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Vi

Vitest provides utility functions to help you out through its vi helper. You can access it globally (when globals configuration is enabled), or import it from vitest directly:

js
import { vi } from 'vitest'

Mock Modules

This section describes the API that you can use when mocking a module. Beware that Vitest doesn't support mocking modules imported using require().

vi.mock

  • Type: (path: string, factory?: MockOptions | ((importOriginal: () => unknown) => unknown)) => void
  • Type: <T>(path: Promise<T>, factory?: MockOptions | ((importOriginal: () => T) => T | Promise<T>)) => void

Substitutes all imported modules from provided path with another module. You can use configured Vite aliases inside a path. The call to vi.mock is hoisted, so it doesn't matter where you call it. It will always be executed before all imports. If you need to reference some variables outside of its scope, you can define them inside vi.hoisted and reference them inside vi.mock.

WARNING

vi.mock works only for modules that were imported with the import keyword. It doesn't work with require.

In order to hoist vi.mock, Vitest statically analyzes your files. It indicates that vi that was not directly imported from the vitest package (for example, from some utility file) cannot be used. Use vi.mock with vi imported from vitest, or enable globals config option.

Vitest will not mock modules that were imported inside a setup file because they are cached by the time a test file is running. You can call vi.resetModules() inside vi.hoisted to clear all module caches before running a test file.

If the factory function is defined, all imports will return its result. Vitest calls factory only once and caches results for all subsequent imports until vi.unmock or vi.doUnmock is called.

Unlike in jest, the factory can be asynchronous. You can use vi.importActual or a helper with the factory passed in as the first argument, and get the original module inside.

Since Vitest 2.1, you can also provide an object with a spy property instead of a factory function. If spy is true, then Vitest will automock the module as usual, but it won't override the implementation of exports. This is useful if you just want to assert that the exported method was called correctly by another method.

ts
import { calculator } from './src/calculator.ts'

vi.mock('./src/calculator.ts', { spy: true })

// calls the original implementation,
// but allows asserting the behaviour later
const result = calculator(1, 2)

expect(result).toBe(3)
expect(calculator).toHaveBeenCalledWith(1, 2)
expect(calculator).toHaveReturned(3)

Vitest also supports a module promise instead of a string in the vi.mock and vi.doMock methods for better IDE support. When the file is moved, the path will be updated, and importOriginal inherits the type automatically. Using this signature will also enforce factory return type to be compatible with the original module (keeping exports optional).

ts
vi
.
mock
(import('./path/to/module.js'), async (
importOriginal
) => {
const
mod
= await
importOriginal
() // type is inferred
return { ...
mod
,
// replace some exports
total
:
vi
.
fn
(),
} })

Under the hood, Vitest still operates on a string and not a module object.

If you are using TypeScript with paths aliases configured in tsconfig.json however, the compiler won't be able to correctly resolve import types. In order to make it work, make sure to replace all aliased imports, with their corresponding relative paths. Eg. use import('./path/to/module.js') instead of import('@/module').

WARNING

vi.mock is hoisted (in other words, moved) to top of the file. It means that whenever you write it (be it inside beforeEach or test), it will actually be called before that.

This also means that you cannot use any variables inside the factory that are defined outside the factory.

If you need to use variables inside the factory, try vi.doMock. It works the same way but isn't hoisted. Beware that it only mocks subsequent imports.

You can also reference variables defined by vi.hoisted method if it was declared before vi.mock:

ts
import { namedExport } from './path/to/module.js'

const mocks = vi.hoisted(() => {
  return {
    namedExport: vi.fn(),
  }
})

vi.mock('./path/to/module.js', () => {
  return {
    namedExport: mocks.namedExport,
  }
})

vi.mocked(namedExport).mockReturnValue(100)

expect(namedExport()).toBe(100)
expect(namedExport).toBe(mocks.namedExport)

WARNING

If you are mocking a module with default export, you will need to provide a default key within the returned factory function object. This is an ES module-specific caveat; therefore, jest documentation may differ as jest uses CommonJS modules. For example,

ts
vi.mock('./path/to/module.js', () => {
  return {
    default: { myDefaultKey: vi.fn() },
    namedExport: vi.fn(),
    // etc...
  }
})

If there is a __mocks__ folder alongside a file that you are mocking, and the factory is not provided, Vitest will try to find a file with the same name in the __mocks__ subfolder and use it as an actual module. If you are mocking a dependency, Vitest will try to find a __mocks__ folder in the root of the project (default is process.cwd()). You can tell Vitest where the dependencies are located through the deps.moduleDirectories config option.

