Learn React
Managing State

Mempertahankan dan Mengatur Ulang State

State diisolasi antar komponen. React melacak state mana yang dimiliki oleh komponen mana berdasarkan tempatnya di pohon antarmuka pengguna (UI). Anda dapat mengontrol kapan harus mempertahankan state dan kapan harus mengatur ulang di antara render ulang (re-render).

You will learn

  • Bagaimana React “melihat” struktur komponen
  • Kapan React memilih untuk mempertahankan atau mengatur ulang state
  • Bagaimana cara memaksa React untuk mengatur ulang state komponen
  • Bagaimana keys dan types mempengaruhi apakah state dipertahankan

Pohon antarmuka pengguna (UI)

Peramban menggunakan banyak struktur pohon untuk memodelkan antarmuka pengguna (UI). DOM mewakili elemen HTML, CSSOM melakukan hal yang sama untuk CSS. Bahkan ada Pohon aksesibilitas!

React juga menggunakan struktur pohon untuk mengelola dan memodelkan UI yang Anda buat. React membuat pohon UI dari JSX Anda. Kemudian React DOM memperbarui elemen-elemen DOM peramban agar sesuai dengan pohon UI tersebut (React Native menerjemahkan pohon-pohon tersebut menjadi elemen-elemen yang spesifik untuk platform mobile).

Diagram with three sections arranged horizontally. In the first section, there are three rectangles stacked vertically, with labels 'Component A', 'Component B', and 'Component C'. Transitioning to the next pane is an arrow with the React logo on top labeled 'React'. The middle section contains a tree of components, with the root labeled 'A' and two children labeled 'B' and 'C'. The next section is again transitioned using an arrow with the React logo on top labeled 'React'. The third and final section is a wireframe of a browser, containing a tree of 8 nodes, which has only a subset highlighted (indicating the subtree from the middle section).
Diagram with three sections arranged horizontally. In the first section, there are three rectangles stacked vertically, with labels 'Component A', 'Component B', and 'Component C'. Transitioning to the next pane is an arrow with the React logo on top labeled 'React'. The middle section contains a tree of components, with the root labeled 'A' and two children labeled 'B' and 'C'. The next section is again transitioned using an arrow with the React logo on top labeled 'React'. The third and final section is a wireframe of a browser, containing a tree of 8 nodes, which has only a subset highlighted (indicating the subtree from the middle section).

Dari komponen, React membuat pohon UI yang digunakan React DOM untuk merender DOM

State terikat dengan posisi di dalam pohon

Ketika Anda memberikan state pada sebuah komponen, Anda mungkin berpikir bahwa state tersebut “hidup” di dalam komponen. Tetapi state sebenarnya disimpan di dalam React. React mengasosiasikan setiap bagian dari state yang dipegangnya dengan komponen yang benar berdasarkan posisi komponen tersebut di dalam pohon UI.

Di sini, hanya ada satu tag JSX <Counter />, tetapi tag tersebut dirender pada dua posisi yang berbeda:

import { useState } from 'react';

export default function App() {
  const counter = <Counter />;
  return (
    <div>
      {counter}
      {counter}
    </div>
  );
}

function Counter() {
  const [score, setScore] = useState(0);
  const [hover, setHover] = useState(false);

  let className = 'counter';
  if (hover) {
    className += ' hover';
  }

  return (
    <div
      className={className}
      onPointerEnter={() => setHover(true)}
      onPointerLeave={() => setHover(false)}
    >
      <h1>{score}</h1>
      <button onClick={() => setScore(score + 1)}>
        Add one
      </button>
    </div>
  );
}

Beginilah tampilannya sebagai pohon:

Diagram of a tree of React components. The root node is labeled 'div' and has two children. Each of the children are labeled 'Counter' and both contain a state bubble labeled 'count' with value 0.
Diagram of a tree of React components. The root node is labeled 'div' and has two children. Each of the children are labeled 'Counter' and both contain a state bubble labeled 'count' with value 0.

