angular-docs-cn/modules/benchpress/test/metric/perflog_metric_spec.ts

515 lines
18 KiB
TypeScript

import {
afterEach,
AsyncTestCompleter,
beforeEach,
ddescribe,
describe,
expect,
iit,
inject,
it,
xit,
} from 'angular2/test_lib';
import {List, ListWrapper, StringMapWrapper} from 'angular2/src/facade/collection';
import {PromiseWrapper, Promise} from 'angular2/src/facade/async';
import {isPresent, isBlank} from 'angular2/src/facade/lang';
import {
Metric,
PerflogMetric,
WebDriverExtension,
PerfLogFeatures,
bind,
Injector,
Options
} from 'benchpress/common';
import {TraceEventFactory} from '../trace_event_factory';
export function main() {
var commandLog;
var eventFactory = new TraceEventFactory('timeline', 'pid0');
function createMetric(perfLogs, microMetrics = null, perfLogFeatures = null, forceGc = null) {
commandLog = [];
if (isBlank(perfLogFeatures)) {
perfLogFeatures = new PerfLogFeatures({render: true, gc: true});
}
if (isBlank(microMetrics)) {
microMetrics = StringMapWrapper.create();
}
var bindings = [
Options.DEFAULT_BINDINGS,
PerflogMetric.BINDINGS,
bind(Options.MICRO_METRICS).toValue(microMetrics),
bind(PerflogMetric.SET_TIMEOUT)
.toValue((fn, millis) =>
{
ListWrapper.push(commandLog, ['setTimeout', millis]);
fn();
}),
bind(WebDriverExtension)
.toValue(new MockDriverExtension(perfLogs, commandLog, perfLogFeatures))
];
if (isPresent(forceGc)) {
ListWrapper.push(bindings, bind(Options.FORCE_GC).toValue(forceGc));
}
return Injector.resolveAndCreate(bindings).get(PerflogMetric);
}
describe('perflog metric', () => {
function sortedKeys(stringMap) {
var res = [];
StringMapWrapper.forEach(stringMap, (_, key) => { ListWrapper.push(res, key); });
res.sort();
return res;
}
it('should describe itself based on the perfLogFeatrues', () => {
expect(sortedKeys(createMetric([[]], null, new PerfLogFeatures()).describe()))
.toEqual(['pureScriptTime', 'scriptTime']);
expect(sortedKeys(createMetric([[]], null, new PerfLogFeatures({render: true, gc: false}))
.describe()))
.toEqual(['pureScriptTime', 'renderTime', 'scriptTime']);
expect(sortedKeys(createMetric([[]]).describe()))
.toEqual(
['gcAmount', 'gcTime', 'majorGcTime', 'pureScriptTime', 'renderTime', 'scriptTime']);
expect(
sortedKeys(createMetric([[]], null, new PerfLogFeatures({render: true, gc: true}), true)
.describe()))
.toEqual([
'forcedGcAmount',
'forcedGcTime',
'gcAmount',
'gcTime',
'majorGcTime',
'pureScriptTime',
'renderTime',
'scriptTime'
]);
});
it('should describe itself based on micro metrics', () => {
var description = createMetric([[]], {'myMicroMetric': 'someDesc'}).describe();
expect(description['myMicroMetric']).toEqual('someDesc');
});
describe('beginMeasure', () => {
it('should not force gc and mark the timeline', inject([AsyncTestCompleter], (async) => {
var metric = createMetric([[]]);
metric.beginMeasure().then((_) => {
expect(commandLog).toEqual([['timeBegin', 'benchpress0']]);
async.done();
});
}));
it('should force gc and mark the timeline', inject([AsyncTestCompleter], (async) => {
var metric = createMetric([[]], null, null, true);
metric.beginMeasure().then((_) => {
expect(commandLog).toEqual([['gc'], ['timeBegin', 'benchpress0']]);
async.done();
});
}));
});
describe('endMeasure', () => {
it('should mark and aggregate events in between the marks',
inject([AsyncTestCompleter], (async) => {
var events = [[
eventFactory.markStart('benchpress0', 0),
eventFactory.start('script', 4),
eventFactory.end('script', 6),
eventFactory.markEnd('benchpress0', 10)
]];
var metric = createMetric(events);
metric.beginMeasure()
.then((_) => metric.endMeasure(false))
.then((data) => {
expect(commandLog)
.toEqual([
['timeBegin', 'benchpress0'],
['timeEnd', 'benchpress0', null],
'readPerfLog'
]);
expect(data['scriptTime']).toBe(2);
async.done();
});
}));
it('should restart timing', inject([AsyncTestCompleter], (async) => {
var events = [
[
eventFactory.markStart('benchpress0', 0),
eventFactory.markEnd('benchpress0', 1),
eventFactory.markStart('benchpress1', 2),
],
[eventFactory.markEnd('benchpress1', 3)]
];
var metric = createMetric(events);
metric.beginMeasure()
.then((_) => metric.endMeasure(true))
.then((_) => metric.endMeasure(true))
.then((_) => {
expect(commandLog)
.toEqual([
['timeBegin', 'benchpress0'],
