5ecb5bd978
Some logic still remains, notably in compiler/. Bug: v8:8888 Change-Id: I7e7f10a487e1bc8b90bbbfedbc46bf09bae0717e Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2825589 Commit-Queue: Jakob Gruber <jgruber@chromium.org> Reviewed-by: Ross McIlroy <rmcilroy@chromium.org> Reviewed-by: Dominik Inführ <dinfuehr@chromium.org> Cr-Commit-Position: refs/heads/master@{#73969}
647 lines
19 KiB
JavaScript
647 lines
19 KiB
JavaScript
// Copyright 2017 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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"use strict";
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let codeKinds = [
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"UNKNOWN",
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"CPPPARSE",
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"CPPCOMPBC",
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"CPPCOMP",
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"CPPGC",
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"CPPEXT",
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"CPP",
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"LIB",
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"IC",
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"BC",
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"STUB",
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"BUILTIN",
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"REGEXP",
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"JSOPT",
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"JSUNOPT",
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"JSTURBOPROP",
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"JSBASELINE",
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];
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function resolveCodeKind(code) {
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if (!code || !code.type) {
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return "UNKNOWN";
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} else if (code.type === "CPP") {
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return "CPP";
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} else if (code.type === "SHARED_LIB") {
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return "LIB";
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} else if (code.type === "CODE") {
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if (code.kind === "LoadIC" ||
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code.kind === "StoreIC" ||
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code.kind === "KeyedStoreIC" ||
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code.kind === "KeyedLoadIC" ||
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code.kind === "LoadGlobalIC" ||
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code.kind === "Handler") {
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return "IC";
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} else if (code.kind === "BytecodeHandler") {
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return "BC";
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} else if (code.kind === "Stub") {
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return "STUB";
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} else if (code.kind === "Builtin") {
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return "BUILTIN";
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} else if (code.kind === "RegExp") {
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return "REGEXP";
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}
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console.log("Unknown CODE: '" + code.kind + "'.");
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return "CODE";
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} else if (code.type === "JS") {
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if (code.kind === "Builtin") {
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return "JSUNOPT";
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} else if (code.kind === "Opt") {
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return "JSOPT";
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} else if (code.kind === "Unopt") {
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return "JSUNOPT";
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} else if (code.kind === "Baseline") {
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return "JSBASELINE";
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} else if (code.kind === "Turboprop") {
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return "JSTURBOPROP";
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}
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}
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console.log("Unknown code type '" + type + "'.");
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}
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function resolveCodeKindAndVmState(code, vmState) {
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let kind = resolveCodeKind(code);
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if (kind === "CPP") {
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if (vmState === 1) {
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kind = "CPPGC";
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} else if (vmState === 2) {
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kind = "CPPPARSE";
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} else if (vmState === 3) {
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kind = "CPPCOMPBC";
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} else if (vmState === 4) {
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kind = "CPPCOMP";
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} else if (vmState === 6) {
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kind = "CPPEXT";
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}
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}
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return kind;
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}
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function codeEquals(code1, code2, allowDifferentKinds = false) {
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if (!code1 || !code2) return false;
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if (code1.name !== code2.name || code1.type !== code2.type) return false;
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if (code1.type === 'CODE') {
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if (!allowDifferentKinds && code1.kind !== code2.kind) return false;
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} else if (code1.type === 'JS') {
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if (!allowDifferentKinds && code1.kind !== code2.kind) return false;
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if (code1.func !== code2.func) return false;
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}
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return true;
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}
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function createNodeFromStackEntry(code, codeId, vmState) {
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let name = code ? code.name : "UNKNOWN";
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let node = createEmptyNode(name);
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node.codeId = codeId;
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node.type = resolveCodeKindAndVmState(code, vmState);
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return node;
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}
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function childIdFromCode(codeId, code) {
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// For JavaScript function, pretend there is one instance of optimized
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// function and one instance of unoptimized function per SFI.
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// Otherwise, just compute the id from code id.
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let type = resolveCodeKind(code);
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if (type === "JSOPT") {
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return code.func * 4 + 1;
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} else if (type === "JSUNOPT") {
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return code.func * 4 + 2;
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} else {
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return codeId * 4;
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}
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}
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// We store list of ticks and positions within the ticks stack by
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// storing flattened triplets of { tickIndex, depth, count }.
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// Triplet { 123, 2, 3 } encodes positions in ticks 123, 124, 125,
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// all of them at depth 2. The flattened array is used to encode
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// position within the call-tree.
