id | title |
---|---|
jest-object |
The Jest Object |
The jest
object is automatically in scope within every test file. The methods in the jest
object help create mocks and let you control Jest's overall behavior. It can also be imported explicitly by via import {jest} from '@jest/globals'
.
import TypeScriptExamplesNote from './_TypeScriptExamplesNote.md';
import TOCInline from '@theme/TOCInline';
Disables automatic mocking in the module loader.
:::info
Automatic mocking should be enabled via automock
configuration option for this method to have any effect. Also see documentation of the configuration option for more details.
/** @type {import('jest').Config} */
const config = {
automock: true,
};
module.exports = config;
import type {Config} from 'jest';
const config: Config = {
automock: true,
};
export default config;
:::
After disableAutomock()
is called, all require()
s will return the real versions of each module (rather than a mocked version).
export default {
authorize: () => {
return 'token';
},
};
import utils from '../utils';
jest.disableAutomock();
test('original implementation', () => {
// now we have the original implementation,
// even if we set the automocking in a jest configuration
expect(utils.authorize()).toBe('token');
});
This is usually useful when you have a scenario where the number of dependencies you want to mock is far less than the number of dependencies that you don't. For example, if you're writing a test for a module that uses a large number of dependencies that can be reasonably classified as "implementation details" of the module, then you likely do not want to mock them.
Examples of dependencies that might be considered "implementation details" are things ranging from language built-ins (e.g. Array.prototype
methods) to highly common utility methods (e.g. underscore
, lodash
, array utilities, etc) and entire libraries like React.js
.
Returns the jest
object for chaining.
:::tip
When using babel-jest
, calls to disableAutomock()
will automatically be hoisted to the top of the code block. Use autoMockOff()
if you want to explicitly avoid this behavior.
:::
Enables automatic mocking in the module loader.
:::info
For more details on automatic mocking see documentation of automock
configuration option.
:::
Example:
export default {
authorize: () => {
return 'token';
},
isAuthorized: secret => secret === 'wizard',
};
jest.enableAutomock();
import utils from '../utils';
test('original implementation', () => {
// now we have the mocked implementation,
expect(utils.authorize._isMockFunction).toBeTruthy();
expect(utils.isAuthorized._isMockFunction).toBeTruthy();
});
Returns the jest
object for chaining.
:::tip
When using babel-jest
, calls to enableAutomock
will automatically be hoisted to the top of the code block. Use autoMockOn
if you want to explicitly avoid this behavior.
:::
Given the name of a module, use the automatic mocking system to generate a mocked version of the module for you.
This is useful when you want to create a manual mock that extends the automatic mock's behavior:
module.exports = {
authorize: () => {
return 'token';
},
isAuthorized: secret => secret === 'wizard',
};
const utils = jest.createMockFromModule('../utils');
utils.isAuthorized = jest.fn(secret => secret === 'not wizard');
test('implementation created by jest.createMockFromModule', () => {
expect(jest.isMockFunction(utils.authorize)).toBe(true);
expect(utils.isAuthorized('not wizard')).toBe(true);
});
export const utils = {
authorize: () => {
return 'token';
},
isAuthorized: (secret: string) => secret === 'wizard',
};
const {utils} =
jest.createMockFromModule<typeof import('../utils')>('../utils');
utils.isAuthorized = jest.fn((secret: string) => secret === 'not wizard');
test('implementation created by jest.createMockFromModule', () => {
expect(jest.isMockFunction(utils.authorize)).toBe(true);
expect(utils.isAuthorized('not wizard')).toBe(true);
});
This is how createMockFromModule
will mock the following data types:
Creates a new mock function. The new function has no formal parameters and when called will return undefined
. This functionality also applies to async
functions.
Creates a new class. The interface of the original class is maintained, all of the class member functions and properties will be mocked.
Creates a new deeply cloned object. The object keys are maintained and their values are mocked.
Creates a new empty array, ignoring the original.
Creates a new property with the same primitive value as the original property.
