mirror of
https://github.com/Jermolene/TiddlyWiki5
synced 2024-11-17 15:24:50 +00:00
215bd4e015
When wikiparser parses text looking for a pragma block, it skips whitespace before looking for the next pragma. If no pragma is found, we should return the parse position to the original location so that the skipped whitespace can be parsed as a text node. This allows the attribute `join=" and "` to parse as " and " rather than "and ".
464 lines
15 KiB
JavaScript
464 lines
15 KiB
JavaScript
/*\
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title: $:/core/modules/parsers/wikiparser/wikiparser.js
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type: application/javascript
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module-type: parser
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The wiki text parser processes blocks of source text into a parse tree.
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The parse tree is made up of nested arrays of these JavaScript objects:
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{type: "element", tag: <string>, attributes: {}, children: []} - an HTML element
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{type: "text", text: <string>} - a text node
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{type: "entity", value: <string>} - an entity
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{type: "raw", html: <string>} - raw HTML
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Attributes are stored as hashmaps of the following objects:
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{type: "string", value: <string>} - literal string
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{type: "indirect", textReference: <textReference>} - indirect through a text reference
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{type: "macro", macro: <TBD>} - indirect through a macro invocation
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\*/
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(function(){
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/*jslint node: true, browser: true */
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/*global $tw: false */
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"use strict";
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/*
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type: content type of text
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text: text to be parsed
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options: see below:
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parseAsInline: true to parse text as inline instead of block
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wiki: reference to wiki to use
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_canonical_uri: optional URI of content if text is missing or empty
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configTrimWhiteSpace: true to trim whitespace
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*/
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var WikiParser = function(type,text,options) {
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this.wiki = options.wiki;
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var self = this;
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// Check for an externally linked tiddler
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if($tw.browser && (text || "") === "" && options._canonical_uri) {
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this.loadRemoteTiddler(options._canonical_uri);
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text = $tw.language.getRawString("LazyLoadingWarning");
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}
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// Save the parse text
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this.type = type || "text/vnd.tiddlywiki";
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this.source = text || "";
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this.sourceLength = this.source.length;
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// Flag for ignoring whitespace
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this.configTrimWhiteSpace = options.configTrimWhiteSpace !== undefined ? options.configTrimWhiteSpace : false;
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// Parser mode
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this.parseAsInline = options.parseAsInline;
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// Set current parse position
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this.pos = 0;
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// Start with empty output
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this.tree = [];
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// Assemble the rule classes we're going to use
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var pragmaRuleClasses, blockRuleClasses, inlineRuleClasses;
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if(options.rules) {
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pragmaRuleClasses = options.rules.pragma;
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blockRuleClasses = options.rules.block;
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inlineRuleClasses = options.rules.inline;
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} else {
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// Setup the rule classes if we don't have them already
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if(!this.pragmaRuleClasses) {
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WikiParser.prototype.pragmaRuleClasses = $tw.modules.createClassesFromModules("wikirule","pragma",$tw.WikiRuleBase);
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this.setupRules(WikiParser.prototype.pragmaRuleClasses,"$:/config/WikiParserRules/Pragmas/");
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}
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pragmaRuleClasses = this.pragmaRuleClasses;
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if(!this.blockRuleClasses) {
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WikiParser.prototype.blockRuleClasses = $tw.modules.createClassesFromModules("wikirule","block",$tw.WikiRuleBase);
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this.setupRules(WikiParser.prototype.blockRuleClasses,"$:/config/WikiParserRules/Block/");
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}
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blockRuleClasses = this.blockRuleClasses;
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if(!this.inlineRuleClasses) {
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WikiParser.prototype.inlineRuleClasses = $tw.modules.createClassesFromModules("wikirule","inline",$tw.WikiRuleBase);
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this.setupRules(WikiParser.prototype.inlineRuleClasses,"$:/config/WikiParserRules/Inline/");
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}
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inlineRuleClasses = this.inlineRuleClasses;
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}
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// Instantiate the pragma parse rules
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this.pragmaRules = this.instantiateRules(pragmaRuleClasses,"pragma",0);
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// Instantiate the parser block and inline rules
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this.blockRules = this.instantiateRules(blockRuleClasses,"block",0);
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this.inlineRules = this.instantiateRules(inlineRuleClasses,"inline",0);
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// Parse any pragmas
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var topBranch = this.parsePragmas();
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// Parse the text into inline runs or blocks
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if(this.parseAsInline) {
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topBranch.push.apply(topBranch,this.parseInlineRun());
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} else {
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topBranch.push.apply(topBranch,this.parseBlocks());
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}
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// Return the parse tree
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};
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/*
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*/
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WikiParser.prototype.loadRemoteTiddler = function(url) {
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var self = this;
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$tw.utils.httpRequest({
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url: url,
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type: "GET",
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callback: function(err,data) {
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if(!err) {
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var tiddlers = self.wiki.deserializeTiddlers(".tid",data,self.wiki.getCreationFields());
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$tw.utils.each(tiddlers,function(tiddler) {