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// The following function helps to encode such triplets.
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function addFrameToFrameList(paths, pathIndex, depth) {
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// Try to combine with the previous code run.
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if (paths.length > 0 &&
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paths[paths.length - 3] + 1 === pathIndex &&
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paths[paths.length - 2] === depth) {
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paths[paths.length - 1]++;
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} else {
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paths.push(pathIndex, depth, 1);
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}
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}
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function findNextFrame(file, stack, stackPos, step, filter) {
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let codeId = -1;
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let code = null;
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while (stackPos >= 0 && stackPos < stack.length) {
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codeId = stack[stackPos];
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code = codeId >= 0 ? file.code[codeId] : undefined;
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if (filter) {
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let type = code ? code.type : undefined;
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let kind = code ? code.kind : undefined;
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if (filter(type, kind)) return stackPos;
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}
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stackPos += step;
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}
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return -1;
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}
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function addOrUpdateChildNode(parent, file, stackIndex, stackPos, ascending) {
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if (stackPos === -1) {
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// We reached the end without finding the next step.
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// If we are doing top-down call tree, update own ticks.
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if (!ascending) {
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parent.ownTicks++;
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}
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return;
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}
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let stack = file.ticks[stackIndex].s;
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console.assert(stackPos >= 0 && stackPos < stack.length);
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let codeId = stack[stackPos];
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let code = codeId >= 0 ? file.code[codeId] : undefined;
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// We found a child node.
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let childId = childIdFromCode(codeId, code);
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let child = parent.children[childId];
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if (!child) {
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let vmState = file.ticks[stackIndex].vm;
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child = createNodeFromStackEntry(code, codeId, vmState);
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child.delayedExpansion = { frameList : [], ascending };
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parent.children[childId] = child;
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}
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child.ticks++;
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addFrameToFrameList(child.delayedExpansion.frameList, stackIndex, stackPos);
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}
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// This expands a tree node (direct children only).
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function expandTreeNode(file, node, filter) {
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let { frameList, ascending } = node.delayedExpansion;
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let step = ascending ? 2 : -2;
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for (let i = 0; i < frameList.length; i+= 3) {
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let firstStackIndex = frameList[i];
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let depth = frameList[i + 1];
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let count = frameList[i + 2];
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for (let j = 0; j < count; j++) {
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let stackIndex = firstStackIndex + j;
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let stack = file.ticks[stackIndex].s;
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// Get to the next frame that has not been filtered out.
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let stackPos = findNextFrame(file, stack, depth + step, step, filter);
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addOrUpdateChildNode(node, file, stackIndex, stackPos, ascending);
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}
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}
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node.delayedExpansion = null;
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}
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function createEmptyNode(name) {
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return {
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name : name,
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codeId: -1,
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type : "CAT",
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children : [],
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ownTicks : 0,
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ticks : 0
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};
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}
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class RuntimeCallTreeProcessor {
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constructor() {
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this.tree = createEmptyNode("root");
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this.tree.delayedExpansion = { frameList : [], ascending : false };
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}
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addStack(file, tickIndex) {
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this.tree.ticks++;
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let stack = file.ticks[tickIndex].s;
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let i;
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for (i = 0; i < stack.length; i += 2) {
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let codeId = stack[i];
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if (codeId < 0) return;
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let code = file.code[codeId];
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if (code.type !== "CPP" && code.type !== "SHARED_LIB") {
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i -= 2;
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break;
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}
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}
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if (i < 0 || i >= stack.length) return;
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addOrUpdateChildNode(this.tree, file, tickIndex, i, false);
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}
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}
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class PlainCallTreeProcessor {
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constructor(filter, isBottomUp) {
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this.filter = filter;
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this.tree = createEmptyNode("root");
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this.tree.delayedExpansion = { frameList : [], ascending : isBottomUp };
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this.isBottomUp = isBottomUp;
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}
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addStack(file, tickIndex) {
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let stack = file.ticks[tickIndex].s;
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let step = this.isBottomUp ? 2 : -2;
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let start = this.isBottomUp ? 0 : stack.length - 2;
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let stackPos = findNextFrame(file, stack, start, step, this.filter);
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addOrUpdateChildNode(this.tree, file, tickIndex, stackPos, this.isBottomUp);
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this.tree.ticks++;
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}
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}