['timeEnd', 'benchpress0', 'benchpress1'],
'readPerfLog',
['timeEnd', 'benchpress1', 'benchpress2'],
'readPerfLog'
]);
async.done();
});
}));
it('should loop and aggregate until the end mark is present',
inject([AsyncTestCompleter], (async) => {
var events = [
[eventFactory.markStart('benchpress0', 0), eventFactory.start('script', 1)],
[eventFactory.end('script', 2)],
[
eventFactory.start('script', 3),
eventFactory.end('script', 5),
eventFactory.markEnd('benchpress0', 10)
]
];
var metric = createMetric(events);
metric.beginMeasure()
.then((_) => metric.endMeasure(false))
.then((data) => {
expect(commandLog)
.toEqual([
['timeBegin', 'benchpress0'],
['timeEnd', 'benchpress0', null],
'readPerfLog',
['setTimeout', 100],
'readPerfLog',
['setTimeout', 100],
'readPerfLog'
]);
expect(data['scriptTime']).toBe(3);
async.done();
});
}));
it('should store events after the end mark for the next call',
inject([AsyncTestCompleter], (async) => {
var events = [
[
eventFactory.markStart('benchpress0', 0),
eventFactory.markEnd('benchpress0', 1),
eventFactory.markStart('benchpress1', 1),
eventFactory.start('script', 1),
eventFactory.end('script', 2)
],
[
eventFactory.start('script', 3),
eventFactory.end('script', 5),
eventFactory.markEnd('benchpress1', 6)
]
];
var metric = createMetric(events);
metric.beginMeasure()
.then((_) => metric.endMeasure(true))
.then((data) =>
{
expect(data['scriptTime']).toBe(0);
return metric.endMeasure(true)
})
.then((data) => {
expect(commandLog)
.toEqual([
['timeBegin', 'benchpress0'],
['timeEnd', 'benchpress0', 'benchpress1'],
'readPerfLog',
['timeEnd', 'benchpress1', 'benchpress2'],
'readPerfLog'
]);
expect(data['scriptTime']).toBe(3);
async.done();
});
}));
describe('with forced gc', () => {
var events;
beforeEach(() => {
events = [[
eventFactory.markStart('benchpress0', 0),
eventFactory.start('script', 4),
eventFactory.end('script', 6),
eventFactory.markEnd('benchpress0', 10),
eventFactory.markStart('benchpress1', 11),
eventFactory.start('gc', 12, {'usedHeapSize': 2500}),
eventFactory.end('gc', 15, {'usedHeapSize': 1000}),
eventFactory.markEnd('benchpress1', 20)
]];
});
it('should measure forced gc', inject([AsyncTestCompleter], (async) => {
var metric = createMetric(events, null, null, true);
metric.beginMeasure()
.then((_) => metric.endMeasure(false))
.then((data) => {
expect(commandLog)
.toEqual([
['gc'],
['timeBegin', 'benchpress0'],
['timeEnd', 'benchpress0', 'benchpress1'],
'readPerfLog',
['gc'],
['timeEnd', 'benchpress1', null],
'readPerfLog'
]);
expect(data['forcedGcTime']).toBe(3);
expect(data['forcedGcAmount']).toBe(1.5);
async.done();
});
}));
it('should restart after the forced gc if needed', inject([AsyncTestCompleter], (async) => {
var metric = createMetric(events, null, null, true);
metric.beginMeasure()
.then((_) => metric.endMeasure(true))
.then((data) => {
expect(commandLog[5]).toEqual(['timeEnd', 'benchpress1', 'benchpress2']);
async.done();
});
}));
});
});
describe('aggregation', () => {
function aggregate(events, microMetrics = null) {
ListWrapper.insert(events, 0, eventFactory.markStart('benchpress0', 0));
ListWrapper.push(events, eventFactory.markEnd('benchpress0', 10));
var metric = createMetric([events], microMetrics);
return metric.beginMeasure().then((_) => metric.endMeasure(false));
}
it('should report a single interval', inject([AsyncTestCompleter], (async) => {
aggregate([eventFactory.start('script', 0), eventFactory.end('script', 5)])
.then((data) => {
expect(data['scriptTime']).toBe(5);
async.done();
});
}));
it('should sum up multiple intervals', inject([AsyncTestCompleter], (async) => {
aggregate([
eventFactory.start('script', 0),
eventFactory.end('script', 5),
eventFactory.start('script', 10),
eventFactory.end('script', 17)
])
.then((data) => {
expect(data['scriptTime']).toBe(12);
async.done();
});
}));
it('should ignore not started intervals', inject([AsyncTestCompleter], (async) => {
aggregate([eventFactory.end('script', 10)])
.then((data) => {
expect(data['scriptTime']).toBe(0);
async.done();
});
}));
it('should ignore not ended intervals', inject([AsyncTestCompleter], (async) => {
aggregate([eventFactory.start('script', 10)])
.then((data) => {
expect(data['scriptTime']).toBe(0);
async.done();
});
}));
