Dart/benchmark.js - external/github.com/WebKit/JetStream - Git at Google

 // Copyright 2024 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.

 // Excerpt from `wasm_gc_benchmarks/tools/run_wasm.js` to add own task queue
 // implementation, since `setTimeout` and `queueMicrotask` are not always
 // available in shells.
 // TODO: Now (2025-08-14) that all shells have `setTimeout` available, can we
 // remove this? Talk to Dart2wasm folks.
 function addTaskQueue(self) {
   "use strict";

     // Task queue as cyclic list queue.
     var taskQueue = new Array(8);  // Length is power of 2.
     var head = 0;
     var tail = 0;
     var mask = taskQueue.length - 1;

     function addTask(elem) {
       taskQueue[head] = elem;
       head = (head + 1) & mask;
       if (head == tail) _growTaskQueue();
     }

     function removeTask() {
       if (head == tail) return;
       var result = taskQueue[tail];
       taskQueue[tail] = undefined;
       tail = (tail + 1) & mask;
       return result;
     }

     function _growTaskQueue() {
       // head == tail.
       var length = taskQueue.length;
       var split = head;
       taskQueue.length = length * 2;
       if (split * 2 < length) {  // split < length / 2
         for (var i = 0; i < split; i++) {
           taskQueue[length + i] = taskQueue[i];
           taskQueue[i] = undefined;
         }
         head += length;
       } else {
         for (var i = split; i < length; i++) {
           taskQueue[length + i] = taskQueue[i];
           taskQueue[i] = undefined;
         }
         tail += length;
       }
       mask = taskQueue.length - 1;
     }

     // Mapping from timer id to timer function.
     // The timer id is written on the function as .$timerId.
     // That field is cleared when the timer is cancelled, but it is not returned
     // from the queue until its time comes.
     var timerIds = {};
     var timerIdCounter = 1;  // Counter used to assign ids.

     // Zero-timer queue as simple array queue using push/shift.
     var zeroTimerQueue = [];

     function addTimer(f, ms) {
       ms = Math.max(0, ms);
       var id = timerIdCounter++;
       // A callback can be scheduled at most once.
       console.assert(f.$timerId === undefined);
       f.$timerId = id;
       timerIds[id] = f;
       if (ms == 0 && !isNextTimerDue()) {
         zeroTimerQueue.push(f);
       } else {
         addDelayedTimer(f, ms);
       }
       return id;
     }

     function nextZeroTimer() {
       while (zeroTimerQueue.length > 0) {
         var action = zeroTimerQueue.shift();
         if (action.$timerId !== undefined) return action;
       }
     }

     function nextEvent() {
       var action = removeTask();
       if (action) {
         return action;
       }
       do {
         action = nextZeroTimer();
         if (action) break;
         var nextList = nextDelayedTimerQueue();
         if (!nextList) {
           return;
         }
         var newTime = nextList.shift();
         advanceTimeTo(newTime);
         zeroTimerQueue = nextList;
       } while (true)
       var id = action.$timerId;
       clearTimerId(action, id);
       return action;
     }

     // Mocking time.
     var timeOffset = 0;
     var now = function() {
       // Install the mock Date object only once.
       // Following calls to "now" will just use the new (mocked) Date.now
       // method directly.
       installMockDate();
       now = Date.now;
       return Date.now();
     };
     var originalDate = Date;
     var originalNow = originalDate.now;

     function advanceTimeTo(time) {
       var now = originalNow();
       if (timeOffset < time - now) {
         timeOffset = time - now;
       }
     }

     function installMockDate() {
       var NewDate = function Date(Y, M, D, h, m, s, ms) {
         if (this instanceof Date) {
           // Assume a construct call.
           switch (arguments.length) {
             case 0:  return new originalDate(originalNow() + timeOffset);
             case 1:  return new originalDate(Y);
             case 2:  return new originalDate(Y, M);
             case 3:  return new originalDate(Y, M, D);
             case 4:  return new originalDate(Y, M, D, h);
             case 5:  return new originalDate(Y, M, D, h, m);
             case 6:  return new originalDate(Y, M, D, h, m, s);
             default: return new originalDate(Y, M, D, h, m, s, ms);
           }
         }
         return new originalDate(originalNow() + timeOffset).toString();
       };
       NewDate.UTC = originalDate.UTC;
       NewDate.parse = originalDate.parse;
       NewDate.now = function now() { return originalNow() + timeOffset; };
       NewDate.prototype = originalDate.prototype;
       originalDate.prototype.constructor = NewDate;
       Date = NewDate;
     }

