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Browser Mode Experimental

This page provides information about the experimental browser mode feature in the Vitest API, which allows you to run your tests in the browser natively, providing access to browser globals like window and document. This feature is currently under development, and APIs may change in the future.

Vitest UIVitest UI

Installation

For easier setup, you can use vitest init browser command to install required dependencies and create browser configuration.

bash
npx vitest init browser
bash
yarn exec vitest init browser
bash
pnpx vitest init browser
bash
bunx vitest init browser

Manual Installation

You can also install packages manually. By default, Browser Mode doesn't require any additional E2E provider to run tests locally because it reuses your existing browser.

bash
npm install -D vitest @vitest/browser
bash
yarn add -D vitest @vitest/browser
bash
pnpm add -D vitest @vitest/browser
bash
bun add -D vitest @vitest/browser

WARNING

However, to run tests in CI you need to install either playwright or webdriverio. We also recommend switching to either one of them for testing locally instead of using the default preview provider since it relies on simulating events instead of using Chrome DevTools Protocol.

If you don't already use one of these tools, we recommend starting with Playwright because it supports parallel execution, which makes your tests run faster. Additionally, the Chrome DevTools Protocol that Playwright uses is generally faster than WebDriver.

Playwright is a framework for Web Testing and Automation.

bash
npm install -D vitest @vitest/browser playwright
bash
yarn add -D vitest @vitest/browser playwright
bash
pnpm add -D vitest @vitest/browser playwright
bash
bun add -D vitest @vitest/browser playwright

Configuration

To activate browser mode in your Vitest configuration, you can use the --browser flag or set the browser.enabled field to true in your Vitest configuration file. Here is an example configuration using the browser field:

ts
export default defineConfig({
  test: {
    browser: {
      provider: 'playwright', // or 'webdriverio'
      enabled: true,
      name: 'chromium', // browser name is required
    },
  }
})

INFO

Vitest assigns port 63315 to avoid conflicts with the development server, allowing you to run both in parallel. You can change that with the browser.api option.

If you have not used Vite before, make sure you have your framework's plugin installed and specified in the config. Some frameworks might require extra configuration to work - check their Vite related documentation to be sure.

ts
import { defineConfig } from 'vitest/config'
import vue from '@vitejs/plugin-vue'

export default defineConfig({
  plugins: [vue()],
  test: {
    browser: {
      enabled: true,
      provider: 'playwright',
      name: 'chromium',
    }
  }
})
ts
import { defineConfig } from 'vitest/config'
import { svelte } from '@sveltejs/vite-plugin-svelte'

export default defineConfig({
  plugins: [svelte()],
  test: {
    browser: {
      enabled: true,
      provider: 'playwright',
      name: 'chromium',
    }
  }
})
ts
import { defineConfig } from 'vitest/config'
import solidPlugin from 'vite-plugin-solid'

export default defineConfig({
  plugins: [solidPlugin()],
  test: {
    browser: {
      enabled: true,
      provider: 'playwright',
      name: 'chromium',
    }
  }
})
ts
import { defineConfig } from 'vitest/config'
import marko from '@marko/vite'

export default defineConfig({
  plugins: [marko()],
  test: {
    browser: {
      enabled: true,
      provider: 'playwright',
      name: 'chromium',
    }
  }
})

TIP

react doesn't require a plugin to work, but preact requires extra configuration to make aliases work.

If you need to run some tests using Node-based runner, you can define a workspace file with separate configurations for different testing strategies:

ts
// vitest.workspace.ts
import { defineWorkspace } from 'vitest/config'

export default defineWorkspace([
  {
    test: {
      // an example of file based convention,
      // you don't have to follow it
      include: [
        'tests/unit/**/*.{test,spec}.ts',
        'tests/**/*.unit.{test,spec}.ts',
      ],
      name: 'unit',
      environment: 'node',
    },
  },
  {
    test: {
      // an example of file based convention,
      // you don't have to follow it
      include: [
        'tests/browser/**/*.{test,spec}.ts',
        'tests/**/*.browser.{test,spec}.ts',
      ],
      name: 'browser',
      browser: {
        enabled: true,
        name: 'chrome',
      },
    },
  },
])

Provider Configuration

You can configure how Vitest launches the browser and creates the page context via providerOptions field:

ts
export default defineConfig({
  test: {
    browser: {
      providerOptions: {
        launch: {
          devtools: true,
        },
        context: {
          geolocation: {
            latitude: 45,
            longitude: -30,
          },
          reducedMotion: 'reduce',
        },
      },
    },
  },
})

To have type hints, add @vitest/browser/providers/playwright to compilerOptions.types in your tsconfig.json file.

