/* Process inline math */ /* Like markdown-it-simplemath, this is a stripped down, simplified version of: https://github.com/runarberg/markdown-it-math It differs in that it takes (a subset of) LaTeX as input and relies on KaTeX for rendering output. */ 'use strict'; var katex = require('katex'); //return if we have valid delimiter, '$', is in the position. function isValidDelim(state) { var lastChar, secondLastChar, nextChar, pos = state.pos; if(state.src[pos]!=='$'){ return false; //the character $ must be in its position. } secondLastChar= pos > 1 ? state.src[pos-2] : ' ' lastChar = pos > 0 ? state.src[pos-1] : ' ' nextChar = pos + 1 < state.src.length ? state.src[pos+1] : ' ' if( lastChar === '\\' //$ we found was escaped. || (lastChar === '$' && secondLastChar !== '\\') // $ we found was after $ but not escaped. || nextChar === '$' //$ we found was actually block delimiter $$. ) { return false; } return true; } function math_inline(state, silent){ var start, found = false, token; if(silent) { return false; } start = state.pos; if(state.src[start] !== '$'){ return false; } if(!isValidDelim(state)){ state.pos += 1; state.pending += '$'; return true; } state.pos+=1; while(state.pos < state.posMax){ if(isValidDelim(state)){ found = true; break; } state.md.inline.skipToken(state); } if(!found){ // Parser failed to find closing delimiter, so it is not a valid math state.pos = start; return false; } //found the closing delimiter and state.pos is pointing it token = state.push('math_inline','math',0); token.content = state.src.slice(start+1,state.pos).trim(); token.markup = '$'; state.pos += 1; return true; } function math_block(state, start, end, silent){ var firstLine, lastLine, next, lastPos, found = false, token, pos = state.bMarks[start] + state.tShift[start], max = state.eMarks[start] if(pos + 2 > max){ return false; } if(state.src.slice(pos,pos+2)!=='$$'){ return false; } pos += 2; firstLine = state.src.slice(pos,max); if(silent){ return true; } if(firstLine.trim().slice(-2)==='$$'){ // Single line expression firstLine = firstLine.trim().slice(0, -2); found = true; } for(next = start; next < end; ){ if(found){ break; } next++; pos = state.bMarks[next]+state.tShift[next]; max = state.eMarks[next]; if(pos < max && state.tShift[next] < state.blkIndent){ break; } if(state.src.slice(pos,max).trim().slice(-2)==='$$'){ lastPos = state.src.slice(0,max).lastIndexOf('$$'); lastLine = state.src.slice(pos,lastPos); found = true; } } if(!found){ return false; } state.line = next + 1; token = state.push('math_block', 'math', 0); token.block = true; token.content = (firstLine && firstLine.trim() ? firstLine + '\n' : '') + state.getLines(start + 1, next, state.tShift[start], true) + (lastLine && lastLine.trim() ? lastLine : ''); token.map = [ start, state.line ]; token.markup = '$$'; return true; } module.exports = function math_plugin(md, options) { // Default options options = options || {}; // set KaTeX as the renderer for markdown-it-simplemath var katexInline = function(latex){ options.displayMode = false; try{ return katex.renderToString(latex, options); } catch(error){ if(options.throwOnError){ console.log(error); } return latex; } }; var inlineRenderer = function(tokens, idx){ return katexInline(tokens[idx].content); }; var katexBlock = function(latex){ options.displayMode = true; try{ return katex.renderToString(latex, options); } catch(error){ if(options.throwOnError){ console.log(error); } return latex; } } var blockRenderer = function(tokens, idx){ return katexBlock(tokens[idx].content) + '\n'; } 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; };