Note This repo has been upgraded to SvelteKit 1.0 🎉
Svelte component test recipes using Vitest & Testing Library with TypeScript
In this repo, we'll use vitest, @testing-library/svelte, and svelte-htm to test Svelte components that seemed to be hard to test. Such as two-way bindings, name slots, Context API, ...etc.
As a Svelte advocate, the fantastic DX is one of the reasons I love Svelte. While component testing is something that I think we can still improve over time.
Feel free to open an issue or send a PR to add more test recipes. 😉
Blog post @hashnode: https://davipon.hashnode.dev/svelte-component-test-recipes
- Svelte Component Test Recipes
- Table of Contents
- Setup
- Testing component props
- Testing component events
- Testing the
bind:directive (two-way binding) - Testing the
use:directive (Svelte Actions) - Testing slots
- Testing the Context API
- Testing components that use SvelteKit runtime modules (
$app/*) - Testing data fetching components using
msw - Credits
- Resources
Let's install libraries in your SvelteKit project.
# Minimal setup
npm install -D vitest @vitest/coverage-c8 @testing-library/svelte jsdom
# Companion libraries for Testing Library
npm install -D @testing-library/jest-dom @testing-library/dom @testing-library/user-event @types/testing-library__jest-dom
# Test harness libraries
npm install -D svelte-htm svelte-fragment-component
Vitest can read your root vite.config.(js|ts) to match with the plugins and setup as your Vite app (SvelteKit), and here is my setup:
// vite.config.ts
import { sveltekit } from '@sveltejs/kit/vite';
import type { UserConfig } from 'vite';
import { configDefaults, type UserConfig as VitestConfig } from 'vitest/config';
const config: UserConfig & { test: VitestConfig['test'] } = {
plugins: [sveltekit()],
define: {
// Eliminate in-source test code
'import.meta.vitest': 'undefined'
},
test: {
// jest like globals
globals: true,
environment: 'jsdom',
// in-source testing
includeSource: ['src/**/*.{js,ts,svelte}'],
// Add @testing-library/jest-dom matchers & mocks of SvelteKit modules
setupFiles: ['./setupTest.ts'],
// Exclude files in c8
coverage: {
exclude: ['setupTest.ts']
},
// Exclude playwright tests folder
exclude: [...configDefaults.exclude, 'tests']
}
};
export default config;You may notice that there is a setupTest.ts file. We can add @testing-library/jest-dom matchers & mocks of SvelteKit there:
// setupTest.ts
/* eslint-disable @typescript-eslint/no-empty-function */
import matchers from '@testing-library/jest-dom/matchers';
import { expect, vi } from 'vitest';
import type { Navigation, Page } from '@sveltejs/kit';
import { readable } from 'svelte/store';
import * as environment from '$app/environment';
import * as navigation from '$app/navigation';
import * as stores from '$app/stores';
// Add custom jest matchers
expect.extend(matchers);
// Mock SvelteKit runtime module $app/environment
vi.mock('$app/environment', (): typeof environment => ({
browser: false,
dev: true,
building: false,
version: 'any',
}));
// Mock SvelteKit runtime module $app/navigation
vi.mock('$app/navigation', (): typeof navigation => ({
afterNavigate: () => {},
beforeNavigate: () => {},
disableScrollHandling: () => {},
goto: () => Promise.resolve(),
invalidate: () => Promise.resolve(),
invalidateAll: () => Promise.resolve(),
preloadData: () => Promise.resolve(),
preloadCode: () => Promise.resolve(),
}));
// Mock SvelteKit runtime module $app/stores
vi.mock('$app/stores', (): typeof stores => {
const getStores: typeof stores.getStores = () => {
const navigating = readable<Navigation | null>(null);
const page = readable<Page>({
url: new URL('http://localhost'),
params: {},
route: {
id: null
},
status: 200,
error: null,
data: {},
form: undefined
});
const updated = { subscribe: readable(false).subscribe, check: async () => false };
return { navigating, page, updated };
};
const page: typeof stores.page = {
subscribe(fn) {
return getStores().page.subscribe(fn);
}
};
const navigating: typeof stores.navigating = {
subscribe(fn) {
return getStores().navigating.subscribe(fn);
}
};
const updated: typeof stores.updated = {
subscribe(fn) {
return getStores().updated.subscribe(fn);
},
check: async () => false
};
return {
getStores,
navigating,
page,
updated
};
});The
@testing-library/jest-domlibrary provides a set of custom jest matchers that you can use to extend vitest. These will make your tests more declarative and clear to read and maintain. You can also check Common mistakes with React Testing Library #Using the wrong-assertion.