Browser Option Types

The browser option in Vitest depends on the provider. Vitest will fail, if you pass --browser and don't specify its name in the config file. Available options:

  • webdriverio supports these browsers:
    • firefox
    • chrome
    • edge
    • safari
  • playwright supports these browsers:
    • firefox
    • webkit
    • chromium

Browser Compatibility

Vitest uses Vite dev server to run your tests, so we only support features specified in the esbuild.target option (esnext by default).

By default, Vite targets browsers which support the native ES Modules, native ESM dynamic import, and import.meta. On top of that, we utilize BroadcastChannel to communicate between iframes:

  • Chrome >=87
  • Firefox >=78
  • Safari >=15.4
  • Edge >=88

Running Tests

When you specify a browser name in the browser option, Vitest will try to run the specified browser using preview by default, and then run the tests there. If you don't want to use preview, you can configure the custom browser provider by using browser.provider option.

To specify a browser using the CLI, use the --browser flag followed by the browser name, like this:

sh
npx vitest --browser=chrome

Or you can provide browser options to CLI with dot notation:

sh
npx vitest --browser.name=chrome --browser.headless

By default, Vitest will automatically open the browser UI for development. Your tests will run inside an iframe in the center. You can configure the viewport by selecting the preferred dimensions, calling page.viewport inside the test, or setting default values in the config.

Headless

Headless mode is another option available in the browser mode. In headless mode, the browser runs in the background without a user interface, which makes it useful for running automated tests. The headless option in Vitest can be set to a boolean value to enable or disable headless mode.

When using headless mode, Vitest won't open the UI automatically. If you want to continue using the UI but have tests run headlessly, you can install the @vitest/ui package and pass the --ui flag when running Vitest.

Here's an example configuration enabling headless mode:

ts
export default defineConfig({
  test: {
    browser: {
      provider: 'playwright',
      enabled: true,
      headless: true,
    },
  }
})

You can also set headless mode using the --browser.headless flag in the CLI, like this:

sh
npx vitest --browser.name=chrome --browser.headless

In this case, Vitest will run in headless mode using the Chrome browser.

WARNING

Headless mode is not available by default. You need to use either playwright or webdriverio providers to enable this feature.

Examples

Vitest provides packages to render components for several popular frameworks out of the box:

If your framework is not represented, feel free to create your own package - it is a simple wrapper around the framework renderer and page.elementLocator API. We will add a link to it on this page. Make sure it has a name starting with vitest-browser-.

Besides rendering components and locating elements, you will also need to make assertions. Vitest bundles the @testing-library/jest-dom library to provide a wide range of DOM assertions out of the box. Read more at the Assertions API.

ts
import { expect } from 'vitest'
import { page } from '@vitest/browser/context'
// element is rendered correctly
await expect.element(page.getByText('Hello World')).toBeInTheDocument()

Vitest exposes a Context API with a small set of utilities that might be useful to you in tests. For example, if you need to make an interaction, like clicking an element or typing text into an input, you can use userEvent from @vitest/browser/context. Read more at the Interactivity API.

ts
import { page, userEvent } from '@vitest/browser/context'
await userEvent.fill(page.getByLabelText(/username/i), 'Alice')
// or just locator.fill
await page.getByLabelText(/username/i).fill('Alice')
ts
import { render } from 'vitest-browser-vue'
import Component from './Component.vue'

test('properly handles v-model', async () => {
  const screen = render(Component)

  // Asserts initial state.
  await expect.element(screen.getByText('Hi, my name is Alice')).toBeInTheDocument()

  // Get the input DOM node by querying the associated label.
  const usernameInput = screen.getByLabelText(/username/i)