For example, you have this file structure:

- __mocks__
  - axios.js
- src
  __mocks__
    - increment.js
  - increment.js
- tests
  - increment.test.js

If you call vi.mock in a test file without a factory or options provided, it will find a file in the __mocks__ folder to use as a module:

ts
// increment.test.js
import { vi } from 'vitest'

// axios is a default export from `__mocks__/axios.js`
import axios from 'axios'

// increment is a named export from `src/__mocks__/increment.js`
import { increment } from '../increment.js'

vi.mock('axios')
vi.mock('../increment.js')

axios.get(`/apples/${increment(1)}`)

WARNING

Beware that if you don't call vi.mock, modules are not mocked automatically. To replicate Jest's automocking behaviour, you can call vi.mock for each required module inside setupFiles.

If there is no __mocks__ folder or a factory provided, Vitest will import the original module and auto-mock all its exports. For the rules applied, see algorithm.

vi.doMock

  • Type: (path: string, factory?: MockOptions | ((importOriginal: () => unknown) => unknown)) => void
  • Type: <T>(path: Promise<T>, factory?: MockOptions | ((importOriginal: () => T) => T | Promise<T>)) => void

The same as vi.mock, but it's not hoisted to the top of the file, so you can reference variables in the global file scope. The next dynamic import of the module will be mocked.

WARNING

This will not mock modules that were imported before this was called. Don't forget that all static imports in ESM are always hoisted, so putting this before static import will not force it to be called before the import:

ts
vi.doMock('./increment.js') // this will be called _after_ the import statement

import { increment } from './increment.js'
ts
// ./increment.js
export function increment(number) {
  return number + 1
}
ts
import { beforeEach, test } from 'vitest'
import { increment } from './increment.js'

// the module is not mocked, because vi.doMock is not called yet
increment(1) === 2

let mockedIncrement = 100

beforeEach(() => {
  // you can access variables inside a factory
  vi.doMock('./increment.js', () => ({ increment: () => ++mockedIncrement }))
})

test('importing the next module imports mocked one', async () => {
  // original import WAS NOT MOCKED, because vi.doMock is evaluated AFTER imports
  expect(increment(1)).toBe(2)
  const { increment: mockedIncrement } = await import('./increment.js')
  // new dynamic import returns mocked module
  expect(mockedIncrement(1)).toBe(101)
  expect(mockedIncrement(1)).toBe(102)
  expect(mockedIncrement(1)).toBe(103)
})

vi.mocked

  • Type: <T>(obj: T, deep?: boolean) => MaybeMockedDeep<T>
  • Type: <T>(obj: T, options?: { partial?: boolean; deep?: boolean }) => MaybePartiallyMockedDeep<T>

Type helper for TypeScript. Just returns the object that was passed.

When partial is true it will expect a Partial<T> as a return value. By default, this will only make TypeScript believe that the first level values are mocked. You can pass down { deep: true } as a second argument to tell TypeScript that the whole object is mocked, if it actually is.

ts
// example.ts
export function add(x: number, y: number): number {
  return x + y
}

export function fetchSomething(): Promise<Response> {
  return fetch('https://vitest.dev/')
}
ts
// example.test.ts
import * as example from './example'

vi.mock('./example')

test('1 + 1 equals 10', async () => {
  vi.mocked(example.add).mockReturnValue(10)
  expect(example.add(1, 1)).toBe(10)
})

test('mock return value with only partially correct typing', async () => {
  vi.mocked(example.fetchSomething).mockResolvedValue(new Response('hello'))
  vi.mocked(example.fetchSomething, { partial: true }).mockResolvedValue({ ok: false })
  // vi.mocked(example.someFn).mockResolvedValue({ ok: false }) // this is a type error
})

vi.importActual

  • Type: <T>(path: string) => Promise<T>

Imports module, bypassing all checks if it should be mocked. Can be useful if you want to mock module partially.

