src/third_party/devtools/node_modules/istanbul-reports/lib/html/annotator.js - cobalt - Git at Google

 /*
  Copyright 2012-2015, Yahoo Inc.
  Copyrights licensed under the New BSD License. See the accompanying LICENSE file for terms.
  */
 'use strict';

 const InsertionText = require('./insertion-text');
 const lt = '\u0001';
 const gt = '\u0002';
 const RE_LT = /</g;
 const RE_GT = />/g;
 const RE_AMP = /&/g;
 // eslint-disable-next-line
 var RE_lt = /\u0001/g;
 // eslint-disable-next-line
 var RE_gt = /\u0002/g;

 function title(str) {
     return ' title="' + str + '" ';
 }

 function customEscape(text) {
     text = String(text);
     return text
         .replace(RE_AMP, '&amp;')
         .replace(RE_LT, '&lt;')
         .replace(RE_GT, '&gt;')
         .replace(RE_lt, '<')
         .replace(RE_gt, '>');
 }

 function annotateLines(fileCoverage, structuredText) {
     const lineStats = fileCoverage.getLineCoverage();
     if (!lineStats) {
         return;
     }
     Object.keys(lineStats).forEach(lineNumber => {
         const count = lineStats[lineNumber];
         if (structuredText[lineNumber]) {
             structuredText[lineNumber].covered = count > 0 ? 'yes' : 'no';
             structuredText[lineNumber].hits = count;
         }
     });
 }

 function annotateStatements(fileCoverage, structuredText) {
     const statementStats = fileCoverage.s;
     const statementMeta = fileCoverage.statementMap;
     Object.keys(statementStats).forEach(stName => {
         const count = statementStats[stName];
         const meta = statementMeta[stName];
         const type = count > 0 ? 'yes' : 'no';
         const startCol = meta.start.column;
         let endCol = meta.end.column + 1;
         const startLine = meta.start.line;
         const endLine = meta.end.line;
         const openSpan =
             lt +
             'span class="' +
             (meta.skip ? 'cstat-skip' : 'cstat-no') +
             '"' +
             title('statement not covered') +
             gt;
         const closeSpan = lt + '/span' + gt;
         let text;

         if (type === 'no' && structuredText[startLine]) {
             if (endLine !== startLine) {
                 endCol = structuredText[startLine].text.originalLength();
             }
             text = structuredText[startLine].text;
             text.wrap(
                 startCol,
                 openSpan,
                 startCol < endCol ? endCol : text.originalLength(),
                 closeSpan
             );
         }
     });
 }

 function annotateFunctions(fileCoverage, structuredText) {
     const fnStats = fileCoverage.f;
     const fnMeta = fileCoverage.fnMap;
     if (!fnStats) {
         return;
     }
     Object.keys(fnStats).forEach(fName => {
         const count = fnStats[fName];
         const meta = fnMeta[fName];
         const type = count > 0 ? 'yes' : 'no';
         const startCol = meta.decl.start.column;
         let endCol = meta.decl.end.column + 1;
         const startLine = meta.decl.start.line;
         const endLine = meta.decl.end.line;
         const openSpan =
             lt +
             'span class="' +
             (meta.skip ? 'fstat-skip' : 'fstat-no') +
             '"' +
             title('function not covered') +
             gt;
         const closeSpan = lt + '/span' + gt;
         let text;

         if (type === 'no' && structuredText[startLine]) {
             if (endLine !== startLine) {
                 endCol = structuredText[startLine].text.originalLength();
             }
             text = structuredText[startLine].text;
             text.wrap(
                 startCol,
                 openSpan,
                 startCol < endCol ? endCol : text.originalLength(),
                 closeSpan
             );
         }
     });
 }

 function annotateBranches(fileCoverage, structuredText) {
     const branchStats = fileCoverage.b;
     const branchMeta = fileCoverage.branchMap;
     if (!branchStats) {
         return;
     }

