angular-cn/packages/zone.js/test/zone-spec/fake-async-test.spec.ts

1504 lines
47 KiB
TypeScript

/**
* @license
* Copyright Google Inc. All Rights Reserved.
*
* Use of this source code is governed by an MIT-style license that can be
* found in the LICENSE file at https://angular.io/license
*/
import '../../lib/rxjs/rxjs-fake-async';
import {Observable} from 'rxjs';
import {delay} from 'rxjs/operators';
import {isNode, patchMacroTask, zoneSymbol} from '../../lib/common/utils';
import {ifEnvSupports} from '../test-util';
function supportNode() {
return isNode;
}
(supportNode as any).message = 'support node';
function supportClock() {
const _global: any = typeof window === 'undefined' ? global : window;
return typeof jasmine.clock === 'function' &&
_global[zoneSymbol('fakeAsyncAutoFakeAsyncWhenClockPatched')];
}
(supportClock as any).message = 'support patch clock';
describe('FakeAsyncTestZoneSpec', () => {
let FakeAsyncTestZoneSpec = (Zone as any)['FakeAsyncTestZoneSpec'];
let testZoneSpec: any;
let fakeAsyncTestZone: Zone;
beforeEach(() => {
testZoneSpec = new FakeAsyncTestZoneSpec('name');
fakeAsyncTestZone = Zone.current.fork(testZoneSpec);
});
it('sets the FakeAsyncTestZoneSpec property', () => {
fakeAsyncTestZone.run(
() => { expect(Zone.current.get('FakeAsyncTestZoneSpec')).toEqual(testZoneSpec); });
});
describe('synchronous code', () => {
it('should run', () => {
let ran = false;
fakeAsyncTestZone.run(() => { ran = true; });
expect(ran).toEqual(true);
});
it('should throw the error in the code', () => {
expect(() => {
fakeAsyncTestZone.run(() => { throw new Error('sync'); });
}).toThrowError('sync');
});
it('should throw error on Rejected promise', () => {
expect(() => {
fakeAsyncTestZone.run(() => {
Promise.reject('myError');
testZoneSpec.flushMicrotasks();
});
}).toThrowError('Uncaught (in promise): myError');
});
});
describe('asynchronous code', () => {
it('should run', () => {
fakeAsyncTestZone.run(() => {
let thenRan = false;
Promise.resolve(null).then((_) => { thenRan = true; });
expect(thenRan).toEqual(false);
testZoneSpec.flushMicrotasks();
expect(thenRan).toEqual(true);
});
});
it('should rethrow the exception on flushMicroTasks for error thrown in Promise callback',
() => {
fakeAsyncTestZone.run(() => {
Promise.resolve(null).then((_) => { throw new Error('async'); });
expect(() => {
testZoneSpec.flushMicrotasks();
}).toThrowError(/Uncaught \(in promise\): Error: async/);
});
});
it('should run chained thens', () => {
fakeAsyncTestZone.run(() => {
let log: number[] = [];
Promise.resolve(null).then((_) => log.push(1)).then((_) => log.push(2));
expect(log).toEqual([]);
testZoneSpec.flushMicrotasks();
expect(log).toEqual([1, 2]);
});
});
it('should run Promise created in Promise', () => {
fakeAsyncTestZone.run(() => {
let log: number[] = [];
Promise.resolve(null).then((_) => {
log.push(1);
Promise.resolve(null).then((_) => log.push(2));
});
expect(log).toEqual([]);
testZoneSpec.flushMicrotasks();
expect(log).toEqual([1, 2]);
});
});
});
describe('timers', () => {
it('should run queued zero duration timer on zero tick', () => {
fakeAsyncTestZone.run(() => {
let ran = false;
setTimeout(() => { ran = true; }, 0);
expect(ran).toEqual(false);
testZoneSpec.tick();
expect(ran).toEqual(true);
});
});
it('should run queued immediate timer on zero tick', ifEnvSupports('setImmediate', () => {
fakeAsyncTestZone.run(() => {
let ran = false;
setImmediate(() => { ran = true; });
expect(ran).toEqual(false);
testZoneSpec.tick();
expect(ran).toEqual(true);
});
}));
it('should default to processNewMacroTasksSynchronously if providing other flags', () => {
function nestedTimer(callback: () => any): void {
setTimeout(() => setTimeout(() => callback()));
}
fakeAsyncTestZone.run(() => {
const callback = jasmine.createSpy('callback');
nestedTimer(callback);
expect(callback).not.toHaveBeenCalled();
testZoneSpec.tick(0, null, {});
expect(callback).toHaveBeenCalled();
});
});
it('should not queue new macro task on tick with processNewMacroTasksSynchronously=false',
() => {
function nestedTimer(callback: () => any): void {
setTimeout(() => setTimeout(() => callback()));
}
fakeAsyncTestZone.run(() => {
const callback = jasmine.createSpy('callback');
nestedTimer(callback);
expect(callback).not.toHaveBeenCalled();
testZoneSpec.tick(0, null, {processNewMacroTasksSynchronously: false});
expect(callback).not.toHaveBeenCalled();
testZoneSpec.flush();
expect(callback).toHaveBeenCalled();
});
});
it('should run queued timer after sufficient clock ticks', () => {
fakeAsyncTestZone.run(() => {
let ran = false;
setTimeout(() => { ran = true; }, 10);
testZoneSpec.tick(6);
