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Contributing

We welcome all types of contribution.

Need a feature or found a bug? Please create an issue.

Have a question or suggestion? Please create a discussion.

If you're only contributing changes to the iTwinUI documentation website, you can ignore this guide, as it's geared towards technical contributions to component code.

Want to contribute code changes to components? Great! Fork iTwinUI to get started.


How to setup

Using GitHub Codespaces (cloud IDE)

To get started without having to install anything locally, you can create a codespace for this repository by clicking this link:

Open in GitHub Codespaces

Local setup

To clone and build iTwinUI, you'll need Git, Node 18+, and Pnpm 9 installed on your computer.

  1. Create a local clone of your forked repository. You can do this from the command line or using the Github Desktop app.
  2. Go to the directory where you cloned iTwinUI. e.g. cd iTwinUI.
  3. Run pnpm install from that directory.

VSCode Users: Install the recommended plugins for linter warnings in editor.


Commands

To build

pnpm build

To open development servers

pnpm dev

To run all tests

pnpm test

Before running this command, make sure Docker is running. See Visual testing (CSS and React) sections below for more details.

To approve all test image changes

pnpm approve (more info)

To run all tests for a specific component

pnpm test [component-name] e.g. pnpm test Alert

Please note this command is case sensitive. e.g. Alert, not alert.

To lint and fix autofixable errors

pnpm lint

To run commands using VSCode Tasks

Commands available in this repo can be run using VSCode Tasks which can be used in two ways:

  • Run task from VSCode Search Bar: you can access the tasks using the top search bar (or press Ctrl + Shift + P) then search for Run task. A list of tasks should be displayed with the most recent used tasks on top, followed by the rest of available tasks.
  • Tasks VSCode Extension: otherwise, you can install the Tasks extension so that all available tasks appear in the bottom taskbar.

Developing

Monorepo overview

We use Turborepo as our monorepo tool to improve the experience of pnpm workspaces. It allows running commands in parallel and caches build outputs.

The root package.json includes a few commands that use turbo run to run the corresponding command in all workspaces.

e.g. to build all workspaces together, run the following command from the root:

pnpm build

If you only need to run this task for a specific workspace, you can specify turborepo's --filter argument. For example, if you only want to build itwinui-react, you could run pnpm run build --filter=itwinui-react. Note that this will automatically run build for any dependencies (e.g. itwinui-css and itwinui-variables). You can see the pipeline in the turbo.json file.

Development environment

To start the development server for all workspaces, run the following command from the root.

pnpm dev

This will automatically build anything that's not already built, and run the dev script for every workspace in parallel, watching for file changes.

By default, a portal will be opened containing links to all the different dev servers:

  • docs website: http://localhost:1700
  • vite playground: http://localhost:1701
  • next playground: http://localhost:1702
  • astro playground: http://localhost:1703
  • react workshop (stories): http://localhost:6006
  • css workshop (html pages): http://localhost:3050

Running bespoke commands

If a script is not available in the root package.json or if you need to pass workspace-specific cli args, then you can specify the workspace as follows:

# passing Alert as a cli arg to the `test` command in itwinui-react
pnpm --filter=@itwin/itwinui-react run test Alert

...or you can simply run the command normally from inside the workspace folder instead of the monorepo root.

# run this from inside packages/itwinui-react/ for the same result
pnpm test Alert

Note that this bypasses the turborepo pipeline, so you will need to manually run any dependent tasks first. For example, if the build command of react-workshop relies on the build command of @itwin/itwinui-react, then you will need to manually run the build commands in the right order.

pnpm --filter=@itwin/itwinui-react run build
pnpm --filter=react-workshop run build

This is why it's recommended to use the turbo --filter syntax whenever possible.

pnpm run build --filter=react-workshop

Note

The --filter syntax is available in both turbo and pnpm. The usage looks slightly different:

  • turbo: pnpm run [command] --filter=[workspace]
    • e.g. pnpm run build --filter=@itwin/itwinui-react
    • This will also run any dependent tasks defined in the Turbo pipeline, but does not allow args. (See Turborepo docs).
  • pnpm: pnpm --filter=[workspace] run [command] [args]
    • e.g. pnpm --filter=@itwin/itwinui-react run test Alert
    • This will only run the task per-workspace and supports additional args. (See Pnpm docs).

Creating components

Before developing, please read our style guide.

If you are creating a new component, use this script:

pnpm createComponent

It ensures all needed imports are added and files are created.