SvelteKit runtime modules like
$app/storesand$app/navigationare not set until SvelteKit's start function is called, which means you won't have them in a test environment because tests are isolated.This error occurs if we test the component which uses
$appmodules without mocking them:In the context of unit testing, any small gaps in functionality can be resolved by simply mocking that module.
OK! The setup is ready. Let's start with a simple component test.
Here's our svelte component:
$lib/props/DefaultProps.svelte
<script>
export let answer = 'a mystery';
</script>
<p>The answer is {answer}</p>It's a simple component with only one prop answer with a default value.
Let's see how to test the default value and pass a new one:
// $lib/props/DefaultProps.test.ts
import { render, screen } from '@testing-library/svelte';
import DefaultProps from './DefaultProps.svelte';
it("doesn't pass prop", () => {
render(DefaultProps);
expect(screen.queryByText('The answer is a mystery')).toBeInTheDocument();
});
it('set and update prop', async () => {
// Pass your prop to the render function
const { component } = render(DefaultProps, { answer: 'I dunno' });
expect(screen.queryByText('The answer is I dunno')).toBeInTheDocument();
// Update prop using Svelte's Client-side component API
await component.$set({ answer: 'another mystery' });
expect(screen.queryByText('The answer is another mystery')).toBeInTheDocument();
});If you're using TypeScript, a recent release of @testing-library/svelte
had improved props typing for render function:
Sometimes you may want to predefine your props before passing. We can use Svelte's native utility type ComponentProps. ComponentProps takes in a Svelte component type and gives you a type corresponding to the component’s props.
// $lib/props/DefaultProps.test.ts
import type { ComponentProps } from 'svelte';
import { render, screen } from '@testing-library/svelte';
import DefaultProps from './DefaultProps.svelte';
it('Pass predefined prop to the component', () => {
const prop: ComponentProps<DefaultProps> = { answer: 'TypeScript!' };
render(DefaultProps, prop);
expect(screen.getByText('The answer is TypeScript!'));
});I highly recommend reading this excellent post from Andrew Lester: Typing Components in Svelte.
The component we're going to test has a button that'll dispatch a custom event message when you click on it. It's the component from svelte.dev/tutorials/component-events.
$lib/events/ComponentEvent.svelte
<script>
import { createEventDispatcher } from 'svelte';
const dispatch = createEventDispatcher();
function sayHello() {
dispatch('message', {
text: 'Hello!'
});
}
</script>
<button on:click={sayHello}> Click to say hello </button>To test component events, we use a combination of vitest utility function vi.fn and the Svelte client-side component API component.$on. We also use @testing-library/user-event instead of the built-in fireEvent to simulate user interactions.
user-eventapplies workarounds and mocks the UI layer to simulate user interactions like they would happen in the browser. Check Common mistakes with React Testing Library #Not using @testing-library/user-event.
// $lib/events/ComponentEvent.test.ts
import { render, screen } from '@testing-library/svelte';
import ComponentEvent from './ComponentEvent.svelte';
import userEvent from '@testing-library/user-event';
it('Test ComponentEvent component', async () => {
const user = userEvent.setup();
const { component } = render(ComponentEvent);
// Mock function
let text = '';
const mock = vi.fn((event) => (text = event.detail.text));
component.$on('message', mock);
const button = screen.getByRole('button');
await user.click(button);
expect(mock).toHaveBeenCalled();
expect(text).toBe('Hello!');
});We first create a mock function and pass it to the component.$on, so we can monitor it whenever the component dispatch a message event.