expect(ran).toEqual(false);
testZoneSpec.tick(4);
expect(ran).toEqual(true);
});
});
it('should run doTick callback even if no work ran', () => {
fakeAsyncTestZone.run(() => {
let totalElapsed = 0;
function doTick(elapsed: number) { totalElapsed += elapsed; }
setTimeout(() => {}, 10);
testZoneSpec.tick(6, doTick);
expect(totalElapsed).toEqual(6);
testZoneSpec.tick(6, doTick);
expect(totalElapsed).toEqual(12);
testZoneSpec.tick(6, doTick);
expect(totalElapsed).toEqual(18);
});
});
it('should run queued timer created by timer callback', () => {
fakeAsyncTestZone.run(() => {
let counter = 0;
const startCounterLoop = () => {
counter++;
setTimeout(startCounterLoop, 10);
};
startCounterLoop();
expect(counter).toEqual(1);
testZoneSpec.tick(10);
expect(counter).toEqual(2);
testZoneSpec.tick(10);
expect(counter).toEqual(3);
testZoneSpec.tick(30);
expect(counter).toEqual(6);
});
});
it('should run queued timer only once', () => {
fakeAsyncTestZone.run(() => {
let cycles = 0;
setTimeout(() => { cycles++; }, 10);
testZoneSpec.tick(10);
expect(cycles).toEqual(1);
testZoneSpec.tick(10);
expect(cycles).toEqual(1);
testZoneSpec.tick(10);
expect(cycles).toEqual(1);
});
expect(testZoneSpec.pendingTimers.length).toBe(0);
});
it('should not run cancelled timer', () => {
fakeAsyncTestZone.run(() => {
let ran = false;
let id: any = setTimeout(() => { ran = true; }, 10);
clearTimeout(id);
testZoneSpec.tick(10);
expect(ran).toEqual(false);
});
});
it('should pass arguments to times', () => {
fakeAsyncTestZone.run(() => {
let value = 'genuine value';
let id = setTimeout((arg1, arg2) => { value = arg1 + arg2; }, 0, 'expected', ' value');
testZoneSpec.tick();
expect(value).toEqual('expected value');
});
});
it('should pass arguments to setImmediate', ifEnvSupports('setImmediate', () => {
fakeAsyncTestZone.run(() => {
let value = 'genuine value';
let id = setImmediate((arg1, arg2) => { value = arg1 + arg2; }, 'expected', ' value');
testZoneSpec.tick();
expect(value).toEqual('expected value');
});
}));
it('should run periodic timers', () => {
fakeAsyncTestZone.run(() => {
let cycles = 0;
let id = setInterval(() => { cycles++; }, 10);
expect(id).toBeGreaterThan(0);
testZoneSpec.tick(10);
expect(cycles).toEqual(1);
testZoneSpec.tick(10);
expect(cycles).toEqual(2);
testZoneSpec.tick(10);
expect(cycles).toEqual(3);
testZoneSpec.tick(30);
expect(cycles).toEqual(6);
});
});
it('should pass arguments to periodic timers', () => {
fakeAsyncTestZone.run(() => {
let value = 'genuine value';
let id = setInterval((arg1, arg2) => { value = arg1 + arg2; }, 10, 'expected', ' value');
testZoneSpec.tick(10);
expect(value).toEqual('expected value');
});
});
it('should not run cancelled periodic timer', () => {
fakeAsyncTestZone.run(() => {
let ran = false;
let id = setInterval(() => { ran = true; }, 10);
testZoneSpec.tick(10);
expect(ran).toEqual(true);
ran = false;
clearInterval(id);
testZoneSpec.tick(10);
expect(ran).toEqual(false);
});
});
it('should be able to cancel periodic timers from a callback', () => {
fakeAsyncTestZone.run(() => {
let cycles = 0;
let id: number;
id = setInterval(() => {
cycles++;
clearInterval(id);
}, 10) as any as number;
testZoneSpec.tick(10);
expect(cycles).toEqual(1);
testZoneSpec.tick(10);
expect(cycles).toEqual(1);
});
});
it('should process microtasks before timers', () => {
fakeAsyncTestZone.run(() => {
let log: string[] = [];
Promise.resolve(null).then((_) => log.push('microtask'));
setTimeout(() => log.push('timer'), 9);
setInterval(() => log.push('periodic timer'), 10);
expect(log).toEqual([]);
testZoneSpec.tick(10);
expect(log).toEqual(['microtask', 'timer', 'periodic timer']);
});
});
it('should process micro-tasks created in timers before next timers', () => {
fakeAsyncTestZone.run(() => {
let log: string[] = [];
Promise.resolve(null).then((_) => log.push('microtask'));
setTimeout(() => {
log.push('timer');
Promise.resolve(null).then((_) => log.push('t microtask'));
}, 9);
let id = setInterval(() => {
log.push('periodic timer');
Promise.resolve(null).then((_) => log.push('pt microtask'));
}, 10);
testZoneSpec.tick(10);
expect(log).toEqual(
['microtask', 'timer', 't microtask', 'periodic timer', 'pt microtask']);
testZoneSpec.tick(10);
expect(log).toEqual([
'microtask', 'timer', 't microtask', 'periodic timer', 'pt microtask', 'periodic timer',
'pt microtask'
]);
});
});
it('should throw the exception from tick for error thrown in timer callback', () => {
fakeAsyncTestZone.run(() => {
setTimeout(() => { throw new Error('timer'); }, 10);
expect(() => { testZoneSpec.tick(10); }).toThrowError('timer');
});
// There should be no pending timers after the error in timer callback.
