1
1
mirror of https://github.com/namibia/awesome-cheatsheets.git synced 2024-12-24 02:55:26 +00:00
awesome-cheatsheets/frontend/react.js
2018-03-21 18:00:50 -04:00

340 lines
16 KiB
JavaScript
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/* *******************************************************************************************
* REACT.JS CHEATSHEET
* DOCUMENTATION: https://reactjs.org/docs/
* FILE STRUCTURE: https://reactjs.org/docs/faq-structure.html
* ******************************************************************************************* */
```
npm install --save react // declarative and flexible JavaScript library for building UI
npm install --save react-dom // serves as the entry point of the DOM-related rendering paths
npm install --save prop-types // runtime type checking for React props and similar objects
```
// notes: don't forget the command lines
/* *******************************************************************************************
* REACT
* https://reactjs.org/docs/react-api.html
* ******************************************************************************************* */
// Create and return a new React element of the given type.
// Code written with JSX will be converted to use React.createElement().
// You will not typically invoke React.createElement() directly if you are using JSX.
React.createElement(
type,
[props],
[...children]
)
// Clone and return a new React element using element as the starting point.
// The resulting element will have the original elements props with the new props merged in shallowly.
React.cloneElement(
element,
[props],
[...children]
)
// Verifies the object is a React element. Returns true or false.
React.isValidElement(object)
React.Children // provides utilities for dealing with the this.props.children opaque data structure.
// Invokes a function on every immediate child contained within children with this set to thisArg.
React.Children.map(children, function[(thisArg)])
// Like React.Children.map() but does not return an array.
React.Children.forEach(children, function[(thisArg)])
// Returns the total number of components in children,
// equal to the number of times that a callback passed to map or forEach would be invoked.
React.Children.count(children)
// Verifies that children has only one child (a React element) and returns it.
// Otherwise this method throws an error.
React.Children.only(children)
// Returns the children opaque data structure as a flat array with keys assigned to each child.
// Useful if you want to manipulate collections of children in your render methods,
// especially if you want to reorder or slice this.props.children before passing it down.
React.Children.toArray(children)
// The React.Fragment component lets you return multiple elements in a render() method without creating an additional DOM element
// You can also use it with the shorthand <></> syntax.
React.Fragment
/* *******************************************************************************************
* REACT.COMPONENT
* React.Component is an abstract base class, so it rarely makes sense to refer to React.Component
* directly. Instead, you will typically subclass it, and define at least a render() method.
* https://reactjs.org/docs/react-component.html
* ******************************************************************************************* */
class Component extends React.Component {
// Will be called before it is mounted
constructor(props) {
// Call this method before any other statement
// or this.props will be undefined in the constructor
super(props);
// The constructor is also often used to bind event handlers to the class instance.
// Binding makes sure the method has access to component attributes like this.props and this.state
this.method = this.method.bind(this);
// The constructor is the right place to initialize state.
this.state = {
active: true,
// In rare cases, its okay to initialize state based on props.
// This effectively “forks” the props and sets the state with the initial props.
// If you “fork” props by using them for state, you might also want to implement componentWillReceiveProps(nextProps)
// to keep the state up-to-date with them. But lifting state up is often easier and less bug-prone.
color: props.initialColor
};
}
// Enqueues changes to the component state and
// tells React that this component and its children need to be re-rendered with the updated state.
// setState() does not always immediately update the component. It may batch or defer the update until later.
// This makes reading this.state right after calling setState() a potential pitfall.
// Instead, use componentDidUpdate or a setState callback.
// You may optionally pass an object as the first argument to setState() instead of a function.
setState(updater[, callback]) { }
// Invoked just before mounting occurs (before render())
// This is the only lifecycle hook called on server rendering.
componentWillMount() { }
// Invoked immediately after a component is mounted.
// Initialization that requires DOM nodes should go here.
// If you need to load data from a remote endpoint, this is a good place to instantiate the network request.
// This method is a good place to set up any subscriptions. If you do that, dont forget to unsubscribe in componentWillUnmount().
componentDidMount() { }
// Invoked before a mounted component receives new props.