You can also test component events without @testing-library using only vitest:
import Component from '$lib/MyComponent.svelte'
import { expect, test, vi } from 'vitest'
test(`invokes callback functions`, async () => {
const keyup = vi.fn()
const click = vi.fn()
const instance = new Component({
target: document.body,
props: { foo: `bar` },
})
instance.$on(`keyup`, keyup)
instance.$on(`click`, click)
const node = document.querySelector(`.some-css-selector`)
if (!node) throw new Error(`DOM node not found`)
node.dispatchEvent(new KeyboardEvent(`keyup`, { key: `Enter` }))
expect(keyup).toHaveBeenCalledTimes(1)
node.dispatchEvent(new MouseEvent(`click`))
expect(click).toHaveBeenCalledTimes(1)
})We use Keypad.svelte from svelte.dev/tutorial/component-bindings:
$lib/bindings/Keypad.svelte
<script lang="ts">
import { createEventDispatcher } from 'svelte';
export let value = '';
const dispatch = createEventDispatcher();
const select = (num: number) => () => (value += num);
const clear = () => (value = '');
const submit = () => dispatch('submit');
</script>
<div class="keypad">
<button on:click={select(1)}>1</button>
<button on:click={select(2)}>2</button>
<button on:click={select(3)}>3</button>
<button on:click={select(4)}>4</button>
<button on:click={select(5)}>5</button>
<button on:click={select(6)}>6</button>
<button on:click={select(7)}>7</button>
<button on:click={select(8)}>8</button>
<button on:click={select(9)}>9</button>
<button disabled={!value} on:click={clear}>clear</button>
<button on:click={select(0)}>0</button>
<button disabled={!value} on:click={submit}>submit</button>
</div>
<style>
.keypad {
display: grid;
grid-template-columns: repeat(3, 5em);
grid-template-rows: repeat(4, 3em);
grid-gap: 0.5em;
}
button {
margin: 0;
}
</style>There is no programmatic interface to test bind:, use:, slots, and Context API. Instead of creating a dummy svelte component (e.g. TestHarness.svelte) to test your component, we can use svelte-htm to simplify your testing code.
Assume we use Keypad.svelte in one of the +page.svelte:
<Keypad bind:value={} on:submit={} />To test the two-way binding of value, we use a writeable store as property value:
// $lib/bindings/Keypad.test.ts
import { get, writable } from 'svelte/store';
import { render, screen } from '@testing-library/svelte';
import html from 'svelte-htm';
import Keypad from './Keypad.svelte';
import userEvent from '@testing-library/user-event';
describe('Test Keypad component', async () => {
const user = userEvent.setup();
it('Test two-way binding', async () => {
// Create a writable store to enable reactivity
const pin = writable('');
const mock = vi.fn();
render(html`<${Keypad} bind:value=${pin} on:submit=${mock} />`);
// Get Keypad button "1"
const button1 = screen.getByText('1');
await user.click(button1);
await user.click(button1);
expect(get(pin)).toBe('11');
const submitButton = screen.getByText('submit');
await user.click(submitButton);
expect(mock).toHaveBeenCalled();
const clearButton = screen.getByText('clear');
await user.click(clearButton);
expect(get(pin)).toBe('');
});
});We use the example from svelte.dev/tutorial/actions:
// $lib/actions/clickOutside.ts
export function clickOutside(node: HTMLElement) {
const handleClick = (event: Event) => {
if (!node.contains(event.target as Node)) {
node.dispatchEvent(new CustomEvent('outclick'));
}
};
document.addEventListener('click', handleClick, true);
return {
destroy() {
document.removeEventListener('click', handleClick, true);
}
};
}Then use it in src/routes/actions/+page.svelte:
<script lang="ts">
import { clickOutside } from '$lib/actions/clickOutside';
let showModal = true;
</script>
<button on:click={() => (showModal = true)}>Show Modal</button>
{#if showModal}
<div class="box" use:clickOutside on:outclick={() => (showModal = false)}>Click outside me!</div>
{/if}To test svelte actions, we test the function but not the component which uses the function. Be careful that we need to use use:action=${/** yourActionFunction *} in svelte-htm's tagged templates:
import { render, screen } from '@testing-library/svelte';
import html from 'svelte-htm';
import userEvent from '@testing-library/user-event';
import { clickOutside } from './clickOutside';
it('Test clickOutside svelte action', async () => {
const user = userEvent.setup();
const mock = vi.fn();
render(html`
<button>Outside the button</button>
<button
use:action=${clickOutside /** or (node) => yourAction(node, params) */}
on:outclick=${mock}
>
Click outside me!
