Integrations - React
FoundationUI can be used in React applications. Let's take a look at how you can set up a project, starting from scratch.
Setting up the React project
First, you'll need to make sure that you have Node.js >= 8.2 and npm >= 5.6 installed. You can learn more and download that on the official site.
With Node.js installed, you can use create-react-app to create a new React project.
npx create-react-app alpha-app
Configuring packages
Next, we'll install the Genesis Foundation packages, along with supporting libraries. To do that, run this command from your new project folder:
npm install --save @genesislcap/foundation-ui @genesislcap/alpha-design-system lodash-es
Configure create-react-app
create-react-app ships with an eslint rule that makes working with Genesis Foundation components difficult. There are two changes that will need to be made in the package.json
:
Set the EXTEND_ESLINT environment variable in start, build, and test scripts
{
//...
"scripts": {
"start": "EXTEND_ESLINT=true react-scripts start",
"build": "EXTEND_ESLINT=true react-scripts build",
"test": "EXTEND_ESLINT=true react-scripts test",
}
// ...
}
Override the eslintConfig
field to turn off the 'no-unused-expressions' rule
{
//..
"eslintConfig": {
"extends": "react-app",
"rules": {
"no-unused-expressions": "off"
}
},
//..
}
See configuring eslint for more information.
Using the components
With all the basic pieces in place, let's run our app in dev mode with npm start
. Right now, it displays the React logo and some editing instructions, since we haven't added any code or interesting HTML. Let's change that.
First, open your src/app.js
file and add the following code:
import CodeBlock from '@theme/CodeBlock'; import Example from '!!raw-loader!/examples/ui/alphaImports';
This code uses the Genesis Foundation Design System to register the <alpha-card>
and <alpha-button>
components. Once you save, the dev server will rebuild and refresh your browser. However, you still won't see anything. To get some UI showing up, we need to write some HTML that uses our components. Replace the App component in your src/app.js
file with the following:
function App() {
return (
<alpha-card>
<h2>Genesis Foundation React</h2>
<alpha-button appearance="accent" onClick={() => console.log("clicked")}>Click Me</alpha-button>
</alpha-card>
);
}
To add a splash of style, add the following to the src/App.css
:
alpha-card {
padding: 16px;
display: flex;
flex-direction: column;
}
h2 {
font-size: var(--type-ramp-plus-5-font-size);
line-height: var(--type-ramp-plus-5-line-height);
}
alpha-card > alpha-button {
align-self: flex-end;
}
Congratulations! You're now set up to use Genesis Foundation and React!
Additional notes
create-react-app
Genesis Foundation makes use of decorators to define components. At this time, create-react-app
does not support decorators. This won't be a problem when using components imported from Genesis Foundation because they have already been transpiled by TypeScript - but to create components in a create-react-app
application you'll need to do one of the following:
- Define components without decorators (described below)
- Eject
create-react-app
and change Babel to support decorators - Use an intermediary like react-app-rewired
Working without decorators
Decorators are an upcoming feature planned for a future version of JavaScript, but their design is not yet finished. While the syntax for decorator usage is not likely to change in the final version of the feature, some of our community members may feel uncomfortable using this feature at this stage. Additionally, since decorators are transpiled into code that uses helper functions (both in TypeScript and Babel) the compiled output will be larger than the equivalent non-decorator code.
While there are size implications of using decorators prior to full language support, they do present the most declarative and readable form of the API, and we recommend their use for the average project. To strike a balance between declarative readability and size, we recommend that TypeScript be used in combination with the "importHelpers": true
compiler option. When this option is set, instead of generating helper functions for decorators into every file, TypeScript will import a set of shared helpers published in the tslib
package.
For those who require the smallest possible builds, FAST Elements can be completely defined in Vanilla JS, without using decorators; to do this, use a static definition
field on your class. The definition
field only needs to present the same configuration as the @customElement
decorator.
Here's an example that shows the use of the definition
field along with a manual call to define
the element:
import { FoundationElement, html, css } from '@genesislcap/foundation-ui';
const template = html`...`;
const styles = css`...`;
const converter = { ... };
export class MyElement extends FoundationElement {
static definition = {
name: 'my-element',
template,
styles,
attributes: [
'value', // same attr/prop
{ attribute: 'some-attr', property: 'someAttr' }, // different attr/prop
{ property: 'count', converter } // derive attr; add converter
]
};
value = '';
someAttr = '';
count = 0;
}
GenesisElement.define(MyElement);
The definition
can also be separated from the class and passed into the define
call directly if desired. Here's what that would look like: FASTElement.define(MyElement, myDefinition);
Data binding
HTML attributes
React is capable of rendering custom HTML elements and binding data to them, but it is beneficial to understand how React does this.
React will apply all props to a custom HTML element as HTML attributes - including non-primitive types such as arrays and objects. Where some UI libraries provide binding syntaxes to distinguish setting properties, attributes, and events, React does not. This means that it can be very easy to end up with my-prop="[object Object]"
in your HTML. React is exploring solutions to this issue. See the section on interop layers for a work-around for this issue.
Custom events
React's synthetic eventing system comes with an unfortunate side-effect of being incapable of declaratively applying CustomEvent
listeners. interop layers can be used to address this issue. Alternatively, a ref
can be used on the custom element to imperatively apply the event listener to the HTML element directly.
Interop layers: @skatejs/val and reactify-wc
@skatejs/val is a small library that wraps React's createElement
function and provides the ability direct React props explicitly to HTML attributes, DOM properties, or to declarative event listeners.
Another good option is reactify-wc. It provides similar capabilities as @skatejs/val
, but does so by creating component wrappers.
TypeScript and TSX support
If you're using TypeScript, you'll need to augment the JSX.IntrinsicElements
interface to use custom elements in TSX. To do so, create a custom-elements.d.ts
file in your source directory and add the following:
// custom-elements.d.ts
declare namespace JSX {
interface IntrinsicElements {
/**
* React.DetailedHTMLProps<React.HTMLAttributes<HTMLElement>, HTMLElement> allows setting standard HTML attributes on the element
*/
"my-element": React.DetailedHTMLProps<React.HTMLAttributes<HTMLElement>, HTMLElement> & {
"my-attribute-name": string;
};
}
}