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function buildCategoryTreeAndLookup() {
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let root = createEmptyNode("root");
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let categories = {};
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function addCategory(name, types) {
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let n = createEmptyNode(name);
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for (let i = 0; i < types.length; i++) {
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categories[types[i]] = n;
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}
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root.children.push(n);
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}
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addCategory("JS Optimized", [ "JSOPT" ]);
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addCategory("JS Turboprop", [ "JSTURBOPROP" ]);
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addCategory("JS Baseline", [ "JSBASELINE" ]);
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addCategory("JS Unoptimized", [ "JSUNOPT", "BC" ]);
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addCategory("IC", [ "IC" ]);
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addCategory("RegExp", [ "REGEXP" ]);
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addCategory("Other generated", [ "STUB", "BUILTIN" ]);
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addCategory("C++", [ "CPP", "LIB" ]);
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addCategory("C++/GC", [ "CPPGC" ]);
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addCategory("C++/Parser", [ "CPPPARSE" ]);
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addCategory("C++/Bytecode compiler", [ "CPPCOMPBC" ]);
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addCategory("C++/Compiler", [ "CPPCOMP" ]);
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addCategory("C++/External", [ "CPPEXT" ]);
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addCategory("Unknown", [ "UNKNOWN" ]);
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return { categories, root };
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}
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class CategorizedCallTreeProcessor {
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constructor(filter, isBottomUp) {
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this.filter = filter;
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let { categories, root } = buildCategoryTreeAndLookup();
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this.tree = root;
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this.categories = categories;
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this.isBottomUp = isBottomUp;
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}
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addStack(file, tickIndex) {
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let stack = file.ticks[tickIndex].s;
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let vmState = file.ticks[tickIndex].vm;
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if (stack.length === 0) return;
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let codeId = stack[0];
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let code = codeId >= 0 ? file.code[codeId] : undefined;
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let kind = resolveCodeKindAndVmState(code, vmState);
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let node = this.categories[kind];
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this.tree.ticks++;
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node.ticks++;
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let step = this.isBottomUp ? 2 : -2;
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let start = this.isBottomUp ? 0 : stack.length - 2;
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let stackPos = findNextFrame(file, stack, start, step, this.filter);
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addOrUpdateChildNode(node, file, tickIndex, stackPos, this.isBottomUp);
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}
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}
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class FunctionListTree {
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constructor(filter, withCategories) {
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if (withCategories) {
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let { categories, root } = buildCategoryTreeAndLookup();
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this.tree = root;
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this.categories = categories;
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} else {
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this.tree = createEmptyNode("root");
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this.categories = null;
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}
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this.codeVisited = [];
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this.filter = filter;
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}
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addStack(file, tickIndex) {
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let stack = file.ticks[tickIndex].s;
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let vmState = file.ticks[tickIndex].vm;
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this.tree.ticks++;
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let child = null;
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let tree = null;
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for (let i = stack.length - 2; i >= 0; i -= 2) {
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let codeId = stack[i];
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if (codeId < 0 || this.codeVisited[codeId]) continue;
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let code = file.code[codeId];
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if (this.filter) {
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let type = code ? code.type : undefined;
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let kind = code ? code.kind : undefined;
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if (!this.filter(type, kind)) continue;
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}
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let childId = childIdFromCode(codeId, code);
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if (this.categories) {
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let kind = resolveCodeKindAndVmState(code, vmState);
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tree = this.categories[kind];
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} else {
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tree = this.tree;
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}
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child = tree.children[childId];
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if (!child) {
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child = createNodeFromStackEntry(code, codeId, vmState);
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child.children[0] = createEmptyNode("Top-down tree");
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child.children[0].delayedExpansion =
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{ frameList : [], ascending : false };
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child.children[1] = createEmptyNode("Bottom-up tree");
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child.children[1].delayedExpansion =
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{ frameList : [], ascending : true };
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tree.children[childId] = child;
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}
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child.ticks++;
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child.children[0].ticks++;
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addFrameToFrameList(
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child.children[0].delayedExpansion.frameList, tickIndex, i);
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child.children[1].ticks++;
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addFrameToFrameList(
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child.children[1].delayedExpansion.frameList, tickIndex, i);
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this.codeVisited[codeId] = true;
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}
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if (child) {
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child.ownTicks++;
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console.assert(tree !== null);
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tree.ticks++;
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console.assert(tree.type === "CAT");
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}
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for (let i = 0; i < stack.length; i += 2) {
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let codeId = stack[i];
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if (codeId >= 0) this.codeVisited[codeId] = false;
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}
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}
