mirror of
https://github.com/codeninjasllc/discourse.git
synced 2024-12-20 12:32:39 -05:00
586 lines
18 KiB
JavaScript
586 lines
18 KiB
JavaScript
import guid from 'pretty-text/guid';
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import { default as WhiteLister, whiteListFeature } from 'pretty-text/white-lister';
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import { escape } from 'pretty-text/sanitizer';
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var parser = window.BetterMarkdown,
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MD = parser.Markdown,
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DialectHelpers = parser.DialectHelpers,
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hoisted;
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let currentOpts;
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const emitters = [];
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const preProcessors = [];
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const parseNodes = [];
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function findEndPos(text, start, stop, args, offset) {
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let endPos, nextStart;
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do {
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endPos = text.indexOf(stop, offset);
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if (endPos === -1) { return -1; }
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nextStart = text.indexOf(start, offset);
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offset = endPos + stop.length;
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} while (nextStart !== -1 && nextStart < endPos);
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return endPos;
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}
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class DialectHelper {
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constructor() {
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this._dialect = MD.dialects.Discourse = DialectHelpers.subclassDialect(MD.dialects.Gruber);
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this._setup = false;
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}
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escape(str) {
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return escape(str);
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}
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getOptions() {
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return currentOpts;
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}
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registerInlineFeature(featureName, start, fn) {
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this._dialect.inline[start] = function() {
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if (!currentOpts.features[featureName]) { return; }
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return fn.apply(this, arguments);
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};
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}
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addPreProcessorFeature(featureName, fn) {
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preProcessors.push(raw => {
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if (!currentOpts.features[featureName]) { return raw; }
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return fn(raw, hoister);
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});
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}
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/**
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The simplest kind of replacement possible. Replace a stirng token with JsonML.
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For example to replace all occurrances of :) with a smile image:
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```javascript
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helper.inlineReplace(':)', text => ['img', {src: '/images/smile.png'}]);
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```
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**/
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inlineReplaceFeature(featureName, token, emitter) {
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this.registerInline(token, (text, match, prev) => {
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if (!currentOpts.features[featureName]) { return; }
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return [token.length, emitter.call(this, token, match, prev)];
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});
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}
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/**
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After the parser has been executed, change the contents of a HTML tag.
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Let's say you want to replace the contents of all code tags to prepend
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"EVIL TROUT HACKED YOUR CODE!":
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```javascript
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helper.postProcessTag('code', contents => `EVIL TROUT HACKED YOUR CODE!\n\n${contents}`);
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```
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**/
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postProcessTagFeature(featureName, tag, emitter) {
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this.onParseNode(event => {
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if (!currentOpts.features[featureName]) { return; }
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const node = event.node;
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if (node[0] === tag) {
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node[node.length-1] = emitter(node[node.length-1]);
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}
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});
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}
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/**
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Matches inline using a regular expression. The emitter function is passed
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the matches from the regular expression.
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For example, this auto links URLs:
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```javascript
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helper.inlineRegexp({
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matcher: /((?:https?:(?:\/{1,3}|[a-z0-9%])|www\d{0,3}[.])(?:[^\s()<>]+|\([^\s()<>]+\))+(?:\([^\s()<>]+\)|[^`!()\[\]{};:'".,<>?«»“”‘’\s]))/gm,
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spaceBoundary: true,
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start: 'http',
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emitter(matches) {
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const url = matches[1];
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return ['a', {href: url}, url];
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}
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});
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```
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**/
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inlineRegexpFeature(featureName, args) {
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this.registerInline(args.start, function(text, match, prev) {
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if (!currentOpts.features[featureName]) { return; }
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if (invalidBoundary(args, prev)) { return; }
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args.matcher.lastIndex = 0;
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const m = args.matcher.exec(text);
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if (m) {
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const result = args.emitter.call(this, m);
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if (result) {
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return [m[0].length, result];
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}
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}
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});
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}
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/**
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Handles inline replacements surrounded by tokens.
