> This page assumes you're using [Jest](https://jestjs.io/) as a test runner. If you use a different test runner, you may need to adjust the API, but the overall shape of the solution will likely be the same. Read more details on setting up a testing environment on the [Testing Environments](/docs/testing-environments.html) page.
On this page, we will primarily use function components. However, these testing strategies don't depend on implementation details, and work just as well for class components too.
For each test, we usually want to render our React tree to a DOM element that's attached to `document`. This is important so that it can receive DOM events. When the test ends, we want to "clean up" and unmount the tree from the `document`.
A common way to do it is to use a pair of `beforeEach` and `afterEach` blocks so that they'll always run and isolate the effects of a test to itself:
```jsx
import { unmountComponentAtNode } from "react-dom";
let container = null;
beforeEach(() => {
// setup a DOM element as a render target
container = document.createElement("div");
document.body.appendChild(container);
});
afterEach(() => {
// cleanup on exiting
unmountComponentAtNode(container);
container.remove();
container = null;
});
```
You may use a different pattern, but keep in mind that we want to execute the cleanup _even if a test fails_. Otherwise, tests can become "leaky", and one test can change the behavior of another test. That makes them difficult to debug.
When writing UI tests, tasks like rendering, user events, or data fetching can be considered as "units" of interaction with a user interface. React provides a helper called `act()` that makes sure all updates related to these "units" have been processed and applied to the DOM before you make any assertions:
```js
act(() => {
// render components
});
// make assertions
```
This helps make your tests run closer to what real users would experience when using your application. The rest of these examples use `act()` to make these guarantees.
You might find using `act()` directly a bit too verbose. To avoid some of the boilerplate, you could use a library like [React Testing Library](https://testing-library.com/react), whose helpers are wrapped with `act()`.
> Note:
>
> The name `act` comes from the [Arrange-Act-Assert](http://wiki.c2.com/?ArrangeActAssert) pattern.
Commonly, you might want to test whether a component renders correctly for given props. Consider a simple component that renders a message based on a prop:
```jsx
// hello.js
import React from "react";
export default function Hello(props) {
if (props.name) {
return <h1>Hello, {props.name}!</h1>;
} else {
return <span>Hey, stranger</span>;
}
}
```
We can write a test for this component:
```jsx{24-27}
// hello.test.js
import React from "react";
import { render, unmountComponentAtNode } from "react-dom";
Instead of calling real APIs in all your tests, you can mock requests with dummy data. Mocking data fetching with "fake" data prevents flaky tests due to an unavailable backend, and makes them run faster. Note: you may still want to run a subset of tests using an ["end-to-end"](/docs/testing-environments.html#end-to-end-tests-aka-e2e-tests) framework that tells whether the whole app is working together.
```jsx
// user.js
import React, { useState, useEffect } from "react";
export default function User(props) {
const [user, setUser] = useState(null);
async function fetchUserData(id) {
const response = await fetch("/" + id);
setUser(await response.json());
}
useEffect(() => {
fetchUserData(props.id);
}, [props.id]);
if (!user) {
return "loading...";
}
return (
<details>
<summary>{user.name}</summary>
<strong>{user.age}</strong> years old
<br/>
lives in {user.address}
</details>
);
}
```
We can write tests for it:
```jsx{23-33,44-45}
// user.test.js
import React from "react";
import { render, unmountComponentAtNode } from "react-dom";
Some modules might not work well inside a testing environment, or may not be as essential to the test itself. Mocking out these modules with dummy replacements can make it easier to write tests for your own code.
Consider a `Contact` component that embeds a third-party `GoogleMap` component:
```jsx
// map.js
import React from "react";
import { LoadScript, GoogleMap } from "react-google-maps";
Different DOM events and their properties are described in [MDN](https://developer.mozilla.org/en-US/docs/Web/API/MouseEvent). Note that you need to pass `{ bubbles: true }` in each event you create for it to reach the React listener because React automatically delegates events to the document.
Your code might use timer-based functions like `setTimeout` to schedule more work in the future. In this example, a multiple choice panel waits for a selection and advances, timing out if a selection isn't made in 5 seconds:
We can write tests for this component by leveraging [Jest's timer mocks](https://jestjs.io/docs/en/timer-mocks), and testing the different states it can be in.
```jsx{7,31,37,49,59}
// card.test.js
import React from "react";
import { render, unmountComponentAtNode } from "react-dom";
You can use fake timers only in some tests. Above, we enabled them by calling `jest.useFakeTimers()`. The main advantage they provide is that your test doesn't actually have to wait five seconds to execute, and you also didn't need to make the component code more convoluted just for testing.
Frameworks like Jest also let you save "snapshots" of data with [`toMatchSnapshot` / `toMatchInlineSnapshot`](https://jestjs.io/docs/en/snapshot-testing). With these, we can "save" the renderered component output and ensure that a change to it has to be explicitly committed as a change to the snapshot.
In this example, we render a component and format the rendered HTML with the [`pretty`](https://www.npmjs.com/package/pretty) package, before saving it as an inline snapshot:
```jsx{29-31}
// hello.test.js, again
import React from "react";
import { render, unmountComponentAtNode } from "react-dom";
import { act } from "react-dom/test-utils";
import pretty from "pretty";
import Hello from "./hello";
let container = null;
beforeEach(() => {
// setup a DOM element as a render target
container = document.createElement("div");
document.body.appendChild(container);
});
afterEach(() => {
// cleanup on exiting
unmountComponentAtNode(container);
container.remove();
container = null;
});
it("should render a greeting", () => {
act(() => {
render(<Hello/>, container);
});
expect(
pretty(container.innerHTML)
).toMatchInlineSnapshot(); /* ... gets filled automatically by jest ... */
act(() => {
render(<Helloname="Jenny"/>, container);
});
expect(
pretty(container.innerHTML)
).toMatchInlineSnapshot(); /* ... gets filled automatically by jest ... */
act(() => {
render(<Helloname="Margaret"/>, container);
});
expect(
pretty(container.innerHTML)
).toMatchInlineSnapshot(); /* ... gets filled automatically by jest ... */
});
```
It's typically better to make more specific assertions than to use snapshots. These kinds of tests include implementation details so they break easily, and teams can get desensitized to snapshot breakages. Selectively [mocking some child components](#mocking-modules) can help reduce the size of snapshots and keep them readable for the code review.
In rare cases, you may be running a test on a component that uses multiple renderers. For example, you may be running snapshot tests on a component with `react-test-renderer`, that internally uses `ReactDOM.render` inside a child component to render some content. In this scenario, you can wrap updates with `act()`s corresponding to their renderers.
```jsx
import { act as domAct } from "react-dom/test-utils";
import { act as testAct, create } from "react-test-renderer";
If some common scenario is not covered, please let us know on the [issue tracker](https://github.com/reactjs/reactjs.org/issues) for the documentation website.