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}
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class CategorySampler {
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constructor(file, bucketCount) {
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this.bucketCount = bucketCount;
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this.firstTime = file.ticks[0].tm;
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let lastTime = file.ticks[file.ticks.length - 1].tm;
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this.step = (lastTime - this.firstTime) / bucketCount;
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this.buckets = [];
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let bucket = {};
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for (let i = 0; i < codeKinds.length; i++) {
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bucket[codeKinds[i]] = 0;
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}
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for (let i = 0; i < bucketCount; i++) {
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this.buckets.push(Object.assign({ total : 0 }, bucket));
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}
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}
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addStack(file, tickIndex) {
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let { tm : timestamp, vm : vmState, s : stack } = file.ticks[tickIndex];
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let i = Math.floor((timestamp - this.firstTime) / this.step);
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if (i === this.buckets.length) i--;
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console.assert(i >= 0 && i < this.buckets.length);
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let bucket = this.buckets[i];
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bucket.total++;
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let codeId = (stack.length > 0) ? stack[0] : -1;
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let code = codeId >= 0 ? file.code[codeId] : undefined;
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let kind = resolveCodeKindAndVmState(code, vmState);
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bucket[kind]++;
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}
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}
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class FunctionTimelineProcessor {
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constructor(functionCodeId, filter) {
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this.functionCodeId = functionCodeId;
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this.filter = filter;
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this.blocks = [];
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this.currentBlock = null;
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}
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addStack(file, tickIndex) {
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if (!this.functionCodeId) return;
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let { tm : timestamp, vm : vmState, s : stack } = file.ticks[tickIndex];
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let functionCode = file.code[this.functionCodeId];
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// Find if the function is on the stack, and its position on the stack,
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// ignoring any filtered entries.
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let stackCode = undefined;
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let functionPosInStack = -1;
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let filteredI = 0;
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for (let i = 0; i < stack.length - 1; i += 2) {
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let codeId = stack[i];
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let code = codeId >= 0 ? file.code[codeId] : undefined;
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let type = code ? code.type : undefined;
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let kind = code ? code.kind : undefined;
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if (!this.filter(type, kind)) continue;
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// Match other instances of the same function (e.g. unoptimised, various
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// different optimised versions).
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if (codeEquals(code, functionCode, true)) {
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functionPosInStack = filteredI;
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stackCode = code;
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break;
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}
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filteredI++;
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}
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if (functionPosInStack >= 0) {
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let stackKind = resolveCodeKindAndVmState(stackCode, vmState);
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let codeIsTopOfStack = (functionPosInStack === 0);
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if (this.currentBlock !== null) {
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this.currentBlock.end = timestamp;
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if (codeIsTopOfStack === this.currentBlock.topOfStack
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&& stackKind === this.currentBlock.kind) {
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// If we haven't changed the stack top or the function kind, then
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// we're happy just extending the current block and not starting
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// a new one.
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return;
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}
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}
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// Start a new block at the current timestamp.
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this.currentBlock = {
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start: timestamp,
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end: timestamp,
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code: stackCode,
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kind: stackKind,
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topOfStack: codeIsTopOfStack
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};
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this.blocks.push(this.currentBlock);
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} else {
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this.currentBlock = null;
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}
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}
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}
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// Generates a tree out of a ticks sequence.
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// {file} is the JSON files with the ticks and code objects.
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// {startTime}, {endTime} is the interval.
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// {tree} is the processor of stacks.
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function generateTree(
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file, startTime, endTime, tree) {
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let ticks = file.ticks;
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let i = 0;
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while (i < ticks.length && ticks[i].tm < startTime) {
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i++;
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}
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let tickCount = 0;
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while (i < ticks.length && ticks[i].tm < endTime) {
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tree.addStack(file, i);
|
|
i++;
|
|
tickCount++;
|
|
}
|
|
|
|
return tickCount;
|
|
}
|
|
|
|
function computeOptimizationStats(file,
|
|
timeStart = -Infinity, timeEnd = Infinity) {
|
|
function newCollection() {
|
|
return { count : 0, functions : [], functionTable : [] };
|
|
}
|
|
function addToCollection(collection, code) {
|
|
collection.count++;
|
|
let funcData = collection.functionTable[code.func];
|
|
if (!funcData) {
|
|
funcData = { f : file.functions[code.func], instances : [] };
|
|
collection.functionTable[code.func] = funcData;
|
|
collection.functions.push(funcData);
|
|
}
|
|
funcData.instances.push(code);
|
|
}
|
|
|
|
let functionCount = 0;
|
|
let optimizedFunctionCount = 0;
|
|
let turbopropOptimizedFunctionCount = 0;
|
|
let deoptimizedFunctionCount = 0;
|
|
let optimizations = newCollection();
|
|
let turbopropOptimizations = newCollection();
|
|
let eagerDeoptimizations = newCollection();
|
|
let softDeoptimizations = newCollection();
|
|
let lazyDeoptimizations = newCollection();
|
|
let softBailouts = newCollection();
|
|
let eagerBailouts = newCollection();
|
|
|
|
for (let i = 0; i < file.functions.length; i++) {
|
|
let f = file.functions[i];
|
|
|
|
// Skip special SFIs that do not correspond to JS functions.
