipWikiText,{\n\t\t\t\tparseAsInline: true,\n\t\t\t\tvariables: {\n\t\t\t\t\tcurrentTiddler: this.to\n\t\t\t\t},\n\t\t\t\tparentWidget: this\n\t\t\t});\n\t\tdomNode.setAttribute(\&quot;title\&quot;,tooltipText);\n\t}\n\tif(this[\&quot;aria-label\&quot;]) {\n\t\tdomNode.setAttribute(\&quot;aria-label\&quot;,this[\&quot;aria-label\&quot;]);\n\t}\n\t// Add a click event handler\n\t$tw.utils.addEventListeners(domNode,[\n\t\t{name: \&quot;click\&quot;, handlerObject: this, handlerMethod: \&quot;handleClickEvent\&quot;},\n\t]);\n\tif(this.draggable === \&quot;yes\&quot;) {\n\t\t$tw.utils.addEventListeners(domNode,[\n\t\t\t{name: \&quot;dragstart\&quot;, handlerObject: this, handlerMethod: \&quot;handleDragStartEvent\&quot;},\n\t\t\t{name: \&quot;dragend\&quot;, handlerObject: this, handlerMethod: \&quot;handleDragEndEvent\&quot;}\n\t\t]);\n\t}\n\t// Insert the link into the DOM and render any children\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.renderChildren(domNode,null);\n\tthis.domNodes.push(domNode);\n};\n\nLinkWidget.prototype.handleClickEvent = function(event) {\n\t// Send the click on its way as a navigate event\n\tvar bounds = this.domNodes[0].getBoundingClientRect();\n\tthis.dispatchEvent({\n\t\ttype: \&quot;tm-navigate\&quot;,\n\t\tnavigateTo: this.to,\n\t\tnavigateFromTitle: this.getVariable(\&quot;storyTiddler\&quot;),\n\t\tnavigateFromNode: this,\n\t\tnavigateFromClientRect: { top: bounds.top, left: bounds.left, width: bounds.width, right: bounds.right, bottom: bounds.bottom, height: bounds.height\n\t\t},\n\t\tnavigateSuppressNavigation: event.metaKey || event.ctrlKey || (event.button === 1)\n\t});\n\tif(this.domNodes[0].hasAttribute(\&quot;href\&quot;)) {\n\t\tevent.preventDefault();\n\t}\n\tevent.stopPropagation();\n\treturn false;\n};\n\nLinkWidget.prototype.handleDragStartEvent = function(event) {\n\tif(event.target === this.domNodes[0]) {\n\t\tif(this.to) {\n\t\t\t$tw.dragInProgress = true;\n\t\t\t// Set the dragging class on the element being dragged\n\t\t\t$tw.utils.addClass(event.target,\&quot;tc-tiddlylink-dragging\&quot;);\n\t\t\t// Create the drag image elements\n\t\t\tthis.dragImage = this.document.createElement(\&quot;div\&quot;);\n\t\t\tthis.dragImage.className = \&quot;tc-tiddler-dragger\&quot;;\n\t\t\tvar inner = this.document.createElement(\&quot;div\&quot;);\n\t\t\tinner.className = \&quot;tc-tiddler-dragger-inner\&quot;;\n\t\t\tinner.appendChild(this.document.createTextNode(this.to));\n\t\t\tthis.dragImage.appendChild(inner);\n\t\t\tthis.document.body.appendChild(this.dragImage);\n\t\t\t// Astoundingly, we need to cover the dragger up: http://www.kryogenix.org/code/browser/custom-drag-image.html\n\t\t\tvar cover = this.document.createElement(\&quot;div\&quot;);\n\t\t\tcover.className = \&quot;tc-tiddler-dragger-cover\&quot;;\n\t\t\tcover.style.left = (inner.offsetLeft - 16) + \&quot;px\&quot;;\n\t\t\tcover.style.top = (inner.offsetTop - 16) + \&quot;px\&quot;;\n\t\t\tcover.style.width = (inner.offsetWidth + 32) + \&quot;px\&quot;;\n\t\t\tcover.style.height = (inner.offsetHeight + 32) + \&quot;px\&quot;;\n\t\t\tthis.dragImage.appendChild(cover);\n\t\t\t// Set the data transfer properties\n\t\t\tvar dataTransfer = event.dataTransfer;\n\t\t\t// First the image\n\t\t\tdataTransfer.effectAllowed = \&quot;copy\&quot;;\n\t\t\tif(dataTransfer.setDragImage) {\n\t\t\t\tdataTransfer.setDragImage(this.dragImage.firstChild,-16,-16);\n\t\t\t}\n\t\t\t// Then the data\n\t\t\tdataTransfer.clearData();\n\t\t\tvar jsonData = this.wiki.getTiddlerAsJson(this.to),\n\t\t\t\ttextData = this.wiki.getTiddlerText(this.to,\&quot;\&quot;),\n\t\t\t\ttitle = (new RegExp(\&quot;^\&quot; + $tw.config.textPrimitives.wikiLink + \&quot;$\&quot;,\&quot;mg\&quot;)).exec(this.to) ? this.to : \&quot;[[\&quot; + this.to + \&quot;]]\&quot;;\n\t\t\t// IE doesn't like these content types\n\t\t\tif(!$tw.browser.isIE) {\n\t\t\t\tdataTransfer.setData(\&quot;text/vnd.tiddler\&quot;,jsonData);\n\t\t\t\tdataTransfer.setData(\&quot;text/plain\&quot;,title);\n\t\t\t\tdataTransfer.setData(\&quot;text/x-moz-url\&quot;,\&quot;data:text/vnd.tiddler,\&quot; + encodeURIComponent(jsonData));\n\t\t\t}\n\t\t\tdataTransfer.setData(\&quot;URL\&quot;,\&quot;data:text/vnd.tiddler,\&quot; + encodeURIComponent(jsonData));\n\t\t\tdataTransfer.setData(\&quot;Text\&quot;,title);\n\t\t\tevent.stopPropagation();\n\t\t} else {\n\t\t\tevent.preventDefault();\n\t\t}\n\t}\n};\n\nLinkWidget.prototype.handleDragEndEvent = function(event) {\n\tif(event.target === this.domNodes[0]) {\n\t\t$tw.dragInProgress = false;\n\t\t// Remove the dragging class on the element being dragged\n\t\t$tw.utils.removeClass(event.target,\&quot;tc-tiddlylink-dragging\&quot;);\n\t\t// Delete the drag image element\n\t\tif(this.dragImage) {\n\t\t\tthis.dragImage.parentNode.removeChild(this.dragImage);\n\t\t}\n\t}\n};\n\n/*\nCompute the internal state of the widget\n*/\nLinkWidget.prototype.execute = function() {\n\t// Pick up our attributes\n\tthis.to = this.getAttribute(\&quot;to\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.tooltip = this.getAttribute(\&quot;tooltip\&quot;);\n\tthis[\&quot;aria-label\&quot;] = this.getAttribute(\&quot;aria-label\&quot;);\n\tthis.linkClasses = this.getAttribute(\&quot;class\&quot;);\n\tthis.tabIndex = this.getAttribute(\&quot;tabindex\&quot;);\n\tthis.draggable = this.getAttribute(\&quot;draggable\&quot;,\&quot;yes\&quot;);\n\tthis.linkTag = this.getAttribute(\&quot;tag\&quot;,\&quot;a\&quot;);\n\t// Determine the link characteristics\n\tthis.isMissing = !this.wiki.tiddlerExists(this.to);\n\tthis.isShadow = this.wiki.isShadowTiddler(this.to);\n\t// Make the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nLinkWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.to || changedTiddlers[this.to] || changedAttributes[\&quot;aria-label\&quot;] || changedAttributes.tooltip) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n\nexports.link = LinkWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/link.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/linkcatcher.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/linkcatcher.js\ntype: application/javascript\nmodule-type: widget\n\nLinkcatcher widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar LinkCatcherWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n\tthis.addEventListeners([\n\t\t{type: \&quot;tm-navigate\&quot;, handler: \&quot;handleNavigateEvent\&quot;}\n\t]);\n};\n\n/*\nInherit from the base widget class\n*/\nLinkCatcherWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nLinkCatcherWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nLinkCatcherWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.catchTo = this.getAttribute(\&quot;to\&quot;);\n\tthis.catchMessage = this.getAttribute(\&quot;message\&quot;);\n\tthis.catchSet = this.getAttribute(\&quot;set\&quot;);\n\tthis.catchSetTo = this.getAttribute(\&quot;setTo\&quot;);\n\t// Construct the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nLinkCatcherWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.to || changedAttributes.message || changedAttributes.set || changedAttributes.setTo) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn this.refreshChildren(changedTiddlers);\t\t\n\t}\n};\n\n/*\nHandle a tm-navigate event\n*/\nLinkCatcherWidget.prototype.handleNavigateEvent = function(event) {\n\tif(this.catchTo) {\n\t\tthis.wiki.setTextReference(this.catchTo,event.navigateTo,this.getVariable(\&quot;currentTiddler\&quot;));\n\t}\n\tif(this.catchMessage &amp;&amp; this.parentWidget) {\n\t\tthis.parentWidget.dispatchEvent({\n\t\t\ttype: this.catchMessage,\n\t\t\tparam: event.navigateTo,\n\t\t\tnavigateTo: event.navigateTo\n\t\t});\n\t}\n\tif(this.catchSet) {\n\t\tvar tiddler = this.wiki.getTiddler(this.catchSet);\n\t\tthis.wiki.addTiddler(new $tw.Tiddler(tiddler,{title: this.catchSet, text: this.catchSetTo}));\n\t}\n\treturn false;\n};\n\nexports.linkcatcher = LinkCatcherWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/linkcatcher.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/list.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/list.js\ntype: application/javascript\nmodule-type: widget\n\nList and list item widgets\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\n/*\nThe list widget creates list element sub-widgets that reach back into the list widget for their configuration\n*/\n\nvar ListWidget = function(parseTreeNode,options) {\n\t// Initialise the storyviews if they've not been done already\n\tif(!this.storyViews) {\n\t\tListWidget.prototype.storyViews = {};\n\t\t$tw.modules.applyMethods(\&quot;storyview\&quot;,this.storyViews);\n\t}\n\t// Main initialisation inherited from widget.js\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nListWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nListWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n\t// Construct the storyview\n\tvar StoryView = this.storyViews[this.storyViewName];\n\tif(StoryView &amp;&amp; !this.document.isTiddlyWikiFakeDom) {\n\t\tthis.storyview = new StoryView(this);\n\t} else {\n\t\tthis.storyview = null;\n\t}\n};\n\n/*\nCompute the internal state of the widget\n*/\nListWidget.prototype.execute = function() {\n\t// Get our attributes\n\tthis.template = this.getAttribute(\&quot;template\&quot;);\n\tthis.editTemplate = this.getAttribute(\&quot;editTemplate\&quot;);\n\tthis.variableName = this.getAttribute(\&quot;variable\&quot;,\&quot;currentTiddler\&quot;);\n\tthis.storyViewName = this.getAttribute(\&quot;storyview\&quot;);\n\tthis.historyTitle = this.getAttribute(\&quot;history\&quot;);\n\t// Compose the list elements\n\tthis.list = this.getTiddlerList();\n\tvar members = [],\n\t\tself = this;\n\t// Check for an empty list\n\tif(this.list.length === 0) {\n\t\tmembers = this.getEmptyMessage();\n\t} else {\n\t\t$tw.utils.each(this.list,function(title,index) {\n\t\t\tmembers.push(self.makeItemTemplate(title));\n\t\t});\n\t}\n\t// Construct the child widgets\n\tthis.makeChildWidgets(members);\n\t// Clear the last history\n\tthis.history = [];\n};\n\nListWidget.prototype.getTiddlerList = function() {\n\tvar defaultFilter = \&quot;[!is[system]sort[title]]\&quot;;\n\treturn this.wiki.filterTiddlers(this.getAttribute(\&quot;filter\&quot;,defaultFilter),this);\n};\n\nListWidget.prototype.getEmptyMessage = function() {\n\tvar emptyMessage = this.getAttribute(\&quot;emptyMessage\&quot;,\&quot;\&quot;),\n\t\tparser = this.wiki.parseText(\&quot;text/vnd.tiddlywiki\&quot;,emptyMessage,{parseAsInline: true});\n\tif(parser) {\n\t\treturn parser.tree;\n\t} else {\n\t\treturn [];\n\t}\n};\n\n/*\nCompose the template for a list item\n*/\nListWidget.prototype.makeItemTemplate = function(title) {\n\t// Check if the tiddler is a draft\n\tvar tiddler = this.wiki.getTiddler(title),\n\t\tisDraft = tiddler &amp;&amp; tiddler.hasField(\&quot;draft.of\&quot;),\n\t\ttemplate = this.template,\n\t\ttemplateTree;\n\tif(isDraft &amp;&amp; this.editTemplate) {\n\t\ttemplate = this.editTemplate;\n\t}\n\t// Compose the transclusion of the template\n\tif(template) {\n\t\ttemplateTree = [{type: \&quot;transclude\&quot;, attributes: {tiddler: {type: \&quot;string\&quot;, value: template}}}];\n\t} else {\n\t\tif(this.parseTreeNode.children &amp;&amp; this.parseTreeNode.children.length &gt; 0) {\n\t\t\ttemplateTree = this.parseTreeNode.children;\n\t\t} else {\n\t\t\t// Default template is a link to the title\n\t\t\ttemplateTree = [{type: \&quot;element\&quot;, tag: this.parseTreeNode.isBlock ? \&quot;div\&quot; : \&quot;span\&quot;, children: [{type: \&quot;link\&quot;, attributes: {to: {type: \&quot;string\&quot;, value: title}}, children: [\n\t\t\t\t\t{type: \&quot;text\&quot;, text: title}\n\t\t\t]}]}];\n\t\t}\n\t}\n\t// Return the list item\n\treturn {type: \&quot;listitem\&quot;, itemTitle: title, variableName: this.variableName, children: templateTree};\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nListWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes(),\n\t\tresult;\n\t// Call the storyview\n\tif(this.storyview &amp;&amp; this.storyview.refreshStart) {\n\t\tthis.storyview.refreshStart(changedTiddlers,changedAttributes);\n\t}\n\t// Completely refresh if any of our attributes have changed\n\tif(changedAttributes.filter || changedAttributes.template || changedAttributes.editTemplate || changedAttributes.emptyMessage || changedAttributes.storyview || changedAttributes.history) {\n\t\tthis.refreshSelf();\n\t\tresult = true;\n\t} else {\n\t\t// Handle any changes to the list\n\t\tresult = this.handleListChanges(changedTiddlers);\n\t\t// Handle any changes to the history stack\n\t\tif(this.historyTitle &amp;&amp; changedTiddlers[this.historyTitle]) {\n\t\t\tthis.handleHistoryChanges();\n\t\t}\n\t}\n\t// Call the storyview\n\tif(this.storyview &amp;&amp; this.storyview.refreshEnd) {\n\t\tthis.storyview.refreshEnd(changedTiddlers,changedAttributes);\n\t}\n\treturn result;\n};\n\n/*\nHandle any changes to the history list\n*/\nListWidget.prototype.handleHistoryChanges = function() {\n\t// Get the history data\n\tvar newHistory = this.wiki.getTiddlerDataCached(this.historyTitle,[]);\n\t// Ignore any entries of the history that match the previous history\n\tvar entry = 0;\n\twhile(entry &lt; newHistory.length &amp;&amp; entry &lt; this.history.length &amp;&amp; newHistory[entry].title === this.history[entry].title) {\n\t\tentry++;\n\t}\n\t// Navigate forwards to each of the new tiddlers\n\twhile(entry &lt; newHistory.length) {\n\t\tif(this.storyview &amp;&amp; this.storyview.navigateTo) {\n\t\t\tthis.storyview.navigateTo(newHistory[entry]);\n\t\t}\n\t\tentry++;\n\t}\n\t// Update the history\n\tthis.history = newHistory;\n};\n\n/*\nProcess any changes to the list\n*/\nListWidget.prototype.handleListChanges = function(changedTiddlers) {\n\t// Get the new list\n\tvar prevList = this.list;\n\tthis.list = this.getTiddlerList();\n\t// Check for an empty list\n\tif(this.list.length === 0) {\n\t\t// Check if it was empty before\n\t\tif(prevList.length === 0) {\n\t\t\t// If so, just refresh the empty message\n\t\t\treturn this.refreshChildren(changedTiddlers);\n\t\t} else {\n\t\t\t// Replace the previous content with the empty message\n\t\t\tfor(t=this.children.length-1; t&gt;=0; t--) {\n\t\t\t\tthis.removeListItem(t);\n\t\t\t}\n\t\t\tvar nextSibling = this.findNextSiblingDomNode();\n\t\t\tthis.makeChildWidgets(this.getEmptyMessage());\n\t\t\tthis.renderChildren(this.parentDomNode,nextSibling);\n\t\t\treturn true;\n\t\t}\n\t} else {\n\t\t// If the list was empty then we need to remove the empty message\n\t\tif(prevList.length === 0) {\n\t\t\tthis.removeChildDomNodes();\n\t\t\tthis.children = [];\n\t\t}\n\t\t// Cycle through the list, inserting and removing list items as needed\n\t\tvar hasRefreshed = false;\n\t\tfor(var t=0; t&lt;this.list.length; t++) {\n\t\t\tvar index = this.findListItem(t,this.list[t]);\n\t\t\tif(index === undefined) {\n\t\t\t\t// The list item must be inserted\n\t\t\t\tthis.insertListItem(t,this.list[t]);\n\t\t\t\thasRefreshed = true;\n\t\t\t} else {\n\t\t\t\t// There are intervening list items that must be removed\n\t\t\t\tfor(var n=index-1; n&gt;=t; n--) {\n\t\t\t\t\tthis.removeListItem(n);\n\t\t\t\t\thasRefreshed = true;\n\t\t\t\t}\n\t\t\t\t// Refresh the item we're reusing\n\t\t\t\tvar refreshed = this.children[t].refresh(changedTiddlers);\n\t\t\t\thasRefreshed = hasRefreshed || refreshed;\n\t\t\t}\n\t\t}\n\t\t// Remove any left over items\n\t\tfor(t=this.children.length-1; t&gt;=this.list.length; t--) {\n\t\t\tthis.removeListItem(t);\n\t\t\thasRefreshed = true;\n\t\t}\n\t\treturn hasRefreshed;\n\t}\n};\n\n/*\nFind the list item with a given title, starting from a specified position\n*/\nListWidget.prototype.findListItem = function(startIndex,title) {\n\twhile(startIndex &lt; this.children.length) {\n\t\tif(this.children[startIndex].parseTreeNode.itemTitle === title) {\n\t\t\treturn startIndex;\n\t\t}\n\t\tstartIndex++;\n\t}\n\treturn undefined;\n};\n\n/*\nInsert a new list item at the specified index\n*/\nListWidget.prototype.insertListItem = function(index,title) {\n\t// Create, insert and render the new child widgets\n\tvar widget = this.makeChildWidget(this.makeItemTemplate(title));\n\twidget.parentDomNode = this.parentDomNode; // Hack to enable findNextSiblingDomNode() to work\n\tthis.children.splice(index,0,widget);\n\tvar nextSibling = widget.findNextSiblingDomNode();\n\twidget.render(this.parentDomNode,nextSibling);\n\t// Animate the insertion if required\n\tif(this.storyview &amp;&amp; this.storyview.insert) {\n\t\tthis.storyview.insert(widget);\n\t}\n\treturn true;\n};\n\n/*\nRemove the specified list item\n*/\nListWidget.prototype.removeListItem = function(index) {\n\tvar widget = this.children[index];\n\t// Animate the removal if required\n\tif(this.storyview &amp;&amp; this.storyview.remove) {\n\t\tthis.storyview.remove(widget);\n\t} else {\n\t\twidget.removeChildDomNodes();\n\t}\n\t// Remove the child widget\n\tthis.children.splice(index,1);\n};\n\nexports.list = ListWidget;\n\nvar ListItemWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nListItemWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nListItemWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nListItemWidget.prototype.execute = function() {\n\t// Set the current list item title\n\tthis.setVariable(this.parseTreeNode.variableName,this.parseTreeNode.itemTitle);\n\t// Construct the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nListItemWidget.prototype.refresh = function(changedTiddlers) {\n\treturn this.refreshChildren(changedTiddlers);\n};\n\nexports.listitem = ListItemWidget;\n\n})();&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/list.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/macrocall.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/macrocall.js\ntype: application/javascript\nmodule-type: widget\n\nMacrocall widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar MacroCallWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nMacroCallWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nMacroCallWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nMacroCallWidget.prototype.execute = function() {\n\t// Get the parse type if specified\n\tthis.parseType = this.getAttribute(\&quot;$type\&quot;,\&quot;text/vnd.tiddlywiki\&quot;);\n\tthis.renderOutput = this.getAttribute(\&quot;$output\&quot;,\&quot;text/html\&quot;);\n\t// Merge together the parameters specified in the parse tree with the specified attributes\n\tvar params = this.parseTreeNode.params ? this.parseTreeNode.params.slice(0) : [];\n\t$tw.utils.each(this.attributes,function(attribute,name) {\n\t\tif(name.charAt(0) !== \&quot;$\&quot;) {\n\t\t\tparams.push({name: name, value: attribute});\t\t\t\n\t\t}\n\t});\n\t// Get the macro value\n\tvar text = this.getVariable(this.parseTreeNode.name || this.getAttribute(\&quot;$name\&quot;),{params: params}),\n\t\tparseTreeNodes;\n\t// Are we rendering to HTML?\n\tif(this.renderOutput === \&quot;text/html\&quot;) {\n\t\t// If so we'll return the parsed macro\n\t\tvar parser = this.wiki.parseText(this.parseType,text,\n\t\t\t\t\t\t\t{parseAsInline: !this.parseTreeNode.isBlock});\n\t\tparseTreeNodes = parser ? parser.tree : [];\n\t} else {\n\t\t// Otherwise, we'll render the text\n\t\tvar plainText = this.wiki.renderText(\&quot;text/plain\&quot;,this.parseType,text,{parentWidget: this});\n\t\tparseTreeNodes = [{type: \&quot;text\&quot;, text: plainText}];\n\t}\n\t// Construct the child widgets\n\tthis.makeChildWidgets(parseTreeNodes);\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nMacroCallWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif($tw.utils.count(changedAttributes) &gt; 0) {\n\t\t// Rerender ourselves\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn this.refreshChildren(changedTiddlers);\n\t}\n};\n\nexports.macrocall = MacroCallWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/macrocall.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/navigator.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/navigator.js\ntype: application/javascript\nmodule-type: widget\n\nNavigator widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar IMPORT_TITLE = \&quot;$:/Import\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar NavigatorWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n\tthis.addEventListeners([\n\t\t{type: \&quot;tm-navigate\&quot;, handler: \&quot;handleNavigateEvent\&quot;},\n\t\t{type: \&quot;tm-edit-tiddler\&quot;, handler: \&quot;handleEditTiddlerEvent\&quot;},\n\t\t{type: \&quot;tm-delete-tiddler\&quot;, handler: \&quot;handleDeleteTiddlerEvent\&quot;},\n\t\t{type: \&quot;tm-save-tiddler\&quot;, handler: \&quot;handleSaveTiddlerEvent\&quot;},\n\t\t{type: \&quot;tm-cancel-tiddler\&quot;, handler: \&quot;handleCancelTiddlerEvent\&quot;},\n\t\t{type: \&quot;tm-close-tiddler\&quot;, handler: \&quot;handleCloseTiddlerEvent\&quot;},\n\t\t{type: \&quot;tm-close-all-tiddlers\&quot;, handler: \&quot;handleCloseAllTiddlersEvent\&quot;},\n\t\t{type: \&quot;tm-close-other-tiddlers\&quot;, handler: \&quot;handleCloseOtherTiddlersEvent\&quot;},\n\t\t{type: \&quot;tm-new-tiddler\&quot;, handler: \&quot;handleNewTiddlerEvent\&quot;},\n\t\t{type: \&quot;tm-import-tiddlers\&quot;, handler: \&quot;handleImportTiddlersEvent\&quot;},\n\t\t{type: \&quot;tm-perform-import\&quot;, handler: \&quot;handlePerformImportEvent\&quot;},\n\t\t{type: \&quot;tm-fold-tiddler\&quot;, handler: \&quot;handleFoldTiddlerEvent\&quot;},\n\t\t{type: \&quot;tm-fold-other-tiddlers\&quot;, handler: \&quot;handleFoldOtherTiddlersEvent\&quot;},\n\t\t{type: \&quot;tm-fold-all-tiddlers\&quot;, handler: \&quot;handleFoldAllTiddlersEvent\&quot;},\n\t\t{type: \&quot;tm-unfold-all-tiddlers\&quot;, handler: \&quot;handleUnfoldAllTiddlersEvent\&quot;},\n\t\t{type: \&quot;tm-rename-tiddler\&quot;, handler: \&quot;handleRenameTiddlerEvent\&quot;}\n\t]);\n};\n\n/*\nInherit from the base widget class\n*/\nNavigatorWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nNavigatorWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nNavigatorWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.storyTitle = this.getAttribute(\&quot;story\&quot;);\n\tthis.historyTitle = this.getAttribute(\&quot;history\&quot;);\n\t// Construct the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nNavigatorWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.story || changedAttributes.history) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn this.refreshChildren(changedTiddlers);\t\t\n\t}\n};\n\nNavigatorWidget.prototype.getStoryList = function() {\n\treturn this.storyTitle ? this.wiki.getTiddlerList(this.storyTitle) : null;\n};\n\nNavigatorWidget.prototype.saveStoryList = function(storyList) {\n\tvar storyTiddler = this.wiki.getTiddler(this.storyTitle);\n\tthis.wiki.addTiddler(new $tw.Tiddler(\n\t\t{title: this.storyTitle},\n\t\tstoryTiddler,\n\t\t{list: storyList}\n\t));\n};\n\nNavigatorWidget.prototype.removeTitleFromStory = function(storyList,title) {\n\tvar p = storyList.indexOf(title);\n\twhile(p !== -1) {\n\t\tstoryList.splice(p,1);\n\t\tp = storyList.indexOf(title);\n\t}\n};\n\nNavigatorWidget.prototype.replaceFirstTitleInStory = function(storyList,oldTitle,newTitle) {\n\tvar pos = storyList.indexOf(oldTitle);\n\tif(pos !== -1) {\n\t\tstoryList[pos] = newTitle;\n\t\tdo {\n\t\t\tpos = storyList.indexOf(oldTitle,pos + 1);\n\t\t\tif(pos !== -1) {\n\t\t\t\tstoryList.splice(pos,1);\n\t\t\t}\n\t\t} while(pos !== -1);\n\t} else {\n\t\tstoryList.splice(0,0,newTitle);\n\t}\n};\n\nNavigatorWidget.prototype.addToStory = function(title,fromTitle) {\n\tvar storyList = this.getStoryList();\n\t// Quit if we cannot get hold of the story list\n\tif(!storyList) {\n\t\treturn;\n\t}\n\t// See if the tiddler is already there\n\tvar slot = storyList.indexOf(title);\n\t// Quit if it already exists in the story river\n\tif(slot &gt;= 0) {\n\t\treturn;\n\t}\n\t// First we try to find the position of the story element we navigated from\n\tvar fromIndex = storyList.indexOf(fromTitle);\n\tif(fromIndex &gt;= 0) {\n\t\t// The tiddler is added from inside the river\n\t\t// Determine where to insert the tiddler; Fallback is \&quot;below\&quot;\n\t\tswitch(this.getAttribute(\&quot;openLinkFromInsideRiver\&quot;,\&quot;below\&quot;)) {\n\t\t\tcase \&quot;top\&quot;:\n\t\t\t\tslot = 0;\n\t\t\t\tbreak;\n\t\t\tcase \&quot;bottom\&quot;:\n\t\t\t\tslot = storyList.length;\n\t\t\t\tbreak;\n\t\t\tcase \&quot;above\&quot;:\n\t\t\t\tslot = fromIndex;\n\t\t\t\tbreak;\n\t\t\tcase \&quot;below\&quot;: // Intentional fall-through\n\t\t\tdefault:\n\t\t\t\tslot = fromIndex + 1;\n\t\t\t\tbreak;\n\t\t}\n\t} else {\n\t\t// The tiddler is opened from outside the river. Determine where to insert the tiddler; default is \&quot;top\&quot;\n\t\tif(this.getAttribute(\&quot;openLinkFromOutsideRiver\&quot;,\&quot;top\&quot;) === \&quot;bottom\&quot;) {\n\t\t\t// Insert at bottom\n\t\t\tslot = storyList.length;\n\t\t} else {\n\t\t\t// Insert at top\n\t\t\tslot = 0;\n\t\t}\n\t}\n\t// Add the tiddler\n\tstoryList.splice(slot,0,title);\n\t// Save the story\n\tthis.saveStoryList(storyList);\n};\n\n/*\nAdd a new record to the top of the history stack\ntitle: a title string or an array of title strings\nfromPageRect: page coordinates of the origin of the navigation\n*/\nNavigatorWidget.prototype.addToHistory = function(title,fromPageRect) {\n\tthis.wiki.addToHistory(title,fromPageRect,this.historyTitle);\n};\n\n/*\nHandle a tm-navigate event\n*/\nNavigatorWidget.prototype.handleNavigateEvent = function(event) {\n\tif(event.navigateTo) {\n\t\tthis.addToStory(event.navigateTo,event.navigateFromTitle);\n\t\tif(!event.navigateSuppressNavigation) {\n\t\t\tthis.addToHistory(event.navigateTo,event.navigateFromClientRect);\n\t\t}\n\t}\n\treturn false;\n};\n\n// Close a specified tiddler\nNavigatorWidget.prototype.handleCloseTiddlerEvent = function(event) {\n\tvar title = event.param || event.tiddlerTitle,\n\t\tstoryList = this.getStoryList();\n\t// Look for tiddlers with this title to close\n\tthis.removeTitleFromStory(storyList,title);\n\tthis.saveStoryList(storyList);\n\treturn false;\n};\n\n// Close all tiddlers\nNavigatorWidget.prototype.handleCloseAllTiddlersEvent = function(event) {\n\tthis.saveStoryList([]);\n\treturn false;\n};\n\n// Close other tiddlers\nNavigatorWidget.prototype.handleCloseOtherTiddlersEvent = function(event) {\n\tvar title = event.param || event.tiddlerTitle;\n\tthis.saveStoryList([title]);\n\treturn false;\n};\n\n// Place a tiddler in edit mode\nNavigatorWidget.prototype.handleEditTiddlerEvent = function(event) {\n\tvar self = this;\n\tfunction isUnmodifiedShadow(title) {\n\t\treturn self.wiki.isShadowTiddler(title) &amp;&amp; !self.wiki.tiddlerExists(title);\n\t}\n\tfunction confirmEditShadow(title) {\n\t\treturn confirm($tw.language.getString(\n\t\t\t\&quot;ConfirmEditShadowTiddler\&quot;,\n\t\t\t{variables:\n\t\t\t\t{title: title}\n\t\t\t}\n\t\t));\n\t}\n\tvar title = event.param || event.tiddlerTitle;\n\tif(isUnmodifiedShadow(title) &amp;&amp; !confirmEditShadow(title)) {\n\t\treturn false;\n\t}\n\t// Replace the specified tiddler with a draft in edit mode\n\tvar draftTiddler = this.makeDraftTiddler(title);\n\t// Update the story and history if required\n\tif(!event.paramObject || event.paramObject.suppressNavigation !== \&quot;yes\&quot;) {\n\t\tvar draftTitle = draftTiddler.fields.title,\n\t\t\tstoryList = this.getStoryList();\n\t\tthis.removeTitleFromStory(storyList,draftTitle);\n\t\tthis.replaceFirstTitleInStory(storyList,title,draftTitle);\n\t\tthis.addToHistory(draftTitle,event.navigateFromClientRect);\n\t\tthis.saveStoryList(storyList);\n\t\treturn false;\n\t}\n};\n\n// Delete a tiddler\nNavigatorWidget.prototype.handleDeleteTiddlerEvent = function(event) {\n\t// Get the tiddler we're deleting\n\tvar title = event.param || event.tiddlerTitle,\n\t\ttiddler = this.wiki.getTiddler(title),\n\t\tstoryList = this.getStoryList(),\n\t\toriginalTitle = tiddler ? tiddler.fields[\&quot;draft.of\&quot;] : \&quot;\&quot;,\n\t\tconfirmationTitle;\n\tif(!tiddler) {\n\t\treturn false;\n\t}\n\t// Check if the tiddler we're deleting is in draft mode\n\tif(originalTitle) {\n\t\t// If so, we'll prompt for confirmation referencing the original tiddler\n\t\tconfirmationTitle = originalTitle;\n\t} else {\n\t\t// If not a draft, then prompt for confirmation referencing the specified tiddler\n\t\tconfirmationTitle = title;\n\t}\n\t// Seek confirmation\n\tif((this.wiki.getTiddler(originalTitle) || (tiddler.fields.text || \&quot;\&quot;) !== \&quot;\&quot;) &amp;&amp; !confirm($tw.language.getString(\n\t\t\t\t\&quot;ConfirmDeleteTiddler\&quot;,\n\t\t\t\t{variables:\n\t\t\t\t\t{title: confirmationTitle}\n\t\t\t\t}\n\t\t\t))) {\n\t\treturn false;\n\t}\n\t// Delete the original tiddler\n\tif(originalTitle) {\n\t\tthis.wiki.deleteTiddler(originalTitle);\n\t\tthis.removeTitleFromStory(storyList,originalTitle);\n\t}\n\t// Delete this tiddler\n\tthis.wiki.deleteTiddler(title);\n\t// Remove the closed tiddler from the story\n\tthis.removeTitleFromStory(storyList,title);\n\tthis.saveStoryList(storyList);\n\t// Trigger an autosave\n\t$tw.rootWidget.dispatchEvent({type: \&quot;tm-auto-save-wiki\&quot;});\n\treturn false;\n};\n\n/*\nCreate/reuse the draft tiddler for a given title\n*/\nNavigatorWidget.prototype.makeDraftTiddler = function(targetTitle) {\n\t// See if there is already a draft tiddler for this tiddler\n\tvar draftTitle = this.wiki.findDraft(targetTitle);\n\tif(draftTitle) {\n\t\treturn this.wiki.getTiddler(draftTitle);\n\t}\n\t// Get the current value of the tiddler we're editing\n\tvar tiddler = this.wiki.getTiddler(targetTitle);\n\t// Save the initial value of the draft tiddler\n\tdraftTitle = this.generateDraftTitle(targetTitle);\n\tvar draftTiddler = new $tw.Tiddler(\n\t\t\ttiddler,\n\t\t\t{\n\t\t\t\ttitle: draftTitle,\n\t\t\t\t\&quot;draft.title\&quot;: targetTitle,\n\t\t\t\t\&quot;draft.of\&quot;: targetTitle\n\t\t\t},\n\t\t\tthis.wiki.getModificationFields()\n\t\t);\n\tthis.wiki.addTiddler(draftTiddler);\n\treturn draftTiddler;\n};\n\n/*\nGenerate a title for the draft of a given tiddler\n*/\nNavigatorWidget.prototype.generateDraftTitle = function(title) {\n\tvar c = 0,\n\t\tdraftTitle;\n\tdo {\n\t\tdraftTitle = \&quot;Draft \&quot; + (c ? (c + 1) + \&quot; \&quot; : \&quot;\&quot;) + \&quot;of '\&quot; + title + \&quot;'\&quot;;\n\t\tc++;\n\t} while(this.wiki.tiddlerExists(draftTitle));\n\treturn draftTitle;\n};\n\n// Take a tiddler out of edit mode, saving the changes\nNavigatorWidget.prototype.handleSaveTiddlerEvent = function(event) {\n\tvar title = event.param || event.tiddlerTitle,\n\t\ttiddler = this.wiki.getTiddler(title),\n\t\tstoryList = this.getStoryList();\n\t// Replace the original tiddler with the draft\n\tif(tiddler) {\n\t\tvar draftTitle = (tiddler.fields[\&quot;draft.title\&quot;] || \&quot;\&quot;).trim(),\n\t\t\tdraftOf = (tiddler.fields[\&quot;draft.of\&quot;] || \&quot;\&quot;).trim();\n\t\tif(draftTitle) {\n\t\t\tvar isRename = draftOf !== draftTitle,\n\t\t\t\tisConfirmed = true;\n\t\t\tif(isRename &amp;&amp; this.wiki.tiddlerExists(draftTitle)) {\n\t\t\t\tisConfirmed = confirm($tw.language.getString(\n\t\t\t\t\t\&quot;ConfirmOverwriteTiddler\&quot;,\n\t\t\t\t\t{variables:\n\t\t\t\t\t\t{title: draftTitle}\n\t\t\t\t\t}\n\t\t\t\t));\n\t\t\t}\n\t\t\tif(isConfirmed) {\n\t\t\t\t// Create the new tiddler and pass it through the th-saving-tiddler hook\n\t\t\t\tvar newTiddler = new $tw.Tiddler(this.wiki.getCreationFields(),tiddler,{\n\t\t\t\t\ttitle: draftTitle,\n\t\t\t\t\t\&quot;draft.title\&quot;: undefined,\n\t\t\t\t\t\&quot;draft.of\&quot;: undefined\n\t\t\t\t},this.wiki.getModificationFields());\n\t\t\t\tnewTiddler = $tw.hooks.invokeHook(\&quot;th-saving-tiddler\&quot;,newTiddler);\n\t\t\t\tthis.wiki.addTiddler(newTiddler);\n\t\t\t\t// Remove the draft tiddler\n\t\t\t\tthis.wiki.deleteTiddler(title);\n\t\t\t\t// Remove the original tiddler if we're renaming it\n\t\t\t\tif(isRename) {\n\t\t\t\t\tthis.wiki.deleteTiddler(draftOf);\n\t\t\t\t}\n\t\t\t\tif(!event.paramObject || event.paramObject.suppressNavigation !== \&quot;yes\&quot;) {\n\t\t\t\t\t// Replace the draft in the story with the original\n\t\t\t\t\tthis.replaceFirstTitleInStory(storyList,title,draftTitle);\n\t\t\t\t\tthis.addToHistory(draftTitle,event.navigateFromClientRect);\n\t\t\t\t\tif(draftTitle !== this.storyTitle) {\n\t\t\t\t\t\tthis.saveStoryList(storyList);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\t// Trigger an autosave\n\t\t\t\t$tw.rootWidget.dispatchEvent({type: \&quot;tm-auto-save-wiki\&quot;});\n\t\t\t}\n\t\t}\n\t}\n\treturn false;\n};\n\n// Take a tiddler out of edit mode without saving the changes\nNavigatorWidget.prototype.handleCancelTiddlerEvent = function(event) {\n\t// Flip the specified tiddler from draft back to the original\n\tvar draftTitle = event.param || event.tiddlerTitle,\n\t\tdraftTiddler = this.wiki.getTiddler(draftTitle),\n\t\toriginalTitle = draftTiddler &amp;&amp; draftTiddler.fields[\&quot;draft.of\&quot;];\n\tif(draftTiddler &amp;&amp; originalTitle) {\n\t\t// Ask for confirmation if the tiddler text has changed\n\t\tvar isConfirmed = true,\n\t\t\toriginalTiddler = this.wiki.getTiddler(originalTitle),\n\t\t\tstoryList = this.getStoryList();\n\t\tif(this.wiki.isDraftModified(draftTitle)) {\n\t\t\tisConfirmed = confirm($tw.language.getString(\n\t\t\t\t\&quot;ConfirmCancelTiddler\&quot;,\n\t\t\t\t{variables:\n\t\t\t\t\t{title: draftTitle}\n\t\t\t\t}\n\t\t\t));\n\t\t}\n\t\t// Remove the draft tiddler\n\t\tif(isConfirmed) {\n\t\t\tthis.wiki.deleteTiddler(draftTitle);\n\t\t\tif(!event.paramObject || event.paramObject.suppressNavigation !== \&quot;yes\&quot;) {\n\t\t\t\tif(originalTiddler) {\n\t\t\t\t\tthis.replaceFirstTitleInStory(storyList,draftTitle,originalTitle);\n\t\t\t\t\tthis.addToHistory(originalTitle,event.navigateFromClientRect);\n\t\t\t\t} else {\n\t\t\t\t\tthis.removeTitleFromStory(storyList,draftTitle);\n\t\t\t\t}\n\t\t\t\tthis.saveStoryList(storyList);\n\t\t\t}\n\t\t}\n\t}\n\treturn false;\n};\n\n// Create a new draft tiddler\n// event.param can either be the title of a template tiddler, or a hashmap of fields.\n//\n// The title of the newly created tiddler follows these rules:\n// * If a hashmap was used and a title field was specified, use that title\n// * If a hashmap was used without a title field, use a default title, if necessary making it unique with a numeric suffix\n// * If a template tiddler was used, use the title of the template, if necessary making it unique with a numeric suffix\n//\n// If a draft of the target tiddler already exists then it is reused\nNavigatorWidget.prototype.handleNewTiddlerEvent = function(event) {\n\t// Get the story details\n\tvar storyList = this.getStoryList(),\n\t\ttemplateTiddler, additionalFields, title, draftTitle, existingTiddler;\n\t// Get the template tiddler (if any)\n\tif(typeof event.param === \&quot;string\&quot;) {\n\t\t// Get the template tiddler\n\t\ttemplateTiddler = this.wiki.getTiddler(event.param);\n\t\t// Generate a new title\n\t\ttitle = this.wiki.generateNewTitle(event.param || $tw.language.getString(\&quot;DefaultNewTiddlerTitle\&quot;));\n\t}\n\t// Get the specified additional fields\n\tif(typeof event.paramObject === \&quot;object\&quot;) {\n\t\tadditionalFields = event.paramObject;\n\t}\n\tif(typeof event.param === \&quot;object\&quot;) { // Backwards compatibility with 5.1.3\n\t\tadditionalFields = event.param;\n\t}\n\tif(additionalFields &amp;&amp; additionalFields.title) {\n\t\ttitle = additionalFields.title;\n\t}\n\t// Generate a title if we don't have one\n\ttitle = title || this.wiki.generateNewTitle($tw.language.getString(\&quot;DefaultNewTiddlerTitle\&quot;));\n\t// Find any existing draft for this tiddler\n\tdraftTitle = this.wiki.findDraft(title);\n\t// Pull in any existing tiddler\n\tif(draftTitle) {\n\t\texistingTiddler = this.wiki.getTiddler(draftTitle);\n\t} else {\n\t\tdraftTitle = this.generateDraftTitle(title);\n\t\texistingTiddler = this.wiki.getTiddler(title);\n\t}\n\t// Merge the tags\n\tvar mergedTags = [];\n\tif(existingTiddler &amp;&amp; existingTiddler.fields.tags) {\n\t\t$tw.utils.pushTop(mergedTags,existingTiddler.fields.tags)\n\t}\n\tif(additionalFields &amp;&amp; additionalFields.tags) {\n\t\t// Merge tags\n\t\tmergedTags = $tw.utils.pushTop(mergedTags,$tw.utils.parseStringArray(additionalFields.tags));\n\t}\n\tif(templateTiddler &amp;&amp; templateTiddler.fields.tags) {\n\t\t// Merge tags\n\t\tmergedTags = $tw.utils.pushTop(mergedTags,templateTiddler.fields.tags);\n\t}\n\t// Save the draft tiddler\n\tvar draftTiddler = new $tw.Tiddler({\n\t\t\ttext: \&quot;\&quot;,\n\t\t\t\&quot;draft.title\&quot;: title\n\t\t},\n\t\ttemplateTiddler,\n\t\texistingTiddler,\n\t\tadditionalFields,\n\t\tthis.wiki.getCreationFields(),\n\t\t{\n\t\t\ttitle: draftTitle,\n\t\t\t\&quot;draft.of\&quot;: title,\n\t\t\ttags: mergedTags\n\t\t},this.wiki.getModificationFields());\n\tthis.wiki.addTiddler(draftTiddler);\n\t// Update the story to insert the new draft at the top and remove any existing tiddler\n\tif(storyList.indexOf(draftTitle) === -1) {\n\t\tvar slot = storyList.indexOf(event.navigateFromTitle);\n\t\tstoryList.splice(slot + 1,0,draftTitle);\n\t}\n\tif(storyList.indexOf(title) !== -1) {\n\t\tstoryList.splice(storyList.indexOf(title),1);\t\t\n\t}\n\tthis.saveStoryList(storyList);\n\t// Add a new record to the top of the history stack\n\tthis.addToHistory(draftTitle);\n\treturn false;\n};\n\n// Import JSON tiddlers into a pending import tiddler\nNavigatorWidget.prototype.handleImportTiddlersEvent = function(event) {\n\tvar self = this;\n\t// Get the tiddlers\n\tvar tiddlers = [];\n\ttry {\n\t\ttiddlers = JSON.parse(event.param);\t\n\t} catch(e) {\n\t}\n\t// Get the current $:/Import tiddler\n\tvar importTiddler = this.wiki.getTiddler(IMPORT_TITLE),\n\t\timportData = this.wiki.getTiddlerData(IMPORT_TITLE,{}),\n\t\tnewFields = new Object({\n\t\t\ttitle: IMPORT_TITLE,\n\t\t\ttype: \&quot;application/json\&quot;,\n\t\t\t\&quot;plugin-type\&quot;: \&quot;import\&quot;,\n\t\t\t\&quot;status\&quot;: \&quot;pending\&quot;\n\t\t}),\n\t\tincomingTiddlers = [];\n\t// Process each tiddler\n\timportData.tiddlers = importData.tiddlers || {};\n\t$tw.utils.each(tiddlers,function(tiddlerFields) {\n\t\tvar title = tiddlerFields.title;\n\t\tif(title) {\n\t\t\tincomingTiddlers.push(title);\n\t\t\timportData.tiddlers[title] = tiddlerFields;\n\t\t}\n\t});\n\t// Give the active upgrader modules a chance to process the incoming tiddlers\n\tvar messages = this.wiki.invokeUpgraders(incomingTiddlers,importData.tiddlers);\n\t$tw.utils.each(messages,function(message,title) {\n\t\tnewFields[\&quot;message-\&quot; + title] = message;\n\t});\n\t// Deselect any suppressed tiddlers\n\t$tw.utils.each(importData.tiddlers,function(tiddler,title) {\n\t\tif($tw.utils.count(tiddler) === 0) {\n\t\t\tnewFields[\&quot;selection-\&quot; + title] = \&quot;unchecked\&quot;;\n\t\t}\n\t});\n\t// Save the $:/Import tiddler\n\tnewFields.text = JSON.stringify(importData,null,$tw.config.preferences.jsonSpaces);\n\tthis.wiki.addTiddler(new $tw.Tiddler(importTiddler,newFields));\n\t// Update the story and history details\n\tif(this.getVariable(\&quot;tv-auto-open-on-import\&quot;) !== \&quot;no\&quot;) {\n\t\tvar storyList = this.getStoryList(),\n\t\t\thistory = [];\n\t\t// Add it to the story\n\t\tif(storyList.indexOf(IMPORT_TITLE) === -1) {\n\t\t\tstoryList.unshift(IMPORT_TITLE);\n\t\t}\n\t\t// And to history\n\t\thistory.push(IMPORT_TITLE);\n\t\t// Save the updated story and history\n\t\tthis.saveStoryList(storyList);\n\t\tthis.addToHistory(history);\t\t\n\t}\n\treturn false;\n};\n\n// \nNavigatorWidget.prototype.handlePerformImportEvent = function(event) {\n\tvar self = this,\n\t\timportTiddler = this.wiki.getTiddler(event.param),\n\t\timportData = this.wiki.getTiddlerDataCached(event.param,{tiddlers: {}}),\n\t\timportReport = [];\n\t// Add the tiddlers to the store\n\timportReport.push($tw.language.getString(\&quot;Import/Imported\&quot;) + \&quot;\\n\&quot;);\n\t$tw.utils.each(importData.tiddlers,function(tiddlerFields) {\n\t\tvar title = tiddlerFields.title;\n\t\tif(title &amp;&amp; importTiddler &amp;&amp; importTiddler.fields[\&quot;selection-\&quot; + title] !== \&quot;unchecked\&quot;) {\n\t\t\tself.wiki.addTiddler(new $tw.Tiddler(tiddlerFields));\n\t\t\timportReport.push(\&quot;# [[\&quot; + tiddlerFields.title + \&quot;]]\&quot;);\n\t\t}\n\t});\n\t// Replace the $:/Import tiddler with an import report\n\tthis.wiki.addTiddler(new $tw.Tiddler({\n\t\ttitle: event.param,\n\t\ttext: importReport.join(\&quot;\\n\&quot;),\n\t\t\&quot;status\&quot;: \&quot;complete\&quot;\n\t}));\n\t// Navigate to the $:/Import tiddler\n\tthis.addToHistory([event.param]);\n\t// Trigger an autosave\n\t$tw.rootWidget.dispatchEvent({type: \&quot;tm-auto-save-wiki\&quot;});\n};\n\nNavigatorWidget.prototype.handleFoldTiddlerEvent = function(event) {\n\tvar self = this,\n\t\tparamObject = event.paramObject || {};\n\tif(paramObject.foldedState) {\n\t\tvar foldedState = this.wiki.getTiddlerText(paramObject.foldedState,\&quot;show\&quot;) === \&quot;show\&quot; ? \&quot;hide\&quot; : \&quot;show\&quot;;\n\t\tthis.wiki.setText(paramObject.foldedState,\&quot;text\&quot;,null,foldedState);\n\t}\n};\n\nNavigatorWidget.prototype.handleFoldOtherTiddlersEvent = function(event) {\n\tvar self = this,\n\t\tparamObject = event.paramObject || {},\n\t\tprefix = paramObject.foldedStatePrefix;\n\t$tw.utils.each(this.getStoryList(),function(title) {\n\t\tself.wiki.setText(prefix + title,\&quot;text\&quot;,null,event.param === title ? \&quot;show\&quot; : \&quot;hide\&quot;);\n\t});\n};\n\nNavigatorWidget.prototype.handleFoldAllTiddlersEvent = function(event) {\n\tvar self = this,\n\t\tparamObject = event.paramObject || {},\n\t\tprefix = paramObject.foldedStatePrefix;\n\t$tw.utils.each(this.getStoryList(),function(title) {\n\t\tself.wiki.setText(prefix + title,\&quot;text\&quot;,null,\&quot;hide\&quot;);\n\t});\n};\n\nNavigatorWidget.prototype.handleUnfoldAllTiddlersEvent = function(event) {\n\tvar self = this,\n\t\tparamObject = event.paramObject || {},\n\t\tprefix = paramObject.foldedStatePrefix;\n\t$tw.utils.each(this.getStoryList(),function(title) {\n\t\tself.wiki.setText(prefix + title,\&quot;text\&quot;,null,\&quot;show\&quot;);\n\t});\n};\n\nNavigatorWidget.prototype.handleRenameTiddlerEvent = function(event) {\n\tvar self = this,\n\t\tparamObject = event.paramObject || {},\n\t\tfrom = paramObject.from || event.tiddlerTitle,\n\t\tto = paramObject.to;\n\t$tw.wiki.renameTiddler(from,to);\n};\n\nexports.navigator = NavigatorWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/navigator.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/password.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/password.js\ntype: application/javascript\nmodule-type: widget\n\nPassword widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar PasswordWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nPasswordWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nPasswordWidget.prototype.render = function(parent,nextSibling) {\n\t// Save the parent dom node\n\tthis.parentDomNode = parent;\n\t// Compute our attributes\n\tthis.computeAttributes();\n\t// Execute our logic\n\tthis.execute();\n\t// Get the current password\n\tvar password = $tw.browser ? $tw.utils.getPassword(this.passwordName) || \&quot;\&quot; : \&quot;\&quot;;\n\t// Create our element\n\tvar domNode = this.document.createElement(\&quot;input\&quot;);\n\tdomNode.setAttribute(\&quot;type\&quot;,\&quot;password\&quot;);\n\tdomNode.setAttribute(\&quot;value\&quot;,password);\n\t// Add a click event handler\n\t$tw.utils.addEventListeners(domNode,[\n\t\t{name: \&quot;change\&quot;, handlerObject: this, handlerMethod: \&quot;handleChangeEvent\&quot;}\n\t]);\n\t// Insert the label into the DOM and render any children\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.renderChildren(domNode,null);\n\tthis.domNodes.push(domNode);\n};\n\nPasswordWidget.prototype.handleChangeEvent = function(event) {\n\tvar password = this.domNodes[0].value;\n\treturn $tw.utils.savePassword(this.passwordName,password);\n};\n\n/*\nCompute the internal state of the widget\n*/\nPasswordWidget.prototype.execute = function() {\n\t// Get the parameters from the attributes\n\tthis.passwordName = this.getAttribute(\&quot;name\&quot;,\&quot;\&quot;);\n\t// Make the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nPasswordWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.name) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn this.refreshChildren(changedTiddlers);\n\t}\n};\n\nexports.password = PasswordWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/password.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/radio.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/radio.js\ntype: application/javascript\nmodule-type: widget\n\nRadio widget\n\nWill set a field to the selected value:\n\n```\n\t&lt;$radio field=\&quot;myfield\&quot; value=\&quot;check 1\&quot;&gt;one&lt;/$radio&gt;\n\t&lt;$radio field=\&quot;myfield\&quot; value=\&quot;check 2\&quot;&gt;two&lt;/$radio&gt;\n\t&lt;$radio field=\&quot;myfield\&quot; value=\&quot;check 3\&quot;&gt;three&lt;/$radio&gt;\n```\n\n|Parameter |Description |h\n|tiddler |Name of the tiddler in which the field should be set. Defaults to current tiddler |\n|field |The name of the field to be set |\n|value |The value to set |\n|class |Optional class name(s) |\n\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar RadioWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nRadioWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nRadioWidget.prototype.render = function(parent,nextSibling) {\n\t// Save the parent dom node\n\tthis.parentDomNode = parent;\n\t// Compute our attributes\n\tthis.computeAttributes();\n\t// Execute our logic\n\tthis.execute();\n\t// Create our elements\n\tthis.labelDomNode = this.document.createElement(\&quot;label\&quot;);\n\tthis.labelDomNode.setAttribute(\&quot;class\&quot;,this.radioClass);\n\tthis.inputDomNode = this.document.createElement(\&quot;input\&quot;);\n\tthis.inputDomNode.setAttribute(\&quot;type\&quot;,\&quot;radio\&quot;);\n\tif(this.getValue() == this.radioValue) {\n\t\tthis.inputDomNode.setAttribute(\&quot;checked\&quot;,\&quot;true\&quot;);\n\t}\n\tthis.labelDomNode.appendChild(this.inputDomNode);\n\tthis.spanDomNode = this.document.createElement(\&quot;span\&quot;);\n\tthis.labelDomNode.appendChild(this.spanDomNode);\n\t// Add a click event handler\n\t$tw.utils.addEventListeners(this.inputDomNode,[\n\t\t{name: \&quot;change\&quot;, handlerObject: this, handlerMethod: \&quot;handleChangeEvent\&quot;}\n\t]);\n\t// Insert the label into the DOM and render any children\n\tparent.insertBefore(this.labelDomNode,nextSibling);\n\tthis.renderChildren(this.spanDomNode,null);\n\tthis.domNodes.push(this.labelDomNode);\n};\n\nRadioWidget.prototype.getValue = function() {\n\tvar tiddler = this.wiki.getTiddler(this.radioTitle);\n\treturn tiddler &amp;&amp; tiddler.getFieldString(this.radioField);\n};\n\nRadioWidget.prototype.setValue = function() {\n\tif(this.radioField) {\n\t\tvar tiddler = this.wiki.getTiddler(this.radioTitle),\n\t\t\taddition = {};\n\t\taddition[this.radioField] = this.radioValue;\n\t\tthis.wiki.addTiddler(new $tw.Tiddler(this.wiki.getCreationFields(),{title: this.radioTitle},tiddler,addition,this.wiki.getModificationFields()));\n\t}\n};\n\nRadioWidget.prototype.handleChangeEvent = function(event) {\n\tif(this.inputDomNode.checked) {\n\t\tthis.setValue();\n\t}\n};\n\n/*\nCompute the internal state of the widget\n*/\nRadioWidget.prototype.execute = function() {\n\t// Get the parameters from the attributes\n\tthis.radioTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.radioField = this.getAttribute(\&quot;field\&quot;,\&quot;text\&quot;);\n\tthis.radioValue = this.getAttribute(\&quot;value\&quot;);\n\tthis.radioClass = this.getAttribute(\&quot;class\&quot;,\&quot;\&quot;);\n\tif(this.radioClass !== \&quot;\&quot;) {\n\t\tthis.radioClass += \&quot; \&quot;;\n\t}\n\tthis.radioClass += \&quot;tc-radio\&quot;;\n\t// Make the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nRadioWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.tiddler || changedAttributes.field || changedAttributes.value || changedAttributes[\&quot;class\&quot;]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\tvar refreshed = false;\n\t\tif(changedTiddlers[this.radioTitle]) {\n\t\t\tthis.inputDomNode.checked = this.getValue() === this.radioValue;\n\t\t\trefreshed = true;\n\t\t}\n\t\treturn this.refreshChildren(changedTiddlers) || refreshed;\n\t}\n};\n\nexports.radio = RadioWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/radio.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/raw.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/raw.js\ntype: application/javascript\nmodule-type: widget\n\nRaw widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar RawWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nRawWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nRawWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.execute();\n\tvar div = this.document.createElement(\&quot;div\&quot;);\n\tdiv.innerHTML=this.parseTreeNode.html;\n\tparent.insertBefore(div,nextSibling);\n\tthis.domNodes.push(div);\t\n};\n\n/*\nCompute the internal state of the widget\n*/\nRawWidget.prototype.execute = function() {\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nRawWidget.prototype.refresh = function(changedTiddlers) {\n\treturn false;\n};\n\nexports.raw = RawWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/raw.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/reveal.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/reveal.js\ntype: application/javascript\nmodule-type: widget\n\nReveal widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar RevealWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nRevealWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nRevealWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tvar tag = this.parseTreeNode.isBlock ? \&quot;div\&quot; : \&quot;span\&quot;;\n\tif(this.revealTag &amp;&amp; $tw.config.htmlUnsafeElements.indexOf(this.revealTag) === -1) {\n\t\ttag = this.revealTag;\n\t}\n\tvar domNode = this.document.createElement(tag);\n\tvar classes = this[\&quot;class\&quot;].split(\&quot; \&quot;) || [];\n\tclasses.push(\&quot;tc-reveal\&quot;);\n\tdomNode.className = classes.join(\&quot; \&quot;);\n\tif(this.style) {\n\t\tdomNode.setAttribute(\&quot;style\&quot;,this.style);\n\t}\n\tparent.insertBefore(domNode,nextSibling);\n\tthis.renderChildren(domNode,null);\n\tif(!domNode.isTiddlyWikiFakeDom &amp;&amp; this.type === \&quot;popup\&quot; &amp;&amp; this.isOpen) {\n\t\tthis.positionPopup(domNode);\n\t\t$tw.utils.addClass(domNode,\&quot;tc-popup\&quot;); // Make sure that clicks don't dismiss popups within the revealed content\n\t}\n\tif(!this.isOpen) {\n\t\tdomNode.setAttribute(\&quot;hidden\&quot;,\&quot;true\&quot;);\n\t}\n\tthis.domNodes.push(domNode);\n};\n\nRevealWidget.prototype.positionPopup = function(domNode) {\n\tdomNode.style.position = \&quot;absolute\&quot;;\n\tdomNode.style.zIndex = \&quot;1000\&quot;;\n\tswitch(this.position) {\n\t\tcase \&quot;left\&quot;:\n\t\t\tdomNode.style.left = (this.popup.left - domNode.offsetWidth) + \&quot;px\&quot;;\n\t\t\tdomNode.style.top = this.popup.top + \&quot;px\&quot;;\n\t\t\tbreak;\n\t\tcase \&quot;above\&quot;:\n\t\t\tdomNode.style.left = this.popup.left + \&quot;px\&quot;;\n\t\t\tdomNode.style.top = (this.popup.top - domNode.offsetHeight) + \&quot;px\&quot;;\n\t\t\tbreak;\n\t\tcase \&quot;aboveright\&quot;:\n\t\t\tdomNode.style.left = (this.popup.left + this.popup.width) + \&quot;px\&quot;;\n\t\t\tdomNode.style.top = (this.popup.top + this.popup.height - domNode.offsetHeight) + \&quot;px\&quot;;\n\t\t\tbreak;\n\t\tcase \&quot;right\&quot;:\n\t\t\tdomNode.style.left = (this.popup.left + this.popup.width) + \&quot;px\&quot;;\n\t\t\tdomNode.style.top = this.popup.top + \&quot;px\&quot;;\n\t\t\tbreak;\n\t\tcase \&quot;belowleft\&quot;:\n\t\t\tdomNode.style.left = (this.popup.left + this.popup.width - domNode.offsetWidth) + \&quot;px\&quot;;\n\t\t\tdomNode.style.top = (this.popup.top + this.popup.height) + \&quot;px\&quot;;\n\t\t\tbreak;\n\t\tdefault: // Below\n\t\t\tdomNode.style.left = this.popup.left + \&quot;px\&quot;;\n\t\t\tdomNode.style.top = (this.popup.top + this.popup.height) + \&quot;px\&quot;;\n\t\t\tbreak;\n\t}\n};\n\n/*\nCompute the internal state of the widget\n*/\nRevealWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.state = this.getAttribute(\&quot;state\&quot;);\n\tthis.revealTag = this.getAttribute(\&quot;tag\&quot;);\n\tthis.type = this.getAttribute(\&quot;type\&quot;);\n\tthis.text = this.getAttribute(\&quot;text\&quot;);\n\tthis.position = this.getAttribute(\&quot;position\&quot;);\n\tthis[\&quot;class\&quot;] = this.getAttribute(\&quot;class\&quot;,\&quot;\&quot;);\n\tthis.style = this.getAttribute(\&quot;style\&quot;,\&quot;\&quot;);\n\tthis[\&quot;default\&quot;] = this.getAttribute(\&quot;default\&quot;,\&quot;\&quot;);\n\tthis.animate = this.getAttribute(\&quot;animate\&quot;,\&quot;no\&quot;);\n\tthis.retain = this.getAttribute(\&quot;retain\&quot;,\&quot;no\&quot;);\n\tthis.openAnimation = this.animate === \&quot;no\&quot; ? undefined : \&quot;open\&quot;;\n\tthis.closeAnimation = this.animate === \&quot;no\&quot; ? undefined : \&quot;close\&quot;;\n\t// Compute the title of the state tiddler and read it\n\tthis.stateTitle = this.state;\n\tthis.readState();\n\t// Construct the child widgets\n\tvar childNodes = this.isOpen ? this.parseTreeNode.children : [];\n\tthis.hasChildNodes = this.isOpen;\n\tthis.makeChildWidgets(childNodes);\n};\n\n/*\nRead the state tiddler\n*/\nRevealWidget.prototype.readState = function() {\n\t// Read the information from the state tiddler\n\tvar state = this.stateTitle ? this.wiki.getTextReference(this.stateTitle,this[\&quot;default\&quot;],this.getVariable(\&quot;currentTiddler\&quot;)) : this[\&quot;default\&quot;];\n\tswitch(this.type) {\n\t\tcase \&quot;popup\&quot;:\n\t\t\tthis.readPopupState(state);\n\t\t\tbreak;\n\t\tcase \&quot;match\&quot;:\n\t\t\tthis.readMatchState(state);\n\t\t\tbreak;\n\t\tcase \&quot;nomatch\&quot;:\n\t\t\tthis.readMatchState(state);\n\t\t\tthis.isOpen = !this.isOpen;\n\t\t\tbreak;\n\t}\n};\n\nRevealWidget.prototype.readMatchState = function(state) {\n\tthis.isOpen = state === this.text;\n};\n\nRevealWidget.prototype.readPopupState = function(state) {\n\tvar popupLocationRegExp = /^\\((-?[0-9\\.E]+),(-?[0-9\\.E]+),(-?[0-9\\.E]+),(-?[0-9\\.E]+)\\)$/,\n\t\tmatch = popupLocationRegExp.exec(state);\n\t// Check if the state matches the location regexp\n\tif(match) {\n\t\t// If so, we're open\n\t\tthis.isOpen = true;\n\t\t// Get the location\n\t\tthis.popup = {\n\t\t\tleft: parseFloat(match[1]),\n\t\t\ttop: parseFloat(match[2]),\n\t\t\twidth: parseFloat(match[3]),\n\t\t\theight: parseFloat(match[4])\n\t\t};\n\t} else {\n\t\t// If not, we're closed\n\t\tthis.isOpen = false;\n\t}\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nRevealWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.state || changedAttributes.type || changedAttributes.text || changedAttributes.position || changedAttributes[\&quot;default\&quot;] || changedAttributes.animate) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\tvar refreshed = false,\n\t\t\tcurrentlyOpen = this.isOpen;\n\t\tthis.readState();\n\t\tif(this.isOpen !== currentlyOpen) {\n\t\t\tif(this.retain === \&quot;yes\&quot;) {\n\t\t\t\tthis.updateState();\n\t\t\t} else {\n\t\t\t\tthis.refreshSelf();\n\t\t\t\trefreshed = true;\n\t\t\t}\n\t\t}\n\t\treturn this.refreshChildren(changedTiddlers) || refreshed;\n\t}\n};\n\n/*\nCalled by refresh() to dynamically show or hide the content\n*/\nRevealWidget.prototype.updateState = function() {\n\t// Read the current state\n\tthis.readState();\n\t// Construct the child nodes if needed\n\tvar domNode = this.domNodes[0];\n\tif(this.isOpen &amp;&amp; !this.hasChildNodes) {\n\t\tthis.hasChildNodes = true;\n\t\tthis.makeChildWidgets(this.parseTreeNode.children);\n\t\tthis.renderChildren(domNode,null);\n\t}\n\t// Animate our DOM node\n\tif(!domNode.isTiddlyWikiFakeDom &amp;&amp; this.type === \&quot;popup\&quot; &amp;&amp; this.isOpen) {\n\t\tthis.positionPopup(domNode);\n\t\t$tw.utils.addClass(domNode,\&quot;tc-popup\&quot;); // Make sure that clicks don't dismiss popups within the revealed content\n\n\t}\n\tif(this.isOpen) {\n\t\tdomNode.removeAttribute(\&quot;hidden\&quot;);\n        $tw.anim.perform(this.openAnimation,domNode);\n\t} else {\n\t\t$tw.anim.perform(this.closeAnimation,domNode,{callback: function() {\n\t\t\tdomNode.setAttribute(\&quot;hidden\&quot;,\&quot;true\&quot;);\n        }});\n\t}\n};\n\nexports.reveal = RevealWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/reveal.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/scrollable.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/scrollable.js\ntype: application/javascript\nmodule-type: widget\n\nScrollable widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar ScrollableWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n\tthis.scaleFactor = 1;\n\tthis.addEventListeners([\n\t\t{type: \&quot;tm-scroll\&quot;, handler: \&quot;handleScrollEvent\&quot;}\n\t]);\n\tif($tw.browser) {\n\t\tthis.requestAnimationFrame = window.requestAnimationFrame ||\n\t\t\twindow.webkitRequestAnimationFrame ||\n\t\t\twindow.mozRequestAnimationFrame ||\n\t\t\tfunction(callback) {\n\t\t\t\treturn window.setTimeout(callback, 1000/60);\n\t\t\t};\n\t\tthis.cancelAnimationFrame = window.cancelAnimationFrame ||\n\t\t\twindow.webkitCancelAnimationFrame ||\n\t\t\twindow.webkitCancelRequestAnimationFrame ||\n\t\t\twindow.mozCancelAnimationFrame ||\n\t\t\twindow.mozCancelRequestAnimationFrame ||\n\t\t\tfunction(id) {\n\t\t\t\twindow.clearTimeout(id);\n\t\t\t};\n\t}\n};\n\n/*\nInherit from the base widget class\n*/\nScrollableWidget.prototype = new Widget();\n\nScrollableWidget.prototype.cancelScroll = function() {\n\tif(this.idRequestFrame) {\n\t\tthis.cancelAnimationFrame.call(window,this.idRequestFrame);\n\t\tthis.idRequestFrame = null;\n\t}\n};\n\n/*\nHandle a scroll event\n*/\nScrollableWidget.prototype.handleScrollEvent = function(event) {\n\t// Pass the scroll event through if our offsetsize is larger than our scrollsize\n\tif(this.outerDomNode.scrollWidth &lt;= this.outerDomNode.offsetWidth &amp;&amp; this.outerDomNode.scrollHeight &lt;= this.outerDomNode.offsetHeight &amp;&amp; this.fallthrough === \&quot;yes\&quot;) {\n\t\treturn true;\n\t}\n\tthis.scrollIntoView(event.target);\n\treturn false; // Handled event\n};\n\n/*\nScroll an element into view\n*/\nScrollableWidget.prototype.scrollIntoView = function(element) {\n\tvar duration = $tw.utils.getAnimationDuration();\n\tthis.cancelScroll();\n\tthis.startTime = Date.now();\n\tvar scrollPosition = {\n\t\tx: this.outerDomNode.scrollLeft,\n\t\ty: this.outerDomNode.scrollTop\n\t};\n\t// Get the client bounds of the element and adjust by the scroll position\n\tvar scrollableBounds = this.outerDomNode.getBoundingClientRect(),\n\t\tclientTargetBounds = element.getBoundingClientRect(),\n\t\tbounds = {\n\t\t\tleft: clientTargetBounds.left + scrollPosition.x - scrollableBounds.left,\n\t\t\ttop: clientTargetBounds.top + scrollPosition.y - scrollableBounds.top,\n\t\t\twidth: clientTargetBounds.width,\n\t\t\theight: clientTargetBounds.height\n\t\t};\n\t// We'll consider the horizontal and vertical scroll directions separately via this function\n\tvar getEndPos = function(targetPos,targetSize,currentPos,currentSize) {\n\t\t\t// If the target is already visible then stay where we are\n\t\t\tif(targetPos &gt;= currentPos &amp;&amp; (targetPos + targetSize) &lt;= (currentPos + currentSize)) {\n\t\t\t\treturn currentPos;\n\t\t\t// If the target is above/left of the current view, then scroll to its top/left\n\t\t\t} else if(targetPos &lt;= currentPos) {\n\t\t\t\treturn targetPos;\n\t\t\t// If the target is smaller than the window and the scroll position is too far up, then scroll till the target is at the bottom of the window\n\t\t\t} else if(targetSize &lt; currentSize &amp;&amp; currentPos &lt; (targetPos + targetSize - currentSize)) {\n\t\t\t\treturn targetPos + targetSize - currentSize;\n\t\t\t// If the target is big, then just scroll to the top\n\t\t\t} else if(currentPos &lt; targetPos) {\n\t\t\t\treturn targetPos;\n\t\t\t// Otherwise, stay where we are\n\t\t\t} else {\n\t\t\t\treturn currentPos;\n\t\t\t}\n\t\t},\n\t\tendX = getEndPos(bounds.left,bounds.width,scrollPosition.x,this.outerDomNode.offsetWidth),\n\t\tendY = getEndPos(bounds.top,bounds.height,scrollPosition.y,this.outerDomNode.offsetHeight);\n\t// Only scroll if necessary\n\tif(endX !== scrollPosition.x || endY !== scrollPosition.y) {\n\t\tvar self = this,\n\t\t\tdrawFrame;\n\t\tdrawFrame = function () {\n\t\t\tvar t;\n\t\t\tif(duration &lt;= 0) {\n\t\t\t\tt = 1;\n\t\t\t} else {\n\t\t\t\tt = ((Date.now()) - self.startTime) / duration;\t\n\t\t\t}\n\t\t\tif(t &gt;= 1) {\n\t\t\t\tself.cancelScroll();\n\t\t\t\tt = 1;\n\t\t\t}\n\t\t\tt = $tw.utils.slowInSlowOut(t);\n\t\t\tself.outerDomNode.scrollLeft = scrollPosition.x + (endX - scrollPosition.x) * t;\n\t\t\tself.outerDomNode.scrollTop = scrollPosition.y + (endY - scrollPosition.y) * t;\n\t\t\tif(t &lt; 1) {\n\t\t\t\tself.idRequestFrame = self.requestAnimationFrame.call(window,drawFrame);\n\t\t\t}\n\t\t};\n\t\tdrawFrame();\n\t}\n};\n\n/*\nRender this widget into the DOM\n*/\nScrollableWidget.prototype.render = function(parent,nextSibling) {\n\tvar self = this;\n\t// Remember parent\n\tthis.parentDomNode = parent;\n\t// Compute attributes and execute state\n\tthis.computeAttributes();\n\tthis.execute();\n\t// Create elements\n\tthis.outerDomNode = this.document.createElement(\&quot;div\&quot;);\n\t$tw.utils.setStyle(this.outerDomNode,[\n\t\t{overflowY: \&quot;auto\&quot;},\n\t\t{overflowX: \&quot;auto\&quot;},\n\t\t{webkitOverflowScrolling: \&quot;touch\&quot;}\n\t]);\n\tthis.innerDomNode = this.document.createElement(\&quot;div\&quot;);\n\tthis.outerDomNode.appendChild(this.innerDomNode);\n\t// Assign classes\n\tthis.outerDomNode.className = this[\&quot;class\&quot;] || \&quot;\&quot;;\n\t// Insert element\n\tparent.insertBefore(this.outerDomNode,nextSibling);\n\tthis.renderChildren(this.innerDomNode,null);\n\tthis.domNodes.push(this.outerDomNode);\n};\n\n/*\nCompute the internal state of the widget\n*/\nScrollableWidget.prototype.execute = function() {\n\t// Get attributes\n\tthis.fallthrough = this.getAttribute(\&quot;fallthrough\&quot;,\&quot;yes\&quot;);\n\tthis[\&quot;class\&quot;] = this.getAttribute(\&quot;class\&quot;);\n\t// Make child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nScrollableWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes[\&quot;class\&quot;]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n\nexports.scrollable = ScrollableWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/scrollable.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/select.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/select.js\ntype: application/javascript\nmodule-type: widget\n\nSelect widget:\n\n```\n&lt;$select tiddler=\&quot;MyTiddler\&quot; field=\&quot;text\&quot;&gt;\n&lt;$list filter=\&quot;[tag[chapter]]\&quot;&gt;\n&lt;option value=&lt;&lt;currentTiddler&gt;&gt;&gt;\n&lt;$view field=\&quot;description\&quot;/&gt;\n&lt;/option&gt;\n&lt;/$list&gt;\n&lt;/$select&gt;\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar SelectWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nSelectWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nSelectWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n\tthis.setSelectValue();\n\t$tw.utils.addEventListeners(this.getSelectDomNode(),[\n\t\t{name: \&quot;change\&quot;, handlerObject: this, handlerMethod: \&quot;handleChangeEvent\&quot;}\n\t]);\n};\n\n/*\nHandle a change event\n*/\nSelectWidget.prototype.handleChangeEvent = function(event) {\n\tif(this.selectMultiple == false) {\n\t\tvar value = this.getSelectDomNode().value;\n\t} else {\n\t\tvar value = this.getSelectValues()\n\t\t\t\tvalue = $tw.utils.stringifyList(value);\n\t}\n\tthis.wiki.setText(this.selectTitle,this.selectField,this.selectIndex,value);\n};\n\n/*\nIf necessary, set the value of the select element to the current value\n*/\nSelectWidget.prototype.setSelectValue = function() {\n\tvar value = this.selectDefault;\n\t// Get the value\n\tif(this.selectIndex) {\n\t\tvalue = this.wiki.extractTiddlerDataItem(this.selectTitle,this.selectIndex);\n\t} else {\n\t\tvar tiddler = this.wiki.getTiddler(this.selectTitle);\n\t\tif(tiddler) {\n\t\t\tif(this.selectField === \&quot;text\&quot;) {\n\t\t\t\t// Calling getTiddlerText() triggers lazy loading of skinny tiddlers\n\t\t\t\tvalue = this.wiki.getTiddlerText(this.selectTitle);\n\t\t\t} else {\n\t\t\t\tif($tw.utils.hop(tiddler.fields,this.selectField)) {\n\t\t\t\t\tvalue = tiddler.getFieldString(this.selectField);\n\t\t\t\t}\n\t\t\t}\n\t\t} else {\n\t\t\tif(this.selectField === \&quot;title\&quot;) {\n\t\t\t\tvalue = this.selectTitle;\n\t\t\t}\n\t\t}\n\t}\n\t// Assign it to the select element if it's different than the current value\n\tif (this.selectMultiple) {\n\t\tvalue = value === undefined ? \&quot;\&quot; : value;\n\t\tvar select = this.getSelectDomNode();\n\t\tvar values = Array.isArray(value) ? value : $tw.utils.parseStringArray(value);\n\t\tfor(var i=0; i &lt; select.children.length; i++){\n\t\t\tif(values.indexOf(select.children[i].value) != -1) {\n\t\t\t\tselect.children[i].selected = true;\n\t\t\t}\n\t\t}\n\t\t\n\t} else {\n\t\tvar domNode = this.getSelectDomNode();\n\t\tif(domNode.value !== value) {\n\t\t\tdomNode.value = value;\n\t\t}\n\t}\n};\n\n/*\nGet the DOM node of the select element\n*/\nSelectWidget.prototype.getSelectDomNode = function() {\n\treturn this.children[0].domNodes[0];\n};\n\n// Return an array of the selected opion values\n// select is an HTML select element\nSelectWidget.prototype.getSelectValues = function() {\n\tvar select, result, options, opt;\n\tselect = this.getSelectDomNode();\n\tresult = [];\n\toptions = select &amp;&amp; select.options;\n\tfor (var i=0; i&lt;options.length; i++) {\n\t\topt = options[i];\n\t\tif (opt.selected) {\n\t\t\tresult.push(opt.value || opt.text);\n\t\t}\n\t}\n\treturn result;\n}\n\n/*\nCompute the internal state of the widget\n*/\nSelectWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.selectTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.selectField = this.getAttribute(\&quot;field\&quot;,\&quot;text\&quot;);\n\tthis.selectIndex = this.getAttribute(\&quot;index\&quot;);\n\tthis.selectClass = this.getAttribute(\&quot;class\&quot;);\n\tthis.selectDefault = this.getAttribute(\&quot;default\&quot;);\n\tthis.selectMultiple = this.getAttribute(\&quot;multiple\&quot;, false);\n\tthis.selectSize = this.getAttribute(\&quot;size\&quot;);\n\t// Make the child widgets\n\tvar selectNode = {\n\t\ttype: \&quot;element\&quot;,\n\t\ttag: \&quot;select\&quot;,\n\t\tchildren: this.parseTreeNode.children\n\t};\n\tif(this.selectClass) {\n\t\t$tw.utils.addAttributeToParseTreeNode(selectNode,\&quot;class\&quot;,this.selectClass);\n\t}\n\tif(this.selectMultiple) {\n\t\t$tw.utils.addAttributeToParseTreeNode(selectNode,\&quot;multiple\&quot;,\&quot;multiple\&quot;);\n\t}\n\tif(this.selectSize) {\n\t\t$tw.utils.addAttributeToParseTreeNode(selectNode,\&quot;size\&quot;,this.selectSize);\n\t}\n\tthis.makeChildWidgets([selectNode]);\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nSelectWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\t// If we're using a different tiddler/field/index then completely refresh ourselves\n\tif(changedAttributes.selectTitle || changedAttributes.selectField || changedAttributes.selectIndex) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t// If the target tiddler value has changed, just update setting and refresh the children\n\t} else {\n\t\tvar childrenRefreshed = this.refreshChildren(changedTiddlers);\n\t\tif(changedTiddlers[this.selectTitle] || childrenRefreshed) {\n\t\t\tthis.setSelectValue();\n\t\t} \n\t\treturn childrenRefreshed;\n\t}\n};\n\nexports.select = SelectWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/select.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/set.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/set.js\ntype: application/javascript\nmodule-type: widget\n\nSet variable widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar SetWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nSetWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nSetWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nSetWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.setName = this.getAttribute(\&quot;name\&quot;,\&quot;currentTiddler\&quot;);\n\tthis.setFilter = this.getAttribute(\&quot;filter\&quot;);\n\tthis.setValue = this.getAttribute(\&quot;value\&quot;);\n\tthis.setEmptyValue = this.getAttribute(\&quot;emptyValue\&quot;);\n\t// Set context variable\n\tthis.setVariable(this.setName,this.getValue(),this.parseTreeNode.params);\n\t// Construct the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nGet the value to be assigned\n*/\nSetWidget.prototype.getValue = function() {\n\tvar value = this.setValue;\n\tif(this.setFilter) {\n\t\tvar results = this.wiki.filterTiddlers(this.setFilter,this);\n\t\tif(!this.setValue) {\n\t\t\tvalue = $tw.utils.stringifyList(results);\n\t\t}\n\t\tif(results.length === 0 &amp;&amp; this.setEmptyValue !== undefined) {\n\t\t\tvalue = this.setEmptyValue;\n\t\t}\n\t} else if(!value &amp;&amp; this.setEmptyValue) {\n\t\tvalue = this.setEmptyValue;\n\t}\n\treturn value;\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nSetWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.name || changedAttributes.filter || changedAttributes.value || changedAttributes.emptyValue ||\n\t   (this.setFilter &amp;&amp; this.getValue() != this.variables[this.setName].value)) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn this.refreshChildren(changedTiddlers);\n\t}\n};\n\nexports.setvariable = SetWidget;\nexports.set = SetWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/set.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/text.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/text.js\ntype: application/javascript\nmodule-type: widget\n\nText node widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar TextNodeWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nTextNodeWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nTextNodeWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tvar text = this.getAttribute(\&quot;text\&quot;,this.parseTreeNode.text || \&quot;\&quot;);\n\ttext = text.replace(/\\r/mg,\&quot;\&quot;);\n\tvar textNode = this.document.createTextNode(text);\n\tparent.insertBefore(textNode,nextSibling);\n\tthis.domNodes.push(textNode);\n};\n\n/*\nCompute the internal state of the widget\n*/\nTextNodeWidget.prototype.execute = function() {\n\t// Nothing to do for a text node\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nTextNodeWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.text) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn false;\t\n\t}\n};\n\nexports.text = TextNodeWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/text.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/tiddler.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/tiddler.js\ntype: application/javascript\nmodule-type: widget\n\nTiddler widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar TiddlerWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nTiddlerWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nTiddlerWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nTiddlerWidget.prototype.execute = function() {\n\tthis.tiddlerState = this.computeTiddlerState();\n\tthis.setVariable(\&quot;currentTiddler\&quot;,this.tiddlerState.currentTiddler);\n\tthis.setVariable(\&quot;missingTiddlerClass\&quot;,this.tiddlerState.missingTiddlerClass);\n\tthis.setVariable(\&quot;shadowTiddlerClass\&quot;,this.tiddlerState.shadowTiddlerClass);\n\tthis.setVariable(\&quot;systemTiddlerClass\&quot;,this.tiddlerState.systemTiddlerClass);\n\tthis.setVariable(\&quot;tiddlerTagClasses\&quot;,this.tiddlerState.tiddlerTagClasses);\n\t// Construct the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nCompute the tiddler state flags\n*/\nTiddlerWidget.prototype.computeTiddlerState = function() {\n\t// Get our parameters\n\tthis.tiddlerTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\t// Compute the state\n\tvar state = {\n\t\tcurrentTiddler: this.tiddlerTitle || \&quot;\&quot;,\n\t\tmissingTiddlerClass: (this.wiki.tiddlerExists(this.tiddlerTitle) || this.wiki.isShadowTiddler(this.tiddlerTitle)) ? \&quot;tc-tiddler-exists\&quot; : \&quot;tc-tiddler-missing\&quot;,\n\t\tshadowTiddlerClass: this.wiki.isShadowTiddler(this.tiddlerTitle) ? \&quot;tc-tiddler-shadow\&quot; : \&quot;\&quot;,\n\t\tsystemTiddlerClass: this.wiki.isSystemTiddler(this.tiddlerTitle) ? \&quot;tc-tiddler-system\&quot; : \&quot;\&quot;,\n\t\ttiddlerTagClasses: this.getTagClasses()\n\t};\n\t// Compute a simple hash to make it easier to detect changes\n\tstate.hash = state.currentTiddler + state.missingTiddlerClass + state.shadowTiddlerClass + state.systemTiddlerClass + state.tiddlerTagClasses;\n\treturn state;\n};\n\n/*\nCreate a string of CSS classes derived from the tags of the current tiddler\n*/\nTiddlerWidget.prototype.getTagClasses = function() {\n\tvar tiddler = this.wiki.getTiddler(this.tiddlerTitle);\n\tif(tiddler) {\n\t\tvar tags = [];\n\t\t$tw.utils.each(tiddler.fields.tags,function(tag) {\n\t\t\ttags.push(\&quot;tc-tagged-\&quot; + encodeURIComponent(tag));\n\t\t});\n\t\treturn tags.join(\&quot; \&quot;);\n\t} else {\n\t\treturn \&quot;\&quot;;\n\t}\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nTiddlerWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes(),\n\t\tnewTiddlerState = this.computeTiddlerState();\n\tif(changedAttributes.tiddler || newTiddlerState.hash !== this.tiddlerState.hash) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn this.refreshChildren(changedTiddlers);\t\t\n\t}\n};\n\nexports.tiddler = TiddlerWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/tiddler.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/transclude.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/transclude.js\ntype: application/javascript\nmodule-type: widget\n\nTransclude widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar TranscludeWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nTranscludeWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nTranscludeWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nTranscludeWidget.prototype.execute = function() {\n\t// Get our parameters\n\tthis.transcludeTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.transcludeSubTiddler = this.getAttribute(\&quot;subtiddler\&quot;);\n\tthis.transcludeField = this.getAttribute(\&quot;field\&quot;);\n\tthis.transcludeIndex = this.getAttribute(\&quot;index\&quot;);\n\tthis.transcludeMode = this.getAttribute(\&quot;mode\&quot;);\n\t// Parse the text reference\n\tvar parseAsInline = !this.parseTreeNode.isBlock;\n\tif(this.transcludeMode === \&quot;inline\&quot;) {\n\t\tparseAsInline = true;\n\t} else if(this.transcludeMode === \&quot;block\&quot;) {\n\t\tparseAsInline = false;\n\t}\n\tvar parser = this.wiki.parseTextReference(\n\t\t\t\t\t\tthis.transcludeTitle,\n\t\t\t\t\t\tthis.transcludeField,\n\t\t\t\t\t\tthis.transcludeIndex,\n\t\t\t\t\t\t{\n\t\t\t\t\t\t\tparseAsInline: parseAsInline,\n\t\t\t\t\t\t\tsubTiddler: this.transcludeSubTiddler\n\t\t\t\t\t\t}),\n\t\tparseTreeNodes = parser ? parser.tree : this.parseTreeNode.children;\n\t// Set context variables for recursion detection\n\tvar recursionMarker = this.makeRecursionMarker();\n\tthis.setVariable(\&quot;transclusion\&quot;,recursionMarker);\n\t// Check for recursion\n\tif(parser) {\n\t\tif(this.parentWidget &amp;&amp; this.parentWidget.hasVariable(\&quot;transclusion\&quot;,recursionMarker)) {\n\t\t\tparseTreeNodes = [{type: \&quot;element\&quot;, tag: \&quot;span\&quot;, attributes: {\n\t\t\t\t\&quot;class\&quot;: {type: \&quot;string\&quot;, value: \&quot;tc-error\&quot;}\n\t\t\t}, children: [\n\t\t\t\t{type: \&quot;text\&quot;, text: \&quot;Recursive transclusion error in transclude widget\&quot;}\n\t\t\t]}];\n\t\t}\n\t}\n\t// Construct the child widgets\n\tthis.makeChildWidgets(parseTreeNodes);\n};\n\n/*\nCompose a string comprising the title, field and/or index to identify this transclusion for recursion detection\n*/\nTranscludeWidget.prototype.makeRecursionMarker = function() {\n\tvar output = [];\n\toutput.push(\&quot;{\&quot;);\n\toutput.push(this.getVariable(\&quot;currentTiddler\&quot;,{defaultValue: \&quot;\&quot;}));\n\toutput.push(\&quot;|\&quot;);\n\toutput.push(this.transcludeTitle || \&quot;\&quot;);\n\toutput.push(\&quot;|\&quot;);\n\toutput.push(this.transcludeField || \&quot;\&quot;);\n\toutput.push(\&quot;|\&quot;);\n\toutput.push(this.transcludeIndex || \&quot;\&quot;);\n\toutput.push(\&quot;|\&quot;);\n\toutput.push(this.transcludeSubTiddler || \&quot;\&quot;);\n\toutput.push(\&quot;}\&quot;);\n\treturn output.join(\&quot;\&quot;);\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nTranscludeWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.tiddler || changedAttributes.field || changedAttributes.index || changedTiddlers[this.transcludeTitle]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn this.refreshChildren(changedTiddlers);\t\t\n\t}\n};\n\nexports.transclude = TranscludeWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/transclude.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/vars.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/vars.js\ntype: application/javascript\nmodule-type: widget\n\nThis widget allows multiple variables to be set in one go:\n\n```\n\\define helloworld() Hello world!\n&lt;$vars greeting=\&quot;Hi\&quot; me={{!!title}} sentence=&lt;&lt;helloworld&gt;&gt;&gt;\n  &lt;&lt;greeting&gt;&gt;! I am &lt;&lt;me&gt;&gt; and I say: &lt;&lt;sentence&gt;&gt;\n&lt;/$vars&gt;\n```\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar VarsWidget = function(parseTreeNode,options) {\n\t// Call the constructor\n\tWidget.call(this);\n\t// Initialise\t\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nVarsWidget.prototype = Object.create(Widget.prototype);\n\n/*\nRender this widget into the DOM\n*/\nVarsWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nVarsWidget.prototype.execute = function() {\n\t// Parse variables\n\tvar self = this;\n\t$tw.utils.each(this.attributes,function(val,key) {\n\t\tif(key.charAt(0) !== \&quot;$\&quot;) {\n\t\t\tself.setVariable(key,val);\n\t\t}\n\t});\n\t// Construct the child widgets\n\tthis.makeChildWidgets();\n};\n\n/*\nRefresh the widget by ensuring our attributes are up to date\n*/\nVarsWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(Object.keys(changedAttributes).length) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t}\n\treturn this.refreshChildren(changedTiddlers);\n};\n\nexports[\&quot;vars\&quot;] = VarsWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/vars.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/view.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/view.js\ntype: application/javascript\nmodule-type: widget\n\nView widget\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar Widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;).widget;\n\nvar ViewWidget = function(parseTreeNode,options) {\n\tthis.initialise(parseTreeNode,options);\n};\n\n/*\nInherit from the base widget class\n*/\nViewWidget.prototype = new Widget();\n\n/*\nRender this widget into the DOM\n*/\nViewWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.computeAttributes();\n\tthis.execute();\n\tif(this.text) {\n\t\tvar textNode = this.document.createTextNode(this.text);\n\t\tparent.insertBefore(textNode,nextSibling);\n\t\tthis.domNodes.push(textNode);\n\t} else {\n\t\tthis.makeChildWidgets();\n\t\tthis.renderChildren(parent,nextSibling);\n\t}\n};\n\n/*\nCompute the internal state of the widget\n*/\nViewWidget.prototype.execute = function() {\n\t// Get parameters from our attributes\n\tthis.viewTitle = this.getAttribute(\&quot;tiddler\&quot;,this.getVariable(\&quot;currentTiddler\&quot;));\n\tthis.viewSubtiddler = this.getAttribute(\&quot;subtiddler\&quot;);\n\tthis.viewField = this.getAttribute(\&quot;field\&quot;,\&quot;text\&quot;);\n\tthis.viewIndex = this.getAttribute(\&quot;index\&quot;);\n\tthis.viewFormat = this.getAttribute(\&quot;format\&quot;,\&quot;text\&quot;);\n\tthis.viewTemplate = this.getAttribute(\&quot;template\&quot;,\&quot;\&quot;);\n\tswitch(this.viewFormat) {\n\t\tcase \&quot;htmlwikified\&quot;:\n\t\t\tthis.text = this.getValueAsHtmlWikified();\n\t\t\tbreak;\n\t\tcase \&quot;htmlencodedplainwikified\&quot;:\n\t\t\tthis.text = this.getValueAsHtmlEncodedPlainWikified();\n\t\t\tbreak;\n\t\tcase \&quot;htmlencoded\&quot;:\n\t\t\tthis.text = this.getValueAsHtmlEncoded();\n\t\t\tbreak;\n\t\tcase \&quot;urlencoded\&quot;:\n\t\t\tthis.text = this.getValueAsUrlEncoded();\n\t\t\tbreak;\n\t\tcase \&quot;doubleurlencoded\&quot;:\n\t\t\tthis.text = this.getValueAsDoubleUrlEncoded();\n\t\t\tbreak;\n\t\tcase \&quot;date\&quot;:\n\t\t\tthis.text = this.getValueAsDate(this.viewTemplate);\n\t\t\tbreak;\n\t\tcase \&quot;relativedate\&quot;:\n\t\t\tthis.text = this.getValueAsRelativeDate();\n\t\t\tbreak;\n\t\tcase \&quot;stripcomments\&quot;:\n\t\t\tthis.text = this.getValueAsStrippedComments();\n\t\t\tbreak;\n\t\tcase \&quot;jsencoded\&quot;:\n\t\t\tthis.text = this.getValueAsJsEncoded();\n\t\t\tbreak;\n\t\tdefault: // \&quot;text\&quot;\n\t\t\tthis.text = this.getValueAsText();\n\t\t\tbreak;\n\t}\n};\n\n/*\nThe various formatter functions are baked into this widget for the moment. Eventually they will be replaced by macro functions\n*/\n\n/*\nRetrieve the value of the widget. Options are:\nasString: Optionally return the value as a string\n*/\nViewWidget.prototype.getValue = function(options) {\n\toptions = options || {};\n\tvar value = options.asString ? \&quot;\&quot; : undefined;\n\tif(this.viewIndex) {\n\t\tvalue = this.wiki.extractTiddlerDataItem(this.viewTitle,this.viewIndex);\n\t} else {\n\t\tvar tiddler;\n\t\tif(this.viewSubtiddler) {\n\t\t\ttiddler = this.wiki.getSubTiddler(this.viewTitle,this.viewSubtiddler);\t\n\t\t} else {\n\t\t\ttiddler = this.wiki.getTiddler(this.viewTitle);\n\t\t}\n\t\tif(tiddler) {\n\t\t\tif(this.viewField === \&quot;text\&quot; &amp;&amp; !this.viewSubtiddler) {\n\t\t\t\t// Calling getTiddlerText() triggers lazy loading of skinny tiddlers\n\t\t\t\tvalue = this.wiki.getTiddlerText(this.viewTitle);\n\t\t\t} else {\n\t\t\t\tif($tw.utils.hop(tiddler.fields,this.viewField)) {\n\t\t\t\t\tif(options.asString) {\n\t\t\t\t\t\tvalue = tiddler.getFieldString(this.viewField);\n\t\t\t\t\t} else {\n\t\t\t\t\t\tvalue = tiddler.fields[this.viewField];\t\t\t\t\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t} else {\n\t\t\tif(this.viewField === \&quot;title\&quot;) {\n\t\t\t\tvalue = this.viewTitle;\n\t\t\t}\n\t\t}\n\t}\n\treturn value;\n};\n\nViewWidget.prototype.getValueAsText = function() {\n\treturn this.getValue({asString: true});\n};\n\nViewWidget.prototype.getValueAsHtmlWikified = function() {\n\treturn this.wiki.renderText(\&quot;text/html\&quot;,\&quot;text/vnd.tiddlywiki\&quot;,this.getValueAsText(),{parentWidget: this});\n};\n\nViewWidget.prototype.getValueAsHtmlEncodedPlainWikified = function() {\n\treturn $tw.utils.htmlEncode(this.wiki.renderText(\&quot;text/plain\&quot;,\&quot;text/vnd.tiddlywiki\&quot;,this.getValueAsText(),{parentWidget: this}));\n};\n\nViewWidget.prototype.getValueAsHtmlEncoded = function() {\n\treturn $tw.utils.htmlEncode(this.getValueAsText());\n};\n\nViewWidget.prototype.getValueAsUrlEncoded = function() {\n\treturn encodeURIComponent(this.getValueAsText());\n};\n\nViewWidget.prototype.getValueAsDoubleUrlEncoded = function() {\n\treturn encodeURIComponent(encodeURIComponent(this.getValueAsText()));\n};\n\nViewWidget.prototype.getValueAsDate = function(format) {\n\tformat = format || \&quot;YYYY MM DD 0hh:0mm\&quot;;\n\tvar value = $tw.utils.parseDate(this.getValue());\n\tif(value &amp;&amp; $tw.utils.isDate(value) &amp;&amp; value.toString() !== \&quot;Invalid Date\&quot;) {\n\t\treturn $tw.utils.formatDateString(value,format);\n\t} else {\n\t\treturn \&quot;\&quot;;\n\t}\n};\n\nViewWidget.prototype.getValueAsRelativeDate = function(format) {\n\tvar value = $tw.utils.parseDate(this.getValue());\n\tif(value &amp;&amp; $tw.utils.isDate(value) &amp;&amp; value.toString() !== \&quot;Invalid Date\&quot;) {\n\t\treturn $tw.utils.getRelativeDate((new Date()) - (new Date(value))).description;\n\t} else {\n\t\treturn \&quot;\&quot;;\n\t}\n};\n\nViewWidget.prototype.getValueAsStrippedComments = function() {\n\tvar lines = this.getValueAsText().split(\&quot;\\n\&quot;),\n\t\tout = [];\n\tfor(var line=0; line&lt;lines.length; line++) {\n\t\tvar text = lines[line];\n\t\tif(!/^\\s*\\/\\/#/.test(text)) {\n\t\t\tout.push(text);\n\t\t}\n\t}\n\treturn out.join(\&quot;\\n\&quot;);\n};\n\nViewWidget.prototype.getValueAsJsEncoded = function() {\n\treturn $tw.utils.stringify(this.getValueAsText());\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nViewWidget.prototype.refresh = function(changedTiddlers) {\n\tvar changedAttributes = this.computeAttributes();\n\tif(changedAttributes.tiddler || changedAttributes.field || changedAttributes.index || changedAttributes.template || changedAttributes.format || changedTiddlers[this.viewTitle]) {\n\t\tthis.refreshSelf();\n\t\treturn true;\n\t} else {\n\t\treturn false;\t\n\t}\n};\n\nexports.view = ViewWidget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/view.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/widgets/widget.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/widgets/widget.js\ntype: application/javascript\nmodule-type: widget\n\nWidget base class\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nCreate a widget object for a parse tree node\n\tparseTreeNode: reference to the parse tree node to be rendered\n\toptions: see below\nOptions include:\n\twiki: mandatory reference to wiki associated with this render tree\n\tparentWidget: optional reference to a parent renderer node for the context chain\n\tdocument: optional document object to use instead of global document\n*/\nvar Widget = function(parseTreeNode,options) {\n\tif(arguments.length &gt; 0) {\n\t\tthis.initialise(parseTreeNode,options);\n\t}\n};\n\n/*\nInitialise widget properties. These steps are pulled out of the constructor so that we can reuse them in subclasses\n*/\nWidget.prototype.initialise = function(parseTreeNode,options) {\n\toptions = options || {};\n\t// Save widget info\n\tthis.parseTreeNode = parseTreeNode;\n\tthis.wiki = options.wiki;\n\tthis.parentWidget = options.parentWidget;\n\tthis.variablesConstructor = function() {};\n\tthis.variablesConstructor.prototype = this.parentWidget ? this.parentWidget.variables : {};\n\tthis.variables = new this.variablesConstructor();\n\tthis.document = options.document;\n\tthis.attributes = {};\n\tthis.children = [];\n\tthis.domNodes = [];\n\tthis.eventListeners = {};\n\t// Hashmap of the widget classes\n\tif(!this.widgetClasses) {\n\t\tWidget.prototype.widgetClasses = $tw.modules.applyMethods(\&quot;widget\&quot;);\n\t}\n};\n\n/*\nRender this widget into the DOM\n*/\nWidget.prototype.render = function(parent,nextSibling) {\n\tthis.parentDomNode = parent;\n\tthis.execute();\n\tthis.renderChildren(parent,nextSibling);\n};\n\n/*\nCompute the internal state of the widget\n*/\nWidget.prototype.execute = function() {\n\tthis.makeChildWidgets();\n};\n\n/*\nSet the value of a context variable\nname: name of the variable\nvalue: value of the variable\nparams: array of {name:, default:} for each parameter\n*/\nWidget.prototype.setVariable = function(name,value,params) {\n\tthis.variables[name] = {value: value, params: params};\n};\n\n/*\nGet the prevailing value of a context variable\nname: name of variable\noptions: see below\nOptions include\nparams: array of {name:, value:} for each parameter\ndefaultValue: default value if the variable is not defined\n*/\nWidget.prototype.getVariable = function(name,options) {\n\toptions = options || {};\n\tvar actualParams = options.params || [],\n\t\tparentWidget = this.parentWidget;\n\t// Check for the variable defined in the parent widget (or an ancestor in the prototype chain)\n\tif(parentWidget &amp;&amp; name in parentWidget.variables) {\n\t\tvar variable = parentWidget.variables[name],\n\t\t\tvalue = variable.value;\n\t\t// Substitute any parameters specified in the definition\n\t\tvalue = this.substituteVariableParameters(value,variable.params,actualParams);\n\t\tvalue = this.substituteVariableReferences(value);\n\t\treturn value;\n\t}\n\t// If the variable doesn't exist in the parent widget then look for a macro module\n\treturn this.evaluateMacroModule(name,actualParams,options.defaultValue);\n};\n\nWidget.prototype.substituteVariableParameters = function(text,formalParams,actualParams) {\n\tif(formalParams) {\n\t\tvar nextAnonParameter = 0, // Next candidate anonymous parameter in macro call\n\t\t\tparamInfo, paramValue;\n\t\t// Step through each of the parameters in the macro definition\n\t\tfor(var p=0; p&lt;formalParams.length; p++) {\n\t\t\t// Check if we've got a macro call parameter with the same name\n\t\t\tparamInfo = formalParams[p];\n\t\t\tparamValue = undefined;\n\t\t\tfor(var m=0; m&lt;actualParams.length; m++) {\n\t\t\t\tif(actualParams[m].name === paramInfo.name) {\n\t\t\t\t\tparamValue = actualParams[m].value;\n\t\t\t\t}\n\t\t\t}\n\t\t\t// If not, use the next available anonymous macro call parameter\n\t\t\twhile(nextAnonParameter &lt; actualParams.length &amp;&amp; actualParams[nextAnonParameter].name) {\n\t\t\t\tnextAnonParameter++;\n\t\t\t}\n\t\t\tif(paramValue === undefined &amp;&amp; nextAnonParameter &lt; actualParams.length) {\n\t\t\t\tparamValue = actualParams[nextAnonParameter++].value;\n\t\t\t}\n\t\t\t// If we've still not got a value, use the default, if any\n\t\t\tparamValue = paramValue || paramInfo[\&quot;default\&quot;] || \&quot;\&quot;;\n\t\t\t// Replace any instances of this parameter\n\t\t\ttext = text.replace(new RegExp(\&quot;\\\\$\&quot; + $tw.utils.escapeRegExp(paramInfo.name) + \&quot;\\\\$\&quot;,\&quot;mg\&quot;),paramValue);\n\t\t}\n\t}\n\treturn text;\n};\n\nWidget.prototype.substituteVariableReferences = function(text) {\n\tvar self = this;\n\treturn (text || \&quot;\&quot;).replace(/\\$\\(([^\\)\\$]+)\\)\\$/g,function(match,p1,offset,string) {\n\t\treturn self.getVariable(p1,{defaultValue: \&quot;\&quot;});\n\t});\n};\n\nWidget.prototype.evaluateMacroModule = function(name,actualParams,defaultValue) {\n\tif($tw.utils.hop($tw.macros,name)) {\n\t\tvar macro = $tw.macros[name],\n\t\t\targs = [];\n\t\tif(macro.params.length &gt; 0) {\n\t\t\tvar nextAnonParameter = 0, // Next candidate anonymous parameter in macro call\n\t\t\t\tparamInfo, paramValue;\n\t\t\t// Step through each of the parameters in the macro definition\n\t\t\tfor(var p=0; p&lt;macro.params.length; p++) {\n\t\t\t\t// Check if we've got a macro call parameter with the same name\n\t\t\t\tparamInfo = macro.params[p];\n\t\t\t\tparamValue = undefined;\n\t\t\t\tfor(var m=0; m&lt;actualParams.length; m++) {\n\t\t\t\t\tif(actualParams[m].name === paramInfo.name) {\n\t\t\t\t\t\tparamValue = actualParams[m].value;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\t// If not, use the next available anonymous macro call parameter\n\t\t\t\twhile(nextAnonParameter &lt; actualParams.length &amp;&amp; actualParams[nextAnonParameter].name) {\n\t\t\t\t\tnextAnonParameter++;\n\t\t\t\t}\n\t\t\t\tif(paramValue === undefined &amp;&amp; nextAnonParameter &lt; actualParams.length) {\n\t\t\t\t\tparamValue = actualParams[nextAnonParameter++].value;\n\t\t\t\t}\n\t\t\t\t// If we've still not got a value, use the default, if any\n\t\t\t\tparamValue = paramValue || paramInfo[\&quot;default\&quot;] || \&quot;\&quot;;\n\t\t\t\t// Save the parameter\n\t\t\t\targs.push(paramValue);\n\t\t\t}\n\t\t}\n\t\telse for(var i=0; i&lt;actualParams.length; ++i) {\n\t\t\targs.push(actualParams[i].value);\n\t\t}\n\t\treturn (macro.run.apply(this,args) || \&quot;\&quot;).toString();\n\t} else {\n\t\treturn defaultValue;\n\t}\n};\n\n/*\nCheck whether a given context variable value exists in the parent chain\n*/\nWidget.prototype.hasVariable = function(name,value) {\n\tvar node = this;\n\twhile(node) {\n\t\tif($tw.utils.hop(node.variables,name) &amp;&amp; node.variables[name].value === value) {\n\t\t\treturn true;\n\t\t}\n\t\tnode = node.parentWidget;\n\t}\n\treturn false;\n};\n\n/*\nConstruct a qualifying string based on a hash of concatenating the values of a given variable in the parent chain\n*/\nWidget.prototype.getStateQualifier = function(name) {\n\tthis.qualifiers = this.qualifiers || Object.create(null);\n\tname = name || \&quot;transclusion\&quot;;\n\tif(this.qualifiers[name]) {\n\t\treturn this.qualifiers[name];\n\t} else {\n\t\tvar output = [],\n\t\t\tnode = this;\n\t\twhile(node &amp;&amp; node.parentWidget) {\n\t\t\tif($tw.utils.hop(node.parentWidget.variables,name)) {\n\t\t\t\toutput.push(node.getVariable(name));\n\t\t\t}\n\t\t\tnode = node.parentWidget;\n\t\t}\n\t\tvar value = $tw.utils.hashString(output.join(\&quot;\&quot;));\n\t\tthis.qualifiers[name] = value;\n\t\treturn value;\n\t}\n};\n\n/*\nCompute the current values of the attributes of the widget. Returns a hashmap of the names of the attributes that have changed\n*/\nWidget.prototype.computeAttributes = function() {\n\tvar changedAttributes = {},\n\t\tself = this,\n\t\tvalue;\n\t$tw.utils.each(this.parseTreeNode.attributes,function(attribute,name) {\n\t\tif(attribute.type === \&quot;indirect\&quot;) {\n\t\t\tvalue = self.wiki.getTextReference(attribute.textReference,\&quot;\&quot;,self.getVariable(\&quot;currentTiddler\&quot;));\n\t\t} else if(attribute.type === \&quot;macro\&quot;) {\n\t\t\tvalue = self.getVariable(attribute.value.name,{params: attribute.value.params});\n\t\t} else { // String attribute\n\t\t\tvalue = attribute.value;\n\t\t}\n\t\t// Check whether the attribute has changed\n\t\tif(self.attributes[name] !== value) {\n\t\t\tself.attributes[name] = value;\n\t\t\tchangedAttributes[name] = true;\n\t\t}\n\t});\n\treturn changedAttributes;\n};\n\n/*\nCheck for the presence of an attribute\n*/\nWidget.prototype.hasAttribute = function(name) {\n\treturn $tw.utils.hop(this.attributes,name);\n};\n\n/*\nGet the value of an attribute\n*/\nWidget.prototype.getAttribute = function(name,defaultText) {\n\tif($tw.utils.hop(this.attributes,name)) {\n\t\treturn this.attributes[name];\n\t} else {\n\t\treturn defaultText;\n\t}\n};\n\n/*\nAssign the computed attributes of the widget to a domNode\noptions include:\nexcludeEventAttributes: ignores attributes whose name begins with \&quot;on\&quot;\n*/\nWidget.prototype.assignAttributes = function(domNode,options) {\n\toptions = options || {};\n\tvar self = this;\n\t$tw.utils.each(this.attributes,function(v,a) {\n\t\t// Check exclusions\n\t\tif(options.excludeEventAttributes &amp;&amp; a.substr(0,2) === \&quot;on\&quot;) {\n\t\t\tv = undefined;\n\t\t}\n\t\tif(v !== undefined) {\n\t\t\tvar b = a.split(\&quot;:\&quot;);\n\t\t\t// Setting certain attributes can cause a DOM error (eg xmlns on the svg element)\n\t\t\ttry {\n\t\t\t\tif (b.length == 2 &amp;&amp; b[0] == \&quot;xlink\&quot;){\n\t\t\t\t\tdomNode.setAttributeNS(\&quot;http://www.w3.org/1999/xlink\&quot;,b[1],v);\n\t\t\t\t} else {\n\t\t\t\t\tdomNode.setAttributeNS(null,a,v);\n\t\t\t\t}\n\t\t\t} catch(e) {\n\t\t\t}\n\t\t}\n\t});\n};\n\n/*\nMake child widgets correspondng to specified parseTreeNodes\n*/\nWidget.prototype.makeChildWidgets = function(parseTreeNodes) {\n\tthis.children = [];\n\tvar self = this;\n\t$tw.utils.each(parseTreeNodes || (this.parseTreeNode &amp;&amp; this.parseTreeNode.children),function(childNode) {\n\t\tself.children.push(self.makeChildWidget(childNode));\n\t});\n};\n\n/*\nConstruct the widget object for a parse tree node\n*/\nWidget.prototype.makeChildWidget = function(parseTreeNode) {\n\tvar WidgetClass = this.widgetClasses[parseTreeNode.type];\n\tif(!WidgetClass) {\n\t\tWidgetClass = this.widgetClasses.text;\n\t\tparseTreeNode = {type: \&quot;text\&quot;, text: \&quot;Undefined widget '\&quot; + parseTreeNode.type + \&quot;'\&quot;};\n\t}\n\treturn new WidgetClass(parseTreeNode,{\n\t\twiki: this.wiki,\n\t\tvariables: {},\n\t\tparentWidget: this,\n\t\tdocument: this.document\n\t});\n};\n\n/*\nGet the next sibling of this widget\n*/\nWidget.prototype.nextSibling = function() {\n\tif(this.parentWidget) {\n\t\tvar index = this.parentWidget.children.indexOf(this);\n\t\tif(index !== -1 &amp;&amp; index &lt; this.parentWidget.children.length-1) {\n\t\t\treturn this.parentWidget.children[index+1];\n\t\t}\n\t}\n\treturn null;\n};\n\n/*\nGet the previous sibling of this widget\n*/\nWidget.prototype.previousSibling = function() {\n\tif(this.parentWidget) {\n\t\tvar index = this.parentWidget.children.indexOf(this);\n\t\tif(index !== -1 &amp;&amp; index &gt; 0) {\n\t\t\treturn this.parentWidget.children[index-1];\n\t\t}\n\t}\n\treturn null;\n};\n\n/*\nRender the children of this widget into the DOM\n*/\nWidget.prototype.renderChildren = function(parent,nextSibling) {\n\t$tw.utils.each(this.children,function(childWidget) {\n\t\tchildWidget.render(parent,nextSibling);\n\t});\n};\n\n/*\nAdd a list of event listeners from an array [{type:,handler:},...]\n*/\nWidget.prototype.addEventListeners = function(listeners) {\n\tvar self = this;\n\t$tw.utils.each(listeners,function(listenerInfo) {\n\t\tself.addEventListener(listenerInfo.type,listenerInfo.handler);\n\t});\n};\n\n/*\nAdd an event listener\n*/\nWidget.prototype.addEventListener = function(type,handler) {\n\tvar self = this;\n\tif(typeof handler === \&quot;string\&quot;) { // The handler is a method name on this widget\n\t\tthis.eventListeners[type] = function(event) {\n\t\t\treturn self[handler].call(self,event);\n\t\t};\n\t} else { // The handler is a function\n\t\tthis.eventListeners[type] = function(event) {\n\t\t\treturn handler.call(self,event);\n\t\t};\n\t}\n};\n\n/*\nDispatch an event to a widget. If the widget doesn't handle the event then it is also dispatched to the parent widget\n*/\nWidget.prototype.dispatchEvent = function(event) {\n\t// Dispatch the event if this widget handles it\n\tvar listener = this.eventListeners[event.type];\n\tif(listener) {\n\t\t// Don't propagate the event if the listener returned false\n\t\tif(!listener(event)) {\n\t\t\treturn false;\n\t\t}\n\t}\n\t// Dispatch the event to the parent widget\n\tif(this.parentWidget) {\n\t\treturn this.parentWidget.dispatchEvent(event);\n\t}\n\treturn true;\n};\n\n/*\nSelectively refreshes the widget if needed. Returns true if the widget or any of its children needed re-rendering\n*/\nWidget.prototype.refresh = function(changedTiddlers) {\n\treturn this.refreshChildren(changedTiddlers);\n};\n\n/*\nRebuild a previously rendered widget\n*/\nWidget.prototype.refreshSelf = function() {\n\tvar nextSibling = this.findNextSiblingDomNode();\n\tthis.removeChildDomNodes();\n\tthis.render(this.parentDomNode,nextSibling);\n};\n\n/*\nRefresh all the children of a widget\n*/\nWidget.prototype.refreshChildren = function(changedTiddlers) {\n\tvar self = this,\n\t\trefreshed = false;\n\t$tw.utils.each(this.children,function(childWidget) {\n\t\trefreshed = childWidget.refresh(changedTiddlers) || refreshed;\n\t});\n\treturn refreshed;\n};\n\n/*\nFind the next sibling in the DOM to this widget. This is done by scanning the widget tree through all next siblings and their descendents that share the same parent DOM node\n*/\nWidget.prototype.findNextSiblingDomNode = function(startIndex) {\n\t// Refer to this widget by its index within its parents children\n\tvar parent = this.parentWidget,\n\t\tindex = startIndex !== undefined ? startIndex : parent.children.indexOf(this);\nif(index === -1) {\n\tthrow \&quot;node not found in parents children\&quot;;\n}\n\t// Look for a DOM node in the later siblings\n\twhile(++index &lt; parent.children.length) {\n\t\tvar domNode = parent.children[index].findFirstDomNode();\n\t\tif(domNode) {\n\t\t\treturn domNode;\n\t\t}\n\t}\n\t// Go back and look for later siblings of our parent if it has the same parent dom node\n\tvar grandParent = parent.parentWidget;\n\tif(grandParent &amp;&amp; parent.parentDomNode === this.parentDomNode) {\n\t\tindex = grandParent.children.indexOf(parent);\n\t\tif(index !== -1) {\n\t\t\treturn parent.findNextSiblingDomNode(index);\n\t\t}\n\t}\n\treturn null;\n};\n\n/*\nFind the first DOM node generated by a widget or its children\n*/\nWidget.prototype.findFirstDomNode = function() {\n\t// Return the first dom node of this widget, if we've got one\n\tif(this.domNodes.length &gt; 0) {\n\t\treturn this.domNodes[0];\n\t}\n\t// Otherwise, recursively call our children\n\tfor(var t=0; t&lt;this.children.length; t++) {\n\t\tvar domNode = this.children[t].findFirstDomNode();\n\t\tif(domNode) {\n\t\t\treturn domNode;\n\t\t}\n\t}\n\treturn null;\n};\n\n/*\nRemove any DOM nodes created by this widget or its children\n*/\nWidget.prototype.removeChildDomNodes = function() {\n\t// If this widget has directly created DOM nodes, delete them and exit. This assumes that any child widgets are contained within the created DOM nodes, which would normally be the case\n\tif(this.domNodes.length &gt; 0) {\n\t\t$tw.utils.each(this.domNodes,function(domNode) {\n\t\t\tdomNode.parentNode.removeChild(domNode);\n\t\t});\n\t\tthis.domNodes = [];\n\t} else {\n\t\t// Otherwise, ask the child widgets to delete their DOM nodes\n\t\t$tw.utils.each(this.children,function(childWidget) {\n\t\t\tchildWidget.removeChildDomNodes();\n\t\t});\n\t}\n};\n\n/*\nInvoke the action widgets that are descendents of the current widget.\n*/\nWidget.prototype.invokeActions = function(triggeringWidget,event) {\n\tvar handled = false;\n\t// For each child widget\n\tfor(var t=0; t&lt;this.children.length; t++) {\n\t\tvar child = this.children[t];\n\t\t// Invoke the child if it is an action widget\n\t\tif(child.invokeAction &amp;&amp; child.invokeAction(triggeringWidget,event)) {\n\t\t\thandled = true;\n\t\t}\n\t\t// Propagate through through the child if it permits it\n\t\tif(child.allowActionPropagation() &amp;&amp; child.invokeActions(triggeringWidget,event)) {\n\t\t\thandled = true;\n\t\t}\n\t}\n\treturn handled;\n};\n\n\nWidget.prototype.allowActionPropagation = function() {\n\treturn true;\n};\n\nexports.widget = Widget;\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/widgets/widget.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;widget&quot;
        },
        &quot;$:/core/modules/wiki-bulkops.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/wiki-bulkops.js\ntype: application/javascript\nmodule-type: wikimethod\n\nBulk tiddler operations such as rename.\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\n/*\nRename a tiddler, and relink any tags or lists that reference it.\n*/\nexports.renameTiddler = function(fromTitle,toTitle) {\n\tvar self = this;\n\tfromTitle = (fromTitle || \&quot;\&quot;).trim();\n\ttoTitle = (toTitle || \&quot;\&quot;).trim();\n\tif(fromTitle &amp;&amp; toTitle &amp;&amp; fromTitle !== toTitle) {\n\t\t// Rename the tiddler itself\n\t\tvar tiddler = this.getTiddler(fromTitle);\n\t\tthis.addTiddler(new $tw.Tiddler(tiddler,{title: toTitle},this.getModificationFields()));\n\t\tthis.deleteTiddler(fromTitle);\n\t\t// Rename any tags or lists that reference it\n\t\tthis.each(function(tiddler,title) {\n\t\t\tvar tags = (tiddler.fields.tags || []).slice(0),\n\t\t\t\tlist = (tiddler.fields.list || []).slice(0),\n\t\t\t\tisModified = false;\n\t\t\t// Rename tags\n\t\t\t$tw.utils.each(tags,function (title,index) {\n\t\t\t\tif(title === fromTitle) {\n\t\t\t\t\ttags[index] = toTitle;\n\t\t\t\t\tisModified = true;\n\t\t\t\t}\n\t\t\t});\n\t\t\t// Rename lists\n\t\t\t$tw.utils.each(list,function (title,index) {\n\t\t\t\tif(title === fromTitle) {\n\t\t\t\t\tlist[index] = toTitle;\n\t\t\t\t\tisModified = true;\n\t\t\t\t}\n\t\t\t});\n\t\t\tif(isModified) {\n\t\t\t\tself.addTiddler(new $tw.Tiddler(tiddler,{tags: tags, list: list},self.getModificationFields()));\n\t\t\t}\n\t\t});\n\t}\n}\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/wiki-bulkops.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikimethod&quot;
        },
        &quot;$:/core/modules/wiki.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/core/modules/wiki.js\ntype: application/javascript\nmodule-type: wikimethod\n\nExtension methods for the $tw.Wiki object\n\nAdds the following properties to the wiki object:\n\n* `eventListeners` is a hashmap by type of arrays of listener functions\n* `changedTiddlers` is a hashmap describing changes to named tiddlers since wiki change events were last dispatched. Each entry is a hashmap containing two fields:\n\tmodified: true/false\n\tdeleted: true/false\n* `changeCount` is a hashmap by tiddler title containing a numerical index that starts at zero and is incremented each time a tiddler is created changed or deleted\n* `caches` is a hashmap by tiddler title containing a further hashmap of named cache objects. Caches are automatically cleared when a tiddler is modified or deleted\n* `globalCache` is a hashmap by cache name of cache objects that are cleared whenever any tiddler change occurs\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar widget = require(\&quot;$:/core/modules/widgets/widget.js\&quot;);\n\nvar USER_NAME_TITLE = \&quot;$:/status/UserName\&quot;;\n\n/*\nGet the value of a text reference. Text references can have any of these forms:\n\t&lt;tiddlertitle&gt;\n\t&lt;tiddlertitle&gt;!!&lt;fieldname&gt;\n\t!!&lt;fieldname&gt; - specifies a field of the current tiddlers\n\t&lt;tiddlertitle&gt;##&lt;index&gt;\n*/\nexports.getTextReference = function(textRef,defaultText,currTiddlerTitle) {\n\tvar tr = $tw.utils.parseTextReference(textRef),\n\t\ttitle = tr.title || currTiddlerTitle;\n\tif(tr.field) {\n\t\tvar tiddler = this.getTiddler(title);\n\t\tif(tr.field === \&quot;title\&quot;) { // Special case so we can return the title of a non-existent tiddler\n\t\t\treturn title;\n\t\t} else if(tiddler &amp;&amp; $tw.utils.hop(tiddler.fields,tr.field)) {\n\t\t\treturn tiddler.getFieldString(tr.field);\n\t\t} else {\n\t\t\treturn defaultText;\n\t\t}\n\t} else if(tr.index) {\n\t\treturn this.extractTiddlerDataItem(title,tr.index,defaultText);\n\t} else {\n\t\treturn this.getTiddlerText(title,defaultText);\n\t}\n};\n\nexports.setTextReference = function(textRef,value,currTiddlerTitle) {\n\tvar tr = $tw.utils.parseTextReference(textRef),\n\t\ttitle = tr.title || currTiddlerTitle;\n\tthis.setText(title,tr.field,tr.index,value);\n};\n\nexports.setText = function(title,field,index,value,options) {\n\toptions = options || {};\n\tvar creationFields = options.suppressTimestamp ? {} : this.getCreationFields(),\n\t\tmodificationFields = options.suppressTimestamp ? {} : this.getModificationFields();\n\t// Check if it is a reference to a tiddler field\n\tif(index) {\n\t\tvar data = this.getTiddlerData(title,Object.create(null));\n\t\tif(value !== undefined) {\n\t\t\tdata[index] = value;\n\t\t} else {\n\t\t\tdelete data[index];\n\t\t}\n\t\tthis.setTiddlerData(title,data,modificationFields);\n\t} else {\n\t\tvar tiddler = this.getTiddler(title),\n\t\t\tfields = {title: title};\n\t\tfields[field || \&quot;text\&quot;] = value;\n\t\tthis.addTiddler(new $tw.Tiddler(creationFields,tiddler,fields,modificationFields));\n\t}\n};\n\nexports.deleteTextReference = function(textRef,currTiddlerTitle) {\n\tvar tr = $tw.utils.parseTextReference(textRef),\n\t\ttitle,tiddler,fields;\n\t// Check if it is a reference to a tiddler\n\tif(tr.title &amp;&amp; !tr.field) {\n\t\tthis.deleteTiddler(tr.title);\n\t// Else check for a field reference\n\t} else if(tr.field) {\n\t\ttitle = tr.title || currTiddlerTitle;\n\t\ttiddler = this.getTiddler(title);\n\t\tif(tiddler &amp;&amp; $tw.utils.hop(tiddler.fields,tr.field)) {\n\t\t\tfields = Object.create(null);\n\t\t\tfields[tr.field] = undefined;\n\t\t\tthis.addTiddler(new $tw.Tiddler(tiddler,fields,this.getModificationFields()));\n\t\t}\n\t}\n};\n\nexports.addEventListener = function(type,listener) {\n\tthis.eventListeners = this.eventListeners || {};\n\tthis.eventListeners[type] = this.eventListeners[type]  || [];\n\tthis.eventListeners[type].push(listener);\t\n};\n\nexports.removeEventListener = function(type,listener) {\n\tvar listeners = this.eventListeners[type];\n\tif(listeners) {\n\t\tvar p = listeners.indexOf(listener);\n\t\tif(p !== -1) {\n\t\t\tlisteners.splice(p,1);\n\t\t}\n\t}\n};\n\nexports.dispatchEvent = function(type /*, args */) {\n\tvar args = Array.prototype.slice.call(arguments,1),\n\t\tlisteners = this.eventListeners[type];\n\tif(listeners) {\n\t\tfor(var p=0; p&lt;listeners.length; p++) {\n\t\t\tvar listener = listeners[p];\n\t\t\tlistener.apply(listener,args);\n\t\t}\n\t}\n};\n\n/*\nCauses a tiddler to be marked as changed, incrementing the change count, and triggers event handlers.\nThis method should be called after the changes it describes have been made to the wiki.tiddlers[] array.\n\ttitle: Title of tiddler\n\tisDeleted: defaults to false (meaning the tiddler has been created or modified),\n\t\ttrue if the tiddler has been deleted\n*/\nexports.enqueueTiddlerEvent = function(title,isDeleted) {\n\t// Record the touch in the list of changed tiddlers\n\tthis.changedTiddlers = this.changedTiddlers || Object.create(null);\n\tthis.changedTiddlers[title] = this.changedTiddlers[title] || Object.create(null);\n\tthis.changedTiddlers[title][isDeleted ? \&quot;deleted\&quot; : \&quot;modified\&quot;] = true;\n\t// Increment the change count\n\tthis.changeCount = this.changeCount || Object.create(null);\n\tif($tw.utils.hop(this.changeCount,title)) {\n\t\tthis.changeCount[title]++;\n\t} else {\n\t\tthis.changeCount[title] = 1;\n\t}\n\t// Trigger events\n\tthis.eventListeners = this.eventListeners || {};\n\tif(!this.eventsTriggered) {\n\t\tvar self = this;\n\t\t$tw.utils.nextTick(function() {\n\t\t\tvar changes = self.changedTiddlers;\n\t\t\tself.changedTiddlers = Object.create(null);\n\t\t\tself.eventsTriggered = false;\n\t\t\tif($tw.utils.count(changes) &gt; 0) {\n\t\t\t\tself.dispatchEvent(\&quot;change\&quot;,changes);\n\t\t\t}\n\t\t});\n\t\tthis.eventsTriggered = true;\n\t}\n};\n\nexports.getSizeOfTiddlerEventQueue = function() {\n\treturn $tw.utils.count(this.changedTiddlers);\n};\n\nexports.clearTiddlerEventQueue = function() {\n\tthis.changedTiddlers = Object.create(null);\n\tthis.changeCount = Object.create(null);\n};\n\nexports.getChangeCount = function(title) {\n\tthis.changeCount = this.changeCount || Object.create(null);\n\tif($tw.utils.hop(this.changeCount,title)) {\n\t\treturn this.changeCount[title];\n\t} else {\n\t\treturn 0;\n\t}\n};\n\n/*\nGenerate an unused title from the specified base\n*/\nexports.generateNewTitle = function(baseTitle,options) {\n\toptions = options || {};\n\tvar c = 0,\n\t\ttitle = baseTitle;\n\twhile(this.tiddlerExists(title) || this.isShadowTiddler(title) || this.findDraft(title)) {\n\t\ttitle = baseTitle + \n\t\t\t(options.prefix || \&quot; \&quot;) + \n\t\t\t(++c);\n\t}\n\treturn title;\n};\n\nexports.isSystemTiddler = function(title) {\n\treturn title &amp;&amp; title.indexOf(\&quot;$:/\&quot;) === 0;\n};\n\nexports.isTemporaryTiddler = function(title) {\n\treturn title &amp;&amp; title.indexOf(\&quot;$:/temp/\&quot;) === 0;\n};\n\nexports.isImageTiddler = function(title) {\n\tvar tiddler = this.getTiddler(title);\n\tif(tiddler) {\t\t\n\t\tvar contentTypeInfo = $tw.config.contentTypeInfo[tiddler.fields.type || \&quot;text/vnd.tiddlywiki\&quot;];\n\t\treturn !!contentTypeInfo &amp;&amp; contentTypeInfo.flags.indexOf(\&quot;image\&quot;) !== -1;\n\t} else {\n\t\treturn null;\n\t}\n};\n\n/*\nLike addTiddler() except it will silently reject any plugin tiddlers that are older than the currently loaded version. Returns true if the tiddler was imported\n*/\nexports.importTiddler = function(tiddler) {\n\tvar existingTiddler = this.getTiddler(tiddler.fields.title);\n\t// Check if we're dealing with a plugin\n\tif(tiddler &amp;&amp; tiddler.hasField(\&quot;plugin-type\&quot;) &amp;&amp; tiddler.hasField(\&quot;version\&quot;) &amp;&amp; existingTiddler &amp;&amp; existingTiddler.hasField(\&quot;plugin-type\&quot;) &amp;&amp; existingTiddler.hasField(\&quot;version\&quot;)) {\n\t\t// Reject the incoming plugin if it is older\n\t\tif(!$tw.utils.checkVersions(tiddler.fields.version,existingTiddler.fields.version)) {\n\t\t\treturn false;\n\t\t}\n\t}\n\t// Fall through to adding the tiddler\n\tthis.addTiddler(tiddler);\n\treturn true;\n};\n\n/*\nReturn a hashmap of the fields that should be set when a tiddler is created\n*/\nexports.getCreationFields = function() {\n\tvar fields = {\n\t\t\tcreated: new Date()\n\t\t},\n\t\tcreator = this.getTiddlerText(USER_NAME_TITLE);\n\tif(creator) {\n\t\tfields.creator = creator;\n\t}\n\treturn fields;\n};\n\n/*\nReturn a hashmap of the fields that should be set when a tiddler is modified\n*/\nexports.getModificationFields = function() {\n\tvar fields = Object.create(null),\n\t\tmodifier = this.getTiddlerText(USER_NAME_TITLE);\n\tfields.modified = new Date();\n\tif(modifier) {\n\t\tfields.modifier = modifier;\n\t}\n\treturn fields;\n};\n\n/*\nReturn a sorted array of tiddler titles.  Options include:\nsortField: field to sort by\nexcludeTag: tag to exclude\nincludeSystem: whether to include system tiddlers (defaults to false)\n*/\nexports.getTiddlers = function(options) {\n\toptions = options || Object.create(null);\n\tvar self = this,\n\t\tsortField = options.sortField || \&quot;title\&quot;,\n\t\ttiddlers = [], t, titles = [];\n\tthis.each(function(tiddler,title) {\n\t\tif(options.includeSystem || !self.isSystemTiddler(title)) {\n\t\t\tif(!options.excludeTag || !tiddler.hasTag(options.excludeTag)) {\n\t\t\t\ttiddlers.push(tiddler);\n\t\t\t}\n\t\t}\n\t});\n\ttiddlers.sort(function(a,b) {\n\t\tvar aa = a.fields[sortField].toLowerCase() || \&quot;\&quot;,\n\t\t\tbb = b.fields[sortField].toLowerCase() || \&quot;\&quot;;\n\t\tif(aa &lt; bb) {\n\t\t\treturn -1;\n\t\t} else {\n\t\t\tif(aa &gt; bb) {\n\t\t\t\treturn 1;\n\t\t\t} else {\n\t\t\t\treturn 0;\n\t\t\t}\n\t\t}\n\t});\n\tfor(t=0; t&lt;tiddlers.length; t++) {\n\t\ttitles.push(tiddlers[t].fields.title);\n\t}\n\treturn titles;\n};\n\nexports.countTiddlers = function(excludeTag) {\n\tvar tiddlers = this.getTiddlers({excludeTag: excludeTag});\n\treturn $tw.utils.count(tiddlers);\n};\n\n/*\nReturns a function iterator(callback) that iterates through the specified titles, and invokes the callback with callback(tiddler,title)\n*/\nexports.makeTiddlerIterator = function(titles) {\n\tvar self = this;\n\tif(!$tw.utils.isArray(titles)) {\n\t\ttitles = Object.keys(titles);\n\t} else {\n\t\ttitles = titles.slice(0);\n\t}\n\treturn function(callback) {\n\t\ttitles.forEach(function(title) {\n\t\t\tcallback(self.getTiddler(title),title);\n\t\t});\n\t};\n};\n\n/*\nSort an array of tiddler titles by a specified field\n\ttitles: array of titles (sorted in place)\n\tsortField: name of field to sort by\n\tisDescending: true if the sort should be descending\n\tisCaseSensitive: true if the sort should consider upper and lower case letters to be different\n*/\nexports.sortTiddlers = function(titles,sortField,isDescending,isCaseSensitive,isNumeric) {\n\tvar self = this;\n\ttitles.sort(function(a,b) {\n\t\tvar x,y,\n\t\t\tcompareNumbers = function(x,y) {\n\t\t\t\tvar result = \n\t\t\t\t\tisNaN(x) &amp;&amp; !isNaN(y) ? (isDescending ? -1 : 1) :\n\t\t\t\t\t!isNaN(x) &amp;&amp; isNaN(y) ? (isDescending ? 1 : -1) :\n\t\t\t\t\t                        (isDescending ? y - x :  x - y);\n\t\t\t\treturn result;\n\t\t\t};\n\t\tif(sortField !== \&quot;title\&quot;) {\n\t\t\tvar tiddlerA = self.getTiddler(a),\n\t\t\t\ttiddlerB = self.getTiddler(b);\n\t\t\tif(tiddlerA) {\n\t\t\t\ta = tiddlerA.fields[sortField] || \&quot;\&quot;;\n\t\t\t} else {\n\t\t\t\ta = \&quot;\&quot;;\n\t\t\t}\n\t\t\tif(tiddlerB) {\n\t\t\t\tb = tiddlerB.fields[sortField] || \&quot;\&quot;;\n\t\t\t} else {\n\t\t\t\tb = \&quot;\&quot;;\n\t\t\t}\n\t\t}\n\t\tx = Number(a);\n\t\ty = Number(b);\n\t\tif(isNumeric &amp;&amp; (!isNaN(x) || !isNaN(y))) {\n\t\t\treturn compareNumbers(x,y);\n\t\t} else if($tw.utils.isDate(a) &amp;&amp; $tw.utils.isDate(b)) {\n\t\t\treturn isDescending ? b - a : a - b;\n\t\t} else {\n\t\t\ta = String(a);\n\t\t\tb = String(b);\n\t\t\tif(!isCaseSensitive) {\n\t\t\t\ta = a.toLowerCase();\n\t\t\t\tb = b.toLowerCase();\n\t\t\t}\n\t\t\treturn isDescending ? b.localeCompare(a) : a.localeCompare(b);\n\t\t}\n\t});\n};\n\n/*\nFor every tiddler invoke a callback(title,tiddler) with `this` set to the wiki object. Options include:\nsortField: field to sort by\nexcludeTag: tag to exclude\nincludeSystem: whether to include system tiddlers (defaults to false)\n*/\nexports.forEachTiddler = function(/* [options,]callback */) {\n\tvar arg = 0,\n\t\toptions = arguments.length &gt;= 2 ? arguments[arg++] : {},\n\t\tcallback = arguments[arg++],\n\t\ttitles = this.getTiddlers(options),\n\t\tt, tiddler;\n\tfor(t=0; t&lt;titles.length; t++) {\n\t\ttiddler = this.getTiddler(titles[t]);\n\t\tif(tiddler) {\n\t\t\tcallback.call(this,tiddler.fields.title,tiddler);\n\t\t}\n\t}\n};\n\n/*\nReturn an array of tiddler titles that are directly linked from the specified tiddler\n*/\nexports.getTiddlerLinks = function(title) {\n\tvar self = this;\n\t// We'll cache the links so they only get computed if the tiddler changes\n\treturn this.getCacheForTiddler(title,\&quot;links\&quot;,function() {\n\t\t// Parse the tiddler\n\t\tvar parser = self.parseTiddler(title);\n\t\t// Count up the links\n\t\tvar links = [],\n\t\t\tcheckParseTree = function(parseTree) {\n\t\t\t\tfor(var t=0; t&lt;parseTree.length; t++) {\n\t\t\t\t\tvar parseTreeNode = parseTree[t];\n\t\t\t\t\tif(parseTreeNode.type === \&quot;link\&quot; &amp;&amp; parseTreeNode.attributes.to &amp;&amp; parseTreeNode.attributes.to.type === \&quot;string\&quot;) {\n\t\t\t\t\t\tvar value = parseTreeNode.attributes.to.value;\n\t\t\t\t\t\tif(links.indexOf(value) === -1) {\n\t\t\t\t\t\t\tlinks.push(value);\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t\tif(parseTreeNode.children) {\n\t\t\t\t\t\tcheckParseTree(parseTreeNode.children);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t};\n\t\tif(parser) {\n\t\t\tcheckParseTree(parser.tree);\n\t\t}\n\t\treturn links;\n\t});\n};\n\n/*\nReturn an array of tiddler titles that link to the specified tiddler\n*/\nexports.getTiddlerBacklinks = function(targetTitle) {\n\tvar self = this,\n\t\tbacklinks = [];\n\tthis.forEachTiddler(function(title,tiddler) {\n\t\tvar links = self.getTiddlerLinks(title);\n\t\tif(links.indexOf(targetTitle) !== -1) {\n\t\t\tbacklinks.push(title);\n\t\t}\n\t});\n\treturn backlinks;\n};\n\n/*\nReturn a hashmap of tiddler titles that are referenced but not defined. Each value is the number of times the missing tiddler is referenced\n*/\nexports.getMissingTitles = function() {\n\tvar self = this,\n\t\tmissing = [];\n// We should cache the missing tiddler list, even if we recreate it every time any tiddler is modified\n\tthis.forEachTiddler(function(title,tiddler) {\n\t\tvar links = self.getTiddlerLinks(title);\n\t\t$tw.utils.each(links,function(link) {\n\t\t\tif((!self.tiddlerExists(link) &amp;&amp; !self.isShadowTiddler(link)) &amp;&amp; missing.indexOf(link) === -1) {\n\t\t\t\tmissing.push(link);\n\t\t\t}\n\t\t});\n\t});\n\treturn missing;\n};\n\nexports.getOrphanTitles = function() {\n\tvar self = this,\n\t\torphans = this.getTiddlers();\n\tthis.forEachTiddler(function(title,tiddler) {\n\t\tvar links = self.getTiddlerLinks(title);\n\t\t$tw.utils.each(links,function(link) {\n\t\t\tvar p = orphans.indexOf(link);\n\t\t\tif(p !== -1) {\n\t\t\t\torphans.splice(p,1);\n\t\t\t}\n\t\t});\n\t});\n\treturn orphans; // Todo\n};\n\n/*\nRetrieves a list of the tiddler titles that are tagged with a given tag\n*/\nexports.getTiddlersWithTag = function(tag) {\n\tvar self = this;\n\treturn this.getGlobalCache(\&quot;taglist-\&quot; + tag,function() {\n\t\tvar tagmap = self.getTagMap();\n\t\treturn self.sortByList(tagmap[tag],tag);\n\t});\n};\n\n/*\nGet a hashmap by tag of arrays of tiddler titles\n*/\nexports.getTagMap = function() {\n\tvar self = this;\n\treturn this.getGlobalCache(\&quot;tagmap\&quot;,function() {\n\t\tvar tags = Object.create(null),\n\t\t\tstoreTags = function(tagArray,title) {\n\t\t\t\tif(tagArray) {\n\t\t\t\t\tfor(var index=0; index&lt;tagArray.length; index++) {\n\t\t\t\t\t\tvar tag = tagArray[index];\n\t\t\t\t\t\tif($tw.utils.hop(tags,tag)) {\n\t\t\t\t\t\t\ttags[tag].push(title);\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\ttags[tag] = [title];\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t},\n\t\t\ttitle, tiddler;\n\t\t// Collect up all the tags\n\t\tself.eachShadow(function(tiddler,title) {\n\t\t\tif(!self.tiddlerExists(title)) {\n\t\t\t\ttiddler = self.getTiddler(title);\n\t\t\t\tstoreTags(tiddler.fields.tags,title);\n\t\t\t}\n\t\t});\n\t\tself.each(function(tiddler,title) {\n\t\t\tstoreTags(tiddler.fields.tags,title);\n\t\t});\n\t\treturn tags;\n\t});\n};\n\n/*\nLookup a given tiddler and return a list of all the tiddlers that include it in the specified list field\n*/\nexports.findListingsOfTiddler = function(targetTitle,fieldName) {\n\tfieldName = fieldName || \&quot;list\&quot;;\n\tvar titles = [];\n\tthis.each(function(tiddler,title) {\n\t\tvar list = $tw.utils.parseStringArray(tiddler.fields[fieldName]);\n\t\tif(list &amp;&amp; list.indexOf(targetTitle) !== -1) {\n\t\t\ttitles.push(title);\n\t\t}\n\t});\n\treturn titles;\n};\n\n/*\nSorts an array of tiddler titles according to an ordered list\n*/\nexports.sortByList = function(array,listTitle) {\n\tvar list = this.getTiddlerList(listTitle);\n\tif(!array || array.length === 0) {\n\t\treturn [];\n\t} else {\n\t\tvar titles = [], t, title;\n\t\t// First place any entries that are present in the list\n\t\tfor(t=0; t&lt;list.length; t++) {\n\t\t\ttitle = list[t];\n\t\t\tif(array.indexOf(title) !== -1) {\n\t\t\t\ttitles.push(title);\n\t\t\t}\n\t\t}\n\t\t// Then place any remaining entries\n\t\tfor(t=0; t&lt;array.length; t++) {\n\t\t\ttitle = array[t];\n\t\t\tif(list.indexOf(title) === -1) {\n\t\t\t\ttitles.push(title);\n\t\t\t}\n\t\t}\n\t\t// Finally obey the list-before and list-after fields of each tiddler in turn\n\t\tvar sortedTitles = titles.slice(0);\n\t\tfor(t=0; t&lt;sortedTitles.length; t++) {\n\t\t\ttitle = sortedTitles[t];\n\t\t\tvar currPos = titles.indexOf(title),\n\t\t\t\tnewPos = -1,\n\t\t\t\ttiddler = this.getTiddler(title);\n\t\t\tif(tiddler) {\n\t\t\t\tvar beforeTitle = tiddler.fields[\&quot;list-before\&quot;],\n\t\t\t\t\tafterTitle = tiddler.fields[\&quot;list-after\&quot;];\n\t\t\t\tif(beforeTitle === \&quot;\&quot;) {\n\t\t\t\t\tnewPos = 0;\n\t\t\t\t} else if(beforeTitle) {\n\t\t\t\t\tnewPos = titles.indexOf(beforeTitle);\n\t\t\t\t} else if(afterTitle) {\n\t\t\t\t\tnewPos = titles.indexOf(afterTitle);\n\t\t\t\t\tif(newPos &gt;= 0) {\n\t\t\t\t\t\t++newPos;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\tif(newPos === -1) {\n\t\t\t\t\tnewPos = currPos;\n\t\t\t\t}\n\t\t\t\tif(newPos !== currPos) {\n\t\t\t\t\ttitles.splice(currPos,1);\n\t\t\t\t\tif(newPos &gt;= currPos) {\n\t\t\t\t\t\tnewPos--;\n\t\t\t\t\t}\n\t\t\t\t\ttitles.splice(newPos,0,title);\n\t\t\t\t}\n\t\t\t}\n\n\t\t}\n\t\treturn titles;\n\t}\n};\n\nexports.getSubTiddler = function(title,subTiddlerTitle) {\n\tvar bundleInfo = this.getPluginInfo(title) || this.getTiddlerDataCached(title);\n\tif(bundleInfo &amp;&amp; bundleInfo.tiddlers) {\n\t\tvar subTiddler = bundleInfo.tiddlers[subTiddlerTitle];\n\t\tif(subTiddler) {\n\t\t\treturn new $tw.Tiddler(subTiddler);\n\t\t}\n\t}\n\treturn null;\n};\n\n/*\nRetrieve a tiddler as a JSON string of the fields\n*/\nexports.getTiddlerAsJson = function(title) {\n\tvar tiddler = this.getTiddler(title);\n\tif(tiddler) {\n\t\tvar fields = Object.create(null);\n\t\t$tw.utils.each(tiddler.fields,function(value,name) {\n\t\t\tfields[name] = tiddler.getFieldString(name);\n\t\t});\n\t\treturn JSON.stringify(fields);\n\t} else {\n\t\treturn JSON.stringify({title: title});\n\t}\n};\n\n/*\nGet the content of a tiddler as a JavaScript object. How this is done depends on the type of the tiddler:\n\napplication/json: the tiddler JSON is parsed into an object\napplication/x-tiddler-dictionary: the tiddler is parsed as sequence of name:value pairs\n\nOther types currently just return null.