Pohon React

Ini adalah dua penghitung yang terpisah karena masing-masing di-render pada posisinya sendiri di dalam pohon. Anda biasanya tidak perlu memikirkan posisi-posisi ini untuk menggunakan React, tetapi akan sangat berguna untuk memahami cara kerjanya.

Dalam React, setiap komponen pada layar memiliki state yang terisolasi sepenuhnya. Sebagai contoh, jika Anda me-render dua komponen Counter secara berdampingan, masing-masing komponen akan mendapatkan state-nya sendiri-sendiri, independen, yaitu state score dan hover.

Coba klik kedua penghitung dan perhatikan bahwa keduanya tidak saling mempengaruhi:

import { useState } from 'react';

export default function App() {
  return (
    <div>
      <Counter />
      <Counter />
    </div>
  );
}

function Counter() {
  const [score, setScore] = useState(0);
  const [hover, setHover] = useState(false);

  let className = 'counter';
  if (hover) {
    className += ' hover';
  }

  return (
    <div
      className={className}
      onPointerEnter={() => setHover(true)}
      onPointerLeave={() => setHover(false)}
    >
      <h1>{score}</h1>
      <button onClick={() => setScore(score + 1)}>
        Add one
      </button>
    </div>
  );
}

Seperti yang dapat Anda lihat, ketika satu penghitung diperbarui, hanya state untuk komponen tersebut yang diperbarui:

Diagram of a tree of React components. The root node is labeled 'div' and has two children. The left child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0. The right child is labeled 'Counter' and contains a state bubble labeled 'count' with value 1. The state bubble of the right child is highlighted in yellow to indicate its value has updated.
Diagram of a tree of React components. The root node is labeled 'div' and has two children. The left child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0. The right child is labeled 'Counter' and contains a state bubble labeled 'count' with value 1. The state bubble of the right child is highlighted in yellow to indicate its value has updated.

Memperbarui state

React akan mempertahankan state selama Anda me-render komponen yang sama pada posisi yang sama. Untuk melihat hal ini, naikkan kedua penghitung, lalu hapus komponen kedua dengan menghapus centang pada checkbox “Render the second counter”, lalu tambahkan kembali dengan mencentangnya lagi:

import { useState } from 'react';

export default function App() {
  const [showB, setShowB] = useState(true);
  return (
    <div>
      <Counter />
      {showB && <Counter />} 
      <label>
        <input
          type="checkbox"
          checked={showB}
          onChange={e => {
            setShowB(e.target.checked)
          }}
        />
        Render the second counter
      </label>
    </div>
  );
}

function Counter() {
  const [score, setScore] = useState(0);
  const [hover, setHover] = useState(false);

  let className = 'counter';
  if (hover) {
    className += ' hover';
  }

  return (
    <div
      className={className}
      onPointerEnter={() => setHover(true)}
      onPointerLeave={() => setHover(false)}
    >
      <h1>{score}</h1>
      <button onClick={() => setScore(score + 1)}>
        Add one
      </button>
    </div>
  );
}

Perhatikan bagaimana saat Anda berhenti me-render penghitung kedua, state-nya akan hilang sepenuhnya. Hal ini dikarenakan ketika React menghapus sebuah komponen, ia akan menghancurkan state-nya.

Diagram of a tree of React components. The root node is labeled 'div' and has two children. The left child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0. The right child is missing, and in its place is a yellow 'poof' image, highlighting the component being deleted from the tree.
Diagram of a tree of React components. The root node is labeled 'div' and has two children. The left child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0. The right child is missing, and in its place is a yellow 'poof' image, highlighting the component being deleted from the tree.

Menghapus komponen

Ketika Anda mencentang “Render the second counter”, Counter kedua dan state-nya diinisialisasi dari awal (score = 0) dan ditambahkan ke DOM.