it('should ignore nested intervals', inject([AsyncTestCompleter], (async) => {
aggregate([
eventFactory.start('script', 0),
eventFactory.start('script', 5),
eventFactory.end('script', 10),
eventFactory.end('script', 17)
])
.then((data) => {
expect(data['scriptTime']).toBe(17);
async.done();
});
}));
it('should ignore events from different processed as the start mark',
inject([AsyncTestCompleter], (async) => {
var otherProcessEventFactory = new TraceEventFactory('timeline', 'pid1');
var metric = createMetric([[
eventFactory.markStart('benchpress0', 0),
eventFactory.start('script', 0, null),
eventFactory.end('script', 5, null),
otherProcessEventFactory.start('script', 10, null),
otherProcessEventFactory.end('script', 17, null),
eventFactory.markEnd('benchpress0', 20)
]]);
metric.beginMeasure()
.then((_) => metric.endMeasure(false))
.then((data) => {
expect(data['scriptTime']).toBe(5);
async.done();
});
}));
it('should support scriptTime metric', inject([AsyncTestCompleter], (async) => {
aggregate([eventFactory.start('script', 0), eventFactory.end('script', 5)])
.then((data) => {
expect(data['scriptTime']).toBe(5);
async.done();
});
}));
it('should support renderTime metric', inject([AsyncTestCompleter], (async) => {
aggregate([eventFactory.start('render', 0), eventFactory.end('render', 5)])
.then((data) => {
expect(data['renderTime']).toBe(5);
async.done();
});
}));
it('should support gcTime/gcAmount metric', inject([AsyncTestCompleter], (async) => {
aggregate([
eventFactory.start('gc', 0, {'usedHeapSize': 2500}),
eventFactory.end('gc', 5, {'usedHeapSize': 1000})
])
.then((data) => {
expect(data['gcTime']).toBe(5);
expect(data['gcAmount']).toBe(1.5);
expect(data['majorGcTime']).toBe(0);
async.done();
});
}));
it('should support majorGcTime metric', inject([AsyncTestCompleter], (async) => {
aggregate([
eventFactory.start('gc', 0, {'usedHeapSize': 2500}),
eventFactory.end('gc', 5, {'usedHeapSize': 1000, 'majorGc': true})
])
.then((data) => {
expect(data['gcTime']).toBe(5);
expect(data['majorGcTime']).toBe(5);
async.done();
});
}));
it('should support pureScriptTime = scriptTime-gcTime-renderTime',
inject([AsyncTestCompleter], (async) => {
aggregate([
eventFactory.start('script', 0),
eventFactory.start('gc', 1, {'usedHeapSize': 1000}),
eventFactory.end('gc', 4, {'usedHeapSize': 0}),
eventFactory.start('render', 4),
eventFactory.end('render', 5),
eventFactory.end('script', 6)
])
.then((data) => {
expect(data['scriptTime']).toBe(6);
expect(data['pureScriptTime']).toBe(2);
async.done();
});
}));
describe('microMetrics', () => {
it('should report micro metrics', inject([AsyncTestCompleter], (async) => {
aggregate([
eventFactory.markStart('mm1', 0),
eventFactory.markEnd('mm1', 5),
],
{'mm1': 'micro metric 1'})
.then((data) => {
expect(data['mm1']).toBe(5.0);
async.done();
});
}));
it('should ignore micro metrics that were not specified',
inject([AsyncTestCompleter], (async) => {
aggregate([
eventFactory.markStart('mm1', 0),
eventFactory.markEnd('mm1', 5),
])
.then((data) => {
expect(data['mm1']).toBeFalsy();
async.done();
});
}));
it('should report micro metric averages', inject([AsyncTestCompleter], (async) => {
aggregate([
eventFactory.markStart('mm1*20', 0),
eventFactory.markEnd('mm1*20', 5),
],
{'mm1': 'micro metric 1'})
.then((data) => {
expect(data['mm1']).toBe(5 / 20);
async.done();
});
}));
});
});
});
}
class MockDriverExtension extends WebDriverExtension {
constructor(private _perfLogs: List<any>, private _commandLog: List<any>,
private _perfLogFeatures: PerfLogFeatures) {
super();
}
timeBegin(name): Promise<any> {
ListWrapper.push(this._commandLog, ['timeBegin', name]);
return PromiseWrapper.resolve(null);
}
timeEnd(name, restartName): Promise<any> {
ListWrapper.push(this._commandLog, ['timeEnd', name, restartName]);
return PromiseWrapper.resolve(null);
}
perfLogFeatures(): PerfLogFeatures { return this._perfLogFeatures; }
readPerfLog(): Promise<any> {
ListWrapper.push(this._commandLog, 'readPerfLog');
if (this._perfLogs.length > 0) {
var next = this._perfLogs[0];
ListWrapper.removeAt(this._perfLogs, 0);
return PromiseWrapper.resolve(next);
} else {
return PromiseWrapper.resolve([]);
}
}
gc(): Promise<any> {
ListWrapper.push(this._commandLog, ['gc']);
return PromiseWrapper.resolve(null);
}
}