Example:
module.exports = {
function: function square(a, b) {
return a * b;
},
asyncFunction: async function asyncSquare(a, b) {
const result = (await a) * b;
return result;
},
class: new (class Bar {
constructor() {
this.array = [1, 2, 3];
}
foo() {}
})(),
object: {
baz: 'foo',
bar: {
fiz: 1,
buzz: [1, 2, 3],
},
},
array: [1, 2, 3],
number: 123,
string: 'baz',
boolean: true,
symbol: Symbol.for('a.b.c'),
};
const example = jest.createMockFromModule('../example');
test('should run example code', () => {
// creates a new mocked function with no formal arguments.
expect(example.function.name).toBe('square');
expect(example.function).toHaveLength(0);
// async functions get the same treatment as standard synchronous functions.
expect(example.asyncFunction.name).toBe('asyncSquare');
expect(example.asyncFunction).toHaveLength(0);
// creates a new class with the same interface, member functions and properties are mocked.
expect(example.class.constructor.name).toBe('Bar');
expect(example.class.foo.name).toBe('foo');
expect(example.class.array).toHaveLength(0);
// creates a deeply cloned version of the original object.
expect(example.object).toEqual({
baz: 'foo',
bar: {
fiz: 1,
buzz: [],
},
});
// creates a new empty array, ignoring the original array.
expect(example.array).toHaveLength(0);
// creates a new property with the same primitive value as the original property.
expect(example.number).toBe(123);
expect(example.string).toBe('baz');
expect(example.boolean).toBe(true);
expect(example.symbol).toEqual(Symbol.for('a.b.c'));
});
Mocks a module with an auto-mocked version when it is being required. factory
and options
are optional. For example:
module.exports = () => 'banana';
jest.mock('../banana');
const banana = require('../banana'); // banana will be explicitly mocked.
banana(); // will return 'undefined' because the function is auto-mocked.
The second argument can be used to specify an explicit module factory that is being run instead of using Jest's automocking feature:
jest.mock('../moduleName', () => {
return jest.fn(() => 42);
});
// This runs the function specified as second argument to `jest.mock`.
const moduleName = require('../moduleName');
moduleName(); // Will return '42';
// The optional type argument provides typings for the module factory
jest.mock<typeof import('../moduleName')>('../moduleName', () => {
return jest.fn(() => 42);
});
// This runs the function specified as second argument to `jest.mock`.
const moduleName = require('../moduleName');
moduleName(); // Will return '42';
When using the factory
parameter for an ES6 module with a default export, the __esModule: true
property needs to be specified. This property is normally generated by Babel / TypeScript, but here it needs to be set manually. When importing a default export, it's an instruction to import the property named default
from the export object:
import moduleName, {foo} from '../moduleName';
jest.mock('../moduleName', () => {
return {
__esModule: true,
default: jest.fn(() => 42),
foo: jest.fn(() => 43),
};
});
moduleName(); // Will return 42
foo(); // Will return 43
The third argument can be used to create virtual mocks – mocks of modules that don't exist anywhere in the system:
jest.mock(
'../moduleName',
() => {
/*
* Custom implementation of a module that doesn't exist in JS,
* like a generated module or a native module in react-native.
*/
},
{virtual: true},
);
:::caution
Importing a module in a setup file (as specified by setupFilesAfterEnv
) will prevent mocking for the module in question, as well as all the modules that it imports.
:::
Modules that are mocked with jest.mock
are mocked only for the file that calls jest.mock
. Another file that imports the module will get the original implementation even if it runs after the test file that mocks the module.
Returns the jest
object for chaining.
:::tip
Writing tests in TypeScript? Use the jest.Mocked
utility type or the jest.mocked()
helper method to have your mocked modules typed.
:::
See TypeScript Usage chapter of Mock Functions page for documentation.
See TypeScript Usage chapter of Mock Functions page for documentation.
Indicates that the module system should never return a mocked version of the specified module from require()
(e.g. that it should always return the real module).
The most common use of this API is for specifying the module a given test intends to be testing (and thus doesn't want automatically mocked).
Returns the jest
object for chaining.
Indicates that the module system should never return a mocked version of the specified module and its dependencies.
