From 095b19aeb400a4d1da031856a93a3e23b5c743bc Mon Sep 17 00:00:00 2001 From: Florian Dold Date: Sun, 13 Nov 2016 18:44:50 +0100 Subject: coverage for browser tests --- testlib/selenium/instrumenter.js | 1097 ++++++++++++++++++++++++++++++++++++++ 1 file changed, 1097 insertions(+) create mode 100644 testlib/selenium/instrumenter.js (limited to 'testlib/selenium/instrumenter.js') diff --git a/testlib/selenium/instrumenter.js b/testlib/selenium/instrumenter.js new file mode 100644 index 000000000..61c02cf09 --- /dev/null +++ b/testlib/selenium/instrumenter.js @@ -0,0 +1,1097 @@ +/* + Copyright (c) 2012, Yahoo! Inc. All rights reserved. + Copyrights licensed under the New BSD License. See the accompanying LICENSE file for terms. + */ + +/*global esprima, escodegen, window */ +(function (isNode) { + "use strict"; + var SYNTAX, + nodeType, + ESP = isNode ? require('esprima') : esprima, + ESPGEN = isNode ? require('escodegen') : escodegen, //TODO - package as dependency + crypto = isNode ? require('crypto') : null, + LEADER_WRAP = '(function () { ', + TRAILER_WRAP = '\n}());', + COMMENT_RE = /^\s*istanbul\s+ignore\s+(if|else|next)(?=\W|$)/, + astgen, + preconditions, + cond, + isArray = Array.isArray; + + /* istanbul ignore if: untestable */ + if (!isArray) { + isArray = function (thing) { return thing && Object.prototype.toString.call(thing) === '[object Array]'; }; + } + + if (!isNode) { + preconditions = { + 'Could not find esprima': ESP, + 'Could not find escodegen': ESPGEN, + 'JSON object not in scope': JSON, + 'Array does not implement push': [].push, + 'Array does not implement unshift': [].unshift + }; + /* istanbul ignore next: untestable */ + for (cond in preconditions) { + if (preconditions.hasOwnProperty(cond)) { + if (!preconditions[cond]) { throw new Error(cond); } + } + } + } + + function generateTrackerVar(filename, omitSuffix) { + var hash, suffix; + if (crypto !== null) { + hash = crypto.createHash('md5'); + hash.update(filename); + suffix = hash.digest('base64'); + //trim trailing equal signs, turn identifier unsafe chars to safe ones + => _ and / => $ + suffix = suffix.replace(new RegExp('=', 'g'), '') + .replace(new RegExp('\\+', 'g'), '_') + .replace(new RegExp('/', 'g'), '$'); + } else { + window.__cov_seq = window.__cov_seq || 0; + window.__cov_seq += 1; + suffix = window.__cov_seq; + } + return '__cov_' + (omitSuffix ? '' : suffix); + } + + function pushAll(ary, thing) { + if (!isArray(thing)) { + thing = [ thing ]; + } + Array.prototype.push.apply(ary, thing); + } + + SYNTAX = { + // keep in sync with estraverse's VisitorKeys + AssignmentExpression: ['left', 'right'], + AssignmentPattern: ['left', 'right'], + ArrayExpression: ['elements'], + ArrayPattern: ['elements'], + ArrowFunctionExpression: ['params', 'body'], + AwaitExpression: ['argument'], // CAUTION: It's deferred to ES7. + BlockStatement: ['body'], + BinaryExpression: ['left', 'right'], + BreakStatement: ['label'], + CallExpression: ['callee', 'arguments'], + CatchClause: ['param', 'body'], + ClassBody: ['body'], + ClassDeclaration: ['id', 'superClass', 'body'], + ClassExpression: ['id', 'superClass', 'body'], + ComprehensionBlock: ['left', 'right'], // CAUTION: It's deferred to ES7. + ComprehensionExpression: ['blocks', 'filter', 'body'], // CAUTION: It's deferred to ES7. + ConditionalExpression: ['test', 'consequent', 'alternate'], + ContinueStatement: ['label'], + DebuggerStatement: [], + DirectiveStatement: [], + DoWhileStatement: ['body', 'test'], + EmptyStatement: [], + ExportAllDeclaration: ['source'], + ExportDefaultDeclaration: ['declaration'], + ExportNamedDeclaration: ['declaration', 'specifiers', 'source'], + ExportSpecifier: ['exported', 'local'], + ExpressionStatement: ['expression'], + ForStatement: ['init', 'test', 'update', 'body'], + ForInStatement: ['left', 'right', 'body'], + ForOfStatement: ['left', 'right', 'body'], + FunctionDeclaration: ['id', 'params', 'body'], + FunctionExpression: ['id', 'params', 'body'], + GeneratorExpression: ['blocks', 'filter', 'body'], // CAUTION: It's deferred to ES7. + Identifier: [], + IfStatement: ['test', 'consequent', 'alternate'], + ImportDeclaration: ['specifiers', 'source'], + ImportDefaultSpecifier: ['local'], + ImportNamespaceSpecifier: ['local'], + ImportSpecifier: ['imported', 'local'], + Literal: [], + LabeledStatement: ['label', 'body'], + LogicalExpression: ['left', 'right'], + MetaProperty: ['meta', 'property'], + MemberExpression: ['object', 'property'], + MethodDefinition: ['key', 'value'], + ModuleSpecifier: [], + NewExpression: ['callee', 'arguments'], + ObjectExpression: ['properties'], + ObjectPattern: ['properties'], + Program: ['body'], + Property: ['key', 'value'], + RestElement: [ 'argument' ], + ReturnStatement: ['argument'], + SequenceExpression: ['expressions'], + SpreadElement: ['argument'], + Super: [], + SwitchStatement: ['discriminant', 'cases'], + SwitchCase: ['test', 'consequent'], + TaggedTemplateExpression: ['tag', 'quasi'], + TemplateElement: [], + TemplateLiteral: ['quasis', 'expressions'], + ThisExpression: [], + ThrowStatement: ['argument'], + TryStatement: ['block', 'handler', 'finalizer'], + UnaryExpression: ['argument'], + UpdateExpression: ['argument'], + VariableDeclaration: ['declarations'], + VariableDeclarator: ['id', 'init'], + WhileStatement: ['test', 'body'], + WithStatement: ['object', 'body'], + YieldExpression: ['argument'] + }; + + for (nodeType in SYNTAX) { + /* istanbul ignore else: has own property */ + if (SYNTAX.hasOwnProperty(nodeType)) { + SYNTAX[nodeType] = { name: nodeType, children: SYNTAX[nodeType] }; + } + } + + astgen = { + variable: function (name) { return { type: SYNTAX.Identifier.name, name: name }; }, + stringLiteral: function (str) { return { type: SYNTAX.Literal.name, value: String(str) }; }, + numericLiteral: function (num) { return { type: SYNTAX.Literal.name, value: Number(num) }; }, + statement: function (contents) { return { type: SYNTAX.ExpressionStatement.name, expression: contents }; }, + dot: function (obj, field) { return { type: SYNTAX.MemberExpression.name, computed: false, object: obj, property: field }; }, + subscript: function (obj, sub) { return { type: SYNTAX.MemberExpression.name, computed: true, object: obj, property: sub }; }, + postIncrement: function (obj) { return { type: SYNTAX.UpdateExpression.name, operator: '++', prefix: false, argument: obj }; }, + sequence: function (one, two) { return { type: SYNTAX.SequenceExpression.name, expressions: [one, two] }; }, + returnStatement: function (expr) { return { type: SYNTAX.ReturnStatement.name, argument: expr }; } + }; + + function Walker(walkMap, preprocessor, scope, debug) { + this.walkMap = walkMap; + this.preprocessor = preprocessor; + this.scope = scope; + this.debug = debug; + if (this.debug) { + this.level = 0; + this.seq = true; + } + } + + function defaultWalker(node, walker) { + + var type = node.type, + preprocessor, + postprocessor, + children = SYNTAX[type], + // don't run generated nodes thru custom walks otherwise we will attempt to instrument the instrumentation code :) + applyCustomWalker = !!node.loc || node.type === SYNTAX.Program.name, + walkerFn = applyCustomWalker ? walker.walkMap[type] : null, + i, + j, + walkFnIndex, + childType, + childNode, + ret, + childArray, + childElement, + pathElement, + assignNode, + isLast; + + if (!SYNTAX[type]) { + console.error(node); + console.error('Unsupported node type:' + type); + return; + } + children = SYNTAX[type].children; + /* istanbul ignore if: guard */ + if (node.walking) { throw new Error('Infinite regress: Custom walkers may NOT call walker.apply(node)'); } + node.walking = true; + + ret = walker.apply(node, walker.preprocessor); + + preprocessor = ret.preprocessor; + if (preprocessor) { + delete ret.preprocessor; + ret = walker.apply(node, preprocessor); + } + + if (isArray(walkerFn)) { + for (walkFnIndex = 0; walkFnIndex < walkerFn.length; walkFnIndex += 1) { + isLast = walkFnIndex === walkerFn.length - 1; + ret = walker.apply(ret, walkerFn[walkFnIndex]); + /*istanbul ignore next: paranoid check */ + if (ret.type !== type && !isLast) { + throw new Error('Only the last walker is allowed to change the node type: [type was: ' + type + ' ]'); + } + } + } else { + if (walkerFn) { + ret = walker.apply(node, walkerFn); + } + } + + if (node.skipSelf) { + return; + } + + for (i = 0; i < children.length; i += 1) { + childType = children[i]; + childNode = node[childType]; + if (childNode && !childNode.skipWalk) { + pathElement = { node: node, property: childType }; + if (isArray(childNode)) { + childArray = []; + for (j = 0; j < childNode.length; j += 1) { + childElement = childNode[j]; + pathElement.index = j; + if (childElement) { + assignNode = walker.apply(childElement, null, pathElement); + if (isArray(assignNode.prepend)) { + pushAll(childArray, assignNode.prepend); + delete