expect(testZoneSpec.pendingTimers.length).toBe(0);
});
it('should throw the exception from tick for error thrown in periodic timer callback', () => {
fakeAsyncTestZone.run(() => {
let count = 0;
setInterval(() => {
count++;
throw new Error(count.toString());
}, 10);
expect(() => { testZoneSpec.tick(10); }).toThrowError('1');
// Periodic timer is cancelled on first error.
expect(count).toBe(1);
testZoneSpec.tick(10);
expect(count).toBe(1);
});
// Periodic timer is removed from pending queue on error.
expect(testZoneSpec.pendingPeriodicTimers.length).toBe(0);
});
});
it('should be able to resume processing timer callbacks after handling an error', () => {
fakeAsyncTestZone.run(() => {
let ran = false;
setTimeout(() => { throw new Error('timer'); }, 10);
setTimeout(() => { ran = true; }, 10);
expect(() => { testZoneSpec.tick(10); }).toThrowError('timer');
expect(ran).toBe(false);
// Restart timer queue processing.
testZoneSpec.tick(0);
expect(ran).toBe(true);
});
// There should be no pending timers after the error in timer callback.
expect(testZoneSpec.pendingTimers.length).toBe(0);
});
describe('flushing all tasks', () => {
it('should flush all pending timers', () => {
fakeAsyncTestZone.run(() => {
let x = false;
let y = false;
let z = false;
setTimeout(() => { x = true; }, 10);
setTimeout(() => { y = true; }, 100);
setTimeout(() => { z = true; }, 70);
let elapsed = testZoneSpec.flush();
expect(elapsed).toEqual(100);
expect(x).toBe(true);
expect(y).toBe(true);
expect(z).toBe(true);
});
});
it('should flush nested timers', () => {
fakeAsyncTestZone.run(() => {
let x = true;
let y = true;
setTimeout(() => {
x = true;
setTimeout(() => { y = true; }, 100);
}, 200);
let elapsed = testZoneSpec.flush();
expect(elapsed).toEqual(300);
expect(x).toBe(true);
expect(y).toBe(true);
});
});
it('should advance intervals', () => {
fakeAsyncTestZone.run(() => {
let x = false;
let y = false;
let z = 0;
setTimeout(() => { x = true; }, 50);
setTimeout(() => { y = true; }, 141);
setInterval(() => { z++; }, 10);
let elapsed = testZoneSpec.flush();
expect(elapsed).toEqual(141);
expect(x).toBe(true);
expect(y).toBe(true);
expect(z).toEqual(14);
});
});
it('should not wait for intervals', () => {
fakeAsyncTestZone.run(() => {
let z = 0;
setInterval(() => { z++; }, 10);
let elapsed = testZoneSpec.flush();
expect(elapsed).toEqual(0);
expect(z).toEqual(0);
});
});
it('should process micro-tasks created in timers before next timers', () => {
fakeAsyncTestZone.run(() => {
let log: string[] = [];
Promise.resolve(null).then((_) => log.push('microtask'));
setTimeout(() => {
log.push('timer');
Promise.resolve(null).then((_) => log.push('t microtask'));
}, 20);
let id = setInterval(() => {
log.push('periodic timer');
Promise.resolve(null).then((_) => log.push('pt microtask'));
}, 10);
testZoneSpec.flush();
expect(log).toEqual(
['microtask', 'periodic timer', 'pt microtask', 'timer', 't microtask']);
});
});
it('should throw the exception from tick for error thrown in timer callback', () => {
fakeAsyncTestZone.run(() => {
setTimeout(() => { throw new Error('timer'); }, 10);
expect(() => { testZoneSpec.flush(); }).toThrowError('timer');
});
// There should be no pending timers after the error in timer callback.
expect(testZoneSpec.pendingTimers.length).toBe(0);
});
it('should do something reasonable with polling timeouts', () => {
expect(() => {
fakeAsyncTestZone.run(() => {
let z = 0;
let poll = () => {
setTimeout(() => {
z++;
poll();
}, 10);
};
poll();
testZoneSpec.flush();
});
})
.toThrowError(
'flush failed after reaching the limit of 20 tasks. Does your code use a polling timeout?');
});
it('accepts a custom limit', () => {
expect(() => {
fakeAsyncTestZone.run(() => {
let z = 0;
let poll = () => {
setTimeout(() => {
z++;
poll();
}, 10);
};
poll();
testZoneSpec.flush(10);
});
})
.toThrowError(
'flush failed after reaching the limit of 10 tasks. Does your code use a polling timeout?');
});
it('can flush periodic timers if flushPeriodic is true', () => {
fakeAsyncTestZone.run(() => {
let x = 0;
setInterval(() => { x++; }, 10);
let elapsed = testZoneSpec.flush(20, true);
expect(elapsed).toEqual(10);
expect(x).toEqual(1);
});
});
it('can flush multiple periodic timers if flushPeriodic is true', () => {
fakeAsyncTestZone.run(() => {
let x = 0;
let y = 0;
setInterval(() => { x++; }, 10);
setInterval(() => { y++; }, 100);
let elapsed = testZoneSpec.flush(20, true);
expect(elapsed).toEqual(100);
expect(x).toEqual(10);
expect(y).toEqual(1);
});
});
it('can flush till the last periodic task is processed', () => {
fakeAsyncTestZone.run(() => {
let x = 0;
let y = 0;
setInterval(() => { x++; }, 10);
// This shouldn't cause the flush to throw an exception even though
// it would require 100 iterations of the shorter timer.