Diagram of a tree of React components. The root node is labeled 'div' and has two children. The left child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0. The right child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0. The entire right child node is highlighted in yellow, indicating that it was just added to the tree.
Diagram of a tree of React components. The root node is labeled 'div' and has two children. The left child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0. The right child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0. The entire right child node is highlighted in yellow, indicating that it was just added to the tree.

Menambahkan komponen

React mempertahankan state sebuah komponen selama komponen tersebut di-render pada posisinya di pohon UI. Jika komponen tersebut dihapus, atau komponen lain di-render pada posisi yang sama, React akan membuang state-nya.

Komponen yang sama pada posisi yang sama mempertahankan state

Pada contoh ini, terdapat dua tag <Counter /> yang berbeda:

import { useState } from 'react';

export default function App() {
  const [isFancy, setIsFancy] = useState(false);
  return (
    <div>
      {isFancy ? (
        <Counter isFancy={true} /> 
      ) : (
        <Counter isFancy={false} /> 
      )}
      <label>
        <input
          type="checkbox"
          checked={isFancy}
          onChange={e => {
            setIsFancy(e.target.checked)
          }}
        />
        Use fancy styling
      </label>
    </div>
  );
}

function Counter({ isFancy }) {
  const [score, setScore] = useState(0);
  const [hover, setHover] = useState(false);

  let className = 'counter';
  if (hover) {
    className += ' hover';
  }
  if (isFancy) {
    className += ' fancy';
  }

  return (
    <div
      className={className}
      onPointerEnter={() => setHover(true)}
      onPointerLeave={() => setHover(false)}
    >
      <h1>{score}</h1>
      <button onClick={() => setScore(score + 1)}>
        Add one
      </button>
    </div>
  );
}

Ketika Anda mencentang atau menghapus checkbox, state penghitung tidak diatur ulang. Entah isFancy bernilai true atau false, Anda selalu memiliki <Counter /> sebagai anak pertama dari div yang dikembalikan dari komponen akar App:

Diagram with two sections separated by an arrow transitioning between them. Each section contains a layout of components with a parent labeled 'App' containing a state bubble labeled isFancy. This component has one child labeled 'div', which leads to a prop bubble containing isFancy (highlighted in purple) passed down to the only child. The last child is labeled 'Counter' and contains a state bubble with label 'count' and value 3 in both diagrams. In the left section of the diagram, nothing is highlighted and the isFancy parent state value is false. In the right section of the diagram, the isFancy parent state value has changed to true and it is highlighted in yellow, and so is the props bubble below, which has also changed its isFancy value to true.
Diagram with two sections separated by an arrow transitioning between them. Each section contains a layout of components with a parent labeled 'App' containing a state bubble labeled isFancy. This component has one child labeled 'div', which leads to a prop bubble containing isFancy (highlighted in purple) passed down to the only child. The last child is labeled 'Counter' and contains a state bubble with label 'count' and value 3 in both diagrams. In the left section of the diagram, nothing is highlighted and the isFancy parent state value is false. In the right section of the diagram, the isFancy parent state value has changed to true and it is highlighted in yellow, and so is the props bubble below, which has also changed its isFancy value to true.

Memperbarui state App tidak mengatur ulang Counter karena Counter tetap berada di posisi yang sama

Ini adalah komponen yang sama pada posisi yang sama, jadi dari sudut pandang React, ini adalah penghitung yang sama.

Pitfall

Ingatlah bahwa posisi pada pohon UI—bukan pada markup JSX—yang penting pada React! Komponen ini memiliki dua klausa return dengan tag JSX <Counter /> yang berbeda di dalam dan di luar if:

import { useState } from 'react';

export default function App() {
  const [isFancy, setIsFancy] = useState(false);
  if (isFancy) {
    return (
      <div>
        <Counter isFancy={true} />
        <label>
          <input
            type="checkbox"
            checked={isFancy}
            onChange={e => {
              setIsFancy(e.target.checked)
            }}
          />
          Use fancy styling
        </label>
      </div>
    );
  }
  return (
    <div>
      <Counter isFancy={false} />
      <label>
        <input
          type="checkbox"
          checked={isFancy}
          onChange={e => {
            setIsFancy(e.target.checked)
          }}
        />
        Use fancy styling
      </label>
    </div>
  );
}