</button>
`);
const button = screen.getByText('Outside the button');
await user.click(button);
expect(mock).toHaveBeenCalled();
});We have four examples from svelte.dev/slots:
- Slot fallbacks
- Named slots
- Optional slots
- Slot props
$lib/slot-fallbacks/Box.svelte
<div class="box">
<slot>
<em>no content was provided</em>
</slot>
</div>It's easy to test using svelte-htm:
// $lib/slot-fallbacks/Box.test.ts
import { render, screen } from '@testing-library/svelte';
import html from 'svelte-htm';
import Box from './Box.svelte';
describe('Test slot fallbacks', () => {
it('Put some elements', () => {
render(html`<${Box}><h2>Hello!</h2></${Box}>`);
expect(screen.getByText('Hello!')).toBeInTheDocument();
});
it('Test slot fallback', () => {
render(html`<${Box} />`);
expect(screen.getByText('no content was provided')).toBeInTheDocument();
});
});$lib/named-slots/ContactCard.svelte
<article class="contact-card">
<h2>
<slot name="name">
<span class="missing">Unknown name</span>
</slot>
</h2>
<div class="address">
<slot name="address">
<span class="missing">Unknown address</span>
</slot>
</div>
<div class="email">
<slot name="email">
<span class="missing">Unknown email</span>
</slot>
</div>
</article>// $lib/named-slots/ContactCard.test.ts
import { render, screen } from '@testing-library/svelte';
import html from 'svelte-htm';
import ContactCard from './ContactCard.svelte';
describe('Test name slots', () => {
it('Only put slot "name"', () => {
render(html`
<${ContactCard}>
<span slot="name"> P. Sherman </span>
</${ContactCard}>
`);
// Fallbacks
expect(screen.getByText('Unknown address')).toBeInTheDocument();
expect(screen.getByText('Unknown email')).toBeInTheDocument();
});
});Check the implementation here: svelte.dev/tutorial/optional-slots or
src/lib/optional-slots/*
There are two components, and both accept slots:
Comment.svelte: Accepts any content in the slotProject.svelte: Check if named slotcommentsexists
$lib/optional-slots/Project.svelte
<script lang="ts">
export let title: string;
export let tasksCompleted = 0;
export let totalTasks = 0;
</script>
<article class:has-discussion={$$slots.comments}>
<div>
<h2>{title}</h2>
<p>{tasksCompleted}/{totalTasks} tasks completed</p>
</div>
{#if $$slots.comments}
<div class="discussion">
<h3>Comments</h3>
<slot name="comments" />
</div>
{/if}
</article>We can test the optional slot by checking the class name has-discussion:
import { render, screen } from '@testing-library/svelte';
import html from 'svelte-htm';
import Project from './Project.svelte';
import Comment from './Comment.svelte';
describe('Test optional slots', () => {
it('Put Comment component in Project', () => {
render(html`
<${Project} title="Add TypeScript support" tasksCompleted="{25}" totalTasks="{57}">
<div slot="comments">
<${Comment} name="Ecma Script" postedAt=${new Date('2020-08-17T14:12:23')}>
<p>Those interface tests are now passing.</p>
</${Comment}>
</div>
</${Project}>
`);
const article = screen.getAllByRole('article')[0];
expect(article).toHaveClass('has-discussion');
});
it('No slot in Project component', () => {
render(html`
<${Project} title="Update documentation" tasksCompleted="{18}" totalTasks="{21}" />
`);
const article = screen.getAllByRole('article')[0];
expect(article).not.toHaveClass('has-discussion');
expect(screen.queryByText('Comments')).not.toBeInTheDocument();
});
});$lib/slot-props/Hoverable.svelte
<script lang="ts">
let hovering: boolean;
function enter() {
hovering = true;
}
function leave() {
hovering = false;
}
</script>
<div on:mouseenter={enter} on:mouseleave={leave}>
<slot {hovering} />
</div>To test the slot prop, we can create a writable store and subscribe to the let:hovering, and use user.hover to simulate hovering, which is not viable using the native fireEvent:
import { get, writable } from 'svelte/store';
import { render, screen } from '@testing-library/svelte';
import html from 'svelte-htm';
import Hoverable from './Hoverable.svelte';
import userEvent from '@testing-library/user-event';
it('Test slot props', async () => {
const user = userEvent.setup();
const hovering = writable(false);
render(html`
<${Hoverable} let:hovering=${hovering}>
<div data-testid="hover" class:active=${hovering}>
<p>Hover over me!</p>
</div>
</${Hoverable}>
`);
const element = screen.getByText('Hover over me!');
await user.hover(element);
expect(get(hovering)).toBeTruthy();
expect(screen.getByTestId('hover')).toHaveClass('active');
});Here is the component that uses getContext:
$lib/contexts/ContextComponent.svelte
<script>
import { getContext } from 'svelte';
const userDetails = getContext('user-details');
</script>
<div>
<div>
<strong>User Name:</strong>
{userDetails.username}
</div>
<div>
<strong>User Login Status:</strong>
{userDetails.islogin}
</div>
</div>We can create a parent component that does setContext to test the Context API. We use svelte-fragment-component, which provides some useful component lifecycle properties and a context property. In combination with svelte-htm the example could be written as:
// $lib/contexts/ContextComponent.test.ts
import { render, screen } from '@testing-library/svelte';
import html from 'svelte-htm';
import Fragment from 'svelte-fragment-component';
import ContextComponent from './ContextComponent.svelte';
it('Test Context API', () => {
const userDetails = { username: 'abc@example.com', islogin: 'yes' };
render(html`
<${Fragment} context=${{ 'user-details': userDetails }}>
<${ContextComponent}/>
</$>
`);
expect(screen.getByText('abc@example.com')).toBeInTheDocument();
expect(screen.getByText('yes')).toBeInTheDocument();
});Sometimes your component needs to interact with SvelteKit modules like $app/stores or $app/navigation:
<script lang="ts">
import { page } from '$app/stores';
import logo from './svelte-logo.svg';
</script>
<header>
<nav>
<svg viewBox="0 0 2 3" aria-hidden="true">
<path d="M0,0 L1,2 C1.5,3 1.5,3 2,3 L2,0 Z" />
</svg>
<ul>
<li class:active={$page.url.pathname === '/'}>
<a data-sveltekit-preload-data href="/">Home</a>
</li>
<li class:active={$page.url.pathname === '/about'}>
<a data-sveltekit-preload-data href="/about">About</a>
</li>
</ul>
</nav>
</header>And a test might look like this:
import { render, screen } from '@testing-library/svelte';
import Header from './Header.svelte';
it('Render About page', () => {
render(Header);
const home = screen.getByText('Home');
expect(home).toBeInTheDocument();
const about = screen.getByText('About');
expect(about).toBeInTheDocument();
});To pass our test, we need to mock the SvelteKit runtime modules. (Please check the setupTest.ts section.)