setInterval(() => { y++; }, 1000);
let elapsed = testZoneSpec.flush(20, true);
// Should stop right after the longer timer has been processed.
expect(elapsed).toEqual(1000);
expect(x).toEqual(100);
expect(y).toEqual(1);
});
});
});
describe('outside of FakeAsync Zone', () => {
it('calling flushMicrotasks should throw exception', () => {
expect(() => {
testZoneSpec.flushMicrotasks();
}).toThrowError('The code should be running in the fakeAsync zone to call this function');
});
it('calling tick should throw exception', () => {
expect(() => {
testZoneSpec.tick();
}).toThrowError('The code should be running in the fakeAsync zone to call this function');
});
});
describe('requestAnimationFrame', () => {
const functions =
['requestAnimationFrame', 'webkitRequestAnimationFrame', 'mozRequestAnimationFrame'];
functions.forEach((fnName) => {
describe(fnName, ifEnvSupports(fnName, () => {
it('should schedule a requestAnimationFrame with timeout of 16ms', () => {
fakeAsyncTestZone.run(() => {
let ran = false;
requestAnimationFrame(() => { ran = true; });
testZoneSpec.tick(6);
expect(ran).toEqual(false);
testZoneSpec.tick(10);
expect(ran).toEqual(true);
});
});
it('does not count as a pending timer', () => {
fakeAsyncTestZone.run(() => { requestAnimationFrame(() => {}); });
expect(testZoneSpec.pendingTimers.length).toBe(0);
expect(testZoneSpec.pendingPeriodicTimers.length).toBe(0);
});
it('should cancel a scheduled requestAnimatiomFrame', () => {
fakeAsyncTestZone.run(() => {
let ran = false;
const id = requestAnimationFrame(() => { ran = true; });
testZoneSpec.tick(6);
expect(ran).toEqual(false);
cancelAnimationFrame(id);
testZoneSpec.tick(10);
expect(ran).toEqual(false);
});
});
it('is not flushed when flushPeriodic is false', () => {
let ran = false;
fakeAsyncTestZone.run(() => {
requestAnimationFrame(() => { ran = true; });
testZoneSpec.flush(20);
expect(ran).toEqual(false);
});
});
it('is flushed when flushPeriodic is true', () => {
let ran = false;
fakeAsyncTestZone.run(() => {
requestAnimationFrame(() => { ran = true; });
const elapsed = testZoneSpec.flush(20, true);
expect(elapsed).toEqual(16);
expect(ran).toEqual(true);
});
});
it('should pass timestamp as parameter', () => {
let timestamp = 0;
let timestamp1 = 0;
fakeAsyncTestZone.run(() => {
requestAnimationFrame((ts) => {
timestamp = ts;
requestAnimationFrame(ts1 => { timestamp1 = ts1; });
});
const elapsed = testZoneSpec.flush(20, true);
const elapsed1 = testZoneSpec.flush(20, true);
expect(elapsed).toEqual(16);
expect(elapsed1).toEqual(16);
expect(timestamp).toEqual(16);
expect(timestamp1).toEqual(32);
});
});
}));
});
});
describe(
'XHRs', ifEnvSupports('XMLHttpRequest', () => {
it('should throw an exception if an XHR is initiated in the zone', () => {
expect(() => {
fakeAsyncTestZone.run(() => {
let finished = false;
let req = new XMLHttpRequest();
req.onreadystatechange = () => {
if (req.readyState === XMLHttpRequest.DONE) {
finished = true;
}
};
req.open('GET', '/test', true);
req.send();
});
}).toThrowError('Cannot make XHRs from within a fake async test. Request URL: /test');
});
}));
describe('node process', ifEnvSupports(supportNode, () => {
it('should be able to schedule microTask with additional arguments', () => {
const process = global['process'];
const nextTick = process && process['nextTick'];
if (!nextTick) {
return;
}
fakeAsyncTestZone.run(() => {
let tickRun = false;
let cbArgRun = false;
nextTick(
(strArg: string, cbArg: Function) => {
tickRun = true;
expect(strArg).toEqual('stringArg');
cbArg();
},
'stringArg', () => { cbArgRun = true; });
expect(tickRun).toEqual(false);
testZoneSpec.flushMicrotasks();
expect(tickRun).toEqual(true);
expect(cbArgRun).toEqual(true);
});
});
}));
describe('should allow user define which macroTask fakeAsyncTest', () => {
let FakeAsyncTestZoneSpec = (Zone as any)['FakeAsyncTestZoneSpec'];
let testZoneSpec: any;
let fakeAsyncTestZone: Zone;
it('should support custom non perodic macroTask', () => {
testZoneSpec = new FakeAsyncTestZoneSpec(
'name', false, [{source: 'TestClass.myTimeout', callbackArgs: ['test']}]);
class TestClass {
myTimeout(callback: Function) {}
}
fakeAsyncTestZone = Zone.current.fork(testZoneSpec);
fakeAsyncTestZone.run(() => {
let ran = false;
patchMacroTask(
TestClass.prototype, 'myTimeout',
(self: any, args: any[]) =>
({name: 'TestClass.myTimeout', target: self, cbIdx: 0, args: args}));
const testClass = new TestClass();