ts
vi.mock('./example.js', async () => {
  const originalModule = await vi.importActual('./example.js')

  return { ...originalModule, get: vi.fn() }
})

vi.importMock

  • Type: <T>(path: string) => Promise<MaybeMockedDeep<T>>

Imports a module with all of its properties (including nested properties) mocked. Follows the same rules that vi.mock does. For the rules applied, see algorithm.

vi.unmock

  • Type: (path: string | Promise<Module>) => void

Removes module from the mocked registry. All calls to import will return the original module even if it was mocked before. This call is hoisted to the top of the file, so it will only unmock modules that were defined in setupFiles, for example.

vi.doUnmock

  • Type: (path: string | Promise<Module>) => void

The same as vi.unmock, but is not hoisted to the top of the file. The next import of the module will import the original module instead of the mock. This will not unmock previously imported modules.

ts
// ./increment.js
export function increment(number) {
  return number + 1
}
ts
import { increment } from './increment.js'

// increment is already mocked, because vi.mock is hoisted
increment(1) === 100

// this is hoisted, and factory is called before the import on line 1
vi.mock('./increment.js', () => ({ increment: () => 100 }))

// all calls are mocked, and `increment` always returns 100
increment(1) === 100
increment(30) === 100

// this is not hoisted, so other import will return unmocked module
vi.doUnmock('./increment.js')

// this STILL returns 100, because `vi.doUnmock` doesn't reevaluate a module
increment(1) === 100
increment(30) === 100

// the next import is unmocked, now `increment` is the original function that returns count + 1
const { increment: unmockedIncrement } = await import('./increment.js')

unmockedIncrement(1) === 2
unmockedIncrement(30) === 31

vi.resetModules

  • Type: () => Vitest

Resets modules registry by clearing the cache of all modules. This allows modules to be reevaluated when reimported. Top-level imports cannot be re-evaluated. Might be useful to isolate modules where local state conflicts between tests.

ts
import { vi } from 'vitest'

import { data } from './data.js' // Will not get reevaluated beforeEach test

beforeEach(() => {
  vi.resetModules()
})

test('change state', async () => {
  const mod = await import('./some/path.js') // Will get reevaluated
  mod.changeLocalState('new value')
  expect(mod.getLocalState()).toBe('new value')
})

test('module has old state', async () => {
  const mod = await import('./some/path.js') // Will get reevaluated
  expect(mod.getLocalState()).toBe('old value')
})

WARNING

Does not reset mocks registry. To clear mocks registry, use vi.unmock or vi.doUnmock.

vi.dynamicImportSettled

Wait for all imports to load. Useful, if you have a synchronous call that starts importing a module that you cannot wait otherwise.

ts
import { expect, test } from 'vitest'

// cannot track import because Promise is not returned
function renderComponent() {
  import('./component.js').then(({ render }) => {
    render()
  })
}

test('operations are resolved', async () => {
  renderComponent()
  await vi.dynamicImportSettled()
  expect(document.querySelector('.component')).not.toBeNull()
})

TIP

If during a dynamic import another dynamic import is initiated, this method will wait until all of them are resolved.

This method will also wait for the next setTimeout tick after the import is resolved so all synchronous operations should be completed by the time it's resolved.

Mocking Functions and Objects

This section describes how to work with method mocks and replace environmental and global variables.

vi.fn

  • Type: (fn?: Function) => Mock

Creates a spy on a function, though can be initiated without one. Every time a function is invoked, it stores its call arguments, returns, and instances. Also, you can manipulate its behavior with methods. If no function is given, mock will return undefined, when invoked.

ts
const getApples = vi.fn(() => 0)

getApples()

expect(getApples).toHaveBeenCalled()
expect(getApples).toHaveReturnedWith(0)

getApples.mockReturnValueOnce(5)

const res = getApples()
expect(res).toBe(5)
expect(getApples).toHaveNthReturnedWith(2, 5)

vi.isMockFunction

  • Type: (fn: Function) => boolean

Checks that a given parameter is a mock function. If you are using TypeScript, it will also narrow down its type.

