/** * Hash span elements that should not be parsed as markdown */ showdown.subParser('hashHTMLSpans', function (text, options, globals) { 'use strict'; text = globals.converter._dispatch('hashHTMLSpans.before', text, options, globals); function hashHTMLSpan (html) { return '¨C' + (globals.gHtmlSpans.push(html) - 1) + 'C'; } // Hash Self Closing tags text = text.replace(/<[^>]+?\/>/gi, function (wm) { return hashHTMLSpan(wm); }); // Hash tags without properties text = text.replace(/<([^>]+?)>[\s\S]*?<\/\1>/g, function (wm) { return hashHTMLSpan(wm); }); // Hash tags with properties text = text.replace(/<([^>]+?)\s[^>]+?>[\s\S]*?<\/\1>/g, function (wm) { return hashHTMLSpan(wm); }); // Hash self closing tags without /> text = text.replace(/<[^>]+?>/gi, function (wm) { return hashHTMLSpan(wm); }); /*showdown.helper.matchRecursiveRegExp(text, ']*>', '', 'gi');*/ text = globals.converter._dispatch('hashHTMLSpans.after', text, options, globals); return text; }); /** * Unhash HTML spans */ showdown.subParser('unhashHTMLSpans', function (text, options, globals) { 'use strict'; text = globals.converter._dispatch('unhashHTMLSpans.before', text, options, globals); for (var i = 0; i < globals.gHtmlSpans.length; ++i) { var repText = globals.gHtmlSpans[i], // limiter to prevent infinite loop (assume 10 as limit for recurse) limit = 0; while (/¨C(\d+)C/.test(repText)) { var num = RegExp.$1; repText = repText.replace('¨C' + num + 'C', globals.gHtmlSpans[num]); if (limit === 10) { console.error('maximum nesting of 10 spans reached!!!'); break; } ++limit; } text = text.replace('¨C' + i + 'C', repText); } text = globals.converter._dispatch('unhashHTMLSpans.after', text, options, globals); return text; });