assignNode.prepend; + } + } else { + assignNode = undefined; + } + pushAll(childArray, assignNode); + } + node[childType] = childArray; + } else { + assignNode = walker.apply(childNode, null, pathElement); + /*istanbul ignore if: paranoid check */ + if (isArray(assignNode.prepend)) { + throw new Error('Internal error: attempt to prepend statements in disallowed (non-array) context'); + /* if this should be allowed, this is how to solve it + tmpNode = { type: 'BlockStatement', body: [] }; + pushAll(tmpNode.body, assignNode.prepend); + pushAll(tmpNode.body, assignNode); + node[childType] = tmpNode; + delete assignNode.prepend; + */ + } else { + node[childType] = assignNode; + } + } + } + } + + postprocessor = ret.postprocessor; + if (postprocessor) { + delete ret.postprocessor; + ret = walker.apply(ret, postprocessor); + } + + delete node.walking; + + return ret; + } + + Walker.prototype = { + startWalk: function (node) { + this.path = []; + this.apply(node); + }, + + apply: function (node, walkFn, pathElement) { + var ret, i, seq, prefix; + + walkFn = walkFn || defaultWalker; + if (this.debug) { + this.seq += 1; + this.level += 1; + seq = this.seq; + prefix = ''; + for (i = 0; i < this.level; i += 1) { prefix += ' '; } + console.log(prefix + 'Enter (' + seq + '):' + node.type); + } + if (pathElement) { this.path.push(pathElement); } + ret = walkFn.call(this.scope, node, this); + if (pathElement) { this.path.pop(); } + if (this.debug) { + this.level -= 1; + console.log(prefix + 'Return (' + seq + '):' + node.type); + } + return ret || node; + }, + + startLineForNode: function (node) { + return node && node.loc && node.loc.start ? node.loc.start.line : /* istanbul ignore next: guard */ null; + }, + + ancestor: function (n) { + return this.path.length > n - 1 ? this.path[this.path.length - n] : /* istanbul ignore next: guard */ null; + }, + + parent: function () { + return this.ancestor(1); + }, + + isLabeled: function () { + var el = this.parent(); + return el && el.node.type === SYNTAX.LabeledStatement.name; + } + }; + + /** + * mechanism to instrument code for coverage. It uses the `esprima` and + * `escodegen` libraries for JS parsing and code generation respectively. + * + * Works on `node` as well as the browser. + * + * Usage on nodejs + * --------------- + * + * var instrumenter = new require('istanbul').Instrumenter(), + * changed = instrumenter.instrumentSync('function meaningOfLife() { return 42; }', 'filename.js'); + * + * Usage in a browser + * ------------------ + * + * Load `esprima.js`, `escodegen.js` and `instrumenter.js` (this file) using `script` tags or other means. + * + * Create an instrumenter object as: + * + * var instrumenter = new Instrumenter(), + * changed = instrumenter.instrumentSync('function meaningOfLife() { return 42; }', 'filename.js'); + * + * Aside from demonstration purposes, it is unclear why you would want to instrument code in a browser. + * + * @class Instrumenter + * @constructor + * @param {Object} options Optional. Configuration options. + * @param {String} [options.coverageVariable] the global variable name to use for + * tracking coverage. Defaults to `__coverage__` + * @param {Boolean} [options.embedSource] whether to embed the source code of every + * file as an array in the file coverage object for that file. Defaults to `false` + * @param {Boolean} [options.preserveComments] whether comments should be preserved in the output. Defaults to `false` + * @param {Boolean} [options.noCompact] emit readable code when set. Defaults to `false` + * @param {Boolean} [options.esModules] whether the code to instrument contains uses es + * imports or exports. + * @param {Boolean} [options.noAutoWrap] do not automatically wrap the source in + * an anonymous function before covering it. By default, code is wrapped in + * an anonymous function before it is parsed. This is done because + * some nodejs libraries have `return` statements outside of + * a function which is technically invalid Javascript and causes the parser to fail. + * This construct, however, works correctly in node since module loading + * is done in the context of an anonymous function. + * + * Note that the semantics of the code *returned* by the instrumenter does not change in any way. + * The function wrapper is "unwrapped" before the instrumented code is generated. + * @param {Object} [options.codeGenerationOptions] an object that is directly passed to the `escodegen` + * library