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tiddler["_canonical_uri"] = url;
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});
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if(tiddlers) {
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self.wiki.addTiddlers(tiddlers);
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}
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}
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}
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});
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};
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/*
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*/
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WikiParser.prototype.setupRules = function(proto,configPrefix) {
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var self = this;
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if(!$tw.safeMode) {
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$tw.utils.each(proto,function(object,name) {
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if(self.wiki.getTiddlerText(configPrefix + name,"enable") !== "enable") {
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delete proto[name];
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}
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});
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}
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};
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/*
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Instantiate an array of parse rules
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*/
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WikiParser.prototype.instantiateRules = function(classes,type,startPos) {
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var rulesInfo = [],
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self = this;
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$tw.utils.each(classes,function(RuleClass) {
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// Instantiate the rule
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var rule = new RuleClass(self);
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rule.is = {};
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rule.is[type] = true;
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rule.init(self);
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var matchIndex = rule.findNextMatch(startPos);
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if(matchIndex !== undefined) {
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rulesInfo.push({
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rule: rule,
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matchIndex: matchIndex
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});
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}
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});
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return rulesInfo;
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};
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/*
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Skip any whitespace at the current position. Options are:
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treatNewlinesAsNonWhitespace: true if newlines are NOT to be treated as whitespace
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*/
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WikiParser.prototype.skipWhitespace = function(options) {
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options = options || {};
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var whitespaceRegExp = options.treatNewlinesAsNonWhitespace ? /([^\S\n]+)/mg : /(\s+)/mg;
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whitespaceRegExp.lastIndex = this.pos;
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var whitespaceMatch = whitespaceRegExp.exec(this.source);
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if(whitespaceMatch && whitespaceMatch.index === this.pos) {
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this.pos = whitespaceRegExp.lastIndex;
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}
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};
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/*
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Get the next match out of an array of parse rule instances
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*/
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WikiParser.prototype.findNextMatch = function(rules,startPos) {
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// Find the best matching rule by finding the closest match position
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var matchingRule,
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matchingRulePos = this.sourceLength;
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// Step through each rule
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for(var t=0; t<rules.length; t++) {
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var ruleInfo = rules[t];
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// Ask the rule to get the next match if we've moved past the current one
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if(ruleInfo.matchIndex !== undefined && ruleInfo.matchIndex < startPos) {
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ruleInfo.matchIndex = ruleInfo.rule.findNextMatch(startPos);
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}
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// Adopt this match if it's closer than the current best match
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if(ruleInfo.matchIndex !== undefined && ruleInfo.matchIndex <= matchingRulePos) {
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matchingRule = ruleInfo;
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matchingRulePos = ruleInfo.matchIndex;
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}
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}
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return matchingRule;
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};
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/*
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Parse any pragmas at the beginning of a block of parse text
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*/
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WikiParser.prototype.parsePragmas = function() {
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var currentTreeBranch = this.tree;
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while(true) {
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var savedPos = this.pos;
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// Skip whitespace
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this.skipWhitespace();
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// Check for the end of the text
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if(this.pos >= this.sourceLength) {
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break;
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}
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// Check if we've arrived at a pragma rule match
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var nextMatch = this.findNextMatch(this.pragmaRules,this.pos);
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// If not, just exit
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if(!nextMatch || nextMatch.matchIndex !== this.pos) {
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this.pos = savedPos;
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break;
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}
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// Process the pragma rule
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var subTree = nextMatch.rule.parse();
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if(subTree.length > 0) {
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// Quick hack; we only cope with a single parse tree node being returned, which is true at the moment
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currentTreeBranch.push.apply(currentTreeBranch,subTree);
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subTree[0].children = [];
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currentTreeBranch = subTree[0].children;
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}
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}
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return currentTreeBranch;
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};
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/*
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Parse a block from the current position
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terminatorRegExpString: optional regular expression string that identifies the end of plain paragraphs. Must not include capturing parenthesis
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*/
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WikiParser.prototype.parseBlock = function(terminatorRegExpString) {
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var terminatorRegExp = terminatorRegExpString ? new RegExp(terminatorRegExpString + "|\\r?\\n\\r?\\n","mg") : /(\r?\n\r?\n)/mg;
