// Copyright 2017 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. "use strict"; /** * A thin wrapper around shell's 'read' function showing a file name on error. */ function readFile(fileName) { try { return read(fileName); } catch (e) { console.log(fileName + ': ' + (e.message || e)); throw e; } } // =========================================================================== // This is the only true formatting, why? For an international audience the // confusion between the decimal and thousands separator is big (alternating // between comma "," vs dot "."). The Swiss formatting uses "'" as a thousands // separator, dropping most of that confusion. const numberFormat = new Intl.NumberFormat('de-CH', { maximumFractionDigits: 2, minimumFractionDigits: 2, }); function formatNumber(value) { return numberFormat.format(value); } function BYTES(bytes, total) { let units = ['B ', 'kB', 'mB', 'gB']; let unitIndex = 0; let value = bytes; while (value > 1000 && unitIndex < units.length) { value /= 1000; unitIndex++; } let result = formatNumber(value).padStart(10) + ' ' + units[unitIndex]; if (total !== void 0 && total != 0) { result += PERCENT(bytes, total).padStart(5); } return result; } function PERCENT(value, total) { return Math.round(value / total * 100) + "%"; } // =========================================================================== const kNoTimeMetrics = { __proto__: null, executionDuration: 0, firstEventTimestamp: 0, firstParseEventTimestamp: 0, lastParseEventTimestamp: 0, lastEventTimestamp: 0 }; class CompilationUnit { constructor() { this.isEval = false; // Lazily computed properties. this.firstEventTimestamp = -1; this.firstParseEventTimestamp = -1; this.firstCompileEventTimestamp = -1; this.lastParseEventTimestamp = -1; this.lastEventTimestamp = -1; this.deserializationTimestamp = -1; this.preparseTimestamp = -1; this.parseTimestamp = -1; this.parse2Timestamp = -1; this.resolutionTimestamp = -1; this.compileTimestamp = -1; this.lazyCompileTimestamp = -1; this.executionTimestamp = -1; this.optimizationTimestamp = -1; this.deserializationDuration = -0.0; this.preparseDuration = -0.0; this.parseDuration = -0.0; this.parse2Duration = -0.0; this.resolutionDuration = -0.0; this.scopeResolutionDuration = -0.0; this.lazyCompileDuration = -0.0; this.compileDuration = -0.0; this.optimizeDuration = -0.0; this.ownBytes = -1; this.compilationCacheHits = []; } finalize() { this.firstEventTimestamp = this.timestampMin( this.deserializationTimestamp, this.parseTimestamp, this.preparseTimestamp, this.resolutionTimestamp, this.executionTimestamp); this.firstParseEventTimestamp = this.timestampMin( this.deserializationTimestamp, this.parseTimestamp, this.preparseTimestamp, this.resolutionTimestamp); this.firstCompileEventTimestamp = this.rawTimestampMin( this.deserializationTimestamp, this.compileTimestamp, this.lazyCompileTimestamp); // Any excuted script needs to be compiled. if (this.hasBeenExecuted() && (this.firstCompileEventTimestamp <= 0 || this.executionTimestamp < this.firstCompileTimestamp)) { console.error('Compile < execution timestamp', this); } if (this.ownBytes < 0) console.error(this, 'Own bytes must be positive'); } hasBeenExecuted() { return this.executionTimestamp > 0; } addCompilationCacheHit(timestamp) { this.compilationCacheHits.push(timestamp); } // Returns the smallest timestamp from the given list, ignoring // uninitialized (-1) values. rawTimestampMin(...timestamps) { timestamps = timestamps.length == 1 ? timestamps[0] : timestamps; let result = timestamps.reduce((min, item) => { return item == -1 ? min : (min == -1 ? item : Math.min(item, item)); }, -1); return result; } timestampMin(...timestamps) { let result = this.rawTimestampMin(...timestamps); if (Number.isNaN(result) || result < 0) { console.error( 'Invalid timestamp min:', {result, timestamps, script: this}); return 0; } return result; } timestampMax(...timestamps) { timestamps = timestamps.length == 1 ? timestamps[0] : timestamps; let result = Math.max(...timestamps); if (Number.isNaN(result) || result < 0) { console.error( 'Invalid timestamp max:', {result, timestamps, script: this}); return 0; } return result; } } // =========================================================================== class Script extends CompilationUnit { constructor(id) { super(); if (id === void 0 || id <= 0) { throw new Error(`Invalid id=${id} for script`); } this.file = ''; this.id = id; this.isNative = false; this.isBackgroundCompiled = false; this.isStreamingCompiled = false; this.funktions = []; this.metrics = new Map(); this.maxNestingLevel = 0; this.width = 0; this.bytesTotal = -1; this.finalized = false; this.summary = ''; this.source = ''; } setFile(name) { this.file = name; this.isNative = name.startsWith('native '); } isEmpty() { return this.funktions.length === 0; } getFunktionAtStartPosition(start) { if (!this.isEval && start === 0) { throw 'position 0 is reserved for the script'; } if (this.finalized) { return this.funktions.find(funktion => funktion.start == start); } return this.funktions[start]; } // Return the innermost function at the given source position. getFunktionForPosition(position) { if (!this.finalized) throw 'Incomplete script'; for (let i = this.funktions.length - 1; i >= 0; i--) { let funktion = this.funktions[i]; if (funktion.containsPosition(position)) return funktion; } return undefined; } addMissingFunktions(list) { if (this.finalized) throw 'script is finalized!'; list.forEach(fn => { if (this.funktions[fn.start] === void 0) { this.addFunktion(fn); } }); } addFunktion(fn) { if (this.finalized) throw 'script is finalized!'; if (fn.start === void 0) throw "Funktion has no start position"; if (this.funktions[fn.start] !== void 0) { fn.print(); throw "adding same function twice to script"; } this.funktions[fn.start] = fn; } finalize() { this.finalized = true; // Compact funktions as we no longer need access via start byte position. this.funktions = this.funktions.filter(each => true); let parent = null; let maxNesting = 0; // Iterate over the Funktions in byte position order. this.funktions.forEach(fn => { fn.isEval = this.isEval; if (parent === null) { parent = fn; } else { // Walk up the nested chain of Funktions to find the parent. while (parent !== null && !fn.isNestedIn(parent)) { parent = parent.parent; } fn.parent = parent; if (parent) { maxNesting = Math.max(maxNesting, parent.addNestedFunktion(fn)); } parent = fn; } }); // Sanity checks to ensure that scripts are executed and parsed before any // of its funktions. let funktionFirstParseEventTimestamp = -1; // Second iteration step to finalize the funktions once the proper // hierarchy has been set up. this.funktions.forEach(fn => { fn.finalize(); funktionFirstParseEventTimestamp = this.timestampMin( funktionFirstParseEventTimestamp, fn.firstParseEventTimestamp); this.lastParseEventTimestamp = this.timestampMax( this.lastParseEventTimestamp, fn.lastParseEventTimestamp); this.lastEventTimestamp = this.timestampMax(this.lastEventTimestamp, fn.lastEventTimestamp); }); this.maxNestingLevel = maxNesting; // Initialize sizes. if (!this.ownBytes === -1) throw 'Invalid state'; if (this.funktions.length == 0) { this.bytesTotal = this.ownBytes = 0; return; } let toplevelFunktionBytes = this.funktions.reduce( (bytes, each) => bytes + (each.isToplevel() ? each.getBytes() : 0), 0); if (this.isDeserialized || this.isEval || this.isStreamingCompiled) { if (this.getBytes() === -1) { this.bytesTotal = toplevelFunktionBytes; } } this.ownBytes = this.bytesTotal - toplevelFunktionBytes; // Initialize common properties. super.finalize(); // Sanity checks after the minimum timestamps have been computed. if (funktionFirstParseEventTimestamp < this.firstParseEventTimestamp) { console.error( 'invalid firstCompileEventTimestamp', this, funktionFirstParseEventTimestamp, this.firstParseEventTimestamp); } } print() { console.log(this.toString()); } toString() { let str = `SCRIPT id=${this.id} file=${this.file}\n` + `functions[${this.funktions.length}]:`; this.funktions.forEach(fn => str += fn.toString()); return str; } getBytes() { return