as configuration for code generation. The `noCompact` setting is not honored when this + * option is specified + * @param {Boolean} [options.debug] assist in debugging. Currently, the only effect of + * setting this option is a pretty-print of the coverage variable. Defaults to `false` + * @param {Boolean} [options.walkDebug] assist in debugging of the AST walker used by this class. + * + */ + function Instrumenter(options) { + this.opts = options || { + debug: false, + walkDebug: false, + coverageVariable: '__coverage__', + codeGenerationOptions: undefined, + noAutoWrap: false, + noCompact: false, + embedSource: false, + preserveComments: false, + esModules: false + }; + + if (this.opts.esModules && !this.opts.noAutoWrap) { + this.opts.noAutoWrap = true; + if (this.opts.debug) { + console.log('Setting noAutoWrap to true as required by esModules'); + } + } + + this.walker = new Walker({ + ArrowFunctionExpression: [ this.arrowBlockConverter ], + ExpressionStatement: this.coverStatement, + ExportNamedDeclaration: this.coverExport, + BreakStatement: this.coverStatement, + ContinueStatement: this.coverStatement, + DebuggerStatement: this.coverStatement, + ReturnStatement: this.coverStatement, + ThrowStatement: this.coverStatement, + TryStatement: [ this.paranoidHandlerCheck, this.coverStatement], + VariableDeclaration: this.coverStatement, + IfStatement: [ this.ifBlockConverter, this.coverStatement, this.ifBranchInjector ], + ForStatement: [ this.skipInit, this.loopBlockConverter, this.coverStatement ], + ForInStatement: [ this.skipLeft, this.loopBlockConverter, this.coverStatement ], + ForOfStatement: [ this.skipLeft, this.loopBlockConverter, this.coverStatement ], + WhileStatement: [ this.loopBlockConverter, this.coverStatement ], + DoWhileStatement: [ this.loopBlockConverter, this.coverStatement ], + SwitchStatement: [ this.coverStatement, this.switchBranchInjector ], + SwitchCase: [ this.switchCaseInjector ], + WithStatement: [ this.withBlockConverter, this.coverStatement ], + FunctionDeclaration: [ this.coverFunction, this.coverStatement ], + FunctionExpression: this.coverFunction, + LabeledStatement: this.coverStatement, + ConditionalExpression: this.conditionalBranchInjector, + LogicalExpression: this.logicalExpressionBranchInjector, + ObjectExpression: this.maybeAddType, + MetaProperty: this.coverMetaProperty, + }, this.extractCurrentHint, this, this.opts.walkDebug); + + //unit testing purposes only + if (this.opts.backdoor && this.opts.backdoor.omitTrackerSuffix) { + this.omitTrackerSuffix = true; + } + } + + Instrumenter.prototype = { + /** + * synchronous instrumentation method. Throws when illegal code is passed to it + * @method instrumentSync + * @param {String} code the code to be instrumented as a String + * @param {String} filename Optional. The name of the file from which + * the code was read. A temporary filename is generated when not specified. + * Not specifying a filename is only useful for unit tests and demonstrations + * of this library. + */ + instrumentSync: function (code, filename) { + var program; + + //protect from users accidentally passing in a Buffer object instead + if (typeof code !== 'string') { throw new Error('Code must be string'); } + if (code.charAt(0) === '#') { //shebang, 'comment' it out, won't affect syntax tree locations for things we care about + code = '//' + code; + } + if (!this.opts.noAutoWrap) { + code = LEADER_WRAP + code + TRAILER_WRAP; + } + try { + program = ESP.parse(code, { + loc: true, + range: true, + tokens: this.opts.preserveComments, + comment: true, + sourceType: this.opts.esModules ? 'module' : 'script' + }); + } catch (e) { + console.log('Failed to parse file: ' + filename); + throw e; + } + if (this.opts.preserveComments) { + program = ESPGEN.attachComments(program, program.comments, program.tokens); + } + if (!this.opts.noAutoWrap) { + program = { + type: SYNTAX.Program.name, + body: program.body[0].expression.callee.body.body, + comments: program.comments + }; + } + return this.instrumentASTSync(program, filename, code); + }, + filterHints: function (comments) { + var ret = [], + i, + comment, + groups; + if (!