For a component named Alert, the createComponent script will add/modify the following files:

  • packages/itwinui-css/src/alert/alert.scss: framework-agnostic component styles
  • apps/css-workshop/pages/alert.html: html test cases for component css
  • apps/css-workshop/backstop/tests/alert.js: visual test scenarios for html
  • packages/itwinui-react/src/core/Alert/Alert.tsx: react component
  • packages/itwinui-react/src/core/Alert/Alert.test.tsx: unit tests for react component
  • packages/itwinui-react/src/index.ts: barrel file containing all public exports
  • apps/react-workshop/src/Alert.stories.tsx: common demo states and examples ("stories")
  • apps/react-workshop/src/Alert.test.tsx: cypress visual tests for stories
  • apps/website/src/pages/docs/alert.mdx: documentation page for the component
Directory structure
packages/itwinui-css
|
| - src
|   |
|   + - alert
|       + - > alert.scss
|
| - backstop
|   |
|   + - tests
|       + - > alert.html
|
packages/itwinui-react
|
| - src
|   |
|   + - > index.ts
|   |
|   + - core
|       |
|       + - Alert
|       |   + - > Alert.test.tsx
|       |   + - > Alert.tsx
|
apps/react-workshop
|   |
|   + - src
|       |
|       + - > Alert.stories.tsx
|       + - > Alert.test.ts
|
apps/website
|   |
|   + - src
|       |
|       + - pages
|           |
|           + - docs
|               + -> alert.mdx

Importing icons

In packages/itwinui-react:

  • Manually add the <svg> component to utils/icons and utils/icons/index.ts
  • Import it from utils

e.g.

import { SvgClose, SvgInfoCircular } from '../../utils';

Documentation

We use JSDoc (not TSDoc) to write documentation for our code.

Every component should have a multiline description and at least one example.

/**
 * A small box to quickly grab user attention and communicate a brief message.
 * @example
 * <Alert>This is a basic alert.</Alert>
 */
export const Alert = (props: AlertProps) => {
  ...

Examples can be captioned. This is especially helpful when there are multiple examples.

/**
 * Footer element with all needed legal and info links.
 * Be sure to place it manually at the bottom of your page.
 * You can use position 'absolute' with relative body or set the height of the content and place footer at the end.
 * @example <caption>Appending custom element after default elements</caption>
 * <Footer customElements={[{title: 'Bentley', url: 'https://www.bentley.com/'}]} />
 * @example <caption>Returning only custom elements</caption>
 * <Footer customElements={() => newFooterElements)} />
 ...
 */
export const Footer = (props: FooterProps) => {
  ...

Every prop should have a multiline description with relevant informational tags.

export type AlertProps = {
  /**
   * Type of the alert.
   * @default 'informational'
   */
  type?: 'positive' | 'warning' | 'negative' | 'informational';
 /**
   * Action handler for the clickable text.
   * @deprecated `clickableTextProps` should be used instead.
   */
  onClick?: () => void;
  ...

More examples can be found in the style guide.

Unit testing (React)

Each component has a corresponding vitest test inside of its directory. Be sure to cover your added code with tests.

Use pnpm test:unit to run the unit tests. Run pnpm test:unit:watch if you want unit tests to rerun after changes.

We usually do not use describe block and our test case should start with 'should'.

it('should be visible', () => {
  const { getByText } = render(
    <Tooltip parentId='container' content='some text' isVisible>
      <div>Visible!</div>
    </Tooltip>,
  );

  getByText('some text');
});

Visual testing (CSS)

We reuse our html test pages for visual tests by taking screenshots of parts of the page using BackstopJS.

How to run tests:

For running tests you will need Docker. It helps to avoid cross-platform rendering differences.

  • Make sure Docker is running.
  • To run tests for a specific component, use this command: pnpm --filter=css-workshop run test --filter=[component_name] (e.g. pnpm --filter=css-workshop run test --filter=side-navigation). But don't forget to build css-workshop first (pnpm build --filter=css-workshop).
  • To approve test images, run pnpm approve:css.

How to write tests:

  • Write the html in apps/css-workshop/backstop/tests/[component-name].html displaying the elements you wish to test and their all possible states.

  • Write the test cases in backstop/tests/[component-name].js and ensure it exports scenarios list (see backstop/tests/alert.js for example).

    • Use scenario function from scenarioHelper.js to create a scenario where the first argument is test case name and the second one is options.
      const { scenario } = require('./~scenarioHelper.cjs');
      module.exports = [scenario('basic')];
    • For actions like click, hover use according functions from scenarioHelper.js and pass them as scenario options actions property.
      const { scenario, hover } = require('./~scenarioHelper.cjs');
      module.exports = [
        scenario('hover', { actions: [hover('.element-selector')] }),
      ];
    • If you want to select only specific part of the test elements, pass selectors property to the options.
      const { scenario } = require('./~scenarioHelper.cjs');
      module.exports = [
        scenario('selected part', { selectors: ['.selected-part-selector'] }),
      ];
    • If you want to hide some elements because they might be moving e.g. spinner, pass hideSelectors property to the options.
      const { scenario } = require('./~scenarioHelper.cjs');
      module.exports = [
        scenario('hide part', { hideSelectors: ['.hide-selector'] }),
      ];
    • More information about options can be found in BackstopJS GitHub.