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For example, to handle markdown style bold. Note we use `concat` on the array because
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the contents are JsonML too since we didn't pass `rawContents` as true. This supports
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recursive markup.
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```javascript
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helper.inlineBetween({
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between: '**',
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wordBoundary: true.
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emitter(contents) {
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return ['strong'].concat(contents);
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}
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});
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```
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**/
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inlineBetweenFeature(featureName, args) {
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const start = args.start || args.between;
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const stop = args.stop || args.between;
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const startLength = start.length;
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this.registerInline(start, function(text, match, prev) {
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if (!currentOpts.features[featureName]) { return; }
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if (invalidBoundary(args, prev)) { return; }
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const endPos = findEndPos(text, start, stop, args, startLength);
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if (endPos === -1) { return; }
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var between = text.slice(startLength, endPos);
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// If rawcontents is set, don't process inline
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if (!args.rawContents) {
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between = this.processInline(between);
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}
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var contents = args.emitter.call(this, between);
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if (contents) {
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return [endPos+stop.length, contents];
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}
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});
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}
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/**
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Replaces a block of text between a start and stop. As opposed to inline, these
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might span multiple lines.
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Here's an example that takes the content between `[code]` ... `[/code]` and
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puts them inside a `pre` tag:
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```javascript
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helper.replaceBlock({
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start: /(\[code\])([\s\S]*)/igm,
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stop: '[/code]',
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rawContents: true,
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emitter(blockContents) {
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return ['p', ['pre'].concat(blockContents)];
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}
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});
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```
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**/
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replaceBlockFeature(featureName, args) {
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function blockFunc(block, next) {
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if (!currentOpts.features[featureName]) { return; }
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const linebreaks = currentOpts.traditionalMarkdownLinebreaks;
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if (linebreaks && args.skipIfTradtionalLinebreaks) { return; }
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args.start.lastIndex = 0;
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const result = [];
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const match = (args.start).exec(block);
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if (!match) { return; }
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const lastChance = () => !next.some(blk => blk.match(args.stop));
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// shave off start tag and leading text, if any.
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const pos = args.start.lastIndex - match[0].length;
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const leading = block.slice(0, pos);
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const trailing = match[2] ? match[2].replace(/^\n*/, "") : "";
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// The other leading block should be processed first! eg a code block wrapped around a code block.
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if (args.withoutLeading && args.withoutLeading.test(leading)) {
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return;
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}
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// just give up if there's no stop tag in this or any next block
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args.stop.lastIndex = block.length - trailing.length;
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if (!args.stop.exec(block) && lastChance()) { return; }
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if (leading.length > 0) {
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var parsedLeading = this.processBlock(MD.mk_block(leading), []);
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if (parsedLeading && parsedLeading[0]) {
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result.push(parsedLeading[0]);
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}
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}
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if (trailing.length > 0) {
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next.unshift(MD.mk_block(trailing, block.trailing,
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block.lineNumber + countLines(leading) + (match[2] ? match[2].length : 0) - trailing.length));
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}
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// go through the available blocks to find the matching stop tag.
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const contentBlocks = [];
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let nesting = 0;
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let actualEndPos = -1;
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let currentBlock;
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blockloop:
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while (currentBlock = next.shift()) {
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// collect all the start and stop tags in the current block
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args.start.lastIndex = 0;
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const startPos = [];
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let m;
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while (m = (args.start).exec(currentBlock)) {
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startPos.push(args.start.lastIndex - m[0].length);
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args.start.lastIndex = args.start.lastIndex - (m[2] ? m[2].length : 0);
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}
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args.stop.lastIndex = 0;
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const endPos = [];
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while (m = (args.stop).exec(currentBlock)) {
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endPos.push(args.stop.lastIndex - m[0].length);
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}
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// go through the available end tags:
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let ep = 0;
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let sp = 0;
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while (ep < endPos.length) {
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if (sp < startPos.length && startPos[sp] < endPos[ep]) {
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// there's an end tag, but there's also another start tag first. we need to go deeper.