\n\ntitleOrTiddler: string tiddler title or a tiddler object\ndefaultData: default data to be returned if the tiddler is missing or doesn't contain data\n\nNote that the same value is returned for repeated calls for the same tiddler data. The value is frozen to prevent modification; otherwise modifications would be visible to all callers\n*/\nexports.getTiddlerDataCached = function(titleOrTiddler,defaultData) {\n\tvar self = this,\n\t\ttiddler = titleOrTiddler;\n\tif(!(tiddler instanceof $tw.Tiddler)) {\n\t\ttiddler = this.getTiddler(tiddler);\t\n\t}\n\tif(tiddler) {\n\t\treturn this.getCacheForTiddler(tiddler.fields.title,\&quot;data\&quot;,function() {\n\t\t\t// Return the frozen value\n\t\t\tvar value = self.getTiddlerData(tiddler.fields.title,defaultData);\n\t\t\t$tw.utils.deepFreeze(value);\n\t\t\treturn value;\n\t\t});\n\t} else {\n\t\treturn defaultData;\n\t}\n};\n\n/*\nAlternative, uncached version of getTiddlerDataCached(). The return value can be mutated freely and reused\n*/\nexports.getTiddlerData = function(titleOrTiddler,defaultData) {\n\tvar tiddler = titleOrTiddler,\n\t\tdata;\n\tif(!(tiddler instanceof $tw.Tiddler)) {\n\t\ttiddler = this.getTiddler(tiddler);\t\n\t}\n\tif(tiddler &amp;&amp; tiddler.fields.text) {\n\t\tswitch(tiddler.fields.type) {\n\t\t\tcase \&quot;application/json\&quot;:\n\t\t\t\t// JSON tiddler\n\t\t\t\ttry {\n\t\t\t\t\tdata = JSON.parse(tiddler.fields.text);\n\t\t\t\t} catch(ex) {\n\t\t\t\t\treturn defaultData;\n\t\t\t\t}\n\t\t\t\treturn data;\n\t\t\tcase \&quot;application/x-tiddler-dictionary\&quot;:\n\t\t\t\treturn $tw.utils.parseFields(tiddler.fields.text);\n\t\t}\n\t}\n\treturn defaultData;\n};\n\n/*\nExtract an indexed field from within a data tiddler\n*/\nexports.extractTiddlerDataItem = function(titleOrTiddler,index,defaultText) {\n\tvar data = this.getTiddlerData(titleOrTiddler,Object.create(null)),\n\t\ttext;\n\tif(data &amp;&amp; $tw.utils.hop(data,index)) {\n\t\ttext = data[index];\n\t}\n\tif(typeof text === \&quot;string\&quot; || typeof text === \&quot;number\&quot;) {\n\t\treturn text.toString();\n\t} else {\n\t\treturn defaultText;\n\t}\n};\n\n/*\nSet a tiddlers content to a JavaScript object. Currently this is done by setting the tiddler's type to \&quot;application/json\&quot; and setting the text to the JSON text of the data.\ntitle: title of tiddler\ndata: object that can be serialised to JSON\nfields: optional hashmap of additional tiddler fields to be set\n*/\nexports.setTiddlerData = function(title,data,fields) {\n\tvar existingTiddler = this.getTiddler(title),\n\t\tnewFields = {\n\t\t\ttitle: title\n\t};\n\tif(existingTiddler &amp;&amp; existingTiddler.fields.type === \&quot;application/x-tiddler-dictionary\&quot;) {\n\t\tnewFields.text = $tw.utils.makeTiddlerDictionary(data);\n\t} else {\n\t\tnewFields.type = \&quot;application/json\&quot;;\n\t\tnewFields.text = JSON.stringify(data,null,$tw.config.preferences.jsonSpaces);\n\t}\n\tthis.addTiddler(new $tw.Tiddler(this.getCreationFields(),existingTiddler,fields,newFields,this.getModificationFields()));\n};\n\n/*\nReturn the content of a tiddler as an array containing each line\n*/\nexports.getTiddlerList = function(title,field,index) {\n\tif(index) {\n\t\treturn $tw.utils.parseStringArray(this.extractTiddlerDataItem(title,index,\&quot;\&quot;));\n\t}\n\tfield = field || \&quot;list\&quot;;\n\tvar tiddler = this.getTiddler(title);\n\tif(tiddler) {\n\t\treturn ($tw.utils.parseStringArray(tiddler.fields[field]) || []).slice(0);\n\t}\n\treturn [];\n};\n\n// Return a named global cache object. Global cache objects are cleared whenever a tiddler change occurs\nexports.getGlobalCache = function(cacheName,initializer) {\n\tthis.globalCache = this.globalCache || Object.create(null);\n\tif($tw.utils.hop(this.globalCache,cacheName)) {\n\t\treturn this.globalCache[cacheName];\n\t} else {\n\t\tthis.globalCache[cacheName] = initializer();\n\t\treturn this.globalCache[cacheName];\n\t}\n};\n\nexports.clearGlobalCache = function() {\n\tthis.globalCache = Object.create(null);\n};\n\n// Return the named cache object for a tiddler. If the cache doesn't exist then the initializer function is invoked to create it\nexports.getCacheForTiddler = function(title,cacheName,initializer) {\n\tthis.caches = this.caches || Object.create(null);\n\tvar caches = this.caches[title];\n\tif(caches &amp;&amp; caches[cacheName]) {\n\t\treturn caches[cacheName];\n\t} else {\n\t\tif(!caches) {\n\t\t\tcaches = Object.create(null);\n\t\t\tthis.caches[title] = caches;\n\t\t}\n\t\tcaches[cacheName] = initializer();\n\t\treturn caches[cacheName];\n\t}\n};\n\n// Clear all caches associated with a particular tiddler, or, if the title is null, clear all the caches for all the tiddlers\nexports.clearCache = function(title) {\n\tif(title) {\n\t\tthis.caches = this.caches || Object.create(null);\n\t\tif($tw.utils.hop(this.caches,title)) {\n\t\t\tdelete this.caches[title];\n\t\t}\n\t} else {\n\t\tthis.caches = Object.create(null);\n\t}\n};\n\nexports.initParsers = function(moduleType) {\n\t// Install the parser modules\n\t$tw.Wiki.parsers = {};\n\tvar self = this;\n\t$tw.modules.forEachModuleOfType(\&quot;parser\&quot;,function(title,module) {\n\t\tfor(var f in module) {\n\t\t\tif($tw.utils.hop(module,f)) {\n\t\t\t\t$tw.Wiki.parsers[f] = module[f]; // Store the parser class\n\t\t\t}\n\t\t}\n\t});\n};\n\n/*\nParse a block of text of a specified MIME type\n\ttype: content type of text to be parsed\n\ttext: text\n\toptions: see below\nOptions include:\n\tparseAsInline: if true, the text of the tiddler will be parsed as an inline run\n\t_canonical_uri: optional string of the canonical URI of this content\n*/\nexports.parseText = function(type,text,options) {\n\toptions = options || {};\n\t// Select a parser\n\tvar Parser = $tw.Wiki.parsers[type];\n\tif(!Parser &amp;&amp; $tw.utils.getFileExtensionInfo(type)) {\n\t\tParser = $tw.Wiki.parsers[$tw.utils.getFileExtensionInfo(type).type];\n\t}\n\tif(!Parser) {\n\t\tParser = $tw.Wiki.parsers[options.defaultType || \&quot;text/vnd.tiddlywiki\&quot;];\n\t}\n\tif(!Parser) {\n\t\treturn null;\n\t}\n\t// Return the parser instance\n\treturn new Parser(type,text,{\n\t\tparseAsInline: options.parseAsInline,\n\t\twiki: this,\n\t\t_canonical_uri: options._canonical_uri\n\t});\n};\n\n/*\nParse a tiddler according to its MIME type\n*/\nexports.parseTiddler = function(title,options) {\n\toptions = $tw.utils.extend({},options);\n\tvar cacheType = options.parseAsInline ? \&quot;inlineParseTree\&quot; : \&quot;blockParseTree\&quot;,\n\t\ttiddler = this.getTiddler(title),\n\t\tself = this;\n\treturn tiddler ? this.getCacheForTiddler(title,cacheType,function() {\n\t\t\tif(tiddler.hasField(\&quot;_canonical_uri\&quot;)) {\n\t\t\t\toptions._canonical_uri = tiddler.fields._canonical_uri;\n\t\t\t}\n\t\t\treturn self.parseText(tiddler.fields.type,tiddler.fields.text,options);\n\t\t}) : null;\n};\n\nexports.parseTextReference = function(title,field,index,options) {\n\tvar tiddler,text;\n\tif(options.subTiddler) {\n\t\ttiddler = this.getSubTiddler(title,options.subTiddler);\n\t} else {\n\t\ttiddler = this.getTiddler(title);\n\t\tif(field === \&quot;text\&quot; || (!field &amp;&amp; !index)) {\n\t\t\tthis.getTiddlerText(title); // Force the tiddler to be lazily loaded\n\t\t\treturn this.parseTiddler(title,options);\n\t\t}\n\t}\n\tif(field === \&quot;text\&quot; || (!field &amp;&amp; !index)) {\n\t\tif(tiddler &amp;&amp; tiddler.fields) {\n\t\t\treturn this.parseText(tiddler.fields.type || \&quot;text/vnd.tiddlywiki\&quot;,tiddler.fields.text,options);\t\t\t\n\t\t} else {\n\t\t\treturn null;\n\t\t}\n\t} else if(field) {\n\t\tif(field === \&quot;title\&quot;) {\n\t\t\ttext = title;\n\t\t} else {\n\t\t\tif(!tiddler || !tiddler.hasField(field)) {\n\t\t\t\treturn null;\n\t\t\t}\n\t\t\ttext = tiddler.fields[field];\n\t\t}\n\t\treturn this.parseText(\&quot;text/vnd.tiddlywiki\&quot;,text.toString(),options);\n\t} else if(index) {\n\t\tthis.getTiddlerText(title); // Force the tiddler to be lazily loaded\n\t\ttext = this.extractTiddlerDataItem(tiddler,index,undefined);\n\t\tif(text === undefined) {\n\t\t\treturn null;\n\t\t}\n\t\treturn this.parseText(\&quot;text/vnd.tiddlywiki\&quot;,text,options);\n\t}\n};\n\n/*\nMake a widget tree for a parse tree\nparser: parser object\noptions: see below\nOptions include:\ndocument: optional document to use\nvariables: hashmap of variables to set\nparentWidget: optional parent widget for the root node\n*/\nexports.makeWidget = function(parser,options) {\n\toptions = options || {};\n\tvar widgetNode = {\n\t\t\ttype: \&quot;widget\&quot;,\n\t\t\tchildren: []\n\t\t},\n\t\tcurrWidgetNode = widgetNode;\n\t// Create set variable widgets for each variable\n\t$tw.utils.each(options.variables,function(value,name) {\n\t\tvar setVariableWidget = {\n\t\t\ttype: \&quot;set\&quot;,\n\t\t\tattributes: {\n\t\t\t\tname: {type: \&quot;string\&quot;, value: name},\n\t\t\t\tvalue: {type: \&quot;string\&quot;, value: value}\n\t\t\t},\n\t\t\tchildren: []\n\t\t};\n\t\tcurrWidgetNode.children = [setVariableWidget];\n\t\tcurrWidgetNode = setVariableWidget;\n\t});\n\t// Add in the supplied parse tree nodes\n\tcurrWidgetNode.children = parser ? parser.tree : [];\n\t// Create the widget\n\treturn new widget.widget(widgetNode,{\n\t\twiki: this,\n\t\tdocument: options.document || $tw.fakeDocument,\n\t\tparentWidget: options.parentWidget\n\t});\n};\n\n/*\nMake a widget tree for transclusion\ntitle: target tiddler title\noptions: as for wiki.makeWidget() plus:\noptions.field: optional field to transclude (defaults to \&quot;text\&quot;)\noptions.mode: transclusion mode \&quot;inline\&quot; or \&quot;block\&quot;\noptions.children: optional array of children for the transclude widget\n*/\nexports.makeTranscludeWidget = function(title,options) {\n\toptions = options || {};\n\tvar parseTree = {tree: [{\n\t\t\ttype: \&quot;element\&quot;,\n\t\t\ttag: \&quot;div\&quot;,\n\t\t\tchildren: [{\n\t\t\t\ttype: \&quot;transclude\&quot;,\n\t\t\t\tattributes: {\n\t\t\t\t\ttiddler: {\n\t\t\t\t\t\tname: \&quot;tiddler\&quot;,\n\t\t\t\t\t\ttype: \&quot;string\&quot;,\n\t\t\t\t\t\tvalue: title}},\n\t\t\t\tisBlock: !options.parseAsInline}]}\n\t]};\n\tif(options.field) {\n\t\tparseTree.tree[0].children[0].attributes.field = {type: \&quot;string\&quot;, value: options.field};\n\t}\n\tif(options.mode) {\n\t\tparseTree.tree[0].children[0].attributes.mode = {type: \&quot;string\&quot;, value: options.mode};\n\t}\n\tif(options.children) {\n\t\tparseTree.tree[0].children[0].children = options.children;\n\t}\n\treturn $tw.wiki.makeWidget(parseTree,options);\n};\n\n/*\nParse text in a specified format and render it into another format\n\toutputType: content type for the output\n\ttextType: content type of the input text\n\ttext: input text\n\toptions: see below\nOptions include:\nvariables: hashmap of variables to set\nparentWidget: optional parent widget for the root node\n*/\nexports.renderText = function(outputType,textType,text,options) {\n\toptions = options || {};\n\tvar parser = this.parseText(textType,text,options),\n\t\twidgetNode = this.makeWidget(parser,options);\n\tvar container = $tw.fakeDocument.createElement(\&quot;div\&quot;);\n\twidgetNode.render(container,null);\n\treturn outputType === \&quot;text/html\&quot; ? container.innerHTML : container.textContent;\n};\n\n/*\nParse text from a tiddler and render it into another format\n\toutputType: content type for the output\n\ttitle: title of the tiddler to be rendered\n\toptions: see below\nOptions include:\nvariables: hashmap of variables to set\nparentWidget: optional parent widget for the root node\n*/\nexports.renderTiddler = function(outputType,title,options) {\n\toptions = options || {};\n\tvar parser = this.parseTiddler(title,options),\n\t\twidgetNode = this.makeWidget(parser,options);\n\tvar container = $tw.fakeDocument.createElement(\&quot;div\&quot;);\n\twidgetNode.render(container,null);\n\treturn outputType === \&quot;text/html\&quot; ? container.innerHTML : (outputType === \&quot;text/plain-formatted\&quot; ? container.formattedTextContent : container.textContent);\n};\n\n/*\nReturn an array of tiddler titles that match a search string\n\ttext: The text string to search for\n\toptions: see below\nOptions available:\n\tsource: an iterator function for the source tiddlers, called source(iterator), where iterator is called as iterator(tiddler,title)\n\texclude: An array of tiddler titles to exclude from the search\n\tinvert: If true returns tiddlers that do not contain the specified string\n\tcaseSensitive: If true forces a case sensitive search\n\tliteral: If true, searches for literal string, rather than separate search terms\n\tfield: If specified, restricts the search to the specified field\n*/\nexports.search = function(text,options) {\n\toptions = options || {};\n\tvar self = this,\n\t\tt,\n\t\tinvert = !!options.invert;\n\t// Convert the search string into a regexp for each term\n\tvar terms, searchTermsRegExps,\n\t\tflags = options.caseSensitive ? \&quot;\&quot; : \&quot;i\&quot;;\n\tif(options.literal) {\n\t\tif(text.length === 0) {\n\t\t\tsearchTermsRegExps = null;\n\t\t} else {\n\t\t\tsearchTermsRegExps = [new RegExp(\&quot;(\&quot; + $tw.utils.escapeRegExp(text) + \&quot;)\&quot;,flags)];\n\t\t}\n\t} else {\n\t\tterms = text.split(/ +/);\n\t\tif(terms.length === 1 &amp;&amp; terms[0] === \&quot;\&quot;) {\n\t\t\tsearchTermsRegExps = null;\n\t\t} else {\n\t\t\tsearchTermsRegExps = [];\n\t\t\tfor(t=0; t&lt;terms.length; t++) {\n\t\t\t\tsearchTermsRegExps.push(new RegExp(\&quot;(\&quot; + $tw.utils.escapeRegExp(terms[t]) + \&quot;)\&quot;,flags));\n\t\t\t}\n\t\t}\n\t}\n\t// Function to check a given tiddler for the search term\n\tvar searchTiddler = function(title) {\n\t\tif(!searchTermsRegExps) {\n\t\t\treturn true;\n\t\t}\n\t\tvar tiddler = self.getTiddler(title);\n\t\tif(!tiddler) {\n\t\t\ttiddler = new $tw.Tiddler({title: title, text: \&quot;\&quot;, type: \&quot;text/vnd.tiddlywiki\&quot;});\n\t\t}\n\t\tvar contentTypeInfo = $tw.config.contentTypeInfo[tiddler.fields.type] || $tw.config.contentTypeInfo[\&quot;text/vnd.tiddlywiki\&quot;],\n\t\t\tmatch;\n\t\tfor(var t=0; t&lt;searchTermsRegExps.length; t++) {\n\t\t\tmatch = false;\n\t\t\tif(options.field) {\n\t\t\t\tmatch = searchTermsRegExps[t].test(tiddler.getFieldString(options.field));\n\t\t\t} else {\n\t\t\t\t// Search title, tags and body\n\t\t\t\tif(contentTypeInfo.encoding === \&quot;utf8\&quot;) {\n\t\t\t\t\tmatch = match || searchTermsRegExps[t].test(tiddler.fields.text);\n\t\t\t\t}\n\t\t\t\tvar tags = tiddler.fields.tags ? tiddler.fields.tags.join(\&quot;\\0\&quot;) : \&quot;\&quot;;\n\t\t\t\tmatch = match || searchTermsRegExps[t].test(tags) || searchTermsRegExps[t].test(tiddler.fields.title);\n\t\t\t}\n\t\t\tif(!match) {\n\t\t\t\treturn false;\n\t\t\t}\n\t\t}\n\t\treturn true;\n\t};\n\t// Loop through all the tiddlers doing the search\n\tvar results = [],\n\t\tsource = options.source || this.each;\n\tsource(function(tiddler,title) {\n\t\tif(searchTiddler(title) !== options.invert) {\n\t\t\tresults.push(title);\n\t\t}\n\t});\n\t// Remove any of the results we have to exclude\n\tif(options.exclude) {\n\t\tfor(t=0; t&lt;options.exclude.length; t++) {\n\t\t\tvar p = results.indexOf(options.exclude[t]);\n\t\t\tif(p !== -1) {\n\t\t\t\tresults.splice(p,1);\n\t\t\t}\n\t\t}\n\t}\n\treturn results;\n};\n\n/*\nTrigger a load for a tiddler if it is skinny. Returns the text, or undefined if the tiddler is missing, null if the tiddler is being lazily loaded.\n*/\nexports.getTiddlerText = function(title,defaultText) {\n\tvar tiddler = this.getTiddler(title);\n\t// Return undefined if the tiddler isn't found\n\tif(!tiddler) {\n\t\treturn defaultText;\n\t}\n\tif(tiddler.fields.text !== undefined) {\n\t\t// Just return the text if we've got it\n\t\treturn tiddler.fields.text;\n\t} else {\n\t\t// Tell any listeners about the need to lazily load this tiddler\n\t\tthis.dispatchEvent(\&quot;lazyLoad\&quot;,title);\n\t\t// Indicate that the text is being loaded\n\t\treturn null;\n\t}\n};\n\n/*\nRead an array of browser File objects, invoking callback(tiddlerFieldsArray) once they're all read\n*/\nexports.readFiles = function(files,callback) {\n\tvar result = [],\n\t\toutstanding = files.length;\n\tfor(var f=0; f&lt;files.length; f++) {\n\t\tthis.readFile(files[f],function(tiddlerFieldsArray) {\n\t\t\tresult.push.apply(result,tiddlerFieldsArray);\n\t\t\tif(--outstanding === 0) {\n\t\t\t\tcallback(result);\n\t\t\t}\n\t\t});\n\t}\n\treturn files.length;\n};\n\n/*\nRead a browser File object, invoking callback(tiddlerFieldsArray) with an array of tiddler fields objects\n*/\nexports.readFile = function(file,callback) {\n\t// Get the type, falling back to the filename extension\n\tvar self = this,\n\t\ttype = file.type;\n\tif(type === \&quot;\&quot; || !type) {\n\t\tvar dotPos = file.name.lastIndexOf(\&quot;.\&quot;);\n\t\tif(dotPos !== -1) {\n\t\t\tvar fileExtensionInfo = $tw.utils.getFileExtensionInfo(file.name.substr(dotPos));\n\t\t\tif(fileExtensionInfo) {\n\t\t\t\ttype = fileExtensionInfo.type;\n\t\t\t}\n\t\t}\n\t}\n\t// Figure out if we're reading a binary file\n\tvar contentTypeInfo = $tw.config.contentTypeInfo[type],\n\t\tisBinary = contentTypeInfo ? contentTypeInfo.encoding === \&quot;base64\&quot; : false;\n\t// Log some debugging information\n\tif($tw.log.IMPORT) {\n\t\tconsole.log(\&quot;Importing file '\&quot; + file.name + \&quot;', type: '\&quot; + type + \&quot;', isBinary: \&quot; + isBinary);\n\t}\n\t// Create the FileReader\n\tvar reader = new FileReader();\n\t// Onload\n\treader.onload = function(event) {\n\t\t// Deserialise the file contents\n\t\tvar text = event.target.result,\n\t\t\ttiddlerFields = {title: file.name || \&quot;Untitled\&quot;, type: type};\n\t\t// Are we binary?\n\t\tif(isBinary) {\n\t\t\t// The base64 section starts after the first comma in the data URI\n\t\t\tvar commaPos = text.indexOf(\&quot;,\&quot;);\n\t\t\tif(commaPos !== -1) {\n\t\t\t\ttiddlerFields.text = text.substr(commaPos+1);\n\t\t\t\tcallback([tiddlerFields]);\n\t\t\t}\n\t\t} else {\n\t\t\t// Check whether this is an encrypted TiddlyWiki file\n\t\t\tvar encryptedJson = $tw.utils.extractEncryptedStoreArea(text);\n\t\t\tif(encryptedJson) {\n\t\t\t\t// If so, attempt to decrypt it with the current password\n\t\t\t\t$tw.utils.decryptStoreAreaInteractive(encryptedJson,function(tiddlers) {\n\t\t\t\t\tcallback(tiddlers);\n\t\t\t\t});\n\t\t\t} else {\n\t\t\t\t// Otherwise, just try to deserialise any tiddlers in the file\n\t\t\t\tcallback(self.deserializeTiddlers(type,text,tiddlerFields));\n\t\t\t}\n\t\t}\n\t};\n\t// Kick off the read\n\tif(isBinary) {\n\t\treader.readAsDataURL(file);\n\t} else {\n\t\treader.readAsText(file);\n\t}\n};\n\n/*\nFind any existing draft of a specified tiddler\n*/\nexports.findDraft = function(targetTitle) {\n\tvar draftTitle = undefined;\n\tthis.forEachTiddler({includeSystem: true},function(title,tiddler) {\n\t\tif(tiddler.fields[\&quot;draft.title\&quot;] &amp;&amp; tiddler.fields[\&quot;draft.of\&quot;] === targetTitle) {\n\t\t\tdraftTitle = title;\n\t\t}\n\t});\n\treturn draftTitle;\n}\n\n/*\nCheck whether the specified draft tiddler has been modified\n*/\nexports.isDraftModified = function(title) {\n\tvar tiddler = this.getTiddler(title);\n\tif(!tiddler.isDraft()) {\n\t\treturn false;\n\t}\n\tvar ignoredFields = [\&quot;created\&quot;, \&quot;modified\&quot;, \&quot;title\&quot;, \&quot;draft.title\&quot;, \&quot;draft.of\&quot;],\n\t\torigTiddler = this.getTiddler(tiddler.fields[\&quot;draft.of\&quot;]);\n\tif(!origTiddler) {\n\t\treturn tiddler.fields.text !== \&quot;\&quot;;\n\t}\n\treturn tiddler.fields[\&quot;draft.title\&quot;] !== tiddler.fields[\&quot;draft.of\&quot;] || !tiddler.isEqual(origTiddler,ignoredFields);\n};\n\n/*\nAdd a new record to the top of the history stack\ntitle: a title string or an array of title strings\nfromPageRect: page coordinates of the origin of the navigation\nhistoryTitle: title of history tiddler (defaults to $:/HistoryList)\n*/\nexports.addToHistory = function(title,fromPageRect,historyTitle) {\n\tvar story = new $tw.Story({wiki: this, historyTitle: historyTitle});\n\tstory.addToHistory(title,fromPageRect);\n};\n\n/*\nInvoke the available upgrader modules\ntitles: array of tiddler titles to be processed\ntiddlers: hashmap by title of tiddler fields of pending import tiddlers. These can be modified by the upgraders. An entry with no fields indicates a tiddler that was pending import has been suppressed. When entries are added to the pending import the tiddlers hashmap may have entries that are not present in the titles array\nReturns a hashmap of messages keyed by tiddler title.\n*/\nexports.invokeUpgraders = function(titles,tiddlers) {\n\t// Collect up the available upgrader modules\n\tvar self = this;\n\tif(!this.upgraderModules) {\n\t\tthis.upgraderModules = [];\n\t\t$tw.modules.forEachModuleOfType(\&quot;upgrader\&quot;,function(title,module) {\n\t\t\tif(module.upgrade) {\n\t\t\t\tself.upgraderModules.push(module);\n\t\t\t}\n\t\t});\n\t}\n\t// Invoke each upgrader in turn\n\tvar messages = {};\n\tfor(var t=0; t&lt;this.upgraderModules.length; t++) {\n\t\tvar upgrader = this.upgraderModules[t],\n\t\t\tupgraderMessages = upgrader.upgrade(this,titles,tiddlers);\n\t\t$tw.utils.extend(messages,upgraderMessages);\n\t}\n\treturn messages;\n};\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/core/modules/wiki.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;wikimethod&quot;
        },
        &quot;$:/palettes/Blanca&quot;: {
            &quot;title&quot;: &quot;$:/palettes/Blanca&quot;,
            &quot;name&quot;: &quot;Blanca&quot;,
            &quot;description&quot;: &quot;A clean white palette to let you focus&quot;,
            &quot;tags&quot;: &quot;$:/tags/Palette&quot;,
            &quot;type&quot;: &quot;application/x-tiddler-dictionary&quot;,
            &quot;text&quot;: &quot;alert-background: #ffe476\nalert-border: #b99e2f\nalert-highlight: #881122\nalert-muted-foreground: #b99e2f\nbackground: #ffffff\nblockquote-bar: &lt;&lt;colour muted-foreground&gt;&gt;\nbutton-background:\nbutton-foreground:\nbutton-border:\ncode-background: #f7f7f9\ncode-border: #e1e1e8\ncode-foreground: #dd1144\ndirty-indicator: #ff0000\ndownload-background: #66cccc\ndownload-foreground: &lt;&lt;colour background&gt;&gt;\ndragger-background: &lt;&lt;colour foreground&gt;&gt;\ndragger-foreground: &lt;&lt;colour background&gt;&gt;\ndropdown-background: &lt;&lt;colour background&gt;&gt;\ndropdown-border: &lt;&lt;colour muted-foreground&gt;&gt;\ndropdown-tab-background-selected: #fff\ndropdown-tab-background: #ececec\ndropzone-background: rgba(0,200,0,0.7)\nexternal-link-background-hover: inherit\nexternal-link-background-visited: inherit\nexternal-link-background: inherit\nexternal-link-foreground-hover: inherit\nexternal-link-foreground-visited: #0000aa\nexternal-link-foreground: #0000ee\nforeground: #333333\nmessage-background: #ecf2ff\nmessage-border: #cfd6e6\nmessage-foreground: #547599\nmodal-backdrop: &lt;&lt;colour foreground&gt;&gt;\nmodal-background: &lt;&lt;colour background&gt;&gt;\nmodal-border: #999999\nmodal-footer-background: #f5f5f5\nmodal-footer-border: #dddddd\nmodal-header-border: #eeeeee\nmuted-foreground: #999999\nnotification-background: #ffffdd\nnotification-border: #999999\npage-background: #ffffff\npre-background: #f5f5f5\npre-border: #cccccc\nprimary: #7897f3\nsidebar-button-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-controls-foreground-hover: #000000\nsidebar-controls-foreground: #ccc\nsidebar-foreground-shadow: rgba(255,255,255, 0.8)\nsidebar-foreground: #acacac\nsidebar-muted-foreground-hover: #444444\nsidebar-muted-foreground: #c0c0c0\nsidebar-tab-background-selected: #ffffff\nsidebar-tab-background: &lt;&lt;colour tab-background&gt;&gt;\nsidebar-tab-border-selected: &lt;&lt;colour tab-border-selected&gt;&gt;\nsidebar-tab-border: &lt;&lt;colour tab-border&gt;&gt;\nsidebar-tab-divider: &lt;&lt;colour tab-divider&gt;&gt;\nsidebar-tab-foreground-selected: \nsidebar-tab-foreground: &lt;&lt;colour tab-foreground&gt;&gt;\nsidebar-tiddler-link-foreground-hover: #444444\nsidebar-tiddler-link-foreground: #7897f3\nsite-title-foreground: &lt;&lt;colour tiddler-title-foreground&gt;&gt;\nstatic-alert-foreground: #aaaaaa\ntab-background-selected: #ffffff\ntab-background: #eeeeee\ntab-border-selected: #cccccc\ntab-border: #cccccc\ntab-divider: #d8d8d8\ntab-foreground-selected: &lt;&lt;colour tab-foreground&gt;&gt;\ntab-foreground: #666666\ntable-border: #dddddd\ntable-footer-background: #a8a8a8\ntable-header-background: #f0f0f0\ntag-background: #ffeedd\ntag-foreground: #000\ntiddler-background: &lt;&lt;colour background&gt;&gt;\ntiddler-border: #eee\ntiddler-controls-foreground-hover: #888888\ntiddler-controls-foreground-selected: #444444\ntiddler-controls-foreground: #cccccc\ntiddler-editor-background: #f8f8f8\ntiddler-editor-border-image: #ffffff\ntiddler-editor-border: #cccccc\ntiddler-editor-fields-even: #e0e8e0\ntiddler-editor-fields-odd: #f0f4f0\ntiddler-info-background: #f8f8f8\ntiddler-info-border: #dddddd\ntiddler-info-tab-background: #f8f8f8\ntiddler-link-background: &lt;&lt;colour background&gt;&gt;\ntiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\ntiddler-subtitle-foreground: #c0c0c0\ntiddler-title-foreground: #ff9900\ntoolbar-new-button:\ntoolbar-options-button:\ntoolbar-save-button:\ntoolbar-info-button:\ntoolbar-edit-button:\ntoolbar-close-button:\ntoolbar-delete-button:\ntoolbar-cancel-button:\ntoolbar-done-button:\nuntagged-background: #999999\nvery-muted-foreground: #888888\n&quot;
        },
        &quot;$:/palettes/Blue&quot;: {
            &quot;title&quot;: &quot;$:/palettes/Blue&quot;,
            &quot;name&quot;: &quot;Blue&quot;,
            &quot;description&quot;: &quot;A blue theme&quot;,
            &quot;tags&quot;: &quot;$:/tags/Palette&quot;,
            &quot;type&quot;: &quot;application/x-tiddler-dictionary&quot;,
            &quot;text&quot;: &quot;alert-background: #ffe476\nalert-border: #b99e2f\nalert-highlight: #881122\nalert-muted-foreground: #b99e2f\nbackground: #fff\nblockquote-bar: &lt;&lt;colour muted-foreground&gt;&gt;\nbutton-background:\nbutton-foreground:\nbutton-border:\ncode-background: #f7f7f9\ncode-border: #e1e1e8\ncode-foreground: #dd1144\ndirty-indicator: #ff0000\ndownload-background: #34c734\ndownload-foreground: &lt;&lt;colour foreground&gt;&gt;\ndragger-background: &lt;&lt;colour foreground&gt;&gt;\ndragger-foreground: &lt;&lt;colour background&gt;&gt;\ndropdown-background: &lt;&lt;colour background&gt;&gt;\ndropdown-border: &lt;&lt;colour muted-foreground&gt;&gt;\ndropdown-tab-background-selected: #fff\ndropdown-tab-background: #ececec\ndropzone-background: rgba(0,200,0,0.7)\nexternal-link-background-hover: inherit\nexternal-link-background-visited: inherit\nexternal-link-background: inherit\nexternal-link-foreground-hover: inherit\nexternal-link-foreground-visited: #0000aa\nexternal-link-foreground: #0000ee\nforeground: #333353\nmessage-background: #ecf2ff\nmessage-border: #cfd6e6\nmessage-foreground: #547599\nmodal-backdrop: &lt;&lt;colour foreground&gt;&gt;\nmodal-background: &lt;&lt;colour background&gt;&gt;\nmodal-border: #999999\nmodal-footer-background: #f5f5f5\nmodal-footer-border: #dddddd\nmodal-header-border: #eeeeee\nmuted-foreground: #999999\nnotification-background: #ffffdd\nnotification-border: #999999\npage-background: #ddddff\npre-background: #f5f5f5\npre-border: #cccccc\nprimary: #5778d8\nsidebar-button-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-controls-foreground-hover: #000000\nsidebar-controls-foreground: #ffffff\nsidebar-foreground-shadow: rgba(255,255,255, 0.8)\nsidebar-foreground: #acacac\nsidebar-muted-foreground-hover: #444444\nsidebar-muted-foreground: #c0c0c0\nsidebar-tab-background-selected: &lt;&lt;colour page-background&gt;&gt;\nsidebar-tab-background: &lt;&lt;colour tab-background&gt;&gt;\nsidebar-tab-border-selected: &lt;&lt;colour tab-border-selected&gt;&gt;\nsidebar-tab-border: &lt;&lt;colour tab-border&gt;&gt;\nsidebar-tab-divider: &lt;&lt;colour tab-divider&gt;&gt;\nsidebar-tab-foreground-selected: \nsidebar-tab-foreground: &lt;&lt;colour tab-foreground&gt;&gt;\nsidebar-tiddler-link-foreground-hover: #444444\nsidebar-tiddler-link-foreground: #5959c0\nsite-title-foreground: &lt;&lt;colour tiddler-title-foreground&gt;&gt;\nstatic-alert-foreground: #aaaaaa\ntab-background-selected: &lt;&lt;colour background&gt;&gt;\ntab-background: #ccccdd\ntab-border-selected: #ccccdd\ntab-border: #cccccc\ntab-divider: #d8d8d8\ntab-foreground-selected: &lt;&lt;colour tab-foreground&gt;&gt;\ntab-foreground: #666666\ntable-border: #dddddd\ntable-footer-background: #a8a8a8\ntable-header-background: #f0f0f0\ntag-background: #eeeeff\ntag-foreground: #000\ntiddler-background: &lt;&lt;colour background&gt;&gt;\ntiddler-border: &lt;&lt;colour background&gt;&gt;\ntiddler-controls-foreground-hover: #666666\ntiddler-controls-foreground-selected: #444444\ntiddler-controls-foreground: #cccccc\ntiddler-editor-background: #f8f8f8\ntiddler-editor-border-image: #ffffff\ntiddler-editor-border: #cccccc\ntiddler-editor-fields-even: #e0e8e0\ntiddler-editor-fields-odd: #f0f4f0\ntiddler-info-background: #ffffff\ntiddler-info-border: #dddddd\ntiddler-info-tab-background: #ffffff\ntiddler-link-background: &lt;&lt;colour background&gt;&gt;\ntiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\ntiddler-subtitle-foreground: #c0c0c0\ntiddler-title-foreground: #5959c0\ntoolbar-new-button: #5eb95e\ntoolbar-options-button: rgb(128, 88, 165)\ntoolbar-save-button: #0e90d2\ntoolbar-info-button: #0e90d2\ntoolbar-edit-button: rgb(243, 123, 29)\ntoolbar-close-button: #dd514c\ntoolbar-delete-button: #dd514c\ntoolbar-cancel-button: rgb(243, 123, 29)\ntoolbar-done-button: #5eb95e\nuntagged-background: #999999\nvery-muted-foreground: #888888\n&quot;
        },
        &quot;$:/palettes/Muted&quot;: {
            &quot;title&quot;: &quot;$:/palettes/Muted&quot;,
            &quot;name&quot;: &quot;Muted&quot;,
            &quot;description&quot;: &quot;Bright tiddlers on a muted background&quot;,
            &quot;tags&quot;: &quot;$:/tags/Palette&quot;,
            &quot;type&quot;: &quot;application/x-tiddler-dictionary&quot;,
            &quot;text&quot;: &quot;alert-background: #ffe476\nalert-border: #b99e2f\nalert-highlight: #881122\nalert-muted-foreground: #b99e2f\nbackground: #ffffff\nblockquote-bar: &lt;&lt;colour muted-foreground&gt;&gt;\nbutton-background:\nbutton-foreground:\nbutton-border:\ncode-background: #f7f7f9\ncode-border: #e1e1e8\ncode-foreground: #dd1144\ndirty-indicator: #ff0000\ndownload-background: #34c734\ndownload-foreground: &lt;&lt;colour background&gt;&gt;\ndragger-background: &lt;&lt;colour foreground&gt;&gt;\ndragger-foreground: &lt;&lt;colour background&gt;&gt;\ndropdown-background: &lt;&lt;colour background&gt;&gt;\ndropdown-border: &lt;&lt;colour muted-foreground&gt;&gt;\ndropdown-tab-background-selected: #fff\ndropdown-tab-background: #ececec\ndropzone-background: rgba(0,200,0,0.7)\nexternal-link-background-hover: inherit\nexternal-link-background-visited: inherit\nexternal-link-background: inherit\nexternal-link-foreground-hover: inherit\nexternal-link-foreground-visited: #0000aa\nexternal-link-foreground: #0000ee\nforeground: #333333\nmessage-background: #ecf2ff\nmessage-border: #cfd6e6\nmessage-foreground: #547599\nmodal-backdrop: &lt;&lt;colour foreground&gt;&gt;\nmodal-background: &lt;&lt;colour background&gt;&gt;\nmodal-border: #999999\nmodal-footer-background: #f5f5f5\nmodal-footer-border: #dddddd\nmodal-header-border: #eeeeee\nmuted-foreground: #bbb\nnotification-background: #ffffdd\nnotification-border: #999999\npage-background: #6f6f70\npre-background: #f5f5f5\npre-border: #cccccc\nprimary: #29a6ee\nsidebar-button-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-controls-foreground-hover: #000000\nsidebar-controls-foreground: #c2c1c2\nsidebar-foreground-shadow: rgba(255,255,255,0)\nsidebar-foreground: #d3d2d4\nsidebar-muted-foreground-hover: #444444\nsidebar-muted-foreground: #c0c0c0\nsidebar-tab-background-selected: #6f6f70\nsidebar-tab-background: #666667\nsidebar-tab-border-selected: #999\nsidebar-tab-border: #515151\nsidebar-tab-divider: #999\nsidebar-tab-foreground-selected: \nsidebar-tab-foreground: #999\nsidebar-tiddler-link-foreground-hover: #444444\nsidebar-tiddler-link-foreground: #d1d0d2\nsite-title-foreground: &lt;&lt;colour tiddler-title-foreground&gt;&gt;\nstatic-alert-foreground: #aaaaaa\ntab-background-selected: #ffffff\ntab-background: #d8d8d8\ntab-border-selected: #d8d8d8\ntab-border: #cccccc\ntab-divider: #d8d8d8\ntab-foreground-selected: &lt;&lt;colour tab-foreground&gt;&gt;\ntab-foreground: #666666\ntable-border: #dddddd\ntable-footer-background: #a8a8a8\ntable-header-background: #f0f0f0\ntag-background: #d5ad34\ntag-foreground: #ffffff\ntiddler-background: &lt;&lt;colour background&gt;&gt;\ntiddler-border: &lt;&lt;colour background&gt;&gt;\ntiddler-controls-foreground-hover: #888888\ntiddler-controls-foreground-selected: #444444\ntiddler-controls-foreground: #cccccc\ntiddler-editor-background: #f8f8f8\ntiddler-editor-border-image: #ffffff\ntiddler-editor-border: #cccccc\ntiddler-editor-fields-even: #e0e8e0\ntiddler-editor-fields-odd: #f0f4f0\ntiddler-info-background: #f8f8f8\ntiddler-info-border: #dddddd\ntiddler-info-tab-background: #f8f8f8\ntiddler-link-background: &lt;&lt;colour background&gt;&gt;\ntiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\ntiddler-subtitle-foreground: #c0c0c0\ntiddler-title-foreground: #182955\ntoolbar-new-button: \ntoolbar-options-button: \ntoolbar-save-button: \ntoolbar-info-button: \ntoolbar-edit-button: \ntoolbar-close-button: \ntoolbar-delete-button: \ntoolbar-cancel-button: \ntoolbar-done-button: \nuntagged-background: #999999\nvery-muted-foreground: #888888\n&quot;
        },
        &quot;$:/palettes/ContrastLight&quot;: {
            &quot;title&quot;: &quot;$:/palettes/ContrastLight&quot;,
            &quot;name&quot;: &quot;Contrast (Light)&quot;,
            &quot;description&quot;: &quot;High contrast and unambiguous (light version)&quot;,
            &quot;tags&quot;: &quot;$:/tags/Palette&quot;,
            &quot;type&quot;: &quot;application/x-tiddler-dictionary&quot;,
            &quot;text&quot;: &quot;alert-background: #f00\nalert-border: &lt;&lt;colour background&gt;&gt;\nalert-highlight: &lt;&lt;colour foreground&gt;&gt;\nalert-muted-foreground: #800\nbackground: #fff\nblockquote-bar: &lt;&lt;colour muted-foreground&gt;&gt;\nbutton-background: &lt;&lt;colour background&gt;&gt;\nbutton-foreground: &lt;&lt;colour foreground&gt;&gt;\nbutton-border: &lt;&lt;colour foreground&gt;&gt;\ncode-background: &lt;&lt;colour background&gt;&gt;\ncode-border: &lt;&lt;colour foreground&gt;&gt;\ncode-foreground: &lt;&lt;colour foreground&gt;&gt;\ndirty-indicator: #f00\ndownload-background: #080\ndownload-foreground: &lt;&lt;colour background&gt;&gt;\ndragger-background: &lt;&lt;colour foreground&gt;&gt;\ndragger-foreground: &lt;&lt;colour background&gt;&gt;\ndropdown-background: &lt;&lt;colour background&gt;&gt;\ndropdown-border: &lt;&lt;colour muted-foreground&gt;&gt;\ndropdown-tab-background-selected: &lt;&lt;colour foreground&gt;&gt;\ndropdown-tab-background: &lt;&lt;colour foreground&gt;&gt;\ndropzone-background: rgba(0,200,0,0.7)\nexternal-link-background-hover: inherit\nexternal-link-background-visited: inherit\nexternal-link-background: inherit\nexternal-link-foreground-hover: inherit\nexternal-link-foreground-visited: #00a\nexternal-link-foreground: #00e\nforeground: #000\nmessage-background: &lt;&lt;colour foreground&gt;&gt;\nmessage-border: &lt;&lt;colour background&gt;&gt;\nmessage-foreground: &lt;&lt;colour background&gt;&gt;\nmodal-backdrop: &lt;&lt;colour foreground&gt;&gt;\nmodal-background: &lt;&lt;colour background&gt;&gt;\nmodal-border: &lt;&lt;colour foreground&gt;&gt;\nmodal-footer-background: &lt;&lt;colour background&gt;&gt;\nmodal-footer-border: &lt;&lt;colour foreground&gt;&gt;\nmodal-header-border: &lt;&lt;colour foreground&gt;&gt;\nmuted-foreground: &lt;&lt;colour foreground&gt;&gt;\nnotification-background: &lt;&lt;colour background&gt;&gt;\nnotification-border: &lt;&lt;colour foreground&gt;&gt;\npage-background: &lt;&lt;colour background&gt;&gt;\npre-background: &lt;&lt;colour background&gt;&gt;\npre-border: &lt;&lt;colour foreground&gt;&gt;\nprimary: #00f\nsidebar-button-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-controls-foreground-hover: &lt;&lt;colour background&gt;&gt;\nsidebar-controls-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-foreground-shadow: rgba(0,0,0, 0)\nsidebar-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-muted-foreground-hover: #444444\nsidebar-muted-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-tab-background-selected: &lt;&lt;colour background&gt;&gt;\nsidebar-tab-background: &lt;&lt;colour tab-background&gt;&gt;\nsidebar-tab-border-selected: &lt;&lt;colour tab-border-selected&gt;&gt;\nsidebar-tab-border: &lt;&lt;colour tab-border&gt;&gt;\nsidebar-tab-divider: &lt;&lt;colour tab-divider&gt;&gt;\nsidebar-tab-foreground-selected: &lt;&lt;colour foreground&gt;&gt;\nsidebar-tab-foreground: &lt;&lt;colour tab-foreground&gt;&gt;\nsidebar-tiddler-link-foreground-hover: &lt;&lt;colour foreground&gt;&gt;\nsidebar-tiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\nsite-title-foreground: &lt;&lt;colour tiddler-title-foreground&gt;&gt;\nstatic-alert-foreground: #aaaaaa\ntab-background-selected: &lt;&lt;colour background&gt;&gt;\ntab-background: &lt;&lt;colour foreground&gt;&gt;\ntab-border-selected: &lt;&lt;colour foreground&gt;&gt;\ntab-border: &lt;&lt;colour foreground&gt;&gt;\ntab-divider: &lt;&lt;colour foreground&gt;&gt;\ntab-foreground-selected: &lt;&lt;colour foreground&gt;&gt;\ntab-foreground: &lt;&lt;colour background&gt;&gt;\ntable-border: #dddddd\ntable-footer-background: #a8a8a8\ntable-header-background: #f0f0f0\ntag-background: #000\ntag-foreground: #fff\ntiddler-background: &lt;&lt;colour background&gt;&gt;\ntiddler-border: &lt;&lt;colour foreground&gt;&gt;\ntiddler-controls-foreground-hover: #ddd\ntiddler-controls-foreground-selected: #fdd\ntiddler-controls-foreground: &lt;&lt;colour foreground&gt;&gt;\ntiddler-editor-background: &lt;&lt;colour background&gt;&gt;\ntiddler-editor-border-image: &lt;&lt;colour foreground&gt;&gt;\ntiddler-editor-border: #cccccc\ntiddler-editor-fields-even: &lt;&lt;colour background&gt;&gt;\ntiddler-editor-fields-odd: &lt;&lt;colour background&gt;&gt;\ntiddler-info-background: &lt;&lt;colour background&gt;&gt;\ntiddler-info-border: &lt;&lt;colour foreground&gt;&gt;\ntiddler-info-tab-background: &lt;&lt;colour background&gt;&gt;\ntiddler-link-background: &lt;&lt;colour background&gt;&gt;\ntiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\ntiddler-subtitle-foreground: &lt;&lt;colour foreground&gt;&gt;\ntiddler-title-foreground: &lt;&lt;colour foreground&gt;&gt;\ntoolbar-new-button: \ntoolbar-options-button: \ntoolbar-save-button: \ntoolbar-info-button: \ntoolbar-edit-button: \ntoolbar-close-button: \ntoolbar-delete-button: \ntoolbar-cancel-button: \ntoolbar-done-button: \nuntagged-background: &lt;&lt;colour foreground&gt;&gt;\nvery-muted-foreground: #888888\n&quot;
        },
        &quot;$:/palettes/ContrastDark&quot;: {
            &quot;title&quot;: &quot;$:/palettes/ContrastDark&quot;,
            &quot;name&quot;: &quot;Contrast (Dark)&quot;,
            &quot;description&quot;: &quot;High contrast and unambiguous (dark version)&quot;,
            &quot;tags&quot;: &quot;$:/tags/Palette&quot;,
            &quot;type&quot;: &quot;application/x-tiddler-dictionary&quot;,
            &quot;text&quot;: &quot;alert-background: #f00\nalert-border: &lt;&lt;colour background&gt;&gt;\nalert-highlight: &lt;&lt;colour foreground&gt;&gt;\nalert-muted-foreground: #800\nbackground: #000\nblockquote-bar: &lt;&lt;colour muted-foreground&gt;&gt;\nbutton-background: &lt;&lt;colour background&gt;&gt;\nbutton-foreground: &lt;&lt;colour foreground&gt;&gt;\nbutton-border: &lt;&lt;colour foreground&gt;&gt;\ncode-background: &lt;&lt;colour background&gt;&gt;\ncode-border: &lt;&lt;colour foreground&gt;&gt;\ncode-foreground: &lt;&lt;colour foreground&gt;&gt;\ndirty-indicator: #f00\ndownload-background: #080\ndownload-foreground: &lt;&lt;colour background&gt;&gt;\ndragger-background: &lt;&lt;colour foreground&gt;&gt;\ndragger-foreground: &lt;&lt;colour background&gt;&gt;\ndropdown-background: &lt;&lt;colour background&gt;&gt;\ndropdown-border: &lt;&lt;colour muted-foreground&gt;&gt;\ndropdown-tab-background-selected: &lt;&lt;colour foreground&gt;&gt;\ndropdown-tab-background: &lt;&lt;colour foreground&gt;&gt;\ndropzone-background: rgba(0,200,0,0.7)\nexternal-link-background-hover: inherit\nexternal-link-background-visited: inherit\nexternal-link-background: inherit\nexternal-link-foreground-hover: inherit\nexternal-link-foreground-visited: #00a\nexternal-link-foreground: #00e\nforeground: #fff\nmessage-background: &lt;&lt;colour foreground&gt;&gt;\nmessage-border: &lt;&lt;colour background&gt;&gt;\nmessage-foreground: &lt;&lt;colour background&gt;&gt;\nmodal-backdrop: &lt;&lt;colour foreground&gt;&gt;\nmodal-background: &lt;&lt;colour background&gt;&gt;\nmodal-border: &lt;&lt;colour foreground&gt;&gt;\nmodal-footer-background: &lt;&lt;colour background&gt;&gt;\nmodal-footer-border: &lt;&lt;colour foreground&gt;&gt;\nmodal-header-border: &lt;&lt;colour foreground&gt;&gt;\nmuted-foreground: &lt;&lt;colour foreground&gt;&gt;\nnotification-background: &lt;&lt;colour background&gt;&gt;\nnotification-border: &lt;&lt;colour foreground&gt;&gt;\npage-background: &lt;&lt;colour background&gt;&gt;\npre-background: &lt;&lt;colour background&gt;&gt;\npre-border: &lt;&lt;colour foreground&gt;&gt;\nprimary: #00f\nsidebar-button-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-controls-foreground-hover: &lt;&lt;colour background&gt;&gt;\nsidebar-controls-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-foreground-shadow: rgba(0,0,0, 0)\nsidebar-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-muted-foreground-hover: #444444\nsidebar-muted-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-tab-background-selected: &lt;&lt;colour background&gt;&gt;\nsidebar-tab-background: &lt;&lt;colour tab-background&gt;&gt;\nsidebar-tab-border-selected: &lt;&lt;colour tab-border-selected&gt;&gt;\nsidebar-tab-border: &lt;&lt;colour tab-border&gt;&gt;\nsidebar-tab-divider: &lt;&lt;colour tab-divider&gt;&gt;\nsidebar-tab-foreground-selected: &lt;&lt;colour foreground&gt;&gt;\nsidebar-tab-foreground: &lt;&lt;colour tab-foreground&gt;&gt;\nsidebar-tiddler-link-foreground-hover: &lt;&lt;colour foreground&gt;&gt;\nsidebar-tiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\nsite-title-foreground: &lt;&lt;colour tiddler-title-foreground&gt;&gt;\nstatic-alert-foreground: #aaaaaa\ntab-background-selected: &lt;&lt;colour background&gt;&gt;\ntab-background: &lt;&lt;colour foreground&gt;&gt;\ntab-border-selected: &lt;&lt;colour foreground&gt;&gt;\ntab-border: &lt;&lt;colour foreground&gt;&gt;\ntab-divider: &lt;&lt;colour foreground&gt;&gt;\ntab-foreground-selected: &lt;&lt;colour foreground&gt;&gt;\ntab-foreground: &lt;&lt;colour background&gt;&gt;\ntable-border: #dddddd\ntable-footer-background: #a8a8a8\ntable-header-background: #f0f0f0\ntag-background: #fff\ntag-foreground: #000\ntiddler-background: &lt;&lt;colour background&gt;&gt;\ntiddler-border: &lt;&lt;colour foreground&gt;&gt;\ntiddler-controls-foreground-hover: #ddd\ntiddler-controls-foreground-selected: #fdd\ntiddler-controls-foreground: &lt;&lt;colour foreground&gt;&gt;\ntiddler-editor-background: &lt;&lt;colour background&gt;&gt;\ntiddler-editor-border-image: &lt;&lt;colour foreground&gt;&gt;\ntiddler-editor-border: #cccccc\ntiddler-editor-fields-even: &lt;&lt;colour background&gt;&gt;\ntiddler-editor-fields-odd: &lt;&lt;colour background&gt;&gt;\ntiddler-info-background: &lt;&lt;colour background&gt;&gt;\ntiddler-info-border: &lt;&lt;colour foreground&gt;&gt;\ntiddler-info-tab-background: &lt;&lt;colour background&gt;&gt;\ntiddler-link-background: &lt;&lt;colour background&gt;&gt;\ntiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\ntiddler-subtitle-foreground: &lt;&lt;colour foreground&gt;&gt;\ntiddler-title-foreground: &lt;&lt;colour foreground&gt;&gt;\ntoolbar-new-button: \ntoolbar-options-button: \ntoolbar-save-button: \ntoolbar-info-button: \ntoolbar-edit-button: \ntoolbar-close-button: \ntoolbar-delete-button: \ntoolbar-cancel-button: \ntoolbar-done-button: \nuntagged-background: &lt;&lt;colour foreground&gt;&gt;\nvery-muted-foreground: #888888\n&quot;
        },
        &quot;$:/palettes/DarkPhotos&quot;: {
            &quot;created&quot;: &quot;20150402111612188&quot;,
            &quot;description&quot;: &quot;Good with dark photo backgrounds&quot;,
            &quot;modified&quot;: &quot;20150402112344080&quot;,
            &quot;name&quot;: &quot;DarkPhotos&quot;,
            &quot;tags&quot;: &quot;$:/tags/Palette&quot;,
            &quot;title&quot;: &quot;$:/palettes/DarkPhotos&quot;,
            &quot;type&quot;: &quot;application/x-tiddler-dictionary&quot;,
            &quot;text&quot;: &quot;alert-background: #ffe476\nalert-border: #b99e2f\nalert-highlight: #881122\nalert-muted-foreground: #b99e2f\nbackground: #ffffff\nblockquote-bar: &lt;&lt;colour muted-foreground&gt;&gt;\nbutton-background: \nbutton-foreground: \nbutton-border: \ncode-background: #f7f7f9\ncode-border: #e1e1e8\ncode-foreground: #dd1144\ndirty-indicator: #ff0000\ndownload-background: #34c734\ndownload-foreground: &lt;&lt;colour background&gt;&gt;\ndragger-background: &lt;&lt;colour foreground&gt;&gt;\ndragger-foreground: &lt;&lt;colour background&gt;&gt;\ndropdown-background: &lt;&lt;colour background&gt;&gt;\ndropdown-border: &lt;&lt;colour muted-foreground&gt;&gt;\ndropdown-tab-background-selected: #fff\ndropdown-tab-background: #ececec\ndropzone-background: rgba(0,200,0,0.7)\nexternal-link-background-hover: inherit\nexternal-link-background-visited: inherit\nexternal-link-background: inherit\nexternal-link-foreground-hover: inherit\nexternal-link-foreground-visited: #0000aa\nexternal-link-foreground: #0000ee\nforeground: #333333\nmessage-background: #ecf2ff\nmessage-border: #cfd6e6\nmessage-foreground: #547599\nmodal-backdrop: &lt;&lt;colour foreground&gt;&gt;\nmodal-background: &lt;&lt;colour background&gt;&gt;\nmodal-border: #999999\nmodal-footer-background: #f5f5f5\nmodal-footer-border: #dddddd\nmodal-header-border: #eeeeee\nmuted-foreground: #ddd\nnotification-background: #ffffdd\nnotification-border: #999999\npage-background: #336438\npre-background: #f5f5f5\npre-border: #cccccc\nprimary: #5778d8\nsidebar-button-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-controls-foreground-hover: #ccf\nsidebar-controls-foreground: #fff\nsidebar-foreground-shadow: rgba(0,0,0, 0.5)\nsidebar-foreground: #fff\nsidebar-muted-foreground-hover: #444444\nsidebar-muted-foreground: #eee\nsidebar-tab-background-selected: rgba(255,255,255, 0.8)\nsidebar-tab-background: rgba(255,255,255, 0.4)\nsidebar-tab-border-selected: &lt;&lt;colour tab-border-selected&gt;&gt;\nsidebar-tab-border: &lt;&lt;colour tab-border&gt;&gt;\nsidebar-tab-divider: rgba(255,255,255, 0.2)\nsidebar-tab-foreground-selected: \nsidebar-tab-foreground: &lt;&lt;colour tab-foreground&gt;&gt;\nsidebar-tiddler-link-foreground-hover: #aaf\nsidebar-tiddler-link-foreground: #ddf\nsite-title-foreground: #fff\nstatic-alert-foreground: #aaaaaa\ntab-background-selected: #ffffff\ntab-background: #d8d8d8\ntab-border-selected: #d8d8d8\ntab-border: #cccccc\ntab-divider: #d8d8d8\ntab-foreground-selected: &lt;&lt;colour tab-foreground&gt;&gt;\ntab-foreground: #666666\ntable-border: #dddddd\ntable-footer-background: #a8a8a8\ntable-header-background: #f0f0f0\ntag-background: #ec6\ntag-foreground: #ffffff\ntiddler-background: &lt;&lt;colour background&gt;&gt;\ntiddler-border: &lt;&lt;colour background&gt;&gt;\ntiddler-controls-foreground-hover: #888888\ntiddler-controls-foreground-selected: #444444\ntiddler-controls-foreground: #cccccc\ntiddler-editor-background: #f8f8f8\ntiddler-editor-border-image: #ffffff\ntiddler-editor-border: #cccccc\ntiddler-editor-fields-even: #e0e8e0\ntiddler-editor-fields-odd: #f0f4f0\ntiddler-info-background: #f8f8f8\ntiddler-info-border: #dddddd\ntiddler-info-tab-background: #f8f8f8\ntiddler-link-background: &lt;&lt;colour background&gt;&gt;\ntiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\ntiddler-subtitle-foreground: #c0c0c0\ntiddler-title-foreground: #182955\ntoolbar-new-button: \ntoolbar-options-button: \ntoolbar-save-button: \ntoolbar-info-button: \ntoolbar-edit-button: \ntoolbar-close-button: \ntoolbar-delete-button: \ntoolbar-cancel-button: \ntoolbar-done-button: \nuntagged-background: #999999\nvery-muted-foreground: #888888\n&quot;
        },
        &quot;$:/palettes/Rocker&quot;: {
            &quot;title&quot;: &quot;$:/palettes/Rocker&quot;,
            &quot;name&quot;: &quot;Rocker&quot;,
            &quot;description&quot;: &quot;A dark theme&quot;,
            &quot;tags&quot;: &quot;$:/tags/Palette&quot;,
            &quot;type&quot;: &quot;application/x-tiddler-dictionary&quot;,
            &quot;text&quot;: &quot;alert-background: #ffe476\nalert-border: #b99e2f\nalert-highlight: #881122\nalert-muted-foreground: #b99e2f\nbackground: #ffffff\nblockquote-bar: &lt;&lt;colour muted-foreground&gt;&gt;\nbutton-background:\nbutton-foreground:\nbutton-border:\ncode-background: #f7f7f9\ncode-border: #e1e1e8\ncode-foreground: #dd1144\ndirty-indicator: #ff0000\ndownload-background: #34c734\ndownload-foreground: &lt;&lt;colour background&gt;&gt;\ndragger-background: &lt;&lt;colour foreground&gt;&gt;\ndragger-foreground: &lt;&lt;colour background&gt;&gt;\ndropdown-background: &lt;&lt;colour background&gt;&gt;\ndropdown-border: &lt;&lt;colour muted-foreground&gt;&gt;\ndropdown-tab-background-selected: #fff\ndropdown-tab-background: #ececec\ndropzone-background: rgba(0,200,0,0.7)\nexternal-link-background-hover: inherit\nexternal-link-background-visited: inherit\nexternal-link-background: inherit\nexternal-link-foreground-hover: inherit\nexternal-link-foreground-visited: #0000aa\nexternal-link-foreground: #0000ee\nforeground: #333333\nmessage-background: #ecf2ff\nmessage-border: #cfd6e6\nmessage-foreground: #547599\nmodal-backdrop: &lt;&lt;colour foreground&gt;&gt;\nmodal-background: &lt;&lt;colour background&gt;&gt;\nmodal-border: #999999\nmodal-footer-background: #f5f5f5\nmodal-footer-border: #dddddd\nmodal-header-border: #eeeeee\nmuted-foreground: #999999\nnotification-background: #ffffdd\nnotification-border: #999999\npage-background: #000\npre-background: #f5f5f5\npre-border: #cccccc\nprimary: #cc0000\nsidebar-button-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-controls-foreground-hover: #000000\nsidebar-controls-foreground: #ffffff\nsidebar-foreground-shadow: rgba(255,255,255, 0.0)\nsidebar-foreground: #acacac\nsidebar-muted-foreground-hover: #444444\nsidebar-muted-foreground: #c0c0c0\nsidebar-tab-background-selected: #000\nsidebar-tab-background: &lt;&lt;colour tab-background&gt;&gt;\nsidebar-tab-border-selected: &lt;&lt;colour tab-border-selected&gt;&gt;\nsidebar-tab-border: &lt;&lt;colour tab-border&gt;&gt;\nsidebar-tab-divider: &lt;&lt;colour tab-divider&gt;&gt;\nsidebar-tab-foreground-selected: \nsidebar-tab-foreground: &lt;&lt;colour tab-foreground&gt;&gt;\nsidebar-tiddler-link-foreground-hover: #ffbb99\nsidebar-tiddler-link-foreground: #cc0000\nsite-title-foreground: &lt;&lt;colour tiddler-title-foreground&gt;&gt;\nstatic-alert-foreground: #aaaaaa\ntab-background-selected: #ffffff\ntab-background: #d8d8d8\ntab-border-selected: #d8d8d8\ntab-border: #cccccc\ntab-divider: #d8d8d8\ntab-foreground-selected: &lt;&lt;colour tab-foreground&gt;&gt;\ntab-foreground: #666666\ntable-border: #dddddd\ntable-footer-background: #a8a8a8\ntable-header-background: #f0f0f0\ntag-background: #ffbb99\ntag-foreground: #000\ntiddler-background: &lt;&lt;colour background&gt;&gt;\ntiddler-border: &lt;&lt;colour background&gt;&gt;\ntiddler-controls-foreground-hover: #888888\ntiddler-controls-foreground-selected: #444444\ntiddler-controls-foreground: #cccccc\ntiddler-editor-background: #f8f8f8\ntiddler-editor-border-image: #ffffff\ntiddler-editor-border: #cccccc\ntiddler-editor-fields-even: #e0e8e0\ntiddler-editor-fields-odd: #f0f4f0\ntiddler-info-background: #f8f8f8\ntiddler-info-border: #dddddd\ntiddler-info-tab-background: #f8f8f8\ntiddler-link-background: &lt;&lt;colour background&gt;&gt;\ntiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\ntiddler-subtitle-foreground: #c0c0c0\ntiddler-title-foreground: #cc0000\ntoolbar-new-button:\ntoolbar-options-button:\ntoolbar-save-button:\ntoolbar-info-button:\ntoolbar-edit-button:\ntoolbar-close-button:\ntoolbar-delete-button:\ntoolbar-cancel-button:\ntoolbar-done-button:\nuntagged-background: #999999\nvery-muted-foreground: #888888\n&quot;
        },
        &quot;$:/palettes/SolarFlare&quot;: {
            &quot;title&quot;: &quot;$:/palettes/SolarFlare&quot;,
            &quot;name&quot;: &quot;Solar Flare&quot;,
            &quot;description&quot;: &quot;Warm, relaxing earth colours&quot;,
            &quot;tags&quot;: &quot;$:/tags/Palette&quot;,
            &quot;type&quot;: &quot;application/x-tiddler-dictionary&quot;,
            &quot;text&quot;: &quot;: Background Tones\n\nbase03: #002b36\nbase02: #073642\n\n: Content Tones\n\nbase01: #586e75\nbase00: #657b83\nbase0: #839496\nbase1: #93a1a1\n\n: Background Tones\n\nbase2: #eee8d5\nbase3: #fdf6e3\n\n: Accent Colors\n\nyellow: #b58900\norange: #cb4b16\nred: #dc322f\nmagenta: #d33682\nviolet: #6c71c4\nblue: #268bd2\ncyan: #2aa198\ngreen: #859900\n\n: Additional Tones (RA)\n\nbase10: #c0c4bb\nviolet-muted: #7c81b0\nblue-muted: #4e7baa\n\nyellow-hot: #ffcc44\norange-hot: #eb6d20\nred-hot: #ff2222\nblue-hot: #2298ee\ngreen-hot: #98ee22\n\n: Palette\n\n: Do not use colour macro for background and foreground\nbackground: #fdf6e3\n    download-foreground: &lt;&lt;colour background&gt;&gt;\n    dragger-foreground: &lt;&lt;colour background&gt;&gt;\n    dropdown-background: &lt;&lt;colour background&gt;&gt;\n    modal-background: &lt;&lt;colour background&gt;&gt;\n    sidebar-foreground-shadow: &lt;&lt;colour background&gt;&gt;\n    tiddler-background: &lt;&lt;colour background&gt;&gt;\n    tiddler-border: &lt;&lt;colour background&gt;&gt;\n    tiddler-link-background: &lt;&lt;colour background&gt;&gt;\n    tab-background-selected: &lt;&lt;colour background&gt;&gt;\n        dropdown-tab-background-selected: &lt;&lt;colour tab-background-selected&gt;&gt;\nforeground: #657b83\n    dragger-background: &lt;&lt;colour foreground&gt;&gt;\n    tab-foreground: &lt;&lt;colour foreground&gt;&gt;\n        tab-foreground-selected: &lt;&lt;colour tab-foreground&gt;&gt;\n            sidebar-tab-foreground-selected: &lt;&lt;colour tab-foreground-selected&gt;&gt;\n        sidebar-tab-foreground: &lt;&lt;colour tab-foreground&gt;&gt;\n    sidebar-button-foreground: &lt;&lt;colour foreground&gt;&gt;\n    sidebar-controls-foreground: &lt;&lt;colour foreground&gt;&gt;\n    sidebar-foreground: &lt;&lt;colour foreground&gt;&gt;\n: base03\n: base02\n: base01\n    alert-muted-foreground: &lt;&lt;colour base01&gt;&gt;\n: base00\n    code-foreground: &lt;&lt;colour base00&gt;&gt;\n    message-foreground: &lt;&lt;colour base00&gt;&gt;\n    tag-foreground: &lt;&lt;colour base00&gt;&gt;\n: base0\n    sidebar-tiddler-link-foreground: &lt;&lt;colour base0&gt;&gt;\n: base1\n    muted-foreground: &lt;&lt;colour base1&gt;&gt;\n        blockquote-bar: &lt;&lt;colour muted-foreground&gt;&gt;\n        dropdown-border: &lt;&lt;colour muted-foreground&gt;&gt;\n        sidebar-muted-foreground: &lt;&lt;colour muted-foreground&gt;&gt;\n        tiddler-title-foreground: &lt;&lt;colour muted-foreground&gt;&gt;\n            site-title-foreground: &lt;&lt;colour tiddler-title-foreground&gt;&gt;\n: base2\n    modal-footer-background: &lt;&lt;colour base2&gt;&gt;\n    page-background: &lt;&lt;colour base2&gt;&gt;\n        modal-backdrop: &lt;&lt;colour page-background&gt;&gt;\n        notification-background: &lt;&lt;colour page-background&gt;&gt;\n        code-background: &lt;&lt;colour page-background&gt;&gt;\n            code-border: &lt;&lt;colour code-background&gt;&gt;\n        pre-background: &lt;&lt;colour page-background&gt;&gt;\n            pre-border: &lt;&lt;colour pre-background&gt;&gt;\n        sidebar-tab-background-selected: &lt;&lt;colour page-background&gt;&gt;\n    table-header-background: &lt;&lt;colour base2&gt;&gt;\n    tag-background: &lt;&lt;colour base2&gt;&gt;\n    tiddler-editor-background: &lt;&lt;colour base2&gt;&gt;\n    tiddler-info-background: &lt;&lt;colour base2&gt;&gt;\n    tiddler-info-tab-background: &lt;&lt;colour base2&gt;&gt;\n    tab-background: &lt;&lt;colour base2&gt;&gt;\n        dropdown-tab-background: &lt;&lt;colour tab-background&gt;&gt;\n: base3\n    alert-background: &lt;&lt;colour base3&gt;&gt;\n    message-background: &lt;&lt;colour base3&gt;&gt;\n: yellow\n: orange\n: red\n: magenta\n    alert-highlight: &lt;&lt;colour magenta&gt;&gt;\n: violet\n    external-link-foreground: &lt;&lt;colour violet&gt;&gt;\n: blue\n: cyan\n: green\n: base10\n    tiddler-controls-foreground: &lt;&lt;colour base10&gt;&gt;\n: violet-muted\n    external-link-foreground-visited: &lt;&lt;colour violet-muted&gt;&gt;\n: blue-muted\n    primary: &lt;&lt;colour blue-muted&gt;&gt;\n        download-background: &lt;&lt;colour primary&gt;&gt;\n        tiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\n\nalert-border: #b99e2f\ndirty-indicator: #ff0000\ndropzone-background: rgba(0,200,0,0.7)\nexternal-link-background-hover: inherit\nexternal-link-background-visited: inherit\nexternal-link-background: inherit\nexternal-link-foreground-hover: inherit\nmessage-border: #cfd6e6\nmodal-border: #999999\nsidebar-controls-foreground-hover:\nsidebar-muted-foreground-hover:\nsidebar-tab-background: #ded8c5\nsidebar-tiddler-link-foreground-hover:\nstatic-alert-foreground: #aaaaaa\ntab-border: #cccccc\n    modal-footer-border: &lt;&lt;colour tab-border&gt;&gt;\n    modal-header-border: &lt;&lt;colour tab-border&gt;&gt;\n    notification-border: &lt;&lt;colour tab-border&gt;&gt;\n    sidebar-tab-border: &lt;&lt;colour tab-border&gt;&gt;\n    tab-border-selected: &lt;&lt;colour tab-border&gt;&gt;\n        sidebar-tab-border-selected: &lt;&lt;colour tab-border-selected&gt;&gt;\ntab-divider: #d8d8d8\n    sidebar-tab-divider: &lt;&lt;colour tab-divider&gt;&gt;\ntable-border: #dddddd\ntable-footer-background: #a8a8a8\ntiddler-controls-foreground-hover: #888888\ntiddler-controls-foreground-selected: #444444\ntiddler-editor-border-image: #ffffff\ntiddler-editor-border: #cccccc\ntiddler-editor-fields-even: #e0e8e0\ntiddler-editor-fields-odd: #f0f4f0\ntiddler-info-border: #dddddd\ntiddler-subtitle-foreground: #c0c0c0\ntoolbar-new-button:\ntoolbar-options-button:\ntoolbar-save-button:\ntoolbar-info-button:\ntoolbar-edit-button:\ntoolbar-close-button:\ntoolbar-delete-button:\ntoolbar-cancel-button:\ntoolbar-done-button:\nuntagged-background: #999999\nvery-muted-foreground: #888888\n&quot;
        },
        &quot;$:/palettes/Vanilla&quot;: {
            &quot;title&quot;: &quot;$:/palettes/Vanilla&quot;,
            &quot;name&quot;: &quot;Vanilla&quot;,
            &quot;description&quot;: &quot;Pale and unobtrusive&quot;,
            &quot;tags&quot;: &quot;$:/tags/Palette&quot;,
            &quot;type&quot;: &quot;application/x-tiddler-dictionary&quot;,
            &quot;text&quot;: &quot;alert-background: #ffe476\nalert-border: #b99e2f\nalert-highlight: #881122\nalert-muted-foreground: #b99e2f\nbackground: #ffffff\nblockquote-bar: &lt;&lt;colour muted-foreground&gt;&gt;\nbutton-background:\nbutton-foreground:\nbutton-border:\ncode-background: #f7f7f9\ncode-border: #e1e1e8\ncode-foreground: #dd1144\ndirty-indicator: #ff0000\ndownload-background: #34c734\ndownload-foreground: &lt;&lt;colour background&gt;&gt;\ndragger-background: &lt;&lt;colour foreground&gt;&gt;\ndragger-foreground: &lt;&lt;colour background&gt;&gt;\ndropdown-background: &lt;&lt;colour background&gt;&gt;\ndropdown-border: &lt;&lt;colour muted-foreground&gt;&gt;\ndropdown-tab-background-selected: #fff\ndropdown-tab-background: #ececec\ndropzone-background: rgba(0,200,0,0.7)\nexternal-link-background-hover: inherit\nexternal-link-background-visited: inherit\nexternal-link-background: inherit\nexternal-link-foreground-hover: inherit\nexternal-link-foreground-visited: #0000aa\nexternal-link-foreground: #0000ee\nforeground: #333333\nmessage-background: #ecf2ff\nmessage-border: #cfd6e6\nmessage-foreground: #547599\nmodal-backdrop: &lt;&lt;colour foreground&gt;&gt;\nmodal-background: &lt;&lt;colour background&gt;&gt;\nmodal-border: #999999\nmodal-footer-background: #f5f5f5\nmodal-footer-border: #dddddd\nmodal-header-border: #eeeeee\nmuted-foreground: #bbb\nnotification-background: #ffffdd\nnotification-border: #999999\npage-background: #f4f4f4\npre-background: #f5f5f5\npre-border: #cccccc\nprimary: #5778d8\nsidebar-button-foreground: &lt;&lt;colour foreground&gt;&gt;\nsidebar-controls-foreground-hover: #000000\nsidebar-controls-foreground: #aaaaaa\nsidebar-foreground-shadow: rgba(255,255,255, 0.8)\nsidebar-foreground: #acacac\nsidebar-muted-foreground-hover: #444444\nsidebar-muted-foreground: #c0c0c0\nsidebar-tab-background-selected: #f4f4f4\nsidebar-tab-background: #e0e0e0\nsidebar-tab-border-selected: &lt;&lt;colour tab-border-selected&gt;&gt;\nsidebar-tab-border: &lt;&lt;colour tab-border&gt;&gt;\nsidebar-tab-divider: #e4e4e4\nsidebar-tab-foreground-selected:\nsidebar-tab-foreground: &lt;&lt;colour tab-foreground&gt;&gt;\nsidebar-tiddler-link-foreground-hover: #444444\nsidebar-tiddler-link-foreground: #999999\nsite-title-foreground: &lt;&lt;colour tiddler-title-foreground&gt;&gt;\nstatic-alert-foreground: #aaaaaa\ntab-background-selected: #ffffff\ntab-background: #d8d8d8\ntab-border-selected: #d8d8d8\ntab-border: #cccccc\ntab-divider: #d8d8d8\ntab-foreground-selected: &lt;&lt;colour tab-foreground&gt;&gt;\ntab-foreground: #666666\ntable-border: #dddddd\ntable-footer-background: #a8a8a8\ntable-header-background: #f0f0f0\ntag-background: #ec6\ntag-foreground: #ffffff\ntiddler-background: &lt;&lt;colour background&gt;&gt;\ntiddler-border: &lt;&lt;colour background&gt;&gt;\ntiddler-controls-foreground-hover: #888888\ntiddler-controls-foreground-selected: #444444\ntiddler-controls-foreground: #cccccc\ntiddler-editor-background: #f8f8f8\ntiddler-editor-border-image: #ffffff\ntiddler-editor-border: #cccccc\ntiddler-editor-fields-even: #e0e8e0\ntiddler-editor-fields-odd: #f0f4f0\ntiddler-info-background: #f8f8f8\ntiddler-info-border: #dddddd\ntiddler-info-tab-background: #f8f8f8\ntiddler-link-background: &lt;&lt;colour background&gt;&gt;\ntiddler-link-foreground: &lt;&lt;colour primary&gt;&gt;\ntiddler-subtitle-foreground: #c0c0c0\ntiddler-title-foreground: #182955\ntoolbar-new-button:\ntoolbar-options-button:\ntoolbar-save-button:\ntoolbar-info-button:\ntoolbar-edit-button:\ntoolbar-close-button:\ntoolbar-delete-button:\ntoolbar-cancel-button:\ntoolbar-done-button:\nuntagged-background: #999999\nvery-muted-foreground: #888888\n&quot;
        },
        &quot;$:/core/readme&quot;: {
            &quot;title&quot;: &quot;$:/core/readme&quot;,
            &quot;text&quot;: &quot;This plugin contains TiddlyWiki's core components, comprising:\n\n* JavaScript code modules\n* Icons\n* Templates needed to create TiddlyWiki's user interface\n* British English (''en-GB'') translations of the localisable strings used by the core\n&quot;
        },
        &quot;$:/core/templates/MOTW.html&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/MOTW.html&quot;,
            &quot;text&quot;: &quot;\\rules only filteredtranscludeinline transcludeinline entity\n&lt;!-- The following comment is called a MOTW comment and is necessary for the TiddlyIE Internet Explorer extension --&gt;\n&lt;!-- saved from url=(0021)http://tiddlywiki.com --&gt;&amp;#13;&amp;#10;&quot;
        },
        &quot;$:/core/templates/alltiddlers.template.html&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/alltiddlers.template.html&quot;,
            &quot;type&quot;: &quot;text/vnd.tiddlywiki-html&quot;,
            &quot;text&quot;: &quot;&lt;!-- This template is provided for backwards compatibility with older versions of TiddlyWiki --&gt;\n\n&lt;$set name=\&quot;exportFilter\&quot; value=\&quot;[!is[system]sort[title]]\&quot;&gt;\n\n{{$:/core/templates/exporters/StaticRiver}}\n\n&lt;/$set&gt;\n&quot;
        },
        &quot;$:/core/templates/canonical-uri-external-image&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/canonical-uri-external-image&quot;,
            &quot;text&quot;: &quot;&lt;!--\n\nThis template is used to assign the ''_canonical_uri'' field to external images.\n\nChange the `./images/` part to a different base URI. The URI can be relative or absolute.\n\n--&gt;\n./images/&lt;$view field=\&quot;title\&quot; format=\&quot;doubleurlencoded\&quot;/&gt;&quot;
        },
        &quot;$:/core/templates/canonical-uri-external-text&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/canonical-uri-external-text&quot;,
            &quot;text&quot;: &quot;&lt;!--\n\nThis template is used to assign the ''_canonical_uri'' field to external text files.\n\nChange the `./text/` part to a different base URI. The URI can be relative or absolute.\n\n--&gt;\n./text/&lt;$view field=\&quot;title\&quot; format=\&quot;doubleurlencoded\&quot;/&gt;.tid&quot;
        },
        &quot;$:/core/templates/css-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/css-tiddler&quot;,
            &quot;text&quot;: &quot;&lt;!--\n\nThis template is used for saving CSS tiddlers as a style tag with data attributes representing the tiddler fields.\n\n--&gt;`&lt;style`&lt;$fields template=' data-tiddler-$name$=\&quot;$encoded_value$\&quot;'&gt;&lt;/$fields&gt;` type=\&quot;text/css\&quot;&gt;`&lt;$view field=\&quot;text\&quot; format=\&quot;text\&quot; /&gt;`&lt;/style&gt;`&quot;
        },
        &quot;$:/core/templates/exporters/CsvFile&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/exporters/CsvFile&quot;,
            &quot;tags&quot;: &quot;$:/tags/Exporter&quot;,
            &quot;description&quot;: &quot;{{$:/language/Exporters/CsvFile}}&quot;,
            &quot;extension&quot;: &quot;.csv&quot;,
            &quot;text&quot;: &quot;\\define renderContent()\n&lt;$text text=&lt;&lt;csvtiddlers filter:\&quot;\&quot;\&quot;$(exportFilter)$\&quot;\&quot;\&quot; format:\&quot;quoted-comma-sep\&quot;&gt;&gt;/&gt;\n\\end\n&lt;&lt;renderContent&gt;&gt;\n&quot;
        },
        &quot;$:/core/templates/exporters/JsonFile&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/exporters/JsonFile&quot;,
            &quot;tags&quot;: &quot;$:/tags/Exporter&quot;,
            &quot;description&quot;: &quot;{{$:/language/Exporters/JsonFile}}&quot;,
            &quot;extension&quot;: &quot;.json&quot;,
            &quot;text&quot;: &quot;\\define renderContent()\n&lt;$text text=&lt;&lt;jsontiddlers filter:\&quot;\&quot;\&quot;$(exportFilter)$\&quot;\&quot;\&quot;&gt;&gt;/&gt;\n\\end\n&lt;&lt;renderContent&gt;&gt;\n&quot;
        },
        &quot;$:/core/templates/exporters/StaticRiver&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/exporters/StaticRiver&quot;,
            &quot;tags&quot;: &quot;$:/tags/Exporter&quot;,
            &quot;description&quot;: &quot;{{$:/language/Exporters/StaticRiver}}&quot;,
            &quot;extension&quot;: &quot;.html&quot;,
            &quot;text&quot;: &quot;\\define tv-wikilink-template() #$uri_encoded$\n\\define tv-config-toolbar-icons() no\n\\define tv-config-toolbar-text() no\n\\define tv-config-toolbar-class() tc-btn-invisible\n\\rules only filteredtranscludeinline transcludeinline\n&lt;!doctype html&gt;\n&lt;html&gt;\n&lt;head&gt;\n&lt;meta http-equiv=\&quot;Content-Type\&quot; content=\&quot;text/html;charset=utf-8\&quot; /&gt;\n&lt;meta name=\&quot;generator\&quot; content=\&quot;TiddlyWiki\&quot; /&gt;\n&lt;meta name=\&quot;tiddlywiki-version\&quot; content=\&quot;{{$:/core/templates/version}}\&quot; /&gt;\n&lt;meta name=\&quot;format-detection\&quot; content=\&quot;telephone=no\&quot;&gt;\n&lt;link id=\&quot;faviconLink\&quot; rel=\&quot;shortcut icon\&quot; href=\&quot;favicon.ico\&quot;&gt;\n&lt;title&gt;{{$:/core/wiki/title}}&lt;/title&gt;\n&lt;div id=\&quot;styleArea\&quot;&gt;\n{{$:/boot/boot.css||$:/core/templates/css-tiddler}}\n&lt;/div&gt;\n&lt;style type=\&quot;text/css\&quot;&gt;\n{{$:/core/ui/PageStylesheet||$:/core/templates/wikified-tiddler}}\n&lt;/style&gt;\n&lt;/head&gt;\n&lt;body class=\&quot;tc-body\&quot;&gt;\n{{$:/StaticBanner||$:/core/templates/html-tiddler}}\n&lt;section class=\&quot;tc-story-river\&quot;&gt;\n{{$:/core/templates/exporters/StaticRiver/Content||$:/core/templates/html-tiddler}}\n&lt;/section&gt;\n&lt;/body&gt;\n&lt;/html&gt;\n&quot;
        },
        &quot;$:/core/templates/exporters/StaticRiver/Content&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/exporters/StaticRiver/Content&quot;,
            &quot;text&quot;: &quot;\\define renderContent()\n{{{ $(exportFilter)$ ||$:/core/templates/static-tiddler}}}\n\\end\n&lt;$importvariables filter=\&quot;[[$:/core/ui/PageMacros]] [all[shadows+tiddlers]tag[$:/tags/Macro]!has[draft.of]]\&quot;&gt;\n&lt;&lt;renderContent&gt;&gt;\n&lt;/$importvariables&gt;\n&quot;
        },
        &quot;$:/core/templates/exporters/TidFile&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/exporters/TidFile&quot;,
            &quot;tags&quot;: &quot;$:/tags/Exporter&quot;,
            &quot;description&quot;: &quot;{{$:/language/Exporters/TidFile}}&quot;,
            &quot;extension&quot;: &quot;.tid&quot;,
            &quot;text&quot;: &quot;\\define renderContent()\n{{{ $(exportFilter)$ +[limit[1]] ||$:/core/templates/tid-tiddler}}}\n\\end\n&lt;$importvariables filter=\&quot;[[$:/core/ui/PageMacros]] [all[shadows+tiddlers]tag[$:/tags/Macro]!has[draft.of]]\&quot;&gt;&lt;&lt;renderContent&gt;&gt;&lt;/$importvariables&gt;&quot;
        },
        &quot;$:/core/templates/html-div-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/html-div-tiddler&quot;,
            &quot;text&quot;: &quot;&lt;!--\n\nThis template is used for saving tiddlers as an HTML DIV tag with attributes representing the tiddler fields.\n\n--&gt;`&lt;div`&lt;$fields template=' $name$=\&quot;$encoded_value$\&quot;'&gt;&lt;/$fields&gt;`&gt;\n&lt;pre&gt;`&lt;$view field=\&quot;text\&quot; format=\&quot;htmlencoded\&quot; /&gt;`&lt;/pre&gt;\n&lt;/div&gt;`\n&quot;
        },
        &quot;$:/core/templates/html-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/html-tiddler&quot;,
            &quot;text&quot;: &quot;&lt;!--\n\nThis template is used for saving tiddlers as raw HTML\n\n--&gt;&lt;$view field=\&quot;text\&quot; format=\&quot;htmlwikified\&quot; /&gt;&quot;
        },
        &quot;$:/core/templates/javascript-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/javascript-tiddler&quot;,
            &quot;text&quot;: &quot;&lt;!--\n\nThis template is used for saving JavaScript tiddlers as a script tag with data attributes representing the tiddler fields.\n\n--&gt;`&lt;script`&lt;$fields template=' data-tiddler-$name$=\&quot;$encoded_value$\&quot;'&gt;&lt;/$fields&gt;` type=\&quot;text/javascript\&quot;&gt;`&lt;$view field=\&quot;text\&quot; format=\&quot;text\&quot; /&gt;`&lt;/script&gt;`&quot;
        },
        &quot;$:/core/templates/module-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/module-tiddler&quot;,
            &quot;text&quot;: &quot;&lt;!--\n\nThis template is used for saving JavaScript tiddlers as a script tag with data attributes representing the tiddler fields. The body of the tiddler is wrapped in a call to the `$tw.modules.define` function in order to define the body of the tiddler as a module\n\n--&gt;`&lt;script`&lt;$fields template=' data-tiddler-$name$=\&quot;$encoded_value$\&quot;'&gt;&lt;/$fields&gt;` type=\&quot;text/javascript\&quot; data-module=\&quot;yes\&quot;&gt;$tw.modules.define(\&quot;`&lt;$view field=\&quot;title\&quot; format=\&quot;jsencoded\&quot; /&gt;`\&quot;,\&quot;`&lt;$view field=\&quot;module-type\&quot; format=\&quot;jsencoded\&quot; /&gt;`\&quot;,function(module,exports,require) {`&lt;$view field=\&quot;text\&quot; format=\&quot;text\&quot; /&gt;`});\n&lt;/script&gt;`&quot;
        },
        &quot;$:/core/templates/plain-text-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/plain-text-tiddler&quot;,
            &quot;text&quot;: &quot;&lt;$view field=\&quot;text\&quot; format=\&quot;text\&quot; /&gt;&quot;
        },
        &quot;$:/core/save/all&quot;: {
            &quot;title&quot;: &quot;$:/core/save/all&quot;,
            &quot;text&quot;: &quot;\\define saveTiddlerFilter()\n[is[tiddler]] -[prefix[$:/state/popup/]] -[[$:/HistoryList]] -[[$:/boot/boot.css]] -[type[application/javascript]library[yes]] -[[$:/boot/boot.js]] -[[$:/boot/bootprefix.js]] +[sort[title]] $(publishFilter)$\n\\end\n{{$:/core/templates/tiddlywiki5.html}}\n&quot;
        },
        &quot;$:/core/save/empty&quot;: {
            &quot;title&quot;: &quot;$:/core/save/empty&quot;,
            &quot;text&quot;: &quot;\\define saveTiddlerFilter()\n[is[system]] -[prefix[$:/state/popup/]] -[[$:/boot/boot.css]] -[type[application/javascript]library[yes]] -[[$:/boot/boot.js]] -[[$:/boot/bootprefix.js]] +[sort[title]]\n\\end\n{{$:/core/templates/tiddlywiki5.html}}\n&quot;
        },
        &quot;$:/core/save/lazy-all&quot;: {
            &quot;title&quot;: &quot;$:/core/save/lazy-all&quot;,
            &quot;text&quot;: &quot;\\define saveTiddlerFilter()\n[is[system]] -[prefix[$:/state/popup/]] -[[$:/HistoryList]] -[[$:/boot/boot.css]] -[type[application/javascript]library[yes]] -[[$:/boot/boot.js]] -[[$:/boot/bootprefix.js]] +[sort[title]] \n\\end\n{{$:/core/templates/tiddlywiki5.html}}\n&quot;
        },
        &quot;$:/core/save/lazy-images&quot;: {
            &quot;title&quot;: &quot;$:/core/save/lazy-images&quot;,
            &quot;text&quot;: &quot;\\define saveTiddlerFilter()\n[is[tiddler]] -[prefix[$:/state/popup/]] -[[$:/HistoryList]] -[[$:/boot/boot.css]] -[type[application/javascript]library[yes]] -[[$:/boot/boot.js]] -[[$:/boot/bootprefix.js]] -[!is[system]is[image]] +[sort[title]] \n\\end\n{{$:/core/templates/tiddlywiki5.html}}\n&quot;
        },
        &quot;$:/core/templates/single.tiddler.window&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/single.tiddler.window&quot;,
            &quot;text&quot;: &quot;&lt;$set name=\&quot;themeTitle\&quot; value={{$:/view}}&gt;\n\n&lt;$set name=\&quot;tempCurrentTiddler\&quot; value=&lt;&lt;currentTiddler&gt;&gt;&gt;\n\n&lt;$set name=\&quot;currentTiddler\&quot; value={{$:/language}}&gt;\n\n&lt;$set name=\&quot;languageTitle\&quot; value={{!!name}}&gt;\n\n&lt;$set name=\&quot;currentTiddler\&quot; value=&lt;&lt;tempCurrentTiddler&gt;&gt;&gt;\n\n&lt;$importvariables filter=\&quot;[[$:/core/ui/PageMacros]] [all[shadows+tiddlers]tag[$:/tags/Macro]!has[draft.of]]\&quot;&gt;\n\n&lt;$navigator story=\&quot;$:/StoryList\&quot; history=\&quot;$:/HistoryList\&quot;&gt;\n\n&lt;$transclude mode=\&quot;block\&quot;/&gt;\n\n&lt;/$navigator&gt;\n\n&lt;/$importvariables&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&quot;
        },
        &quot;$:/core/templates/split-recipe&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/split-recipe&quot;,
            &quot;text&quot;: &quot;&lt;$list filter=\&quot;[!is[system]]\&quot;&gt;\ntiddler: &lt;$view field=\&quot;title\&quot; format=\&quot;urlencoded\&quot;/&gt;.tid\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/templates/static-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/static-tiddler&quot;,
            &quot;text&quot;: &quot;&lt;a name=&lt;&lt;currentTiddler&gt;&gt;&gt;\n&lt;$transclude tiddler=\&quot;$:/core/ui/ViewTemplate\&quot;/&gt;\n&lt;/a&gt;&quot;
        },
        &quot;$:/core/templates/static.area&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/static.area&quot;,
            &quot;text&quot;: &quot;&lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;$:/isEncrypted\&quot; text=\&quot;yes\&quot;&gt;\n{{$:/core/templates/static.content||$:/core/templates/html-tiddler}}\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=\&quot;$:/isEncrypted\&quot; text=\&quot;yes\&quot;&gt;\nThis file contains an encrypted ~TiddlyWiki. Enable ~JavaScript and enter the decryption password when prompted.\n&lt;/$reveal&gt;\n&quot;
        },
        &quot;$:/core/templates/static.content&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/static.content&quot;,
            &quot;type&quot;: &quot;text/vnd.tiddlywiki&quot;,
            &quot;text&quot;: &quot;&lt;!-- For Google, and people without JavaScript--&gt;\nThis [[TiddlyWiki|http://tiddlywiki.com]] contains the following tiddlers:\n\n&lt;ul&gt;\n&lt;$list filter=&lt;&lt;saveTiddlerFilter&gt;&gt;&gt;\n&lt;li&gt;&lt;$view field=\&quot;title\&quot; format=\&quot;text\&quot;&gt;&lt;/$view&gt;&lt;/li&gt;\n&lt;/$list&gt;\n&lt;/ul&gt;\n&quot;
        },
        &quot;$:/core/templates/static.template.css&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/static.template.css&quot;,
            &quot;text&quot;: &quot;{{$:/boot/boot.css||$:/core/templates/plain-text-tiddler}}\n\n{{$:/core/ui/PageStylesheet||$:/core/templates/wikified-tiddler}}\n&quot;
        },
        &quot;$:/core/templates/static.template.html&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/static.template.html&quot;,
            &quot;type&quot;: &quot;text/vnd.tiddlywiki-html&quot;,
            &quot;text&quot;: &quot;\\define tv-wikilink-template() static/$uri_doubleencoded$.html\n\\define tv-config-toolbar-icons() no\n\\define tv-config-toolbar-text() no\n\\define tv-config-toolbar-class() tc-btn-invisible\n\\rules only filteredtranscludeinline transcludeinline\n&lt;!doctype html&gt;\n&lt;html&gt;\n&lt;head&gt;\n&lt;meta http-equiv=\&quot;Content-Type\&quot; content=\&quot;text/html;charset=utf-8\&quot; /&gt;\n&lt;meta name=\&quot;generator\&quot; content=\&quot;TiddlyWiki\&quot; /&gt;\n&lt;meta name=\&quot;tiddlywiki-version\&quot; content=\&quot;{{$:/core/templates/version}}\&quot; /&gt;\n&lt;meta name=\&quot;viewport\&quot; content=\&quot;width=device-width, initial-scale=1.0\&quot; /&gt;\n&lt;meta name=\&quot;apple-mobile-web-app-capable\&quot; content=\&quot;yes\&quot; /&gt;\n&lt;meta name=\&quot;apple-mobile-web-app-status-bar-style\&quot; content=\&quot;black-translucent\&quot; /&gt;\n&lt;meta name=\&quot;format-detection\&quot; content=\&quot;telephone=no\&quot;&gt;\n&lt;link id=\&quot;faviconLink\&quot; rel=\&quot;shortcut icon\&quot; href=\&quot;favicon.ico\&quot;&gt;\n&lt;title&gt;{{$:/core/wiki/title}}&lt;/title&gt;\n&lt;div id=\&quot;styleArea\&quot;&gt;\n{{$:/boot/boot.css||$:/core/templates/css-tiddler}}\n&lt;/div&gt;\n&lt;style type=\&quot;text/css\&quot;&gt;\n{{$:/core/ui/PageStylesheet||$:/core/templates/wikified-tiddler}}\n&lt;/style&gt;\n&lt;/head&gt;\n&lt;body class=\&quot;tc-body\&quot;&gt;\n{{$:/StaticBanner||$:/core/templates/html-tiddler}}\n{{$:/core/ui/PageTemplate||$:/core/templates/html-tiddler}}\n&lt;/body&gt;\n&lt;/html&gt;\n&quot;
        },
        &quot;$:/core/templates/static.tiddler.html&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/static.tiddler.html&quot;,
            &quot;text&quot;: &quot;\\define tv-wikilink-template() $uri_doubleencoded$.html\n\\define tv-config-toolbar-icons() no\n\\define tv-config-toolbar-text() no\n\\define tv-config-toolbar-class() tc-btn-invisible\n`&lt;!doctype html&gt;\n&lt;html&gt;\n&lt;head&gt;\n&lt;meta http-equiv=\&quot;Content-Type\&quot; content=\&quot;text/html;charset=utf-8\&quot; /&gt;\n&lt;meta name=\&quot;generator\&quot; content=\&quot;TiddlyWiki\&quot; /&gt;\n&lt;meta name=\&quot;tiddlywiki-version\&quot; content=\&quot;`{{$:/core/templates/version}}`\&quot; /&gt;\n&lt;meta name=\&quot;viewport\&quot; content=\&quot;width=device-width, initial-scale=1.0\&quot; /&gt;\n&lt;meta name=\&quot;apple-mobile-web-app-capable\&quot; content=\&quot;yes\&quot; /&gt;\n&lt;meta name=\&quot;apple-mobile-web-app-status-bar-style\&quot; content=\&quot;black-translucent\&quot; /&gt;\n&lt;meta name=\&quot;format-detection\&quot; content=\&quot;telephone=no\&quot;&gt;\n&lt;link id=\&quot;faviconLink\&quot; rel=\&quot;shortcut icon\&quot; href=\&quot;favicon.ico\&quot;&gt;\n&lt;link rel=\&quot;stylesheet\&quot; href=\&quot;static.css\&quot;&gt;\n&lt;title&gt;`&lt;$view field=\&quot;caption\&quot;&gt;&lt;$view field=\&quot;title\&quot;/&gt;&lt;/$view&gt;: {{$:/core/wiki/title}}`&lt;/title&gt;\n&lt;/head&gt;\n&lt;body class=\&quot;tc-body\&quot;&gt;\n`{{$:/StaticBanner||$:/core/templates/html-tiddler}}`\n&lt;section class=\&quot;tc-story-river\&quot;&gt;\n`&lt;$importvariables filter=\&quot;[[$:/core/ui/PageMacros]] [all[shadows+tiddlers]tag[$:/tags/Macro]!has[draft.of]]\&quot;&gt;\n&lt;$view tiddler=\&quot;$:/core/ui/ViewTemplate\&quot; format=\&quot;htmlwikified\&quot;/&gt;\n&lt;/$importvariables&gt;`\n&lt;/section&gt;\n&lt;/body&gt;\n&lt;/html&gt;\n`&quot;
        },
        &quot;$:/core/templates/store.area.template.html&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/store.area.template.html&quot;,
            &quot;text&quot;: &quot;&lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;$:/isEncrypted\&quot; text=\&quot;yes\&quot;&gt;\n`&lt;div id=\&quot;storeArea\&quot; style=\&quot;display:none;\&quot;&gt;`\n&lt;$list filter=&lt;&lt;saveTiddlerFilter&gt;&gt; template=\&quot;$:/core/templates/html-div-tiddler\&quot;/&gt;\n`&lt;/div&gt;`\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=\&quot;$:/isEncrypted\&quot; text=\&quot;yes\&quot;&gt;\n`&lt;!--~~ Encrypted tiddlers ~~--&gt;`\n`&lt;pre id=\&quot;encryptedStoreArea\&quot; type=\&quot;text/plain\&quot; style=\&quot;display:none;\&quot;&gt;`\n&lt;$encrypt filter=&lt;&lt;saveTiddlerFilter&gt;&gt;/&gt;\n`&lt;/pre&gt;`\n&lt;/$reveal&gt;&quot;
        },
        &quot;$:/core/templates/tid-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/tid-tiddler&quot;,
            &quot;text&quot;: &quot;&lt;!--\n\nThis template is used for saving tiddlers in TiddlyWeb *.tid format\n\n--&gt;&lt;$fields exclude='text bag' template='$name$: $value$\n'&gt;&lt;/$fields&gt;`\n`&lt;$view field=\&quot;text\&quot; format=\&quot;text\&quot; /&gt;&quot;
        },
        &quot;$:/core/templates/tiddler-metadata&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/tiddler-metadata&quot;,
            &quot;text&quot;: &quot;&lt;!--\n\nThis template is used for saving tiddler metadata *.meta files\n\n--&gt;&lt;$fields exclude='text bag' template='$name$: $value$\n'&gt;&lt;/$fields&gt;&quot;
        },
        &quot;$:/core/templates/tiddlywiki5.html&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/tiddlywiki5.html&quot;,
            &quot;text&quot;: &quot;\\rules only filteredtranscludeinline transcludeinline\n&lt;!doctype html&gt;\n{{$:/core/templates/MOTW.html}}&lt;html&gt;\n&lt;head&gt;\n&lt;meta http-equiv=\&quot;X-UA-Compatible\&quot; content=\&quot;IE=edge\&quot; /&gt;\t\t&lt;!-- Force IE standards mode for Intranet and HTA - should be the first meta --&gt;\n&lt;meta http-equiv=\&quot;Content-Type\&quot; content=\&quot;text/html;charset=utf-8\&quot; /&gt;\n&lt;meta name=\&quot;application-name\&quot; content=\&quot;TiddlyWiki\&quot; /&gt;\n&lt;meta name=\&quot;generator\&quot; content=\&quot;TiddlyWiki\&quot; /&gt;\n&lt;meta name=\&quot;tiddlywiki-version\&quot; content=\&quot;{{$:/core/templates/version}}\&quot; /&gt;\n&lt;meta name=\&quot;viewport\&quot; content=\&quot;width=device-width, initial-scale=1.0\&quot; /&gt;\n&lt;meta name=\&quot;apple-mobile-web-app-capable\&quot; content=\&quot;yes\&quot; /&gt;\n&lt;meta name=\&quot;apple-mobile-web-app-status-bar-style\&quot; content=\&quot;black-translucent\&quot; /&gt;\n&lt;meta name=\&quot;format-detection\&quot; content=\&quot;telephone=no\&quot; /&gt;\n&lt;meta name=\&quot;copyright\&quot; content=\&quot;{{$:/core/copyright.txt}}\&quot; /&gt;\n&lt;link id=\&quot;faviconLink\&quot; rel=\&quot;shortcut icon\&quot; href=\&quot;favicon.ico\&quot;&gt;\n&lt;title&gt;{{$:/core/wiki/title}}&lt;/title&gt;\n&lt;!--~~ This is a Tiddlywiki file. The points of interest in the file are marked with this pattern ~~--&gt;\n\n&lt;!--~~ Raw markup ~~--&gt;\n{{{ [all[shadows+tiddlers]tag[$:/core/wiki/rawmarkup]] [all[shadows+tiddlers]tag[$:/tags/RawMarkup]] ||$:/core/templates/plain-text-tiddler}}}\n&lt;/head&gt;\n&lt;body class=\&quot;tc-body\&quot;&gt;\n&lt;!--~~ Static styles ~~--&gt;\n&lt;div id=\&quot;styleArea\&quot;&gt;\n{{$:/boot/boot.css||$:/core/templates/css-tiddler}}\n&lt;/div&gt;\n&lt;!--~~ Static content for Google and browsers without JavaScript ~~--&gt;\n&lt;noscript&gt;\n&lt;div id=\&quot;splashArea\&quot;&gt;\n{{$:/core/templates/static.area}}\n&lt;/div&gt;\n&lt;/noscript&gt;\n&lt;!--~~ Ordinary tiddlers ~~--&gt;\n{{$:/core/templates/store.area.template.html}}\n&lt;!--~~ Library modules ~~--&gt;\n&lt;div id=\&quot;libraryModules\&quot; style=\&quot;display:none;\&quot;&gt;\n{{{ [is[system]type[application/javascript]library[yes]] ||$:/core/templates/javascript-tiddler}}}\n&lt;/div&gt;\n&lt;!--~~ Boot kernel prologue ~~--&gt;\n&lt;div id=\&quot;bootKernelPrefix\&quot; style=\&quot;display:none;\&quot;&gt;\n{{ $:/boot/bootprefix.js ||$:/core/templates/javascript-tiddler}}\n&lt;/div&gt;\n&lt;!--~~ Boot kernel ~~--&gt;\n&lt;div id=\&quot;bootKernel\&quot; style=\&quot;display:none;\&quot;&gt;\n{{ $:/boot/boot.js ||$:/core/templates/javascript-tiddler}}\n&lt;/div&gt;\n&lt;/body&gt;\n&lt;/html&gt;\n&quot;
        },
        &quot;$:/core/templates/version&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/version&quot;,
            &quot;text&quot;: &quot;&lt;&lt;version&gt;&gt;&quot;
        },
        &quot;$:/core/templates/wikified-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/wikified-tiddler&quot;,
            &quot;text&quot;: &quot;&lt;$transclude /&gt;&quot;
        },
        &quot;$:/core/ui/AboveStory/tw2-plugin-check&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/AboveStory/tw2-plugin-check&quot;,
            &quot;tags&quot;: &quot;$:/tags/AboveStory&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/AboveStory/ClassicPlugin/\n&lt;$list filter=\&quot;[all[system+tiddlers]tag[systemConfig]limit[1]]\&quot;&gt;\n\n&lt;div class=\&quot;tc-message-box\&quot;&gt;\n\n&lt;&lt;lingo Warning&gt;&gt;\n\n&lt;ul&gt;\n\n&lt;$list filter=\&quot;[all[system+tiddlers]tag[systemConfig]limit[1]]\&quot;&gt;\n\n&lt;li&gt;\n\n&lt;$link&gt;&lt;$view field=\&quot;title\&quot;/&gt;&lt;/$link&gt;\n\n&lt;/li&gt;\n\n&lt;/$list&gt;\n\n&lt;/ul&gt;\n\n&lt;/div&gt;\n\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/AdvancedSearch/Filter&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/AdvancedSearch/Filter&quot;,
            &quot;tags&quot;: &quot;$:/tags/AdvancedSearch&quot;,
            &quot;caption&quot;: &quot;{{$:/language/Search/Filter/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/Search/\n&lt;$linkcatcher to=\&quot;$:/temp/advancedsearch\&quot;&gt;\n\n&lt;&lt;lingo Filter/Hint&gt;&gt;\n\n&lt;div class=\&quot;tc-search tc-advanced-search\&quot;&gt;\n&lt;$edit-text tiddler=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;search\&quot; tag=\&quot;input\&quot;/&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/filterDropdown\&quot;&gt;&gt; class=\&quot;tc-btn-invisible\&quot;&gt;\n{{$:/core/images/down-arrow}}\n&lt;/$button&gt;\n&lt;$reveal state=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible\&quot;&gt;\n&lt;$action-setfield $tiddler=\&quot;$:/temp/advancedsearch\&quot; $field=\&quot;text\&quot; $value=\&quot;\&quot;/&gt;\n{{$:/core/images/close-button}}\n&lt;/$button&gt;\n&lt;$macrocall $name=\&quot;exportButton\&quot; exportFilter={{$:/temp/advancedsearch}} lingoBase=\&quot;$:/language/Buttons/ExportTiddlers/\&quot;/&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n\n&lt;div class=\&quot;tc-block-dropdown-wrapper\&quot;&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/filterDropdown\&quot;&gt;&gt; type=\&quot;nomatch\&quot; text=\&quot;\&quot; default=\&quot;\&quot;&gt;\n&lt;div class=\&quot;tc-block-dropdown tc-edit-type-dropdown\&quot;&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/Filter]]\&quot;&gt;&lt;$link to={{!!filter}}&gt;&lt;$transclude field=\&quot;description\&quot;/&gt;&lt;/$link&gt;\n&lt;/$list&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n\n&lt;/$linkcatcher&gt;\n\n&lt;$reveal state=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n&lt;$set name=\&quot;resultCount\&quot; value=\&quot;\&quot;\&quot;&lt;$count filter={{$:/temp/advancedsearch}}/&gt;\&quot;\&quot;\&quot;&gt;\n&lt;div class=\&quot;tc-search-results\&quot;&gt;\n&lt;&lt;lingo Filter/Matches&gt;&gt;\n&lt;$list filter={{$:/temp/advancedsearch}} template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&lt;/div&gt;\n&lt;/$set&gt;\n&lt;/$reveal&gt;\n&quot;
        },
        &quot;$:/core/ui/AdvancedSearch/Shadows&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/AdvancedSearch/Shadows&quot;,
            &quot;tags&quot;: &quot;$:/tags/AdvancedSearch&quot;,
            &quot;caption&quot;: &quot;{{$:/language/Search/Shadows/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/Search/\n&lt;$linkcatcher to=\&quot;$:/temp/advancedsearch\&quot;&gt;\n\n&lt;&lt;lingo Shadows/Hint&gt;&gt;\n\n&lt;div class=\&quot;tc-search\&quot;&gt;\n&lt;$edit-text tiddler=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;search\&quot; tag=\&quot;input\&quot;/&gt;\n&lt;$reveal state=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible\&quot;&gt;\n&lt;$action-setfield $tiddler=\&quot;$:/temp/advancedsearch\&quot; $field=\&quot;text\&quot; $value=\&quot;\&quot;/&gt;\n{{$:/core/images/close-button}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n\n&lt;/$linkcatcher&gt;\n\n&lt;$reveal state=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n\n&lt;$set name=\&quot;resultCount\&quot; value=\&quot;\&quot;\&quot;&lt;$count filter=\&quot;[all[shadows]search{$:/temp/advancedsearch}] -[[$:/temp/advancedsearch]]\&quot;/&gt;\&quot;\&quot;\&quot;&gt;\n\n&lt;div class=\&quot;tc-search-results\&quot;&gt;\n\n&lt;&lt;lingo Shadows/Matches&gt;&gt;\n\n&lt;$list filter=\&quot;[all[shadows]search{$:/temp/advancedsearch}sort[title]limit[250]] -[[$:/temp/advancedsearch]]\&quot; template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n\n&lt;/div&gt;\n\n&lt;/$set&gt;\n\n&lt;/$reveal&gt;\n\n&lt;$reveal state=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;match\&quot; text=\&quot;\&quot;&gt;\n\n&lt;/$reveal&gt;\n&quot;
        },
        &quot;$:/core/ui/AdvancedSearch/Standard&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/AdvancedSearch/Standard&quot;,
            &quot;tags&quot;: &quot;$:/tags/AdvancedSearch&quot;,
            &quot;caption&quot;: &quot;{{$:/language/Search/Standard/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/Search/\n&lt;$linkcatcher to=\&quot;$:/temp/advancedsearch\&quot;&gt;\n\n&lt;&lt;lingo Standard/Hint&gt;&gt;\n\n&lt;div class=\&quot;tc-search\&quot;&gt;\n&lt;$edit-text tiddler=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;search\&quot; tag=\&quot;input\&quot;/&gt;\n&lt;$reveal state=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible\&quot;&gt;\n&lt;$action-setfield $tiddler=\&quot;$:/temp/advancedsearch\&quot; $field=\&quot;text\&quot; $value=\&quot;\&quot;/&gt;\n{{$:/core/images/close-button}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n\n&lt;/$linkcatcher&gt;\n\n&lt;$reveal state=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n&lt;$set name=\&quot;searchTiddler\&quot; value=\&quot;$:/temp/advancedsearch\&quot;&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/SearchResults]!has[draft.of]butfirst[]limit[1]]\&quot; emptyMessage=\&quot;\&quot;\&quot;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/SearchResults]!has[draft.of]]\&quot;&gt;\n&lt;$transclude/&gt;\n&lt;/$list&gt;\n\&quot;\&quot;\&quot;&gt;\n&lt;$macrocall $name=\&quot;tabs\&quot; tabsList=\&quot;[all[shadows+tiddlers]tag[$:/tags/SearchResults]!has[draft.of]]\&quot; default={{$:/config/SearchResults/Default}}/&gt;\n&lt;/$list&gt;\n&lt;/$set&gt;\n&lt;/$reveal&gt;\n&quot;
        },
        &quot;$:/core/ui/AdvancedSearch/System&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/AdvancedSearch/System&quot;,
            &quot;tags&quot;: &quot;$:/tags/AdvancedSearch&quot;,
            &quot;caption&quot;: &quot;{{$:/language/Search/System/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/Search/\n&lt;$linkcatcher to=\&quot;$:/temp/advancedsearch\&quot;&gt;\n\n&lt;&lt;lingo System/Hint&gt;&gt;\n\n&lt;div class=\&quot;tc-search\&quot;&gt;\n&lt;$edit-text tiddler=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;search\&quot; tag=\&quot;input\&quot;/&gt;\n&lt;$reveal state=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible\&quot;&gt;\n&lt;$action-setfield $tiddler=\&quot;$:/temp/advancedsearch\&quot; $field=\&quot;text\&quot; $value=\&quot;\&quot;/&gt;\n{{$:/core/images/close-button}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n\n&lt;/$linkcatcher&gt;\n\n&lt;$reveal state=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n\n&lt;$set name=\&quot;resultCount\&quot; value=\&quot;\&quot;\&quot;&lt;$count filter=\&quot;[is[system]search{$:/temp/advancedsearch}] -[[$:/temp/advancedsearch]]\&quot;/&gt;\&quot;\&quot;\&quot;&gt;\n\n&lt;div class=\&quot;tc-search-results\&quot;&gt;\n\n&lt;&lt;lingo System/Matches&gt;&gt;\n\n&lt;$list filter=\&quot;[is[system]search{$:/temp/advancedsearch}sort[title]limit[250]] -[[$:/temp/advancedsearch]]\&quot; template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n\n&lt;/div&gt;\n\n&lt;/$set&gt;\n\n&lt;/$reveal&gt;\n\n&lt;$reveal state=\&quot;$:/temp/advancedsearch\&quot; type=\&quot;match\&quot; text=\&quot;\&quot;&gt;\n\n&lt;/$reveal&gt;\n&quot;
        },
        &quot;$:/AdvancedSearch&quot;: {
            &quot;title&quot;: &quot;$:/AdvancedSearch&quot;,
            &quot;icon&quot;: &quot;$:/core/images/advanced-search-button&quot;,
            &quot;color&quot;: &quot;#bbb&quot;,
            &quot;text&quot;: &quot;&lt;div class=\&quot;tc-advanced-search\&quot;&gt;\n&lt;&lt;tabs \&quot;[all[shadows+tiddlers]tag[$:/tags/AdvancedSearch]!has[draft.of]]\&quot; \&quot;$:/core/ui/AdvancedSearch/System\&quot;&gt;&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/AlertTemplate&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/AlertTemplate&quot;,
            &quot;text&quot;: &quot;&lt;div class=\&quot;tc-alert\&quot;&gt;\n&lt;div class=\&quot;tc-alert-toolbar\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible\&quot;&gt;&lt;$action-deletetiddler $tiddler=&lt;&lt;currentTiddler&gt;&gt;/&gt;{{$:/core/images/delete-button}}&lt;/$button&gt;\n&lt;/div&gt;\n&lt;div class=\&quot;tc-alert-subtitle\&quot;&gt;\n&lt;$view field=\&quot;component\&quot;/&gt; - &lt;$view field=\&quot;modified\&quot; format=\&quot;date\&quot; template=\&quot;0hh:0mm:0ss DD MM YYYY\&quot;/&gt; &lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;!!count\&quot; text=\&quot;\&quot;&gt;&lt;span class=\&quot;tc-alert-highlight\&quot;&gt;(count: &lt;$view field=\&quot;count\&quot;/&gt;)&lt;/span&gt;&lt;/$reveal&gt;\n&lt;/div&gt;\n&lt;div class=\&quot;tc-alert-body\&quot;&gt;\n\n&lt;$transclude/&gt;\n\n&lt;/div&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/BinaryWarning&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/BinaryWarning&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/BinaryWarning/\n&lt;div class=\&quot;tc-binary-warning\&quot;&gt;\n\n&lt;&lt;lingo Prompt&gt;&gt;\n\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/Components/tag-link&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Components/tag-link&quot;,
            &quot;text&quot;: &quot;&lt;$link&gt;\n&lt;$set name=\&quot;backgroundColor\&quot; value={{!!color}}&gt;\n&lt;span style=&lt;&lt;tag-styles&gt;&gt; class=\&quot;tc-tag-label\&quot;&gt;\n&lt;$view field=\&quot;title\&quot; format=\&quot;text\&quot;/&gt;\n&lt;/span&gt;\n&lt;/$set&gt;\n&lt;/$link&gt;&quot;
        },
        &quot;$:/core/ui/ControlPanel/Advanced&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Advanced&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Info&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Advanced/Caption}}&quot;,
            &quot;text&quot;: &quot;{{$:/language/ControlPanel/Advanced/Hint}}\n\n&lt;div class=\&quot;tc-control-panel\&quot;&gt;\n&lt;&lt;tabs \&quot;[all[shadows+tiddlers]tag[$:/tags/ControlPanel/Advanced]!has[draft.of]]\&quot; \&quot;$:/core/ui/ControlPanel/TiddlerFields\&quot;&gt;&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Appearance&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Appearance&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Appearance/Caption}}&quot;,
            &quot;text&quot;: &quot;{{$:/language/ControlPanel/Appearance/Hint}}\n\n&lt;div class=\&quot;tc-control-panel\&quot;&gt;\n&lt;&lt;tabs \&quot;[all[shadows+tiddlers]tag[$:/tags/ControlPanel/Appearance]!has[draft.of]]\&quot; \&quot;$:/core/ui/ControlPanel/Theme\&quot;&gt;&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Basics&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Basics&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Info&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Basics/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Basics/\n\n\\define show-filter-count(filter)\n&lt;$button class=\&quot;tc-btn-invisible\&quot;&gt;\n&lt;$action-setfield $tiddler=\&quot;$:/temp/advancedsearch\&quot; $value=\&quot;\&quot;\&quot;$filter$\&quot;\&quot;\&quot;/&gt;\n&lt;$action-setfield $tiddler=\&quot;$:/state/tab--1498284803\&quot; $value=\&quot;$:/core/ui/AdvancedSearch/Filter\&quot;/&gt;\n&lt;$action-navigate $to=\&quot;$:/AdvancedSearch\&quot;/&gt;\n''&lt;$count filter=\&quot;\&quot;\&quot;$filter$\&quot;\&quot;\&quot;/&gt;''\n{{$:/core/images/advanced-search-button}}\n&lt;/$button&gt;\n\\end\n\n|&lt;&lt;lingo Version/Prompt&gt;&gt; |''&lt;&lt;version&gt;&gt;'' |\n|&lt;$link to=\&quot;$:/SiteTitle\&quot;&gt;&lt;&lt;lingo Title/Prompt&gt;&gt;&lt;/$link&gt; |&lt;$edit-text tiddler=\&quot;$:/SiteTitle\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;$link to=\&quot;$:/SiteSubtitle\&quot;&gt;&lt;&lt;lingo Subtitle/Prompt&gt;&gt;&lt;/$link&gt; |&lt;$edit-text tiddler=\&quot;$:/SiteSubtitle\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;$link to=\&quot;$:/status/UserName\&quot;&gt;&lt;&lt;lingo Username/Prompt&gt;&gt;&lt;/$link&gt; |&lt;$edit-text tiddler=\&quot;$:/status/UserName\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;$link to=\&quot;$:/config/AnimationDuration\&quot;&gt;&lt;&lt;lingo AnimDuration/Prompt&gt;&gt;&lt;/$link&gt; |&lt;$edit-text tiddler=\&quot;$:/config/AnimationDuration\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;$link to=\&quot;$:/DefaultTiddlers\&quot;&gt;&lt;&lt;lingo DefaultTiddlers/Prompt&gt;&gt;&lt;/$link&gt; |&lt;&lt;lingo DefaultTiddlers/TopHint&gt;&gt;&lt;br&gt; &lt;$edit-text tag=\&quot;textarea\&quot; tiddler=\&quot;$:/DefaultTiddlers\&quot;/&gt;&lt;br&gt;//&lt;&lt;lingo DefaultTiddlers/BottomHint&gt;&gt;// |\n|&lt;$link to=\&quot;$:/config/NewJournal/Title\&quot;&gt;&lt;&lt;lingo NewJournal/Title/Prompt&gt;&gt;&lt;/$link&gt; |&lt;$edit-text tiddler=\&quot;$:/config/NewJournal/Title\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;$link to=\&quot;$:/config/NewJournal/Tags\&quot;&gt;&lt;&lt;lingo NewJournal/Tags/Prompt&gt;&gt;&lt;/$link&gt; |&lt;$edit-text tiddler=\&quot;$:/config/NewJournal/Tags\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;&lt;lingo Language/Prompt&gt;&gt; |{{$:/snippets/minilanguageswitcher}} |\n|&lt;&lt;lingo Tiddlers/Prompt&gt;&gt; |&lt;&lt;show-filter-count \&quot;[!is[system]sort[title]]\&quot;&gt;&gt; |\n|&lt;&lt;lingo Tags/Prompt&gt;&gt; |&lt;&lt;show-filter-count \&quot;[tags[]sort[title]]\&quot;&gt;&gt; |\n|&lt;&lt;lingo SystemTiddlers/Prompt&gt;&gt; |&lt;&lt;show-filter-count \&quot;[is[system]sort[title]]\&quot;&gt;&gt; |\n|&lt;&lt;lingo ShadowTiddlers/Prompt&gt;&gt; |&lt;&lt;show-filter-count \&quot;[all[shadows]sort[title]]\&quot;&gt;&gt; |\n|&lt;&lt;lingo OverriddenShadowTiddlers/Prompt&gt;&gt; |&lt;&lt;show-filter-count \&quot;[is[tiddler]is[shadow]sort[title]]\&quot;&gt;&gt; |\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/EditorTypes&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/EditorTypes&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Advanced&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/EditorTypes/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/EditorTypes/\n\n&lt;&lt;lingo Hint&gt;&gt;\n\n&lt;table&gt;\n&lt;tbody&gt;\n&lt;tr&gt;\n&lt;th&gt;&lt;&lt;lingo Type/Caption&gt;&gt;&lt;/th&gt;\n&lt;th&gt;&lt;&lt;lingo Editor/Caption&gt;&gt;&lt;/th&gt;\n&lt;/tr&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]prefix[$:/config/EditorTypeMappings/]sort[title]]\&quot;&gt;\n&lt;tr&gt;\n&lt;td&gt;\n&lt;$link&gt;\n&lt;$list filter=\&quot;[all[current]removeprefix[$:/config/EditorTypeMappings/]]\&quot;&gt;\n&lt;$text text={{!!title}}/&gt;\n&lt;/$list&gt;\n&lt;/$link&gt;\n&lt;/td&gt;\n&lt;td&gt;\n&lt;$view field=\&quot;text\&quot;/&gt;\n&lt;/td&gt;\n&lt;/tr&gt;\n&lt;/$list&gt;\n&lt;/tbody&gt;\n&lt;/table&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Info&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Info&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Info/Caption}}&quot;,
            &quot;text&quot;: &quot;{{$:/language/ControlPanel/Info/Hint}}\n\n&lt;div class=\&quot;tc-control-panel\&quot;&gt;\n&lt;&lt;tabs \&quot;[all[shadows+tiddlers]tag[$:/tags/ControlPanel/Info]!has[draft.of]]\&quot; \&quot;$:/core/ui/ControlPanel/Basics\&quot;&gt;&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/LoadedModules&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/LoadedModules&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Advanced&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/LoadedModules/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/\n&lt;&lt;lingo LoadedModules/Hint&gt;&gt;\n\n{{$:/snippets/modules}}\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Modals/AddPlugins&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Modals/AddPlugins&quot;,
            &quot;subtitle&quot;: &quot;{{$:/core/images/download-button}} {{$:/language/ControlPanel/Plugins/Add/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Plugins/\n\n\\define install-plugin-button()\n&lt;$button&gt;\n&lt;$action-sendmessage $message=\&quot;tm-load-plugin-from-library\&quot; url={{!!url}} title={{$(assetInfo)$!!original-title}}/&gt;\n&lt;$list filter=\&quot;[&lt;assetInfo&gt;get[original-title]get[version]]\&quot; variable=\&quot;installedVersion\&quot; emptyMessage=\&quot;\&quot;\&quot;{{$:/language/ControlPanel/Plugins/Install}}\&quot;\&quot;\&quot;&gt;\n{{$:/language/ControlPanel/Plugins/Reinstall}}\n&lt;/$list&gt;\n&lt;/$button&gt;\n\\end\n\n\\define popup-state-macro()\n$:/state/add-plugin-info/$(connectionTiddler)$/$(assetInfo)$\n\\end\n\n\\define display-plugin-info(type)\n&lt;$set name=\&quot;popup-state\&quot; value=&lt;&lt;popup-state-macro&gt;&gt;&gt;\n&lt;div class=\&quot;tc-plugin-info\&quot;&gt;\n&lt;div class=\&quot;tc-plugin-info-chunk tc-small-icon\&quot;&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;popup-state&gt;&gt; text=\&quot;yes\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; set=&lt;&lt;popup-state&gt;&gt; setTo=\&quot;yes\&quot;&gt;\n{{$:/core/images/right-arrow}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;popup-state&gt;&gt; text=\&quot;yes\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; set=&lt;&lt;popup-state&gt;&gt; setTo=\&quot;no\&quot;&gt;\n{{$:/core/images/down-arrow}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n&lt;div class=\&quot;tc-plugin-info-chunk\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;assetInfo&gt;has[icon]]\&quot; emptyMessage=\&quot;\&quot;\&quot;&lt;$transclude tiddler=\&quot;$:/core/images/plugin-generic-$type$\&quot;/&gt;\&quot;\&quot;\&quot;&gt;\n&lt;img src={{$(assetInfo)$!!icon}}/&gt;\n&lt;/$list&gt;\n&lt;/div&gt;\n&lt;div class=\&quot;tc-plugin-info-chunk\&quot;&gt;\n&lt;h1&gt;&lt;$view tiddler=&lt;&lt;assetInfo&gt;&gt; field=\&quot;description\&quot;/&gt;&lt;/h1&gt;\n&lt;h2&gt;&lt;$view tiddler=&lt;&lt;assetInfo&gt;&gt; field=\&quot;original-title\&quot;/&gt;&lt;/h2&gt;\n&lt;div&gt;&lt;em&gt;&lt;$view tiddler=&lt;&lt;assetInfo&gt;&gt; field=\&quot;version\&quot;/&gt;&lt;/em&gt;&lt;/div&gt;\n&lt;/div&gt;\n&lt;div class=\&quot;tc-plugin-info-chunk\&quot;&gt;\n&lt;&lt;install-plugin-button&gt;&gt;\n&lt;/div&gt;\n&lt;/div&gt;\n&lt;$reveal type=\&quot;match\&quot; text=\&quot;yes\&quot; state=&lt;&lt;popup-state&gt;&gt;&gt;\n&lt;div class=\&quot;tc-plugin-info-dropdown\&quot;&gt;\n&lt;div class=\&quot;tc-plugin-info-dropdown-message\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;assetInfo&gt;get[original-title]get[version]]\&quot; variable=\&quot;installedVersion\&quot; emptyMessage=\&quot;\&quot;\&quot;This plugin is not currently installed\&quot;\&quot;\&quot;&gt;\n&lt;em&gt;\nThis plugin is already installed at version &lt;$text text=&lt;&lt;installedVersion&gt;&gt;/&gt;\n&lt;/em&gt;\n&lt;/$list&gt;\n&lt;/div&gt;\n&lt;div class=\&quot;tc-plugin-info-dropdown-body\&quot;&gt;\n&lt;$transclude tiddler=&lt;&lt;assetInfo&gt;&gt; field=\&quot;readme\&quot; mode=\&quot;block\&quot;/&gt;\n&lt;/div&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&lt;/$set&gt;\n\\end\n\n\\define load-plugin-library-button()\n&lt;$button class=\&quot;tc-btn-big-green\&quot;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-load-plugin-library\&quot; url={{!!url}} infoTitlePrefix=\&quot;$:/temp/RemoteAssetInfo/\&quot;/&gt;\n{{$:/core/images/chevron-right}} {{$:/language/ControlPanel/Plugins/OpenPluginLibrary}}\n&lt;/$button&gt;\n\\end\n\n\\define display-server-assets(type)\n{{$:/language/Search/Search}}: &lt;$edit-text tiddler=\&quot;\&quot;\&quot;$:/temp/RemoteAssetSearch/$(currentTiddler)$\&quot;\&quot;\&quot; default=\&quot;\&quot; type=\&quot;search\&quot; tag=\&quot;input\&quot;/&gt;\n&lt;$reveal state=\&quot;\&quot;\&quot;$:/temp/RemoteAssetSearch/$(currentTiddler)$\&quot;\&quot;\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible\&quot;&gt;\n&lt;$action-setfield $tiddler=\&quot;\&quot;\&quot;$:/temp/RemoteAssetSearch/$(currentTiddler)$\&quot;\&quot;\&quot; $field=\&quot;text\&quot; $value=\&quot;\&quot;/&gt;\n{{$:/core/images/close-button}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;div class=\&quot;tc-plugin-library-listing\&quot;&gt;\n&lt;$list filter=\&quot;[all[tiddlers+shadows]tag[$:/tags/RemoteAssetInfo]server-url{!!url}original-plugin-type[$type$]search{$:/temp/RemoteAssetSearch/$(currentTiddler)$}sort[description]]\&quot; variable=\&quot;assetInfo\&quot;&gt;\n&lt;&lt;display-plugin-info \&quot;$type$\&quot;&gt;&gt;\n&lt;/$list&gt;\n&lt;/div&gt;\n\\end\n\n\\define display-server-connection()\n&lt;$list filter=\&quot;[all[tiddlers+shadows]tag[$:/tags/ServerConnection]suffix{!!url}]\&quot; variable=\&quot;connectionTiddler\&quot; emptyMessage=&lt;&lt;load-plugin-library-button&gt;&gt;&gt;\n\n&lt;&lt;tabs \&quot;[[$:/core/ui/ControlPanel/Plugins/Add/Plugins]] [[$:/core/ui/ControlPanel/Plugins/Add/Themes]] [[$:/core/ui/ControlPanel/Plugins/Add/Languages]]\&quot; \&quot;$:/core/ui/ControlPanel/Plugins/Add/Plugins\&quot;&gt;&gt;\n\n&lt;/$list&gt;\n\\end\n\n\\define plugin-library-listing()\n&lt;$list filter=\&quot;[all[tiddlers+shadows]tag[$:/tags/PluginLibrary]]\&quot;&gt;\n&lt;div class=\&quot;tc-plugin-library\&quot;&gt;\n\n!! &lt;$link&gt;&lt;$transclude field=\&quot;caption\&quot;&gt;&lt;$view field=\&quot;title\&quot;/&gt;&lt;/$transclude&gt;&lt;/$link&gt;\n\n//&lt;$view field=\&quot;url\&quot;/&gt;//\n\n&lt;$transclude/&gt;\n\n&lt;&lt;display-server-connection&gt;&gt;\n&lt;/div&gt;\n&lt;/$list&gt;\n\\end\n\n&lt;$importvariables filter=\&quot;[[$:/core/ui/PageMacros]] [all[shadows+tiddlers]tag[$:/tags/Macro]!has[draft.of]]\&quot;&gt;\n\n&lt;div&gt;\n&lt;&lt;plugin-library-listing&gt;&gt;\n&lt;/div&gt;\n\n&lt;/$importvariables&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Palette&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Palette&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Appearance&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Palette/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Palette/\n\n{{$:/snippets/paletteswitcher}}\n\n&lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;$:/state/ShowPaletteEditor\&quot; text=\&quot;yes\&quot;&gt;\n\n&lt;$button set=\&quot;$:/state/ShowPaletteEditor\&quot; setTo=\&quot;yes\&quot;&gt;&lt;&lt;lingo ShowEditor/Caption&gt;&gt;&lt;/$button&gt;\n\n&lt;/$reveal&gt;\n\n&lt;$reveal type=\&quot;match\&quot; state=\&quot;$:/state/ShowPaletteEditor\&quot; text=\&quot;yes\&quot;&gt;\n\n&lt;$button set=\&quot;$:/state/ShowPaletteEditor\&quot; setTo=\&quot;no\&quot;&gt;&lt;&lt;lingo HideEditor/Caption&gt;&gt;&lt;/$button&gt;\n{{$:/snippets/paletteeditor}}\n\n&lt;/$reveal&gt;\n\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Parsing&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Parsing&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Advanced&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Parsing/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Parsing/\n\n\\define parsing-inner(typeCap)\n&lt;li&gt;\n&lt;$checkbox tiddler=\&quot;\&quot;\&quot;$:/config/WikiParserRules/$typeCap$/$(currentTiddler)$\&quot;\&quot;\&quot; field=\&quot;text\&quot; checked=\&quot;enable\&quot; unchecked=\&quot;disable\&quot; default=\&quot;enable\&quot;&gt; ''&lt;$text text=&lt;&lt;currentTiddler&gt;&gt;/&gt;'': &lt;/$checkbox&gt;\n&lt;/li&gt;\n\\end\n\n\\define parsing-outer(typeLower,typeCap)\n&lt;ul&gt;\n&lt;$list filter=\&quot;[wikiparserrules[$typeLower$]]\&quot;&gt;\n&lt;&lt;parsing-inner typeCap:\&quot;$typeCap$\&quot;&gt;&gt;\n&lt;/$list&gt;\n&lt;/ul&gt;\n\\end\n\n&lt;&lt;lingo Hint&gt;&gt;\n\n! &lt;&lt;lingo Pragma/Caption&gt;&gt;\n\n&lt;&lt;parsing-outer typeLower:\&quot;pragma\&quot; typeCap:\&quot;Pragma\&quot;&gt;&gt;\n\n! &lt;&lt;lingo Inline/Caption&gt;&gt;\n\n&lt;&lt;parsing-outer typeLower:\&quot;inline\&quot; typeCap:\&quot;Inline\&quot;&gt;&gt;\n\n! &lt;&lt;lingo Block/Caption&gt;&gt;\n\n&lt;&lt;parsing-outer typeLower:\&quot;block\&quot; typeCap:\&quot;Block\&quot;&gt;&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Plugins/Add/Languages&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Plugins/Add/Languages&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Plugins/Languages/Caption}} (&lt;$count filter=\&quot;[all[tiddlers+shadows]tag[$:/tags/RemoteAssetInfo]server-url{!!url}original-plugin-type[language]]\&quot;/&gt;)&quot;,
            &quot;text&quot;: &quot;&lt;&lt;display-server-assets language&gt;&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Plugins/Add/Plugins&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Plugins/Add/Plugins&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Plugins/Plugins/Caption}}  (&lt;$count filter=\&quot;[all[tiddlers+shadows]tag[$:/tags/RemoteAssetInfo]server-url{!!url}original-plugin-type[plugin]]\&quot;/&gt;)&quot;,
            &quot;text&quot;: &quot;&lt;&lt;display-server-assets plugin&gt;&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Plugins/Add/Themes&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Plugins/Add/Themes&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Plugins/Themes/Caption}}  (&lt;$count filter=\&quot;[all[tiddlers+shadows]tag[$:/tags/RemoteAssetInfo]server-url{!!url}original-plugin-type[theme]]\&quot;/&gt;)&quot;,
            &quot;text&quot;: &quot;&lt;&lt;display-server-assets theme&gt;&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Plugins/AddPlugins&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Plugins/AddPlugins&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Plugins/\n\n&lt;$button message=\&quot;tm-modal\&quot; param=\&quot;$:/core/ui/ControlPanel/Modals/AddPlugins\&quot; tooltip={{$:/language/ControlPanel/Plugins/Add/Hint}} class=\&quot;tc-btn-big-green\&quot; style=\&quot;background:blue;\&quot;&gt;\n{{$:/core/images/download-button}} &lt;&lt;lingo Add/Caption&gt;&gt;\n&lt;/$button&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Plugins/Installed/Languages&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Plugins/Installed/Languages&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Plugins/Languages/Caption}} (&lt;$count filter=\&quot;[!has[draft.of]plugin-type[language]]\&quot;/&gt;)&quot;,
            &quot;text&quot;: &quot;&lt;&lt;plugin-table language&gt;&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Plugins/Installed/Plugins&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Plugins/Installed/Plugins&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Plugins/Plugins/Caption}} (&lt;$count filter=\&quot;[!has[draft.of]plugin-type[plugin]]\&quot;/&gt;)&quot;,
            &quot;text&quot;: &quot;&lt;&lt;plugin-table plugin&gt;&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Plugins/Installed/Themes&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Plugins/Installed/Themes&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Plugins/Themes/Caption}} (&lt;$count filter=\&quot;[!has[draft.of]plugin-type[theme]]\&quot;/&gt;)&quot;,
            &quot;text&quot;: &quot;&lt;&lt;plugin-table theme&gt;&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Plugins&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Plugins&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Plugins/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Plugins/\n\n\\define popup-state-macro()\n$(qualified-state)$-$(currentTiddler)$\n\\end\n\n\\define tabs-state-macro()\n$(popup-state)$-$(pluginInfoType)$\n\\end\n\n\\define plugin-icon-title()\n$(currentTiddler)$/icon\n\\end\n\n\\define plugin-disable-title()\n$:/config/Plugins/Disabled/$(currentTiddler)$\n\\end\n\n\\define plugin-table-body(type,disabledMessage)\n&lt;div class=\&quot;tc-plugin-info-chunk tc-small-icon\&quot;&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;popup-state&gt;&gt; text=\&quot;yes\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; set=&lt;&lt;popup-state&gt;&gt; setTo=\&quot;yes\&quot;&gt;\n{{$:/core/images/right-arrow}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;popup-state&gt;&gt; text=\&quot;yes\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; set=&lt;&lt;popup-state&gt;&gt; setTo=\&quot;no\&quot;&gt;\n{{$:/core/images/down-arrow}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n&lt;div class=\&quot;tc-plugin-info-chunk\&quot;&gt;\n&lt;$transclude tiddler=&lt;&lt;currentTiddler&gt;&gt; subtiddler=&lt;&lt;plugin-icon-title&gt;&gt;&gt;\n&lt;$transclude tiddler=\&quot;$:/core/images/plugin-generic-$type$\&quot;/&gt;\n&lt;/$transclude&gt;\n&lt;/div&gt;\n&lt;div class=\&quot;tc-plugin-info-chunk\&quot;&gt;\n&lt;h1&gt;\n''&lt;$view field=\&quot;description\&quot;&gt;&lt;$view field=\&quot;title\&quot;/&gt;&lt;/$view&gt;'' $disabledMessage$\n&lt;/h1&gt;\n&lt;h2&gt;\n&lt;$view field=\&quot;title\&quot;/&gt;\n&lt;/h2&gt;\n&lt;h2&gt;\n&lt;div&gt;&lt;em&gt;&lt;$view field=\&quot;version\&quot;/&gt;&lt;/em&gt;&lt;/div&gt;\n&lt;/h2&gt;\n&lt;/div&gt;\n\\end\n\n\\define plugin-table(type)\n&lt;$set name=\&quot;qualified-state\&quot; value=&lt;&lt;qualify \&quot;$:/state/plugin-info\&quot;&gt;&gt;&gt;\n&lt;$list filter=\&quot;[!has[draft.of]plugin-type[$type$]sort[description]]\&quot; emptyMessage=&lt;&lt;lingo \&quot;Empty/Hint\&quot;&gt;&gt;&gt;\n&lt;$set name=\&quot;popup-state\&quot; value=&lt;&lt;popup-state-macro&gt;&gt;&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;plugin-disable-title&gt;&gt; text=\&quot;yes\&quot;&gt;\n&lt;$link to={{!!title}} class=\&quot;tc-plugin-info\&quot;&gt;\n&lt;&lt;plugin-table-body type:\&quot;$type$\&quot;&gt;&gt;\n&lt;/$link&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;plugin-disable-title&gt;&gt; text=\&quot;yes\&quot;&gt;\n&lt;$link to={{!!title}} class=\&quot;tc-plugin-info tc-plugin-info-disabled\&quot;&gt;\n&lt;&lt;plugin-table-body type:\&quot;$type$\&quot; disabledMessage:\&quot;&lt;$macrocall $name='lingo' title='Disabled/Status'/&gt;\&quot;&gt;&gt;\n&lt;/$link&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; text=\&quot;yes\&quot; state=&lt;&lt;popup-state&gt;&gt;&gt;\n&lt;div class=\&quot;tc-plugin-info-dropdown\&quot;&gt;\n&lt;div class=\&quot;tc-plugin-info-dropdown-body\&quot;&gt;\n&lt;$list filter=\&quot;[all[current]] -[[$:/core]]\&quot;&gt;\n&lt;div style=\&quot;float:right;\&quot;&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;plugin-disable-title&gt;&gt; text=\&quot;yes\&quot;&gt;\n&lt;$button set=&lt;&lt;plugin-disable-title&gt;&gt; setTo=\&quot;yes\&quot; tooltip={{$:/language/ControlPanel/Plugins/Disable/Hint}} aria-label={{$:/language/ControlPanel/Plugins/Disable/Caption}}&gt;\n&lt;&lt;lingo Disable/Caption&gt;&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;plugin-disable-title&gt;&gt; text=\&quot;yes\&quot;&gt;\n&lt;$button set=&lt;&lt;plugin-disable-title&gt;&gt; setTo=\&quot;no\&quot; tooltip={{$:/language/ControlPanel/Plugins/Enable/Hint}} aria-label={{$:/language/ControlPanel/Plugins/Enable/Caption}}&gt;\n&lt;&lt;lingo Enable/Caption&gt;&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n&lt;/$list&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; text=\&quot;\&quot; state=\&quot;!!list\&quot;&gt;\n&lt;$macrocall $name=\&quot;tabs\&quot; state=&lt;&lt;tabs-state-macro&gt;&gt; tabsList={{!!list}} default=\&quot;readme\&quot; template=\&quot;$:/core/ui/PluginInfo\&quot;/&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; text=\&quot;\&quot; state=\&quot;!!list\&quot;&gt;\nNo information provided\n&lt;/$reveal&gt;\n&lt;/div&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&lt;/$set&gt;\n&lt;/$list&gt;\n&lt;/$set&gt;\n\\end\n\n{{$:/core/ui/ControlPanel/Plugins/AddPlugins}}\n\n&lt;&lt;lingo Installed/Hint&gt;&gt;\n\n&lt;&lt;tabs \&quot;[[$:/core/ui/ControlPanel/Plugins/Installed/Plugins]] [[$:/core/ui/ControlPanel/Plugins/Installed/Themes]] [[$:/core/ui/ControlPanel/Plugins/Installed/Languages]]\&quot; \&quot;$:/core/ui/ControlPanel/Plugins/Installed/Plugins\&quot;&gt;&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Saving&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Saving&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Saving/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Saving/\n\\define backupURL()\nhttp://$(userName)$.tiddlyspot.com/backup/\n\\end\n\\define backupLink()\n&lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;$:/UploadName\&quot; text=\&quot;\&quot;&gt;\n&lt;$set name=\&quot;userName\&quot; value={{$:/UploadName}}&gt;\n&lt;$reveal type=\&quot;match\&quot; state=\&quot;$:/UploadURL\&quot; text=\&quot;\&quot;&gt;\n&lt;&lt;backupURL&gt;&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;$:/UploadURL\&quot; text=\&quot;\&quot;&gt;\n&lt;$macrocall $name=resolvePath source={{$:/UploadBackupDir}} root={{$:/UploadURL}}&gt;&gt;\n&lt;/$reveal&gt;\n&lt;/$set&gt;\n&lt;/$reveal&gt;\n\\end\n! &lt;&lt;lingo TiddlySpot/Heading&gt;&gt;\n\n&lt;&lt;lingo TiddlySpot/Description&gt;&gt;\n\n|&lt;&lt;lingo TiddlySpot/UserName&gt;&gt; |&lt;$edit-text tiddler=\&quot;$:/UploadName\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;&lt;lingo TiddlySpot/Password&gt;&gt; |&lt;$password name=\&quot;upload\&quot;/&gt; |\n|&lt;&lt;lingo TiddlySpot/Backups&gt;&gt; |&lt;&lt;backupLink&gt;&gt; |\n\n''&lt;&lt;lingo TiddlySpot/Advanced/Heading&gt;&gt;''\n\n|&lt;&lt;lingo TiddlySpot/ServerURL&gt;&gt;  |&lt;$edit-text tiddler=\&quot;$:/UploadURL\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;&lt;lingo TiddlySpot/Filename&gt;&gt; |&lt;$edit-text tiddler=\&quot;$:/UploadFilename\&quot; default=\&quot;index.html\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;&lt;lingo TiddlySpot/UploadDir&gt;&gt; |&lt;$edit-text tiddler=\&quot;$:/UploadDir\&quot; default=\&quot;.\&quot; tag=\&quot;input\&quot;/&gt; |\n|&lt;&lt;lingo TiddlySpot/BackupDir&gt;&gt; |&lt;$edit-text tiddler=\&quot;$:/UploadBackupDir\&quot; default=\&quot;.\&quot; tag=\&quot;input\&quot;/&gt; |\n\n&lt;&lt;lingo TiddlySpot/Hint&gt;&gt;&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings/AutoSave&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings/AutoSave&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Settings&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/AutoSave/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/AutoSave/\n\n&lt;$link to=\&quot;$:/config/AutoSave\&quot;&gt;&lt;&lt;lingo Hint&gt;&gt;&lt;/$link&gt;\n\n&lt;$radio tiddler=\&quot;$:/config/AutoSave\&quot; value=\&quot;yes\&quot;&gt; &lt;&lt;lingo Enabled/Description&gt;&gt; &lt;/$radio&gt;\n\n&lt;$radio tiddler=\&quot;$:/config/AutoSave\&quot; value=\&quot;no\&quot;&gt; &lt;&lt;lingo Disabled/Description&gt;&gt; &lt;/$radio&gt;\n&quot;
        },
        &quot;$:/core/buttonstyles/Borderless&quot;: {
            &quot;title&quot;: &quot;$:/core/buttonstyles/Borderless&quot;,
            &quot;tags&quot;: &quot;$:/tags/ToolbarButtonStyle&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/ToolbarButtonStyle/Styles/Borderless}}&quot;,
            &quot;text&quot;: &quot;tc-btn-invisible&quot;
        },
        &quot;$:/core/buttonstyles/Boxed&quot;: {
            &quot;title&quot;: &quot;$:/core/buttonstyles/Boxed&quot;,
            &quot;tags&quot;: &quot;$:/tags/ToolbarButtonStyle&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/ToolbarButtonStyle/Styles/Boxed}}&quot;,
            &quot;text&quot;: &quot;tc-btn-boxed&quot;
        },
        &quot;$:/core/buttonstyles/Rounded&quot;: {
            &quot;title&quot;: &quot;$:/core/buttonstyles/Rounded&quot;,
            &quot;tags&quot;: &quot;$:/tags/ToolbarButtonStyle&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/ToolbarButtonStyle/Styles/Rounded}}&quot;,
            &quot;text&quot;: &quot;tc-btn-rounded&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings/CamelCase&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings/CamelCase&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Settings&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/CamelCase/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/CamelCase/\n&lt;&lt;lingo Hint&gt;&gt;\n\n&lt;$checkbox tiddler=\&quot;$:/config/WikiParserRules/Inline/wikilink\&quot; field=\&quot;text\&quot; checked=\&quot;enable\&quot; unchecked=\&quot;disable\&quot; default=\&quot;enable\&quot;&gt; &lt;$link to=\&quot;$:/config/WikiParserRules/Inline/wikilink\&quot;&gt;&lt;&lt;lingo Description&gt;&gt;&lt;/$link&gt; &lt;/$checkbox&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings/DefaultSidebarTab&quot;: {
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/DefaultSidebarTab/Caption}}&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Settings&quot;,