testClass.myTimeout(function(callbackArgs: any) {
ran = true;
expect(callbackArgs).toEqual('test');
});
expect(ran).toEqual(false);
testZoneSpec.tick();
expect(ran).toEqual(true);
});
});
it('should support custom non perodic macroTask by global flag', () => {
testZoneSpec = new FakeAsyncTestZoneSpec('name');
class TestClass {
myTimeout(callback: Function) {}
}
fakeAsyncTestZone = Zone.current.fork(testZoneSpec);
fakeAsyncTestZone.run(() => {
let ran = false;
patchMacroTask(
TestClass.prototype, 'myTimeout',
(self: any, args: any[]) =>
({name: 'TestClass.myTimeout', target: self, cbIdx: 0, args: args}));
const testClass = new TestClass();
testClass.myTimeout(() => { ran = true; });
expect(ran).toEqual(false);
testZoneSpec.tick();
expect(ran).toEqual(true);
});
});
it('should support custom perodic macroTask', () => {
testZoneSpec = new FakeAsyncTestZoneSpec(
'name', false, [{source: 'TestClass.myInterval', isPeriodic: true}]);
fakeAsyncTestZone = Zone.current.fork(testZoneSpec);
fakeAsyncTestZone.run(() => {
let cycle = 0;
class TestClass {
myInterval(callback: Function, interval: number): any { return null; }
}
patchMacroTask(
TestClass.prototype, 'myInterval',
(self: any, args: any[]) =>
({name: 'TestClass.myInterval', target: self, cbIdx: 0, args: args}));
const testClass = new TestClass();
const id = testClass.myInterval(() => { cycle++; }, 10);
expect(cycle).toEqual(0);
testZoneSpec.tick(10);
expect(cycle).toEqual(1);
testZoneSpec.tick(10);
expect(cycle).toEqual(2);
clearInterval(id);
});
});
});
describe('return promise', () => {
let log: string[];
beforeEach(() => { log = []; });
it('should wait for promise to resolve', () => {
return new Promise((res, _) => {
setTimeout(() => {
log.push('resolved');
res();
}, 100);
});
});
afterEach(() => { expect(log).toEqual(['resolved']); });
});
describe('fakeAsyncTest should patch Date', () => {
let FakeAsyncTestZoneSpec = (Zone as any)['FakeAsyncTestZoneSpec'];
let testZoneSpec: any;
let fakeAsyncTestZone: Zone;
beforeEach(() => {
testZoneSpec = new FakeAsyncTestZoneSpec('name', false);
fakeAsyncTestZone = Zone.current.fork(testZoneSpec);
});
it('should get date diff correctly', () => {
fakeAsyncTestZone.run(() => {
const start = Date.now();
testZoneSpec.tick(100);
const end = Date.now();
expect(end - start).toBe(100);
});
});
it('should check date type correctly', () => {
fakeAsyncTestZone.run(() => {
const d: any = new Date();
expect(d instanceof Date).toBe(true);
});
});
it('should new Date with parameter correctly', () => {
fakeAsyncTestZone.run(() => {
const d: Date = new Date(0);
expect(d.getFullYear()).toBeLessThan(1971);
const d1: Date = new Date('December 17, 1995 03:24:00');
expect(d1.getFullYear()).toEqual(1995);
const d2: Date = new Date(1995, 11, 17, 3, 24, 0);
expect(d2.getFullYear()).toEqual(1995);
d2.setFullYear(1985);
expect(isNaN(d2.getTime())).toBeFalsy();
expect(d2.getFullYear()).toBe(1985);
expect(d2.getMonth()).toBe(11);
expect(d2.getDate()).toBe(17);
});
});
it('should get Date.UTC() correctly', () => {
fakeAsyncTestZone.run(() => {
const utcDate = new Date(Date.UTC(96, 11, 1, 0, 0, 0));
expect(utcDate.getFullYear()).toBe(1996);
});
});
it('should call Date.parse() correctly', () => {
fakeAsyncTestZone.run(() => {
const unixTimeZero = Date.parse('01 Jan 1970 00:00:00 GMT');
expect(unixTimeZero).toBe(0);
});
});
});
describe(
'fakeAsyncTest should work without patch jasmine.clock',
ifEnvSupports(
() => { return !supportClock() && supportNode(); },
() => {
const fakeAsync = (Zone as any)[Zone.__symbol__('fakeAsyncTest')].fakeAsync;
let spy: any;
beforeEach(() => {
spy = jasmine.createSpy('timer');
jasmine.clock().install();
});
afterEach(() => { jasmine.clock().uninstall(); });
it('should check date type correctly', fakeAsync(() => {
const d: any = new Date();
expect(d instanceof Date).toBe(true);
}));
it('should check date type correctly without fakeAsync', () => {
const d: any = new Date();
expect(d instanceof Date).toBe(true);
});
it('should tick correctly', fakeAsync(() => {
jasmine.clock().mockDate();
const start = Date.now();
jasmine.clock().tick(100);
const end = Date.now();
expect(end - start).toBe(100);
}));
it('should tick correctly without fakeAsync', () => {
jasmine.clock().mockDate();
const start = Date.now();
jasmine.clock().tick(100);
const end = Date.now();
expect(end - start).toBe(100);
});
it('should mock date correctly', fakeAsync(() => {
const baseTime = new Date(2013, 9, 23);