  // Type the name into the input. This already validates that the input
  // is filled correctly, no need to check the value manually.
  await usernameInput.fill('Bob')

  await expect.element(screen.getByText('Hi, my name is Bob')).toBeInTheDocument()
})
ts
import { render } from 'vitest-browser-svelte'
import { expect, test } from 'vitest'

import Greeter from './greeter.svelte'

test('greeting appears on click', async () => {
  const screen = render(Greeter, { name: 'World' })

  const button = screen.getByRole('button')
  await button.click()
  const greeting = screen.getByText(/hello world/iu)

  await expect.element(greeting).toBeInTheDocument()
})
tsx
import { render } from 'vitest-browser-react'
import Fetch from './fetch'

test('loads and displays greeting', async () => {
  // Render a React element into the DOM
  const screen = render(<Fetch url="/greeting" />)

  await screen.getByText('Load Greeting').click()
  // wait before throwing an error if it cannot find an element
  const heading = screen.getByRole('heading')

  // assert that the alert message is correct
  await expect.element(heading).toHaveTextContent('hello there')
  await expect.element(screen.getByRole('button')).toBeDisabled()
})

Vitest doesn't support all frameworks out of the box, but you can use external tools to run tests with these frameworks. We also encourage the community to create their own vitest-browser wrappers - if you have one, feel free to add it to the examples above.

For unsupported frameworks, we recommend using testing-library packages:

WARNING

testing-library provides a package @testing-library/user-event. We do not recommend using it directly because it simulates events instead of actually triggering them - instead, use userEvent imported from @vitest/browser/context that uses Chrome DevTools Protocol or Webdriver (depending on the provider) under the hood.

tsx
// based on @testing-library/preact example
// https://testing-library.com/docs/preact-testing-library/example

import { h } from 'preact'
import { page } from '@vitest/browser/context'
import { render } from '@testing-library/preact'

import HiddenMessage from '../hidden-message'

test('shows the children when the checkbox is checked', async () => {
  const testMessage = 'Test Message'

  const { baseElement } = render(
    <HiddenMessage>{testMessage}</HiddenMessage>,
  )

  const screen = page.elementLocator(baseElement)

  // .query() will return the element or null if it cannot be found.
  // .element() will return the element or throw an error if it cannot be found.
  expect(screen.getByText(testMessage).query()).not.toBeInTheDocument()

  // The queries can accept a regex to make your selectors more
  // resilient to content tweaks and changes.
  await screen.getByLabelText(/show/i).click()

  await expect.element(screen.getByText(testMessage)).toBeInTheDocument()
})
tsx
// baed on @testing-library/solid API
// https://testing-library.com/docs/solid-testing-library/api

import { render } from '@testing-library/solid'

it('uses params', async () => {
  const App = () => (
    <>
      <Route
        path="/ids/:id"
        component={() => (
          <p>
            Id:
            {useParams()?.id}
          </p>
        )}
      />
      <Route path="/" component={() => <p>Start</p>} />
    </>
  )
  const { baseElement } = render(() => <App />, { location: 'ids/1234' })
  const screen = page.elementLocator(baseElement)

  await expect.screen(screen.getByText('Id: 1234')).toBeInTheDocument()
})
ts
// baed on @testing-library/marko API
// https://testing-library.com/docs/marko-testing-library/api

import { render, screen } from '@marko/testing-library'
import Greeting from './greeting.marko'

test('renders a message', async () => {
  const { baseElement } = await render(Greeting, { name: 'Marko' })
  const screen = page.elementLocator(baseElement)
  await expect.element(screen.getByText(/Marko/)).toBeInTheDocument()
  await expect.element(container.firstChild).toMatchInlineSnapshot(`
    <h1>Hello, Marko!</h1>
  `)
})

Limitations

Thread Blocking Dialogs

When using Vitest Browser, it's important to note that thread blocking dialogs like alert or confirm cannot be used natively. This is because they block the web page, which means Vitest cannot continue communicating with the page, causing the execution to hang.

In such situations, Vitest provides default mocks with default returned values for these APIs. This ensures that if the user accidentally uses synchronous popup web APIs, the execution would not hang. However, it's still recommended for the user to mock these web APIs for better experience. Read more in Mocking.

Released under the MIT License.