Sometimes you may want to load some data when a component is mounted.
We can use msw - Mock Service Worker. It will let you mock REST and GraphQL network requests, no more stubbing of fetch, axios, ...etc.
First, install msw:
npm install -D msw
Create a folder src/mocks and three files in it:
// src/mocks/handlers.ts
import { rest } from 'msw'
// Define handlers that catch the corresponding requests and return the mock data.
// Will add handler later
export const handlers = []// src/mocks/server.ts
import { setupServer } from 'msw/node';
import { handlers } from './handlers';
// This configures a Service Worker with the given request handlers.
export const server = setupServer(...handlers);// src/mocks/setup.ts
import { server } from './server';
beforeAll(() => server.listen({ onUnhandledRequest: 'error' }));
afterAll(() => server.close());
afterEach(() => server.resetHandlers());We also need to update our vite.config.ts:
- setupFiles: ['setupTest.ts'],
+ setupFiles: ['setupTest.ts', 'src/mocks/setup.ts'],
coverage: {
- exclude: ['setupTest.ts']
+ exclude: ['setupTest.ts', 'src/mocks']
},
deps: {
- inline: []
+ inline: [/msw/]
}Here is a component that will fetch posts from an external endpoint:
$lib/data-fetching/ExternalFetch.svelte
<script lang="ts">
import axios from 'axios';
interface Post {
userId: number;
id: number;
title: string;
body: string;
}
async function getRandomPost(): Promise<Post[]> {
const { status, data } = await axios(`https://jsonplaceholder.typicode.com/posts`);
if (status === 200) {
return data;
} else {
throw new Error(data);
}
}
</script>
{#await getRandomPost()}
<p>...waiting</p>
{:then posts}
{#each posts as { id, userId, title, body }}
<p>Post ID: {id}</p>
<p>User ID: {userId}</p>
<p>The title is {title}</p>
<p>{body}</p>
{/each}
{:catch error}
<p style="color: red">{error.message}</p>
{/await}I use
axioshere because there is an issue ofmsw: Unable to intercept requests on Node 18 #1388
To intercept the request during testing, we'll update src/mocks/handlers.ts like this:
// src/mocks/handlers.ts
import { rest } from 'msw';
// Mock Data
const posts = [
{
userId: 1,
id: 1,
title: 'first post title',
body: 'first post body'
},
{
userId: 2,
id: 5,
title: 'second post title',
body: 'second post body'
},
{
userId: 3,
id: 6,
title: 'third post title',
body: 'third post body'
}
];
// Define handlers that catch the corresponding requests and return the mock data.
export const handlers = [
rest.get('https://jsonplaceholder.typicode.com/posts', (req, res, ctx) => {
return res(ctx.status(200), ctx.json(posts))
})
];Here is the test file:
import { render, screen } from '@testing-library/svelte';
import ExternalFetch from './ExternalFetch.svelte';
it('render ExternalFetch', async () => {
render(ExternalFetch);
// Initial component state
expect(screen.getByText('...waiting')).toBeInTheDocument();
// Use await screen.find* instead of the await tick() or act()
expect(await screen.findByText('first post body')).toBeInTheDocument();
});Please check Common mistakes with React Testing Library #Using waitFor to wait for elements that can be queried with find* for the reason of using
await screen.find*