this.bytesTotal; } getOwnBytes() { return this.ownBytes; } // Also see Funktion.prototype.getMetricBytes getMetricBytes(name) { if (name == 'lazyCompileTimestamp') return this.getOwnBytes(); return this.getOwnBytes(); } getMetricDuration(name) { return this[name]; } forEach(fn) { fn(this); this.funktions.forEach(fn); } // Container helper for TotalScript / Script. getScripts() { return [this]; } calculateMetrics(printSummary) { let log = (str) => this.summary += str + '\n'; log("SCRIPT: " + this.id); let all = this.funktions; if (all.length === 0) return; let nofFunktions = all.length; let ownBytesSum = list => { return list.reduce((bytes, each) => bytes + each.getOwnBytes(), 0) }; let info = (name, funktions) => { let ownBytes = ownBytesSum(funktions); let nofPercent = Math.round(funktions.length / nofFunktions * 100); let value = (funktions.length + "").padStart(6) + (nofPercent + "%").padStart(5) + BYTES(ownBytes, this.bytesTotal).padStart(10); log((" - " + name).padEnd(20) + value); this.metrics.set(name + "-bytes", ownBytes); this.metrics.set(name + "-count", funktions.length); this.metrics.set(name + "-count-percent", nofPercent); this.metrics.set(name + "-bytes-percent", Math.round(ownBytes / this.bytesTotal * 100)); }; log(" - file: " + this.file); log(' - details: ' + 'isEval=' + this.isEval + ' deserialized=' + this.isDeserialized + ' streamed=' + this.isStreamingCompiled); info("scripts", this.getScripts()); info("functions", all); info("toplevel fn", all.filter(each => each.isToplevel())); info('preparsed', all.filter(each => each.preparseDuration > 0)); info('fully parsed', all.filter(each => each.parseDuration > 0)); // info("fn parsed", all.filter(each => each.parse2Duration > 0)); // info("resolved", all.filter(each => each.resolutionDuration > 0)); info("executed", all.filter(each => each.executionTimestamp > 0)); info('forEval', all.filter(each => each.isEval)); info("lazy compiled", all.filter(each => each.lazyCompileTimestamp > 0)); info("eager compiled", all.filter(each => each.compileTimestamp > 0)); let parsingCost = new ExecutionCost('parse', all, each => each.parseDuration); parsingCost.setMetrics(this.metrics); log(parsingCost.toString()); let preParsingCost = new ExecutionCost('preparse', all, each => each.preparseDuration); preParsingCost.setMetrics(this.metrics); log(preParsingCost.toString()); let resolutionCost = new ExecutionCost('resolution', all, each => each.resolutionDuration); resolutionCost.setMetrics(this.metrics); log(resolutionCost.toString()); let nesting = new NestingDistribution(all); nesting.setMetrics(this.metrics); log(nesting.toString()); if (printSummary) console.log(this.summary); } getAccumulatedTimeMetrics( metrics, start, end, delta, cumulative = true, useDuration = false) { // Returns an array of the following format: // [ [start, acc(metric0, start, start), acc(metric1, ...), ...], // [start+delta, acc(metric0, start, start+delta), ...], // [start+delta*2, acc(metric0, start, start+delta*2), ...], // ... // ] if (end <= start) throw 'Invalid ranges [' + start + ',' + end + ']'; const timespan = end - start; const kSteps = Math.ceil(timespan / delta); // To reduce the time spent iterating over the funktions of this script // we iterate once over all funktions and add the metric changes to each // timepoint: // [ [0, 300, ...], [1, 15, ...], [2, 100, ...], [3, 0, ...] ... ] // In a second step we accumulate all values: // [ [0, 300, ...], [1, 315, ...], [2, 415, ...], [3, 415, ...] ... ] // // To limit the number of data points required in the resulting graphs, // only the rows for entries with actual changes are created. const metricProperties = ["time"]; metrics.forEach(each => { metricProperties.push(each + 'Timestamp'); if (useDuration) metricProperties.push(each + 'Duration'); }); // Create a packed {rowTemplate} which is copied later-on. let indexToTime = (t) => (start + t * delta) / kSecondsToMillis; let rowTemplate = [indexToTime(0)]; for (let i = 1; i < metricProperties.length; i++) rowTemplate.push(0.0); // Create rows with 0-time entry. let rows = new Array(rowTemplate.slice()); for (let t = 1; t <= kSteps; t++) rows.push(null); // Create the real metric's property name on the Funktion object. // Add the increments of each Funktion's metric to the result. this.forEach(funktionOrScript => { // Iterate over the Funktion's metric names, skipping position 0 which // is the time. const kMetricIncrement = useDuration ? 