Returns the jest
object for chaining.
When using babel-jest
, calls to mock
will automatically be hoisted to the top of the code block. Use this method if you want to explicitly avoid this behavior.
One example when this is useful is when you want to mock a module differently within the same file:
beforeEach(() => {
jest.resetModules();
});
test('moduleName 1', () => {
jest.doMock('../moduleName', () => {
return jest.fn(() => 1);
});
const moduleName = require('../moduleName');
expect(moduleName()).toBe(1);
});
test('moduleName 2', () => {
jest.doMock('../moduleName', () => {
return jest.fn(() => 2);
});
const moduleName = require('../moduleName');
expect(moduleName()).toBe(2);
});
beforeEach(() => {
jest.resetModules();
});
test('moduleName 1', () => {
// The optional type argument provides typings for the module factory
jest.doMock<typeof import('../moduleName')>('../moduleName', () => {
return jest.fn(() => 1);
});
const moduleName = require('../moduleName');
expect(moduleName()).toBe(1);
});
test('moduleName 2', () => {
jest.doMock<typeof import('../moduleName')>('../moduleName', () => {
return jest.fn(() => 2);
});
const moduleName = require('../moduleName');
expect(moduleName()).toBe(2);
});
Using jest.doMock()
with ES6 imports requires additional steps. Follow these if you don't want to use require
in your tests:
- We have to specify the
__esModule: true
property (see thejest.mock()
API for more information). - Static ES6 module imports are hoisted to the top of the file, so instead we have to import them dynamically using
import()
. - Finally, we need an environment which supports dynamic importing. Please see Using Babel for the initial setup. Then add the plugin babel-plugin-dynamic-import-node, or an equivalent, to your Babel config to enable dynamic importing in Node.
beforeEach(() => {
jest.resetModules();
});
test('moduleName 1', () => {
jest.doMock('../moduleName', () => {
return {
__esModule: true,
default: 'default1',
foo: 'foo1',
};
});
return import('../moduleName').then(moduleName => {
expect(moduleName.default).toBe('default1');
expect(moduleName.foo).toBe('foo1');
});
});
test('moduleName 2', () => {
jest.doMock('../moduleName', () => {
return {
__esModule: true,
default: 'default2',
foo: 'foo2',
};
});
return import('../moduleName').then(moduleName => {
expect(moduleName.default).toBe('default2');
expect(moduleName.foo).toBe('foo2');
});
});
Returns the jest
object for chaining.
When using babel-jest
, calls to unmock
will automatically be hoisted to the top of the code block. Use this method if you want to explicitly avoid this behavior.
Returns the jest
object for chaining.
Explicitly supplies the mock object that the module system should return for the specified module.
On occasion, there are times where the automatically generated mock the module system would normally provide you isn't adequate enough for your testing needs. Normally under those circumstances you should write a manual mock that is more adequate for the module in question. However, on extremely rare occasions, even a manual mock isn't suitable for your purposes and you need to build the mock yourself inside your test.
In these rare scenarios you can use this API to manually fill the slot in the module system's mock-module registry.
Returns the jest
object for chaining.
:::info
It is recommended to use jest.mock()
instead. The jest.mock
API's second argument is a module factory instead of the expected exported module object.
:::
Returns the actual module instead of a mock, bypassing all checks on whether the module should receive a mock implementation or not.
jest.mock('../myModule', () => {
// Require the original module to not be mocked...
const originalModule = jest.requireActual('../myModule');
return {
__esModule: true, // Use it when dealing with esModules
...originalModule,
getRandom: jest.fn(() => 10),
};
});
const getRandom = require('../myModule').getRandom;
getRandom(); // Always returns 10
jest.mock('../myModule', () => {
// Require the original module to not be mocked...
const originalModule =
jest.requireActual<typeof import('../myModule')>('../myModule');
return {
__esModule: true, // Use it when dealing with esModules
...originalModule,
getRandom: jest.fn(() => 10),
};
});
const getRandom = require('../myModule').getRandom;
getRandom(); // Always returns 10
Returns a mock module instead of the actual module, bypassing all checks on whether the module should be required normally or not.