vi.clearAllMocks

Will call .mockClear() on all spies. This will clear mock history, but not reset its implementation to the default one.

vi.resetAllMocks

Will call .mockReset() on all spies. This will clear mock history and reset its implementation to an empty function (will return undefined).

vi.restoreAllMocks

Will call .mockRestore() on all spies. This will clear mock history and reset its implementation to the original one.

vi.spyOn

  • Type: <T, K extends keyof T>(object: T, method: K, accessType?: 'get' | 'set') => MockInstance

Creates a spy on a method or getter/setter of an object similar to vi.fn(). It returns a mock function.

ts
let apples = 0
const cart = {
  getApples: () => 42,
}

const spy = vi.spyOn(cart, 'getApples').mockImplementation(() => apples)
apples = 1

expect(cart.getApples()).toBe(1)

expect(spy).toHaveBeenCalled()
expect(spy).toHaveReturnedWith(1)

TIP

You can call vi.restoreAllMocks inside afterEach (or enable test.restoreMocks) to restore all methods to their original implementations. This will restore the original object descriptor, so you won't be able to change method's implementation:

ts
const cart = {
  getApples: () => 42,
}

const spy = vi.spyOn(cart, 'getApples').mockReturnValue(10)

console.log(cart.getApples()) // 10
vi.restoreAllMocks()
console.log(cart.getApples()) // 42
spy.mockReturnValue(10)
console.log(cart.getApples()) // still 42!

TIP

It is not possible to spy on exported methods in Browser Mode. Instead, you can spy on every exported method by calling vi.mock("./file-path.js", { spy: true }). This will mock every export but keep its implementation intact, allowing you to assert if the method was called correctly.

ts
import { calculator } from './src/calculator.ts'

vi.mock('./src/calculator.ts', { spy: true })

calculator(1, 2)

expect(calculator).toHaveBeenCalledWith(1, 2)
expect(calculator).toHaveReturned(3)

And while it is possible to spy on exports in jsdom or other Node.js environments, this might change in the future.

vi.stubEnv

  • Type: <T extends string>(name: T, value: T extends "PROD" | "DEV" | "SSR" ? boolean : string | undefined) => Vitest

Changes the value of environmental variable on process.env and import.meta.env. You can restore its value by calling vi.unstubAllEnvs.

ts
import { vi } from 'vitest'

// `process.env.NODE_ENV` and `import.meta.env.NODE_ENV`
// are "development" before calling "vi.stubEnv"

vi.stubEnv('NODE_ENV', 'production')

process.env.NODE_ENV === 'production'
import.meta.env.NODE_ENV === 'production'

vi.stubEnv('NODE_ENV', undefined)

process.env.NODE_ENV === undefined
import.meta.env.NODE_ENV === undefined

// doesn't change other envs
import.meta.env.MODE === 'development'

TIP

You can also change the value by simply assigning it, but you won't be able to use vi.unstubAllEnvs to restore previous value:

ts
import.meta.env.MODE = 'test'

vi.unstubAllEnvs

  • Type: () => Vitest

Restores all import.meta.env and process.env values that were changed with vi.stubEnv. When it's called for the first time, Vitest remembers the original value and will store it, until unstubAllEnvs is called again.

ts
import { vi } from 'vitest'

// `process.env.NODE_ENV` and `import.meta.env.NODE_ENV`
// are "development" before calling stubEnv

vi.stubEnv('NODE_ENV', 'production')

process.env.NODE_ENV === 'production'
import.meta.env.NODE_ENV === 'production'

vi.stubEnv('NODE_ENV', 'staging')

process.env.NODE_ENV === 'staging'
import.meta.env.NODE_ENV === 'staging'

vi.unstubAllEnvs()

// restores to the value that were stored before the first "stubEnv" call
process.env.NODE_ENV === 'development'
import.meta.env.NODE_ENV === 'development'

vi.stubGlobal

  • Type: (name: string | number | symbol, value: unknown) => Vitest

Changes the value of global variable. You can restore its original value by calling vi.unstubAllGlobals.

