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Introduction to PureComponent in React

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不言Original
2018-07-09 16:26:551580browse

This article mainly introduces the introduction of PureComponent in React, which has certain reference value. Now I share it with everyone. Friends in need can refer to it

React avoids repeated rendering

React builds and maintains an inner implementation within the rendered UI, which includes React elements returned from components. This implementation allows React to avoid unnecessary creation and association of DOM nodes, because doing so may be slower than directly manipulating JavaScript objects. It is called a "virtual DOM".

When a component's props or state change, React determines whether it is necessary to update the actual DOM by comparing the newly returned element with the previously rendered element. When they are not equal, React updates the DOM.

In some cases, your component can improve speed by overriding the shouldComponentUpdate lifecycle function, which is triggered before the re-rendering process begins. This function returns true by default, which allows React to perform updates:

shouldComponentUpdate(nextProps, nextState) {
  return true;
}

Example

If you want the component to be only in props.color or state.count## To re-render when the value of # changes, you can set shouldComponentUpdate like this:

class CounterButton extends React.Component {
  constructor(props) {
    super(props);
    this.state = {count: 1};
  }

  shouldComponentUpdate(nextProps, nextState) {
    if (this.props.color !== nextProps.color) {
      return true;
    }
    if (this.state.count !== nextState.count) {
      return true;
    }
    return false;
  }

  render() {
    return (
      <button
        color={this.props.color}
        onClick={() => this.setState(state => ({count: state.count + 1}))}>
        Count: {this.state.count}
      </button>
    );
  }
}
In the above code,

shouldComponentUpdate only checks props.color Changes in and state.count. If these values ​​do not change, the component will not be updated. As your components become more complex, you can use a similar pattern to do a "shallow comparison" of properties and values ​​to determine whether the component needs to be updated. This pattern is so common that React provides a helper object to implement this logic - inherited from React.PureComponent. The following code can more easily achieve the same operation:

class CounterButton extends React.PureComponent {
  constructor(props) {
    super(props);
    this.state = {count: 1};
  }

  render() {
    return (
      <button
        color={this.props.color}
        onClick={() => this.setState(state => ({count: state.count + 1}))}>
        Count: {this.state.count}
      </button>
    );
  }
}
PureComponent

Principle

When the component is updated, if the props and state of the component have not changed, the render method It will not be triggered, eliminating the generation and comparison process of Virtual DOM to achieve the purpose of improving performance. Specifically, React automatically does a shallow comparison for us:

if (this._compositeType === CompositeTypes.PureClass) {
    shouldUpdate = !shallowEqual(prevProps, nextProps) || !shallowEqual(inst.state, nextState);
}
And what does shallowEqual do? It will compare whether the length of Object.keys(state | props) is consistent, whether each key has both, and whether it is a reference, that is, only the value of the first level is compared, which is indeed very shallow, so deep nesting The data cannot be compared.

Question

In most cases, you can use React.PureComponent without having to write your own shouldComponentUpdate, which only does a shallow comparison. But since shallow comparison ignores attributes or state

mutations, you cannot use it at this time.

class ListOfWords extends React.PureComponent {
  render() {
    return <p>{this.props.words.join(',')}</p>;
  }
}

class WordAdder extends React.Component {
  constructor(props) {
    super(props);
    this.state = {
      words: ['marklar']
    };
    this.handleClick = this.handleClick.bind(this);
  }

  handleClick() {
    // This section is bad style and causes a bug
    const words = this.state.words;
    words.push('marklar');
    this.setState({words: words});
  }

  render() {
    return (
      <p>
        <button onClick={this.handleClick} />
        <ListOfWords words={this.state.words} />
      </p>
    );
  }
}
In ListOfWords, this.props.words is a reference to its state passed in WordAdder. Although it was changed in the handleClick method of WordAdder, for ListOfWords, its reference remains unchanged, resulting in it not being updated.

Solution

It can be found in the above problem that when a data is immutable data, a reference can be used. But for a mutable data, it cannot be given to PureComponent by reference. To put it simply, when we modify the data used by PureComponent in the outer layer, we should assign it a new object or reference to ensure that it can be re-rendered. For example, handleClick in the above example can be modified through the following to confirm correct rendering:

handleClick() {
  this.setState(prevState => ({
    words: prevState.words.concat(['marklar'])
  }));
}

或者

handleClick() {
  this.setState(prevState => ({
    words: [...prevState.words, 'marklar'],
  }));
};

或者针对对象结构:

function updateColorMap(oldObj) {
  return Object.assign({}, oldObj, {key: new value});
}
immutable.js

Immutable.js is another way to solve this problem. It provides immutable, durable collections through structure sharing:

  • Immutable: Once created, a collection cannot be changed at another point in time.

  • Persistence: New collections can be created using the original collection and a mutation. The original collection remains available after the new collection is created.

  • Structure sharing: The new collection is created using as much of the structure of the original collection as possible to minimize copy operations and improve performance.

// 常见的js处理
const x = { foo: 'bar' };
const y = x;
y.foo = 'baz';
x === y; // true

// 使用 immutable.js

const SomeRecord = Immutable.Record({ foo: null });
const x = new SomeRecord({ foo: 'bar' });
const y = x.set('foo', 'baz');
x === y; // false
Summary

PureComponent What really works is only on some pure display components. If complex components are usedshallowEqual It’s basically impossible to pass that level. In addition, in order to ensure correct rendering during use, remember that props and state cannot use the same reference.

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