     // Heap priority queue with key index.
     // Each entry is list of [timeout, callback1 ... callbackn].
     var timerHeap = [];
     var timerIndex = {};

     function addDelayedTimer(f, ms) {
       var timeout = now() + ms;
       var timerList = timerIndex[timeout];
       if (timerList == null) {
         timerList = [timeout, f];
         timerIndex[timeout] = timerList;
         var index = timerHeap.length;
         timerHeap.length += 1;
         bubbleUp(index, timeout, timerList);
       } else {
         timerList.push(f);
       }
     }

     function isNextTimerDue() {
       if (timerHeap.length == 0) return false;
       var head = timerHeap[0];
       return head[0] < originalNow() + timeOffset;
     }

     function nextDelayedTimerQueue() {
       if (timerHeap.length == 0) return null;
       var result = timerHeap[0];
       var last = timerHeap.pop();
       if (timerHeap.length > 0) {
         bubbleDown(0, last[0], last);
       }
       return result;
     }

     function bubbleUp(index, key, value) {
       while (index != 0) {
         var parentIndex = (index - 1) >> 1;
         var parent = timerHeap[parentIndex];
         var parentKey = parent[0];
         if (key > parentKey) break;
         timerHeap[index] = parent;
         index = parentIndex;
       }
       timerHeap[index] = value;
     }

     function bubbleDown(index, key, value) {
       while (true) {
         var leftChildIndex = index * 2 + 1;
         if (leftChildIndex >= timerHeap.length) break;
         var minChildIndex = leftChildIndex;
         var minChild = timerHeap[leftChildIndex];
         var minChildKey = minChild[0];
         var rightChildIndex = leftChildIndex + 1;
         if (rightChildIndex < timerHeap.length) {
           var rightChild = timerHeap[rightChildIndex];
           var rightKey = rightChild[0];
           if (rightKey < minChildKey) {
             minChildIndex = rightChildIndex;
             minChild = rightChild;
             minChildKey = rightKey;
           }
         }
         if (minChildKey > key) break;
         timerHeap[index] = minChild;
         index = minChildIndex;
       }
       timerHeap[index] = value;
     }

     function cancelTimer(id) {
       var f = timerIds[id];
       if (f == null) return;
       clearTimerId(f, id);
     }

     function clearTimerId(f, id) {
       f.$timerId = undefined;
       delete timerIds[id];
     }

     async function eventLoop(action) {
       while (action) {
         try {
           await action();
         } catch (e) {
           if (typeof onerror == "function") {
             onerror(e, null, -1);
           } else {
             throw e;
           }
         }
         action = nextEvent();
       }
     }

     self.setTimeout = addTimer;
     self.clearTimeout = cancelTimer;
     self.queueMicrotask = addTask;
     self.eventLoop = eventLoop;
 }

 function dartPrint(...args) { print(args); }
 addTaskQueue(globalThis);
 globalThis.window ??= globalThis;

 class Benchmark {
   dart2wasmJsModule;
   compiledApp;

   async init() {
     // The generated JavaScript code from dart2wasm is an ES module, which we
     // can only load with a dynamic import (since this file is not a module.)

     Module.wasmBinary = await JetStream.getBinary(JetStream.preload.wasmBinary);
     this.dart2wasmJsModule = await JetStream.dynamicImport(JetStream.preload.jsModule);
   }

   async runIteration() {
     // Compile once in the first iteration.
     if (!this.compiledApp) {
       this.compiledApp = await this.dart2wasmJsModule.compile(Module.wasmBinary);
     }

     // Instantiate each iteration, since we can only `invokeMain()` with a
     // freshly instantiated module.
     const additionalImports = {};
     const instantiatedApp = await this.compiledApp.instantiate(additionalImports);

     const startTimeSinceEpochSeconds = new Date().getTime() / 1000;
     // Reduce workload size for a single iteration.
     // The default is 1000 frames, but that takes too long (>2s per iteration).
     const framesToDraw = 100;
     const initialFramesToSkip = 0;
     const dartArgs = [
       startTimeSinceEpochSeconds.toString(),
       framesToDraw.toString(),
       initialFramesToSkip.toString()
     ];

     await eventLoop(async () => {
       await instantiatedApp.invokeMain(...dartArgs)
     });
   }
 }
	// Copyright 2024 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.

