本文整理汇总了TypeScript中@angular/core/testing/testing_internal.xit函数的典型用法代码示例。如果您正苦于以下问题:TypeScript xit函数的具体用法?TypeScript xit怎么用?TypeScript xit使用的例子?那么, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了xit函数的5个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的TypeScript代码示例。
示例1: describe
describe('Promise', () => {
it('should run asynchronous code', fakeAsync(() => {
var thenRan = false;
PromiseWrapper.resolve(null).then((_) => { thenRan = true; });
expect(thenRan).toEqual(false);
flushMicrotasks();
expect(thenRan).toEqual(true);
}));
it('should run chained thens', fakeAsync(() => {
var log = new Log();
PromiseWrapper.resolve(null).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(() => {
var log = new Log();
PromiseWrapper.resolve(null).then((_) => {
log.add(1);
PromiseWrapper.resolve(null).then((_) => log.add(2));
});
expect(log.result()).toEqual('');
flushMicrotasks();
expect(log.result()).toEqual('1; 2');
}));
// TODO(vicb): check why this doesn't work in JS - linked to open issues on GH ?
xit('should complain if the test throws an exception during async calls', () => {
expect(() => {
fakeAsync(() => {
PromiseWrapper.resolve(null).then((_) => { throw new BaseException('async'); });
flushMicrotasks();
})();
}).toThrowError('async');
});
it('should complain if a test throws an exception', () => {
expect(() => {
fakeAsync(() => { throw new BaseException('sync'); })();
}).toThrowError('sync');
});
});
示例2: describe
describe('run', () => {
it('should return the body return value from run',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
macroTask(() => { expect(_zone.run(() => { return 6; })).toEqual(6); });
macroTask(() => { async.done(); });
}), testTimeout);
it('should call onUnstable and onMicrotaskEmpty',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
runNgZoneNoLog(() => macroTask(_log.fn('run')));
macroTask(() => {
expect(_log.result()).toEqual('onUnstable; run; onMicrotaskEmpty; onStable');
async.done();
});
}), testTimeout);
it('should call onStable once at the end of event',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
// The test is set up in a way that causes the zone loop to run onMicrotaskEmpty twice
// then verified that onStable is only called once at the end
runNgZoneNoLog(() => macroTask(_log.fn('run')));
var times = 0;
ObservableWrapper.subscribe(_zone.onMicrotaskEmpty, (_) => {
times++;
_log.add(`onMicrotaskEmpty ${times}`);
if (times < 2) {
// Scheduling a microtask causes a second digest
runNgZoneNoLog(() => { scheduleMicroTask(() => {}); });
}
});
macroTask(() => {
expect(_log.result())
.toEqual(
'onUnstable; run; onMicrotaskEmpty; onMicrotaskEmpty 1; ' +
'onMicrotaskEmpty; onMicrotaskEmpty 2; onStable');
async.done();
}, resultTimer);
}), testTimeout);
it('should call standalone onStable',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
runNgZoneNoLog(() => macroTask(_log.fn('run')));
macroTask(() => {
expect(_log.result()).toEqual('onUnstable; run; onMicrotaskEmpty; onStable');
async.done();
}, resultTimer);
}), testTimeout);
xit('should run subscriber listeners in the subscription zone (outside)',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
// Each subscriber fires a microtask outside the Angular zone. The test
// then verifies that those microtasks do not cause additional digests.
var turnStart = false;
ObservableWrapper.subscribe(_zone.onUnstable, (_) => {
if (turnStart) throw 'Should not call this more than once';
_log.add('onUnstable');
scheduleMicroTask(() => {});
turnStart = true;
});
var turnDone = false;
ObservableWrapper.subscribe(_zone.onMicrotaskEmpty, (_) => {
if (turnDone) throw 'Should not call this more than once';
_log.add('onMicrotaskEmpty');
scheduleMicroTask(() => {});
turnDone = true;
});
var eventDone = false;
ObservableWrapper.subscribe(_zone.onStable, (_) => {
if (eventDone) throw 'Should not call this more than once';
_log.add('onStable');
scheduleMicroTask(() => {});
eventDone = true;
});
macroTask(() => { _zone.run(_log.fn('run')); });
macroTask(() => {
expect(_log.result()).toEqual('onUnstable; run; onMicrotaskEmpty; onStable');
async.done();
}, resultTimer);
}), testTimeout);
it('should run subscriber listeners in the subscription zone (inside)',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
runNgZoneNoLog(() => macroTask(_log.fn('run')));
// the only practical use-case to run a callback inside the zone is
// change detection after "onMicrotaskEmpty". That's the only case tested.
var turnDone = false;
ObservableWrapper.subscribe(_zone.onMicrotaskEmpty, (_) => {
_log.add('onMyMicrotaskEmpty');
if (turnDone) return;
//.........这里部分代码省略.........