ts
import { vi } from 'vitest'

// `innerWidth` is "0" before calling stubGlobal

vi.stubGlobal('innerWidth', 100)

innerWidth === 100
globalThis.innerWidth === 100
// if you are using jsdom or happy-dom
window.innerWidth === 100

TIP

You can also change the value by simply assigning it to globalThis or window (if you are using jsdom or happy-dom environment), but you won't be able to use vi.unstubAllGlobals to restore original value:

ts
globalThis.innerWidth = 100
// if you are using jsdom or happy-dom
window.innerWidth = 100

vi.unstubAllGlobals

  • Type: () => Vitest

Restores all global values on globalThis/global (and window/top/self/parent, if you are using jsdom or happy-dom environment) that were changed with vi.stubGlobal. When it's called for the first time, Vitest remembers the original value and will store it, until unstubAllGlobals is called again.

ts
import { vi } from 'vitest'

const Mock = vi.fn()

// IntersectionObserver is "undefined" before calling "stubGlobal"

vi.stubGlobal('IntersectionObserver', Mock)

IntersectionObserver === Mock
global.IntersectionObserver === Mock
globalThis.IntersectionObserver === Mock
// if you are using jsdom or happy-dom
window.IntersectionObserver === Mock

vi.unstubAllGlobals()

globalThis.IntersectionObserver === undefined
'IntersectionObserver' in globalThis === false
// throws ReferenceError, because it's not defined
IntersectionObserver === undefined

Fake Timers

This sections descibes how to work with fake timers.

vi.advanceTimersByTime

  • Type: (ms: number) => Vitest

This method will invoke every initiated timer until the specified number of milliseconds is passed or the queue is empty - whatever comes first.

ts
let i = 0
setInterval(() => console.log(++i), 50)

vi.advanceTimersByTime(150)

// log: 1
// log: 2
// log: 3

vi.advanceTimersByTimeAsync

  • Type: (ms: number) => Promise<Vitest>

This method will invoke every initiated timer until the specified number of milliseconds is passed or the queue is empty - whatever comes first. This will include asynchronously set timers.

ts
let i = 0
setInterval(() => Promise.resolve().then(() => console.log(++i)), 50)

await vi.advanceTimersByTimeAsync(150)

// log: 1
// log: 2
// log: 3

vi.advanceTimersToNextTimer

  • Type: () => Vitest

Will call next available timer. Useful to make assertions between each timer call. You can chain call it to manage timers by yourself.

ts
let i = 0
setInterval(() => console.log(++i), 50)

vi.advanceTimersToNextTimer() // log: 1
  .advanceTimersToNextTimer() // log: 2
  .advanceTimersToNextTimer() // log: 3

vi.advanceTimersToNextTimerAsync

  • Type: () => Promise<Vitest>

Will call next available timer and wait until it's resolved if it was set asynchronously. Useful to make assertions between each timer call.

ts
let i = 0
setInterval(() => Promise.resolve().then(() => console.log(++i)), 50)

await vi.advanceTimersToNextTimerAsync() // log: 1
expect(console.log).toHaveBeenCalledWith(1)

await vi.advanceTimersToNextTimerAsync() // log: 2
await vi.advanceTimersToNextTimerAsync() // log: 3

vi.advanceTimersToNextFrame 2.1.0+

  • Type: () => Vitest

Similar to vi.advanceTimersByTime, but will advance timers by the milliseconds needed to execute callbacks currently scheduled with requestAnimationFrame.

ts
let frameRendered = false

requestAnimationFrame(() => {
  frameRendered = true
})

vi.advanceTimersToNextFrame()

expect(frameRendered).toBe(true)

vi.getTimerCount

  • Type: () => number

Get the number of waiting timers.

vi.clearAllTimers

Removes all timers that are scheduled to run. These timers will never run in the future.

vi.getMockedSystemTime

  • Type: () => Date | null

Returns mocked current date that was set using setSystemTime. If date is not mocked the method will return null.

vi.getRealSystemTime

  • Type: () => number

When using vi.useFakeTimers, Date.now calls are mocked. If you need to get real time in milliseconds, you can call this function.