jasmine.clock().mockDate(baseTime);
const start = Date.now();
expect(start).toBe(baseTime.getTime());
jasmine.clock().tick(100);
const end = Date.now();
expect(end - start).toBe(100);
expect(end).toBe(baseTime.getTime() + 100);
expect(new Date().getFullYear()).toEqual(2013);
}));
it('should mock date correctly without fakeAsync', () => {
const baseTime = new Date(2013, 9, 23);
jasmine.clock().mockDate(baseTime);
const start = Date.now();
expect(start).toBe(baseTime.getTime());
jasmine.clock().tick(100);
const end = Date.now();
expect(end - start).toBe(100);
expect(end).toBe(baseTime.getTime() + 100);
expect(new Date().getFullYear()).toEqual(2013);
});
it('should handle new Date correctly', fakeAsync(() => {
const baseTime = new Date(2013, 9, 23);
jasmine.clock().mockDate(baseTime);
const start = new Date();
expect(start.getTime()).toBe(baseTime.getTime());
jasmine.clock().tick(100);
const end = new Date();
expect(end.getTime() - start.getTime()).toBe(100);
expect(end.getTime()).toBe(baseTime.getTime() + 100);
}));
it('should handle new Date correctly without fakeAsync', () => {
const baseTime = new Date(2013, 9, 23);
jasmine.clock().mockDate(baseTime);
const start = new Date();
expect(start.getTime()).toBe(baseTime.getTime());
jasmine.clock().tick(100);
const end = new Date();
expect(end.getTime() - start.getTime()).toBe(100);
expect(end.getTime()).toBe(baseTime.getTime() + 100);
});
it('should handle setTimeout correctly', fakeAsync(() => {
setTimeout(spy, 100);
expect(spy).not.toHaveBeenCalled();
jasmine.clock().tick(100);
expect(spy).toHaveBeenCalled();
}));
it('should handle setTimeout correctly without fakeAsync', () => {
setTimeout(spy, 100);
expect(spy).not.toHaveBeenCalled();
jasmine.clock().tick(100);
expect(spy).toHaveBeenCalled();
});
}));
describe('fakeAsyncTest should patch jasmine.clock', ifEnvSupports(supportClock, () => {
let spy: any;
beforeEach(() => {
spy = jasmine.createSpy('timer');
jasmine.clock().install();
});
afterEach(() => { jasmine.clock().uninstall(); });
it('should check date type correctly', () => {
const d: any = new Date();
expect(d instanceof Date).toBe(true);
});
it('should get date diff correctly', () => {
const start = Date.now();
jasmine.clock().tick(100);
const end = Date.now();
expect(end - start).toBe(100);
});
it('should tick correctly', () => {
const start = Date.now();
jasmine.clock().tick(100);
const end = Date.now();
expect(end - start).toBe(100);
});
it('should mock date correctly', () => {
const baseTime = new Date(2013, 9, 23);
jasmine.clock().mockDate(baseTime);
const start = Date.now();
expect(start).toBe(baseTime.getTime());
jasmine.clock().tick(100);
const end = Date.now();
expect(end - start).toBe(100);
expect(end).toBe(baseTime.getTime() + 100);
});
it('should handle new Date correctly', () => {
const baseTime = new Date(2013, 9, 23);
jasmine.clock().mockDate(baseTime);
const start = new Date();
expect(start.getTime()).toBe(baseTime.getTime());
jasmine.clock().tick(100);
const end = new Date();
expect(end.getTime() - start.getTime()).toBe(100);
expect(end.getTime()).toBe(baseTime.getTime() + 100);
});
it('should handle setTimeout correctly', () => {
setTimeout(spy, 100);
expect(spy).not.toHaveBeenCalled();
jasmine.clock().tick(100);
expect(spy).toHaveBeenCalled();
});
}));
describe('fakeAsyncTest should patch rxjs scheduler', ifEnvSupports(supportClock, () => {
let FakeAsyncTestZoneSpec = (Zone as any)['FakeAsyncTestZoneSpec'];
let testZoneSpec: any;
let fakeAsyncTestZone: Zone;
beforeEach(() => {
testZoneSpec = new FakeAsyncTestZoneSpec('name', false);
fakeAsyncTestZone = Zone.current.fork(testZoneSpec);
});
it('should get date diff correctly', (done) => {
fakeAsyncTestZone.run(() => {
let result: any = null;
const observable = new Observable((subscribe: any) => {
subscribe.next('hello');
subscribe.complete();
});
observable.pipe(delay(1000)).subscribe((v: any) => { result = v; });
expect(result).toBe(null);
testZoneSpec.tick(1000);
expect(result).toBe('hello');
done();
});
});
}));
});
class Log {
logItems: any[];
constructor() { this.logItems = []; }
add(value: any /** TODO #9100 */): void { this.logItems.push(value); }
fn(value: any /** TODO #9100 */) {
return (a1: any = null, a2: any = null, a3: any = null, a4: any = null, a5: any = null) => {
this.logItems.push(value);
};
}
clear(): void { this.logItems = []; }
result(): string { return this.logItems.join('; '); }
}
const resolvedPromise = Promise.resolve(null);
