angular-docs-cn/modules/benchpress/test/sampler_spec.ts

321 lines
9.5 KiB
TypeScript

import {
afterEach,
AsyncTestCompleter,
beforeEach,
ddescribe,
describe,
expect,
iit,
inject,
it,
xit,
} from '@angular/testing/testing_internal';
import {isBlank, isPresent, stringify, Date, DateWrapper} from '@angular/facade';
import {PromiseWrapper} from '@angular/facade';
import {
Sampler,
WebDriverAdapter,
Validator,
Metric,
Reporter,
bind,
provide,
ReflectiveInjector,
Options,
MeasureValues
} from 'benchpress/common';
export function main() {
var EMPTY_EXECUTE = () => {};
describe('sampler', () => {
var sampler: Sampler;
function createSampler({driver, metric, reporter, validator, prepare, execute}: {
driver?: any,
metric?: Metric,
reporter?: Reporter,
validator?: Validator,
prepare?: any,
execute?: any
} = {}) {
var time = 1000;
if (isBlank(metric)) {
metric = new MockMetric([]);
}
if (isBlank(reporter)) {
reporter = new MockReporter([]);
}
if (isBlank(driver)) {
driver = new MockDriverAdapter([]);
}
var bindings = [
Options.DEFAULT_PROVIDERS,
Sampler.BINDINGS,
provide(Metric, {useValue: metric}),
provide(Reporter, {useValue: reporter}),
provide(WebDriverAdapter, {useValue: driver}),
bind(Options.EXECUTE).toValue(execute),
provide(Validator, {useValue: validator}),
bind(Options.NOW).toValue(() => DateWrapper.fromMillis(time++))
];
if (isPresent(prepare)) {
bindings.push(bind(Options.PREPARE).toValue(prepare));
}
sampler = ReflectiveInjector.resolveAndCreate(bindings).get(Sampler);
}
it('should call the prepare and execute callbacks using WebDriverAdapter.waitFor',
inject([AsyncTestCompleter], (async) => {
var log = [];
var count = 0;
var driver = new MockDriverAdapter([], (callback) => {
var result = callback();
log.push(result);
return PromiseWrapper.resolve(result);
});
createSampler({
driver: driver,
validator: createCountingValidator(2),
prepare: () => { return count++; },
execute: () => { return count++; }
});
sampler.sample().then((_) => {
expect(count).toBe(4);
expect(log).toEqual([0, 1, 2, 3]);
async.done();
});
}));
it('should call prepare, beginMeasure, execute, endMeasure for every iteration',
inject([AsyncTestCompleter], (async) => {
var workCount = 0;
var log = [];
createSampler({
metric: createCountingMetric(log),
validator: createCountingValidator(2),
prepare: () => { log.push(`p${workCount++}`); },
execute: () => { log.push(`w${workCount++}`); }
});
sampler.sample().then((_) => {
expect(log).toEqual([
'p0',
['beginMeasure'],
'w1',
['endMeasure', false, {'script': 0}],
'p2',
['beginMeasure'],
'w3',
['endMeasure', false, {'script': 1}],
]);
async.done();
});
}));
it('should call execute, endMeasure for every iteration if there is no prepare callback',
inject([AsyncTestCompleter], (async) => {
var log = [];
var workCount = 0;
createSampler({
metric: createCountingMetric(log),
validator: createCountingValidator(2),
execute: () => { log.push(`w${workCount++}`); },
prepare: null
});
sampler.sample().then((_) => {
expect(log).toEqual([
['beginMeasure'],
'w0',
['endMeasure', true, {'script': 0}],
'w1',
['endMeasure', true, {'script': 1}],
]);
async.done();
});
}));
it('should only collect metrics for execute and ignore metrics from prepare',
inject([AsyncTestCompleter], (async) => {
var scriptTime = 0;
var iterationCount = 1;
createSampler({
validator: createCountingValidator(2),
metric: new MockMetric([],
() => {
var result = PromiseWrapper.resolve({'script': scriptTime});
scriptTime = 0;
return result;
}),
prepare: () => { scriptTime = 1 * iterationCount; },
execute: () => {
scriptTime = 10 * iterationCount;
iterationCount++;
}
});
sampler.sample().then((state) => {
expect(state.completeSample.length).toBe(2);
expect(state.completeSample[0]).toEqual(mv(0, 1000, {'script': 10}));
expect(state.completeSample[1]).toEqual(mv(1, 1001, {'script': 20}));
async.done();
});
}));
it('should call the validator for every execution and store the valid sample',
inject([AsyncTestCompleter], (async) => {
var log = [];
var validSample = [{}];
createSampler({
metric: createCountingMetric(),
validator: createCountingValidator(2, validSample, log),
execute: EMPTY_EXECUTE
});
sampler.sample().then((state) => {
expect(state.validSample).toBe(validSample);
// TODO(tbosch): Why does this fail??