Resets the module registry - the cache of all required modules. This is useful to isolate modules where local state might conflict between tests.
Example:
const sum1 = require('../sum');
jest.resetModules();
const sum2 = require('../sum');
sum1 === sum2;
// > false (Both sum modules are separate "instances" of the sum module.)
Example in a test:
beforeEach(() => {
jest.resetModules();
});
test('works', () => {
const sum = require('../sum');
});
test('works too', () => {
const sum = require('../sum');
// sum is a different copy of the sum module from the previous test.
});
Returns the jest
object for chaining.
jest.isolateModules(fn)
goes a step further than jest.resetModules()
and creates a sandbox registry for the modules that are loaded inside the callback function. This is useful to isolate specific modules for every test so that local module state doesn't conflict between tests.
let myModule;
jest.isolateModules(() => {
myModule = require('myModule');
});
const otherCopyOfMyModule = require('myModule');
jest.isolateModulesAsync()
is the equivalent of jest.isolateModules()
, but for async callbacks. The caller is expected to await
the completion of isolateModulesAsync
.
let myModule;
await jest.isolateModulesAsync(async () => {
myModule = await import('myModule');
// do async stuff here
});
const otherCopyOfMyModule = await import('myModule');
Returns a new, unused mock function. Optionally takes a mock implementation.
const mockFn = jest.fn();
mockFn();
expect(mockFn).toHaveBeenCalled();
// With a mock implementation:
const returnsTrue = jest.fn(() => true);
console.log(returnsTrue()); // true;
:::tip
See the Mock Functions page for details on TypeScript usage.
:::
Determines if the given function is a mocked function.
Replace object[propertyKey]
with a value
. The property must already exist on the object. The same property might be replaced multiple times. Returns a Jest replaced property.
:::note
To mock properties that are defined as getters or setters, use jest.spyOn(object, methodName, accessType)
instead. To mock functions, use jest.spyOn(object, methodName)
instead.
:::
:::tip
All properties replaced with jest.replaceProperty
could be restored to the original value by calling jest.restoreAllMocks on afterEach method.
:::
Example:
const utils = {
isLocalhost() {
return process.env.HOSTNAME === 'localhost';
},
};
module.exports = utils;
Example test:
const utils = require('./utils');
afterEach(() => {
// restore replaced property
jest.restoreAllMocks();
});
test('isLocalhost returns true when HOSTNAME is localhost', () => {
jest.replaceProperty(process, 'env', {HOSTNAME: 'localhost'});
expect(utils.isLocalhost()).toBe(true);
});
test('isLocalhost returns false when HOSTNAME is not localhost', () => {
jest.replaceProperty(process, 'env', {HOSTNAME: 'not-localhost'});
expect(utils.isLocalhost()).toBe(false);
});
Creates a mock function similar to jest.fn
but also tracks calls to object[methodName]
. Returns a Jest mock function.
:::note
By default, jest.spyOn
also calls the spied method. This is different behavior from most other test libraries. If you want to overwrite the original function, you can use jest.spyOn(object, methodName).mockImplementation(() => customImplementation)
or object[methodName] = jest.fn(() => customImplementation)
.
:::
:::tip
Since jest.spyOn
is a mock, you could restore the initial state by calling jest.restoreAllMocks
in the body of the callback passed to the afterEach hook.
:::
Example:
const video = {
play() {
return true;
},
};
module.exports = video;
Example test:
const video = require('./video');
afterEach(() => {
// restore the spy created with spyOn
jest.restoreAllMocks();
});
test('plays video', () => {
const spy = jest.spyOn(video, 'play');
const isPlaying = video.play();
expect(spy).toHaveBeenCalled();
expect(isPlaying).toBe(true);
});
If your codebase is set up to transpile the "explicit resource management" (e.g. if you are using TypeScript >= 5.2 or the @babel/plugin-proposal-explicit-resource-management
plugin), you can use spyOn
in combination with the using
keyword:
test('logs a warning', () => {
using spy = jest.spyOn(console.warn);
doSomeThingWarnWorthy();
expect(spy).toHaveBeenCalled();
});
That code is semantically equal to
test('logs a warning', () => {
let spy;
try {
spy = jest.spyOn(console.warn);
doSomeThingWarnWorthy();
expect(spy).toHaveBeenCalled();
} finally {
spy.mockRestore();
}
});
That way, your spy will automatically be restored to the original value once the current code block is left.
