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@open-wc/testing-helpers
Advanced tools
Part of Open Web Components
Open Web Components provides a set of defaults, recommendations and tools to help facilitate your web component project. Our recommendations include: developing, linting, testing, building, tooling, demoing, publishing and automating.
A library with helpers functions for testing in the browser.
::: warning
Testing helpers uses lit-html, but it's set up as a peer dependency to avoid version conflicts.
You don't need to write your components with lit-html to use this library, but you will need to install it:
npm i -D lit-html
:::
We recommend using this library through @open-wc/testing which preconfigures and combines this library with other testing libraries.
The examples that are shown here assume this setup, and import from @open-wc/testing
. If you want to use this library standalone, you will need to import from @open-wc/testing-helpers
directly instead:
// import from general testing library
import { fixture } from '@open-wc/testing';
// import from testing-helpers directly
import { fixture } from '@open-wc/testing-helpers';
A test fixture renders a piece of HTML and injects into the DOM so that you can test the behavior of your component. It returns the first dom element from the template so that you can interact with it if needed. For example you can call functions, look up dom nodes or inspect the rendered HTML.
Test fixtures are async to ensure rendering is properly completed.
Test fixtures can be set up by using a string or a lit-html template. You don't need to use lit-html
in your project to use the test fixtures, it just renders standard HTML.
import { fixture } from '@open-wc/testing';
it('can instantiate an element', async () => {
const el = await fixture('<my-el foo="bar"></my-el>');
expect(el.getAttribute('foo')).to.equal('bar');
}
import { html, fixture } from '@open-wc/testing';
it('can instantiate an element with properties', async () => {
const el = await fixture(
html`
<my-el .foo=${'bar'}></my-el>
`,
);
expect(el.foo).to.equal('bar');
});
If you're testing a mixin, or have multiple base classes that offer a various set of options you might find yourself in the situation of needing multiple custom element names in your tests. This can be dangerous as custom elements are global, so you don't want to have overlapping names in your tests. We recommend using the defineCE
function to avoid that:
import { fixture, defineCE } from '@open-wc/testing';
const tag = defineCE(
class extends MyMixin(HTMLElement) {
constructor() {
super();
this.foo = true;
}
},
);
const el = await fixture(`<${tag}></${tag}>`);
expect(el.foo).to.be.true;
For lit-html it's a little tougher as it does not support dynamic tag names by default. This uses a workaround that's not performant for rerenders, which is fine for testing, but do NOT use this in production code.
import { html, fixture, defineCE, unsafeStatic } from '@open-wc/testing';
const tagName = defineCE(
class extends MyMixin(HTMLElement) {
constructor() {
super();
this.foo = true;
}
},
);
const tag = unsafeStatic(tagName);
const el = await fixture(html`<${tag} .bar=${'baz'}></${tag}>`);
expect(el.bar).to.equal('baz');
By default fixture awaits the elements "update complete" Promise.
el.updateComplete
;el.componentOnReady()
;If none of those specfic Promise hooks are found, it will wait for one frame via await nextFrame()
.
Note: this does not guarantee that the element is done rendering - it just waits for the next JavaScript tick.
Essentially, fixture
creates a synchronous fixture, then waits for the element to finish updating, checking updateComplete
first, then falling back to componentReady()
, and nextFrame()
as a last resort.
This way, you can write your tests more succinctly, without having to explicitly await
those hooks yourself.
const el = await fixture(
html`
<my-el .foo=${'bar'}></my-el>
`,
);
expect(el.foo).to.equal('bar');
// vs
const el = fixtureSync(
html`
<my-el .foo=${'bar'}></my-el>
`,
);
await elementUpdated(el);
expect(el.foo).to.equal('bar');
Uses requestAnimationFrame
to wait for the next frame.
await nextFrame();
Waits for x
ms via setTimeout
;
await aTimeout(10); // would wait 10ms
Waits until the given condition returns true. This is useful when elements do async work.
waitUntil
can slow down the execution of tests, it should only be used when you don't have any other more reliable hooks.
import { fixture, waitUntil } from '@open-wc/testing-helpers';
const element = await fixture(
html`
<my-element></my-element>
`,
);
// wait until some async property is set
await waitUntil(() => element.someAsyncProperty, 'Element did not become ready');
// wait until some child element is rendered
await waitUntil(
() => element.shadowRoot.querySelector('my-child-element'),
'Element did not render children',
);
waitUntil
has a default timeout of 2000ms and a polling interval of 50ms. This can be customized:
await waitUntil(predicate, 'Element should become visible', { interval: 10, timeout: 10000 });
The predicate can return a promise.
If you want to test attribute and property changes, and an easy way to wait for those changes to propagate, you can import the elementUpdated
helper (also available directly in the testing
package)
import { fixture, elementUpdated } from '@open-wc/testing';
import '../my-component.js';
describe('Attributes', () => {
describe('.title', () => {
//...
it('is bound to the `title` attribute', async () => {
const el = await fixture('<my-component title="test"></my-component>');
expect(el.title).to.eq('test');
el.title = 'test 2';
await elementUpdated(el);
expect(el).dom.to.equal(`<my-component title="test 2"></my-component>`);
});
//...
});
});
If you want to interact with web components you will sometimes need to await a specific event before you can continue testing.
Ordinarily, you might pass the done
callback to a test, and call it in the body of an event handler.
This does not work with async test functions, though, which must return a promise instead of calling the done
callback.
The oneEvent
function helps you handle events in the context of the kinds of async test functions that we recommend.
oneEvent
resolves with the event specified when it fires on the element specified.
import { oneEvent } from '@open-wc/testing';
class FiresDone extends HTMLElement {
fireDone() {
this.done = true;
this.dispatchEvent(new CustomEvent('done', { detail: this.done }));
}
}
it('can await an event', async () => {
const tag = defineCE(FiresDone);
const el = await fixture(`<${tag}></${tag}>`);
setTimeout(() => el.fireDone());
const { detail } = await oneEvent(el, 'done');
expect(el.done).to.be.true;
expect(detail).to.be.true;
});
Focus and blur events are synchronous events in all browsers except IE11.
If you need to support that browser in your tests, you can await triggerFocusFor
and triggerBlurFor
helper functions.
import { triggerFocusFor, triggerBlurFor } from '@open-wc/testing';
it('can be focused and blured', async () => {
const el = await fixture('<input type="text">');
await triggerFocusFor(el);
expect(document.activeElement === el).to.be.true;
await triggerBlurFor(el);
expect(document.activeElement === el).to.be.false;
});
By default, if you import anything via import { ... } from '@open-wc/testing';
, it will automatically register a side-effect that cleans up your fixtures.
If you want to be in full control you can do so by using
import { fixture, fixtureCleanup } from '@open-wc/testing-helpers/index-no-side-effects.js';
it('can instantiate an element with properties', async () => {
const el = await fixture(html`<my-el .foo=${'bar'}></my-el>`);
expect(el.foo).to.equal('bar');
fixtureCleanup();
}
// Alternatively, you can add the fixtureCleanup in the afterEach function, but note that this is exactly what the automatically registered side-effect does.
afterEach(() => {
fixtureCleanup();
});
FAQs
Testing Helpers following open-wc recommendations
The npm package @open-wc/testing-helpers receives a total of 10,322 weekly downloads. As such, @open-wc/testing-helpers popularity was classified as popular.
We found that @open-wc/testing-helpers demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 4 open source maintainers collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
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