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings/DefaultSidebarTab&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/DefaultSidebarTab/\n\n&lt;$link to=\&quot;$:/config/DefaultSidebarTab\&quot;&gt;&lt;&lt;lingo Hint&gt;&gt;&lt;/$link&gt;\n\n&lt;$select tiddler=\&quot;$:/config/DefaultSidebarTab\&quot;&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/SideBar]!has[draft.of]]\&quot;&gt;\n&lt;option value=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;$transclude field=\&quot;caption\&quot;&gt;&lt;$text text=&lt;&lt;currentTiddler&gt;&gt;/&gt;&lt;/$transclude&gt;&lt;/option&gt;\n&lt;/$list&gt;\n&lt;/$select&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings/LinkToBehaviour&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings/LinkToBehaviour&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Settings&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/LinkToBehaviour/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/LinkToBehaviour/\n\n&lt;$link to=\&quot;$:/config/Navigation/openLinkFromInsideRiver\&quot;&gt;&lt;&lt;lingo \&quot;InsideRiver/Hint\&quot;&gt;&gt;&lt;/$link&gt;\n\n&lt;$select tiddler=\&quot;$:/config/Navigation/openLinkFromInsideRiver\&quot;&gt;\n  &lt;option value=\&quot;above\&quot;&gt;&lt;&lt;lingo \&quot;OpenAbove\&quot;&gt;&gt;&lt;/option&gt;\n  &lt;option value=\&quot;below\&quot;&gt;&lt;&lt;lingo \&quot;OpenBelow\&quot;&gt;&gt;&lt;/option&gt;\n  &lt;option value=\&quot;top\&quot;&gt;&lt;&lt;lingo \&quot;OpenAtTop\&quot;&gt;&gt;&lt;/option&gt;\n  &lt;option value=\&quot;bottom\&quot;&gt;&lt;&lt;lingo \&quot;OpenAtBottom\&quot;&gt;&gt;&lt;/option&gt;\n&lt;/$select&gt;\n\n&lt;$link to=\&quot;$:/config/Navigation/openLinkFromOutsideRiver\&quot;&gt;&lt;&lt;lingo \&quot;OutsideRiver/Hint\&quot;&gt;&gt;&lt;/$link&gt;\n\n&lt;$select tiddler=\&quot;$:/config/Navigation/openLinkFromOutsideRiver\&quot;&gt;\n  &lt;option value=\&quot;top\&quot;&gt;&lt;&lt;lingo \&quot;OpenAtTop\&quot;&gt;&gt;&lt;/option&gt;\n  &lt;option value=\&quot;bottom\&quot;&gt;&lt;&lt;lingo \&quot;OpenAtBottom\&quot;&gt;&gt;&lt;/option&gt;\n&lt;/$select&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings/NavigationAddressBar&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings/NavigationAddressBar&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Settings&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/NavigationAddressBar/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/NavigationAddressBar/\n\n&lt;$link to=\&quot;$:/config/Navigation/UpdateAddressBar\&quot;&gt;&lt;&lt;lingo Hint&gt;&gt;&lt;/$link&gt;\n\n&lt;$radio tiddler=\&quot;$:/config/Navigation/UpdateAddressBar\&quot; value=\&quot;permaview\&quot;&gt; &lt;&lt;lingo Permaview/Description&gt;&gt; &lt;/$radio&gt;\n\n&lt;$radio tiddler=\&quot;$:/config/Navigation/UpdateAddressBar\&quot; value=\&quot;permalink\&quot;&gt; &lt;&lt;lingo Permalink/Description&gt;&gt; &lt;/$radio&gt;\n\n&lt;$radio tiddler=\&quot;$:/config/Navigation/UpdateAddressBar\&quot; value=\&quot;no\&quot;&gt; &lt;&lt;lingo No/Description&gt;&gt; &lt;/$radio&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings/NavigationHistory&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings/NavigationHistory&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Settings&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/NavigationHistory/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/NavigationHistory/\n&lt;$link to=\&quot;$:/config/Navigation/UpdateHistory\&quot;&gt;&lt;&lt;lingo Hint&gt;&gt;&lt;/$link&gt;\n\n&lt;$radio tiddler=\&quot;$:/config/Navigation/UpdateHistory\&quot; value=\&quot;yes\&quot;&gt; &lt;&lt;lingo Yes/Description&gt;&gt; &lt;/$radio&gt;\n\n&lt;$radio tiddler=\&quot;$:/config/Navigation/UpdateHistory\&quot; value=\&quot;no\&quot;&gt; &lt;&lt;lingo No/Description&gt;&gt; &lt;/$radio&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings/PerformanceInstrumentation&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings/PerformanceInstrumentation&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Settings&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/PerformanceInstrumentation/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/PerformanceInstrumentation/\n&lt;&lt;lingo Hint&gt;&gt;\n\n&lt;$checkbox tiddler=\&quot;$:/config/Performance/Instrumentation\&quot; field=\&quot;text\&quot; checked=\&quot;yes\&quot; unchecked=\&quot;no\&quot; default=\&quot;no\&quot;&gt; &lt;$link to=\&quot;$:/config/Performance/Instrumentation\&quot;&gt;&lt;&lt;lingo Description&gt;&gt;&lt;/$link&gt; &lt;/$checkbox&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings/TitleLinks&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings/TitleLinks&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Settings&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/TitleLinks/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/TitleLinks/\n&lt;$link to=\&quot;$:/config/Tiddlers/TitleLinks\&quot;&gt;&lt;&lt;lingo Hint&gt;&gt;&lt;/$link&gt;\n\n&lt;$radio tiddler=\&quot;$:/config/Tiddlers/TitleLinks\&quot; value=\&quot;yes\&quot;&gt; &lt;&lt;lingo Yes/Description&gt;&gt; &lt;/$radio&gt;\n\n&lt;$radio tiddler=\&quot;$:/config/Tiddlers/TitleLinks\&quot; value=\&quot;no\&quot;&gt; &lt;&lt;lingo No/Description&gt;&gt; &lt;/$radio&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings/ToolbarButtonStyle&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings/ToolbarButtonStyle&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Settings&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/ToolbarButtonStyle/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/ToolbarButtonStyle/\n&lt;$link to=\&quot;$:/config/Toolbar/ButtonClass\&quot;&gt;&lt;&lt;lingo \&quot;Hint\&quot;&gt;&gt;&lt;/$link&gt;\n\n&lt;$select tiddler=\&quot;$:/config/Toolbar/ButtonClass\&quot;&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/ToolbarButtonStyle]]\&quot;&gt;\n&lt;option value={{!!text}}&gt;{{!!caption}}&lt;/option&gt;\n&lt;/$list&gt;\n&lt;/$select&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings/ToolbarButtons&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings/ToolbarButtons&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Settings&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/ToolbarButtons/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/ToolbarButtons/\n&lt;&lt;lingo Hint&gt;&gt;\n\n&lt;$checkbox tiddler=\&quot;$:/config/Toolbar/Icons\&quot; field=\&quot;text\&quot; checked=\&quot;yes\&quot; unchecked=\&quot;no\&quot; default=\&quot;yes\&quot;&gt; &lt;$link to=\&quot;$:/config/Toolbar/Icons\&quot;&gt;&lt;&lt;lingo Icons/Description&gt;&gt;&lt;/$link&gt; &lt;/$checkbox&gt;\n\n&lt;$checkbox tiddler=\&quot;$:/config/Toolbar/Text\&quot; field=\&quot;text\&quot; checked=\&quot;yes\&quot; unchecked=\&quot;no\&quot; default=\&quot;no\&quot;&gt; &lt;$link to=\&quot;$:/config/Toolbar/Text\&quot;&gt;&lt;&lt;lingo Text/Description&gt;&gt;&lt;/$link&gt; &lt;/$checkbox&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Settings&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Settings&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Settings/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Settings/\n\n&lt;&lt;lingo Hint&gt;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/ControlPanel/Settings]]\&quot;&gt;\n\n&lt;div style=\&quot;border-top:1px solid #eee;\&quot;&gt;\n\n!! &lt;$link&gt;&lt;$transclude field=\&quot;caption\&quot;/&gt;&lt;/$link&gt;\n\n&lt;$transclude/&gt;\n\n&lt;/div&gt;\n\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/StoryView&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/StoryView&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Appearance&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/StoryView/Caption}}&quot;,
            &quot;text&quot;: &quot;{{$:/snippets/viewswitcher}}\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Theme&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Theme&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Appearance&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Theme/Caption}}&quot;,
            &quot;text&quot;: &quot;{{$:/snippets/themeswitcher}}\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/TiddlerFields&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/TiddlerFields&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Advanced&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/TiddlerFields/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/\n\n&lt;&lt;lingo TiddlerFields/Hint&gt;&gt;\n\n{{$:/snippets/allfields}}&quot;
        },
        &quot;$:/core/ui/ControlPanel/Toolbars/EditToolbar&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Toolbars/EditToolbar&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Toolbars&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Toolbars/EditToolbar/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TiddlerInfo/\n\\define config-title()\n$:/config/EditToolbarButtons/Visibility/$(listItem)$\n\\end\n\n{{$:/language/ControlPanel/Toolbars/EditToolbar/Hint}}\n\n&lt;$set name=\&quot;tv-config-toolbar-icons\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-text\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/EditToolbar]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n\n&lt;$checkbox tiddler=&lt;&lt;config-title&gt;&gt; field=\&quot;text\&quot; checked=\&quot;show\&quot; unchecked=\&quot;hide\&quot; default=\&quot;show\&quot;/&gt; &lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; field=\&quot;caption\&quot;/&gt; &lt;i class=\&quot;tc-muted\&quot;&gt;-- &lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; field=\&quot;description\&quot;/&gt;&lt;/i&gt;\n\n&lt;/$list&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Toolbars/PageControls&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Toolbars/PageControls&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Toolbars&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Toolbars/PageControls/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TiddlerInfo/\n\\define config-title()\n$:/config/PageControlButtons/Visibility/$(listItem)$\n\\end\n\n{{$:/language/ControlPanel/Toolbars/PageControls/Hint}}\n\n&lt;$set name=\&quot;tv-config-toolbar-icons\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-text\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/PageControls]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n\n&lt;$checkbox tiddler=&lt;&lt;config-title&gt;&gt; field=\&quot;text\&quot; checked=\&quot;show\&quot; unchecked=\&quot;hide\&quot; default=\&quot;show\&quot;/&gt; &lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; field=\&quot;caption\&quot;/&gt; &lt;i class=\&quot;tc-muted\&quot;&gt;-- &lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; field=\&quot;description\&quot;/&gt;&lt;/i&gt;\n\n&lt;/$list&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Toolbars/ViewToolbar&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Toolbars/ViewToolbar&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Toolbars&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Toolbars/ViewToolbar/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TiddlerInfo/\n\\define config-title()\n$:/config/ViewToolbarButtons/Visibility/$(listItem)$\n\\end\n\n{{$:/language/ControlPanel/Toolbars/ViewToolbar/Hint}}\n\n&lt;$set name=\&quot;tv-config-toolbar-icons\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-text\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/ViewToolbar]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n\n&lt;$checkbox tiddler=&lt;&lt;config-title&gt;&gt; field=\&quot;text\&quot; checked=\&quot;show\&quot; unchecked=\&quot;hide\&quot; default=\&quot;show\&quot;/&gt; &lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; field=\&quot;caption\&quot;/&gt; &lt;i class=\&quot;tc-muted\&quot;&gt;-- &lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; field=\&quot;description\&quot;/&gt;&lt;/i&gt;\n\n&lt;/$list&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n&quot;
        },
        &quot;$:/core/ui/ControlPanel/Toolbars&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ControlPanel/Toolbars&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Appearance&quot;,
            &quot;caption&quot;: &quot;{{$:/language/ControlPanel/Toolbars/Caption}}&quot;,
            &quot;text&quot;: &quot;{{$:/language/ControlPanel/Toolbars/Hint}}\n\n&lt;div class=\&quot;tc-control-panel\&quot;&gt;\n&lt;&lt;tabs \&quot;[all[shadows+tiddlers]tag[$:/tags/ControlPanel/Toolbars]!has[draft.of]]\&quot; \&quot;$:/core/ui/ControlPanel/Toolbars/ViewToolbar\&quot; \&quot;$:/state/tabs/controlpanel/toolbars\&quot; \&quot;tc-vertical\&quot;&gt;&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/ControlPanel&quot;: {
            &quot;title&quot;: &quot;$:/ControlPanel&quot;,
            &quot;icon&quot;: &quot;$:/core/images/options-button&quot;,
            &quot;color&quot;: &quot;#bbb&quot;,
            &quot;text&quot;: &quot;&lt;div class=\&quot;tc-control-panel\&quot;&gt;\n&lt;&lt;tabs \&quot;[all[shadows+tiddlers]tag[$:/tags/ControlPanel]!has[draft.of]]\&quot; \&quot;$:/core/ui/ControlPanel/Info\&quot;&gt;&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/DefaultSearchResultList&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/DefaultSearchResultList&quot;,
            &quot;tags&quot;: &quot;$:/tags/SearchResults&quot;,
            &quot;caption&quot;: &quot;{{$:/language/Search/DefaultResults/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define searchResultList()\n//&lt;small&gt;{{$:/language/Search/Matches/Title}}&lt;/small&gt;//\n\n&lt;$list filter=\&quot;[!is[system]search:title{$(searchTiddler)$}sort[title]limit[250]]\&quot; template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n\n//&lt;small&gt;{{$:/language/Search/Matches/All}}&lt;/small&gt;//\n\n&lt;$list filter=\&quot;[!is[system]search{$(searchTiddler)$}sort[title]limit[250]]\&quot; template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n\n\\end\n&lt;&lt;searchResultList&gt;&gt;\n&quot;
        },
        &quot;$:/core/ui/EditTemplate/body&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/EditTemplate/body&quot;,
            &quot;tags&quot;: &quot;$:/tags/EditTemplate&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/EditTemplate/Body/\n&lt;$list filter=\&quot;[is[current]has[_canonical_uri]]\&quot;&gt;\n\n&lt;div class=\&quot;tc-message-box\&quot;&gt;\n\n&lt;&lt;lingo External/Hint&gt;&gt;\n\n&lt;a href={{!!_canonical_uri}}&gt;&lt;$text text={{!!_canonical_uri}}/&gt;&lt;/a&gt;\n\n&lt;$edit-text field=\&quot;_canonical_uri\&quot; class=\&quot;tc-edit-fields\&quot;&gt;&lt;/$edit-text&gt;\n\n&lt;/div&gt;\n\n&lt;/$list&gt;\n\n&lt;$list filter=\&quot;[is[current]!has[_canonical_uri]]\&quot;&gt;\n\n&lt;$reveal state=\&quot;$:/state/showeditpreview\&quot; type=\&quot;match\&quot; text=\&quot;yes\&quot;&gt;\n\n&lt;em class=\&quot;tc-edit\&quot;&gt;&lt;&lt;lingo Hint&gt;&gt;&lt;/em&gt; &lt;$button type=\&quot;set\&quot; set=\&quot;$:/state/showeditpreview\&quot; setTo=\&quot;no\&quot;&gt;&lt;&lt;lingo Preview/Button/Hide&gt;&gt;&lt;/$button&gt;\n\n&lt;div class=\&quot;tc-tiddler-preview\&quot;&gt;\n&lt;div class=\&quot;tc-tiddler-preview-preview\&quot;&gt;\n&lt;$set name=\&quot;tv-tiddler-preview\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$transclude /&gt;\n\n&lt;/$set&gt;\n&lt;/div&gt;\n\n&lt;div class=\&quot;tc-tiddler-preview-edit\&quot;&gt;\n&lt;$edit field=\&quot;text\&quot; class=\&quot;tc-edit-texteditor\&quot; placeholder={{$:/language/EditTemplate/Body/Placeholder}}/&gt;\n\n&lt;/div&gt;\n\n&lt;/div&gt;\n\n&lt;/$reveal&gt;\n\n&lt;$reveal state=\&quot;$:/state/showeditpreview\&quot; type=\&quot;nomatch\&quot; text=\&quot;yes\&quot;&gt;\n\n&lt;em class=\&quot;tc-edit\&quot;&gt;&lt;&lt;lingo Hint&gt;&gt;&lt;/em&gt; &lt;$button type=\&quot;set\&quot; set=\&quot;$:/state/showeditpreview\&quot; setTo=\&quot;yes\&quot;&gt;&lt;&lt;lingo Preview/Button/Show&gt;&gt;&lt;/$button&gt;\n&lt;$edit field=\&quot;text\&quot; class=\&quot;tc-edit-texteditor\&quot; placeholder={{$:/language/EditTemplate/Body/Placeholder}}/&gt;\n\n&lt;/$reveal&gt;\n\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/EditTemplate/controls&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/EditTemplate/controls&quot;,
            &quot;tags&quot;: &quot;$:/tags/EditTemplate&quot;,
            &quot;text&quot;: &quot;\\define config-title()\n$:/config/EditToolbarButtons/Visibility/$(listItem)$\n\\end\n&lt;div class=\&quot;tc-tiddler-title tc-tiddler-edit-title\&quot;&gt;\n&lt;$view field=\&quot;title\&quot;/&gt;\n&lt;span class=\&quot;tc-tiddler-controls tc-titlebar\&quot;&gt;&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/EditToolbar]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;config-title&gt;&gt; text=\&quot;hide\&quot;&gt;&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt;/&gt;&lt;/$reveal&gt;&lt;/$list&gt;&lt;/span&gt;\n&lt;div style=\&quot;clear: both;\&quot;&gt;&lt;/div&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/EditTemplate/fields&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/EditTemplate/fields&quot;,
            &quot;tags&quot;: &quot;$:/tags/EditTemplate&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/EditTemplate/\n\\define config-title()\n$:/config/EditTemplateFields/Visibility/$(currentField)$\n\\end\n\n\\define config-filter()\n[[hide]] -[title{$(config-title)$}]\n\\end\n\n\\define new-field-inner()\n&lt;$reveal type=\&quot;nomatch\&quot; text=\&quot;\&quot; default=&lt;&lt;name&gt;&gt;&gt;\n&lt;$button&gt;\n&lt;$action-sendmessage $message=\&quot;tm-add-field\&quot; $name=&lt;&lt;name&gt;&gt; $value=&lt;&lt;value&gt;&gt;/&gt;\n&lt;$action-deletetiddler $tiddler=\&quot;$:/temp/newfieldname\&quot;/&gt;\n&lt;$action-deletetiddler $tiddler=\&quot;$:/temp/newfieldvalue\&quot;/&gt;\n&lt;&lt;lingo Fields/Add/Button&gt;&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; text=\&quot;\&quot; default=&lt;&lt;name&gt;&gt;&gt;\n&lt;$button&gt;\n&lt;&lt;lingo Fields/Add/Button&gt;&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n\\end\n\n\\define new-field()\n&lt;$set name=\&quot;name\&quot; value={{$:/temp/newfieldname}}&gt;\n&lt;$set name=\&quot;value\&quot; value={{$:/temp/newfieldvalue}}&gt;\n&lt;&lt;new-field-inner&gt;&gt;\n&lt;/$set&gt;\n&lt;/$set&gt;\n\\end\n\n&lt;div class=\&quot;tc-edit-fields\&quot;&gt;\n&lt;table class=\&quot;tc-edit-fields\&quot;&gt;\n&lt;tbody&gt;\n&lt;$list filter=\&quot;[all[current]fields[]] +[sort[title]]\&quot; variable=\&quot;currentField\&quot;&gt;\n&lt;$list filter=&lt;&lt;config-filter&gt;&gt; variable=\&quot;temp\&quot;&gt;\n&lt;tr class=\&quot;tc-edit-field\&quot;&gt;\n&lt;td class=\&quot;tc-edit-field-name\&quot;&gt;\n&lt;$text text=&lt;&lt;currentField&gt;&gt;/&gt;:&lt;/td&gt;\n&lt;td class=\&quot;tc-edit-field-value\&quot;&gt;\n&lt;$edit-text tiddler=&lt;&lt;currentTiddler&gt;&gt; field=&lt;&lt;currentField&gt;&gt; placeholder={{$:/language/EditTemplate/Fields/Add/Value/Placeholder}}/&gt;\n&lt;/td&gt;\n&lt;td class=\&quot;tc-edit-field-remove\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible\&quot; tooltip={{$:/language/EditTemplate/Field/Remove/Hint}} aria-label={{$:/language/EditTemplate/Field/Remove/Caption}}&gt;\n&lt;$action-deletefield $field=&lt;&lt;currentField&gt;&gt;/&gt;\n{{$:/core/images/delete-button}}\n&lt;/$button&gt;\n&lt;/td&gt;\n&lt;/tr&gt;\n&lt;/$list&gt;\n&lt;/$list&gt;\n&lt;/tbody&gt;\n&lt;/table&gt;\n&lt;/div&gt;\n\n&lt;$fieldmangler&gt;\n&lt;div class=\&quot;tc-edit-field-add\&quot;&gt;\n&lt;em class=\&quot;tc-edit\&quot;&gt;\n&lt;&lt;lingo Fields/Add/Prompt&gt;&gt;\n&lt;/em&gt;\n&lt;span class=\&quot;tc-edit-field-add-name\&quot;&gt;\n&lt;$edit-text tiddler=\&quot;$:/temp/newfieldname\&quot; tag=\&quot;input\&quot; default=\&quot;\&quot; placeholder={{$:/language/EditTemplate/Fields/Add/Name/Placeholder}} focusPopup=&lt;&lt;qualify \&quot;$:/state/popup/field-dropdown\&quot;&gt;&gt; class=\&quot;tc-edit-texteditor tc-popup-handle\&quot;/&gt;\n&lt;/span&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/field-dropdown\&quot;&gt;&gt; class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; tooltip={{$:/language/EditTemplate/Field/Dropdown/Hint}} aria-label={{$:/language/EditTemplate/Field/Dropdown/Caption}}&gt;{{$:/core/images/down-arrow}}&lt;/$button&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/field-dropdown\&quot;&gt;&gt; type=\&quot;nomatch\&quot; text=\&quot;\&quot; default=\&quot;\&quot;&gt;\n&lt;div class=\&quot;tc-block-dropdown tc-edit-type-dropdown\&quot;&gt;\n&lt;$linkcatcher to=\&quot;$:/temp/newfieldname\&quot;&gt;\n&lt;div class=\&quot;tc-dropdown-item\&quot;&gt;\n&lt;&lt;lingo Fields/Add/Dropdown/User&gt;&gt;\n&lt;/div&gt;\n&lt;$list filter=\&quot;[!is[shadow]!is[system]fields[]sort[]] -created -creator -draft.of -draft.title -modified -modifier -tags -text -title -type\&quot;  variable=\&quot;currentField\&quot;&gt;\n&lt;$link to=&lt;&lt;currentField&gt;&gt;&gt;\n&lt;&lt;currentField&gt;&gt;\n&lt;/$link&gt;\n&lt;/$list&gt;\n&lt;div class=\&quot;tc-dropdown-item\&quot;&gt;\n&lt;&lt;lingo Fields/Add/Dropdown/System&gt;&gt;\n&lt;/div&gt;\n&lt;$list filter=\&quot;[fields[]sort[]] -[!is[shadow]!is[system]fields[]]\&quot; variable=\&quot;currentField\&quot;&gt;\n&lt;$link to=&lt;&lt;currentField&gt;&gt;&gt;\n&lt;&lt;currentField&gt;&gt;\n&lt;/$link&gt;\n&lt;/$list&gt;\n&lt;/$linkcatcher&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&lt;span class=\&quot;tc-edit-field-add-value\&quot;&gt;\n&lt;$edit-text tiddler=\&quot;$:/temp/newfieldvalue\&quot; tag=\&quot;input\&quot; default=\&quot;\&quot; placeholder={{$:/language/EditTemplate/Fields/Add/Value/Placeholder}} class=\&quot;tc-edit-texteditor\&quot;/&gt;\n&lt;/span&gt;\n&lt;span class=\&quot;tc-edit-field-add-button\&quot;&gt;\n&lt;$macrocall $name=\&quot;new-field\&quot;/&gt;\n&lt;/span&gt;\n&lt;/div&gt;\n&lt;/$fieldmangler&gt;\n\n&quot;
        },
        &quot;$:/core/ui/EditTemplate/shadow&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/EditTemplate/shadow&quot;,
            &quot;tags&quot;: &quot;$:/tags/EditTemplate&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/EditTemplate/Shadow/\n\\define pluginLinkBody()\n&lt;$link to=\&quot;\&quot;\&quot;$(pluginTitle)$\&quot;\&quot;\&quot;&gt;\n&lt;$text text=\&quot;\&quot;\&quot;$(pluginTitle)$\&quot;\&quot;\&quot;/&gt;\n&lt;/$link&gt;\n\\end\n&lt;$list filter=\&quot;[all[current]get[draft.of]is[shadow]!is[tiddler]]\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[current]shadowsource[]]\&quot; variable=\&quot;pluginTitle\&quot;&gt;\n\n&lt;$set name=\&quot;pluginLink\&quot; value=&lt;&lt;pluginLinkBody&gt;&gt;&gt;\n&lt;div class=\&quot;tc-message-box\&quot;&gt;\n\n&lt;&lt;lingo Warning&gt;&gt;\n\n&lt;/div&gt;\n&lt;/$set&gt;\n&lt;/$list&gt;\n\n&lt;/$list&gt;\n\n&lt;$list filter=\&quot;[all[current]get[draft.of]is[shadow]is[tiddler]]\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[current]shadowsource[]]\&quot; variable=\&quot;pluginTitle\&quot;&gt;\n\n&lt;$set name=\&quot;pluginLink\&quot; value=&lt;&lt;pluginLinkBody&gt;&gt;&gt;\n&lt;div class=\&quot;tc-message-box\&quot;&gt;\n\n&lt;&lt;lingo OverriddenWarning&gt;&gt;\n\n&lt;/div&gt;\n&lt;/$set&gt;\n&lt;/$list&gt;\n\n&lt;/$list&gt;&quot;
        },
        &quot;$:/core/ui/EditTemplate/tags&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/EditTemplate/tags&quot;,
            &quot;tags&quot;: &quot;$:/tags/EditTemplate&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/EditTemplate/\n\\define tag-styles()\nbackground-color:$(backgroundColor)$;\n\\end\n&lt;div class=\&quot;tc-edit-tags\&quot;&gt;\n&lt;$fieldmangler&gt;\n&lt;$list filter=\&quot;[all[current]tags[]sort[title]]\&quot; storyview=\&quot;pop\&quot;&gt;&lt;$set name=\&quot;backgroundColor\&quot; value={{!!color}}&gt;&lt;span style=&lt;&lt;tag-styles&gt;&gt; class=\&quot;tc-tag-label\&quot;&gt;\n&lt;$view field=\&quot;title\&quot; format=\&quot;text\&quot; /&gt;\n&lt;$button message=\&quot;tm-remove-tag\&quot; param={{!!title}} class=\&quot;tc-btn-invisible tc-remove-tag-button\&quot;&gt;&amp;times;&lt;/$button&gt;&lt;/span&gt;\n&lt;/$set&gt;\n&lt;/$list&gt;\n\n&lt;div class=\&quot;tc-edit-add-tag\&quot;&gt;\n&lt;span class=\&quot;tc-add-tag-name\&quot;&gt;\n&lt;$edit-text tiddler=\&quot;$:/temp/NewTagName\&quot; tag=\&quot;input\&quot; default=\&quot;\&quot; placeholder={{$:/language/EditTemplate/Tags/Add/Placeholder}} focusPopup=&lt;&lt;qualify \&quot;$:/state/popup/tags-auto-complete\&quot;&gt;&gt; class=\&quot;tc-edit-texteditor tc-popup-handle\&quot;/&gt;\n&lt;/span&gt; &lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/tags-auto-complete\&quot;&gt;&gt; class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; tooltip={{$:/language/EditTemplate/Tags/Dropdown/Hint}} aria-label={{$:/language/EditTemplate/Tags/Dropdown/Caption}}&gt;{{$:/core/images/down-arrow}}&lt;/$button&gt; &lt;span class=\&quot;tc-add-tag-button\&quot;&gt;\n&lt;$button message=\&quot;tm-add-tag\&quot; param={{$:/temp/NewTagName}} set=\&quot;$:/temp/NewTagName\&quot; setTo=\&quot;\&quot; class=\&quot;\&quot;&gt;\n&lt;&lt;lingo Tags/Add/Button&gt;&gt;\n&lt;/$button&gt;\n&lt;/span&gt;\n&lt;/div&gt;\n\n&lt;div class=\&quot;tc-block-dropdown-wrapper\&quot;&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/tags-auto-complete\&quot;&gt;&gt; type=\&quot;nomatch\&quot; text=\&quot;\&quot; default=\&quot;\&quot;&gt;\n&lt;div class=\&quot;tc-block-dropdown\&quot;&gt;\n&lt;$linkcatcher set=\&quot;$:/temp/NewTagName\&quot; setTo=\&quot;\&quot; message=\&quot;tm-add-tag\&quot;&gt;\n&lt;$list filter=\&quot;[tags[]!is[system]search:title{$:/temp/NewTagName}sort[]]\&quot;&gt;\n{{||$:/core/ui/Components/tag-link}}\n&lt;/$list&gt;\n&lt;hr&gt;\n&lt;$list filter=\&quot;[tags[]is[system]search:title{$:/temp/NewTagName}sort[]]\&quot;&gt;\n{{||$:/core/ui/Components/tag-link}}\n&lt;/$list&gt;\n&lt;/$linkcatcher&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n&lt;/$fieldmangler&gt;\n&lt;/div&gt;&quot;
        },
        &quot;$:/core/ui/EditTemplate/title&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/EditTemplate/title&quot;,
            &quot;tags&quot;: &quot;$:/tags/EditTemplate&quot;,
            &quot;text&quot;: &quot;&lt;$edit-text field=\&quot;draft.title\&quot; class=\&quot;tc-titlebar tc-edit-texteditor\&quot; focus=\&quot;true\&quot;/&gt;&quot;
        },
        &quot;$:/core/ui/EditTemplate/type&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/EditTemplate/type&quot;,
            &quot;tags&quot;: &quot;$:/tags/EditTemplate&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/EditTemplate/\n&lt;div class=\&quot;tc-type-selector\&quot;&gt;&lt;$fieldmangler&gt;\n&lt;em class=\&quot;tc-edit\&quot;&gt;&lt;&lt;lingo Type/Prompt&gt;&gt;&lt;/em&gt; &lt;$edit-text field=\&quot;type\&quot; tag=\&quot;input\&quot; default=\&quot;\&quot; placeholder={{$:/language/EditTemplate/Type/Placeholder}} focusPopup=&lt;&lt;qualify \&quot;$:/state/popup/type-dropdown\&quot;&gt;&gt; class=\&quot;tc-edit-typeeditor tc-popup-handle\&quot;/&gt; &lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/type-dropdown\&quot;&gt;&gt; class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; tooltip={{$:/language/EditTemplate/Type/Dropdown/Hint}} aria-label={{$:/language/EditTemplate/Type/Dropdown/Caption}}&gt;{{$:/core/images/down-arrow}}&lt;/$button&gt; &lt;$button message=\&quot;tm-remove-field\&quot; param=\&quot;type\&quot; class=\&quot;tc-btn-invisible tc-btn-icon\&quot; tooltip={{$:/language/EditTemplate/Type/Delete/Hint}} aria-label={{$:/language/EditTemplate/Type/Delete/Caption}}&gt;{{$:/core/images/delete-button}}&lt;/$button&gt;\n&lt;/$fieldmangler&gt;&lt;/div&gt;\n\n&lt;div class=\&quot;tc-block-dropdown-wrapper\&quot;&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/type-dropdown\&quot;&gt;&gt; type=\&quot;nomatch\&quot; text=\&quot;\&quot; default=\&quot;\&quot;&gt;\n&lt;div class=\&quot;tc-block-dropdown tc-edit-type-dropdown\&quot;&gt;\n&lt;$linkcatcher to=\&quot;!!type\&quot;&gt;\n&lt;$list filter='[all[shadows+tiddlers]prefix[$:/language/Docs/Types/]each[group]sort[group]]'&gt;\n&lt;div class=\&quot;tc-dropdown-item\&quot;&gt;\n&lt;$text text={{!!group}}/&gt;\n&lt;/div&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]prefix[$:/language/Docs/Types/]group{!!group}] +[sort[description]]\&quot;&gt;&lt;$link to={{!!name}}&gt;&lt;$view field=\&quot;description\&quot;/&gt; (&lt;$view field=\&quot;name\&quot;/&gt;)&lt;/$link&gt;\n&lt;/$list&gt;\n&lt;/$list&gt;\n&lt;/$linkcatcher&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;&quot;
        },
        &quot;$:/core/ui/EditTemplate&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/EditTemplate&quot;,
            &quot;text&quot;: &quot;\\define frame-classes()\ntc-tiddler-frame tc-tiddler-edit-frame $(missingTiddlerClass)$ $(shadowTiddlerClass)$ $(systemTiddlerClass)$\n\\end\n&lt;div class=&lt;&lt;frame-classes&gt;&gt;&gt;\n&lt;$set name=\&quot;storyTiddler\&quot; value=&lt;&lt;currentTiddler&gt;&gt;&gt;\n&lt;$keyboard key={{$:/config/shortcuts/cancel-edit-tiddler}} message=\&quot;tm-cancel-tiddler\&quot;&gt;\n&lt;$keyboard key={{$:/config/shortcuts/save-tiddler}} message=\&quot;tm-save-tiddler\&quot;&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/EditTemplate]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt;/&gt;\n&lt;/$list&gt;\n&lt;/$keyboard&gt;\n&lt;/$keyboard&gt;\n&lt;/$set&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/Buttons/cancel&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/cancel&quot;,
            &quot;tags&quot;: &quot;$:/tags/EditToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/cancel-button}} {{$:/language/Buttons/Cancel/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Cancel/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-cancel-tiddler\&quot; tooltip={{$:/language/Buttons/Cancel/Hint}} aria-label={{$:/language/Buttons/Cancel/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/cancel-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Cancel/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/delete&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/delete&quot;,
            &quot;tags&quot;: &quot;$:/tags/EditToolbar $:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/delete-button}} {{$:/language/Buttons/Delete/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Delete/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-delete-tiddler\&quot; tooltip={{$:/language/Buttons/Delete/Hint}} aria-label={{$:/language/Buttons/Delete/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/delete-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Delete/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/save&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/save&quot;,
            &quot;tags&quot;: &quot;$:/tags/EditToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/done-button}} {{$:/language/Buttons/Save/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Save/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$fieldmangler&gt;\n&lt;$button tooltip={{$:/language/Buttons/Save/Hint}} aria-label={{$:/language/Buttons/Save/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-add-tag\&quot; $param={{$:/temp/NewTagName}}/&gt;\n&lt;$action-deletetiddler $tiddler=\&quot;$:/temp/NewTagName\&quot;/&gt;\n&lt;$action-sendmessage $message=\&quot;tm-add-field\&quot; $name={{$:/temp/newfieldname}} $value={{$:/temp/newfieldvalue}}/&gt;\n&lt;$action-deletetiddler $tiddler=\&quot;$:/temp/newfieldname\&quot;/&gt;\n&lt;$action-deletetiddler $tiddler=\&quot;$:/temp/newfieldvalue\&quot;/&gt;\n&lt;$action-sendmessage $message=\&quot;tm-save-tiddler\&quot;/&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/done-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Save/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n&lt;/$fieldmangler&gt;\n&quot;
        },
        &quot;$:/core/Filters/AllTags&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/AllTags&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[tags[]!is[system]sort[title]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/AllTags}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/AllTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/AllTiddlers&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[!is[system]sort[title]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/AllTiddlers}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/Drafts&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/Drafts&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[has[draft.of]sort[title]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/Drafts}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/Missing&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/Missing&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[all[missing]sort[title]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/Missing}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/Orphans&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/Orphans&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[all[orphans]sort[title]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/Orphans}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/OverriddenShadowTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/OverriddenShadowTiddlers&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[is[shadow]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/OverriddenShadowTiddlers}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/RecentSystemTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/RecentSystemTiddlers&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[has[modified]!sort[modified]limit[50]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/RecentSystemTiddlers}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/RecentTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/RecentTiddlers&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[!is[system]has[modified]!sort[modified]limit[50]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/RecentTiddlers}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/ShadowTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/ShadowTiddlers&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[all[shadows]sort[title]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/ShadowTiddlers}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/SystemTags&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/SystemTags&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[all[shadows+tiddlers]tags[]is[system]sort[title]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/SystemTags}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/SystemTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/SystemTiddlers&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[is[system]sort[title]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/SystemTiddlers}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/Filters/TypedTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/core/Filters/TypedTiddlers&quot;,
            &quot;tags&quot;: &quot;$:/tags/Filter&quot;,
            &quot;filter&quot;: &quot;[!is[system]has[type]each[type]sort[type]] -[type[text/vnd.tiddlywiki]]&quot;,
            &quot;description&quot;: &quot;{{$:/language/Filters/TypedTiddlers}}&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/core/ui/ImportListing&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ImportListing&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/Import/\n\\define messageField()\nmessage-$(payloadTiddler)$\n\\end\n\\define selectionField()\nselection-$(payloadTiddler)$\n\\end\n\\define previewPopupState()\n$(currentTiddler)$!!popup-$(payloadTiddler)$\n\\end\n&lt;table&gt;\n&lt;tbody&gt;\n&lt;tr&gt;\n&lt;th&gt;\n&lt;&lt;lingo Listing/Select/Caption&gt;&gt;\n&lt;/th&gt;\n&lt;th&gt;\n&lt;&lt;lingo Listing/Title/Caption&gt;&gt;\n&lt;/th&gt;\n&lt;th&gt;\n&lt;&lt;lingo Listing/Status/Caption&gt;&gt;\n&lt;/th&gt;\n&lt;/tr&gt;\n&lt;$list filter=\&quot;[all[current]plugintiddlers[]sort[title]]\&quot; variable=\&quot;payloadTiddler\&quot;&gt;\n&lt;tr&gt;\n&lt;td&gt;\n&lt;$checkbox field=&lt;&lt;selectionField&gt;&gt; checked=\&quot;checked\&quot; unchecked=\&quot;unchecked\&quot; default=\&quot;checked\&quot;/&gt;\n&lt;/td&gt;\n&lt;td&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;previewPopupState&gt;&gt; text=\&quot;yes\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; set=&lt;&lt;previewPopupState&gt;&gt; setTo=\&quot;yes\&quot;&gt;\n{{$:/core/images/right-arrow}}&amp;nbsp;&lt;$text text=&lt;&lt;payloadTiddler&gt;&gt;/&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;previewPopupState&gt;&gt; text=\&quot;yes\&quot;&gt;\n&lt;$button class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; set=&lt;&lt;previewPopupState&gt;&gt; setTo=\&quot;no\&quot;&gt;\n{{$:/core/images/down-arrow}}&amp;nbsp;&lt;$text text=&lt;&lt;payloadTiddler&gt;&gt;/&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/td&gt;\n&lt;td&gt;\n&lt;$view field=&lt;&lt;messageField&gt;&gt;/&gt;\n&lt;/td&gt;\n&lt;/tr&gt;\n&lt;tr&gt;\n&lt;td colspan=\&quot;3\&quot;&gt;\n&lt;$reveal type=\&quot;match\&quot; text=\&quot;yes\&quot; state=&lt;&lt;previewPopupState&gt;&gt;&gt;\n&lt;$transclude subtiddler=&lt;&lt;payloadTiddler&gt;&gt; mode=\&quot;block\&quot;/&gt;\n&lt;/$reveal&gt;\n&lt;/td&gt;\n&lt;/tr&gt;\n&lt;/$list&gt;\n&lt;/tbody&gt;\n&lt;/table&gt;\n&quot;
        },
        &quot;$:/core/ui/ListItemTemplate&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ListItemTemplate&quot;,
            &quot;text&quot;: &quot;&lt;div class=\&quot;tc-menu-list-item\&quot;&gt;\n&lt;$link to={{!!title}}&gt;\n&lt;$view field=\&quot;title\&quot;/&gt;\n&lt;/$link&gt;\n&lt;/div&gt;&quot;
        },
        &quot;$:/core/ui/MissingTemplate&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/MissingTemplate&quot;,
            &quot;text&quot;: &quot;&lt;div class=\&quot;tc-tiddler-missing\&quot;&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/missing\&quot;&gt;&gt; class=\&quot;tc-btn-invisible tc-missing-tiddler-label\&quot;&gt;\n&lt;$view field=\&quot;title\&quot; format=\&quot;text\&quot; /&gt;\n&lt;/$button&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/missing\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;below\&quot; animate=\&quot;yes\&quot;&gt;\n&lt;div class=\&quot;tc-drop-down\&quot;&gt;\n&lt;$transclude tiddler=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&lt;hr&gt;\n&lt;$list filter=\&quot;[all[current]backlinks[]sort[title]]\&quot; template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/MoreSideBar/All&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/MoreSideBar/All&quot;,
            &quot;tags&quot;: &quot;$:/tags/MoreSideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/All/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$list filter={{$:/core/Filters/AllTiddlers!!filter}} template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&quot;
        },
        &quot;$:/core/ui/MoreSideBar/Drafts&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/MoreSideBar/Drafts&quot;,
            &quot;tags&quot;: &quot;$:/tags/MoreSideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/Drafts/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$list filter={{$:/core/Filters/Drafts!!filter}} template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&quot;
        },
        &quot;$:/core/ui/MoreSideBar/Missing&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/MoreSideBar/Missing&quot;,
            &quot;tags&quot;: &quot;$:/tags/MoreSideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/Missing/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$list filter={{$:/core/Filters/Missing!!filter}} template=\&quot;$:/core/ui/MissingTemplate\&quot;/&gt;\n&quot;
        },
        &quot;$:/core/ui/MoreSideBar/Orphans&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/MoreSideBar/Orphans&quot;,
            &quot;tags&quot;: &quot;$:/tags/MoreSideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/Orphans/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$list filter={{$:/core/Filters/Orphans!!filter}} template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&quot;
        },
        &quot;$:/core/ui/MoreSideBar/Recent&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/MoreSideBar/Recent&quot;,
            &quot;tags&quot;: &quot;$:/tags/MoreSideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/Recent/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$macrocall $name=\&quot;timeline\&quot; format={{$:/language/RecentChanges/DateFormat}}/&gt;\n&quot;
        },
        &quot;$:/core/ui/MoreSideBar/Shadows&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/MoreSideBar/Shadows&quot;,
            &quot;tags&quot;: &quot;$:/tags/MoreSideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/Shadows/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$list filter={{$:/core/Filters/ShadowTiddlers!!filter}} template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&quot;
        },
        &quot;$:/core/ui/MoreSideBar/System&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/MoreSideBar/System&quot;,
            &quot;tags&quot;: &quot;$:/tags/MoreSideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/System/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$list filter={{$:/core/Filters/SystemTiddlers!!filter}} template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&quot;
        },
        &quot;$:/core/ui/MoreSideBar/Tags&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/MoreSideBar/Tags&quot;,
            &quot;tags&quot;: &quot;$:/tags/MoreSideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/Tags/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$set name=\&quot;tv-config-toolbar-icons\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-text\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-class\&quot; value=\&quot;\&quot;&gt;\n\n{{$:/core/ui/Buttons/tag-manager}}\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;$list filter={{$:/core/Filters/AllTags!!filter}}&gt;\n\n&lt;$transclude tiddler=\&quot;$:/core/ui/TagTemplate\&quot;/&gt;\n\n&lt;/$list&gt;\n\n&lt;hr class=\&quot;tc-untagged-separator\&quot;&gt;\n\n{{$:/core/ui/UntaggedTemplate}}\n&quot;
        },
        &quot;$:/core/ui/MoreSideBar/Types&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/MoreSideBar/Types&quot;,
            &quot;tags&quot;: &quot;$:/tags/MoreSideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/Types/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$list filter={{$:/core/Filters/TypedTiddlers!!filter}}&gt;\n&lt;div class=\&quot;tc-menu-list-item\&quot;&gt;\n&lt;$view field=\&quot;type\&quot;/&gt;\n&lt;$list filter=\&quot;[type{!!type}!is[system]sort[title]]\&quot;&gt;\n&lt;div class=\&quot;tc-menu-list-subitem\&quot;&gt;\n&lt;$link to={{!!title}}&gt;&lt;$view field=\&quot;title\&quot;/&gt;&lt;/$link&gt;\n&lt;/div&gt;\n&lt;/$list&gt;\n&lt;/div&gt;\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/Buttons/advanced-search&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/advanced-search&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/advanced-search-button}} {{$:/language/Buttons/AdvancedSearch/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/AdvancedSearch/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define control-panel-button(class)\n&lt;$button to=\&quot;$:/AdvancedSearch\&quot; tooltip={{$:/language/Buttons/AdvancedSearch/Hint}} aria-label={{$:/language/Buttons/AdvancedSearch/Caption}} class=\&quot;\&quot;\&quot;$(tv-config-toolbar-class)$ $class$\&quot;\&quot;\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/advanced-search-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/AdvancedSearch/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n\\end\n\n&lt;$list filter=\&quot;[list[$:/StoryList]] +[field:title[$:/AdvancedSearch]]\&quot; emptyMessage=&lt;&lt;control-panel-button&gt;&gt;&gt;\n&lt;&lt;control-panel-button \&quot;tc-selected\&quot;&gt;&gt;\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/Buttons/close-all&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/close-all&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/close-all-button}} {{$:/language/Buttons/CloseAll/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/CloseAll/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-close-all-tiddlers\&quot; tooltip={{$:/language/Buttons/CloseAll/Hint}} aria-label={{$:/language/Buttons/CloseAll/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/close-all-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/CloseAll/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/control-panel&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/control-panel&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/options-button}} {{$:/language/Buttons/ControlPanel/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/ControlPanel/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define control-panel-button(class)\n&lt;$button to=\&quot;$:/ControlPanel\&quot; tooltip={{$:/language/Buttons/ControlPanel/Hint}} aria-label={{$:/language/Buttons/ControlPanel/Caption}} class=\&quot;\&quot;\&quot;$(tv-config-toolbar-class)$ $class$\&quot;\&quot;\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/options-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/ControlPanel/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n\\end\n\n&lt;$list filter=\&quot;[list[$:/StoryList]] +[field:title[$:/ControlPanel]]\&quot; emptyMessage=&lt;&lt;control-panel-button&gt;&gt;&gt;\n&lt;&lt;control-panel-button \&quot;tc-selected\&quot;&gt;&gt;\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/Buttons/encryption&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/encryption&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/locked-padlock}} {{$:/language/Buttons/Encryption/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Encryption/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$reveal type=\&quot;match\&quot; state=\&quot;$:/isEncrypted\&quot; text=\&quot;yes\&quot;&gt;\n&lt;$button message=\&quot;tm-clear-password\&quot; tooltip={{$:/language/Buttons/Encryption/ClearPassword/Hint}} aria-label={{$:/language/Buttons/Encryption/ClearPassword/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/locked-padlock}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Encryption/ClearPassword/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;$:/isEncrypted\&quot; text=\&quot;yes\&quot;&gt;\n&lt;$button message=\&quot;tm-set-password\&quot; tooltip={{$:/language/Buttons/Encryption/SetPassword/Hint}} aria-label={{$:/language/Buttons/Encryption/SetPassword/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/unlocked-padlock}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Encryption/SetPassword/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/export-page&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/export-page&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/export-button}} {{$:/language/Buttons/ExportPage/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/ExportPage/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$macrocall $name=\&quot;exportButton\&quot; exportFilter=\&quot;[!is[system]sort[title]]\&quot; lingoBase=\&quot;$:/language/Buttons/ExportPage/\&quot;/&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/fold-all&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/fold-all&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/fold-all-button}} {{$:/language/Buttons/FoldAll/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/FoldAll/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button tooltip={{$:/language/Buttons/FoldAll/Hint}} aria-label={{$:/language/Buttons/FoldAll/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-fold-all-tiddlers\&quot; $param=&lt;&lt;currentTiddler&gt;&gt; foldedStatePrefix=\&quot;$:/state/folded/\&quot;/&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot; variable=\&quot;listItem\&quot;&gt;\n{{$:/core/images/fold-all-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/FoldAll/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/full-screen&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/full-screen&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/full-screen-button}} {{$:/language/Buttons/FullScreen/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/FullScreen/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-full-screen\&quot; tooltip={{$:/language/Buttons/FullScreen/Hint}} aria-label={{$:/language/Buttons/FullScreen/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/full-screen-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/FullScreen/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/home&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/home&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/home-button}} {{$:/language/Buttons/Home/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Home/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-home\&quot; tooltip={{$:/language/Buttons/Home/Hint}} aria-label={{$:/language/Buttons/Home/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/home-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Home/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/import&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/import&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/import-button}} {{$:/language/Buttons/Import/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Import/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;div class=\&quot;tc-file-input-wrapper\&quot;&gt;\n&lt;$button tooltip={{$:/language/Buttons/Import/Hint}} aria-label={{$:/language/Buttons/Import/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/import-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Import/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n&lt;$browse tooltip={{$:/language/Buttons/Import/Hint}}/&gt;\n&lt;/div&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/language&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/language&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/globe}} {{$:/language/Buttons/Language/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Language/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define flag-title()\n$(languagePluginTitle)$/icon\n\\end\n&lt;span class=\&quot;tc-popup-keep\&quot;&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/language\&quot;&gt;&gt; tooltip={{$:/language/Buttons/Language/Hint}} aria-label={{$:/language/Buttons/Language/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt; selectedClass=\&quot;tc-selected\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-image-button\&quot;&gt;\n&lt;$set name=\&quot;languagePluginTitle\&quot; value={{$:/language}}&gt;\n&lt;$image source=&lt;&lt;flag-title&gt;&gt;/&gt;\n&lt;/$set&gt;\n&lt;/span&gt;\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Language/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n&lt;/span&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/language\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;below\&quot; animate=\&quot;yes\&quot;&gt;\n&lt;div class=\&quot;tc-drop-down tc-drop-down-language-chooser\&quot;&gt;\n&lt;$linkcatcher to=\&quot;$:/language\&quot;&gt;\n&lt;$list filter=\&quot;[[$:/languages/en-GB]] [plugin-type[language]sort[description]]\&quot;&gt;\n&lt;$link&gt;\n&lt;span class=\&quot;tc-drop-down-bullet\&quot;&gt;\n&lt;$reveal type=\&quot;match\&quot; state=\&quot;$:/language\&quot; text=&lt;&lt;currentTiddler&gt;&gt;&gt;\n&amp;bull;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;$:/language\&quot; text=&lt;&lt;currentTiddler&gt;&gt;&gt;\n&amp;nbsp;\n&lt;/$reveal&gt;\n&lt;/span&gt;\n&lt;span class=\&quot;tc-image-button\&quot;&gt;\n&lt;$set name=\&quot;languagePluginTitle\&quot; value=&lt;&lt;currentTiddler&gt;&gt;&gt;\n&lt;$transclude subtiddler=&lt;&lt;flag-title&gt;&gt;&gt;\n&lt;$list filter=\&quot;[all[current]field:title[$:/languages/en-GB]]\&quot;&gt;\n&lt;$transclude tiddler=\&quot;$:/languages/en-GB/icon\&quot;/&gt;\n&lt;/$list&gt;\n&lt;/$transclude&gt;\n&lt;/$set&gt;\n&lt;/span&gt;\n&lt;$view field=\&quot;description\&quot;&gt;\n&lt;$view field=\&quot;name\&quot;&gt;\n&lt;$view field=\&quot;title\&quot;/&gt;\n&lt;/$view&gt;\n&lt;/$view&gt;\n&lt;/$link&gt;\n&lt;/$list&gt;\n&lt;/$linkcatcher&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/more-page-actions&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/more-page-actions&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/down-arrow}} {{$:/language/Buttons/More/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/More/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define config-title()\n$:/config/PageControlButtons/Visibility/$(listItem)$\n\\end\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/more\&quot;&gt;&gt; tooltip={{$:/language/Buttons/More/Hint}} aria-label={{$:/language/Buttons/More/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt; selectedClass=\&quot;tc-selected\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/down-arrow}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/More/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/more\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;below\&quot; animate=\&quot;yes\&quot;&gt;\n\n&lt;div class=\&quot;tc-drop-down\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-icons\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-text\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-class\&quot; value=\&quot;tc-btn-invisible\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/PageControls]!has[draft.of]] -[[$:/core/ui/Buttons/more-page-actions]]\&quot; variable=\&quot;listItem\&quot;&gt;\n\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;config-title&gt;&gt; text=\&quot;hide\&quot;&gt;\n\n&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; mode=\&quot;inline\&quot;/&gt;\n\n&lt;/$reveal&gt;\n\n&lt;/$list&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/div&gt;\n\n&lt;/$reveal&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/new-journal&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/new-journal&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/new-journal-button}} {{$:/language/Buttons/NewJournal/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/NewJournal/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define journalButton()\n&lt;$button tooltip={{$:/language/Buttons/NewJournal/Hint}} aria-label={{$:/language/Buttons/NewJournal/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-new-tiddler\&quot; title=&lt;&lt;now \&quot;$(journalTitleTemplate)$\&quot;&gt;&gt; tags=\&quot;$(journalTags)$\&quot;/&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/new-journal-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/NewJournal/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n\\end\n&lt;$set name=\&quot;journalTitleTemplate\&quot; value={{$:/config/NewJournal/Title}}&gt;\n&lt;$set name=\&quot;journalTags\&quot; value={{$:/config/NewJournal/Tags}}&gt;\n&lt;&lt;journalButton&gt;&gt;\n&lt;/$set&gt;&lt;/$set&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/new-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/new-tiddler&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/new-button}} {{$:/language/Buttons/NewTiddler/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/NewTiddler/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-new-tiddler\&quot; tooltip={{$:/language/Buttons/NewTiddler/Hint}} aria-label={{$:/language/Buttons/NewTiddler/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/new-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/NewTiddler/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/palette&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/palette&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/palette}} {{$:/language/Buttons/Palette/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Palette/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;span class=\&quot;tc-popup-keep\&quot;&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/palette\&quot;&gt;&gt; tooltip={{$:/language/Buttons/Palette/Hint}} aria-label={{$:/language/Buttons/Palette/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt; selectedClass=\&quot;tc-selected\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/palette}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Palette/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n&lt;/span&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/palette\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;below\&quot; animate=\&quot;yes\&quot;&gt;\n&lt;div class=\&quot;tc-drop-down\&quot; style=\&quot;font-size:0.7em;\&quot;&gt;\n{{$:/snippets/paletteswitcher}}\n&lt;/div&gt;\n&lt;/$reveal&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/refresh&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/refresh&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/refresh-button}} {{$:/language/Buttons/Refresh/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Refresh/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-browser-refresh\&quot; tooltip={{$:/language/Buttons/Refresh/Hint}} aria-label={{$:/language/Buttons/Refresh/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/refresh-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Refresh/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/save-wiki&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/save-wiki&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/save-button}} {{$:/language/Buttons/SaveWiki/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/SaveWiki/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-save-wiki\&quot; param={{$:/config/SaveWikiButton/Template}} tooltip={{$:/language/Buttons/SaveWiki/Hint}} aria-label={{$:/language/Buttons/SaveWiki/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;span class=\&quot;tc-dirty-indicator\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/save-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/SaveWiki/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/span&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/storyview&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/storyview&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/storyview-classic}} {{$:/language/Buttons/StoryView/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/StoryView/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define icon()\n$:/core/images/storyview-$(storyview)$\n\\end\n&lt;span class=\&quot;tc-popup-keep\&quot;&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/storyview\&quot;&gt;&gt; tooltip={{$:/language/Buttons/StoryView/Hint}} aria-label={{$:/language/Buttons/StoryView/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt; selectedClass=\&quot;tc-selected\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n&lt;$set name=\&quot;storyview\&quot; value={{$:/view}}&gt;\n&lt;$transclude tiddler=&lt;&lt;icon&gt;&gt;/&gt;\n&lt;/$set&gt;\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/StoryView/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n&lt;/span&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/storyview\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;below\&quot; animate=\&quot;yes\&quot;&gt;\n&lt;div class=\&quot;tc-drop-down\&quot;&gt;\n&lt;$linkcatcher to=\&quot;$:/view\&quot;&gt;\n&lt;$list filter=\&quot;[storyviews[]]\&quot; variable=\&quot;storyview\&quot;&gt;\n&lt;$link to=&lt;&lt;storyview&gt;&gt;&gt;\n&lt;span class=\&quot;tc-drop-down-bullet\&quot;&gt;\n&lt;$reveal type=\&quot;match\&quot; state=\&quot;$:/view\&quot; text=&lt;&lt;storyview&gt;&gt;&gt;\n&amp;bull;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;$:/view\&quot; text=&lt;&lt;storyview&gt;&gt;&gt;\n&amp;nbsp;\n&lt;/$reveal&gt;\n&lt;/span&gt;\n&lt;$transclude tiddler=&lt;&lt;icon&gt;&gt;/&gt;\n&lt;$text text=&lt;&lt;storyview&gt;&gt;/&gt;&lt;/$link&gt;\n&lt;/$list&gt;\n&lt;/$linkcatcher&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/tag-manager&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/tag-manager&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/tag-button}} {{$:/language/Buttons/TagManager/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/TagManager/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define control-panel-button(class)\n&lt;$button to=\&quot;$:/TagManager\&quot; tooltip={{$:/language/Buttons/TagManager/Hint}} aria-label={{$:/language/Buttons/TagManager/Caption}} class=\&quot;\&quot;\&quot;$(tv-config-toolbar-class)$ $class$\&quot;\&quot;\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/tag-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/TagManager/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n\\end\n\n&lt;$list filter=\&quot;[list[$:/StoryList]] +[field:title[$:/TagManager]]\&quot; emptyMessage=&lt;&lt;control-panel-button&gt;&gt;&gt;\n&lt;&lt;control-panel-button \&quot;tc-selected\&quot;&gt;&gt;\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/Buttons/theme&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/theme&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/theme-button}} {{$:/language/Buttons/Theme/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Theme/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;span class=\&quot;tc-popup-keep\&quot;&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/theme\&quot;&gt;&gt; tooltip={{$:/language/Buttons/Theme/Hint}} aria-label={{$:/language/Buttons/Theme/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt; selectedClass=\&quot;tc-selected\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/theme-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Theme/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n&lt;/span&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/theme\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;below\&quot; animate=\&quot;yes\&quot;&gt;\n&lt;div class=\&quot;tc-drop-down\&quot;&gt;\n&lt;$linkcatcher to=\&quot;$:/theme\&quot;&gt;\n&lt;$list filter=\&quot;[plugin-type[theme]sort[title]]\&quot; variable=\&quot;themeTitle\&quot;&gt;\n&lt;$link to=&lt;&lt;themeTitle&gt;&gt;&gt;\n&lt;span class=\&quot;tc-drop-down-bullet\&quot;&gt;\n&lt;$reveal type=\&quot;match\&quot; state=\&quot;$:/theme\&quot; text=&lt;&lt;themeTitle&gt;&gt;&gt;\n&amp;bull;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;$:/theme\&quot; text=&lt;&lt;themeTitle&gt;&gt;&gt;\n&amp;nbsp;\n&lt;/$reveal&gt;\n&lt;/span&gt;\n&lt;$view tiddler=&lt;&lt;themeTitle&gt;&gt; field=\&quot;name\&quot;/&gt;\n&lt;/$link&gt;\n&lt;/$list&gt;\n&lt;/$linkcatcher&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/unfold-all&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/unfold-all&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/unfold-all-button}} {{$:/language/Buttons/UnfoldAll/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/UnfoldAll/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button tooltip={{$:/language/Buttons/UnfoldAll/Hint}} aria-label={{$:/language/Buttons/UnfoldAll/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-unfold-all-tiddlers\&quot; $param=&lt;&lt;currentTiddler&gt;&gt; foldedStatePrefix=\&quot;$:/state/folded/\&quot;/&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot; variable=\&quot;listItem\&quot;&gt;\n{{$:/core/images/unfold-all-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/UnfoldAll/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/PageTemplate/pagecontrols&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/PageTemplate/pagecontrols&quot;,
            &quot;text&quot;: &quot;\\define config-title()\n$:/config/PageControlButtons/Visibility/$(listItem)$\n\\end\n&lt;div class=\&quot;tc-page-controls\&quot;&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/PageControls]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;config-title&gt;&gt; text=\&quot;hide\&quot;&gt;\n&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; mode=\&quot;inline\&quot;/&gt;\n&lt;/$reveal&gt;\n&lt;/$list&gt;\n&lt;/div&gt;\n\n&quot;
        },
        &quot;$:/core/ui/PageStylesheet&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/PageStylesheet&quot;,
            &quot;text&quot;: &quot;&lt;$importvariables filter=\&quot;[[$:/core/ui/PageMacros]] [all[shadows+tiddlers]tag[$:/tags/Macro]!has[draft.of]]\&quot;&gt;\n\n&lt;$set name=\&quot;currentTiddler\&quot; value={{$:/language}}&gt;\n\n&lt;$set name=\&quot;languageTitle\&quot; value={{!!name}}&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/Stylesheet]!has[draft.of]]\&quot;&gt;\n&lt;$transclude mode=\&quot;block\&quot;/&gt;\n&lt;/$list&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$importvariables&gt;\n&quot;
        },
        &quot;$:/core/ui/PageTemplate/alerts&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/PageTemplate/alerts&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageTemplate&quot;,
            &quot;text&quot;: &quot;&lt;div class=\&quot;tc-alerts\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/Alert]!has[draft.of]]\&quot; template=\&quot;$:/core/ui/AlertTemplate\&quot; storyview=\&quot;pop\&quot;/&gt;\n\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/PageTemplate/pluginreloadwarning&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/PageTemplate/pluginreloadwarning&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageTemplate&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/\n\n&lt;$list filter=\&quot;[has[plugin-type]haschanged[]!plugin-type[import]limit[1]]\&quot;&gt;\n\n&lt;$reveal type=\&quot;nomatch\&quot; state=\&quot;$:/temp/HidePluginWarning\&quot; text=\&quot;yes\&quot;&gt;\n\n&lt;div class=\&quot;tc-plugin-reload-warning\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-class\&quot; value=\&quot;\&quot;&gt;\n\n&lt;&lt;lingo PluginReloadWarning&gt;&gt; &lt;$button set=\&quot;$:/temp/HidePluginWarning\&quot; setTo=\&quot;yes\&quot; class=\&quot;tc-btn-invisible\&quot;&gt;{{$:/core/images/close-button}}&lt;/$button&gt;\n\n&lt;/$set&gt;\n\n&lt;/div&gt;\n\n&lt;/$reveal&gt;\n\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/PageTemplate/sidebar&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/PageTemplate/sidebar&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageTemplate&quot;,
            &quot;text&quot;: &quot;&lt;$scrollable fallthrough=\&quot;no\&quot; class=\&quot;tc-sidebar-scrollable\&quot;&gt;\n\n&lt;div class=\&quot;tc-sidebar-header\&quot;&gt;\n\n&lt;$reveal state=\&quot;$:/state/sidebar\&quot; type=\&quot;match\&quot; text=\&quot;yes\&quot; default=\&quot;yes\&quot; retain=\&quot;yes\&quot; animate=\&quot;yes\&quot;&gt;\n\n&lt;h1 class=\&quot;tc-site-title\&quot;&gt;\n\n&lt;$transclude tiddler=\&quot;$:/SiteTitle\&quot; mode=\&quot;inline\&quot;/&gt;\n\n&lt;/h1&gt;\n\n&lt;div class=\&quot;tc-site-subtitle\&quot;&gt;\n\n&lt;$transclude tiddler=\&quot;$:/SiteSubtitle\&quot; mode=\&quot;inline\&quot;/&gt;\n\n&lt;/div&gt;\n\n{{||$:/core/ui/PageTemplate/pagecontrols}}\n\n&lt;$transclude tiddler=\&quot;$:/core/ui/SideBarLists\&quot; mode=\&quot;inline\&quot;/&gt;\n\n&lt;/$reveal&gt;\n\n&lt;/div&gt;\n\n&lt;/$scrollable&gt;&quot;
        },
        &quot;$:/core/ui/PageTemplate/story&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/PageTemplate/story&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageTemplate&quot;,
            &quot;text&quot;: &quot;&lt;section class=\&quot;tc-story-river\&quot;&gt;\n\n&lt;section class=\&quot;story-backdrop\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/AboveStory]!has[draft.of]]\&quot;&gt;\n\n&lt;$transclude/&gt;\n\n&lt;/$list&gt;\n\n&lt;/section&gt;\n\n&lt;$list filter=\&quot;[list[$:/StoryList]]\&quot; history=\&quot;$:/HistoryList\&quot; template=\&quot;$:/core/ui/ViewTemplate\&quot; editTemplate=\&quot;$:/core/ui/EditTemplate\&quot; storyview={{$:/view}} emptyMessage={{$:/config/EmptyStoryMessage}}/&gt;\n\n&lt;section class=\&quot;story-frontdrop\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/BelowStory]!has[draft.of]]\&quot;&gt;\n\n&lt;$transclude/&gt;\n\n&lt;/$list&gt;\n\n&lt;/section&gt;\n\n&lt;/section&gt;\n&quot;
        },
        &quot;$:/core/ui/PageTemplate/topleftbar&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/PageTemplate/topleftbar&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageTemplate&quot;,
            &quot;text&quot;: &quot;&lt;span class=\&quot;tc-topbar tc-topbar-left\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/TopLeftBar]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n\n&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; mode=\&quot;inline\&quot;/&gt;\n\n&lt;/$list&gt;\n\n&lt;/span&gt;\n&quot;
        },
        &quot;$:/core/ui/PageTemplate/toprightbar&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/PageTemplate/toprightbar&quot;,
            &quot;tags&quot;: &quot;$:/tags/PageTemplate&quot;,
            &quot;text&quot;: &quot;&lt;span class=\&quot;tc-topbar tc-topbar-right\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/TopRightBar]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n\n&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; mode=\&quot;inline\&quot;/&gt;\n\n&lt;/$list&gt;\n\n&lt;/span&gt;\n&quot;
        },
        &quot;$:/core/ui/PageTemplate&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/PageTemplate&quot;,
            &quot;text&quot;: &quot;\\define containerClasses()\ntc-page-container tc-page-view-$(themeTitle)$ tc-language-$(languageTitle)$\n\\end\n\n&lt;$importvariables filter=\&quot;[[$:/core/ui/PageMacros]] [all[shadows+tiddlers]tag[$:/tags/Macro]!has[draft.of]]\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-icons\&quot; value={{$:/config/Toolbar/Icons}}&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-text\&quot; value={{$:/config/Toolbar/Text}}&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-class\&quot; value={{$:/config/Toolbar/ButtonClass}}&gt;\n\n&lt;$set name=\&quot;themeTitle\&quot; value={{$:/view}}&gt;\n\n&lt;$set name=\&quot;currentTiddler\&quot; value={{$:/language}}&gt;\n\n&lt;$set name=\&quot;languageTitle\&quot; value={{!!name}}&gt;\n\n&lt;$set name=\&quot;currentTiddler\&quot; value=\&quot;\&quot;&gt;\n\n&lt;div class=&lt;&lt;containerClasses&gt;&gt;&gt;\n\n&lt;$navigator story=\&quot;$:/StoryList\&quot; history=\&quot;$:/HistoryList\&quot; openLinkFromInsideRiver={{$:/config/Navigation/openLinkFromInsideRiver}} openLinkFromOutsideRiver={{$:/config/Navigation/openLinkFromOutsideRiver}}&gt;\n\n&lt;$dropzone&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/PageTemplate]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n\n&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt;/&gt;\n\n&lt;/$list&gt;\n\n&lt;/$dropzone&gt;\n\n&lt;/$navigator&gt;\n\n&lt;/div&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$importvariables&gt;\n&quot;
        },
        &quot;$:/core/ui/PluginInfo&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/PluginInfo&quot;,
            &quot;text&quot;: &quot;\\define localised-info-tiddler-title()\n$(currentTiddler)$/$(languageTitle)$/$(currentTab)$\n\\end\n\\define info-tiddler-title()\n$(currentTiddler)$/$(currentTab)$\n\\end\n&lt;$transclude tiddler=&lt;&lt;localised-info-tiddler-title&gt;&gt; mode=\&quot;block\&quot;&gt;\n&lt;$transclude tiddler=&lt;&lt;currentTiddler&gt;&gt; subtiddler=&lt;&lt;localised-info-tiddler-title&gt;&gt; mode=\&quot;block\&quot;&gt;\n&lt;$transclude tiddler=&lt;&lt;currentTiddler&gt;&gt; subtiddler=&lt;&lt;info-tiddler-title&gt;&gt; mode=\&quot;block\&quot;&gt;\nNo ''\&quot;&lt;$text text=&lt;&lt;currentTab&gt;&gt;/&gt;\&quot;'' found\n&lt;/$transclude&gt;\n&lt;/$transclude&gt;\n&lt;/$transclude&gt;\n&quot;
        },
        &quot;$:/core/ui/SearchResults&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/SearchResults&quot;,
            &quot;text&quot;: &quot;&lt;div class=\&quot;tc-search-results\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/SearchResults]!has[draft.of]butfirst[]limit[1]]\&quot; emptyMessage=\&quot;\&quot;\&quot;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/SearchResults]!has[draft.of]]\&quot;&gt;\n&lt;$transclude mode=\&quot;block\&quot;/&gt;\n&lt;/$list&gt;\n\&quot;\&quot;\&quot;&gt;\n\n&lt;$macrocall $name=\&quot;tabs\&quot; tabsList=\&quot;[all[shadows+tiddlers]tag[$:/tags/SearchResults]!has[draft.of]]\&quot; default={{$:/config/SearchResults/Default}}/&gt;\n\n&lt;/$list&gt;\n\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/SideBar/More&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/SideBar/More&quot;,
            &quot;tags&quot;: &quot;$:/tags/SideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/More/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;div class=\&quot;tc-more-sidebar\&quot;&gt;\n&lt;&lt;tabs \&quot;[all[shadows+tiddlers]tag[$:/tags/MoreSideBar]!has[draft.of]]\&quot; \&quot;$:/core/ui/MoreSideBar/Tags\&quot; \&quot;$:/state/tab/moresidebar\&quot; \&quot;tc-vertical\&quot;&gt;&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/core/ui/SideBar/Open&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/SideBar/Open&quot;,
            &quot;tags&quot;: &quot;$:/tags/SideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/Open/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/CloseAll/\n&lt;$list filter=\&quot;[list[$:/StoryList]]\&quot; history=\&quot;$:/HistoryList\&quot; storyview=\&quot;pop\&quot;&gt;\n\n&lt;$button message=\&quot;tm-close-tiddler\&quot; tooltip={{$:/language/Buttons/Close/Hint}} aria-label={{$:/language/Buttons/Close/Caption}} class=\&quot;tc-btn-invisible tc-btn-mini\&quot;&gt;&amp;times;&lt;/$button&gt; &lt;$link to={{!!title}}&gt;&lt;$view field=\&quot;title\&quot;/&gt;&lt;/$link&gt;\n\n&lt;/$list&gt;\n\n&lt;$button message=\&quot;tm-close-all-tiddlers\&quot; class=\&quot;tc-btn-invisible tc-btn-mini\&quot;&gt;&lt;&lt;lingo Button&gt;&gt;&lt;/$button&gt;\n&quot;
        },
        &quot;$:/core/ui/SideBar/Recent&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/SideBar/Recent&quot;,
            &quot;tags&quot;: &quot;$:/tags/SideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/Recent/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$macrocall $name=\&quot;timeline\&quot; format={{$:/language/RecentChanges/DateFormat}}/&gt;\n&quot;
        },
        &quot;$:/core/ui/SideBar/Tools&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/SideBar/Tools&quot;,
            &quot;tags&quot;: &quot;$:/tags/SideBar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/SideBar/Tools/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/\n\\define config-title()\n$:/config/PageControlButtons/Visibility/$(listItem)$\n\\end\n\n&lt;&lt;lingo Basics/Version/Prompt&gt;&gt; &lt;&lt;version&gt;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-icons\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-text\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-class\&quot; value=\&quot;\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/PageControls]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n\n&lt;div style=\&quot;position:relative;\&quot;&gt;\n\n&lt;$checkbox tiddler=&lt;&lt;config-title&gt;&gt; field=\&quot;text\&quot; checked=\&quot;show\&quot; unchecked=\&quot;hide\&quot; default=\&quot;show\&quot;/&gt; &lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt;/&gt; &lt;i class=\&quot;tc-muted\&quot;&gt;&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; field=\&quot;description\&quot;/&gt;&lt;/i&gt;\n\n&lt;/div&gt;\n\n&lt;/$list&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n&quot;
        },
        &quot;$:/core/ui/SideBarLists&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/SideBarLists&quot;,
            &quot;text&quot;: &quot;&lt;div class=\&quot;tc-sidebar-lists\&quot;&gt;\n\n&lt;$set name=\&quot;searchTiddler\&quot; value=\&quot;$:/temp/search\&quot;&gt;\n&lt;div class=\&quot;tc-search\&quot;&gt;\n&lt;$edit-text tiddler=\&quot;$:/temp/search\&quot; type=\&quot;search\&quot; tag=\&quot;input\&quot; focus={{$:/config/Search/AutoFocus}} focusPopup=&lt;&lt;qualify \&quot;$:/state/popup/search-dropdown\&quot;&gt;&gt; class=\&quot;tc-popup-handle\&quot;/&gt;\n&lt;$reveal state=\&quot;$:/temp/search\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n&lt;$button tooltip={{$:/language/Buttons/AdvancedSearch/Hint}} aria-label={{$:/language/Buttons/AdvancedSearch/Caption}} class=\&quot;tc-btn-invisible\&quot;&gt;\n&lt;$action-setfield $tiddler=\&quot;$:/temp/advancedsearch\&quot; text={{$:/temp/search}}/&gt;\n&lt;$action-setfield $tiddler=\&quot;$:/temp/search\&quot; text=\&quot;\&quot;/&gt;\n&lt;$action-navigate $to=\&quot;$:/AdvancedSearch\&quot;/&gt;\n{{$:/core/images/advanced-search-button}}\n&lt;/$button&gt;\n&lt;$button class=\&quot;tc-btn-invisible\&quot;&gt;\n&lt;$action-setfield $tiddler=\&quot;$:/temp/search\&quot; text=\&quot;\&quot; /&gt;\n{{$:/core/images/close-button}}\n&lt;/$button&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/search-dropdown\&quot;&gt;&gt; class=\&quot;tc-btn-invisible\&quot;&gt;\n&lt;$set name=\&quot;resultCount\&quot; value=\&quot;\&quot;\&quot;&lt;$count filter=\&quot;[!is[system]search{$(searchTiddler)$}]\&quot;/&gt;\&quot;\&quot;\&quot;&gt;\n{{$:/core/images/down-arrow}} {{$:/language/Search/Matches}}\n&lt;/$set&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal state=\&quot;$:/temp/search\&quot; type=\&quot;match\&quot; text=\&quot;\&quot;&gt;\n&lt;$button to=\&quot;$:/AdvancedSearch\&quot; tooltip={{$:/language/Buttons/AdvancedSearch/Hint}} aria-label={{$:/language/Buttons/AdvancedSearch/Caption}} class=\&quot;tc-btn-invisible\&quot;&gt;\n{{$:/core/images/advanced-search-button}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n\n&lt;$reveal tag=\&quot;div\&quot; class=\&quot;tc-block-dropdown-wrapper\&quot; state=\&quot;$:/temp/search\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n\n&lt;$reveal tag=\&quot;div\&quot; class=\&quot;tc-block-dropdown tc-search-drop-down tc-popup-handle\&quot; state=&lt;&lt;qualify \&quot;$:/state/popup/search-dropdown\&quot;&gt;&gt; type=\&quot;nomatch\&quot; text=\&quot;\&quot; default=\&quot;\&quot;&gt;\n\n{{$:/core/ui/SearchResults}}\n\n&lt;/$reveal&gt;\n\n&lt;/$reveal&gt;\n\n&lt;/$set&gt;\n\n&lt;$macrocall $name=\&quot;tabs\&quot; tabsList=\&quot;[all[shadows+tiddlers]tag[$:/tags/SideBar]!has[draft.of]]\&quot; default={{$:/config/DefaultSidebarTab}} state=\&quot;$:/state/tab/sidebar\&quot; /&gt;\n\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/TagManager&quot;: {
            &quot;title&quot;: &quot;$:/TagManager&quot;,
            &quot;icon&quot;: &quot;$:/core/images/tag-button&quot;,
            &quot;color&quot;: &quot;#bbb&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TagManager/\n\\define iconEditorTab(type)\n&lt;$list filter=\&quot;[all[shadows+tiddlers]is[image]] [all[shadows+tiddlers]tag[$:/tags/Image]] -[type[application/pdf]] +[sort[title]] +[$type$is[system]]\&quot;&gt;\n&lt;$link to={{!!title}}&gt;\n&lt;$transclude/&gt; &lt;$view field=\&quot;title\&quot;/&gt;\n&lt;/$link&gt;\n&lt;/$list&gt;\n\\end\n\\define iconEditor(title)\n&lt;div class=\&quot;tc-drop-down-wrapper\&quot;&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/icon/$title$\&quot;&gt;&gt; class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot;&gt;{{$:/core/images/down-arrow}}&lt;/$button&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/icon/$title$\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;belowleft\&quot; text=\&quot;\&quot; default=\&quot;\&quot;&gt;\n&lt;div class=\&quot;tc-drop-down\&quot;&gt;\n&lt;$linkcatcher to=\&quot;$title$!!icon\&quot;&gt;\n&lt;&lt;iconEditorTab type:\&quot;!\&quot;&gt;&gt;\n&lt;hr/&gt;\n&lt;&lt;iconEditorTab type:\&quot;\&quot;&gt;&gt;\n&lt;/$linkcatcher&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n\\end\n\\define qualifyTitle(title)\n$title$$(currentTiddler)$\n\\end\n\\define toggleButton(state)\n&lt;$reveal state=\&quot;$state$\&quot; type=\&quot;match\&quot; text=\&quot;closed\&quot; default=\&quot;closed\&quot;&gt;\n&lt;$button set=\&quot;$state$\&quot; setTo=\&quot;open\&quot; class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; selectedClass=\&quot;tc-selected\&quot;&gt;\n{{$:/core/images/info-button}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal state=\&quot;$state$\&quot; type=\&quot;match\&quot; text=\&quot;open\&quot; default=\&quot;closed\&quot;&gt;\n&lt;$button set=\&quot;$state$\&quot; setTo=\&quot;closed\&quot; class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot; selectedClass=\&quot;tc-selected\&quot;&gt;\n{{$:/core/images/info-button}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n\\end\n&lt;table class=\&quot;tc-tag-manager-table\&quot;&gt;\n&lt;tbody&gt;\n&lt;tr&gt;\n&lt;th&gt;&lt;&lt;lingo Colour/Heading&gt;&gt;&lt;/th&gt;\n&lt;th class=\&quot;tc-tag-manager-tag\&quot;&gt;&lt;&lt;lingo Tag/Heading&gt;&gt;&lt;/th&gt;\n&lt;th&gt;&lt;&lt;lingo Count/Heading&gt;&gt;&lt;/th&gt;\n&lt;th&gt;&lt;&lt;lingo Icon/Heading&gt;&gt;&lt;/th&gt;\n&lt;th&gt;&lt;&lt;lingo Info/Heading&gt;&gt;&lt;/th&gt;\n&lt;/tr&gt;\n&lt;$list filter=\&quot;[tags[]!is[system]sort[title]]\&quot;&gt;\n&lt;tr&gt;\n&lt;td&gt;&lt;$edit-text field=\&quot;color\&quot; tag=\&quot;input\&quot; type=\&quot;color\&quot;/&gt;&lt;/td&gt;\n&lt;td&gt;&lt;$transclude tiddler=\&quot;$:/core/ui/TagTemplate\&quot;/&gt;&lt;/td&gt;\n&lt;td&gt;&lt;$count filter=\&quot;[all[current]tagging[]]\&quot;/&gt;&lt;/td&gt;\n&lt;td&gt;\n&lt;$macrocall $name=\&quot;iconEditor\&quot; title={{!!title}}/&gt;\n&lt;/td&gt;\n&lt;td&gt;\n&lt;$macrocall $name=\&quot;toggleButton\&quot; state=&lt;&lt;qualifyTitle \&quot;$:/state/tag-manager/\&quot;&gt;&gt; /&gt; \n&lt;/td&gt;\n&lt;/tr&gt;\n&lt;tr&gt;\n&lt;td&gt;&lt;/td&gt;\n&lt;td colspan=\&quot;4\&quot;&gt;\n&lt;$reveal state=&lt;&lt;qualifyTitle \&quot;$:/state/tag-manager/\&quot;&gt;&gt; type=\&quot;match\&quot; text=\&quot;open\&quot; default=\&quot;\&quot;&gt;\n&lt;table&gt;\n&lt;tbody&gt;\n&lt;tr&gt;&lt;td&gt;&lt;&lt;lingo Colour/Heading&gt;&gt;&lt;/td&gt;&lt;td&gt;&lt;$edit-text field=\&quot;color\&quot; tag=\&quot;input\&quot; type=\&quot;text\&quot; size=\&quot;9\&quot;/&gt;&lt;/td&gt;&lt;/tr&gt;\n&lt;tr&gt;&lt;td&gt;&lt;&lt;lingo Icon/Heading&gt;&gt;&lt;/td&gt;&lt;td&gt;&lt;$edit-text field=\&quot;icon\&quot; tag=\&quot;input\&quot; size=\&quot;45\&quot;/&gt;&lt;/td&gt;&lt;/tr&gt;\n&lt;/tbody&gt;\n&lt;/table&gt;\n&lt;/$reveal&gt;\n&lt;/td&gt;\n&lt;/tr&gt;\n&lt;/$list&gt;\n&lt;tr&gt;\n&lt;td&gt;&lt;/td&gt;\n&lt;td&gt;\n{{$:/core/ui/UntaggedTemplate}}\n&lt;/td&gt;\n&lt;td&gt;\n&lt;small class=\&quot;tc-menu-list-count\&quot;&gt;&lt;$count filter=\&quot;[untagged[]!is[system]] -[tags[]]\&quot;/&gt;&lt;/small&gt;\n&lt;/td&gt;\n&lt;td&gt;&lt;/td&gt;\n&lt;td&gt;&lt;/td&gt;\n&lt;/tr&gt;\n&lt;/tbody&gt;\n&lt;/table&gt;\n&quot;
        },
        &quot;$:/core/ui/TagTemplate&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TagTemplate&quot;,
            &quot;text&quot;: &quot;\\define tag-styles()\nbackground-color:$(backgroundColor)$;\nfill:$(foregroundColor)$;\ncolor:$(foregroundColor)$;\n\\end\n\n\\define tag-body-inner(colour,fallbackTarget,colourA,colourB)\n&lt;$set name=\&quot;foregroundColor\&quot; value=&lt;&lt;contrastcolour target:\&quot;\&quot;\&quot;$colour$\&quot;\&quot;\&quot; fallbackTarget:\&quot;\&quot;\&quot;$fallbackTarget$\&quot;\&quot;\&quot; colourA:\&quot;\&quot;\&quot;$colourA$\&quot;\&quot;\&quot; colourB:\&quot;\&quot;\&quot;$colourB$\&quot;\&quot;\&quot;&gt;&gt;&gt;\n&lt;$set name=\&quot;backgroundColor\&quot; value=\&quot;\&quot;\&quot;$colour$\&quot;\&quot;\&quot;&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/tag\&quot;&gt;&gt; class=\&quot;tc-btn-invisible tc-tag-label\&quot; style=&lt;&lt;tag-styles&gt;&gt;&gt;\n&lt;$transclude tiddler={{!!icon}}/&gt; &lt;$view field=\&quot;title\&quot; format=\&quot;text\&quot; /&gt;\n&lt;/$button&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/tag\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;below\&quot; animate=\&quot;yes\&quot;&gt;&lt;div class=\&quot;tc-drop-down\&quot;&gt;&lt;$transclude tiddler=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&lt;hr&gt;\n&lt;$list filter=\&quot;[all[current]tagging[]]\&quot; template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&lt;/$set&gt;\n&lt;/$set&gt;\n\\end\n\n\\define tag-body(colour,palette)\n&lt;span class=\&quot;tc-tag-list-item\&quot;&gt;\n&lt;$macrocall $name=\&quot;tag-body-inner\&quot; colour=\&quot;\&quot;\&quot;$colour$\&quot;\&quot;\&quot; fallbackTarget={{$palette$##tag-background}} colourA={{$palette$##foreground}} colourB={{$palette$##background}}/&gt;\n&lt;/span&gt;\n\\end\n\n&lt;$macrocall $name=\&quot;tag-body\&quot; colour={{!!color}} palette={{$:/palette}}/&gt;&quot;
        },
        &quot;$:/core/ui/TiddlerFieldTemplate&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerFieldTemplate&quot;,
            &quot;text&quot;: &quot;&lt;tr class=\&quot;tc-view-field\&quot;&gt;\n&lt;td class=\&quot;tc-view-field-name\&quot;&gt;\n&lt;$text text=&lt;&lt;listItem&gt;&gt;/&gt;\n&lt;/td&gt;\n&lt;td class=\&quot;tc-view-field-value\&quot;&gt;\n&lt;$view field=&lt;&lt;listItem&gt;&gt;/&gt;\n&lt;/td&gt;\n&lt;/tr&gt;&quot;
        },
        &quot;$:/core/ui/TiddlerFields&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerFields&quot;,
            &quot;text&quot;: &quot;&lt;table class=\&quot;tc-view-field-table\&quot;&gt;\n&lt;tbody&gt;\n&lt;$list filter=\&quot;[all[current]fields[]sort[title]] -text\&quot; template=\&quot;$:/core/ui/TiddlerFieldTemplate\&quot; variable=\&quot;listItem\&quot;/&gt;\n&lt;/tbody&gt;\n&lt;/table&gt;\n&quot;
        },
        &quot;$:/core/ui/TiddlerInfo/Advanced/PluginInfo&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerInfo/Advanced/PluginInfo&quot;,
            &quot;tags&quot;: &quot;$:/tags/TiddlerInfo/Advanced&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TiddlerInfo/Advanced/PluginInfo/\n&lt;$list filter=\&quot;[all[current]has[plugin-type]]\&quot;&gt;\n\n! &lt;&lt;lingo Heading&gt;&gt;\n\n&lt;&lt;lingo Hint&gt;&gt;\n&lt;ul&gt;\n&lt;$list filter=\&quot;[all[current]plugintiddlers[]sort[title]]\&quot; emptyMessage=&lt;&lt;lingo Empty/Hint&gt;&gt;&gt;\n&lt;li&gt;\n&lt;$link to={{!!title}}&gt;\n&lt;$view field=\&quot;title\&quot;/&gt;\n&lt;/$link&gt;\n&lt;/li&gt;\n&lt;/$list&gt;\n&lt;/ul&gt;\n\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/TiddlerInfo/Advanced/ShadowInfo&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerInfo/Advanced/ShadowInfo&quot;,
            &quot;tags&quot;: &quot;$:/tags/TiddlerInfo/Advanced&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TiddlerInfo/Advanced/ShadowInfo/\n&lt;$set name=\&quot;infoTiddler\&quot; value=&lt;&lt;currentTiddler&gt;&gt;&gt;\n\n''&lt;&lt;lingo Heading&gt;&gt;''\n\n&lt;$list filter=\&quot;[all[current]!is[shadow]]\&quot;&gt;\n\n&lt;&lt;lingo NotShadow/Hint&gt;&gt;\n\n&lt;/$list&gt;\n\n&lt;$list filter=\&quot;[all[current]is[shadow]]\&quot;&gt;\n\n&lt;&lt;lingo Shadow/Hint&gt;&gt;\n\n&lt;$list filter=\&quot;[all[current]shadowsource[]]\&quot;&gt;\n\n&lt;$set name=\&quot;pluginTiddler\&quot; value=&lt;&lt;currentTiddler&gt;&gt;&gt;\n&lt;&lt;lingo Shadow/Source&gt;&gt;\n&lt;/$set&gt;\n\n&lt;/$list&gt;\n\n&lt;$list filter=\&quot;[all[current]is[shadow]is[tiddler]]\&quot;&gt;\n\n&lt;&lt;lingo OverriddenShadow/Hint&gt;&gt;\n\n&lt;/$list&gt;\n\n\n&lt;/$list&gt;\n&lt;/$set&gt;\n&quot;
        },
        &quot;$:/core/ui/TiddlerInfo/Advanced&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerInfo/Advanced&quot;,
            &quot;tags&quot;: &quot;$:/tags/TiddlerInfo&quot;,
            &quot;caption&quot;: &quot;{{$:/language/TiddlerInfo/Advanced/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/TiddlerInfo/Advanced]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt;/&gt;\n\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/TiddlerInfo/Fields&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerInfo/Fields&quot;,
            &quot;tags&quot;: &quot;$:/tags/TiddlerInfo&quot;,
            &quot;caption&quot;: &quot;{{$:/language/TiddlerInfo/Fields/Caption}}&quot;,
            &quot;text&quot;: &quot;&lt;$transclude tiddler=\&quot;$:/core/ui/TiddlerFields\&quot;/&gt;\n&quot;
        },
        &quot;$:/core/ui/TiddlerInfo/List&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerInfo/List&quot;,
            &quot;tags&quot;: &quot;$:/tags/TiddlerInfo&quot;,
            &quot;caption&quot;: &quot;{{$:/language/TiddlerInfo/List/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TiddlerInfo/\n&lt;$list filter=\&quot;[list{!!title}]\&quot; emptyMessage=&lt;&lt;lingo List/Empty&gt;&gt; template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&quot;
        },
        &quot;$:/core/ui/TiddlerInfo/Listed&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerInfo/Listed&quot;,
            &quot;tags&quot;: &quot;$:/tags/TiddlerInfo&quot;,
            &quot;caption&quot;: &quot;{{$:/language/TiddlerInfo/Listed/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TiddlerInfo/\n&lt;$list filter=\&quot;[all[current]listed[]!is[system]]\&quot; emptyMessage=&lt;&lt;lingo Listed/Empty&gt;&gt; template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&quot;
        },
        &quot;$:/core/ui/TiddlerInfo/References&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerInfo/References&quot;,
            &quot;tags&quot;: &quot;$:/tags/TiddlerInfo&quot;,
            &quot;caption&quot;: &quot;{{$:/language/TiddlerInfo/References/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TiddlerInfo/\n&lt;$list filter=\&quot;[all[current]backlinks[]sort[title]]\&quot; emptyMessage=&lt;&lt;lingo References/Empty&gt;&gt; template=\&quot;$:/core/ui/ListItemTemplate\&quot;&gt;\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/TiddlerInfo/Tagging&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerInfo/Tagging&quot;,
            &quot;tags&quot;: &quot;$:/tags/TiddlerInfo&quot;,
            &quot;caption&quot;: &quot;{{$:/language/TiddlerInfo/Tagging/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TiddlerInfo/\n&lt;$list filter=\&quot;[all[current]tagging[]]\&quot; emptyMessage=&lt;&lt;lingo Tagging/Empty&gt;&gt; template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&quot;
        },
        &quot;$:/core/ui/TiddlerInfo/Tools&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerInfo/Tools&quot;,
            &quot;tags&quot;: &quot;$:/tags/TiddlerInfo&quot;,
            &quot;caption&quot;: &quot;{{$:/language/TiddlerInfo/Tools/Caption}}&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/TiddlerInfo/\n\\define config-title()\n$:/config/ViewToolbarButtons/Visibility/$(listItem)$\n\\end\n&lt;$set name=\&quot;tv-config-toolbar-icons\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-text\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-class\&quot; value=\&quot;\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/ViewToolbar]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;\n\n&lt;$checkbox tiddler=&lt;&lt;config-title&gt;&gt; field=\&quot;text\&quot; checked=\&quot;show\&quot; unchecked=\&quot;hide\&quot; default=\&quot;show\&quot;/&gt; &lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt;/&gt; &lt;i class=\&quot;tc-muted\&quot;&gt;&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; field=\&quot;description\&quot;/&gt;&lt;/i&gt;\n\n&lt;/$list&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n&quot;
        },
        &quot;$:/core/ui/TiddlerInfo&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TiddlerInfo&quot;,
            &quot;text&quot;: &quot;&lt;$macrocall $name=\&quot;tabs\&quot; tabsList=\&quot;[all[shadows+tiddlers]tag[$:/tags/TiddlerInfo]!has[draft.of]]\&quot; default={{$:/config/TiddlerInfo/Default}}/&gt;&quot;
        },
        &quot;$:/core/ui/TopBar/menu&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/TopBar/menu&quot;,
            &quot;tags&quot;: &quot;$:/tags/TopRightBar&quot;,
            &quot;text&quot;: &quot;&lt;$reveal state=\&quot;$:/state/sidebar\&quot; type=\&quot;nomatch\&quot; text=\&quot;no\&quot;&gt;\n&lt;$button set=\&quot;$:/state/sidebar\&quot; setTo=\&quot;no\&quot; tooltip={{$:/language/Buttons/HideSideBar/Hint}} aria-label={{$:/language/Buttons/HideSideBar/Caption}} class=\&quot;tc-btn-invisible\&quot;&gt;{{$:/core/images/chevron-right}}&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal state=\&quot;$:/state/sidebar\&quot; type=\&quot;match\&quot; text=\&quot;no\&quot;&gt;\n&lt;$button set=\&quot;$:/state/sidebar\&quot; setTo=\&quot;yes\&quot; tooltip={{$:/language/Buttons/ShowSideBar/Hint}} aria-label={{$:/language/Buttons/ShowSideBar/Caption}} class=\&quot;tc-btn-invisible\&quot;&gt;{{$:/core/images/chevron-left}}&lt;/$button&gt;\n&lt;/$reveal&gt;\n&quot;
        },
        &quot;$:/core/ui/UntaggedTemplate&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/UntaggedTemplate&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/SideBar/\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/tag\&quot;&gt;&gt; class=\&quot;tc-btn-invisible tc-untagged-label tc-tag-label\&quot;&gt;\n&lt;&lt;lingo Tags/Untagged/Caption&gt;&gt;\n&lt;/$button&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/tag\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;below\&quot;&gt;\n&lt;div class=\&quot;tc-drop-down\&quot;&gt;\n&lt;$list filter=\&quot;[untagged[]!is[system]] -[tags[]] +[sort[title]]\&quot; template=\&quot;$:/core/ui/ListItemTemplate\&quot;/&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&quot;
        },
        &quot;$:/core/ui/ViewTemplate/body&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ViewTemplate/body&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewTemplate&quot;,
            &quot;text&quot;: &quot;&lt;$reveal tag=\&quot;div\&quot; class=\&quot;tc-tiddler-body\&quot; type=\&quot;nomatch\&quot; state=&lt;&lt;folded-state&gt;&gt; text=\&quot;hide\&quot; retain=\&quot;yes\&quot; animate=\&quot;yes\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[current]!has[plugin-type]!field:hide-body[yes]]\&quot;&gt;\n\n&lt;$transclude&gt;\n\n&lt;$transclude tiddler=\&quot;$:/language/MissingTiddler/Hint\&quot;/&gt;\n\n&lt;/$transclude&gt;\n\n&lt;/$list&gt;\n\n&lt;/$reveal&gt;\n&quot;
        },
        &quot;$:/core/ui/ViewTemplate/classic&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ViewTemplate/classic&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewTemplate $:/tags/EditTemplate&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ClassicWarning/\n&lt;$list filter=\&quot;[all[current]type[text/x-tiddlywiki]]\&quot;&gt;\n&lt;div class=\&quot;tc-message-box\&quot;&gt;\n\n&lt;&lt;lingo Hint&gt;&gt;\n\n&lt;$button set=\&quot;!!type\&quot; setTo=\&quot;text/vnd.tiddlywiki\&quot;&gt;&lt;&lt;lingo Upgrade/Caption&gt;&gt;&lt;/$button&gt;\n\n&lt;/div&gt;\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/ViewTemplate/import&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ViewTemplate/import&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewTemplate&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/Import/\n\n&lt;$list filter=\&quot;[all[current]field:plugin-type[import]]\&quot;&gt;\n\n&lt;div class=\&quot;tc-import\&quot;&gt;\n\n&lt;&lt;lingo Listing/Hint&gt;&gt;\n\n&lt;$button message=\&quot;tm-delete-tiddler\&quot; param=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;&lt;lingo Listing/Cancel/Caption&gt;&gt;&lt;/$button&gt;\n&lt;$button message=\&quot;tm-perform-import\&quot; param=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;&lt;lingo Listing/Import/Caption&gt;&gt;&lt;/$button&gt;\n\n{{||$:/core/ui/ImportListing}}\n\n&lt;$button message=\&quot;tm-delete-tiddler\&quot; param=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;&lt;lingo Listing/Cancel/Caption&gt;&gt;&lt;/$button&gt;\n&lt;$button message=\&quot;tm-perform-import\&quot; param=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;&lt;lingo Listing/Import/Caption&gt;&gt;&lt;/$button&gt;\n\n&lt;/div&gt;\n\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/ViewTemplate/plugin&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ViewTemplate/plugin&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewTemplate&quot;,
            &quot;text&quot;: &quot;&lt;$list filter=\&quot;[all[current]has[plugin-type]] -[all[current]field:plugin-type[import]]\&quot;&gt;\n\n{{||$:/core/ui/TiddlerInfo/Advanced/PluginInfo}}\n\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/core/ui/ViewTemplate/subtitle&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ViewTemplate/subtitle&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewTemplate&quot;,
            &quot;text&quot;: &quot;&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;folded-state&gt;&gt; text=\&quot;hide\&quot; tag=\&quot;div\&quot; retain=\&quot;yes\&quot; animate=\&quot;yes\&quot;&gt;\n&lt;div class=\&quot;tc-subtitle\&quot;&gt;\n&lt;$link to={{!!modifier}}&gt;\n&lt;$view field=\&quot;modifier\&quot;/&gt;\n&lt;/$link&gt; &lt;$view field=\&quot;modified\&quot; format=\&quot;date\&quot; template={{$:/language/Tiddler/DateFormat}}/&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&quot;
        },
        &quot;$:/core/ui/ViewTemplate/tags&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ViewTemplate/tags&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewTemplate&quot;,
            &quot;text&quot;: &quot;&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;folded-state&gt;&gt; text=\&quot;hide\&quot; tag=\&quot;div\&quot; retain=\&quot;yes\&quot; animate=\&quot;yes\&quot;&gt;\n&lt;div class=\&quot;tc-tags-wrapper\&quot;&gt;&lt;$list filter=\&quot;[all[current]tags[]sort[title]]\&quot; template=\&quot;$:/core/ui/TagTemplate\&quot; storyview=\&quot;pop\&quot;/&gt;&lt;/div&gt;\n&lt;/$reveal&gt;&quot;
        },
        &quot;$:/core/ui/ViewTemplate/title&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ViewTemplate/title&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewTemplate&quot;,
            &quot;text&quot;: &quot;\\define title-styles()\nfill:$(foregroundColor)$;\n\\end\n\\define config-title()\n$:/config/ViewToolbarButtons/Visibility/$(listItem)$\n\\end\n&lt;div class=\&quot;tc-tiddler-title\&quot;&gt;\n&lt;div class=\&quot;tc-titlebar\&quot;&gt;\n&lt;span class=\&quot;tc-tiddler-controls\&quot;&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/ViewToolbar]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;config-title&gt;&gt; text=\&quot;hide\&quot;&gt;&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt;/&gt;&lt;/$reveal&gt;&lt;/$list&gt;\n&lt;/span&gt;\n&lt;$set name=\&quot;tv-wikilinks\&quot; value={{$:/config/Tiddlers/TitleLinks}}&gt;\n&lt;$link&gt;\n&lt;$set name=\&quot;foregroundColor\&quot; value={{!!color}}&gt;\n&lt;span class=\&quot;tc-tiddler-title-icon\&quot; style=&lt;&lt;title-styles&gt;&gt;&gt;\n&lt;$transclude tiddler={{!!icon}}/&gt;\n&lt;/span&gt;\n&lt;/$set&gt;\n&lt;$list filter=\&quot;[all[current]removeprefix[$:/]]\&quot;&gt;\n&lt;h2 class=\&quot;tc-title\&quot; title={{$:/language/SystemTiddler/Tooltip}}&gt;\n&lt;span class=\&quot;tc-system-title-prefix\&quot;&gt;$:/&lt;/span&gt;&lt;$text text=&lt;&lt;currentTiddler&gt;&gt;/&gt;\n&lt;/h2&gt;\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[all[current]!prefix[$:/]]\&quot;&gt;\n&lt;h2 class=\&quot;tc-title\&quot;&gt;\n&lt;$view field=\&quot;title\&quot;/&gt;\n&lt;/h2&gt;\n&lt;/$list&gt;\n&lt;/$link&gt;\n&lt;/$set&gt;\n&lt;/div&gt;\n\n&lt;$reveal type=\&quot;nomatch\&quot; text=\&quot;\&quot; default=\&quot;\&quot; state=&lt;&lt;tiddlerInfoState&gt;&gt; class=\&quot;tc-tiddler-info tc-popup-handle\&quot; animate=\&quot;yes\&quot; retain=\&quot;yes\&quot;&gt;\n\n&lt;$transclude tiddler=\&quot;$:/core/ui/TiddlerInfo\&quot;/&gt;\n\n&lt;/$reveal&gt;\n&lt;/div&gt;&quot;
        },
        &quot;$:/core/ui/ViewTemplate/unfold&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ViewTemplate/unfold&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewTemplate&quot;,
            &quot;text&quot;: &quot;&lt;$reveal tag=\&quot;div\&quot; type=\&quot;nomatch\&quot; state=\&quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/fold-bar\&quot; text=\&quot;hide\&quot;&gt;\n&lt;$reveal tag=\&quot;div\&quot; type=\&quot;nomatch\&quot; state=&lt;&lt;folded-state&gt;&gt; text=\&quot;hide\&quot; default=\&quot;show\&quot; retain=\&quot;yes\&quot; animate=\&quot;yes\&quot;&gt;\n&lt;$button tooltip={{$:/language/Buttons/Fold/Hint}} aria-label={{$:/language/Buttons/Fold/Caption}} class=\&quot;tc-fold-banner\&quot;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-fold-tiddler\&quot; $param=&lt;&lt;currentTiddler&gt;&gt; foldedState=&lt;&lt;folded-state&gt;&gt;/&gt;\n{{$:/core/images/chevron-up}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal tag=\&quot;div\&quot; type=\&quot;nomatch\&quot; state=&lt;&lt;folded-state&gt;&gt; text=\&quot;show\&quot; default=\&quot;show\&quot; retain=\&quot;yes\&quot; animate=\&quot;yes\&quot;&gt;\n&lt;$button tooltip={{$:/language/Buttons/Unfold/Hint}} aria-label={{$:/language/Buttons/Unfold/Caption}} class=\&quot;tc-unfold-banner\&quot;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-fold-tiddler\&quot; $param=&lt;&lt;currentTiddler&gt;&gt; foldedState=&lt;&lt;folded-state&gt;&gt;/&gt;\n{{$:/core/images/chevron-down}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/$reveal&gt;\n&quot;
        },
        &quot;$:/core/ui/ViewTemplate&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/ViewTemplate&quot;,
            &quot;text&quot;: &quot;\\define frame-classes()\ntc-tiddler-frame tc-tiddler-view-frame $(missingTiddlerClass)$ $(shadowTiddlerClass)$ $(systemTiddlerClass)$ $(tiddlerTagClasses)$\n\\end\n\\define folded-state()\n$:/state/folded/$(currentTiddler)$\n\\end\n&lt;$set name=\&quot;storyTiddler\&quot; value=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;$set name=\&quot;tiddlerInfoState\&quot; value=&lt;&lt;qualify \&quot;$:/state/popup/tiddler-info\&quot;&gt;&gt;&gt;&lt;$tiddler tiddler=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;div class=&lt;&lt;frame-classes&gt;&gt;&gt;&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/ViewTemplate]!has[draft.of]]\&quot; variable=\&quot;listItem\&quot;&gt;&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt;/&gt;&lt;/$list&gt;\n&lt;/div&gt;\n&lt;/$tiddler&gt;&lt;/$set&gt;&lt;/$set&gt;\n&quot;
        },
        &quot;$:/core/ui/Buttons/clone&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/clone&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/clone-button}} {{$:/language/Buttons/Clone/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Clone/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-new-tiddler\&quot; param=&lt;&lt;currentTiddler&gt;&gt; tooltip={{$:/language/Buttons/Clone/Hint}} aria-label={{$:/language/Buttons/Clone/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/clone-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Clone/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/close-others&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/close-others&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/close-others-button}} {{$:/language/Buttons/CloseOthers/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/CloseOthers/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-close-other-tiddlers\&quot; param=&lt;&lt;currentTiddler&gt;&gt; tooltip={{$:/language/Buttons/CloseOthers/Hint}} aria-label={{$:/language/Buttons/CloseOthers/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/close-others-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/CloseOthers/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/close&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/close&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/close-button}} {{$:/language/Buttons/Close/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Close/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-close-tiddler\&quot; tooltip={{$:/language/Buttons/Close/Hint}} aria-label={{$:/language/Buttons/Close/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/close-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Close/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/edit&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/edit&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/edit-button}} {{$:/language/Buttons/Edit/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Edit/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-edit-tiddler\&quot; tooltip={{$:/language/Buttons/Edit/Hint}} aria-label={{$:/language/Buttons/Edit/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/edit-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Edit/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/export-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/export-tiddler&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/export-button}} {{$:/language/Buttons/ExportTiddler/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/ExportTiddler/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define makeExportFilter()\n[[$(currentTiddler)$]]\n\\end\n&lt;$macrocall $name=\&quot;exportButton\&quot; exportFilter=&lt;&lt;makeExportFilter&gt;&gt; lingoBase=\&quot;$:/language/Buttons/ExportTiddler/\&quot; baseFilename=&lt;&lt;currentTiddler&gt;&gt;/&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/fold-bar&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/fold-bar&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/language/Buttons/Fold/FoldBar/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Fold/FoldBar/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;!-- This dummy toolbar button is here to allow visibility of the fold-bar to be controlled as if it were a toolbar button --&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/fold-others&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/fold-others&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/fold-others-button}} {{$:/language/Buttons/FoldOthers/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/FoldOthers/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button tooltip={{$:/language/Buttons/FoldOthers/Hint}} aria-label={{$:/language/Buttons/FoldOthers/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-fold-other-tiddlers\&quot; $param=&lt;&lt;currentTiddler&gt;&gt; foldedStatePrefix=\&quot;$:/state/folded/\&quot;/&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot; variable=\&quot;listItem\&quot;&gt;\n{{$:/core/images/fold-others-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/FoldOthers/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/fold&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/fold&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/fold-button}} {{$:/language/Buttons/Fold/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Fold/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;folded-state&gt;&gt; text=\&quot;hide\&quot; default=\&quot;show\&quot;&gt;&lt;$button tooltip={{$:/language/Buttons/Fold/Hint}} aria-label={{$:/language/Buttons/Fold/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-fold-tiddler\&quot; $param=&lt;&lt;currentTiddler&gt;&gt; foldedState=&lt;&lt;folded-state&gt;&gt;/&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot; variable=\&quot;listItem\&quot;&gt;\n{{$:/core/images/fold-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;\n&lt;$text text={{$:/language/Buttons/Fold/Caption}}/&gt;\n&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&lt;/$reveal&gt;&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;folded-state&gt;&gt; text=\&quot;hide\&quot; default=\&quot;show\&quot;&gt;&lt;$button tooltip={{$:/language/Buttons/Unfold/Hint}} aria-label={{$:/language/Buttons/Unfold/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-fold-tiddler\&quot; $param=&lt;&lt;currentTiddler&gt;&gt; foldedState=&lt;&lt;folded-state&gt;&gt;/&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot; variable=\&quot;listItem\&quot;&gt;\n{{$:/core/images/unfold-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;\n&lt;$text text={{$:/language/Buttons/Unfold/Caption}}/&gt;\n&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&lt;/$reveal&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/info&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/info&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/info-button}} {{$:/language/Buttons/Info/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Info/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button popup=&lt;&lt;tiddlerInfoState&gt;&gt; tooltip={{$:/language/Buttons/Info/Hint}} aria-label={{$:/language/Buttons/Info/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt; selectedClass=\&quot;tc-selected\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/info-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Info/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/more-tiddler-actions&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/more-tiddler-actions&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/down-arrow}} {{$:/language/Buttons/More/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/More/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define config-title()\n$:/config/ViewToolbarButtons/Visibility/$(listItem)$\n\\end\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/more\&quot;&gt;&gt; tooltip={{$:/language/Buttons/More/Hint}} aria-label={{$:/language/Buttons/More/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt; selectedClass=\&quot;tc-selected\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/down-arrow}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/More/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/more\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;below\&quot; animate=\&quot;yes\&quot;&gt;\n\n&lt;div class=\&quot;tc-drop-down\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-icons\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-text\&quot; value=\&quot;yes\&quot;&gt;\n\n&lt;$set name=\&quot;tv-config-toolbar-class\&quot; value=\&quot;tc-btn-invisible\&quot;&gt;\n\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/ViewToolbar]!has[draft.of]] -[[$:/core/ui/Buttons/more-tiddler-actions]]\&quot; variable=\&quot;listItem\&quot;&gt;\n\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;config-title&gt;&gt; text=\&quot;hide\&quot;&gt;\n\n&lt;$transclude tiddler=&lt;&lt;listItem&gt;&gt; mode=\&quot;inline\&quot;/&gt;\n\n&lt;/$reveal&gt;\n\n&lt;/$list&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/$set&gt;\n\n&lt;/div&gt;\n\n&lt;/$reveal&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/new-here&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/new-here&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/new-here-button}} {{$:/language/Buttons/NewHere/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/NewHere/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define newHereButtonTags()\n[[$(currentTiddler)$]]\n\\end\n\\define newHereButton()\n&lt;$button tooltip={{$:/language/Buttons/NewHere/Hint}} aria-label={{$:/language/Buttons/NewHere/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-new-tiddler\&quot; tags=&lt;&lt;newHereButtonTags&gt;&gt;/&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/new-here-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/NewHere/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n\\end\n&lt;&lt;newHereButton&gt;&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/new-journal-here&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/new-journal-here&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/new-journal-button}} {{$:/language/Buttons/NewJournalHere/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/NewJournalHere/Hint}}&quot;,
            &quot;text&quot;: &quot;\\define journalButtonTags()\n[[$(currentTiddlerTag)$]] $(journalTags)$\n\\end\n\\define journalButton()\n&lt;$button tooltip={{$:/language/Buttons/NewJournalHere/Hint}} aria-label={{$:/language/Buttons/NewJournalHere/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-new-tiddler\&quot; title=&lt;&lt;now \&quot;$(journalTitleTemplate)$\&quot;&gt;&gt; tags=&lt;&lt;journalButtonTags&gt;&gt;/&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/new-journal-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/NewJournalHere/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n\\end\n&lt;$set name=\&quot;journalTitleTemplate\&quot; value={{$:/config/NewJournal/Title}}&gt;\n&lt;$set name=\&quot;journalTags\&quot; value={{$:/config/NewJournal/Tags}}&gt;\n&lt;$set name=\&quot;currentTiddlerTag\&quot; value=&lt;&lt;currentTiddler&gt;&gt;&gt;\n&lt;&lt;journalButton&gt;&gt;\n&lt;/$set&gt;&lt;/$set&gt;&lt;/$set&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/open-window&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/open-window&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/open-window}} {{$:/language/Buttons/OpenWindow/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/OpenWindow/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-open-window\&quot; tooltip={{$:/language/Buttons/OpenWindow/Hint}} aria-label={{$:/language/Buttons/OpenWindow/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/open-window}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/OpenWindow/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/permalink&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/permalink&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/permalink-button}} {{$:/language/Buttons/Permalink/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Permalink/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-permalink\&quot; tooltip={{$:/language/Buttons/Permalink/Hint}} aria-label={{$:/language/Buttons/Permalink/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/permalink-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Permalink/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/core/ui/Buttons/permaview&quot;: {
            &quot;title&quot;: &quot;$:/core/ui/Buttons/permaview&quot;,
            &quot;tags&quot;: &quot;$:/tags/ViewToolbar $:/tags/PageControls&quot;,
            &quot;caption&quot;: &quot;{{$:/core/images/permaview-button}} {{$:/language/Buttons/Permaview/Caption}}&quot;,
            &quot;description&quot;: &quot;{{$:/language/Buttons/Permaview/Hint}}&quot;,
            &quot;text&quot;: &quot;&lt;$button message=\&quot;tm-permaview\&quot; tooltip={{$:/language/Buttons/Permaview/Hint}} aria-label={{$:/language/Buttons/Permaview/Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/permaview-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$:/language/Buttons/Permaview/Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;&quot;
        },
        &quot;$:/DefaultTiddlers&quot;: {
            &quot;title&quot;: &quot;$:/DefaultTiddlers&quot;,
            &quot;text&quot;: &quot;GettingStarted\n&quot;
        },
        &quot;$:/temp/advancedsearch&quot;: {
            &quot;title&quot;: &quot;$:/temp/advancedsearch&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/snippets/allfields&quot;: {
            &quot;title&quot;: &quot;$:/snippets/allfields&quot;,
            &quot;text&quot;: &quot;\\define renderfield(title)\n&lt;tr class=\&quot;tc-view-field\&quot;&gt;&lt;td class=\&quot;tc-view-field-name\&quot;&gt;''$title$'':&lt;/td&gt;&lt;td class=\&quot;tc-view-field-value\&quot;&gt;//{{$:/language/Docs/Fields/$title$}}//&lt;/td&gt;&lt;/tr&gt;\n\\end\n&lt;table class=\&quot;tc-view-field-table\&quot;&gt;&lt;tbody&gt;&lt;$list filter=\&quot;[fields[]sort[title]]\&quot; variable=\&quot;listItem\&quot;&gt;&lt;$macrocall $name=\&quot;renderfield\&quot; title=&lt;&lt;listItem&gt;&gt;/&gt;&lt;/$list&gt;\n&lt;/tbody&gt;&lt;/table&gt;\n&quot;
        },
        &quot;$:/config/AnimationDuration&quot;: {
            &quot;title&quot;: &quot;$:/config/AnimationDuration&quot;,
            &quot;text&quot;: &quot;400&quot;
        },
        &quot;$:/config/AutoSave&quot;: {
            &quot;title&quot;: &quot;$:/config/AutoSave&quot;,
            &quot;text&quot;: &quot;yes&quot;
        },
        &quot;$:/config/BitmapEditor/Colour&quot;: {
            &quot;title&quot;: &quot;$:/config/BitmapEditor/Colour&quot;,
            &quot;text&quot;: &quot;#ff0&quot;
        },
        &quot;$:/config/BitmapEditor/LineWidth&quot;: {
            &quot;title&quot;: &quot;$:/config/BitmapEditor/LineWidth&quot;,
            &quot;text&quot;: &quot;3&quot;
        },
        &quot;$:/config/DefaultSidebarTab&quot;: {
            &quot;title&quot;: &quot;$:/config/DefaultSidebarTab&quot;,
            &quot;text&quot;: &quot;$:/core/ui/SideBar/Open&quot;
        },
        &quot;$:/config/Drafts/TypingTimeout&quot;: {
            &quot;title&quot;: &quot;$:/config/Drafts/TypingTimeout&quot;,
            &quot;text&quot;: &quot;400&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/title&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/title&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/tags&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/tags&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/text&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/text&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/creator&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/creator&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/created&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/created&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/modified&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/modified&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/modifier&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/modifier&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/type&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/type&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/draft.title&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/draft.title&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/draft.of&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/draft.of&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/revision&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/revision&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditTemplateFields/Visibility/bag&quot;: {
            &quot;title&quot;: &quot;$:/config/EditTemplateFields/Visibility/bag&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/EditorTypeMappings/image/gif&quot;: {
            &quot;title&quot;: &quot;$:/config/EditorTypeMappings/image/gif&quot;,
            &quot;text&quot;: &quot;bitmap&quot;
        },
        &quot;$:/config/EditorTypeMappings/image/jpeg&quot;: {
            &quot;title&quot;: &quot;$:/config/EditorTypeMappings/image/jpeg&quot;,
            &quot;text&quot;: &quot;bitmap&quot;
        },
        &quot;$:/config/EditorTypeMappings/image/jpg&quot;: {
            &quot;title&quot;: &quot;$:/config/EditorTypeMappings/image/jpg&quot;,
            &quot;text&quot;: &quot;bitmap&quot;
        },
        &quot;$:/config/EditorTypeMappings/image/png&quot;: {
            &quot;title&quot;: &quot;$:/config/EditorTypeMappings/image/png&quot;,
            &quot;text&quot;: &quot;bitmap&quot;
        },
        &quot;$:/config/EditorTypeMappings/image/x-icon&quot;: {
            &quot;title&quot;: &quot;$:/config/EditorTypeMappings/image/x-icon&quot;,
            &quot;text&quot;: &quot;bitmap&quot;
        },
        &quot;$:/config/EditorTypeMappings/text/vnd.tiddlywiki&quot;: {
            &quot;title&quot;: &quot;$:/config/EditorTypeMappings/text/vnd.tiddlywiki&quot;,
            &quot;text&quot;: &quot;text&quot;
        },
        &quot;$:/config/Navigation/UpdateAddressBar&quot;: {
            &quot;title&quot;: &quot;$:/config/Navigation/UpdateAddressBar&quot;,
            &quot;text&quot;: &quot;no&quot;
        },
        &quot;$:/config/Navigation/UpdateHistory&quot;: {
            &quot;title&quot;: &quot;$:/config/Navigation/UpdateHistory&quot;,
            &quot;text&quot;: &quot;no&quot;
        },
        &quot;$:/config/OfficialPluginLibrary&quot;: {
            &quot;title&quot;: &quot;$:/config/OfficialPluginLibrary&quot;,
            &quot;tags&quot;: &quot;$:/tags/PluginLibrary&quot;,
            &quot;url&quot;: &quot;http://tiddlywiki.com/library/v5.1.9/index.html&quot;,
            &quot;caption&quot;: &quot;{{$:/language/OfficialPluginLibrary}}&quot;,
            &quot;text&quot;: &quot;{{$:/language/OfficialPluginLibrary/Hint}}\n&quot;
        },
        &quot;$:/config/Navigation/openLinkFromInsideRiver&quot;: {
            &quot;title&quot;: &quot;$:/config/Navigation/openLinkFromInsideRiver&quot;,
            &quot;text&quot;: &quot;below&quot;
        },
        &quot;$:/config/Navigation/openLinkFromOutsideRiver&quot;: {
            &quot;title&quot;: &quot;$:/config/Navigation/openLinkFromOutsideRiver&quot;,
            &quot;text&quot;: &quot;top&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/advanced-search&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/advanced-search&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/close-all&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/close-all&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/encryption&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/encryption&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/export-page&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/export-page&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/fold-all&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/fold-all&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/full-screen&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/full-screen&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/home&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/home&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/refresh&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/refresh&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/import&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/import&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/language&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/language&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/tag-manager&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/tag-manager&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/more-page-actions&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/more-page-actions&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/new-journal&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/new-journal&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/palette&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/palette&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/permaview&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/permaview&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/storyview&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/storyview&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/theme&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/theme&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/unfold-all&quot;: {
            &quot;title&quot;: &quot;$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/unfold-all&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/Performance/Instrumentation&quot;: {
            &quot;title&quot;: &quot;$:/config/Performance/Instrumentation&quot;,
            &quot;text&quot;: &quot;no&quot;
        },
        &quot;$:/config/SaveWikiButton/Template&quot;: {
            &quot;title&quot;: &quot;$:/config/SaveWikiButton/Template&quot;,
            &quot;text&quot;: &quot;$:/core/save/all&quot;
        },
        &quot;$:/config/SaverFilter&quot;: {
            &quot;title&quot;: &quot;$:/config/SaverFilter&quot;,
            &quot;text&quot;: &quot;[all[]] -[[$:/HistoryList]] -[[$:/StoryList]] -[[$:/Import]] -[[$:/isEncrypted]] -[[$:/UploadName]] -[prefix[$:/state/]] -[prefix[$:/temp/]]&quot;
        },
        &quot;$:/config/Search/AutoFocus&quot;: {
            &quot;title&quot;: &quot;$:/config/Search/AutoFocus&quot;,
            &quot;text&quot;: &quot;true&quot;
        },
        &quot;$:/config/SearchResults/Default&quot;: {
            &quot;title&quot;: &quot;$:/config/SearchResults/Default&quot;,
            &quot;text&quot;: &quot;$:/core/ui/DefaultSearchResultList&quot;
        },
        &quot;$:/config/SyncFilter&quot;: {
            &quot;title&quot;: &quot;$:/config/SyncFilter&quot;,
            &quot;text&quot;: &quot;[is[tiddler]] -[[$:/HistoryList]] -[[$:/Import]] -[[$:/isEncrypted]] -[prefix[$:/status/]] -[prefix[$:/state/]] -[prefix[$:/temp/]]&quot;
        },
        &quot;$:/config/TiddlerInfo/Default&quot;: {
            &quot;title&quot;: &quot;$:/config/TiddlerInfo/Default&quot;,
            &quot;text&quot;: &quot;$:/core/ui/TiddlerInfo/Fields&quot;
        },
        &quot;$:/config/Tiddlers/TitleLinks&quot;: {
            &quot;title&quot;: &quot;$:/config/Tiddlers/TitleLinks&quot;,
            &quot;text&quot;: &quot;no&quot;
        },
        &quot;$:/config/Toolbar/ButtonClass&quot;: {