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this.skipWhitespace();
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if(this.pos >= this.sourceLength) {
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return [];
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}
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// Look for a block rule that applies at the current position
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var nextMatch = this.findNextMatch(this.blockRules,this.pos);
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if(nextMatch && nextMatch.matchIndex === this.pos) {
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return nextMatch.rule.parse();
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}
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// Treat it as a paragraph if we didn't find a block rule
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var start = this.pos;
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var children = this.parseInlineRun(terminatorRegExp);
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var end = this.pos;
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return [{type: "element", tag: "p", children: children, start: start, end: end }];
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};
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/*
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Parse a series of blocks of text until a terminating regexp is encountered or the end of the text
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terminatorRegExpString: terminating regular expression
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*/
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WikiParser.prototype.parseBlocks = function(terminatorRegExpString) {
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if(terminatorRegExpString) {
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return this.parseBlocksTerminated(terminatorRegExpString);
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} else {
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return this.parseBlocksUnterminated();
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}
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};
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/*
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Parse a block from the current position to the end of the text
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*/
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WikiParser.prototype.parseBlocksUnterminated = function() {
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var tree = [];
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while(this.pos < this.sourceLength) {
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tree.push.apply(tree,this.parseBlock());
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}
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return tree;
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};
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/*
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Parse blocks of text until a terminating regexp is encountered. Wrapper for parseBlocksTerminatedExtended that just returns the parse tree
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*/
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WikiParser.prototype.parseBlocksTerminated = function(terminatorRegExpString) {
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var ex = this.parseBlocksTerminatedExtended(terminatorRegExpString);
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return ex.tree;
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};
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/*
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Parse blocks of text until a terminating regexp is encountered
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*/
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WikiParser.prototype.parseBlocksTerminatedExtended = function(terminatorRegExpString) {
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var terminatorRegExp = new RegExp(terminatorRegExpString,"mg"),
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result = {
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tree: []
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};
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// Skip any whitespace
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this.skipWhitespace();
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// Check if we've got the end marker
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terminatorRegExp.lastIndex = this.pos;
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var match = terminatorRegExp.exec(this.source);
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// Parse the text into blocks
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while(this.pos < this.sourceLength && !(match && match.index === this.pos)) {
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var blocks = this.parseBlock(terminatorRegExpString);
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result.tree.push.apply(result.tree,blocks);
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// Skip any whitespace
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this.skipWhitespace();
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// Check if we've got the end marker
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terminatorRegExp.lastIndex = this.pos;
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match = terminatorRegExp.exec(this.source);
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}
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if(match && match.index === this.pos) {
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this.pos = match.index + match[0].length;
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result.match = match;
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}
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return result;
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};
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/*
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Parse a run of text at the current position
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terminatorRegExp: a regexp at which to stop the run
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options: see below
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Options available:
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eatTerminator: move the parse position past any encountered terminator (default false)
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*/
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WikiParser.prototype.parseInlineRun = function(terminatorRegExp,options) {
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if(terminatorRegExp) {
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return this.parseInlineRunTerminated(terminatorRegExp,options);
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} else {
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return this.parseInlineRunUnterminated(options);
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}
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};
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WikiParser.prototype.parseInlineRunUnterminated = function(options) {
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var tree = [];
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// Find the next occurrence of an inline rule
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var nextMatch = this.findNextMatch(this.inlineRules,this.pos);
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// Loop around the matches until we've reached the end of the text
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while(this.pos < this.sourceLength && nextMatch) {
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// Process the text preceding the run rule
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if(nextMatch.matchIndex > this.pos) {
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this.pushTextWidget(tree,this.source.substring(this.pos,nextMatch.matchIndex),this.pos,nextMatch.matchIndex);
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this.pos = nextMatch.matchIndex;
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}
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// Process the run rule
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tree.push.apply(tree,nextMatch.rule.parse());
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// Look for the next run rule
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nextMatch = this.findNextMatch(this.inlineRules,this.pos);
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}
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// Process the remaining text
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if(this.pos < this.sourceLength) {
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this.pushTextWidget(tree,this.source.substr(this.pos),this.pos,this.sourceLength);
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}
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this.pos = this.sourceLength;
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return tree;
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};