function Counter({ isFancy }) {
  const [score, setScore] = useState(0);
  const [hover, setHover] = useState(false);

  let className = 'counter';
  if (hover) {
    className += ' hover';
  }
  if (isFancy) {
    className += ' fancy';
  }

  return (
    <div
      className={className}
      onPointerEnter={() => setHover(true)}
      onPointerLeave={() => setHover(false)}
    >
      <h1>{score}</h1>
      <button onClick={() => setScore(score + 1)}>
        Add one
      </button>
    </div>
  );
}

Anda mungkin berharap state akan diatur ulang ketika Anda mencentang checkbox, tetapi ternyata tidak! Hal ini dikarenakan kedua tag <Counter /> di-render pada posisi yang sama. React tidak mengetahui di mana Anda meletakkan kondisi di dalam fungsi Anda. Yang ia “lihat” hanyalah pohon yang Anda kembalikan.

Pada kedua kasus tersebut, komponen App mengembalikan <div> dengan <Counter /> sebagai anak pertama. Bagi React, kedua penghitung ini memiliki “alamat” yang sama: anak pertama dari anak pertama dari akar. Ini adalah cara React mencocokkan keduanya antara render sebelumnya dan berikutnya, terlepas dari bagaimana Anda menyusun logika Anda.

Different components at the same position reset state

In this example, ticking the checkbox will replace <Counter> with a <p>:

import { useState } from 'react';

export default function App() {
  const [isPaused, setIsPaused] = useState(false);
  return (
    <div>
      {isPaused ? (
        <p>See you later!</p> 
      ) : (
        <Counter /> 
      )}
      <label>
        <input
          type="checkbox"
          checked={isPaused}
          onChange={e => {
            setIsPaused(e.target.checked)
          }}
        />
        Take a break
      </label>
    </div>
  );
}

function Counter() {
  const [score, setScore] = useState(0);
  const [hover, setHover] = useState(false);

  let className = 'counter';
  if (hover) {
    className += ' hover';
  }

  return (
    <div
      className={className}
      onPointerEnter={() => setHover(true)}
      onPointerLeave={() => setHover(false)}
    >
      <h1>{score}</h1>
      <button onClick={() => setScore(score + 1)}>
        Add one
      </button>
    </div>
  );
}

Here, you switch between different component types at the same position. Initially, the first child of the <div> contained a Counter. But when you swapped in a p, React removed the Counter from the UI tree and destroyed its state.

Diagram with three sections, with an arrow transitioning each section in between. The first section contains a React component labeled 'div' with a single child labeled 'Counter' containing a state bubble labeled 'count' with value 3. The middle section has the same 'div' parent, but the child component has now been deleted, indicated by a yellow 'proof' image. The third section has the same 'div' parent again, now with a new child labeled 'p', highlighted in yellow.
Diagram with three sections, with an arrow transitioning each section in between. The first section contains a React component labeled 'div' with a single child labeled 'Counter' containing a state bubble labeled 'count' with value 3. The middle section has the same 'div' parent, but the child component has now been deleted, indicated by a yellow 'proof' image. The third section has the same 'div' parent again, now with a new child labeled 'p', highlighted in yellow.

When Counter changes to p, the Counter is deleted and the p is added

Diagram with three sections, with an arrow transitioning each section in between. The first section contains a React component labeled 'p'. The middle section has the same 'div' parent, but the child component has now been deleted, indicated by a yellow 'proof' image. The third section has the same 'div' parent again, now with a new child labeled 'Counter' containing a state bubble labeled 'count' with value 0, highlighted in yellow.
Diagram with three sections, with an arrow transitioning each section in between. The first section contains a React component labeled 'p'. The middle section has the same 'div' parent, but the child component has now been deleted, indicated by a yellow 'proof' image. The third section has the same 'div' parent again, now with a new child labeled 'Counter' containing a state bubble labeled 'count' with value 0, highlighted in yellow.