            &quot;title&quot;: &quot;$:/config/Toolbar/ButtonClass&quot;,
            &quot;text&quot;: &quot;tc-btn-invisible&quot;
        },
        &quot;$:/config/Toolbar/Icons&quot;: {
            &quot;title&quot;: &quot;$:/config/Toolbar/Icons&quot;,
            &quot;text&quot;: &quot;yes&quot;
        },
        &quot;$:/config/Toolbar/Text&quot;: {
            &quot;title&quot;: &quot;$:/config/Toolbar/Text&quot;,
            &quot;text&quot;: &quot;no&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/clone&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/clone&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/close-others&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/close-others&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/export-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/export-tiddler&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/info&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/info&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/more-tiddler-actions&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/more-tiddler-actions&quot;,
            &quot;text&quot;: &quot;show&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/new-here&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/new-here&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/new-journal-here&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/new-journal-here&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/open-window&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/open-window&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/permalink&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/permalink&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/permaview&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/permaview&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/delete&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/delete&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/fold&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/fold&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/fold-bar&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/fold-bar&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/fold-others&quot;: {
            &quot;title&quot;: &quot;$:/config/ViewToolbarButtons/Visibility/$:/core/ui/Buttons/fold-others&quot;,
            &quot;text&quot;: &quot;hide&quot;
        },
        &quot;$:/config/shortcuts/cancel-edit-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/config/shortcuts/cancel-edit-tiddler&quot;,
            &quot;text&quot;: &quot;escape&quot;
        },
        &quot;$:/config/shortcuts/save-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/config/shortcuts/save-tiddler&quot;,
            &quot;text&quot;: &quot;ctrl+enter&quot;
        },
        &quot;$:/config/WikiParserRules/Inline/wikilink&quot;: {
            &quot;title&quot;: &quot;$:/config/WikiParserRules/Inline/wikilink&quot;,
            &quot;text&quot;: &quot;enable&quot;
        },
        &quot;$:/snippets/currpalettepreview&quot;: {
            &quot;title&quot;: &quot;$:/snippets/currpalettepreview&quot;,
            &quot;text&quot;: &quot;\\define swatchStyle()\nbackground-color: $(swatchColour)$;\n\\end\n\\define swatch(colour)\n&lt;$set name=\&quot;swatchColour\&quot; value={{##$colour$}}&gt;\n&lt;div class=\&quot;tc-swatch\&quot; style=&lt;&lt;swatchStyle&gt;&gt;/&gt;\n&lt;/$set&gt;\n\\end\n&lt;div class=\&quot;tc-swatches-horiz\&quot;&gt;\n&lt;&lt;swatch foreground&gt;&gt;\n&lt;&lt;swatch background&gt;&gt;\n&lt;&lt;swatch muted-foreground&gt;&gt;\n&lt;&lt;swatch primary&gt;&gt;\n&lt;&lt;swatch page-background&gt;&gt;\n&lt;&lt;swatch tab-background&gt;&gt;\n&lt;&lt;swatch tiddler-info-background&gt;&gt;\n&lt;/div&gt;\n&quot;
        },
        &quot;$:/snippets/download-wiki-button&quot;: {
            &quot;title&quot;: &quot;$:/snippets/download-wiki-button&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Tools/Download/\n&lt;$button class=\&quot;tc-btn-big-green\&quot;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-download-file\&quot; $param=\&quot;$:/core/save/all\&quot; filename=\&quot;index.html\&quot;/&gt;\n&lt;&lt;lingo Full/Caption&gt;&gt; {{$:/core/images/save-button}}\n&lt;/$button&gt;&quot;
        },
        &quot;$:/language&quot;: {
            &quot;title&quot;: &quot;$:/language&quot;,
            &quot;text&quot;: &quot;$:/languages/en-GB&quot;
        },
        &quot;$:/snippets/languageswitcher&quot;: {
            &quot;title&quot;: &quot;$:/snippets/languageswitcher&quot;,
            &quot;text&quot;: &quot;{{$:/language/ControlPanel/Basics/Language/Prompt}} &lt;$select tiddler=\&quot;$:/language\&quot;&gt;\n&lt;$list filter=\&quot;[[$:/languages/en-GB]] [plugin-type[language]sort[description]]\&quot;&gt;\n&lt;option value=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;$view field=\&quot;description\&quot;&gt;&lt;$view field=\&quot;name\&quot;&gt;&lt;$view field=\&quot;title\&quot;/&gt;&lt;/$view&gt;&lt;/$view&gt;&lt;/option&gt;\n&lt;/$list&gt;\n&lt;/$select&gt;&quot;
        },
        &quot;$:/core/macros/CSS&quot;: {
            &quot;title&quot;: &quot;$:/core/macros/CSS&quot;,
            &quot;tags&quot;: &quot;$:/tags/Macro&quot;,
            &quot;text&quot;: &quot;\\define colour(name)\n&lt;$transclude tiddler={{$:/palette}} index=\&quot;$name$\&quot;&gt;&lt;$transclude tiddler=\&quot;$:/palettes/Vanilla\&quot; index=\&quot;$name$\&quot;/&gt;&lt;/$transclude&gt;\n\\end\n\n\\define color(name)\n&lt;&lt;colour $name$&gt;&gt;\n\\end\n\n\\define box-shadow(shadow)\n``\n  -webkit-box-shadow: $shadow$;\n     -moz-box-shadow: $shadow$;\n          box-shadow: $shadow$;\n``\n\\end\n\n\\define filter(filter)\n``\n  -webkit-filter: $filter$;\n     -moz-filter: $filter$;\n          filter: $filter$;\n``\n\\end\n\n\\define transition(transition)\n``\n  -webkit-transition: $transition$;\n     -moz-transition: $transition$;\n          transition: $transition$;\n``\n\\end\n\n\\define transform-origin(origin)\n``\n  -webkit-transform-origin: $origin$;\n     -moz-transform-origin: $origin$;\n          transform-origin: $origin$;\n``\n\\end\n\n\\define background-linear-gradient(gradient)\n``\nbackground-image: linear-gradient($gradient$);\nbackground-image: -o-linear-gradient($gradient$);\nbackground-image: -moz-linear-gradient($gradient$);\nbackground-image: -webkit-linear-gradient($gradient$);\nbackground-image: -ms-linear-gradient($gradient$);\n``\n\\end\n\n\\define datauri(title)\n&lt;$macrocall $name=\&quot;makedatauri\&quot; type={{$title$!!type}} text={{$title$}}/&gt;\n\\end\n\n\\define if-sidebar(text)\n&lt;$reveal state=\&quot;$:/state/sidebar\&quot; type=\&quot;match\&quot; text=\&quot;yes\&quot; default=\&quot;yes\&quot;&gt;$text$&lt;/$reveal&gt;\n\\end\n\n\\define if-no-sidebar(text)\n&lt;$reveal state=\&quot;$:/state/sidebar\&quot; type=\&quot;nomatch\&quot; text=\&quot;yes\&quot; default=\&quot;yes\&quot;&gt;$text$&lt;/$reveal&gt;\n\\end\n&quot;
        },
        &quot;$:/core/macros/export&quot;: {
            &quot;title&quot;: &quot;$:/core/macros/export&quot;,
            &quot;tags&quot;: &quot;$:/tags/Macro&quot;,
            &quot;text&quot;: &quot;\\define exportButtonFilename(baseFilename)\n$baseFilename$$(extension)$\n\\end\n\n\\define exportButton(exportFilter:\&quot;[!is[system]sort[title]]\&quot;,lingoBase,baseFilename:\&quot;tiddlers\&quot;)\n&lt;span class=\&quot;tc-popup-keep\&quot;&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/export\&quot;&gt;&gt; tooltip={{$lingoBase$Hint}} aria-label={{$lingoBase$Caption}} class=&lt;&lt;tv-config-toolbar-class&gt;&gt; selectedClass=\&quot;tc-selected\&quot;&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-icons&gt;prefix[yes]]\&quot;&gt;\n{{$:/core/images/export-button}}\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;tv-config-toolbar-text&gt;prefix[yes]]\&quot;&gt;\n&lt;span class=\&quot;tc-btn-text\&quot;&gt;&lt;$text text={{$lingoBase$Caption}}/&gt;&lt;/span&gt;\n&lt;/$list&gt;\n&lt;/$button&gt;\n&lt;/span&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/export\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;below\&quot; animate=\&quot;yes\&quot;&gt;\n&lt;div class=\&quot;tc-drop-down\&quot;&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/Exporter]]\&quot;&gt;\n&lt;$set name=\&quot;extension\&quot; value={{!!extension}}&gt;\n&lt;$button class=\&quot;tc-btn-invisible\&quot;&gt;\n&lt;$action-sendmessage $message=\&quot;tm-download-file\&quot; $param=&lt;&lt;currentTiddler&gt;&gt; exportFilter=\&quot;\&quot;\&quot;$exportFilter$\&quot;\&quot;\&quot; filename=&lt;&lt;exportButtonFilename \&quot;\&quot;\&quot;$baseFilename$\&quot;\&quot;\&quot;&gt;&gt;/&gt;\n&lt;$action-deletetiddler $tiddler=&lt;&lt;qualify \&quot;$:/state/popup/export\&quot;&gt;&gt;/&gt;\n&lt;$transclude field=\&quot;description\&quot;/&gt;\n&lt;/$button&gt;\n&lt;/$set&gt;\n&lt;/$list&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n\\end\n&quot;
        },
        &quot;$:/core/macros/lingo&quot;: {
            &quot;title&quot;: &quot;$:/core/macros/lingo&quot;,
            &quot;tags&quot;: &quot;$:/tags/Macro&quot;,
            &quot;text&quot;: &quot;\\define lingo-base()\n$:/language/\n\\end\n\n\\define lingo(title)\n{{$(lingo-base)$$title$}}\n\\end\n&quot;
        },
        &quot;$:/core/macros/list&quot;: {
            &quot;title&quot;: &quot;$:/core/macros/list&quot;,
            &quot;tags&quot;: &quot;$:/tags/Macro&quot;,
            &quot;text&quot;: &quot;\\define list-links(filter,type:\&quot;ul\&quot;,subtype:\&quot;li\&quot;,class:\&quot;\&quot;)\n&lt;$type$ class=\&quot;$class$\&quot;&gt;\n&lt;$list filter=\&quot;$filter$\&quot;&gt;\n&lt;$subtype$&gt;\n&lt;$link to={{!!title}}&gt;\n&lt;$transclude field=\&quot;caption\&quot;&gt;\n&lt;$view field=\&quot;title\&quot;/&gt;\n&lt;/$transclude&gt;\n&lt;/$link&gt;\n&lt;/$subtype$&gt;\n&lt;/$list&gt;\n&lt;/$type$&gt;\n\\end\n&quot;
        },
        &quot;$:/core/macros/tabs&quot;: {
            &quot;title&quot;: &quot;$:/core/macros/tabs&quot;,
            &quot;tags&quot;: &quot;$:/tags/Macro&quot;,
            &quot;text&quot;: &quot;\\define tabs(tabsList,default,state:\&quot;$:/state/tab\&quot;,class,template)\n&lt;div class=\&quot;tc-tab-set $class$\&quot;&gt;\n&lt;div class=\&quot;tc-tab-buttons $class$\&quot;&gt;\n&lt;$list filter=\&quot;$tabsList$\&quot; variable=\&quot;currentTab\&quot;&gt;&lt;$set name=\&quot;save-currentTiddler\&quot; value=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;$tiddler tiddler=&lt;&lt;currentTab&gt;&gt;&gt;&lt;$button set=&lt;&lt;qualify \&quot;$state$\&quot;&gt;&gt; setTo=&lt;&lt;currentTab&gt;&gt; default=\&quot;$default$\&quot; selectedClass=\&quot;tc-tab-selected\&quot; tooltip={{!!tooltip}}&gt;\n&lt;$tiddler tiddler=&lt;&lt;save-currentTiddler&gt;&gt;&gt;\n&lt;$set name=\&quot;tv-wikilinks\&quot; value=\&quot;no\&quot;&gt;\n&lt;$transclude tiddler=&lt;&lt;currentTab&gt;&gt; field=\&quot;caption\&quot;&gt;\n&lt;$macrocall $name=\&quot;currentTab\&quot; $type=\&quot;text/plain\&quot; $output=\&quot;text/plain\&quot;/&gt;\n&lt;/$transclude&gt;\n&lt;/$set&gt;&lt;/$tiddler&gt;&lt;/$button&gt;&lt;/$tiddler&gt;&lt;/$set&gt;&lt;/$list&gt;\n&lt;/div&gt;\n&lt;div class=\&quot;tc-tab-divider $class$\&quot;/&gt;\n&lt;div class=\&quot;tc-tab-content $class$\&quot;&gt;\n&lt;$list filter=\&quot;$tabsList$\&quot; variable=\&quot;currentTab\&quot;&gt;\n\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;qualify \&quot;$state$\&quot;&gt;&gt; text=&lt;&lt;currentTab&gt;&gt; default=\&quot;$default$\&quot;&gt;\n\n&lt;$transclude tiddler=\&quot;$template$\&quot; mode=\&quot;block\&quot;&gt;\n\n&lt;$transclude tiddler=&lt;&lt;currentTab&gt;&gt; mode=\&quot;block\&quot;/&gt;\n\n&lt;/$transclude&gt;\n\n&lt;/$reveal&gt;\n\n&lt;/$list&gt;\n&lt;/div&gt;\n&lt;/div&gt;\n\\end\n&quot;
        },
        &quot;$:/core/macros/tag&quot;: {
            &quot;title&quot;: &quot;$:/core/macros/tag&quot;,
            &quot;tags&quot;: &quot;$:/tags/Macro&quot;,
            &quot;text&quot;: &quot;\\define tag(tag)\n{{$tag$||$:/core/ui/TagTemplate}}\n\\end\n&quot;
        },
        &quot;$:/core/macros/thumbnails&quot;: {
            &quot;title&quot;: &quot;$:/core/macros/thumbnails&quot;,
            &quot;tags&quot;: &quot;$:/tags/Macro&quot;,
            &quot;text&quot;: &quot;\\define thumbnail(link,icon,color,background-color,image,caption,width:\&quot;280\&quot;,height:\&quot;157\&quot;)\n&lt;$link to=\&quot;\&quot;\&quot;$link$\&quot;\&quot;\&quot;&gt;&lt;div class=\&quot;tc-thumbnail-wrapper\&quot;&gt;\n&lt;div class=\&quot;tc-thumbnail-image\&quot; style=\&quot;width:$width$px;height:$height$px;\&quot;&gt;&lt;$reveal type=\&quot;nomatch\&quot; text=\&quot;\&quot; default=\&quot;\&quot;\&quot;$image$\&quot;\&quot;\&quot; tag=\&quot;div\&quot; style=\&quot;width:$width$px;height:$height$px;\&quot;&gt;\n[img[$image$]]\n&lt;/$reveal&gt;&lt;$reveal type=\&quot;match\&quot; text=\&quot;\&quot; default=\&quot;\&quot;\&quot;$image$\&quot;\&quot;\&quot; tag=\&quot;div\&quot; class=\&quot;tc-thumbnail-background\&quot; style=\&quot;width:$width$px;height:$height$px;background-color:$background-color$;\&quot;&gt;&lt;/$reveal&gt;&lt;/div&gt;&lt;div class=\&quot;tc-thumbnail-icon\&quot; style=\&quot;fill:$color$;color:$color$;\&quot;&gt;\n$icon$\n&lt;/div&gt;&lt;div class=\&quot;tc-thumbnail-caption\&quot;&gt;\n$caption$\n&lt;/div&gt;\n&lt;/div&gt;&lt;/$link&gt;\n\\end\n\n\\define thumbnail-right(link,icon,color,background-color,image,caption,width:\&quot;280\&quot;,height:\&quot;157\&quot;)\n&lt;div class=\&quot;tc-thumbnail-right-wrapper\&quot;&gt;&lt;&lt;thumbnail \&quot;\&quot;\&quot;$link$\&quot;\&quot;\&quot; \&quot;\&quot;\&quot;$icon$\&quot;\&quot;\&quot; \&quot;\&quot;\&quot;$color$\&quot;\&quot;\&quot; \&quot;\&quot;\&quot;$background-color$\&quot;\&quot;\&quot; \&quot;\&quot;\&quot;$image$\&quot;\&quot;\&quot; \&quot;\&quot;\&quot;$caption$\&quot;\&quot;\&quot; \&quot;\&quot;\&quot;$width$\&quot;\&quot;\&quot; \&quot;\&quot;\&quot;$height$\&quot;\&quot;\&quot;&gt;&gt;&lt;/div&gt;\n\\end\n\n\\define list-thumbnails(filter,width:\&quot;280\&quot;,height:\&quot;157\&quot;)\n&lt;$list filter=\&quot;\&quot;\&quot;$filter$\&quot;\&quot;\&quot;&gt;&lt;$macrocall $name=\&quot;thumbnail\&quot; link={{!!link}} icon={{!!icon}} color={{!!color}} background-color={{!!background-color}} image={{!!image}} caption={{!!caption}} width=\&quot;\&quot;\&quot;$width$\&quot;\&quot;\&quot; height=\&quot;\&quot;\&quot;$height$\&quot;\&quot;\&quot;/&gt;&lt;/$list&gt;\n\\end\n&quot;
        },
        &quot;$:/core/macros/timeline&quot;: {
            &quot;created&quot;: &quot;20141212105914482&quot;,
            &quot;modified&quot;: &quot;20141212110330815&quot;,
            &quot;tags&quot;: &quot;$:/tags/Macro&quot;,
            &quot;title&quot;: &quot;$:/core/macros/timeline&quot;,
            &quot;type&quot;: &quot;text/vnd.tiddlywiki&quot;,
            &quot;text&quot;: &quot;\\define timeline-title()\n&lt;!-- Override this macro with a global macro \n     of the same name if you need to change \n     how titles are displayed on the timeline \n     --&gt;\n&lt;$view field=\&quot;title\&quot;/&gt;\n\\end\n\\define timeline(limit:\&quot;100\&quot;,format:\&quot;DDth MMM YYYY\&quot;,subfilter:\&quot;\&quot;,dateField:\&quot;modified\&quot;)\n&lt;div class=\&quot;tc-timeline\&quot;&gt;\n&lt;$list filter=\&quot;[!is[system]$subfilter$has[$dateField$]!sort[$dateField$]limit[$limit$]eachday[$dateField$]]\&quot;&gt;\n&lt;div class=\&quot;tc-menu-list-item\&quot;&gt;\n&lt;$view field=\&quot;$dateField$\&quot; format=\&quot;date\&quot; template=\&quot;$format$\&quot;/&gt;\n&lt;$list filter=\&quot;[sameday:$dateField${!!$dateField$}!is[system]$subfilter$!sort[$dateField$]]\&quot;&gt;\n&lt;div class=\&quot;tc-menu-list-subitem\&quot;&gt;\n&lt;$link to={{!!title}}&gt;\n&lt;&lt;timeline-title&gt;&gt;\n&lt;/$link&gt;\n&lt;/div&gt;\n&lt;/$list&gt;\n&lt;/div&gt;\n&lt;/$list&gt;\n&lt;/div&gt;\n\\end\n&quot;
        },
        &quot;$:/core/macros/toc&quot;: {
            &quot;title&quot;: &quot;$:/core/macros/toc&quot;,
            &quot;tags&quot;: &quot;$:/tags/Macro&quot;,
            &quot;text&quot;: &quot;\\define toc-caption()\n&lt;$set name=\&quot;tv-wikilinks\&quot; value=\&quot;no\&quot;&gt;\n&lt;$transclude field=\&quot;caption\&quot;&gt;\n&lt;$view field=\&quot;title\&quot;/&gt;\n&lt;/$transclude&gt;\n&lt;/$set&gt;\n\\end\n\n\\define toc-body(rootTag,tag,sort:\&quot;\&quot;,itemClassFilter)\n&lt;ol class=\&quot;tc-toc\&quot;&gt;\n&lt;$list filter=\&quot;\&quot;\&quot;[all[shadows+tiddlers]tag[$tag$]!has[draft.of]$sort$]\&quot;\&quot;\&quot;&gt;\n&lt;$set name=\&quot;toc-item-class\&quot; filter=\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot; value=\&quot;toc-item-selected\&quot; emptyValue=\&quot;toc-item\&quot;&gt;\n&lt;li class=&lt;&lt;toc-item-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[all[current]toc-link[no]]\&quot; emptyMessage=\&quot;&lt;$link&gt;&lt;$view field='caption'&gt;&lt;$view field='title'/&gt;&lt;/$view&gt;&lt;/$link&gt;\&quot;&gt;\n&lt;&lt;toc-caption&gt;&gt;\n&lt;/$list&gt;\n&lt;$list filter=\&quot;\&quot;\&quot;[all[current]] -[[$rootTag$]]\&quot;\&quot;\&quot;&gt;\n&lt;$macrocall $name=\&quot;toc-body\&quot; rootTag=\&quot;\&quot;\&quot;$rootTag$\&quot;\&quot;\&quot; tag=&lt;&lt;currentTiddler&gt;&gt; sort=\&quot;\&quot;\&quot;$sort$\&quot;\&quot;\&quot; itemClassFilter=\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot;/&gt;\n&lt;/$list&gt;\n&lt;/li&gt;\n&lt;/$set&gt;\n&lt;/$list&gt;\n&lt;/ol&gt;\n\\end\n\n\\define toc(tag,sort:\&quot;\&quot;,itemClassFilter)\n&lt;&lt;toc-body rootTag:\&quot;\&quot;\&quot;$tag$\&quot;\&quot;\&quot; tag:\&quot;\&quot;\&quot;$tag$\&quot;\&quot;\&quot; sort:\&quot;\&quot;\&quot;$sort$\&quot;\&quot;\&quot; itemClassFilter:\&quot;\&quot;\&quot;itemClassFilter\&quot;\&quot;\&quot;&gt;&gt;\n\\end\n\n\\define toc-linked-expandable-body(tag,sort:\&quot;\&quot;,itemClassFilter)\n&lt;$set name=\&quot;toc-state\&quot; value=&lt;&lt;qualify \&quot;$:/state/toc/$tag$-$(currentTiddler)$\&quot;&gt;&gt;&gt;\n&lt;$set name=\&quot;toc-item-class\&quot; filter=\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot; value=\&quot;toc-item-selected\&quot; emptyValue=\&quot;toc-item\&quot;&gt;\n&lt;li class=&lt;&lt;toc-item-class&gt;&gt;&gt;\n&lt;$link&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$button set=&lt;&lt;toc-state&gt;&gt; setTo=\&quot;open\&quot; class=\&quot;tc-btn-invisible\&quot;&gt;\n{{$:/core/images/right-arrow}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$button set=&lt;&lt;toc-state&gt;&gt; setTo=\&quot;close\&quot; class=\&quot;tc-btn-invisible\&quot;&gt;\n{{$:/core/images/down-arrow}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;&lt;toc-caption&gt;&gt;\n&lt;/$link&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$macrocall $name=\&quot;toc-expandable\&quot; tag=&lt;&lt;currentTiddler&gt;&gt; sort=\&quot;\&quot;\&quot;$sort$\&quot;\&quot;\&quot; itemClassFilter=\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot;/&gt;\n&lt;/$reveal&gt;\n&lt;/li&gt;\n&lt;/$set&gt;\n&lt;/$set&gt;\n\\end\n\n\\define toc-unlinked-expandable-body(tag,sort:\&quot;\&quot;,itemClassFilter)\n&lt;$set name=\&quot;toc-state\&quot; value=&lt;&lt;qualify \&quot;$:/state/toc/$tag$-$(currentTiddler)$\&quot;&gt;&gt;&gt;\n&lt;$set name=\&quot;toc-item-class\&quot; filter=\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot; value=\&quot;toc-item-selected\&quot; emptyValue=\&quot;toc-item\&quot;&gt;\n&lt;li class=&lt;&lt;toc-item-class&gt;&gt;&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$button set=&lt;&lt;toc-state&gt;&gt; setTo=\&quot;open\&quot; class=\&quot;tc-btn-invisible\&quot;&gt;\n{{$:/core/images/right-arrow}}\n&lt;&lt;toc-caption&gt;&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$button set=&lt;&lt;toc-state&gt;&gt; setTo=\&quot;close\&quot; class=\&quot;tc-btn-invisible\&quot;&gt;\n{{$:/core/images/down-arrow}}\n&lt;&lt;toc-caption&gt;&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$macrocall $name=\&quot;toc-expandable\&quot; tag=&lt;&lt;currentTiddler&gt;&gt; sort=\&quot;\&quot;\&quot;$sort$\&quot;\&quot;\&quot; itemClassFilter=\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot;/&gt;\n&lt;/$reveal&gt;\n&lt;/li&gt;\n&lt;/$set&gt;\n&lt;/$set&gt;\n\\end\n\n\\define toc-expandable(tag,sort:\&quot;\&quot;,itemClassFilter)\n&lt;ol class=\&quot;tc-toc toc-expandable\&quot;&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$tag$]!has[draft.of]$sort$]\&quot;&gt;\n&lt;$list filter=\&quot;[all[current]toc-link[no]]\&quot; emptyMessage=\&quot;&lt;&lt;toc-linked-expandable-body tag:'$tag$' sort:'$sort$' itemClassFilter:'$itemClassFilter$'&gt;&gt;\&quot;&gt;\n&lt;&lt;toc-unlinked-expandable-body tag:\&quot;\&quot;\&quot;$tag$\&quot;\&quot;\&quot; sort:\&quot;\&quot;\&quot;$sort$\&quot;\&quot;\&quot; itemClassFilter:\&quot;\&quot;\&quot;itemClassFilter\&quot;\&quot;\&quot;&gt;&gt;\n&lt;/$list&gt;\n&lt;/$list&gt;\n&lt;/ol&gt;\n\\end\n\n\\define toc-linked-selective-expandable-body(tag,sort:\&quot;\&quot;,itemClassFilter)\n&lt;$set name=\&quot;toc-state\&quot; value=&lt;&lt;qualify \&quot;$:/state/toc/$tag$-$(currentTiddler)$\&quot;&gt;&gt;&gt;\n&lt;$set name=\&quot;toc-item-class\&quot; filter=\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot; value=\&quot;toc-item-selected\&quot; emptyValue=\&quot;toc-item\&quot;&gt;\n&lt;li class=&lt;&lt;toc-item-class&gt;&gt;&gt;\n&lt;$link&gt;\n&lt;$list filter=\&quot;[all[current]tagging[]limit[1]]\&quot; variable=\&quot;ignore\&quot; emptyMessage=\&quot;&lt;$button class='tc-btn-invisible'&gt;{{$:/core/images/blank}}&lt;/$button&gt;\&quot;&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$button set=&lt;&lt;toc-state&gt;&gt; setTo=\&quot;open\&quot; class=\&quot;tc-btn-invisible\&quot;&gt;\n{{$:/core/images/right-arrow}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$button set=&lt;&lt;toc-state&gt;&gt; setTo=\&quot;close\&quot; class=\&quot;tc-btn-invisible\&quot;&gt;\n{{$:/core/images/down-arrow}}\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/$list&gt;\n&lt;&lt;toc-caption&gt;&gt;\n&lt;/$link&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$macrocall $name=\&quot;toc-selective-expandable\&quot; tag=&lt;&lt;currentTiddler&gt;&gt; sort=\&quot;\&quot;\&quot;$sort$\&quot;\&quot;\&quot; itemClassFilter=\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot;/&gt;\n&lt;/$reveal&gt;\n&lt;/li&gt;\n&lt;/$set&gt;\n&lt;/$set&gt;\n\\end\n\n\\define toc-unlinked-selective-expandable-body(tag,sort:\&quot;\&quot;,itemClassFilter)\n&lt;$set name=\&quot;toc-state\&quot; value=&lt;&lt;qualify \&quot;$:/state/toc/$tag$-$(currentTiddler)$\&quot;&gt;&gt;&gt;\n&lt;$set name=\&quot;toc-item-class\&quot; filter=\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot; value=\&quot;toc-item-selected\&quot; emptyValue=\&quot;toc-item\&quot;&gt;\n&lt;li class=&lt;&lt;toc-item-class&gt;&gt;&gt;\n&lt;$list filter=\&quot;[all[current]tagging[]limit[1]]\&quot; variable=\&quot;ignore\&quot; emptyMessage=\&quot;&lt;$button class='tc-btn-invisible'&gt;{{$:/core/images/blank}}&lt;/$button&gt; &lt;$view field='caption'&gt;&lt;$view field='title'/&gt;&lt;/$view&gt;\&quot;&gt;\n&lt;$reveal type=\&quot;nomatch\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$button set=&lt;&lt;toc-state&gt;&gt; setTo=\&quot;open\&quot; class=\&quot;tc-btn-invisible\&quot;&gt;\n{{$:/core/images/right-arrow}}\n&lt;&lt;toc-caption&gt;&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$button set=&lt;&lt;toc-state&gt;&gt; setTo=\&quot;close\&quot; class=\&quot;tc-btn-invisible\&quot;&gt;\n{{$:/core/images/down-arrow}}\n&lt;&lt;toc-caption&gt;&gt;\n&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;/$list&gt;\n&lt;$reveal type=\&quot;match\&quot; state=&lt;&lt;toc-state&gt;&gt; text=\&quot;open\&quot;&gt;\n&lt;$macrocall $name=\&quot;\&quot;\&quot;toc-selective-expandable\&quot;\&quot;\&quot; tag=&lt;&lt;currentTiddler&gt;&gt; sort=\&quot;\&quot;\&quot;$sort$\&quot;\&quot;\&quot; itemClassFilter=\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot;/&gt;\n&lt;/$reveal&gt;\n&lt;/li&gt;\n&lt;/$set&gt;\n&lt;/$set&gt;\n\\end\n\n\\define toc-selective-expandable(tag,sort:\&quot;\&quot;,itemClassFilter)\n&lt;ol class=\&quot;tc-toc toc-selective-expandable\&quot;&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$tag$]!has[draft.of]$sort$]\&quot;&gt;\n&lt;$list filter=\&quot;[all[current]toc-link[no]]\&quot; variable=\&quot;ignore\&quot; emptyMessage=\&quot;&lt;&lt;toc-linked-selective-expandable-body tag:'$tag$' sort:'$sort$' itemClassFilter:'$itemClassFilter$'&gt;&gt;\&quot;&gt;\n&lt;&lt;toc-unlinked-selective-expandable-body tag:\&quot;\&quot;\&quot;$tag$\&quot;\&quot;\&quot; sort:\&quot;\&quot;\&quot;$sort$\&quot;\&quot;\&quot; itemClassFilter:\&quot;\&quot;\&quot;$itemClassFilter$\&quot;\&quot;\&quot;&gt;&gt;\n&lt;/$list&gt;\n&lt;/$list&gt;\n&lt;/ol&gt;\n\\end\n\n\\define toc-tabbed-selected-item-filter(selectedTiddler)\n[all[current]field:title{$selectedTiddler$}]\n\\end\n\n\\define toc-tabbed-external-nav(tag,sort:\&quot;\&quot;,selectedTiddler:\&quot;$:/temp/toc/selectedTiddler\&quot;,unselectedText,missingText,template:\&quot;\&quot;)\n&lt;$tiddler tiddler={{$selectedTiddler$}}&gt;\n&lt;div class=\&quot;tc-tabbed-table-of-contents\&quot;&gt;\n&lt;$linkcatcher to=\&quot;$selectedTiddler$\&quot;&gt;\n&lt;div class=\&quot;tc-table-of-contents\&quot;&gt;\n&lt;$macrocall $name=\&quot;toc-selective-expandable\&quot; tag=\&quot;\&quot;\&quot;$tag$\&quot;\&quot;\&quot; sort=\&quot;\&quot;\&quot;$sort$\&quot;\&quot;\&quot; itemClassFilter=&lt;&lt;toc-tabbed-selected-item-filter selectedTiddler:\&quot;\&quot;\&quot;$selectedTiddler$\&quot;\&quot;\&quot;&gt;&gt;/&gt;\n&lt;/div&gt;\n&lt;/$linkcatcher&gt;\n&lt;div class=\&quot;tc-tabbed-table-of-contents-content\&quot;&gt;\n&lt;$reveal state=\&quot;\&quot;\&quot;$selectedTiddler$\&quot;\&quot;\&quot; type=\&quot;nomatch\&quot; text=\&quot;\&quot;&gt;\n&lt;$transclude mode=\&quot;block\&quot; tiddler=\&quot;$template$\&quot;&gt;\n&lt;h1&gt;&lt;&lt;toc-caption&gt;&gt;&lt;/h1&gt;\n&lt;$transclude mode=\&quot;block\&quot;&gt;$missingText$&lt;/$transclude&gt;\n&lt;/$transclude&gt;\n&lt;/$reveal&gt;\n&lt;$reveal state=\&quot;\&quot;\&quot;$selectedTiddler$\&quot;\&quot;\&quot; type=\&quot;match\&quot; text=\&quot;\&quot;&gt;\n$unselectedText$\n&lt;/$reveal&gt;\n&lt;/div&gt;\n&lt;/div&gt;\n&lt;/$tiddler&gt;\n\\end\n\n\\define toc-tabbed-internal-nav(tag,sort:\&quot;\&quot;,selectedTiddler:\&quot;$:/temp/toc/selectedTiddler\&quot;,unselectedText,missingText,template:\&quot;\&quot;)\n&lt;$linkcatcher to=\&quot;\&quot;\&quot;$selectedTiddler$\&quot;\&quot;\&quot;&gt;\n&lt;$macrocall $name=\&quot;toc-tabbed-external-nav\&quot; tag=\&quot;\&quot;\&quot;$tag$\&quot;\&quot;\&quot; sort=\&quot;\&quot;\&quot;$sort$\&quot;\&quot;\&quot; selectedTiddler=\&quot;\&quot;\&quot;$selectedTiddler$\&quot;\&quot;\&quot; unselectedText=\&quot;\&quot;\&quot;$unselectedText$\&quot;\&quot;\&quot; missingText=\&quot;\&quot;\&quot;$missingText$\&quot;\&quot;\&quot; template=\&quot;\&quot;\&quot;$template$\&quot;\&quot;\&quot;/&gt;\n&lt;/$linkcatcher&gt;\n\\end\n\n&quot;
        },
        &quot;$:/snippets/minilanguageswitcher&quot;: {
            &quot;title&quot;: &quot;$:/snippets/minilanguageswitcher&quot;,
            &quot;text&quot;: &quot;&lt;$select tiddler=\&quot;$:/language\&quot;&gt;\n&lt;$list filter=\&quot;[[$:/languages/en-GB]] [plugin-type[language]sort[title]]\&quot;&gt;\n&lt;option value=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;$view field=\&quot;description\&quot;&gt;&lt;$view field=\&quot;name\&quot;&gt;&lt;$view field=\&quot;title\&quot;/&gt;&lt;/$view&gt;&lt;/$view&gt;&lt;/option&gt;\n&lt;/$list&gt;\n&lt;/$select&gt;&quot;
        },
        &quot;$:/snippets/minithemeswitcher&quot;: {
            &quot;title&quot;: &quot;$:/snippets/minithemeswitcher&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Theme/\n&lt;&lt;lingo Prompt&gt;&gt; &lt;$select tiddler=\&quot;$:/theme\&quot;&gt;\n&lt;$list filter=\&quot;[plugin-type[theme]sort[title]]\&quot;&gt;\n&lt;option value=&lt;&lt;currentTiddler&gt;&gt;&gt;&lt;$view field=\&quot;name\&quot;&gt;&lt;$view field=\&quot;title\&quot;/&gt;&lt;/$view&gt;&lt;/option&gt;\n&lt;/$list&gt;\n&lt;/$select&gt;&quot;
        },
        &quot;$:/snippets/modules&quot;: {
            &quot;title&quot;: &quot;$:/snippets/modules&quot;,
            &quot;text&quot;: &quot;\\define describeModuleType(type)\n{{$:/language/Docs/ModuleTypes/$type$}}\n\\end\n&lt;$list filter=\&quot;[moduletypes[]]\&quot;&gt;\n\n!! &lt;$macrocall $name=\&quot;currentTiddler\&quot; $type=\&quot;text/plain\&quot; $output=\&quot;text/plain\&quot;/&gt;\n\n&lt;$macrocall $name=\&quot;describeModuleType\&quot; type=&lt;&lt;currentTiddler&gt;&gt;/&gt;\n\n&lt;ul&gt;&lt;$list filter=\&quot;[all[current]modules[]]\&quot;&gt;&lt;li&gt;&lt;$link&gt;&lt;&lt;currentTiddler&gt;&gt;&lt;/$link&gt;\n&lt;/li&gt;\n&lt;/$list&gt;\n&lt;/ul&gt;\n&lt;/$list&gt;\n&quot;
        },
        &quot;$:/palette&quot;: {
            &quot;title&quot;: &quot;$:/palette&quot;,
            &quot;text&quot;: &quot;$:/palettes/Vanilla&quot;
        },
        &quot;$:/snippets/paletteeditor&quot;: {
            &quot;title&quot;: &quot;$:/snippets/paletteeditor&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Palette/Editor/\n\\define describePaletteColour(colour)\n&lt;$transclude tiddler=\&quot;$:/language/Docs/PaletteColours/$colour$\&quot;&gt;&lt;$text text=\&quot;$colour$\&quot;/&gt;&lt;/$transclude&gt;\n\\end\n&lt;$set name=\&quot;currentTiddler\&quot; value={{$:/palette}}&gt;\n\n&lt;&lt;lingo Prompt&gt;&gt; &lt;$link to={{$:/palette}}&gt;&lt;$macrocall $name=\&quot;currentTiddler\&quot; $output=\&quot;text/plain\&quot;/&gt;&lt;/$link&gt;\n\n&lt;$list filter=\&quot;[all[current]is[shadow]is[tiddler]]\&quot; variable=\&quot;listItem\&quot;&gt;\n&lt;&lt;lingo Prompt/Modified&gt;&gt;\n&lt;$button message=\&quot;tm-delete-tiddler\&quot; param={{$:/palette}}&gt;&lt;&lt;lingo Reset/Caption&gt;&gt;&lt;/$button&gt;\n&lt;/$list&gt;\n\n&lt;$list filter=\&quot;[all[current]is[shadow]!is[tiddler]]\&quot; variable=\&quot;listItem\&quot;&gt;\n&lt;&lt;lingo Clone/Prompt&gt;&gt;\n&lt;/$list&gt;\n\n&lt;$button message=\&quot;tm-new-tiddler\&quot; param={{$:/palette}}&gt;&lt;&lt;lingo Clone/Caption&gt;&gt;&lt;/$button&gt;\n\n&lt;table&gt;\n&lt;tbody&gt;\n&lt;$list filter=\&quot;[all[current]indexes[]]\&quot; variable=\&quot;colourName\&quot;&gt;\n&lt;tr&gt;\n&lt;td&gt;\n''&lt;$macrocall $name=\&quot;describePaletteColour\&quot; colour=&lt;&lt;colourName&gt;&gt;/&gt;''&lt;br/&gt;\n&lt;$macrocall $name=\&quot;colourName\&quot; $output=\&quot;text/plain\&quot;/&gt;\n&lt;/td&gt;\n&lt;td&gt;\n&lt;$edit-text index=&lt;&lt;colourName&gt;&gt; tag=\&quot;input\&quot;/&gt;\n&lt;br&gt;\n&lt;$edit-text index=&lt;&lt;colourName&gt;&gt; type=\&quot;color\&quot; tag=\&quot;input\&quot;/&gt;\n&lt;/td&gt;\n&lt;/tr&gt;\n&lt;/$list&gt;\n&lt;/tbody&gt;\n&lt;/table&gt;\n&lt;/$set&gt;\n&quot;
        },
        &quot;$:/snippets/palettepreview&quot;: {
            &quot;title&quot;: &quot;$:/snippets/palettepreview&quot;,
            &quot;text&quot;: &quot;&lt;$set name=\&quot;currentTiddler\&quot; value={{$:/palette}}&gt;\n&lt;$transclude tiddler=\&quot;$:/snippets/currpalettepreview\&quot;/&gt;\n&lt;/$set&gt;\n&quot;
        },
        &quot;$:/snippets/paletteswitcher&quot;: {
            &quot;title&quot;: &quot;$:/snippets/paletteswitcher&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Palette/\n&lt;div class=\&quot;tc-prompt\&quot;&gt;\n&lt;&lt;lingo Prompt&gt;&gt; &lt;$view tiddler={{$:/palette}} field=\&quot;name\&quot;/&gt;\n&lt;/div&gt;\n\n&lt;$linkcatcher to=\&quot;$:/palette\&quot;&gt;\n&lt;div class=\&quot;tc-chooser\&quot;&gt;&lt;$list filter=\&quot;[all[shadows+tiddlers]tag[$:/tags/Palette]sort[description]]\&quot;&gt;&lt;div class=\&quot;tc-chooser-item\&quot;&gt;&lt;$link to={{!!title}}&gt;&lt;div&gt;&lt;$reveal state=\&quot;$:/palette\&quot; type=\&quot;match\&quot; text={{!!title}}&gt;&amp;bull;&lt;/$reveal&gt;&lt;$reveal state=\&quot;$:/palette\&quot; type=\&quot;nomatch\&quot; text={{!!title}}&gt;&amp;nbsp;&lt;/$reveal&gt; ''&lt;$view field=\&quot;name\&quot; format=\&quot;text\&quot;/&gt;'' - &lt;$view field=\&quot;description\&quot; format=\&quot;text\&quot;/&gt;&lt;/div&gt;&lt;$transclude tiddler=\&quot;$:/snippets/currpalettepreview\&quot;/&gt;&lt;/$link&gt;&lt;/div&gt;\n&lt;/$list&gt;\n&lt;/div&gt;\n&lt;/$linkcatcher&gt;&quot;
        },
        &quot;$:/temp/search&quot;: {
            &quot;title&quot;: &quot;$:/temp/search&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/tags/AdvancedSearch&quot;: {
            &quot;title&quot;: &quot;$:/tags/AdvancedSearch&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/AdvancedSearch/Standard]] [[$:/core/ui/AdvancedSearch/System]] [[$:/core/ui/AdvancedSearch/Shadows]] [[$:/core/ui/AdvancedSearch/Filter]]&quot;
        },
        &quot;$:/tags/ControlPanel&quot;: {
            &quot;title&quot;: &quot;$:/tags/ControlPanel&quot;,
            &quot;list&quot;: &quot;$:/core/ui/ControlPanel/Info $:/core/ui/ControlPanel/Appearance $:/core/ui/ControlPanel/Settings $:/core/ui/ControlPanel/Saving $:/core/ui/ControlPanel/Plugins $:/core/ui/ControlPanel/Tools $:/core/ui/ControlPanel/Internals&quot;
        },
        &quot;$:/tags/ControlPanel/Info&quot;: {
            &quot;title&quot;: &quot;$:/tags/ControlPanel/Info&quot;,
            &quot;list&quot;: &quot;$:/core/ui/ControlPanel/Basics $:/core/ui/ControlPanel/Advanced&quot;
        },
        &quot;$:/tags/ControlPanel/Plugins&quot;: {
            &quot;title&quot;: &quot;$:/tags/ControlPanel/Plugins&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/ControlPanel/Plugins/Installed]] [[$:/core/ui/ControlPanel/Plugins/Add]]&quot;
        },
        &quot;$:/tags/EditTemplate&quot;: {
            &quot;title&quot;: &quot;$:/tags/EditTemplate&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/EditTemplate/controls]] [[$:/core/ui/EditTemplate/title]] [[$:/core/ui/EditTemplate/tags]] [[$:/core/ui/EditTemplate/shadow]] [[$:/core/ui/ViewTemplate/classic]] [[$:/core/ui/EditTemplate/body]] [[$:/core/ui/EditTemplate/type]] [[$:/core/ui/EditTemplate/fields]]&quot;
        },
        &quot;$:/tags/EditToolbar&quot;: {
            &quot;title&quot;: &quot;$:/tags/EditToolbar&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/Buttons/delete]] [[$:/core/ui/Buttons/cancel]] [[$:/core/ui/Buttons/save]]&quot;
        },
        &quot;$:/tags/MoreSideBar&quot;: {
            &quot;title&quot;: &quot;$:/tags/MoreSideBar&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/MoreSideBar/All]] [[$:/core/ui/MoreSideBar/Recent]] [[$:/core/ui/MoreSideBar/Tags]] [[$:/core/ui/MoreSideBar/Missing]] [[$:/core/ui/MoreSideBar/Drafts]] [[$:/core/ui/MoreSideBar/Orphans]] [[$:/core/ui/MoreSideBar/Types]] [[$:/core/ui/MoreSideBar/System]] [[$:/core/ui/MoreSideBar/Shadows]]&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/tags/PageControls&quot;: {
            &quot;title&quot;: &quot;$:/tags/PageControls&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/Buttons/home]] [[$:/core/ui/Buttons/close-all]] [[$:/core/ui/Buttons/fold-all]] [[$:/core/ui/Buttons/unfold-all]] [[$:/core/ui/Buttons/permaview]] [[$:/core/ui/Buttons/new-tiddler]] [[$:/core/ui/Buttons/new-journal]] [[$:/core/ui/Buttons/import]] [[$:/core/ui/Buttons/export-page]] [[$:/core/ui/Buttons/control-panel]] [[$:/core/ui/Buttons/advanced-search]] [[$:/core/ui/Buttons/tag-manager]] [[$:/core/ui/Buttons/language]] [[$:/core/ui/Buttons/palette]] [[$:/core/ui/Buttons/theme]] [[$:/core/ui/Buttons/storyview]] [[$:/core/ui/Buttons/encryption]] [[$:/core/ui/Buttons/full-screen]] [[$:/core/ui/Buttons/save-wiki]] [[$:/core/ui/Buttons/refresh]] [[$:/core/ui/Buttons/more-page-actions]]&quot;
        },
        &quot;$:/tags/PageTemplate&quot;: {
            &quot;title&quot;: &quot;$:/tags/PageTemplate&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/PageTemplate/topleftbar]] [[$:/core/ui/PageTemplate/toprightbar]] [[$:/core/ui/PageTemplate/sidebar]] [[$:/core/ui/PageTemplate/story]] [[$:/core/ui/PageTemplate/alerts]]&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/tags/SideBar&quot;: {
            &quot;title&quot;: &quot;$:/tags/SideBar&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/SideBar/Open]] [[$:/core/ui/SideBar/Recent]] [[$:/core/ui/SideBar/Tools]] [[$:/core/ui/SideBar/More]]&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/tags/TiddlerInfo&quot;: {
            &quot;title&quot;: &quot;$:/tags/TiddlerInfo&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/TiddlerInfo/Tools]] [[$:/core/ui/TiddlerInfo/References]] [[$:/core/ui/TiddlerInfo/Tagging]] [[$:/core/ui/TiddlerInfo/List]] [[$:/core/ui/TiddlerInfo/Listed]] [[$:/core/ui/TiddlerInfo/Fields]]&quot;,
            &quot;text&quot;: &quot;&quot;
        },
        &quot;$:/tags/TiddlerInfo/Advanced&quot;: {
            &quot;title&quot;: &quot;$:/tags/TiddlerInfo/Advanced&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/TiddlerInfo/Advanced/ShadowInfo]] [[$:/core/ui/TiddlerInfo/Advanced/PluginInfo]]&quot;
        },
        &quot;$:/tags/ViewTemplate&quot;: {
            &quot;title&quot;: &quot;$:/tags/ViewTemplate&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/ViewTemplate/title]] [[$:/core/ui/ViewTemplate/unfold]] [[$:/core/ui/ViewTemplate/subtitle]] [[$:/core/ui/ViewTemplate/tags]] [[$:/core/ui/ViewTemplate/classic]] [[$:/core/ui/ViewTemplate/body]]&quot;
        },
        &quot;$:/tags/ViewToolbar&quot;: {
            &quot;title&quot;: &quot;$:/tags/ViewToolbar&quot;,
            &quot;list&quot;: &quot;[[$:/core/ui/Buttons/more-tiddler-actions]] [[$:/core/ui/Buttons/info]] [[$:/core/ui/Buttons/new-here]] [[$:/core/ui/Buttons/new-journal-here]] [[$:/core/ui/Buttons/clone]] [[$:/core/ui/Buttons/export-tiddler]] [[$:/core/ui/Buttons/edit]] [[$:/core/ui/Buttons/delete]] [[$:/core/ui/Buttons/permalink]] [[$:/core/ui/Buttons/permaview]] [[$:/core/ui/Buttons/open-window]] [[$:/core/ui/Buttons/close-others]] [[$:/core/ui/Buttons/close]] [[$:/core/ui/Buttons/fold-others]] [[$:/core/ui/Buttons/fold]]&quot;
        },
        &quot;$:/snippets/themeswitcher&quot;: {
            &quot;title&quot;: &quot;$:/snippets/themeswitcher&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/Theme/\n&lt;&lt;lingo Prompt&gt;&gt; &lt;$view tiddler={{$:/theme}} field=\&quot;name\&quot;/&gt;\n\n&lt;$linkcatcher to=\&quot;$:/theme\&quot;&gt;\n&lt;$list filter=\&quot;[plugin-type[theme]sort[title]]\&quot;&gt;&lt;div&gt;&lt;$reveal state=\&quot;$:/theme\&quot; type=\&quot;match\&quot; text={{!!title}}&gt;&amp;bull;&lt;/$reveal&gt;&lt;$reveal state=\&quot;$:/theme\&quot; type=\&quot;nomatch\&quot; text={{!!title}}&gt;&amp;nbsp;&lt;/$reveal&gt; &lt;$link to={{!!title}}&gt;''&lt;$view field=\&quot;name\&quot; format=\&quot;text\&quot;/&gt;'' &lt;$view field=\&quot;description\&quot; format=\&quot;text\&quot;/&gt;&lt;/$link&gt;&lt;/div&gt;\n&lt;/$list&gt;\n&lt;/$linkcatcher&gt;&quot;
        },
        &quot;$:/core/wiki/title&quot;: {
            &quot;title&quot;: &quot;$:/core/wiki/title&quot;,
            &quot;type&quot;: &quot;text/vnd.tiddlywiki&quot;,
            &quot;text&quot;: &quot;{{$:/SiteTitle}} --- {{$:/SiteSubtitle}}&quot;
        },
        &quot;$:/view&quot;: {
            &quot;title&quot;: &quot;$:/view&quot;,
            &quot;text&quot;: &quot;classic&quot;
        },
        &quot;$:/snippets/viewswitcher&quot;: {
            &quot;title&quot;: &quot;$:/snippets/viewswitcher&quot;,
            &quot;text&quot;: &quot;\\define lingo-base() $:/language/ControlPanel/StoryView/\n&lt;&lt;lingo Prompt&gt;&gt; &lt;$select tiddler=\&quot;$:/view\&quot;&gt;\n&lt;$list filter=\&quot;[storyviews[]]\&quot;&gt;\n&lt;option&gt;&lt;$view field=\&quot;title\&quot;/&gt;&lt;/option&gt;\n&lt;/$list&gt;\n&lt;/$select&gt;&quot;
        }
    }
}</pre>
</div>
<div title="$:/DefaultTiddlers" revision="0" bag="default">
<pre>[[TiddlyWiki5 for TiddlyWeb]]
</pre>
</div>
<div title="$:/isEncrypted" revision="0" bag="default">
<pre>no</pre>
</div>
<div author="JeremyRuston" core-version="&gt;=5.0.0" dependents="" description="TiddlyWeb and TiddlySpace components" list="readme" plugin-type="plugin" title="$:/plugins/tiddlywiki/tiddlyweb" type="application/json" version="5.1.10" revision="0" bag="default">
<pre>{
    &quot;tiddlers&quot;: {
        &quot;GettingStarted&quot;: {
            &quot;title&quot;: &quot;GettingStarted&quot;,
            &quot;tags&quot;: &quot;$:/tags/GettingStarted&quot;,
            &quot;caption&quot;: &quot;Step 1&lt;br&gt;Syncing&quot;,
            &quot;text&quot;: &quot;Welcome to ~TiddlyWiki and the ~TiddlyWiki community\n\nVisit http://tiddlywiki.com/ to find out more about ~TiddlyWiki and what it can do.\n\n! Syncing Changes to the Server\n\nBefore you can start storing important information in ~TiddlyWiki it is important to make sure that your changes are being reliably saved by the server.\n\n# Create a new tiddler using the {{$:/core/images/new-button}} button in the sidebar on the right\n# Click the {{$:/core/images/done-button}} button at the top right of the new tiddler\n# Check the ~TiddlyWiki command line for a message confirming the tiddler has been saved\n# Refresh the page in the browser to and verify that the new tiddler has been correctly saved\n&quot;
        },
        &quot;$:/config/SaveWikiButton/Template&quot;: {
            &quot;title&quot;: &quot;$:/config/SaveWikiButton/Template&quot;,
            &quot;text&quot;: &quot;$:/plugins/tiddlywiki/tiddlyweb/save/offline&quot;
        },
        &quot;$:/plugins/tiddlywiki/tiddlyweb/ServerControlPanel&quot;: {
            &quot;title&quot;: &quot;$:/plugins/tiddlywiki/tiddlyweb/ServerControlPanel&quot;,
            &quot;caption&quot;: &quot;Server&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel&quot;,
            &quot;text&quot;: &quot;&lt;$reveal state=\&quot;$:/status/IsLoggedIn\&quot; type=\&quot;nomatch\&quot; text=\&quot;yes\&quot;&gt;\nLog in to ~TiddlyWeb: &lt;$button message=\&quot;tm-login\&quot;&gt;Login&lt;/$button&gt;\n&lt;/$reveal&gt;\n&lt;$reveal state=\&quot;$:/status/IsLoggedIn\&quot; type=\&quot;match\&quot; text=\&quot;yes\&quot;&gt;\nLogged in as {{$:/status/UserName}} &lt;$button message=\&quot;tm-logout\&quot;&gt;Logout&lt;/$button&gt;\n&lt;/$reveal&gt;\n\n----\n\nHost configuration: &lt;$edit-text tiddler=\&quot;$:/config/tiddlyweb/host\&quot; tag=\&quot;input\&quot; default=\&quot;\&quot;/&gt;\n\n&lt;blockquote&gt;//for example, `$protocol$//$host$/folder`, where `$protocol$` is replaced by the protocol (typically `http` or `https`), and `$host$` by the host name//&lt;/blockquote&gt;\n\n----\n\n&lt;$button message=\&quot;tm-server-refresh\&quot;&gt;Refresh&lt;/$button&gt; to fetch changes from the server immediately\n&quot;
        },
        &quot;$:/core/templates/html-div-tiddler&quot;: {
            &quot;title&quot;: &quot;$:/core/templates/html-div-tiddler&quot;,
            &quot;text&quot;: &quot;&lt;!--\n\nThis template is used for saving tiddlers as an HTML DIV tag with attributes representing the tiddler fields. This version includes the tiddler changecount as the field `revision`.\n\n--&gt;`&lt;div`&lt;$fields exclude='text revision bag' template=' $name$=\&quot;$encoded_value$\&quot;'&gt;&lt;/$fields&gt;` revision=\&quot;`&lt;&lt;changecount&gt;&gt;`\&quot; bag=\&quot;default\&quot;&gt;\n&lt;pre&gt;`&lt;$view field=\&quot;text\&quot; format=\&quot;htmlencoded\&quot; /&gt;`&lt;/pre&gt;\n&lt;/div&gt;`\n&quot;
        },
        &quot;$:/plugins/tiddlywiki/tiddlyweb/readme&quot;: {
            &quot;title&quot;: &quot;$:/plugins/tiddlywiki/tiddlyweb/readme&quot;,
            &quot;text&quot;: &quot;This plugin runs in the browser to synchronise tiddler changes to and from a TiddlyWeb-compatible server (including TiddlyWiki 5 itself, running on Node.js). It is inert when run under Node.js. Disabling this plugin via the browser can not be undone via the browser since this plugin provides the mechanism to synchronize settings with the server.\n\n[[Source code|https://github.com/Jermolene/TiddlyWiki5/blob/master/plugins/tiddlywiki/tiddlyweb]]\n&quot;
        },
        &quot;$:/plugins/tiddlywiki/tiddlyweb/save/offline&quot;: {
            &quot;title&quot;: &quot;$:/plugins/tiddlywiki/tiddlyweb/save/offline&quot;,
            &quot;text&quot;: &quot;\\define saveTiddlerFilter()\n[is[tiddler]] -[[$:/boot/boot.css]] -[[$:/HistoryList]] -[type[application/javascript]library[yes]] -[[$:/boot/boot.js]] -[[$:/boot/bootprefix.js]] -[[$:/plugins/tiddlywiki/filesystem]] -[[$:/plugins/tiddlywiki/tiddlyweb]] +[sort[title]] $(publishFilter)$\n\\end\n{{$:/core/templates/tiddlywiki5.html}}\n&quot;
        },
        &quot;$:/plugins/tiddlywiki/tiddlyweb/tiddlywebadaptor.js&quot;: {
            &quot;text&quot;: &quot;/*\\\ntitle: $:/plugins/tiddlywiki/tiddlyweb/tiddlywebadaptor.js\ntype: application/javascript\nmodule-type: syncadaptor\n\nA sync adaptor module for synchronising with TiddlyWeb compatible servers\n\n\\*/\n(function(){\n\n/*jslint node: true, browser: true */\n/*global $tw: false */\n\&quot;use strict\&quot;;\n\nvar CONFIG_HOST_TIDDLER = \&quot;$:/config/tiddlyweb/host\&quot;,\n\tDEFAULT_HOST_TIDDLER = \&quot;$protocol$//$host$/\&quot;;\n\nfunction TiddlyWebAdaptor(options) {\n\tthis.wiki = options.wiki;\n\tthis.host = this.getHost();\n\tthis.recipe = undefined;\n\tthis.logger = new $tw.utils.Logger(\&quot;TiddlyWebAdaptor\&quot;);\n}\n\nTiddlyWebAdaptor.prototype.getHost = function() {\n\tvar text = this.wiki.getTiddlerText(CONFIG_HOST_TIDDLER,DEFAULT_HOST_TIDDLER),\n\t\tsubstitutions = [\n\t\t\t{name: \&quot;protocol\&quot;, value: document.location.protocol},\n\t\t\t{name: \&quot;host\&quot;, value: document.location.host}\n\t\t];\n\tfor(var t=0; t&lt;substitutions.length; t++) {\n\t\tvar s = substitutions[t];\n\t\ttext = text.replace(new RegExp(\&quot;\\\\$\&quot; + s.name + \&quot;\\\\$\&quot;,\&quot;mg\&quot;),s.value);\n\t}\n\treturn text;\n};\n\nTiddlyWebAdaptor.prototype.getTiddlerInfo = function(tiddler) {\n\treturn {\n\t\tbag: tiddler.fields.bag\n\t};\n};\n\n/*\nGet the current status of the TiddlyWeb connection\n*/\nTiddlyWebAdaptor.prototype.getStatus = function(callback) {\n\t// Get status\n\tvar self = this;\n\tthis.logger.log(\&quot;Getting status\&quot;);\n\t$tw.utils.httpRequest({\n\t\turl: this.host + \&quot;status\&quot;,\n\t\tcallback: function(err,data) {\n\t\t\tif(err) {\n\t\t\t\treturn callback(err);\n\t\t\t}\n\t\t\t// Decode the status JSON\n\t\t\tvar json = null,\n\t\t\t\tisLoggedIn = false;\n\t\t\ttry {\n\t\t\t\tjson = JSON.parse(data);\n\t\t\t} catch (e) {\n\t\t\t}\n\t\t\tif(json) {\n\t\t\t\tself.logger.log(\&quot;Status:\&quot;,data);\n\t\t\t\t// Record the recipe\n\t\t\t\tif(json.space) {\n\t\t\t\t\tself.recipe = json.space.recipe;\n\t\t\t\t}\n\t\t\t\t// Check if we're logged in\n\t\t\t\tisLoggedIn = json.username !== \&quot;GUEST\&quot;;\n\t\t\t}\n\t\t\t// Invoke the callback if present\n\t\t\tif(callback) {\n\t\t\t\tcallback(null,isLoggedIn,json.username);\n\t\t\t}\n\t\t}\n\t});\n};\n\n/*\nAttempt to login and invoke the callback(err)\n*/\nTiddlyWebAdaptor.prototype.login = function(username,password,callback) {\n\tvar options = {\n\t\turl: this.host + \&quot;challenge/tiddlywebplugins.tiddlyspace.cookie_form\&quot;,\n\t\ttype: \&quot;POST\&quot;,\n\t\tdata: {\n\t\t\tuser: username,\n\t\t\tpassword: password,\n\t\t\ttiddlyweb_redirect: \&quot;/status\&quot; // workaround to marginalize automatic subsequent GET\n\t\t},\n\t\tcallback: function(err) {\n\t\t\tcallback(err);\n\t\t}\n\t};\n\tthis.logger.log(\&quot;Logging in:\&quot;,options);\n\t$tw.utils.httpRequest(options);\n};\n\n/*\n*/\nTiddlyWebAdaptor.prototype.logout = function(callback) {\n\tvar options = {\n\t\turl: this.host + \&quot;logout\&quot;,\n\t\ttype: \&quot;POST\&quot;,\n\t\tdata: {\n\t\t\tcsrf_token: this.getCsrfToken(),\n\t\t\ttiddlyweb_redirect: \&quot;/status\&quot; // workaround to marginalize automatic subsequent GET\n\t\t},\n\t\tcallback: function(err,data) {\n\t\t\tcallback(err);\n\t\t}\n\t};\n\tthis.logger.log(\&quot;Logging out:\&quot;,options);\n\t$tw.utils.httpRequest(options);\n};\n\n/*\nRetrieve the CSRF token from its cookie\n*/\nTiddlyWebAdaptor.prototype.getCsrfToken = function() {\n\tvar regex = /^(?:.*; )?csrf_token=([^(;|$)]*)(?:;|$)/,\n\t\tmatch = regex.exec(document.cookie),\n\t\tcsrf = null;\n\tif (match &amp;&amp; (match.length === 2)) {\n\t\tcsrf = match[1];\n\t}\n\treturn csrf;\n};\n\n/*\nGet an array of skinny tiddler fields from the server\n*/\nTiddlyWebAdaptor.prototype.getSkinnyTiddlers = function(callback) {\n\tvar self = this;\n\t$tw.utils.httpRequest({\n\t\turl: this.host + \&quot;recipes/\&quot; + this.recipe + \&quot;/tiddlers.json\&quot;,\n\t\tcallback: function(err,data) {\n\t\t\t// Check for errors\n\t\t\tif(err) {\n\t\t\t\treturn callback(err);\n\t\t\t}\n\t\t\t// Process the tiddlers to make sure the revision is a string\n\t\t\tvar tiddlers = JSON.parse(data);\n\t\t\tfor(var t=0; t&lt;tiddlers.length; t++) {\n\t\t\t\ttiddlers[t] = self.convertTiddlerFromTiddlyWebFormat(tiddlers[t]);\n\t\t\t}\n\t\t\t// Invoke the callback with the skinny tiddlers\n\t\t\tcallback(null,tiddlers);\n\t\t}\n\t});\n};\n\n/*\nSave a tiddler and invoke the callback with (err,adaptorInfo,revision)\n*/\nTiddlyWebAdaptor.prototype.saveTiddler = function(tiddler,callback) {\n\tvar self = this;\n\t$tw.utils.httpRequest({\n\t\turl: this.host + \&quot;recipes/\&quot; + encodeURIComponent(this.recipe) + \&quot;/tiddlers/\&quot; + encodeURIComponent(tiddler.fields.title),\n\t\ttype: \&quot;PUT\&quot;,\n\t\theaders: {\n\t\t\t\&quot;Content-type\&quot;: \&quot;application/json\&quot;\n\t\t},\n\t\tdata: this.convertTiddlerToTiddlyWebFormat(tiddler),\n\t\tcallback: function(err,data,request) {\n\t\t\tif(err) {\n\t\t\t\treturn callback(err);\n\t\t\t}\n\t\t\t// Save the details of the new revision of the tiddler\n\t\t\tvar etagInfo = self.parseEtag(request.getResponseHeader(\&quot;Etag\&quot;));\n\t\t\t// Invoke the callback\n\t\t\tcallback(null,{\n\t\t\t\tbag: etagInfo.bag\n\t\t\t}, etagInfo.revision);\n\t\t}\n\t});\n};\n\n/*\nLoad a tiddler and invoke the callback with (err,tiddlerFields)\n*/\nTiddlyWebAdaptor.prototype.loadTiddler = function(title,callback) {\n\tvar self = this;\n\t$tw.utils.httpRequest({\n\t\turl: this.host + \&quot;recipes/\&quot; + encodeURIComponent(this.recipe) + \&quot;/tiddlers/\&quot; + encodeURIComponent(title),\n\t\tcallback: function(err,data,request) {\n\t\t\tif(err) {\n\t\t\t\treturn callback(err);\n\t\t\t}\n\t\t\t// Invoke the callback\n\t\t\tcallback(null,self.convertTiddlerFromTiddlyWebFormat(JSON.parse(data)));\n\t\t}\n\t});\n};\n\n/*\nDelete a tiddler and invoke the callback with (err)\noptions include:\ntiddlerInfo: the syncer's tiddlerInfo for this tiddler\n*/\nTiddlyWebAdaptor.prototype.deleteTiddler = function(title,callback,options) {\n\tvar self = this,\n\t\tbag = options.tiddlerInfo.adaptorInfo.bag;\n\t// If we don't have a bag it means that the tiddler hasn't been seen by the server, so we don't need to delete it\n\tif(!bag) {\n\t\treturn callback(null);\n\t}\n\t// Issue HTTP request to delete the tiddler\n\t$tw.utils.httpRequest({\n\t\turl: this.host + \&quot;bags/\&quot; + encodeURIComponent(bag) + \&quot;/tiddlers/\&quot; + encodeURIComponent(title),\n\t\ttype: \&quot;DELETE\&quot;,\n\t\tcallback: function(err,data,request) {\n\t\t\tif(err) {\n\t\t\t\treturn callback(err);\n\t\t\t}\n\t\t\t// Invoke the callback\n\t\t\tcallback(null);\n\t\t}\n\t});\n};\n\n/*\nConvert a tiddler to a field set suitable for PUTting to TiddlyWeb\n*/\nTiddlyWebAdaptor.prototype.convertTiddlerToTiddlyWebFormat = function(tiddler) {\n\tvar result = {},\n\t\tknownFields = [\n\t\t\t\&quot;bag\&quot;, \&quot;created\&quot;, \&quot;creator\&quot;, \&quot;modified\&quot;, \&quot;modifier\&quot;, \&quot;permissions\&quot;, \&quot;recipe\&quot;, \&quot;revision\&quot;, \&quot;tags\&quot;, \&quot;text\&quot;, \&quot;title\&quot;, \&quot;type\&quot;, \&quot;uri\&quot;\n\t\t];\n\tif(tiddler) {\n\t\t$tw.utils.each(tiddler.fields,function(fieldValue,fieldName) {\n\t\t\tvar fieldString = fieldName === \&quot;tags\&quot; ?\n\t\t\t\t\t\t\t\ttiddler.fields.tags :\n\t\t\t\t\t\t\t\ttiddler.getFieldString(fieldName); // Tags must be passed as an array, not a string\n\n\t\t\tif(knownFields.indexOf(fieldName) !== -1) {\n\t\t\t\t// If it's a known field, just copy it across\n\t\t\t\tresult[fieldName] = fieldString;\n\t\t\t} else {\n\t\t\t\t// If it's unknown, put it in the \&quot;fields\&quot; field\n\t\t\t\tresult.fields = result.fields || {};\n\t\t\t\tresult.fields[fieldName] = fieldString;\n\t\t\t}\n\t\t});\n\t}\n\t// Default the content type\n\tresult.type = result.type || \&quot;text/vnd.tiddlywiki\&quot;;\n\treturn JSON.stringify(result,null,$tw.config.preferences.jsonSpaces);\n};\n\n/*\nConvert a field set in TiddlyWeb format into ordinary TiddlyWiki5 format\n*/\nTiddlyWebAdaptor.prototype.convertTiddlerFromTiddlyWebFormat = function(tiddlerFields) {\n\tvar self = this,\n\t\tresult = {};\n\t// Transfer the fields, pulling down the `fields` hashmap\n\t$tw.utils.each(tiddlerFields,function(element,title,object) {\n\t\tif(title === \&quot;fields\&quot;) {\n\t\t\t$tw.utils.each(element,function(element,subTitle,object) {\n\t\t\t\tresult[subTitle] = element;\n\t\t\t});\n\t\t} else {\n\t\t\tresult[title] = tiddlerFields[title];\n\t\t}\n\t});\n\t// Make sure the revision is expressed as a string\n\tif(typeof result.revision === \&quot;number\&quot;) {\n\t\tresult.revision = result.revision.toString();\n\t}\n\t// Some unholy freaking of content types\n\tif(result.type === \&quot;text/javascript\&quot;) {\n\t\tresult.type = \&quot;application/javascript\&quot;;\n\t} else if(!result.type || result.type === \&quot;None\&quot;) {\n\t\tresult.type = \&quot;text/x-tiddlywiki\&quot;;\n\t}\n\treturn result;\n};\n\n/*\nSplit a TiddlyWeb Etag into its constituent parts. For example:\n\n```\n\&quot;system-images_public/unsyncedIcon/946151:9f11c278ccde3a3149f339f4a1db80dd4369fc04\&quot;\n```\n\nNote that the value includes the opening and closing double quotes.\n\nThe parts are:\n\n```\n&lt;bag&gt;/&lt;title&gt;/&lt;revision&gt;:&lt;hash&gt;\n```\n*/\nTiddlyWebAdaptor.prototype.parseEtag = function(etag) {\n\tvar firstSlash = etag.indexOf(\&quot;/\&quot;),\n\t\tlastSlash = etag.lastIndexOf(\&quot;/\&quot;),\n\t\tcolon = etag.lastIndexOf(\&quot;:\&quot;);\n\tif(firstSlash === -1 || lastSlash === -1 || colon === -1) {\n\t\treturn null;\n\t} else {\n\t\treturn {\n\t\t\tbag: decodeURIComponent(etag.substring(1,firstSlash)),\n\t\t\ttitle: decodeURIComponent(etag.substring(firstSlash + 1,lastSlash)),\n\t\t\trevision: etag.substring(lastSlash + 1,colon)\n\t\t};\n\t}\n};\n\nif($tw.browser &amp;&amp; document.location.protocol.substr(0,4) === \&quot;http\&quot; ) {\n\texports.adaptorClass = TiddlyWebAdaptor;\n}\n\n})();\n&quot;,
            &quot;title&quot;: &quot;$:/plugins/tiddlywiki/tiddlyweb/tiddlywebadaptor.js&quot;,
            &quot;type&quot;: &quot;application/javascript&quot;,
            &quot;module-type&quot;: &quot;syncadaptor&quot;
        }
    }
}</pre>
</div>
<div title="$:/SiteSubtitle" revision="0" bag="default">
<pre>for TiddlyWeb</pre>
</div>
<div title="$:/SiteTitle" revision="0" bag="default">
<pre>TiddlyWiki in the Sky</pre>
</div>
<div list="[[TiddlyWiki5 for TiddlyWeb]]" title="$:/StoryList" revision="1" bag="default">
<pre></pre>
</div>
<div plugin-type="info" title="$:/temp/info-plugin" type="application/json" revision="0" bag="default">
<pre>{
    &quot;tiddlers&quot;: {
        &quot;$:/info/browser&quot;: {
            &quot;title&quot;: &quot;$:/info/browser&quot;,
            &quot;text&quot;: &quot;no&quot;
        },
        &quot;$:/info/node&quot;: {
            &quot;title&quot;: &quot;$:/info/node&quot;,
            &quot;text&quot;: &quot;yes&quot;
        }
    }
}</pre>
</div>
<div author="JeremyRuston" core-version="&gt;=5.0.0" dependents="$:/themes/tiddlywiki/vanilla" description="Emphasises individual tiddlers" name="Snow White" plugin-type="theme" title="$:/themes/tiddlywiki/snowwhite" type="application/json" version="5.1.10" revision="0" bag="default">
<pre>{
    &quot;tiddlers&quot;: {
        &quot;$:/themes/tiddlywiki/snowwhite/base&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/snowwhite/base&quot;,
            &quot;tags&quot;: &quot;[[$:/tags/Stylesheet]]&quot;,
            &quot;text&quot;: &quot;\\rules only filteredtranscludeinline transcludeinline macrodef macrocallinline\n\n.tc-sidebar-header {\n\ttext-shadow: 0 1px 0 &lt;&lt;colour sidebar-foreground-shadow&gt;&gt;;\n}\n\n.tc-tiddler-info {\n\t&lt;&lt;box-shadow \&quot;inset 1px 2px 3px rgba(0,0,0,0.1)\&quot;&gt;&gt;\n}\n\n@media screen {\n\t.tc-tiddler-frame {\n\t\t&lt;&lt;box-shadow \&quot;1px 1px 5px rgba(0, 0, 0, 0.3)\&quot;&gt;&gt;\n\t}\n}\n\n@media (max-width: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint}}) {\n\t.tc-tiddler-frame {\n\t\t&lt;&lt;box-shadow none&gt;&gt;\n\t}\n}\n\n.tc-page-controls button svg, .tc-tiddler-controls button svg, .tc-topbar button svg {\n\t&lt;&lt;transition \&quot;fill 150ms ease-in-out\&quot;&gt;&gt;\n}\n\n.tc-tiddler-controls button.tc-selected,\n.tc-page-controls button.tc-selected {\n\t&lt;&lt;filter \&quot;drop-shadow(0px -1px 2px rgba(0,0,0,0.25))\&quot;&gt;&gt;\n}\n\n.tc-tiddler-frame input.tc-edit-texteditor {\n\t&lt;&lt;box-shadow \&quot;inset 0 1px 8px rgba(0, 0, 0, 0.15)\&quot;&gt;&gt;\n}\n\n.tc-edit-tags {\n\t&lt;&lt;box-shadow \&quot;inset 0 1px 8px rgba(0, 0, 0, 0.15)\&quot;&gt;&gt;\n}\n\n.tc-tiddler-frame .tc-edit-tags input.tc-edit-texteditor {\n\t&lt;&lt;box-shadow \&quot;none\&quot;&gt;&gt;\n\tborder: none;\n\toutline: none;\n}\n\ncanvas.tc-edit-bitmapeditor  {\n\t&lt;&lt;box-shadow \&quot;2px 2px 5px rgba(0, 0, 0, 0.5)\&quot;&gt;&gt;\n}\n\n.tc-drop-down {\n\tborder-radius: 4px;\n\t&lt;&lt;box-shadow \&quot;2px 2px 10px rgba(0, 0, 0, 0.5)\&quot;&gt;&gt;\n}\n\n.tc-block-dropdown {\n\tborder-radius: 4px;\n\t&lt;&lt;box-shadow \&quot;2px 2px 10px rgba(0, 0, 0, 0.5)\&quot;&gt;&gt;\n}\n\n.tc-modal {\n\tborder-radius: 6px;\n\t&lt;&lt;box-shadow \&quot;0 3px 7px rgba(0,0,0,0.3)\&quot;&gt;&gt;\n}\n\n.tc-modal-footer {\n\tborder-radius: 0 0 6px 6px;\n\t&lt;&lt;box-shadow \&quot;inset 0 1px 0 #fff\&quot;&gt;&gt;;\n}\n\n\n.tc-alert {\n\tborder-radius: 6px;\n\t&lt;&lt;box-shadow \&quot;0 3px 7px rgba(0,0,0,0.6)\&quot;&gt;&gt;\n}\n\n.tc-notification {\n\tborder-radius: 6px;\n\t&lt;&lt;box-shadow \&quot;0 3px 7px rgba(0,0,0,0.3)\&quot;&gt;&gt;\n\ttext-shadow: 0 1px 0 rgba(255,255,255, 0.8);\n}\n\n.tc-sidebar-lists .tc-tab-set .tc-tab-divider {\n\tborder-top: none;\n\theight: 1px;\n\t&lt;&lt;background-linear-gradient \&quot;left, rgba(0,0,0,0.15) 0%, rgba(0,0,0,0.0) 100%\&quot;&gt;&gt;\n}\n\n.tc-more-sidebar .tc-tab-buttons button {\n\t&lt;&lt;background-linear-gradient \&quot;left, rgba(0,0,0,0.01) 0%, rgba(0,0,0,0.1) 100%\&quot;&gt;&gt;\n}\n\n.tc-more-sidebar .tc-tab-buttons button.tc-tab-selected {\n\t&lt;&lt;background-linear-gradient \&quot;left, rgba(0,0,0,0.05) 0%, rgba(255,255,255,0.05) 100%\&quot;&gt;&gt;\n}\n\n.tc-message-box img {\n\t&lt;&lt;box-shadow \&quot;1px 1px 3px rgba(0,0,0,0.5)\&quot;&gt;&gt;\n}\n\n.tc-plugin-info {\n\t&lt;&lt;box-shadow \&quot;1px 1px 3px rgba(0,0,0,0.5)\&quot;&gt;&gt;\n}\n&quot;
        }
    }
}</pre>
</div>
<div author="JeremyRuston" core-version="&gt;=5.0.0" dependents="" description="Basic theme" name="Vanilla" plugin-type="theme" title="$:/themes/tiddlywiki/vanilla" type="application/json" version="5.1.10" revision="0" bag="default">
<pre>{
    &quot;tiddlers&quot;: {
        &quot;$:/themes/tiddlywiki/vanilla/themetweaks&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/themetweaks&quot;,
            &quot;tags&quot;: &quot;$:/tags/ControlPanel/Appearance&quot;,
            &quot;caption&quot;: &quot;Theme Tweaks&quot;,
            &quot;text&quot;: &quot;\\define backgroundimage-dropdown()\n&lt;div class=\&quot;tc-drop-down-wrapper\&quot;&gt;\n&lt;$button popup=&lt;&lt;qualify \&quot;$:/state/popup/themetweaks/backgroundimage\&quot;&gt;&gt; class=\&quot;tc-btn-invisible tc-btn-dropdown\&quot;&gt;{{$:/core/images/down-arrow}}&lt;/$button&gt;\n&lt;$reveal state=&lt;&lt;qualify \&quot;$:/state/popup/themetweaks/backgroundimage\&quot;&gt;&gt; type=\&quot;popup\&quot; position=\&quot;belowleft\&quot; text=\&quot;\&quot; default=\&quot;\&quot;&gt;\n&lt;div class=\&quot;tc-drop-down\&quot;&gt;\n&lt;$linkcatcher to=\&quot;$:/themes/tiddlywiki/vanilla/settings/backgroundimage\&quot;&gt;\n&lt;$link to=\&quot;\&quot;&gt;\n(none)\n&lt;/$link&gt;\n&lt;hr&gt;\n&lt;$list filter=\&quot;[all[shadows+tiddlers]is[image]] -[type[application/pdf]] +[sort[title]]\&quot;&gt;\n&lt;$link to={{!!title}}&gt;\n&lt;$transclude/&gt; &lt;$view field=\&quot;title\&quot;/&gt;\n&lt;/$link&gt;\n&lt;/$list&gt;\n&lt;/$linkcatcher&gt;\n&lt;/div&gt;\n&lt;/$reveal&gt;\n&lt;/div&gt;\n\\end\n\n\\define backgroundimageattachment-dropdown()\n&lt;$select tiddler=\&quot;$:/themes/tiddlywiki/vanilla/settings/backgroundimageattachment\&quot; default=\&quot;scroll\&quot;&gt;\n&lt;option value=\&quot;scroll\&quot;&gt;Scroll with tiddlers&lt;/option&gt;\n&lt;option value=\&quot;fixed\&quot;&gt;Fixed to window&lt;/option&gt;\n&lt;/$select&gt;\n\\end\n\n\\define backgroundimagesize-dropdown()\n&lt;$select tiddler=\&quot;$:/themes/tiddlywiki/vanilla/settings/backgroundimagesize\&quot; default=\&quot;scroll\&quot;&gt;\n&lt;option value=\&quot;auto\&quot;&gt;Auto&lt;/option&gt;\n&lt;option value=\&quot;cover\&quot;&gt;Cover&lt;/option&gt;\n&lt;option value=\&quot;contain\&quot;&gt;Contain&lt;/option&gt;\n&lt;/$select&gt;\n\\end\n\nYou can tweak certain aspects of the ''Vanilla'' theme.\n\n! Options\n\n|[[Sidebar layout|$:/themes/tiddlywiki/vanilla/options/sidebarlayout]] |&lt;$select tiddler=\&quot;$:/themes/tiddlywiki/vanilla/options/sidebarlayout\&quot;&gt;&lt;option value=\&quot;fixed-fluid\&quot;&gt;Fixed story, fluid sidebar&lt;/option&gt;&lt;option value=\&quot;fluid-fixed\&quot;&gt;Fluid story, fixed sidebar&lt;/option&gt;&lt;/$select&gt; |\n|[[Sticky titles|$:/themes/tiddlywiki/vanilla/options/stickytitles]]&lt;br&gt;//Causes tiddler titles to \&quot;stick\&quot; to the top of the browser window. Caution: Does not work at all with Chrome, and causes some layout issues in Firefox// |&lt;$select tiddler=\&quot;$:/themes/tiddlywiki/vanilla/options/stickytitles\&quot;&gt;&lt;option value=\&quot;no\&quot;&gt;No&lt;/option&gt;&lt;option value=\&quot;yes\&quot;&gt;Yes&lt;/option&gt;&lt;/$select&gt; |\n\n! Settings\n\n|[[Font family|$:/themes/tiddlywiki/vanilla/settings/fontfamily]] |&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/settings/fontfamily\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; | |\n|[[Code font family|$:/themes/tiddlywiki/vanilla/settings/codefontfamily]] |&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/settings/codefontfamily\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; | |\n|[[Page background image|$:/themes/tiddlywiki/vanilla/settings/backgroundimage]] |&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/settings/backgroundimage\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |&lt;&lt;backgroundimage-dropdown&gt;&gt; |\n|[[Page background image attachment |$:/themes/tiddlywiki/vanilla/settings/backgroundimageattachment]] |&lt;&lt;backgroundimageattachment-dropdown&gt;&gt; | |\n|[[Page background image size |$:/themes/tiddlywiki/vanilla/settings/backgroundimagesize]] |&lt;&lt;backgroundimagesize-dropdown&gt;&gt; | |\n\n! Sizes\n\n|[[Font size|$:/themes/tiddlywiki/vanilla/metrics/fontsize]] |&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/fontsize\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|[[Line height|$:/themes/tiddlywiki/vanilla/metrics/lineheight]] |&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/lineheight\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|[[Font size for tiddler body|$:/themes/tiddlywiki/vanilla/metrics/bodyfontsize]] |&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/bodyfontsize\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|[[Line height for tiddler body|$:/themes/tiddlywiki/vanilla/metrics/bodylineheight]] |&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/bodylineheight\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|[[Story left position|$:/themes/tiddlywiki/vanilla/metrics/storyleft]]&lt;br&gt;//how far the left margin of the story river&lt;br&gt;(tiddler area) is from the left of the page// |^&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/storyleft\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|[[Story top position|$:/themes/tiddlywiki/vanilla/metrics/storytop]]&lt;br&gt;//how far the top margin of the story river&lt;br&gt;is from the top of the page// |^&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/storytop\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|[[Story right|$:/themes/tiddlywiki/vanilla/metrics/storyright]]&lt;br&gt;//how far the left margin of the sidebar &lt;br&gt;is from the left of the page// |^&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/storyright\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|[[Story width|$:/themes/tiddlywiki/vanilla/metrics/storywidth]]&lt;br&gt;//the overall width of the story river// |^&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/storywidth\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|[[Tiddler width|$:/themes/tiddlywiki/vanilla/metrics/tiddlerwidth]]&lt;br&gt;//within the story river//&lt;br&gt; |^&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/tiddlerwidth\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|[[Sidebar breakpoint|$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint]]&lt;br&gt;//the minimum page width at which the story&lt;br&gt;river and sidebar will appear side by side// |^&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n|[[Sidebar width|$:/themes/tiddlywiki/vanilla/metrics/sidebarwidth]]&lt;br&gt;//the width of the sidebar in fluid-fixed layout// |^&lt;$edit-text tiddler=\&quot;$:/themes/tiddlywiki/vanilla/metrics/sidebarwidth\&quot; default=\&quot;\&quot; tag=\&quot;input\&quot;/&gt; |\n&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/base&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/base&quot;,
            &quot;tags&quot;: &quot;[[$:/tags/Stylesheet]]&quot;,
            &quot;text&quot;: &quot;\\define custom-background-datauri()\n&lt;$set name=\&quot;background\&quot; value={{$:/themes/tiddlywiki/vanilla/settings/backgroundimage}}&gt;\n&lt;$list filter=\&quot;[&lt;background&gt;is[image]]\&quot;&gt;\n`background: url(`\n&lt;$list filter=\&quot;[&lt;background&gt;!has[_canonical_uri]]\&quot;&gt;\n&lt;$macrocall $name=\&quot;datauri\&quot; title={{$:/themes/tiddlywiki/vanilla/settings/backgroundimage}}/&gt;\n&lt;/$list&gt;\n&lt;$list filter=\&quot;[&lt;background&gt;has[_canonical_uri]]\&quot;&gt;\n&lt;$view tiddler={{$:/themes/tiddlywiki/vanilla/settings/backgroundimage}} field=\&quot;_canonical_uri\&quot;/&gt;\n&lt;/$list&gt;\n`) center center;`\n`background-attachment: `{{$:/themes/tiddlywiki/vanilla/settings/backgroundimageattachment}}`;\n-webkit-background-size:` {{$:/themes/tiddlywiki/vanilla/settings/backgroundimagesize}}`;\n-moz-background-size:` {{$:/themes/tiddlywiki/vanilla/settings/backgroundimagesize}}`;\n-o-background-size:` {{$:/themes/tiddlywiki/vanilla/settings/backgroundimagesize}}`;\nbackground-size:` {{$:/themes/tiddlywiki/vanilla/settings/backgroundimagesize}}`;`\n&lt;/$list&gt;\n&lt;/$set&gt;\n\\end\n\n\\define if-fluid-fixed(text,hiddenSidebarText)\n&lt;$reveal state=\&quot;$:/themes/tiddlywiki/vanilla/options/sidebarlayout\&quot; type=\&quot;match\&quot; text=\&quot;fluid-fixed\&quot;&gt;\n$text$\n&lt;$reveal state=\&quot;$:/state/sidebar\&quot; type=\&quot;nomatch\&quot; text=\&quot;yes\&quot; default=\&quot;yes\&quot;&gt;\n$hiddenSidebarText$\n&lt;/$reveal&gt;\n&lt;/$reveal&gt;\n\\end\n\n\\rules only filteredtranscludeinline transcludeinline macrodef macrocallinline macrocallblock\n\n/*\n** Start with the normalize CSS reset, and then belay some of its effects\n*/\n\n{{$:/themes/tiddlywiki/vanilla/reset}}\n\n*, input[type=\&quot;search\&quot;] {\n\tbox-sizing: border-box;\n\t-moz-box-sizing: border-box;\n\t-webkit-box-sizing: border-box;\n}\n\nhtml button {\n\tline-height: 1.2;\n\tcolor: &lt;&lt;colour button-foreground&gt;&gt;;\n\tbackground: &lt;&lt;colour button-background&gt;&gt;;\n\tborder-color: &lt;&lt;colour button-border&gt;&gt;;\n}\n\n/*\n** Basic element styles\n*/\n\nhtml {\n\tfont-family: {{$:/themes/tiddlywiki/vanilla/settings/fontfamily}};\n\ttext-rendering: optimizeLegibility; /* Enables kerning and ligatures etc. */\n\t-webkit-font-smoothing: antialiased;\n\t-moz-osx-font-smoothing: grayscale;\n}\n\nhtml:-webkit-full-screen {\n\tbackground-color: &lt;&lt;colour page-background&gt;&gt;;\n}\n\nbody.tc-body {\n\tfont-size: {{$:/themes/tiddlywiki/vanilla/metrics/fontsize}};\n\tline-height: {{$:/themes/tiddlywiki/vanilla/metrics/lineheight}};\n\tcolor: &lt;&lt;colour foreground&gt;&gt;;\n\tbackground-color: &lt;&lt;colour page-background&gt;&gt;;\n\tfill: &lt;&lt;colour foreground&gt;&gt;;\n\tword-wrap: break-word;\n\t&lt;&lt;custom-background-datauri&gt;&gt;\n}\n\nh1, h2, h3, h4, h5, h6 {\n\tline-height: 1.2;\n\tfont-weight: 300;\n}\n\npre {\n\tdisplay: block;\n\tpadding: 14px;\n\tmargin-top: 1em;\n\tmargin-bottom: 1em;\n\tword-break: normal;\n\tword-wrap: break-word;\n\twhite-space: pre;\n\twhite-space: pre-wrap;\n\tbackground-color: &lt;&lt;colour pre-background&gt;&gt;;\n\tborder: 1px solid &lt;&lt;colour pre-border&gt;&gt;;\n\tpadding: 0 3px 2px;\n\tborder-radius: 3px;\n\tfont-family: {{$:/themes/tiddlywiki/vanilla/settings/codefontfamily}};\n}\n\ncode {\n\tcolor: &lt;&lt;colour code-foreground&gt;&gt;;\n\tbackground-color: &lt;&lt;colour code-background&gt;&gt;;\n\tborder: 1px solid &lt;&lt;colour code-border&gt;&gt;;\n    white-space: pre-wrap;\n\tpadding: 0 3px 2px;\n\tborder-radius: 3px;\n\tfont-family: {{$:/themes/tiddlywiki/vanilla/settings/codefontfamily}};\n}\n\nblockquote {\n\tborder-left: 5px solid &lt;&lt;colour blockquote-bar&gt;&gt;;\n\tmargin-left: 25px;\n\tpadding-left: 10px;\n}\n\ndl dt {\n\tfont-weight: bold;\n\tmargin-top: 6px;\n}\n\ntextarea,\ninput[type=text],\ninput[type=search],\ninput[type=\&quot;\&quot;],\ninput:not([type]) {\n\tcolor: &lt;&lt;colour foreground&gt;&gt;;\n\tbackground: &lt;&lt;colour background&gt;&gt;;\n}\n\n.tc-muted {\n\tcolor: &lt;&lt;colour muted-foreground&gt;&gt;;\n}\n\nsvg.tc-image-button {\n\tpadding: 0px 1px 1px 0px;\n}\n\nkbd {\n\tdisplay: inline-block;\n\tpadding: 3px 5px;\n\tfont-size: 0.8em;\n\tline-height: 1.2;\n\tcolor: &lt;&lt;colour foreground&gt;&gt;;\n\tvertical-align: middle;\n\tbackground-color: &lt;&lt;colour background&gt;&gt;;\n\tborder: solid 1px &lt;&lt;colour muted-foreground&gt;&gt;;\n\tborder-bottom-color: &lt;&lt;colour muted-foreground&gt;&gt;;\n\tborder-radius: 3px;\n\tbox-shadow: inset 0 -1px 0 &lt;&lt;colour muted-foreground&gt;&gt;;\n}\n\n/*\nMarkdown likes putting code elements inside pre elements\n*/\npre &gt; code {\n\tpadding: 0;\n\tborder: none;\n\tbackground-color: inherit;\n\tcolor: inherit;\n}\n\ntable {\n\tborder: 1px solid &lt;&lt;colour table-border&gt;&gt;;\n\twidth: auto;\n\tmax-width: 100%;\n\tcaption-side: bottom;\n\tmargin-top: 1em;\n\tmargin-bottom: 1em;\n}\n\ntable th, table td {\n\tpadding: 0 7px 0 7px;\n\tborder-top: 1px solid &lt;&lt;colour table-border&gt;&gt;;\n\tborder-left: 1px solid &lt;&lt;colour table-border&gt;&gt;;\n}\n\ntable thead tr td, table th {\n\tbackground-color: &lt;&lt;colour table-header-background&gt;&gt;;\n\tfont-weight: bold;\n}\n\ntable tfoot tr td {\n\tbackground-color: &lt;&lt;colour table-footer-background&gt;&gt;;\n}\n\n.tc-csv-table {\n\twhite-space: nowrap;\n}\n\n.tc-tiddler-frame img,\n.tc-tiddler-frame svg,\n.tc-tiddler-frame canvas,\n.tc-tiddler-frame embed,\n.tc-tiddler-frame iframe {\n\tmax-width: 100%;\n}\n\n.tc-tiddler-body &gt; embed,\n.tc-tiddler-body &gt; iframe {\n\twidth: 100%;\n\theight: 600px;\n}\n\n/*\n** Links\n*/\n\nbutton.tc-tiddlylink,\na.tc-tiddlylink {\n\ttext-decoration: none;\n\tfont-weight: normal;\n\tcolor: &lt;&lt;colour tiddler-link-foreground&gt;&gt;;\n\t-webkit-user-select: inherit; /* Otherwise the draggable attribute makes links impossible to select */\n}\n\n.tc-sidebar-lists a.tc-tiddlylink {\n\tcolor: &lt;&lt;colour sidebar-tiddler-link-foreground&gt;&gt;;\n}\n\n.tc-sidebar-lists a.tc-tiddlylink:hover {\n\tcolor: &lt;&lt;colour sidebar-tiddler-link-foreground-hover&gt;&gt;;\n}\n\nbutton.tc-tiddlylink:hover,\na.tc-tiddlylink:hover {\n\ttext-decoration: underline;\n}\n\na.tc-tiddlylink-resolves {\n}\n\na.tc-tiddlylink-shadow {\n\tfont-weight: bold;\n}\n\na.tc-tiddlylink-shadow.tc-tiddlylink-resolves {\n\tfont-weight: normal;\n}\n\na.tc-tiddlylink-missing {\n\tfont-style: italic;\n}\n\na.tc-tiddlylink-external {\n\ttext-decoration: underline;\n\tcolor: &lt;&lt;colour external-link-foreground&gt;&gt;;\n\tbackground-color: &lt;&lt;colour external-link-background&gt;&gt;;\n}\n\na.tc-tiddlylink-external:visited {\n\tcolor: &lt;&lt;colour external-link-foreground-visited&gt;&gt;;\n\tbackground-color: &lt;&lt;colour external-link-background-visited&gt;&gt;;\n}\n\na.tc-tiddlylink-external:hover {\n\tcolor: &lt;&lt;colour external-link-foreground-hover&gt;&gt;;\n\tbackground-color: &lt;&lt;colour external-link-background-hover&gt;&gt;;\n}\n\n/*\n** Drag and drop styles\n*/\n\n.tc-tiddler-dragger {\n\tposition: relative;\n\tz-index: -10000;\n}\n\n.tc-tiddler-dragger-inner {\n\tposition: absolute;\n\tdisplay: inline-block;\n\tpadding: 8px 20px;\n\tfont-size: 16.9px;\n\tfont-weight: bold;\n\tline-height: 20px;\n\tcolor: &lt;&lt;colour dragger-foreground&gt;&gt;;\n\ttext-shadow: 0 1px 0 rgba(0, 0, 0, 1);\n\twhite-space: nowrap;\n\tvertical-align: baseline;\n\tbackground-color: &lt;&lt;colour dragger-background&gt;&gt;;\n\tborder-radius: 20px;\n}\n\n.tc-tiddler-dragger-cover {\n\tposition: absolute;\n\tbackground-color: &lt;&lt;colour page-background&gt;&gt;;\n}\n\n.tc-dropzone {\n\tposition: relative;\n}\n\n.tc-dropzone.tc-dragover:before {\n\tz-index: 10000;\n\tdisplay: block;\n\tposition: fixed;\n\ttop: 0;\n\tleft: 0;\n\tright: 0;\n\tbackground: &lt;&lt;colour dropzone-background&gt;&gt;;\n\ttext-align: center;\n\tcontent: \&quot;&lt;&lt;lingo DropMessage&gt;&gt;\&quot;;\n}\n\n/*\n** Plugin reload warning\n*/\n\n.tc-plugin-reload-warning {\n\tz-index: 1000;\n\tdisplay: block;\n\tposition: fixed;\n\ttop: 0;\n\tleft: 0;\n\tright: 0;\n\tbackground: &lt;&lt;colour alert-background&gt;&gt;;\n\ttext-align: center;\n}\n\n/*\n** Buttons\n*/\n\nbutton svg, button img {\n\tvertical-align: middle;\n}\n\n.tc-btn-invisible {\n\tpadding: 0;\n\tmargin: 0;\n\tbackground: none;\n\tborder: none;\n}\n\n.tc-btn-boxed {\n\tfont-size: 0.6em;\n\tpadding: 0.2em;\n\tmargin: 1px;\n\tbackground: none;\n\tborder: 1px solid &lt;&lt;colour tiddler-controls-foreground&gt;&gt;;\n\tborder-radius: 0.25em;\n}\n\nhtml body.tc-body .tc-btn-boxed svg {\n\tfont-size: 1.6666em;\n}\n\n.tc-btn-boxed:hover {\n\tbackground: &lt;&lt;colour muted-foreground&gt;&gt;;\n\tcolor: &lt;&lt;colour background&gt;&gt;;\n}\n\nhtml body.tc-body .tc-btn-boxed:hover svg {\n\tfill: &lt;&lt;colour background&gt;&gt;;\n}\n\n.tc-btn-rounded {\n\tfont-size: 0.5em;\n\tline-height: 2;\n\tpadding: 0em 0.3em 0.2em 0.4em;\n\tmargin: 1px;\n\tborder: 1px solid &lt;&lt;colour muted-foreground&gt;&gt;;\n\tbackground: &lt;&lt;colour muted-foreground&gt;&gt;;\n\tcolor: &lt;&lt;colour background&gt;&gt;;\n\tborder-radius: 2em;\n}\n\nhtml body.tc-body .tc-btn-rounded svg {\n\tfont-size: 1.6666em;\n\tfill: &lt;&lt;colour background&gt;&gt;;\n}\n\n.tc-btn-rounded:hover {\n\tborder: 1px solid &lt;&lt;colour muted-foreground&gt;&gt;;\n\tbackground: &lt;&lt;colour background&gt;&gt;;\n\tcolor: &lt;&lt;colour muted-foreground&gt;&gt;;\n}\n\nhtml body.tc-body .tc-btn-rounded:hover svg {\n\tfill: &lt;&lt;colour muted-foreground&gt;&gt;;\n}\n\n.tc-btn-icon svg {\n\theight: 1em;\n\twidth: 1em;\n\tfill: &lt;&lt;colour muted-foreground&gt;&gt;;\n}\n\n.tc-btn-text {\n\tpadding: 0;\n\tmargin: 0;\n}\n\n.tc-btn-big-green {\n\tdisplay: inline-block;\n\tpadding: 8px;\n\tmargin: 4px 8px 4px 8px;\n\tbackground: &lt;&lt;colour download-background&gt;&gt;;\n\tcolor: &lt;&lt;colour download-foreground&gt;&gt;;\n\tfill: &lt;&lt;colour download-foreground&gt;&gt;;\n\tborder: none;\n\tfont-size: 1.2em;\n\tline-height: 1.4em;\n\ttext-decoration: none;\n}\n\n.tc-btn-big-green svg,\n.tc-btn-big-green img {\n\theight: 2em;\n\twidth: 2em;\n\tvertical-align: middle;\n\tfill: &lt;&lt;colour download-foreground&gt;&gt;;\n}\n\n.tc-sidebar-lists input {\n\tcolor: &lt;&lt;colour foreground&gt;&gt;;\n}\n\n.tc-sidebar-lists button {\n\tcolor: &lt;&lt;colour sidebar-button-foreground&gt;&gt;;\n\tfill: &lt;&lt;colour sidebar-button-foreground&gt;&gt;;\n}\n\n.tc-sidebar-lists button.tc-btn-mini {\n\tcolor: &lt;&lt;colour sidebar-muted-foreground&gt;&gt;;\n}\n\n.tc-sidebar-lists button.tc-btn-mini:hover {\n\tcolor: &lt;&lt;colour sidebar-muted-foreground-hover&gt;&gt;;\n}\n\nbutton svg.tc-image-button, button .tc-image-button img {\n\theight: 1em;\n\twidth: 1em;\n}\n\n.tc-unfold-banner {\n\tposition: absolute;\n\tpadding: 0;\n\tmargin: 0;\n\tbackground: none;\n\tborder: none;\n\twidth: 100%;\n    width: calc(100% + 2px);\n    margin-left: -43px;\n\ttext-align: center;\n\tborder-top: 2px solid &lt;&lt;colour tiddler-info-background&gt;&gt;;\n\tmargin-top: 4px;\n}\n\n.tc-unfold-banner:hover {\n\tbackground: &lt;&lt;colour tiddler-info-background&gt;&gt;;\n\tborder-top: 2px solid &lt;&lt;colour tiddler-info-border&gt;&gt;;\n}\n\n.tc-unfold-banner svg, .tc-fold-banner svg {\n\theight: 0.75em;\n\tfill: &lt;&lt;colour tiddler-controls-foreground&gt;&gt;;\n}\n\n.tc-unfold-banner:hover svg, .tc-fold-banner:hover svg {\n\tfill: &lt;&lt;colour tiddler-controls-foreground-hover&gt;&gt;;\n}\n\n.tc-fold-banner {\n\tposition: absolute;\n\tpadding: 0;\n\tmargin: 0;\n\tbackground: none;\n\tborder: none;\n\twidth: 23px;\n\ttext-align: center;\n\tmargin-left: -35px;\n    top: 6px;\n    bottom: 6px;\n}\n\n.tc-fold-banner:hover {\n\tbackground: &lt;&lt;colour tiddler-info-background&gt;&gt;;\n}\n\n@media (max-width: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint}}) {\n\t\n\t.tc-unfold-banner {\n\t\tposition: static;\n\t    width: calc(100% + 59px);\n    }\n\n\t.tc-fold-banner {\n\t\twidth: 16px;\n\t\tmargin-left: -16px;\n\t    font-size: 0.75em;\n\t}\n\n}\n\n/*\n** Tags and missing tiddlers\n*/\n\n.tc-tag-list-item {\n\tposition: relative;\n\tdisplay: inline-block;\n\tmargin-right: 7px;\n}\n\n.tc-tags-wrapper {\n\tmargin: 4px 0 14px 0;\n}\n\n.tc-missing-tiddler-label {\n\tfont-style: italic;\n\tfont-weight: normal;\n\tdisplay: inline-block;\n\tfont-size: 11.844px;\n\tline-height: 14px;\n\twhite-space: nowrap;\n\tvertical-align: baseline;\n}\n\nbutton.tc-tag-label, span.tc-tag-label {\n\tdisplay: inline-block;\n\tpadding: 0.16em 0.7em;\n\tfont-size: 0.9em;\n\tfont-weight: 300;\n\tline-height: 1.2em;\n\tcolor: &lt;&lt;colour tag-foreground&gt;&gt;;\n\twhite-space: nowrap;\n\tvertical-align: baseline;\n\tbackground-color: &lt;&lt;colour tag-background&gt;&gt;;\n\tborder-radius: 1em;\n}\n\n.tc-untagged-separator {\n\twidth: 10em;\n\tleft: 0;\n\tmargin-left: 0;\n\tborder: 0;\n\theight: 1px;\n\tbackground: &lt;&lt;colour tab-divider&gt;&gt;;\n}\n\nbutton.tc-untagged-label {\n\tbackground-color: &lt;&lt;colour untagged-background&gt;&gt;;\n}\n\n.tc-tag-label svg, .tc-tag-label img {\n\theight: 1em;\n\twidth: 1em;\n\tfill: &lt;&lt;colour tag-foreground&gt;&gt;;\n}\n\n.tc-tag-manager-table .tc-tag-label {\n\twhite-space: normal;\n}\n\n.tc-tag-manager-tag {\n\twidth: 100%;\n}\n\n/*\n** Page layout\n*/\n\n.tc-topbar {\n\tposition: fixed;\n\tz-index: 1200;\n}\n\n.tc-topbar-left {\n\tleft: 29px;\n\ttop: 5px;\n}\n\n.tc-topbar-right {\n\ttop: 5px;\n\tright: 29px;\n}\n\n.tc-topbar button {\n\tpadding: 8px;\n}\n\n.tc-topbar svg {\n\tfill: &lt;&lt;colour muted-foreground&gt;&gt;;\n}\n\n.tc-topbar button:hover svg {\n\tfill: &lt;&lt;colour foreground&gt;&gt;;\n}\n\n.tc-sidebar-header {\n\tcolor: &lt;&lt;colour sidebar-foreground&gt;&gt;;\n\tfill: &lt;&lt;colour sidebar-foreground&gt;&gt;;\n}\n\n.tc-sidebar-header .tc-title a.tc-tiddlylink-resolves {\n\tfont-weight: 300;\n}\n\n.tc-sidebar-header .tc-sidebar-lists p {\n\tmargin-top: 3px;\n\tmargin-bottom: 3px;\n}\n\n.tc-sidebar-header .tc-missing-tiddler-label {\n\tcolor: &lt;&lt;colour sidebar-foreground&gt;&gt;;\n}\n\n.tc-advanced-search input {\n\twidth: 60%;\n}\n\n.tc-search a svg {\n\twidth: 1.2em;\n\theight: 1.2em;\n\tvertical-align: middle;\n}\n\n.tc-page-controls {\n\tmargin-top: 14px;\n\tfont-size: 1.5em;\n}\n\n.tc-page-controls button {\n\tmargin-right: 0.5em;\n}\n\n.tc-page-controls a.tc-tiddlylink:hover {\n\ttext-decoration: none;\n}\n\n.tc-page-controls img {\n\twidth: 1em;\n}\n\n.tc-page-controls svg {\n\tfill: &lt;&lt;colour sidebar-controls-foreground&gt;&gt;;\n}\n\n.tc-page-controls button:hover svg, .tc-page-controls a:hover svg {\n\tfill: &lt;&lt;colour sidebar-controls-foreground-hover&gt;&gt;;\n}\n\n.tc-menu-list-item {\n\twhite-space: nowrap;\n}\n\n.tc-menu-list-count {\n\tfont-weight: bold;\n}\n\n.tc-menu-list-subitem {\n\tpadding-left: 7px;\n}\n\n.tc-story-river {\n\tposition: relative;\n}\n\n@media (max-width: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint}}) {\n\n\t.tc-sidebar-header {\n\t\tpadding: 14px;\n\t\tmin-height: 32px;\n\t\tmargin-top: {{$:/themes/tiddlywiki/vanilla/metrics/storytop}};\n\t}\n\n\t.tc-story-river {\n\t\tposition: relative;\n\t\tpadding: 0;\n\t}\n}\n\n@media (min-width: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint}}) {\n\n\t.tc-message-box {\n\t\tmargin: 21px -21px 21px -21px;\n\t}\n\n\t.tc-sidebar-scrollable {\n\t\tposition: fixed;\n\t\ttop: {{$:/themes/tiddlywiki/vanilla/metrics/storytop}};\n\t\tleft: {{$:/themes/tiddlywiki/vanilla/metrics/storyright}};\n\t\tbottom: 0;\n\t\tright: 0;\n\t\toverflow-y: auto;\n\t\toverflow-x: auto;\n\t\t-webkit-overflow-scrolling: touch;\n\t\tmargin: 0 0 0 -42px;\n\t\tpadding: 71px 0 28px 42px;\n\t}\n\n\t.tc-story-river {\n\t\tposition: relative;\n\t\tleft: {{$:/themes/tiddlywiki/vanilla/metrics/storyleft}};\n\t\ttop: {{$:/themes/tiddlywiki/vanilla/metrics/storytop}};\n\t\twidth: {{$:/themes/tiddlywiki/vanilla/metrics/storywidth}};\n\t\tpadding: 42px 42px 42px 42px;\n\t}\n\n&lt;&lt;if-no-sidebar \&quot;\n\n\t.tc-story-river {\n\t\twidth: auto;\n\t}\n\n\&quot;&gt;&gt;\n\n}\n\n@media print {\n\n\tbody.tc-body {\n\t\tbackground-color: transparent;\n\t}\n\n\t.tc-sidebar-header, .tc-topbar {\n\t\tdisplay: none;\n\t}\n\n\t.tc-story-river {\n\t\tmargin: 0;\n\t\tpadding: 0;\n\t}\n\n\t.tc-story-river .tc-tiddler-frame {\n\t\tmargin: 0;\n\t\tborder: none;\n\t\tpadding: 28px;\n\t}\n}\n\n/*\n** Tiddler styles\n*/\n\n.tc-tiddler-frame {\n\tposition: relative;\n\tmargin-bottom: 28px;\n\tbackground-color: &lt;&lt;colour tiddler-background&gt;&gt;;\n\tborder: 1px solid &lt;&lt;colour tiddler-border&gt;&gt;;\n}\n\n{{$:/themes/tiddlywiki/vanilla/sticky}}\n\n.tc-tiddler-info {\n\tpadding: 14px 42px 14px 42px;\n\tbackground-color: &lt;&lt;colour tiddler-info-background&gt;&gt;;\n\tborder-top: 1px solid &lt;&lt;colour tiddler-info-border&gt;&gt;;\n\tborder-bottom: 1px solid &lt;&lt;colour tiddler-info-border&gt;&gt;;\n}\n\n.tc-tiddler-info p {\n\tmargin-top: 3px;\n\tmargin-bottom: 3px;\n}\n\n.tc-tiddler-info .tc-tab-buttons button.tc-tab-selected {\n\tbackground-color: &lt;&lt;colour tiddler-info-tab-background&gt;&gt;;\n\tborder-bottom: 1px solid &lt;&lt;colour tiddler-info-tab-background&gt;&gt;;\n}\n\n.tc-view-field-table {\n\twidth: 100%;\n}\n\n.tc-view-field-name {\n\twidth: 1%; /* Makes this column be as narrow as possible */\n\ttext-align: right;\n\tfont-style: italic;\n\tfont-weight: 200;\n}\n\n.tc-view-field-value {\n}\n\n@media (max-width: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint}}) {\n\t.tc-tiddler-frame {\n\t\tpadding: 14px 14px 14px 14px;\n\t}\n\n\t.tc-tiddler-info {\n\t\tmargin: 0 -14px 0 -14px;\n\t}\n}\n\n@media (min-width: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint}}) {\n\t.tc-tiddler-frame {\n\t\tpadding: 28px 42px 42px 42px;\n\t\twidth: {{$:/themes/tiddlywiki/vanilla/metrics/tiddlerwidth}};\n\t\tborder-radius: 2px;\n\t}\n\n&lt;&lt;if-no-sidebar \&quot;\n\n\t.tc-tiddler-frame {\n\t\twidth: 100%;\n\t}\n\n\&quot;&gt;&gt;\n\n\t.tc-tiddler-info {\n\t\tmargin: 0 -42px 0 -42px;\n\t}\n}\n\n.tc-site-title,\n.tc-titlebar {\n\tfont-weight: 300;\n\tfont-size: 2.35em;\n\tline-height: 1.2em;\n\tcolor: &lt;&lt;colour tiddler-title-foreground&gt;&gt;;\n\tmargin: 0;\n}\n\n.tc-site-title {\n\tcolor: &lt;&lt;colour site-title-foreground&gt;&gt;;\n}\n\n.tc-tiddler-title-icon {\n\tvertical-align: middle;\n}\n\n.tc-system-title-prefix {\n\tcolor: &lt;&lt;colour muted-foreground&gt;&gt;;\n}\n\n.tc-titlebar h2 {\n\tfont-size: 1em;\n\tdisplay: inline;\n}\n\n.tc-titlebar img {\n\theight: 1em;\n}\n\n.tc-subtitle {\n\tfont-size: 0.9em;\n\tcolor: &lt;&lt;colour tiddler-subtitle-foreground&gt;&gt;;\n\tfont-weight: 300;\n}\n\n.tc-tiddler-missing .tc-title {\n  font-style: italic;\n  font-weight: normal;\n}\n\n.tc-tiddler-frame .tc-tiddler-controls {\n\tfloat: right;\n}\n\n.tc-tiddler-controls .tc-drop-down {\n\tfont-size: 0.6em;\n}\n\n.tc-tiddler-controls .tc-drop-down .tc-drop-down {\n\tfont-size: 1em;\n}\n\n.tc-tiddler-controls &gt; span &gt; button {\n\tvertical-align: baseline;\n\tmargin-left:5px;\n}\n\n.tc-tiddler-controls button svg, .tc-tiddler-controls button img,\n.tc-search button svg, .tc-search a svg {\n\theight: 0.75em;\n\tfill: &lt;&lt;colour tiddler-controls-foreground&gt;&gt;;\n}\n\n.tc-tiddler-controls button.tc-selected svg,\n.tc-page-controls button.tc-selected svg  {\n\tfill: &lt;&lt;colour tiddler-controls-foreground-selected&gt;&gt;;\n}\n\n.tc-tiddler-controls button.tc-btn-invisible:hover svg,\n.tc-search button:hover svg, .tc-search a:hover svg {\n\tfill: &lt;&lt;colour tiddler-controls-foreground-hover&gt;&gt;;\n}\n\n@media print {\n\t.tc-tiddler-controls {\n\t\tdisplay: none;\n\t}\n}\n\n.tc-tiddler-help { /* Help prompts within tiddler template */\n\tcolor: &lt;&lt;colour muted-foreground&gt;&gt;;\n\tmargin-top: 14px;\n}\n\n.tc-tiddler-help a.tc-tiddlylink {\n\tcolor: &lt;&lt;colour very-muted-foreground&gt;&gt;;\n}\n\n.tc-tiddler-frame input.tc-edit-texteditor, .tc-tiddler-frame textarea.tc-edit-texteditor {\n\twidth: 100%;\n\tpadding: 3px 3px 3px 3px;\n\tborder: 1px solid &lt;&lt;colour tiddler-editor-border&gt;&gt;;\n\tline-height: 1.3em;\n\t-webkit-appearance: none;\n\tmargin: 4px 0 4px 0;\n}\n\n.tc-tiddler-frame .tc-binary-warning {\n\twidth: 100%;\n\theight: 5em;\n\ttext-align: center;\n\tpadding: 3em 3em 6em 3em;\n\tbackground: &lt;&lt;colour alert-background&gt;&gt;;\n\tborder: 1px solid &lt;&lt;colour alert-border&gt;&gt;;\n}\n\n.tc-tiddler-frame input.tc-edit-texteditor {\n\tbackground-color: &lt;&lt;colour tiddler-editor-background&gt;&gt;;\n}\n\ncanvas.tc-edit-bitmapeditor  {\n\tborder: 6px solid &lt;&lt;colour tiddler-editor-border-image&gt;&gt;;\n\tcursor: crosshair;\n\t-moz-user-select: none;\n\t-webkit-user-select: none;\n\t-ms-user-select: none;\n\tmargin-top: 6px;\n\tmargin-bottom: 6px;\n}\n\n.tc-edit-bitmapeditor-width {\n\tdisplay: block;\n}\n\n.tc-edit-bitmapeditor-height {\n\tdisplay: block;\n}\n\n.tc-tiddler-body {\n\tclear: both;\n}\n\n.tc-tiddler-frame .tc-tiddler-body {\n\tfont-size: {{$:/themes/tiddlywiki/vanilla/metrics/bodyfontsize}};\n\tline-height: {{$:/themes/tiddlywiki/vanilla/metrics/bodylineheight}};\n}\n\n.tc-titlebar, .tc-tiddler-edit-title {\n\toverflow: hidden; /* https://github.com/Jermolene/TiddlyWiki5/issues/282 */\n}\n\nhtml body.tc-body.tc-single-tiddler-window {\n\tmargin: 1em;\n\tbackground: &lt;&lt;colour tiddler-background&gt;&gt;;\n}\n\n.tc-single-tiddler-window img,\n.tc-single-tiddler-window svg,\n.tc-single-tiddler-window canvas,\n.tc-single-tiddler-window embed,\n.tc-single-tiddler-window iframe {\n\tmax-width: 100%;\n}\n\n/*\n** Adjustments for fluid-fixed mode\n*/\n\n@media (min-width: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint}}) {\n\n&lt;&lt;if-fluid-fixed text:\&quot;\&quot;\&quot;\n\n\t.tc-story-river {\n\t\tpadding-right: 0;\n\t\tposition: relative;\n\t\twidth: auto;\n\t\tleft: 0;\n\t\tmargin-left: {{$:/themes/tiddlywiki/vanilla/metrics/storyleft}};\n\t\tmargin-right: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarwidth}};\n\t}\n\n\t.tc-tiddler-frame {\n\t\twidth: 100%;\n\t}\n\n\t.tc-sidebar-scrollable {\n\t\tleft: auto;\n\t\tbottom: 0;\n\t\tright: 0;\n\t\twidth: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarwidth}};\n\t}\n\n\tbody.tc-body .tc-storyview-zoomin-tiddler {\n\t\twidth: 100%;\n\t\twidth: calc(100% - 42px);\n\t}\n\n\&quot;\&quot;\&quot; hiddenSidebarText:\&quot;\&quot;\&quot;\n\n\t.tc-story-river {\n\t\tpadding-right: 3em;\n\t\tmargin-right: 0;\n\t}\n\n\tbody.tc-body .tc-storyview-zoomin-tiddler {\n\t\twidth: 100%;\n\t\twidth: calc(100% - 84px);\n\t}\n\n\&quot;\&quot;\&quot;&gt;&gt;\n\n}\n\n/*\n** Toolbar buttons\n*/\n\n.tc-page-controls svg.tc-image-new-button {\n  fill: &lt;&lt;colour toolbar-new-button&gt;&gt;;\n}\n\n.tc-page-controls svg.tc-image-options-button {\n  fill: &lt;&lt;colour toolbar-options-button&gt;&gt;;\n}\n\n.tc-page-controls svg.tc-image-save-button {\n  fill: &lt;&lt;colour toolbar-save-button&gt;&gt;;\n}\n\n.tc-tiddler-controls button svg.tc-image-info-button {\n  fill: &lt;&lt;colour toolbar-info-button&gt;&gt;;\n}\n\n.tc-tiddler-controls button svg.tc-image-edit-button {\n  fill: &lt;&lt;colour toolbar-edit-button&gt;&gt;;\n}\n\n.tc-tiddler-controls button svg.tc-image-close-button {\n  fill: &lt;&lt;colour toolbar-close-button&gt;&gt;;\n}\n\n.tc-tiddler-controls button svg.tc-image-delete-button {\n  fill: &lt;&lt;colour toolbar-delete-button&gt;&gt;;\n}\n\n.tc-tiddler-controls button svg.tc-image-cancel-button {\n  fill: &lt;&lt;colour toolbar-cancel-button&gt;&gt;;\n}\n\n.tc-tiddler-controls button svg.tc-image-done-button {\n  fill: &lt;&lt;colour toolbar-done-button&gt;&gt;;\n}\n\n/*\n** Tiddler edit mode\n*/\n\n.tc-tiddler-edit-frame em.tc-edit {\n\tcolor: &lt;&lt;colour muted-foreground&gt;&gt;;\n\tfont-style: normal;\n}\n\n.tc-edit-type-dropdown a.tc-tiddlylink-missing {\n\tfont-style: normal;\n}\n\n.tc-edit-tags {\n\tborder: 1px solid &lt;&lt;colour tiddler-editor-border&gt;&gt;;\n\tpadding: 4px 8px 4px 8px;\n}\n\n.tc-edit-add-tag {\n\tdisplay: inline-block;\n}\n\n.tc-edit-add-tag .tc-add-tag-name input {\n\twidth: 50%;\n}\n\n.tc-edit-tags .tc-tag-label {\n\tdisplay: inline-block;\n}\n\n.tc-edit-tags-list {\n\tmargin: 14px 0 14px 0;\n}\n\n.tc-remove-tag-button {\n\tpadding-left: 4px;\n}\n\n.tc-tiddler-preview {\n\toverflow: auto;\n}\n\n.tc-tiddler-preview-preview {\n\tfloat: right;\n\twidth: 48%;\n\tborder: 1px solid &lt;&lt;colour tiddler-editor-border&gt;&gt;;\n\tmargin: 4px 3px 3px 3px;\n\tpadding: 3px 3px 3px 3px;\n}\n\n.tc-tiddler-preview-edit {\n\twidth: 48%;\n}\n\n.tc-edit-fields {\n\twidth: 100%;\n}\n\n\n.tc-edit-fields table, .tc-edit-fields tr, .tc-edit-fields td {\n\tborder: none;\n\tpadding: 4px;\n}\n\n.tc-edit-fields &gt; tbody &gt; .tc-edit-field:nth-child(odd) {\n\tbackground-color: &lt;&lt;colour tiddler-editor-fields-odd&gt;&gt;;\n}\n\n.tc-edit-fields &gt; tbody &gt; .tc-edit-field:nth-child(even) {\n\tbackground-color: &lt;&lt;colour tiddler-editor-fields-even&gt;&gt;;\n}\n\n.tc-edit-field-name {\n\ttext-align: right;\n}\n\n.tc-edit-field-value input {\n\twidth: 100%;\n}\n\n.tc-edit-field-remove {\n}\n\n.tc-edit-field-remove svg {\n\theight: 1em;\n\twidth: 1em;\n\tfill: &lt;&lt;colour muted-foreground&gt;&gt;;\n\tvertical-align: middle;\n}\n\n.tc-edit-field-add-name {\n\tdisplay: inline-block;\n\twidth: 15%;\n}\n\n.tc-edit-field-add-value {\n\tdisplay: inline-block;\n\twidth: 40%;\n}\n\n.tc-edit-field-add-button {\n\tdisplay: inline-block;\n\twidth: 10%;\n}\n\n/*\n** Storyview Classes\n*/\n\n.tc-storyview-zoomin-tiddler {\n\tposition: absolute;\n\tdisplay: block;\n\twidth: 100%;\n}\n\n@media (min-width: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint}}) {\n\n\t.tc-storyview-zoomin-tiddler {\n\t\twidth: calc(100% - 84px);\n\t}\n\n}\n\n/*\n** Dropdowns\n*/\n\n.tc-btn-dropdown {\n\ttext-align: left;\n}\n\n.tc-btn-dropdown svg, .tc-btn-dropdown img {\n\theight: 1em;\n\twidth: 1em;\n\tfill: &lt;&lt;colour muted-foreground&gt;&gt;;\n}\n\n.tc-drop-down-wrapper {\n\tposition: relative;\n}\n\n.tc-drop-down {\n\tmin-width: 380px;\n\tborder: 1px solid &lt;&lt;colour dropdown-border&gt;&gt;;\n\tbackground-color: &lt;&lt;colour dropdown-background&gt;&gt;;\n\tpadding: 7px 0 7px 0;\n\tmargin: 4px 0 0 0;\n\twhite-space: nowrap;\n\ttext-shadow: none;\n\tline-height: 1.4;\n}\n\n.tc-drop-down .tc-drop-down {\n\tmargin-left: 14px;\n}\n\n.tc-drop-down button svg, .tc-drop-down a svg  {\n\tfill: &lt;&lt;colour foreground&gt;&gt;;\n}\n\n.tc-drop-down button.tc-btn-invisible:hover svg {\n\tfill: &lt;&lt;colour foreground&gt;&gt;;\n}\n\n.tc-drop-down p {\n\tpadding: 0 14px 0 14px;\n}\n\n.tc-drop-down svg {\n\twidth: 1em;\n\theight: 1em;\n}\n\n.tc-drop-down img {\n\twidth: 1em;\n}\n\n.tc-drop-down-language-chooser img {\n\twidth: 2em;\n\tvertical-align: baseline;\n}\n\n.tc-drop-down a, .tc-drop-down button {\n\tdisplay: block;\n\tpadding: 0 14px 0 14px;\n\twidth: 100%;\n\ttext-align: left;\n\tcolor: &lt;&lt;colour foreground&gt;&gt;;\n\tline-height: 1.4;\n}\n\n.tc-drop-down .tc-prompt {\n\tpadding: 0 14px;\t\n}\n\n.tc-drop-down .tc-chooser {\n\tborder: none;\n}\n\n.tc-drop-down .tc-chooser .tc-swatches-horiz {\n\tfont-size: 0.4em;\n\tpadding-left: 1.2em;\n}\n\n.tc-drop-down .tc-file-input-wrapper {\n\twidth: 100%;\n}\n\n.tc-drop-down .tc-file-input-wrapper button {\n\tcolor: &lt;&lt;colour foreground&gt;&gt;;\n}\n\n.tc-drop-down a:hover, .tc-drop-down button:hover, .tc-drop-down .tc-file-input-wrapper:hover button {\n\tcolor: &lt;&lt;colour tiddler-link-background&gt;&gt;;\n\tbackground-color: &lt;&lt;colour tiddler-link-foreground&gt;&gt;;\n\ttext-decoration: none;\n}\n\n.tc-drop-down .tc-tab-buttons button {\n\tbackground-color: &lt;&lt;colour dropdown-tab-background&gt;&gt;;\n}\n\n.tc-drop-down .tc-tab-buttons button.tc-tab-selected {\n\tbackground-color: &lt;&lt;colour dropdown-tab-background-selected&gt;&gt;;\n\tborder-bottom: 1px solid &lt;&lt;colour dropdown-tab-background-selected&gt;&gt;;\n}\n\n.tc-drop-down-bullet {\n\tdisplay: inline-block;\n\twidth: 0.5em;\n}\n\n.tc-drop-down .tc-tab-contents a {\n\tpadding: 0 0.5em 0 0.5em;\n}\n\n.tc-block-dropdown-wrapper {\n\tposition: relative;\n}\n\n.tc-block-dropdown {\n\tposition: absolute;\n\tmin-width: 220px;\n\tborder: 1px solid &lt;&lt;colour dropdown-border&gt;&gt;;\n\tbackground-color: &lt;&lt;colour dropdown-background&gt;&gt;;\n\tpadding: 7px 0;\n\tmargin: 4px 0 0 0;\n\twhite-space: nowrap;\n\tz-index: 1000;\n\ttext-shadow: none;\n}\n\n.tc-block-dropdown.tc-search-drop-down {\n\tmargin-left: -12px;\n}\n\n.tc-block-dropdown a {\n\tdisplay: block;\n\tpadding: 4px 14px 4px 14px;\n}\n\n.tc-block-dropdown.tc-search-drop-down a {\n\tdisplay: block;\n\tpadding: 0px 10px 0px 10px;\n}\n\n.tc-drop-down .tc-dropdown-item,\n.tc-block-dropdown .tc-dropdown-item {\n\tpadding: 4px 14px 4px 7px;\n\tcolor: &lt;&lt;colour muted-foreground&gt;&gt;;\n}\n\n.tc-block-dropdown a:hover {\n\tcolor: &lt;&lt;colour tiddler-link-background&gt;&gt;;\n\tbackground-color: &lt;&lt;colour tiddler-link-foreground&gt;&gt;;\n\ttext-decoration: none;\n}\n\n.tc-search-results {\n    padding: 0 7px 0 7px;\n}\n\n/*\n** Modals\n*/\n\n.tc-modal-wrapper {\n\tposition: fixed;\n\toverflow: auto;\n\toverflow-y: scroll;\n\ttop: 0;\n\tright: 0;\n\tbottom: 0;\n\tleft: 0;\n}\n\n.tc-modal-backdrop {\n\tposition: fixed;\n\ttop: 0;\n\tright: 0;\n\tbottom: 0;\n\tleft: 0;\n\tz-index: 1000;\n\tbackground-color: &lt;&lt;colour modal-backdrop&gt;&gt;;\n}\n\n.tc-modal {\n\tz-index: 1100;\n\tbackground-color: &lt;&lt;colour modal-background&gt;&gt;;\n\tborder: 1px solid &lt;&lt;colour modal-border&gt;&gt;;\n}\n\n@media (max-width: 55em) {\n\t.tc-modal {\n\t\tposition: fixed;\n\t\ttop: 1em;\n\t\tleft: 1em;\n\t\tright: 1em;\n\t}\n\n\t.tc-modal-body {\n\t\toverflow-y: auto;\n\t\tmax-height: 400px;\n\t\tmax-height: 60vh;\n\t}\n}\n\n@media (min-width: 55em) {\n\t.tc-modal {\n\t\tposition: fixed;\n\t\ttop: 2em;\n\t\tleft: 25%;\n\t\twidth: 50%;\n\t}\n\n\t.tc-modal-body {\n\t\toverflow-y: auto;\n\t\tmax-height: 400px;\n\t\tmax-height: 60vh;\n\t}\n}\n\n.tc-modal-header {\n\tpadding: 9px 15px;\n\tborder-bottom: 1px solid &lt;&lt;colour modal-header-border&gt;&gt;;\n}\n\n.tc-modal-header h3 {\n\tmargin: 0;\n\tline-height: 30px;\n}\n\n.tc-modal-header img, .tc-modal-header svg {\n\twidth: 1em;\n\theight: 1em;\n}\n\n.tc-modal-body {\n\tpadding: 15px;\n}\n\n.tc-modal-footer {\n\tpadding: 14px 15px 15px;\n\tmargin-bottom: 0;\n\ttext-align: right;\n\tbackground-color: &lt;&lt;colour modal-footer-background&gt;&gt;;\n\tborder-top: 1px solid &lt;&lt;colour modal-footer-border&gt;&gt;;\n}\n\n/*\n** Notifications\n*/\n\n.tc-notification {\n\tposition: fixed;\n\ttop: 14px;\n\tright: 42px;\n\tz-index: 1300;\n\tmax-width: 280px;\n\tpadding: 0 14px 0 14px;\n\tbackground-color: &lt;&lt;colour notification-background&gt;&gt;;\n\tborder: 1px solid &lt;&lt;colour notification-border&gt;&gt;;\n}\n\n/*\n** Tabs\n*/\n\n.tc-tab-set.tc-vertical {\n\tdisplay: -webkit-flex;\n\tdisplay: flex;\n}\n\n.tc-tab-buttons {\n\tfont-size: 0.85em;\n\tpadding-top: 1em;\n\tmargin-bottom: -2px;\n}\n\n.tc-tab-buttons.tc-vertical  {\n\tz-index: 100;\n\tdisplay: block;\n\tpadding-top: 14px;\n\tvertical-align: top;\n\ttext-align: right;\n\tmargin-bottom: inherit;\n\tmargin-right: -1px;\n\tmax-width: 33%;\n\t-webkit-flex: 0 0 auto;\n\tflex: 0 0 auto;\n}\n\n.tc-tab-buttons button.tc-tab-selected {\n\tcolor: &lt;&lt;colour tab-foreground-selected&gt;&gt;;\n\tbackground-color: &lt;&lt;colour tab-background-selected&gt;&gt;;\n\tborder-left: 1px solid &lt;&lt;colour tab-border-selected&gt;&gt;;\n\tborder-top: 1px solid &lt;&lt;colour tab-border-selected&gt;&gt;;\n\tborder-right: 1px solid &lt;&lt;colour tab-border-selected&gt;&gt;;\n}\n\n.tc-tab-buttons button {\n\tcolor: &lt;&lt;colour tab-foreground&gt;&gt;;\n\tpadding: 3px 5px 3px 5px;\n\tmargin-right: 0.3em;\n\tfont-weight: 300;\n\tborder: none;\n\tbackground: inherit;\n\tbackground-color: &lt;&lt;colour tab-background&gt;&gt;;\n\tborder-left: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-top: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-right: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-top-left-radius: 2px;\n\tborder-top-right-radius: 2px;\n}\n\n.tc-tab-buttons.tc-vertical button {\n\tdisplay: block;\n\twidth: 100%;\n\tmargin-top: 3px;\n\tmargin-right: 0;\n\ttext-align: right;\n\tbackground-color: &lt;&lt;colour tab-background&gt;&gt;;\n\tborder-left: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-bottom: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-right: none;\n\tborder-top-left-radius: 2px;\n\tborder-bottom-left-radius: 2px;\n}\n\n.tc-tab-buttons.tc-vertical button.tc-tab-selected {\n\tbackground-color: &lt;&lt;colour tab-background-selected&gt;&gt;;\n\tborder-right: 1px solid &lt;&lt;colour tab-background-selected&gt;&gt;;\n}\n\n.tc-tab-divider {\n\tborder-top: 1px solid &lt;&lt;colour tab-divider&gt;&gt;;\n}\n\n.tc-tab-divider.tc-vertical  {\n\tdisplay: none;\n}\n\n.tc-tab-content {\n\tmargin-top: 14px;\n}\n\n.tc-tab-content.tc-vertical  {\n\tdisplay: inline-block;\n\tvertical-align: top;\n\tpadding-top: 0;\n\tpadding-left: 14px;\n\tborder-left: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\t-webkit-flex: 1 0 70%;\n\tflex: 1 0 70%;\n}\n\n.tc-sidebar-lists .tc-tab-buttons {\n\tmargin-bottom: -1px;\n}\n\n.tc-sidebar-lists .tc-tab-buttons button.tc-tab-selected {\n\tbackground-color: &lt;&lt;colour sidebar-tab-background-selected&gt;&gt;;\n\tcolor: &lt;&lt;colour sidebar-tab-foreground-selected&gt;&gt;;\n\tborder-left: 1px solid &lt;&lt;colour sidebar-tab-border-selected&gt;&gt;;\n\tborder-top: 1px solid &lt;&lt;colour sidebar-tab-border-selected&gt;&gt;;\n\tborder-right: 1px solid &lt;&lt;colour sidebar-tab-border-selected&gt;&gt;;\n}\n\n.tc-sidebar-lists .tc-tab-buttons button {\n\tdisplay: inline;\n\twidth: auto;\n\tbackground-color: &lt;&lt;colour sidebar-tab-background&gt;&gt;;\n\tcolor: &lt;&lt;colour sidebar-tab-foreground&gt;&gt;;\n\tborder-left: 1px solid &lt;&lt;colour sidebar-tab-border&gt;&gt;;\n\tborder-top: 1px solid &lt;&lt;colour sidebar-tab-border&gt;&gt;;\n\tborder-right: 1px solid &lt;&lt;colour sidebar-tab-border&gt;&gt;;\n}\n\n.tc-sidebar-lists .tc-tab-divider {\n\tborder-top: 1px solid &lt;&lt;colour sidebar-tab-divider&gt;&gt;;\n}\n\n.tc-more-sidebar .tc-tab-buttons button {\n\tdisplay: block;\n\twidth: 100%;\n\tbackground-color: &lt;&lt;colour sidebar-tab-background&gt;&gt;;\n\tborder-top: none;\n\tborder-left: none;\n\tborder-bottom: none;\n\tborder-right: 1px solid #ccc;\n\tmargin-bottom: inherit;\n}\n\n.tc-more-sidebar .tc-tab-buttons button.tc-tab-selected {\n\tbackground-color: &lt;&lt;colour sidebar-tab-background-selected&gt;&gt;;\n\tborder: none;\n}\n\n/*\n** Alerts\n*/\n\n.tc-alerts {\n\tposition: fixed;\n\ttop: 0;\n\tleft: 0;\n\tmax-width: 500px;\n\tz-index: 20000;\n}\n\n.tc-alert {\n\tposition: relative;\n\tmargin: 28px;\n\tpadding: 14px 14px 14px 14px;\n\tborder: 2px solid &lt;&lt;colour alert-border&gt;&gt;;\n\tbackground-color: &lt;&lt;colour alert-background&gt;&gt;;\n}\n\n.tc-alert-toolbar {\n\tposition: absolute;\n\ttop: 14px;\n\tright: 14px;\n}\n\n.tc-alert-toolbar svg {\n\tfill: &lt;&lt;colour alert-muted-foreground&gt;&gt;;\n}\n\n.tc-alert-subtitle {\n\tcolor: &lt;&lt;colour alert-muted-foreground&gt;&gt;;\n\tfont-weight: bold;\n}\n\n.tc-alert-highlight {\n\tcolor: &lt;&lt;colour alert-highlight&gt;&gt;;\n}\n\n@media (min-width: {{$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint}}) {\n\n\t.tc-static-alert {\n\t\tposition: relative;\n\t}\n\n\t.tc-static-alert-inner {\n\t\tposition: absolute;\n\t\tz-index: 100;\n\t}\n\n}\n\n.tc-static-alert-inner {\n\tpadding: 0 2px 2px 42px;\n\tcolor: &lt;&lt;colour static-alert-foreground&gt;&gt;;\n}\n\n/*\n** Control panel\n*/\n\n.tc-control-panel td {\n\tpadding: 4px;\n}\n\n.tc-control-panel table, .tc-control-panel table input, .tc-control-panel table textarea {\n\twidth: 100%;\n}\n\n.tc-plugin-info {\n\tdisplay: block;\n\tborder: 1px solid &lt;&lt;colour muted-foreground&gt;&gt;;\n\tbackground-colour: &lt;&lt;colour background&gt;&gt;;\n\tmargin: 0.5em 0 0.5em 0;\n\tpadding: 4px;\n}\n\n.tc-plugin-info-disabled {\n\tbackground: -webkit-repeating-linear-gradient(45deg, #ff0, #ff0 10px, #eee 10px, #eee 20px);\n\tbackground: repeating-linear-gradient(45deg, #ff0, #ff0 10px, #eee 10px, #eee 20px);\n}\n\n.tc-plugin-info-disabled:hover {\n\tbackground: -webkit-repeating-linear-gradient(45deg, #aa0, #aa0 10px, #888 10px, #888 20px);\n\tbackground: repeating-linear-gradient(45deg, #aa0, #aa0 10px, #888 10px, #888 20px);\n}\n\na.tc-tiddlylink.tc-plugin-info:hover {\n\ttext-decoration: none;\n\tbackground-color: &lt;&lt;colour primary&gt;&gt;;\n\tcolor: &lt;&lt;colour background&gt;&gt;;\n\tfill: &lt;&lt;colour foreground&gt;&gt;;\n}\n\na.tc-tiddlylink.tc-plugin-info:hover .tc-plugin-info &gt; .tc-plugin-info-chunk &gt; svg {\n\tfill: &lt;&lt;colour foreground&gt;&gt;;\n}\n\n.tc-plugin-info-chunk {\n\tdisplay: inline-block;\n\tvertical-align: middle;\n}\n\n.tc-plugin-info-chunk h1 {\n\tfont-size: 1em;\n\tmargin: 2px 0 2px 0;\n}\n\n.tc-plugin-info-chunk h2 {\n\tfont-size: 0.8em;\n\tmargin: 2px 0 2px 0;\n}\n\n.tc-plugin-info-chunk div {\n\tfont-size: 0.7em;\n\tmargin: 2px 0 2px 0;\n}\n\n.tc-plugin-info:hover &gt; .tc-plugin-info-chunk &gt; img, .tc-plugin-info:hover &gt; .tc-plugin-info-chunk &gt; svg {\n\twidth: 2em;\n\theight: 2em;\n\tfill: &lt;&lt;colour foreground&gt;&gt;;\n}\n\n.tc-plugin-info &gt; .tc-plugin-info-chunk &gt; img, .tc-plugin-info &gt; .tc-plugin-info-chunk &gt; svg {\n\twidth: 2em;\n\theight: 2em;\n\tfill: &lt;&lt;colour muted-foreground&gt;&gt;;\n}\n\n.tc-plugin-info.tc-small-icon &gt; .tc-plugin-info-chunk &gt; img, .tc-plugin-info.tc-small-icon &gt; .tc-plugin-info-chunk &gt; svg {\n\twidth: 1em;\n\theight: 1em;\n}\n\n.tc-plugin-info-dropdown {\n\tborder: 1px solid &lt;&lt;colour muted-foreground&gt;&gt;;\n\tmargin-top: -8px;\n}\n\n.tc-plugin-info-dropdown-message {\n\tbackground: &lt;&lt;colour message-background&gt;&gt;;\n\tpadding: 0.5em 1em 0.5em 1em;\n\tfont-weight: bold;\n\tfont-size: 0.8em;\n}\n\n.tc-plugin-info-dropdown-body {\n\tpadding: 1em 1em 1em 1em;\n}\n\n/*\n** Message boxes\n*/\n\n.tc-message-box {\n\tborder: 1px solid &lt;&lt;colour message-border&gt;&gt;;\n\tbackground: &lt;&lt;colour message-background&gt;&gt;;\n\tpadding: 0px 21px 0px 21px;\n\tfont-size: 12px;\n\tline-height: 18px;\n\tcolor: &lt;&lt;colour message-foreground&gt;&gt;;\n}\n\n/*\n** Pictures\n*/\n\n.tc-bordered-image {\n\tborder: 1px solid &lt;&lt;colour muted-foreground&gt;&gt;;\n\tpadding: 5px;\n\tmargin: 5px;\n}\n\n/*\n** Floats\n*/\n\n.tc-float-right {\n\tfloat: right;\n}\n\n/*\n** Chooser\n*/\n\n.tc-chooser {\n\tborder: 1px solid &lt;&lt;colour table-border&gt;&gt;;\n}\n\n.tc-chooser-item {\n\tborder: 8px;\n\tpadding: 2px 4px;\n}\n\n.tc-chooser-item a.tc-tiddlylink {\n\tdisplay: block;\n\ttext-decoration: none;\n\tcolor: &lt;&lt;colour tiddler-link-foreground&gt;&gt;;\n\tbackground-color: &lt;&lt;colour tiddler-link-background&gt;&gt;;\n}\n\n.tc-chooser-item a.tc-tiddlylink:hover {\n\ttext-decoration: none;\n\tcolor: &lt;&lt;colour tiddler-link-background&gt;&gt;;\n\tbackground-color: &lt;&lt;colour tiddler-link-foreground&gt;&gt;;\n}\n\n/*\n** Palette swatches\n*/\n\n.tc-swatches-horiz {\n}\n\n.tc-swatches-horiz .tc-swatch {\n\tdisplay: inline-block;\n}\n\n.tc-swatch {\n\twidth: 2em;\n\theight: 2em;\n\tmargin: 0.4em;\n\tborder: 1px solid #888;\n}\n\n/*\n** Table of contents\n*/\n\n.tc-sidebar-lists .tc-table-of-contents {\n\twhite-space: nowrap;\n}\n\n.tc-table-of-contents button {\n\tcolor: &lt;&lt;colour sidebar-foreground&gt;&gt;;\n}\n\n.tc-table-of-contents svg {\n\twidth: 0.7em;\n\theight: 0.7em;\n\tvertical-align: middle;\n\tfill: &lt;&lt;colour sidebar-foreground&gt;&gt;;\n}\n\n.tc-table-of-contents ol {\n\tlist-style-type: none;\n\tpadding-left: 0;\n}\n\n.tc-table-of-contents ol ol {\n\tpadding-left: 1em;\n}\n\n.tc-table-of-contents li {\n\tfont-size: 1.0em;\n\tfont-weight: bold;\n}\n\n.tc-table-of-contents li a {\n\tfont-weight: bold;\n}\n\n.tc-table-of-contents li li {\n\tfont-size: 0.95em;\n\tfont-weight: normal;\n\tline-height: 1.4;\n}\n\n.tc-table-of-contents li li a {\n\tfont-weight: normal;\n}\n\n.tc-table-of-contents li li li {\n\tfont-size: 0.95em;\n\tfont-weight: 200;\n\tline-height: 1.5;\n}\n\n.tc-table-of-contents li li li a {\n\tfont-weight: bold;\n}\n\n.tc-table-of-contents li li li li {\n\tfont-size: 0.95em;\n\tfont-weight: 200;\n}\n\n.tc-tabbed-table-of-contents {\n\tdisplay: -webkit-flex;\n\tdisplay: flex;\n}\n\n.tc-tabbed-table-of-contents .tc-table-of-contents {\n\tz-index: 100;\n\tdisplay: inline-block;\n\tpadding-left: 1em;\n\tmax-width: 50%;\n\t-webkit-flex: 0 0 auto;\n\tflex: 0 0 auto;\n\tbackground: &lt;&lt;colour tab-background&gt;&gt;;\n\tborder-left: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-top: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-bottom: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n}\n\n.tc-tabbed-table-of-contents .tc-table-of-contents .toc-item &gt; a,\n.tc-tabbed-table-of-contents .tc-table-of-contents .toc-item-selected &gt; a {\n\tdisplay: block;\n\tpadding: 0.12em 1em 0.12em 0.25em;\n}\n\n.tc-tabbed-table-of-contents .tc-table-of-contents .toc-item &gt; a {\n\tborder-top: 1px solid &lt;&lt;colour tab-background&gt;&gt;;\n\tborder-left: 1px solid &lt;&lt;colour tab-background&gt;&gt;;\n\tborder-bottom: 1px solid &lt;&lt;colour tab-background&gt;&gt;;\n}\n\n.tc-tabbed-table-of-contents .tc-table-of-contents .toc-item &gt; a:hover {\n\ttext-decoration: none;\n\tborder-top: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-left: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-bottom: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tbackground: &lt;&lt;colour tab-border&gt;&gt;;\n}\n\n.tc-tabbed-table-of-contents .tc-table-of-contents .toc-item-selected &gt; a {\n\tborder-top: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-left: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tborder-bottom: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\tbackground: &lt;&lt;colour background&gt;&gt;;\n\tmargin-right: -1px;\n}\n\n.tc-tabbed-table-of-contents .tc-table-of-contents .toc-item-selected &gt; a:hover {\n\ttext-decoration: none;\n}\n\n.tc-tabbed-table-of-contents .tc-tabbed-table-of-contents-content {\n\tdisplay: inline-block;\n\tvertical-align: top;\n\tpadding-left: 1.5em;\n\tpadding-right: 1.5em;\n\tborder: 1px solid &lt;&lt;colour tab-border&gt;&gt;;\n\t-webkit-flex: 1 0 50%;\n\tflex: 1 0 50%;\n}\n\n/*\n** Dirty indicator\n*/\n\nbody.tc-dirty span.tc-dirty-indicator, body.tc-dirty span.tc-dirty-indicator svg {\n\tfill: &lt;&lt;colour dirty-indicator&gt;&gt;;\n\tcolor: &lt;&lt;colour dirty-indicator&gt;&gt;;\n}\n\n/*\n** File inputs\n*/\n\n.tc-file-input-wrapper {\n\tposition: relative;\n\toverflow: hidden;\n\tdisplay: inline-block;\n\tvertical-align: middle;\n}\n\n.tc-file-input-wrapper input[type=file] {\n\tposition: absolute;\n\ttop: 0;\n\tleft: 0;\n\tright: 0;\n\tbottom: 0;\n\tfont-size: 999px;\n\tmax-width: 100%;\n\tmax-height: 100%;\n\tfilter: alpha(opacity=0);\n\topacity: 0;\n\toutline: none;\n\tbackground: white;\n\tcursor: pointer;\n\tdisplay: inline-block;\n}\n\n/*\n** Thumbnail macros\n*/\n\n.tc-thumbnail-wrapper {\n\tposition: relative;\n\tdisplay: inline-block;\n\tmargin: 6px;\n\tvertical-align: top;\n}\n\n.tc-thumbnail-right-wrapper {\n\tfloat:right;\n\tmargin: 0.5em 0 0.5em 0.5em;\n}\n\n.tc-thumbnail-image {\n    text-align: center;\n\toverflow: hidden;\n\tborder-radius: 3px;\n}\n\n.tc-thumbnail-image svg,\n.tc-thumbnail-image img {\n\tfilter: alpha(opacity=1);\n\topacity: 1;\n    min-width: 100%;\n    min-height: 100%;\n    max-width: 100%;\n}\n\n.tc-thumbnail-wrapper:hover .tc-thumbnail-image svg,\n.tc-thumbnail-wrapper:hover .tc-thumbnail-image img {\n\tfilter: alpha(opacity=0.8);\n\topacity: 0.8;\n}\n\n.tc-thumbnail-background {\n\tposition: absolute;\n\tborder-radius: 3px;\n}\n\n.tc-thumbnail-icon svg,\n.tc-thumbnail-icon img {\n\twidth: 3em;\n\theight: 3em;\n\t&lt;&lt;filter \&quot;drop-shadow(2px 2px 4px rgba(0,0,0,0.3))\&quot;&gt;&gt;\n}\n\n.tc-thumbnail-wrapper:hover .tc-thumbnail-icon svg,\n.tc-thumbnail-wrapper:hover .tc-thumbnail-icon img {\n\tfill: #fff;\n\t&lt;&lt;filter \&quot;drop-shadow(3px 3px 4px rgba(0,0,0,0.6))\&quot;&gt;&gt;\n}\n\n.tc-thumbnail-icon {\n\tposition: absolute;\n\ttop: 0;\n\tleft: 0;\n\tright: 0;\n\tbottom: 0;\n\tdisplay: -webkit-flex;\n\t-webkit-align-items: center;\n\t-webkit-justify-content: center;\n\tdisplay: flex;\n\talign-items: center;\n\tjustify-content: center;\n}\n\n.tc-thumbnail-caption {\n\tposition: absolute;\n\tbackground-color: #777;\n\tcolor: #fff;\n\ttext-align: center;\n\tbottom: 0;\n\twidth: 100%;\n\tfilter: alpha(opacity=0.9);\n\topacity: 0.9;\n\tline-height: 1.4;\n\tborder-bottom-left-radius: 3px;\n\tborder-bottom-right-radius: 3px;\n}\n\n.tc-thumbnail-wrapper:hover .tc-thumbnail-caption {\n\tfilter: alpha(opacity=1);\n\topacity: 1;\n}\n\n/*\n** Errors\n*/\n\n.tc-error {\n\tbackground: #f00;\n\tcolor: #fff;\n}\n&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/bodyfontsize&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/bodyfontsize&quot;,
            &quot;text&quot;: &quot;15px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/bodylineheight&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/bodylineheight&quot;,
            &quot;text&quot;: &quot;22px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/fontsize&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/fontsize&quot;,
            &quot;text&quot;: &quot;14px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/lineheight&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/lineheight&quot;,
            &quot;text&quot;: &quot;20px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/storyleft&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/storyleft&quot;,
            &quot;text&quot;: &quot;0px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/storytop&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/storytop&quot;,
            &quot;text&quot;: &quot;0px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/storyright&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/storyright&quot;,
            &quot;text&quot;: &quot;770px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/storywidth&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/storywidth&quot;,
            &quot;text&quot;: &quot;770px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/tiddlerwidth&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/tiddlerwidth&quot;,
            &quot;text&quot;: &quot;686px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/sidebarbreakpoint&quot;,
            &quot;text&quot;: &quot;960px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/metrics/sidebarwidth&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/metrics/sidebarwidth&quot;,
            &quot;text&quot;: &quot;350px&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/options/stickytitles&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/options/stickytitles&quot;,
            &quot;text&quot;: &quot;no&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/options/sidebarlayout&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/options/sidebarlayout&quot;,
            &quot;text&quot;: &quot;fixed-fluid&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/reset&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/reset&quot;,
            &quot;type&quot;: &quot;text/plain&quot;,
            &quot;text&quot;: &quot;/*! normalize.css v3.0.0 | MIT License | git.io/normalize */\n\n/**\n * 1. Set default font family to sans-serif.\n * 2. Prevent iOS text size adjust after orientation change, without disabling\n *    user zoom.\n */\n\nhtml {\n  font-family: sans-serif; /* 1 */\n  -ms-text-size-adjust: 100%; /* 2 */\n  -webkit-text-size-adjust: 100%; /* 2 */\n}\n\n/**\n * Remove default margin.\n */\n\nbody {\n  margin: 0;\n}\n\n/* HTML5 display definitions\n   ========================================================================== */\n\n/**\n * Correct `block` display not defined in IE 8/9.\n */\n\narticle,\naside,\ndetails,\nfigcaption,\nfigure,\nfooter,\nheader,\nhgroup,\nmain,\nnav,\nsection,\nsummary {\n  display: block;\n}\n\n/**\n * 1. Correct `inline-block` display not defined in IE 8/9.\n * 2. Normalize vertical alignment of `progress` in Chrome, Firefox, and Opera.\n */\n\naudio,\ncanvas,\nprogress,\nvideo {\n  display: inline-block; /* 1 */\n  vertical-align: baseline; /* 2 */\n}\n\n/**\n * Prevent modern browsers from displaying `audio` without controls.\n * Remove excess height in iOS 5 devices.\n */\n\naudio:not([controls]) {\n  display: none;\n  height: 0;\n}\n\n/**\n * Address `[hidden]` styling not present in IE 8/9.\n * Hide the `template` element in IE, Safari, and Firefox &lt; 22.\n */\n\n[hidden],\ntemplate {\n  display: none;\n}\n\n/* Links\n   ========================================================================== */\n\n/**\n * Remove the gray background color from active links in IE 10.\n */\n\na {\n  background: transparent;\n}\n\n/**\n * Improve readability when focused and also mouse hovered in all browsers.\n */\n\na:active,\na:hover {\n  outline: 0;\n}\n\n/* Text-level semantics\n   ========================================================================== */\n\n/**\n * Address styling not present in IE 8/9, Safari 5, and Chrome.\n */\n\nabbr[title] {\n  border-bottom: 1px dotted;\n}\n\n/**\n * Address style set to `bolder` in Firefox 4+, Safari 5, and Chrome.\n */\n\nb,\nstrong {\n  font-weight: bold;\n}\n\n/**\n * Address styling not present in Safari 5 and Chrome.\n */\n\ndfn {\n  font-style: italic;\n}\n\n/**\n * Address variable `h1` font-size and margin within `section` and `article`\n * contexts in Firefox 4+, Safari 5, and Chrome.\n */\n\nh1 {\n  font-size: 2em;\n  margin: 0.67em 0;\n}\n\n/**\n * Address styling not present in IE 8/9.\n */\n\nmark {\n  background: #ff0;\n  color: #000;\n}\n\n/**\n * Address inconsistent and variable font size in all browsers.\n */\n\nsmall {\n  font-size: 80%;\n}\n\n/**\n * Prevent `sub` and `sup` affecting `line-height` in all browsers.\n */\n\nsub,\nsup {\n  font-size: 75%;\n  line-height: 0;\n  position: relative;\n  vertical-align: baseline;\n}\n\nsup {\n  top: -0.5em;\n}\n\nsub {\n  bottom: -0.25em;\n}\n\n/* Embedded content\n   ========================================================================== */\n\n/**\n * Remove border when inside `a` element in IE 8/9.\n */\n\nimg {\n  border: 0;\n}\n\n/**\n * Correct overflow displayed oddly in IE 9.\n */\n\nsvg:not(:root) {\n  overflow: hidden;\n}\n\n/* Grouping content\n   ========================================================================== */\n\n/**\n * Address margin not present in IE 8/9 and Safari 5.\n */\n\nfigure {\n  margin: 1em 40px;\n}\n\n/**\n * Address differences between Firefox and other browsers.\n */\n\nhr {\n  -moz-box-sizing: content-box;\n  box-sizing: content-box;\n  height: 0;\n}\n\n/**\n * Contain overflow in all browsers.\n */\n\npre {\n  overflow: auto;\n}\n\n/**\n * Address odd `em`-unit font size rendering in all browsers.\n */\n\ncode,\nkbd,\npre,\nsamp {\n  font-family: monospace, monospace;\n  font-size: 1em;\n}\n\n/* Forms\n   ========================================================================== */\n\n/**\n * Known limitation: by default, Chrome and Safari on OS X allow very limited\n * styling of `select`, unless a `border` property is set.\n */\n\n/**\n * 1. Correct color not being inherited.\n *    Known issue: affects color of disabled elements.\n * 2. Correct font properties not being inherited.\n * 3. Address margins set differently in Firefox 4+, Safari 5, and Chrome.\n */\n\nbutton,\ninput,\noptgroup,\nselect,\ntextarea {\n  color: inherit; /* 1 */\n  font: inherit; /* 2 */\n  margin: 0; /* 3 */\n}\n\n/**\n * Address `overflow` set to `hidden` in IE 8/9/10.\n */\n\nbutton {\n  overflow: visible;\n}\n\n/**\n * Address inconsistent `text-transform` inheritance for `button` and `select`.\n * All other form control elements do not inherit `text-transform` values.\n * Correct `button` style inheritance in Firefox, IE 8+, and Opera\n * Correct `select` style inheritance in Firefox.\n */\n\nbutton,\nselect {\n  text-transform: none;\n}\n\n/**\n * 1. Avoid the WebKit bug in Android 4.0.* where (2) destroys native `audio`\n *    and `video` controls.\n * 2. Correct inability to style clickable `input` types in iOS.\n * 3. Improve usability and consistency of cursor style between image-type\n *    `input` and others.\n */\n\nbutton,\nhtml input[type=\&quot;button\&quot;], /* 1 */\ninput[type=\&quot;reset\&quot;],\ninput[type=\&quot;submit\&quot;] {\n  -webkit-appearance: button; /* 2 */\n  cursor: pointer; /* 3 */\n}\n\n/**\n * Re-set default cursor for disabled elements.\n */\n\nbutton[disabled],\nhtml input[disabled] {\n  cursor: default;\n}\n\n/**\n * Remove inner padding and border in Firefox 4+.\n */\n\nbutton::-moz-focus-inner,\ninput::-moz-focus-inner {\n  border: 0;\n  padding: 0;\n}\n\n/**\n * Address Firefox 4+ setting `line-height` on `input` using `!important` in\n * the UA stylesheet.\n */\n\ninput {\n  line-height: normal;\n}\n\n/**\n * It's recommended that you don't attempt to style these elements.\n * Firefox's implementation doesn't respect box-sizing, padding, or width.\n *\n * 1. Address box sizing set to `content-box` in IE 8/9/10.\n * 2. Remove excess padding in IE 8/9/10.\n */\n\ninput[type=\&quot;checkbox\&quot;],\ninput[type=\&quot;radio\&quot;] {\n  box-sizing: border-box; /* 1 */\n  padding: 0; /* 2 */\n}\n\n/**\n * Fix the cursor style for Chrome's increment/decrement buttons. For certain\n * `font-size` values of the `input`, it causes the cursor style of the\n * decrement button to change from `default` to `text`.\n */\n\ninput[type=\&quot;number\&quot;]::-webkit-inner-spin-button,\ninput[type=\&quot;number\&quot;]::-webkit-outer-spin-button {\n  height: auto;\n}\n\n/**\n * 1. Address `appearance` set to `searchfield` in Safari 5 and Chrome.\n * 2. Address `box-sizing` set to `border-box` in Safari 5 and Chrome\n *    (include `-moz` to future-proof).\n */\n\ninput[type=\&quot;search\&quot;] {\n  -webkit-appearance: textfield; /* 1 */\n  -moz-box-sizing: content-box;\n  -webkit-box-sizing: content-box; /* 2 */\n  box-sizing: content-box;\n}\n\n/**\n * Remove inner padding and search cancel button in Safari and Chrome on OS X.\n * Safari (but not Chrome) clips the cancel button when the search input has\n * padding (and `textfield` appearance).\n */\n\ninput[type=\&quot;search\&quot;]::-webkit-search-cancel-button,\ninput[type=\&quot;search\&quot;]::-webkit-search-decoration {\n  -webkit-appearance: none;\n}\n\n/**\n * Define consistent border, margin, and padding.\n */\n\nfieldset {\n  border: 1px solid #c0c0c0;\n  margin: 0 2px;\n  padding: 0.35em 0.625em 0.75em;\n}\n\n/**\n * 1. Correct `color` not being inherited in IE 8/9.\n * 2. Remove padding so people aren't caught out if they zero out fieldsets.\n */\n\nlegend {\n  border: 0; /* 1 */\n  padding: 0; /* 2 */\n}\n\n/**\n * Remove default vertical scrollbar in IE 8/9.\n */\n\ntextarea {\n  overflow: auto;\n}\n\n/**\n * Don't inherit the `font-weight` (applied by a rule above).\n * NOTE: the default cannot safely be changed in Chrome and Safari on OS X.\n */\n\noptgroup {\n  font-weight: bold;\n}\n\n/* Tables\n   ========================================================================== */\n\n/**\n * Remove most spacing between table cells.\n */\n\ntable {\n  border-collapse: collapse;\n  border-spacing: 0;\n}\n\ntd,\nth {\n  padding: 0;\n}\n&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/settings/fontfamily&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/settings/fontfamily&quot;,
            &quot;text&quot;: &quot;\&quot;Helvetica Neue\&quot;, Helvetica, Arial, \&quot;Lucida Grande\&quot;, \&quot;DejaVu Sans\&quot;, sans-serif&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/settings/codefontfamily&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/settings/codefontfamily&quot;,
            &quot;text&quot;: &quot;Monaco, Consolas, \&quot;Lucida Console\&quot;, \&quot;DejaVu Sans Mono\&quot;, monospace&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/settings/backgroundimageattachment&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/settings/backgroundimageattachment&quot;,
            &quot;text&quot;: &quot;fixed&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/settings/backgroundimagesize&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/settings/backgroundimagesize&quot;,
            &quot;text&quot;: &quot;auto&quot;
        },
        &quot;$:/themes/tiddlywiki/vanilla/sticky&quot;: {
            &quot;title&quot;: &quot;$:/themes/tiddlywiki/vanilla/sticky&quot;,
            &quot;text&quot;: &quot;&lt;$reveal state=\&quot;$:/themes/tiddlywiki/vanilla/options/stickytitles\&quot; type=\&quot;match\&quot; text=\&quot;yes\&quot;&gt;\n``\n.tc-tiddler-title {\n\tposition: -webkit-sticky;\n\tposition: -moz-sticky;\n\tposition: -o-sticky;\n\tposition: -ms-sticky;\n\tposition: sticky;\n\ttop: 0px;\n\tbackground: ``&lt;&lt;colour tiddler-background&gt;&gt;``;\n\tz-index: 500;\n}\n``\n&lt;/$reveal&gt;\n&quot;
        }
    }
}</pre>
</div>
<div title="TiddlerListTemplate" revision="0" bag="default">
<pre>&lt;$view field=&quot;title&quot; format=&quot;link&quot;/&gt; &lt;small&gt;&lt;$view field=&quot;type&quot;/&gt;&lt;/small&gt;
</pre>
</div>
<div created="20131115215300000" modified="20131115215300000" title="TiddlyWiki5 for TiddlyWeb" revision="0" bag="default">
<pre>! Features