(comments && isArray(comments))) { + return ret; + } + for (i = 0; i < comments.length; i += 1) { + comment = comments[i]; + /* istanbul ignore else: paranoid check */ + if (comment && comment.value && comment.range && isArray(comment.range)) { + groups = String(comment.value).match(COMMENT_RE); + if (groups) { + ret.push({ type: groups[1], start: comment.range[0], end: comment.range[1] }); + } + } + } + return ret; + }, + extractCurrentHint: function (node) { + if (!node.range) { return; } + var i = this.currentState.lastHintPosition + 1, + hints = this.currentState.hints, + nodeStart = node.range[0], + hint; + this.currentState.currentHint = null; + while (i < hints.length) { + hint = hints[i]; + if (hint.end < nodeStart) { + this.currentState.currentHint = hint; + this.currentState.lastHintPosition = i; + i += 1; + } else { + break; + } + } + }, + /** + * synchronous instrumentation method that instruments an AST instead. + * @method instrumentASTSync + * @param {String} program the AST to be instrumented + * @param {String} filename Optional. The name of the file from which + * the code was read. A temporary filename is generated when not specified. + * Not specifying a filename is only useful for unit tests and demonstrations + * of this library. + * @param {String} originalCode the original code corresponding to the AST, + * used for embedding the source into the coverage object + */ + instrumentASTSync: function (program, filename, originalCode) { + var usingStrict = false, + codegenOptions, + generated, + preamble, + lineCount, + i; + filename = filename || String(new Date().getTime()) + '.js'; + this.sourceMap = null; + this.coverState = { + path: filename, + s: {}, + b: {}, + f: {}, + fnMap: {}, + statementMap: {}, + branchMap: {} + }; + this.currentState = { + trackerVar: generateTrackerVar(filename, this.omitTrackerSuffix), + func: 0, + branch: 0, + variable: 0, + statement: 0, + hints: this.filterHints(program.comments), + currentHint: null, + lastHintPosition: -1, + ignoring: 0 + }; + if (program.body && program.body.length > 0 && this.isUseStrictExpression(program.body[0])) { + //nuke it + program.body.shift(); + //and add it back at code generation time + usingStrict = true; + } + this.walker.startWalk(program); + codegenOptions = this.opts.codeGenerationOptions || { format: { compact: !this.opts.noCompact }}; + codegenOptions.comment = this.opts.preserveComments; + //console.log(JSON.stringify(program, undefined, 2)); + + generated = ESPGEN.generate(program, codegenOptions); + preamble = this.getPreamble(originalCode || '', usingStrict); + + if (generated.map && generated.code) { + lineCount = preamble.split(/\r\n|\r|\n/).length; + // offset all the generated line numbers by the number of lines in the preamble + for (i = 0; i < generated.map._mappings._array.length; i += 1) { + generated.map._mappings._array[i].generatedLine += lineCount; + } + this.sourceMap = generated.map; + generated = generated.code; + } + + return preamble + '\n' + generated + '\n'; + }, + /** + * Callback based instrumentation. Note that this still executes synchronously in the same process tick + * and calls back immediately. It only provides the options for callback style error handling as + * opposed to a `try-catch` style and nothing more. Implemented as a wrapper over `instrumentSync` + * + * @method instrument + * @param {String} code the code to be instrumented as a String + * @param {String} filename Optional. The name of the file from which + * the code was read. A temporary filename is generated when not specified. + * Not specifying a filename is only useful for unit tests and demonstrations + * of this library. + * @param {Function(err, instrumentedCode)} callback - the callback function + */ + instrument: function (code, filename, callback) { + + if (!callback && typeof filename === 'function') { + callback = filename; + filename = null; + } + try { + callback(null, this.instrumentSync(code, filename)); + } catch (ex) { + callback(ex); + } + }, + /** + * returns the file coverage object for the code that was instrumented + * just before calling this method. Note that this represents a + * "zero-coverage" object which is not even representative of the code + * being loaded in node or a browser (which would increase the statement + * counts for mainline code). + * @method lastFileCoverage + * @return {Object} a "zero-coverage" file coverage object for the code last instrumented + * by this instrumenter + */ + lastFileCoverage: function () { + return this.coverState; + }, + /** + * returns the source map object for the code that was instrumented + * just before calling this method. + * @method lastSourceMap + * @return {Object} a source map object for