You can even go a step further and use a code block to restrict your mock to only a part of your test without hurting readability.
test('testing something', () => {
{
using spy = jest.spyOn(console.warn);
setupStepThatWillLogAWarning();
}
// here, console.warn is already restored to the original value
// your test can now continue normally
});
:::note
If you get a warning that Symbol.dispose
does not exist, you might need to polyfill that, e.g. with this code:
if (!Symbol.dispose) {
Object.defineProperty(Symbol, 'dispose', {
get() {
return Symbol.for('nodejs.dispose');
},
});
}
:::
Since Jest 22.1.0+, the jest.spyOn
method takes an optional third argument of accessType
that can be either 'get'
or 'set'
, which proves to be useful when you want to spy on a getter or a setter, respectively.
Example:
const video = {
// it's a getter!
get play() {
return true;
},
};
module.exports = video;
const audio = {
_volume: false,
// it's a setter!
set volume(value) {
this._volume = value;
},
get volume() {
return this._volume;
},
};
module.exports = audio;
Example test:
const audio = require('./audio');
const video = require('./video');
afterEach(() => {
// restore the spy created with spyOn
jest.restoreAllMocks();
});
test('plays video', () => {
const spy = jest.spyOn(video, 'play', 'get'); // we pass 'get'
const isPlaying = video.play;
expect(spy).toHaveBeenCalled();
expect(isPlaying).toBe(true);
});
test('plays audio', () => {
const spy = jest.spyOn(audio, 'volume', 'set'); // we pass 'set'
audio.volume = 100;
expect(spy).toHaveBeenCalled();
expect(audio.volume).toBe(100);
});
See TypeScript Usage chapter of Mock Functions page for documentation.
See TypeScript Usage chapter of Mock Functions page for documentation.
Clears the mock.calls
, mock.instances
, mock.contexts
and mock.results
properties of all mocks. Equivalent to calling .mockClear()
on every mocked function.
Returns the jest
object for chaining.
Resets the state of all mocks. Equivalent to calling .mockReset()
on every mocked function.
Returns the jest
object for chaining.
Restores all mocks and replaced properties back to their original value. Equivalent to calling .mockRestore()
on every mocked function and .restore()
on every replaced property. Beware that jest.restoreAllMocks()
only works for mocks created with jest.spyOn()
and properties replaced with jest.replaceProperty()
; other mocks will require you to manually restore them.
Instructs Jest to use fake versions of the global date, performance, time and timer APIs. Fake timers implementation is backed by @sinonjs/fake-timers
.
Fake timers will swap out Date
, performance.now()
, queueMicrotask()
, setImmediate()
, clearImmediate()
, setInterval()
, clearInterval()
, setTimeout()
, clearTimeout()
with an implementation that gets its time from the fake clock.
In Node environment process.hrtime
, process.nextTick()
and in JSDOM environment requestAnimationFrame()
, cancelAnimationFrame()
, requestIdleCallback()
, cancelIdleCallback()
will be replaced as well.
Configuration options:
type FakeableAPI =
| 'Date'
| 'hrtime'
| 'nextTick'
| 'performance'
| 'queueMicrotask'
| 'requestAnimationFrame'
| 'cancelAnimationFrame'
| 'requestIdleCallback'
| 'cancelIdleCallback'
| 'setImmediate'
| 'clearImmediate'
| 'setInterval'
| 'clearInterval'
| 'setTimeout'
| 'clearTimeout';
type FakeTimersConfig = {
/**
* If set to `true` all timers will be advanced automatically by 20 milliseconds
* every 20 milliseconds. A custom time delta may be provided by passing a number.
* The default is `false`.
