1
0
mirror of https://github.com/Jermolene/TiddlyWiki5 synced 2024-11-09 11:29:58 +00:00
TiddlyWiki5/plugins/tiddlywiki/markdown/wrapper.js
RJ Skerry-Ryan 13faeaa0bd
Markdown: Let WikiText parsing handle the creation of LaTeX widgets. (#6428)
* Markdown: Let WikiText parsing handle the creation of LaTeX widgets.

When embedding LaTeX snippets in inline HTML nodes, such as TiddlyRemember
macros or HTML tables, the parsing of latex nodes breaks the WikiText by
splitting it into pieces around the latex node.

This commit fixes the issue by converting the Remarkable katex nodes back to
text, using a newline to indicate a block katex snippet. This is then re-parsed
by the WikiText KaTeX plugin.

TESTED:

Created a test wiki with:
```
$ node tiddlywiki.js test --init markdowndemo
$ node tiddlywiki.js test --listen
```

* Verified markdown + KaTeX support still works as expected.
* Verified that embedding LaTeX snippets in inline HTML works (e.g. `<a
href="https://example.com/">$x^2$</a>`).
* Verified the markdown + KaTeX support works as expected with renderWikiText
set to `false`.

* Style: Remove spaces between if and opening parentheses.
2022-01-30 11:23:00 +00:00