// expect(log).toEqual([
// ['validate', [{'script': 0}], null],
// ['validate', [{'script': 0}, {'script': 1}], validSample]
// ]);
expect(log.length).toBe(2);
expect(log[0]).toEqual(['validate', [mv(0, 1000, {'script': 0})], null]);
expect(log[1]).toEqual(
['validate', [mv(0, 1000, {'script': 0}), mv(1, 1001, {'script': 1})], validSample]);
async.done();
});
}));
it('should report the metric values', inject([AsyncTestCompleter], (async) => {
var log = [];
var validSample = [{}];
createSampler({
validator: createCountingValidator(2, validSample),
metric: createCountingMetric(),
reporter: new MockReporter(log),
execute: EMPTY_EXECUTE
});
sampler.sample().then((_) => {
// TODO(tbosch): Why does this fail??
// expect(log).toEqual([
// ['reportMeasureValues', 0, {'script': 0}],
// ['reportMeasureValues', 1, {'script': 1}],
// ['reportSample', [{'script': 0}, {'script': 1}], validSample]
// ]);
expect(log.length).toBe(3);
expect(log[0]).toEqual(['reportMeasureValues', mv(0, 1000, {'script': 0})]);
expect(log[1]).toEqual(['reportMeasureValues', mv(1, 1001, {'script': 1})]);
expect(log[2]).toEqual([
'reportSample',
[mv(0, 1000, {'script': 0}), mv(1, 1001, {'script': 1})],
validSample
]);
async.done();
});
}));
});
}
function mv(runIndex, time, values) {
return new MeasureValues(runIndex, DateWrapper.fromMillis(time), values);
}
function createCountingValidator(count, validSample = null, log = null) {
return new MockValidator(log, (completeSample) => {
count--;
if (count === 0) {
return isPresent(validSample) ? validSample : completeSample;
} else {
return null;
}
});
}
function createCountingMetric(log = null) {
var scriptTime = 0;
return new MockMetric(log, () => { return {'script': scriptTime++}; });
}
class MockDriverAdapter extends WebDriverAdapter {
private _log: any[];
private _waitFor: Function;
constructor(log = null, waitFor = null) {
super();
if (isBlank(log)) {
log = [];
}
this._log = log;
this._waitFor = waitFor;
}
waitFor(callback: Function): Promise<any> {
if (isPresent(this._waitFor)) {
return this._waitFor(callback);
} else {
return PromiseWrapper.resolve(callback());
}
}
}
class MockValidator extends Validator {
private _log: any[];
constructor(log = null, private _validate: Function = null) {
super();
if (isBlank(log)) {
log = [];
}
this._log = log;
}
validate(completeSample: MeasureValues[]): MeasureValues[] {
var stableSample = isPresent(this._validate) ? this._validate(completeSample) : completeSample;
this._log.push(['validate', completeSample, stableSample]);
return stableSample;
}
}
class MockMetric extends Metric {
private _log: any[];
constructor(log = null, private _endMeasure: Function = null) {
super();
if (isBlank(log)) {
log = [];
}
this._log = log;
}
beginMeasure() {
this._log.push(['beginMeasure']);
return PromiseWrapper.resolve(null);
}
endMeasure(restart) {
var measureValues = isPresent(this._endMeasure) ? this._endMeasure() : {};
this._log.push(['endMeasure', restart, measureValues]);
return PromiseWrapper.resolve(measureValues);
}
}
class MockReporter extends Reporter {
_log: any[];
constructor(log = null) {
super();
if (isBlank(log)) {
log = [];
}
this._log = log;
}
reportMeasureValues(values): Promise<any> {
this._log.push(['reportMeasureValues', values]);
return PromiseWrapper.resolve(null);
}
reportSample(completeSample, validSample): Promise<any> {
this._log.push(['reportSample', completeSample, validSample]);
return PromiseWrapper.resolve(null);
}
}