When switching back, the p is deleted and the Counter is added

Also, when you render a different component in the same position, it resets the state of its entire subtree. To see how this works, increment the counter and then tick the checkbox:

import { useState } from 'react';

export default function App() {
  const [isFancy, setIsFancy] = useState(false);
  return (
    <div>
      {isFancy ? (
        <div>
          <Counter isFancy={true} /> 
        </div>
      ) : (
        <section>
          <Counter isFancy={false} />
        </section>
      )}
      <label>
        <input
          type="checkbox"
          checked={isFancy}
          onChange={e => {
            setIsFancy(e.target.checked)
          }}
        />
        Use fancy styling
      </label>
    </div>
  );
}

function Counter({ isFancy }) {
  const [score, setScore] = useState(0);
  const [hover, setHover] = useState(false);

  let className = 'counter';
  if (hover) {
    className += ' hover';
  }
  if (isFancy) {
    className += ' fancy';
  }

  return (
    <div
      className={className}
      onPointerEnter={() => setHover(true)}
      onPointerLeave={() => setHover(false)}
    >
      <h1>{score}</h1>
      <button onClick={() => setScore(score + 1)}>
        Add one
      </button>
    </div>
  );
}

The counter state gets reset when you click the checkbox. Although you render a Counter, the first child of the div changes from a div to a section. When the child div was removed from the DOM, the whole tree below it (including the Counter and its state) was destroyed as well.

Diagram with three sections, with an arrow transitioning each section in between. The first section contains a React component labeled 'div' with a single child labeled 'section', which has a single child labeled 'Counter' containing a state bubble labeled 'count' with value 3. The middle section has the same 'div' parent, but the child components have now been deleted, indicated by a yellow 'proof' image. The third section has the same 'div' parent again, now with a new child labeled 'div', highlighted in yellow, also with a new child labeled 'Counter' containing a state bubble labeled 'count' with value 0, all highlighted in yellow.
Diagram with three sections, with an arrow transitioning each section in between. The first section contains a React component labeled 'div' with a single child labeled 'section', which has a single child labeled 'Counter' containing a state bubble labeled 'count' with value 3. The middle section has the same 'div' parent, but the child components have now been deleted, indicated by a yellow 'proof' image. The third section has the same 'div' parent again, now with a new child labeled 'div', highlighted in yellow, also with a new child labeled 'Counter' containing a state bubble labeled 'count' with value 0, all highlighted in yellow.

When section changes to div, the section is deleted and the new div is added

Diagram with three sections, with an arrow transitioning each section in between. The first section contains a React component labeled 'div' with a single child labeled 'div', which has a single child labeled 'Counter' containing a state bubble labeled 'count' with value 0. The middle section has the same 'div' parent, but the child components have now been deleted, indicated by a yellow 'proof' image. The third section has the same 'div' parent again, now with a new child labeled 'section', highlighted in yellow, also with a new child labeled 'Counter' containing a state bubble labeled 'count' with value 0, all highlighted in yellow.
Diagram with three sections, with an arrow transitioning each section in between. The first section contains a React component labeled 'div' with a single child labeled 'div', which has a single child labeled 'Counter' containing a state bubble labeled 'count' with value 0. The middle section has the same 'div' parent, but the child components have now been deleted, indicated by a yellow 'proof' image. The third section has the same 'div' parent again, now with a new child labeled 'section', highlighted in yellow, also with a new child labeled 'Counter' containing a state bubble labeled 'count' with value 0, all highlighted in yellow.

When switching back, the div is deleted and the new section is added

As a rule of thumb, if you want to preserve the state between re-renders, the structure of your tree needs to “match up” from one render to another. If the structure is different, the state gets destroyed because React destroys state when it removes a component from the tree.

Pitfall

This is why you should not nest component function definitions.