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WikiParser.prototype.parseInlineRunTerminated = function(terminatorRegExp,options) {
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var ex = this.parseInlineRunTerminatedExtended(terminatorRegExp,options);
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return ex.tree;
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};
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WikiParser.prototype.parseInlineRunTerminatedExtended = function(terminatorRegExp,options) {
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options = options || {};
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var tree = [];
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// Find the next occurrence of the terminator
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terminatorRegExp.lastIndex = this.pos;
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var terminatorMatch = terminatorRegExp.exec(this.source);
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// Find the next occurrence of a inlinerule
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var inlineRuleMatch = this.findNextMatch(this.inlineRules,this.pos);
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// Loop around until we've reached the end of the text
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while(this.pos < this.sourceLength && (terminatorMatch || inlineRuleMatch)) {
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// Return if we've found the terminator, and it precedes any inline rule match
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if(terminatorMatch) {
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if(!inlineRuleMatch || inlineRuleMatch.matchIndex >= terminatorMatch.index) {
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if(terminatorMatch.index > this.pos) {
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this.pushTextWidget(tree,this.source.substring(this.pos,terminatorMatch.index),this.pos,terminatorMatch.index);
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}
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this.pos = terminatorMatch.index;
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if(options.eatTerminator) {
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this.pos += terminatorMatch[0].length;
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}
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return {
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match: terminatorMatch,
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tree: tree
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};
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}
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}
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// Process any inline rule, along with the text preceding it
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if(inlineRuleMatch) {
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// Preceding text
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if(inlineRuleMatch.matchIndex > this.pos) {
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this.pushTextWidget(tree,this.source.substring(this.pos,inlineRuleMatch.matchIndex),this.pos,inlineRuleMatch.matchIndex);
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this.pos = inlineRuleMatch.matchIndex;
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}
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// Process the inline rule
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tree.push.apply(tree,inlineRuleMatch.rule.parse());
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// Look for the next inline rule
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inlineRuleMatch = this.findNextMatch(this.inlineRules,this.pos);
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// Look for the next terminator match
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terminatorRegExp.lastIndex = this.pos;
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terminatorMatch = terminatorRegExp.exec(this.source);
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}
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}
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// Process the remaining text
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if(this.pos < this.sourceLength) {
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this.pushTextWidget(tree,this.source.substr(this.pos),this.pos,this.sourceLength);
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}
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this.pos = this.sourceLength;
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return {
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tree: tree
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};
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};
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/*
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Push a text widget onto an array, respecting the configTrimWhiteSpace setting
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*/
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WikiParser.prototype.pushTextWidget = function(array,text,start,end) {
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if(this.configTrimWhiteSpace) {
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text = $tw.utils.trim(text);
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}
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if(text) {
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array.push({type: "text", text: text, start: start, end: end});
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}
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};
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/*
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Parse zero or more class specifiers `.classname`
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*/
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WikiParser.prototype.parseClasses = function() {
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var classRegExp = /\.([^\s\.]+)/mg,
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classNames = [];
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classRegExp.lastIndex = this.pos;
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var match = classRegExp.exec(this.source);
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while(match && match.index === this.pos) {
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this.pos = match.index + match[0].length;
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classNames.push(match[1]);
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match = classRegExp.exec(this.source);
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}
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return classNames;
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};
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/*
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Amend the rules used by this instance of the parser
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type: `only` keeps just the named rules, `except` keeps all but the named rules
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names: array of rule names
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*/
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WikiParser.prototype.amendRules = function(type,names) {
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names = names || [];
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// Define the filter function
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var target;
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if(type === "only") {
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target = true;
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} else if(type === "except") {
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target = false;
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} else {
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return;
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}
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// Define a function to process each of our rule arrays
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var processRuleArray = function(ruleArray) {
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for(var t=ruleArray.length-1; t>=0; t--) {
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if((names.indexOf(ruleArray[t].rule.name) === -1) === target) {
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ruleArray.splice(t,1);
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}
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}
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};
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// Process each rule array
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processRuleArray(this.pragmaRules);
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processRuleArray(this.blockRules);
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processRuleArray(this.inlineRules);
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};
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exports["text/vnd.tiddlywiki"] = WikiParser;
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})();
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