const ProxyZoneSpec: {assertPresent: () => void} = (Zone as any)['ProxyZoneSpec'];
const fakeAsyncTestModule = (Zone as any)[Zone.__symbol__('fakeAsyncTest')];
const {fakeAsync, tick, discardPeriodicTasks, flush, flushMicrotasks} = fakeAsyncTestModule;
{
describe('fake async', () => {
it('should run synchronous code', () => {
let ran = false;
fakeAsync(() => { ran = true; })();
expect(ran).toEqual(true);
});
it('should pass arguments to the wrapped function', () => {
fakeAsync((foo: any /** TODO #9100 */, bar: any /** TODO #9100 */) => {
expect(foo).toEqual('foo');
expect(bar).toEqual('bar');
})('foo', 'bar');
});
it('should throw on nested calls', () => {
expect(() => {
fakeAsync(() => { fakeAsync((): any /** TODO #9100 */ => null)(); })();
}).toThrowError('fakeAsync() calls can not be nested');
});
it('should flush microtasks before returning', () => {
let thenRan = false;
fakeAsync(() => { resolvedPromise.then(_ => { thenRan = true; }); })();
expect(thenRan).toEqual(true);
});
it('should propagate the return value',
() => { expect(fakeAsync(() => 'foo')()).toEqual('foo'); });
describe('Promise', () => {
it('should run asynchronous code', fakeAsync(() => {
let thenRan = false;
resolvedPromise.then((_) => { thenRan = true; });
expect(thenRan).toEqual(false);
flushMicrotasks();
expect(thenRan).toEqual(true);
}));
it('should run chained thens', fakeAsync(() => {
const log = new Log();
resolvedPromise.then((_) => log.add(1)).then((_) => log.add(2));
expect(log.result()).toEqual('');
flushMicrotasks();
expect(log.result()).toEqual('1; 2');
}));
it('should run Promise created in Promise', fakeAsync(() => {
const log = new Log();
resolvedPromise.then((_) => {
log.add(1);
resolvedPromise.then((_) => log.add(2));
});
expect(log.result()).toEqual('');
flushMicrotasks();
expect(log.result()).toEqual('1; 2');
}));
it('should complain if the test throws an exception during async calls', () => {
expect(() => {
fakeAsync(() => {
resolvedPromise.then((_) => { throw new Error('async'); });
flushMicrotasks();
})();
}).toThrowError(/Uncaught \(in promise\): Error: async/);
});
it('should complain if a test throws an exception', () => {
expect(() => { fakeAsync(() => { throw new Error('sync'); })(); }).toThrowError('sync');
});
});
describe('timers', () => {
it('should run queued zero duration timer on zero tick', fakeAsync(() => {
let ran = false;
setTimeout(() => { ran = true; }, 0);
expect(ran).toEqual(false);
tick();
expect(ran).toEqual(true);
}));
it('should run queued timer after sufficient clock ticks', fakeAsync(() => {
let ran = false;
setTimeout(() => { ran = true; }, 10);
tick(6);
expect(ran).toEqual(false);
tick(6);
expect(ran).toEqual(true);
}));
it('should run queued timer only once', fakeAsync(() => {
let cycles = 0;
setTimeout(() => { cycles++; }, 10);
tick(10);
expect(cycles).toEqual(1);
tick(10);
expect(cycles).toEqual(1);
tick(10);
expect(cycles).toEqual(1);
}));
it('should not run cancelled timer', fakeAsync(() => {
let ran = false;
const id = setTimeout(() => { ran = true; }, 10);
clearTimeout(id);
tick(10);
expect(ran).toEqual(false);
}));
it('should throw an error on dangling timers', () => {
expect(() => {
fakeAsync(() => { setTimeout(() => {}, 10); })();
}).toThrowError('1 timer(s) still in the queue.');
});
it('should throw an error on dangling periodic timers', () => {
expect(() => {
fakeAsync(() => { setInterval(() => {}, 10); })();
}).toThrowError('1 periodic timer(s) still in the queue.');
});
it('should run periodic timers', fakeAsync(() => {
let cycles = 0;
const id = setInterval(() => { cycles++; }, 10);
tick(10);
expect(cycles).toEqual(1);
tick(10);
expect(cycles).toEqual(2);
tick(10);
expect(cycles).toEqual(3);
clearInterval(id);
}));
it('should not run cancelled periodic timer', fakeAsync(() => {
let ran = false;
const id = setInterval(() => { ran = true; }, 10);
clearInterval(id);
tick(10);
expect(ran).toEqual(false);
}));
it('should be able to cancel periodic timers from a callback', fakeAsync(() => {
let cycles = 0;
let id: any /** TODO #9100 */;
id = setInterval(() => {
cycles++;
clearInterval(id);
}, 10);
tick(10);
expect(cycles).toEqual(1);
tick(10);
expect(cycles).toEqual(1);
}));
it('should clear periodic timers', fakeAsync(() => {
let cycles = 0;
const id = setInterval(() => { cycles++; }, 10);
tick(10);
expect(cycles).toEqual(1);
discardPeriodicTasks();
// Tick once to clear out the timer which already started.