2 : 1; for (let i = 1; i < metricProperties.length; i += kMetricIncrement) { let timestampPropertyName = metricProperties[i]; let timestamp = funktionOrScript[timestampPropertyName]; if (timestamp === void 0) continue; if (timestamp < start || end < timestamp) continue; timestamp -= start; let index = Math.floor(timestamp / delta); let row = rows[index]; if (row === null) { // Add a new row if it didn't exist, row = rows[index] = rowTemplate.slice(); // .. add the time offset. row[0] = indexToTime(index); } // Add the metric value. row[i] += funktionOrScript.getMetricBytes(timestampPropertyName); if (!useDuration) continue; let durationPropertyName = metricProperties[i + 1]; row[i + 1] += funktionOrScript.getMetricDuration(durationPropertyName); } }); // Create a packed array again with only the valid entries. // Accumulate the incremental results by adding the metric values from // the previous time window. let previous = rows[0]; let result = [previous]; for (let t = 1; t < rows.length; t++) { let current = rows[t]; if (current === null) { // Ensure a zero data-point after each non-zero point. if (!cumulative && rows[t - 1] !== null) { let duplicate = rowTemplate.slice(); duplicate[0] = indexToTime(t); result.push(duplicate); } continue; } if (cumulative) { // Skip i==0 where the corresponding time value in seconds is. for (let i = 1; i < metricProperties.length; i++) { current[i] += previous[i]; } } // Make sure we have a data-point in time right before the current one. if (rows[t - 1] === null) { let duplicate = (!cumulative ? rowTemplate : previous).slice(); duplicate[0] = indexToTime(t - 1); result.push(duplicate); } previous = current; result.push(current); } // Make sure there is an entry at the last position to make sure all graphs // have the same width. const lastIndex = rows.length - 1; if (rows[lastIndex] === null) { let duplicate = previous.slice(); duplicate[0] = indexToTime(lastIndex); result.push(duplicate); } return result; } getFunktionsAtTime(time, delta, metric) { // Returns a list of Funktions whose metric changed in the // [time-delta, time+delta] range. return this.funktions.filter( funktion => funktion.didMetricChange(time, delta, metric)); return result; } } class TotalScript extends Script { constructor() { super('all files', 'all files'); this.scripts = []; } addAllFunktions(script) { // funktions is indexed by byte offset and as such not packed. Add every // Funktion one by one to keep this.funktions packed. script.funktions.forEach(fn => this.funktions.push(fn)); this.scripts.push(script); this.bytesTotal += script.bytesTotal; } // Iterate over all Scripts and nested Funktions. forEach(fn) { this.scripts.forEach(script => script.forEach(fn)); } getScripts() { return this.scripts; } } // =========================================================================== class NestingDistribution { constructor(funktions) { // Stores the nof bytes per function nesting level. this.accumulator = [0, 0, 0, 0, 0]; // Max nof bytes encountered at any nesting level. this.max = 0; // avg bytes per nesting level. this.avg = 0; this.totalBytes = 0; funktions.forEach(each => each.accumulateNestingLevel(this.accumulator)); this.max = this.accumulator.reduce((max, each) => Math.max(max, each), 0); this.totalBytes = this.accumulator.reduce((sum, each) => sum + each, 0); for (let i = 0; i < this.accumulator.length; i++) { this.avg += this.accumulator[i] * i; } this.avg /= this.totalBytes; } print() { console.log(this.toString()) } toString() { let ticks = " ▁▂▃▄▅▆▇█"; let accString = this.accumulator.reduce((str, each) => { let index = Math.round(each / this.max * (ticks.length - 