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sp++; nesting++;
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} else if (nesting > 0) {
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// found an end tag, but we must go up a level first.
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ep++; nesting--;
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} else {
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// found an end tag and we're at the top: done! -- or: start tag and end tag are
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// identical, (i.e. startPos[sp] == endPos[ep]), so we don't do nesting at all.
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actualEndPos = endPos[ep];
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break blockloop;
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}
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}
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if (lastChance()) {
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// when lastChance() becomes true the first time, currentBlock contains the last
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// end tag available in the input blocks but it's not on the right nesting level
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// or we would have terminated the loop already. the only thing we can do is to
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// treat the last available end tag as tho it were matched with our start tag
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// and let the emitter figure out how to render the garbage inside.
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actualEndPos = endPos[endPos.length - 1];
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break;
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}
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// any left-over start tags still increase the nesting level
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nesting += startPos.length - sp;
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contentBlocks.push(currentBlock);
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}
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const stopLen = currentBlock.match(args.stop)[0].length;
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const before = currentBlock.slice(0, actualEndPos).replace(/\n*$/, "");
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const after = currentBlock.slice(actualEndPos + stopLen).replace(/^\n*/, "");
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if (before.length > 0) contentBlocks.push(MD.mk_block(before, "", currentBlock.lineNumber));
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if (after.length > 0) next.unshift(MD.mk_block(after, currentBlock.trailing, currentBlock.lineNumber + countLines(before)));
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const emitterResult = args.emitter.call(this, contentBlocks, match);
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if (emitterResult) { result.push(emitterResult); }
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return result;
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};
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if (args.priority) {
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blockFunc.priority = args.priority;
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}
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this.registerBlock(args.start.toString(), blockFunc);
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}
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/**
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After the parser has been executed, post process any text nodes in the HTML document.
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This is useful if you want to apply a transformation to the text.
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If you are generating HTML from the text, it is preferable to use the replacer
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functions and do it in the parsing part of the pipeline. This function is best for
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simple transformations or transformations that have to happen after all earlier
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processing is done.
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For example, to convert all text to upper case:
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```javascript
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helper.postProcessText(function (text) {
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return text.toUpperCase();
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});
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```
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**/
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postProcessTextFeature(featureName, fn) {
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emitters.push(function () {
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if (!currentOpts.features[featureName]) { return; }
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return fn.apply(this, arguments);
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});
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}
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onParseNodeFeature(featureName, fn) {
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parseNodes.push(function () {
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if (!currentOpts.features[featureName]) { return; }
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return fn.apply(this, arguments);
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});
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}
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registerBlockFeature(featureName, name, fn) {
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const blockFunc = function() {
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if (!currentOpts.features[featureName]) { return; }
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return fn.apply(this, arguments);
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};
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blockFunc.priority = fn.priority;
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this._dialect.block[name] = blockFunc;
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}
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applyFeature(featureName, module) {
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helper.registerInline = (code, fn) => helper.registerInlineFeature(featureName, code, fn);
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helper.replaceBlock = args => helper.replaceBlockFeature(featureName, args);
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helper.addPreProcessor = fn => helper.addPreProcessorFeature(featureName, fn);
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helper.inlineReplace = (token, emitter) => helper.inlineReplaceFeature(featureName, token, emitter);
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helper.postProcessTag = (token, emitter) => helper.postProcessTagFeature(featureName, token, emitter);
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helper.inlineRegexp = args => helper.inlineRegexpFeature(featureName, args);
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helper.inlineBetween = args => helper.inlineBetweenFeature(featureName, args);
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helper.postProcessText = fn => helper.postProcessTextFeature(featureName, fn);
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helper.onParseNode = fn => helper.onParseNodeFeature(featureName, fn);
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helper.registerBlock = (name, fn) => helper.registerBlockFeature(featureName, name, fn);
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module.setup(this);
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}
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setup() {
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if (this._setup) { return; }
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this._setup = true;
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Object.keys(require._eak_seen).forEach(entry => {