示例3: describe
describe('MockBackend', () => {
var backend: MockBackend;
var sampleRequest1: Request;
var sampleResponse1: Response;
var sampleRequest2: Request;
var sampleResponse2: Response;
beforeEach(() => {
var injector = ReflectiveInjector.resolveAndCreate(
[provide(ResponseOptions, {useClass: BaseResponseOptions}), MockBackend]);
backend = injector.get(MockBackend);
var base = new BaseRequestOptions();
sampleRequest1 = new Request(base.merge(new RequestOptions({url: 'https://google.com'})));
sampleResponse1 = new Response(new ResponseOptions({body: 'response1'}));
sampleRequest2 = new Request(base.merge(new RequestOptions({url: 'https://google.com'})));
sampleResponse2 = new Response(new ResponseOptions({body: 'response2'}));
});
it('should create a new MockBackend', () => {expect(backend).toBeAnInstanceOf(MockBackend)});
it('should create a new MockConnection',
() => {expect(backend.createConnection(sampleRequest1)).toBeAnInstanceOf(MockConnection)});
it('should create a new connection and allow subscription', () => {
let connection: MockConnection = backend.createConnection(sampleRequest1);
connection.response.subscribe(() => {});
});
it('should allow responding after subscription',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
let connection: MockConnection = backend.createConnection(sampleRequest1);
connection.response.subscribe(() => { async.done(); });
connection.mockRespond(sampleResponse1);
}));
it('should allow subscribing after responding',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
let connection: MockConnection = backend.createConnection(sampleRequest1);
connection.mockRespond(sampleResponse1);
connection.response.subscribe(() => { async.done(); });
}));
it('should allow responding after subscription with an error',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
let connection: MockConnection = backend.createConnection(sampleRequest1);
connection.response.subscribe(null, () => { async.done(); });
connection.mockError(new Error('nope'));
}));
it('should not throw when there are no unresolved requests',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
let connection: MockConnection = backend.createConnection(sampleRequest1);
connection.response.subscribe(() => { async.done(); });
connection.mockRespond(sampleResponse1);
backend.verifyNoPendingRequests();
}));
xit('should throw when there are unresolved requests',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
let connection: MockConnection = backend.createConnection(sampleRequest1);
connection.response.subscribe(() => { async.done(); });
backend.verifyNoPendingRequests();
}));
it('should work when requests are resolved out of order',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
let connection1: MockConnection = backend.createConnection(sampleRequest1);
let connection2: MockConnection = backend.createConnection(sampleRequest1);
connection1.response.subscribe(() => { async.done(); });
connection2.response.subscribe(() => {});
connection2.mockRespond(sampleResponse1);
connection1.mockRespond(sampleResponse1);
backend.verifyNoPendingRequests();
}));
xit('should allow double subscribing',
inject([AsyncTestCompleter], (async: AsyncTestCompleter) => {
let responses: Response[] = [sampleResponse1, sampleResponse2];
backend.connections.subscribe((c: MockConnection) => c.mockRespond(responses.shift()));
let responseObservable: ReplaySubject<Response> =
backend.createConnection(sampleRequest1).response;
responseObservable.subscribe(res => expect(res.text()).toBe('response1'));
responseObservable.subscribe(res => expect(res.text()).toBe('response2'), null,
async.done);
}));
// TODO(robwormald): readyStates are leaving?
it('should allow resolution of requests manually', () => {
let connection1: MockConnection = backend.createConnection(sampleRequest1);
let connection2: MockConnection = backend.createConnection(sampleRequest1);
connection1.response.subscribe(() => {});
connection2.response.subscribe(() => {});
backend.resolveAllConnections();
backend.verifyNoPendingRequests();
});
});
示例4: describe
describe('some component', () => {
xit('has a test', () => { throw 'This test will not run.'; });
it('has another test', () => {
// This test will run.
});
});
示例5: describe
//.........这里部分代码省略.........
'<div i18n><div attr="value">zero<div>one</div></div><div>two</div></div>', 'someurl');
expect(res.messages).toEqual([new Message(
'<ph name="e0">zero<ph name="e2">one</ph></ph><ph name="e4">two</ph>', null, null)]);
});
it('should handle html content with interpolation', () => {
let res =
extractor.extract('<div i18n><div>zero{{a}}<div>{{b}}</div></div></div>', 'someurl');
expect(res.messages).toEqual([new Message(
'<ph name="e0"><ph name="t1">zero<ph name="0"/></ph><ph name="e2"><ph name="t3"><ph name="0"/></ph></ph></ph>',
null, null)]);
});
it('should extract from nested elements', () => {
let res = extractor.extract(
'<div title="message1" i18n-title="meaning1|desc1"><div i18n="meaning2|desc2">message2</div></div>',
'someurl');
expect(res.messages).toEqual([
new Message('message2', 'meaning2', 'desc2'), new Message('message1', 'meaning1', 'desc1')
]);
});
it('should extract messages from attributes in i18n blocks', () => {
let res = extractor.extract(
'<div i18n><div attr="value" i18n-attr="meaning|desc">message</div></div>', 'someurl');
expect(res.messages).toEqual([
new Message('<ph name="e0">message</ph>', null, null),
new Message('value', 'meaning', 'desc')
]);
});
// TODO(vicb) - this should be extracted to a single message
// see https://github.com/angular/angular/issues/9067
xit('should extract messages from expansion forms', () => {
let res = extractor.extract(
`
<div>
{messages.length, plural,
=0 {You have <b>no</b> messages}
=1 {You have one message}
other {You have messages}
}
</div>`,
'someurl');
expect(res.messages).toEqual([
new Message('You have <ph name="e1">no</ph> messages', 'plural_=0', null),
new Message('You have one message', 'plural_=1', null),
new Message('You have messages', 'plural_other', null),
]);
});
it('should remove duplicate messages', () => {
let res = extractor.extract(
`
<!-- i18n: meaning|desc1 -->message<!-- /i18n -->
<!-- i18n: meaning|desc2 -->message<!-- /i18n -->`,
'someUrl');
expect(removeDuplicates(res.messages)).toEqual([
new Message('message', 'meaning', 'desc1'),
]);
});
describe('implicit translation', () => {
it('should extract from elements', () => {