*/
advanceTimers?: boolean | number;
/**
* List of names of APIs that should not be faked. The default is `[]`, meaning
* all APIs are faked.
*/
doNotFake?: Array<FakeableAPI>;
/**
* Use the old fake timers implementation instead of one backed by `@sinonjs/fake-timers`.
* The default is `false`.
*/
legacyFakeTimers?: boolean;
/** Sets current system time to be used by fake timers, in milliseconds. The default is `Date.now()`. */
now?: number | Date;
/**
* The maximum number of recursive timers that will be run when calling `jest.runAllTimers()`.
* The default is `100_000` timers.
*/
timerLimit?: number;
};
Calling jest.useFakeTimers()
will use fake timers for all tests within the file, until original timers are restored with jest.useRealTimers()
.
You can call jest.useFakeTimers()
or jest.useRealTimers()
from anywhere: top level, inside an test
block, etc. Keep in mind that this is a global operation and will affect other tests within the same file. Calling jest.useFakeTimers()
once again in the same test file would reset the internal state (e.g. timer count) and reinstall fake timers using the provided options:
test('advance the timers automatically', () => {
jest.useFakeTimers({advanceTimers: true});
// ...
});
test('do not advance the timers and do not fake `performance`', () => {
jest.useFakeTimers({doNotFake: ['performance']});
// ...
});
test('uninstall fake timers for the rest of tests in the file', () => {
jest.useRealTimers();
// ...
});
:::info Legacy Fake Timers
For some reason you might have to use legacy implementation of fake timers. It can be enabled like this (additional options are not supported):
jest.useFakeTimers({
legacyFakeTimers: true,
});
Legacy fake timers will swap out setImmediate()
, clearImmediate()
, setInterval()
, clearInterval()
, setTimeout()
, clearTimeout()
with Jest mock functions. In Node environment process.nextTick()
and in JSDOM environment requestAnimationFrame()
, cancelAnimationFrame()
will be also replaced.
:::
Returns the jest
object for chaining.
Instructs Jest to restore the original implementations of the global date, performance, time and timer APIs. For example, you may call jest.useRealTimers()
inside afterEach
hook to restore timers after each test:
afterEach(() => {
jest.useRealTimers();
});
test('do something with fake timers', () => {
jest.useFakeTimers();
// ...
});
test('do something with real timers', () => {
// ...
});
Returns the jest
object for chaining.
Exhausts the micro-task queue (usually interfaced in node via process.nextTick
).
When this API is called, all pending micro-tasks that have been queued via process.nextTick
will be executed. Additionally, if those micro-tasks themselves schedule new micro-tasks, those will be continually exhausted until there are no more micro-tasks remaining in the queue.
Exhausts both the macro-task queue (i.e., all tasks queued by setTimeout()
, setInterval()
, and setImmediate()
) and the micro-task queue (usually interfaced in node via process.nextTick
).
When this API is called, all pending macro-tasks and micro-tasks will be executed. If those tasks themselves schedule new tasks, those will be continually exhausted until there are no more tasks remaining in the queue.
This is often useful for synchronously executing setTimeouts during a test in order to synchronously assert about some behavior that would only happen after the setTimeout()
or setInterval()
callbacks executed. See the Timer mocks doc for more information.
Asynchronous equivalent of jest.runAllTimers()
. It allows any scheduled promise callbacks to execute before running the timers.
:::info
This function is not available when using legacy fake timers implementation.
:::
Exhausts all tasks queued by setImmediate()
.
:::info
This function is only available when using legacy fake timers implementation.
:::
Executes only the macro task queue (i.e. all tasks queued by setTimeout()
or setInterval()
and setImmediate()
).
When this API is called, all timers are advanced by msToRun
milliseconds. All pending "macro-tasks" that have been queued via setTimeout()
or setInterval()
, and would be executed within this time frame will be executed. Additionally, if those macro-tasks schedule new macro-tasks that would be executed within the same time frame, those will be executed until there are no more macro-tasks remaining in the queue, that should be run within msToRun
milliseconds.