* Loads skinny tiddlers from entire recipe at startup/login
* Subsequently syncs changes back to the server
* Polls for changes from the server

! Getting Started

To try it out, create a new space, include the space ''tw5tiddlyweb'', and then visit ''{myspace}.tiddlyspace.com/tw5''.

If you want to make TiddlyWiki5 the default view for your space, then create a tiddler called ''ServerSettings'' and give it the text:

```
index: tw5
```

! Issues

* ''[[$:/DefaultTiddlers]]'' doesn't work because thanks to lazy loading it is only loaded after it is needed
* Ignores ''if-match'' header, so doesn't detect clashes on save
* UI state (eg current tab status) is shared between all users of the wiki, meaning that the UI can spontaneously change in response to a server sync
</pre>
</div>

</div>


<!--~~ Library modules ~~-->
<div id="libraryModules" style="display:none;">
<script data-tiddler-library="yes" data-tiddler-title="$:/library/sjcl.js" data-tiddler-type="application/javascript" type="text/javascript">"use strict";var sjcl={cipher:{},hash:{},keyexchange:{},mode:{},misc:{},codec:{},exception:{corrupt:function(a){this.toString=function(){return"CORRUPT: "+this.message};this.message=a},invalid:function(a){this.toString=function(){return"INVALID: "+this.message};this.message=a},bug:function(a){this.toString=function(){return"BUG: "+this.message};this.message=a},notReady:function(a){this.toString=function(){return"NOT READY: "+this.message};this.message=a}}};
if(typeof module!="undefined"&&module.exports)module.exports=sjcl;
sjcl.cipher.aes=function(a){this.h[0][0][0]||this.z();var b,c,d,e,f=this.h[0][4],g=this.h[1];b=a.length;var h=1;if(b!==4&&b!==6&&b!==8)throw new sjcl.exception.invalid("invalid aes key size");this.a=[d=a.slice(0),e=[]];for(a=b;a<4*b+28;a++){c=d[a-1];if(a%b===0||b===8&&a%b===4){c=f[c>>>24]<<24^f[c>>16&255]<<16^f[c>>8&255]<<8^f[c&255];if(a%b===0){c=c<<8^c>>>24^h<<24;h=h<<1^(h>>7)*283}}d[a]=d[a-b]^c}for(b=0;a;b++,a--){c=d[b&3?a:a-4];e[b]=a<=4||b<4?c:g[0][f[c>>>24]]^g[1][f[c>>16&255]]^g[2][f[c>>8&255]]^
g[3][f[c&255]]}};
sjcl.cipher.aes.prototype={encrypt:function(a){return this.I(a,0)},decrypt:function(a){return this.I(a,1)},h:[[[],[],[],[],[]],[[],[],[],[],[]]],z:function(){var a=this.h[0],b=this.h[1],c=a[4],d=b[4],e,f,g,h=[],i=[],k,j,l,m;for(e=0;e<0x100;e++)i[(h[e]=e<<1^(e>>7)*283)^e]=e;for(f=g=0;!c[f];f^=k||1,g=i[g]||1){l=g^g<<1^g<<2^g<<3^g<<4;l=l>>8^l&255^99;c[f]=l;d[l]=f;j=h[e=h[k=h[f]]];m=j*0x1010101^e*0x10001^k*0x101^f*0x1010100;j=h[l]*0x101^l*0x1010100;for(e=0;e<4;e++){a[e][f]=j=j<<24^j>>>8;b[e][l]=m=m<<24^m>>>8}}for(e=
0;e<5;e++){a[e]=a[e].slice(0);b[e]=b[e].slice(0)}},I:function(a,b){if(a.length!==4)throw new sjcl.exception.invalid("invalid aes block size");var c=this.a[b],d=a[0]^c[0],e=a[b?3:1]^c[1],f=a[2]^c[2];a=a[b?1:3]^c[3];var g,h,i,k=c.length/4-2,j,l=4,m=[0,0,0,0];g=this.h[b];var n=g[0],o=g[1],p=g[2],q=g[3],r=g[4];for(j=0;j<k;j++){g=n[d>>>24]^o[e>>16&255]^p[f>>8&255]^q[a&255]^c[l];h=n[e>>>24]^o[f>>16&255]^p[a>>8&255]^q[d&255]^c[l+1];i=n[f>>>24]^o[a>>16&255]^p[d>>8&255]^q[e&255]^c[l+2];a=n[a>>>24]^o[d>>16&
255]^p[e>>8&255]^q[f&255]^c[l+3];l+=4;d=g;e=h;f=i}for(j=0;j<4;j++){m[b?3&-j:j]=r[d>>>24]<<24^r[e>>16&255]<<16^r[f>>8&255]<<8^r[a&255]^c[l++];g=d;d=e;e=f;f=a;a=g}return m}};
sjcl.bitArray={bitSlice:function(a,b,c){a=sjcl.bitArray.P(a.slice(b/32),32-(b&31)).slice(1);return c===undefined?a:sjcl.bitArray.clamp(a,c-b)},extract:function(a,b,c){var d=Math.floor(-b-c&31);return((b+c-1^b)&-32?a[b/32|0]<<32-d^a[b/32+1|0]>>>d:a[b/32|0]>>>d)&(1<<c)-1},concat:function(a,b){if(a.length===0||b.length===0)return a.concat(b);var c=a[a.length-1],d=sjcl.bitArray.getPartial(c);return d===32?a.concat(b):sjcl.bitArray.P(b,d,c|0,a.slice(0,a.length-1))},bitLength:function(a){var b=a.length;
if(b===0)return 0;return(b-1)*32+sjcl.bitArray.getPartial(a[b-1])},clamp:function(a,b){if(a.length*32<b)return a;a=a.slice(0,Math.ceil(b/32));var c=a.length;b&=31;if(c>0&&b)a[c-1]=sjcl.bitArray.partial(b,a[c-1]&2147483648>>b-1,1);return a},partial:function(a,b,c){if(a===32)return b;return(c?b|0:b<<32-a)+a*0x10000000000},getPartial:function(a){return Math.round(a/0x10000000000)||32},equal:function(a,b){if(sjcl.bitArray.bitLength(a)!==sjcl.bitArray.bitLength(b))return false;var c=0,d;for(d=0;d<a.length;d++)c|=
a[d]^b[d];return c===0},P:function(a,b,c,d){var e;e=0;if(d===undefined)d=[];for(;b>=32;b-=32){d.push(c);c=0}if(b===0)return d.concat(a);for(e=0;e<a.length;e++){d.push(c|a[e]>>>b);c=a[e]<<32-b}e=a.length?a[a.length-1]:0;a=sjcl.bitArray.getPartial(e);d.push(sjcl.bitArray.partial(b+a&31,b+a>32?c:d.pop(),1));return d},k:function(a,b){return[a[0]^b[0],a[1]^b[1],a[2]^b[2],a[3]^b[3]]}};
sjcl.codec.utf8String={fromBits:function(a){var b="",c=sjcl.bitArray.bitLength(a),d,e;for(d=0;d<c/8;d++){if((d&3)===0)e=a[d/4];b+=String.fromCharCode(e>>>24);e<<=8}return decodeURIComponent(escape(b))},toBits:function(a){a=unescape(encodeURIComponent(a));var b=[],c,d=0;for(c=0;c<a.length;c++){d=d<<8|a.charCodeAt(c);if((c&3)===3){b.push(d);d=0}}c&3&&b.push(sjcl.bitArray.partial(8*(c&3),d));return b}};
sjcl.codec.hex={fromBits:function(a){var b="",c;for(c=0;c<a.length;c++)b+=((a[c]|0)+0xf00000000000).toString(16).substr(4);return b.substr(0,sjcl.bitArray.bitLength(a)/4)},toBits:function(a){var b,c=[],d;a=a.replace(/\s|0x/g,"");d=a.length;a+="00000000";for(b=0;b<a.length;b+=8)c.push(parseInt(a.substr(b,8),16)^0);return sjcl.bitArray.clamp(c,d*4)}};
sjcl.codec.base64={F:"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/",fromBits:function(a,b,c){var d="",e=0,f=sjcl.codec.base64.F,g=0,h=sjcl.bitArray.bitLength(a);if(c)f=f.substr(0,62)+"-_";for(c=0;d.length*6<h;){d+=f.charAt((g^a[c]>>>e)>>>26);if(e<6){g=a[c]<<6-e;e+=26;c++}else{g<<=6;e-=6}}for(;d.length&3&&!b;)d+="=";return d},toBits:function(a,b){a=a.replace(/\s|=/g,"");var c=[],d=0,e=sjcl.codec.base64.F,f=0,g;if(b)e=e.substr(0,62)+"-_";for(b=0;b<a.length;b++){g=e.indexOf(a.charAt(b));
if(g<0)throw new sjcl.exception.invalid("this isn't base64!");if(d>26){d-=26;c.push(f^g>>>d);f=g<<32-d}else{d+=6;f^=g<<32-d}}d&56&&c.push(sjcl.bitArray.partial(d&56,f,1));return c}};sjcl.codec.base64url={fromBits:function(a){return sjcl.codec.base64.fromBits(a,1,1)},toBits:function(a){return sjcl.codec.base64.toBits(a,1)}};sjcl.hash.sha256=function(a){this.a[0]||this.z();if(a){this.n=a.n.slice(0);this.i=a.i.slice(0);this.e=a.e}else this.reset()};sjcl.hash.sha256.hash=function(a){return(new sjcl.hash.sha256).update(a).finalize()};
sjcl.hash.sha256.prototype={blockSize:512,reset:function(){this.n=this.N.slice(0);this.i=[];this.e=0;return this},update:function(a){if(typeof a==="string")a=sjcl.codec.utf8String.toBits(a);var b,c=this.i=sjcl.bitArray.concat(this.i,a);b=this.e;a=this.e=b+sjcl.bitArray.bitLength(a);for(b=512+b&-512;b<=a;b+=512)this.D(c.splice(0,16));return this},finalize:function(){var a,b=this.i,c=this.n;b=sjcl.bitArray.concat(b,[sjcl.bitArray.partial(1,1)]);for(a=b.length+2;a&15;a++)b.push(0);b.push(Math.floor(this.e/
4294967296));for(b.push(this.e|0);b.length;)this.D(b.splice(0,16));this.reset();return c},N:[],a:[],z:function(){function a(e){return(e-Math.floor(e))*0x100000000|0}var b=0,c=2,d;a:for(;b<64;c++){for(d=2;d*d<=c;d++)if(c%d===0)continue a;if(b<8)this.N[b]=a(Math.pow(c,0.5));this.a[b]=a(Math.pow(c,1/3));b++}},D:function(a){var b,c,d=a.slice(0),e=this.n,f=this.a,g=e[0],h=e[1],i=e[2],k=e[3],j=e[4],l=e[5],m=e[6],n=e[7];for(a=0;a<64;a++){if(a<16)b=d[a];else{b=d[a+1&15];c=d[a+14&15];b=d[a&15]=(b>>>7^b>>>18^
b>>>3^b<<25^b<<14)+(c>>>17^c>>>19^c>>>10^c<<15^c<<13)+d[a&15]+d[a+9&15]|0}b=b+n+(j>>>6^j>>>11^j>>>25^j<<26^j<<21^j<<7)+(m^j&(l^m))+f[a];n=m;m=l;l=j;j=k+b|0;k=i;i=h;h=g;g=b+(h&i^k&(h^i))+(h>>>2^h>>>13^h>>>22^h<<30^h<<19^h<<10)|0}e[0]=e[0]+g|0;e[1]=e[1]+h|0;e[2]=e[2]+i|0;e[3]=e[3]+k|0;e[4]=e[4]+j|0;e[5]=e[5]+l|0;e[6]=e[6]+m|0;e[7]=e[7]+n|0}};
sjcl.mode.ccm={name:"ccm",encrypt:function(a,b,c,d,e){var f,g=b.slice(0),h=sjcl.bitArray,i=h.bitLength(c)/8,k=h.bitLength(g)/8;e=e||64;d=d||[];if(i<7)throw new sjcl.exception.invalid("ccm: iv must be at least 7 bytes");for(f=2;f<4&&k>>>8*f;f++);if(f<15-i)f=15-i;c=h.clamp(c,8*(15-f));b=sjcl.mode.ccm.H(a,b,c,d,e,f);g=sjcl.mode.ccm.J(a,g,c,b,e,f);return h.concat(g.data,g.tag)},decrypt:function(a,b,c,d,e){e=e||64;d=d||[];var f=sjcl.bitArray,g=f.bitLength(c)/8,h=f.bitLength(b),i=f.clamp(b,h-e),k=f.bitSlice(b,
h-e);h=(h-e)/8;if(g<7)throw new sjcl.exception.invalid("ccm: iv must be at least 7 bytes");for(b=2;b<4&&h>>>8*b;b++);if(b<15-g)b=15-g;c=f.clamp(c,8*(15-b));i=sjcl.mode.ccm.J(a,i,c,k,e,b);a=sjcl.mode.ccm.H(a,i.data,c,d,e,b);if(!f.equal(i.tag,a))throw new sjcl.exception.corrupt("ccm: tag doesn't match");return i.data},H:function(a,b,c,d,e,f){var g=[],h=sjcl.bitArray,i=h.k;e/=8;if(e%2||e<4||e>16)throw new sjcl.exception.invalid("ccm: invalid tag length");if(d.length>0xffffffff||b.length>0xffffffff)throw new sjcl.exception.bug("ccm: can't deal with 4GiB or more data");
f=[h.partial(8,(d.length?64:0)|e-2<<2|f-1)];f=h.concat(f,c);f[3]|=h.bitLength(b)/8;f=a.encrypt(f);if(d.length){c=h.bitLength(d)/8;if(c<=65279)g=[h.partial(16,c)];else if(c<=0xffffffff)g=h.concat([h.partial(16,65534)],[c]);g=h.concat(g,d);for(d=0;d<g.length;d+=4)f=a.encrypt(i(f,g.slice(d,d+4).concat([0,0,0])))}for(d=0;d<b.length;d+=4)f=a.encrypt(i(f,b.slice(d,d+4).concat([0,0,0])));return h.clamp(f,e*8)},J:function(a,b,c,d,e,f){var g,h=sjcl.bitArray;g=h.k;var i=b.length,k=h.bitLength(b);c=h.concat([h.partial(8,
f-1)],c).concat([0,0,0]).slice(0,4);d=h.bitSlice(g(d,a.encrypt(c)),0,e);if(!i)return{tag:d,data:[]};for(g=0;g<i;g+=4){c[3]++;e=a.encrypt(c);b[g]^=e[0];b[g+1]^=e[1];b[g+2]^=e[2];b[g+3]^=e[3]}return{tag:d,data:h.clamp(b,k)}}};
sjcl.mode.ocb2={name:"ocb2",encrypt:function(a,b,c,d,e,f){if(sjcl.bitArray.bitLength(c)!==128)throw new sjcl.exception.invalid("ocb iv must be 128 bits");var g,h=sjcl.mode.ocb2.B,i=sjcl.bitArray,k=i.k,j=[0,0,0,0];c=h(a.encrypt(c));var l,m=[];d=d||[];e=e||64;for(g=0;g+4<b.length;g+=4){l=b.slice(g,g+4);j=k(j,l);m=m.concat(k(c,a.encrypt(k(c,l))));c=h(c)}l=b.slice(g);b=i.bitLength(l);g=a.encrypt(k(c,[0,0,0,b]));l=i.clamp(k(l.concat([0,0,0]),g),b);j=k(j,k(l.concat([0,0,0]),g));j=a.encrypt(k(j,k(c,h(c))));
if(d.length)j=k(j,f?d:sjcl.mode.ocb2.pmac(a,d));return m.concat(i.concat(l,i.clamp(j,e)))},decrypt:function(a,b,c,d,e,f){if(sjcl.bitArray.bitLength(c)!==128)throw new sjcl.exception.invalid("ocb iv must be 128 bits");e=e||64;var g=sjcl.mode.ocb2.B,h=sjcl.bitArray,i=h.k,k=[0,0,0,0],j=g(a.encrypt(c)),l,m,n=sjcl.bitArray.bitLength(b)-e,o=[];d=d||[];for(c=0;c+4<n/32;c+=4){l=i(j,a.decrypt(i(j,b.slice(c,c+4))));k=i(k,l);o=o.concat(l);j=g(j)}m=n-c*32;l=a.encrypt(i(j,[0,0,0,m]));l=i(l,h.clamp(b.slice(c),
m).concat([0,0,0]));k=i(k,l);k=a.encrypt(i(k,i(j,g(j))));if(d.length)k=i(k,f?d:sjcl.mode.ocb2.pmac(a,d));if(!h.equal(h.clamp(k,e),h.bitSlice(b,n)))throw new sjcl.exception.corrupt("ocb: tag doesn't match");return o.concat(h.clamp(l,m))},pmac:function(a,b){var c,d=sjcl.mode.ocb2.B,e=sjcl.bitArray,f=e.k,g=[0,0,0,0],h=a.encrypt([0,0,0,0]);h=f(h,d(d(h)));for(c=0;c+4<b.length;c+=4){h=d(h);g=f(g,a.encrypt(f(h,b.slice(c,c+4))))}b=b.slice(c);if(e.bitLength(b)<128){h=f(h,d(h));b=e.concat(b,[2147483648|0,0,
0,0])}g=f(g,b);return a.encrypt(f(d(f(h,d(h))),g))},B:function(a){return[a[0]<<1^a[1]>>>31,a[1]<<1^a[2]>>>31,a[2]<<1^a[3]>>>31,a[3]<<1^(a[0]>>>31)*135]}};sjcl.misc.hmac=function(a,b){this.M=b=b||sjcl.hash.sha256;var c=[[],[]],d=b.prototype.blockSize/32;this.l=[new b,new b];if(a.length>d)a=b.hash(a);for(b=0;b<d;b++){c[0][b]=a[b]^909522486;c[1][b]=a[b]^1549556828}this.l[0].update(c[0]);this.l[1].update(c[1])};
sjcl.misc.hmac.prototype.encrypt=sjcl.misc.hmac.prototype.mac=function(a,b){a=(new this.M(this.l[0])).update(a,b).finalize();return(new this.M(this.l[1])).update(a).finalize()};
sjcl.misc.pbkdf2=function(a,b,c,d,e){c=c||1E3;if(d<0||c<0)throw sjcl.exception.invalid("invalid params to pbkdf2");if(typeof a==="string")a=sjcl.codec.utf8String.toBits(a);e=e||sjcl.misc.hmac;a=new e(a);var f,g,h,i,k=[],j=sjcl.bitArray;for(i=1;32*k.length<(d||1);i++){e=f=a.encrypt(j.concat(b,[i]));for(g=1;g<c;g++){f=a.encrypt(f);for(h=0;h<f.length;h++)e[h]^=f[h]}k=k.concat(e)}if(d)k=j.clamp(k,d);return k};
sjcl.random={randomWords:function(a,b){var c=[];b=this.isReady(b);var d;if(b===0)throw new sjcl.exception.notReady("generator isn't seeded");else b&2&&this.U(!(b&1));for(b=0;b<a;b+=4){(b+1)%0x10000===0&&this.L();d=this.w();c.push(d[0],d[1],d[2],d[3])}this.L();return c.slice(0,a)},setDefaultParanoia:function(a){this.t=a},addEntropy:function(a,b,c){c=c||"user";var d,e,f=(new Date).valueOf(),g=this.q[c],h=this.isReady(),i=0;d=this.G[c];if(d===undefined)d=this.G[c]=this.R++;if(g===undefined)g=this.q[c]=
0;this.q[c]=(this.q[c]+1)%this.b.length;switch(typeof a){case "number":if(b===undefined)b=1;this.b[g].update([d,this.u++,1,b,f,1,a|0]);break;case "object":c=Object.prototype.toString.call(a);if(c==="[object Uint32Array]"){e=[];for(c=0;c<a.length;c++)e.push(a[c]);a=e}else{if(c!=="[object Array]")i=1;for(c=0;c<a.length&&!i;c++)if(typeof a[c]!="number")i=1}if(!i){if(b===undefined)for(c=b=0;c<a.length;c++)for(e=a[c];e>0;){b++;e>>>=1}this.b[g].update([d,this.u++,2,b,f,a.length].concat(a))}break;case "string":if(b===
undefined)b=a.length;this.b[g].update([d,this.u++,3,b,f,a.length]);this.b[g].update(a);break;default:i=1}if(i)throw new sjcl.exception.bug("random: addEntropy only supports number, array of numbers or string");this.j[g]+=b;this.f+=b;if(h===0){this.isReady()!==0&&this.K("seeded",Math.max(this.g,this.f));this.K("progress",this.getProgress())}},isReady:function(a){a=this.C[a!==undefined?a:this.t];return this.g&&this.g>=a?this.j[0]>80&&(new Date).valueOf()>this.O?3:1:this.f>=a?2:0},getProgress:function(a){a=
this.C[a?a:this.t];return this.g>=a?1:this.f>a?1:this.f/a},startCollectors:function(){if(!this.m){if(window.addEventListener){window.addEventListener("load",this.o,false);window.addEventListener("mousemove",this.p,false)}else if(document.attachEvent){document.attachEvent("onload",this.o);document.attachEvent("onmousemove",this.p)}else throw new sjcl.exception.bug("can't attach event");this.m=true}},stopCollectors:function(){if(this.m){if(window.removeEventListener){window.removeEventListener("load",
this.o,false);window.removeEventListener("mousemove",this.p,false)}else if(window.detachEvent){window.detachEvent("onload",this.o);window.detachEvent("onmousemove",this.p)}this.m=false}},addEventListener:function(a,b){this.r[a][this.Q++]=b},removeEventListener:function(a,b){var c;a=this.r[a];var d=[];for(c in a)a.hasOwnProperty(c)&&a[c]===b&&d.push(c);for(b=0;b<d.length;b++){c=d[b];delete a[c]}},b:[new sjcl.hash.sha256],j:[0],A:0,q:{},u:0,G:{},R:0,g:0,f:0,O:0,a:[0,0,0,0,0,0,0,0],d:[0,0,0,0],s:undefined,
t:6,m:false,r:{progress:{},seeded:{}},Q:0,C:[0,48,64,96,128,192,0x100,384,512,768,1024],w:function(){for(var a=0;a<4;a++){this.d[a]=this.d[a]+1|0;if(this.d[a])break}return this.s.encrypt(this.d)},L:function(){this.a=this.w().concat(this.w());this.s=new sjcl.cipher.aes(this.a)},T:function(a){this.a=sjcl.hash.sha256.hash(this.a.concat(a));this.s=new sjcl.cipher.aes(this.a);for(a=0;a<4;a++){this.d[a]=this.d[a]+1|0;if(this.d[a])break}},U:function(a){var b=[],c=0,d;this.O=b[0]=(new Date).valueOf()+3E4;for(d=
0;d<16;d++)b.push(Math.random()*0x100000000|0);for(d=0;d<this.b.length;d++){b=b.concat(this.b[d].finalize());c+=this.j[d];this.j[d]=0;if(!a&&this.A&1<<d)break}if(this.A>=1<<this.b.length){this.b.push(new sjcl.hash.sha256);this.j.push(0)}this.f-=c;if(c>this.g)this.g=c;this.A++;this.T(b)},p:function(a){sjcl.random.addEntropy([a.x||a.clientX||a.offsetX||0,a.y||a.clientY||a.offsetY||0],2,"mouse")},o:function(){sjcl.random.addEntropy((new Date).valueOf(),2,"loadtime")},K:function(a,b){var c;a=sjcl.random.r[a];
var d=[];for(c in a)a.hasOwnProperty(c)&&d.push(a[c]);for(c=0;c<d.length;c++)d[c](b)}};try{var s=new Uint32Array(32);crypto.getRandomValues(s);sjcl.random.addEntropy(s,1024,"crypto['getRandomValues']")}catch(t){}
sjcl.json={defaults:{v:1,iter:1E3,ks:128,ts:64,mode:"ccm",adata:"",cipher:"aes"},encrypt:function(a,b,c,d){c=c||{};d=d||{};var e=sjcl.json,f=e.c({iv:sjcl.random.randomWords(4,0)},e.defaults),g;e.c(f,c);c=f.adata;if(typeof f.salt==="string")f.salt=sjcl.codec.base64.toBits(f.salt);if(typeof f.iv==="string")f.iv=sjcl.codec.base64.toBits(f.iv);if(!sjcl.mode[f.mode]||!sjcl.cipher[f.cipher]||typeof a==="string"&&f.iter<=100||f.ts!==64&&f.ts!==96&&f.ts!==128||f.ks!==128&&f.ks!==192&&f.ks!==0x100||f.iv.length<
2||f.iv.length>4)throw new sjcl.exception.invalid("json encrypt: invalid parameters");if(typeof a==="string"){g=sjcl.misc.cachedPbkdf2(a,f);a=g.key.slice(0,f.ks/32);f.salt=g.salt}if(typeof b==="string")b=sjcl.codec.utf8String.toBits(b);if(typeof c==="string")c=sjcl.codec.utf8String.toBits(c);g=new sjcl.cipher[f.cipher](a);e.c(d,f);d.key=a;f.ct=sjcl.mode[f.mode].encrypt(g,b,f.iv,c,f.ts);return e.encode(f)},decrypt:function(a,b,c,d){c=c||{};d=d||{};var e=sjcl.json;b=e.c(e.c(e.c({},e.defaults),e.decode(b)),
c,true);var f;c=b.adata;if(typeof b.salt==="string")b.salt=sjcl.codec.base64.toBits(b.salt);if(typeof b.iv==="string")b.iv=sjcl.codec.base64.toBits(b.iv);if(!sjcl.mode[b.mode]||!sjcl.cipher[b.cipher]||typeof a==="string"&&b.iter<=100||b.ts!==64&&b.ts!==96&&b.ts!==128||b.ks!==128&&b.ks!==192&&b.ks!==0x100||!b.iv||b.iv.length<2||b.iv.length>4)throw new sjcl.exception.invalid("json decrypt: invalid parameters");if(typeof a==="string"){f=sjcl.misc.cachedPbkdf2(a,b);a=f.key.slice(0,b.ks/32);b.salt=f.salt}if(typeof c===
"string")c=sjcl.codec.utf8String.toBits(c);f=new sjcl.cipher[b.cipher](a);c=sjcl.mode[b.mode].decrypt(f,b.ct,b.iv,c,b.ts);e.c(d,b);d.key=a;return sjcl.codec.utf8String.fromBits(c)},encode:function(a){var b,c="{",d="";for(b in a)if(a.hasOwnProperty(b)){if(!b.match(/^[a-z0-9]+$/i))throw new sjcl.exception.invalid("json encode: invalid property name");c+=d+'"'+b+'":';d=",";switch(typeof a[b]){case "number":case "boolean":c+=a[b];break;case "string":c+='"'+escape(a[b])+'"';break;case "object":c+='"'+
sjcl.codec.base64.fromBits(a[b],1)+'"';break;default:throw new sjcl.exception.bug("json encode: unsupported type");}}return c+"}"},decode:function(a){a=a.replace(/\s/g,"");if(!a.match(/^\{.*\}$/))throw new sjcl.exception.invalid("json decode: this isn't json!");a=a.replace(/^\{|\}$/g,"").split(/,/);var b={},c,d;for(c=0;c<a.length;c++){if(!(d=a[c].match(/^(?:(["']?)([a-z][a-z0-9]*)\1):(?:(\d+)|"([a-z0-9+\/%*_.@=\-]*)")$/i)))throw new sjcl.exception.invalid("json decode: this isn't json!");b[d[2]]=
d[3]?parseInt(d[3],10):d[2].match(/^(ct|salt|iv)$/)?sjcl.codec.base64.toBits(d[4]):unescape(d[4])}return b},c:function(a,b,c){if(a===undefined)a={};if(b===undefined)return a;var d;for(d in b)if(b.hasOwnProperty(d)){if(c&&a[d]!==undefined&&a[d]!==b[d])throw new sjcl.exception.invalid("required parameter overridden");a[d]=b[d]}return a},W:function(a,b){var c={},d;for(d in a)if(a.hasOwnProperty(d)&&a[d]!==b[d])c[d]=a[d];return c},V:function(a,b){var c={},d;for(d=0;d<b.length;d++)if(a[b[d]]!==undefined)c[b[d]]=
a[b[d]];return c}};sjcl.encrypt=sjcl.json.encrypt;sjcl.decrypt=sjcl.json.decrypt;sjcl.misc.S={};sjcl.misc.cachedPbkdf2=function(a,b){var c=sjcl.misc.S,d;b=b||{};d=b.iter||1E3;c=c[a]=c[a]||{};d=c[d]=c[d]||{firstSalt:b.salt&&b.salt.length?b.salt.slice(0):sjcl.random.randomWords(2,0)};c=b.salt===undefined?d.firstSalt:b.salt;d[c]=d[c]||sjcl.misc.pbkdf2(a,c,b.iter);return{key:d[c].slice(0),salt:c.slice(0)}};</script>
</div>
<!--~~ Boot kernel prologue ~~-->
<div id="bootKernelPrefix" style="display:none;">
<script data-tiddler-title="$:/boot/bootprefix.js" data-tiddler-type="application/javascript" type="text/javascript">/*\
title: $:/boot/bootprefix.js
type: application/javascript

This file sets up the globals that need to be available when JavaScript modules are executed in the browser. The overall sequence is:

# BootPrefix.js
# <module definitions>
# Boot.js

See Boot.js for further details of the boot process.

\*/

var _bootprefix = (function($tw) {

"use strict";

$tw = $tw || Object.create(null);
$tw.boot = $tw.boot || Object.create(null);

// Detect platforms
if(!("browser" in $tw)) {
	$tw.browser = typeof(window) !== "undefined" ? {} : null;
}
if(!("node" in $tw)) {
	$tw.node = typeof(process) === "object" ? {} : null;
}
if(!("nodeWebKit" in $tw)) {
	$tw.nodeWebKit = $tw.node && global.window && global.window.nwDispatcher ? {} : null;
}

// Set default boot tasks
$tw.boot.tasks = {
	trapErrors: !!($tw.browser && !$tw.node),
	readBrowserTiddlers: !!($tw.browser && !$tw.node)
};

/*
Information about each module is kept in an object with these members:
	moduleType: type of module
	definition: object, function or string defining the module; see below
	exports: exports of the module, filled in after execution

The `definition` can be of several types:

* An object can be used to directly specify the exports of the module
* A function with the arguments `module,require,exports` that returns `exports`
* A string function body with the same arguments

Each moduleInfo object is stored in two hashmaps: $tw.modules.titles and $tw.modules.types. The first is indexed by title and the second is indexed by type and then title
*/
$tw.modules = {
	titles: {}, // hashmap by module name of moduleInfo
	types: {} // hashmap by module type and then name of moduleInfo
};

/*
Define a JavaScript tiddler module for later execution
	moduleName: name of module being defined
	moduleType: type of module
	definition: module definition; see discussion above
*/
$tw.modules.define = function(moduleName,moduleType,definition) {
	// Create the moduleInfo
	var moduleInfo = {
		moduleType: moduleType,
		definition: definition,
		exports: undefined
	};
	// If the definition is already an object we can use it as the exports
	if(typeof moduleInfo.definition === "object") {
		moduleInfo.exports = definition;
	}
	// Store the module in the titles hashmap
	if(Object.prototype.hasOwnProperty.call($tw.modules.titles,moduleName)) {
		console.log("Warning: Redefined module - " + moduleName);
	}
	$tw.modules.titles[moduleName] = moduleInfo;
	// Store the module in the types hashmap
	if(!Object.prototype.hasOwnProperty.call($tw.modules.types,moduleType)) {
		$tw.modules.types[moduleType] = {};
	}
	if(Object.prototype.hasOwnProperty.call($tw.modules.types[moduleType],moduleName)) {
		console.log("Warning: Redefined module - " + moduleName);
	}
	$tw.modules.types[moduleType][moduleName] = moduleInfo;
};

/*
External JavaScript can populate this array before calling boot.js in order to preload tiddlers
*/
$tw.preloadTiddlers = $tw.preloadTiddlers || [];

/*
Convenience function for pushing a tiddler onto the preloading array
*/
$tw.preloadTiddler = function(fields) {
	$tw.preloadTiddlers.push(fields);
};

/*
Convenience function for pushing an array of tiddlers onto the preloading array
*/
$tw.preloadTiddlerArray = function(fieldsArray) {
	$tw.preloadTiddlers.push.apply($tw.preloadTiddlers,fieldsArray);
};

return $tw;

});

if(typeof(exports) === "undefined") {
	// Set up $tw global for the browser
	window.$tw = _bootprefix(window.$tw);
} else {
	// Export functionality as a module
	exports.bootprefix = _bootprefix;
}
</script>
</div>
<!--~~ Boot kernel ~~-->
<div id="bootKernel" style="display:none;">
<script data-tiddler-title="$:/boot/boot.js" data-tiddler-type="application/javascript" type="text/javascript">/*\
title: $:/boot/boot.js
type: application/javascript

The main boot kernel for TiddlyWiki. This single file creates a barebones TW environment that is just sufficient to bootstrap the modules containing the main logic of the application.

On the server this file is executed directly to boot TiddlyWiki. In the browser, this file is packed into a single HTML file.

\*/

var _boot = (function($tw) {

/*jslint node: true, browser: true */
/*global modules: false, $tw: false */
"use strict";

// Include bootprefix if we're not given module data
if(!$tw) {
	$tw = require("./bootprefix.js").bootprefix();
}

$tw.utils = $tw.utils || Object.create(null);

/////////////////////////// Standard node.js libraries

var fs, path, vm;
if($tw.node) {
	fs = require("fs");
	path = require("path");
	vm = require("vm");
}

/////////////////////////// Utility functions

$tw.boot.log = function(str) {
	$tw.boot.logMessages = $tw.boot.logMessages || [];
	$tw.boot.logMessages.push(str);
}

/*
Check if an object has a property
*/
$tw.utils.hop = function(object,property) {
	return object ? Object.prototype.hasOwnProperty.call(object,property) : false;
};

/*
Determine if a value is an array
*/
$tw.utils.isArray = function(value) {
	return Object.prototype.toString.call(value) == "[object Array]";
};

/*
Determine if a value is a date
*/
$tw.utils.isDate = function(value) {
	return Object.prototype.toString.call(value) === "[object Date]";
};

/*
Iterate through all the own properties of an object or array. Callback is invoked with (element,title,object)
*/
$tw.utils.each = function(object,callback) {
	var next,f,length;
	if(object) {
		if(Object.prototype.toString.call(object) == "[object Array]") {
			for (f=0, length=object.length; f<length; f++) {
				next = callback(object[f],f,object);
				if(next === false) {
					break;
				}
		    }
		} else {
			var keys = Object.keys(object);
			for (f=0, length=keys.length; f<length; f++) {
				var key = keys[f];
				next = callback(object[key],key,object);
				if(next === false) {
					break;
				}
			}
		}
	}
};

/*
Helper for making DOM elements
tag: tag name
options: see below
Options include:
attributes: hashmap of attribute values
text: text to add as a child node
children: array of further child nodes
innerHTML: optional HTML for element
class: class name(s)
document: defaults to current document
eventListeners: array of event listeners (this option won't work until $tw.utils.addEventListeners() has been loaded)
*/
$tw.utils.domMaker = function(tag,options) {
	var doc = options.document || document;
	var element = doc.createElement(tag);
	if(options["class"]) {
		element.className = options["class"];
	}
	if(options.text) {
		element.appendChild(doc.createTextNode(options.text));
	}
	$tw.utils.each(options.children,function(child) {
		element.appendChild(child);
	});
	if(options.innerHTML) {
		element.innerHTML = options.innerHTML;
	}
	$tw.utils.each(options.attributes,function(attribute,name) {
		element.setAttribute(name,attribute);
	});
	if(options.eventListeners) {
		$tw.utils.addEventListeners(element,options.eventListeners);
	}
	return element;
};

/*
Display an error and exit
*/
$tw.utils.error = function(err) {
	// Prepare the error message
	var errHeading = ( $tw.language == undefined ? "Internal JavaScript Error" : $tw.language.getString("InternalJavaScriptError/Title") ),
		promptMsg = ( $tw.language == undefined ? "Well, this is embarrassing. It is recommended that you restart TiddlyWiki by refreshing your browser" : $tw.language.getString("InternalJavaScriptError/Hint") );
	// Log the error to the console
	console.error($tw.node ? "\x1b[1;31m" + err + "\x1b[0m" : err);
	if($tw.browser && !$tw.node) {
		// Display an error message to the user
		var dm = $tw.utils.domMaker,
			heading = dm("h1",{text: errHeading}),
			prompt = dm("div",{text: promptMsg, "class": "tc-error-prompt"}),
			message = dm("div",{text: err}),
			button = dm("button",{text: "close"}),
			form = dm("form",{children: [heading,prompt,message,button], "class": "tc-error-form"});
		document.body.insertBefore(form,document.body.firstChild);
		form.addEventListener("submit",function(event) {
			document.body.removeChild(form);
			event.preventDefault();
			return false;
		},true);
		return null;
	} else if(!$tw.browser) {
		// Exit if we're under node.js
		process.exit(1);
	}
};

/*
Use our custom error handler if we're in the browser
*/
if($tw.boot.tasks.trapErrors) {
	window.onerror = function(errorMsg,url,lineNumber) {
		$tw.utils.error(errorMsg);
		return false;
	};
}

/*
Extend an object with the properties from a list of source objects
*/
$tw.utils.extend = function(object /*, sourceObjectList */) {
	$tw.utils.each(Array.prototype.slice.call(arguments,1),function(source) {
		if(source) {
			for (var p in source) {
				object[p] = source[p];
			}
		}
	});
	return object;
};

/*
Fill in any null or undefined properties of an object with the properties from a list of source objects. Each property that is an object is called recursively
*/
$tw.utils.deepDefaults = function(object /*, sourceObjectList */) {
	$tw.utils.each(Array.prototype.slice.call(arguments,1),function(source) {
		if(source) {
			for (var p in source) {
				if(object[p] === null || object[p] === undefined) {
					object[p] = source[p];
				}
				if(typeof object[p] === "object" && typeof source[p] === "object") {
					$tw.utils.deepDefaults(object[p],source[p]);
				}
			}
		}
	});
	return object;
};

/*
Convert "&amp;" to &, "&nbsp;" to nbsp, "&lt;" to <, "&gt;" to > and "&quot;" to "
*/
$tw.utils.htmlDecode = function(s) {
	return s.toString().replace(/&lt;/mg,"<").replace(/&nbsp;/mg,"\xA0").replace(/&gt;/mg,">").replace(/&quot;/mg,"\"").replace(/&amp;/mg,"&");
};

/*
Get the browser location.hash. We don't use location.hash because of the way that Firefox auto-urldecodes it (see http://stackoverflow.com/questions/1703552/encoding-of-window-location-hash)
*/
$tw.utils.getLocationHash = function() {
	var parts = window.location.href.split('#');
	return "#" + (parts.length > 1 ? parts[1] : "");
};

/*
Pad a string to a given length with "0"s. Length defaults to 2
*/
$tw.utils.pad = function(value,length) {
	length = length || 2;
	var s = value.toString();
	if(s.length < length) {
		s = "000000000000000000000000000".substr(0,length - s.length) + s;
	}
	return s;
};

// Convert a date into UTC YYYYMMDDHHMMSSmmm format
$tw.utils.stringifyDate = function(value) {
	return value.getUTCFullYear() +
			$tw.utils.pad(value.getUTCMonth() + 1) +
			$tw.utils.pad(value.getUTCDate()) +
			$tw.utils.pad(value.getUTCHours()) +
			$tw.utils.pad(value.getUTCMinutes()) +
			$tw.utils.pad(value.getUTCSeconds()) +
			$tw.utils.pad(value.getUTCMilliseconds(),3);
};

// Parse a date from a UTC YYYYMMDDHHMMSSmmm format string
$tw.utils.parseDate = function(value) {
	if(typeof value === "string") {
		return new Date(Date.UTC(parseInt(value.substr(0,4),10),
				parseInt(value.substr(4,2),10)-1,
				parseInt(value.substr(6,2),10),
				parseInt(value.substr(8,2)||"00",10),
				parseInt(value.substr(10,2)||"00",10),
				parseInt(value.substr(12,2)||"00",10),
				parseInt(value.substr(14,3)||"000",10)));
	} else if($tw.utils.isDate(value)) {
		return value;
	} else {
		return null;
	}
};

// Stringify an array of tiddler titles into a list string
$tw.utils.stringifyList = function(value) {
	var result = [];
	for(var t=0; t<value.length; t++) {
		if(value[t].indexOf(" ") !== -1) {
			result.push("[[" + value[t] + "]]");
		} else {
			result.push(value[t]);
		}
	}
	return result.join(" ");
};

// Parse a string array from a bracketted list. For example "OneTiddler [[Another Tiddler]] LastOne"
$tw.utils.parseStringArray = function(value) {
	if(typeof value === "string") {
		var memberRegExp = /(?:^|[^\S\xA0])(?:\[\[(.*?)\]\])(?=[^\S\xA0]|$)|([\S\xA0]+)/mg,
			results = [],
			match;
		do {
			match = memberRegExp.exec(value);
			if(match) {
				var item = match[1] || match[2];
				if(item !== undefined && results.indexOf(item) === -1) {
					results.push(item);
				}
			}
		} while(match);
		return results;
	} else if($tw.utils.isArray(value)) {
		return value;
	} else {
		return null;
	}
};

// Parse a block of name:value fields. The `fields` object is used as the basis for the return value
$tw.utils.parseFields = function(text,fields) {
	fields = fields || Object.create(null);
	text.split(/\r?\n/mg).forEach(function(line) {
		if(line.charAt(0) !== "#") {
			var p = line.indexOf(":");
			if(p !== -1) {
				var field = line.substr(0, p).trim(),
					value = line.substr(p+1).trim();
				if(field) {
					fields[field] = value;
				}
			}
		}
	});
	return fields;
};

/*
Resolves a source filepath delimited with `/` relative to a specified absolute root filepath.
In relative paths, the special folder name `..` refers to immediate parent directory, and the
name `.` refers to the current directory
*/
$tw.utils.resolvePath = function(sourcepath,rootpath) {
	// If the source path starts with ./ or ../ then it is relative to the root
	if(sourcepath.substr(0,2) === "./" || sourcepath.substr(0,3) === "../" ) {
		var src = sourcepath.split("/"),
			root = rootpath.split("/");
		// Remove the filename part of the root
		root.splice(root.length-1,1);
		// Process the source path bit by bit onto the end of the root path
		while(src.length > 0) {
			var c = src.shift();
			if(c === "..") { // Slice off the last root entry for a double dot
				if(root.length > 0) {
					root.splice(root.length-1,1);
				}
			} else if(c !== ".") { // Ignore dots
				root.push(c); // Copy other elements across
			}
		}
		return root.join("/");
	} else {
		// If it isn't relative, just return the path
		if(rootpath) {
			var root = rootpath.split("/");
			// Remove the filename part of the root
			root.splice(root.length - 1, 1);
			return root.join("/") + "/" + sourcepath;
		} else {
			return sourcepath;
		}
	}
};

/*
Parse a semantic version string into its constituent parts
*/
$tw.utils.parseVersion = function(version) {
	var match = /^((\d+)\.(\d+)\.(\d+))(?:-([\dA-Za-z\-]+(?:\.[\dA-Za-z\-]+)*))?(?:\+([\dA-Za-z\-]+(?:\.[\dA-Za-z\-]+)*))?$/.exec(version);
	if(match) {
		return {
			version: match[1],
			major: parseInt(match[2],10),
			minor: parseInt(match[3],10),
			patch: parseInt(match[4],10),
			prerelease: match[5],
			build: match[6]
		};
	} else {
		return null;
	}
};

/*
Returns true if the version string A is greater than the version string B. Returns true if the versions are the same
*/
$tw.utils.checkVersions = function(versionStringA,versionStringB) {
	var defaultVersion = {
		major: 0,
		minor: 0,
		patch: 0
	},
	versionA = $tw.utils.parseVersion(versionStringA) || defaultVersion,
	versionB = $tw.utils.parseVersion(versionStringB) || defaultVersion,
	diff = [
		versionA.major - versionB.major,
		versionA.minor - versionB.minor,
		versionA.patch - versionB.patch
	];
	return (diff[0] > 0) ||
		(diff[0] === 0 && diff[1] > 0) ||
		(diff[0] === 0 && diff[1] === 0 && diff[2] >= 0);
};

/*
Register file type information
options: {flags: flags,deserializerType: deserializerType}
	flags:"image" for image types
	deserializerType: defaults to type if not specified
*/
$tw.utils.registerFileType = function(type,encoding,extension,options) {
	options = options || {};
	if($tw.utils.isArray(extension)) {
		$tw.utils.each(extension,function(extension) {
			$tw.config.fileExtensionInfo[extension] = {type: type};
		});
		extension = extension[0];
	} else {
		$tw.config.fileExtensionInfo[extension] = {type: type};
	}
	$tw.config.contentTypeInfo[type] = {encoding: encoding, extension: extension, flags: options.flags || [], deserializerType: options.deserializerType || type};
};

/*
Given an extension, always access the $tw.config.fileExtensionInfo
using a lowercase extension only.
*/
$tw.utils.getFileExtensionInfo = function(ext) {
	return ext ? $tw.config.fileExtensionInfo[ext.toLowerCase()] : null;
}

/*
Given an extension, get the correct encoding for that file.
defaults to utf8
*/
$tw.utils.getTypeEncoding = function(ext) {
	var extensionInfo = $tw.utils.getFileExtensionInfo(ext),
		type = extensionInfo ? extensionInfo.type : null,
		typeInfo = type ? $tw.config.contentTypeInfo[type] : null;
	return typeInfo ? typeInfo.encoding : "utf8";
};

/*
Run code globally with specified context variables in scope
*/
$tw.utils.evalGlobal = function(code,context,filename) {
	var contextCopy = $tw.utils.extend(Object.create(null),context);
	// Get the context variables as a pair of arrays of names and values
	var contextNames = [], contextValues = [];
	$tw.utils.each(contextCopy,function(value,name) {
		contextNames.push(name);
		contextValues.push(value);
	});
	// Add the code prologue and epilogue
	code = "(function(" + contextNames.join(",") + ") {(function(){\n" + code + "\n;})();\nreturn exports;\n})\n";
	// Compile the code into a function
	var fn;
	if($tw.browser) {
		fn = window["eval"](code + "\n\n//# sourceURL=" + filename);
	} else {
		fn = vm.runInThisContext(code,filename);
	}
	// Call the function and return the exports
	return fn.apply(null,contextValues);
};

/*
Run code in a sandbox with only the specified context variables in scope
*/
$tw.utils.evalSandboxed = $tw.browser ? $tw.utils.evalGlobal : function(code,context,filename) {
	var sandbox = $tw.utils.extend(Object.create(null),context);
	vm.runInNewContext(code,sandbox,filename);
	return sandbox.exports;
};

/*
Creates a PasswordPrompt object
*/
$tw.utils.PasswordPrompt = function() {
	// Store of pending password prompts
	this.passwordPrompts = [];
	// Create the wrapper
	this.promptWrapper = $tw.utils.domMaker("div",{"class":"tc-password-wrapper"});
	document.body.appendChild(this.promptWrapper);
	// Hide the empty wrapper
	this.setWrapperDisplay();
};

/*
Hides or shows the wrapper depending on whether there are any outstanding prompts
*/
$tw.utils.PasswordPrompt.prototype.setWrapperDisplay = function() {
	if(this.passwordPrompts.length) {
		this.promptWrapper.style.display = "block";
	} else {
		this.promptWrapper.style.display = "none";
	}
};

/*
Adds a new password prompt. Options are:
submitText: text to use for submit button (defaults to "Login")
serviceName: text of the human readable service name
noUserName: set true to disable username prompt
canCancel: set true to enable a cancel button (callback called with null)
repeatPassword: set true to prompt for the password twice
callback: function to be called on submission with parameter of object {username:,password:}. Callback must return `true` to remove the password prompt
*/
$tw.utils.PasswordPrompt.prototype.createPrompt = function(options) {
	// Create and add the prompt to the DOM
	var self = this,
		submitText = options.submitText || "Login",
		dm = $tw.utils.domMaker,
		children = [dm("h1",{text: options.serviceName})];
	if(!options.noUserName) {
		children.push(dm("input",{
			attributes: {type: "text", name: "username", placeholder: $tw.language.getString("Encryption/Username")}
		}));
	}
	children.push(dm("input",{
		attributes: {
			type: "password",
			name: "password",
			placeholder: ( $tw.language == undefined ? "Password" : $tw.language.getString("Encryption/Password") )
		}
	}));
	if(options.repeatPassword) {
		children.push(dm("input",{
			attributes: {
				type: "password",
				name: "password2",
				placeholder: $tw.language.getString("Encryption/RepeatPassword")
			}
		}));
	}
	if(options.canCancel) {
		children.push(dm("button",{
			text: $tw.language.getString("Encryption/Cancel"),
			eventListeners: [{
					name: "click",
					handlerFunction: function(event) {
						self.removePrompt(promptInfo);
						options.callback(null);
					}
				}]
		}));
	}
	children.push(dm("button",{
		attributes: {type: "submit"},
		text: submitText
	}));
	var form = dm("form",{
		attributes: {autocomplete: "off"},
		children: children
	});
	this.promptWrapper.appendChild(form);
	window.setTimeout(function() {
		form.elements[0].focus();
	},10);
	// Add a submit event handler
	var self = this;
	form.addEventListener("submit",function(event) {
		// Collect the form data
		var data = {},t;
		$tw.utils.each(form.elements,function(element) {
			if(element.name && element.value) {
				data[element.name] = element.value;
			}
		});
		// Check that the passwords match
		if(options.repeatPassword && data.password !== data.password2) {
			alert($tw.language.getString("Encryption/PasswordNoMatch"));
		} else {
			// Call the callback
			if(options.callback(data)) {
				// Remove the prompt if the callback returned true
				self.removePrompt(promptInfo);
			} else {
				// Clear the password if the callback returned false
				$tw.utils.each(form.elements,function(element) {
					if(element.name === "password" || element.name === "password2") {
						element.value = "";
					}
				});
			}
		}
		event.preventDefault();
		return false;
	},true);
	// Add the prompt to the list
	var promptInfo = {
		serviceName: options.serviceName,
		callback: options.callback,
		form: form
	};
	this.passwordPrompts.push(promptInfo);
	// Make sure the wrapper is displayed
	this.setWrapperDisplay();
};

$tw.utils.PasswordPrompt.prototype.removePrompt = function(promptInfo) {
	var i = this.passwordPrompts.indexOf(promptInfo);
	if(i !== -1) {
		this.passwordPrompts.splice(i,1);
		promptInfo.form.parentNode.removeChild(promptInfo.form);
		this.setWrapperDisplay();
	}
}

/*
Crypto helper object for encrypted content. It maintains the password text in a closure, and provides methods to change
the password, and to encrypt/decrypt a block of text
*/
$tw.utils.Crypto = function() {
	var sjcl = $tw.node ? (global.sjcl || require("./sjcl.js")) : window.sjcl,
		currentPassword = null,
		callSjcl = function(method,inputText,password) {
			password = password || currentPassword;
			var outputText;
			try {
				if(password) {
					outputText = sjcl[method](password,inputText);
				}
			} catch(ex) {
				console.log("Crypto error:" + ex);
				outputText = null;
			}
			return outputText;
		};
	this.setPassword = function(newPassword) {
		currentPassword = newPassword;
		this.updateCryptoStateTiddler();
	};
	this.updateCryptoStateTiddler = function() {
		if($tw.wiki) {
			var state = currentPassword ? "yes" : "no",
				tiddler = $tw.wiki.getTiddler("$:/isEncrypted");
			if(!tiddler || tiddler.fields.text !== state) {
				$tw.wiki.addTiddler(new $tw.Tiddler({title: "$:/isEncrypted", text: state}));
			}
		}
	};
	this.hasPassword = function() {
		return !!currentPassword;
	}
	this.encrypt = function(text,password) {
		return callSjcl("encrypt",text,password);
	};
	this.decrypt = function(text,password) {
		return callSjcl("decrypt",text,password);
	};
};

/////////////////////////// Module mechanism

/*
Execute the module named 'moduleName'. The name can optionally be relative to the module named 'moduleRoot'
*/
$tw.modules.execute = function(moduleName,moduleRoot) {
	var name = moduleName[0] === "." ? $tw.utils.resolvePath(moduleName,moduleRoot) : moduleName,
		moduleInfo = $tw.modules.titles[name] || $tw.modules.titles[name + ".js"] || $tw.modules.titles[moduleName] || $tw.modules.titles[moduleName + ".js"] ,
		tiddler = $tw.wiki.getTiddler(name) || $tw.wiki.getTiddler(name + ".js") || $tw.wiki.getTiddler(moduleName) || $tw.wiki.getTiddler(moduleName + ".js") ,
		_exports = {},
		sandbox = {
			module: {exports: _exports},
			//moduleInfo: moduleInfo,
			exports: _exports,
			console: console,
			setInterval: setInterval,
			clearInterval: clearInterval,
			setTimeout: setTimeout,
			clearTimeout: clearTimeout,
			Buffer: $tw.browser ? {} : Buffer,
			$tw: $tw,
			require: function(title) {
				return $tw.modules.execute(title, name);
			}
		};

	Object.defineProperty(sandbox.module, "id", {
		value: name,
		writable: false,
		enumerable: true,
		configurable: false
	});

	if(!$tw.browser) {
		$tw.utils.extend(sandbox,{
			process: process
		});
	} else {
		/*
		CommonJS optional require.main property:
		 In a browser we offer a fake main module which points back to the boot function
		 (Theoretically, this may allow TW to eventually load itself as a module in the browser)
		*/
		Object.defineProperty(sandbox.require, "main", {
			value: (typeof(require) !== "undefined") ? require.main : {TiddlyWiki: _boot},
			writable: false,
			enumerable: true,
			configurable: false
		});
	}
	if(!moduleInfo) {
		// We could not find the module on this path
		// Try to defer to browserify etc, or node
		var deferredModule;
		if($tw.browser) {
			if(window.require) {
				try {
					return window.require(moduleName);
				} catch(e) {}
			}
			throw "Cannot find module named '" + moduleName + "' required by module '" + moduleRoot + "', resolved to " + name;
		} else {
			// If we don't have a module with that name, let node.js try to find it
			return require(moduleName);
		}
	}
	// Execute the module if we haven't already done so
	if(!moduleInfo.exports) {
		try {
			// Check the type of the definition
			if(typeof moduleInfo.definition === "function") { // Function
				moduleInfo.exports = _exports;
				moduleInfo.definition(moduleInfo,moduleInfo.exports,sandbox.require);
			} else if(typeof moduleInfo.definition === "string") { // String
				moduleInfo.exports = _exports;
				$tw.utils.evalSandboxed(moduleInfo.definition,sandbox,tiddler.fields.title);
				if(sandbox.module.exports) {
					moduleInfo.exports = sandbox.module.exports; //more codemirror workaround
				}
			} else { // Object
				moduleInfo.exports = moduleInfo.definition;
			}
		} catch(e) {
			$tw.utils.error("Error executing boot module " + name + ":\n" + e.stack);
		}
	}
	// Return the exports of the module
	return moduleInfo.exports;
};

/*
Apply a callback to each module of a particular type
	moduleType: type of modules to enumerate
	callback: function called as callback(title,moduleExports) for each module
*/
$tw.modules.forEachModuleOfType = function(moduleType,callback) {
	var modules = $tw.modules.types[moduleType];
	$tw.utils.each(modules,function(element,title) {
		callback(title,$tw.modules.execute(title));
	});
};

/*
Get all the modules of a particular type in a hashmap by their `name` field
*/
$tw.modules.getModulesByTypeAsHashmap = function(moduleType,nameField) {
	nameField = nameField || "name";
	var results = Object.create(null);
	$tw.modules.forEachModuleOfType(moduleType,function(title,module) {
		results[module[nameField]] = module;
	});
	return results;
};

/*
Apply the exports of the modules of a particular type to a target object
*/
$tw.modules.applyMethods = function(moduleType,targetObject) {
	if(!targetObject) {
		targetObject = Object.create(null);
	}
	$tw.modules.forEachModuleOfType(moduleType,function(title,module) {
		$tw.utils.each(module,function(element,title,object) {
			targetObject[title] = module[title];
		});
	});
	return targetObject;
};

/*
Return an array of classes created from the modules of a specified type. Each module should export the properties to be added to those of the optional base class
*/
$tw.modules.createClassesFromModules = function(moduleType,subType,baseClass) {
	var classes = Object.create(null);
	$tw.modules.forEachModuleOfType(moduleType,function(title,moduleExports) {
		if(!subType || moduleExports.types[subType]) {
			var newClass = function() {};
			if(baseClass) {
				newClass.prototype = new baseClass();
				newClass.prototype.constructor = baseClass;
			}
			$tw.utils.extend(newClass.prototype,moduleExports);
			classes[moduleExports.name] = newClass;
		}
	});
	return classes;
};

/////////////////////////// Barebones tiddler object

/*
Construct a tiddler object from a hashmap of tiddler fields. If multiple hasmaps are provided they are merged,
taking precedence to the right
*/
$tw.Tiddler = function(/* [fields,] fields */) {
	this.fields = Object.create(null);
	for(var c=0; c<arguments.length; c++) {
		var arg = arguments[c],
			src = (arg instanceof $tw.Tiddler) ? arg.fields : arg;
		for(var t in src) {
			if(src[t] === undefined || src[t] === null) {
				if(t in this.fields) {
					delete this.fields[t]; // If we get a field that's undefined, delete any previous field value
				}
			} else {
				// Parse the field with the associated field module (if any)
				var fieldModule = $tw.Tiddler.fieldModules[t],
					value;
				if(fieldModule && fieldModule.parse) {
					value = fieldModule.parse.call(this,src[t]);
				} else {
					value = src[t];
				}
				// Freeze the field to keep it immutable
				if(value != null && typeof value === "object") {
					Object.freeze(value);
				}
				this.fields[t] = value;
			}
		}
	}
	// Freeze the tiddler against modification
	Object.freeze(this.fields);
};

$tw.Tiddler.prototype.hasField = function(field) {
	return $tw.utils.hop(this.fields,field);
};

/*
Register and install the built in tiddler field modules
*/
$tw.modules.define("$:/boot/tiddlerfields/modified","tiddlerfield",{
	name: "modified",
	parse: $tw.utils.parseDate,
	stringify: $tw.utils.stringifyDate
});
$tw.modules.define("$:/boot/tiddlerfields/created","tiddlerfield",{
	name: "created",
	parse: $tw.utils.parseDate,
	stringify: $tw.utils.stringifyDate
});
$tw.modules.define("$:/boot/tiddlerfields/color","tiddlerfield",{
	name: "color",
	editTag: "input",
	editType: "color"
});
$tw.modules.define("$:/boot/tiddlerfields/tags","tiddlerfield",{
	name: "tags",
	parse: $tw.utils.parseStringArray,
	stringify: $tw.utils.stringifyList
});
$tw.modules.define("$:/boot/tiddlerfields/list","tiddlerfield",{
	name: "list",
	parse: $tw.utils.parseStringArray,
	stringify: $tw.utils.stringifyList
});

/////////////////////////// Barebones wiki store

/*
Wiki constructor. State is stored in private members that only a small number of privileged accessor methods have direct access. Methods added via the prototype have to use these accessors and cannot access the state data directly.
options include:
shadowTiddlers: Array of shadow tiddlers to be added
*/
$tw.Wiki = function(options) {
	options = options || {};
	var self = this,
		tiddlers = Object.create(null), // Hashmap of tiddlers
		pluginTiddlers = [], // Array of tiddlers containing registered plugins, ordered by priority
		pluginInfo = Object.create(null), // Hashmap of parsed plugin content
		shadowTiddlers = options.shadowTiddlers || Object.create(null); // Hashmap by title of {source:, tiddler:}

	// Add a tiddler to the store
	this.addTiddler = function(tiddler) {
		if(!(tiddler instanceof $tw.Tiddler)) {
			tiddler = new $tw.Tiddler(tiddler);
		}
		// Save the tiddler
		if(tiddler) {
			var title = tiddler.fields.title;
			if(title) {
// Uncomment the following line for detailed logs of all tiddler writes
// console.log("Adding",title,tiddler)
				tiddlers[title] = tiddler;
				this.clearCache(title);
				this.clearGlobalCache();
				this.enqueueTiddlerEvent(title);
			}
		}
	};

	// Delete a tiddler
	this.deleteTiddler = function(title) {
// Uncomment the following line for detailed logs of all tiddler deletions
// console.log("Deleting",title,tiddler)
		if($tw.utils.hop(tiddlers,title)) {
			delete tiddlers[title];
			this.clearCache(title);
			this.clearGlobalCache();
			this.enqueueTiddlerEvent(title,true);
		}
	};

	// Get a tiddler from the store
	this.getTiddler = function(title) {
		var t = tiddlers[title];
		if(t instanceof $tw.Tiddler) {
			return t;
		} else if(title !== undefined && Object.prototype.hasOwnProperty.call(shadowTiddlers,title)) {
			return shadowTiddlers[title].tiddler;
		} else {
			return undefined;
		}
	};

	// Get an array of all tiddler titles
	this.allTitles = function() {
		return Object.keys(tiddlers);
	};

	// Iterate through all tiddler titles
	this.each = function(callback) {
		var titles = Object.keys(tiddlers),
			index,titlesLength,title;
		for(index = 0, titlesLength = titles.length; index < titlesLength; index++) {
			title = titles[index];
			callback(tiddlers[title],title);
		}
	};

	// Get an array of all shadow tiddler titles
	this.allShadowTitles = function() {
		return Object.keys(shadowTiddlers);
	};

	// Iterate through all shadow tiddler titles
	this.eachShadow = function(callback) {
		var titles = Object.keys(shadowTiddlers),
			index,titlesLength,title;
		for(index = 0, titlesLength = titles.length; index < titlesLength; index++) {
			title = titles[index];
			var shadowInfo = shadowTiddlers[title];
			callback(shadowInfo.tiddler,title);
		}
	};

	// Iterate through all tiddlers and then the shadows
	this.eachTiddlerPlusShadows = function(callback) {
		var titles = Object.keys(tiddlers),
			index,titlesLength,title;
		for(index = 0, titlesLength = titles.length; index < titlesLength; index++) {
			title = titles[index];
			callback(tiddlers[title],title);
		}
		titles = Object.keys(shadowTiddlers);
		for(index = 0, titlesLength = titles.length; index < titlesLength; index++) {
			title = titles[index];
			if(!Object.prototype.hasOwnProperty.call(tiddlers,title)) {
				var shadowInfo = shadowTiddlers[title];
				callback(shadowInfo.tiddler,title);
			}
		}
	};

	// Iterate through all the shadows and then the tiddlers
	this.eachShadowPlusTiddlers = function(callback) {
		var titles = Object.keys(shadowTiddlers),
			index,titlesLength,title;
		for(index = 0, titlesLength = titles.length; index < titlesLength; index++) {
			title = titles[index];
			if(Object.prototype.hasOwnProperty.call(tiddlers,title)) {
				callback(tiddlers[title],title);
			} else {
				var shadowInfo = shadowTiddlers[title];
				callback(shadowInfo.tiddler,title);
			}
		}
		titles = Object.keys(tiddlers);
		for(index = 0, titlesLength = titles.length; index < titlesLength; index++) {
			title = titles[index];
			if(!Object.prototype.hasOwnProperty.call(shadowTiddlers,title)) {
				callback(tiddlers[title],title);
			}
		}

	};

	// Test for the existence of a tiddler (excludes shadow tiddlers)
	this.tiddlerExists = function(title) {
		return !!$tw.utils.hop(tiddlers,title);
	};

	// Determines if a tiddler is a shadow tiddler, regardless of whether it has been overridden by a real tiddler
	this.isShadowTiddler = function(title) {
		return $tw.utils.hop(shadowTiddlers,title);
	};

	this.getShadowSource = function(title) {
		if($tw.utils.hop(shadowTiddlers,title)) {
			return shadowTiddlers[title].source;
		}
		return null;
	};

	// Read plugin info for all plugins
	this.readPluginInfo = function() {
		for(var title in tiddlers) {
			var tiddler = tiddlers[title];
			if(tiddler.fields.type === "application/json" && tiddler.hasField("plugin-type")) {
				pluginInfo[tiddler.fields.title] = JSON.parse(tiddler.fields.text);
			}

		}
	};

	// Get plugin info for a plugin
	this.getPluginInfo = function(title) {
		return pluginInfo[title];
	};

	// Register the plugin tiddlers of a particular type, optionally restricting registration to an array of tiddler titles. Return the array of titles affected
	this.registerPluginTiddlers = function(pluginType,titles) {
		var self = this,
			registeredTitles = [],
			checkTiddler = function(tiddler,title) {
				if(tiddler && tiddler.fields.type === "application/json" && tiddler.fields["plugin-type"] === pluginType) {
					var disablingTiddler = self.getTiddler("$:/config/Plugins/Disabled/" + title);
					if(title === "$:/core" || !disablingTiddler || (disablingTiddler.fields.text || "").trim() !== "yes") {
						pluginTiddlers.push(tiddler);
						registeredTitles.push(tiddler.fields.title);
					}
				}
			};
		if(titles) {
			$tw.utils.each(titles,function(title) {
				checkTiddler(self.getTiddler(title),title);
			});
		} else {
			this.each(function(tiddler,title) {
				checkTiddler(tiddler,title);
			});
		}
		return registeredTitles;
	};

	// Unregister the plugin tiddlers of a particular type, returning an array of the titles affected
	this.unregisterPluginTiddlers = function(pluginType) {
		var self = this,
			titles = [];
		// Remove any previous registered plugins of this type
		for(var t=pluginTiddlers.length-1; t>=0; t--) {
			var tiddler = pluginTiddlers[t];
			if(tiddler.fields["plugin-type"] === pluginType) {
				titles.push(tiddler.fields.title);
				pluginTiddlers.splice(t,1);
			}
		}
		return titles;
	};

	// Unpack the currently registered plugins, creating shadow tiddlers for their constituent tiddlers
	this.unpackPluginTiddlers = function() {
		var self = this;
		// Sort the plugin titles by the `plugin-priority` field
		pluginTiddlers.sort(function(a,b) {
			if("plugin-priority" in a.fields && "plugin-priority" in b.fields) {
				return a.fields["plugin-priority"] - b.fields["plugin-priority"];
			} else if("plugin-priority" in a.fields) {
				return -1;
			} else if("plugin-priority" in b.fields) {
				return +1;
			} else if(a.fields.title < b.fields.title) {
				return -1;
			} else if(a.fields.title === b.fields.title) {
				return 0;
			} else {
				return +1;
			}
		});
		// Now go through the plugins in ascending order and assign the shadows
		shadowTiddlers = Object.create(null);
		$tw.utils.each(pluginTiddlers,function(tiddler) {
			// Extract the constituent tiddlers
			if($tw.utils.hop(pluginInfo,tiddler.fields.title)) {
				$tw.utils.each(pluginInfo[tiddler.fields.title].tiddlers,function(constituentTiddler,constituentTitle) {
					// Save the tiddler object
					if(constituentTitle) {
						shadowTiddlers[constituentTitle] = {
							source: tiddler.fields.title,
							tiddler: new $tw.Tiddler(constituentTiddler,{title: constituentTitle})
						};
					}
				});
			}
		});
		this.clearCache(null);
		this.clearGlobalCache();
	};

};

// Dummy methods that will be filled in after boot
$tw.Wiki.prototype.clearCache =
$tw.Wiki.prototype.clearGlobalCache =
$tw.Wiki.prototype.enqueueTiddlerEvent = function() {};

// Add an array of tiddlers
$tw.Wiki.prototype.addTiddlers = function(tiddlers) {
	for(var t=0; t<tiddlers.length; t++) {
		this.addTiddler(tiddlers[t]);
	}
};

/*
Define all modules stored in ordinary tiddlers
*/
$tw.Wiki.prototype.defineTiddlerModules = function() {
	this.each(function(tiddler,title) {
		if(tiddler.hasField("module-type")) {
			switch (tiddler.fields.type) {
				case "application/javascript":
					// We only define modules that haven't already been defined, because in the browser modules in system tiddlers are defined in inline script
					if(!$tw.utils.hop($tw.modules.titles,tiddler.fields.title)) {
						$tw.modules.define(tiddler.fields.title,tiddler.fields["module-type"],tiddler.fields.text);
					}
					break;
				case "application/json":
					$tw.modules.define(tiddler.fields.title,tiddler.fields["module-type"],JSON.parse(tiddler.fields.text));
					break;
				case "application/x-tiddler-dictionary":
					$tw.modules.define(tiddler.fields.title,tiddler.fields["module-type"],$tw.utils.parseFields(tiddler.fields.text));
					break;
			}
		}
	});
};

/*
Register all the module tiddlers that have a module type
*/
$tw.Wiki.prototype.defineShadowModules = function() {
	var self = this;
	this.eachShadow(function(tiddler,title) {
		// Don't define the module if it is overidden by an ordinary tiddler
		if(!self.tiddlerExists(title) && tiddler.hasField("module-type")) {
			// Define the module
			$tw.modules.define(tiddler.fields.title,tiddler.fields["module-type"],tiddler.fields.text);
		}
	});
};

/*
Enable safe mode by deleting any tiddlers that override a shadow tiddler
*/
$tw.Wiki.prototype.processSafeMode = function() {
	var self = this,
		overrides = [];
	// Find the overriding tiddlers
	this.each(function(tiddler,title) {
		if(self.isShadowTiddler(title)) {
			console.log(title);
			overrides.push(title);
		}
	});
	// Assemble a report tiddler
	var titleReportTiddler = "TiddlyWiki Safe Mode",
		report = [];
	report.push("TiddlyWiki has been started in [[safe mode|http://tiddlywiki.com/static/SafeMode.html]]. All plugins are temporarily disabled. Most customisations have been disabled by renaming the following tiddlers:")
	// Delete the overrides
	overrides.forEach(function(title) {
		var tiddler = self.getTiddler(title),
			newTitle = "SAFE: " + title;
		self.deleteTiddler(title);
		self.addTiddler(new $tw.Tiddler(tiddler, {title: newTitle}));
		report.push("* [[" + title + "|" + newTitle + "]]");
	});
	report.push()
	this.addTiddler(new $tw.Tiddler({title: titleReportTiddler, text: report.join("\n\n")}));
	// Set $:/DefaultTiddlers to point to our report
	this.addTiddler(new $tw.Tiddler({title: "$:/DefaultTiddlers", text: "[[" + titleReportTiddler + "]]"}));
};

/*
Extracts tiddlers from a typed block of text, specifying default field values
*/
$tw.Wiki.prototype.deserializeTiddlers = function(type,text,srcFields) {
	srcFields = srcFields || Object.create(null);
	var deserializer = $tw.Wiki.tiddlerDeserializerModules[type],
		fields = Object.create(null);
	if(!deserializer && $tw.utils.getFileExtensionInfo(type)) {
		// If we didn't find the serializer, try converting it from an extension to a content type
		type = $tw.utils.getFileExtensionInfo(type).type;
		deserializer = $tw.Wiki.tiddlerDeserializerModules[type];
	}
	if(!deserializer && $tw.config.contentTypeInfo[type]) {
		// see if this type has a different deserializer registered with it
		type = $tw.config.contentTypeInfo[type].deserializerType;
		deserializer = $tw.Wiki.tiddlerDeserializerModules[type];
	}
	if(!deserializer) {
		// If we still don't have a deserializer, treat it as plain text
		deserializer = $tw.Wiki.tiddlerDeserializerModules["text/plain"];
	}
	for(var f in srcFields) {
		fields[f] = srcFields[f];
	}
	if(deserializer) {
		return deserializer.call(this,text,fields,type);
	} else {
		// Return a raw tiddler for unknown types
		fields.text = text;
		return [fields];
	}
};

/*
Register the built in tiddler deserializer modules
*/
$tw.modules.define("$:/boot/tiddlerdeserializer/js","tiddlerdeserializer",{
	"application/javascript": function(text,fields) {
		var headerCommentRegExp = new RegExp($tw.config.jsModuleHeaderRegExpString,"mg"),
			match = headerCommentRegExp.exec(text);
		fields.text = text;
		if(match) {
			fields = $tw.utils.parseFields(match[1].split(/\r?\n\r?\n/mg)[0],fields);
		}
		return [fields];
	}
});
$tw.modules.define("$:/boot/tiddlerdeserializer/tid","tiddlerdeserializer",{
	"application/x-tiddler": function(text,fields) {
		var split = text.split(/\r?\n\r?\n/mg);
		if(split.length >= 1) {
			fields = $tw.utils.parseFields(split[0],fields);
		}
		if(split.length >= 2) {
			fields.text = split.slice(1).join("\n\n");
		}
		return [fields];
	}
});
$tw.modules.define("$:/boot/tiddlerdeserializer/tids","tiddlerdeserializer",{
	"application/x-tiddlers": function(text,fields) {
		var titles = [],
			tiddlers = [],
			match = /\r?\n\r?\n/mg.exec(text);
		if(match) {
			fields = $tw.utils.parseFields(text.substr(0,match.index),fields);
			var lines = text.substr(match.index + match[0].length).split(/\r?\n/mg);
			for(var t=0; t<lines.length; t++) {
				var line = lines[t];
				if(line.charAt(0) !== "#") {
					var colonPos= line.indexOf(": ");
					if(colonPos !== -1) {
						var tiddler = $tw.utils.extend(Object.create(null),fields);
						tiddler.title = (tiddler.title || "") + line.substr(0,colonPos);
						if(titles.indexOf(tiddler.title) !== -1) {
							console.log("Warning: .multids file contains multiple definitions for " + tiddler.title);
						}
						titles.push(tiddler.title);
						tiddler.text = line.substr(colonPos + 2);
						tiddlers.push(tiddler);
					}
				}
			}
		}
		return tiddlers;
	}
});
$tw.modules.define("$:/boot/tiddlerdeserializer/txt","tiddlerdeserializer",{
	"text/plain": function(text,fields,type) {
		fields.text = text;
		fields.type = type || "text/plain";
		return [fields];
	}
});
$tw.modules.define("$:/boot/tiddlerdeserializer/html","tiddlerdeserializer",{
	"text/html": function(text,fields) {
		fields.text = text;
		fields.type = "text/html";
		return [fields];
	}
});
$tw.modules.define("$:/boot/tiddlerdeserializer/json","tiddlerdeserializer",{
	"application/json": function(text,fields) {
		var tiddlers = JSON.parse(text);
		return tiddlers;
	}
});

/////////////////////////// Browser definitions

if($tw.browser && !$tw.node) {

/*
Decrypt any tiddlers stored within the element with the ID "encryptedArea". The function is asynchronous to allow the user to be prompted for a password
	callback: function to be called the decryption is complete
*/
$tw.boot.decryptEncryptedTiddlers = function(callback) {
	var encryptedArea = document.getElementById("encryptedStoreArea");
	if(encryptedArea) {
		var encryptedText = encryptedArea.innerHTML,
			prompt = "Enter a password to decrypt this TiddlyWiki";
		// Prompt for the password
		if($tw.utils.hop($tw.boot,"encryptionPrompts")) {
			prompt = $tw.boot.encryptionPrompts.decrypt;
		}
		$tw.passwordPrompt.createPrompt({
			serviceName: prompt,
			noUserName: true,
			submitText: "Decrypt",
			callback: function(data) {
				// Attempt to decrypt the tiddlers
				$tw.crypto.setPassword(data.password);
				var decryptedText = $tw.crypto.decrypt(encryptedText);
				if(decryptedText) {
					var json = JSON.parse(decryptedText);
					for(var title in json) {
						$tw.preloadTiddler(json[title]);
					}
					// Call the callback
					callback();
					// Exit and remove the password prompt
					return true;
				} else {
					// We didn't decrypt everything, so continue to prompt for password
					return false;
				}
			}
		});
	} else {
		// Just invoke the callback straight away if there weren't any encrypted tiddlers
		callback();
	}
};

/*
Register a deserializer that can extract tiddlers from the DOM
*/
$tw.modules.define("$:/boot/tiddlerdeserializer/dom","tiddlerdeserializer",{
	"(DOM)": function(node) {
		var extractTextTiddlers = function(node) {
				var e = node.firstChild;
				while(e && e.nodeName.toLowerCase() !== "pre") {
					e = e.nextSibling;
				}
				var title = node.getAttribute ? node.getAttribute("title") : null;
				if(e && title) {
					var attrs = node.attributes,
						tiddler = {
							text: $tw.utils.htmlDecode(e.innerHTML)
						};
					for(var i=attrs.length-1; i >= 0; i--) {
						tiddler[attrs[i].name] = attrs[i].value;
					}
					return [tiddler];
				} else {
					return null;
				}
			},
			extractModuleTiddlers = function(node) {
				if(node.hasAttribute && node.hasAttribute("data-tiddler-title")) {
					var text = node.innerHTML,
						s = text.indexOf("{"),
						e = text.lastIndexOf("}");
					if(node.hasAttribute("data-module") && s !== -1 && e !== -1) {
						text = text.substring(s+1,e);
					}
					var fields = {text: text},
						attributes = node.attributes;
					for(var a=0; a<attributes.length; a++) {
						if(attributes[a].nodeName.substr(0,13) === "data-tiddler-") {
							fields[attributes[a].nodeName.substr(13)] = attributes[a].value;
						}
					}
					return [fields];
				} else {
					return null;
				}
			},
			t,result = [];
		if(node) {
			for(t = 0; t < node.childNodes.length; t++) {
					var childNode = node.childNodes[t],
						tiddlers = extractTextTiddlers(childNode);
					tiddlers = tiddlers || extractModuleTiddlers(childNode);
					if(tiddlers) {
						result.push.apply(result,tiddlers);
					}
			}
		}
		return result;
	}
});

$tw.loadTiddlersBrowser = function() {
	// In the browser, we load tiddlers from certain elements
	var containerIds = [
		"libraryModules",
		"modules",
		"bootKernelPrefix",
		"bootKernel",
		"styleArea",
		"storeArea",
		"systemArea"
	];
	for(var t=0; t<containerIds.length; t++) {
		$tw.wiki.addTiddlers($tw.wiki.deserializeTiddlers("(DOM)",document.getElementById(containerIds[t])));
	}
};

} else {

/////////////////////////// Server definitions

/*
Get any encrypted tiddlers
*/
$tw.boot.decryptEncryptedTiddlers = function(callback) {
	// Storing encrypted tiddlers on the server isn't supported yet
	callback();
};

} // End of if($tw.browser && !$tw.node)

/////////////////////////// Node definitions

if($tw.node) {

/*
Load the tiddlers contained in a particular file (and optionally extract fields from the accompanying .meta file) returned as {filepath:,type:,tiddlers:[],hasMetaFile:}
*/
$tw.loadTiddlersFromFile = function(filepath,fields) {
	var ext = path.extname(filepath),
		extensionInfo = $tw.utils.getFileExtensionInfo(ext),
		type = extensionInfo ? extensionInfo.type : null,
		typeInfo = type ? $tw.config.contentTypeInfo[type] : null,
		data = fs.readFileSync(filepath,typeInfo ? typeInfo.encoding : "utf8"),
		tiddlers = $tw.wiki.deserializeTiddlers(ext,data,fields),
		metafile = filepath + ".meta",
		metadata;
	if(ext !== ".json" && tiddlers.length === 1 && fs.existsSync(metafile)) {
		metadata = fs.readFileSync(metafile,"utf8");
		if(metadata) {
			tiddlers = [$tw.utils.parseFields(metadata,tiddlers[0])];
		}
	}
	return {filepath: filepath, type: type, tiddlers: tiddlers, hasMetaFile: !!metadata};
};

/*
A default set of files for TiddlyWiki to ignore during load.
This matches what NPM ignores, and adds "*.meta" to ignore tiddler
metadata files.
*/
$tw.boot.excludeRegExp = /^\.DS_Store$|^.*\.meta$|^\..*\.swp$|^\._.*$|^\.git$|^\.hg$|^\.lock-wscript$|^\.svn$|^\.wafpickle-.*$|^CVS$|^npm-debug\.log$/;

/*
Load all the tiddlers recursively from a directory, including honouring `tiddlywiki.files` files for drawing in external files. Returns an array of {filepath:,type:,tiddlers: [{..fields...}],hasMetaFile:}. Note that no file information is returned for externally loaded tiddlers, just the `tiddlers` property.
*/
$tw.loadTiddlersFromPath = function(filepath,excludeRegExp) {
	excludeRegExp = excludeRegExp || $tw.boot.excludeRegExp;
	var tiddlers = [];
	if(fs.existsSync(filepath)) {
		var stat = fs.statSync(filepath);
		if(stat.isDirectory()) {
			var files = fs.readdirSync(filepath);
			// Look for a tiddlywiki.files file
			if(files.indexOf("tiddlywiki.files") !== -1) {
				// If so, process the files it describes
				var filesInfo = JSON.parse(fs.readFileSync(filepath + path.sep + "tiddlywiki.files","utf8"));
				// First the tiddlers
				$tw.utils.each(filesInfo.tiddlers,function(tidInfo) {
					var type = tidInfo.fields.type || "text/plain",
						typeInfo = $tw.config.contentTypeInfo[type],
						pathname = path.resolve(filepath,tidInfo.file),
						text = fs.readFileSync(pathname,typeInfo ? typeInfo.encoding : "utf8");
					if(tidInfo.isTiddlerFile) {
						var fileTiddlers = $tw.wiki.deserializeTiddlers(path.extname(pathname),text) || [];
						$tw.utils.each(fileTiddlers,function(tiddler) {
							$tw.utils.extend(tiddler,tidInfo.fields);
							if(tidInfo.prefix) {
								tiddler.text = tidInfo.prefix + tiddler.text;
							}
							if(tidInfo.suffix) {
								tiddler.text = tiddler.text + tidInfo.suffix;
							}
						});
						tiddlers.push({tiddlers: fileTiddlers});
					} else {
						if(tidInfo.prefix) {
							text = tidInfo.prefix + text;
						}
						if(tidInfo.suffix) {
							text = text + tidInfo.suffix;
						}
						tidInfo.fields.text = text;
						tiddlers.push({tiddlers: [tidInfo.fields]});
					}
				});
				// Then any recursive directories
				$tw.utils.each(filesInfo.directories,function(dirPath) {
					var pathname = path.resolve(filepath,dirPath);
					if(fs.existsSync(pathname) && fs.statSync(pathname).isDirectory()) {
						tiddlers.push.apply(tiddlers,$tw.loadTiddlersFromPath(pathname,excludeRegExp));
					}
				});
			} else {
				// If not, read all the files in the directory
				$tw.utils.each(files,function(file) {
					if(!excludeRegExp.test(file) && file !== "plugin.info") {
						tiddlers.push.apply(tiddlers,$tw.loadTiddlersFromPath(filepath + path.sep + file,excludeRegExp));
					}
				});
			}
		} else if(stat.isFile()) {
			tiddlers.push($tw.loadTiddlersFromFile(filepath));
		}
	}
	return tiddlers;
};

/*
Load the tiddlers from a plugin folder, and package them up into a proper JSON plugin tiddler
*/
$tw.loadPluginFolder = function(filepath,excludeRegExp) {
	excludeRegExp = excludeRegExp || $tw.boot.excludeRegExp;
	if(fs.existsSync(filepath) && fs.statSync(filepath).isDirectory()) {
		// Read the plugin information
		var pluginInfo = JSON.parse(fs.readFileSync(filepath + path.sep + "plugin.info","utf8"));
		// Read the plugin files
		var pluginFiles = $tw.loadTiddlersFromPath(filepath,excludeRegExp);
		// Save the plugin tiddlers into the plugin info
		pluginInfo.tiddlers = pluginInfo.tiddlers || Object.create(null);
		for(var f=0; f<pluginFiles.length; f++) {
			var tiddlers = pluginFiles[f].tiddlers;
			for(var t=0; t<tiddlers.length; t++) {
				var tiddler= tiddlers[t];
				if(tiddler.title) {
					pluginInfo.tiddlers[tiddler.title] = tiddler;
				}
			}
		}
		// Give the plugin the same version number as the core if it doesn't have one
		if(!("version" in pluginInfo)) {
			pluginInfo.version = $tw.packageInfo.version;
		}
		// Use "plugin" as the plugin-type if we don't have one
		if(!("plugin-type" in pluginInfo)) {
			pluginInfo["plugin-type"] = "plugin";
		}
		pluginInfo.dependents = pluginInfo.dependents || [];
		pluginInfo.type = "application/json";
		// Set plugin text
		pluginInfo.text = JSON.stringify({tiddlers: pluginInfo.tiddlers},null,4);
		delete pluginInfo.tiddlers;
		// Deserialise array fields (currently required for the dependents field)
		for(var field in pluginInfo) {
			if($tw.utils.isArray(pluginInfo[field])) {
				pluginInfo[field] = $tw.utils.stringifyList(pluginInfo[field]);
			}
		}
		return pluginInfo;
	} else {
			return null;
	}
};

/*
name: Name of the plugin to find
paths: array of file paths to search for it
Returns the path of the plugin folder
*/
$tw.findLibraryItem = function(name,paths) {
	var pathIndex = 0;
	do {
		var pluginPath = path.resolve(paths[pathIndex],"./" + name)
		if(fs.existsSync(pluginPath) && fs.statSync(pluginPath).isDirectory()) {
			return pluginPath;
		}
	} while(++pathIndex < paths.length);
	return null;
};

/*
name: Name of the plugin to load
paths: array of file paths to search for it
*/
$tw.loadPlugin = function(name,paths) {
	var pluginPath = $tw.findLibraryItem(name,paths);
	if(pluginPath) {
		var pluginFields = $tw.loadPluginFolder(pluginPath);
		if(pluginFields) {
			$tw.wiki.addTiddler(pluginFields);
		}
	}
};

/*
libraryPath: Path of library folder for these plugins (relative to core path)
envVar: Environment variable name for these plugins
Returns an array of search paths
*/
$tw.getLibraryItemSearchPaths = function(libraryPath,envVar) {
	var pluginPaths = [path.resolve($tw.boot.corePath,libraryPath)],
		env = process.env[envVar];
	if(env) {
		env.split(path.delimiter).map(function(item) {
			if(item) {
				pluginPaths.push(item)
			}
		});
	}
	return pluginPaths;
};

/*
plugins: Array of names of plugins (eg, "tiddlywiki/filesystemadaptor")
libraryPath: Path of library folder for these plugins (relative to core path)
envVar: Environment variable name for these plugins
*/
$tw.loadPlugins = function(plugins,libraryPath,envVar) {
	if(plugins) {
		var pluginPaths = $tw.getLibraryItemSearchPaths(libraryPath,envVar);
		for(var t=0; t<plugins.length; t++) {
			$tw.loadPlugin(plugins[t],pluginPaths);
		}
	}
};

/*
path: path of wiki directory
options:
	parentPaths: array of parent paths that we mustn't recurse into
	readOnly: true if the tiddler file paths should not be retained
*/
$tw.loadWikiTiddlers = function(wikiPath,options) {
	options = options || {};
	var parentPaths = options.parentPaths || [],
		wikiInfoPath = path.resolve(wikiPath,$tw.config.wikiInfo),
		wikiInfo,
		pluginFields;
	// Bail if we don't have a wiki info file
	if(fs.existsSync(wikiInfoPath)) {
		wikiInfo = JSON.parse(fs.readFileSync(wikiInfoPath,"utf8"));
	} else {
		return null;
	}
	// Load any parent wikis
	if(wikiInfo.includeWikis) {
		parentPaths = parentPaths.slice(0);
		parentPaths.push(wikiPath);
		$tw.utils.each(wikiInfo.includeWikis,function(info) {
			if(typeof info === "string") {
				info = {path: info};
			}
			var resolvedIncludedWikiPath = path.resolve(wikiPath,info.path);
			if(parentPaths.indexOf(resolvedIncludedWikiPath) === -1) {
				var subWikiInfo = $tw.loadWikiTiddlers(resolvedIncludedWikiPath,{
					parentPaths: parentPaths,
					readOnly: info["read-only"]
				});
				// Merge the build targets
				wikiInfo.build = $tw.utils.extend([],subWikiInfo.build,wikiInfo.build);
			} else {
				$tw.utils.error("Cannot recursively include wiki " + resolvedIncludedWikiPath);
			}
		});
	}
	// Load any plugins, themes and languages listed in the wiki info file
	$tw.loadPlugins(wikiInfo.plugins,$tw.config.pluginsPath,$tw.config.pluginsEnvVar);
	$tw.loadPlugins(wikiInfo.themes,$tw.config.themesPath,$tw.config.themesEnvVar);
	$tw.loadPlugins(wikiInfo.languages,$tw.config.languagesPath,$tw.config.languagesEnvVar);
	// Load the wiki files, registering them as writable
	var resolvedWikiPath = path.resolve(wikiPath,$tw.config.wikiTiddlersSubDir);
	$tw.utils.each($tw.loadTiddlersFromPath(resolvedWikiPath),function(tiddlerFile) {
		if(!options.readOnly && tiddlerFile.filepath) {
			$tw.utils.each(tiddlerFile.tiddlers,function(tiddler) {
				$tw.boot.files[tiddler.title] = {
					filepath: tiddlerFile.filepath,
					type: tiddlerFile.type,
					hasMetaFile: tiddlerFile.hasMetaFile
				};
			});
		}
		$tw.wiki.addTiddlers(tiddlerFile.tiddlers);
	});
	// Save the original tiddler file locations if requested
	var config = wikiInfo.config || {};
	if(config["retain-original-tiddler-path"]) {
		var output = {};
		for(var title in $tw.boot.files) {
			output[title] = path.relative(resolvedWikiPath,$tw.boot.files[title].filepath);
		}
		$tw.wiki.addTiddler({title: "$:/config/OriginalTiddlerPaths", type: "application/json", text: JSON.stringify(output)});
	}
	// Save the path to the tiddlers folder for the filesystemadaptor
	$tw.boot.wikiTiddlersPath = path.resolve($tw.boot.wikiPath,config["default-tiddler-location"] || $tw.config.wikiTiddlersSubDir);
	// Load any plugins within the wiki folder
	var wikiPluginsPath = path.resolve(wikiPath,$tw.config.wikiPluginsSubDir);
	if(fs.existsSync(wikiPluginsPath)) {
		var pluginFolders = fs.readdirSync(wikiPluginsPath);
		for(var t=0; t<pluginFolders.length; t++) {
			pluginFields = $tw.loadPluginFolder(path.resolve(wikiPluginsPath,"./" + pluginFolders[t]));
			if(pluginFields) {
				$tw.wiki.addTiddler(pluginFields);
			}
		}
	}
	// Load any themes within the wiki folder
	var wikiThemesPath = path.resolve(wikiPath,$tw.config.wikiThemesSubDir);
	if(fs.existsSync(wikiThemesPath)) {
		var themeFolders = fs.readdirSync(wikiThemesPath);
		for(var t=0; t<themeFolders.length; t++) {
			pluginFields = $tw.loadPluginFolder(path.resolve(wikiThemesPath,"./" + themeFolders[t]));
			if(pluginFields) {
				$tw.wiki.addTiddler(pluginFields);
			}
		}
	}
	// Load any languages within the wiki folder
	var wikiLanguagesPath = path.resolve(wikiPath,$tw.config.wikiLanguagesSubDir);
	if(fs.existsSync(wikiLanguagesPath)) {
		var languageFolders = fs.readdirSync(wikiLanguagesPath);
		for(var t=0; t<languageFolders.length; t++) {
			pluginFields = $tw.loadPluginFolder(path.resolve(wikiLanguagesPath,"./" + languageFolders[t]));
			if(pluginFields) {
				$tw.wiki.addTiddler(pluginFields);
			}
		}
	}
	return wikiInfo;
};

$tw.loadTiddlersNode = function() {
	// Load the boot tiddlers
	$tw.utils.each($tw.loadTiddlersFromPath($tw.boot.bootPath),function(tiddlerFile) {
		$tw.wiki.addTiddlers(tiddlerFile.tiddlers);
	});
	// Load the core tiddlers
	$tw.wiki.addTiddler($tw.loadPluginFolder($tw.boot.corePath));
	// Load the tiddlers from the wiki directory
	if($tw.boot.wikiPath) {
		$tw.boot.wikiInfo = $tw.loadWikiTiddlers($tw.boot.wikiPath);
	}
};

// End of if($tw.node)
}

/////////////////////////// Main startup function called once tiddlers have been decrypted

/*
Startup TiddlyWiki
*/
$tw.boot.startup = function(options) {
	options = options || {};
	// Get the URL hash and check for safe mode
	$tw.locationHash = "#";
	if($tw.browser && !$tw.node) {
		if(location.hash === "#:safe") {
			$tw.safeMode = true;
		} else {
			$tw.locationHash = $tw.utils.getLocationHash();
		}
	}
	// Initialise some more $tw properties
	$tw.utils.deepDefaults($tw,{
		modules: { // Information about each module
			titles: Object.create(null), // hashmap by module title of {fn:, exports:, moduleType:}
			types: {} // hashmap by module type of hashmap of exports
		},
		config: { // Configuration overridables
			pluginsPath: "../plugins/",
			themesPath: "../themes/",
			languagesPath: "../languages/",
			editionsPath: "../editions/",
			wikiInfo: "./tiddlywiki.info",
			wikiPluginsSubDir: "./plugins",
			wikiThemesSubDir: "./themes",
			wikiLanguagesSubDir: "./languages",
			wikiTiddlersSubDir: "./tiddlers",
			wikiOutputSubDir: "./output",
			jsModuleHeaderRegExpString: "^\\/\\*\\\\(?:\\r?\\n)((?:^[^\\r\\n]*(?:\\r?\\n))+?)(^\\\\\\*\\/$(?:\\r?\\n)?)",
			fileExtensionInfo: Object.create(null), // Map file extension to {type:}
			contentTypeInfo: Object.create(null), // Map type to {encoding:,extension:}
			pluginsEnvVar: "TIDDLYWIKI_PLUGIN_PATH",
			themesEnvVar: "TIDDLYWIKI_THEME_PATH",
			languagesEnvVar: "TIDDLYWIKI_LANGUAGE_PATH",
			editionsEnvVar: "TIDDLYWIKI_EDITION_PATH"
		},
		log: {}, // Log flags
		unloadTasks: []
	});
	if(!$tw.boot.tasks.readBrowserTiddlers) {
		// For writable tiddler files, a hashmap of title to {filepath:,type:,hasMetaFile:}
		$tw.boot.files = Object.create(null);
		// System paths and filenames
		$tw.boot.bootPath = path.dirname(module.filename);
		$tw.boot.corePath = path.resolve($tw.boot.bootPath,"../core");
		// If there's no arguments then default to `--help`
		if($tw.boot.argv.length === 0) {
			$tw.boot.argv = ["--help"];
		}
		// If the first command line argument doesn't start with `--` then we
		// interpret it as the path to the wiki folder, which will otherwise default
		// to the current folder
		if($tw.boot.argv[0] && $tw.boot.argv[0].indexOf("--") !== 0) {
			$tw.boot.wikiPath = $tw.boot.argv[0];
			$tw.boot.argv = $tw.boot.argv.slice(1);
		} else {
			$tw.boot.wikiPath = process.cwd();
		}
		// Read package info
		$tw.packageInfo = $tw.packageInfo || require("../package.json");
		// Check node version number
		if(!$tw.utils.checkVersions(process.version.substr(1),$tw.packageInfo.engines.node.substr(2))) {
			$tw.utils.error("TiddlyWiki5 requires node.js version " + $tw.packageInfo.engines.node);
		}
	}
	// Add file extension information
	$tw.utils.registerFileType("text/vnd.tiddlywiki","utf8",".tid");
	$tw.utils.registerFileType("application/x-tiddler","utf8",".tid");
	$tw.utils.registerFileType("application/x-tiddlers","utf8",".multids");
	$tw.utils.registerFileType("application/x-tiddler-html-div","utf8",".tiddler");
	$tw.utils.registerFileType("text/vnd.tiddlywiki2-recipe","utf8",".recipe");
	$tw.utils.registerFileType("text/plain","utf8",".txt");
	$tw.utils.registerFileType("text/css","utf8",".css");
	$tw.utils.registerFileType("text/html","utf8",[".html",".htm"]);
	$tw.utils.registerFileType("application/hta","utf16le",".hta",{deserializerType:"text/html"});
	$tw.utils.registerFileType("application/javascript","utf8",".js");
	$tw.utils.registerFileType("application/json","utf8",".json");
	$tw.utils.registerFileType("application/pdf","base64",".pdf",{flags:["image"]});
	$tw.utils.registerFileType("application/zip","base64",".zip");
	$tw.utils.registerFileType("image/jpeg","base64",[".jpg",".jpeg"],{flags:["image"]});
	$tw.utils.registerFileType("image/png","base64",".png",{flags:["image"]});
	$tw.utils.registerFileType("image/gif","base64",".gif",{flags:["image"]});
	$tw.utils.registerFileType("image/svg+xml","utf8",".svg",{flags:["image"]});
	$tw.utils.registerFileType("image/x-icon","base64",".ico",{flags:["image"]});
	$tw.utils.registerFileType("application/font-woff","base64",".woff");
	$tw.utils.registerFileType("audio/ogg","base64",".ogg");
	$tw.utils.registerFileType("video/mp4","base64",".mp4");
	$tw.utils.registerFileType("audio/mp3","base64",".mp3");
	$tw.utils.registerFileType("audio/mp4","base64",[".mp4",".m4a"]);
	$tw.utils.registerFileType("text/x-markdown","utf8",[".md",".markdown"]);
	// Create the wiki store for the app
	$tw.wiki = new $tw.Wiki();
	// Install built in tiddler fields modules
	$tw.Tiddler.fieldModules = $tw.modules.getModulesByTypeAsHashmap("tiddlerfield");
	// Install the tiddler deserializer modules
	$tw.Wiki.tiddlerDeserializerModules = Object.create(null);
	$tw.modules.applyMethods("tiddlerdeserializer",$tw.Wiki.tiddlerDeserializerModules);
	// Call unload handlers in the browser
	if($tw.browser) {
		window.onbeforeunload = function(event) {
			event = event || {};
			var result;
			$tw.utils.each($tw.unloadTasks,function(task) {
				var r = task(event);
				if(r) {
					result = r;
				}
			});
			return result;
		}
	}
	// Load tiddlers
	if($tw.boot.tasks.readBrowserTiddlers) {
		$tw.loadTiddlersBrowser();
	} else {
		$tw.loadTiddlersNode();
	}
	// Load any preloaded tiddlers
	if($tw.preloadTiddlers) {
		$tw.wiki.addTiddlers($tw.preloadTiddlers);
	}
	// Unpack plugin tiddlers
	$tw.wiki.readPluginInfo();
	$tw.wiki.registerPluginTiddlers("plugin",$tw.safeMode ? ["$:/core"] : undefined);
	$tw.wiki.unpackPluginTiddlers();
	// Process "safe mode"
	if($tw.safeMode) {
		$tw.wiki.processSafeMode();
	}
	// Register typed modules from the tiddlers we've just loaded
	$tw.wiki.defineTiddlerModules();
	// And any modules within plugins
	$tw.wiki.defineShadowModules();
	// Make sure the crypto state tiddler is up to date
	if($tw.crypto) {
		$tw.crypto.updateCryptoStateTiddler();
	}
	// Gather up any startup modules
	$tw.boot.remainingStartupModules = []; // Array of startup modules
	$tw.modules.forEachModuleOfType("startup",function(title,module) {
		if(module.startup) {
			$tw.boot.remainingStartupModules.push(module);
		}
	});
	// Keep track of the startup tasks that have been executed
	$tw.boot.executedStartupModules = Object.create(null);
	$tw.boot.disabledStartupModules = $tw.boot.disabledStartupModules || [];
	// Repeatedly execute the next eligible task
	$tw.boot.executeNextStartupTask();
};

/*
Add another unload task
*/
$tw.addUnloadTask = function(task) {
	if($tw.unloadTasks.indexOf(task) === -1) {
		$tw.unloadTasks.push(task);
	}
}

/*
Execute the remaining eligible startup tasks
*/
$tw.boot.executeNextStartupTask = function() {
	// Find the next eligible task
	var taskIndex = 0, task,
		asyncTaskCallback = function() {
			if(task.name) {
				$tw.boot.executedStartupModules[task.name] = true;
			}
			return $tw.boot.executeNextStartupTask();
		};
	while(taskIndex < $tw.boot.remainingStartupModules.length) {
		task = $tw.boot.remainingStartupModules[taskIndex];
		if($tw.boot.isStartupTaskEligible(task)) {
			// Remove this task from the list
			$tw.boot.remainingStartupModules.splice(taskIndex,1);
			// Assemble log message
			var s = ["Startup task:",task.name];
			if(task.platforms) {
				s.push("platforms:",task.platforms.join(","));
			}
			if(task.after) {
				s.push("after:",task.after.join(","));
			}
			if(task.before) {
				s.push("before:",task.before.join(","));
			}
			$tw.boot.log(s.join(" "));
			// Execute task
			if(!$tw.utils.hop(task,"synchronous") || task.synchronous) {
				task.startup();
				if(task.name) {
					$tw.boot.executedStartupModules[task.name] = true;
				}
				return $tw.boot.executeNextStartupTask();
			} else {
				task.startup(asyncTaskCallback);
				return true;
			}
		}
		taskIndex++;
	}
	return false;
};

/*
Returns true if we are running on one platforms specified in a task modules `platforms` array
*/
$tw.boot.doesTaskMatchPlatform = function(taskModule) {
	var platforms = taskModule.platforms;
	if(platforms) {
		for(var t=0; t<platforms.length; t++) {
			if((platforms[t] === "browser" && !$tw.browser) || (platforms[t] === "node" && !$tw.node)) {
				return false;
			}
		}
	}
	return true;
};

$tw.boot.isStartupTaskEligible = function(taskModule) {
	var t;
	// Check that the platform is correct
	if(!$tw.boot.doesTaskMatchPlatform(taskModule)) {
		return false;
	}
	var name = taskModule.name,
		remaining = $tw.boot.remainingStartupModules;
	if(name) {
		// Fail if this module is disabled
		if($tw.boot.disabledStartupModules.indexOf(name) !== -1) {
			return false;
		}
		// Check that no other outstanding tasks must be executed before this one
		for(t=0; t<remaining.length; t++) {
			var task = remaining[t];
			if(task.before && task.before.indexOf(name) !== -1) {
				if($tw.boot.doesTaskMatchPlatform(task) || (task.name && $tw.boot.disabledStartupModules.indexOf(name) !== -1)) {
					return false;
				}
			}
		}
	}
	// Check that all of the tasks that we must be performed after has been done
	var after = taskModule.after;
	if(after) {
		for(t=0; t<after.length; t++) {
			if(!$tw.boot.executedStartupModules[after[t]]) {
				return false;
			}
		}
	}
	return true;
};

/*
Global Hooks mechanism which allows plugins to modify default functionality
*/
$tw.hooks = $tw.hooks || { names: {}};

/*
Add hooks to the  hashmap
*/
$tw.hooks.addHook = function(hookName,definition) {
	if($tw.utils.hop($tw.hooks.names,hookName)) {
		$tw.hooks.names[hookName].push(definition);
	}
	else {
		$tw.hooks.names[hookName] = [definition];
	}
};

/*
Invoke the hook by key
*/
$tw.hooks.invokeHook = function(hookName, value) {
	if($tw.utils.hop($tw.hooks.names,hookName)) {
		for (var i = 0; i < $tw.hooks.names[hookName].length; i++) {
			value = $tw.hooks.names[hookName][i](value);
		}
	}
	return value;
};

/////////////////////////// Main boot function to decrypt tiddlers and then startup

$tw.boot.boot = function() {
	// Initialise crypto object
	$tw.crypto = new $tw.utils.Crypto();
	// Initialise password prompter
	if($tw.browser && !$tw.node) {
		$tw.passwordPrompt = new $tw.utils.PasswordPrompt();
	}
	// Preload any encrypted tiddlers
	$tw.boot.decryptEncryptedTiddlers(function() {
		// Startup
		$tw.boot.startup();
	});
};

/////////////////////////// Autoboot in the browser

if($tw.browser && !$tw.boot.suppressBoot) {
	$tw.boot.boot();
}

return $tw;

});

if(typeof(exports) !== "undefined") {
	exports.TiddlyWiki = _boot;
} else {
	_boot(window.$tw);
}
</script>
</div>
</body>
</html>

|►0◄''blood Ⓐ''|
|^^''⟳''1900 rpm 15min^^|
|''8'' mL ☒→|

|►0◄''blood Ⓑ''|
|^^''⟳''1900 rpm 15min^^|
|''8'' mL ☒→|

|►0◄''blood Ⓒ''|
|^^''⟳''1900 rpm 15min^^|
|''8'' mL ☒→|

|►1◄''PRP''^^T15^^|
|^^plasma riche Plaquettes^^|
|A ''⟳'' 3200 rpm 10min|
|☐  5 mL PBS-PGi2|
|B ''⟳'' 3200 rpm 10min|
|☐  _ mL PBS-PGi2|

|►2◄''Buffy Coat layer''^^F50^^|
|''1:4''|
|^^la couche leuco-plaquetaire^^|
|☒ 24 mL RPMI|
|☐ 6 mL buffy coat|

|►3◄''Histopaque''^^T15^^|
|☒ 3 mL 1077|
|☐ 3 mL 1119|
|''⟳'' 2200 rpm 30min|

|►3◄''Histopaque''^^T15^^|
|☒ 3 mL 1077|
|☐ 3 mL 1119|
|''⟳'' 2200 rpm 30min|

|►3◄''Histopaque''^^T15^^|
|☒ 3 mL 1077|
|☐ 3 mL 1119|
|''⟳'' 2200 rpm 30min|

|►4◄''all MNC''^^F50^^|
|''1:4''|
|☒ 4 vol RPMI|
|A ''⟳'' 2200 rpm 10min|

|►6◄''MNC''|
|''✚CD14''^^tubeEPP^^|
|^^MONO^^|
|☒ 1 mL MacsBuffer-BSA|
|A ''⟳'' spin down 30sec|
|☐ 80uL MacsBuffer-BSA|
|☐ 20uL CD14|
|☐ 1 mL MacsBuffer-BSA|
|B ''⟳'' spin down 30sec|
|☐ 0.5 mL MacsBuffer-BSA|

|►5◄''all PMN''^^F50^^|
|''1:4''|
|☒ 4 vol RPMI|
|A ''⟳'' 2200 rpm 10min|

|►7◄''PMN''|
|''✚ CD15''^^tubeEPP^^|
|^^Neutro ✚^^|
|☒ 1 mL MacsBuffer-BSA|
|A ''⟳'' spin down 30sec|
|☐ 80uL MacsBuffer-BSA|
|☐ 20uL CD15|
|☐ 1 mL MacsBuffer-BSA|
|B ''⟳'' spin down 30sec|
|☐ 0.5 mL MacsBuffer-BSA|

|►8◄''MNC ⦵ negative''|
|^^T15^^|
|recuperation for|
|^^Lymfo^^|
|''⟳'' 1400 rpm 10min|
|→|

|►9◄''⦵ negative''|
|^^tube EPP^^|
|☐ 20uL CD61|
|☐ 20uL CD235a|
|^^for Lymfo^^|

|►10◄ colector|
|^^T15^^|
|''CD61 235a⦵ negative''|
|''⟳'' 2200 rpm 10min|
|^^LYMFO^^|

|►11◄|
|^^eppendort 5 mL^^|
|''CD61✚ 235a✚''|
|^^MegaKario^^|
|^^Platelets^^|

|''COLUMN''|
|MNC ✚ CD14|
|''Mono''|

|''COLUMN''|
|PMN ✚ CD15|
|''Neutro''|

|''COLUMN''|
|''CD61✚ 235a✚''|

|►Mono(MNC)◄|

|►Neutro(PMN)◄|

|►Leucocytes◄|

|►Platelets◄|

mitolab

The Open Microscopy Environment (OME)

OME develops open-source software and data format standards for the storage and manipulation of biological microscopy data. It is a joint project between universities, research establishments, industry and the software development community.

OMERO is client-server software for visualization, management and analysis of biological microscope images.
(University of Dundee & Open Microscopy Environment - OME )


http://www.openmicroscopy.org/site/products/omero

From the microscope to publication, OMERO handles all your images in a secure central repository. You can view, organize, analyze and share your data from anywhere you have internet access. Work with your images from a desktop app (Windows, Mac or Linux), from the web or from 3rd party software. Over 140 image file formats supported, including all major microscope formats.

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

! Metoda 1
Once columns are used, transfer to qiavac manifold stopcocks, and add ddH2O per column, 3X, with a squirt bottle. Don't use PBS, you want to use pure water to create a hypo-osmotic environment for any cell debris stuck in the column.
Then, add ETOH 3x using another squirt bottle, always for all the alcohol to clear the column between refill. Once that is done, leave on suction for a bit and store and store in a plastic bag. We like to make a notch on the lip of the column with a earpunch device to keep track of the re-use times.
Before re-use, place on magnet and load with ETOH. Then, plunge a bit of the ethanol manually (eg with one of the associated plungers). This will clear any dead space and bubbles. Load PBS 3X after that, as indicated in the protocol.
If they're cleaned right away, they will take a long time to show any rust. The efficiency doesn't drop even after 10 or more uses this way. Marc Jenkins' lab group has been re-using their columns for years now, for their Cell, Nature, Science and Immunity papers.

! Metoda 2
We wash with 3x column volume of sterile PBS + 0.03% Sodium Azide in the culture hood. Usually dry for 5 to 10 minutes. However, the sterility of the columns cannot be guaranteed. Since our experiments tend to be in short terms (cells will be harvested within 48 hours), the sterility isn't a big issue. If you are concerned of contamination, then please use new columns.
You can try storing the columns in 100% ethanol after you are done washing them. It will not only remove the remaining contaminants (which you can see settling at the bottom of the tube containing your columns), but also prolong their life.

Experience mSOX {MTG ~ mSOX ~ Antimicin A} old

Procedure:
1. Equilibrate all materials and prepare solutions to 37 °C prior to use. Cells should be seeded in microplate ~150 000 cells/well. The plates must be treated with Cel-Tak. Cell Line U-937 ATCC #Cat.No.: CRL-1593.2 human monocytes

2. Prepare the tubes in order:

[[TUBE 3]] (15ml) {~ MTG}:  2 µL stock from freezer dilute in in 1 mL Assay Buffer + 9 mL Assay Buffer 
                  alicote 1300µL in 3 eppendorf.

[[TUBEe 2]] add 6.5 µL (of 5 mM stockmitoSOX) in 1300 µL = {~mitoSOX~ MTG}   

[[TUBEe 1]] add 6.5 µL (of 5 mM stockmitoSOX ) in 1300 µL and add 130 µL (of 1mM Antimicin -A stock) ={~Antimicin A ~mitoSOX~ MTG}

[[TUBEe 4]] and 130 µL (of 1mM Antimicin -A stock) in 1300 µL Assay Buffer  { ~ Antimicin A}


3. Prepare black plate
(A) Add 98.42 µL Cell-Tak in 1000 µL water and place 10 µL diluted Cell-Tak into each well.
(B) Add 20 µL of bicarbonate buffer to each well.
(C) Shake delicate.
(D) Allow at least 20 minutes for adsorption.
(E) Flick or aspirate off the Cell-Tak solution and wash with 100 µL of distiled water, air dry before storing at 2-8 °C. (BioTeK ELX450)

3. Count - Cells should be seeded in microplate ~150 000 cells/well.

4. Centrifuge the plate at 200 rcf for 30 sec, rotate the plate 180
and centrifuge again at 300 rcf for 30 sec. EppendorfCentrifuge 5430R,
with rotor A-2-MTP #Cat.No.: 5430/5430 (max. 4680 rpm) START / STOP / OPEN.

5. Treat one vertical line (STIMULATION line) of wells with 100 µL/well from TUBEe1  {~Antimicin A ~mitoSOX~ MTG}

6. Treat SAMPLE line of wells with 100 µL/well from TUBEe 2 {mitoSOX ~ MTG}

7. Treat SAMPLE line of wells with 100 µL/well from TUBEe 3 { ~ MTG}

for 40 minutes at 37 °C in dark.

7. Wash 3 times warm Assay Buffer

Treat one vertical line (STIMULATION line) of wells with 100 µL/well from TUBEe 4 { ~ Antimicin A}

8. Read (Scan 1) the plate on a fluorescence plate reader wit settings
suitable for mitoSOX (bottom, Ex: 396 nm, Em: 580 nm) [Gain 219]
and for MTG (bottom, Ex: 490 nm, Em: 516 nm) [Gain 169]

NOTE: Monitoring the oxidation of MitoSOX™ Red probe with 396 nm excitation, you can more selectively detect mitochondrial O2•– production and distinguish it from other nonspecific intracellular oxidative
processes in live cells.

Incubate again (40 minutes) at 37 °C in dark. Repeat  Scan 2.

Preparation of:


Assay Buffer "Buffer-BSA"for 200 mL pH 7.4 (with 1N NaOH):
[I] (80 mM) NaCl [FM:58.44] 0.93504 g {Fisher #S2713}
[II] (75 mM) KCl [FM:74.55] 1.118 g {Sigma #P-4504}
[III] (25 mM) D-glucose [FM:180.16] 0.9008 g {Sigma #158968-500G}
[IV] (25 mM) HEPES [FM:238.30] 1.1915 g {Sigma #H3375-250G}
filter 0.20 µm { #83.1826.001} alicot in red tubes 50mL [ -4°C]
[V] (0.2%) fresh BSA [from -4°C] 0.100 g in 50 mL Buffer
(powder weighed before and distributed in eppendorf ready to use).

mitoSOX Molecular Probe #Cat.No.: M36008
www.lifetechnologies.com MW: 759 ((recomand [0.1 - 25 µM]))
Stock concentration: 5 mM (add 13 µL DMSO in original tube 50 µg)
Preparation of (25 µM) mitoSOX Working Solution:
add 13 µL (of 5 mM stock) in 2600 µL PBS {1/2_1/2}

(MTG) MitoTracker Green FM [MW:671.9797], non-fluorescent in aqueous solutions, which becomes fluorescent  only when accumulated in the mitochondrial lipid environment, regardless of membrane potential. 
Invitrogen/Molecular Probe (#Cat. No:M-7514) soluble in DMSO 
[I] (1 mM) MTG Stock Solution: 50µg dilute in 74 µL DMSO (store at -20°C in the dark)
[III] (200 µM) Final Solution (Working Solution): 2 µL stock dilute in in 1 mL Assay Buffer + 9 mL Assay Buffer

Antimycin A (Ant-A) from Streptomyces sp. Sigma#Cat.No: A8674-100MG
store -20 °C.
Ant-A Stock concentration (1mM):
 Formula Weight: 548.63 g/mol Mass: 0.01204 g
Vol: 21.94 mL (dilute in 1 mL EtOH + 20.94 mL PBS) filter 0.22um
alicote and store -20 °C.
Ant-A Working Solution 100µM: add 130 µL stock (1mM) in 1300 µL Assay Buffer

!Microarray Course Session 1
https://www.youtube.com/watch?v=BxI7p7MR95c

Microarray Course Session 2
https://www.youtube.com/watch?v=-Ol0elMaHm0

Microarray Course Session 3
https://www.youtube.com/watch?v=lWa3l2Xvt0U

Microarray Course Session 4
https://www.youtube.com/watch?v=o2iuOnK97dQ

Microarray Course Session 5
https://www.youtube.com/watch?v=dAWLolaYtMc

Microarray Course Session 6
https://www.youtube.com/watch?v=rQk_wwu_ndM

Microarray Course Session 7
https://www.youtube.com/watch?v=9We25CfcA78

Microarray Course Session 9
https://www.youtube.com/watch?v=isOaFWy1XQM

Microarray Course Session 10
https://www.youtube.com/watch?v=Klk7n_Ihrw4

What is Hadoop? Other big data terms like MapReduce? Cloudera's CEO talks us through big data trends
https://www.youtube.com/watch?v=S9xnYBVqLws
https://www.youtube.com/watch?v=cA2btTHKPMY

! Comparison databases like ArrayExpress run through the European Bioinformatics Institute
http://www.ebi.ac.uk/arrayexpress/browse.html

!Microarray Overview
http://grf.lshtm.ac.uk/microarrayoverview.htm
https://en.wikipedia.org/wiki/DNA_microarray
resources
http://www.affymetrix.com/estore/about_affymetrix/outreach/educator/microarray_anim_ppt_resources.affx

How the affymetrix microarray is spotted
https://www.youtube.com/watch?v=MuN54ecfHPw

The traditional solid-phase array is a collection of orderly microscopic "spots", called features, each with thousands of identical and specific probes attached to a solid surface, such as glass, plastic or silicon biochip (commonly known as a genome chip, DNA chip or gene array). Thousands of these features can be placed in known locations on a single DNA microarray. The alternative bead array is a collection of microscopic polystyrene beads, each with a specific probe and a ratio of two or more dyes, which do not interfere with the fluorescent dyes used on the target sequence.

DNA microarrays can be used to detect DNA (as in comparative genomic hybridization), or detect RNA (most commonly as cDNA after reverse transcription) that may or may not be translated into proteins. The process of measuring gene expression via cDNA is called expression analysis or expression profiling.

!Affymetrix GeneChips
Affymetrix GeneChips are built by laying down sequences of bases using a combination of semiconductor-based photolithography and solid phase chemical synthesis technologies. Oligonucleotides (oligos), usually 25-mers (25 bases long), are directly synthesized onto a glass wafer. Each array contains up to 900,000 different oligos and each oligo is present in millions of copies (Figure 2). Since oligonucleotide probes are synthesized in known locations on the array, the hybridization patterns and signal intensities can be interpreted in terms of gene identity and relative expression levels by Affymetrix GeneChip Operating Software. The following image gives a schematic of this process.

[img[https://www.vsni.co.uk/software/genstat/htmlhelp/marray/images/AffyDetail.jpg]]

Each gene is represented on the array by a series of different oligonucleotide probes. Each probe pair consists of a perfect match oligonucleotide and a mismatch oligonucleotide. The perfect match probe has a sequence exactly complimentary to the particular gene and thus measures the expression of the gene. The mismatch probe differs from the perfect match probe by a single base substitution at the centre base position, disturbing the binding of the target gene transcript. This helps to determine the background and nonspecific hybridization that contributes to the signal measured for the perfect match oligo. The GeneChip Operating Software MAS algorithm subtracts the hybridization intensities of the mismatch probes from those of the perfect match probes to determine the absolute or specific intensity value for each probe set. Probes are chosen based on current information from Genebank and other nucleotide repositories. The sequences on the expression arrays are believed to recognize unique regions of the 3’ end of the gene. The following diagram shows a schematic of a probe set:
[>img[https://www.vsni.co.uk/software/genstat/htmlhelp/marray/images/AffyMismatch.jpg]]

The slide is then hybridized with RNA from the selected target. After hybridization, the chip is stained with a fluorescent molecule (streptavidin-phycoerythrin) that binds to biotin. The staining protocol includes a signal amplification step that employs anti-Streptavidin antibody (goat) and biotinylated goat IgG antibody (The series of washes and stains with aforementioned reagents binds the biotin and provides an amplified flour that emits light when the chip is then scanned with a confocal laser and the distribution pattern of signal in the array is recorded. The following image shows an Affymetrix GeneChip that has been hybridized.

[>img[https://www.vsni.co.uk/software/genstat/htmlhelp/marray/images/AffyImage.jpg]]

!Terms used in Affymetrix GeneChips
Target
Fragmented, biotinylated anti-sense cRNA prepared from mRNA to be analysed. Target molecules are hybridized to the probe array and the levels of hybridization are measured with the GeneArray scanner after the array is stained with biotin - streptavidin-phycoerythrin (SAPE).