     Object.keys(branchStats).forEach(branchName => {
         const branchArray = branchStats[branchName];
         const sumCount = branchArray.reduce((p, n) => p + n, 0);
         const metaArray = branchMeta[branchName].locations;
         let i;
         let count;
         let meta;
         let startCol;
         let endCol;
         let startLine;
         let endLine;
         let openSpan;
         let closeSpan;
         let text;

         // only highlight if partial branches are missing or if there is a
         // single uncovered branch.
         if (sumCount > 0 || (sumCount === 0 && branchArray.length === 1)) {
             for (
                 i = 0;
                 i < branchArray.length && i < metaArray.length;
                 i += 1
             ) {
                 count = branchArray[i];
                 meta = metaArray[i];
                 startCol = meta.start.column;
                 endCol = meta.end.column + 1;
                 startLine = meta.start.line;
                 endLine = meta.end.line;
                 openSpan =
                     lt +
                     'span class="branch-' +
                     i +
                     ' ' +
                     (meta.skip ? 'cbranch-skip' : 'cbranch-no') +
                     '"' +
                     title('branch not covered') +
                     gt;
                 closeSpan = lt + '/span' + gt;

                 if (count === 0 && structuredText[startLine]) {
                     //skip branches taken
                     if (endLine !== startLine) {
                         endCol = structuredText[
                             startLine
                         ].text.originalLength();
                     }
                     text = structuredText[startLine].text;
                     if (branchMeta[branchName].type === 'if') {
                         // 'if' is a special case
                         // since the else branch might not be visible, being non-existent
                         text.insertAt(
                             startCol,
                             lt +
                                 'span class="' +
                                 (meta.skip
                                     ? 'skip-if-branch'
                                     : 'missing-if-branch') +
                                 '"' +
                                 title(
                                     (i === 0 ? 'if' : 'else') +
                                         ' path not taken'
                                 ) +
                                 gt +
                                 (i === 0 ? 'I' : 'E') +
                                 lt +
                                 '/span' +
                                 gt,
                             true,
                             false
                         );
                     } else {
                         text.wrap(
                             startCol,
                             openSpan,
                             startCol < endCol ? endCol : text.originalLength(),
                             closeSpan
                         );
                     }
                 }
             }
         }
     });
 }

 function annotateSourceCode(fileCoverage, sourceStore) {
     let codeArray;
     let lineCoverageArray;
     try {
         const sourceText = sourceStore.getSource(fileCoverage.path);
         const code = sourceText.split(/(?:\r?\n)|\r/);
         let count = 0;
         const structured = code.map(str => {
             count += 1;
             return {
                 line: count,
                 covered: 'neutral',
                 hits: 0,
                 text: new InsertionText(str, true)
             };
         });
         structured.unshift({
             line: 0,
             covered: null,
             text: new InsertionText('')
         });
         annotateLines(fileCoverage, structured);
         //note: order is important, since statements typically result in spanning the whole line and doing branches late
         //causes mismatched tags
         annotateBranches(fileCoverage, structured);
         annotateFunctions(fileCoverage, structured);
         annotateStatements(fileCoverage, structured);
         structured.shift();

         codeArray = structured.map(
             item => customEscape(item.text.toString()) || '&nbsp;'
         );

         lineCoverageArray = structured.map(item => ({
             covered: item.covered,
             hits: item.hits > 0 ? item.hits + 'x' : '&nbsp;'
         }));

         return {
             annotatedCode: codeArray,
             lineCoverage: lineCoverageArray,
             maxLines: structured.length
         };
     } catch (ex) {
         codeArray = [ex.message];
         lineCoverageArray = [{ covered: 'no', hits: 0 }];
         String(ex.stack || '')
             .split(/\r?\n/)
             .forEach(line => {
                 codeArray.push(line);
                 lineCoverageArray.push({ covered: 'no', hits: 0 });
             });
         return {
             annotatedCode: codeArray,
             lineCoverage: lineCoverageArray,
             maxLines: codeArray.length
         };
     }
 }

