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index.js
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index.js
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/* Process inline math */
'use strict';
var ascii2mathml = null;
require('./lib/polyfills');
function scanDelims(state, start, delimLength) {
var pos = start, lastChar, nextChar, count, can_open, can_close,
isLastWhiteSpace, isLastPunctChar,
isNextWhiteSpace, isNextPunctChar,
left_flanking = true,
right_flanking = true,
max = state.posMax,
isWhiteSpace = state.md.utils.isWhiteSpace,
isPunctChar = state.md.utils.isPunctChar,
isMdAsciiPunct = state.md.utils.isMdAsciiPunct;
// treat beginning of the line as a whitespace
lastChar = start > 0 ? state.src.charCodeAt(start - 1) : 0x20;
if (pos >= max) {
can_open = false;
}
pos += delimLength;
count = pos - start;
// treat end of the line as a whitespace
nextChar = pos < max ? state.src.charCodeAt(pos) : 0x20;
isLastPunctChar = isMdAsciiPunct(lastChar) || isPunctChar(String.fromCharCode(lastChar));
isNextPunctChar = isMdAsciiPunct(nextChar) || isPunctChar(String.fromCharCode(nextChar));
isLastWhiteSpace = isWhiteSpace(lastChar);
isNextWhiteSpace = isWhiteSpace(nextChar);
if (isNextWhiteSpace) {
left_flanking = false;
} else if (isNextPunctChar) {
if (!(isLastWhiteSpace || isLastPunctChar)) {
left_flanking = false;
}
}
if (isLastWhiteSpace) {
right_flanking = false;
} else if (isLastPunctChar) {
if (!(isNextWhiteSpace || isNextPunctChar)) {
right_flanking = false;
}
}
can_open = left_flanking;
can_close = right_flanking;
return {
can_open: can_open,
can_close: can_close,
delims: count
};
}
function makeMath_inline(open, close) {
return function math_inline(state, silent) {
var startCount,
found,
res,
token,
closeDelim,
max = state.posMax,
start = state.pos,
openDelim = state.src.slice(start, start + open.length);
if (openDelim !== open) { return false; }
if (silent) { return false; } // Don’t run any pairs in validation mode
res = scanDelims(state, start, openDelim.length);
startCount = res.delims;
if (!res.can_open) {
state.pos += startCount;
// Earlier we checked !silent, but this implementation does not need it
state.pending += state.src.slice(start, state.pos);
return true;
}
state.pos = start + open.length;
while (state.pos < max) {
closeDelim = state.src.slice(state.pos, state.pos + close.length);
if (closeDelim === close) {
res = scanDelims(state, state.pos, close.length);
if (res.can_close) {
found = true;
break;
}
}
state.md.inline.skipToken(state);
}
if (!found) {
// Parser failed to find ending tag, so it is not a valid math
state.pos = start;
return false;
}
// Found!
state.posMax = state.pos;
state.pos = start + close.length;
// Earlier we checked !silent, but this implementation does not need it
token = state.push('math_inline', 'math', 0);
token.content = state.src.slice(state.pos, state.posMax);
token.markup = open;
state.pos = state.posMax + close.length;
state.posMax = max;
return true;
};
}
function makeMath_block(open, close) {
return function math_block(state, startLine, endLine, silent) {
var openDelim, len, params, nextLine, token, firstLine, lastLine, lastLinePos,
haveEndMarker = false,
pos = state.bMarks[startLine] + state.tShift[startLine],
max = state.eMarks[startLine];
if (pos + open.length > max) { return false; }
openDelim = state.src.slice(pos, pos + open.length);
if (openDelim !== open) { return false; }
pos += open.length;
firstLine = state.src.slice(pos, max);
// Since start is found, we can report success here in validation mode
if (silent) { return true; }
if (firstLine.trim().slice(-close.length) === close) {
// Single line expression
firstLine = firstLine.trim().slice(0, -close.length);
haveEndMarker = true;
}
// search end of block
nextLine = startLine;
for (;;) {
if (haveEndMarker) { break; }
nextLine++;
if (nextLine >= endLine) {
// unclosed block should be autoclosed by end of document.
// also block seems to be autoclosed by end of parent
break;
}
pos = state.bMarks[nextLine] + state.tShift[nextLine];
max = state.eMarks[nextLine];
if (pos < max && state.tShift[nextLine] < state.blkIndent) {
// non-empty line with negative indent should stop the list:
break;
}
if (state.src.slice(pos, max).trim().slice(-close.length) !== close) {
continue;
}
if (state.tShift[nextLine] - state.blkIndent >= 4) {
// closing block math should be indented less then 4 spaces
continue;
}
lastLinePos = state.src.slice(0, max).lastIndexOf(close);
lastLine = state.src.slice(pos, lastLinePos);
pos += lastLine.length + close.length;
// make sure tail has spaces only
pos = state.skipSpaces(pos);
if (pos < max) { continue; }
// found!
haveEndMarker = true;
}
// If math block has heading spaces, they should be removed from its inner block
len = state.tShift[startLine];
state.line = nextLine + (haveEndMarker ? 1 : 0);
token = state.push('math_block', 'math', 0);
token.block = true;
token.content = (firstLine && firstLine.trim() ? firstLine + '\n' : '') +
state.getLines(startLine + 1, nextLine, len, true) +
(lastLine && lastLine.trim() ? lastLine : '');
token.info = params;
token.map = [ startLine, state.line ];
token.markup = open;
return true;
};
}
function makeMathRenderer(renderingOptions) {
if (ascii2mathml === null) {
try {
ascii2mathml = require('ascii2mathml');
} catch (e) {
return renderingOptions && renderingOptions.display === 'block' ?
function(tokens, idx) {
return '<div class="math block">' + tokens[idx].content + '</div>';
} :
function(tokens, idx) {
return '<span class="math inline">' + tokens[idx].content + '</span>';
};
}
}
var mathml = ascii2mathml(Object.assign({}, renderingOptions));
return renderingOptions && renderingOptions.display === 'block' ?
function(tokens, idx) {
return mathml(tokens[idx].content) + '\n';
} :
function(tokens, idx) {
return mathml(tokens[idx].content);
};
}
module.exports = function math_plugin(md, options) {
// Default options
options = typeof options === 'object' ? options : {};
var inlineOpen = options.inlineOpen || '$$',
inlineClose = options.inlineClose || '$$',
blockOpen = options.blockOpen || '$$$',
blockClose = options.blockClose || '$$$';
var inlineRenderer = options.inlineRenderer ?
function(tokens, idx) {
return options.inlineRenderer(tokens[idx].content);
} :
makeMathRenderer(options.renderingOptions);
var blockRenderer = options.blockRenderer ?
function(tokens, idx) {
return options.blockRenderer(tokens[idx].content) + '\n';
} :
makeMathRenderer(Object.assign({ display: 'block' },
options.renderingOptions));
var math_inline = makeMath_inline(inlineOpen, inlineClose);
var math_block = makeMath_block(blockOpen, blockClose);
md.inline.ruler.before('escape', 'math_inline', math_inline);
md.block.ruler.after('blockquote', 'math_block', math_block, {
alt: [ 'paragraph', 'reference', 'blockquote', 'list' ]
});
md.renderer.rules.math_inline = inlineRenderer;
md.renderer.rules.math_block = blockRenderer;
};