	// Excerpt from `wasm_gc_benchmarks/tools/run_wasm.js` to add own task queue
	// implementation, since `setTimeout` and `queueMicrotask` are not always
	// available in shells.
	// TODO: Now (2025-08-14) that all shells have `setTimeout` available, can we
	// remove this? Talk to Dart2wasm folks.
	function addTaskQueue(self) {
	"use strict";

	// Task queue as cyclic list queue.
	var taskQueue = new Array(8); // Length is power of 2.
	var head = 0;
	var tail = 0;
	var mask = taskQueue.length - 1;

	function addTask(elem) {
	taskQueue[head] = elem;
	head = (head + 1) & mask;
	if (head == tail) _growTaskQueue();
	}

	function removeTask() {
	if (head == tail) return;
	var result = taskQueue[tail];
	taskQueue[tail] = undefined;
	tail = (tail + 1) & mask;
	return result;
	}

	function _growTaskQueue() {
	// head == tail.
	var length = taskQueue.length;
	var split = head;
	taskQueue.length = length * 2;
	if (split * 2 < length) { // split < length / 2
	for (var i = 0; i < split; i++) {
	taskQueue[length + i] = taskQueue[i];
	taskQueue[i] = undefined;
	}
	head += length;
	} else {
	for (var i = split; i < length; i++) {
	taskQueue[length + i] = taskQueue[i];
	taskQueue[i] = undefined;
	}
	tail += length;
	}
	mask = taskQueue.length - 1;
	}

	// Mapping from timer id to timer function.
	// The timer id is written on the function as .$timerId.
	// That field is cleared when the timer is cancelled, but it is not returned
	// from the queue until its time comes.
	var timerIds = {};
	var timerIdCounter = 1; // Counter used to assign ids.

	// Zero-timer queue as simple array queue using push/shift.
	var zeroTimerQueue = [];

	function addTimer(f, ms) {
	ms = Math.max(0, ms);
	var id = timerIdCounter++;
	// A callback can be scheduled at most once.
	console.assert(f.$timerId === undefined);
	f.$timerId = id;
	timerIds[id] = f;
	if (ms == 0 && !isNextTimerDue()) {
	zeroTimerQueue.push(f);
	} else {
	addDelayedTimer(f, ms);
	}
	return id;
	}

	function nextZeroTimer() {
	while (zeroTimerQueue.length > 0) {
	var action = zeroTimerQueue.shift();
	if (action.$timerId !== undefined) return action;
	}
	}

	function nextEvent() {
	var action = removeTask();
	if (action) {
	return action;
	}
	do {
	action = nextZeroTimer();
	if (action) break;
	var nextList = nextDelayedTimerQueue();
	if (!nextList) {
	return;
	}
	var newTime = nextList.shift();
	advanceTimeTo(newTime);
	zeroTimerQueue = nextList;
	} while (true)
	var id = action.$timerId;
	clearTimerId(action, id);
	return action;
	}

	// Mocking time.
	var timeOffset = 0;
	var now = function() {
	// Install the mock Date object only once.
	// Following calls to "now" will just use the new (mocked) Date.now
	// method directly.
	installMockDate();
	now = Date.now;
	return Date.now();
	};
	var originalDate = Date;
	var originalNow = originalDate.now;

	function advanceTimeTo(time) {
	var now = originalNow();
	if (timeOffset < time - now) {
	timeOffset = time - now;
	}
	}

	function installMockDate() {
	var NewDate = function Date(Y, M, D, h, m, s, ms) {
	if (this instanceof Date) {
	// Assume a construct call.
	switch (arguments.length) {
	case 0: return new originalDate(originalNow() + timeOffset);
	case 1: return new originalDate(Y);
	case 2: return new originalDate(Y, M);
	case 3: return new originalDate(Y, M, D);
	case 4: return new originalDate(Y, M, D, h);
	case 5: return new originalDate(Y, M, D, h, m);
	case 6: return new originalDate(Y, M, D, h, m, s);
	default: return new originalDate(Y, M, D, h, m, s, ms);
	}
	}
	return new originalDate(originalNow() + timeOffset).toString();
	};
	NewDate.UTC = originalDate.UTC;
	NewDate.parse = originalDate.parse;
	NewDate.now = function now() { return originalNow() + timeOffset; };
	NewDate.prototype = originalDate.prototype;
	originalDate.prototype.constructor = NewDate;
	Date = NewDate;
	}