 module.exports = {
     annotateSourceCode
 };
	/*
	Copyright 2012-2015, Yahoo Inc.
	Copyrights licensed under the New BSD License. See the accompanying LICENSE file for terms.
	*/
	'use strict';

	const InsertionText = require('./insertion-text');
	const lt = '\u0001';
	const gt = '\u0002';
	const RE_LT = /</g;
	const RE_GT = />/g;
	const RE_AMP = /&/g;
	// eslint-disable-next-line
	var RE_lt = /\u0001/g;
	// eslint-disable-next-line
	var RE_gt = /\u0002/g;

	function title(str) {
	return ' title="' + str + '" ';
	}

	function customEscape(text) {
	text = String(text);
	return text
	.replace(RE_AMP, '&')
	.replace(RE_LT, '<')
	.replace(RE_GT, '>')
	.replace(RE_lt, '<')
	.replace(RE_gt, '>');
	}

	function annotateLines(fileCoverage, structuredText) {
	const lineStats = fileCoverage.getLineCoverage();
	if (!lineStats) {
	return;
	}
	Object.keys(lineStats).forEach(lineNumber => {
	const count = lineStats[lineNumber];
	if (structuredText[lineNumber]) {
	structuredText[lineNumber].covered = count > 0 ? 'yes' : 'no';
	structuredText[lineNumber].hits = count;
	}
	});
	}

	function annotateStatements(fileCoverage, structuredText) {
	const statementStats = fileCoverage.s;
	const statementMeta = fileCoverage.statementMap;
	Object.keys(statementStats).forEach(stName => {
	const count = statementStats[stName];
	const meta = statementMeta[stName];
	const type = count > 0 ? 'yes' : 'no';
	const startCol = meta.start.column;
	let endCol = meta.end.column + 1;
	const startLine = meta.start.line;
	const endLine = meta.end.line;
	const openSpan =
	lt +
	'span class="' +
	(meta.skip ? 'cstat-skip' : 'cstat-no') +
	'"' +
	title('statement not covered') +
	gt;
	const closeSpan = lt + '/span' + gt;
	let text;

	if (type === 'no' && structuredText[startLine]) {
	if (endLine !== startLine) {
	endCol = structuredText[startLine].text.originalLength();
	}
	text = structuredText[startLine].text;
	text.wrap(
	startCol,
	openSpan,
	startCol < endCol ? endCol : text.originalLength(),
	closeSpan
	);
	}
	});
	}

	function annotateFunctions(fileCoverage, structuredText) {
	const fnStats = fileCoverage.f;
	const fnMeta = fileCoverage.fnMap;
	if (!fnStats) {
	return;
	}
	Object.keys(fnStats).forEach(fName => {
	const count = fnStats[fName];
	const meta = fnMeta[fName];
	const type = count > 0 ? 'yes' : 'no';
	const startCol = meta.decl.start.column;
	let endCol = meta.decl.end.column + 1;
	const startLine = meta.decl.start.line;
	const endLine = meta.decl.end.line;
	const openSpan =
	lt +
	'span class="' +
	(meta.skip ? 'fstat-skip' : 'fstat-no') +
	'"' +
	title('function not covered') +
	gt;
	const closeSpan = lt + '/span' + gt;
	let text;

	if (type === 'no' && structuredText[startLine]) {
	if (endLine !== startLine) {
	endCol = structuredText[startLine].text.originalLength();
	}
	text = structuredText[startLine].text;
	text.wrap(
	startCol,
	openSpan,
	startCol < endCol ? endCol : text.originalLength(),
	closeSpan
	);
	}
	});
	}

	function annotateBranches(fileCoverage, structuredText) {
	const branchStats = fileCoverage.b;
	const branchMeta = fileCoverage.branchMap;
	if (!branchStats) {
	return;
	}