Here, the MyTextField component function is defined inside MyComponent:

import { useState } from 'react';

export default function MyComponent() {
  const [counter, setCounter] = useState(0);

  function MyTextField() {
    const [text, setText] = useState('');

    return (
      <input
        value={text}
        onChange={e => setText(e.target.value)}
      />
    );
  }

  return (
    <>
      <MyTextField />
      <button onClick={() => {
        setCounter(counter + 1)
      }}>Clicked {counter} times</button>
    </>
  );
}

Every time you click the button, the input state disappears! This is because a different MyTextField function is created for every render of MyComponent. You’re rendering a different component in the same position, so React resets all state below. This leads to bugs and performance problems. To avoid this problem, always declare component functions at the top level, and don’t nest their definitions.

Resetting state at the same position

By default, React preserves state of a component while it stays at the same position. Usually, this is exactly what you want, so it makes sense as the default behavior. But sometimes, you may want to reset a component’s state. Consider this app that lets two players keep track of their scores during each turn:

import { useState } from 'react';

export default function Scoreboard() {
  const [isPlayerA, setIsPlayerA] = useState(true);
  return (
    <div>
      {isPlayerA ? (
        <Counter person="Taylor" />
      ) : (
        <Counter person="Sarah" />
      )}
      <button onClick={() => {
        setIsPlayerA(!isPlayerA);
      }}>
        Next player!
      </button>
    </div>
  );
}

function Counter({ person }) {
  const [score, setScore] = useState(0);
  const [hover, setHover] = useState(false);

  let className = 'counter';
  if (hover) {
    className += ' hover';
  }

  return (
    <div
      className={className}
      onPointerEnter={() => setHover(true)}
      onPointerLeave={() => setHover(false)}
    >
      <h1>{person}'s score: {score}</h1>
      <button onClick={() => setScore(score + 1)}>
        Add one
      </button>
    </div>
  );
}

Currently, when you change the player, the score is preserved. The two Counters appear in the same position, so React sees them as the same Counter whose person prop has changed.

But conceptually, in this app they should be two separate counters. They might appear in the same place in the UI, but one is a counter for Taylor, and another is a counter for Sarah.

There are two ways to reset state when switching between them:

  1. Render components in different positions
  2. Give each component an explicit identity with key

Option 1: Rendering a component in different positions

If you want these two Counters to be independent, you can render them in two different positions:

import { useState } from 'react';

export default function Scoreboard() {
  const [isPlayerA, setIsPlayerA] = useState(true);
  return (
    <div>
      {isPlayerA &&
        <Counter person="Taylor" />
      }
      {!isPlayerA &&
        <Counter person="Sarah" />
      }
      <button onClick={() => {
        setIsPlayerA(!isPlayerA);
      }}>
        Next player!
      </button>
    </div>
  );
}

function Counter({ person }) {
  const [score, setScore] = useState(0);
  const [hover, setHover] = useState(false);

  let className = 'counter';
  if (hover) {
    className += ' hover';
  }

  return (
    <div
      className={className}
      onPointerEnter={() => setHover(true)}
      onPointerLeave={() => setHover(false)}
    >
      <h1>{person}'s score: {score}</h1>
      <button onClick={() => setScore(score + 1)}>
        Add one
      </button>
    </div>
  );
}
  • Initially, isPlayerA is true. So the first position contains Counter state, and the second one is empty.
  • When you click the “Next player” button the first position clears but the second one now contains a Counter.
Diagram with a tree of React components. The parent is labeled 'Scoreboard' with a state bubble labeled isPlayerA with value 'true'. The only child, arranged to the left, is labeled Counter with a state bubble labeled 'count' and value 0. All of the left child is highlighted in yellow, indicating it was added.
Diagram with a tree of React components. The parent is labeled 'Scoreboard' with a state bubble labeled isPlayerA with value 'true'. The only child, arranged to the left, is labeled Counter with a state bubble labeled 'count' and value 0. All of the left child is highlighted in yellow, indicating it was added.