341 lines
9.6 KiB
JavaScript
Executable File

/*\
title: $:/plugins/tiddlywiki/markdown/wrapper.js
type: application/javascript
module-type: parser
Wraps up the remarkable parser for use as a Parser in TiddlyWiki
\*/
(function(){
/*jslint node: true, browser: true */
/*global $tw: false */
"use strict";
var r = require("$:/plugins/tiddlywiki/markdown/remarkable.js");
var Remarkable = r.Remarkable,
linkify = r.linkify,
utils = r.utils;
///// Set up configuration options /////
function parseAsBoolean(tiddlerName) {
return $tw.wiki.getTiddlerText(tiddlerName).toLowerCase() === "true";
}
var pluginOpts = {
linkNewWindow: parseAsBoolean("$:/config/markdown/linkNewWindow"),
renderWikiText: parseAsBoolean("$:/config/markdown/renderWikiText"),
renderWikiTextPragma: $tw.wiki.getTiddlerText("$:/config/markdown/renderWikiTextPragma").trim()
};
var remarkableOpts = {
breaks: parseAsBoolean("$:/config/markdown/breaks"),
quotes: $tw.wiki.getTiddlerText("$:/config/markdown/quotes"),
typographer: parseAsBoolean("$:/config/markdown/typographer")
};
var accumulatingTypes = {
"text": true,
"softbreak": true
};
// If rendering WikiText, we treat katex nodes as text.
if(pluginOpts.renderWikiText) {
accumulatingTypes["katex"] = true;
}
var md = new Remarkable(remarkableOpts);
// If tiddlywiki/katex plugin is present, use remarkable-katex to enable katex support.
if($tw.modules.titles["$:/plugins/tiddlywiki/katex/katex.min.js"]) {
var rk = require("$:/plugins/tiddlywiki/markdown/remarkable-katex.js");
md = md.use(rk);
}
if(parseAsBoolean("$:/config/markdown/linkify")) {
md = md.use(linkify);
}
function findTagWithType(nodes, startPoint, type, level) {
for (var i = startPoint; i < nodes.length; i++) {
if(nodes[i].type === type && nodes[i].level === level) {
return i;
}
}
return false;
}
/**
* Remarkable creates nodes that look like:
* [
* { type: 'paragraph_open'},
* { type: 'inline', content: 'Hello World', children:[{type: 'text', content: 'Hello World'}]},
* { type: 'paragraph_close'}
* ]
*
* But TiddlyWiki wants the Parser (https://tiddlywiki.com/dev/static/Parser.html) to emit nodes like:
*
* [
* { type: 'element', tag: 'p', children: [{type: 'text', text: 'Hello World'}]}
* ]
*/
function convertNodes(remarkableTree, isStartOfInline) {
let out = [];
var accumulatedText = '';
function withChildren(currentIndex, currentLevel, closingType, nodes, callback) {
var j = findTagWithType(nodes, currentIndex + 1, closingType, currentLevel);
if(j === false) {
console.error("Failed to find a " + closingType + " node after position " + currentIndex);
console.log(nodes);
return currentIndex + 1;
}
let children = convertNodes(nodes.slice(currentIndex + 1, j));
callback(children);
return j;
}
function wrappedElement(elementTag, currentIndex, currentLevel, closingType, nodes) {
return withChildren(currentIndex, currentLevel, closingType, nodes, function(children) {
out.push({
type: "element",
tag: elementTag,
children: children
});
});
}
for (var i = 0; i < remarkableTree.length; i++) {
var currentNode = remarkableTree[i];
switch (currentNode.type) {
case "paragraph_open":
// If the paragraph is a "tight" layout paragraph, don't wrap children in a <p> tag.
if(currentNode.tight) {
i = withChildren(i, currentNode.level, "paragraph_close", remarkableTree, function(children) {
Array.prototype.push.apply(out, children);
});
} else {
i = wrappedElement("p", i, currentNode.level, "paragraph_close", remarkableTree);
}
break;
case "heading_open":
i = wrappedElement("h" + currentNode.hLevel, i, currentNode.level, "heading_close", remarkableTree);
break;
case "bullet_list_open":
i = wrappedElement("ul", i, currentNode.level, "bullet_list_close", remarkableTree);
break;
case "ordered_list_open":
i = wrappedElement('ol', i, currentNode.level,'ordered_list_close', remarkableTree);
break;
case "list_item_open":
i = wrappedElement("li", i, currentNode.level, "list_item_close", remarkableTree);
break;
case "link_open":
i = withChildren(i, currentNode.level, "link_close", remarkableTree, function(children) {
if(currentNode.href[0] !== "#") {
// External link
var attributes = {
class: { type: "string", value: "tc-tiddlylink-external" },
href: { type: "string", value: currentNode.href },
rel: { type: "string", value: "noopener noreferrer" }
};
if(pluginOpts.linkNewWindow) {
attributes.target = { type: "string", value: "_blank" };
}
out.push({
type: "element",
tag: "a",
attributes: attributes,
children: children
});
} else {
// Internal link
out.push({
type: "link",
attributes: {
to: { type: "string", value: $tw.utils.decodeURISafe(currentNode.href.substr(1)) }
},
children: children
});
}
});
break;
case "code":
out.push({
type: "element",
tag: currentNode.block ? "pre" : "code",
children: [{ type: "text", text: currentNode.content }]
});
break;
case "fence":
out.push({
type: "codeblock",
attributes: {
language: { type: "string", value: currentNode.params },
code: { type: "string", value: currentNode.content }
}
});
break;
case "image":
out.push({
type: "image",
attributes: {
tooltip: { type: "string", value: currentNode.alt },
source: { type: "string", value: $tw.utils.decodeURIComponentSafe(currentNode.src) }
}
});
break;
case "softbreak":
if(remarkableOpts.breaks) {
out.push({
type: "element",
tag: "br",
});
} else {
accumulatedText = accumulatedText + '\n';
}
break;
case "hardbreak":
out.push({
type: "element",
tag: "br",
});
break;
case "th_open":
case "td_open":
var elementTag = currentNode.type.slice(0, 2);
i = withChildren(i, currentNode.level, elementTag + "_close", remarkableTree, function(children) {
var attributes = {};
if(currentNode.align) {
attributes.style = { type: "string", value: "text-align:" + currentNode.align };
}
out.push({
type: "element",
tag: elementTag,
attributes: attributes,
children: children
});
});
break;
case "hr":
out.push({
type: 'element',
tag: 'hr',
});
break;
case "inline":
out = out.concat(convertNodes(currentNode.children, true));
break;
case "text":
// We need to merge this text block with the upcoming text block and parse it all together.
accumulatedText = accumulatedText + currentNode.content;
break;
case "katex":
// If rendering WikiText, convert the katex node back to text for parsing by the WikiText LaTeX parser.
if(pluginOpts.renderWikiText) {
// If this is a block, add a newline to trigger the KaTeX plugins block detection.
var displayModeSuffix = currentNode.block ? "\n" : "";
accumulatedText = accumulatedText + "$$" + currentNode.content + displayModeSuffix + "$$";
} else {
out.push({
type: "latex",
attributes: {
text: { type: "text", value: currentNode.content },
displayMode: { type: "text", value: currentNode.block ? "true" : "false" }
}
});
}
break;
default:
if(currentNode.type.substr(currentNode.type.length - 5) === "_open") {
var tagName = currentNode.type.substr(0, currentNode.type.length - 5);
i = wrappedElement(tagName, i, currentNode.level, tagName + "_close", remarkableTree);
} else {
console.error("Unknown node type: " + currentNode.type, currentNode);
out.push({
type: "text",
text: currentNode.content
});
}
break;
}
// We test to see if we process the block now, or if there's
// more to accumulate first.
if(accumulatedText
&& (
remarkableOpts.breaks ||
(i+1) >= remarkableTree.length ||
!accumulatingTypes[remarkableTree[i+1].type]
)
) {
// The Markdown compiler thinks this is just text.
// Hand off to the WikiText parser to see if there's more to render
// But only if it's configured to, and we have more than whitespace
if(!pluginOpts.renderWikiText || accumulatedText.match(/^\s*$/)) {
out.push({
type: "text",
text: accumulatedText
});
} else {
// If we're inside a block element (div, p, td, h1), and this is the first child in the tree,
// handle as a block-level parse. Otherwise not.
var parseAsInline = !(isStartOfInline && i === 0);
var textToParse = accumulatedText;
if(pluginOpts.renderWikiTextPragma !== "") {
textToParse = pluginOpts.renderWikiTextPragma + "\n" + textToParse;
}
var wikiParser = $tw.wiki.parseText("text/vnd.tiddlywiki", textToParse, {
parseAsInline: parseAsInline
});
var rs = wikiParser.tree;
// If we parsed as a block, but the root element the WikiText parser gave is a paragraph,
// we should discard the paragraph, since the way Remarkable nests its nodes, this "inline"
// node is always inside something else that's a block-level element
if(!parseAsInline
&& rs.length === 1
&& rs[0].type === "element"
&& rs[0].tag === "p"
) {
rs = rs[0].children;
}
// If the original text element started with a space, add it back in
if(rs.length > 0
&& rs[0].type === "text"
&& (accumulatedText[0] === " " || accumulatedText[0] === "\n")
) {
rs[0].text = " " + rs[0].text;
}
out = out.concat(rs);
}
accumulatedText = '';
}
}
return out;
}
var MarkdownParser = function(type, text, options) {
var tree = md.parse(text, {});
//console.debug(tree);
tree = convertNodes(tree);
//console.debug(tree);
this.tree = tree;
};
exports["text/x-markdown"] = MarkdownParser;
})();