	// Heap priority queue with key index.
	// Each entry is list of [timeout, callback1 ... callbackn].
	var timerHeap = [];
	var timerIndex = {};

	function addDelayedTimer(f, ms) {
	var timeout = now() + ms;
	var timerList = timerIndex[timeout];
	if (timerList == null) {
	timerList = [timeout, f];
	timerIndex[timeout] = timerList;
	var index = timerHeap.length;
	timerHeap.length += 1;
	bubbleUp(index, timeout, timerList);
	} else {
	timerList.push(f);
	}
	}

	function isNextTimerDue() {
	if (timerHeap.length == 0) return false;
	var head = timerHeap[0];
	return head[0] < originalNow() + timeOffset;
	}

	function nextDelayedTimerQueue() {
	if (timerHeap.length == 0) return null;
	var result = timerHeap[0];
	var last = timerHeap.pop();
	if (timerHeap.length > 0) {
	bubbleDown(0, last[0], last);
	}
	return result;
	}

	function bubbleUp(index, key, value) {
	while (index != 0) {
	var parentIndex = (index - 1) >> 1;
	var parent = timerHeap[parentIndex];
	var parentKey = parent[0];
	if (key > parentKey) break;
	timerHeap[index] = parent;
	index = parentIndex;
	}
	timerHeap[index] = value;
	}

	function bubbleDown(index, key, value) {
	while (true) {
	var leftChildIndex = index * 2 + 1;
	if (leftChildIndex >= timerHeap.length) break;
	var minChildIndex = leftChildIndex;
	var minChild = timerHeap[leftChildIndex];
	var minChildKey = minChild[0];
	var rightChildIndex = leftChildIndex + 1;
	if (rightChildIndex < timerHeap.length) {
	var rightChild = timerHeap[rightChildIndex];
	var rightKey = rightChild[0];
	if (rightKey < minChildKey) {
	minChildIndex = rightChildIndex;
	minChild = rightChild;
	minChildKey = rightKey;
	}
	}
	if (minChildKey > key) break;
	timerHeap[index] = minChild;
	index = minChildIndex;
	}
	timerHeap[index] = value;
	}

	function cancelTimer(id) {
	var f = timerIds[id];
	if (f == null) return;
	clearTimerId(f, id);
	}

	function clearTimerId(f, id) {
	f.$timerId = undefined;
	delete timerIds[id];
	}

	async function eventLoop(action) {
	while (action) {
	try {
	await action();
	} catch (e) {
	if (typeof onerror == "function") {
	onerror(e, null, -1);
	} else {
	throw e;
	}
	}
	action = nextEvent();
	}
	}

	self.setTimeout = addTimer;
	self.clearTimeout = cancelTimer;
	self.queueMicrotask = addTask;
	self.eventLoop = eventLoop;
	}

	function dartPrint(...args) { print(args); }
	addTaskQueue(globalThis);
	globalThis.window ??= globalThis;

	class Benchmark {
	dart2wasmJsModule;
	compiledApp;

	async init() {
	// The generated JavaScript code from dart2wasm is an ES module, which we
	// can only load with a dynamic import (since this file is not a module.)

	Module.wasmBinary = await JetStream.getBinary(JetStream.preload.wasmBinary);
	this.dart2wasmJsModule = await JetStream.dynamicImport(JetStream.preload.jsModule);
	}

	async runIteration() {
	// Compile once in the first iteration.
	if (!this.compiledApp) {
	this.compiledApp = await this.dart2wasmJsModule.compile(Module.wasmBinary);
	}

	// Instantiate each iteration, since we can only `invokeMain()` with a
	// freshly instantiated module.
	const additionalImports = {};
	const instantiatedApp = await this.compiledApp.instantiate(additionalImports);

	const startTimeSinceEpochSeconds = new Date().getTime() / 1000;
	// Reduce workload size for a single iteration.
	// The default is 1000 frames, but that takes too long (>2s per iteration).
	const framesToDraw = 100;
	const initialFramesToSkip = 0;
	const dartArgs = [
	startTimeSinceEpochSeconds.toString(),
	framesToDraw.toString(),
	initialFramesToSkip.toString()
	];

	await eventLoop(async () => {
	await instantiatedApp.invokeMain(...dartArgs)
	});
	}
	}