Initial state

Diagram with a tree of React components. The parent is labeled 'Scoreboard' with a state bubble labeled isPlayerA with value 'false'. The state bubble is highlighted in yellow, indicating that it has changed. The left child is replaced with a yellow 'poof' image indicating that it has been deleted and there is a new child on the right, highlighted in yellow indicating that it was added. The new child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0.
Diagram with a tree of React components. The parent is labeled 'Scoreboard' with a state bubble labeled isPlayerA with value 'false'. The state bubble is highlighted in yellow, indicating that it has changed. The left child is replaced with a yellow 'poof' image indicating that it has been deleted and there is a new child on the right, highlighted in yellow indicating that it was added. The new child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0.

Clicking “next”

Diagram with a tree of React components. The parent is labeled 'Scoreboard' with a state bubble labeled isPlayerA with value 'true'. The state bubble is highlighted in yellow, indicating that it has changed. There is a new child on the left, highlighted in yellow indicating that it was added. The new child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0. The right child is replaced with a yellow 'poof' image indicating that it has been deleted.
Diagram with a tree of React components. The parent is labeled 'Scoreboard' with a state bubble labeled isPlayerA with value 'true'. The state bubble is highlighted in yellow, indicating that it has changed. There is a new child on the left, highlighted in yellow indicating that it was added. The new child is labeled 'Counter' and contains a state bubble labeled 'count' with value 0. The right child is replaced with a yellow 'poof' image indicating that it has been deleted.

Clicking “next” again

Each Counter’s state gets destroyed each time its removed from the DOM. This is why they reset every time you click the button.

This solution is convenient when you only have a few independent components rendered in the same place. In this example, you only have two, so it’s not a hassle to render both separately in the JSX.

Option 2: Resetting state with a key

There is also another, more generic, way to reset a component’s state.

You might have seen keys when rendering lists. Keys aren’t just for lists! You can use keys to make React distinguish between any components. By default, React uses order within the parent (“first counter”, “second counter”) to discern between components. But keys let you tell React that this is not just a first counter, or a second counter, but a specific counter—for example, Taylor’s counter. This way, React will know Taylor’s counter wherever it appears in the tree!

In this example, the two <Counter />s don’t share state even though they appear in the same place in JSX:

import { useState } from 'react';

export default function Scoreboard() {
  const [isPlayerA, setIsPlayerA] = useState(true);
  return (
    <div>
      {isPlayerA ? (
        <Counter key="Taylor" person="Taylor" />
      ) : (
        <Counter key="Sarah" person="Sarah" />
      )}
      <button onClick={() => {
        setIsPlayerA(!isPlayerA);
      }}>
        Next player!
      </button>
    </div>
  );
}

function Counter({ person }) {
  const [score, setScore] = useState(0);
  const [hover, setHover] = useState(false);

  let className = 'counter';
  if (hover) {
    className += ' hover';
  }

  return (
    <div
      className={className}
      onPointerEnter={() => setHover(true)}
      onPointerLeave={() => setHover(false)}
    >
      <h1>{person}'s score: {score}</h1>
      <button onClick={() => setScore(score + 1)}>
        Add one
      </button>
    </div>
  );
}

Switching between Taylor and Sarah does not preserve the state. This is because you gave them different keys:

{isPlayerA ? (
  <Counter key="Taylor" person="Taylor" />
) : (
  <Counter key="Sarah" person="Sarah" />
)}

Specifying a key tells React to use the key itself as part of the position, instead of their order within the parent. This is why, even though you render them in the same place in JSX, React sees them as two different counters, and so they will never share state. Every time a counter appears on the screen, its state is created. Every time it is removed, its state is destroyed. Toggling between them resets their state over and over.

Note

Remember that keys are not globally unique. They only specify the position within the parent.

Resetting a form with a key

Resetting state with a key is particularly useful when dealing with forms.