|
|
if (f.codes.length === 0) continue;
|
|
if (file.code[f.codes[0]].type !== "JS") continue;
|
|
|
|
functionCount++;
|
|
let optimized = false;
|
|
let turboprop_optimized = false;
|
|
let deoptimized = false;
|
|
|
|
for (let j = 0; j < f.codes.length; j++) {
|
|
let code = file.code[f.codes[j]];
|
|
console.assert(code.type === "JS");
|
|
if (code.kind === "Opt") {
|
|
optimized = true;
|
|
if (code.tm >= timeStart && code.tm <= timeEnd) {
|
|
addToCollection(optimizations, code);
|
|
}
|
|
}
|
|
if (code.kind === "Turboprop") {
|
|
turboprop_optimized = true;
|
|
if (code.tm >= timeStart && code.tm <= timeEnd) {
|
|
addToCollection(turbopropOptimizations, code);
|
|
}
|
|
}
|
|
if (code.deopt) {
|
|
if (code.deopt.bailoutType === "deopt-lazy" || code.deopt.bailoutType === "deopt-eager" || code.deopt.bailoutType === "deopt-lazy") {
|
|
deoptimized = true;
|
|
}
|
|
if (code.deopt.tm >= timeStart && code.deopt.tm <= timeEnd) {
|
|
switch (code.deopt.bailoutType) {
|
|
case "deopt-lazy":
|
|
addToCollection(lazyDeoptimizations, code);
|
|
break;
|
|
case "deopt-eager":
|
|
addToCollection(eagerDeoptimizations, code);
|
|
break;
|
|
case "deopt-soft":
|
|
addToCollection(softDeoptimizations, code);
|
|
break;
|
|
case "bailout-soft":
|
|
addToCollection(softBailouts, code);
|
|
break;
|
|
case "bailout":
|
|
addToCollection(eagerBailouts, code);
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
if (optimized) {
|
|
optimizedFunctionCount++;
|
|
}
|
|
if (turboprop_optimized) {
|
|
turbopropOptimizedFunctionCount++;
|
|
}
|
|
if (deoptimized) {
|
|
deoptimizedFunctionCount++;
|
|
}
|
|
}
|
|
|
|
function sortCollection(collection) {
|
|
collection.functions.sort(
|
|
(a, b) => a.instances.length - b.instances.length);
|
|
}
|
|
|
|
sortCollection(eagerDeoptimizations);
|
|
sortCollection(lazyDeoptimizations);
|
|
sortCollection(softDeoptimizations);
|
|
sortCollection(optimizations);
|
|
sortCollection(turbopropOptimizations);
|
|
|
|
return {
|
|
functionCount,
|
|
optimizedFunctionCount,
|
|
turbopropOptimizedFunctionCount,
|
|
deoptimizedFunctionCount,
|
|
optimizations,
|
|
turbopropOptimizations,
|
|
eagerDeoptimizations,
|
|
lazyDeoptimizations,
|
|
softDeoptimizations,
|
|
softBailouts,
|
|
eagerBailouts,
|
|
};
|
|
}
|
|
|
|
function normalizeLeadingWhitespace(lines) {
|
|
let regex = /^\s*/;
|
|
let minimumLeadingWhitespaceChars = Infinity;
|
|
for (let line of lines) {
|
|
minimumLeadingWhitespaceChars =
|
|
Math.min(minimumLeadingWhitespaceChars, regex.exec(line)[0].length);
|
|
}
|
|
for (let i = 0; i < lines.length; i++) {
|
|
lines[i] = lines[i].substring(minimumLeadingWhitespaceChars);
|
|
}
|
|
}
|