1)); return str + ticks[index]; }, ''); let percent0 = this.accumulator[0] let percent1 = this.accumulator[1]; let percent2plus = this.accumulator.slice(2) .reduce((sum, each) => sum + each, 0); return " - nesting level: " + ' avg=' + formatNumber(this.avg) + ' l0=' + PERCENT(percent0, this.totalBytes) + ' l1=' + PERCENT(percent1, this.totalBytes) + ' l2+=' + PERCENT(percent2plus, this.totalBytes) + ' distribution=[' + accString + ']'; } setMetrics(dict) {} } class ExecutionCost { constructor(prefix, funktions, time_fn) { this.prefix = prefix; // Time spent on executed functions. this.executedCost = 0 // Time spent on not executed functions. this.nonExecutedCost = 0; this.executedCost = funktions.reduce((sum, each) => { return sum + (each.hasBeenExecuted() ? time_fn(each) : 0) }, 0); this.nonExecutedCost = funktions.reduce((sum, each) => { return sum + (each.hasBeenExecuted() ? 0 : time_fn(each)) }, 0); } print() { console.log(this.toString()) } toString() { return (' - ' + this.prefix + '-time:').padEnd(24) + (" executed=" + formatNumber(this.executedCost) + 'ms').padEnd(20) + " non-executed=" + formatNumber(this.nonExecutedCost) + 'ms'; } setMetrics(dict) { dict.set('parseMetric', this.executionCost); dict.set('parseMetricNegative', this.nonExecutionCost); } } // =========================================================================== class Funktion extends CompilationUnit { constructor(name, start, end, script) { super(); if (start < 0) throw "invalid start position: " + start; if (script.isEval) { if (end < start) throw 'invalid start end positions'; } else { if (end <= 0) throw 'invalid end position: ' + end; if (end <= start) throw 'invalid start end positions'; } this.name = name; this.start = start; this.end = end; this.script = script; this.parent = null; this.nested = []; this.nestingLevel = 0; if (script) this.script.addFunktion(this); } finalize() { this.lastParseEventTimestamp = Math.max( this.preparseTimestamp + this.preparseDuration, this.parseTimestamp + this.parseDuration, this.resolutionTimestamp + this.resolutionDuration); if (!(this.lastParseEventTimestamp > 0)) this.lastParseEventTimestamp = 0; this.lastEventTimestamp = Math.max(this.lastParseEventTimestamp, this.executionTimestamp); if (!(this.lastEventTimestamp > 0)) this.lastEventTimestamp = 0; this.ownBytes = this.nested.reduce( (bytes, each) => bytes - each.getBytes(), this.getBytes()); super.finalize(); } getMetricBytes(name) { if (name == 'lazyCompileTimestamp') return this.getOwnBytes(); return this.getOwnBytes(); } getMetricDuration(name) { if (name in kNoTimeMetrics) return 0; return this[name]; } isNestedIn(funktion) { if (this.script != funktion.script) throw "Incompatible script"; return funktion.start < this.start && this.end <= funktion.end; } isToplevel() { return this.parent === null; } containsPosition(position) { return this.start <= position && position <= this.end; } accumulateNestingLevel(accumulator) { let value = accumulator[this.nestingLevel] || 0; accumulator[this.nestingLevel] = value + this.getOwnBytes(); } addNestedFunktion(child) { if (this.script != child.script) throw "Incompatible script"; if (child == null) throw "Nesting non child"; this.nested.push(child); if (this.nested.length > 1) { // Make sure the nested children don't overlap and have been inserted in // byte start position order. let last = this.nested[this.nested.length - 2]; if (last.end > child.start || last.start > child.start || last.end > child.end || last.start > child.end) { throw "Wrongly nested child added"; } } child.nestingLevel = this.nestingLevel + 1; return child.nestingLevel; } getBytes() { return this.end - this.start; } getOwnBytes() { return this.ownBytes; } didMetricChange(time, delta, name) { let value = this[name + 'Timestamp']; return (time - delta) <= value && value <= (time + delta); } print() { console.log(this.toString()); } toString(details = true) { let result = 'function' + (this.name ? ' ' + this.name : '') + `() range=${this.start}-${this.end}`; if (details) result += ` script=${this.script ? this.script.id : 'X'}`; return result; } } // =========================================================================== const kTimestampFactor = 1000; const kSecondsToMillis = 1000; function toTimestamp(microseconds) { return microseconds / kTimestampFactor } function startOf(timestamp, time) { let result = toTimestamp(timestamp) - time; if (result < 0) throw "start timestamp cannnot be negative"; return result; } class ParseProcessor extends LogReader { constructor() { super(); this.dispatchTable_ = { // Avoid accidental leaking of __proto__ properties and force this object // to be in dictionary-mode. __proto__: null, // "function",{event type}, // {script id},{start position},{end position},{time},{timestamp}, // {function name} 'function': { parsers: [ parseString, parseInt, parseInt, parseInt, parseFloat, parseInt, parseString ], processor: this.processFunctionEvent }, // "compilation-cache","hit"|"put",{type},{scriptid},{start position}, // {end position},{timestamp} 'compilation-cache': { parsers: [parseString, parseString, parseInt, parseInt, parseInt, parseInt], processor: this.processCompilationCacheEvent }, 'script': { parsers: [parseString, parseInt, parseInt], processor: this.processScriptEvent }, // "script-details", {script_id}, {file}, {line}, {column}, {size} 'script-details': { parsers: [parseInt, parseString, parseInt, parseInt, parseInt], processor: this.processScriptDetails }, 'script-source': { parsers: [parseInt, parseString, parseString], processor: this.processScriptSource }, }; this.functionEventDispatchTable_ = { // Avoid accidental leaking of __proto__ properties and force this object // to be in dictionary-mode. __proto__: null, 'full-parse': this.processFull.bind(this), 'parse-function': this.processParseFunction.bind(this), // TODO(cbruni): make sure arrow functions emit a normal parse-function // event. 'parse': this.processParseFunction.bind(this), 'parse-script': this.processParseScript.bind(this), 'parse-eval': this.processParseEval.bind(this), 'preparse-no-resolution': this.processPreparseNoResolution.bind(this), 'preparse-resolution': this.processPreparseResolution.bind(this), 'first-execution': this.processFirstExecution.bind(this), 'compile-lazy': this.processCompileLazy.bind(this), 'compile': this.processCompile.bind(this), 'compile-eval': this.processCompileEval.bind(this), 'optimize-lazy': this.processOptimizeLazy.bind(this), 'deserialize': this.processDeserialize.bind(this), }; this.idToScript = new Map(); this.fileToScript = new Map(); this.nameToFunction = new Map(); this.scripts = []; this.totalScript = new TotalScript(); this.firstEventTimestamp = -1; this.lastParseEventTimestamp = -1; this.lastEventTimestamp = -1; } print() { console.log("scripts:"); this.idToScript.forEach(script => script.print()); } processString(string) { let end = string.length; let current = 0; let next = 0; let line; let i = 0; let entry; while (current < end) { next = string.indexOf("\n", current); if (next === -1) break; i++; line = string.substring(current, next); current = next + 1; this.processLogLine(line); } this.postProcess(); } processLogFile(fileName) { this.collectEntries = true this.lastLogFileName_ = fileName; var line; while (line = readline()) { this.processLogLine(line); } this.postProcess(); } postProcess() { this.scripts = Array.from(this.idToScript.values()) .filter(each => !each.isNative); this.scripts.forEach(script => { script.finalize(); script.calculateMetrics(false) }); this.scripts.forEach(script => this.totalScript.addAllFunktions(script)); this.totalScript.calculateMetrics(true); this.firstEventTimestamp = this.totalScript.timestampMin( this.scripts.map(each => each.firstEventTimestamp)); this.lastParseEventTimestamp = this.totalScript.timestampMax( this.scripts.map(each => each.lastParseEventTimestamp)); this.lastEventTimestamp = this.totalScript.timestampMax( this.scripts.map(each => each.lastEventTimestamp)); const series = { firstParseEvent: 'Any Parse Event', parse: 'Parsing', preparse: 'Preparsing', resolution: 