--- title: Testing --- Testing helps you write and maintain your code and guard against regressions. Testing frameworks help you with that, allowing you to describe assertions or expectations about how your code should behave. Svelte is unopinionated about which testing framework you use — you can write unit tests, integration tests, and end-to-end tests using solutions like [Vitest](https://vitest.dev/), [Jasmine](https://jasmine.github.io/), [Cypress](https://www.cypress.io/) and [Playwright](https://playwright.dev/). ## Unit and integration testing using Vitest Unit tests allow you to test small isolated parts of your code. Integration tests allow you to test parts of your application to see if they work together. If you're using Vite (including via SvelteKit), we recommend using [Vitest](https://vitest.dev/). To get started, install Vitest: ```bash npm install -D vitest ``` Then adjust your `vite.config.js`: ```js /// file: vite.config.js import { defineConfig } from +++'vitest/config'+++; export default defineConfig({ // ... // Tell Vitest to use the `browser` entry points in `package.json` files, even though it's running in Node resolve: process.env.VITEST ? { conditions: ['browser'] } : undefined }); ``` > [!NOTE] If loading the browser version of all your packages is undesirable, because (for example) you also test backend libraries, [you may need to resort to an alias configuration](https://github.com/testing-library/svelte-testing-library/issues/222#issuecomment-1909993331) You can now write unit tests for code inside your `.js/.ts` files: ```js /// file: multiplier.svelte.test.js import { flushSync } from 'svelte'; import { expect, test } from 'vitest'; import { multiplier } from './multiplier.js'; test('Multiplier', () => { let double = multiplier(0, 2); expect(double.value).toEqual(0); double.set(5); expect(double.value).toEqual(10); }); ``` ### Using runes inside your test files It is possible to use runes inside your test files. First ensure your bundler knows to route the file through the Svelte compiler before running the test by adding `.svelte` to the filename (e.g `multiplier.svelte.test.js`). After that, you can use runes inside your tests. ```js /// file: multiplier.svelte.test.js import { flushSync } from 'svelte'; import { expect, test } from 'vitest'; import { multiplier } from './multiplier.svelte.js'; test('Multiplier', () => { let count = $state(0); let double = multiplier(() => count, 2); expect(double.value).toEqual(0); count = 5; expect(double.value).toEqual(10); }); ``` If the code being tested uses effects, you need to wrap the test inside `$effect.root`: ```js /// file: logger.svelte.test.js import { flushSync } from 'svelte'; import { expect, test } from 'vitest'; import { logger } from './logger.svelte.js'; test('Effect', () => { const cleanup = $effect.root(() => { let count = $state(0); // logger uses an $effect to log updates of its input let log = logger(() => count); // effects normally run after a microtask, // use flushSync to execute all pending effects synchronously flushSync(); expect(log.value).toEqual([0]); count = 1; flushSync(); expect(log.value).toEqual([0, 1]); }); cleanup(); }); ``` ### Component testing It is possible to test your components in isolation using Vitest. > [!NOTE] Before writing component tests, think about whether you actually need to test the component, or if it's more about the logic _inside_ the component. If so, consider extracting out that logic to test it in isolation, without the overhead of a component To get started, install jsdom (a library that shims DOM APIs): ```bash npm install -D jsdom ``` Then adjust your `vite.config.js`: ```js /// file: vite.config.js import { defineConfig } from 'vitest/config'; export default defineConfig({ plugins: [ /* ... */ ], test: { // If you are testing components client-side, you need to setup a DOM environment. // If not all your files should have this environment, you can use a // `// @vitest-environment jsdom` comment at the top of the test files instead. environment: 'jsdom' }, // Tell Vitest to use the `browser` entry points in `package.json` files, even though it's running in Node resolve: process.env.VITEST ? { conditions: ['browser'] } : undefined }); ``` After that, you can create a test file in which you import the component to test, interact with it programmatically and write expectations about the results: ```js /// file: component.test.js import { flushSync, mount, unmount } from 'svelte'; import { expect, test } from 'vitest'; import Component from './Component.svelte'; test('Component', () => { // Instantiate the component using Svelte's `mount` API const component = mount(Component, { target: document.body, // `document` exists because of jsdom props: { initial: 0 } }); expect(document.body.innerHTML).toBe(''); // Click the button, then flush the changes so you can synchronously write expectations document.body.querySelector('button').click(); flushSync(); expect(document.body.innerHTML).toBe(''); // Remove the component from the DOM unmount(component); }); ``` While the process is very straightforward, it is also low level and somewhat brittle, as the precise structure of your component may change frequently. Tools like [@testing-library/svelte](https://testing-library.com/docs/svelte-testing-library/intro/) can help streamline your tests. The above test could be rewritten like this: ```js /// file: component.test.js import { render, screen } from '@testing-library/svelte'; import userEvent from '@testing-library/user-event'; import { expect, test } from 'vitest'; import Component from './Component.svelte'; test('Component', async () => { const user = userEvent.setup(); render(Component); const button = screen.getByRole('button'); expect(button).toHaveTextContent(0); await user.click(button); expect(button).toHaveTextContent(1); }); ``` When writing component tests that involve two-way bindings, context or snippet props, it's best to create a wrapper component for your specific test and interact with that. `@testing-library/svelte` contains some [examples](https://testing-library.com/docs/svelte-testing-library/example). ## E2E tests using Playwright E2E (short for 'end to end') tests allow you to test your full application through the eyes of the user. This section uses [Playwright](https://playwright.dev/) as an example, but you can also use other solutions like [Cypress](https://www.cypress.io/) or [NightwatchJS](https://nightwatchjs.org/). To get started with Playwright, either install it via [the VS Code extension](https://playwright.dev/docs/getting-started-vscode), or install it from the command line using `npm init playwright`. It is also part of the setup CLI when you run `npx sv create`. After you've done that, you should have a `tests` folder and a Playwright config. You may need to adjust that config to tell Playwright what to do before running the tests - mainly starting your application at a certain port: ```js /// file: playwright.config.js const config = { webServer: { command: 'npm run build && npm run preview', port: 4173 }, testDir: 'tests', testMatch: /(.+\.)?(test|spec)\.[jt]s/ }; export default config; ``` You can now start writing tests. These are totally unaware of Svelte as a framework, so you mainly interact with the DOM and write assertions. ```js // @errors: 2307 7031 /// file: tests/hello-world.spec.js import { expect, test } from '@playwright/test'; test('home page has expected h1', async ({ page }) => { await page.goto('/'); await expect(page.locator('h1')).toBeVisible(); }); ```