// If you need to update the state in response to prop changes (for example, to reset it),
// you may compare this.props and nextProps and perform state transitions using this.setState() in this method.
componentWillReceiveProps(nextProps) { }
// Let React know if a components output is not affected by the current change in state or props.
// The default behavior is to re-render on every state change, and in the vast majority of cases you should rely on the default behavior.
// shouldComponentUpdate() is invoked before rendering when new props or state are being received. Defaults to true.
// This method is not called for the initial render or when forceUpdate() is used.
// Returning false does not prevent child components from re-rendering when their state changes.
shouldComponentUpdate(nextProps, nextState) { }
// Invoked just before rendering when new props or state are being received.
// Use this as an opportunity to perform preparation before an update occurs. This method is not called for the initial render.
// Note that you cannot call this.setState() here; nor should you do anything else
// (e.g. dispatch a Redux action) that would trigger an update to a React component before componentWillUpdate() returns.
// If you need to update state in response to props changes, use componentWillReceiveProps() instead.
componentWillUpdate(nextProps, nextState) { }
// Invoked immediately after updating occurs. This method is not called for the initial render.
// Use this as an opportunity to operate on the DOM when the component has been updated.
// This is also a good place to do network requests as long as you compare the current props to previous props (e.g. a network request may not be necessary if the props have not changed).
componentDidUpdate(prevProps, prevState) { }
// Invoked immediately before a component is unmounted and destroyed.
// Perform any necessary cleanup in this method, such as invalidating timers, canceling network requests,
// or cleaning up any subscriptions that were created in componentDidMount().
componentWillUnmount() { }
// Error boundaries are React components that catch JavaScript errors anywhere in their child component tree,
// log those errors, and display a fallback UI instead of the component tree that crashed.
// Error boundaries catch errors during rendering, in lifecycle methods, and in constructors of the whole tree below them.
componentDidCatch() { }
// This method is required.
// It should be pure, meaning that it does not modify component state,
// it returns the same result each time its invoked, and
// it does not directly interact with the browser (use lifecycle methods for this)
// It must return one of the following types: react elements, string and numbers, portals, null or booleans.
render() {
// Contains the props that were defined by the caller of this component.
console.log(this.props);
// Contains data specific to this component that may change over time.
// The state is user-defined, and it should be a plain JavaScript object.
// If you dont use it in render(), it shouldnt be in the state.
// For example, you can put timer IDs directly on the instance.
// Never mutate this.state directly, as calling setState() afterwards may replace the mutation you made.
// Treat this.state as if it were immutable.
console.log(this.state);
return (
<div>
{/* Comment goes here */}
Hello, {this.props.name}!
</div>
);
}
}
// Can be defined as a property on the component class itself, to set the default props for the class.
// This is used for undefined props, but not for null props.
Component.defaultProps = {
color: 'blue'
};
component = new Component();
// By default, when your components state or props change, your component will re-render.
// If your render() method depends on some other data, you can tell React that the component needs re-rendering by calling forceUpdate().
// Normally you should try to avoid all uses of forceUpdate() and only read from this.props and this.state in render().
component.forceUpdate(callback)
/* *******************************************************************************************
* REACT.DOM
* The react-dom package provides DOM-specific methods that can be used at the top level of
* your app and as an escape hatch to get outside of the React model if you need to.
* Most of your components should not need to use this module.
* https://reactjs.org/docs/react-dom.html
* ******************************************************************************************* */
// Render a React element into the DOM in the supplied container and return a reference
// to the component (or returns null for stateless components).
ReactDOM.render(element, container[, callback])
// Same as render(), but is used to hydrate a container whose HTML contents were rendered
// by ReactDOMServer. React will attempt to attach event listeners to the existing markup.
ReactDOM.hydrate(element, container[, callback])
// Remove a mounted React component from the DOM and clean up its event handlers and state.
// If no component was mounted in the container, calling this function does nothing.
// Returns true if a component was unmounted and false if there was no component to unmount.
ReactDOM.unmountComponentAtNode(container)
// If this component has been mounted into the DOM, this returns the corresponding native browser
// DOM element. This method is useful for reading values out of the DOM, such as form field values
// and performing DOM measurements. In most cases, you can attach a ref to the DOM node and avoid
// using findDOMNode at all.