Probe
Single-stranded DNA oligonucleotide synthesized directly on the surface of the GeneChip array using photolithography and combinatorial chemistry. The 25 base oligonucleotide is designed to be complementary to a specific gene transcript.

Probe Cell
Single square-shaped feature on an array containing probes with a unique sequence. The size can vary depending on the array type, typically 20 µm or 18 µm. Each probe cell contains millions of probe molecules. Perfect Match (PM)
Probes that are designed to be complementary to a reference sequence.

Mismatch (MM)
Probes that are designed to be complementary to a reference sequence except for a homomeric mismatch at the central position (e.g., 13th position of 25 base probe, A->T or G->C). Mismatch probes serve as a control for cross-hybridization.

Probe Pair
Two probe cells, a PM and its corresponding MM. On the probe array, a probe pair is arranged with a PM cell directly above a MM cell.

Probe set
A set of probes designed to detect one transcript. A probe set usually consists of 11-20 probe pairs. For example, an 11 probe pair set is made up of 11 PM probes and 11 MM probes for a total of 22 probe cells. Newer array designs from Affymetrix, e.g., HG-U133, contain probe sets with 11 probe pairs. Older designs have average probe set numbers of 16 or 20 probe pairs.

Target Sequence
The portion of a transcript reference sequence that is interrogated by a probe set on the array. The target sequence extends from the first base of the most 5' probe to the last base of the most 3' probe.

! One Channel/Affymetrix Microarrays
Affymetrix produce chips which have just a single target added to each chip. A single level of intensity is read from each spot or cell on the chip. Each gene is presented on the chip by multiple short sections of DNA (probes) which match the gene at various locations. The set of sections is known as a probe set. For each matching section of DNA (the perfect match (PM)), as a control, a corresponding section of DNA with a single base change near the middle of the sequence is also put on the chip (the mismatch (MM)). The pairs of PM/MM spots are then summarized over to obtain an average reading for the presence of each gene. The images below show an Affymetrix chip and its components.
[>img[https://www.vsni.co.uk/software/genstat/htmlhelp/marray/images/AffyChip.jpg]]
[>img[https://www.vsni.co.uk/software/genstat/htmlhelp/marray/images/chiplayout_pic.gif]]

Affymetrix chips can be very large (for example they can have about 500,000 spots on them), so analysing a series of Affymetrix chips can be time consuming, and can require a large amount of RAM when the CEL files are processed within GenStat. As an alternative, Affymetrix supplied software can be used to summarize over the PM/MM pairs and store the results in summary files (CHP files), which can then be read into GenStat.

A CEL file provides data for each physical location, or cell, (defined by row and column coordinates) and intensity. In addition it contains the name of the CDF file needed for the location-probe-set mapping. The CDF files store the probe set related to each location on the array. The computation of summary expression values from the probe intensities requires a mapping/merging of the probes set (CDF) data to the location (CEL) data. When opening a series of CEL files in GenStat the corresponding CDF file name needs to be specified. CDF files can be downloaded from the Affymetrix web site at https://www.affymetrix.com
tutorial to
https://www.vsni.co.uk/software/genstat/htmlhelp/marray/AffymetrixExample.htm

!Two Channel Microarrays
A microarray experiment consists of a series of slides that have been printed with spots of DNA from a library. The DNA printed onto the slides or chips is known as the probes. The spots can be printed using a robot or ink jet printer to transfer DNA from the library (often held in 96 or 384 well plates) to the slide. Alternatively the probes can be laid down on the slide chemically, building up the probes base by base. RNA or DNA from two sources, known as the targets, (e.g. individuals, cell lines, cells at different times or under different conditions etc.) are then bound to 2 fluorescing dyes (Cy5 = red and Cy3 = green, note: to help remember the colour of the dyes Cy3 and Cy5, the words three and green share 3 letters). Two dyed targets are then added to a slide in equal amounts. The target RNA binds to the probe DNA on the slide, where there is a long sequence of complementary bases (i.e. the base A binds with T and C with G). This step is known as hybridization, and is normally carried out over a period of time under controlled conditions (e.g. temperature etc.) After the hybridization step, when the targets are left to bind to the probes, the unbound target DNA is washed from the slides. The amount of bound DNA for each target is read by scanning the slide, often with a confocal scanning laser which produces an image of the slide. The scanner uses two lasers tuned to the Cy3 and Cy5 wavelengths to produce a green and red image.

The following image shows a section of a microarray slide printed by one pin.
[img[https://www.vsni.co.uk/software/genstat/htmlhelp/marray/images/slide.jpg]]

The following image is a complete microarray slide, full slide printed by an 8 by 4 pin array. The distinct blocks of spots printed by each pin are clearly separated. You can see that the background is not uniform with smears, and some spots are obscured by scratches and smudges. Also the background colour tends to be green.

[img[https://www.vsni.co.uk/software/genstat/htmlhelp/marray/images/fullslide.JPG]]

The two images are then input into an image analysis package (such as Spot, GenePix or ScanAnalyze) to produce a data file with a single level of intensity for each colour/channel and each spot. The image analysis routine should locate each spot, and then read an average value for the signal for each spot (the foreground value). In addition it may also provide background values for each spot to allow for background correction.

[img[https://www.vsni.co.uk/software/genstat/htmlhelp/marray/images/APOSpatialPlotGraph.jpg]]

https://www.youtube.com/watch?v=0Hj3f7vQFZU

https://www.youtube.com/watch?v=pWk_zBpKt_w

https://www.youtube.com/watch?v=BxI7p7MR95c

LightCycler® 2.0 Instrument 

http://lifescience.roche.com/shop/products/absolute-quantification-with-the-lightcycler-carousel-based-system


Related Downloads

LightCycler® 2.0 Instrument
Operator's Manual B: for general laboratory use
Manual (PDF, 14 MB)

LightCycler® Software 4.0
Operator's Manual
Manual (PDF, 0 KB) 

Analysis of activity and inhibition of oxygen-dependent enzymes by optical respirometry on the LightCycler system.
Dmitri B Papkovsky

white blood cells:
Granulocytes/Neutrophils - 3lobi -{polymorphonuclear leukocytes PMN, PML, or PMNL = Basophil granulocytes, Eosinophil granulocytes, Neutrophil granulocytes}
Neutrophils are the most abundant white blood cells in humans, lifespan 5.4 days.
Neutrophil antigens: different location units: CD16b, CD177 CD11b CD11a
Eosinophil granulocytes, eosinophils or eosinophiles (control allergy and asthma) - 2 lobi.
Basophil granulocytes, mostly referred to as basophils 2-3 lobi Basophil antigens: CD13, CD44, CD54, CD63, CD69, CD107a, CD123, CD164, CD193/ CCR3, CD203c, TLR-4, and FcεRI.
lymphocytes:
(A) T cells (thymus cells) and B cells (bone marrow- or bursa-derived cells - involved in cell-mediated immunity.
(B) Natural killer cells NK cells - innate immune system.

NK cells (Lysis of virally infected cells and tumour cells	7%) CD16 CD56 but not CD3

Helper T cells (Release cytokines and growth factors that regulate other immune cells)	46% TCRαβ, CD3 and CD4

Cytotoxic T cells	(Lysis of virally infected cells, tumour cells and allografts)	19% TCRαβ, CD3 and CD8

γδ T cells	Immunoregulation and cytotoxicity	5% TCRγδ and CD3

B cells	Secretion of antibodies	23% MHC class II, CD19 and CD21

Monocytes (Monocytes are produced by the bone marrow, half of them are stored in the spleen) These change into macrophages after entering into the tissue spaces, and in endothelium can transform into foam cells.
CD14++ classical, CD14+CD16++ monocyte, etc




splina: lymphocytes 100 mil 

60% B cells
30% T cells
5% macrophage
5% NK
1% dentritiques
1% monocytes CD14 @h #130-050-201 

Quatro Macs #130-094-833
LS Columns #130-042-401

(I) Glicophorin A CD235a @h #130-050-501
(II) Platelets CD61 @h #130-051-101
(III) Monocytes CD14 @h #130-050-201
(IV) Granulocytes CD15 @h #130-046-601
PART No.1
(YYY) T-cell CD3ε @m #130-094-973
biotinilated [2steps]
T-cell receptor (TCR) CD3 (cluster of differentiation 3) cell-surface proteins

γ chain, a δ chain, and two ε chains.
ζ-chain to generate an activation signal.

[CD3 is initially expressed in the cytoplasm of pro-thymocytes, the stem cells from which T-cells arise in the thymus. The pro-thymocytes differentiate into common thymocytes, and then into medullary thymocytes, and it is at this latter stage that CD3 antigen begins to migrate to the cell membrane. The antigen is found bound to the membranes of all mature T-cells, and in virtually no other cell type, although it does appear to be present in small amounts in Purkinje cells.]

(ZZZ) CD116 Neutrophils mh #130-049-601
[1 step]
granulocyte macrophage colony-stimulating factor receptor, stimulates the production of white blood cells. The receptor is normally located on myeloblast, mature neutrophil.
Neutrophils form part of the polymorphonuclear cell family (PMNs) together with basophils and eosinophils.

! INTRODUCTION - Mitochondria Functional Studies

Platform synchron fluorescence quantification permits specific biologic parameters of cellular populations analysed in specific fashion based on their unique fluorescent properties. Relative quantification of 4 basic  mitochondrial parameters including mitochondrial content, mitochondrial membrane potential, apoptosis activity and matrix oxidant burden. This assay has been optimized using U937 & DC cells some modifications may be required for use with other cell types. For quantification of mitochondrial localized fluorescent dye we use MTG to assess mitochondrial content, TMRE to assess mitochondrial membrane potential, FITC active CASPASE-9  to assess apoptosis, and MitoSOX Red to assess mitochondrial matrix oxidant burden. These basic parameters can be used to study in ∓ healthy individuals, the effects of pharmacologic induction and scavenging of oxidant stress.

''Mitochondrial Membrane Potential (Δψm)''  is highly interlinked to many mitochondrial processes. The Δψm controls ATP synthesis, generation of ROS, mitochondrial calcium sequestration, import of proteins into the mitochondrion and mitochondrial membrane dynamics. Hence pharmacological changes in Δψm can be associated with a multitude of other mitochondrial pathological parameters. Depolarization can be found in the presence of ionophores that could induce nonselective cation channels or become selective mobile ionic carriers. Protonophores such as CCCP and FCCP induce reversal of the ATPase, as a compensatory mechanism that tries to maintain Δψm, which will deplete ATP even in the presence of a normal glycolytic pathway. CCCP can depolarize mitochondria within minutes. Hyperpolarization could be found in the presence of ATPase inhibition, inadequate supply of ADP, increased supply of NADH, apoptosis due to oxidative stress and potentially proton slippage due to cytochrome c oxidase dephosphorylation. In either scenario, OXPHOS uncoupling ensues. 

Mitochondrial depolarization is a hallmark of cell health and viability and is involved in a variety of diseases, including various neurodegenerative diseases such as Parkinson‘s and Alzheimer‘s Diseases as well as age-related mitochondrial malfunction. 

Above all, the analysis should be normalizatied in such a way as to be an equal number of cells / well. This means an equal number of nuclei stained with specific dye Hoechst (H), and to have an equivalent amount of mitochondria / well. 
To quantify mitocondria content we stain the cells with MitoTracker Green ® (MTG) and quantify the signal as a measurement of total mitochondria. To label mitochondria, cells are simply incubated with MTG probes, which passively diffuse across the plasma membrane and accumulate in active mitochondria.
This mitochondrial membrane potential assay uses TMRE (tetra methyl rhodamine, ethyl ester) to label active mitochondria. TMRE is (+) charged and bind to active mitochondria matrix (-) charged. Depolarised or inactive mitochondria have decrased Δψm and fail to bind TMRE. a) In other words TMRE is a cell permeant, positively-charged, red-orange dye that readily accumulates in active mitochondria due to their relative negative charge. Depolarized or inactive mitochondria have decreased membrane potential and fail to sequester TMRE. b) TMRM which accumulates within healthy, negatively charged mitochondrial organelles, exhibiting a red-orange fluorescence (EM 575 nm). When the mitochondrial membrane potential collapses in apoptotic or metabolically stressed cells, the dye is dispersed throughout the cell cytosol with minimal fluorescence. TMRM assay can be used in conjunction with existing apoptosis or metabolic stress protocols. The generic mitochondrial membrane depolarizer Carbonyl Cyanide m- Chloro Phenylhydrazone (CCCP) is a ionophore uncoupler of oxidative phosphorylation. Treating cells with CCCP eliminates mitochondrial membrane potential and TMRE staining. MTG signal  is not affected by ionophore. General guidelines for cell numbers for adherent cells, 100,000 - 200,000 cells per well  in 100 - 200 μL should provide sufficient signal. For Fluorescence plate reader: wash cells once with 0.2% BSA in PBS, then read cells in a microplate. Guidelines for TMRE concentration - is dependent on the cell line at hand. Recommending starting concentrations to test 150 - 1000 nM TMRE. Optimal concentrations for the U937 cell lines is 200 nM TMRE.  What we expect: After staining a cell population with Hoechst, TMRE and MTG dye, all the cells show same blue fluorescence for the nuclei, the inhibited cells show green fluorescence with very little / decreased red fluorescence, and good live cells show same green fluorescence (same mitochondrial content) and bright red fluorescence. 
Calculation: 
''TMRE / Hoehst'' chart is showing mean red fluorescent intensity divided by Hoechst blue fluorescent  intensity +/- standard deviation from quadruplicate measurements of 200 nM TMRE stained U937 cells in a 96-well microplate +/- treatment with CCCP and OLY. 
''Mitochondrial content'' chart is showing mean green fluorescent intensity MTG divided by Hoechst blue fluorescent  intensity.  
''Mitochondrial Membrane Potential (Δψm)'' chart is showing [(TMRE / H) / (MTG / H)].

''Note 1 Antimycin A'' is an inhibitor of Complex III. It binds to  the Qi site of Complex III and inhibits the transfer of 
electrons from heme bH to oxidized Q (Qi site inhibitor).
http://www.bioblast.at/index.php/MitoPedia:_Inhibitors

''Note 2 Oligomycin A'' (Omy) is an inhibitor of ATP synthase. Omy is used to prevent state 3 (phosphorylating) respiration. The inhibition of ATP synthesis by oligomycin A will significantly reduce electron flow through the electron transport chain; however, electron flow is not stopped completely due to a process known as proton leak or mitochondrial uncoupling. This process is due to the facilitated diffusion of protons into the mitochondrial matrix through an uncoupling protein such as thermogenin, or UCP1. Mitochondrial proton and electron leak have a major impact on mitochondrial coupling efficiency and production of reactive oxygen species. Omy used in Seahorse Respiration http://www.seahorsebio.com/learning/app-notes/cos.php
Oligomycin, a complex V inhibitor, was injected to differentiate the ATP-linked respiration (oligomycin-sensitive fraction) from the proton leak. This reveals the four fundamental parameters of mitochondrial function: 
① basal respiration ② ☇ Omy ATP turnover, ③ proton leak,  ☇ CCCP ④ maximal respiratory capacity , Antimycin A.
▬ ▁ ⎛⌒⎞ The OCR measured after CCCP injection represents the maximal capacity that cells have to reduce oxygen under the experimental conditions. Finally, antimycin A was injected to inhibit the flux of electrons through complex III, and thus no oxygen was further consumed at cytochrome c oxidase. 


! Map of Plate with Cel-Tak (pH control)
''A1-E8''
Harvest the cells and count them, adjusting their concentration to _ × 10^^6^^ cells / mL in culture medium (MC). See the tiddly [[Design Plate 96 wells]]. The plate is designed for 200 µL / well, and is possible to split in 2 plates with 100 µL / well. The cells must be attached to the plate by centrifugation in 2 x 30 seconds using special cell adhesive cel-tak. To be easily handled and the calculated results in Excell, the samples will be distributed in this way:

A | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ 
B | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ 
C | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ 
D | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ 
E | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑

In this black 96 wells plate will be analysed 3 parameters: ''Mito SOX Production'' coresponding lines ➊ ➋ ➌, ''Apoptosis'' lines ➍ ➎ and ''Mitochondrial Membrane Potential (Δψm)'' lines ➏ ➐. The line ➑ is blank line. 
^^{NOTE: To precision and accuracy of experiment we use Hoechst dye (specific for nuclei) to calculate an equivalent number of cells.  There is one variable in population of cells, the dimension of cells. Only by FACS is possible to select a distinct population of cells with an equivalent diameter}^^. 


Procedure CELTAK PLATE PREPARING: add 41 µL Cell-Tak to 400 µL dH~~2~~O, 820 µL of 0.1N sodium bicarbonate and 20.1 µL of 1N NaOH. Dispence within 10 minutes. Place 30 µL diluted Cell-Tak into each well. Shake delicate. Allow at least 20 minutes for adsorption. Flick or aspirate off the Cell-Tak solution and wash with 3 drops of distiled water, air dry before storing at 2-8 °C for aproximately two weeks. Adesive extracted from //Mytilus edulis//.

|cssClass|k
|!cel tak ~~B~~|!H~~2~~O|!Bicarb|!NaOH|!Total|!wells30µL|h
|41 |400 |820 |20.5 |1281 |41 |
|80 |150 |540 |//∓ 40// |770 |25 |
|210 |420 |1453 |//∓ 105// |2083 |69 |
new formula pH 8.0 - 8.5. 
Put Cell-Tak also in the Blank control of SeaHorse plate.
An aid to attaining this pH window is to use a volume of NaOH equal of half the volume Cell-Tak solutions.

!☢☢☢ Prepare plate PROBES ☢☢☢:

Ⓐ Ⓑ Ⓒ Ⓓ Ⓔ Ⓕ Ⓖ Ⓗ Ⓘ Ⓙ 
Ⓐ Ⓑ Ⓒ Ⓓ Ⓔ Ⓕ Ⓖ Ⓗ Ⓘ Ⓙ 
Ⓐ Ⓑ Ⓒ Ⓓ Ⓔ Ⓕ Ⓖ Ⓗ Ⓘ Ⓙ 
Ⓐ Ⓑ Ⓒ Ⓓ Ⓔ Ⓕ Ⓖ Ⓗ Ⓘ Ⓙ 
Ⓐ Ⓑ Ⓒ Ⓓ Ⓔ Ⓕ Ⓖ Ⓗ Ⓘ Ⓙ 

//line Ⓐ is Hoechst solution, Ⓑ Antimycin-A + mito SOX, line Ⓒ mito SOX, Ⓓ line H~~2~~O~~2~~ , Ⓔ & Ⓕ line FITC Caspase-9 with Hoechst, Ⓖ TMRE MTG Hoechst, Ⓗ Omy CCCP TMRE MTG Hoechst, Ⓘ Omy CCCP , Ⓙ Antimycin-A//.

//Solutions can be aliquoted in wells or in PCR tubes - VWR 8 - clear flat strip caps # Cat no.: 83009-664; PCR-Tubes  # Cat no.: 20170-012; 

''Abbreviation'': ''SS'' Sol.Stock; ''SF'' Final Solution (Working Solution);  ''SI'' Solution Intermediare//. 

!!(A)  
- Pepare Prepare ''TUBE ^^Hoechst^^''  
(SS) [''1 µg/µL''] Hoechst 33342  Sol.Stock 
(SF) [''5 µg/mL''] Final Solution: 
add 50 µL (of 1 µg/µL stock) in 1 mL Buffer-BSA + 4 mL Buffer-BSA
- Aliquote 200 µL / well to the line ''Ⓐ''. 

!!(B) 
- Pepare [''5 mM''] MitoSox Stock Solution:  add 13 µL DMSO in original tube 50 µg. ^^[better version 100 µg MitoSox 10 mM for Final sol 50 µM]^^

- Prepare ''TUBE ^^A [25µM] MitoSOX^^'' :
add 13 µL (of 5 mM stock MitoSOX ) in 2600 µL buffer. Take 1/2 (1300 µL) to the next tube.

- Prepare ''TUBE ^^B [100µM]  Ant-A + [25µM] MitoSox^^'':
(SS) Stock Solution [''5 mM''] : Weigh 5.4 mg of Antimycin-A (Ant-A is hygroscopic Caution: Very toxic!!! Chemicals stored in the fridge or freezer should be allowed to reach room temperature before opening.) 
Add 2 ml ethanol 99.9%. Aliquote 200 µL (store at -20°C).
(Si) [''1 mM''] (1000 mM) add 200 µL of Sol Stok (5 mM) in 1 mL PBS
(SF) [''100 µM''] add 130 µL of  Antimicin-A Si (1 mM) in 1300 µL from TUBE ^^A^^.

- Aliqote 200 µL from Tube ^^B^^ to the line ''Ⓑ'' (Ant-A_mSOX). 
- Aliquote 200 µL from Tube ^^A^^ to the line ''Ⓒ'' (mSOX). 

//For later the ''Tube'' ^^C^^ {Ant-A} will be prepared at the step (H)//.

!!(C) 
- Prepare H~~2~~O~~2~~ (Hydrogen peroxide) 
(SS)  Stock Solution is [''9.79 M''] H~~2~~O~~2~~ (30%) MW:34.01
(Si) [''1 M''] (1000 mM) add 100 µL (of 30%) in 1 mL H2O
(Sii) [''100 mM''] add 100 µL  (of 1M) in 1 mL H2O
(SF) [''500 µM''] add 13 µL (of 100 mM) in 1300 µL MC  
Aliquote 200 µL from ''Tube'' ^^{H~~2~~O~~2~~}^^  to the line ''Ⓓ''.

!!(D)
- Prepare ''Tube'' {^^FITC~H^^} 
Take FITC-LEHD-FMK aliquoted 7 µL from BioVision (store at -20°C in the dark) and dilute in 2000 µL MC. 
and add 10 µL of Hoechst.
Aliquote 200 µL from ''Tube'' {^^FITC~H^^} to the line ''Ⓔ'' . 
Aliquote 200 µL from ''Tube'' {^^FITC~H^^} to the line ''Ⓕ''. 

!!(E) TMRE_MTG_H

- Prepare  ''Tube'' ^^1^^ (10 mL) {TMRE~MTG~Hoechst} for line ''Ⓖ'':

''TMRE'' 
(SS) [''1 mM''] Stock Solution: 2.5748 miligrams dilute in 5 mL ethanol 100% (store at -20°C in the dark)
(Si) [''100 µM''] Intermediate Solution: 5 µL stock dilute in 50 µL ethanol 100%
(SF) [''200 nM''] Final Solution: ''20'' µL Intermediate Solution dilute in 1+9 mL Buffer-BSA.
+
''(MTG) MitoTracker Green''  
(SS) [''1 mM''] MTG Stock Solution: 50 µg dilute in 74 µL DMSO ( alq. 2 µL and store at -20°C in the dark)
(SF) [''200 µM''] Final Solution: ''2'' µL stock dilute in 1+9 mL Buffer-BSA.
+
''(H)'' Hoechst 33342 
(SS) [''1 µg/µL''] Hoechst  Sol.Stock 
(SF) [''5 µg/mL''] Final Solution: ''50'' µL stock in 1+9 mL Buffer-BSA.

This means:
Tube ^^1^^  {TMRE~MTG~Hoechst} 
split it in half (keep 5 mL for  ''Tube'' ^^1^^ & 5 mL for ''Tube'' ^^2^^ with inhibitors).
Aliquote 200 µL from Tube ^^1^^ to the line ''Ⓖ''. 

!!(F) TMRE_MTG_H with inhibitors

- Prepare ''Tube'' ^^2^^ {Omy~CCCP~TMRE~MTG~Hoechst} for line ''Ⓗ'':

''Omy'' (Oligomycin):
(SS) [''100 mM''] Stock Solution: 0.00505 g disolve in 638.4 µL ethanol 100% and
alicote in 50 µL small eppendorf [store at -20°C].
(Si) [''1 mM''] Intermediate Solution: ''5'' µL stock dilute in 500 µL ethanol 100%
(SF) [''5 µM''] Final Solution: ''25'' µL in 5 mL mix Buffer-BSA. 
+
''CCCP'' (carbonyl cyanide protonophore of Δψm)  
(SS) [''50 mM''] Stock Solution: 10.231 miligrams in 1 mL DMSO [store at -20°C].
(Si) [''500 µM''] Intermediate Solution:   ''10'' µL Stock Solution dilute in 1000 µL Buffer-BSA
(SF) [''50 µM''] Final Solution: ''500'' µL Si dilute in 5 mL mix Buffer-BSA. 

This means:
''Tube'' ^^2^^ (Assay Buffer 5 mL) + 25 µL Omy (Si) + 500 µL CCCP (Si) + Hoechst + TMRE + MTG. Aliquote 200 µL from Tube ^^2^^ to the line ''Ⓗ''. 

!!(G)
 Prepare ''Tube'' ^^3^^ Assay Buffer 5 mL) + 25 µL Omy (Si) + 500 µL CCCP (Si).
⇉ {Omy~CCCP}. Aliquote 200 µL from ''Tube'' ^^3^^ to the line ''Ⓘ''.

!!(H)
- Prepare ''TUBE'' ^^C^^ {~Antimicin A} add 130 µL (of 1mM Antimicin -A stock) in 1300 µL Buffer-BSA.
- Aliquote 200 µL from Tube ^^C^^ to the line ''Ⓙ''.

!◙◙◙ PROCEDURE ◙◙◙

Open TECAN Safire and Magelan V7.2 software.
Rezerve time for mashine. Set at 30°C.
Set Temperature Control/ Temperature Control On / Target temperature 30°C. / Apply / OK .

//add Cells at 150 000 / well,  max 250 000.
0.150 x 41w= 6,15 Mil. in 8200 µL MC//
Use pipette reservoir for homogen disperising.

A | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ 
B | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑  
C | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑   
D | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑   
E | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑  


fix PIPPETE MULTICHANELL VOLUME  at ''200 µL''.  

!!STEP (I) for bloc ➊ ➋ ➌

''(1)'' with 5 tips aspire and add Hoechst solution from ''Ⓐ'' to the line ''➊'' 
[window time runing for ➊ ➋ ➌ is 40 min].
{⇉ note time to the line (15)}.
|cssClass|k
|!Time 0|! Time Final|h
|_:_ | ''➩''_:_ |

''(2)'' aspire and add sol. from the line ''Ⓑ'' {mitoSOX~Ant-A} to the line ➋.

''(3)'' aspire and add sol. from the line ''Ⓒ'' {mitoSOX} to the line ''➌''.

''(4)'' aspire and add sol. {H~~2~~O~~2~~} from the line ''Ⓓ'' to the line ''➍''.

''(5)'' incubate 5 min at 37°C in dark.
|cssClass|k
|!Chronometer|! T|h
|5:00 |☒ ☐ |

!!STEP (II) for bloc ➍ ➎ 

''(6)'' wash line ➍ three times.

''(7)'' add sol. {FITC^^~H^^} 
from the line ''Ⓔ''  to the line ''➍''  
for induce apoptosis [time incubation 60 min].
{⇉ note time to the line (22)}
|cssClass|k
|!Time 0|! Time Final|h
|_:_ |''➩''_:_  |

''(8)'' aspire line ➎ and add sol. {FITC^^~H^^} 
from the line ''Ⓕ'' to the line ''➎'' Sample.


!!STEP (III) for bloc ➏ ➐

''(9)'' aspire line ➏ and add sol {TMRE~MTG~Hoechst} 
from the line ''Ⓖ'' Tube ^^1^^ to the line ''➏''. 

''(10)'' aspire line ➐ and add sol. {Omy~CCCP~TMRE~MTG~Hoechst} 
from the line ''Ⓗ'' Tube ^^2 inhibitors^^ to the line ''➐''.

''(11)'' incubate both 20 min at 37°C in dark.

|cssClass|k
|!Chronometer|! T|h
|20:00 |☒ ☐ |

!!STEP (IV) for bloc ➏ ➐

''(12)'' wash once both line ▔➏ and line ➐▁    

''(13)'' add sol.{Omy CCCP} inhibitors 
from the line ''Ⓘ'' Tube ^^3^^ again to the line ''➐''.

''(14)'' add sol. buffer to the line ''➏''. 

!!STEP (V) for bloc  ➊ ➋ ➌

''(15)'' after 40 minutes wash line  ➊ ▔➋ ➌▁

''(16)'' add sol. {~Antimicin A} TUBE ^^C^^ 
from the line ''Ⓙ'' to line ''➋''. 

''(17)'' add sol. buffer to the line ''➊'' and ''➌''.


!!STEP (VI) PRIME SCAN for Potential 

//Read the plate on a fluorescence plate reader with settings suitable for: 
Select: ''fluoresecence'', wells number ''A1-E8'', ''bottom'' and specific  ''gain'' (manual)// Plate definition file: Costar  96-well  flat bottom  black (Cos96fb.pdf) Excitation bandwidth: 5.0 nm Number of flashes: 10
Lag time: 10 µs Integration time: 500 µs
//Save excell file as Scan ^^1^^ for TMRE, Scan^^2^^ for MTG, Scan^^etc^^//

''(18)'' Scan ^^1^^ TMRE 
 (Ex: 549 nm, Em: 575 nm), [Gain: (129) opt 210] "for  line ▔6 7▁"

''(19)'' Scan ^^2^^ MTG
 (Ex: 490 nm, Em: 516 nm), [Gain:(120) 160] "for line 6 7"

''(20)'' Scan ^^3^^ Hoechst  
(Ex: 354nm, Em: 442nm) [Gain: (100) 110] "for line 6 7" & "line 1"

''(21)'' Scan ^^4^^ MitoSOX^^40min^^ 
(Ex: 510 nm, Em: 580 nm) [Gain: 160] "for line ▔2 3▁"

!!STEP (VII) for bloc ➍ ➎ {FITC~H} after 60 minutes at 37°C in dark.

|!Time 0|! Time Final|h
|_:_ |''➩''_:_  |

''(22)'' wash line ▔➍ and ➎▁

''(23)'' add sol. buffer to the line ➍ and ➎

''(24)'' Scan ^^5^^ FITC
(Ex: 485nm, Em: 535nm) [Gain: (115) 190] "for line ▔4 5▁"

''(25)'' Scan ^^6^^ Hoechst ^^60min^^ 
(Ex: 354nm, Em: 442nm) [Gain: (100) 100] "for line 4 5"


!!★★★Preparation of★★★:

!Assay Buffer work also with PBS  {Multicell Cat.No.: # 311-011-CL} + (0.2%) BSA
Gibco DPBS [-] Ca [-] Mg {Gibco Cat.No.: # 14190-144 }
or 
{Buffer-BSA} for 200 mL pH 7.4 (with 1N KOH):
''[I]'' (80 mM) NaCl [FM:58.44] 0.93504 g {Fisher #S2713} ''S'' //(Sodium chloride)//
''[II]'' (75 mM) KCl [FM:74.55] 1.118 g {Sigma #P-4504} ''P'' //(Potasium chloride)//
''[III]'' (25 mM) D-glucose [FM:180.16] 0.9008 g {Sigma # 158968-500G} ''G''
''[IV]'' (25 mM) HEPES [FM:238.30] 1.1915 g {Sigma #H3375-250G} ''H''
filter 0.20 µm {Milpore  #83.1826.001} alicot in red tubes 50mL [-4°C] 
''[V]'' (0.2%) fresh BSA [from -4°C] 0.100 g in 50 mL Buffer 
or 2500 µL BSA MACS in 50 mL RPMI no fenol
(powder weighed before and distributed in eppendorf ready to use).

![0.1 M] Bicarbonate (NaHCO3) ''B''
Fisher Sci. # Cat.No: S233-500; Concentration = 0.1 M Formula Weight = 84.01 Vol.= 47 mL; Mass = 394 mg = 0.394 g pH 8.0 Filter-sterilise the buffer.

![1 M] NaOH  ''S''
Fisher #BP 359-500 FW: 40.0 add 2g in 50 mL

''NOTE 1''
''[1]'' Caspase-9 fluorimetric assay kit (100 µL)
CaspGLOW fluorescein active caspase-9 (green)
{BioVision Incorporated # Cat. No : K118-100}  Milpitas CA, wwwbiovision.com. 

''[2]'' [H2O2 (Hydrogen peroxide) {Fisher Cat. No : # H325-500} 30 % (W/W) 9.79 Molar [MW H2O2: 34.01]

''[3]'' MitoSOX {Molecular Probe # Cat.No : M36008} www.lifetechnologies.com [MW MitoSOX: 759]

''[4]'' Antimycin A (Ant-A or AmA) from Streptomyces sp. {Sigma # Cat.No: A8674-100MG} [MW Ant-a: 548.63]

''[5]'' Hoechst 33342  {Sigma # Cat. No: B2261}  [MW Hoechst: 561.93]

''[6]'' Cell-Tak cell tissue adhesive {Corning # Cat. No: 354240, 354241}

''[7]'' Omy (Oligomycin)  {Sigma # Cat. No: O4876-5MG [O = from Oli...]} [MW Omy: 791]

''[8]'' CCCP  carbonyl cyanide {Sigma # Cat. No: C2759} [MW CCCP: 204.62] 
 
''[9]'' TMRE {Invitrogen/Molecular Probe # Cat. No: T669} [MW TMRE: 514.96]

''[10]'' MTG MitoTracker Green FM {Invitrogen/Molecular Probe # Cat. No:M-7514} [MW MTG: 671.9797]

''[11]'' PI Propidium Iodide - 1.0 mg ⁄ mL Solution in Water Invitrogen- lifetechnologies.com‎ Catalog number # P3566 4 - 8°C]

''[12]'' Plate Black  96 well optical Btm Plt Polymer Base Black w/Lid Cell Culture Sterile PS 10/Bag 0,4 mL Well 
{ThermoScientific Nunc (Fisher) # Cat. No: 165305 75} 
Panorama Creek Drive Rochester, NY 14625-2385 www.thermoscientific.com

''[13]'' RPMI (l640) {Multicell # Cat. No: 358-007-CL}  


http://htslabs.com/   
Optimum Growth™  Flask, Wave® Bags (5L & 10L). Part # 931116 
Formatage text
http://tiddlywiki.org/#Markup
|cssClass|k

^^Version II Experience appoptosis detection for Caspase-9 {PI ~ LEHD-AFC}
Caspase-9 fluorimetric assay kit (# K118-100) BioVision Incorporated Milpitas CA, wwwbiovision.com. Ac-LEHD-AFC is a membrane permeable fluorogenic substrate that can be cleaved by caspase that recognize the amino acid sequence LEHD. The cleavage of the peptide by the caspase releases the AFC that, (free AFC after cleavage) when excited by light at 400 nm wavelength, emits fluorescence at 505 nm. The level of caspase enzymatic activity in the cell lysate is directly proportional to the fluorescence signal detected with a fluorescent microplate reader. Abreviation: [Ac-LEHD-AFC = N-Acetyl-Leu-Glu-His-Asp-7-amino-4-trifluoromethylcoumarin]. AFC = 7-amino-4-trifluoromethylcoumarin. SCAN PI (Ex: 535nm, Em: 617nm) Gain 149) SCAN LEHD-AFC ( Ex: 400nm, Em: 505nm) Gain 100). Fold-increase in Caspase-9 activity can be determined by comparing these results with the level of the uninduced control. Free AFC emits a yellow-green fluorescence (λmax = 505 nm).^^ 
       
''Magellan Step by Step'':
''(1)'' Open/ etc

''◙◙◙ Label to print ◙◙◙:''
''1'' →Ⓐ 
Tube ^^~Hoechst^^
☒ 5 mL Buffer
☐ 50 µL Hoechst (SS)

''2'' →Ⓒ 
Tube^^~A^^
☒ 2600 µL Buffer
☐ 13 µL MitoSOX (SS)
☐ 13 µL MitoSOX (SS)

''3'' →Ⓑ
Tube ^^~B^^
☒ 1300 µL Sol from Tube " ^^~A^^
☐ 130 µL of 1mM Ant - A (SS)

''4'' →Ⓙ 
Tube ^^~C^^
☒ 1300 µL Buffer
☐ 130 µL of 1mM Ant - A (SS)

''5A''
Tube Si [1 M] ^^~H~~2~~O~~2~~ ^^
☒ 1000 µL H~~2~~O
☐ 100 µL of 9.79 M perox 

''5B''
Tube Sii [100 mM] ^^~H~~2~~O~~2~~ ^^
☒ 1000 µL H~~2~~O
☐ 100 µL of 1 M perox  

''5C'' →Ⓓ
Tube Siii [500 µM] ^^~H~~2~~O~~2~~ ^^
☒ 1300 µL MC
☐ 13 µL of 100 mM perox 

''6'' → Ⓔ & Ⓕ
Tube ^^FITC~~LEHD-FMK~~ Hoechst^^
☒ 2000 µL MC
☐ 7 µL of FITC-LEHD-FMK
☐ 10 µL of Hoechst

''7''
Tube [100 µM] ''TMRE'' ^^~~Si~~^^
☒ 50 µL ethanol 100%
☐ 5 µL of [1 mM] Stock TMRE 

''8'' → Tube ''2'' →Ⓖ and  
Tube ''1'' ^^~~[200 nM]TMRE 
+ [200 µM]MTG~~+ [5 µg] Hoechst^^
☒ 1+9 mL mix Buffer
☐ 20 µL of [100 µM] Si TMRE 
☐ 2 µL [1 mM] SS MTG 
☐ 50 µL SS Hoechst 

''9''
Tube [1 mM] Si ^^~~Omy~~^^
☒ 500 µL ethanol 
☐ 5 µL of stock [100 mM] Omy

''10''
Tube [500 µM] Si ^^~~CCCP~~^^
☒ 1000 µL Buffer 
☐ 10 µL of stock [50 mM] CCCP

''11'' →Ⓗ
Tube ''2'' ^^~~TMRE + MTG + Hoechst 
+ [5 µM]Omy + [50 µM]CCCP~~^^
☒ 5 mL mix Tube ''2'' 
☐ 25 µL of  [1 mM] Si Omy
☐ 500 µL of [500 µM] Si CCCP

''12'' →Ⓘ 
Tube  ''3'' ^^~~[5 µM] Omy + [50 µM] CCCP~~^^
☒ 5 mL mix Buffer
☐ 25 µL of  [1 mM] Si Omy
☐ 500 µL of [500 µM] Si CCCP
◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙
END PROTOCOL

/***
|''Name''|TiddlySpaceToolbar|
|''Description''|augments tiddler toolbar commands with SVG icons|
|''Author''|Osmosoft|
|''Version''|0.6.6|
|''Status''|@@beta@@|
|''Source''|http://github.com/TiddlySpace/tiddlyspace/raw/master/src/plugins/TiddlySpaceToolbar.js|
|''CodeRepository''|http://github.com/TiddlySpace/tiddlyspace|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
|''CoreVersion''|2.5.0|
|''Requires''|ImageMacroPlugin|
|''Keywords''|toolbar icons SVG|
!Description
replaces tiddler toolbar commands with SVG icons if available
!Notes
requires [[ImageMacroPlugin|http://svn.tiddlywiki.org/Trunk/contributors/JonRobson/plugins/ImageMacroPlugin/plugins/ImageMacroPlugin.tid]]

SVG icons are drawn from tiddlers titled {{{<command>.svg}}}
In readonly mode a tiddler called {{{<command>ReadOnly.svg}}} will be used if it exists.
!TODO
* rename (IconToolbarPlugin?)
* support more than one more popup menu in the toolbar.
!Code
***/
//{{{
(function($) {

if(!config.macros.image) {
	throw "Missing dependency: ImageMacroPlugin";
}

var macro = config.macros.toolbar;

macro.icons = {
	cloneTiddler: "editTiddler"
};

var _handler = macro.handler;
macro.handler = function(place, macroName, params, wikifier,
		paramString, tiddler) {
	var toolbar = $(place);
	toolbar.attr({
		refresh: "macro",
		macroName: macroName
	}).data("args", arguments);
	var status = _handler.apply(this, arguments);
	if(tiddler.isReadOnly()) {
		toolbar.addClass("toolbarReadOnly");
	} else {
		toolbar.removeClass("toolbarReadOnly");
	}
	var parsedParams = paramString.parseParams("name")[0];
	if(parsedParams.icons && parsedParams.icons == "yes") {
		this.augmentCommandButtons(place);
	}
	if(parsedParams.more && parsedParams.more == "popup") {
		// note we must override the onclick event like in createTiddlyButton
		// otherwise the click event is the popup AND the slider
		$(".moreCommand", place).each(function(i, el) {
			el.onclick = macro.onClickMorePopUp;
		});
		// buttons that are after a less command should not be in more menu.
		$(".lessCommand ~ .button", place).appendTo(place);
		$(".lessCommand", place).remove();
	}
	return status;
};

macro.refresh = function(place, params) {
	var args = $(place).empty().data("args");
	this.handler.apply(this, args);
};

var imageMacro = config.macros.image;
macro.augmentCommandButtons = function(toolbar) {
	$(".button", toolbar).each(function(i, el) {
		var cmd = $(el).attr("commandname");
		cmd = cmd ? cmd : "moreCommand"; // XXX: special-casing of moreCommand due to ticket #1234
		var icon = store.tiddlerExists(cmd) ? cmd : macro.icons[cmd];
		var text = $(el).text();
		if(readOnly) {
			var readOnlyAlternative = "%0ReadOnly".format([icon]);
			if(store.tiddlerExists(readOnlyAlternative)) {
				icon = readOnlyAlternative;
			}
		}
		if(store.tiddlerExists(icon)) {
			$(el).css({display: "inline-block"}).empty();
			imageMacro.renderImage(el, icon, { alt: text });
		}
	});
};

// provide onClickMore to provide extra commands in a popup
macro.onClickMorePopUp = function(ev) {
	ev = ev || window.event;
	var sibling = this.nextSibling;
	if(sibling) {
		var commands = sibling.childNodes;
		var popup = Popup.create(this);
		$(popup).addClass("taggedTiddlerList");
		for(var i = 0; i < commands.length; i++) {
			var li = createTiddlyElement(popup, "li", null);
			var oldCommand = commands[i];
			var command = oldCommand.cloneNode(true);
			command.onclick = oldCommand.onclick;
			li.appendChild(command);
		}
		Popup.show();
	}
	ev.cancelBubble = true;
	if(ev.stopPropagation) {
		ev.stopPropagation();
	}
	return false;
};

})(jQuery);
//}}}

/***
|''Name''|TiddlySpaceSearcher|
|''Version''|0.2.5|
|''Requires''|TiddlySpaceConfig TiddlySpaceFollowingPlugin|
***/
//{{{
(function($) {
var tiddlyspace = config.extensions.tiddlyspace;
var tsScan = config.macros.tsScan;

config.shadowTiddlers.SearchTemplate = "<<view server.bag SiteIcon label:no width:24 height:24 preserveAspectRatio:yes>> <<view server.bag spaceLink title external:no>> in space <<view server.bag spaceLink>>";
config.shadowTiddlers.StyleSheetSearch = [".resultsArea .siteIcon { display: inline; }",
	".searchForm {text-align: left;}"].join("\n");
store.addNotification("StyleSheetSearch", refreshStyles);

var search = config.macros.tsSearch = {
	locale: {
		advanced: "Advanced Options",
		header: "Search",
		resultsHeader: "Results (%0)",
		find: "find",
		noResults: "No tiddlers matched your search query",
		query: "QUERY: ",
		error: "please provide a search query or a tag, modifier or title!",
		titleAdvanced: "where the title is",
		modifierAdvanced: "where the last modifier is",
		spaceAdvanced: "only in the space: ",
		notspaceAdvanced: "but not in the spaces: ",
		tagsAdvanced: "with the tags: "
	},
	andConstructor: function(container, label, fieldname, negationMode) {
		var tags = $("<div />").appendTo(container);
		$('<span />').text(label).appendTo(tags);
		var id = "area" + Math.random();
		container = $("<span />").attr("id", id).appendTo(tags)[0];
		function add(container) {
			var el = $('<input type="text" />').attr("field", fieldname).appendTo(container);
			if(negationMode) {
				el.attr("negation", "true");
			}
		}
		add(container);
		var el = $("<button />").text("AND").click(function(ev) {
			add($(ev.target).data("container"));
			ev.preventDefault();
		}).appendTo(tags);
		$(el).data("container", container);
	},
	fieldConstructor: function(container, label, field) {
		container = $("<div />").appendTo(container)[0];
		$("<span />").text(label).appendTo(container);
		$("<input />").attr("text", "input").attr("field", field).appendTo(container);
	},
	advancedOptions: function(form) {
		var locale = search.locale;
		var container = $("<div />").addClass("tsAdvancedOptions").appendTo(form)[0];
		$("<h2/ >").text(search.locale.advanced).appendTo(container);
		$("<div />").addClass("separator").appendTo(container);
		search.fieldConstructor(container, locale.titleAdvanced, "title");
		search.fieldConstructor(container, locale.modifierAdvanced, "modifier");
		search.fieldConstructor(container, locale.spaceAdvanced, "space");
		search.andConstructor(container, locale.notspaceAdvanced, "space", true);
		search.andConstructor(container, locale.tagsAdvanced, "tag");
	},
	constructSearchQuery: function(form) {
		var data = [], select = [];
		var query = $("[name=q]", form).val();
		if(query) {
			data.push("q=%0".format(query));
		}

		// add tags, fields etc..
		$("[field]", form).each(function(i, el) {
			var val = $(el).val();
			var name = $(el).attr("field");
			var negate = $(el).attr("negation") == "true";
			if(val && name) {
				val = encodeURIComponent(val);
				val = negate ? "!" + val : val;
				if(name == "space") {
					val += "_public";
					name = "bag";
				}
				if(negate) {
					select.push("select=%0:%1".format(name,val));
				} else {
					var prefix = data.length === 0 ? "q=" : "";
					data.push('%0%1:"%2"'.format(prefix, name, val));
				}
			}
		});
		var dataString = data.join(" ");
		if(dataString.length === 0 && !query) {
			return false;
		}
		var selectStatement = select.join("&");
		if(dataString.length > 0 && selectStatement.length > 0) {
			dataString += "&";
		}
		dataString += selectStatement;
		return "/search?%0".format(dataString);
	},
	constructForm: function(place) {
		var locale = search.locale;
		$("<h1 />").text(locale.header).appendTo(place);
		var form = $("<form />").appendTo(place)[0];
		$('<input type="text" name="q" />').appendTo(form);
		$('<input type="submit" />').val(locale.find).appendTo(form);
		search.advancedOptions(form);
		var query = $('<h2 class="query"/>').appendTo(place)[0];
		var results = $("<div />").appendTo(place).addClass("resultsArea")[0];
		var lookup = function(url) {
			if(!url) {
				results.empty().addClass("error").text(locale.error);
				return;
			}
			config.extensions.tiddlyweb.getStatus(function(status) {
				$(query).text(locale.query);
				var href = status.server_host.url + url;
				$("<a />").attr("href", href).text(href).appendTo(query);
				tsScan.scan(results, { url: url, emptyMessage: search.locale.noResults, cache: true,
					template: "SearchTemplate", sort: "title", callback: function(tiddlers) {
						$("<h2 />").text(locale.resultsHeader.format(tiddlers.length)).prependTo(results);
					}
				});
			});
		};
		$(form).submit(function(ev) {
			ev.preventDefault();
			var url = search.constructSearchQuery(form);
			config.macros.tsSearch.lastSearch = url;
			lookup(url);
		});
		if(search.lastSearch) {
			lookup(search.lastSearch);
		}
		return form;
	},
	handler: function(place) {
		var container = $("<div />").addClass("searchForm").appendTo(place)[0];
		search.constructForm(container);
	}
};

})(jQuery);
//}}}

https://www.researchgate.net/post/Can_anyone_suggest_alternatives_for_ethidium_bromide_in_terms_of_a_non-toxic_DNA_staining_dye

Click the "new tiddler" button towards the top right of the screen to write something in your space. You'll need to give it a title, some content and, optionally, some tags that will help you identify it later.

!Stuck for ideas?
Not sure what to write about? Not sure what to keep in your space? Other people use ~TiddlySpace for almost anything. How about some of the following:

* [[Save interesting sites|http://bookmarks.tiddlyspace.com]], images or articles from around the web so that you can refer back to them.
* [[Record your family tree|http://familytree.tiddlyspace.com]], store notes on long lost relatives or ancestors and map their relationship to you.
* [[Make up a pocketbook|http://pocketbook.tiddlyspace.com]] to store some useful information in, then print it out, [[fold it up|http://www.pocketmod.com/]], and take it with you.
* [[Plan your holiday|http://the-web-is-your-oyster.tiddlyspace.com/]], record where you're planning to go, note down places of interest and refer back to it later.
* [[Create a mindmap|http://mindmaps.tiddlyspace.com/]] to visualise your inner thoughts and see how they relate to each other.
* [[Set up a questionnaire|http://questionnaire.tiddlyspace.com/]] and get all your friends to answer it.

If you don't like any of those ideas, you can still use this space directly to keep notes and link them together, make a todo list and keep track of everything you're doing, or any one of a hundred million other things.

Still stuck? Check out the @featured space for more suggestions.

You can also [[socialise with others|How to socialise]].

!! FIRST PART
''Day 1: Preparation of hearts''
with Worthington Biochemical Corp. Lakewood, NJ) kit Cedarlane Cat. No # LK003300 The Worthington Neonatal Cardiomyocyte Isolation System. Pet age ''1-3'' max ''4'' days:
^^NOTE1^^ Serie nr.02_(d''6'') × [8] +  (d''3'') × [3] - 7jan2016.
⓪ Transfer approximately 30 mL HBSS in a sterile Tube50mL on ice.
//The mice are anesthetized on ice for a few minutes before decapitation//.
① The mice killed by cutting the head. The hearts are placed in one PetriØ35mm with HBSS, on ice.
② Hearts are washed with HBSS by transfer in another PetriØ35mm with HBSS, on ice.
③ Transfer to a sterile PetriØ100mm.
④ With scissors or razor blade, chop the hearts [aprox. 3 - 4mm] in a volume of ''5'' mL HBSS.
⑤ Reconstitute ❷ Trypsin - vial with 2 mL of HBSS on ice. Add ''2'' mL Trypsin in the Petri. 
⑥ Adjust volume → ''10'' mL final (full PetriØ35 or 60mm).
⑦ Seal with parafilm and place at 4 °C over night (16-20 h) in fridge.

''Day 2 of Isolation:'' 
Heat MC DMEM medium and prepare 37 °C bath with movement.
⑧ Transfer the contents (10 mL) of Petri in new Tube50mL on ice.
⑨ Reconstitute vial ❸-Trypsin Inhibitor  with ''1'' mL HBSS on ice.
⑩ Add toTube50mL.
⑪ Oxygenate the tissue for max. ''60'' sec, in surface.
⑫ Place in a the bath at 37 °C for ''10'' min.
⑬ Reconstitute vial ❹-collagenase with ''5'' mL L15Medium.
⑭ Add to Tube50mL. Ensure the cap with the ParaFilm, protect from light with aluminum.
⑮ Place the tube horizontally in an incubator at 37 °C with low movement (⇄ 81 mpm) for ''45'' minutes.
⑯ Back under the hood. Triturate with Pipette10mL approximately 10 × as gently as possible. Avoid bubble formation.
⑰ Rinse cell filter (70 microns) with 1mL L15Medium (moisten filter).
⑱ Filter the contents.
⑲ Rinse with 1mL all that remains in the filter. 
⑳ Allow cells to settle for ''20'' min. Moisten Milteny filter (30 microns) with buffer before use. Pass cells through 30 μm nylon mesh (Pre-Separation Filters, # 130-041-407) to remove cell clumps which may clog the Milteny column. 
㉑ Centrifuge ''7'' min at ''1400'' rpm (300 rcf × g). Aspirate supernatant completely.

!! SECOND PART MAGNETIC ISOLATION of Sca-1^^+^^/CD31^^–^^ cells
A distinct cardiac progenitor cell population, capable of differentiation into mature cardiomyocytes using Cardiac Progenitor Isolation Kit (Sca-1) for mouse, from Miltenyi Biotec Inc. Cat. No #  130-098-374.
Ⓐ & Ⓑ Depletion of CD31^^+^^ cells using an LS Column.
Ⓒ Positive selection of Sca-1^^+^^ cells using two MS Columns.

!!! CD31 - prepare QuadroMACS, prepare LS column by rinsing with 3 mL of buffer

Ⓐ ''CD31-Biotin Attachment''.
Resuspend cell pellet in ''250'' μL of MACS-BSA Buffer.
Add ''25'' μL of CD31-Biotin, mix well and incubate for ''10'' minutes in the refrigerator
(2−8 °C).
Wash cells by adding ''1'' mL of buffer and centrifuge at ''1400'' rpm (300 × g) for ''7'' minutes. Aspirate supernatant completely.

Ⓐ ''Biotin Beads Attachment''.
Resuspend cell pellet in ''200'' μL of MACS-BSA Buffer.
Add ''50'' μL of Anti-Biotin MicroBeads, mix well and incubate for ''15'' minutes in the refrigerator (2−8 °C).
Resuspend cells in ''500'' μL of buffer.

Ⓑ ''Depletion of CD31^^+^^ cells using an LS Column''.
Apply cell suspension onto the column. Collect unlabeled cardiac cells 
wash column with 3 × 3 mL of buffer, add new buffer only when the column reservoir is empty. Collect total effluent. This is the cardiac CD31^^-^^ ❤ cell fraction. 

For collection of CD31^^+^^: Remove column from the separator and place it on a suitable collection tube, pipette ''5'' mL of buffer onto the column. Immediately flush out
the magnetically labeled cells by firmly pushing the plunger into the column. This is the endothelial rich CD31^^+^^ cell fraction.

!!! Sca-1 prepare OctoMACS prepare MS column by rinsing with 500 μL of buffer

Ⓒ Positive selection of Sca-1^^+^^ cells using two MS Columns.
Centrifuge the cardiac CD31^^-^^ ❤ cell fraction ''7'' min at ''1400'' rpm (300 rcf × g). Aspirate supernatant completely.
Resuspend cell pellet in ''225'' μL of MACS-BSA Buffer.
Add ''25'' μL of  Anti-Sca-1 MicroBeads, mix well and incubate for ''15'' minutes in the refrigerator (2−8 °C). Wash cells by adding ''1'' mL of buffer and centrifuge at ''1400'' rpm (300 × g) for ''7'' minutes. Aspirate supernatant completely. Resuspend cells in ''500'' μL of buffer.
Apply cell suspension onto the MS column. Collect flow-through containing cardiac cells.
Wash column with 3 × 500 μL of buffer. Collect unlabeled cardiac cells that pass through and combine with the effluent.

For collection of Sca-1^^+^^: Remove column from the separator and place it on a suitable collection tube, pipette ''1'' mL of buffer onto the column. Immediately flush out
the magnetically labeled cells by firmly pushing the plunger into the column. This is the progenitor rich Sca-1^^+^^  cell fraction. To increase purity of Sca-1^^+^^ cells, the eluted fraction must be enriched over a second MS Column. Repeat the magnetic separation procedure.

Seed isolated the cells in best optic microscopy dishes in DMEM low glucose Multicel Cat. No # 319 010 CL, 10% FBS 1% P/S.: 
Poly-L-Lysine treated Nunc® Lab-Tek™ chamber slide™ No. of chambers 4, working volume 0.5–1.0 mL, well area 1.7 cm2, Cat. No # 177399, or MatTek glass bottom microwell dishes Cat. No # P35GC-1.0-14-C.

 ^^NOTE2^^ The recommended incubation temperature is 2–8 °C in the frigo, not ice. Work fast, keep cells cold, and use pre-cooled solutions. Use usual MACS-BSA Buffer: PBS pH 7.2, 2 mM EDTA, 0.5% bovine serum albumin. Buffers or media containing Ca^^2+^^ or Mg^^2+^^ are not recommended for use. Keep buffer cold (2−8 °C). Degas buffer before use, as air bubbles could block the column. Volumes for magnetic labeling given below are for 287 mg dissociated mouse heart (original µL × 2.5). The majority of Sca-1^^+^^ cells in the adult mouse heart co-express the endothelial marker CD31.
The cardiac adult human cariomyocyte that is approximately 25 μ in diameter and about 100 μ in length. Neonatal Mouse Cardiac Myocytes Length, 34-43.7 μm width 9.3 -11.2 μm (Circulation Research. 2000; 87: 467-473)

!! THIRD  PART
㉒ ''FIRST'' ATTACHMENT: Resuspend pellet in DMEM LOW GLUCOSE 10% FBS 1% P/S. Transfer in second Pétri.
㉓ Incubate ''30'' min at 37 °C.
㉔ ''SECOND'' ATTACHMENT: Recover the supernatant and transfer to second Pétri series.
㉕ ''THIRD'' ATTACHMENT: Repeat for the third series to the LapTek. Adhesion may be Improved by fibronectin or collagen coating of the plastic.
㉘ Change ''24'' hours later DMEM medium to LOW GLUCOSE 10% FBSm 1% P/S.
㉙ Cells begin to beat irregularly on day ''3'' (✔), more stably on day ''4''.
㉚ Starvation 0.1% FBS is done on day 4 for 24 hours with an ideal confluence of 70 - 75%.
㉛ Experience at the day ''5 - ''.

/***
|''Name:''|TiddlySpaceLinkPlugin|
|''Description:''|Formatter to reference other spaces from wikitext |
|''Author:''|PaulDowney (psd (at) osmosoft (dot) com) |
|''Source:''|http://github.com/TiddlySpace/tiddlyspace/raw/master/src/plugins/TiddlySpaceLinkPlugin.js|
|''Version:''|1.4.2|
|''License:''|[[BSD License|http://www.opensource.org/licenses/bsd-license.php]] |
|''Comments:''|Please make comments at http://groups.google.co.uk/group/TiddlyWikiDev |
|''~CoreVersion:''|2.4|
!!Documentation
This plugin provides wikitext formatters for referencing another [[space|Space]] on the same TiddlySpace server, as in the following examples:
<<<
  {{{@space}}} -- @space 
  {{{~@space}}} -- ~@space 
  {{{Tiddler@space}}} -- Tiddler@space
  {{{[[Tiddler Title]]@space}}} -- [[Tiddler Title]]@space 
  {{{[[Link text|Tiddler Title]]@space}}} -- [[Link text|Tiddler Title]]@space
<<<
Links to tiddlers with a title begining with an "@" remain as tiddlyLinks:
<<<
  {{{[[@tiddler]]}}} -- [[@tiddler]]
<<<
and these may be changed into a space link using {{{@@}}}:
<<<
  {{{[[@@space]]}}} -- [[@@space]]
  {{{[[Link to an another space|@@space]]}}} -- [[Link to another space|@@space]]
  {{{[[@space|@@space]]}}} -- [[@space|@@space]]
<<<
TiddlySpace includes the [[TiddlySpaceLinkPlugin]] which provides WikiText markup for linking to other spaces on the same server. For example @glossary is a link to the {{{glossary}}} space and [[Small Trusted Group]]@glossary a link to an individual tiddler in the @glossary space. Prefixing the link with a tilde escapes the link, for example {{{~@space}}}.
Email addresses, for example joe.bloggs@example.com and mary@had.a.little.lamb.org should be unaffected.
!!Features
The plugin provides external links decorated so that other plugins may be included to add features such as the ability to dynamically pull externally linked tiddlers into the current TiddlyWiki.
Wikitext linking to a space on another server, for example from a tiddler in a space on tiddlyspace.com to a tiddler or a space on example.com, isn't currently supported. 
!!Code
***/
//{{{
/*jslint onevar: false nomen: false plusplus: false */
/*global jQuery config createTiddlyText createExternalLink createTiddlyLink */

function createSpaceLink(place, spaceName, title, alt, isBag) {
	var link, a, currentSpaceName, label;
	try {
		if (spaceName === config.extensions.tiddlyspace.currentSpace.name) {
			title = title || spaceName;
			a = createTiddlyLink(place, title, false);
			jQuery(a).text(alt || title);
			return a;
		}
	} catch (ex1) {
		currentSpaceName = false;
	}

	a = jQuery("<a />").addClass('tiddlySpaceLink externalLink').appendTo(place)[0];
	if(title) {
		jQuery(a).attr('tiddler', title);
	}
	if(isBag) {
		jQuery(a).attr('bag', spaceName);
	} else {
		jQuery(a).attr('tiddlyspace', spaceName);
	}

	config.extensions.tiddlyweb.getStatus(function(status) {
		link = status.server_host.url;
		if (title) {
			label = alt || title;
			link = link + "/" + encodeURIComponent(title);
		} else {
			label = alt || spaceName;
		}
		// assumes a http URI without user:pass@ prefix
		if(!isBag) {
			link = link.replace("http://", "http://" + spaceName.toLowerCase() + ".");
		} else {
			link += "/bags/" + spaceName + "/tiddlers.wiki";
		}
		jQuery(a).attr("href", link).text(label);
	});
	return a;
}

(function ($) {

	config.textPrimitives.spaceName = "[a-zA-Z][a-zA-Z0-9-]*[a-zA-Z0-9]";
	config.textPrimitives.spaceNameStrict = "[a-z][a-z0-9-]*";
	config.textPrimitives.bareTiddlerLetter = config.textPrimitives.anyLetterStrict;

	config.formatters.splice(0, 0, {
		name: "spacenameLink",
		match: config.textPrimitives.unWikiLink + "?" + config.textPrimitives.bareTiddlerLetter + "*@" + config.textPrimitives.spaceName + "\\.?.?",
		lookaheadRegExp: new RegExp(config.textPrimitives.unWikiLink + "?(" + config.textPrimitives.bareTiddlerLetter + "*)@(" + config.textPrimitives.spaceName + ")", "mg"),
		handler: function (w) {
			if (w.matchText.substr(w.matchText.length - 2, 1) === '.' && w.matchText.substr(w.matchText.length - 1, 1).match(/[a-zA-Z]/)) {
				w.outputText(w.output, w.matchStart, w.nextMatch);
				return;
			}
			if (w.matchText.substr(0, 1) === config.textPrimitives.unWikiLink) {
				w.outputText(w.output, w.matchStart + 1, w.nextMatch);
				return;
			}
			this.lookaheadRegExp.lastIndex = w.matchStart;
			var lookaheadMatch = this.lookaheadRegExp.exec(w.source);
			if (lookaheadMatch && lookaheadMatch.index === w.matchStart) {
				createSpaceLink(w.output, lookaheadMatch[2], lookaheadMatch[1]);
				w.nextMatch = this.lookaheadRegExp.lastIndex;
			}
		}
	},
	{
		name: "tiddlySpaceLink",
		match: "\\[\\[[^\\|\\]]*\\|*@@" + config.textPrimitives.spaceName + "\\]",
		lookaheadRegExp: new RegExp("\\[\\[(.*?)(?:\\|@@(.*?))?\\]\\]", "mg"),
		handler: function (w) {
			this.lookaheadRegExp.lastIndex = w.matchStart;
			var lookaheadMatch = this.lookaheadRegExp.exec(w.source);
			if (lookaheadMatch && lookaheadMatch.index === w.matchStart) {
				var alt = lookaheadMatch[2] ? lookaheadMatch[1] : lookaheadMatch[1].replace(/^@@/, "");
				var space = lookaheadMatch[2] || alt;
				createSpaceLink(w.output, space, "", alt);
				w.nextMatch = this.lookaheadRegExp.lastIndex;
			}
		}
	},
	{
		name: "tiddlyLinkSpacenameLink",
		match: "\\[\\[[^\\[]*\\]\\]@",
		lookaheadRegExp: new RegExp("\\[\\[(.*?)(?:\\|(.*?))?\\]\\]@(" + config.textPrimitives.spaceName + ")", "mg"),
		handler: function (w) {
			this.lookaheadRegExp.lastIndex = w.matchStart;
			var lookaheadMatch = this.lookaheadRegExp.exec(w.source);
			if (lookaheadMatch && lookaheadMatch.index === w.matchStart) {
				var title = lookaheadMatch[2] || lookaheadMatch[1];
				var alt = lookaheadMatch[1] || lookaheadMatch[2];
				createSpaceLink(w.output, lookaheadMatch[3], title, alt);
				w.nextMatch = this.lookaheadRegExp.lastIndex;
			}
		}
	});

	// ensure space links don't appear as missing links
	config.textPrimitives.brackettedLink = "\\[\\[([^\\]][^@\\]][^\\]]*)\\]\\](?=[^@])";
	config.textPrimitives.titledBrackettedLink = "\\[\\[([^\\[\\]\\|]+)\\|([^\\[\\]\\|]+)\\]\\](?=[^@])";

	// reevaluate derrived expressions ..
	config.textPrimitives.tiddlerForcedLinkRegExp = new RegExp("(?:" + config.textPrimitives.titledBrackettedLink + ")|(?:" +
		config.textPrimitives.brackettedLink + ")|(?:" +
		config.textPrimitives.urlPattern + ")","mg");
	config.textPrimitives.tiddlerAnyLinkRegExp = new RegExp("("+ config.textPrimitives.wikiLink + ")|(?:" +
		config.textPrimitives.titledBrackettedLink + ")|(?:" +
		config.textPrimitives.brackettedLink + ")|(?:" +
		config.textPrimitives.urlPattern + ")","mg");

	// treat space links in titledBracketedLink as external links
	var missingTiddlySpaceLink = new RegExp("^@@" + config.textPrimitives.spaceName + "$", "");
	var isExternalLink = config.formatterHelpers.isExternalLink;
	config.formatterHelpers.isExternalLink = function(link) {
		return missingTiddlySpaceLink.test(link) || isExternalLink(link);
	};

}(jQuery));
//}}}

<!--{{{-->
<div class='toolbar'
	macro='toolbar [[ToolbarCommands::EditToolbar]] icons:yes'>
</div>
<div class='heading editorHeading'>
	<div class='editor title' macro='edit title'></div>
	<div class='tagClear'></div>
</div>
<div class='annotationsBox' macro='annotations'>
	<div class='editSpaceSiteIcon'
		macro='tiddlerOrigin height:16 width:16 label:no interactive:no'>
	</div>
	<div class="privacyEdit" macro='setPrivacy label:no interactive:no'></div>
	<div class='tagClear'></div>
</div>
<div class='editor' macro='edit text'></div>
<div class='editorFooter'>
	<div class='tagTitle'>tags</div>
	<div class='editor' macro='edit tags'></div>
	<div class='tagAnnotation'>
		<span macro='message views.editor.tagPrompt'></span>
		<span macro='tagChooser excludeLists'></span>
	</div>
</div>
<!--}}}-->

/***
|''Name''|TiddlySpaceFilters|
|''Description''|provide TiddlySpace-specific filter extensions|
|''Author''|Jon Robson|
|''Version''|0.6.1|
|''Status''|@@beta@@|
|''CoreVersion''|2.6.2|
|''Requires''|TiddlySpaceConfig|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
!Usage
{{{
<<tsList Private>>
<<tsList Public>>
<<tsList Draft>>
}}}
!Code
***/
//{{{
(function($) {

var tiddlyspace = config.extensions.tiddlyspace;
var privateBag = tiddlyspace.getCurrentBag("private");
var publicBag = tiddlyspace.getCurrentBag("public");

config.filterHelpers = {
	is: {
		"private": function(tiddler) {
			var bag = tiddler.fields["server.bag"];
			return bag == privateBag;
		},
		"public": function(tiddler) {
			var bag = tiddler.fields["server.bag"];
			return bag == publicBag;
		},
		draft: function(tiddler) {
			var fields = tiddler.fields;
			var bag = fields["server.bag"];
			return (privateBag == bag && fields["publish.name"]) ? true : false;
		},
		local: function(tiddler) {
			return config.filterHelpers.is["public"](tiddler) ||
				config.filterHelpers.is["private"](tiddler);
		},
		unsynced: function(tiddler) {
			return tiddler ? tiddler.isTouched() : false;
		}
	}
};

config.filters.is = function(results, match) {
	var candidates = store.getTiddlers("title");
	var type = match[3];
	for (var i = 0; i < candidates.length; i++) {
		var tiddler = candidates[i];
		var helper = config.filterHelpers.is[type];
		if(helper && helper(tiddler)) {
			results.pushUnique(tiddler);
		}
	}
	return results;
};

})(jQuery);
//}}}

<svg xmlns="http://www.w3.org/2000/svg" xmlns:xl="http://www.w3.org/1999/xlink" version="1.1" viewBox="450 366 38 57"
width="30" height="30">
	<g stroke="none" stroke-opacity="1" stroke-dasharray="none" fill="none" fill-opacity="1">
		<g>
			<path d="M 452.1094 421.2422 L 450 421.2422 L 450 423 L 487.9688 423 L 487.9688 421.2422 L 485.8595 421.2422 
			L 485.8595 377.29688 L 487.9688 377.29688 L 487.9688 375.53906 L 485.8595 375.53906 
			C 485.8595 375.53906 481.12463 371.59341 473.02023 370.52802 C 472.6824 368.9689 471.72098 366.75 468.9844 366.75 
			C 466.24783 366.75 465.28638 368.9689 464.94864 370.52802 
			C 456.84418 371.59341 452.1094 375.53906 452.1094 375.53906 L 450 375.53906 L 450 377.29688 L 452.1094 377.29688 
			Z M 467.12247 370.32086 L 467.12247 370.32086 C 467.3805 369.42395 467.90762 368.50781 468.9844 368.50781 
			C 470.0612 368.50781 470.5883 369.42395 470.84634 370.32086 
			C 470.24136 370.2848 469.62054 370.26562 468.9844 370.26562 
			C 468.34827 370.26562 467.72748 370.2848 467.12247 370.32086 Z M 454.21875 420.92804 L 454.21875 420.92804 
			C 455.46762 420.42087 456.32816 419.35281 456.32816 418.11716 L 456.32816 377.29688 L 458.4375 377.29688 
			L 458.4375 421.2422 L 454.21875 421.2422 Z M 460.5469 420.92804 L 460.5469 420.92804 
			C 461.79578 420.42087 462.65625 419.35281 462.65625 418.11716 L 462.65625 377.29688 L 464.76566 377.29688 
			L 464.76566 421.2422 L 460.5469 421.2422 Z M 466.87503 420.92804 L 466.87503 420.92804 
			C 468.1239 420.42087 468.9844 419.35281 468.9844 418.11716 L 468.9844 377.29688 L 471.09378 377.29688 
			L 471.09378 421.2422 L 466.87503 421.2422 Z M 473.2032 420.92804 L 473.2032 420.92804 
			C 474.45203 420.42087 475.31256 419.35281 475.31256 418.11716 L 475.31256 377.29688 L 477.4219 377.29688 
			L 477.4219 421.2422 L 473.2032 421.2422 Z M 479.5313 420.92804 L 479.5313 420.92804 
			C 480.78018 420.42087 481.64066 419.35281 481.64066 418.11716 L 481.64066 377.29688 L 483.75006 377.29688 
			L 483.75006 421.2422 L 479.5313 421.2422 Z" fill="black" class="glyph"/>
		</g>
	</g>
</svg>

/***
|''Name''|RandomColorPalettePlugin|
|''Description''|Adds a random color palette to TiddlyWiki|
|''Author''|Jon Robson|
|''Version''|1.4.0|
|''Status''|stable|
|''Source''|https://github.com/jdlrobson/TiddlyWikiPlugins/raw/master/plugins/RandomColorPalettePlugin/RandomColorPalettePlugin.js|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
!Usage
{{{
<<RandomColorPalette>>
}}}
Sets and saves a random color palette on execution

{{{
<<RandomColorPaletteButton>>
}}}
Creates a button, which when clicked will change the color palette
More information at http://macros.tiddlyspace.com/#%5B%5BRandomColorPaletteButton%20macro%5D%5D
!Code
***/
//{{{
RGB.prototype.toRGBString = function() {
	return "rgb(%0,%1,%2)".format(parseInt(this.r * 255, 10),
		parseInt(this.g * 255, 10), parseInt(this.b * 255, 10))
}
function HSL_TO_RGB(h, s, l) { // h (hue) between 0 and 360, s (saturation) & l (lightness) between 0 and 1
	var c = l <= 0.5 ? 2 * l * s : ( 2 - (2 * l)) * s;
	var h1 = h / 60;
	var x = c * (1 - Math.abs((h1 % 2) - 1)); 
	var r, g, b;
	if(typeof(h) == 'undefined') {
		r = 0;
		g = 0;
		b = 0;
	} else if(0 <= h1 && h1 < 1) {
		r = c;
		g = x;
		b = 0;
	} else if(1 <= h1 && h1 < 2) {
		r = x;
		g = c;
		b = 0;
	} else if(2 <= h1 && h1 < 3) {
		r = 0;
		g = c;
		b = x;
	} else if(3 <= h1 && h1 < 4) {
		r = 0;
		g = x;
		b = c;
	} else if(4 <= h1 && h1 < 5) {
		r = x;
		g = 0;
		b = c;
	} else if(5 <= h1 && h1 < 6) {
		r = c;
		g = 0;
		b = x;
	}
	m = l - (0.5 * c);
	return new RGB(r + m, g + m, b + m);
}

(function($){
	var macro = config.macros.RandomColorPalette = {
		messagesOn: false, 
		changedPaletteText: "We have assigned you a random theme by adjusting the [[ColorPalette]] tiddler.\nDon't like it? Click <<RandomColorPalette>> for another one.", 
		handler: function(place, macroName, params, wikifier, paramString, tiddler) {
			paramString = paramString || "";
			var options = macro.getOptions(paramString);
			macro.generatePalette(options, true);
		},
		optionTypes: {
			floats: ["hue", "saturation", "darkest", "lightness", "huevariance", "dark", "pale", "light", "mid",
				"saturation_light", "saturation_pale", "saturation_mid", "saturation_dark"
			]
		},
		getOptions: function(paramString) {
			var args = paramString.parseParams("name", null, true, false, true)[0];
			var options = {};
			var numbers = macro.optionTypes.floats;
			for(var i in args) {
				options[i] = numbers.indexOf(i) > -1 ? parseFloat(args[i][0], 10) : args[i][0];
			}
			return options;
		},
		generateRandomNumber: function(min, max, info) {
			var num = (Math.random() * 1);
			info = !info ? { attempts:0 } : info;
			info.attempts += 1;
			var good = true;
			if(min == max) {
				return max;
			}
			if(min && num < min) {
				good = false;
			} else if(max && num > max) {
				good = false;
			}
			if(!good) {
				if(info.attempts < 5) {
					return macro.generateRandomNumber(min, max, info);
				} else {
					if(max) {
						return max;
					} else if(min) {
						return min;
					} else {
						return 1;
					}
				}
			}
			return num;
		},
		getExistingPalette: function(asJSON) {
			var title = "ColorPalette";
			var tiddlerText;
			if(store.tiddlerExists(title)) {
				tiddlerText = store.getTiddlerText(title);
			} else if(store.isShadowTiddler(title)){
				tiddlerText = config.shadowTiddlers[title];
			}
			if(asJSON) {
				var json = {};
				if(tiddlerText) {
					var lines = tiddlerText.split("\n");
					for(var i = 0; i < lines.length; i++) {
						var definition = lines[i].split(":");
						if(definition.length == 2) {
							var name = definition[0].trim();
							var value = definition[1].trim();
							json[name] = value;
						}
					}
				}
				return json;
			} else {
				return tiddlerText;
			}
		},
		generatePalette: function(options, save) {
			var outputRGB = options.rgb;
			var palette = macro.getExistingPalette(true);
			var hue = options.hue || Math.floor(Math.random() * 359);
			var saturation = options.saturation || macro.generateRandomNumber(0.3, 0.7);
			var dark = options.dark || options.darkest || macro.generateRandomNumber(0, 0.10);
			var pale = options.pale || options.lightness || macro.generateRandomNumber(0.90, 1);
			var delta = ( ( pale - dark ) / 3 );
			var mid = options.mid || dark + delta;
			var light = options.light || dark + (delta * 2);
			var lightness_values = {Dark: dark, Mid: mid, Light: light, Pale: pale};
			var saturation_values = {};
			for(i in lightness_values) {
				if(true) {
					saturation_values[i] = options["saturation_" + i.toLowerCase()] || saturation;
				}
			}

			var opposite_hue = (hue + 180) % 360;
			var seed = options.huevariance || Math.floor((85 * Math.random()) + 5); // we want it to be at least 5 degrees
			var huetwo = (opposite_hue + seed) % 360;
			var huethree = (opposite_hue - seed) % 360;
			if(huetwo < 0) {
				huetwo = 360 + huetwo;
			}
			if(huethree < 0) {
				huethree = 360 + huethree;
			}
			for(var j in lightness_values) {
				if(true) {
					var saturation = saturation_values[j];
					palette["Primary" + j] = HSL_TO_RGB(hue, saturation, lightness_values[j]);
					palette["Secondary" + j] = HSL_TO_RGB(huetwo, saturation, lightness_values[j]);
					palette["Tertiary" + j] = HSL_TO_RGB(huethree, saturation, lightness_values[j]);
				}
			}
			palette.Background = HSL_TO_RGB(hue, saturation, 0.92);
			palette.Foreground = HSL_TO_RGB(hue, saturation, 0.08);
			palette.ColorPaletteParameters = ["HSL([", hue, "|", seed, "], [", saturation_values.Pale, "|",
				saturation_values.Light, "|", saturation_values.Mid, "|", saturation_values.Dark, "],",
				"[", dark, "|", mid, "|", light, "|", pale, "])"].join("");
			// construct new ColorPalette
			var text = ["/*{{{*/\n"];
			var colorcode;
			for(var id in palette) {
				if(true) {
					var color = palette[id];
					colorcode = outputRGB ? color.toRGBString() : color.toString();
					text.push("%0: %1\n".format(id, colorcode));
				}
			}
			text.push("/*}}}*/");
			text = text.join("");
			if(save) {
				macro.saveColorPalette(text);
			}
			return text;
		},
		saveColorPalette: function(text) {
			var tid = store.getTiddler("ColorPalette");
			if(!tid) {
				tid = new Tiddler("ColorPalette");
				tid.fields = merge({}, config.defaultCustomFields);
			} // TODO: detect that the ColorPalette in the space comes from outside recipe
			tid.fields["server.page.revision"] = "false"; // edit conflicts dont matter

			// save the color palette in tid
			tid = store.saveTiddler(tid.title, tid.title, text, tid.modifier, tid.modified,
				tid.tags, tid.fields, false, tid.created, tid.creator);
			// an interval is used to cope with users clicking on the palette button quickly.
			if(macro._nextSave) {
				window.clearTimeout(macro._nextSave);
			}
			macro._nextSave = window.setTimeout(function() {
					autoSaveChanges(null, [tid]);
				}, 2000);
			// temporary workaround for IE.
			$.twStylesheet.remove({ id: "StyleSheetColors" });
			$.twStylesheet.remove({ id: "StyleSheet" });
			refreshAll();
			macro.reportChange();
			return tid;
		},
		reportChange: function() {
			if(macro.messagesOn) { // only display message once..
				var msgPlace = getMessageDiv();
				if(!$(".changedPalette", msgPlace)[0]) {
					var tempPlace = document.createElement("div");
					wikify("{{changedPalette{" + macro.changedPaletteText + "}}}", tempPlace);
					msgPlace.appendChild(tempPlace);
				}
			}
		}
	};
	var btnMacro = config.macros.RandomColorPaletteButton = {
			text: "New ColorPalette",
			tooltip: "Generate a random colour scheme for your TiddlyWiki",
			makeButton: function(place, options) {
				var btnHandler = function(ev) {
					var t = $(ev.target);
					var options = t.data("options");
					macro.generatePalette(options, true);
					ev.preventDefault();
					return false;
				};
				var btn = createTiddlyButton(place, this.text, this.tooltip, btnHandler);
				$(btn).data("options", options);
				return btn;
			},
			handler: function(place, macroName, params, wikifier, paramString, tiddler) {
				var options = macro.getOptions(paramString);
				btnMacro.makeButton(place, options);
			}
	};
})(jQuery);
//}}}

<svg xmlns="http://www.w3.org/2000/svg" xmlns:xl="http://www.w3.org/1999/xlink" version="1.1" viewBox="78 222 60 60" 
width="30" height="30">
<g stroke="none" stroke-opacity="1" stroke-dasharray="none" fill="none" fill-opacity="1">
	<g>
		<path d="M 107.92718 244.14815 L 86.651474 222.89253 L 78.85206 230.69925 L 100.120415 251.9476 L 78.774 273.27396 
		L 86.57342 281.08075 L 107.927216 259.74707 L 129.39981 281.19946 L 137.19922 273.39267 L 115.73397 251.94763 
		L 137.121155 230.58054 L 129.32175 222.77374 Z" fill="black" class="glyph"/>
	</g>
</g>
</svg>

/***
|''Name''|TiddlyWebConfig|
|''Description''|configuration settings for TiddlyWebWiki|
|''Author''|FND|
|''Version''|1.3.2|
|''Status''|stable|
|''Source''|http://svn.tiddlywiki.org/Trunk/association/plugins/TiddlyWebConfig.js|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
|''Requires''|TiddlyWebAdaptor ServerSideSavingPlugin|
|''Keywords''|serverSide TiddlyWeb|
!Code
***/
//{{{
(function($) {

if(!config.extensions.ServerSideSavingPlugin) {
	throw "Missing dependency: ServerSideSavingPlugin";
}
if(!config.adaptors.tiddlyweb) {
	throw "Missing dependency: TiddlyWebAdaptor";
}

if(window.location.protocol != "file:") {
	config.options.chkAutoSave = true;
}

var adaptor = tiddler.getAdaptor();
var recipe = tiddler.fields["server.recipe"];
var workspace = recipe ? "recipes/" + recipe : "bags/common";

var plugin = config.extensions.tiddlyweb = {
	host: tiddler.fields["server.host"].replace(/\/$/, ""),
	username: null,
	status: {},

	getStatus: null, // assigned later
	getUserInfo: function(callback) {
		this.getStatus(function(status) {
			callback({
				name: plugin.username,
				anon: plugin.username ? plugin.username == "GUEST" : true
			});
		});
	},
	hasPermission: function(type, tiddler) {
		var perms = tiddler.fields["server.permissions"];
		if(perms) {
			return perms.split(", ").contains(type);
		} else {
			return true;
		}
	}
};

config.defaultCustomFields = {
	"server.type": tiddler.getServerType(),
	"server.host": plugin.host,
	"server.workspace": workspace
};

// modify toolbar commands

config.shadowTiddlers.ToolbarCommands = config.shadowTiddlers.ToolbarCommands.
	replace("syncing ", "revisions syncing ");

config.commands.saveTiddler.isEnabled = function(tiddler) {
	return plugin.hasPermission("write", tiddler) && !tiddler.isReadOnly();
};

config.commands.deleteTiddler.isEnabled = function(tiddler) {
	return !readOnly && plugin.hasPermission("delete", tiddler);
};

// hijack option macro to disable username editing
var _optionMacro = config.macros.option.handler;
config.macros.option.handler = function(place, macroName, params, wikifier,
		paramString) {
	if(params[0] == "txtUserName") {
		params[0] = "options." + params[0];
		var self = this;
		var args = arguments;
		args[0] = $("<span />").appendTo(place)[0];
		plugin.getUserInfo(function(user) {
			config.macros.message.handler.apply(self, args);
		});
	} else {
		_optionMacro.apply(this, arguments);
	}
};

// hijack isReadOnly to take into account permissions and content type
var _isReadOnly = Tiddler.prototype.isReadOnly;
Tiddler.prototype.isReadOnly = function() {
	return _isReadOnly.apply(this, arguments) ||
		!plugin.hasPermission("write", this);
};

var getStatus = function(callback) {
	if(plugin.status.version) {
		callback(plugin.status);
	} else {
		var self = getStatus;
		if(self.pending) {
			if(callback) {
				self.queue.push(callback);
			}
		} else {
			self.pending = true;
			self.queue = callback ? [callback] : [];
			var _callback = function(context, userParams) {
				var status = context.serverStatus || {};
				for(var key in status) {
					if(key == "username") {
						plugin.username = status[key];
						config.macros.option.propagateOption("txtUserName",
							"value", plugin.username, "input");
					} else {
						plugin.status[key] = status[key];
					}
				}
				for(var i = 0; i < self.queue.length; i++) {
					self.queue[i](plugin.status);
				}
				delete self.queue;
				delete self.pending;
			};
			adaptor.getStatus({ host: plugin.host }, null, _callback);
		}
	}
};
(plugin.getStatus = getStatus)(); // XXX: hacky (arcane combo of assignment plus execution)

})(jQuery);
//}}}

http://medlive.hotnews.ro/video-miroculus-laboratorul-de-genetica-dintr-un-smartphone.html

http://miroculus.com/

http://www.ted.com/talks/jorge_soto_the_future_of_early_cancer_detection

http://www.smithsonianmag.com/innovation/testing-cancer-simple-blood-test-180953070/?no-ist

http://www.wired.com/2014/10/miroculus/

/***
|''Name''|ToggleTiddlerPrivacyPlugin|
|''Version''|0.7.1|
|''Status''|@@beta@@|
|''Description''|Allows you to set the privacy of new tiddlers and external tiddlers within an EditTemplate, and allows you to set a default privacy setting|
|''CoreVersion''|2.6.1|
|''Requires''|TiddlySpaceConfig|
|''Source''|http://github.com/TiddlySpace/tiddlyspace/raw/master/src/plugins/ToggleTiddlerPrivacyPlugin.js|
!Notes
When used in conjunction with TiddlySpaceTiddlerIconsPlugin changing the privacy setting will also interact with any privacy icons.

Currently use of
{{{<<setPrivacy defaultValue:public>>}}} is in conflict with {{{<<newTiddler fields:"server.workspace:x_private">>}}}

There is an option, found in the tweak tab of the backstage, called txtPrivacyMode. Set this to either ''public'' or ''private'' depending on your security preference. If you choose not to set it then it will default to ''public''.
!Params
defaultValue:[private|public]
Allows you to set the default privacy value (Default is private)

!Code
***/
//{{{
(function($) {

	var tiddlyspace = config.extensions.tiddlyspace,
		macro;
	macro = config.macros.setPrivacy = {
		handler: function(place, macroName, params, wikifier, paramString, tiddler) {
			if(readOnly) {
				return;
			}
			var el = $(story.findContainingTiddler(place)),
				args = paramString.parseParams("name",
					null, true, false, true)[0],
				container = $("<div />").
					addClass("privacySettings").
					appendTo(place)[0],
				currentSpace = tiddlyspace.currentSpace.name,
				currentBag = tiddler ? tiddler.fields["server.bag"] : false,
				// XXX: is the following reliable?
				isNewTiddler = el.hasClass("missing") || !currentBag,
				tiddlerStatus = tiddlyspace.getTiddlerStatusType(tiddler),
				customFields = el.attr("tiddlyfields"),
				defaultValue = "public",
				options = config.macros.tiddlerOrigin ?
						config.macros.tiddlerOrigin.getOptions(paramString) :
						{};
			customFields = customFields ? customFields.decodeHashMap() : {};
			if(isNewTiddler || !["public", "private", "unsyncedPrivate",
					"unsyncedPublic"].contains(tiddlerStatus)) {
				if(args.defaultValue) {
					defaultValue = args.defaultValue[0].toLowerCase();
				} else {
					defaultValue = config.options.chkPrivateMode ?
							"private" : "public";
				}
				defaultValue = defaultValue ?
						"%0_%1".format(currentSpace, defaultValue) :
						customFields["server.bag"];
				this.createRoundel(container, tiddler, currentSpace,
						defaultValue, options);
			}
		},
		updateEditFields: function(tiddlerEl, bag) {
			var saveBagField = $('[edit="server.bag"]', tiddlerEl),
				saveWorkspaceField = $('[edit="server.workspace"]', tiddlerEl),
				input = $("<input />").attr("type", "hidden"),
				workspace = "bags/" + bag;
			if(saveBagField.length === 0) {
				input.clone().attr("edit", "server.bag").val(bag).
					appendTo(tiddlerEl);
			} else {
				saveBagField.val(bag);
			}
			// reset to prevent side effects
			$(tiddlerEl).attr("tiddlyFields", "");
			if(saveWorkspaceField.length === 0) {
				input.clone().attr("edit", "server.workspace").
					val(workspace).appendTo(tiddlerEl);
			} else {
				saveWorkspaceField.val(workspace);
			}
		},
		setBag: function(tiddlerEl, newBag, options) {
			var bagStatus,
				title = $(tiddlerEl).attr("tiddler"),
				tiddler = store.getTiddler(title),
				originButton = $(".originButton", tiddlerEl)[0],
				refreshIcon,
				newWorkspace = "bags/" + newBag,
				rPrivate = $("input[type=radio].isPrivate", tiddlerEl),
				rPublic = $("input[type=radio].isPublic", tiddlerEl);
			refreshIcon = function(type) {
				var originMacro = config.macros.tiddlerOrigin;
				if(originButton && originMacro) {
					options.noclick = true;
					originMacro.showPrivacyRoundel(tiddler, type,
							originButton, options);
				}
			};
			macro.updateEditFields(tiddlerEl, newBag);
			if(tiddler) {
				tiddler.fields["server.bag"] = newBag;
				// for external tiddlers
				tiddler.fields["server.workspace"] = newWorkspace;
			}
			if(newBag.indexOf("_public") > -1) {
				rPrivate.attr("checked", false);
				rPublic.attr("checked", true);
				bagStatus = "public";
			} else {
				rPublic.attr("checked", false); // explicitly do this for ie
				rPrivate.attr("checked", true);
				bagStatus = "private";
			}
			refreshIcon(bagStatus);
		},
		createRoundel: function(container, tiddler, currentSpace,
							   defaultValue, options) {
			var privateBag = "%0_private".format(currentSpace),
				publicBag = "%0_public".format(currentSpace),
				rbtn = $("<input />").attr("type", "radio").
					attr("name", tiddler.title),
				el = story.findContainingTiddler(container);
			rbtn.clone().val("private").addClass("isPrivate").
				appendTo(container);
			$("<label />").text("private").appendTo(container); // TODO: i18n
			rbtn.clone().val("public").addClass("isPublic")
				.appendTo(container);
			$("<label />").text("public").appendTo(container); // TODO: i18n
			$("[type=radio]", container).click(function(ev) {
				var btn = $(ev.target);
				tiddler.fields["server.page.revision"] = "false";
				if(btn.hasClass("isPrivate")) { // private button clicked.
					$(el).addClass("isPrivate").removeClass("isPublic");
					macro.setBag(el, privateBag, options);
				} else {
					$(el).addClass("isPublic").removeClass("isPrivate");
					macro.setBag(el, publicBag, options);
				}
			});
			window.setTimeout(function() {
				macro.setBag(el, defaultValue, options);
			}, 100);
			// annoyingly this is needed as customFields are added to end of EditTemplate so are not present yet
			// and don't seem to respect any existing customFields.
		}
	};

}(jQuery));
//}}}

Xanthine is subsequently converted to uric acid by the action of the xanthine oxidase enzyme. Mild stimulants, bronchodilator (for treatment of infantile apnea, a second-line asthma treatmejavascript:;nt, the therapeutic level is 10 - 20 μg / mL blood; signs of toxicity include tremor, nausea, nervousness, and tachycardia/arrhythmia). Methylated xanthines stimulate heart rate, force of contraction, and cardiac arrhythmias at high concentrations. In high doses they can lead to convulsions that are resistant to anticonvulsants. 
 °C

!Test stress xanthine + xanthine oxidase

''Xanthine'': X0626-56 (Sigma)  FW: 152.1 
soluble ds NaOH (50 mg / mL max). 

Preparation stock ''NaOH'' 1 M
1 M = 152.1 g →  1 L

Xanthine Sol. stock [0.05 M] = 76.05 mg →  10 mL
Xanthine Sol. stock [0.05 M] = 64.58 mg →  8.49 mL (28/04/16)
Donc preparation Xanthine sol finale de [100 μM]:
C1 × V1 = C2 × V2
50 mM × Z = 0.1 mM × 1 mM
Z = 2 μL

''Xanthine-oxidase'': X1875-5UN (Sigma)
100 mU / mL
5 U →  200 μL
0.05 U → Z μL
Z = 2 μL

Donc pour xanthine [100 μM]  + Xanthine-oxidase [50 mU/mL] = 2 μL Xanthine stock de [50 mM] + 2 μL Xanthine - oxidase stock dans 1 mL de MC.

Note Dans les H9C2 nous utilisions xanthine [50 μM] + Xanthine-oxidase [25 mU/mL] soit 1 μL X + 1 μL X-O dans 1mL MC.

!SpaceUnplugged
{{unpluggedSpaceTab{
{{wizard{
<<image unsyncedIcon width:48>> Sync is currently unavailable in ~TiddlyWiki due to security constraints in modern browsers. Research is being done to build a suitable alternative. In the meantime if you have changed content in an offline ~TiddlyWiki, you can get your content back into ~TiddlySpace by using the ''import'' functionality from the backstage of the online wiki.
}}}
}}}

!Menu
<<message messages.memberStatus>> <<homeLink>>
{{unsyncedList{<<message messages.syncListHeading>> <<list filter [is[unsynced]]>>}}}

running TiddlySpace@glossary version <<message extensions.tiddlyweb.status.tiddlyspace_version>>
{{autotable{
<<tiddler Backstage##Resources>>
}}}

!Resources
[[blog|@@blog]] [[documentation|@@docs]] [[featured spaces|@@featured]] 

!ImportExport
<<fileImport>>
You can download this TiddlySpace as an offline TiddlyWiki:

{{chunkyButton{<<exportSpace>>}}}

!BackstageTiddlers
|upload a <<message messages.privacySetting>> file: <<binaryUpload>>|<<closeAll>><<permaview>><<newTiddler>><<newJournal "DD MMM YYYY" "journal">><<saveChanges>>|
|>|<<search>>|
|>|<<tiddler Backstage##Tiddlers>>|

!Tiddlers
<<tabs
	txtMainTab
	"Recent" "Recently edited tiddlers" TabTimeline
	"All" "All tiddlers" TabAll
	"Public" "All public tiddlers" [[TiddlySpaceTabs##Public]]
	"Private" "All private tiddlers" [[TiddlySpaceTabs##Private]]
	"Tags" "All tags" TabTags
	"Spaces" "Tiddlers grouped by space" [[TiddlySpaceTabs##Spaces]]
	"Missing" "Missing tiddlers" TabMoreMissing
	"Orphans" "Orphaned tiddlers" TabMoreOrphans
	"Shadows" "Shadowed tiddlers" TabMoreShadowed
>>

!BatchOps
<<tabs
	txtPublisherTab
	"Private" "Move tiddlers from private to public" Backstage##BatchPrivate
	"Public" "Move tiddlers from public to private" Backstage##BatchPublic
>>

!BatchPrivate
<<TiddlySpacePublisher type:private>>

!BatchPublic
<<TiddlySpacePublisher type:public>>

!Plugins
''Note:'' Many of these plugins are core TiddlySpace plugins and cannot be changed unless first cloned.

<<tiddler PluginManager>>

!Tweaks
These options change behavior in TiddlyWiki //only// and may be ineffective in TiddlySpace.

<<tiddler AdvancedOptions>>

/***
|''Name''|TiddlySpaceRevertRevision|
|''Description''|Revert to a previous revision|
|''Author''|BenGillies|
|''Version''|0.1|
|''Status''|unstable|
|''Source''|http://github.com/TiddlySpace/tiddlyspace|
|''CodeRepository''|http://github.com/TiddlySpace/tiddlyspace|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
|''CoreVersion''|2.6.0|
|''Requires''|TiddlyWebAdaptor TiddlySpaceRevisionView|
!Usage
Add a control button to revert to a particular revision.

The button must be called from within a revision, as generated by TiddlySpaceRevisionView
!Code
***/
//{{{
(function($) {

config.commands.revert = {
	text: "revert",
	tooltip: "make this revision the current one",
	handler: function(ev, src, title) {
		var revElem = story.getTiddler(title);
		var tidToRevert = store.getTiddler($(revElem).attr("revName"));

		var revision = store.getTiddler(title);
		if ((revision) && (tidToRevert)) {
			tidToRevert.text = revision.text;
			var newFields = merge({}, revision.fields);
			for (var fieldName in newFields) {
				if (fieldName.substr(0, 7) === "server.") {
					delete newFields[fieldName];
				}
			}
			merge(tidToRevert.fields, newFields);
			tidToRevert.tags = merge([], revision.tags);
			tidToRevert.fields.changecount = 1;
			delete tidToRevert.fields.doNotSave;

			store.saveTiddler(tidToRevert.title, tidToRevert.title,
				tidToRevert.text, null, null, tidToRevert.tags,
				tidToRevert.fields, false, tidToRevert.created, tidToRevert.creator);

			autoSaveChanges(true);
		}
	}
};

})(jQuery);
//}}}

<svg xmlns="http://www.w3.org/2000/svg" xmlns:xl="http://www.w3.org/1999/xlink" version="1.1" viewBox="2 724 68 55" 
width="30" height="30">
<g stroke="none" stroke-opacity="1" stroke-dasharray="none" fill="none" fill-opacity="1">
	<g>
		<path d="M 2.25 756 L 11.25 747 L 24.75 760.4994 L 60.750004 724.4994 L 69.75 733.49902 
		L 24.749977 778.49976 Z" fill="#101010" class="glyph"/>
	</g>
</g>
</svg>

! Cryopreservation of Human Blood Cells for Clinical Application

Routine procedure generally involves slow cooling in the presence of a cryoprotectant to avoid the damaging effects of intracellular ice formation. The buffer should contain permeant cryoprotectant agents capable of penetrating the phospholipid bilayer of the membrane to stabilize the internal lipid bilayer, and also to stabilize intracellular or vesicle components. Useful membrane-permeants include small sugars, such as monosaccharides (6-carbon hexose sugars and 5- carbon pentose sugars), and polyalcohols (polyols) such as glycerol or polypropylene glycol. Preferred disaccharides are maltose, lactose, sucrose, trehalose. 

 
! ''First Method - 2 type of Fozen Tubes:  Buffy Coat & Platelet''
        
!! Collect & cryopreservation

⓪ The following protocol for freezing blood cells uses a final concentration of 6% dimethylsulfoxide (DMSO) (v/v) and _FBS in RPMi1640 and 30mM Trehalose (30-200 mM).

Stock concentration: [340 mM] Mass: 0.3902 g in 3.0335 mL water 
Final concentration: 30 mM  
|cssClass|k
|!➩%|! Trehalose|Total|h
|30 mM|0.79412 mL|9 mL|
|30 mM|0.88235 mL|10 mL|
|30 mM|0.97059 mL|11 mL|
|30 mM|1.05882 mL|12 mL|
|30 mM|1.14706 mL|13 mL|

◘ Medium RPMi1640  Cat No # 350 - 046 CL from Wisent Inc (no antibiotics, no phenol red, no FBS contain 4 mM L-Glutamine).
◘ D-(+)-Trehalose dihydrate Cat No # T9531 from Sigma Molecular Weight 378.33
soluble in water (soluble 0.1 g/mL), slightly soluble in ethanol, clear, colorless. (Synonym: α,α-Trehalose, α-D-Glucopyranosyl-α-D-glucopyranoside) A non-reducing disaccharide consisting of two glucose moieties joined together by an alpha-1,1 glucosidic bond. 
◘ FBS 
◘ cryovial Cat No:
◘  Mr. Frosty™ Freezing Container (thermoscientific #Cat No: 5100-0001) with 18 compartments for tube 1.0 to 2.0 mL
We have Nalgene® Cryo 1°C “Mr. Frosty” Freezing Container, Thermo Scientific
#Cat No: 5100-0001 Containers accept many 1.0 to 5.0 mL cryogenic tubes and vials.
Capacity: 18 vials; closure size: 120mm; dimensions (H x Dia.): 86 x 117mm (3-7/16 x 4-5/8 inches)

http://www.physiologyweb.com/calculators/percent_solutions_calculator.html
||cssClass|k
||!buffy|! FBS|Total|DMSO|DMSO➩%|h
||2 mL|7 mL|9| 0.54 mL|➩6%|
||3 mL|7.77 mL|10|0.60 mL|➩6%|
||4 mL|8.55 mL|11|0.66 mL|➩6%|
||5 mL|9.33 mL|12|0.72 mL|➩6%|
||6 mL|10.11 mL|13|0.78 mL|➩6%|

||cssClass|k
||!buffy|! FBS|Total|DMSO|DMSO➩%|h
||2 mL|7 mL|9| 0.90 mL|➩10%|
||3 mL|7.77 mL|10|1.00 mL|➩10%|
||4 mL|8.55 mL|11|1.10 mL|➩10%|
||5 mL|9.33 mL|12|1.20 mL|➩10%|
||6 mL|10.11 mL|13|1.30 mL|➩10%|



① Collect blood via venipuncture directly into 2 tubes (minim ''8'' mL max 16 mL) in BD Vacutainer ACD tubes (with yellow caps) Cat. No # REF 364606 8.5 mL 16x100mm) contain 1.5 mL of ACD (Anticoagulant Acid Citrate Dextrose). Store tube(s) at room temperature, for minimum 30 minutes, cell degradation will occur if tubes are stored for more than four hours.
② Centrifuge whole blood at 1900 rpm (rcf 500 × g) for ''15'' minutes at room temperature in a Centra CL 2 centrifuge (Rotor IEC 236 - with swinging bucket rotor) or equivalent. Be sure that the tubes are in good positions.
③ After centrifugation, bring the tubes to a biological safety hood and carefully open the tops. Using a glass pipette, gently remove the top layer that contains the Platelet Rich Plasma (PRP) plasma riche en plaquettes with a transfer pipette until 1 cm remains above the cell layer (Erythrocyte/Buffy Coat). 
Transfer the cell suspension from the tube(s) to a 15 ml conical polypropylene (Tube15mL). Set aside the PRP at room temperature for freezing step ⑧. High lipid levels, rheumatoid factor, anemia, and drug treatment are all possible causes for poor separation of a specific donor’s blood. If the plasma is not clear, this is an indication of high lipid levels.
④ ''Buffy Coat Part'': With a transfer pipette collect the thin layer of cells that “coats the red cells” Buffy Coat, so-called because it is usually buff in hue [aprox. 4 - max 6 mL]. To be sure take aprox. ''1'' + ''1'' cm layer and transfer to a sterile Tube15mL. Look at the scheme drawn. 
⑤ Dilute with 4 °C ''_'' mL freezing medium to at least ''_''× the starting buffy coat volume (1:X) while gently swirling the tube, add dropwise enough 4 °C _× freezing medium to double the volume of the cell suspension. Mix gently. Immediately place the tube on ice. Avoid any further mixing or agitation of the cells. The period of time between mixing the cryoprotectant with the cell suspension and beginning the cooling process is called the ''equilibration period''. For most cells, equilibration should occur for 10 minutes, allows time for the cryoprotective agent to penetrate the cells. Cells placed in solutions containing permeating solutes initially shrink rapidly from the osmotic loss of water and then re-expand more slowly as the permeating solutes penetrate and water renters to maintain osmotic equilibrium. The result is the so-called shrink-swell curve. 
⑥ Slowly remove the cell suspension into a pipet and dispense ''1'' mL per cryovial on ice.
⑦ Place the cryovials wrapped in aluminum foil in a pre-cooled ''Mr. Frosty''™ Freezing Container (thermoscientific Cat No:5100-0001)  that has been filled with 70-100% isopropyl alcohol (isopropanol) designed to achieve a rate of cooling very close to -1°C/minute. Place the freezing container at −80 °C for minimum 180 minutes to reach −60 °C stabilization temperature. The delivery can be done in dry ice (−78.5 °C). After one month the cells must be maintained below -130˚C to assure long-term stability for up to 3 years. 
⑧ ''PRP Part'':  centrifuge PRP tubes from step ③ 3200 rpm (rcf 1,500 × g) for 10 min at room temperature. 
⑨ Remove the plasma (can be use as FBS replacement). 
⑩ Wash cell pellet once with sterile 5 mL buffer (PBS Macs +BSA) supplemented with 1 µg/mL PGI2, PGI2 Prostacyclin (also called Prostaglandin I2) is a lipid - inhibits platelet activation. Cat. No: # 18220, Cayman Chemical.
⑪ Centrifuge 3200 rpm (rcf 1,500 × g) for 10 min at room temperature.
⑫ Suspend final pellet in 1 mL of freezing medium.
⑬ Mix gently. Immediately place the tube on ice. 
⑭ Slowly remove the cell suspension into a pipet and dispense ''1'' mL per cryovial on ice.
⑮ Place the cryovials wrapped in aluminum foil in a pre-cooled ''Mr. Frosty''™ Freezing Container.
⑯ Place the freezing container at −80 °C for minimum 180 minutes to reach −60 °C stabilization temperature.
⑰ Ready delivery in dry ice (−78.5 °C). After one month the cells must be maintained below -130˚C to assure long-term stability for up to 3 years. 

!! Thawing of cells
In general, cells should be thawed quickly but diluted slowly to remove DMSO. 
Cells with DMSO intercalated into their membranes are very fragile, and must be pelleted and handled gently.
      
⑱ Warm RPMi1640 to 22-37 C in a 37 °C water bath before beginning thawing procedure.
⑲ Transfer the cryovial from liquid nitrogen to a 37 °C water bath. If liquid nitrogen has seeped into the cryovial, loosen the cap slightly to allow the nitrogen to escape during thawing.
⑳ Hold the cryovial in the surface of the water bath with an occasional gentle “flick” during thawing. Do not leave the cryovial unattended during the thawing process. It is important for cell viability that the cells are thawed and processed quickly; thawing takes only a minute or two. When a small bit of ice remains in the cryovial, transfer the cryovial to the biosafety hood. Dry off the outside of the cryovial and wipe with disinfectant before opening to prevent contamination.
㉑ Add warm RPMi1640 dropwise into the cryovial containing the cell suspension, slowly over a 30 second period. The final volume should be twice the volume of the cell suspension (e.g., add 1 mL RPMi1640 to a cryovial containing 1 mL cell suspension). Be careful not to exceed the capacity of the cryovial.
㉒ Transfer the diluted cell suspension to a 50 mL polypropylene centrifuge tube containing 8 mL of warm RPMi1640 for every vial of cells added (multiple cryovials from the same donor may be combined into one tube, if desired).
㉓ Centrifuge the cells at 1200 rpm for seven minutes. Decant the supernatant, and gently flick the tube with a finger to break up the pellet. Dilute to 24 mL with warm basal RPMI to at least 4x the starting buffy coat volume (1:4).

㉔ continue isolation with [5] Analysis and Monitoring of Human Mitocondrial Function. 

!! NOTES
The cryoprotectant in popular use is dimethyl sulphoxide (DMSO) concentrations of 5–10%, and the use of a controlled rate freezing technique at 1 – 2.5 °C/min and rapid thawing is considered standard. Recovery is likely to be improved if the osmotic damage that occurs through the introduction and removal of the cryoprotectant is tempered by the application of slow addition/elution protocols (to introduce the cryoprotectant at low
temperatures (+4 °C) for as short a period).

''Fast cooling rate vs Slow cooling rate''  A cooling rate of 1°C per minute is preferred.
Ice forms at different rates during the cooling process. Slow cooling leads to freezing external to the cell before intracellular ice begins to form. As ice forms external to the cell, water is removed from the extracellular environment and an osmotic imbalance
occurs across the cell membrane leading to water migration out of the cell. The increase in solute concentration outside the cell, as well as intracellularly as water leaves the cell, can be detrimental to cell survival. If too much water remains inside the cell, damage due to ice crystal formation and re-crystallization during warming can occur and is usually lethal. The rate of cooling has a dramatic effect on these phenomena. Rapid cooling minimizes the solute concentration effects as ice forms uniformly, but leads to formation of more intracellular ice since water has not migrated out of the cell. Slow cooling
on the other hand, results in a greater loss of water from the cell and less internal ice being formed, but results in an increase in the solution effects. Cell permeability affects the rate of water loss.

''Vitrification'' is the solidification of a liquid without crystallization and the growth of ice by
the direct immersion in liquid nitrogen of finely drawn capillaries holding ultra-small volumes (~20 μL or less). This is achieved when solutes in the system are sufficiently concentrated and the system cooled sufficiently rapidly, that the increased viscosity inhibits nucleation and prevents the growth of ice. As cooling continues, viscosity continues to increase until all molecular motion is halted and the solution becomes a glass. In this condition, the system displays the properties of a solid but retains the molecular structure of a liquid. To avoid ice crystallization during thawing the straws were
re-warmed as rapidly as possible by direct immersion of the tip of the loaded straw into pre-warmed culture medium containing sucrose. Once thawed the colony fragments were then expelled into this medium and transferred stepwise through cryoprotectant wash-out solutions, containing decreasing concentration of sucrose as the osmotic buffer, until they were plated into culture medium. However, vitrification by this technique is technically challenging, that recovery rates are not as high in practice as those reported in the literature.

DMSO (dimethyl sulfoxide) is a strong polar solvent, mild oxidant, evaporates slowly at normal atmospheric pressure, strong allergic reactions. Because DMSO easily penetrates the skin, substances dissolved in DMSO may be quickly absorbed. Glove selection is important when working with DMSO.

200 mM trehalose (PMID:23349986), 190 mM, 100 mM 

The standard temperatures currently in use are:
 in the  ultrafreezer at −80°C 
 in the liquid nitrogen phase −196 (at –130˚C is also adequate)
 in the vapor nitrogen phase, at −178°C (neck −150°C)
 in the dry ice frozen CO2 at −78.5 °C.

㉕ ㉖ ㉗ ㉘ ㉙ ㉚ ㉛

Prepare Seahorse plate XF24 cell culture microplate V7-PS Part.No. 100777-004

Version Jove

|cssClass|k
|!cel tak ~~J~~|!H~~2~~O|!bicarb|!total|!wells30µL|h
|90 |180 |540 |810 |27 |
|43 |87 |260 |390 |13 |

//Procedure (J) add 90 µL Cell-Tak to 180 µL dH2O, 540 µL of 0.1N sodium bicarbonate (pH 8.0) and ajuste pH to 7.2 - 7.8 using 1N NaOH that means  1/2 vol. of cel tak 45 µL. Prepare plate by coating each well with 30 µL of prepared cell adhesive. Mix thoroughly and disperse within 10 minutes. Allow at least 20 minutes for adsorption. Flick or aspirate off the Cell-Tak solution and Wash with 100 µL of distiled water, air dry before storing at 2-8 °C//.

Version Vieux
(A) In 1 tube eppendorf add 100 µL Cell-Tak in 900 µL water  
(B) place 10 µL diluted Cell-Tak into each well.
(B) Add 20 µL of bicarbonate buffer to each well.
(C) Shake delicate.
(D) Allow at least 20 minutes for adsorption.
(E) Flick or aspirate off the Cell-Tak solution and 
(F) Wash with 100 µL of distiled water, 
(G) air dry before storing at 2-8 °C.

Prepare:
Bicarbonate (NaHCO3) Fisher Sci. # Cat.No: S233-500
Concentration = 0.1 M Formula Weight = 84.01 Vol.= 47 mL
Mass = 394 mg = 0.394 g pH 8.0 Filter-sterilise the buffer.

Sterile Water molecular grade # Winsent Inc Multicell  Cat No: 809-115-CL

(use the rest of sollution for treating other plates)

Plate map of plate M: 250 000 cells in 250 µL MC; O: no cells.

|1|2|3|4|5|6|
A | O   M   M   M   M   M     
B | M   M   M   O   M   M     
C | M   M   O   M   M   M     
D | M   M   M   M   M   O      

Start with O 250 µL MC only.
Calculate for 20 wells 250k x 20 = 5000 µL with 5 milions cells.

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https://en.wikipedia.org/wiki/Enclosed_Alphanumerics
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http://www.go4it.ro/curiozitati/carti-de-citit-online.-multe-si-gratis-4651327/

⓵ ⓶ ⓷ ⓸ ⓹ ⓺ ⓻ ⓼ ⓽ ⓾ ⒈ ⒉ ⒊ ⒋ ⒌ ⒍ ⒎ ⒏ ⒐ ⒑ ⒒ ⒓ ⒔ ⒕ ⒖ ⒗ ⒘ ⒙ ⒚ ⒛ ⓪ ① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨ ⑩ ➀ ➁ ➂ ➃ ➄ ➅ ➆ ➇ ➈ ➉ ⑪ ⑫ ⑬ ⑭ ⑮ ⑯ ⑰ ⑱ ⑲ ⑳ ㉑ ㉒ ㉓ ㉔ ㉕ ㉖ ㉗ ㉘ ㉙ ㉚ ㉛ ⓿ ❶ ❷ ❸ ❹ ❺ ❻ ❼ ❽ ❾ ❿ ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ ➒ ➓ ⓫  ➓ ⓫ ⓬ ⓬ ⓭ ⓮ ⓯ ⓰ ⓱ ⓲ ⓳ ⓴ ⑴ ⑵ ⑶ ⑷ ⑸ ⑹ ⑺ ⑻ ⑼ ⑽ ⑾ ⑿ ⒀ ⒁ ⒂ ⒃ ⒄ ⒅ ⒆ ⒇ ¹ ² ³ ↉ ½ ⅓ ¼ ⅕ ⅙ ⅐ ⅛ ⅑ ⅒ ¹⁄₁₀ ⅔ ⅖ ¾ ⅗ ⅜ ⅘ ⅚ ⅝ ⅞

➃ ➄ ➅ ➆ ➇ ➈ ➉ ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ ➒ 

➄ ➅ ➆ ➇ ➈ ➉ ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ ➒ 
❴ ❵ ❶ ❷ ❸ ❹ ❺ ❻ ❼ ❽ ❾  ➓ ⓫ ➓ ❿ ➀ ➁ ➂ 

⓫ 	⓬ 	⓭ 	⓮ 	⓯

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ħ Ⱨ ⱨ Ꜧ ℍ Ƕ ℏ ℎ ℋ ℌ ꜧ Ⓘ ⓘ ⒤ I i Ḭ ḭ Ḯ ḯ Ĳ ĳ ì í î ï Ì Í Î Ï Ĩ ĩ Ī ī Ĭ ĭ Į į ı Ɨ ƚ Ỻ Ǐ ǐ ⅈ ⅉ ℹ ℑ ℐ Ⓙ ⓙ ⒥ J j Ĵ ĵ ȷ ⱼ Ɉ ɉ ǰ Ⓚ ⓚ ⒦ K k Ḱ ḱ Ḳ ḳ Ḵ ḵ Ķ ķ Ƙ ƙ Ꝁ ꝁ Ꝃ ꝃ Ꝅ ꝅ Ǩ ǩ Ⱪ ⱪ ĸ Ⓛ ⓛ ⒧ L l Ḷ ḷ Ḹ ḹ Ḻ ḻ Ḽ ḽ Ĺ ĺ Ļ ļ Ľ İ ľ Ŀ ŀ Ł ł Ỉ ỉ Ị ị Ƚ Ⱡ Ꝉ ꝉ ⱡ Ɫ ꞁ ℒ Ǉ ǈ ǉ ⅃ ⅂ ℓ ȉ Ȉ Ȋ ȋ Ⓜ ⓜ ⒨ M m Ḿ ḿ Ṁ ṁ Ṃ ṃ ꟿ ꟽ Ɱ Ʃ Ɯ ℳ Ⓝ ⓝ ⒩ N n Ṅ ṅ Ṇ ṇ Ṉ ṉ Ṋ ṋ Ń ń Ņ ņ Ň ň Ǹ ǹ Ŋ Ɲ ñ ŉ Ñ Ƞ ƞ ŋ Ǌ ǋ ǌ ȵ ℕ №   O o Ṍ ṍ Ṏ ṏ Ṑ ṑ Ṓ ṓ Ȫ ȫ Ȭ ȭ Ȯ ȯ Ȱ ȱ Ǫ ǫ Ǭ ǭ Ọ ọ Ỏ ỏ Ố ố Ồ ồ Ổ ổ Ỗ ỗ Ộ ộ Ớ ớ Ờ ờ Ở ở Ỡ ỡ Ợ ợ Ơ ơ Ō ō Ŏ ŏ Ő ő Ò Ó Ô Õ Ö Ǒ Ȍ ȍ Ȏ ȏ Œ œ Ø Ǿ Ꝋ ǽ ǿ ℴ ⍥ ⍤ Ⓞ ⓞ ⒪ ò ó ô õ ö ǒ ø Ꝏ ꝏ Ⓟ ⓟ ⒫ ℗ P p Ṕ ṕ Ṗ ṗ Ƥ ƥ Ᵽ ℙ Ƿ ꟼ ℘ Ⓠ ⓠ ⒬ Q q Ɋ ɋ ℚ ℺ ȹ Ⓡ ⓡ ⒭ R r Ŕ ŕ Ŗ ŗ Ř ř Ṙ ṙ Ṛ ṛ Ṝ ṝ Ṟ ṟ Ȑ ȑ Ȓ ȓ ɍ Ɍ Ʀ Ɽ ℞ Ꝛ ꝛ ℜ ℛ ℟ ℝ Ⓢ ⓢ ⒮ S s Ṡ ṡ Ṣ ṣ Ṥ ṥ Ṧ ṧ Ṩ ṩ Ś ś Ŝ ŝ Ş ş Š š Ș ș ȿ ꜱ Ƨ ƨ ẞ ß ẛ ẜ ẝ ℠ Ⓣ ⓣ ⒯ T t Ṫ ṫ Ṭ ṭ Ṯ ṯ Ṱ ṱ Ţ ţ Ť ť Ŧ ŧ Ƭ Ʈ ẗ Ț Ⱦ ƫ ƭ ț ⱦ ȶ ℡ ™ Ⓤ ⓤ ⒰ U u Ṳ ṳ Ṵ ṵ Ṷ ṷ Ṹ ṹ Ṻ ṻ Ụ Ủ ủ Ứ Ừ ụ ứ Ử ử ừ ữ Ữ Ự ự Ũ ũ Ū ū Ŭ ŭ Ů ů Ű ű Ǚ ǚ Ǘ ǘ Ǜ ǜ Ų ų Ǔ ǔ Ȕ ȕ Û û Ȗ ȗ Ù ù Ü ü Ư ú Ʉ ư Ʋ Ʊ Ⓥ ⓥ ⒱ V v Ṽ ṽ Ṿ ṿ Ỽ Ʌ ℣ ⱱ ⱴ ⱽ Ⓦ ⓦ ⒲ W w Ẁ ẁ Ẃ ẃ Ẅ ẅ Ẇ ẇ Ẉ ẉ Ŵ ŵ ẘ Ⱳ ⱳ Ⓧ 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☺ ☹ ✄ ✈ ✌ ✎ ♪ ♫ ☀ ☁ ☔ ⚡ ❆ ☽ ☾ ✆ ✔ ☯ ☮ ☠ ⚑ ☬ ✄ ✏ ♰ ✡ ✰ ✺ ⚢ ⚣ ♕ ♛ ♚ ♬ ⓐ ⓑ ⓒ ⓓ ↺ ↻ ⇖ ⇗ ⇘ ⇙ ⟵ ⟷ ⟶ ⤴ ⤵ ⤶ ⤷ ➫ ➬ € ₤ ＄ ₩ ₪ ⟁ ⟐ ◆ ⎔ ░ ▢ ⊡ ▩ ⟡ ◎ ◵ ⊗ ❖ Ω β Φ Σ Ξ ⟁ ⦻ ⧉ ⧭ ⧴ ∞ ≌ ⊕ ⋍ ⋰ ⋱ ✖ ⓵ ⓶ ⓷ ⓸ ⓹ ⓺ ⓻ ⓼ ⓽ ⓾ ᴕ ⸨ ⸩ ❪ ❫ ⓵ ⓶ ⓷ ⓸ ⓹ ⓺ ⓻ ⓼ ⓽ ⓾ ⒈ ⒉ ⒊ ⒋ ⒌ ⒍ ⒎ ⒏ ⒐ ⒑ ⒒ ⒓ ⒔ ⒕ ⒖ ⒗ ⒘ ⒙ ⒚ ⒛ ⓪ ① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨ ⑩ ➀ ➁ ➂ ➃ ➄ ➅ ➆ ➇ ➈ ➉ ⑪ ⑫ ⑬ ⑭ ⑮ ⑯ ⑰ ⑱ ⑲ ⑳ ⓿ ❶ ❷ ❸ ❹ ❺ ❻ ❼ ❽ ❾ ❿ ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ ➒ ➓ ⓫ ⓬ ⓭ ⓮ ⓯ ⓰ ⓱ ⓲ ⓳ ⓴ ⑴ ⑵ ⑶ ⑷ ⑸ ⑹ ⑺ ⑻ ⑼ ⑽ ⑾ ⑿ ⒀ ⒁ ⒂ ⒃ ⒄ ⒅ ⒆ ⒇ ᶅ ᶛ ᶜ ᶝ ᶞ ᶟ ᶠ ᶡ ᶢ ᶣ ᶤ ᶥ ᶦ ᶧ ᶨ ᶩ ᶪ ᶫ ᶬ ᶭ ᶮ ᶯ ᶰ ᶱ ᶲ ᶳ ᶴ ᶵ ᶶ ᶷ ᶹ ᶺ ᶻ ᶼ ᶽ ᶾ ᶿ ᴀ ᴁ ᴂ ᴃ ᴄ ᴅ ᴆ ᴇ ᴈ ᴉ ᴊ ᴋ ᴌ ᴍ ᴎ ᴏ ᴐ ᴑ ᴒ ᴓ ᴔ ᴕ ᴖ ᴗ ᴘ ᴙ ᴚ ᴛ ᴜ ᴝ ᴞ ᴟ ᴠ ᴡ ᴢ ᴣ ᴤ ᴥ ᴦ ᴧ ᴨ ᴩ ᴪ ᴫ ᴬ ᴭ ᴮ ᴯ ᴰ ᴱ ᴲ ᴳ ᴴ ᴵ ᴶ ᴷ ᴸ ᴹ ᴺ ᴻ ᴼ ᴽ ᴾ ᴿ ᵀ ᵁ ᵂ ᵃ ᵄ ᵅ ᵆ ᵇ ᵈ ᵉ ᵊ ᵋ ᵌ ᵍ ᵎ ᵏ ᵐ ᵑ ᵒ ᵓ ᵔ ᵕ ᵖ ᵗ ᵘ ᵙ ᵚ ᵛ ᵜ ᵝ ᵞ ᵟ ᵠ ᵡ ᵢ ᵣ ᵤ ᵥ ᵦ ᵧ ᵨ ᵩ ᵪ ᵫ ᵬ ᵭ ᵮ ᵱ ᵲ ᵳ ᵵ ᵷ ᵸ ᵺ ᵻ ᷋ ᷌ ᷍ ᷎ ᷏ ᷓ ᷔ ᷕ ᷖ ᷗ ᷘ ᷙ ᷛ ᷜ ᷝ ᷞ ᷟ ᷠ ᷡ ᷢ ᷣ ᷤ ᷥ ᷦ ‘ ’ ‛ ‚ “ ” „ ‟ « » ‹ › Ꞌ " ❛ ❜ ❝ ❞ < > @ ‧ ¨ ․ ꞉ : ⁚ ⁝ ⁞ ‥ … ⁖ ⸪ ⸬ ⸫ ⸭ ⁛ ⁘ ⁙ ⁏ ; ⦂ ⁃ ‐ ‑ ‒ - – ⎯ — ― _ ⁓ ⸛ ⸞ ⸟ ⸯ ¬ / \ ⁄ \ ⁄ | ⎜ ¦ ‖ ‗ † ‡ · • ⸰ ° ‣ ⁒ % ‰ ‱ & ⅋ § ÷ + ± = ꞊ ′ ″ ‴ ⁗ ‵ ‶ ‷ ‸ * ⁑ ⁎ ⁕ ※ ⁜ ⁂ ! ‼ ¡ ? ¿ ⸮ ⁇ ⁉ ⁈ ‽ ⸘ ¼ ½ ¾ ² ³ © ® ™ ℠ ℻ ℅ ℁ ⅍ ℄ ¶ ⁋ ❡ ⁌ ⁍ ⸖ ⸗ ⸚ ⸓ ( ) [ ] { } ⸨ ⸩ ❨ ❩ ❪ ❫ ⸦ ⸧ ❬ ❭ ❮ ❯ ❰ ❱ ❴ ❵ ❲ ❳ ⦗ ⦘ ⁅ ⁆ 〈 〉 ⏜ ⏝ ⏞ ⏟ ⸡ ⸠ ⸢ ⸣ ⸤ ⸥ ⎡ ⎤ ⎣ ⎦ ⎨ ⎬ ⌠ ⌡ ⎛ ⎠ ⎝ ⎞ ⁀ ⁔ ‿ ⁐ ‾ ⎟ ⎢ ⎥ ⎪ ꞁ ⎮ ⎧ ⎫ ⎩ ⎭ ⎰ ⎱ ✈ ☀ ☼ ☁ ☂ ☔ ⚡ ❄ ❅ ❆ ☃ ☉ ☄ ★ ☆ ☽ ☾ ⌛ ⌚ ☇ ☈ ⌂ ⌁ ⏧ ✆ ☎ ☏ ☑ ✓ ✔ ⎷ ⍻ ✖ ✗ ✘ ☒ ✕ ☓ ☕ ♿ ✌ ☚ ☛ ☜ ☝ ☞ ☟ ☹ ☺ ☻ ☯ ⚘ ☮ ✝ ⚰ ⚱ ⚠ ☠ ☢ ⚔ ⚓ ⎈ ⚒ ⚑ ⚐ ☡ ❂ ⚕ ⚖ ⚗ ✇ ☣ ⚙ ☤ ⚚ ⚛ ⚜ ☥ ☦ ☧ ☨ ☩ † ☪ ☫ ☬ ☭ ✁ ✂ ✃ ✄ ✍ ✎ ✏ ✐  ✑ ✒ ✉ ✙ ✚ ✜ ✛ ♰ ♱ ✞ ✟ ✠ ✡ ☸ ✢ ✣ ✤ ✥ ✦ ✧ ✩ ✪ ✫ ✬ ✭ ✮ ✯ ✰ ✲ ✱ ✳ ✴ ✵ ✶ ✷ ✸ ✹ ✺ ✻ ✼ ✽ ✾ ❀ ✿ ❁ ❃ ❇ ❈ ❉ ❊ ❋ ⁕ ☘ ❦ ❧ ☙ ❢ ❣ ♀ ♂ ⚲ ⚢ ⚣ ⚤ ⚥ ⚦ ⚧ ⚨ ⚩ ☿ ♁ ⚯ ♔ ♕ ♖ ♗ ♘ ♙ ♚ ♛ ♜ ♝ ♞ ♟ ☖ ☗ ♠ ♣ ♦ ♥ ❤ ❥ ♡ ♢ ♤ ♧ ⚀ ⚁ ⚂ ⚃ ⚄ ⚅ ⚇ ⚆ ⚈ ⚉ ♨ ♩ ♪ ♫ ♬ ♭ ♮ ♯ ⏏ ⎗ ⎘ ⎙ ⎚ ⎇ ⌘ ⌦ ⌫ ⌧ ♲ ♳ ♴ ♵ ♶ ♷ ♸ ♹ ♺ ♻ ♼ ♽ ⁌ ⁍ ⎌ ⌇ ⍝ ⍟ ⍣ ⍤ ⍥ ⍨ ⍩ ⎋ ♃ ♄ ♅ ♆ ♇ ♈ ♉ ♊ ♋ ♌ ♍ ♎ ♏ ♐ ♑ ♒ ♓ ⏚ ⏛ |   |   |   |   |   |   |   |   |   |  |
 http://www.scarfboy.com/coding/unicode-tool?s=U%2B2152
Alphabet oghamique
    U+1680 (05760)   OGHAM Espace
    U+1681 (05761) ᚁ OGHAM BEITH
    U+1682 (05762) ᚂ OGHAM LUIS
    U+1683 (05763) ᚃ OGHAM FEARN
    U+1684 (05764) ᚄ OGHAM SAIL
    U+1685 (05765) ᚅ OGHAM NION
    U+1686 (05766) ᚆ OGHAM UATH
    U+1687 (05767) ᚇ OGHAM DAIR
    U+1688 (05768) ᚈ OGHAM TINNE
    U+1689 (05769) ᚉ OGHAM COLL

	

    U+168A (05770) ᚊ OGHAM CEIRT
    U+168B (05771) ᚋ OGHAM MUIN
    U+168C (05772) ᚌ OGHAM GORT
    U+168D (05773) ᚍ OGHAM NGEADAL
    U+168E (05774) ᚎ OGHAM STRAIF
    U+168F (05775) ᚏ OGHAM RUIS
    U+1690 (05776) ᚐ OGHAM AILM
    U+1691 (05777) ᚑ OGHAM ONN
    U+1692 (05778) ᚒ OGHAM UR
    U+1693 (05779) ᚓ OGHAM EADHADH

	

    U+1694 (05780) ᚔ OGHAM IODHADH
    U+1695 (05781) ᚕ OGHAM EABHADH
    U+1696 (05782) ᚖ OGHAM OR
    U+1697 (05783) ᚗ OGHAM UILLEANN
    U+1698 (05784) ᚘ OGHAM IFIN
    U+1699 (05785) ᚙ OGHAM EAMHANCHOLL
    U+169A (05786) ᚚ OGHAM PEITH
    U+169B (05787) ᚛ OGHAM Début de texte
    U+169C (05788) ᚜ OGHAM Fin de texte

'
FORMATING
text formatting
http://tiddlywiki.tiddlyspace.com/TiddlyWiki%20Markup
Basic formatting

|Style|Formatting|h
|''bold''|{{{''bold''}}} - two single-quotes, not a double-quote|
|//italics//|{{{//italics//}}}|
|''//bold italics//''|{{{''//bold italics//''}}}|
|__underline__|{{{__underline__}}}|
|--strikethrough--|{{{--Strikethrough--}}}|
|super^^script^^|{{{super^^script^^}}}|
|sub~~script~~|{{{sub~~script~~}}}|
|@@Highlight@@|{{{@@Highlight@@}}}|
|{{{plain text}}}|{{{ {{{PlainText No ''Formatting''}}} }}}|
|/%this text will be invisible%/hidden text|{{{/%this text will be invisible%/}}}|


Four dashes on a line by themselves are used to introduce a horizontal rule:
{{{
Before the rule
----
After the rule
}}}
Displays as:

Before the rule
----
After the rule

The HTML tag {{{<hr>}}} can be used as an alternative syntax:

{{{
Before the rule<hr>After the rule
}}}
Displays as:

Before the rule<hr>After the rule

!Wiki Links
Any words or phrases that are CamelCase or compound words - in which the elements are joined without spaces - will result in them becoming links to tiddlers with that name. 
Displays as:
WikiWords

To stop this happening the words must be escaped:
{{{
~WikiWords
}}}
Displays as:
~WikiWords

Alternatively, a tiddler can be linked to using square brackets to encompass the whole tiddler title:
{{{
[[tiddler name]]
}}}
!Pretty Links
Optionally, custom text can be added, separated by a pipe character (|)
{{{
[[alternative link text|tiddler name]]
}}}
Displays as:
[[link to our WikiWords tiddler|WikiWords]]
!External Links
Writing the URL in the text results in a link to that external site:
{{{
http://osmosoft.com
}}}
Displays as:
http://osmosoft.com
Similar to pretty links alternative text can be used to link to external sites:
{{{
[[Visit the Osmosoft site|http://osmosoft.com]]
}}}
Displays as:
[[Visit the Osmosoft site|http://osmosoft.com]]
!Links to Other Spaces
Link to a space by preceding it with {{{@}}}:
{{{
@about
}}}
Displays as:
@about

Suppress space linking with {{{~}}}:
{{{
~@about
}}}
~@about
Link to a tiddler within another space:
{{{
TiddlyWiki@glossary
[[TiddlySpace API]]@glossary
[[Information about the HTTP interface|TiddlySpace API]]@glossary
}}}
Displays as:
TiddlyWiki@glossary
[[TiddlySpace API]]@glossary
[[Information about the HTTP interface|TiddlySpace API]]@glossary

Measuring lymphocyte proliferation, survival and differentiation using CFSE time-series data
http://www.nature.com/nprot/journal/v2/n9/full/nprot.2007.297.html

FlowJo Basic 
https://www.youtube.com/watch?v=RRIp4rIZVR4&feature=iv&src_vid=OBIASvrHVj8&annotation_id=annotation_638713

Theory of Relativity
https://youtu.be/CYv5GsXEf1o

FlowJo Compensation 
https://www.youtube.com/watch?v=V4hlIHBJRvE

FlowJo Traditional Compensation 
https://www.youtube.com/watch?v=bQPLmRR0isA

Start-up and Clean-up Procedures for Flow Cytometer 
https://www.youtube.com/watch?v=rpZUMOtvmYQ

Monthly maintence for BD FACS Calibur, 2013 March 
https://www.youtube.com/watch?v=-fwDgmIGXAY

Tutorial - FACSComp Lyse/Wash FACSCalibur 
https://www.youtube.com/watch?v=Gcam1gG1D3k

Tutorial - FACSComp Lyse/No-Wash FACSCalibur
https://www.youtube.com/watch?v=mwN2EkmCSjc

Flow Cytometry - Cell Cycle
https://www.youtube.com/watch?v=x3pygDERwcg

Webinar: Flow Cytometry - Compensation of Spectral Overlap 
https://www.youtube.com/watch?v=jCQC-86fCN4

Flow cytometry - sample preparation and experimental design 
https://www.youtube.com/watch?v=QOSjBb5lKdQ

https://www.youtube.com/watch?v=z3k8Lf9iR_M
Flow Cytometry Big Data Analysis Counts White Blood Cells 

https://www.youtube.com/watch?v=_DAZkU3eCpw
Simplified Benchtop Multicolor Flow Cytometry for Immune and Cancer Cell Analyses 

https://www.youtube.com/watch?v=1dXzCQL-7to
Global Flow Cytometry Market Size, Current Trends, Industry Analysis, Report and Forecast 2012-2020

Webinar: Sample Preparation for Flow Cytometry 
https://www.youtube.com/watch?v=W5BgoNHdiQY

Flow Cytometry Animation 
https://www.youtube.com/watch?v=2P7YsJ0Zkio

Nanoparticles isolated from blood - Video abstract: 24537 
https://www.youtube.com/watch?v=GXUzzL-hcQ0


Introduction to Flow Cytometry Webinar
https://www.youtube.com/watch?v=o2joszUiVhM

Introduction to FACS 1 English scandinav
https://www.youtube.com/watch?v=l2kdHTKGy7U&list=PL9L3Pw-VCfxaHyxobGs6gZ3XdVYkOm9kV

Flow Cytometry Animation 
https://www.youtube.com/watch?v=EQXPJ7eeesQ

Flow Cytometry Tutorials: Doublet Discrimination
https://www.youtube.com/watch?v=MjMvwSUucKI

Once you have some content then you may choose to determine a tiddler, or set of tiddlers to display each time you load ~TiddlySpace. This is determined by the [[DefaultTiddlers]].