vi.runAllTicks

  • Type: () => Vitest

Calls every microtask that was queued by process.nextTick. This will also run all microtasks scheduled by themselves.

vi.runAllTimers

  • Type: () => Vitest

This method will invoke every initiated timer until the timer queue is empty. It means that every timer called during runAllTimers will be fired. If you have an infinite interval, it will throw after 10 000 tries (can be configured with fakeTimers.loopLimit).

ts
let i = 0
setTimeout(() => console.log(++i))
const interval = setInterval(() => {
  console.log(++i)
  if (i === 3) {
    clearInterval(interval)
  }
}, 50)

vi.runAllTimers()

// log: 1
// log: 2
// log: 3

vi.runAllTimersAsync

  • Type: () => Promise<Vitest>

This method will asynchronously invoke every initiated timer until the timer queue is empty. It means that every timer called during runAllTimersAsync will be fired even asynchronous timers. If you have an infinite interval, it will throw after 10 000 tries (can be configured with fakeTimers.loopLimit).

ts
setTimeout(async () => {
  console.log(await Promise.resolve('result'))
}, 100)

await vi.runAllTimersAsync()

// log: result

vi.runOnlyPendingTimers

  • Type: () => Vitest

This method will call every timer that was initiated after vi.useFakeTimers call. It will not fire any timer that was initiated during its call.

ts
let i = 0
setInterval(() => console.log(++i), 50)

vi.runOnlyPendingTimers()

// log: 1

vi.runOnlyPendingTimersAsync

  • Type: () => Promise<Vitest>

This method will asynchronously call every timer that was initiated after vi.useFakeTimers call, even asynchronous ones. It will not fire any timer that was initiated during its call.

ts
setTimeout(() => {
  console.log(1)
}, 100)
setTimeout(() => {
  Promise.resolve().then(() => {
    console.log(2)
    setInterval(() => {
      console.log(3)
    }, 40)
  })
}, 10)

await vi.runOnlyPendingTimersAsync()

// log: 2
// log: 3
// log: 3
// log: 1

vi.setSystemTime

  • Type: (date: string | number | Date) => void

If fake timers are enabled, this method simulates a user changing the system clock (will affect date related API like hrtime, performance.now or new Date()) - however, it will not fire any timers. If fake timers are not enabled, this method will only mock Date.* calls.

Useful if you need to test anything that depends on the current date - for example Luxon calls inside your code.

Accepts the same string and number arguments as the Date.

ts
const date = new Date(1998, 11, 19)

vi.useFakeTimers()
vi.setSystemTime(date)

expect(Date.now()).toBe(date.valueOf())

vi.useRealTimers()

vi.useFakeTimers

  • Type: (config?: FakeTimerInstallOpts) => Vitest

To enable mocking timers, you need to call this method. It will wrap all further calls to timers (such as setTimeout, setInterval, clearTimeout, clearInterval, setImmediate, clearImmediate, and Date) until vi.useRealTimers() is called.

Mocking nextTick is not supported when running Vitest inside node:child_process by using --pool=forks. NodeJS uses process.nextTick internally in node:child_process and hangs when it is mocked. Mocking nextTick is supported when running Vitest with --pool=threads.

The implementation is based internally on @sinonjs/fake-timers.

TIP

vi.useFakeTimers() does not automatically mock process.nextTick. But you can enable it by specifying the option in toFake argument: vi.useFakeTimers({ toFake: ['nextTick'] }).

vi.isFakeTimers

  • Type: () => boolean

Returns true if fake timers are enabled.

vi.useRealTimers

  • Type: () => Vitest

When timers are run out, you may call this method to return mocked timers to its original implementations. All timers that were scheduled before will be discarded.

Miscellaneous

A set of useful helper functions that Vitest provides.

vi.waitFor

  • Type: <T>(callback: WaitForCallback<T>, options?: number | WaitForOptions) => Promise<T>

Wait for the callback to execute successfully. If the callback throws an error or returns a rejected promise it will continue to wait until it succeeds or times out.

