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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/. */
// Global defaults
// Allocate this much "garbage" per frame. This might correspond exactly to a
// number of objects/values, or it might be some set of objects, depending on
// the mutator in question.
var gDefaultGarbagePerFrame = "8K";
// In order to avoid a performance cliff between when the per-frame garbage
// fits in the nursery and when it doesn't, most mutators will collect multiple
// "piles" of garbage and round-robin through them, so that the per-frame
// garbage stays alive for some number of frames. There will still be some
// internal temporary allocations that don't end up in the piles; presumably,
// the nursery will take care of those.
//
// If the per-frame garbage is K and the number of piles is P, then some of the
// garbage will start getting tenured as long as P*K > size(nursery).
var gDefaultGarbagePiles = "8";
var gDefaultTestDuration = 8.0;
// The Host interface that provides functionality needed by the test harnesses
// (web + various shells). Subclasses should override with the appropriate
// functionality. The methods that throw an error must be implemented. The ones
// that return undefined are optional.
//
// Note that currently the web UI doesn't really use the scheduling pieces of
// this.
var Host = class {
constructor() {}
start_turn() {
throw new Error("unimplemented");
}
end_turn() {
throw new Error("unimplemented");
}
suspend(duration) {
throw new Error("unimplemented");
} // Shell driver only
now() {
return performance.now();
}
minorGCCount() {
return undefined;
}
majorGCCount() {
return undefined;
}
GCSliceCount() {
return undefined;
}
features = {
haveMemorySizes: false,
haveGCCounts: false,
};
};
function percent(x) {
return `${(x*100).toFixed(2)}%`;
}
function parse_units(v) {
if (!v.length) {
return NaN;
}
var lastChar = v[v.length - 1].toLowerCase();
if (!isNaN(parseFloat(lastChar))) {
return parseFloat(v);
}
var units = parseFloat(v.substr(0, v.length - 1));
if (lastChar == "k") {
return units * 1e3;
}
if (lastChar == "m") {
return units * 1e6;
}
if (lastChar == "g") {
return units * 1e9;
}
return NaN;
}
var AllocationLoad = class {
constructor(info, name) {
this.load = info;
this.load.name = this.load.name ?? name;
this._garbagePerFrame =
info.garbagePerFrame ||
parse_units(info.defaultGarbagePerFrame || gDefaultGarbagePerFrame);
this._garbagePiles =
info.garbagePiles ||
parse_units(info.defaultGarbagePiles || gDefaultGarbagePiles);
}
get name() {
return this.load.name;
}
get description() {
return this.load.description;
}
get garbagePerFrame() {
return this._garbagePerFrame;
}
set garbagePerFrame(amount) {
this._garbagePerFrame = amount;
}
get garbagePiles() {
return this._garbagePiles;
}
set garbagePiles(amount) {
this._garbagePiles = amount;
}
start() {
this.load.load(this._garbagePiles);
}
stop() {
this.load.unload();
}
reload() {
this.stop();
this.start();
}
tick() {
this.load.makeGarbage(this._garbagePerFrame);
}
is_dummy_load() {
return this.load.name == "noAllocation";
}
};
var AllocationLoadManager = class {
constructor(tests) {
this._loads = new Map();
for (const [name, info] of tests.entries()) {
this._loads.set(name, new AllocationLoad(info, name));
}
this._active = undefined;
this._paused = false;
// Public API
this.sequencer = null;
this.testDurationMS = gDefaultTestDuration * 1000;
}
getByName(name) {
const mutator = this._loads.get(name);
if (!mutator) {
throw new Error(`invalid mutator '${name}'`);
}
return mutator;
}
activeLoad() {
return this._active;
}
setActiveLoad(mutator) {
if (this._active) {
this._active.stop();
}
this._active = mutator;
this._active.start();
}
deactivateLoad() {
this._active.stop();
this._active = undefined;
}
get paused() {
return this._paused;
}
set paused(pause) {
this._paused = pause;
}
load_running() {
return this._active;
}
change_garbagePiles(amount) {
if (this._active) {
this._active.garbagePiles = amount;
this._active.reload();
}
}
change_garbagePerFrame(amount) {
if (this._active) {
this._active.garbagePerFrame = amount;
}
}
tick(now = gHost.now()) {
this.lastActive = this._active;
let completed = false;
if (this.sequencer) {
if (this.sequencer.tick(now)) {
completed = true;
if (this.sequencer.current) {
this.setActiveLoad(this.sequencer.current);
} else {
this.deactivateLoad();
}
if (this.sequencer.done()) {
this.sequencer = null;
}
}
}
if (this._active && !this._paused) {
this._active.tick();
}
return completed;
}
startSequencer(sequencer, now = gHost.now()) {
this.sequencer = sequencer;
this.sequencer.start(now);
this.setActiveLoad(this.sequencer.current);
}
stopped() {
return !this.sequencer || this.sequencer.done();
}
currentLoadRemaining(now = gHost.now()) {
if (this.stopped()) {
return 0;
}
// TODO: The web UI displays a countdown to the end of the current mutator.
// This won't work for potential future things like "run until 3 major GCs
// have been seen", so the API will need to be modified to provide
// information in that case.
return this.testDurationMS - this.sequencer.currentLoadElapsed(now);
}
};
// Current test state.
var gLoadMgr = undefined;
function format_with_units(n, label, shortlabel, kbase) {
if (n < kbase * 4) {
return `${n} ${label}`;
} else if (n < kbase ** 2 * 4) {
return `${(n / kbase).toFixed(2)}K${shortlabel}`;
} else if (n < kbase ** 3 * 4) {
return `${(n / kbase ** 2).toFixed(2)}M${shortlabel}`;
}
return `${(n / kbase ** 3).toFixed(2)}G${shortlabel}`;
}
function format_bytes(bytes) {
return format_with_units(bytes, "bytes", "B", 1024);
}
function format_num(n) {
return format_with_units(n, "", "", 1000);
}
function update_histogram(histogram, delay) {
// Round to a whole number of 10us intervals to provide enough resolution to
// capture a 16ms target with adequate accuracy.
delay = Math.round(delay * 100) / 100;
var current = histogram.has(delay) ? histogram.get(delay) : 0;
histogram.set(delay, ++current);
}
// Compute a score based on the total ms we missed frames by per second.
function compute_test_score(histogram) {
var score = 0;
for (let [delay, count] of histogram) {
score += Math.abs((delay - 1000 / 60) * count);
}
score = score / (gLoadMgr.testDurationMS / 1000);
return Math.round(score * 1000) / 1000;
}
// Build a spark-lines histogram for the test results to show with the aggregate score.
function compute_spark_histogram_percents(histogram) {
var ranges = [
[-99999999, 16.6],
[16.6, 16.8],
[16.8, 25],
[25, 33.4],
[33.4, 60],
[60, 100],
[100, 300],
[300, 99999999],
];
var rescaled = new Map();
for (let [delay] of histogram) {
for (var i = 0; i < ranges.length; ++i) {
var low = ranges[i][0];
var high = ranges[i][1];
if (low <= delay && delay < high) {
update_histogram(rescaled, i);
break;
}
}
}
var total = 0;
for (const [, count] of rescaled) {
total += count;
}
var spark = [];
for (let i = 0; i < ranges.length; ++i) {
const amt = rescaled.has(i) ? rescaled.get(i) : 0;
spark.push(amt / total);
}
return spark;
}
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