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if (entry.indexOf('discourse-markdown') !== -1) {
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const module = require(entry);
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if (module && module.setup) {
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const featureName = entry.split('/').reverse()[0];
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helper.whiteList = info => whiteListFeature(featureName, info);
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this.applyFeature(featureName, module);
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helper.whiteList = undefined;
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}
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}
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});
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MD.buildBlockOrder(this._dialect.block);
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var index = this._dialect.block.__order__.indexOf("code");
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if (index > -1) {
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this._dialect.block.__order__.splice(index, 1);
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this._dialect.block.__order__.unshift("code");
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}
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MD.buildInlinePatterns(this._dialect.inline);
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}
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};
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const helper = new DialectHelper();
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export function cook(raw, opts) {
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currentOpts = opts;
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hoisted = {};
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raw = hoistCodeBlocksAndSpans(raw);
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preProcessors.forEach(p => raw = p(raw));
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const whiteLister = new WhiteLister(opts.features);
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const tree = parser.toHTMLTree(raw, 'Discourse');
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let result = opts.sanitizer(parser.renderJsonML(parseTree(tree, opts)), whiteLister);
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// If we hoisted out anything, put it back
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const keys = Object.keys(hoisted);
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if (keys.length) {
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let found = true;
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const unhoist = function(key) {
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result = result.replace(new RegExp(key, "g"), function() {
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found = true;
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return hoisted[key];
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});
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};
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while (found) {
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found = false;
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keys.forEach(unhoist);
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}
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}
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return result.trim();
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}
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export function setup() {
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helper.setup();
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}
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function processTextNodes(node, event, emitter) {
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if (node.length < 2) { return; }
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if (node[0] === '__RAW') {
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const hash = guid();
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hoisted[hash] = node[1];
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node[1] = hash;
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return;
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}
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for (var j=1; j<node.length; j++) {
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var textContent = node[j];
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if (typeof textContent === "string") {
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var result = emitter(textContent, event);
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if (result) {
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if (result instanceof Array) {
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node.splice.apply(node, [j, 1].concat(result));
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} else {
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node[j] = result;
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}
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} else {
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node[j] = textContent;
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}
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}
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}
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}
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// Parse a JSON ML tree, using registered handlers to adjust it if necessary.
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function parseTree(tree, options, path, insideCounts) {
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if (tree instanceof Array) {
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const event = {node: tree, options, path, insideCounts: insideCounts || {}};
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parseNodes.forEach(fn => fn(event));
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for (var j=0; j<emitters.length; j++) {
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processTextNodes(tree, event, emitters[j]);
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}
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path = path || [];
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insideCounts = insideCounts || {};
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path.push(tree);
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for (var i=1; i<tree.length; i++) {
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var n = tree[i],
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tagName = n[0];
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insideCounts[tagName] = (insideCounts[tagName] || 0) + 1;
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if (n && n.length === 2 && n[0] === "p" && /^<!--([\s\S]*)-->$/.exec(n[1])) {
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// Remove paragraphs around comment-only nodes.
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tree[i] = n[1];
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} else {
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parseTree(n, options, path, insideCounts);
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}
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insideCounts[tagName] = insideCounts[tagName] - 1;
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}
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// If raw nodes are in paragraphs, pull them up
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if (tree.length === 2 && tree[0] === 'p' && tree[1] instanceof Array && tree[1][0] === "__RAW") {
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var text = tree[1][1];
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tree[0] = "__RAW";
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tree[1] = text;
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}
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path.pop();
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}
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return tree;
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}
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// Returns true if there's an invalid word boundary for a match.