This is very useful when you need to wait for some asynchronous action to complete, for example, when you start a server and need to wait for it to start.

ts
import { expect, test, vi } from 'vitest'
import { createServer } from './server.js'

test('Server started successfully', async () => {
  const server = createServer()

  await vi.waitFor(
    () => {
      if (!server.isReady) {
        throw new Error('Server not started')
      }

      console.log('Server started')
    },
    {
      timeout: 500, // default is 1000
      interval: 20, // default is 50
    }
  )
  expect(server.isReady).toBe(true)
})

It also works for asynchronous callbacks

ts
// @vitest-environment jsdom

import { expect, test, vi } from 'vitest'
import { getDOMElementAsync, populateDOMAsync } from './dom.js'

test('Element exists in a DOM', async () => {
  // start populating DOM
  populateDOMAsync()

  const element = await vi.waitFor(async () => {
    // try to get the element until it exists
    const element = await getDOMElementAsync() as HTMLElement | null
    expect(element).toBeTruthy()
    expect(element.dataset.initialized).toBeTruthy()
    return element
  }, {
    timeout: 500, // default is 1000
    interval: 20, // default is 50
  })
  expect(element).toBeInstanceOf(HTMLElement)
})

If vi.useFakeTimers is used, vi.waitFor automatically calls vi.advanceTimersByTime(interval) in every check callback.

vi.waitUntil

  • Type: <T>(callback: WaitUntilCallback<T>, options?: number | WaitUntilOptions) => Promise<T>

This is similar to vi.waitFor, but if the callback throws any errors, execution is immediately interrupted and an error message is received. If the callback returns falsy value, the next check will continue until truthy value is returned. This is useful when you need to wait for something to exist before taking the next step.

Look at the example below. We can use vi.waitUntil to wait for the element to appear on the page, and then we can do something with the element.

ts
import { expect, test, vi } from 'vitest'

test('Element render correctly', async () => {
  const element = await vi.waitUntil(
    () => document.querySelector('.element'),
    {
      timeout: 500, // default is 1000
      interval: 20, // default is 50
    }
  )

  // do something with the element
  expect(element.querySelector('.element-child')).toBeTruthy()
})

vi.hoisted

  • Type: <T>(factory: () => T) => T

All static import statements in ES modules are hoisted to the top of the file, so any code that is defined before the imports will actually be executed after imports are evaluated.

However, it can be useful to invoke some side effects like mocking dates before importing a module.

To bypass this limitation, you can rewrite static imports into dynamic ones like this:

diff
callFunctionWithSideEffect()
- import { value } from './some/module.js'
+ const { value } = await import('./some/module.js')

When running vitest, you can do this automatically by using vi.hoisted method.

diff
- callFunctionWithSideEffect()
import { value } from './some/module.js'
+ vi.hoisted(() => callFunctionWithSideEffect())

This method returns the value that was returned from the factory. You can use that value in your vi.mock factories if you need easy access to locally defined variables:

ts
import { expect, vi } from 'vitest'
import { originalMethod } from './path/to/module.js'

const { mockedMethod } = vi.hoisted(() => {
  return { mockedMethod: vi.fn() }
})

vi.mock('./path/to/module.js', () => {
  return { originalMethod: mockedMethod }
})

mockedMethod.mockReturnValue(100)
expect(originalMethod()).toBe(100)

Note that this method can also be called asynchronously even if your environment doesn't support top-level await:

ts
const promised = await vi.hoisted(async () => {
  const response = await fetch('https://jsonplaceholder.typicode.com/posts')
  return response.json()
})

vi.setConfig

  • Type: RuntimeConfig

Updates config for the current test file. This method supports only config options that will affect the current test file:

ts
vi.setConfig({
  allowOnly: true,
  testTimeout: 10_000,
  hookTimeout: 10_000,
  clearMocks: true,
  restoreMocks: true,
  fakeTimers: {
    now: new Date(2021, 11, 19),
    // supports the whole object
  },
  maxConcurrency: 10,
  sequence: {
    hooks: 'stack'
    // supports only "sequence.hooks"
  }
})

vi.resetConfig

  • Type: RuntimeConfig

If vi.setConfig was called before, this will reset config to the original state.

Released under the MIT License.