<!DOCTYPE html>
<html>
<head>
	<meta http-equiv="Content-Type" content="text/html;charset=utf-8">
	<title>This Space</title>
	<link href="/bags/common/tiddlers/profile.css" type='text/css' rel='stylesheet' >
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<body>
<div id="container">
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		<a class="app" href="/">home</a>
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		<h2>About this space <button class='toggleNext'></button></h2>
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		<div class="reset-confirm-wrap messageArea">
			<button class="close-btn" title="cancel reset">×</button>
			<p>Are you sure you want to reset the space? You can't go back! This will remove all the content from the space!</p>
			<form class="cf">
				<label for="reset-confirm">Enter the space name to confirm.</label>
				<input type="text" name="reset-confirm" class="reset-confirm-input inputBox" />
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			<h2>
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					<input class="inputBox" type="text" name="username">
					<input type="submit" value="Add Member" class="btn" />
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User-agent: *
Disallow: /bags
Disallow: /recipes

/***
|''Name''|ErrorHandlerPlugin|
|''Version''|0.4.3|
|''Author''|Jon Robson|
|''Description''|Localised tiddler save errors including edit conflict resolution.|
|''CoreVersion''|2.6.1|
|''Requires''|TiddlySpaceConfig|
***/
//{{{
(function($) {

var tiddlyspace = config.extensions.tiddlyspace;
var currentSpace = tiddlyspace.currentSpace.name;
tiddlyspace.getLocalTitle = function(title, workspace, suffix) {
	var endsWith = config.extensions.BinaryTiddlersPlugin.endsWith;
	if(!suffix) {
		var isPublic = endsWith(workspace, "_public");
		suffix = tiddlyspace.resolveSpaceName(workspace);
		if(currentSpace == suffix) {
			suffix = isPublic ? "public" : "private";
		} else {
			suffix = "@%0".format(suffix);
		}
	}
	return "%0 *(%1)*".format(title, suffix);
};

var sssp = config.extensions.ServerSideSavingPlugin;

var msgs = config.messages.editConflict = {
	loading: "Loading..",
	resolve: "[[Edit Conflict]]@glossary: this tiddler may have been changed by someone else.",
	reviewDiff: "review (recommended)",
	reviewDiffTooltip: "review changes made to this tiddler",
	reviewDiffError: "error retrieving revision.",
	save: "overwrite",
	saveTooltip: "make this revision the top revision of this tiddler",
	discard: "cancel",
	discardTooltip: "undo changes to this tiddler and get most recent version",
	diffTitle: "%0",
	diffFieldTitle: "%0 - fields",
	diffTextTitle: "%0 - text",
	updating: "updating your version...",
	diffHeader: ["Review the changes that have been made whilst you were editing this tiddler. ",
		"Fold relevant changes back into your version.\n",
		"{{removed{Red}}} highlight shows content removed. ",
		"{{added{Green}}} highlight shows content added.\n"].join(""),
	diffTextHeader: "View changes in text",
	diffFieldsHeader: "View changes in fields"
};

var plugin = config.extensions.errorHandler = {
	diffTags: ["excludeLists", "excludeMissing", "excludeSearch"],
	displayMessage: function(message, tiddler, context) {
		var desc = context && context.httpStatus ? context.statusText :
			sssp.locale.connectionError;
		var reportArea = plugin.reportError(tiddler.title);
		var msg = $("<div />").appendTo(reportArea);
		if(message == "saveConflict") {
			wikify(msgs.resolve, msg[0]);
			var choiceArea = $("<div />").appendTo(reportArea)[0];
			plugin.editConflictHandler(choiceArea, tiddler);
		} else {
			msg.text(sssp.locale[message].format(tiddler.title, desc));
		}
	},
	editConflictHandler: function(container, tiddler) {
		var title = tiddler.title;
		var myrev = tiddler.fields["server.page.revision"];
		// note user now needs to edit, fix problem and save. 
		// TODO: make sure this gets reset in save callback
		store.getTiddler(title).fields["server.page.revision"] = "false";

		var diffBtn = createTiddlyButton(container, msgs.reviewDiff, msgs.reviewDiffTooltip, function(ev) {
			var title = $(ev.target).data("title");
			plugin.displayDiff(ev.target, store.getTiddler(title), myrev);
		});
		var saveBtn = createTiddlyButton(container, msgs.save, msgs.saveTooltip, function(ev) {
				var title = $(ev.target).data("title");
				var tid = store.saveTiddler(store.getTiddler(title));
				autoSaveChanges(null, [tid]);
			});
		var ignoreBtn = createTiddlyButton(container, msgs.discard, msgs.discardTooltip, function(ev) {
			var title = $(ev.target).text(msgs.updating).data("title");
			plugin.resetToServerVersion(store.getTiddler(title));
		});
		$([diffBtn, ignoreBtn, saveBtn]).data("title", title);
	},
	getDiffTiddlerTexts: function(diffText) {
		var chunks = diffText.split("\n  \n");
		if(chunks.length < 2) {
			return [chunks[0], ""];
		} else {
			var diffFieldsText = "{{diff{\n%0\n}}}".format(chunks[0]);
			diffText = '{{diff{\n%0\n}}}'.format(chunks.splice(1, chunks.length).join("\n"));
			return [diffText, diffFieldsText];
		}
	},
	makeDiffTiddler: function(title, diff) {
		var newTiddler = new Tiddler(title);
		var tags = plugin.diffTags;
		newTiddler.text = msgs.loading;
		newTiddler.fields.doNotSave = true;
		newTiddler.tags = diff ? tags.concat(["diff"]) : tags;
		newTiddler = store.saveTiddler(newTiddler);
		$.extend(store.getTiddler(title).fields,
			config.defaultCustomFields); // allow option to save it
		return newTiddler;
	},
	displayDiff: function(src, tiddler, latestRevision) {
		var adaptor = tiddler.getAdaptor();
		var title = tiddler.title;
		var ts = new Date().formatString("0hh:0mm:0ss");
		var suffix = "edit conflict %0".format(ts);
		var diffTitle = tiddlyspace.getLocalTitle(msgs.diffTitle.format(title), "", suffix);
		var diffTextTitle = tiddlyspace.getLocalTitle(msgs.diffTextTitle.format(title), "", suffix);
		var diffFieldsTitle = tiddlyspace.getLocalTitle(msgs.diffFieldTitle.format(title), "", suffix);
		plugin.makeDiffTiddler(diffTextTitle, true);
		plugin.makeDiffTiddler(diffFieldsTitle, true);
		var newTiddler = plugin.makeDiffTiddler(diffTitle, false);
		newTiddler.text = ['%0\n<<slider chkViewDiffText "%1" "%2">>\n',
			'<<slider chkViewDiffField "%3" "%4">>'].join("").
			format(msgs.diffHeader, diffTextTitle, msgs.diffTextHeader,
				diffFieldsTitle, msgs.diffFieldsHeader);
		store.saveTiddler(newTiddler);

		var callback = function(r) {
			var text = plugin.getDiffTiddlerTexts(r);
			store.getTiddler(diffTextTitle).text = text[0];
			store.getTiddler(diffFieldsTitle).text = text[1];
			story.refreshTiddler(diffTitle, null, true);
		};
		var workspace = "bags/%0".format(tiddler.fields["server.bag"]);
		ajaxReq({
			type: "get",
			dataType: "text",
			url: "/diff?format=unified&rev1=%0/%1/%2&rev2=%0/%1".format(workspace, title, latestRevision),
			success: callback,
			error: function() {
				displayMessage(msgs.reviewDiffError);
			}
		});
		story.displayTiddler(src, diffTitle);
	},
	resetToServerVersion: function(tiddler) {
		var adaptor = tiddler.getAdaptor();
		var ctx = { 
			host: tiddler.fields["server.host"],
			workspace: "bags/" + tiddler.fields["server.bag"]
		};
		adaptor.getTiddler(tiddler.title, ctx, null, function(context) {
			store.saveTiddler(context.tiddler);
			story.refreshTiddler(tiddler.title);
			store.setDirty(false);
		});
	},
	reportError: function(title) {
		var el = story.getTiddler(title);
		if(!el) {
			el = story.displayTiddler(null, title);
		}
		return $("<div />").addClass("error annotation").prependTo(el)[0];
	}
};

sssp.reportFailure = function(message, tiddler, context) {
	config.options.chkViewDiffText = config.options.chkViewDiffText === undefined ?
		true : config.options.chkViewDiffText;
	config.options.chkViewDiffFields = config.options.chkViewDiffFields || false;
	plugin.displayMessage(message, tiddler, context);
};

})(jQuery);
//}}}

! INTRODUCTION - Mitochondria Functional Studies

Platform synchron fluorescence quantification permits specific biologic parameters of cellular populations analysed in specific fashion based on their unique fluorescent properties. Relative quantification of 4 basic  mitochondrial parameters including mitochondrial content, mitochondrial membrane potential, apoptosis activity and matrix oxidant burden. This assay has been optimized using U937 & DC cells some modifications may be required for use with other cell types. For quantification of mitochondrial localized fluorescent dye we use MTG to assess mitochondrial content, TMRE to assess mitochondrial membrane potential, FITC active CASPASE-9  to assess apoptosis, and MitoSOX Red to assess mitochondrial matrix oxidant burden. These basic parameters can be used to study in ∓ healthy individuals, the effects of pharmacologic induction and scavenging of oxidant stress.

''Mitochondrial Membrane Potential (Δψm)''  is highly interlinked to many mitochondrial processes. The Δψm controls ATP synthesis, generation of ROS, mitochondrial calcium sequestration, import of proteins into the mitochondrion and mitochondrial membrane dynamics. Hence pharmacological changes in Δψm can be associated with a multitude of other mitochondrial pathological parameters. Depolarization can be found in the presence of ionophores that could induce nonselective cation channels or become selective mobile ionic carriers. Protonophores such as CCCP and FCCP induce reversal of the ATPase, as a compensatory mechanism that tries to maintain Δψm, which will deplete ATP even in the presence of a normal glycolytic pathway. CCCP can depolarize mitochondria within minutes. Hyperpolarization could be found in the presence of ATPase inhibition, inadequate supply of ADP, increased supply of NADH, apoptosis due to oxidative stress and potentially proton slippage due to cytochrome c oxidase dephosphorylation. In either scenario, OXPHOS uncoupling ensues. 

Mitochondrial depolarization is a hallmark of cell health and viability and is involved in a variety of diseases, including various neurodegenerative diseases such as Parkinson‘s and Alzheimer‘s Diseases as well as age-related mitochondrial malfunction. 

Above all, the analysis should be normalizatied in such a way as to be an equal number of cells / well. This means an equal number of nuclei stained with specific dye Hoechst (H), and to have an equivalent amount of mitochondria / well. 
To quantify mitocondria content we stain the cells with MitoTracker Green ® (MTG) and quantify the signal as a measurement of total mitochondria. To label mitochondria, cells are simply incubated with MTG probes, which passively diffuse across the plasma membrane and accumulate in active mitochondria.
This mitochondrial membrane potential assay uses TMRE (tetra methyl rhodamine, ethyl ester) to label active mitochondria. TMRE is (+) charged and bind to active mitochondria matrix (-) charged. Depolarised or inactive mitochondria have decrased Δψm and fail to bind TMRE. a) In other words TMRE is a cell permeant, positively-charged, red-orange dye that readily accumulates in active mitochondria due to their relative negative charge. Depolarized or inactive mitochondria have decreased membrane potential and fail to sequester TMRE. b) TMRM which accumulates within healthy, negatively charged mitochondrial organelles, exhibiting a red-orange fluorescence (EM 575 nm). When the mitochondrial membrane potential collapses in apoptotic or metabolically stressed cells, the dye is dispersed throughout the cell cytosol with minimal fluorescence. TMRM assay can be used in conjunction with existing apoptosis or metabolic stress protocols. The generic mitochondrial membrane depolarizer Carbonyl Cyanide m- Chloro Phenylhydrazone (CCCP) is a ionophore uncoupler of oxidative phosphorylation. Treating cells with CCCP eliminates mitochondrial membrane potential and TMRE staining. MTG signal  is not affected by ionophore. General guidelines for cell numbers for adherent cells, 100,000 - 200,000 cells per well  in 100 - 200 μL should provide sufficient signal. For Fluorescence plate reader: wash cells once with 0.2% BSA in PBS, then read cells in a microplate. Guidelines for TMRE concentration - is dependent on the cell line at hand. Recommending starting concentrations to test 150 - 1000 nM TMRE. Optimal concentrations for the U937 cell lines is 200 nM TMRE.  What we expect: After staining a cell population with Hoechst, TMRE and MTG dye, all the cells show same blue fluorescence for the nuclei, the inhibited cells show green fluorescence with very little / decreased red fluorescence, and good live cells show same green fluorescence (same mitochondrial content) and bright red fluorescence. 
Calculation: 
''TMRE / Hoehst'' chart is showing mean red fluorescent intensity divided by Hoechst blue fluorescent  intensity +/- standard deviation from quadruplicate measurements of 200 nM TMRE stained U937 cells in a 96-well microplate +/- treatment with CCCP and OLY. 
''Mitochondrial content'' chart is showing mean green fluorescent intensity MTG divided by Hoechst blue fluorescent  intensity.  
''Mitochondrial Membrane Potential (Δψm)'' chart is showing [(TMRE / H) / (MTG / H)].

''Note 1 Antimycin A'' is an inhibitor of Complex III. It binds to  the Qi site of Complex III and inhibits the transfer of 
electrons from heme bH to oxidized Q (Qi site inhibitor).
http://www.bioblast.at/index.php/MitoPedia:_Inhibitors

''Note 2 Oligomycin A'' (Omy) is an inhibitor of ATP synthase. Omy is used to prevent state 3 (phosphorylating) respiration. The inhibition of ATP synthesis by oligomycin A will significantly reduce electron flow through the electron transport chain; however, electron flow is not stopped completely due to a process known as proton leak or mitochondrial uncoupling. This process is due to the facilitated diffusion of protons into the mitochondrial matrix through an uncoupling protein such as thermogenin, or UCP1. Mitochondrial proton and electron leak have a major impact on mitochondrial coupling efficiency and production of reactive oxygen species. Omy used in Seahorse Respiration http://www.seahorsebio.com/learning/app-notes/cos.php
Oligomycin, a complex V inhibitor, was injected to differentiate the ATP-linked respiration (oligomycin-sensitive fraction) from the proton leak. This reveals the four fundamental parameters of mitochondrial function: 
① basal respiration ② ☇ Omy ATP turnover, ③ proton leak,  ☇ CCCP ④ maximal respiratory capacity , Antimycin A.
▬ ▁ ⎛⌒⎞ The OCR measured after CCCP injection represents the maximal capacity that cells have to reduce oxygen under the experimental conditions. Finally, antimycin A was injected to inhibit the flux of electrons through complex III, and thus no oxygen was further consumed at cytochrome c oxidase. 


! Map of Plate with Cel-Tak (pH control)
''A1-E8''
Harvest the cells and count them, adjusting their concentration to _ × 10^^6^^ cells / mL in culture medium (MC). See the tiddly [[Design Plate 96 wells]]. The plate is designed for 200 µL / well, and is possible to split in 2 plates with 100 µL / well. The cells must be attached to the plate by centrifugation in 2 x 30 seconds using special cell adhesive cel-tak. To be easily handled and the calculated results in Excell, the samples will be distributed in this way:

A | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ 
B | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ 
C | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ 
D | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ 
E | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑

In this black 96 wells plate will be analysed 3 parameters: ''Mito SOX Production'' coresponding lines ➊ ➋ ➌, ''Apoptosis'' lines ➍ ➎ and ''Mitochondrial Membrane Potential (Δψm)'' lines ➏ ➐. The line ➑ is blank line. 
^^{NOTE: To precision and accuracy of experiment we use Hoechst dye (specific for nuclei) to calculate an equivalent number of cells.  There is one variable in population of cells, the dimension of cells. Only by FACS is possible to select a distinct population of cells with an equivalent diameter}^^. 


!''Plating of the Cells - CellTak Method''
See the tiddly [[Design Plate 96 wells]] and [[ [0] Platform synchron]]. Procedure for CELTAK PLATE PREPARING //Dispence within 10 minutes// (for 69 wells): add 210 µL Cell-Tak to 420 µL dH~~2~~O, 1453 µL of 0.1N sodium bicarbonate and ∓105 µL of 1N NaOH to  pH 8,0 - 8,5. Place 30 µL diluted Cell-Tak into each well.  Shake delicate. Allow at least 20 minutes for adsorption. Flick or aspirate off the Cell-Tak solution and wash with distiled water, air dry before storing at 2-8 °C for aproximately two weeks. Adesive extracted from //Mytilus edulis//. An aid to attaining this pH window is to use a volume of NaOH equal of half the volume Cell-Tak solutions. Put Cell-Tak also in the Blank control of SeaHorse plate. 

|cssClass|k
|!cel tak ~~B~~|!H~~2~~O|!Bicarb|!NaOH|!Total|!wells30µL|h
|41 |400 |820 |20.5 |1281 |41 |
|80 |150 |540 |//∓ 40// |770 |25 |
|210 |420 |1453 |//∓ 105// |2083 |69 |
new formula pH 8.0 - 8.5. 


!☢☢☢ Prepare plate PROBES ☢☢☢:

Ⓐ Ⓑ Ⓒ Ⓓ Ⓔ Ⓕ Ⓖ Ⓗ Ⓘ Ⓙ 
Ⓐ Ⓑ Ⓒ Ⓓ Ⓔ Ⓕ Ⓖ Ⓗ Ⓘ Ⓙ 
Ⓐ Ⓑ Ⓒ Ⓓ Ⓔ Ⓕ Ⓖ Ⓗ Ⓘ Ⓙ 
Ⓐ Ⓑ Ⓒ Ⓓ Ⓔ Ⓕ Ⓖ Ⓗ Ⓘ Ⓙ 
Ⓐ Ⓑ Ⓒ Ⓓ Ⓔ Ⓕ Ⓖ Ⓗ Ⓘ Ⓙ 

//line Ⓐ is Hoechst solution, Ⓑ Antimycin-A + mito SOX, line Ⓒ mito SOX, Ⓓ line H~~2~~O~~2~~ , Ⓔ & Ⓕ line FITC Caspase-9 with Hoechst, Ⓖ TMRE MTG Hoechst, Ⓗ Omy CCCP TMRE MTG Hoechst, Ⓘ Omy CCCP , Ⓙ Antimycin-A//.

//Solutions can be aliquoted in wells or in PCR tubes - VWR 8 - clear flat strip caps # Cat no.: 83009-664; PCR-Tubes  # Cat no.: 20170-012; 

''Abbreviation'': ''SS'' Sol.Stock; ''SF'' Final Solution (Working Solution);  ''SI'' Solution Intermediare//. 

!!(A)  
- Pepare Prepare ''TUBE ^^Hoechst^^''  
(SS) [''1 µg/µL''] Hoechst 33342  Sol.Stock 
(SF) [''5 µg/mL''] Final Solution: 
add 50 µL (of 1 µg/µL stock) in 1 mL Buffer-BSA + 4 mL Buffer-BSA
- Aliquote 200 µL / well to the line ''Ⓐ''. 

!!(B) 
- Pepare [''5 mM''] MitoSox Stock Solution:  add 13 µL DMSO in original tube 50 µg. ^^[better version 100 µg MitoSox 10 mM for Final sol 50 µM]^^

- Prepare ''TUBE ^^A [25µM] MitoSOX^^'' :
add 13 µL (of 5 mM stock MitoSOX ) in 2600 µL buffer. Take 1/2 (1300 µL) to the next tube.

- Prepare ''TUBE ^^B [100µM]  Ant-A + [25µM] MitoSox^^'':
(SS) Stock Solution [''5 mM''] : Weigh 5.4 mg of Antimycin-A (Ant-A is hygroscopic Caution: Very toxic!!! Chemicals stored in the fridge or freezer should be allowed to reach room temperature before opening.) 
Add 2 ml ethanol 99.9%. Aliquote 200 µL (store at -20°C).
(Si) [''1 mM''] (1000 mM) add 200 µL of Sol Stok (5 mM) in 1 mL PBS
(SF) [''100 µM''] add 130 µL of  Antimicin-A Si (1 mM) in 1300 µL from TUBE ^^A^^.

- Aliqote 200 µL from Tube ^^B^^ to the line ''Ⓑ'' (Ant-A_mSOX). 
- Aliquote 200 µL from Tube ^^A^^ to the line ''Ⓒ'' (mSOX). 

//For later the ''Tube'' ^^C^^ {Ant-A} will be prepared at the step (H)//.

!!(C) 
- Prepare H~~2~~O~~2~~ (Hydrogen peroxide) 
(SS)  Stock Solution is [''9.79 M''] H~~2~~O~~2~~ (30%) MW:34.01
(Si) [''1 M''] (1000 mM) add 100 µL (of 30%) in 1 mL H2O
(Sii) [''100 mM''] add 100 µL  (of 1M) in 1 mL H2O
(SF) [''500 µM''] add 13 µL (of 100 mM) in 1300 µL MC  
Aliquote 200 µL from ''Tube'' ^^{H~~2~~O~~2~~}^^  to the line ''Ⓓ''.

!!(D)
- Prepare ''Tube'' {^^FITC~H^^} 
Take FITC-LEHD-FMK aliquoted 7 µL from BioVision (store at -20°C in the dark) and dilute in 2000 µL MC. 
and add 10 µL of Hoechst.
Aliquote 200 µL from ''Tube'' {^^FITC~H^^} to the line ''Ⓔ'' . 
Aliquote 200 µL from ''Tube'' {^^FITC~H^^} to the line ''Ⓕ''. 

!!(E) TMRE_MTG_H

- Prepare  ''Tube'' ^^1^^ (10 mL) {TMRE~MTG~Hoechst} for line ''Ⓖ'':

''TMRE'' 
(SS) [''1 mM''] Stock Solution: 2.5748 miligrams dilute in 5 mL ethanol 100% (store at -20°C in the dark)
(Si) [''100 µM''] Intermediate Solution: 5 µL stock dilute in 50 µL ethanol 100%
(SF) [''200 nM''] Final Solution: ''20'' µL Intermediate Solution dilute in 1+9 mL Buffer-BSA.
+
''(MTG) MitoTracker Green''  
(SS) [''1 mM''] MTG Stock Solution: 50 µg dilute in 74 µL DMSO ( alq. 2 µL and store at -20°C in the dark)
(SF) [''200 µM''] Final Solution: ''2'' µL stock dilute in 1+9 mL Buffer-BSA.
+
''(H)'' Hoechst 33342 
(SS) [''1 µg/µL''] Hoechst  Sol.Stock 
(SF) [''5 µg/mL''] Final Solution: ''50'' µL stock in 1+9 mL Buffer-BSA.

This means:
Tube ^^1^^  {TMRE~MTG~Hoechst} 
split it in half (keep 5 mL for  ''Tube'' ^^1^^ & 5 mL for ''Tube'' ^^2^^ with inhibitors).
Aliquote 200 µL from Tube ^^1^^ to the line ''Ⓖ''. 

!!(F) TMRE_MTG_H with inhibitors

- Prepare ''Tube'' ^^2^^ {Omy~CCCP~TMRE~MTG~Hoechst} for line ''Ⓗ'':

''Omy'' (Oligomycin):
(SS) [''100 mM''] Stock Solution: 0.00505 g disolve in 638.4 µL ethanol 100% and
alicote in 50 µL small eppendorf [store at -20°C].
(Si) [''1 mM''] Intermediate Solution: ''5'' µL stock dilute in 500 µL ethanol 100%
(SF) [''5 µM''] Final Solution: ''25'' µL in 5 mL mix Buffer-BSA. 
+
''CCCP'' (carbonyl cyanide protonophore of Δψm)  
(SS) [''50 mM''] Stock Solution: 10.231 miligrams in 1 mL DMSO [store at -20°C].
(Si) [''500 µM''] Intermediate Solution:   ''10'' µL Stock Solution dilute in 1000 µL Buffer-BSA
(SF) [''50 µM''] Final Solution: ''500'' µL Si dilute in 5 mL mix Buffer-BSA. 

This means:
''Tube'' ^^2^^ (Assay Buffer 5 mL) + 25 µL Omy (Si) + 500 µL CCCP (Si) + Hoechst + TMRE + MTG. Aliquote 200 µL from Tube ^^2^^ to the line ''Ⓗ''. 

!!(G)
 Prepare ''Tube'' ^^3^^ Assay Buffer 5 mL) + 25 µL Omy (Si) + 500 µL CCCP (Si).
⇉ {Omy~CCCP}. Aliquote 200 µL from ''Tube'' ^^3^^ to the line ''Ⓘ''.

!!(H)
- Prepare ''TUBE'' ^^C^^ {~Antimicin A} add 130 µL (of 1mM Antimicin -A stock) in 1300 µL Buffer-BSA.
- Aliquote 200 µL from Tube ^^C^^ to the line ''Ⓙ''.

!◙◙◙ PROCEDURE ◙◙◙

Open TECAN Safire and Magelan V7.2 software.
Rezerve time for mashine. Set at 30°C.
Set Temperature Control/ Temperature Control On / Target temperature 30°C. / Apply / OK .

//add Cells at 150 000 / well,  max 250 000.
0.150 x 41w= 6,15 Mil. in 8200 µL MC//
Use pipette reservoir for homogen disperising.

A | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑ 
B | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑  
C | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑   
D | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑   
E | ➊ ➋ ➌ ➍ ➎ ➏ ➐ ➑  


fix PIPPETE MULTICHANELL VOLUME  at ''200 µL''.  

!!STEP (I) for bloc ➊ ➋ ➌

''(1)'' with 5 tips aspire and add Hoechst solution from ''Ⓐ'' to the line ''➊'' 
[window time runing for ➊ ➋ ➌ is 40 min].
{⇉ note time to the line (15)}.
|cssClass|k
|!Time 0|! Time Final|h
|_:_ | ''➩''_:_ |

''(2)'' aspire and add sol. from the line ''Ⓑ'' {mitoSOX~Ant-A} to the line ➋.

''(3)'' aspire and add sol. from the line ''Ⓒ'' {mitoSOX} to the line ''➌''.

''(4)'' aspire and add sol. {H~~2~~O~~2~~} from the line ''Ⓓ'' to the line ''➍''.

''(5)'' incubate 5 min at 37°C in dark.
|cssClass|k
|!Chronometer|! T|h
|5:00 |☒ ☐ |

!!STEP (II) for bloc ➍ ➎ 

''(6)'' wash line ➍ three times.

''(7)'' add sol. {FITC^^~H^^} 
from the line ''Ⓔ''  to the line ''➍''  
for induce apoptosis [time incubation 60 min].
{⇉ note time to the line (22)}
|cssClass|k
|!Time 0|! Time Final|h
|_:_ |''➩''_:_  |

''(8)'' aspire line ➎ and add sol. {FITC^^~H^^} 
from the line ''Ⓕ'' to the line ''➎'' Sample.


!!STEP (III) for bloc ➏ ➐

''(9)'' aspire line ➏ and add sol {TMRE~MTG~Hoechst} 
from the line ''Ⓖ'' Tube ^^1^^ to the line ''➏''. 

''(10)'' aspire line ➐ and add sol. {Omy~CCCP~TMRE~MTG~Hoechst} 
from the line ''Ⓗ'' Tube ^^2 inhibitors^^ to the line ''➐''.

''(11)'' incubate both 20 min at 37°C in dark.

|cssClass|k
|!Chronometer|! T|h
|20:00 |☒ ☐ |

!!STEP (IV) for bloc ➏ ➐

''(12)'' wash once both line ▔➏ and line ➐▁    

''(13)'' add sol.{Omy CCCP} inhibitors 
from the line ''Ⓘ'' Tube ^^3^^ again to the line ''➐''.

''(14)'' add sol. buffer to the line ''➏''. 

!!STEP (V) for bloc  ➊ ➋ ➌

''(15)'' after 40 minutes wash line  ➊ ▔➋ ➌▁

''(16)'' add sol. {~Antimicin A} TUBE ^^C^^ 
from the line ''Ⓙ'' to line ''➋''. 

''(17)'' add sol. buffer to the line ''➊'' and ''➌''.


!!STEP (VI) PRIME SCAN for Potential 

//Read the plate on a fluorescence plate reader with settings suitable for: 
Select: ''fluoresecence'', wells number ''A1-E8'', ''bottom'' and specific  ''gain'' (manual)// Plate definition file: Costar  96-well  flat bottom  black (Cos96fb.pdf) Excitation bandwidth: 5.0 nm Number of flashes: 10
Lag time: 10 µs Integration time: 500 µs
//Save excell file as Scan ^^1^^ for TMRE, Scan^^2^^ for MTG, Scan^^etc^^//

''(18)'' Scan ^^1^^ TMRE 
 (Ex: 549 nm, Em: 575 nm), [Gain: (129) opt 210] "for  line ▔6 7▁"

''(19)'' Scan ^^2^^ MTG
 (Ex: 490 nm, Em: 516 nm), [Gain:(120) 160] "for line 6 7"

''(20)'' Scan ^^3^^ Hoechst  
(Ex: 354nm, Em: 442nm) [Gain: (100) 110] "for line 6 7" & "line 1"

''(21)'' Scan ^^4^^ MitoSOX^^40min^^ 
(Ex: 510 nm, Em: 580 nm) [Gain: 160] "for line ▔2 3▁"

!!STEP (VII) for bloc ➍ ➎ {FITC~H} after 60 minutes at 37°C in dark.

|!Time 0|! Time Final|h
|_:_ |''➩''_:_  |

''(22)'' wash line ▔➍ and ➎▁

''(23)'' add sol. buffer to the line ➍ and ➎

''(24)'' Scan ^^5^^ FITC
(Ex: 485nm, Em: 535nm) [Gain: (115) 190] "for line ▔4 5▁"

''(25)'' Scan ^^6^^ Hoechst ^^60min^^ 
(Ex: 354nm, Em: 442nm) [Gain: (100) 100] "for line 4 5"


!!★★★Preparation of★★★:

!Assay Buffer work also with PBS  {Multicell Cat.No.: # 311-011-CL} + (0.2%) BSA
Gibco DPBS [-] Ca [-] Mg {Gibco Cat.No.: # 14190-144 }
or 
{Buffer-BSA} for 200 mL pH 7.4 (with 1N KOH):
''[I]'' (80 mM) NaCl [FM:58.44] 0.93504 g {Fisher #S2713} ''S'' //(Sodium chloride)//
''[II]'' (75 mM) KCl [FM:74.55] 1.118 g {Sigma #P-4504} ''P'' //(Potasium chloride)//
''[III]'' (25 mM) D-glucose [FM:180.16] 0.9008 g {Sigma # 158968-500G} ''G''
''[IV]'' (25 mM) HEPES [FM:238.30] 1.1915 g {Sigma #H3375-250G} ''H''
filter 0.20 µm {Milpore  #83.1826.001} alicot in red tubes 50mL [-4°C] 
''[V]'' (0.2%) fresh BSA [from -4°C] 0.100 g in 50 mL Buffer 
or 2500 µL BSA MACS in 50 mL RPMI no fenol
(powder weighed before and distributed in eppendorf ready to use).

![0.1 M] Bicarbonate (NaHCO3) ''B''
Fisher Sci. # Cat.No: S233-500; Concentration = 0.1 M Formula Weight = 84.01 Vol.= 47 mL; Mass = 394 mg = 0.394 g pH 8.0 Filter-sterilise the buffer.

![1 M] NaOH  ''S''
Fisher #BP 359-500 FW: 40.0 add 2 milligrams in 50 mL

''NOTE 1''
''[1]'' Caspase-9 fluorimetric assay kit (100 µL)
CaspGLOW fluorescein active caspase-9 (green)
{BioVision Incorporated # Cat. No : K118-100}  Milpitas CA, wwwbiovision.com. 

''[2]'' [H2O2 (Hydrogen peroxide) {Fisher Cat. No : # H325-500} 30 % (W/W) 9.79 Molar [MW H2O2: 34.01]

''[3]'' MitoSOX {Molecular Probe # Cat.No : M36008} www.lifetechnologies.com [MW MitoSOX: 759]

''[4]'' Antimycin A (Ant-A or AmA) from Streptomyces sp. {Sigma # Cat.No: A8674-100MG} [MW Ant-a: 548.63]

''[5]'' Hoechst 33342  {Sigma # Cat. No: B2261}  [MW Hoechst: 561.93]

''[6]'' Cell-Tak cell tissue adhesive {Corning # Cat. No: 354240, 354241}

''[7]'' Omy (Oligomycin)  {Sigma # Cat. No: O4876-5MG [O = from Oli...]} [MW Omy: 791]

''[8]'' CCCP  carbonyl cyanide {Sigma # Cat. No: C2759} [MW CCCP: 204.62] 
 
''[9]'' TMRE {Invitrogen/Molecular Probe # Cat. No: T669} [MW TMRE: 514.96]

''[10]'' MTG MitoTracker Green FM {Invitrogen/Molecular Probe # Cat. No:M-7514} [MW MTG: 671.9797]

''[11]'' PI Propidium Iodide - 1.0 mg ⁄ mL Solution in Water Invitrogen- lifetechnologies.com‎ Catalog number # P3566 4 - 8°C]

''[12]'' Plate Black  96 well optical Btm Plt Polymer Base Black w/Lid Cell Culture Sterile PS 10/Bag 0,4 mL Well 
{ThermoScientific Nunc (Fisher) # Cat. No: 165305 75} 
Panorama Creek Drive Rochester, NY 14625-2385 www.thermoscientific.com

''[13]'' RPMI (l640) {Multicell # Cat. No: 358-007-CL}  


http://htslabs.com/   
Optimum Growth™  Flask, Wave® Bags (5L & 10L). Part # 931116 
Formatage text
http://tiddlywiki.org/#Markup
|cssClass|k

^^Version II Experience appoptosis detection for Caspase-9 {PI ~ LEHD-AFC}
Caspase-9 fluorimetric assay kit (# K118-100) BioVision Incorporated Milpitas CA, wwwbiovision.com. Ac-LEHD-AFC is a membrane permeable fluorogenic substrate that can be cleaved by caspase that recognize the amino acid sequence LEHD. The cleavage of the peptide by the caspase releases the AFC that, (free AFC after cleavage) when excited by light at 400 nm wavelength, emits fluorescence at 505 nm. The level of caspase enzymatic activity in the cell lysate is directly proportional to the fluorescence signal detected with a fluorescent microplate reader. Abreviation: [Ac-LEHD-AFC = N-Acetyl-Leu-Glu-His-Asp-7-amino-4-trifluoromethylcoumarin]. AFC = 7-amino-4-trifluoromethylcoumarin. SCAN PI (Ex: 535nm, Em: 617nm) Gain 149) SCAN LEHD-AFC ( Ex: 400nm, Em: 505nm) Gain 100). Fold-increase in Caspase-9 activity can be determined by comparing these results with the level of the uninduced control. Free AFC emits a yellow-green fluorescence (λmax = 505 nm).^^ 
       
''Magellan Step by Step'':
''(1)'' Open/ etc

''◙◙◙ Label to print ◙◙◙:''
''1'' →Ⓐ 
Tube ^^~Hoechst^^
☒ 5 mL Buffer
☐ 50 µL Hoechst (SS)

''2'' →Ⓒ 
Tube^^~A^^
☒ 2600 µL Buffer
☐ 13 µL MitoSOX (SS)
☐ 13 µL MitoSOX (SS)

''3'' →Ⓑ
Tube ^^~B^^
☒ 1300 µL Sol from Tube " ^^~A^^
☐ 130 µL of 1mM Ant - A (SS)

''4'' →Ⓙ 
Tube ^^~C^^
☒ 1300 µL Buffer
☐ 130 µL of 1mM Ant - A (SS)

''5A''
Tube Si [1 M] ^^~H~~2~~O~~2~~ ^^
☒ 1000 µL H~~2~~O
☐ 100 µL of 9.79 M perox 

''5B''
Tube Sii [100 mM] ^^~H~~2~~O~~2~~ ^^
☒ 1000 µL H~~2~~O
☐ 100 µL of 1 M perox  

''5C'' →Ⓓ
Tube Siii [500 µM] ^^~H~~2~~O~~2~~ ^^
☒ 1300 µL MC
☐ 13 µL of 100 mM perox 

''6'' → Ⓔ & Ⓕ
Tube ^^FITC~~LEHD-FMK~~ Hoechst^^
☒ 2000 µL MC
☐ 7 µL of FITC-LEHD-FMK
☐ 10 µL of Hoechst

''7''
Tube [100 µM] ''TMRE'' ^^~~Si~~^^
☒ 50 µL ethanol 100%
☐ 5 µL of [1 mM] Stock TMRE 

''8'' → Tube ''2'' →Ⓖ and  
Tube ''1'' ^^~~[200 nM]TMRE 
+ [200 µM]MTG~~+ [5 µg] Hoechst^^
☒ 1+9 mL mix Buffer
☐ 20 µL of [100 µM] Si TMRE 
☐ 2 µL [1 mM] SS MTG 
☐ 50 µL SS Hoechst 

''9''
Tube [1 mM] Si ^^~~Omy~~^^
☒ 500 µL ethanol 
☐ 5 µL of stock [100 mM] Omy

''10''
Tube [500 µM] Si ^^~~CCCP~~^^
☒ 1000 µL Buffer 
☐ 10 µL of stock [50 mM] CCCP

''11'' →Ⓗ
Tube ''2'' ^^~~TMRE + MTG + Hoechst 
+ [5 µM]Omy + [50 µM]CCCP~~^^
☒ 5 mL mix Tube ''2'' 
☐ 25 µL of  [1 mM] Si Omy
☐ 500 µL of [500 µM] Si CCCP

''12'' →Ⓘ 
Tube  ''3'' ^^~~[5 µM] Omy + [50 µM] CCCP~~^^
☒ 5 mL mix Buffer
☐ 25 µL of  [1 mM] Si Omy
☐ 500 µL of [500 µM] Si CCCP
◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙◙
END PROTOCOL

!Hamamatsu
CAMERA C4742-95
http://www.hamamatsu.com/us/en/support/software/index.html
DCAM-API (Digital CAMera Application Programming Interface)
for standardize camera control and functionality of all Hamamatsu digital cameras.
SimplePCI
http://hcimage.com/simple-pci-legacy/
2015
HCImage - 3378u - DIA

!VINCENT Uniblitz Shutters,
https://www.uniblitz.com/product/vcm-d1-single-channel-shutter-driver/
VCM-D1 Single Channel Uni-stable Driver
VINCENT uniblitz 2 shutters for Com 3 and for Com 4.
driver for the card SIIG-Inc-CyberSerial-PCI-16C550
Part Number:JJ-P02012-B6
Product Name: CyberSerial Dual
http://www.siig.com/download/search/?keyword=JJ-P02012-B6&f=true

http://www.computerdriverupdate.com/device/SIIG-CyberSerial-Dual-PCIe-DB-Driver-02-0273b-114477.html

!!!SIIG CyberSerial Dual PCIe-DB Driver 02-0273b is semi-permanently placed in hardware unless a manual removal, a software layer between the device and the operating system you run on. SIIG ^^CyberSerial Dual PCIe-DB Driver 02-0273b is an essential component of computer and is responsible for controlling programs of devices and hardware. The high performance is quite important to safeguard system normal operation. SIIG CyberSerial Dual PCIe-DB Driver 02-0273b translates between specific devices and a general operating system, such as Windows Operating System, Mac OSX, Android system, Linux, and many more. SIIG CyberSerial Dual PCIe-DB Driver 02-0273b coming designed with new features is quite crucial to ensure legacy hardware and system will be compatible with each other and deliver high performance without any trouble. By definition, SIIG CyberSerial Dual PCIe-DB Driver 02-0273b plays one of the most important tiles in high-efficiency operation of operating system. On the negative aspect, once the driver read with a yellow exclamation mark, users will have to face a series of errors claiming SIIG CyberSerial Dual PCIe-DB Driver 02-0273b is not installed or not fund or a lot of other errors.
IIG CyberSerial Dual PCIe-DB Driver 02-0273b Some Typical Errors

SIIG CyberSerial Dual PCIe-DB Driver 02-0273b is centrally controlled and managed by device manager, available in a wide version of Windows Operating Systems such as the typical Windows 7, Windows 8, and Vista. Whether it is for Microsoft Windows or Mac OSX or Linux, such SIIG CyberSerial Dual PCIe-DB Driver 02-0273b is necessary to ensure a general normal operation. Any error popping-up on your computer or phone prompts you the driver is abnormally working and the related driver issue should be resolved as quick as possible. Hardware and devices require drivers to work correctly and properly with a computer. Refer to the below details that the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b errors are more likely to happen. Refer to more about device driver problems.
No.1 - Update Error
Drivers get into serious mistakes at a high rate. Most of users have experienced a series of SIIG CyberSerial Dual PCIe-DB Driver 02-0273b update errors. This sort of error usually occurs after an abnormal update on your computer. Users usually receive pop-up errors just when Windows is starting. Just for example the typical and serious problem of blue screen of death. Driver software provides compatibility, but a lot of novice users have incompatible drivers installed on OS. At that time, such SIIG CyberSerial Dual PCIe-DB Driver 02-0273b would work abnormally and have to command pop-up error to inform users the potential problems. For such update driver errors, the fast measure is to uninstall the incompatible driver and install the correct one. How make sure the compatibility, user should find the targeted SIIG CyberSerial Dual PCIe-DB Driver 02-0273b's version number first.
No.2 - Driver Installation Error
Device driver software was not successfully installed, no driver found,'' the error may pop-up if you installed a new SIIG CyberSerial Dual PCIe-DB Driver 02-0273b and it's not working properly. SIIG CyberSerial Dual PCIe-DB Driver 02-0273b plays essential role to connect between computers and is responsible for telling the driver how and what to do. Once the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b installation error pop-up, it will stop working. There are many possible reasons why the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b might stop working. The main reason is the corrupted files or registries. If so, the settings will be wrong and the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b can work as usual. Usually, corrupted files and registries might occur once your computer is damaged by malware. Malware can control victimized OS and tamper with files and entries. Once done, SIIG CyberSerial Dual PCIe-DB Driver 02-0273b might be missing or wrong. When you get such problems, you need run security program to scan and kill all potential malware.
Solution for Outdated SIIG CyberSerial Dual PCIe-DB Driver 02-0273b Problem
Here it comes a common situation that computer users might encounter: unknown system prompts shows up on the computer screen suddenly with a SIIG CyberSerial Dual PCIe-DB Driver 02-0273b update request, and most of the computer users might chose to ignore them. Since then, a few more system issues and failures came one after another. To solve the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b outdated problem, users could employ different methods on a case-by-case basis.
Case 1: Occasional System Prompt about SIIG CyberSerial Dual PCIe-DB Driver 02-0273b Outdated Issue
Update SIIG CyberSerial Dual PCIe-DB Driver 02-0273b Using Device Manager
1
After download the latest version of SIIG CyberSerial Dual PCIe-DB Driver 02-0273b, you can come back to the Device Manager interface again. Also right click on the Properties there and then choose Update Driver Software option. There will be a pop-up informing you to have Windows search for drivers. Access to the local disk in which stores the latest version of SIIG CyberSerial Dual PCIe-DB Driver 02-0273b you have downloaded and then choose it to update.
2
After find the current version number of SIIG CyberSerial Dual PCIe-DB Driver 02-0273b, you can access to the targeted computer manufacture's site and check if the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b is the latest version. If not, you need to download the latest version that is compatible with OS on your computer and confirm between 32-bit and 64-bit

Sometimes, computer system could not read the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b successfully then send a prompt for noticing. For this case, users could reboot the computer and see if it is fixed.

How to Repair the Missing SIIG CyberSerial Dual PCIe-DB Driver 02-0273b

Missing SIIG CyberSerial Dual PCIe-DB Driver 02-0273b will cause serious problems you should not ignore, as unexpected system errors or issues could affect the use of the computer and cause damages. Once the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b is missing, some corresponding devices and software will not start or run properly, more seriously, if the system could not read and identify the driver during the system load, the computer might crash down. However, there could be a few of reasons could cause SIIG CyberSerial Dual PCIe-DB Driver 02-0273b missing problems, so users have to suit the remedy to the case. Here is the guide to solve the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b lost problems.
Step One: Open Device Manager

Press Win+Break keys at the same time and click on Device Manager in the pop-up window.

Step Two: Check the Missing SIIG CyberSerial Dual PCIe-DB Driver 02-0273b in the Device Manager and Re-install it

Find the symbols or marks in the Device Manager list.
1
If you see the device was labeled with a red cross mark, it means the current device is disabled so does the driver software. Then you can right-click on it and select the Enable command from the shortcut menu.
VEZI UNIVERSAL SERIAL BUS CONTROLERS
If you see a yellow question mark on the current item, it means the computer system is not able to identify the current hardware. Or if you see a yellow exclamation mark instead, it implies the current device driver has not been installed or the installation is incorrect. For this case, the best solution is to uninstall the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b and reinstall it correctly.
Reinstall the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b into the computer system correctly
1

Go to the official website to download the SIIG CyberSerial Dual PCIe-DB Driver 02-0273b software. Or you can check the disk that came with the device they day you bought them.
2

Run the downloaded SIIG CyberSerial Dual PCIe-DB Driver 02-0273b(or insert the disk) in the computer and run the program, follow the onscreen wizard to finish the reinstallation.^^

The Siig JJ-P02012-B is a dual port serial PCI adapter 32-bit PCI 5V adapter
The JJ-P02012-B is a 16550 based, fast serial, with 16-Byte buffer 2x DB9 ports
The Siig JJ-P02012-B offers built-in FIFO buffers dramatically increasing data transmit/receive speeds
IRQ sharing eliminates IRQ conflicts PCI v2.1 Plug & Play
http://www.iercomputer.com/jj-p02012-b.html

!Olympus Microscope - 4em ETAGE
Microscope IX81-ZDC & Q Imaging Q30036
Stage heater INU Lens heater
Prior Joystick
X-Cite Series 120 PC Q
Lumen dynamic (Lampe 0.12)
Black cube - Proscan III Prior
TRITC-CAM 60x -oil
C/computer, Data Drive (D) Labo B - B2015 06 16

!Win7 Duble Monitors Problem
the Windows logo comes up, then the black screen with a centered mouse cursor. I can move the cursor, but clicking does nothing and the pressing the keyboard keys doesn't do anything either. So there is no confusion, the screen is entirely black, with the exception of the mouse cursor. There is no task bar, no icons, nothing. A completely black screen.
SOLLUTION: 1. Windows would boot normally, boot up sounds, etc. everything works, except the screen is black, and the only thing I can see is the mouse pointer.
2. Booted into safe Mode with networking and used Bomgar to remote into the PC, restarted the PC with Bomgar and found that Dual monitors had been configured and the desktop was displayed on monitor 1 (The default monitor was set to 2) hence, the Black Screen only.
3. Disabled dual monitors and the desktop came back.
4. Restarted Windows normally, logged in verified it was still working.
I setup a bomgar trial using my laptop.

! MM (micro-manager)
http://micro-manager.3463995.n2.nabble.com/Any-luck-with-Hamamatsu-Orca-ER-under-linux-td6049341.html

https://www.microscopyu.com/articles/livecellimaging/automaticmicroscope.html

http://opencv.org/
de unde
http://www.esimagingsolutions.com/resources/case-studies/73-opencvgrabber-using-frame-grabbers-and-web-cameras-with-micro-manager

OpenCVgrabber
http://www.esimagingsolutions.com/resources/case-studies/73-opencvgrabber-using-frame-grabbers-and-web-cameras-with-micro-manager
Until now Micro-Manager (MM) has supported mostly expensive cameras with numerous features. During the development of an imaging system for a client the need arose for a simple, cost effective and readily available frame grabber that could be used with Micro-Manager. Searching for easy solutions to add to an existing computer proved difficult, especially when a PCI card is not an option. As a result OpenCVgrabber was born, the goal of this project is to bring low cost and easy to use cameras and grabbers to Micro-manager.
1 Download and install OpenCV 2.1
2 Download and install OpenCVgrabber
3 Configure Micro-Manager
Configure Micro-Manager
Create a new configuration for MM by running the Hardware Configuration Wizard and adding the OpenCVgrabber device on step three (as well as any other devices you use.) Make sure the device is actually connected to the computer and the manufacturer's drivers have been installed.

!Simple guide for determining the level of fluorescence in a given region (e.g mitochondria)
Select the cell of interest using any of the drawing/selection tools (i.e. rectangle, circle, polygon or freeform)
From the Analyze menu select “set measurements”. Make sure you have AREA, INTEGRATED DENSITY and MEAN GRAY VALUE selected (the rest can be ignored).
Now select “Measure” from the analyze menu or hit cmd+m (apple).
You should now see a popup box with a stack of values for that first cell.
Now go and select a region next to your cell that has no fluroresce, this will be your background.
NB: the size is not important. If you want to be super accurate here take 3+ selections from around the cell.
Repeat this step for the other cells in the field of view that you want to measure.
Once you have finished, select all the data in the Results window, and copy (cmd+c) and paste (cmd+v) into a new excel worksheet (or similar program)
Use this formula to calculate the corrected total cell fluorescence (CTCF).
NB: You can use excel to perform this calculation for you.CTCF = Integrated Density – (Area of selected cell X Mean fluorescence of background readings).
Make a graph. label the graphs as “Total Cell Fluorescence (Arbitrary Units)”
NOTE: Integrated Density – Calculates and displays two values: “IntDen” (the product of Area and Mean Gray Value) and “RawIntDen” (the sum of the values of the pixels in the image or selection). “RawIntDen” is only available in ImageJ 1.44c or later. “IntDen” and “RawIntDen” values are the same for uncalibrated image

http://dgtic.umontreal.ca/windows7_carte/Projet_migration_win7_carte_propos.html
wireless ubuntu
https://help.ubuntu.com/community/WifiDocs/Driver/Ndiswrapper
http://www.bioimagexd.net/index.php/download

! The thickness of the glass coverslips depends on the Coverslip No.,
as follows:
MatTek's Glass Bottom Culture Dishes
http://glass-bottom-dishes.com/pages/product.html
|cssClass|k
|!Coverslip No|!Thickness (mm)|h
|0 |0,085-0,13 |
|1 |0,13-0,16 |
|1,5 |0,16-0,19 |
|2 |0,19-0,23 |

https://micro-manager.org/wiki/Vincent
This adapter controls the Vincent shutter controllers D1, T1, D3 and D122 (not available anymore). Connect the controller through a serial port and configure the port as specified in the manual to your controller (the D122 uses a baudrate of 300, others are 9600, for the D122 set 'DelayBetweenCharsMs' to 50-100, for other controllers this can be 0). Multiple controllers can be daisy chained as the adapter can address these daisy-chained controllers (For property "Address", use "x" to address all daisy-chained controllers, or if there is a single controller).

The Vincent D3 controls up to 3 shutters. For each shutter, make a separate Vincent-D3 device, and set the "Channel #" pre-initialization property to the desired shutter number.

https://micro-manager.org/wiki/Hamamatsu

https://micro-manager.org/wiki/HamamatsuHam

mito cellprofiler
http://www.ncbi.nlm.nih.gov/pubmed/20566748

Kitami T, Logan DJ, Negri J, Hasaka T, Tolliday NJ, Carpenter AE, Spiegelman BM, Mootha VK (2012). A chemical screen probing the relationship between mitochondrial content and cell size. PLoS ONE 7(3):e33755 / doi. PMID: 22479437

Specialty Cellometer instruments
Selecting a Cellometer
http://www.nexcelom.com/Products/Choose-Cellometer.html


! Mini Flow Cytometry Muse® Cell Analyzer
from Millipore EMD Millipore, a division of Merck KGaA, Darmstadt, Germany

http://www.emdmillipore.com/CA/en/life-science-research/cell-analysis/muse-cell-analyzer/muse-installation-videos/TyGb.qB.jY4AAAFF9.AOa2up,nav;pgid=xptMKfaY5dZSRpEoNdlgbI720000AiEiwFfx;sid=E1uXPb2kkGmGPesYqi2GtVPxqt1VYnhZwOmdgavOvVQsazXKy5kPncjY2yrLYc2rev25JG7S0GZulfeEOIFr_hZIcfoTNC4ARCfW-5ZUuGWO_7ffyIIRxq6MFbt5g2yhFn8fU2VmmzVP_36Z6vO5JG7S

fluorescence-spectraviewer
https://www.thermofisher.com/ca/en/home/life-science/cell-analysis/labeling-chemistry/fluorescence-spectraviewer.html

''collection of fluorescence-spectra-viewers''
http://www.nightsea.com/sfa-sharing/fluorescence-spectra-viewers/

http://www.spectra.arizona.edu/
http://www.fluorophores.tugraz.at/substance/239



They use: AlexaFluor555 + PerCP, Alexa Fluor555 + PECy5, 7-AAD (dead cells nuclei) dead cell marker, PE, DAX-J2 Orange for NO, dihydroethidium (DHE) for ROS.
''Muse uses a green emission laser to excite fluorochromes''.
(I think is Yellow/Green) 
confirmation Optics 
— ''Excitation: Green Laser (532 nm)''
• ''Yellow'' fluorescence is detected within 28 nm bandwidth centered at ''576 nm''
• ''Red'' fluorescence is detected within 30 nm bandwidth centered at ''680 nm''
• Forward scattering signal is detected at laser wavelength

|cssClass|k
|!Excitation Green 532|! Filter Yellow 576 ➩|Filter Red 680 ➩|h
|AlexaFluor555|0.79412 mL|9 mL|
|30 mM|0.88235 mL|10 mL|
|30 mM|0.97059 mL|11 mL|
|30 mM|1.05882 mL|12 mL|
|30 mM|1.14706 mL|13 mL|


Some of them, like PI, 
can be excited by 488 nm laser (cyan Bleu) - low signal 5%.
☢ can be excited by 532 nm (laser) Green - low signal 10%
can be excited by 561 nm (laser) Yellow/Green - low signal 10%
can't be excited by 635 nm (laser) Red - No signal 0%

Alexa Fluor 555
can be excited by 488 nm laser (cyan Bleu) - low signal 10%.
☢ can be excited by 532 nm (laser) Green - good signal 50%
can be excited by 561 nm (laser) Yellow/Green - better signal 80%
can't be excited by 635 nm (laser) Red - No signal 0%

7-AAD (7-aminoactinomycin D)
can be excited by 488 nm laser (cyan Bleu) - good signal 50%.
☢ can be excited by 532 nm (laser) Green - good signal 90%
can be excited by 561 nm (laser) Yellow/Green - better signal 99%
can be excited by 635 nm (laser) Red - low signal 1%

PerCP-Cy5.5
can be excited by 488 nm laser (cyan Bleu) - signal 99%.
☢ can be excited by 532 nm (laser) Green -  signal 98%
can be excited by 561 nm (laser) Yellow/Green - good signal 40%
can be excited by 635 nm (laser) Red - low signal 20%

MitoSOX Red
can be excited by 488 nm laser (cyan Bleu) - signal 99%.
☢ can be excited by 532 nm (laser) Green -  signal 45%
can be excited by 561 nm (laser) Yellow/Green - low signal 5%
can't be excited by 635 nm (laser) Red - No signal 0%

Rhodamine 123
can be excited by 488 nm laser (cyan Bleu) - best signal 45%.
☢ can be excited by 532 nm (laser) Green -  signal 5%
can't be  excited by 561 nm (laser) Yellow/Green - No signal 0%
can't be excited by 635 nm (laser) Red - No signal 0%

PE  [R-PE (R-phycoerythrin)]

can be excited by 488 nm laser (cyan Bleu) - signal 50%.
☢ can be excited by 532 nm (laser) Green -  signal 90%
can be  excited by 561 nm (laser) Yellow/Green - signal 40%
can be excited by 635 nm (laser) Red - signal 28%

PerCP-Cy5.5

can be excited by 488 nm laser (cyan Bleu) - signal 100%.
☢ can be excited by 532 nm (laser) Green -  signal 75%
can be  excited by 561 nm (laser) Yellow/Green - good signal 90%
can be excited by 635 nm (laser) Red -  signal 25%

PI staining for cell cycle must be stequiometric, therefore you must be assure that there is enough PI for all cells. Be good to your flow cell and clean not only with 10% bleach for 10min, but also with 70% Ethanol to prevent build-up.



■ Pre-optimized kits - Mix-and-read -  ready for publishing [the reactifs are calibrated to obtain best signal]
■ use microcapillary technology and miniaturized optics 
■ Fluorescence emitted by a cellular event is detected as a voltage pulse,
■ tube Eppendorf  
■ 1 laser ( 2 filters  Red & Orange) examine up to 3 parameters
■  Cell concentration range of 10,000-500,000/mL
■  usual 200,000 cells to each tube minim 10 obj.
■ Cell size 2 - 60 microns (μm) in diameter
■  To buy: Instrument Cleaning Fluid (100 mLs) and calibrated kits.
■  Data analyzed on system (tablete/mouse) with USB export of graphs, CSV files, and raw data files Results are displayed in a report that can be previewed and then printed or converted to PDF format. The raw data files and .csv format files can also be exported as well. Data sets that have been exported can be re-analyzed on the instrument later.
■  Perfect for: Count & Viability, Cell Cycle, Human Lymphocyte CD25,69, T B cells scann, Mitopotential, ROS, apoptosis (Caspase, Anexin), NO,  cell signalling pathway markers.  (possible home made application)
They use: AlexaFluor555 + PerCP, Alexa Fluor555 + PECy5,  7-AAD (dead cells nuclei) dead cell marker, PE, DAX-J2 Orange for NO, dihydroethidium (DHE) for ROS. [spectra to print].

■ Muse® Count & Viability Reagent 100 Tests  CAD 195.00
■ Guava Instrument Cleaning Fluid (ICF) 4200-0140  for 100 mL   CAD 41.30
■ The Muse System Check Kit   MCH100101 for 100 Tests   CAD 248.00 
■ The Muse MitoPotential Assay Kit  MCH100110 for100 Tests   CAD 441.00 
■ Flow Cells (2) (0500-3120) Replacement Flow Cell for Muse Cell Analyzer price upon order completion 


https://www.emdmillipore.com/CA/en/life-science-research/cell-analysis/muse-cell-analyzer/hb2b.qB.lI0AAAE_vzlkifKv,nav?bd=1

http://www.emdmillipore.com/CA/en/product/,MM_NF-0500-3120?cid=BI-XX-BDS-C-EPDF-MUSE-B107-1502&isCountryEMD=yes#documentation


! Luna
from Logos Biosystems 
■ small, image-based systems, which only examine up to 2 parameters
■ Disposable slide only
■ 0,60$ slide 5k , 7k fluorescent 1 laser 2 filters (PE/Acridine orange) 

http://logosbio.com/cell-counters/lunafl/videos_view.asp



! Countess® II FL Automated Cell Counter
from  Thermo Fisher Scientific 
■ image-based systems, which only examine up to 2 parameters
■ Disposable slide / Reusable slide 
■ fluorescence capabilities—bright-field and two optional fluorescence channels (3 filters R G B)
light sourse is the fliter (1500$)
- Automated Cell Counter was designed to work with a reusable glass slide, which significantly reduces the long-term consumable costs of automated counting.
■ Particle/cell diameter range: 10–60 μm
■ Required sample volume: 10 μL
■ Camera: 5 megapixels, 2.5X optical magnification (olympus style)
■ $5,000 machine; $2,200/fluo cube; $400 reusable hemocytometer 

|cssClass|k
|!Light cube|!Ex|!Em|!Dye fluorescent|h
|DAPI|357|447|DAPI, Hoechst BFP|
|BFP|390|447|BFP|
|CFP|445|510|ECFP Lucifer Yellow|
|GFP|470|510|GFP Alexa Fluor® 488 SYBR® Green, FITC|
|YFP|500|524|EYFP, acridine orange (+DNA)|
|RFP|531|593|RFP, Alexa Fluor® 546, Fluor® 555, Cy®3, DsRed, Rhodamine Red, dTomato|
|Texas Red®|585|624|Texas Red®, Alexa Fluor® 568, Alexa Fluor® 594, MitoTracker® Red, mCherry|
|Cy®5|628|692|Alexa Fluor® 647, Alexa Fluor® 660, DRAQ5® 
|Cy®5.5|655|794|Cy®5.5|  


http://www.lifetechnologies.com/ca/en/home/brands/product-brand/countess-automated-cell-counter.html?gclid=CN2JsIiLssQCFQsFaQodaJoApA&s_kwcid=AL!3652!3!63634100951!b!!g!!+cell%20+counter&ef_id=VJQ9sgAABEwXnHA7:20150318141347:s

! Scepter™ 2.0 Cell Counter
from Millipore
■  portable cell counter uses the Coulter principle of impedance-based particle detection [one electrode in solution of eppendorf comunicate with a second electrod in detector]. As cells flow through the aperture in the sensor, resistance increases, and, by Ohm’s law (V=IR, where V=voltage, I=current, and R=resistance), this increase in resistance causes a subsequent increase in voltage. Voltage changes are recorded as spikes with each passing cell. histogram
■  tips 1-2 $/analyse

http://www.emdmillipore.com/CA/en/life-science-research/cell-analysis/scepter-cell-counter/w2ib.qB.Ly4AAAE_Pc1kifKu,nav?cid=BI-XX-BSP-P-GOOG-SCEP-B325-1002&isCountryEMD=yes


! TC20™ Automated Cell Counter 
from BioRad
■ image-based systems, which only examine up to 2 parameters
■  from BioRad - easy - small - only Insert the slide into the TC20 cell counter 
■  Camera detection obtain a total cell count (without trypan blue) or total and live cell counts (with trypan blue) in 30 seconds.
■ Cell diameter range,  6 – 50 µm
■ Sample volume, µl 10
■  Image of cells available
■  Disposable slide only
■  $0.60/slide
■ ~$3.5K-
http://www.bio-rad.com/en-us/product/tc20-automated-cell-counter


http://olympus.magnet.fsu.edu/primer/techniques/confocal/fluorophoresintro.html

kidney proximal tubule cells (PTC) or
primary human renal proximal tubule epithelial cells (RPTECs)
((human uroepithelial cells (HUC)))

2 000–7 000 cells are detached from human kidney daily.
After collection, the total number of cells should reach ~100 000–200 000 cells within 2–3 weeks of culture.

Urine sample collection: urine cells should be isolated immediately after collection. (can be refrigerated for up to 3 h) and tranfer samples to sterile 50-mL tubes. (volume minimum 4 x 50 mL).
Cetrifuge 1200 rpm 10 minutes (125 xg). (Thermo electron corporation Centra CL2 centrifuge).
Aspirate the supernatant, leaving only 500 µL in the tube.
Resuspend the cell for washing in 10 mL of MC medium 10% FBS 1%P/S [(MEM α (Minimum Essential Medium α) Gibco® Catalog number: 12571-063 +50 mL FBS, +5 mL Pen/Strep]. 
Cetrifuge 1200 rpm 10 minutes.
Resuspend the cell pellet in 2 mL of MC and then transfer the volume into a single well of a 24-well plate Falcon Primaria™ 24 Well Clear Multiwell Plate Cat.No 353847 (coated before with polylisine) and incubate the cells at 37 °C for 24 h. 
Approximately 24 h after plating, aspirate 1 mL of the medium, leaving ~1 mL, and then add 1 mL of proliferation medium (Lonza). 
Lonza Medium:  add 5% FBS and 1% P/S in REGM BulletKit Cat. No: CC-3190 (contains REBM Basal Medium 500 mL cat no: CC-3191 & REGM SingleQuot Kit Suppl. & Growth Factors  Cat No: CC-4127)  aprox. 130$. 
Small colonies (of approximately two to four cells) should appear from 72 to 120 h (3–5 d) after plating and grow steadily. 
Change medium each 2-3 days leaving ~1 mL, and then add 1 mL of new proliferation medium (Lonza). 
When the urinary cell culture becomes dense enough for passaging (80% confluency; around 9–12 d after plating), split all the cells onto a new well of a 12-well plate for further expansion with accutase or trypsin. This is considered passage 1.

⓪ ① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨ ⑩ ⑪ ⑫ ⑬ ⑭ ⑮ ⑯ ⑰ ⑱ ⑲ ⑳ ㉑ ㉒ ㉓ ㉔ ㉕ ㉖ ㉗ ㉘ ㉙ ㉚ ㉛

! Seeding Adherent CM in XF96 Cell Culture Microplates (Using Attachment Protocol Fibronectin)

0. Prepare the XF96 plate (Seahorse Cat No. #. ) 
1. Thaw carefully the Fibronectin (Calbiochem  Cat No. # 341631) by placing the vial in a 37°C water bath until it is completely thawed. 
Be VERY careful during the thawing process. DO NOT DISTURB OR REMOVE THE VIAL AT ANY TIME DURING THE THAWING PERIOD. 
If the vial is disturbed or removed prior to complete thawing, the product will gel and be unusable. DO NOT VORTEX. DO NOT SHAKE AFTER THAWING. Mix very gently after thawing.
2. After thawing, bring the solution aliqoted to a final volume of 5 mL with sterile serum-free medium (or PBS) that has been pre-heated to 37°C (original solution divided in 4 tubes). This yields a fibronectin solution of 50 µg/mL.
3. Add enough solution (25 - 40 μL) and swirl gently to completely coat the entrie surface of wells.
4. Incubate the dishes at room temperature for ~ 45 min to permit binding of the fibronectin to the growth surfaces.
5. Aspirate to remove fibronectin and fill with serum-free medium. Keep it up until the cells are ready form Milteny isolation procedure (Cat No. # 130-100-825).
6.While cells are being centrifuged, pipette first 200 μL Medium into Background/Control wells of XF96 Microplates.
7. Resuspend cells in warmed Medium to the desired concentration of cells per well in 50 μL of assay
medium (0.2  × 10^^6^^ cells/w). Each FX microplate is formatted in a typical 96-well, 0.106 cm^^2^^, smaller than in a typical 96-well plate. Hold the pipette tip at an angle about halfway down the side of the wells.
8.  Using a multichannel pipette pipette 50 μL of the CM suspension along the side of each well, except for background/control wells.  
CM with Low Glucose DMEM (5.5 mM) Medium (Wisent Multicell  Cat No. # 319-010-CL (with 1g/L D-Glucose, with L- Glutamine &Sodium Pyruvate) with 10% FBS and 1% P/S. Warm medium in a 37°C water bath. Do not allow coating fibronectin to dry. 


{{{ Poly-Lysine Cell Attachment Protocol is more simple. Using 0.01% P4832 Sigma (Catalog No. G1393) frigo 2 - 8°C coat culture surface with 50 μL / well to pool over surface of wells, incubate 15 minutes at room temperature, aspirate solution, fill with serum-free medium until the cells are ready}}}.

polylysine 
A ◒◒◒◒◒◒ ◒◒◒◒◒◒ 
B ◒◒◒◒◒◒ ◒◒◒◒◒◒ 
C ◒◒◒◒◒◒ ◒◒◒◒◒◒ 
D ◒◒◒◒◒◒ ◒◒◒◒◒◒ 
fibronectine 
E ◓◓◓◓◓◓ ◓◓◓◓◓◓ 
F ◓◓◓◓◓◓ ◓◓◓◓◓◓ 
G ◓◓◓◓◓◓ ◓◓◓◓◓◓ 
H ◓◓◓◓◓◓ ◓◓◓◓◓◓ 

Polylysine ◒; Fibronectine ◓; Background/Control wells no cells ◍ 

after seeding with cells

A ◒◍◒◒◍◒ ◒◍◒◒◍◒ 
B ◒◒◒◒◒◒ ◒◒◒◒◒◒ 
C ◒◒◒◒◒◒ ◒◒◒◒◒◒ 
D ◒◒◒◒◒◒ ◒◒◒◒◒◒ 
E ◓◓◓◓◓◓ ◓◓◓◓◓◓ 
F ◓◓◓◓◓◓ ◓◓◓◓◓◓ 
G ◓◓◓◓◓◓ ◓◓◓◓◓◓ 
H ◓◍◓◓◍◓ ◓◍◓◓◍◓ 

@@color:#4bbbbb;
NOTE 1 
Glucose Molecular weight = 180.16 g/mol;
DMEM verry high glucose = 4.5 g/L Glucose (25 mM)
DMEM high glucose = 1.80160 g/L Glucose (10 mM)
DMEM low glucose = 1.0 g/L Glucose (5.5 mM)
DMEM very low glucose = 0.45040 g/L Glucose (2.5 mM)@@

9.Slowly and gently, add 125 μL warm medium along the side of each well (Final vol 175 μL max 200 μL). 
Take care to avoid disturbing the cells.

!Washing Cells in XF96 Cell Culture Microplates

1. Warm the Low Glucose DMEM (5.5 mM) medium to 37°C.
2. Retrieve your cell plate from the CO~~2~~ incubator.
3. Observe the cells under the microscope to confirm cell health, morphology, seeding uniformity and purity (no contamination), ensure cells are stably adhered to the culture surface, and no gaps are present, make sure no cells were plated in the Background wells. [μPhoto obj. 4×]
4. Remove all but 20 μL of the culture medium from each well.
5. Add 180 μL of assay medium (or 155 μL of medium to each well for a final volume of 175 μL/well)
6. Look at cells under the microscope to ensure that cells were not washed away.
7. Place the plate in a 37°C incubator with CO~~2~~ for 48 hour prior to the assay.
8. In the Day of the XF96 Assay remove all but 20 μL of the culture medium. 
9. Add 155 μL of MCXF to each well for a final volume of 175 μL/well
8. Place the plate in a 37°C incubator without CO~~2~~ for minimum one hour prior to the assay. 
//Incubator NOT supplemented with CO2 gas = non-CO~~2~~//

! GALACTOSE Medium for CM
48  hour before use GALACTOSE medium

⧨ 425 mL DMEM Medium Wisent Multicell  Cat No. # 319-060-CL (sans D-Glucose, with L- Glutamine & Sodium Pyruvate) 
⧨ 50 mL FBS [10%] 
⧨ 5 mL P/S [1%]
⧨ 10 mL Galactose [0.5M] → [10 mM] finale (form SIGMA G5388-100G pudre MW:180.16 soluble ds H2O) synonime D-(+)-Galactose
⧨ 5 mL HEPES [1 M] → [10 mM] finale (from SIGMA H3537 -100 mL lichid)
⧨ 5 mL Sodium Pyruvate (from SIGMA S8636 100 mM lichid).

^^ la recette de Heidi, donc: Je prends le 75 mL de DMEM w/o glucose pour faire du galactose 0.5 M. 
MW galactose: 180.16
1 M= 180.16 g → 1000 mL
1 M= 180.16 mg → 1 mL
0.5 M = 90.08 mg → 1 mL
soluble: 100 mg/mL.
C~~1~~ × V~~1~~ = C~~2~~ × V~~2~~
500 mM × Z = 10 mM ×500 mL
Z= 10 mL. 
Si 75 mL DMEM w/o glucose: 
90.08 mg → 1 mL
3378 mg → 37.5 mL
soit 3.378 g → 37.5 mL (× 2)
(Aliquoter 10 mL & congeler)
^^

! MC XF (Seahorse Assay Medium) for CM

No Bicarbonate ! Seahorse medium  pyruvate (1 mM), glutamine (2 mM), and glucose 5.5 mM, no FBS, no P/S.
for incubation 37°C without CO~~2~~ and dilution of the compounds.

► Dissoudre 4.15 g de DMEM (D5030 Sigma) dans 250 mL H2Odd (pudre frigo lab)
► Dissoudre 0.925 g de NaCl (_ Sigma) dans autre 250 mL H2Odd
► Melange les 2 solutions et enlever 10 mL
► Ajouter 5 mL (100x) de Glutamax (35050-061 Gibco)
► Ajouter 5 mL de sodium pyruvate 100 mM
► Ajouter 0.49544 g glucose (5.5 mM) ds 500mL 1.0 g/L Glucose
► Chaufer le millieu a 37°C pH 7.4 with NaOH, Filtre 0.22 μm, garder a 4°C.

! Procedures the Day Before the XF96 Assay

@@color:purple;
The Basic Procedure for hydrating a sensor cartridge may not always eliminate bubbles that may form during the overnight incubation. Bubbles can cause negative oxygen consumption rates (OCR) by interfering with the instrument calibration. If the XF data contains negative OCR data when using the Basic Procedure, we recommend the following water procedure for subsequent assays:

''Day Prior to Assay''
◘ ①. Aliquot at least 20 mL of Seahorse XF ''Calibrant'' into a 50 mL conical tube.
◘ ②. Place this Seahorse XF ''Calibrant'' in a ''non''-CO~~2~~ 37°C incubator overnight.
◘ ③. Open the XFe96 Extracellular Flux Assay Kit and remove the contents.
◘ ④. Place the ''sensor cartridge'' upside down next to the utility plate.
◘ ⑤. Fill each well of the utility plate with 200 μL of ''sterile water''.
◘ ⑥. Lower the sensor cartridge onto the utility plate submerging the sensors in water.
◘ ⑦. Verify the water level is high enough to keep the sensors submerged.
◘ ⑧. Place assembled sensor cartridge and utility plate in a same ''non''-CO~~2~~ 37°C incubator ''overnight''.
◘ ⑨. To prevent evaporation, verify that the incubator is properly humidified
''Day of Assay''
◘ ⑩. Remove the conical tube of calibrant and assembled sensor cartridge with utility plate from incubator.
◘ ⑪. Place the sensor cartridge upside down next to the utility plate.
◘ ⑫. Remove and discard water from the utility plate.
◘ ⑬. Fill each well of the utility plate with 200 μL of pre-warmed ''Calibrant''. No Bubbles.
◘ ⑭. Lower the sensor cartridge onto the utility plate submerging the sensors in calibrant.
◘ ⑮. Place assembled sensor cartridge with utility plate in a ''non''-CO~~2~~ 37°C incubator for ''60'' minutes prior to loading drug ports of the sensor cartridge @@.

!! ''Loading the Seahorse XFe96/XF96 Sensor Cartridge with Compounds using The XF cell mito stress test kit ''

^^The XF cell mito stress test kit Cat No:103015-100  ($ 435) provides a complete mitochondrial profile, and reveals critical information not evident in basal metabolism measurements alone. This test  measures key parameters of mitochondrial function by directly measuring the oxygen consumption rate (OCR) of cells. t uses modulators of respiration that target components of the electron transport chain (ETC) in the mitochondria to reveal key parameters of metabolic function. The compounds (oligomycin, FCCP, and a mix of rotenone and antimycin A) are serially injected to measure ATP production, maximal respiration, and non - mitochondrial respiration, respectively. Proton leak and spare respiratory capacity are then calculated using these parameters and basal respiration.
Contents:
Six single-use reagent pouches containing pre-calibrated, pre-tested reagents: ''Oligomycin (ATP Coupler)'', ''FCCP (ETC Accelerator)'', ''Antimycin A (Mito Inhibitor A)'', ''Rotenone (Mito Inhibitor B)'' for 6  microplate assays. Store at room temperature^^.


//Recommended injection volume is 20-30 μL. Each series of ports must contain the same volume. (For example, all A ports must be filled with the same volume; all B ports must be filled with the same volume, etc.). All wells, including Background Correction or blank wells, need to have vehicle or compound loaded in the port being used to ensure proper injection in all wells. In this case Port D is not porgramated, is empty. All compounds should be diluted with  XF Medium before being loaded into the sensor cartridge. The hydrated XF sensor cartridge must remain in the utility plate, and be placed flat on the work surface throughout the loading procedure. Do not lift or angle the plate/cartridge away from the work surface while loading. Handle the XFe96 cartridge very carefully. Hold the base of the utility plate when transporting a cartridge. Do not hold the cartridge and utility plate between your thumb and fingers. Avoid traveling with the cartridge. To mitigate the accidental discharge of compounds prior to starting the assay, the best practice is to hydrate the cartridge and load the injection ports adjacent to the XFe96 Analyzer. The hydrated XF assay cartridge must remain in the utility plate and be placed flat on the work surface throughout the loading procedure. Do not lift or angle the plate away from the bench while loading. Hold the base of the utility plate whenever handling the cartridge to avoid triggering discharge from the injection ports//.

Open pouch and remove the three tubes containing oligomycin (blue cap), FCCP (yellow), and rotenone / antimycin A (red). Place tubes in a small tube rack.
Re-suspend contents of each tube with prepared assay medium in volumes described in the Table with a pipette.
Gently pipette up and down (~10 times) to solubilize the compounds.


|Compound|Cap Color|Volume to add to the tube|Final Stock Concentration|h
|''Oligomycin''|blue|630 μL|100 μM|
|''FCCP''|yellow |720 μL|100 μM|
|''Rotenone + antimycin A ''|red|540 μL|50 μM|

Constant Volume injection [25 μL]
Starting well Volume [175 μL assay medium]

http://www.physiologyweb.com/calculators/dilution_calculator_molarity_percent.html


{{{ Plate Nr 001 (2 junie) Serie nr.09 (d3) × [8]  26 mai 2016 type +/+ magnetic isolated on 27 mai 2016. Cultured 6 days: Low glucose (3 days) & GALACTose (3 days) → run MCFX low glucose [5.5 mM], Treatment Xanthine + Xanthine-oxidase 0.5 μL + 0.5 μL ds 1 mL MC (for 30 min)}}}.

Polylysine [1-6 CTRL] & [7-8 XXO 0.5 + 0.5 μL/mL, 30 min]
A ◒◍◒◒◍◒ ◒◍◒◒◍◒ port B [0.5 μM]
B ◒◒◒◒◒◒ ◒◒◒◒◒◒ port B [1.0 μM]
C ◒◒◒◒◒◒ ◒◒◒◒◒◒ port B [5.0 μM]
D ◒◒◒◒◒◒ ◒◒◒◒◒◒ port B [10 μM] cccp
Fibronectine [1-6 CTRL] & [7-8 XXO]
E ◓◍◓◓◍◓ ◓◍◓◓◍◓ port B [0.5 μM]
F ◓◍◓◓◍◓ ◓◍◓◓◍◓ port B [1.0 μM]
G ◓◍◓◓◍◓ ◓◍◓◓◍◓ port B [5.0 μM]
H ◓◍◓◓◍◓ ◓◍◓◓◍◓ port B [10 μM] cccp

Starting volume 175 μL; 
Port volume inj. 25 μL;
Port A: [1 μM]; 
Port B: [0.5 - 10 μM]
Port C: [5 μM]

Standard Assay - no additional injection: 
Load compounds into the appropriate ports of a hydrated sensor cartridge:
Port A : Oligomycin
Port B : FCCP 
Port C: Rotenone & antimycin A

http://www.physiologyweb.com/calculators/dilution_calculator_molarity_percent.html

▛ A ▜ oly

pour 3 mL
175 μL cells medium + 25 μL [''8 μM''] = 200 μL  volum A final [1 μM] / well.
//240 μL stock [100 μM] + 2760 μL MC FX → ''8 μM'' (aliqot 25 μL ds well)//

▛ B ▜ FCCP


[1 for → 0.5] pour 650 μL (6 wells × 4 = 24 wells × 25 μL = 600 μL → 650 μL)
200 μL cells medium oly + 25 μL [4.5 μM] = 225 μL volum B1 final [0.5 μM] / well.
//29.25 μL stock [100 μM] + 620.75 μL MC FX → 4.5 μM (aliqot 25 μL ds well)//

[2 for → 1] pour 650 μL
200 μL cells medium oly + 25 μL [9 μM] = 225 μL volum B2 final [1 μM] / well.
//58.5 μL stock [100 μM] + 591.5 μL MC FX → 9 μM (aliqot 25 μL ds well)//

[3 for → 5] pour 650 μL
200 μL cells medium oly + 25 μL [45 μM] = 225 μL volum B3 final [5 μM] / well.
//292.5 μL stock [100 μM] + 357.5 μL MC FX → 45 μM (aliqot 25 μL ds well)//

[4 for → 10] pour 650 μL (notre CCCP)
200 μL cells medium oly + 25 μL [90 μM] = 225 μL volum B4 final [10 μM] / well.
//1.17 μL stock [50 mM] + 649 μL MC FX → 90 μM (aliqot 25 μL ds well)//

▛ C ▜ Rot & Ant-A

pour 3 mL 
225 μL cells medium oly fccp + 25 μL [''5 μM''] (10×) = 250 μL  volum C final [0.5 μM] / well.
//300 μL stock [50 μM] + 2700 μL MC FX → ''5 μM'' (aliqot 25 μL ds well)//



STEP ❶ 
Pre-warm  the machine 1 hour before.
Pre-warm injection compounds to 37°C. NOTE: It is strongly recommended that injected compounds be at pH 7.35 - 7.4 at 37°C prior to loading into the injection ports.

STEP ❷ 
Orient the XF Assay Cartridge. Place row labels (lettered A-H) to the left. The triangular notch (circled in red) will be in the bottom left-hand corner.

STEP ❸ 
Place the ''A/D loading guide'' flat on top of the XF assay cartridge. Orient the loading guide so the letter ''A'' (circled in red) is located in the upper left-hand corner. Use your fingertips to hold the outside edges of the loading guide to stabilize during loading so pipette tips do not dislodge the loading guide.

STEP ❹
Using a p100 or a 10-100 μL multichannel pipette, make sure the tips are securely fitted onto the pipette. Position the pipette tips (filled with your compounds for injection) into the desired column in the loading guide, and orient the tips at a very slight angle. Insert the tips as far as they will go without resistance into the holes and dispense the compound. Do not force the tips into the holes. Note: See recommendations for pipettes and tips below. Automated pipettes are generally not recommended for cartridge loading, as they may lead to compound leakage through the bottom of the ports.

STEP ❺
Dispense the compounds into the ports gently via a single stream. Withdraw the tips from the ports carefully, stabilizing the loading guide throughout the procedure. Avoid creating air bubbles. Do NOT tap any portion of the cartridge in an attempt to alleviate air bubbles. This may cause compound leakage from the injection port.

STEP ❻
Switch to the ''B/C loading guide''. Orient with the letter ''B'' (circled in red) in the upper left-hand corner. Repeat loading procedure outlined in steps 2-4 for ''B'', ''C'' and ''D'' injection ports, using the appropriate loading guides. Remove and discard loading guide(s).

STEP ❼
Position yourself at eye level with the cartridge and visually inspect the injection ports for even loading. The liquid should be down at the bottom of the port, make sure there are no residual drops on top of the cartridge. Record the position of any ports which appear uneven for later data analysis. Once all compounds have been loaded according to your experimental design, carefully transfer the cartridge (together with the utility plate) to the XF Analyzer to start calibration immediately prior to the assay.

❽ IMPORTANT: Remove all loading guides and plate lids before inserting the cartridge into the XF Analyzer.

! The XF Analyzer Procedure.

//A traduire
~~Injectia (1) port ''A'': Olygomycina ''↓'' sinteza de ATP ''↓'' respiratia → calcul pentru productia de ATP; injectia (2) port ''B'': FCCP distruge gradientul de protoni ''↑'' fluxul de electroni ''↑'' respiratia via complex IV → calcul pentru capacitatea de respiratie (diferenta dintre maxim si minim); injectia (3) port ''C'': combinatie Rotenone ''↓'' complex I & Ant-A ''↓'' complex III,   ''↓'' total respiratia mitocondriala →  calcul pentru respiratia non mitocondriala; injectia (4) port ''D'' pentru PMA (?)~~//  


http://www.seahorsebio.com/resources/documentation/basicprocedures/XF96.php?xf96

On June 6th 2016 Seahorse Bioscience www.seahorse-bioscience will become Agilent Technologies and the webpage will be redirected to www.agilent.com.

/***
|''Name''|TiddlySpaceTiddlerIconsPlugin|
|''Version''|0.8.10|
|''Status''|@@beta@@|
|''Author''|Jon Robson|
|''Description''|Provides ability to render SiteIcons and icons that correspond to the home location of given tiddlers|
|''Source''|http://github.com/TiddlySpace/tiddlyspace/raw/master/src/plugins/TiddlySpaceTiddlerIconsPlugin.js|
|''Requires''|TiddlySpaceConfig BinaryTiddlersPlugin ImageMacroPlugin TiddlySpacePublishingCommands|
!Notes
{{{<<tiddlerOrigin>>}}} shows the origin of the tiddler it is being run on.
In TiddlySpace terms this means it will determine whether the tiddler is external, public or private.
Where private it will analyse whether a public version exists and distinguish between the different scenarios.
If a tiddler is external, the SiteIcon of that external space will be shown

!Parameters
width / height : define a width or height of the outputted icon
label: if label parameter is set to yes, a label will accompany the icon.
!Code
***/
//{{{
(function($) {

if(!config.macros.image) {
	throw "Missing dependency: ImageMacroPlugin";
}

var imageMacro = config.macros.image;
var tiddlyspace = config.extensions.tiddlyspace;
var tweb = config.extensions.tiddlyweb;
var cmds = config.commands;
var cmd = cmds.publishTiddler;
tiddlyspace.resolveSpaceName = function(value) {
	var endsWith = config.extensions.BinaryTiddlersPlugin.endsWith;
	if(value) {
		value = value.indexOf("bags/") === 0 ? value.substr(5) : value;
		value = value.indexOf("recipes/") === 0 ? value.substr(8) : value;
		if(value.indexOf("@") === 0) {
			value = value.substr(1);
		}
		if(endsWith(value, "_public")) {
			value = value.substr(0, value.length - 7);
		} else if(endsWith(value, "_private")) {
			value = value.substr(0, value.length - 8);
		}
		value = value.toLowerCase();
	}
	return value;
};

tiddlyspace.renderAvatar = function(place, value, options) {
	options = options ? options : {};
	options.labelOptions = options.labelOptions ? options.labelOptions : { include: false, height: 48, width: 48 };
	options.imageOptions = options.imageOptions ? options.imageOptions : {};
	options.imageOptions.altImage = "/bags/common/tiddlers/defaultUserIcon";
	var container = $('<div class="siteIcon" />').appendTo(place);
	value = tiddlyspace.resolveSpaceName(value);

	tweb.getStatus(function(status) {
		var link, noLabel;
		if(!value || value == config.views.wikified.defaultModifier ||
			value == config.views.wikified.shadowModifier) {
			var icon = config.views.wikified.shadowModifier == value ? "shadowIcon" : "missingIcon";
			if(store.tiddlerExists(icon)) {
				imageMacro.renderImage(container, icon, options.imageOptions);
			} else {
				noLabel = true;
			}
		} else {
			var spaceURI;
			if(value != tiddlyspace.currentSpace.name) {
				spaceURI = options.notSpace ? tiddlyspace.getHost(status.server_host) :
					tiddlyspace.getHost(status.server_host, value);
			}
			link = spaceURI ? $("<a />").attr("href", spaceURI) : $("<span />");
			link.text(value);

			var imageOptions = options.imageOptions;
			if(options.spaceLink && !imageOptions.link) {
				imageOptions.link = spaceURI;
			}
			var avatar = options.notSpace ? false : value;
			var uri = tiddlyspace.getAvatar(status.server_host, avatar);
			imageMacro.renderImage(container, uri, options.imageOptions);
			if(!value) {
				value = "tiddlyspace";
			}
		}
		if(!noLabel && options.labelOptions.include) {
			var prefix = $("<span />").text(options.labelOptions.prefix || "")[0];
			var suffix = $("<span />").text(options.labelOptions.suffix || "")[0];
			$('<div class="label" />').append(prefix).append(link).
				append(suffix).appendTo(container);
		}
	});
	if(value) {
		var prefix = options.labelOptions.prefix || "";
		var suffix = options.labelOptions.suffix || "";
		var label = "%0%1%2".format(prefix, value, suffix);
		$(container).attr("title", label);
	}
};

var originMacro = config.macros.tiddlerOrigin = {
	locale: {
		"shadow": "shadow tiddler",
		"missing": "missing tiddler",
		"private": "private",
		"unknown": "unknown state",
		"public": "public",
		"unsyncedPrivate": "unsynced and private",
		"unsyncedPublic": "unsynced and public",
		externalPrefix: "from ",
		externalBagSuffix: " bag",
		externalSuffix: " space",
		publishPrivateDeletePrivate: "Are you sure you want to make this tiddler public?",
		moveToPrivate: "Are you sure you want to make this tiddler private? Only members will be able to see it.",
		pleaseWait: "please wait..",
		keepPublic: "keep public",
		cannotPublishDirtyTiddler: "The current tiddler is unsaved so cannot be published. Please save the tiddler first.",
		keepPrivate: "keep private",
		makePublic: "make public",
		makePrivate: "make private"
	},
	handler: function(place, macroName, params,wikifier, paramString, tiddler){
		var adaptor = tiddler.getAdaptor();
		var btn = $("<div />").addClass("originButton").attr("params", paramString).
			attr("refresh", "macro").attr("macroName", macroName).appendTo(place)[0];
		$(btn).data("tiddler", tiddler);
		originMacro.refresh(btn);
	},
	refresh: function(btn) {
		$(btn).empty();
		var paramString = $(btn).attr("params");
		var tiddler = $(btn).data("tiddler");
		var options = originMacro.getOptions(paramString);
		var type = tiddlyspace.getTiddlerStatusType(tiddler);
		originMacro.renderIcon(tiddler, type, btn, options);
	},
	getOptions: function(paramString) {
		paramString = "%0 label:no width:48 height:48 spaceLink:yes preserveAspectRatio:yes".format(paramString);
		var parsedParams = paramString.parseParams("name");
		var params = parsedParams[0].name;
		var options = {
			labelOptions: originMacro._getLabelOptions(parsedParams),
			imageOptions: imageMacro.getArguments(paramString, []),
			noclick: parsedParams[0].interactive &&
				parsedParams[0].interactive[0] == "no" ? true : false
		};
		if(!options.noclick) {
			var spaceLink = parsedParams[0].spaceLink;
			options.spaceLink = spaceLink && spaceLink[0] == "no" ? false : true;
		} else {
			options.spaceLink = false;
		}
		return options;
	},
	_getLabelOptions: function(parsedParams) {
		parsedParams = parsedParams[0];
		var includeLabel = !parsedParams.label || ( parsedParams.label && parsedParams.label[0] == "yes" );
		var prefix = parsedParams.labelPrefix ? parsedParams.labelPrefix[0] : false;
		var suffix = parsedParams.labelSuffix ? parsedParams.labelSuffix[0] : false;
		return { include: includeLabel, suffix: suffix, prefix: prefix };
	},
	_isSpace: function(value) {
		value = value ? value : "";
		var endsWith = config.extensions.BinaryTiddlersPlugin.endsWith;
		if(endsWith(value, "_private") || endsWith(value, "_public")) {
			return true;
		} else {
			return false;
		}
	},
	renderIcon: function(tiddler, type, button, options) {
		var locale = originMacro.locale;
		originMacro.annotateTiddler(button, type);
		if(type != "external") {
			originMacro.showPrivacyRoundel(tiddler, type, button,
				options);
		} else {
			var prefix = options.labelOptions.prefix, suffix = options.labelOptions.suffix;
			var space = tiddler.fields["server.bag"];
			options.notSpace = !originMacro._isSpace(space);
			options.labelOptions.prefix = prefix ? prefix : locale.externalPrefix;
			options.labelOptions.suffix = suffix ? suffix : (options.notSpace ? locale.externalBagSuffix : locale.externalSuffix);

			tiddlyspace.renderAvatar(button, space, options);
		}
	},
	showPrivacyRoundel: function(thisTiddler, privacyType, button, options) {
		// there is a public tiddler as well as the current tiddler!
		// TODO: not this is not enough.. we also need to check if the public tiddler is the same as..
		// .. the private tiddler to determine whether this is a draft
		// use of hashes would be useful here.
		$(button).empty();
		var icon = "%0Icon".format(privacyType);
		if(privacyType.indexOf("unsynced") === 0 && !store.tiddlerExists(icon)) {
			icon = "unsyncedIcon";
		}
		if(privacyType == "shadow") {
			if(!store.tiddlerExists(icon)) {
				icon = "bags/tiddlyspace/tiddlers/SiteIcon";
			}
		}
		if(privacyType == "missing" && !store.tiddlerExists(icon)) {
			return; // the user is not making use of the missingIcon
		} else {
			imageMacro.renderImage(button, icon, options.imageOptions);
			originMacro.showLabel(button, privacyType, options.labelOptions);
			var cmd = originMacro.iconCommands[privacyType];
			if(cmd && thisTiddler && !options.noclick) {
				$(button).click(function(ev) {
					cmd(ev, thisTiddler);
				});
			}
		}
	},
	annotateTiddler: function(place, type) {
		var tidEl = $(story.findContainingTiddler(place));
		tidEl.
			removeClass("private public external privateAndPublic privateNotPublic shadow").
			addClass(type);
	},
	showLabel: function(button, type, options) {
		var locale = originMacro.locale;
		var label = options.label ? options.label : locale[type];
		label = label ? label : locale.unknown;
		if(options && options.include) {
			$('<div class="roundelLabel" />').html(label).appendTo(button);
		}
		$(button).attr("title", label);
	},
	confirm: function(ev, msg, onYes, options) {
		options = options ? options : {};
		onYes = onYes ? onYes : function(ev) {};
		var btn = $(".originButton", $(ev.target).parents())[0];
		var popup = Popup.create(btn);
		$(popup).addClass("confirmationPopup");
		$("<div />").addClass("message").text(msg).appendTo(popup);
		$("<button />").addClass("button").text(options.yesLabel || "yes").appendTo(popup).click(onYes);
		$("<button />").addClass("button").text(options.noLabel || "no").click(function(ev) {
			Popup.remove();
		}).appendTo(popup);
		Popup.show();
		ev.stopPropagation();
		return false;
	},
	alert: function(ev, msg) {
		var popup = Popup.create(ev.target);
		$(popup).addClass("confirmationPopup alert");
		$("<div />").addClass("message").text(msg).appendTo(popup);
		Popup.show();
		ev.stopPropagation();
	},
	reportDirty: function(el) {
		originMacro.alert(el, originMacro.locale.cannotPublishDirtyTiddler);
	},
	iconCommands: {
		"public": function(ev, tiddler) {
			if(!readOnly) {
				var locale = originMacro.locale;
				var msg = locale.moveToPrivate;
				if(story.isDirty(tiddler.title)) {
					originMacro.reportDirty(ev);
				} else {
					originMacro.confirm(ev, msg, function(ev) {
						var target = $(ev.target);
						var onComplete = function(info) {};
						var privateBag = cmd.toggleBag(tiddler, "private");
						cmd.moveTiddler(tiddler, {
							title: tiddler.title,
							fields: { "server.bag": privateBag }
						}, onComplete);
					}, { yesLabel: locale.makePrivate, noLabel: locale.keepPublic });
				}
			}
		},
		"private": function(ev, tiddler) {
			if(!readOnly) {
				var locale = originMacro.locale;
				var adaptor = tiddler.getAdaptor();
				var publishTo = tiddler.fields["publish.name"] || tiddler.title;
				var workspace = "bags/%0".format(tiddler.fields["server.bag"]);
				tiddler.fields["server.workspace"] = workspace;
				var publicBag = cmd.toggleBag(tiddler, "public");
				var msg;
				msg = locale.publishPrivateDeletePrivate;
				var title = tiddler.title;
				var newTitle = publishTo || tiddler.title;
				tiddler.fields["server.page.revision"] = "false";
				store.addTiddler(tiddler);
				if(story.isDirty(tiddler.title)) {
					originMacro.reportDirty(ev);
				} else {
					originMacro.confirm(ev, msg, function(ev) {
						var onComplete = function(info) {};
						cmd.moveTiddler(tiddler, {
							title: newTitle,
							fields: { "server.bag": publicBag }
						}, onComplete);
					}, { yesLabel: locale.makePublic, noLabel: locale.keepPrivate });
				}
			}
		}
	}
};

})(jQuery);
//}}}

With Neonatal Cardiomyocyte Isolation Kit, mouse 130-100-825 	(905,00 CAD) 1000 μL / 10 μL incubation = 100 experiences

▷ Enrichment of untouched cardiomyocytes from neonatal mouse hearts (P0–P3).
▷ Use of an MS Column is strongly recommended. 
▷ Buffers or media containing Ca^^2+^^ or Mg^^2+^^ are not recommended for use.  
▷ Max. number of labeled cells 5×10⁶. Max. number of total cells 10⁷. ^^Note^^ Results hemacytom: 2 × 4.9 ×10⁶ / mL alicot 20 μL/well + MC (0.2 ×10⁶cells).
▷ For efficient plating and culture of isolated cardiomyocytes it is strongly recommended to use fibronectin-coated cell culture dishes. Coat cell culture dishes with fibronectin (20–100 μg/mL) (we have 50 μg/mL) for at least 2 hours in the incubator. Before use aspirate the fibronectin solution and add the cell suspension immediately.
▷ is recommended using Red Blood Cell Lysis Solution (10×) (# 130-094-183).
▷ The recommended incubation temperature is 2- 8 °C. Higher temperatures and/or longer incubation times may lead to nonspecific cell labeling.

^^Primary cultures of neonatal mouse cardiac myocytes. 
(Worthington Biochemical Corp. Lakewood, NJ) kit Cedarlane #LK003300
The Worthington Neonatal Cardiomyocyte Isolation System
The kit has been formulated in conjunction with Dr. Ronal MacGregor of the University of Kansas Medical Center. The method is based on that described by Toraason, et al. (1988) is a commercial isolation kit  originally developed for neonatal rat ventricular myocytes. Myocytes were isolated using the neonatal rat cardiac myocyte isolation kit with minor modifications to the manufacturer's protocol designed to accommodate the smaller amount of starting tissue^^.

!! ENGLISH VERSION (working version)
''Day 1: Preparation of hearts''

@@color:purple;Pet age ''1-3'' max ''4'' days:

^^NOTE 8^^ Serie nr.08_ (d''3'') × [..] {DOB 09/05/16} - 12 mai 2016 type +/+ (SI confocal)
^^NOTE 9^^ Serie nr.09_ (d''3'') × [8] {DOB 0/0/16} - 26 mai 2016 type +/+ (SII confocal)
^^NOTE 10^^ Serie nr.10_ (d''3'') × [9] + (d''1'') × [9] - 16 iun 2016 type +/+ (SIII confocal).
^^NOTE 11^^ Serie nr.11_ (d''5'') × [5]  - 25 iul 2016 type +/+ big cells (S _ confocal).

(//d: pet age; DOB: date of birth; [ _ ] No. of animals //)@@

⓪ Transfer approximately 30 mL HBSS in a sterile Tube50mL on ice.
//The mice are anesthetized on ice for a few minutes before decapitation//.
① The mice killed by cutting the head. The hearts are placed in one PetriØ35mm with HBSS, on ice.
② Hearts are washed with HBSS by transfer in another PetriØ35mm with HBSS, on ice.
③ Transfer to a sterile PetriØ100mm.
④ With scissors or razor blade, chop the hearts [a[rpx. 3 - 4mm] in a volume of ''5'' mL HBSS.
⑤ Reconstitute ❷ Trypsin - vial with 2 mL of HBSS on ice. Add ''2'' mL Trypsin in the Petri. 
⑥ Adjust volume → ''10'' mL final (transfer to PetriØ35 or 60mm).
⑦ Seal with parafilm and place at 4 °C over night (16-20 h) in fridge.

''Day 2 of Isolation:'' 
Heat MC DMEM medium and prepare 37 °C bath with movement.
⑧ Transfer the contents (10 mL) of Petri in new Tube50mL on ice.
⑨ Reconstitute vial ❸-Trypsin Inhibitor  with ''1'' mL HBSS on ice.
⑩ Add toTube50mL.
⑪ Oxygenate the tissue for 30 sec max ''1'' min, in surface.
⑫ Place in a the bath at 37 °C for ''10'' min.
⑬ Reconstitute vial ❹-collagenase with ''5'' mL L15Medium.
⑭ Add to Tube50mL. Ensure the cap with the ParaFilm, protect from light with aluminum.
⑮ Place the tube horizontally in an incubator at 37 °C with low movement (⇄ 81 mpm) for ''45'' minutes.
⑯ Back under the hood. Triturate with Pipette10mL approximately 10 × as gently as possible. Avoid bubble formation.
⑰ Rinse cell filter (70 microns) with 1mL L15Medium.
⑱ Filter the contents.
⑲ Rinse with 1mL all that remains in the filter.
⑳ Allow cells to settle for ''20'' min.
㉑ Centrifuge ''5'' min at ''1400'' rpm (300 rcf × g). Aspirate supernatant completely.
㉒ Resuspend cell pellet in 2 × ''90'' μL of fresh buffer per 5×10⁶ total cells.
㉓ Add 2 × ''10'' μL of Neonatal Cardiomyocyte Isolation Kit per 5×10⁶
total cells.
㉔ Mix well and incubate for ''15'' minutes in the refrigerator (2−8 °C).
㉕ Adjust volume to ''500'' μL using buffer for up to 10⁷ total cells.
Do not centrifuge. ''Proceed to magnetic separation''.
㉖ Place MS Column in OctoMACS. Prepare 2 × mini column by rinsing with 500 μL of buffer.Apply cell suspension onto the column. Collect flow-through containing unlabeled cells, representing the enriched neonatal cardiomyocytes. Wash column with 3×500 μL of buffer. Collect unlabeled cells that pass through and combine with the flow-through from preview step. For isolation of Fibroblasts remove column from the separator and place it on 15mLtube. Pipette 1 mL of buffer onto the column and immediately flush out the magnetically labeled non-cardiomyocytes by firmly pushing the
plunger into the column.
㉗ Inoculate the number of desired cells in the kneaded selected for experiments. Ex: 150 000 cells / 60mmØ; 85% confluence after 72 hours. //^^NOTE Wlt recommendation^^: Isolated cells were plated at a density of 400,000 cells / mL or 25,000 cardiomyocytes per cm^^2^^. Adhesion may be Improved by fibronectin or collagen coating of the plastic//. 
Incubate 48 H at 37 °C.
㉘ Change ''48'' hours later DMEM medium LOW GLUCOSE 10% FBSm 1% P/S.
㉙ Cells begin to beat irregularly on day ''3'' (✔), more stably on day ''4''.
㉚ Starvation 0.1% FBS is done on day 4 for 24 hours with an ideal confluence of 70 - 75%.
㉛ Experience at the day ''5 - ''.

 Nr ➊ ⊣ pour X-XO 
◤ ▢▢▢▢ ◥ ⇲ Poly-Lysine
◣ ▢▢▢▢ ◢ ⇲ Fibronectin 

Nr ➋ ⊣ pour Ant-A
◤ ▢▢▢▢ ◥ ⇲ Poly-Lysine
◣ ▢▢▢▢ ◢ ⇲ Fibronectin 

Nr ➌ ⊣ pour X-XO
◤ ▢▢▢▢ ◥ ⇲ Laminin
◣ ▢▢▢▢ ◢ ⇲ Gelatin

Nr ➍ ⊣ pour Ant-A
◤ ▢▢▢▢ ◥ ⇲ Laminin
◣ ▢▢▢▢ ◢ ⇲ Gelatin



Nr ➎ reserve
◤ ∏∏∏∏ ◥
◣ ∐∐∐∐ ◢

Nr ➏ 
◤ ∏∏∏∏ ◥
◣ ∐∐∐∐ ◢

8 p ⊣ 20 beads +180 buff  ⊣ 800 dil ds 2 colones ⊣  5mL count 11m DS 1mL  ⊣  0.2M / miniwels (20uL)  ⊣ rest 25mL alicot 200uL plaque, rest in mini petri  ⊣ fibro in 3 piscine 20mL

!Adrenomedullin
·         a regulated modulator of neonatal cardiomyocyte hypertrophy in vitro. PMID: 11470465

!ALCAM (CD166)
·         a Surface Marker for Early Murine Cardiomyocytes. PMID: 17409743


!alpha-Actinin
·         an actin-binding protein that plays a key role in the formation and maintenance of Z-lines, during the T. cruzi-cardiomyocyte interaction in vitro. Immunolocalization of alpha-actinin in control cardiomyocytes demonstrated a typical periodicity in the Z line of cardiac myofibrils, as well as its distribution at focal adhesion sites and along the cell-cell junctions. PMID: 16650336

!Annexin 5
·         in vivo as in vitro annexin A5 might be involved in the regulation of early apoptotic events during cardiac pathological situations. PMID: 16501019
·         Western blot analysis shows that annexin V is abundantly present in the heart. Using isolated myocytes and cultured cardiac endothelial and fibroblast-like cells, it is demonstrated that the localization of Annexin V is confined to non-myocytes. PMID: 1480159

!Annexin 6
·         one of a widely expressed family of calcium-binding proteins found in most mammalian tissues, including the heart, is a negative inotropic factor in the regulation of cardiomyocyte mechanics. PMID: 11919174, PMID: 8780208

!ANP (atrial natriuretic peptide)
·         a sensitive cardiomyocyte marker of ventricular hypertrophy. PMID: 17275806
·         through its guanylyl cyclase-A (GC-A) receptor, not only is critically involved in the endocrine regulation of arterial blood pressure but also locally moderates cardiomyocyte growth. PMID: 16216978
·         ANF and BNP expression is a marker of cardiomyocyte differentiation, and is regulated spatially, developmentally and hormonally. PMID: 15837526

!bFGF
·         plays a role in cardiomyocyte differentiation during early stages of development. PMID: 7898073

!BNP (brain natriuretic peptides)
·         a marker of cardiomyocyte differentiation, and is regulated spatially, developmentally and hormonally. PMID: 15837526
·         cardiomyocyte-specific peptide hormones. PMID: 15913645
·         a cardiac hormone constitutively expressed in the adult heart. PMID: 12067842

!Cardiac troponin I (cTnI)
·         a cardiomyocyte specific marker. PMID: 16382259, PMID: 15579650, PMID: 12878946
·         a key regulatory protein in cardiac muscle contraction and relaxation. PMID: 15769444
·         Measurement of plasma cardiac troponin I concentration ([cTnI]) is a sensitive and specific means for detecting myocardial damage in many mammalian species. PMID: 12322706
·         has proven to be a highly specific and sensitive marker for myocardial cellular damage in many mammalian species. PMID: 11596740
·         highly sensitive and specific for detecting myocardial damage even in the presence of skeletal muscle injury. PMID: 10190525
·         a new highly specific diagnostic marker of cardiomyocyte damage, is a reliable marker of cardiac ischemia during heart operations under cardiopulmonary bypass (CPB). PMID: 9814799

!Cardiac troponin-T (cTnT)
·         cardiac-specific protein. PMID: 16831561
·         a specific marker of cardiomyocytes. PMID: 16730572
·         one prominent substrate through which protein kinase C (PKC) exerts its effect on cardiomyocyte function. PMID: 12832403
·         a cardiac-specific marker for necrotic damage. PMID: 12183413
·         a highly sensitive and specific serum marker of irreversible cardiomyocyte injury. PMID: 10519973, PMID: 10190525
·         a recently developed serological marker used as a sensitive diagnostic tool for early myocardial damage in 'at risk' human patients. PMID: 7719731

!CARP (cardiac adriamycin-responsive protein)
·         a nuclear modulator of gene expression in cardiac progenitor cells and cardiomyocytes.PMID: 9278441

!Caveolin-2
·         caveolin-2 and caveolin-3 are detected at low levels in ventricular myocardium and increase dramatically with age or when neonatal cardiomyocytes are placed in culture.PMID: 12649076

!Caveolin-3
·         cardiomyocyte-specific marker. PMID: 16397145
·         a major constituent of cardiac caveolae, has been suggested to interact with several signaling molecules. PMID: 15725944
·         a structural component of cardiac caveolae, is associated with cellular signaling. PMID: 12847114

!CHAMP
·         expressed specifically in embryonic and postnatal cardiomyocytes. PMID: 11397016

!CNP (C-type natriuretic peptide)
·         recently found to play a cardioprotective role in preventing myocardial ischaemia/reperfusion (I/R) injury and improving cardiac remodelling after myocardial infarction (MI) in rats. PMID: 17407830

!Connexin-43
·         localized at left ventricular (LV) gap junctions and in cardiomyocyte mitochondria. PMID: 17142336, PMID: 16100048, PMID: 12373152
the constitutive protein for the formation of cardiac gap junctions and therefore essential for cell-cell coupling and normal cardiac function. PMID: 16537100
·         localized at cardiomyocyte mitochondria and that ischemic preconditioning (IP) enhances such mitochondrial localization. PMID: 15919068
·         main constituent of cardiomyocyte gap junctions. PMID: 12619863

!Desmin
·         the major muscle-specific intermediate filament (IF) protein, is essential for mitochondrial behavior and function and maintenance of healthy muscle. PMID: 15733906
·         protein marker of cardiomyocyte hypertrophy. PMID: 15699919
·         the muscle-specific member of the intermediate filament gene family, display defects in all muscle types and particularly in the myocardium. PMID: 14734054, PMID: 9501201
·         the muscle-specific member of the intermediate filament family of cytoskeletal proteins, expressed both in striated and smooth muscle tissues. PMID: 10591032

!dHAND
·         early cardiomyocyte gene. PMID: 11437454, PMID: 10964476
·         essential for heart development and extra embryonic structures, is thought to regulate cardiomyocyte-specific gene expression through combinatorial interactions with other cardiac-restricted transcription factors such as GATA4 and NKX2.5. PMID: 15486975

!eHAND
·         cardiomyocyte-specific transcription factor. PMID: 12163362, PMID: 16433623

! GATA-4
·         cardiac marker gene. PMID: 16487072
·         cardiomyocyte-specific transcription factor. PMID: 16433623
·         a survival factor for differentiated, postnatal cardiomyocytes and an upstream activator of the antiapoptotic gene Bcl-X. PMID: 15100413
·         a key regulator of cardiac genes, is a nuclear mediator of RhoA signaling and is involved in the control of sarcomere assembly in cardiomyocytes. PMID: 11641276
·         involved in cardiomyocyte differentiation. PMID: 11418590
·         a cardiac-specific member of the GATA family of zinc finger transcription factors. PMID: 9199365
·         a critical regulator of cardiac gene expression where it controls embryonic development, cardiomyocyte differentiation, and stress responsiveness of the adult heart. PMID: 16514068

!GATA-6
·         expressed in presumptive cardiac mesoderm before gastrulation, proper maturation of cardiac mesoderm requires GATA-6, which functions to maintain BMP-4 and Nkx2 expression. PMID: 12912923

!H-FABP
·         a cytosolic protein that is released rapidly from the cardiomyocyte in response to myocardial injury. PMID: 16880323
·         released into the circulation when the myocardium is injured, and H-FABP has been recently used as a novel marker for the diagnosis of ongoing myocardial damage. PMID: 16363617, PMID: 15704065
·         available as a biomarker for predicting ongoing cardiomyocyte damage in the mouse model. PMID: 16026778
·         involved in regulating cardiomyocyte growth and differentiation in mouse neonatal hearts. PMID: 15064945

!Insulin-like growth factor 1 (IGF-1)
·         a cardiomyocyte growth and differentiation factor. PMID: 16698918
·         may provide cardiac protection against glucose in part through a PI-3 kinase/Akt/mTOR/ p70s6k-dependent and calcineurin-independent pathway. PMID: 16135669
·         synthesized locally in the heart is known to be associated with the hypertrophic process. Cardiac-synthesized IGF-I is an initiating or early-enhancing factor for hypertrophy of LV cardiomyocytes. PMID: 14624474
·         in cardiomyocytes, the antiapoptotic effect of IGF-I requires both PI3K- and MEK1-dependent pathways leading to the activation of the transcription factor CREB, which then induces the expression of the antiapoptotic factor bcl-2. PMID: 11673351
·         can directly alleviate the hypoxia-induced cardiomyocyte apoptosis. PMID: 11256230

!MEF2C
·         is required for the efficient differentiation of cardiomyoblasts into cardiomyocytes.PMID: 17003108
·         a MADS-box transcription factor required for cardiac myogenesis and morphogenesis.PMID: 11397016

!MHC (myosin heavy chain)
·         cardiac-specific gene. PMID: 16831561

!MLC (myosin light chain)
·         MLC-2V is a marker of cardiomyocytes. PMID: 17300799
·         MLC-2a and MLC-2v are cardiac-specific genes. PMID: 15753841
·         MLC-2v is a cardiomyocyte-specific gene. PMID: 15639472

!N-cadherin
·         a useful marker for the progenitor of cardiomyocytes differentiated from mouse ES cells in serum-free condition. PMID: 17097609
·         belongs to a superfamily of calcium-dependent transmembrane adhesion proteins. It mediates adhesion in the intercalated discs at the termini of cardiomyocytes thereby serving as anchor for myofibrils at cell-cell contacts. PMID: 16228908
·         cardiomyocyte marker. PMID: 15579650

!Nkx2.5 (cardiac homeobox protein)
·         cardiac marker gene. PMID: 16487072
·         cardiomyocyte-specific transcription factor. PMID: 16433623
·         involved in cardiomyocyte differentiation. PMID: 11418590, PMID: 15505807
·         cardiomyocyte marker. PMID: 17300799
·         Nkx2.5(+) lineage cells possess the potential to differentiate into various cardiomyocyte cell types and that RA can modify the differentiation potential of Nkx2.5(+) cardiomyocytes at an early stage. PMID: 12594186
·         essential in cardiac development, and mutations in Csx (which encodes Nkx2-5) cause various congenital heart diseases. PMID: 11431700
·         the putative cardiomyocyte specification gene. PMID: 9986733

!Oct-4
·         involved in cardiomyocyte and osteoblast differentiation. PMID: 15505807

!Pnmt (Phenylethanolamine N-methyltransferase)
·         besides PNMT in neuronal and intrinsic cardiac cells, this enzyme is expressed also in rat cardiomyocytes, as shown by immunofluorescence in isolated cardiomyocytes, is a novelmarker of cardiomyocyte stem cells. PMID: 17175506
·         localized, not predominantly in cardiac ganglion cells, but in a wide range in atrial cardiomyocytes. PMID: 15240396
·         the final enzyme in the pathway for epinephrine biosynthesis, serves as a marker for tissues and cells producing epinephrine. PMID: 8877775

!Sarcomeric alpha Actin/Actinin
·         cardiomyocyte-specific marker. PMID: 17045908, PMID: 16637898, PMID: 16433623,PMID: 15878162, PMID: 12628942

!Sarcomeric Myosin
·         a marker for cardiomyocytes. PMID: 13678453, PMID: 16516919, PMID: 14578102
·         Cardiac myocyte specific protein marker. PMID: 15896309

!Sarcomeric Tropomyosin
·         Expressed on cardiomyocytes purified from embryoid bodies. PMID: 12594186

!Skeletal alpha-Actin
·         gene normally expressed in the fetal ventricular cardiomyocyte. PMID: 7499296

http://www.cardio-research.com/cardiac-tissue-markers
http://www.antibodybeyond.com/reviews/cell-markers/cardiomyocyte-marker.htm

/***
|''Name''|ServerSideSavingPlugin|
|''Description''|server-side saving|
|''Author''|FND|
|''Version''|0.6.5|
|''Status''|stable|
|''Source''|http://svn.tiddlywiki.org/Trunk/association/plugins/ServerSideSavingPlugin.js|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
|''CoreVersion''|2.5.3|
|''Keywords''|serverSide|
!Notes
This plugin relies on a dedicated adaptor to be present.
The specific nature of this plugin depends on the respective server.
!Revision History
!!v0.1 (2008-11-24)
* initial release
!!v0.2 (2008-12-01)
* added support for local saving
!!v0.3 (2008-12-03)
* added Save to Web macro for manual synchronization
!!v0.4 (2009-01-15)
* removed ServerConfig dependency by detecting server type from the respective tiddlers
!!v0.5 (2009-08-25)
* raised CoreVersion to 2.5.3 to take advantage of core fixes
!!v0.6 (2010-04-21)
* added notification about cross-domain restrictions to ImportTiddlers
!To Do
* conflict detection/resolution
* rename to ServerLinkPlugin?
* document deletion/renaming convention
!Code
***/
//{{{
(function($) {

readOnly = false; //# enable editing over HTTP

var plugin = config.extensions.ServerSideSavingPlugin = {};

plugin.locale = {
	saved: "%0 saved successfully",
	saveError: "Error saving %0: %1",
	saveConflict: "Error saving %0: edit conflict",
	deleted: "Removed %0",
	deleteError: "Error removing %0: %1",
	deleteLocalError: "Error removing %0 locally",
	removedNotice: "This tiddler has been deleted.",
	connectionError: "connection could not be established",
	hostError: "Unable to import from this location due to cross-domain restrictions."
};

plugin.sync = function(tiddlers) {
	tiddlers = tiddlers && tiddlers[0] ? tiddlers : store.getTiddlers();
	$.each(tiddlers, function(i, tiddler) {
		var changecount = parseInt(tiddler.fields.changecount, 10);
		if(tiddler.fields.deleted === "true" && changecount === 1) {
			plugin.removeTiddler(tiddler);
		} else if(tiddler.isTouched() && !tiddler.doNotSave() &&
				tiddler.getServerType() && tiddler.fields["server.host"]) { // XXX: server.host could be empty string
			delete tiddler.fields.deleted;
			plugin.saveTiddler(tiddler);
		}
	});
};

plugin.saveTiddler = function(tiddler) {
	try {
		var adaptor = this.getTiddlerServerAdaptor(tiddler);
	} catch(ex) {
		return false;
	}
	var context = {
		tiddler: tiddler,
		changecount: tiddler.fields.changecount,
		workspace: tiddler.fields["server.workspace"]
	};
	var serverTitle = tiddler.fields["server.title"]; // indicates renames
	if(!serverTitle) {
		tiddler.fields["server.title"] = tiddler.title;
	} else if(tiddler.title != serverTitle) {
		return adaptor.moveTiddler({ title: serverTitle },
			{ title: tiddler.title }, context, null, this.saveTiddlerCallback);
	}
	var req = adaptor.putTiddler(tiddler, context, {}, this.saveTiddlerCallback);
	return req ? tiddler : false;
};

plugin.saveTiddlerCallback = function(context, userParams) {
	var tiddler = context.tiddler;
	if(context.status) {
		if(tiddler.fields.changecount == context.changecount) { //# check for changes since save was triggered
			tiddler.clearChangeCount();
		} else if(tiddler.fields.changecount > 0) {
			tiddler.fields.changecount -= context.changecount;
		}
		plugin.reportSuccess("saved", tiddler);
		store.setDirty(false);
	} else {
		if(context.httpStatus == 412) {
			plugin.reportFailure("saveConflict", tiddler);
		} else {
			plugin.reportFailure("saveError", tiddler, context);
		}
	}
};

plugin.removeTiddler = function(tiddler) {
	try {
		var adaptor = this.getTiddlerServerAdaptor(tiddler);
	} catch(ex) {
		return false;
	}
	var context = {
		host: tiddler.fields["server.host"],
		workspace: tiddler.fields["server.workspace"],
		tiddler: tiddler
	};
	var req = adaptor.deleteTiddler(tiddler, context, {}, this.removeTiddlerCallback);
	return req ? tiddler : false;
};

plugin.removeTiddlerCallback = function(context, userParams) {
	var tiddler = context.tiddler;
	if(context.status) {
		if(tiddler.fields.deleted === "true") {
			store.deleteTiddler(tiddler.title);
		} else {
			plugin.reportFailure("deleteLocalError", tiddler);
		}
		plugin.reportSuccess("deleted", tiddler);
		store.setDirty(false);
	} else {
		plugin.reportFailure("deleteError", tiddler, context);
	}
};

plugin.getTiddlerServerAdaptor = function(tiddler) { // XXX: rename?
	var type = tiddler.fields["server.type"] || config.defaultCustomFields["server.type"];
	return new config.adaptors[type]();
};

plugin.reportSuccess = function(msg, tiddler) {
	displayMessage(plugin.locale[msg].format([tiddler.title]));
};

plugin.reportFailure = function(msg, tiddler, context) {
	var desc = (context && context.httpStatus) ? context.statusText :
		plugin.locale.connectionError;
	displayMessage(plugin.locale[msg].format([tiddler.title, desc]));
};

config.macros.saveToWeb = { // XXX: hijack existing sync macro?
	locale: { // TODO: merge with plugin.locale?
		btnLabel: "save to web",
		btnTooltip: "synchronize changes",
		btnAccessKey: null
	},

	handler: function(place, macroName, params, wikifier, paramString, tiddler) {
		createTiddlyButton(place, this.locale.btnLabel, this.locale.btnTooltip,
			plugin.sync, null, null, this.locale.btnAccessKey);
	}
};

// hijack saveChanges to trigger remote saving
var _saveChanges = saveChanges;
saveChanges = function(onlyIfDirty, tiddlers) {
	if(window.location.protocol == "file:") {
		_saveChanges.apply(this, arguments);
	} else {
		plugin.sync(tiddlers);
	}
};

// override removeTiddler to flag tiddler as deleted -- XXX: use hijack to preserve compatibility?
TiddlyWiki.prototype.removeTiddler = function(title) { // XXX: should override deleteTiddler instance method?
	var tiddler = this.fetchTiddler(title);
	if(tiddler) {
		tiddler.tags = ["excludeLists", "excludeSearch", "excludeMissing"];
		tiddler.text = plugin.locale.removedNotice;
		tiddler.fields.deleted = "true"; // XXX: rename to removed/tiddlerRemoved?
		tiddler.fields.changecount = "1";
		this.notify(title, true);
		this.setDirty(true);
	}
};

// hijack ImportTiddlers wizard to handle cross-domain restrictions
var _onOpen = config.macros.importTiddlers.onOpen;
config.macros.importTiddlers.onOpen = function(ev) {
	var btn = $(resolveTarget(ev));
	var url = btn.closest(".wizard").find("input[name=txtPath]").val();
	if(window.location.protocol != "file:" && url.indexOf("://") != -1) {
		var host = url.split("/")[2];
		var macro = config.macros.importTiddlers;
		if(host != window.location.host) {
			btn.text(macro.cancelLabel).attr("title", macro.cancelPrompt);
			btn[0].onclick = macro.onCancel;
			$('<span class="status" />').text(plugin.locale.hostError).insertAfter(btn);
			return false;
		}
	}
	return _onOpen.apply(this, arguments);
};

})(jQuery);
//}}}

/***
|''Name''|GroupByPlugin|
|''Description''|Mimics allTags macro to provide ways of creating lists grouping tiddlers by any field|
|''Version''|0.6.1|
|''Author''|Jon Robson|
|''Status''|beta|
!Usage
{{{<<groupBy tags>>}}}
mimics allTags macro

{{{<<groupBy server.bag>>}}}
groups by the server.bag field (this version contains TiddlySpace specific code for turning a bag into a space name)

{{{groupBy modified dateFormat:"YYYY"}}}
group tiddlers by year.

{{{<<groupBy tags exclude:excludeLists exclude:systemConfig>>}}}
group tiddlers by tag but exclude the tags with values excludeLists and systemConfig

Within that group you can also exclude things by filter
{{{groupBy modifier filter:[tag[film]]}}}
will group tiddlers tagged with film by modifier.
***/
//{{{
(function($) {
var taglocale = config.views.wikified.tag;
var macro = config.macros.groupBy = {
	locale: {
		tooltip: "all tiddlers in group %0",
		noTiddlers: "no tiddlers",
		openAllText: taglocale.openAllText,
		openAllTooltip: taglocale.openAllTooltip,
		openTiddler: "open tiddler with title %0"
	},
	morpher: {
		// TODO: note currently the following 2 morphers are TiddlySpace specific and probably should be in separate plugin
		"server.workspace": function(value, options) {
			return macro.morpher["server.bag"](value.replace("bags/", "").replace("recipes/", ""));
		},
		"server.bag": function(value, options) {
			if(typeof(value) !== "string") {
				return false;
			} else if(value.indexOf("_public") === -1 && value.indexOf("_private") === -1) {
				value = "*%0".format(value); // add star for non-space bags.
			}
			return value.replace("_public", "").replace("_private", "");
		},
		created: function(value, options) {
			return value.formatString(options.dateFormat || "DD MMM YYYY");
		},
		modified: function(value, options) {
			return macro.morpher.created(value, options);
		}
	},

	handler: function(place, macroName, params, wikifier, paramString) {
		var field = params[0] || "server.workspace";
		var dateFormat = params[1] || "DD MMM YYYY";
		var container = $("<div />").attr("macroName", macroName).addClass("groupBy").
			attr("refresh", "macro").attr("fieldName", field).
			attr("paramString", paramString).
			attr("dateFormat", dateFormat).appendTo(place)[0];
		macro.refresh(container);
	},
	isTypeArray: function(value) {
		var valueType = typeof value;
		if(valueType === "object" && typeof value.length === "number" &&
			!(value.propertyIsEnumerable("length")) &&
			typeof value.splice === "function") { //is Array
			return true;
		} else {
			return false;
		}
	},
	_onClickGroup: function(ev, options) {
		var i, target = ev.target, locale = macro.locale;
		var tiddlers = $(target).closest(".templateContainer").data("tiddlers");
		var popup = $(Popup.create(target)).addClass("taggedTiddlerList")[0];
		var value = $(target).attr("value");
		var openAll = createTiddlyButton($("<li />").appendTo(popup)[0],
			locale.openAllText.format(value), locale.openAllTooltip);
		$(openAll).click(function(ev) {
			story.displayTiddlers(ev.target, tiddlers);
			return false;
		});
		var listBreak = $("<li />").addClass("listBreak").html("<div />").appendTo(popup);
		for(i = 0; i < tiddlers.length; i++) {
			var item = $("<li />").appendTo(popup)[0];
			var template = store.getTiddlerText(options.template) || macro.template;
			wikify(template, item, null, tiddlers[i]);
		}
		listBreak.clone().appendTo(popup);
		$(createTiddlyLink($("<li />").appendTo(popup)[0], value, false)).
			text(locale.openTiddler.format(value));
		Popup.show();
		ev.stopPropagation();
		return false;
	},
	_refresh: function(container, tiddlers, options) {
		var totalGroups = 0, locale = macro.locale, i, j;
		var excludeValues = options.exclude;
		var values = {}, value_ids = [];
		var field = options.field;
		var morpher = macro.morpher[field] || function(value) {
			return value;
		};
		for(i = 0; i < tiddlers.length; i++) {
			var tiddler = tiddlers[i];
			var value = tiddler[field] || tiddler.fields[field];
			value = macro.isTypeArray(value) ? value : [ value ];
			for(j = 0; j < value.length; j++) {
				var v = morpher(value[j], options);
				if(v && $.inArray(v, excludeValues) === -1) {
					totalGroups += 1;
					if(!values[v]) {
						values[v] = [];
					}
					values[v].push(tiddler);
					value_ids.pushUnique(v);
				}
			}
		}
		var ul = $("<ul />").appendTo(container)[0];
		if(totalGroups === 0) {
			$("<li />").addClass("listTitle").text(locale.noTiddlers);
		}
		value_ids = value_ids.sort();
		var groupTemplate = store.getTiddlerText(options.groupTemplate);
		var onClick = function(ev) {
			macro._onClickGroup(ev, options);
		};
		for(i = 0; i < value_ids.length; i++) {
			var title = value_ids[i];
			var info = getTiddlyLinkInfo(title);
			tiddlers = values[title];
			var btn = createTiddlyButton($("<li />").appendTo(ul)[0],
				"%0 (%1)".format(title, tiddlers.length), locale.tooltip.format(title), null, info.classes);
			if(groupTemplate) {
				$(btn).empty();
				wikify(groupTemplate, btn, null, tiddlers[0]);
			}
			$(btn).click(onClick).attr("value", title).attr("refresh", "link").attr("tiddlyLink", title);
			$(btn).addClass("templateContainer").data("tiddlers", tiddlers);
		}
	},
	refresh: function(container) {
		container = $(container).empty();
		var paramString = container.attr("paramString");
		var args = paramString.parseParams("name", null, true, false, true)[0];
		var options = { field: container.attr("fieldName"), dateFormat: container.attr("dateFormat"), exclude: args.exclude || [],
			template: args.template ? args.template[0] : false, groupTemplate: args.groupTemplate ? args.groupTemplate[0] : "" };
		var tiddlers = args.filter ? store.filterTiddlers(args.filter[0]) : store.getTiddlers("title");
		macro._refresh(container, tiddlers, options);
	},
	template: "<<view title link>>"
};

}(jQuery));
//}}}

 1. Sensibilisation des travailleurs à la santé et à la sécurité 
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/***
|''Name''|TiddlySpaceViewTypes|
|''Version''|0.6.0|
|''Status''|@@beta@@|
|''Description''|Provides TiddlySpace specific view types|
|''Author''|Jon Robson|
|''Source''|http://github.com/TiddlySpace/tiddlyspace/raw/master/src/plugins/TiddlySpaceViewTypes.js|
|''Requires''|TiddlySpaceConfig TiddlySpaceTiddlerIconsPlugin|
!Usage
Provides replyLink, spaceLink and SiteIcon view types.
!!SiteIcon view parameters
* labelPrefix / labelSuffix : prefix or suffix the label with additional text. eg. labelPrefix:'modified by '
* spaceLink: if set to "yes" will make any avatars link to the corresponding space. {{{<<originMacro spaceLink:yes>>}}}

!Code
***/
//{{{
(function($) {

var tiddlyspace = config.extensions.tiddlyspace;
var originMacro = config.macros.tiddlerOrigin;
var tweb = config.extensions.tiddlyweb;

config.macros.view.replyLink = {
	locale: {
		label: "Reply to this tiddler"
	}
};

var _replyButtons = [];
var _replyInitialised, _replyScriptLoaded;
config.macros.view.views.replyLink = function(value, place, params, wikifier,
		paramString, tiddler) {
	var valueField = params[0];
	var imported;
	if(valueField == "title") { // special casing for imported tiddlers
		var localTitle = tiddler.title;
		var serverTitle = tiddler.fields["server.title"];
		if(serverTitle && localTitle != serverTitle) {
			value = serverTitle ? serverTitle : localTitle;
			imported = true;
		}
	} else {
		title = tiddler[valueField] ? tiddler[valueField] : tiddler.fields[valueField];
	}
	var args = paramString.parseParams("anon")[0];
	var label = (args.label) ? args.label : config.macros.view.replyLink.locale.label;
	var space;
	if(tiddler) {
		var bag = tiddler.fields["server.bag"];
		space = tiddlyspace.resolveSpaceName(bag);
	}
	var container = $('<span class="replyLink" />').appendTo(place)[0];

	tweb.getUserInfo(function(user) {
		if ((!user.anon) && ((space && user.name != space &&
				user.name != tiddlyspace.currentSpace.name) || imported)) {
			var link = $("<a />")
				.text(config.macros.view.replyLink.locale.label)
				.appendTo(container)[0];

			if(typeof(createReplyButton) === "undefined") {
				_replyButtons.push(link);
			}
			if(_replyInitialised) {
				createReplyButton(link);
			} else if(!_replyScriptLoaded) {
				_replyScriptLoaded = true;
				$.getScript("/bags/common/tiddlers/_reply-button.js",
					function() {
						_replyInitialised = true;
						for(var i = 0; i < _replyButtons.length; i++) {
							createReplyButton(_replyButtons[i]);
						}
						_replyButtons = [];
					});
			}
		}
	});

};

config.macros.view.views.spaceLink = function(value, place, params, wikifier,
		paramString, tiddler) {
		var spaceName = tiddlyspace.resolveSpaceName(value);
		var isBag = params[0] == "server.bag" && value === spaceName ? true : false;
		var args = paramString.parseParams("anon")[0];
		var titleField = args.anon[2];
		var labelField = args.labelField ? args.labelField[0] : false;
		var label;
		if(labelField) {
			label = tiddler[labelField] ? tiddler[labelField] : tiddler.fields[labelField];
		} else {
			label = args.label ? args.label[0] : false;
		}
		var title = tiddler[titleField] ? tiddler[titleField] : tiddler.fields[titleField];

		var link = createSpaceLink(place, spaceName, title, label, isBag);
		if(args.external && args.external[0] == "no") {
			$(link).click(function(ev) {
				var el = $(ev.target);
				var title = el.attr("tiddler");
				var bag = el.attr("bag");
				var space = el.attr("tiddlyspace");
				bag = space ? space + "_public" : bag;
				if(title && bag) {
					ev.preventDefault();
					tiddlyspace.displayServerTiddler(el[0], title,
						"bags/" + bag);
				}
				return false;
			});
		}
};

config.macros.view.views.SiteIcon = function(value, place, params, wikifier,
		paramString, tiddler) {
	var options = originMacro.getOptions(paramString);
	if(!tiddler || value == "None") { // some core tiddlers lack modifier
		value = false;
	}
	var field = params[0];
	if(field == "server.bag") {
		options.notSpace = !originMacro._isSpace(value);
	}
	tiddlyspace.renderAvatar(place, value, options);
};

})(jQuery);
//}}}

Space mitolab

/***
|''Name''|DiffFormatter|
|''Description''|highlighting of text comparisons|
|''Author''|FND|
|''Version''|0.9.0|
|''Status''|beta|
|''Source''|http://svn.tiddlywiki.org/Trunk/contributors/FND/formatters/DiffFormatter.js|
|''CodeRepository''|http://svn.tiddlywiki.org/Trunk/contributors/FND/|
|''License''|[[BSD|http://www.opensource.org/licenses/bsd-license.php]]|
|''Keywords''|formatting|
!Description
Highlights changes in a unified [[diff|http://en.wikipedia.org/wiki/Diff#Unified_format]].
!Notes
Based on Martin Budden's [[DiffFormatterPlugin|http://svn.tiddlywiki.org/Trunk/contributors/MartinBudden/formatters/DiffFormatterPlugin.js]].
!Usage
The formatter is applied to blocks wrapped in <html><code>{{{diff{..}}}</code></html> within tiddlers tagged with "diff".
!Revision History
!!v0.9 (2010-04-07)
* initial release; fork of DiffFormatterPlugin
!StyleSheet
.diff { white-space: pre; font-family: monospace; }
.diff ins, .diff del { display: block; text-decoration: none; }
.diff ins { background-color: #dfd; }
.diff del { background-color: #fdd; }
.diff .highlight { background-color: [[ColorPalette::SecondaryPale]]; }
!Code
***/
//{{{
(function() {

config.shadowTiddlers.StyleSheetDiffFormatter = store.getTiddlerText(tiddler.title + "##StyleSheet");
store.addNotification("StyleSheetDiffFormatter", refreshStyles);

var formatters = [{
		name: "diffWrapper",
		match: "^\\{\\{diff\\{\n", // XXX: suboptimal
		termRegExp: /(.*\}\}\})$/mg,
		handler: function(w) {
			var el = createTiddlyElement(w.output, "div", null, "diff");
			w.subWikifyTerm(el, this.termRegExp);
		}
	}, {
		name: "diffRange",
		match: "^(?:@@|[+\\-]{3}) ",
		lookaheadRegExp: /^(?:@@|[+\-]{3}) .*\n/mg,
		handler: function(w) {
			createTiddlyElement(w.output, "div", null, "highlight").
				innerHTML = "&#8230;";
			this.lookaheadRegExp.lastIndex = w.matchStart;
			var lookaheadMatch = this.lookaheadRegExp.exec(w.source);
			if(lookaheadMatch && lookaheadMatch.index == w.matchStart) {
				w.nextMatch = this.lookaheadRegExp.lastIndex;
			}
		}
	}, {
		name: "diffAdded",
		match: "^\\+",
		termRegExp: /(\n)/mg,
		handler: function(w) {
			var el = createTiddlyElement(w.output, "ins", null, "added");
			w.subWikifyTerm(el, this.termRegExp);
		}
	}, {
		name: "diffRemoved",
		match: "^-",
		termRegExp: /(\n)/mg,
		handler: function(w) {
			var el = createTiddlyElement(w.output, "del", null, "removed");
			w.subWikifyTerm(el, this.termRegExp);
		}
	}
];

config.parsers.diffFormatter = new Formatter(formatters);
config.parsers.diffFormatter.format = "diff";
config.parsers.diffFormatter.formatTag = "diff";

})();
//}}}

<svg xmlns="http://www.w3.org/2000/svg" xmlns:xl="http://www.w3.org/1999/xlink" version="1.1" viewBox="364 157 64 51" width="30" height="30"><g stroke="none" stroke-opacity="1" stroke-dasharray="none" fill="none" fill-opacity="1"><g><path class="glyph" d="M 364.50006 184.50061 L 386.99985 207.00037 L 396 198.00002 L 373.50003 175.50066 Z M 403.02295 181.97704 C 400.38693 179.34099 396.11307 179.34099 393.47702 181.97704 C 390.841 184.61307 390.841 188.88695 393.47702 191.52298 C 396.11307 194.15903 400.38693 194.15903 403.02295 191.52298 C 405.65906 188.88695 405.65906 184.61307 403.02295 181.97704 M 414.27298 170.72704 C 411.63693 168.091 407.36307 168.091 404.72702 170.72704 C 402.091 173.36308 402.091 177.63693 404.72702 180.27296 C 407.36307 182.90901 411.63693 182.90901 414.27298 180.27296 C 416.90903 177.63693 416.90903 173.36308 414.27298 170.72704 M 425.523 159.47705 C 422.88696 156.841 418.6131 156.841 415.97705 159.47705 C 413.341 162.11308 413.341 166.38695 415.97705 169.02295 C 418.6131 171.65903 422.88696 171.65903 425.523 169.02295 C 428.15906 166.38695 428.15906 162.11308 425.523 159.47705" fill="#020202"/></g></g></svg>

/***
|''Name''|TiddlySpaceCloneCommand|
|''Version''|0.5.8|
|''Description''|provides a toolbar command for cloning external tiddlers|
|''Status''|stable|
|''Source''|http://github.com/TiddlySpace/tiddlyspace/raw/master/src/plugins/TiddlySpaceCloneCommand.js|
|''Requires''|TiddlySpaceConfig TiddlySpaceFilters|
!Code
***/
//{{{
(function($) {

var cmd = config.commands;
var tiddlyspace = config.extensions.tiddlyspace;

var fieldsCache = {};

cmd.cloneTiddler = {
	text: cmd.editTiddler.text,
	tooltip: "Create a copy of this tiddler in the current space",
	errorMsg: "Error publishing %0: %1",

	isEnabled: function(tiddler) {
		return !config.filterHelpers.is.local(tiddler) && !readOnly;
	},
	handler: function(ev, src, title) {
		var tiddler = store.getTiddler(title);
		if(tiddler) {
			fieldsCache[title] = $.extend({}, tiddler.fields);
			tiddler.fields["server.workspace"] = tiddlyspace.getCurrentWorkspace(config.options.chkPrivateMode ?
		"private" : "public");
			tiddler.fields["server.permissions"] = "read, write, create"; // no delete
			delete tiddler.fields["server.page.revision"];
			delete tiddler.fields["server.title"];
			delete tiddler.fields["server.etag"];
			// special handling for pseudo-shadow tiddlers
			if(tiddlyspace.coreBags.contains(tiddler.fields["server.bag"])) {
				tiddler.tags.remove("excludeLists");
			}
		} else { // ensure workspace is the current space
			var el = story.findContainingTiddler(src);
			el = $(el);
			var fields = el.attr("tiddlyfields");
			if(fields) { // inherited via TiddlyLink
				fields = fields.decodeHashMap();
				fields["server.workspace"] = config.
					defaultCustomFields["server.workspace"];
			} else {
				fields = config.defaultCustomFields;
			}
			fields = String.encodeHashMap(fields);
			el.attr("tiddlyfields", fields);
		}
		cmd.editTiddler.handler.apply(this, arguments);
		if(tiddler) {
			tiddler.fields["server.permissions"] += ", delete";
		}
		return false;
	}
};

cmd.editTiddler.isEnabled = function(tiddler) {
	return !cmd.cloneTiddler.isEnabled.apply(this, arguments);
};

// hijack cancelTiddler to restore original fields
var _cancelHandler = cmd.cancelTiddler.handler;
cmd.cancelTiddler.handler = function(ev, src, title) {
	var tiddler = store.getTiddler(title);
	if(tiddler) {
		tiddler.fields = fieldsCache[title] || tiddler.fields;
		delete fieldsCache[title];
	}
	return _cancelHandler.apply(this, arguments);
};

// hijack saveTiddler to clear unused fields stash
var _saveHandler = cmd.saveTiddler.handler;
cmd.saveTiddler.handler =  function(ev, src, title) {
	delete fieldsCache[title];
	return _saveHandler.apply(this, arguments);
};

})(jQuery);
//}}}

<<tiddler Backstage##Tiddlers>>

! Enter a chemical equation to balance:
http://www.webqc.org/balance.php

!  List software
Alternatives to CSVed for Linux

!MinutePhysics
https://youtu.be/HxTnqKuNygE

!Tsundoku
https://en.wikipedia.org/wiki/Tsundoku

"Tsundoku" (n.) is the condition of acquiring reading materials but letting them pile up in one's home without reading them. "Tsundoku" originated as Japanese slang (積ん読) "tsun-doku". 「積ん読」 came from 「積んでおく」 "tsunde-oku" (to pile things up ready for later and leave) and 「読書」 "dokusho" (reading books). 「積んどく」 "tsundoku" is a euphonic change of 「積んでおく」. It is also used to refer to books ready for reading later when they are on a bookshelf. As currently written, the word combines the characters for "pile up" (積) and the character for "read" (読).[citation needed]

A. Edward Newton is quoted as saying: "Even when reading is impossible, the presence of books acquired produces such an ecstasy that the buying of more books than one can read is nothing less than the soul reaching towards infinity ... we cherish books even if unread, their mere presence exudes comfort, their ready access reassurance

! Normal limit 115 
http://www.nature.com/news/human-age-limit-claim-sparks-debate-1.20750

!new blood
http://www.nature.com/news/ageing-research-blood-to-blood-1.16762

!scheme
http://biochemical-pathways.com/#/map/2

!Lion Roar 
http://afv.com/lion-cub-tiny-roar/

!Research News
http://www.ddn-news.com/38

metode online
http://www.scigine.com/method.php?ID=27963
http://www.scigine.com/method.php?ID=13890
http://www.scigine.com/method.php?ID=21835
http://www.scigine.com/method.php?ID=47595
http://www.scigine.com/method.php?ID=43895

!IncuCyte
http://www.essenbioscience.com/en/products/incucyte
IncuCyte® ZOOM System consists of a microscope gantry that resides in the cell incubator, and a networked external controller hard drive that gathers and processes image data. Different microscope objectives (4x, 10x, 20x) can be housed within each system and readily interchanged by the user. Each IncuCyte® ZOOM System houses multiple T-flasks or microtiter plates 96 well or 384-well (up to 6) and can acquire >2000 images per hour.
[>img[http://www.essenbioscience.com/media/uploads/files/IncuCyte_Zoom__Open_Tray.jpg]]


! Mito - cancer
Dr. Mercola and Dr. Seyfried on Mitochondria and Metabolic Therapy (august 2016)
https://www.youtube.com/watch?feature=player_detailpage&v=yGnJQ2kGB-g#t=207
http://articles.mercola.com/sites/articles/archive/2016/08/07/cancer-metabolic-disease.aspx?utm_source=youtube&utm_medium=video&utm_campaign=content_interview

http://downsub.com/


! Experion - Automated electrophoresis system - Biorad. 
idea for Δψm
http://www.bio-rad.com/en-ca/applications-technologies/automated-electrophoresis-analysis
http://www.bio-rad.com/en-cn/product/experion-pro260-starter-kit
https://www.youtube.com/watch?feature=player_embedded&v=408ee7cb67A


!Arhiva Agentia Spatiala Americana (NASA) online - mito 60 articles
https://www.ncbi.nlm.nih.gov/pmc/funder/nasa/

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3685457/
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4156692/
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2828274/
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3995032/

learning resurse
http://bscb.org/learning-resources/softcell-e-learning/mitochondrion-much-more-than-an-energy-converter/

http://www.essenbioscience.com/media/uploads/files/IncuCyte_Zoom__Open_Tray.jpg! Microspectrophotometer for mitochondria analysis (confocal)
* Probing cytochrome c in living mitochondria with surface-enhanced Raman spectroscopy
* Label-Free Detection of Mitochondrial Distribution in Cells by Nonresonant Raman Microspectroscopy
http://www.microspectra.com/component/content/article/35-technical-support/45-what-is-a-microspectrophotometer

!Estimation Convert Between Fahrenheit and Celsius Without a Calculator
C to F: Multiply the temperature by 2 and then add 30
(actual formula is multiply by 1.8, add 32)
ex: 22 C is roughly equal to 74 degrees using my method, actual conversion is 71.6
F to C: Now just work it backwards, subtract 30 from the temp. and then divide by 2
(again, actual formula constants are 1.8 and 32)

!Biological Power Plant	

https://burningscience.wordpress.com/tag/mitochondria/
https://burningscience.wordpress.com/


! The spectral image stack λ lambda stack, image cube, or spectral cube 
http://zeiss-campus.magnet.fsu.edu/articles/spectralimaging/introduction.html
Spectral imaging combined with linear unmixing 
Figure 1 is an Indian Muntjac fibroblast cell stained with a combination of SYTOX Green (nucleus), Alexa Fluor 488 conjugated to phalloidin (filamentous actin network), and Oregon Green 514 conjugated to goat anti-mouse primary antibodies (targeting mitochondria). These dyes have emission maxima at 523, 518, and 528 nanometers, respectively, and each appears green to the eye when viewed in widefield fluorescence using a standard FITC cube.
Spectral imaging merges the two well-established technologies of spectroscopy and imaging to produce a tool that has proven useful in a variety of disciplines that rely on various forms of optical microscopy. The methodology has been extensively applied to visualize the chemical composition of materials ranging from enzymes involved in biomolecular interactions to the formation of stars. Unlike a typical image, which is acquired over the entire wavelength response band of the detector, a spectral image requires the creation of a three-dimensional data set that contains a collection of images of the same viewfield captured at different wavelengths or wavebands. In effect, the spectral image provides a complete spectrum of the specimen at every pixel location (noted as I(x,y,λ); 

http://www.regimesmaigrir.com/actualites/article.php?id=1292

! Le test ADN peut-il trouver le régime parfait pour vos gènes ?