tick(10);
expect(cycles).toEqual(2);
tick(10);
// Nothing should change
expect(cycles).toEqual(2);
}));
it('should process microtasks before timers', fakeAsync(() => {
const log = new Log();
resolvedPromise.then((_) => log.add('microtask'));
setTimeout(() => log.add('timer'), 9);
const id = setInterval(() => log.add('periodic timer'), 10);
expect(log.result()).toEqual('');
tick(10);
expect(log.result()).toEqual('microtask; timer; periodic timer');
clearInterval(id);
}));
it('should process micro-tasks created in timers before next timers', fakeAsync(() => {
const log = new Log();
resolvedPromise.then((_) => log.add('microtask'));
setTimeout(() => {
log.add('timer');
resolvedPromise.then((_) => log.add('t microtask'));
}, 9);
const id = setInterval(() => {
log.add('periodic timer');
resolvedPromise.then((_) => log.add('pt microtask'));
}, 10);
tick(10);
expect(log.result())
.toEqual('microtask; timer; t microtask; periodic timer; pt microtask');
tick(10);
expect(log.result())
.toEqual(
'microtask; timer; t microtask; periodic timer; pt microtask; periodic timer; pt microtask');
clearInterval(id);
}));
it('should flush tasks', fakeAsync(() => {
let ran = false;
setTimeout(() => { ran = true; }, 10);
flush();
expect(ran).toEqual(true);
}));
it('should flush multiple tasks', fakeAsync(() => {
let ran = false;
let ran2 = false;
setTimeout(() => { ran = true; }, 10);
setTimeout(() => { ran2 = true; }, 30);
let elapsed = flush();
expect(ran).toEqual(true);
expect(ran2).toEqual(true);
expect(elapsed).toEqual(30);
}));
it('should move periodic tasks', fakeAsync(() => {
let ran = false;
let count = 0;
setInterval(() => { count++; }, 10);
setTimeout(() => { ran = true; }, 35);
let elapsed = flush();
expect(count).toEqual(3);
expect(ran).toEqual(true);
expect(elapsed).toEqual(35);
discardPeriodicTasks();
}));
});
describe('outside of the fakeAsync zone', () => {
it('calling flushMicrotasks should throw', () => {
expect(() => {
flushMicrotasks();
}).toThrowError('The code should be running in the fakeAsync zone to call this function');
});
it('calling tick should throw', () => {
expect(() => {
tick();
}).toThrowError('The code should be running in the fakeAsync zone to call this function');
});
it('calling flush should throw', () => {
expect(() => {
flush();
}).toThrowError('The code should be running in the fakeAsync zone to call this function');
});
it('calling discardPeriodicTasks should throw', () => {
expect(() => {
discardPeriodicTasks();
}).toThrowError('The code should be running in the fakeAsync zone to call this function');
});
});
describe('only one `fakeAsync` zone per test', () => {
let zoneInBeforeEach: Zone;
let zoneInTest1: Zone;
beforeEach(fakeAsync(() => { zoneInBeforeEach = Zone.current; }));
it('should use the same zone as in beforeEach', fakeAsync(() => {
zoneInTest1 = Zone.current;
expect(zoneInTest1).toBe(zoneInBeforeEach);
}));
});
describe('fakeAsync should work with Date', () => {
it('should get date diff correctly', fakeAsync(() => {
const start = Date.now();
tick(100);
const end = Date.now();
expect(end - start).toBe(100);
}));
it('should check date type correctly', fakeAsync(() => {
const d: any = new Date();
expect(d instanceof Date).toBe(true);
}));
it('should new Date with parameter correctly', fakeAsync(() => {
const d: Date = new Date(0);
expect(d.getFullYear()).toBeLessThan(1971);
const d1: Date = new Date('December 17, 1995 03:24:00');
expect(d1.getFullYear()).toEqual(1995);
const d2: Date = new Date(1995, 11, 17, 3, 24, 0);
expect(isNaN(d2.getTime())).toBeFalsy();
expect(d2.getFullYear()).toEqual(1995);
d2.setFullYear(1985);
expect(d2.getFullYear()).toBe(1985);
expect(d2.getMonth()).toBe(11);
expect(d2.getDate()).toBe(17);
}));
it('should get Date.UTC() correctly', fakeAsync(() => {
const utcDate = new Date(Date.UTC(96, 11, 1, 0, 0, 0));
expect(utcDate.getFullYear()).toBe(1996);
}));
it('should call Date.parse() correctly', fakeAsync(() => {
const unixTimeZero = Date.parse('01 Jan 1970 00:00:00 GMT');
expect(unixTimeZero).toBe(0);
}));
});
});
describe('ProxyZone', () => {
beforeEach(() => { ProxyZoneSpec.assertPresent(); });
afterEach(() => { ProxyZoneSpec.assertPresent(); });
it('should allow fakeAsync zone to retroactively set a zoneSpec outside of fakeAsync', () => {
ProxyZoneSpec.assertPresent();
let state: string = 'not run';
const testZone = Zone.current.fork({name: 'test-zone'});
(fakeAsync(() => {
testZone.run(() => {
Promise.resolve('works').then((v) => state = v);
expect(state).toEqual('not run');
flushMicrotasks();
expect(state).toEqual('works');
});
}))();
expect(state).toEqual('works');
});
});
}