In this chat app, the <Chat> component contains the text input state:

import { useState } from 'react';
import Chat from './Chat.js';
import ContactList from './ContactList.js';

export default function Messenger() {
  const [to, setTo] = useState(contacts[0]);
  return (
    <div>
      <ContactList
        contacts={contacts}
        selectedContact={to}
        onSelect={contact => setTo(contact)}
      />
      <Chat contact={to} />
    </div>
  )
}

const contacts = [
  { id: 0, name: 'Taylor', email: 'taylor@mail.com' },
  { id: 1, name: 'Alice', email: 'alice@mail.com' },
  { id: 2, name: 'Bob', email: 'bob@mail.com' }
];

Try entering something into the input, and then press “Alice” or “Bob” to choose a different recipient. You will notice that the input state is preserved because the <Chat> is rendered at the same position in the tree.

In many apps, this may be the desired behavior, but not in a chat app! You don’t want to let the user send a message they already typed to a wrong person due to an accidental click. To fix it, add a key:

<Chat key={to.id} contact={to} />

This ensures that when you select a different recipient, the Chat component will be recreated from scratch, including any state in the tree below it. React will also re-create the DOM elements instead of reusing them.

Now switching the recipient always clears the text field:

import { useState } from 'react';
import Chat from './Chat.js';
import ContactList from './ContactList.js';

export default function Messenger() {
  const [to, setTo] = useState(contacts[0]);
  return (
    <div>
      <ContactList
        contacts={contacts}
        selectedContact={to}
        onSelect={contact => setTo(contact)}
      />
      <Chat key={to.id} contact={to} />
    </div>
  )
}

const contacts = [
  { id: 0, name: 'Taylor', email: 'taylor@mail.com' },
  { id: 1, name: 'Alice', email: 'alice@mail.com' },
  { id: 2, name: 'Bob', email: 'bob@mail.com' }
];
Deep Dive

Preserving state for removed components

In a real chat app, you’d probably want to recover the input state when the user selects the previous recipient again. There are a few ways to keep the state “alive” for a component that’s no longer visible:

  • You could render all chats instead of just the current one, but hide all the others with CSS. The chats would not get removed from the tree, so their local state would be preserved. This solution works great for simple UIs. But it can get very slow if the hidden trees are large and contain a lot of DOM nodes.
  • You could lift the state up and hold the pending message for each recipient in the parent component. This way, when the child components get removed, it doesn’t matter, because it’s the parent that keeps the important information. This is the most common solution.
  • You might also use a different source in addition to React state. For example, you probably want a message draft to persist even if the user accidentally closes the page. To implement this, you could have the Chat component initialize its state by reading from the localStorage, and save the drafts there too.

No matter which strategy you pick, a chat with Alice is conceptually distinct from a chat with Bob, so it makes sense to give a key to the <Chat> tree based on the current recipient.

Recap

  • React keeps state for as long as the same component is rendered at the same position.
  • State is not kept in JSX tags. It’s associated with the tree position in which you put that JSX.
  • You can force a subtree to reset its state by giving it a different key.
  • Don’t nest component definitions, or you’ll reset state by accident.

Try out some challenges

Challenge 1 of 5:
Fix disappearing input text

This example shows a message when you press the button. However, pressing the button also accidentally resets the input. Why does this happen? Fix it so that pressing the button does not reset the input text.

import { useState } from 'react';

export default function App() {
  const [showHint, setShowHint] = useState(false);
  if (showHint) {
    return (
      <div>
        <p><i>Hint: Your favorite city?</i></p>
        <Form />
        <button onClick={() => {
          setShowHint(false);
        }}>Hide hint</button>
      </div>
    );
  }
  return (
    <div>
      <Form />
      <button onClick={() => {
        setShowHint(true);
      }}>Show hint</button>
    </div>
  );
}

function Form() {
  const [text, setText] = useState('');
  return (
    <textarea
      value={text}
      onChange={e => setText(e.target.value)}
    />
  );
}
PreviousSharing State Between ComponentsNextExtracting State Logic into a Reducer

How do you like these docs?