the code last instrumented + * by this instrumenter + */ + lastSourceMap: function () { + return this.sourceMap; + }, + fixColumnPositions: function (coverState) { + var offset = LEADER_WRAP.length, + fixer = function (loc) { + if (loc.start.line === 1) { + loc.start.column -= offset; + } + if (loc.end.line === 1) { + loc.end.column -= offset; + } + }, + k, + obj, + i, + locations; + + obj = coverState.statementMap; + for (k in obj) { + /* istanbul ignore else: has own property */ + if (obj.hasOwnProperty(k)) { fixer(obj[k]); } + } + obj = coverState.fnMap; + for (k in obj) { + /* istanbul ignore else: has own property */ + if (obj.hasOwnProperty(k)) { fixer(obj[k].loc); } + } + obj = coverState.branchMap; + for (k in obj) { + /* istanbul ignore else: has own property */ + if (obj.hasOwnProperty(k)) { + locations = obj[k].locations; + for (i = 0; i < locations.length; i += 1) { + fixer(locations[i]); + } + } + } + }, + + getPreamble: function (sourceCode, emitUseStrict) { + var varName = this.opts.coverageVariable || '__coverage__', + file = this.coverState.path.replace(/\\/g, '\\\\'), + tracker = this.currentState.trackerVar, + coverState, + strictLine = emitUseStrict ? '"use strict";' : '', + // return replacements using the function to ensure that the replacement is + // treated like a dumb string and not as a string with RE replacement patterns + replacer = function (s) { + return function () { return s; }; + }, + code; + if (!this.opts.noAutoWrap) { + this.fixColumnPositions(this.coverState); + } + if (this.opts.embedSource) { + this.coverState.code = sourceCode.split(/(?:\r?\n)|\r/); + } + coverState = this.opts.debug ? JSON.stringify(this.coverState, undefined, 4) : JSON.stringify(this.coverState); + code = [ + "%STRICT%", + "var %VAR% = (Function('return this'))();", + "if (!%VAR%.%GLOBAL%) { %VAR%.%GLOBAL% = {}; }", + "%VAR% = %VAR%.%GLOBAL%;", + "if (!(%VAR%['%FILE%'])) {", + " %VAR%['%FILE%'] = %OBJECT%;", + "}", + "%VAR% = %VAR%['%FILE%'];" + ].join("\n") + .replace(/%STRICT%/g, replacer(strictLine)) + .replace(/%VAR%/g, replacer(tracker)) + .replace(/%GLOBAL%/g, replacer(varName)) + .replace(/%FILE%/g, replacer(file)) + .replace(/%OBJECT%/g, replacer(coverState)); + return code; + }, + + startIgnore: function () { + this.currentState.ignoring += 1; + }, + + endIgnore: function () { + this.currentState.ignoring -= 1; + }, + + convertToBlock: function (node) { + if (!node) { + return { type: 'BlockStatement', body: [] }; + } else if (node.type === 'BlockStatement') { + return node; + } else { + return { type: 'BlockStatement', body: [ node ] }; + } + }, + + arrowBlockConverter: function (node) { + var retStatement; + if (node.expression) { // turn expression nodes into a block with a return statement + retStatement = astgen.returnStatement(node.body); + // ensure the generated return statement is covered + retStatement.loc = node.body.loc; + node.body = this.convertToBlock(retStatement); + node.expression = false; + } + }, + + paranoidHandlerCheck: function (node) { + // if someone is using an older esprima on the browser + // convert handlers array to single handler attribute + // containing its first element + /* istanbul ignore next */ + if (!node.handler && node.handlers) { + node.handler = node.handlers[0]; + } + }, + + ifBlockConverter: function (node) { + node.consequent = this.convertToBlock(node.consequent); + node.alternate = this.convertToBlock(node.alternate); + }, + + loopBlockConverter: function (node) { + node.body = this.convertToBlock(node.body); + }, + + withBlockConverter: function (node) { + node.body = this.convertToBlock(node.body); + }, + + statementName: function (location, initValue) { + var sName, + ignoring = !!this.currentState.ignoring; + + location.skip = ignoring || undefined; + initValue = initValue || 0; + this.currentState.statement += 1; + sName = this.currentState.statement; + this.coverState.statementMap[sName] = location; + this.coverState.s[sName] = initValue; + return sName; + }, + + skipInit: function (node /*, walker */) { + if (node.init) { + node.init.skipWalk = true; + } + }, + + skipLeft: function (node /*, walker */) { + node.left.skipWalk = true; + }, + + isUseStrictExpression: function (node) { + return node && node.type === SYNTAX.ExpressionStatement.name && + node.expression && node.expression.type === SYNTAX.Literal.name && + node.expression.value === 'use strict'; + }, + + maybeSkipNode: function (node, type) { + var alreadyIgnoring = !!this.currentState.ignoring, + hint = this.currentState.currentHint, + ignoreThis = !alreadyIgnoring && hint && hint.type === type; + + if (ignoreThis) { + this.startIgnore(); + node.postprocessor = this.endIgnore; + return true; + } + return false; + }, + + coverMetaProperty: function(node /* , walker */) { + node.skipSelf = true; + }, + + coverStatement: function (node, walker) { + var sName, + incrStatementCount, + parent, + grandParent; + + this.maybeSkipNode(node, 'next'); + + if (this.isUseStrictExpression(node)) { + grandParent = walker.ancestor(2); + /* istanbul ignore else: difficult to test */ + if (grandParent) { + if ((grandParent.node.type === SYNTAX.FunctionExpression.name || + grandParent.node.type === SYNTAX.FunctionDeclaration.name) && + walker.parent().node.body[0] === node) { + return; + } + } + } + + if (node.type === SYNTAX.FunctionDeclaration.name) { + // Called for the side-effect of setting the function's statement count to 1. + this.statementName(node.loc, 1); + } else { + // We let `coverExport` handle ExportNamedDeclarations. + parent = walker.parent(); + if (parent && parent.node.type === SYNTAX.ExportNamedDeclaration.name) { + return; + } + + sName = this.statementName(node.loc); + + incrStatementCount = astgen.statement( + astgen.postIncrement( + astgen.subscript( + astgen.dot(astgen.variable(this.currentState.trackerVar), astgen.variable('s')), + astgen.stringLiteral(sName) + ) + ) + ); + + this.splice(incrStatementCount, node, walker); + } + }, + + coverExport: function (node, walker) { + var sName, incrStatementCount; + + if ( !node.declaration || !node.declaration.declarations ) { return; } + + this.maybeSkipNode(node, 'next'); + + sName = this.statementName(node.declaration.loc); + incrStatementCount = astgen.statement( + astgen.postIncrement( + astgen.subscript( + astgen.dot(astgen.variable(this.currentState.trackerVar), astgen.variable('s')), + astgen.stringLiteral(sName) + ) + ) + ); + + this.splice(incrStatementCount, node, walker); + }, + + splice: function (statements, node, walker) { + var targetNode = walker.isLabeled() ? walker.parent().node : node; + targetNode.prepend = targetNode.prepend || []; + pushAll(targetNode.prepend, statements); + }, + + functionName: function (node, line, location) { + this.currentState.func += 1; + var id = this.currentState.func, + ignoring = !!this.currentState.ignoring, + name = node.id ? node.id.name : '(anonymous_' + id + ')', + clone = function (attr) { + var obj = location[attr] || /* istanbul ignore next */ {}; + return { line: obj.line, column: obj.column }; + }; + this.coverState.fnMap[id] = { + name: name, line: line, + loc: { + start: clone('start'), + end: clone('end') + }, + skip: ignoring || undefined + }; + this.coverState.f[id] = 0; + return id; + }, + + coverFunction: function (node, walker) { + var id, + body = node.body, + blockBody = body.body, + popped; + + this.maybeSkipNode(node, 'next'); + + id = this.functionName(node, walker.startLineForNode(node), { + start: node.loc.start, + end: { line: node.body.loc.start.line, column: node.body.loc.start.column } + }); + + if (blockBody.length > 0 && this.isUseStrictExpression(blockBody[0])) { + popped = blockBody.shift(); + } + blockBody.unshift( + astgen.statement( + astgen.postIncrement( + astgen.subscript( + astgen.dot(astgen.variable(this.currentState.trackerVar), astgen.variable('f')), + astgen.stringLiteral(id) + ) + ) + ) + ); + if (popped) { + blockBody.unshift(popped); + } + }, + + branchName: function (type, startLine, pathLocations) { + var bName, + paths = [], + locations = [], + i, + ignoring = !!this.currentState.ignoring; + this.currentState.branch += 1; + bName = this.currentState.branch; + for (i = 0; i < pathLocations.length; i += 1) { + pathLocations[i].skip = pathLocations[i].skip || ignoring || undefined; + locations.push(pathLocations[i]); + paths.push(0); + } + this.coverState.b[bName] = paths; + this.coverState.branchMap[bName] = { line: startLine, type: type, locations: locations }; + return bName; + }, + + branchIncrementExprAst: function (varName, branchIndex, down) { + var ret = astgen.postIncrement( + astgen.subscript( + astgen.subscript( + astgen.dot(astgen.variable(this.currentState.trackerVar), astgen.variable('b')), + astgen.stringLiteral(varName) + ), + astgen.numericLiteral(branchIndex) + ), + down + ); + return ret; + }, + + locationsForNodes: function (nodes) { + var ret = [], + i; + for (i = 0; i < nodes.length; i += 1) { + ret.push(nodes[i].loc); + } + return ret; + }, + + ifBranchInjector: function (node, walker) { + var alreadyIgnoring = !!this.currentState.ignoring, + hint = this.currentState.currentHint, + ignoreThen = !alreadyIgnoring && hint && hint.type === 'if', + ignoreElse = !alreadyIgnoring && hint && hint.type === 'else', + line = node.loc.start.line, + col = node.loc.start.column, + makeLoc = function () { return { line: line, column: col }; }, + bName = this.branchName('if', walker.startLineForNode(node), [ + { start: makeLoc(), end: makeLoc(), skip: ignoreThen || undefined }, + { start: makeLoc(), end: makeLoc(), skip: ignoreElse || undefined } + ]), + thenBody = node.consequent.body, + elseBody = node.alternate.body, + child; + thenBody.unshift(astgen.statement(this.branchIncrementExprAst(bName, 0))); + elseBody.unshift(astgen.statement(this.branchIncrementExprAst(bName, 1))); + if (ignoreThen) { child = node.consequent; child.preprocessor = this.startIgnore; child.postprocessor = this.endIgnore; } + if (ignoreElse) { child = node.alternate; child.preprocessor = this.startIgnore; child.postprocessor = this.endIgnore; } + }, + + branchLocationFor: function (name, index) { + return this.coverState.branchMap[name].locations[index]; + }, + + switchBranchInjector: function (node, walker) { + var cases = node.cases, + bName, + i; + + if (!(cases && cases.length > 0)) { + return; + } + bName = this.branchName('switch', walker.startLineForNode(node), this.locationsForNodes(cases)); + for (i = 0; i < cases.length; i += 1) { + cases[i].branchLocation = this.branchLocationFor(bName, i); + cases[i].consequent.unshift(astgen.statement(this.branchIncrementExprAst(bName, i))); + } + }, + + switchCaseInjector: function (node) { + var location = node.branchLocation; + delete node.branchLocation; + if (this.maybeSkipNode(node, 'next')) { + location.skip = true; + } + }, + + conditionalBranchInjector: function (node, walker) { + var bName = this.branchName('cond-expr', walker.startLineForNode(node), this.locationsForNodes([ node.consequent, node.alternate ])), + ast1 = this.branchIncrementExprAst(bName, 0), + ast2 = this.branchIncrementExprAst(bName, 1); + + node.consequent.preprocessor = this.maybeAddSkip(this.branchLocationFor(bName, 0)); + node.alternate.preprocessor = this.maybeAddSkip(this.branchLocationFor(bName, 1)); + node.consequent = astgen.sequence(ast1, node.consequent); + node.alternate = astgen.sequence(ast2, node.alternate); + }, + + maybeAddSkip: function (branchLocation) { + return function (node) { + var alreadyIgnoring = !!this.currentState.ignoring, + hint = this.currentState.currentHint, + ignoreThis = !alreadyIgnoring && hint && hint.type === 'next'; + if (ignoreThis) { + this.startIgnore(); + node.postprocessor = this.endIgnore; + } + if (ignoreThis || alreadyIgnoring) { + branchLocation.skip = true; + } + }; + }, + + logicalExpressionBranchInjector: function (node, walker) { + var parent = walker.parent(), + leaves = [], + bName, + tuple, + i; + + this.maybeSkipNode(node, 'next'); + + if (parent && parent.node.type === SYNTAX.LogicalExpression.name) { + //already covered + return; + } + + this.findLeaves(node, leaves); + bName = this.branchName('binary-expr', + walker.startLineForNode(node), + this.locationsForNodes(leaves.map(function (item) { return item.node; })) + ); + for (i = 0; i < leaves.length; i += 1) { + tuple = leaves[i]; + tuple.parent[tuple.property] = astgen.sequence(this.branchIncrementExprAst(bName, i), tuple.node); + tuple.node.preprocessor = this.maybeAddSkip(this.branchLocationFor(bName, i)); + } + }, + + findLeaves: function (node, accumulator, parent, property) { + if (node.type === SYNTAX.LogicalExpression.name) { + this.findLeaves(node.left, accumulator, node, 'left'); + this.findLeaves(node.right, accumulator, node, 'right'); + } else { + accumulator.push({ node: node, parent: parent, property: property }); + } + }, + maybeAddType: function (node /*, walker */) { + var props = node.properties, + i, + child; + for (i = 0; i < props.length; i += 1) { + child = props[i]; + if (!child.type) { + child.type = SYNTAX.Property.name; + } + } + }, + }; + + if (isNode) { + module.exports = Instrumenter; + } else { + window.Instrumenter = Instrumenter; + } + +}(typeof module !== 'undefined' && typeof module.exports !== 'undefined' && typeof exports !== 'undefined')); -- cgit v1.2.3