//Le test de mito peut-il trouver le régime parfait pour vos cellules?//

Effectuer des tests ADN révélerait le régime qui convient le mieux à votre génétique selon certains experts. Qu'en est-il vraiment ?
Faire des régimes est souvent un cycle incessant de perte de poids suivi de reprise de tout le poids perdu. Des centaines de régimes existent, mais savez-vous lequel vous est le plus favorable ? La réponse pourrait se trouver dans votre ADN.

L'idée du régime ADN est ancrée dans le fait (scientifiquement prouvé) que les plans minceur ne fonctionnent tout simplement pas pour beaucoup de gens.

Selon certaines études, 95% des gens reprendront le poids qu'ils ont perdu, et cela pendant les quelques années voire mois qui suivent la fin du régime. Et 41% de ceux qui tentent de suivre une méthode amaigrissante finiront par reprendre plus de kilos qu'ils avaient réussi à perdre.

Avant de poursuivre, rappelons que l'ADN est l'abréviation de "Acide DésoxyriboNucléique" (la base azotée du corps humain) et que le terme "génétique" désigne soit la science qui étudie la transmission des caractères héréditaires (si vous employez ce terme en tant que nom commun féminin) soit ce qui dépend des gènes (si vous utilisez ce terme en tant qu'adjectif).


> Une étude populaire pour valider la piste de l'ADN

Une étude désormais célèbre, menée par l'Université de Stanford (Etats-Unis) et présentée à la conférence de l'Association de la Santé Cardiaque Américaine en 2010, avait analysé les effets à long terme de la perte de poids en utilisant quelques cures minceur différentes, assignées aléatoirement à 101 femmes.

Les résultats ont montré que certaines participantes perdaient du poids avec un type de régime (comme "pauvre en matières grasses") tandis que d'autres n'en perdaient pas.

Les chercheurs avaient ensuite testé l'ADN des participantes pour 3 variantes génétiques spécifiques. Ils avaient trouvé que celles qui utilisaient la diète qui convenait le mieux à leur ADN perdaient 2,5 fois plus de poids que celles qui n'utilisaient pas le régime parfait pour leur ADN.

Ce test génétique est un domaine vraiment tout neuf - la nutrigénomique - qui fait le lien entre les gènes et la nutrition. Cela semble logique parce que nos gènes contrôlent les niveaux d'hormones, les taux d'enzymes, c'est-à-dire tous les niveaux de base du métabolisme. Et la façon dont nous métabolisons les nourritures détermine ce qui arrive aux nutriments et aux calories que nous ingérons.

Pour les chercheurs, les résultats de l'étude sont très intéressants mais restent préliminaires, et devraient être validés par une plus grande étude (réalisée sur un nombre de participants nettement plus important).

De plus, selon eux, bien que les tests ADN soient disponibles et relativement abordables, vous n'êtes pas obligés de faire une analyse génétique pour déterminer votre programme minceur parfait.

Il existe effectivement de nombreux autres signes : les mesures physiques (les choses que vous voyez dans le miroir, les mesures cliniques), les vérifications simples que vous faites lors d'un bilan de santé annuel, et aussi des mesures symptomatiques (les manières dont vous vous sentez physiquement ou émotionnellement), etc.


> Exemples de régimes ADN

Le profil génétique peut être étudié pour établir la meilleure nutrition possible en adéquation avec chaque individu
Voici trois exemples de solutions minceur basées sur la génétique (pauvre en graisses, pauvre en sucre, équilibrée) et comment déterminer lequel conviendrait le mieux à votre patrimoine génétique. Découvrez par la même occasion comment les styles de vie sains peuvent vaincre les mauvais gènes en cliquant ici.

1) Le régime pauvre en graisses
Il pourrait être parfait pour vous si vous avez :

    Un antécédent de maladie cardiaque dans votre famille,
    Un niveau d'énergie faible,
    Un taux de "mauvais" cholestérol (LDL) élevé.


Une diète pauvre en matières grasses peut apporter la perte de poids tout en vous protégeant des maladies auxquelles vous êtes prédisposés.

Evitez les nourritures grasses, les sucres et glucides raffinés, etc. car ils peuvent en effet vous rendre léthargiques. Pour recevoir l'énergie optimale, mangez des glucides ne contenant pas beaucoup de lipides (par exemple des grains entiers comme le quinoa ou des légumineuses comme les haricots noirs). Choisissez des graisses monoinsaturées comme l'huile d'olive et l'avocat pour améliorer votre taux de "bon" cholestérol (HDL).

Les fondamentaux d'un régime pauvre en graisses :

    Ne pas consommer plus de 77 grammes de graisse par jour,
    Parts des macronutriments : 70% de glucides, 15% de protéines, 15% de graisses.



2) Le régime pauvre en sucres
Il pourrait être parfait pour vous si vous avez :

    Du surpoids autour de votre ventre (poignées d'amour),
    Une hypertension artérielle,
    Un taux de triglycérides élevé.


Si votre taille est supérieure à 89 centimètres, vous vous exposez aux risques de maladie cardiaque, de maladie de la vésicule biliaire et de diabète. Vous pourriez être résistants à l'insuline, ce qui veut dire que vous avez du mal à transformer du sucre.

En perdant 10% de votre poids corporel pour mieux le contrôler, vous pouvez également réduire votre tension artérielle. Choisissez des protéines maigres (sans graisse apparente ni peau) saines et limitez les quantités de glucides (surtout les aliments blancs raffinés comme les pommes de terre riches en amidon, le pain blanc, la farine blanche, etc.).

Les bases d'un régime pauvre en sucres sont :

    Consommer entre 20 et 60 grammes de glucides par jour,
    Parts des macronutriments : 30% de glucides, 40% de graisses, 30% de protéines.



3) Le régime équilibré
Il pourrait être parfait pour vous si vous avez :

    Un antécédent familial de diabète ou de maladie cardiaque,
    Une ethnicité méditerranéenne,
    Une indigestion fréquente ou une constipation chronique (cliquez ici pour mieux lutter contre le problème constipant).


S'il était assez bon pour vos parents, il sera suffisamment bon pour vous. C'est le pouvoir réel de la nutrigénétique, elle nous rappelle l'importance de notre patrimoine. Par exemple, les Scandinaves consomment des produits laitiers sans problème parce qu'ils sont tolérants au lactose. Pendant ce temps là, de nombreux Amérindiens et Chinois sont intolérants au lactose (ces derniers sont invités à mieux connaître les aliments à éviter dans ce cas).

Le fondement du régime équilibré est simple : il faut composer votre alimentation par 50% de glucides, 30% de graisses et 20% de protéines.


Ces régimes fonctionnent sur beaucoup de gens. Il s'agit d'une simple quantité de calories consommées versus les calories dépensées. Le test donne un outil très intéressant pour savoir potentiellement quelle alimentation fonctionne le mieux pour vous.

Quant aux outils qui peuvent nous protéger de nombreuses maladies (maladies cardiovasculaires, cancers, diabète, etc.), ils sont connus : manger plus de fruits et légumes, consommer moins de nourritures transformées (par exemple des nourritures industrielles prêtes-à-manger), faire de l'exercice régulièrement.


> Comment se passe ce test ADN en vrai ? Quelle est sa méthode et son efficacité ?

Rappelons que la prise de poids est le résultat de deux facteurs principaux : manger trop de calories ET ne pas faire assez d'activités physiques pour les brûler. Cependant, d'autres facteurs peuvent contribuer à une surcharge pondérale ou à une obésité.

L'un des facteurs que les chercheurs ont étudié est donc l'influence du patrimoine génétique comme nous l'avons dit précédemment. En conséquence, plusieurs entreprises ont commencé à offrir des tests visant à augmenter les chances de succès d'une perte de poids.

Les compagnies qui font la promotion des tests ADN pour détecter le régime le plus adapté à votre corps se focalisent sur le rôle des gènes dans la prise de poids. Les tests fournissent des informations génétiques sur le métabolisme et l'absorption des graisses, ce qui peut ensuite être utilisé pour générer un profil génétique. Diverses entreprises affirment que ce génotype peut alors aider à déterminer le régime le plus efficace pour vous aider à retrouver la ligne.

En effet, chaque personne est unique. Chaque individu possède son propre profil génétique. Et selon les compagnies commercialisant ce type de test ADN, votre génotype peut prédire si vous allez grossir et comment vous pouvez perdre les kilos en trop. Vous pouvez découvrir la bonne nutrition, le bon type d'exercice physique, et le bien-être qui vous conviennent, et à vous uniquement.

Découvrez également les causes possibles d'une prise de poids sans raison apparente en cliquant ici.


Il vous faut tamponner l'intérieur des joues avec un petit instrument pour recueuillir un échantillon d'ADN avant d'envoyer au laboratoire pour tester
Quelle est la méthode ? Le test commercialisé par les compagnies "Interleukin Genetics" (via son site Web http://www.inherenthealth.com) ou "C2DNA" (via son site Web http://www.c2dna.com) vous demande concrètement de tamponner l'intérieur de votre joue pour recueillir de l'ADN.

Vous devez ensuite renvoyer cet échantillon à un laboratoire par courrier recommandé. Dans ce laboratoire, des scientifiques vont ensuite chercher des polymorphismes nucléotidiques simples (polymorphisme d'un seul nucléotide, SNP) dans 4 gènes distincts afin de créer un profil de gestion du poids.

Le test ADN cherche des polymorphismes nucléotidiques simples SNP afin d'élaborer un profil de gestion du poids
Les polymorphismes nucléotidiques simples sont le type de variation génétique le plus courant chez les humains. Chaque SNP signifie une différence dans un bloc de construction de l'ADN simple (appelé un nucléotide).

Les résultats vous sont communiqués 2 semaines après la réception de votre échantillon ADN par la compagnie de test. Vous pouvez vous enregistrer sur Internet (sur le site de la compagnie) afin de pouvoir visualiser vos résultats en ligne ultérieurement en plus d'accéder à votre page de membre.

Vous disposerez d'une consultation gratuite avec un généticien diplômé et travaillant chez la compagnie testeuse, un DVD explicatif gratuit. Les recommandations personnalisées, correspondant à votre génotype, sont écrites dans un langage clair et compréhensible par tout le monde (et non dans un jargon scientifique incompréhensible).

D'autres entreprises proposent aussi de déterminer génétiquement si un régime pauvre en glucides vous convient mieux qu'un régime pauvre en graisses, ou encore si un entraînement basé sur la musculation vous est plus adéquat qu'un entraînement à base d'endurance.

Beaucoup de compagnies spécialisées dans ce genre un peu particulier de tests d'ADN affirment même pouvoir nour dire les tendances comportementales devant la nourriture. Pour elles, il y a un gène qui explique les grignotages intempestifs et excessifs. Il existe aussi un gène qui fait transpirer excessivement. Il y a un gène qui explique pourquoi certaines personnes adorent tant boire du café.

Consultez également nos informations sur la galanine, un gène impliqué dans les envies de nourritures et d'alcool, cliquez ici.


Quelle est l'efficacité de ce type d'analyse ? Bien que les tests génétiques ne soient pas la solution ultime pour ne plus grossi, des études ont trouvé que le test ADN pour optimiser la perte de poids commercialisé par Interleukin Genetics ou C2DNA peut être utile.

Dans l'étude menée par des chercheurs l'Université de Stanford (citée en préambule), les participants qui suivaient un régime approprié à leur génotype perdaient 5,3% de leur poids corporel. Cependant, ceux qui faisaient un régime qui ne correspondait pas à leur génotype perdaient seulement 2,3% de leur poids corporel. Lisez aussi comment le lait maternel pourrait améliorer l'ADN et le système immunitaire du bébé en cliquant ici.

Selon les observations de l'étude, les résultats du test étaient encore plus frappants quand l'on prenait en compte les régimes célèbres que les participants étaient en train de suivre (le régime Atkins pauvre en glucides, et le régime Ornish pauvre en graisses).

Les participants dont le génotype correspondait au régime perdaient 6,8% du poids corporel, tandis que ceux dont le génotype ne correspondait pas au régime perdaient seulement 1,4%.


> Il ne faut pas faire confiance aveuglément à ce type de test selon certains experts

Malgré les résultats prometteurs évoqués plus haut, certains experts soulignent que la perte de poids est beaucoup plus complexe que le simple fait de connaître les variations aléatoires des gènes.

Par exemple, les effets liés à la vie dans une société obésogène (une société qui favorise les mauvaises habitudes alimentaires et un mode de vie sédentaire) ne peuvent pas être négligés.

Avant de sortir le porte-monnaie pour payer un test ADN dans l'espoir de trouver le régime parfait pour vous (environ 130 euros pour un test chez Interleukin Genetics ou 220 euros chez C2DNA), ces mêmes experts recommandent d'investir dans des aliments nutritifs (cherchez des aliments exotiques et très riches en nutriments pour ajouter de la diversité) et dans un abonnement à la salle de sport.

D'autres méthodes qui peuvent vous donner un avantage lors de l'amaigrissement incluent la collaboration avec un copain de régime/de sport, ou encore la recherche d'un meilleur sommeil (ce qui aide à réguler votre appétit et votre métabolisme).


En fait, certains spécialistes en nutrition sont hésitants parce qu'ils trouvent que même s'il existe un composant héréditaire ou atavique dans l'obésité, variant entre 40 et 70%, notre compréhension actuelle de l'interaction entre la génétique de l'obésité, les régimes et la perte de poids est limitée.

Selon eux, il existe plusieurs centaines de régions géniques qui ont été associées au fait d'être obèses ou en surpoids, mais aucune d'entre elles n'a pu être validée avec certitude comme le facteur ultime pour influencer l'efficacité d'un programme minceur spécifique.

Pour ces experts, bien qu'il existe énormément d'intérêt et beaucoup d'études en cours pour explorer l'interaction entre la nutrition et la génétique (la nutrigénomique), il n'y a pas de réponse ferme et définitive pour le moment.

Cela étant dit, des gènes ont bel et bien été identifiés comme associés à la réceptivité d'une personne face à l'exercice physique. Une varianté génique présentée lors de la réunion "Obesity Societey" à Phoenix (Arizona, Etats-Unis) en 2008 avait montré que chez certaines personnes, l'exercice physique éteint les gènes provoquant l'obésité.

En outre, plusieurs variantes génétiques sont associées à un métabolisme anormal des glucides, qui pourrait orienter un individu vers un régime pauvre en sucres afin de perdre du poids ou de le gérer / conserver. Mais il existe des méthodes bien plus simples, moins coûteuses et validées cliniquement pour évaluer le métabolisme des glucides : tests du taux de cholestérol / de la glycémie / de la tension artérielle, mesure du tour de taille.

Ces experts ne recommandent donc pas de réaliser un test ADN pour obtenir une bonne gestion du poids. Ils pensent que vous pouvez tout à fait utiliser le miroir ou un ruban à mesurer. De plus, ils suggèrent que si vous avez tendance à porter votre surpoids autour de l'abdomen, vous pouvez maigrir plus efficacement en réduisant la consommation de glucides (surtout les glucides hautement transformés).

Pour ces spécialistes, si vous avez tendance à répartir votre surcharge pondérale de manière plus uniforme, réduire les apports caloriques totaux reste la meilleure approche, et réduire la consommation graisseuse est la façon la plus facile pour réduire les calories.

Et il faut quoiqu'il arrive faire du sport avec régularité (et bien ravitailler vos muscles après l'entraînement). Que vous ayiez ou non le gène rendant sensible à l'exercice physique, être actifs régulièrement améliorera votre santé et vous aidera à stabiliser le poids une fois que vous en aurez perdu.


De toutes les façons, même les compagnies qui fournissent ce service de test ADN reconnaissent que ce type d'analyse génétique pour vous débusquer le meilleur régime n'est pas une solution miracle. Vous devez toujours faire un régime et faire du sport, mais pour ces entreprises, il y a un plus grand espoir que les efforts maximisent les résultats avec un test ADN.


Trouvez-vous que l'obésité a un rapport avec l'hérédité ? Pensez-vous que l'analyse génétique et du génome peut être utile afin de trouver le régime parfait pour vos gènes ?

!Invert white background and black text in a Acrobat pdf document
in the EDIT
in the Preferences 
in the Accessibility tab. 
There we find a section 
"Document Color options" 
where you can replace the display colors.


!cloud
Set up a server yourself, deploy to the cloud or find a provider
https://owncloud.org/install/

***
! Tester le role du PTP (permeability transition pore) dans le phénotype M1
 
Loader avec TMRE. Mesurer TMRE. Ajouter oligo dans certains puits. 
Relire à 10, 20  30 et 60 min après (si PTP flicker et ATP synthase tourne à l'envers, 
on va voir une perte de DY dans les MI mais pas Mo et M2 macrophages
(DY: Mitochondrial membrane potential)
 Faire idem mais rajouter CsA pendant le loading initial avec la sonde TMRE 
et on gadre CsA pendant le time course. 
Si c'est le PTP flickering qui fait tourner ATP sythase à l'ebvers alors 
CsA devrait prévenir la perte de potentiel induite par l'oligomycine.
CsA pourrait elle carrément prévenir la transition vers Mi macrophage?

M2 transition:
Ptp closure
Restoration of etc driven membrane potential Reduction of superoxide production 
Restoration of catabolic  substrate flux 
Triggering of mitobiogenesis and fatty oxidation program

M0 macrophage
M1 stimuli triggers:
   Physiological opening of the ptp (ie with no cell death)
1  Upregulation of glycolysis
2  Maintenance of Membane potential through reverse atp synthase flux
3  O2 consumption inhibition from from both ends of etc (ie through
maintenance of DY independent of etc flux and inhibition of pdh) 
4.  Shunting of residual Electron flux through the etc toward superoxide 
formation rather than H2O formation
5 shift from catabolic tca cycle flux through anaplerosis to support
biosynthesis(?)

Process is monitored by mitophagic qc mechanisms. 
Mitochondria that transition toward pathological phenotype (for ex transition to pathological
opening) are eliminated through mitophagy. 
Failure of mitophagy system triggers adverse effects such as macrophage cell death 
or presentation of mitochondrial antigens through mdv's.



! CsA: Cyclosporin A Tocris Bioscience Cat. No. 1101 ;  M.Wt: 1202.63
immunosuppressive agent bind to distinct families of intracellular proteins (immunophilins) termed cyclophilins.
The complexes of CsA-cyclophilin bind to and inhibit the activity of calcineurin, 
a calcium-dependent serine/threonine phosphatase.
Immunosuppressant; inhibits phosphatase activity of calcineurin (IC50 = 5 nM). 
Also inhibits formation and opening of the mitochondrial permeability transition pore (MPTP).

PMID: 9588080
CsA inhibits IL-8 production by stimulated THP-1 monocyte cell line in dose dependence course.

CysA an inhibitor of Cyp-D.

Solubility: Soluble to 100 mM in DMSO and to 50 mM in ethanol.
PMID: 19094963 
Cyclosporin-A was dissolved in dimethyl sulfoxide (DMSO) 
at 30 mg/mL. Dilution of 1–3 ug/mL were made in differentiation medium at the time of use.
CSA (1–3 ug/mL). 
Cyclosporin A (1, 10, 100 ng ml(-1)) 
PMID: 25895639  iran AVP.

PMID: 25863936
CysA (10 uM)
CysA binds to Cyp-D, inhibits ANT (Adenine nucleotide translocator), and suppresses the
mPTP opening. 

CyA, at the pharmacological range (100-300 ng/ml) no apoptose in macroph.

CyA modulate the biological functions of T cells, B cells, macrophages, and dendritic cells (DCs)

Cyclosporins are cyclic undecapeptides produced by fungi. The immunosuppressive effect of cyclosporin A 
(CsA) was initially identified in 1972 and subsequently applied in the prevention of rejection 
following organ transplantation in humans (8). CsA is lipophilic, readily penetrates the plasma
 membrane, and exerts its immunosuppressive action through binding to the cytosolic protein cyclophilin (9).
 The complex of CsA and cyclophilin inhibits calcineurin, thereby disrupting transcriptional 
induction of IL-2 and T cell activation. A variety of structural analogues of CsA are produced either 
by fungi or through chemical synthesis. 

As a widely used immunosuppressant, CsA exerts its therapeutic action on T cells at an 
effective concentration of =100 nM.
Cells were treated for an additional 4 hours with or without 10 umol/L CsA (Sigma)
CsA acts as a strong inhibitor of ABCA1 with CsA.

***
Reactive oxygen species (ROS) that arise from electron transport chain activity can be 
neutralized by oxidation of mitochondrial proteins and lipids. 
However, the way these oxidized macromolecules are removed from the mitochondria is not clear.
a subpopulation of mitochondria-derived vesicles (MDVs) that are generated in response 
to oxidative stress are delivered to lysosomes (Nature Cell Biology 14,130(2012)).

http://www.drthrasher.org/page167.html
Jedi vs the Dark Side

Chronic inflammation is currently linked to a variety of  diseases. The disease processes include the central nervous system (see section  Brain Function and Inflammation) through Rheumatoid Arthritis.  The macrophages of the brain (microglia) and the peripheral innate immune system become chronically activated release inflammatory cytokines.  These cytokines cause tissue damage and cell death.  The best description of this process is given below and fully described in the papers by Dr.. Debra  Laskin., Rutgers, University. 
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2787782/pdf/nihms136600.pdf
http://pubs.acs.org/doi/abs/10.1021/tx900086v
The below  diagram and abstract along with the above two papers describe  what is occurring in Chronic Immune Response Syndrome.
Macrophages function as control switches of the immune system, providing a balance between pro- and anti-inflammatory responses. To accomplish this, they develop into different subsets: classically (M1) or alternatively (M2) activated macrophages. Whereas M1 macrophages display a cytotoxic, proinflammatory phenotype, much like the soldiers of The Dark Side of The Force in the Star Wars movies, M2 macrophages, like Jedi fighters, suppress immune and inflammatory responses and participate in wound repair and angiogenesis. Critical to the actions of these divergent or polarized macrophage subpopulations is the regulated release of inflammatory mediators. When properly controlled, M1 macrophages effectively destroy invading pathogens, tumor cells, and foreign materials. However, when M1 activation becomes excessive or uncontrolled, these cells can succumb to The Dark Side, releasing copious amounts of cytotoxic mediators that contribute to disease pathogenesis. The activity of M1 macrophages is countered by The Force of alternatively activated M2 macrophages, which release anti-inflammatory cytokines, growth factors, and mediators involved in extracellular matrix turnover and tissue repair. It is the balance in the production of mediators by these two macrophage subpopulations that ultimately determines the outcome of the tissue response to chemical toxicants.
The purpose of immunology is simple. Cure or prevent disease. M1/M2 is useful because it is simple. M1/M2 describes the two major and opposing activities of macrophages. M1 activity inhibits cell proliferation and causes tissue damage while M2 activity promotes cell proliferation and tissue repair. Remarkably, the molecules primarily responsible for these "Fight" (NO) or "Fix" (Ornithine) activities both arise from arginine, and via enzymatic pathways (iNOS and arginase) that down regulate each other. The names M1 and M2 were chosen because M1 and M2 macrophages promote Th1 and Th2 responses, respectively. Products of Th1 and Th2 responses (e.g., IFN-γ, IL-4) also down regulate M2 and M1activity, respectively. Thus, M1/M2 demonstrated the importance of Innate Immunity and how it is linked to Adaptive Immunity in a beautifully counterbalanced system. "Civilization" and increased longevity present new disease challenges such as cancer and atherosclerosis that do not display classical "foreign" antigens. And, these diseases are often associated with (or caused by) M1- or M2- type responses that were formerly useful for fighting infections, but now are inappropriate in our increasingly "germ-free" societies. In turn, there is considerable potential for modulating M1 or M2 Innate responses in modern diseases to achieve better health. Finally, since M1 and Th1 (or M2 and Th2) often work in concert to produce characteristic immune responses and disease pathologies, it is recommended that Immune Type 1 or 2 (IT1, IT2) would be a simpler and unifying terminology going forward.

Office Online
https://products.office.com/en-us/office-online?legRedir=true&CorrelationId=651c1197-7bcd-4df8-bb16-f52899ffdb5c

https://curious.com/

http://discovermagazine.com/2015/april/00-allergies


Microscop 27Mil.$ resolution 0.14nm (2008) Dahmer 
Fancy Free Buik`y 1938 * David Rocco Italia Amalfi Postitano 
Indiana Johnes Vogelsberg Marienberg
TREPTE 
(I) 9Tx8 (II) 8897 (III) 10 7 1 6 (IV) 11T x4 (V) x
pic8 pp 11

probes for mito ⓜ
Cy3V
Atto488
DyLight 750
Mitotraker res
ER-Traker red
andre terzic PUBMED 25472047
http://www.shirihai-lab.org/
Molecular Cytomics Cell Array
Mito timer (new ⓜ = green, oxidative stress - old ⓜ = red)

!Critica de articole
https://pubpeer.com/publications/0156407E697AC8BBAC0CD9E41653D9

!iPSC
https://www.lifetechnologies.com/ca/en/home/references/protocols/cell-culture/stem-cell-protocols/ipsc-protocols/generation-human-induced-pluripotent-stem-cells-fibroblasts.html

!flasks
The major advantage of flasks over dishes is that Flasks these days come with 0.22uM filtered tops. This allows the passage of CO2 through the filter BUT acts as a barrier to Incubator contamination. Dishes on the other hand are "open" and therefore there is no barrier. As stated already, it is best practice to keep growing stocks in flasks and then seed dishes/multiwell plates for experimentation. Again the added advantage for using dishes for experiments is that you can remove the lid of the dish/plates and scrape 100% of the growing surface.

!Maximal and minimal volume in T25 flask
calculation is as follows;
0.2 to 0.5 x cm2

This means that for a T25cm2 flask the volume range is 5-12.5mls for optimal CO2 penetration
T75cm2 flask = 15-37.5mls
T150cm2 flask = 30-75mls
T185cm2 flask = 37-92.5mls

calculation is done by multiplying 25 (for a T25cm2 flask) x 0.2 = 5ml lowest volume
25 x 0.5 = 12.5ml highest volume
75 x 0.2 = 15ml lowest volume
75 x 0.5 = 37.5ml highest volume and so on.

The measurements are gotten by measuring the base of the flask (or bottom). T75cm2 flasks are about 8cm x 9cm. You can even stand the flask up and use it that way. For a T75cm2 flask the bottom measures about 7.5cm x 3cm = 22.5cm2 = 4.5 to 11.2 ml volume. Get it? It really is based off a calculation that is imparitive for CO2 to penetrate the entire volume. Do not go by guessing or by what will and will not spill out of the flask. 

!beta-mercaptoethanol
A lot of stem cells sit in tissues with very low natural O2 content, because the tissues around them are respiring it away quicker than it can diffuse from the blood.  For example for the bone marrow the O2 partial pressure is considered to be below 5%.  Your standard tissue culture incubator has 20%.  So they're suffering oxidative stress. If you're on a budget, you can mitigate the oxidative stress by adding reducing agents like the bME.  But it's much better to use a controlled O2 incubator (that uses N2 to push the O2 out).  You'll get way bigger, nicer colonies if you can control your O2 content directly. 
Cells are grown at 20% oxygen which amplifies ROS production. This leads to oxidation of antioxidant pools. To avoid oxidative stress, most cultured cells amplify antioxidant defense however; certain cell types are unable to do so and thus beta-mercaptoethanol is added to aid in maintaining a reducing environment. For instance the insulinoma cell lines require beta-mercaptoethanol for its growth since the glutathione pool is highly oxidized. Suspension cell lines like PML cells and hybridomas also sometimes required added reducing agents for proper cell growth. Other reducing agents such as DTT can also be supplemented into the medium. However, one must exercise caution when adding these agents. Indeed, thiol agents like beta-mercapto and DTT can also autocatalyze ROS formation via the genesis of thiol radicals. 
If you are culturing human cells, it is generally not necessary. it is recommended for mouse cells, but again, generally not many labs follow this protocol. however, there is a theory about using mercaptoethanol in culturing tumor cells, wherein it allows uptake of cysteine by creating a reducing atmosphere. (Bannai, 1992). You can use up to 50 Micro Molar concentration . Generally people use this in primary culture or where cell death is more. 2-ME is added MAINLY to mouse lymphocyte cultures, due to some empirical observations made by immunologists in the 1970s. It assists Exp. Hemat. (1975) 3: 32-43. The general consensus seems to be that it helps keep cysteine/GSH levels stable, maintain redox state. Others say it enhances antigen presenting and, as others have said above, may help limit clumping of the cells. 
 We use 2-ME (1-5 x 10(-5) M) for many years in experiments with mouse splenocytes, bone marrow, B-1 and B-2 cells to induce primary immune response to T-dependent and T-independent antigens. 
2-ME improves cell viability and immune response. Some years ago I have used 2-ME also for the cultures of human B lymphocytes. 
in PC 12 cells that 2-mercapto-ethanol enhances very rapidly intracellular glutathione level, and therefore protects the cells against mild oxidative shocks.
 second here Ekaterina's comments. Several companies sell cell-culture grade ready-to-use 55 micromolar 2-betaME (1000x). I have used mostly for T cell in vitro cultures, as it prevents certain aminoacids from being degraded/metabolized/oxidized. it seems to be especially relevant for T cell survival/proliferation in the absence of other antigen presenting cells. Check http://www.ncbi.nlm.nih.gov/pubmed/11830651 for more details. I also guess it helps with oxidative stress, but you might want to be careful with this in case you are evaluating e.g ROS production or macrophage/neutrophil phagocytic activity or something similar. 


I have been trying to set the CellROX measure in hematopoietic stem cells, but without further success.
I stained my cells before the CellROX incubation. And I used the controls that came with the kit NAC (500 nM) and THBP (400 nM). Then, I've tried the the following concentrations of CellROX 500 nM and 1 uM for 30 minutes at 37 degrees celsius (water bath) in medium.  At the end of the treatments I fix my cells, and I measure the CellROX by cytometry.
The results have been inconsistent. The staining doesn't last, and the CellROX does not produce higher signal in presence of THBP. 
You can try another approach for measuring intracellular ROX. DCF is for total ROX, while Mitosox is for intramitochondrial ROX. These methods are really easy and fast. You can find details in one of my article:
Molecular pharmacology 07/2014; DOI: 10.1124/mol.114.094318

!Science Toys
http://sci-toys.com/

!Dr. Mercola and Dr. Seyfried on Mitochondria and Metabolic Therapy (august 2016) subtitle

1
00:00:00,000 --> 00:00:03,750
it's not like people don't understand
what we're saying it's just that they

2
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refused to accept that this could be the
truth behind the nature of the disease

3
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people say well there is it clear
evidence the cancer must be a genetic

4
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disease because people inherit genes
that cause cancer and the answer is yes

5
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on the surface that would appear to be
true but those genes encode proteins of

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the mitochondria and then and the
mitochondria become defective as the

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result of those inherited mutations 6
200 people will die today in the united

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states alone from cancer

9
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we have an epidemic an emergency in this
feel

10
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and there's 21,000 people in the world
who die every day from cancer tragedy

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for sure

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the good side is there is a treatment
protocol that can radically

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address prevent and treat most of these
hi this is dr. Cole helping you take

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control of your health and today I'm
joint

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professor Thomas a free from Boston
College who is a one of the current

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pioneers in the inn in the application
of this therapy which stems from dr.

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otto warburg now most of you watching
this war before he was his most experts

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would not argue with recognizes one of
the most brilliant biochemists of the

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20th century most people know you want
two Nobel Prize 1931 for this discovery

20
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of the metabolism of malignant cells but
they don't know that he also was an MD

21
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and a PhD and was personal friends with
albert einstein and many of the the

22
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luminary brilliant scientist at this
time

23
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you also didn't just get one ball price
he got several problem is he was a

24
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German and it's choses de in Germany and
Hitler did not allow him to collect the

25
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second nobel prize in 1941 and he was
nominated for a third

26
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so bring a guy he came up with this
theory and there's he has he passed away

27
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I believe in the late seventies

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maybe early seventies and he had some
cycles since then his first disciple

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took up this crossing the board first

30
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what is it I'm burning passions with to
find a cure for cancer and he did you

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really did but because he was such an
eccentric and let the jury 1401 no one

32
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except that is his positions except for
dr. Peterson how to johns hopkins

33
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university who took up the crossing them
like that

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I think the early eighties and did a lot
of our work the doctor say free will

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discuss and then at your safety was next
I view dr safety is a third-generation

36
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water cycle was really done doing some
incredible research to advance the

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science and he started in the late 90s
early two thousands in easton he's had

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some novel contributions will discuss
about that i think are just really both

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finally

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luma Tory for helping you understand
what the true cause of cancer is I mean

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with the fall exceeded Warburg's initial
supposition

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so with that practice I would like to
warmly welcome you and thank you for

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joining us today because we're were
really anticipating and eager to engage

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in discussion

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well thank you very much for for having
me on and tell you a little bit about

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some of the stuff that we traditionally
how you is that cancer is a genetic

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disease

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you know what I already came up with him
with you Richard

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don't believe and I certainly don't
believe is that their offices

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significant amount of emerging evidence
that shows that cancer is really a

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defect in the center about cellular
energy metabolism itself primarily

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related to function of the mitochondria
which really wasn't known as well and

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more first time I don't even think it
was officially recognized in a you know

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assess and I think it had a name but
didn't they didn't discover the whole

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character is my car until after work

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well after it was a little Pricer mind
is alive

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so why don't you expand on that this is
because I think that's essential for

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with more want to do you know we had
interviewed you for uh and i recently

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read Travis Kristofferson's book that
about

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well tripping over the truth about the
cancer which your prominently featured

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in and it that for some reason
everything clicked together and I just

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been beyond passionate about this topic
ever since it's really the full focus of

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all my time and energy to really expand
on this consolidate the information

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presented in a digestible format with
people can understand because this this

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is the game changer that not only treats
cancer but almost every single disease

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known to man because that the
foundational chords my deposit this

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function

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so what why don't you can you I love
your work because you're such an

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eloquent explainer of this topic so what
happened to Turell rid of the from you

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well you give certainly touched upon a
lot of very important points

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in in in our understanding of what the
nature of of cancer is and the first

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point of course is you're right i mean
cancer is generally considered a genetic

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disease and I refer to this is the dogma
of the field of a dog was very

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interesting concept of dogma is is
considered an irrefutable truth

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and that cancer is a genetic disease is
no question it's a dogma

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the problem with dogmas sometimes is it
blinds you to alternative views and sets

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up ideologies which are extremely
difficult to to change arm and you know

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the the idea of course as I say when we
look at cancer if you go to any of the

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genetics textbooks

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biochemistry cell biology or whatever
all the major college textbooks talk

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about cancer as a genetic disease on the
NCI website

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the first thing they say cancer is a
genetic disease caused by mutations

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so the question is is when you have it
coming from the highest levels of our

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established scientific knowledge base
obviously

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how can all these people be want

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how can this be so misunderstood if if
cancer is a genetic disease

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everything flows from the concept and it
permeates the pharmaceutical industries

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the academic industry the textbook
industries higher knowledge base is at

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this very little discussion of
alternative views to the genetic view

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and um so so a lot of it so that the
argument now is that yes metabolic

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problems occur in cancer cells no one
denies that but these are all dutiful

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genetic mutations

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therefore we must maintain the that
ourselves on the established track that

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all of this metabolic stuff could be me
it could be could be resolved if we just

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understood more about the genetic
underpinning of the disease

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now that would be well and good if it
were true but the evidence is

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accumulating that the mutations that we
see that are the prime focus and the

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basis for the genetic theory are
actually epiphenomenon their downstream

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effects of this disturbance in the
metabolism that warburg originally

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defined back in the nineteen twenties
and thirties

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now this is a very hard pill to swallow

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if you have focused your entire career
and an enormous industries multiple in

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overlapping industries for therapies and
whatever on the idea that that we need

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to understand the genes we need to have
precision medicine that's going to

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target these various anomalies and then
someone comes along and says that those

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anomalies are really FB phenomena

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they're not the prime issue that you
should be dealing with this is a very

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difficult concept to accept or on your
understanding it's not so hard to

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understand it

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it's harder to accept it this is the
issue

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um it's not like people don't understand
what we're saying it's just that they

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refused to accept that this could be the
truth behind the nature of the disease

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I believe that a large part of the
reason why buy your contract becomes

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dysfunctional is because we're e

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dirty fuel now what do I mean by that

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glucose burns dirty that is what almost
everyone is burning is appropriately all

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so

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or more specifically ketones burn much
much cleaner they generate far less

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reactive oxygen species

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so if you have less replica boxes
species being generated my country about

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my part of damage less signaling defects
occurred transmitting to the nuclear DNA

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and less damage

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so not only is refining the fuel that
you're feeding your body that key

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component of treatment of cancer but in
my view it is the primary way that you

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prevent cancer so i'll let me let you as
well I think that's an important point

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um

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you know one of the things that triggers
cancer is inflammation

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we have inflammation uh chronic high
levels of blood sugar create information

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on this you see it a lot of a lot of
situations

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ok so you know glucose itself is not
carcinogenic up but glucose elevated

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dysregulated glucose metabolism can lead
to inflammation and can lead to arm

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it can cause a number of other
disturbances in the in the overall

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metabolism of the body

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now if you burn it if you if you fast if
you stop eating your blood sugar goes

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down your insulin levels go down and the
body starts to metabolize fat for energy

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but the the fatty acids themselves are
only one component the other , the major

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component of course of the ketone bodies

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it's like putting up a UH aboard or a
branch a long branch into a wood chipper

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the fatty acid is the branch it goes
into the chipper and outcome these

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little ketone bodies their water soluble
fat products they readily enter cells

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and and their metabolized to asset ilka
way through a series of steps and and

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these steps generate nadh which is a a
reducing equivalent but they all but

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they also um uh keep the coenzyme q
couple in an oxidized state this is very

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important because it

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it's that states that coenzyme q couple

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we're at reactive oxygen species are in
fact generated in the first place

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so this is a little bit heavy on the
biochemistry

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because Richard beach at the NIH has
done the midday that the majority of

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work on that on that pathway he was on
Scrubs his last student by the way and

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he has elegantly demonstrated how the
key time bottles

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let me just interrupt your crabs and
neglected to mention introduction was

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actually a student of war were actually
wrote warriors biography

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that's right that's right and the
biography was edited by Richard beach at

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the NIH that's where the less friends
last student so so and Craig's also had

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a great interest in ketones he did some
incredibly important work on the use of

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the body by the way the body by the way
the body uses ketones so ketones are

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clean fuel and sent in the only in the
sense that they they they they suppress

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the formation of a reactive oxygen
species especially when blood sugar

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levels are low

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ok because if you have very high ketones
and high blood sugar

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you have to go acidosis which is a
life-threatening event yeah it was a

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person in insulin deficiency in
different

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yes great helping thousands no no not a
nutritional very rare can about the

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normal person with normal physiology get
ketones above seven or eight million

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molar you do ketoacidosis is around 20
million mother I mean you're so far from

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that from that range

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so uh so therapeutic ketosis is a very
is very health and energy or is a

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healthy lifestyle healthy the for
maintaining maximum energy efficiency

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and reducing reactive oxygen radical
production so the mitochondria can

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actually get very healthy when ketones
are metabolized as opposed to some of

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the other fuels like glucose especially
glucose

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yeah this is a point like to emphasize
it from a different perspective because

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traditionally for the last few decades
most natural health enthusiastic word

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understand the reactive oxygen species
dilemma and as in their attempt to

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circumvent this challenge would be to
swallow antioxidants either through

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natural foods high in polyphenols or
other natural attacks or supplements in

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an attempt to reducing but i think
that's a large charity things fatally

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watch the energy because it's far more
effective to address it at the source

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which is changing the fuel and it's not
the key times don't generate any

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reactive oxygen species because another
thing another piece of information that

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many people fail to record our
appreciation I think many health

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professionals is that reactive oxygen
species are also signaling model very

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powerful single miles out because if you
suppress them indiscriminately you are

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going to have biological dysfunction

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so you do not want to eliminate and you
just want to control them to optimal

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levels so they all the signaling the
curves

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ideally yeah and how does the ketones
and we're pretty much you're not the

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ideal therapeutic window

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yes well hello there you're right you're
right there's no question about it so

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it's what we call the a homeostatic
state then ketones allow the UH the they

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prevent a dysregulated reactive oxygen
production and and and that's basically

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what it is and and aging essentially is
we age because we collect oxygen

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radicals and all the dishes of our body
and an age is basically the second law

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of thermodynamics which is entropy
disorder

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we spend the whole our whole life
pushing the boulder up the hill

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um but eventually the boulder does win
and because one of us not have a

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survivor what happened next

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immortal there's another variable in
there with respective agents an

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important consideration is that it's not
so much as pushing the boulder up

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no but it's ultimately is a form of your
repair mechanisms that are there and

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once you get it shows the pyramids
specifically by powder in my pocket by

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chance once that damage then that we're
going to a clutch tweet about the bolder

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boulder rolls downhill faster

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absolutely but you're at but you're
basically what that's all we're doing is

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is is a calorie-restricted ketogenic
diets ketone metabolism in these kinds

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of things

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delay entropy basically what you're
doing is delaying the second law

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you're allowing your body to remain
healthier for a longer period of time at

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and that's basically uh what what we're
doing here

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cancer is accelerated entropy

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it's a total disorganisation of the
homeostatic uh the the parameters within

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cells and outside the cells in the more
for genetic field and in the entire body

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itself cancer cancer patients have all
kinds of of disturbances in in systemic

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homeostasis

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it's not just in the cells you see the
problem is many people focus on cancer

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as a as a reduction is sell its only in
that cell and a

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it went when the body has cancer there's
a number of ramifications that and that

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take place throughout the body

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I you know where we're producing more
city within ourselves

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there's a lot of responses in a part of
hormones and and and signaling cascades

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throughout the body as the result of
this disease

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so one has to one has to treat cancer as
it is it as a systemic the whole body

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has to be treated

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um but in a non toxic way and this is
that the the failure of the of the of

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the current treatments

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is that is that the majority of
treatments for cancer are extremely

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toxic to the body of causing even
greater disturbances in the homeostatic

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state of the body

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so when you look at cancer is that as a
metabolic disease

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there are ways to target and manage the
disease without creating systemic

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toxicity which is the standards of care
most of the standards of care for cancer

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are extremely toxic and when you view
the disease and metabolic disease

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you just have to simply target the fuels
that the cells are using and that's

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primarily glucose and glutamine and if
you can switch the body away from these

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fuels you'll have a better chance of of
providing longer turmeric management

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without taxes now we don't know who is
cured from cancer

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the the issue is if you die from old age
from something you had cancer it's a 40

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and you die

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93 from something other than cancer you
I we would know you were cured from your

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cancer

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alright it but we can't know that
because because cancers many cancers

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come as the result of the treatments
some some people are so called we go

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they use this five-year thing if you
don't have your cancer come back and

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five year they call you

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they call you cured but 15 years later
you get a new kind of cancer that came

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as the result of the treatment for the
first cancer now and that could be from

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toxic chemicals or radiation or a
variety of other things that that would

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be used

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so was that person really cured of that
cancer or was it the same kids that they

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came back with new cancer that came

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it's it's very hard to say that so what
I like to say is can we manage cancer

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and maintain a high quality of life for
as long as we possibly can

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I think that's a more rational view to
this rather than saying metabolic kid or

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ketogenic diets are going to cure cancer

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I have that and and other people say
ketogenic diets we'll cure cancer

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now if someone's on a ketogenic diet for
seven years and they're not and and

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their and their cancer is still there
but it's not progressing

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are they cured or they've managed so so
the question is these are the kinds of

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concepts so I don't like to say that we
we can cure cancer

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I like to say that we can manage cancer
and keep people in an estate of of of

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quality of life but we have to recognize
in light of what we we've done in others

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is that if cancer is a mitochondrial
metabolic disease and you get cancer

263
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because of mitochondrial failure in
certain populations of cells in certain

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00:19:24,250 --> 00:19:29,230
tissues if you prevent your mitochondria
from entering into this dysfunctional

265
00:19:29,230 --> 00:19:33,400
state and cancer is a mitochondrial
metabolic disease

266
00:19:33,400 --> 00:19:36,640
the probability of getting cancer is
going to be significantly reduced

267
00:19:37,450 --> 00:19:42,400
so to what percent i would say probably
eighty percent and minimum of eighty

268
00:19:42,400 --> 00:19:46,240
percent so cancer is probably as i said
in my book

269
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one of the most manageable diseases that
we know of very little energy is giving

270
00:19:51,429 --> 00:19:52,900
into into prevention

271
00:19:52,900 --> 00:19:58,450
most of the energy answer is it secures
finding cures and finding new treatments

272
00:19:58,450 --> 00:20:02,620
very little energy is spent the federal
government spends very little energy on

273
00:20:02,620 --> 00:20:05,229
unmet on on prevention

274
00:20:05,230 --> 00:20:10,360
now the problem of course is people
don't want many people I don't tell

275
00:20:10,360 --> 00:20:13,840
people the people don't want that what
do you have to do to prevent cancer all

276
00:20:13,840 --> 00:20:18,189
you have two therapeutically fast for a
week oh I'm not going to give me a break

277
00:20:18,190 --> 00:20:21,850
I'll take I'll roll the dice and say let
me get let me see if I'm gonna get you

278
00:20:21,850 --> 00:20:28,178
know that it's like what I have to
exercise so I I so that that that a an

279
00:20:28,179 --> 00:20:33,520
effective prevention is to eat less and
move more and forth to a lot of people

280
00:20:33,520 --> 00:20:37,330
that want to do that but i have to admit
the younger people are are

281
00:20:37,840 --> 00:20:41,500
are are recognizing this and I think
that more and more people are becoming

282
00:20:41,500 --> 00:20:45,490
too really once you realize what cancer
is a metabolic disease then you can take

283
00:20:45,490 --> 00:20:47,919
charge of of those kinds of things

284
00:20:47,919 --> 00:20:50,919
in other words getting cancer is not
God's will

285
00:20:50,919 --> 00:20:56,620
Nelson it's not the fact that you that
you are have bad luck as as some some of

286
00:20:56,620 --> 00:20:59,709
the science and say you know you got bad
luck that you have nothing to do just

287
00:20:59,710 --> 00:21:03,309
got bad luck it's in your genes you get
bad luck you know this is this is not

288
00:21:03,309 --> 00:21:04,480
accurate

289
00:21:04,480 --> 00:21:08,230
yeah if you're exposed our environment
now we have to recognize i agree with

290
00:21:08,230 --> 00:21:09,130
you

291
00:21:09,130 --> 00:21:12,850
our food industry is producing massive
amounts of food

292
00:21:13,360 --> 00:21:19,629
that's a nutritionally deficient and
full of of things that can cause

293
00:21:19,630 --> 00:21:22,870
systemic inflammation contributing to
the risk of cancer

294
00:21:22,870 --> 00:21:25,899
so we're bombarded and the food's our
tastes so good

295
00:21:26,529 --> 00:21:32,890
they tweak our our our love of glucose
our love of sweets and it makes us we

296
00:21:32,890 --> 00:21:35,770
can probably not aware we spray over

297
00:21:35,770 --> 00:21:40,299
I think it's a billy almost a billion
pounds of privacy as Robert on our food

298
00:21:40,299 --> 00:21:42,549
crops that are mostly into animals

299
00:21:42,549 --> 00:21:49,149
you have is a potent are potent
contributor to mitochondrial dysfunction

300
00:21:49,149 --> 00:21:53,139
I just learned that lesson yeah no no
I'm saying is that so many things in our

301
00:21:53,140 --> 00:21:57,909
environment that contribute to
mitochondrial dysfunction and you know

302
00:21:57,909 --> 00:22:00,610
that manifest itself not only a form of
cancer

303
00:22:00,610 --> 00:22:04,299
it manifests form in the time in the
form of type 2 diabetes cardiovascular

304
00:22:04,299 --> 00:22:08,830
disease Alzheimer's disease Alzheimer's
disease is another one of these

305
00:22:08,830 --> 00:22:12,850
metabolic problems people who have
Alzheimer's disease are hypo metabolic

306
00:22:12,850 --> 00:22:16,809
you know that one of the questions at
the NCI was now come people with

307
00:22:16,809 --> 00:22:19,418
Alzheimer's disease have a lower risk to
get cancer

308
00:22:19,419 --> 00:22:22,960
that was one of the provocative
questions and the issue is is that they

309
00:22:22,960 --> 00:22:27,130
have low blood sugar levels they are
hypermetabolic it's very hard to drive a

310
00:22:27,130 --> 00:22:31,630
tumor if the fuels that to drive the to
hurt our lower low concentrations

311
00:22:31,630 --> 00:22:34,899
the question is the bigger question is
why people with Alzheimer's or hypo

312
00:22:34,899 --> 00:22:39,39
metabolic you know what's going on with
their metabolism that that puts them at

313
00:22:39,39 --> 00:22:40,480
risk for that disease

314
00:22:40,480 --> 00:22:44,770
so you know rather than focusing on on
the genetic variants about this yet like

315
00:22:44,770 --> 00:22:48,429
all diseases we have some that are
inherited these are rare genetic

316
00:22:48,429 --> 00:22:51,40
variants and in the population

317
00:22:51,40 --> 00:22:54,580
but you know the majority of these
different chronic diseases are the

318
00:22:54,580 --> 00:22:59,350
result of our environment a gene
environmental interaction and you know

319
00:22:59,350 --> 00:23:00,550
the question is okay

320
00:23:00,550 --> 00:23:03,550
there's nothing I can do about my
genetics I've inherited this

321
00:23:03,550 --> 00:23:08,470
I can't go about and retool my genetics
but I certainly can recognize the

322
00:23:08,470 --> 00:23:12,460
environmental factors that could
predispose me for these kinds of

323
00:23:12,460 --> 00:23:16,780
diseases so what can i do to reduce the
impact of these negative environmental

324
00:23:16,780 --> 00:23:20,950
factors and one of these is to you know
keep your mitochondria healthy

325
00:23:20,950 --> 00:23:24,640
how do you do that you'll burn ketones
all right now yeah people will go out

326
00:23:24,640 --> 00:23:28,150
during ketone drinks until they go out
and have a big ice cream sundae and then

327
00:23:28,150 --> 00:23:29,650
swallow a bunch of ketones

328
00:23:29,650 --> 00:23:33,880
I mean what what that's not gonna help
that they you know what I'm saying right

329
00:23:33,880 --> 00:23:35,530
this is people do these things

330
00:23:35,530 --> 00:23:40,629
so what is your view . not that strategy
but in addition to you know difference

331
00:23:40,630 --> 00:23:45,940
of using therapy and there's like
exogenous ketones or or a short chain

332
00:23:45,940 --> 00:23:51,580
fatty acids like a relic acids might
even check list sides i generate but it

333
00:23:51,580 --> 00:23:52,810
was that moment

334
00:23:52,810 --> 00:23:56,679
yeah but I'm just saying your party your
body retains ketones with blood Sugar's

335
00:23:56,680 --> 00:24:00,10
especially lower otherwise you pee out
the ketones

336
00:24:00,10 --> 00:24:03,160
so um you know this is another thing you
have to because we've done these studies

337
00:24:03,160 --> 00:24:05,830
in mice that we've seen this was after
work

338
00:24:05,830 --> 00:24:12,70
can you ice cream and he does to no good

339
00:24:12,70 --> 00:24:15,429
yeah you can look at it that way to a
lot of us don't understand how our

340
00:24:15,430 --> 00:24:18,250
bodies work or or our home physiology

341
00:24:18,250 --> 00:24:21,970
there were taught what we're talking
about here is that is a personal

342
00:24:21,970 --> 00:24:27,730
understanding of your of your body and
how it responds to these and and you

343
00:24:27,730 --> 00:24:30,820
know most people don't don't even
discuss this . very very little about it

344
00:24:30,820 --> 00:24:31,389
out

345
00:24:31,390 --> 00:24:38,140
I couldn't agree more wholeheartedly
with you and that includes money if not

346
00:24:38,140 --> 00:24:42,250
most my guess is the vast majority of
healthcare natural health care

347
00:24:42,250 --> 00:24:45,310
professionals who are advocating
embracing this constant they don't

348
00:24:45,310 --> 00:24:49,179
understand the protein they haven't
integrated that into the equation and

349
00:24:49,180 --> 00:24:53,890
that is going to be by the central crux
and expand and thesis of the book help

350
00:24:53,890 --> 00:24:56,860
people understand actually go to the
bottom of the pass was mtor and all the

351
00:24:56,860 --> 00:24:57,719
other

352
00:24:57,720 --> 00:25:00,750
pathways that contribute to it so they
can understand a painted a picture like

353
00:25:00,750 --> 00:25:07,290
you so eloquently did with your research
compiled so brilliantly and provided the

354
00:25:07,290 --> 00:25:13,350
entire race with the most powerful
illustration to refute the ignorance of

355
00:25:13,350 --> 00:25:16,350
the cancer therapy which is the generic
answer

356
00:25:17,180 --> 00:25:22,760
yeah well this is the first step the
first step second step is to tip the

357
00:25:22,760 --> 00:25:27,620
metabolic movement the movement that's
all I i can assure you I'm committed

358
00:25:27,620 --> 00:25:31,159
yada hundred percent and making sure
this happens i mean is the highest

359
00:25:31,160 --> 00:25:34,10
priority than what everything i do it
right now

360
00:25:34,10 --> 00:25:38,720
instead to teach these principles but it
is quarter everything and it and it's

361
00:25:38,720 --> 00:25:43,190
just bounces off great wall but what I
almost everything is being taught

362
00:25:43,730 --> 00:25:48,380
partially because of actions i think
this you know he he was getting an

363
00:25:48,380 --> 00:25:51,260
interesting idea but he absolutely
didn't understand the stuff he was

364
00:25:51,260 --> 00:25:56,450
clueless about the dangers of excess
protein or the quality food always

365
00:25:56,450 --> 00:25:59,870
thought was low cards are you are useful
to have people sometimes but a lot of

366
00:25:59,870 --> 00:26:02,479
times you don't know what you're going
to cause more problems and help them

367
00:26:02,480 --> 00:26:04,400
more damage than good

368
00:26:04,400 --> 00:26:09,920
yes I then passionate about technology
additional help for almost 50 years i

369
00:26:09,920 --> 00:26:11,750
took my first program advanced class

370
00:26:11,750 --> 00:26:17,900
Fortran and COBOL 1968 and then i got my
first computer in 85 there's only one

371
00:26:17,900 --> 00:26:20,840
here sooner except I was in medical
school and residency training program

372
00:26:20,840 --> 00:26:26,000
so that's when I finish and then I got
out of line at 1995

373
00:26:26,000 --> 00:26:29,810
but two years before i started my
website but i can tell you from my

374
00:26:29,810 --> 00:26:32,389
perspective now which is I've been
online

375
00:26:32,390 --> 00:26:40,220
uh for 20 years 20 actually 21 years now
because I got a 95 and

376
00:26:41,610 --> 00:26:48,870
this is everyone knows how pervasive how
enormously in company intertwining the

377
00:26:48,870 --> 00:26:51,870
internet is our life will never be the
same again

378
00:26:52,890 --> 00:26:56,490
and if you can just imagine the prior to
nineteen ninety-five you're like what

379
00:26:56,490 --> 00:26:58,920
security is now he is the internet

380
00:26:58,920 --> 00:27:03,630
well it is the web its web / in here
because internet started making 68 with

381
00:27:03,630 --> 00:27:09,840
darker but i think is the same situation
same family did 95 that we are at the

382
00:27:09,840 --> 00:27:15,149
threshold of an explosion of clinical
intervention that's going to change the

383
00:27:15,150 --> 00:27:19,559
history of Medicine literally will
change history of medicine and we don't

384
00:27:19,559 --> 00:27:22,918
have time to go into the details now
what that is that's why I'm writing a

385
00:27:22,919 --> 00:27:23,549
book

386
00:27:23,549 --> 00:27:26,940
I give you my word my commitment i'm
going to the profile and hopefully you

387
00:27:26,940 --> 00:27:31,320
can use it as a part about the processes
we start getting this feedback example

388
00:27:31,320 --> 00:27:35,40
feedback of all these success stories so
that we can design the clinical studies

389
00:27:35,40 --> 00:27:37,860
that will prove it and rapidly
accelerate the adoption of the soap

390
00:27:37,860 --> 00:27:42,418
literally those 1600 people don't have
to die every day

391
00:27:43,110 --> 00:27:46,860
you really need to sleep needless pain
and suffering

392
00:27:47,549 --> 00:27:52,950
and if you want you no fault in our
stars really a phenomenal through the

393
00:27:52,950 --> 00:27:56,100
movie that were just driving home on
steroids

394
00:27:56,100 --> 00:28:00,928
yeah it was great 44 yeah so you've got
to know why you want to get the emotions

395
00:28:00,929 --> 00:28:05,549
behind it going to have a reason to do
this because I there's no doubt i've

396
00:28:05,549 --> 00:28:07,289
actually applied this myself

397
00:28:07,289 --> 00:28:11,580
you know I've been and I know it works
and you don't find the protocol so I'm

398
00:28:11,580 --> 00:28:16,320
not talking out of my butt I'm talking
about practical anecdotal observations

399
00:28:16,320 --> 00:28:22,19
in personal you know in my knowledge of
30 years of of of health and medicine

400
00:28:22,19 --> 00:28:27,29
and apply that integrated development
protocol works using very simple foods

401
00:28:27,29 --> 00:28:32,159
and targeting using biomarkers like the
daily fast means to target and guide

402
00:28:32,159 --> 00:28:36,720
your therapy customized so I'm just
beyond excited about this because i

403
00:28:36,720 --> 00:28:39,330
think is the most important thing I'll
ever do in my life

404
00:28:39,330 --> 00:28:43,889
clinical is to contribute to this field
and I'm so grateful for your you know

405
00:28:43,889 --> 00:28:48,269
your part and contributing to the
process of opening it up allies to this

406
00:28:48,269 --> 00:28:48,539
true

!Neuroprotection - coma profunda - mito sont OK ?
reportage - Au-delà du coma, Découverte Ici Radio-Canada 
professeur Florin Amzica, du Laboratoire de neurophysiologie de l'Université de Montréal
https://www.youtube.com/watch?v=bfXppVIwjhg

!Human Renal Proximal Tubular Epithelium Cells from the urine

PMID:  22622463 
http://www.ncbi.nlm.nih.gov/pubmed/22622463

PMID: 24560744
A morphological and functional comparison of proximal tubule cell lines established from human urine and kidney tissue. 2014
http://www.ncbi.nlm.nih.gov/pubmed/24560744

PMID: 7564123 
http://www.sciencedirect.com/science/article/pii/S0085253815590960

PMID: 25406339
http://www.ncbi.nlm.nih.gov/pubmed/25406339

PMID: 25343819 
http://www.ncbi.nlm.nih.gov/pubmed/25343819

http://www.sigmaxi.ro/activitati.html
DanGraur 
https://en.wikipedia.org/wiki/Dan_Graur#cite_note-fun-12
https://twitter.com/DanGraur

!Conjugator spaniola
http://www.elconjugador.com/
http://bookspot.ro/archive#cat-Cerculetul-de-literatura


!How Gelatin Clarification Works
http://www.seriouseats.com/2016/06/clean-cooking-oil-with-gelatin-technique.html

!Voici votre Voie lactée
http://gea.esac.esa.int/visualization/index.html
http://ici.radio-canada.ca/nouvelles/science/2016/09/14/001-telescope-gaia-voie-lactee-cartographie-catalogue-etoiles.shtml

[>img[https://upload.wikimedia.org/wikipedia/commons/1/1d/Gaia_Performances.jpg]]

http://www.wix.com/website-template/view/html/821?originUrl=http%3A%2F%2Fwww.wix.com%2Fwebsite%2Ftemplates%2Fhtml%2Fall%2F27&bookName=&galleryDocIndex=2&category=all&viewMode=desktop

!for kids
http://www.labplanet.com/celestron-microspin-2mp-usb-desktop-digital-microscope.html

[>img[http://lp2.ec.tc/978-550-ffffff/opplanet-celestron-microspin-2mp-usb-desktop-dig-micro-44114-main.jpg]]

!FOR MATH Alex
https://www.cymath.com/

! GCD (pgcd) / LCM (ppcm) function

*********************************************************************************************
Calculate GCD (pgcd) / LCM (ppcm) function on Cassio fx-991MS Method bdan17:
GCD (60, ''168'') = 
biggest is first
168  ''a''^^ⓑ/ⓒ^^ 60 = 
appear 2 ⌞ 4 ⌞ 5 
push ''x^^-1^^''  =
5 ⌞ 14
168 / ''14'' =
12
GCD (60, 168) = ''12''

LCM (60, 168) = (60×168)/12 = 840.
LCM (60, 168) = 840

Note 1: 168/60 = 14/5 
Note 2: button a^^ⓑ/ⓒ^^ and bellow is "d/c"   
Note 3: The Reciprocal Button is (x^^-1^^) sau 1/X (On scientific calculators, the –1 or x–1 button means to find the reciprocal of a number. This reciprocal button allows you to find the value of a reciprocal function when you’re working with a number. Is good for calculus of resistance of resistors in parallel and capacitors in series).
Note 4: 168  ''a''^^ⓑ/ⓒ^^ 60 = 2 ⌞ 4 ⌞ 5 = 2⅘ = [(2 × 5) + 4] / 5 = 14/5
**********************************************************************************************
!! METODA pt Casio fx 991ms calculator: 

PGCD (60, ''168'') = 
cel mai mare e primul 
168  a^^ⓑ/ⓒ^^ 60 = 
apare 2 ⌞ 4 ⌞ 5 
apas x^^-1^^  =
5 ⌞ 14
168 / ''14'' =
12
PGCD (60, 168) = ''12''

PPCM (60, 168) = (60×168)/12 = 840.
PPCM (60, 168) = 840

Ainsi, l'algorithme d'Euclide pour le calcul du PGCD permet de calculer aussi le PPCM.
Exemple
Avec l'algorithme d'Euclide, calculons PGCD (60 , 168) :
168 = 60 × 2 + 48
60 = 48 × 1 + 12
48 = 12 × 4 + 0.
Il faut prendre le dernier reste avant le zéro,
Donc PGCD (60, 168) = 12 

Pentru 3 numere
pgcd (a b c)
pgcd (a,b) = x
puis faire pgcd (x,c) = pgcd (a,b,c) 
SAU
gcd(a,b,c) = gcd( gcd(a,b) , c ) 

APLICATIE Nr1:
0) 57998/56754 + 5647152/541184
1) Simplifier 57998/56754 en calculant le pgcd de 57998 et de 56754.
2) Simplifier 5647152/541184 en calculant le pgcd de 5647152 et de 541184.
3) Calculer la somme des deux fractions obtenues en réduisant au même dénominateur. 


http://stackoverflow.com/questions/8419981/how-to-calculate-a-mod-b-in-casio-fx-991es-calculator
http://www.nayuki.io/page/casio-fx-991ms-tips-and-tricks
https://fr.wikipedia.org/wiki/PGCD_de_nombres_entiers
https://www.youtube.com/watch?v=dOTIXLmec94

PGCD (''1071'', 1029) = 
cel mai mare e primul 
1071  "d/c" 1029 = 
apare 1 ⌞ 2 ⌞ 49 
apas x^^-1^^  =
49 ⌞ 51
1071 / ''51'' =
21
PGCD (1071, 1029) = ''21''

Calculons, par exemple, le PGCD de 1071 et de 1029 à l'aide de l'algorithme d'Euclide :
1071 = 1029 × 1 + 42
1029 = 42 × 24 + 21
42 = 21 × 2 + 0
Il faut prendre le dernier reste avant le zéro, donc PGCD(1071 ; 1029) = 21

!! O alta metoda:
Prenons (132;72) à titre d'exemple.
Faites: 132 / 72 ( attention pour diviser utiliser la touche "d/c")
Vous obtenez donc : 11/6.
Nous considérons alors que 132 représente la lettre a, 72 la lettre b,
et 11 la lettre c, et 6 la lettre b .
Je vous ai perdu ? NOOOOOON résistez, ce n'est pas compliqué :
Maintenant nous allons diviser a/c pour trouver le PGCD.
Divisons donc 132 par 11 et TADAAAAAAAAAAA nous obtenons 12.
Le PGCD de (132;72) est 12 !

132 "d/c" 72 = x-1 invers 6   11


En savoir plus sur http://www.intellego.fr/soutien-scolaire-3eme/aide-scolaire-mathematiques/comment-calculer-le-pgcd-avec-une-calculatrice-rapidement/54578#dWRIkq30KwcJsBvl.99

!! Décomposition en produit de facteurs premiers
Il s'agit tout simplement de balayer la liste des nombres premiers en testant si le nombre premier p divise n. Si oui, on recommence l'algorithme pour n/p, en ne testant que les diviseurs premiers encore envisageables. On s'arrête quand le nombre premier à tester devient supérieur à la racine carrée du nombre qu'il est censé diviser.

Ainsi pour décomposer 2088 en produit de facteurs premiers
2088 	2 	\, 	2 divise 2088 le quotient est 1044
1044 	2 		2 divise 1044, le quotient est 522
522 	2 		2 divise 522, le quotient est 261
261 	3 		2 ne divise pas 261, mais 3 divise 261 et le quotient est 87
87 	3 		3 divise 87 et le quotient est 29
29 			ni 3, ni 5 ne divisent 29 et 7² est plus grand que 29 (fin)

2088=2^3\times 3^2\times 29
https://fr.wikipedia.org/wiki/D%C3%A9composition_en_produit_de_facteurs_premiers



This calculator don't have any modulo function. 
However there is quite simple way how to count modulo using display mode ab/c (instead of traditional d/c).

How to switch display mode to ab/c:

    go to settings (Shift + mode)
    press arrow down (to view more settings)
    select "ab/c" (number 1).

Then do your calculation (in comp mode), like 50 / 3 and you will see 16 2/3 thus mod is 2 or try 54 / 7 which is 7 5/7 (mod is 5). If you don't see any fraction after the result then mod is 0 like 50 / 5 = 10 (mod is 0).

The remainder fraction is shown in reduced form, so 60 / 8 will result in 7 1/2. Remainder is 1/2 which is 4/8 so mod is 4.


As lawal correctly pointed out, this method is a little bit tricky for negative numbers because the sign of the result would be negative.

For example -121 / 26 = -4 17/26, thus mod is -17 which is +9 in mod 26. Alternatively you can add the modulo base to the computation for negative numbers: -121 / 26 + 26 = 21 9/26 (mod is 9).


61 % 9 = ?
61/9 = 6.78
6.78 - 6 = 0.78
9 * 0.78 = 7.02
round 7.02 to whole # = 7
61 % 9 = 7

12 % 3 = ? 12/3 = 4.00 4.00 - 4 = 0 0 * 3 = 0 12 % 3 = 0

you could do this on any calculator
5 % 4 = ? (5 mod 4)
5/4 = 1.25 to get the decimal form of the remainder subtract the number on left of decimal from result of 5/4
1.25 - 1 = .25 <-- the remainder .25 * 4 = 1 <-- remainder converted from decimal form
so...
5 mod 4 = 1
61 % 9 = ?
61/9 = 6.7777777777777777777777777777778
6.7777777777777777777777777777778 - 6
= 0.7777777777777777777777777777778
9 * 0.7777777777777777777777777777778 = 7
so 61 % 9 = 7

Divide 2345763534 by 24. Take the integer part of the quotient. Multiply by 24, and subtract that product from the original 2345763534. This difference is your remainder

2345763534/24=97740147.25
That is the remainder is
2345763534−24⋅97740147=…
 so the remainder is 24⋅0,25

For example, say to find remainder when 73 is divided by 8
So you find 73/8 = 9.125, and the integer part is 9.
Now find 9*8=72
So your remainder is 73-72=1

30/13 = 2 4/13
and there u go.... 4 is your remainder

Calculate GCD (pgcd) / LCM (ppcm) function on Cassio bdan17 Method:
GCD (60, ''168'') = 
biggest is first
168  "d/c" 60 = 
appear 2 ⌞ 4 ⌞ 5 
push x^^-1^^  =
5 ⌞ 14
168 / ''14'' =
12
GCD (60, 168) = ''12''

LCM (60, 168) = (60×168)/12 = 840.
LCM (60, 168) = 840

Plus Grand Commun Diviseur (PGCD)
http://bv.alloprof.qc.ca/mathematique/arithmetique/la-factorisation-des-nombres/plus-grand-commun-diviseur-%28pgcd%29.aspx


simboluri de inmultire numita si multiplicare (● = x = *)
2(2) = 2 la patrat = 2 ^2 adica exponent 
notare matematica
http://dirkjanswagerman.nl/bags/math_public/tiddlers.wiki

|Symbol|notare|h
|● sau x|*|

http://calculator.intemodino.com/fr/calcul-pgcd-ppcm.html
 
termenul in engleza se poate calcula pe IPod
GCD and LCM calculator
http://mobileapps.intemodino.com/en/

lista cu divizori
http://fr.wikipedia.org/wiki/Table_des_diviseurs

EXPLICATIE
PPCM et PGCD (Plus Petit Commun Multiple et Plus Grand Commun Diviseur)
Le PGCD est le plus grand nombre qui peut diviser les deux nombres en même temps. 
Le PPCM lui est le plus petit nombre qui est multiple des deux nombres à la fois.
________________________________________________________________________________
CUM SE CALCULEAZA ppcm
Nous allons calculer ppcm(132, 72) de trois manières différentes :

Méthode n° 1 : Étudions les multiples des deux nombres.
Les multiples de 132 sont :
0 ; 132 ; 264 ; 396 ; 528 ; 660 ; 792 ; 924 ; ... (liste infinie)
Les multiples de 72 sont :
0 ; 72 ; 144 ; 216 ; 288 ; 360 ; 432 ; 504; 576 ; 648 ; 720 ; 792 ; ... (liste infinie)
Les multiples communs sont : 0 ; 792 ; ... (On trouverait ensuite : 1584; 2372 ; ...) 
Le plus petit multiple commun non nul est 792.

Méthode n° 2 :Utilisons les décompositions en produits de facteurs premiers, vezi mai jos 3ème méthode: Algorithme d'Euclide

72= 2 ● 2 ● 2 ● 3 ● 3 = 2(^3) ● 3(^2)
132= 2 ● 2 ● 3 ● 11 = 2(^2) ● 3(^1) ● 11(^1)
Prenons tous les facteurs qui figurent dans l'un au moins de ces produits; 
s'ils ont des exposants, nous leur attribuons leur plus grand exposant; 
effectuons ensuite le produit : ppcm(72, 132) = 2(^3) ● 3(^2) ● 11(^1)= 8 ● 9 ● 11 = 792

Méthode n° 3 : Utilisons la formule : pgcd(a, b) ● ppcm(a, b) = a ● b
Le produit de deux nombres entiers (non nuls) est toujours égal au produit de leur pgcd par leur ppcm.
On peut commencer par calculer le pgcd de 72 et 132.
On trouve : pgcd(72, 132) = 12.
Donc pentru a calucla ppcm (72, 132) = (72 ● 132) / 12 = 792  ==> ppcm = 792 
________________________________________________________________________________
CUM SE CALCULEAZA PGCD

1ére méthode : Listes de diviseurs On cherche le Pgcd de 60 et 48.
Etape 1 : On donne la liste des diviseurs de 60: 1  2  3  4  5  6  10  12  15  20  30  60
Etape 2 : On donne la liste des diviseurs de 48:  1   2   3   4   6   8   12   16   24   48
Etape 3 : On en déduit que 12 est le Plus Grand Commun diviseur, donc pgcd(60;48)=12
Cette méthode est souvent trop longue et fastidieuse, c'est pourquoi , on va mettre en place une nouvelle méthode 

2ème méthode: Méthode des soustractions successives On cherche le pgcd de 60 et 48
Etape 1:Soustraire le plus petit des deux nombres au plus grand: 60-48=12
Etape 2 : Ensuite, on prend les deux plus petits nombres ( dans ce cas 48 et 12) et on recommence: 48-12=36
Etape 3 :On continue jusqu'à obtenir un résultat nul : 36-12=24 ==> 24-12=12 ==>12-12=0
Etape 4 :Le [gcd est le dernier résultat non nul  ==> Donc pgcd(60;48)=12

3ème méthode: Algorithme d'Euclide
On a déjà vu que pour déterminer un pgcd on avait le choix entre déterminer TOUS les diviseurs des deux nombres et d'utiliser la méthode des soustractions successives. L'algorithme d'Euclide est un algorithme permettant de déterminer le PGCD de deux entiers dont on ne connaît pas la factorisation. 

un prim caz PPCM(21,48)
  _|_21
3 | 7
7 | 1
deci 3(^1) ● 7(^1)

 _|_48
2 | 24
2 | 12
2 | 6
2 | 3
3 | 1
deci 2(^4) ● 3(^1)
bazele identice sint 3(^1)
PPCM se afla daca se multiplica 7(^1)● 3(^1)● 2(^4)= 7●3●16 = 336

un alt caz PPCM(48,72)
2(^4) ● 3(^1) VESRUS 2(^3) ● 3(^2)
On doit comparer les exposants des bases identiques. Dans notre exemple, nous avons
deux bases 2. Pour calculer le PPCM, nous devons prendre la base 2 ayant le plus grand
exposant. Nous faisons la même chose avec la base 3. Il ne reste qu'à les multiplier
ensemble.
PPCM(48,72) = 2(^4) ● 3(^2) = 16 ● 9 = 144

un alt caz PPCM(60,315)
2(^2) ● 3(^1) ● 5(^1) 3(^2) ● 5(^1) ● 7(^1)

2(^2) est toute seule donc je la prends.
3(^1) ou 3(^2) je dois prendre 3(^2) à cause du plus grand exposant
5(^1) ou 5(^1), c'est le même exposant donc j'en prends seulement qu'une
7(^1) est toute seule donc je la prends
deci PPCM(60,315) = 2(^2) ● 3(^2) ● 5(^1) ● 7(^1) = 36 ● 5 ● 7 = 1260


CUM SE CALCULEAZA PGCD:

un prim exemplu PGCD(12, 28)

 _|_12
2 | 6
2 | 3
3 | 1
deci 2(^2) ● 3(^1)

 _|_28
2 | 14
2 | 7
7 | 1
deci 2(^2) ● 7(^1)
La seule base commune est 2 et l'exposant est le même.
PGCD(12,28) : 2(^2) = 4

un alt caz PGCD(54,60)
2(^1) ● 3(^3) versus 2(^2) ● 3(^1) ● 5(^1)
On prend donc 2(^1) et 3(^1)
PGCD(54,60) : 2 ● 3 = 6


un alt caz PGCD(16,45)
2(^4) versus 3(^2)● 5(^1)
Il n'y a aucune base commune. 
Le plus grand commun diviseur est donc 1.
PGCD(16,45)= 1

*******************************************************************************************
APLICATIE
***********
problema 1
**********
Olivia avait un paquet de 320 bonbons et un paquet de 280 chewing-gums qu'elle a partagés équitablement avec un groupe de personnes. Il lui reste alors 5 bonbons et 10 chewing-gums.
a. On souhaite retrouver le nombre de personnes de ce groupe. Le nombre recherché est un diviseur de deux nombres, lesquels ?
b. Calcule maintenant le nombre maximal de personnes du groupe.
c. Combien de bonbons et de chewing-gums chaque personne aura-t-elle ?
R:
a. 320 – 5 = 315 bonbons
280 – 10 = 270 chewing-gums
Le nombre de personnes doit diviser le nombre de bonbons (315) et de chewing-gums (270).
b. Le nombre de personnes étant maximal, ce sera le PGCD de 315 et 270.
PGCD(315 ; 270) = 45
Il y a 45 personnes.
c. 315 : 45 = 7 et 270 : 45 = 6
Chaque personne aura 7 bonbons et 6 chewing-gums.

*************************************************************************************
problema 2
**********
a. Calcule le PGCD de 480 et 560.
b. Un artisan souhaite recouvrir une terrasse rectangulaire de 4,8 m de large et de 5,6 m de long à l'aide de dalles carrées identiques sans faire de découpe. Quelle mesure maximale du côté de chaque dalle doit-il choisir ?
c. Combien de dalles doit-il acheter ?
R
a. Calcule le PGCD de 480 et 560.
PGCD(560 ; 480) = 80
b. 4,8 m = 480 cm et 5,6m = 560 cm
La mesure d’une dalle doit diviser la longueur (560cm) et la largeur (480cm), c’est donc un diviseur commun de 560 et 480.
La taille d’une dalle devant être maximale, la taille sera le PGCD de 560 et 480 c’est à dire 80cm.
c. Dans la longueur 560 : 80 = 7 dalles
Dans la largeur 480 : 80 = 6 dalles
6 ● 7 = 42
Il faut acheter 42 dalles.
*********************************************************************************
problema 3
**********
Chantal et Janine se sont inscrites à un centre de conditionnement physique.
Chantal décide d’y aller tous les 3 jours et Janine tous les 4 jours.
Combien de jours après leur première rencontre vont-elles de nouveau se rencontrer? 
R:
dupa 12 jours (ppcm)
***********************************************************************************
problema 4
**********
Valérie et Karen ont programmé leur réveil-matin pour qu’il sonne une première fois à 7 h.
Le réveil de Valérie sonne de nouveau toutes les 6 minutes et celui de Karen toutes les 8 minutes.
a)Après combien de minutes les deux réveils sonneront-ils en même temps?
b)Quelle heure sera-t-il lorsque les deux réveils sonneront en même temps pour la 5e fois?
R:
a)24 minutes
b)il sera 8h 36
******************************************************************************
Denise possède 825 bonbons, 495 barres de chocolat et 330 paquets de gomme à mâcher.
Elle veut former le plus grand nombre de sacs identiques qu’elle pourra distribuer aux enfants
lors d’une fête foraine.
a)Quel est le maximum de sacs qu’elle peut former?
b)Combien de friandises de chaque sorte mettra-t-elle dans chaque sac?
R:
a)165 sacs (pgcd)
b)825/165 (bombones),  495/165 (choco),  330/165 (gommes).
*****************************************************************************
<<binaryUpload edit:title>>

How to Calculate a Standard Error of the Mean in Excel
This guide assumes you have already taken the average or mean.

 

1.      Place the cursor in the cell where you wish the standard error of the mean to appear, and click on the fx symbol in the toolbar at the top.

2.      A menu will appear that says “Paste Function”.  Select “Stastical” from the left hand side of the menu, if necessary.  Scroll down on the right hand side of the menu and select “STDEV”; then click “OK”.

3.      Click on the picture of the spreadsheet, and highlight the numbers you averaged earlier, just as you did when taking the average.  Hit enter, and “OK” to calculate the standard deviation.

4.      With the cursor still on the same cell, now click in the formula bar at the top of the spreadsheet (the white box next to the “=” sign) to put the cursor in that bar so you can edit the formula.

5.      Put a “(“ in front of STDEV and a “)” at the end of the formula.  Add a “/” sign to indicated you are dividing this standard deviation.  Put 2 sets of parentheses “(())” after the division symbol.  Put the cursor in the middle of the inner set of parentheses.

6.      Now click on the fx symbol again.  Choose “Statistical” on the left hand menu, and then “COUNT” on the right hand menu.

7.      Click on the spreadsheet picture in the pop-up box, and then highlight the list of numbers you averaged.  Hit enter and “OK” as before.

8.      Move the cursor to be between the 2 sets of parentheses, and type “SQRT”.  Hit enter.  The standard error of the mean should now show in the cell.  Your formula in the formula bar should look something like this, “=(STDEV(A1:A2))/(SQRT(COUNT(A1:A2)))”.
(This formula would calculate the standard error of the mean for numbers in cells A1 to A2.)

NOTE:  We have calculated standard error of the mean by dividing the standard deviation of the mean by the square root of n.  Given the formula that Excel uses for calculation of standard deviation of the mean, this gives the standard error of the mean after adjusting for a small sample size.  This is usually the case in physiology experiments.  The formula would be different with a very large sample size.  I do not know why Excel still does not include a formula for calculating the standard error of the mean.

!Procédés mnémoniques du système solaire

''M''on ''V''ieux ''T''u ''M'''as ''J''eté ''S''ur ''U''ne ''N''avette (''P''ttite).
la séquence 
''M''ercure ''V''énus ''T''erre ''M''ars | ''J''upiter ''S''aturne ''U''ranus ''N''eptune (''P''luton)

^^(Pluton n'est désormais plus considéré comme planète depuis 2006). 
L'apostrophe ou la virgule peut représenter la ceinture d'astéroïdes entre Mars et Jupiter^^


!Le Système solaire à l’échelle d’une ville
Imaginons donc la taille du Système solaire comme étant celle d’une ville. On y placerait le Soleil au centre et on disposerait les planètes-fruits aux distances proportionnelles.

  Ainsi donc, la taille du Soleil divisée par un milliard équivaudrait à celle d’un ballon de la taille d'un humain. Mercure, la planète la plus proche du Soleil, deviendrait un petit pois placé à 58 mètres de là. Quant à Vénus, il s’agirait d’un raisin posé à 108 mètres du Soleil, alors que la Terre (un autre raisin) serait à 150 mètres – l’équivalent d’un pâté de maisons. 

  Pour sa part, Mars s'assimilerait à un bleuet placé à 230 mètres du Soleil (à un pâté et demi de maisons), alors que Jupiter serait un pamplemousse installé à trois-quarts de kilomètre. Quant à Saturne, un autre pamplemousse, elle se trouverait à 1½ kilomètre du Soleil. Viennent ensuite Uranus et Neptune, qui seraient deux oranges déposées respectivement à 3 et 4½ kilomètres. Finalement, Pluton (une graine) fermerait la marche à 6 kilomètres du centre-ville. 


Objet 	Distance 	Taille
Soleil 	Au centre 	1 390 000 kilomètres
Mercure 	57 910 000 kilomètres 	4 880 kilomètres
Vénus 	108 200 000 kilomètres 	12 104 kilomètres
Terre 	149 600 000 kilomètres 	12 756 kilomètres
 Lune 	385 000 km de la Terre 	3 476 kilomètres
Mars 	227 094 000 kilomètres 	6 794 kilomètres
Jupiter 	778 430 000 kilomètres 	142 984 kilomètres
Saturne 	1 429 400 000 kilomètres 	120 536 kilomètres
Uranus 	2 870 990 000 kilomètres 	51 100 kilomètres
Neptune 	4 504 000 000 kilomètres 	49 532 kilomètres
Pluton 	5 913 520 000 kilomètres 	2 274 kilomètres

Système solaire 	. 	20 milliards de kilomètres
Proxima du Centaure 	. 	4,3 années-lumière
Voie lactée 	. 	100 000 années-lumière
Andromède 	. 	2,5 millions d’années-lumière
L’Univers 	. 	15 milliards d'années-lumière


Le symbole √ se nomme radical. Si l'on voit ce symbole, il s'agit habituellement de la racine carrée. Cependant, s'il y a un chiffre au-dessus du radical, cela modifie le type de racine.

 √x est la racine carrée du nombre x.
^^2^^√x est aussi la racine carrée du nombre x.
^^3^^√x est la racine cubique du nombre x.
^^4^^√x est la racine quatrième du nombre x.
^^n^^√x est la racine ne du nombre x.
Le nombre sous le radical s’appelle le radicante. Dans les exemples précédents, il s'agit du x.
La racine carrée de deux est √2 = 1,414 213 56….
La racine cubique Elle est notée in excell
 sqrt3(0.9) = 0.9^(1/3) = 0.965

Pour tout nombre positif, il existe 2 racines carrées : l'une positive et l'autre négative, car
si x² = 9, alors 3^^2^^ = 9  et  (-3)^^2^^ = 9.

Une racine carrée d’un nombre négatif n’existe pas.
!racine cubique

3 x 3 x 3 = 3 ^^3^^ = 27.

La réponse est ^^3^^√27 = 3.

OPERATIONS

√3 + √3 = 2√3

2√3 - √3 = √3

√3  ● √3 = 3

√5  ● √3 = √15

√2 / √2 = 1

4√3 / 2√3 = 2


!L'exponentiation

Le résultat d'une exponentiation est une puissance.
Base^^exposant^^ = Puissance
L'exposant représente en fait le nombre de fois que la base est multipliée par elle-même.
Les nombres carrés:
2^^2^^ = 2 x 2 = 4
3^^2^^ = 3 x 3 = 9
4^^2^^ = 4 x 4 = 16

!Les propriétés et les lois des exposants 
Les propriétés des exposants

1) Un exposant entier et positif indique le nombre de fois qu'une base est multipliée par elle-même.
a^^m^^ = a x a x a x a x a ... m fois   (m > 0)
(2^^3^^ = 2 x 2 x 2)

2) N'importe quelle base (sauf 0) affectée de l'exposant 0 donne 1.
a^^0^^ = 1
4^^0^^ = 1
0^^0^^ est indéfini

3) Un nombre affecté d’un exposant 1 donne toujours la base.
a^^1^^ = a
25^^1^^ = 25

4) Un nombre affecté d’un exposant négatif est équivalent à l’inverse du nombre affecté de l’exposant positif.
a^^−m^^=1/a^^m^^
2^^−4^^=1/2^^4^^

5) Un nombre affecté d’un exposant fractionnaire se traduit en une racine.
a^^m/n^^= n√a^^m^^
8^^3/5^^= 5√8^^3^^

6) Si de chaque côté d’une égalité on a la même base, on doit avoir le même exposant sur les bases.
Si a^^m^^ = a^^n^^, alors m = n
8^^4^^ = 8^^x^^ alors x = 4

!Les lois des exposants

Ces lois s'appliquent si tous les termes de l'opération ont la même base.
Produit de puissances
On additionne les exposants lors d’une multiplication.
Pour a ≠ 0 : a^^m^^ ● a^^n^^ = a^^m + n^^

Quotient de puissances
On soustrait les exposants lors d’une division.
Pour a ≠ 0 : a^^m^^/a^^n^^ =a ^^m−n^^

Puissance d’un produit
On peut distribuer un exposant lorsqu’il affecte une parenthèse qui contient une multiplication.
Pour a et b ≠ 0 : (ab)^^m^^ = a^^m^^b^^m^^

Puissance d'un quotient
On peut distribuer un exposant lorsqu’il affecte une parenthèse qui contient une division.
Pour a et b ≠ 0 : (a/b)^^m^^ = (a^^m^^/b^^m^^)

Puissance d'une puissance
On multiplie les exposants quand une base est affectée de plusieurs exposants.
Pour a ≠ 0 : (a^^m^^)^^n^^ = a^^mn^^

automat divizare fractii
http://zonemath.csmv.qc.ca/nombres/fractions/division.htm

automat multiplicare fractii
http://zonemath.csmv.qc.ca/nombres/fractions/multiplication.htm

adunari fractii
http://zonemath.csmv.qc.ca/nombres/fractions/addition.htm

scaderi fractii
http://zonemath.csmv.qc.ca/nombres/fractions/soustraction.htm

http://villemin.gerard.free.fr/Puzzle/EnigFam8.htm
*      Quand mon fils aura 15 ans de plus qu'il n'a aujourd'hui,
il aura l'âge que j'avais quand j'avais 8 fois son âge .
*      Quand il aura atteint l'âge que j'ai aujourd'hui,
nous aurons ensemble, si je suis encore de ce monde,
31 fois l'âge qu'il avait quand j'avais 8 fois son âge.
*      Quel est alors l'âge du fils de cet homme?

!Combien y t 'il de tulipes ?
dans un massif de tulipes il y a un tiers de jaunes, un quart de rouges et un cinquième de roses, un sixième de blanches et 6 noires Combien y t 'il de tulipes ? 
Tout d'abord, tu mets tout au même dénominateur (sauf le 6 qui est un chiffre entier) :

T = 1/3 + 1/4 + 1/5 + 1/6
T = 40/120 + 30/120 + 24/120 + 20/120
T = 114/120

Il y a donc 114 tulipes jaunes, rouges, roses et blanches sur 120
114 + 6 (les 6 tulipes noires) = 120

Il y a donc 120 tulipes dans le massif

Vérification :

1/3 X 120 = 120/3 = 40
Il y a 40 tulipes jaunes

1/4 X 120 = 120/4 = 30
Il y a 30 tulipes rouges

1/5 X 120 = 120/5 = 24
Il y a 24 tulipes roses

1/6 X 120 = 120/6 = 20
Il y a 20 tulipes blanches

Il y a 6 tulipes noires

40 + 30 + 24 + 20 + 6 = 120


!Combien de billes ?
 Pierre perd les 2/5 de ses billes puis il en regagne 3/10. Il lui en reste 54. Combien avait il de billes ?

Pierre a perdu 2/5 et en a regagné 3/10 :
ça veut donc dire -2/5 et +3/10
3/10 - 2/5 = 3/10 - 4/10 = -1/10
Il a donc perdu 1/10 de ses billes

S'il a perdu 1/10 de ses billes, ça veut dire que 54 correspond aux 9/10 qu'il lui reste :
54 = 9/10
540/9 = 60

Pierre avait donc 60 billes

Vérification :

Il perd 2/5 de ses 60 billes :
2/5 X 60 = 120/5 = 24
Il a perdu 24 billes

Il regagne 3/10 de ses 60 billes :
3/10 X 60 = 180/10 = 18
Il a regagné 18 billes

24 - 18 = 6
Il a quand même perdu 6 billes

60 - 6 = 54 

!Jacques et Pierre
Guy charge Jacques et Pierre de labourer son jardin
Jacques fait le tiers du travail, les 3/4 du travail de Pierre sont égaux au travail de Jacques
Quelle part du travail Pierre a t il fait ? 

Jacques fait le 1/3 du travail
Il reste donc 2/3 à labourer par Pierre

Pierre laboure donc 3/4 des 2/3 puisqu'il ne va pas labourer au même endroit que Jacques
3/4 X 2/3 = 6/12 = 1/2
Il a donc labouré la moitié du jardin qui reste et qui est égal à 2/3
1/2 X 2/3 = 2/6 = 1/3

Donc Pierre a labouré 1/3 du jardin, tout comme Jacques
Pour essayer de comprendre ce genre d'exercice, fais des carreaux sur une feuille
Ici, par exemple, 1/3 fait 3 carreaux . Donc pour avoir 3/3, tu fais 9 carreaux (un carré de 3 carreaux sur 3)
Ensuite, tu hachures 1/3, c-à-d 3 carreaux (c'est ce que Jacques a labouré)
Tu vois qu'il te reste 6 carreaux ( = 2/3)
Puis 3/4 de 2/3 = 1/2 , tu hachures la moitié de tes 6 carreaux (c'est ce que Pierre a labouré)
Tu vois tout de suite que les parties hachurées sont égales.

!90 fleurs
Un jardin composé de 90 fleurs. Les 2/3 sont des roses, le tiers du reste sont des tulipes et le reste est composé d'iris.
1- Combien y a t'il de roses ? de tulipes ? d'iris ?
2- Calcule la fraction de jardin composé d'iris ? 

Un jardin est composé de 90 fleurs.
Les 2/3 des fleurs sont des roses. Cela vous permet d’écrire :
r = (2/3) * 90
r = (2 * 90)/3
r = 180/3
r = 60
Il y a donc 60 roses. Cela vous permet de dire qu’il reste : 90 - 60 = 30 fleurs.

Le tiers (c’est-à-dire 1/3) du reste sont des tulipes. Cela vous permet d’écrire :
t = (1/3) * 30
t = (1 * 30)/3
t = 30/3
t = 10
Il y a donc 10 tulipes. Cela vous permet de dire qu’il reste : 30 - 10 = 20 fleurs.
Et le reste est composé d'iris, donc cela signifie qu’il y a 20 iris.

Récapitulons :
Nombre de roses : 60
Nombre de tulipes : 10
Nombre d’iris : 20
Les iris représentent donc 20 fleurs sur un total de 90, soit une fraction de :
f = 20/90 = 2/9 ≈ 0,2222 = 22,22/100 = 22,22 % 

sau mai pe scurt
1-90*2/3=60roses
1/3*30=10tulipes
90-60-10=20iris
2-2/9 la fraction qui represente l'iris

!Un fleuriste décide de faire un inventaire
Les 2/5 de ses fleurs sont des roses et le tiers des tulipes. Les 5/7 du reste sont des géranuims
Enfin les fleurs restantes sont des marguerites.
1 calculer la fraction par rapport au nombre de fleurs qui correspond aux géranuims?
2 sachant qu'il 24 marguerites, combien à t'il de fleurs en tout ?combien de roses, de tulipes et de géranuims?  

donc on a 2/5 (roses)+1/3(tulipes)+4/21(géraniums)+ ? marguerites=15/15
  mets tout sous dénominateur commun 105(=3x7x5)
tu vas trouver x/105
la part de marguerites correspondra à (105-x)/105
cette part = 24 marguerites
donc (105-x)/105=24
mets aussi les 2/5; 1/3 et 4/21 en fractions sur 105
et compare :
par exemple 2/5=42/105
si (105-x)/105 =24
on peut dire que 42/105= 24 divisé par (105-x) --->ça correspond à 1/105 et multiplié par 42--->ça correspond à 42/105
fait pareil avec les autres
vérifie: si tu ajoutes toutes les fleurs ça doit faire 105

!champs de fleurs
les 4/5 d'un champs de fleurs sont plantées de tulipes rouges, les 2/3  du reste sont plantés de tulipes jaunes, et le restant de tulipes roses.
Sachant que la surface totale du champ est de 3/4 d'hectare, quelle est la surface du champ plantée en tulipes roses ?
Si les 4/5 sont plantés de tulipes rouges, il reste 1/5 pour les autres fleurs.(5/5 - 4/5)
2/3 du reste = 2/3 * 1/5
le restant = 1/3 * 1/5 (3/3 - 2/3 = 1/3)
Surface totale = 3/4 ha
Ainsi, la surface consacrée aux tulipes roses est 1/3 * 1/5 *3/4.

!Trouver un pourcentage d'augmentation

☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢
Le prix est passé de 477 à 650 
l'augmentation est de 650 - à 477 = + 173 

Ensuite diviser 173 par 477 = 0,3626  x100
Donc augmentation de + 36,26% 


650 - 477 = + 173
+ 173 / 477 =  0,3626 × 100 = + 36,26% 

☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢

Si un prix passe de 100 $ à 50 $ 
la diminution est de 50 -100 = - 50 
et 50 / 100 = 0,5 
soit une diminution de - 50 % 
Effectivement de 100 à 50, on passe de moitié

!Retrouver son prix initial

Après une remise de 20%, une chemise coûte 55.20 $. 
Retrouver son prix initial avec le taxe de 15%.
On note q le prix initial de la chemise.
Pour diminuer une quantité de t %, on la multiplie par cette coeficient de reduction:

[ (100/100) − (t / 100) ]

donc

[ 1 − (t / 100) ]

Pour augumenter la taxe de t %, on la multiplie par cette coeficient de reduction:

[ (100/100) − (t / 100) ]

donc

[1 + (t / 100)]

Ici le prix a été diminué de 20% et les taxe sont 15%. 

On a donc :

q × [(100/100) − (20/100) ] × [(100/100) + (15/100) ] = 55,20
q × [1 − (20/100) ] × [1 + (15/100) ] = 55,20
q × (1 − 0,2) × (1 + 0,15) = 55,20
q × 0,8 × 1,15 = 55,20
q × 0,92 = 55,20
⇔q=55,20/0,92
⇔q=60

Le prix initial de la chemise était de 60 $.

☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢☢

!Version courte
Après une remise de 25%, une robe coûte 48 $. Retrouver son prix initial.
On note q le prix initial de la robe.
Pour diminuer une quantité de t%, on la multiplie par : [ 1 − (t / 100) ]
Ici le prix a été diminué de 25%. On a donc :
q × [ 1 − (25 / 100) ] = 48
⇔q = 48 / 0,75
⇔q = 64
Le prix initial de la robe était de 64$.

☢☢☢☢
http://www.maths-et-tiques.fr/index.php/cours-et-activites/cours-de-maths
☢☢☢☢
http://www.lememento.fr/calcul-pourcentage#totale

☢☢☢☢

!Calcul de pourcentage

Le calcul de pourcentage permet d’exprimer le ratio en % entre deux nombres :

    La valeur totale qui représente un ensemble.
    La valeur partielle qui représente un sous-ensemble de cet ensemble.

Calcul de pourcentage (%) :
Valeur totale :	360
Valeur partielle :216
Pourcentage : 60 %
Ce convertisseur est basé sur la formule suivante :
Pourcentage (%) = 100 x Valeur partielle / Valeur totale

Exemple de calcul de pourcentage:

Dans une classe de 30 élèves, 12 sont des filles. La proportion de filles dans cette classe est donc de :Pourcentage de filles dans la classe  = 100 x 12 / 30 = 40 %

!Calcul de la valeur partielle

Le calculateur suivant permet de trouver la valeur partielle correspondant à un pourcentage donné d’un total. 
Calcul de la valeur partielle :
Valeur totale :		360
Pourcentage :		60%
Valeur partielle : 216

Ce convertisseur est basé sur la formule suivante :
Valeur partielle = Pourcentage x Valeur totale / 100

Exemple d’application :
Le prix TTC d’un article est de 60 $. La taux de TVA étant de 20%, la taxe correspond donc à :
Montant TVA = 20 x 60 / 100 = 12 $

!Trouver la valeur totale

Le calculateur ci-dessous permet de retrouver la valeur totale à partir d’un pourcentage donné et de la valeur partielle qu’il représente. Il correspond à un calcul de pourcentage inversé. 
Calcul de la valeur totale :
Valeur partielle :	216	
Pourcentage :		60%
Valeur totale : 360

La formule permettant de retrouver la valeur totale est la suivante :
Valeur totale = 100 x Valeur partielle / Pourcentage

Exemple d’application :
La valeur de cette voiture a baissé de 1400 Euros en un an, soit 7%. Le prix payé pour la voiture neuve était donc de  :
Prix du neuf = 100 x 1400 / 7 = 20000 Euros

!Calcul d’une réduction ou d’une remise
Le convertisseur suivant permet de calculer la valeur finale correspondant à une diminution ou remise de x % sur une valeur initiale (ou totale).
Calcul d'une réduction :
Valeur initiale :		360
Réduction (pourcentage) :	40	%
Réduction (valeur) :	144	
Valeur finale :	216	

La valeur correspondant à la réduction est calculée à partir de la formule suivante :
Valeur réduction = Valeur initiale x Pourcentage de réduction  / 100

La formule permettant de retrouver la valeur finale est la suivante :
Valeur finale = Valeur initiale x (1 – Pourcentage de réduction  / 100)

Exemple d’application pour un pourcentage de remise :
Pendant la période des soldes une remise de 30% est offerte sur l’achat des pantalons. Pour un pantalon valant initialement 70 Euros :
Montant de la réduction = 70 x 30 / 100 = 21 Euros
Prix après réduction = 70 – 70 x 30 / 100 = 49 Euros

!Calcul d’une augmentation

Le convertisseur suivant permet de calculer la valeur finale correspondant à une augmentation de x % sur une valeur initiale (ou totale) :
Calcul d'une augmentation :
Valeur initiale :		360
Augmentation (pourcentage) :		40%
Augmentation (valeur) : 	144	
Valeur finale :	504	

La valeur correspondant à l’augmentation se calcule à partir de la formule suivante :
Valeur augmentation= Valeur initiale x Pourcentage d’augmentation  / 100)
La formule permettant de retrouver la valeur finale est la suivante :
Valeur finale= Valeur initiale x (1 + Pourcentage d’augmentation  / 100)

!Exemple de calcul d’augmentation en pourcentage :

Mon loyer, aujourd’hui de 700 $, va être augmenté de 3 % à partir du premier janvier prochain :
Augmentation de loyer = 700 x 3 / 100 = 21 $
Nouveau montant du loyer = 700 + 700 x 3 / 100 = 721 $

!Calcul de taux variation en %

Une variation entre deux nombres peut correspondre à une augmentation ou à une diminution selon que la valeur initiale est supérieur ou inférieure à la valeur finale. 
Calcul de variation (%) :
Valeur initiale :	360
Valeur finale :	216
Variation : -40 %

La formule permettant de calculer de taux de variation (ou d’évolution) en pourcentage est la suivante :

Taux de variation (%) = 100 x (Valeur finale – Valeur initiale) / Valeur initale
Si la valeur finale est supérieure à la valeur initiale, le taux de variation sera positif.  Si la valeur finale est inférieur à a valeur initiale il sera négatif.

Exemple de calcul  de taux de variation :
Le chiffre d’affaire de cette entreprise est passé de 11 000 à 12 100 $. Il a donc progressé de :
Taux de variation = 100 x (12 100 – 11 000) / 11 000 = 10 %

!Pourcentages : exemples et exercices

!!1)
 Le vendeur me propose une réduction de 42 $ sur un article dont le prix initial est de 140 Euros. Quel est le pourcentage de remise proposé ?

     Remise = 100 x 42 / 140 = 30 %

!!2) 
Mon salaire actuel est de 1400 $.  Comment calculer son montant après une augmentation de 3 % ? Quel est le montant de l’augmentation ?

    Salaire après augmentation = salaire initial + salaire initial x 3 / 100 = 1442 $
    Augmentation = 1442 – 1400 = 42 $

!!3) 
A l’occasion des soldes, une remise de 40 % est proposée sur l’achat des vêtements marqués d’un point rouge. Comment calculer la réduction correspondant pour un article valant 140 $ ? Combien faudra t-il payer en caisse pour cet article ?

    Réduction = 140 x 40 / 100 = 56 $
    Prix en caisse = 140 – réduction = 84 $

!!4) 
Mon loyer est de 400 $ par mois pour un salaire mensuel moyen de 1600 $. Quelle est la proportion de mon loyer par rapport à mon salaire ?

    Proportion loyer = 100 x loyer / salaire = 100 x 400 / 1600 = 25 %

!!5) 
Le prix de cet article est de 240 $. Comment calculer son prix sachant que le taux est de 20 % ?

    Prix avec tx = Prix ( 1 + 20 / 100) = 288 $

!!6) 
Mon loyer, actuellement de 400 $ va passer à 410 $. Comment calculer l’augmentation en pourcentage ?

    Augmentation = 100 x (410 – 400) / 400 = 2.5 %

!!7) 
150400 entreprises ont été crées en 2013, dont 33 % par des femmes. Combien d’entreprise ont été crées par les hommes ?

    Pourcentage des entreprises créées par des hommes = 100 – 33 = 67 %
    Entreprises créées par des hommes = 67 x Entreprises créées / 100 = 100768

!!8) 
243532 véhicules neufs ont été immatriculés en décembre 2013. Parmi ces véhicules 173736 sont des voitures particulières et 32478 sont des camionnettes, le reste étant constitué par des camions, cars, remorques, tracteurs routiers ou agricoles, motos, etc. Comment calculer le pourcentage de voitures particulières neuves immatriculées sur cette même période ? Quelle est la part des camionnettes ?

    Voitures particulières :  100 x 173736 / 243532 ≈ 71,3 %
    Camionnettes : 100 x 32478 / 243532 ≈ 13,3 %

!!9) 
L’objectif de vente pour le mois dernier était de 12000 $. Comment calculer le taux d’atteinte des objectifs sachant que le chiffre d’affaire s’est élevé à 13200 $ ?

    Taux = 100 x 13200 / 12000 = 110 %

! DE VERIFICAT
pretul redus PR cu 10%  ⇔ 0.1

PR = P × [ 1 - (10 / 100) ]  
PR = P × [ 1 - 0.1 ]
PR = P ×  0,9

P Final cu taxe 17% ⇔ 0.17

PF=  PR × [ 1 + (17 / 100) ]  
PF=  PR × [ 1 + 0.17 ] 
PF=  PR × 1,17 

deci 
P × [ 1 - (10 / 100) ] ×  [ 1 + (17 / 100) ] 
P × [ 1 - 0,1 ] ×  [ 1 + 0,17 ] 
P × [ 0,9 ] ×  [ 1,17 ]
P × [ 1,053 ] ✪
 

!VALORI REDUCERE
10%  ⇔ 0.1   ➤ [ 1 - 0.1 ]    = pretul × 0,9 (exemplu anterior ✪)
15%  ⇔ 0.15 ➤ [ 1 - 0.15 ]  = pretul × 0,85
17%  ⇔ 0.17 ➤ [ 1 + 0.17 ] = pretul × 1,17 TXE (✪)
20%  ⇔ 0.2   ➤ [ 1 - 0.2 ]    = pretul × 0,80
25%  ⇔ 0.25 ➤ [ 1 - 0.25 ]  = pretul × 0,75
30%  ⇔ 0.3   ➤ [ 1 - 0.3 ]    = pretul × 0,70
40%  ⇔ 0.4   ➤ [ 1 - 0.4 ]    = pretul × 0,60
50%  ⇔ 0.5   ➤ [ 1 - 0.5 ]    = pretul × 0,50
60%  ⇔ 0.6   ➤ [ 1 - 0.6 ]    = pretul × 0,40
70%  ⇔ 0.7   ➤ [ 1 - 0.7 ]    = pretul × 0,30
80%  ⇔ 0.8   ➤ [ 1 - 0.8 ]    = pretul × 0,20


http://en.wikipedia.org/wiki/List_of_mathematical_symbols

≡ identic

la un zar Omega ≡ {1, 2, 3, 4, 5, 6}

http://fr.wikipedia.org/wiki/Univers_%28probabilit%C3%A9s%29

Venn Diagram Solver  
http://uhaweb.hartford.edu/aagold/framer/index.html?page=http://uhaweb.hartford.edu/aagold/new/teaching/utilities/vennSolver.html

http://www.wolframalpha.com/input/?i=A+or+%28B+and+not+C%29

!geometry translation
http://www.mathsisfun.com/geometry/translation.html

!Calculatrice
SETTING THE NUMBER OF DECIMAL DIGITS
Numbers of decimal digits of calculation results can be specified by pressing [C-CE] twice, then press [C-CE]and [M+] simultaneously.
The decimal digit assignment will appear as “F” (for “floating point”), “2” or “0” on the LCD. (The default is “F”.)
Press and hold [C-CE] and [M+] until the symbol changes.

AC = all clear = sterge tot

CE =  clear entry = sterge ultima cifra

C = clear - sterge afisajul

M r  M c  = memory recall / clear  = recupereaza din memorie / sterge din memorie
M+  = adauga in memorie 
M-   = sterge memorie

ANS = afiseaza ultimul rapuns

!Cifre - Orthographe - Les nombres
 Les nombres	

Il n'est pas toujours bien facile d'écrire un nombre en français. On ne se rappelle jamais bien où on met un trait d'union ou un s. Voici le rappel de toutes ces règles.
Les mots simples

Certains nombres s'écrivent simplement avec un seul mot. On parle de mot simple. Ceux-ci sont :

* les nombres jusqu'à 16 : zéro, un, deux, trois, quatre, cinq, six, sept, huit, neuf, dix, onze, douze, treize, quatorze, quinze et seize.
* puis les dizaines jusqu'à 60 : vingt, trente, quarante, cinquante et soixante.
* et enfin 100 et 1000 : cent et mille.

Les mots composés

Lorsqu'il n'est pas possible d'écrire un mot simple, on compose les nombres avec plusieurs mots simples. Se pose alors le problème du trait d'union.

Prennent un trait d'union tous les nombres composés inférieurs à 100 ne se terminant pas en 1 sauf 81 et 91 :

* dix-sept, quarante-huit...
* quatre cent cinquante-trois...

Pour les nombres se terminant en 1, on ajoute la conjonction et :

* soixante et un
* soixante et onze
* cinquante et un

81 et 91 sont écrits avec un trait d'union:

* quatre-vingt-un
* quatre-vingt-onze 

**************************************************************************************************************
Les accords

20 et 100 s'accordent quand ils sont multipliés par un nombre sans être suivis par un autre nombre.

* quatre-vingts
* quatre-vingt-trois
* quatre cents
* quatre cent vingt et un

Mille est toujours invariable

* trois mille * dix mille deux

un est invariable en nombre mais pas en genre :

* cinquante et une pages

Millier, million et milliard sont des noms et non des adjectifs. Ils ne font pas vraiment partie du nombre et laissent place à l'accord :

* quatre cents millions
* deux cent mille
* deux cents milliers

Mille peut s'écrire mil mais seulement dans une date.

* l'an mil quatre cent trois

Certains de ces adjectifs numéraux cardinaux peuvent avoir une valeur ordinale pour exprimer l'année, le jour, les parties d'un ouvrage, le numéro d'une rue, le nom d'un souverain... ils restent alors invariables :

* l'année mille neuf cent (la 1900e)
* le quinze juin (le quinzième jour de juin)
* la page quatre-vingt (80e)
* le tome deux
* habiter au cinquante-huit
* Louis quatorze, Charles dix...

Le pluriel commence à partir de 2. on écrit ainsi :

* 1,9 point
* 2 points
* 1,9 million
* 2 millions

L'adjectif numéral ordinal

On forme cet adjectif en ajoutant le suffixe "ième" au nombre correspondant (sauf pour premier et second) :

* trois ; troisième
* quatre ; quatrième
* cent ; centième
* mille ; millième...

Pour les abréviations, on prend les lettres finales. L'abréviation de "ième" est e sans accent, car il s'agit de la finale :

* 1er = premier
* 1re = première
* 2nd = second
* 2e = deuxième
* 2es = deuxièmes

Contrairement à l'adjectif cardinal, il s'accorde en genre et en nombre avec le nom auquel il se rapporte :

* les premiers froids... * les dixièmes jeux Olympiques...

Il prend également un trait d'union dans un nombre composé inférieur à cent :

* la vingt-cinquième heure...

Recommandation orthographique de 1990

En 1990, L'Académie française a introduit une réforme de l'orthographe qui simplifie l'écriture des nombres pas trop grands. Tous les numéraux composés sont unis par un trait d'union : trois-cent-vingt-quatre.

Mais comme il faut toujours une exception, la voici : cette règle ne s'applique pas aux noms tels que millier, million et milliard. Pour eux, il ne faut pas mettre de traits d'union : trente-deux millions deux-cent-vingt-trois. De nombreux ouvrages reviennent sur cette règle et l'usage veut maintenant que l'on mette un trait d'union partout.

La nouvelle orthographe distingue également "soixante et un tiers (60 + 1/3)" de "soixante-et-un tiers (61/3)".

Note : il s'agit de recommandations et ceci n'est en rien obligatoire.
****************************************************************

Word aplicatie - Transformer un nombre par son équivalent en lettres.

1. Dans Word, appuyez simultanément sur les touches Ctrl et F9.

2. Dans le champ qui apparaît, saisissez = puis le nombre que vous souhaitez transformer en lettres.

!ORDER OF OPERATIONS * hierarchie des opérations mathématiques
Pentru operatii fara paranteze exista o lege conceputa in 1500 numita  "order of operations" PEMDAS de tinut minte
 "Please Excuse My Dear Aunt Sally" asta inseamna "Parentheses, Exponents, Multiplication and Division, Addition and Subtraction". 
Adica se face in ordine paranteza, apoi exponentii, apoi multiplicarea /divizarea, apoi adunarea/scaderea ( / inseamna ca au acelasi rang).
In cazul de mai jos daca nu sint tiparite parantezele au acelasi rang deci se calculeaza de la stinga spre dreapta:
15 ÷ 3 × 4 = inseamna (15 ÷ 3) × 4 = 5 × 4 = 20

Un alt exemplu prioritara este inmultirea:
 4 + 2×3 = inseamna 4 + (2×3) = 4 + 6 = 10


[atentie este gresita scrierea din reflex a parantezei in acest fel (4 + 2) × 3 = 6 × 3 = 18 rezultatul apare diferit]

Un alt exemplu:
2 - 0,5 + 1,5 = inseamna 1,5 + 1,5 = 3
au acelasi rang
2 - 0,5 + 1,5 = inseamna 2 + (-0,5 + 1,5) = 2 + 1 = 3 

[atentie este gresita scrierea din reflex a parantezei in acest fel  2 - (0,5 + 1,5) = 2 - 2 = 0 rezultatul apare diferit]



!aer polution

http://maps.who.int/airpollution/

!Liste des ions polyatomiques communs
http://hrsbstaff.ednet.ns.ca/benoitn/sciences%2010%20enrichi/chimie/ions_polyatomiques_communs.htm

Certains radicaux
[>img[http://www.fsg.ulaval.ca/opus/scphys4/resumes/images/32a.gif]]

Charge des radicaux

Il est possible de déterminer la charge d'un radical de deux manières :

   1. À partir d'un composé dont le radical fait partie. Il faut alors trouver la charge totale des autres ions de la molécule. Le radical a alors une charge de même grandeur, mais de signe opposé pour permettre la neutralité de la molécule. Prenons comme exemple le nitrate d'hydrogène (HNO3). Puisque nous savons que la charge de l'ion H est de 1+, on en déduit que la charge du radical NO3 est de 1- pour que la molécule soit neutre.
   2. À partir de la formule du radical. Il faut alors calculer la charge du radical à partir de la charge des ions le composant. Prenons comme exemple l'ion hydroxyde (OH). La charge de H est de 1+ alors que la charge de O est de 2-. La charge de l'ion hydroxyde est donc de 1- [(1+)+(2-)=(1-)].

Formules moléculaires impliquant des radicaux

Il est possible de déduire la formule moléculaire d'un composé comprenant un radical de la même manière que pour les composés binaires. Pour plus d'information, consultez le résumé Prédire les formules moléculaires de l'objectif terminal 1,6.

Considérons l'exemple d'un composé de magnésium (Mg) et de nitrate (NO3) :

   1. Nombre d'électrons que peut céder Mg : 2.
   2. Nombre d'électrons que peut accepter NO3 pour être neutre : 1.
   3. Plus petit commun multiple : 2.
   4. Nombre d'atomes de Mg dans la molécule : 1.
   5. Nombre de radicaux de NO3 dans la molécule : 2.
   6. Formule moléculaire : Mg(NO3)2.

On remarque dans cet exemple qu'on doit placer le symbole du radical entre parenthèses pour éviter toute confusion lorsqu'il est présent plus d'une fois dans la molécule.
Pour en savoir plus...*

https://www.warneronline.com/product_info.cfm?id=1837
heater controllers TC 344B

    * Liens ioniques et covalents (Planète Terre) :
      http://www.ggl.ulaval.ca/personnel/bourque/s2/str.matiere.html
http://www.fsg.ulaval.ca/opus/scphys4/resumes/32c.shtml

!Quelle est la formule chimique pour chaque composé donné ci-dessous?
EXAMPLE: Phosphate de Calcuim FORMULE: Ca3(PO4)

1. Sulfate de fer [III] (Sulfate ferrique)
Réponse: Fe2(SO4)3
Valence de Fer (Fe) = 3 ; Valence de Sulfate (SO4) = 2.
En échangeant leurs valences,
La formule chimique pour Sulfate de fer [III] (sulfate ferrique) est Fe2(SO4)3.


2. Bicarbonate de sodium (Hydrogénocarbonate de sodium)
Réponse: NaHCO3
Valence de Sodium (Na) = 1 ; Valence de Bicarbonate (HCO3) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Bicarbonate de sodium (Hydrogénocarbonate de sodium) est NaHCO3.


3. Bisulfate de sodium (Hydrogénosulfate de sodium)
Réponse: NaHSO4
Valence de Sodium (Na) = 1 ; Valence de Bisulfate (HSO4) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Bisulfate de sodium (Hydrogénosulfate de sodium) est NaHSO4.



4. Bisulfite de calcium (Hydrogénosulfite de calcium)
Réponse: Ca(HSO3)2
Valence de Calcium (Ca) = 2 ; Valence de Bisulfite (HSO3) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Bisulfite de calcium (Hydrogénosulfite de calcium) est Ca(HSO3)2.


5. Ammoniac
Réponse: NH3
Valence d'Azote (N) = 3 ; Valence d'Hydrogène (H) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Ammoniac est NH3.


6. Sulfate de sodium
Réponse: Na2SO4
Valence de Sodium (Na) = 1 ; Valence de Sulfate (SO4) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Sulfate de sodium est Na2SO4.


7. Sulfite de zinc
Réponse: ZnSO3
Valence de Zinc (Zn) = 2 ; Valence de Sulfite (SO3) = 2.
En échangeant leurs valences et simplifiant (en divisant par 2),
La formule chimique pour Sulfite de zinc est ZnSO3.


8. Bromure de zinc
Réponse: ZnBr2
Valence de Zinc (Zn) = 2 ; Valence de Bromure (Br) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour  Bromure de zinc est ZnBr2.


9. Oxyde de sodium
Réponse: Na2O
Valence de Sodium (Na) = 1 ; Valence de Oxyde (O) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Oxyde de sodium est Na2O.


10. Acide phosphorique
Réponse: H3PO4
Valence d'Hydrogène (H) = 1 ; Valence de Phosphate (PO4) = 3.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Acide phosphorique est H3PO4.


11. Acide carbonique
Réponse: H2CO3
Valence d'Hydrogène (H) = 1 ; Valence de Carbonate (CO3) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Acide carbonique est H2CO3.


12. Acide chlorhydrique
Réponse: HCl
Valence d'Hydrogène (H) = 1 ; Valence de Chlorure (Cl) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Acide chlorhydrique est HCl.


13. Acide sulfurique
Réponse: H2SO4
Valence d'Hydrogène (H) = 1 ; Valence de Sulfate (SO4) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Acide sulfurique est H2SO4.


14. Acide nitrique
Réponse: HNO3
Valence d'Hydrogène (H) = 1 ; Valence de Nitrate (NO3) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Acide nitrique est HNO3.


15. Hydroxyde de calcium
Réponse: Ca(OH)2
Valence de Calcium (Ca) = 2 ; Valence d'Hydroxyde (OH) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Hydroxyde de calcium est Ca(OH)2.


16. Carbonate d'ammonium
Réponse: (NH4)2CO3
Valence d'Ammonium (NH4) = 1 ; Valence de Carbonate (CO3) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Carbonate d'ammonium est (NH4)2CO3.


17. Sulfate d'ammonium
Réponse: (NH4)2SO4
Valence d'Ammonium (NH4) = 1 ; Valence de Sulfate (SO4) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Sulfate d'ammonium est  (NH4)2SO4.


18. Phosphate d'ammonium
Réponse: (NH4)3PO4
Valence d'Ammonium (NH4) = 1 ; Valence de Phosphate (PO4) = 3.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Phosphate d'ammonium est (NH4)3PO4.


19. Sulfate d'aluminium
Réponse: Al2(SO4)3
Valence d'Aluminium (Al) = 3 ; Valence de Sulfate (SO4) = 2.
En échangeant leurs valences,
La formule chimique pour Sulfate d'aluminium est Al2(SO4)3.


20. Sulfate de cuivre [II] (Sulfate cuprique)
Réponse: CuSO4
Valence de Cuivre (Cu) = 2 ; Valence de Sulfate (SO4) = 2.
En échangeant leurs valences et simplifiant (en divisant par 2),
La formule chimique pour Sulfate de cuivre [II] (Sulfate cuprique) est  CuSO4.


21. Nitrate de sodium
Réponse: NaNO3
Valence de Sodium (Na) = 1 ; Valence de Nitrate (NO3) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Nitrate de sodium est NaNO3.


22. Nitrate d'argent [I] (Nitrate argenteux)
Réponse: AgNO3
Valence d'Argent (Ag) = 1 ; Valence de Nitrate (NO3) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Nitrate d'argent [I] (Nitrate argenteux) est AgNO3.


23. Nitrate de potassium
Réponse: KNO3
Valence de Potassium (K) = 1 ; Valence de Nitrate (NO3) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Nitrate de potassium est KNO3.


24. Oxyde de plomb [IV] (Oxyde plombique)
Réponse: PbO2
Valence de Plomb (Pb) = 4 ; Valence d'Oxyde (O) = 2.
En échangeant leurs valences et simplifiant (en divisant par 2),
La formule chimique pour Oxyde de plomb [IV] (Oxyde plombique) est PbO2.


25. Chlorure de plomb [II] (Chlorure plombeux)
Réponse: PbCl2
Valence de Plomb (Pb) = 2 ; Valence de Chlorure (Cl) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Chlorure de plomb [II] (Chlorure plombeux) est PbCl2.


26. Chlorure d'Aluminium
Réponse: AlCl3
Valence d'Aluminium (Al) = 3 ; Valence de Chlorure (Cl) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Chlorure d'Aluminium est AlCl3.


27. Bicarbonate de potassium
Réponse: KHCO3
Valence de Potassium (K) = 1 ; Valence de Bicarbonate (HCO3) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Bicarbonate de potassium est KHCO3.


28. Sulfate de potassium
Réponse: K2SO4
Valence de Potassium (K) = 1 ; Valence de Sulfate (SO4) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Sulfate de potassium est K2SO4.


29. Chlorure de fer [II] (Chlorure ferreux)
Réponse: FeCl2
Valence de Fer (Fe) = 2 ; Valence de Chlorure (Cl) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Chlorure de fer [II] (Chlorure ferreux) est FeCl2.


30. Chlorure de fer [III] (Chlorure ferrique)
Réponse: FeCl3
Valence de Fer (Fe) = 3 ; Valence de Chlorure (Cl) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Chlorure de fer [III] (Chlorure ferrique) est FeCl3.


31. Chlorure de zinc
Réponse: ZnCl2
Valence de Zinc (Zn) = 2 ; Valence de Chlorure (Cl) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Chlorure de zinc est ZnCl2.


32. Phosphate d'aluminium
Réponse: AlPO4
Valence d'Aluminium (Al) = 3 ; Valence de Phosphate (PO4) = 3.
En échangeant leurs valences et simplifiant (en divisant par 3),
La formule chimique pour Phosphate d'aluminium est AlPO4.


33. Bicarbonate d'ammonium
Réponse: NH4HCO3
Valence d'Ammonium (NH4) = 1 ; Valence de Bicarbonate (HCO3) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Bicarbonate d'ammonium est NH4HCO3.


34. Sulfite de potassium
Réponse: K2SO3
Valence de Potassium (K) = 1 ; Valence de Sulfite (SO3) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Sulfite de potassium est  K2SO3.


35. Hydroxyde de magnésium
Réponse: Mg(OH)2
Valence de Magnésium (Mg) = 2 ; Valence d'Hydroxyde (OH) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Hydroxyde de magnésium est Mg(OH)2.


36. Chlorure de cuivre [II] (Chlorure cuprique)
Réponse: CuCl2
Valence de Cuivre (Cu) = 2 ; Valence de Chlorure (Cl) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Chlorure de cuivre [II] (Chlorure cuprique) est CuCl2.


37. Hydroxyde fe fer [II] (Hydroxyde ferreux)
Réponse: Fe(OH)2
Valence de Fer (Fe) = 2 ; Valence d'Hydroxyde (OH) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Hydroxyde fe fer [II] (Hydroxyde ferreux) est Fe(OH)2.


38. Hydroxyde fe fer [III] (Hydroxyde ferrique)
Réponse: Fe(OH)3
Valence de Fer (Fe) = 3 ; Valence d'Hydroxyde (OH) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Hydroxyde fe fer [III] (Hydroxyde ferrique) est Fe(OH)3.


39. Nitrate de plomb [II] (Nitrate plombeux)
Réponse: Pb(NO3)2
Valence de Plomb (Pb) = 2 ; Valence de Nitrate (NO3) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Nitrate de plomb [II] (Nitrate plombeux) est Pb(NO3)2.


40. Oxyde de fer [III] (Oxyde ferrique)
Réponse: Fe2O3
Valence de Fer (Fe) = 3 ; Valence d'Oxyde (O) = 2.
En échangeant leurs valences,
La formule chimique pour Oxyde de fer [III] (Oxyde ferrique) est Fe2O3.


41. Carbonate de sodium
Réponse: Na2CO3
Valence de Sodium (Na) = 1 ; Valence de Carbonate (CO3) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Carbonate de sodiu est mNa2CO3.


42. Sulfure de fer [III] (Sulfure ferrique)
Réponse: Fe2S3
Valence de Fer (Fe) = 3 ; Valence de Sulfure (S) = 2.
En échangeant leurs valences,
La formule chimique pour Sulfure de fer [III] (Sulfure ferrique) is Fe2S3.


43. Carbonate de calcium
Réponse: CaCO3
Valence de Calcium (Ca) = 2 ; Valence de Carbonate (CO3) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Carbonate de calcium est  CaCO3.


44. Oxyde de potassium
Réponse: K2O
Valence de Potassium (K) = 1 ; Valence d'Oxyde (O) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Oxyde de potassium est K2O.


45. Oxyde d'Aluminium
Réponse: Al2O3
Valence d'Aluminium (Al) = 3 ; Valence d'Oxyde (O) = 2.
En échangeant leurs valences,
La formule chimique pour Oxyde d'Aluminium est Al2O3.


46. Bisulfate de calcium
Réponse: Ca(HSO4)2
Valence de Calcium (Ca) = 2 ; Valence de Bisulfate (HSO4) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Bisulfate de calcium est Ca(HSO4)2.


47. Bisulfate de magnésium
Réponse: Mg(HSO4)2
Valence de Magnésium (Mg) = 2 ; Valence de Bisulfate (HSO4) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Bisulfate de magnésium est  Mg(HSO4)2.


48. Sulfate de zinc
Réponse: ZnSO4
Valence de Zinc (Zn) = 2 ; Valence de Sulfate (SO4) = 2.
En échangeant leurs valences et simplifiant (en divisant par 2),
La formule chimique pour Sulfate de zinc est ZnSO4.


49. Carbonate de zinc
Réponse: ZnCO3
Valence de Zinc (Zn) = 2 ; Valence de Carbonate (CO3) = 2.
En échangeant leurs valences et simplifiant (en divisant par 2),
La formule chimique pour Carbonate de zinc est ZnCO3.


50. Carbonate de cuivre [II] (Carbonate cuprique)
Réponse: CuCO3
Valence de Cuivre (Cu) = 2 ; Valence de Carbonate (CO3) = 2.
En échangeant leurs valences et simplifiant (en divisant par 2),
La formule chimique pour Carbonate de cuivre [II] (Carbonate cuprique) est CuCO3.


51. Sulfate de fer [II] (Sulfate ferreux)
Réponse: FeSO4
Valence de Fer (Fe) = 2 ; Valence de sulfate (SO4) = 2.
En échangeant leurs valences et simplifiant (en divisant par 2),
La formule chimique pour Sulfate de fer [II] (Sulfate ferreux) est FeSO4.


52. Chlorure de calcium
Réponse: CaCl2
Valence de Calcium (Ca) = 2 ; Valence de chlorure (Cl) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Chlorure de calcium est CaCl2.


53. Chlorure de magnésium
Réponse: MgCl2
Valence de Magnésium (Mg) = 2 ; Valence de chlorure (Cl) = 1.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Chlorure de magnésium est MgCl2.


54. Oxyde de mercure [I] (Oxyde mercureux)
Réponse: Hg2O
Valence de Mercure (Hg) = 1 ; Valence d'Oxyde (O) = 2.
En échangeant leurs valences (ignorant 1),
La formule chimique pour Oxyde de mercure [I] (Oxyde mercureux) est Hg2O.

http://fr.syvum.com/quizz/chimie/

! macrofage peritoneale
Soarecul se eutanasiaza cu CO2, pe masa se imobilizeaza toate membrele cu scoch tape, se taie pielea longitudinal si se rupe lateral se face o deschizatura larga. In partea superioara sub coaste se injecteaza G25 (?) 5 mL DMEM +P/S rece (important ! ca sa se detasheze) fara serum (ca le activeaza) in asa fel incit sa nu se perforeze un organ si sa se contamineze cu microflora intestinala. Se scutura lateral bine sa se desprinda toate macrofagele cam 30 de secunde si se absoarbe incet lichidul din acelasi loc (eu nu as mai scoate acul de acolo) se varsa usor fara sa afecteze celulele lichidul cu macrofage (inee - naturale ele ar fi M1 patruleaza in mod normal ca sa nu apara infectii) si mai pun inca 5 mL si repet. Se centrufugeaza la rece ( trebuie pastrat temperatura rece ca sa nu se activeze) 300 5 min si fara sa aiba serum se tranfera in placa in incubator fara serum 45 minute. In acest timp ce e macrofag se ataseaza de placa restul se arunca (se spala cu PBS rece) si apoi peste celulele atasate se pune mediul de cultura de macrofagr. Asa ies 3 mil inee mai multe la soareci mai batrini. Daca stimulez cu  (3% Brewer thioglycollate medium) am in 4 zile mai multe macrofage insa sint stimulate pina la 10 milioane pe soarec.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2834554/
De obicei se folosesc neactivate si sint necesari 20 de soareci. 
Paralel se poate face o izolare cu bile magnetice ( purificare mai serioasa verificata prin facs.

!legat de celule T puse in cocultura cu macrofage.
Placa arteriala apare prin proliferearea celulelor T iar  macrofagele eliberaza factori inflamatori (comparta la diabet infarctus batrini sanatosi)
celulel T proliferaza si desprinde placa. Daca se injecteaza MSc noi sanatoase se refuce inflamatia si proliferarea celulelor T. technica de cocultura , celule T cu un marker florescent daca prolifereaza intesitatea se reduce la jumate. (de verificat)



!Open Data Button

https://openaccessbutton.org/request/new

http://www.openaccessweek.org/

This year’s theme of “Open in Action.” The president and his team came into office with a strong public commitment to open government, and have demonstrated a commitment to open science as part of that agenda. As we approach the 2016 presidential election, the Center for Open Data Enterprise, a nonprofit organization based in Washington, DC, is working to ensure that open science…

https://www.yumpu.com/fr/document/view/44945634/yan-burelle-meetochondrie/4

!Gefilte Fish
Basic Gefilte Fish Mixture

    * 3 pounds ground fish (2 lbs. whitefish, 1 lb. pike)
    * 4 medium onions, ground
    * ½ cup matzo meal
    * 4 eggs beaten
    * 1 teaspoon pepper
    * 5 teaspoons salt
    * 3-5 teaspoons sugar (add more sugar if you like a sweeter fish)
Fish Water
    * 3 carrot stalks
    * 2 celery stalks
    * 1 parsnip peeled (optional)
    * 1 onion scored
    * 1 teaspoon salt
    * 3 garlic cloves
    * ¼ teaspoon pepper 2 tablespoons sugar

Combine all the ingredients for the gefilte fish mixture into your mixing bowl and mix on medium speed. Fill a dutch oven ½ of the way with water. Add all the vegetables and spices into the pot and bring to a boil. Wet the palms of your hands and form oval shaped balls and gently drop them into the boiling water. Allow to simmer covered for 1 ½ hours.

Gefilte Fish Loaf
Wet a sheet of parchment paper. Crumple it and wring out the excess water. Shake it out and place flat on a smooth surface. Pour the gefilte fish mixture in the middle of the sheet. Wrap the paper around the mixture and twist the ends tightly. Cook as you would the fish balls.

! Despre Cota R
http://bemarianopolis.ca/choose-us/r-score/

https://admission.umontreal.ca/admission/1er-cycle/cote-de-rendement-cote-r/cote-de-rendement-universitaire/

http://www.crepuq.qc.ca/IMG/pdf/R-Score-FAQ-march2013.pdf

http://www.crepuq.qc.ca/spip.php?article560&lang=fr
daily planet ureche din mar decelulariazat
http://www.pellinglab.net/

!Des bactéries intestinales peuvent-elles causer la maladie de Crohn? 
Des chercheurs de l’Université d’Ottawa et du CHEO exposent de nouvelles pistes de traitement

Publié le mercredi 23 novembre 2016

Une étude publiée récemment dans la revue scientifique Nature Communications par des chercheurs de la Faculté de médecine de l’Université d’Ottawa, du Centre hospitalier pour enfants de l’est de l’Ontario (CHEO) et leurs collaborateurs internationaux fait état d’une découverte pouvant mener à un nouveau traitement de la maladie de Crohn, qui affecte un nombre croissant d’enfants au Canada.  

Entraînant une inflammation chronique de l’appareil gastro-intestinal, cette maladie s’établit souvent chez les enfants et les adolescents. De fait, de 20 à 30 % des patients atteints présentent les symptômes avant l’âge de 20 ans. Outre les symptômes les plus communs comme la diarrhée, les saignements rectaux et les douleurs abdominales sévères, les enfants souffrant de la maladie de Crohn doivent parfois composer avec des problèmes de croissance, de la malnutrition et un retard pubertaire. La cause exacte de la maladie de Crohn est inconnue et les médecins sont encore à la recherche de remèdes pour enrayer la maladie.

Cette maladie se caractérise par une irritation ou une inflammation chronique du tractus gastro-intestinal. On la traite habituellement avec des médicaments qui neutralisent le « facteur de nécrose tumoral », substance produite par le système immunitaire.

Dans le but de trouver un nouveau traitement pour cette maladie souvent débilitante, l’équipe de chercheurs dirigée par Alain Stintzi et Daniel Figeys, professeurs au Département de biochimie, microbiologie et immunologie de l’Université d’Ottawa, le Dr David Mack, professeur au Département de pédiatrie de l’Université d’Ottawa et directeur du centre de recherche sur les maladies inflammatoires de l’intestin du CHEO, et Christian Jobin, professeur au département de médecine de l’Université de la Floride, a scruté la dynamique de la flore bactérienne intestinale, ou microbiote.

« Contrairement à la plupart des médicaments utilisés actuellement pour traiter la maladie de Crohn, qui altèrent le système immunitaire des patients, la nouvelle piste de recherche donne à penser que nous pourrions envisager une nouvelle approche qui consisterait à modifier l’activité métabolique nuisible des réseaux de bactéries intestinales pour atténuer l’inflammation caractérisant la maladie de Crohn », soutient le Dr David Mack.

L’équipe de chercheurs a trouvé que les patients atteints de la maladie de Crohn abritent beaucoup moins de micro-organismes protecteurs, comme les bactéries des groupes Clostridium XIVa et IV, qui produisent un type d’acide gras anti-inflammatoire appelé butyrate. Leurs recherches montrent également que les patients présentent des taux plus élevés de bactéries nuisibles productrices d’agents pro-inflammatoires comme le sulfure d’hydrogène, ou H2S. Ces mêmes patients montrent une capacité réduite de détoxifier leur paroi intestinale et de réduire leurs niveaux de H2S.

L’équipe a démontré que les bactéries de la souche Atopobium parvulum, grande productrice de H2S, provoquent des colites sévères et que la présence du microbiote est importante pour le développement de ces colites. Ces découvertes mettent au jour un nouveau mécanisme en cause dans la maladie de Crohn, qui impliquerait un déséquilibre entre production et détoxication de H2S. Cette avancée permettra de chercher des traitements capables de rétablir le sain équilibre du microbiote.

Lisez l’article paru dans Nature Communications

http://www.nature.com/articles/ncomms13419

Adresa
uOttawa Research Chair in Integrative Mitochondrial Biology
Faculty of Health Sciences and Department of Cellular and Molecular Medicine, Faculty of Medicine
Pavillon Roger Guindon
451 Smyth Road, Ottawa Ontario
K1N 8M5

http://openspim.org/EMBO_practical_course_Light_sheet_microscopy
http://openspim.org/Welcome_to_the_OpenSPIM_Wiki

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Invitrogen EVOS FL Auto Cell Imaging System
[>img[https://www.thermofisher.com/content/dam/LifeTech/global/technical-reference-library/newsletters-journals/bioprobes/Images/bp69/s008235-bioprobes-69-evos-2.jpg]]

The EVOS® FL Auto Imaging System is a fully-automated, digital, inverted multi-channel fluorescence and transmitted light imaging system with outstanding workflow efficiency. Designed to meet demanding requirements over a broad range of applications, the EVOS® FL Auto system supports high-resolution mosaic tiling, multi-position well scanning, cell counting with thresholding, and time-lapse studies.
The intuitive interface, proprietary light cubes, dual cameras, precision automated stage and parfocal optical system enables you to produce publication quality images in seconds.
Features:
    Exceptional ease-of-use with a fully automated and motorized X/Y scanning stage, autofocus and flat-focus Z-stack
    Advanced software featuring high-resolution mosaic tiling, multi-position well scanning, object counting, and time-lapse
    Outstanding versatility with a 5-position objective turret, 4-color fluorescence, plus color and B/W cameras
    22" touch-screen LCD display, networking capability, and DVI output
The EVOS® Onstage Incubator is an environmental chamber that is designed specifically for use with the EVOS® FL Auto Cell Imaging System. Superb environmental settings and image acquisition parameters create a high-performance inverted imaging system with amazing flexibility, ease of use and optical performance for demanding live cell time-lapse imaging experiments 
https://www.thermofisher.com/ca/en/home/life-science/cell-analysis/cellular-imaging/cell-imaging-systems/evos-fl-auto.html

https://www.thermofisher.com/ca/en/home/life-science/cell-analysis/cellular-imaging/cell-imaging-systems/evos-fl-auto/evos-onstage-incubator.html

oil imersion
https://youtu.be/-tyY5lofPRc