Asynchronous equivalent of jest.advanceTimersByTime(msToRun)
. It allows any scheduled promise callbacks to execute before running the timers.
:::info
This function is not available when using legacy fake timers implementation.
:::
Executes only the macro-tasks that are currently pending (i.e., only the tasks that have been queued by setTimeout()
or setInterval()
up to this point). If any of the currently pending macro-tasks schedule new macro-tasks, those new tasks will not be executed by this call.
This is useful for scenarios such as one where the module being tested schedules a setTimeout()
whose callback schedules another setTimeout()
recursively (meaning the scheduling never stops). In these scenarios, it's useful to be able to run forward in time by a single step at a time.
Asynchronous equivalent of jest.runOnlyPendingTimers()
. It allows any scheduled promise callbacks to execute before running the timers.
:::info
This function is not available when using legacy fake timers implementation.
:::
Advances all timers by the needed milliseconds so that only the next timeouts/intervals will run.
Optionally, you can provide steps
, so it will run steps
amount of next timeouts/intervals.
Asynchronous equivalent of jest.advanceTimersToNextTimer(steps)
. It allows any scheduled promise callbacks to execute before running the timers.
:::info
This function is not available when using legacy fake timers implementation.
:::
Advances all timers by the needed milliseconds to execute callbacks currently scheduled with requestAnimationFrame
. advanceTimersToNextFrame()
is a helpful way to execute code that is scheduled using requestAnimationFrame
.
:::info
This function is not available when using legacy fake timers implementation.
:::
Removes any pending timers from the timer system.
This means, if any timers have been scheduled (but have not yet executed), they will be cleared and will never have the opportunity to execute in the future.
Returns the number of fake timers still left to run.
Returns the time in ms of the current clock. This is equivalent to Date.now()
if real timers are in use, or if Date
is mocked. In other cases (such as legacy timers) it may be useful for implementing custom mocks of Date.now()
, performance.now()
, etc.
Set the current system time used by fake timers. Simulates a user changing the system clock while your program is running. It affects the current time but it does not in itself cause e.g. timers to fire; they will fire exactly as they would have done without the call to jest.setSystemTime()
.
:::info
This function is not available when using legacy fake timers implementation.
:::
When mocking time, Date.now()
will also be mocked. If you for some reason need access to the real current time, you can invoke this function.
:::info
This function is not available when using legacy fake timers implementation.
:::
Every time Jest runs a seed value is randomly generated which you could use in a pseudorandom number generator or anywhere else.
:::tip
Use the --showSeed
flag to print the seed in the test report summary. To manually set the value of the seed use --seed=<num>
CLI argument.
:::
Returns true
if test environment has been torn down.
Runs failed tests n-times until they pass or until the max number of retries is exhausted.
jest.retryTimes(3);
test('will fail', () => {
expect(true).toBe(false);
});
If logErrorsBeforeRetry
option is enabled, error(s) that caused the test to fail will be logged to the console.
jest.retryTimes(3, {logErrorsBeforeRetry: true});
test('will fail', () => {
expect(true).toBe(false);
});
waitBeforeRetry
is the number of milliseconds to wait before retrying.
jest.retryTimes(3, {waitBeforeRetry: 1000});
test('will fail', () => {
expect(true).toBe(false);
});
retryImmediately
option is used to retry the failed test immediately after the failure. If this option is not specified, the tests are retried after Jest is finished running all other tests in the file.
jest.retryTimes(3, {retryImmediately: true});
test('will fail', () => {
expect(true).toBe(false);
});
Returns the jest
object for chaining.
:::caution
jest.retryTimes()
must be declared at the top level of a test file or in a describe
block.
:::
:::info
This function is only available with the default jest-circus runner.
:::
Set the default timeout interval (in milliseconds) for all tests and before/after hooks in the test file. This only affects the test file from which this function is called. The default timeout interval is 5 seconds if this method is not called.
Example:
jest.setTimeout(1000); // 1 second
:::tip
To set timeout intervals on different tests in the same file, use the timeout
option on each individual test.
If you want to set the timeout for all test files, use testTimeout
configuration option.
:::