	Object.keys(branchStats).forEach(branchName => {
	const branchArray = branchStats[branchName];
	const sumCount = branchArray.reduce((p, n) => p + n, 0);
	const metaArray = branchMeta[branchName].locations;
	let i;
	let count;
	let meta;
	let startCol;
	let endCol;
	let startLine;
	let endLine;
	let openSpan;
	let closeSpan;
	let text;

	// only highlight if partial branches are missing or if there is a
	// single uncovered branch.
	if (sumCount > 0 \|\| (sumCount === 0 && branchArray.length === 1)) {
	for (
	i = 0;
	i < branchArray.length && i < metaArray.length;
	i += 1
	) {
	count = branchArray[i];
	meta = metaArray[i];
	startCol = meta.start.column;
	endCol = meta.end.column + 1;
	startLine = meta.start.line;
	endLine = meta.end.line;
	openSpan =
	lt +
	'span class="branch-' +
	i +
	' ' +
	(meta.skip ? 'cbranch-skip' : 'cbranch-no') +
	'"' +
	title('branch not covered') +
	gt;
	closeSpan = lt + '/span' + gt;

	if (count === 0 && structuredText[startLine]) {
	//skip branches taken
	if (endLine !== startLine) {
	endCol = structuredText[
	startLine
	].text.originalLength();
	}
	text = structuredText[startLine].text;
	if (branchMeta[branchName].type === 'if') {
	// 'if' is a special case
	// since the else branch might not be visible, being non-existent
	text.insertAt(
	startCol,
	lt +
	'span class="' +
	(meta.skip
	? 'skip-if-branch'
	: 'missing-if-branch') +
	'"' +
	title(
	(i === 0 ? 'if' : 'else') +
	' path not taken'
	) +
	gt +
	(i === 0 ? 'I' : 'E') +
	lt +
	'/span' +
	gt,
	true,
	false
	);
	} else {
	text.wrap(
	startCol,
	openSpan,
	startCol < endCol ? endCol : text.originalLength(),
	closeSpan
	);
	}
	}
	}
	}
	});
	}

	function annotateSourceCode(fileCoverage, sourceStore) {
	let codeArray;
	let lineCoverageArray;
	try {
	const sourceText = sourceStore.getSource(fileCoverage.path);
	const code = sourceText.split(/(?:\r?\n)\|\r/);
	let count = 0;
	const structured = code.map(str => {
	count += 1;
	return {
	line: count,
	covered: 'neutral',
	hits: 0,
	text: new InsertionText(str, true)
	};
	});
	structured.unshift({
	line: 0,
	covered: null,
	text: new InsertionText('')
	});
	annotateLines(fileCoverage, structured);
	//note: order is important, since statements typically result in spanning the whole line and doing branches late
	//causes mismatched tags
	annotateBranches(fileCoverage, structured);
	annotateFunctions(fileCoverage, structured);
	annotateStatements(fileCoverage, structured);
	structured.shift();

	codeArray = structured.map(
	item => customEscape(item.text.toString()) \|\| ' '
	);

	lineCoverageArray = structured.map(item => ({
	covered: item.covered,
	hits: item.hits > 0 ? item.hits + 'x' : ' '
	}));

	return {
	annotatedCode: codeArray,
	lineCoverage: lineCoverageArray,
	maxLines: structured.length
	};
	} catch (ex) {
	codeArray = [ex.message];
	lineCoverageArray = [{ covered: 'no', hits: 0 }];
	String(ex.stack \|\| '')
	.split(/\r?\n/)
	.forEach(line => {
	codeArray.push(line);
	lineCoverageArray.push({ covered: 'no', hits: 0 });
	});
	return {
	annotatedCode: codeArray,
	lineCoverage: lineCoverageArray,
	maxLines: codeArray.length
	};
	}
	}

	module.exports = {
	annotateSourceCode
	};