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function invalidBoundary(args, prev) {
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if (!(args.wordBoundary || args.spaceBoundary || args.spaceOrTagBoundary)) { return false; }
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var last = prev[prev.length - 1];
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if (typeof last !== "string") { return false; }
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if (args.wordBoundary && (!last.match(/\W$/))) { return true; }
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if (args.spaceBoundary && (!last.match(/\s$/))) { return true; }
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if (args.spaceOrTagBoundary && (!last.match(/(\s|\>)$/))) { return true; }
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}
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function countLines(str) {
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let index = -1, count = 0;
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while ((index = str.indexOf("\n", index + 1)) !== -1) { count++; }
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return count;
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}
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function hoister(t, target, replacement) {
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const regexp = new RegExp(target.replace(/[-\/\\^$*+?.()|[\]{}]/g, '\\$&'), "g");
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if (t.match(regexp)) {
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const hash = guid();
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t = t.replace(regexp, hash);
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hoisted[hash] = replacement;
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}
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return t;
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}
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function outdent(t) {
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return t.replace(/^([ ]{4}|\t)/gm, "");
|
|
}
|
|
|
|
function removeEmptyLines(t) {
|
|
return t.replace(/^\n+/, "").replace(/\s+$/, "");
|
|
}
|
|
|
|
function hideBackslashEscapedCharacters(t) {
|
|
return t.replace(/\\\\/g, "\u1E800").replace(/\\`/g, "\u1E8001");
|
|
}
|
|
|
|
function showBackslashEscapedCharacters(t) {
|
|
return t.replace(/\u1E8001/g, "\\`").replace(/\u1E800/g, "\\\\");
|
|
}
|
|
|
|
function hoistCodeBlocksAndSpans(text) {
|
|
// replace all "\`" with a single character
|
|
text = hideBackslashEscapedCharacters(text);
|
|
|
|
// /!\ the order is important /!\
|
|
|
|
// fenced code blocks (AKA GitHub code blocks)
|
|
text = text.replace(/(^\n*|\n)```([a-z0-9\-]*)\n([\s\S]*?)\n```/g, function(_, before, language, content) {
|
|
const hash = guid();
|
|
hoisted[hash] = escape(showBackslashEscapedCharacters(removeEmptyLines(content)));
|
|
return before + "```" + language + "\n" + hash + "\n```";
|
|
});
|
|
|
|
// markdown code blocks
|
|
text = text.replace(/(^\n*|\n\n)((?:(?:[ ]{4}|\t).*\n*)+)/g, function(match, before, content, index) {
|
|
// make sure we aren't in a list
|
|
var previousLine = text.slice(0, index).trim().match(/.*$/);
|
|
if (previousLine && previousLine[0].length) {
|
|
previousLine = previousLine[0].trim();
|
|
if (/^(?:\*|\+|-|\d+\.)\s+/.test(previousLine)) {
|
|
return match;
|
|
}
|
|
}
|
|
// we can safely hoist the code block
|
|
const hash = guid();
|
|
hoisted[hash] = escape(outdent(showBackslashEscapedCharacters(removeEmptyLines(content))));
|
|
return before + " " + hash + "\n";
|
|
});
|
|
|
|
// <pre>...</pre> code blocks
|
|
text = text.replace(/(\s|^)<pre>([\s\S]*?)<\/pre>/ig, function(_, before, content) {
|
|
const hash = guid();
|
|
hoisted[hash] = escape(showBackslashEscapedCharacters(removeEmptyLines(content)));
|
|
return before + "<pre>" + hash + "</pre>";
|
|
});
|
|
|
|
// code spans (double & single `)
|
|
["``", "`"].forEach(function(delimiter) {
|
|
var regexp = new RegExp("(^|[^`])" + delimiter + "([^`\\n]+?)" + delimiter + "([^`]|$)", "g");
|
|
text = text.replace(regexp, function(_, before, content, after) {
|
|
const hash = guid();
|
|
hoisted[hash] = escape(showBackslashEscapedCharacters(content.trim()));
|
|
return before + delimiter + hash + delimiter + after;
|
|
});
|
|
});
|
|
|
|
// replace back all weird character with "\`"
|
|
return showBackslashEscapedCharacters(text);
|
|
}
|