ReactDOM.findDOMNode(component)
// Creates a portal. Portals provide a way to render children into a DOM node that exists outside
// the hierarchy of the DOM component.
ReactDOM.createPortal(child, container)
/* *******************************************************************************************
* REACTDOMSERVER
* The ReactDOMServer object enables you to render components to static markup.
* https://reactjs.org/docs/react-dom.html
* ******************************************************************************************* */
// Render a React element to its initial HTML. React will return an HTML string.
// You can use this method to generate HTML on the server and send the markup down on the initial
// request for faster page loads and to allow search engines to crawl your pages for SEO purposes.
ReactDOMServer.renderToString(element)
// Similar to renderToString, except this doesnt create extra DOM attributes that React uses
// internally, such as data-reactroot. This is useful if you want to use React as a simple static
// page generator, as stripping away the extra attributes can save some bytes.
ReactDOMServer.renderToStaticMarkup(element)
// Render a React element to its initial HTML. Returns a Readable stream that outputs an HTML string.
// The HTML output by this stream is exactly equal to what ReactDOMServer.renderToString would return.
// You can use this method to generate HTML on the server and send the markup down on the initial
// request for faster page loads and to allow search engines to crawl your pages for SEO purposes.
ReactDOMServer.renderToNodeStream(element)
// Similar to renderToNodeStream, except this doesnt create extra DOM attributes that React uses
// internally, such as data-reactroot. This is useful if you want to use React as a simple static
// page generator, as stripping away the extra attributes can save some bytes.
ReactDOMServer.renderToStaticNodeStream(element)
/* *******************************************************************************************
* TYPECHECKING WITH PROPTYPES
* https://reactjs.org/docs/typechecking-with-proptypes.html
* ******************************************************************************************* */
import PropTypes from 'prop-types';
MyComponent.propTypes = {
// You can declare that a prop is a specific JS type. By default, these
// are all optional.
optionalArray: PropTypes.array,
optionalBool: PropTypes.bool,
optionalFunc: PropTypes.func,
optionalNumber: PropTypes.number,
optionalObject: PropTypes.object,
optionalString: PropTypes.string,
optionalSymbol: PropTypes.symbol,
// Anything that can be rendered: numbers, strings, elements or an array
// (or fragment) containing these types.
optionalNode: PropTypes.node,
// A React element.
optionalElement: PropTypes.element,
// You can also declare that a prop is an instance of a class. This uses
// JS's instanceof operator.
optionalMessage: PropTypes.instanceOf(Message),
// You can ensure that your prop is limited to specific values by treating
// it as an enum.
optionalEnum: PropTypes.oneOf(['News', 'Photos']),
// An object that could be one of many types
optionalUnion: PropTypes.oneOfType([
PropTypes.string,
PropTypes.number,
PropTypes.instanceOf(Message)
]),
// An array of a certain type
optionalArrayOf: PropTypes.arrayOf(PropTypes.number),
// An object with property values of a certain type
optionalObjectOf: PropTypes.objectOf(PropTypes.number),
// An object taking on a particular shape
optionalObjectWithShape: PropTypes.shape({
color: PropTypes.string,
fontSize: PropTypes.number
}),
// You can chain any of the above with `isRequired` to make sure a warning
// is shown if the prop isn't provided.
requiredFunc: PropTypes.func.isRequired,
// A value of any data type
requiredAny: PropTypes.any.isRequired,
// You can also specify a custom validator. It should return an Error
// object if the validation fails. Don't `console.warn` or throw, as this
// won't work inside `oneOfType`.
customProp: function(props, propName, componentName) {
if (!/matchme/.test(props[propName])) {
return new Error(
'Invalid prop `' + propName + '` supplied to' +
' `' + componentName + '`. Validation failed.'
);
}
},
// You can also supply a custom validator to `arrayOf` and `objectOf`.
// It should return an Error object if the validation fails. The validator
// will be called for each key in the array or object. The first two
// arguments of the validator are the array or object itself, and the
// current item's key.
customArrayProp: PropTypes.arrayOf(function(propValue, key, componentName, location, propFullName) {
if (!/matchme/.test(propValue[key])) {
return new Error(
'Invalid prop `' + propFullName + '` supplied to' +
' `' + componentName + '`. Validation failed.'
);
}
})
};