'Preparsing with Var. Resolution', lazyCompile: 'Lazy Compilation', compile: 'Eager Compilation', execution: 'First Execution', }; let metrics = Object.keys(series); this.totalScript.getAccumulatedTimeMetrics( metrics, 0, this.lastEventTimestamp, 10); } processFunctionEvent( eventName, scriptId, startPosition, endPosition, duration, timestamp, functionName) { let handlerFn = this.functionEventDispatchTable_[eventName]; if (handlerFn === undefined) { console.error('Couldn\'t find handler for function event:' + eventName); } handlerFn( scriptId, startPosition, endPosition, duration, timestamp, functionName); } addEntry(entry) { this.entries.push(entry); } lookupScript(id) { return this.idToScript.get(id); } getOrCreateFunction( scriptId, startPosition, endPosition, duration, timestamp, functionName) { if (scriptId == -1) { return this.lookupFunktionByRange(startPosition, endPosition); } let script = this.lookupScript(scriptId); let funktion = script.getFunktionAtStartPosition(startPosition); if (funktion === void 0) { funktion = new Funktion(functionName, startPosition, endPosition, script); } return funktion; } // Iterates over all functions and tries to find matching ones. lookupFunktionsByRange(start, end) { let results = []; this.idToScript.forEach(script => { script.forEach(funktion => { if (funktion.startPostion == start && funktion.endPosition == end) { results.push(funktion); } }); }); return results; } lookupFunktionByRange(start, end) { let results = this.lookupFunktionsByRange(start, end); if (results.length != 1) throw "Could not find unique function by range"; return results[0]; } processScriptEvent(eventName, scriptId, timestamp) { let script = this.idToScript.get(scriptId); switch (eventName) { case 'create': case 'reserve-id': case 'deserialize': { if (script !== undefined) return; script = new Script(scriptId); this.idToScript.set(scriptId, script); if (eventName == 'deserialize') { script.deserializationTimestamp = toTimestamp(timestamp); } return; } case 'background-compile': if (script.isBackgroundCompiled) { throw 'Cannot background-compile twice'; } script.isBackgroundCompiled = true; // TODO(cbruni): remove once backwards compatibility is no longer needed. script.isStreamingCompiled = true; // TODO(cbruni): fix parse events for background compilation scripts script.preparseTimestamp = toTimestamp(timestamp); return; case 'streaming-compile': if (script.isStreamingCompiled) throw 'Cannot stream-compile twice'; // TODO(cbruni): remove once backwards compatibility is no longer needed. script.isBackgroundCompiled = true; script.isStreamingCompiled = true; // TODO(cbruni): fix parse events for background compilation scripts script.preparseTimestamp = toTimestamp(timestamp); return; default: console.error('Unhandled script event: ' + eventName); } } processScriptDetails(scriptId, file, startLine, startColumn, size) { let script = this.lookupScript(scriptId); script.setFile(file); } processScriptSource(scriptId, url, source) { let script = this.lookupScript(scriptId); script.source = source; } processParseEval( scriptId, startPosition, endPosition, duration, timestamp, functionName) { if (startPosition != 0 && startPosition != -1) { console.error('Invalid start position for parse-eval', arguments); } let script = this.processParseScript(...arguments); script.isEval = true; } processFull( scriptId, startPosition, endPosition, duration, timestamp, functionName) { if (startPosition == 0) { // This should only happen for eval. let script = this.lookupScript(scriptId); script.isEval = true; return; } let funktion = this.getOrCreateFunction(...arguments); // TODO(cbruni): this should never happen, emit differen event from the // parser. if (funktion.parseTimestamp > 0) return; funktion.parseTimestamp = startOf(timestamp, duration); funktion.parseDuration = duration; } processParseFunction( scriptId, startPosition, endPosition, duration, timestamp, functionName) { let funktion = this.getOrCreateFunction(...arguments); funktion.parseTimestamp = startOf(timestamp, duration); funktion.parseDuration = duration; } processParseScript( scriptId, startPosition, endPosition, duration, timestamp, functionName) { // TODO timestamp and duration let script = this.lookupScript(scriptId); let ts = startOf(timestamp, duration); script.parseTimestamp = ts; script.parseDuration = duration; return script; } processPreparseResolution( scriptId, startPosition, endPosition, duration, timestamp, functionName) { let funktion = this.getOrCreateFunction(...arguments); // TODO(cbruni): this should never happen, emit different event from the // parser. if (funktion.resolutionTimestamp > 0) return; funktion.resolutionTimestamp = startOf(timestamp, duration); funktion.resolutionDuration = duration; } processPreparseNoResolution( scriptId, startPosition, endPosition, duration, timestamp, functionName) { let funktion = this.getOrCreateFunction(...arguments); funktion.preparseTimestamp = startOf(timestamp, duration); funktion.preparseDuration = duration; } processFirstExecution( scriptId, startPosition, endPosition, duration, timestamp, functionName) { let script = this.lookupScript(scriptId); if (startPosition === 0) { // undefined = eval fn execution if (script) { script.executionTimestamp = toTimestamp(timestamp); } } else { let funktion = script.getFunktionAtStartPosition(startPosition); if (funktion) { funktion.executionTimestamp = toTimestamp(timestamp); } else { // TODO(cbruni): handle funktions from compilation-cache hits. } } } processCompileLazy( scriptId, startPosition, endPosition, duration, timestamp, functionName) { let funktion = this.getOrCreateFunction(...arguments); funktion.lazyCompileTimestamp = startOf(timestamp, duration); funktion.lazyCompileDuration = duration; } processCompile( scriptId, startPosition, endPosition, duration, timestamp, functionName) { let script = this.lookupScript(scriptId); if (startPosition === 0) { script.compileTimestamp = startOf(timestamp, duration); script.compileDuration = duration; script.bytesTotal = endPosition; return script; } else { let funktion = script.getFunktionAtStartPosition(startPosition); if (funktion === undefined) { // This should not happen since any funktion has to be parsed first. console.error('processCompile funktion not found', ...arguments); return; } funktion.compileTimestamp = startOf(timestamp, duration); funktion.compileDuration = duration; return funktion; } } processCompileEval( scriptId, startPosition, endPosition, duration, timestamp, functionName) { let compilationUnit = this.processCompile(...arguments); compilationUnit.isEval = true; } processOptimizeLazy( scriptId, startPosition, endPosition, duration, timestamp, functionName) { let compilationUnit = this.lookupScript(scriptId); if (startPosition > 0) { compilationUnit = compilationUnit.getFunktionAtStartPosition(startPosition); if (compilationUnit === undefined) { // This should not happen since any funktion has to be parsed first. console.error('processOptimizeLazy funktion not found', ...arguments); return; } } compilationUnit.optimizationTimestamp = startOf(timestamp, duration); compilationUnit.optimizationDuration = duration; } processDeserialize( scriptId, startPosition, endPosition, duration, timestamp, functionName) { let compilationUnit = this.lookupScript(scriptId); if (startPosition === 0) { compilationUnit.bytesTotal = endPosition; } else { compilationUnit = this.getOrCreateFunction(...arguments); } compilationUnit.deserializationTimestamp = startOf(timestamp, duration); compilationUnit.deserializationDuration = duration; } processCompilationCacheEvent( eventType, cacheType, scriptId, startPosition, endPosition, timestamp) { if (eventType !== 'hit') return; let compilationUnit = this.lookupScript(scriptId); if (startPosition > 0) { compilationUnit = compilationUnit.getFunktionAtStartPosition(startPosition); } compilationUnit.addCompilationCacheHit(toTimestamp(timestamp)); } } class ArgumentsProcessor extends BaseArgumentsProcessor { getArgsDispatch() { return {}; } getDefaultResults() { return { logFileName: 'v8.log', range: 'auto,auto', }; } }