Visual testing (React)

We reuse our stories for visual tests by taking screenshots of the story iframes in Cypress.

Running visual tests

  1. Make sure you have Docker installed and running.
  2. From the monorepo root, run pnpm run test --filter=react-workshop or pnpm test:react. This will build react-workshop and run all cypress tests in docker.
    • If you only need to run tests for a specific component, you can do so by passing the --spec argument to cypress. e.g. for testing Alert, you can run pnpm test:react --spec="**/Alert.*".
  3. Once the tests finish running, you can approve any failing test images using pnpm approve:react.

Writing visual tests

Inside the apps/react-workshop workspace, the src/ directory has a set of -.stories.tsx files, each of which is accompanied by a -.test.ts file. Here's what a typical test file should look like:

describe('Alert', () => {
  const storyPath = 'Alert';
  const tests = ['Positive', 'Negative', 'Warning', 'Informational'];

  tests.forEach((testName) => {
    it(testName, () => {
      const id = Cypress.storyId(storyPath, testName);
      cy.visit('/', { qs: { mode: 'preview', story: id } });
      cy.compareSnapshot(testName);
    });
  });
});

Notice how we do all of these things manually:

  • defining the names of all the stories that need to be tested and excluding the ones that don't.
  • specifying the story iframe url using the custom storyId helper.
  • visiting the iframe using cy.visit.
  • taking and comparing the screenshot using cy.compareSnapshot from cypress-image-diff-js.

We have full access to the Cypress API so any additional interactions or custom logic can be easily added.

Visual testing (approval)

After making any desired visual changes, the following commands can be used to update the test image snapshots:

  • pnpm approve (approve in all workspaces)
  • pnpm approve:css (approve in css-workshop only) (more info)
  • pnpm approve:react (approve in react-workshop only) (more info)

Accessibility testing

We use an automated script to evaluate each component example for accessibility violations using cypress-axe. The setup for this can be found in the a11y workspace, and the component examples can be found in the examples workspace.

Running accessibility tests

In the terminal:

  • Run pnpm run test --filter=a11y or pnpm test:a11y to run automated accessibility tests for all examples.

In the Cypress GUI:

  1. From the monorepo root, run pnpm --filter=a11y run open. This will open the Cypress control panel where you can run the tests.
  2. Choose a browser to evaluate your tests through, then press the Start Component Testing in [YourBrowser] button below.
  3. Select Component.cy.tsx to run the script that tests all of the component examples.
Your results

In the terminal, a table will be produced for each violating component with the Axe rule ID being violated and its description.

In Cypress, if the component violates a Axe rule, its rule ID and the number of offending nodes will be output in a line in the testing window. You can click on the line to highlight the offending nodes in the test browser and to output more information in the browser console.

For more information on the Axe rule IDs and their meanings, visit Deque University's list of Axe rules.

E2E testing

The testing/e2e workspace facilitates testing of complex scenarios in a real browser. This is achieved by running Playwright tests against a Remix app.

  • To run tests, use pnpm run test --filter=e2e or pnpm test:e2e.
  • To write tests, add a new Remix route and a .spec.ts next to it.

For more details on how to write a test, see Playwright docs.


Pull Requests

Before creating a pull request, make sure your changes address a specific issue. Do a search to see if there are any existing issues that are still open. If you don't find one, you can create one.

To enable us to quickly review and accept your pull requests, always create one pull request per issue. Never merge multiple requests in one unless they have the same root cause. Be sure to follow best practices and keep code changes as small as possible. Avoid pure formatting changes or random "fixes" that are unrelated to the linked issue.

Checklist

  • Component added or modified using guidelines above.
    • All required files and exports added.
    • Proper inline documentation added.
    • Code follows style guide and has no linting errors (pre-commit hook will run linter).
  • Tests added for all new code.
    • All existing and new tests should pass.
  • Stories added to demonstrate new features.
  • Added changeset using pnpm changeset, if changes are user-facing.

Verify that your changes are ready, then create a pull request from your fork. Make sure your pull request has a proper description and a linked issue.

Your pull request will be reviewed by one or more maintainers who might leave some comments/suggestions to help improve the quality and consistency of your code. Once approved, your changes will be accepted into the repository.