--- title: Children --- Using `Children` is uncommon and can lead to fragile code. [See common alternatives.](#alternatives) `Children` lets you manipulate and transform the JSX you received as the [`children` prop.](/learn/passing-props-to-a-component#passing-jsx-as-children) ```js const mappedChildren = Children.map(children, child =>
{child}
); ``` --- ## Reference {/*reference*/} ### `Children.count(children)` {/*children-count*/} Call `Children.count(children)` to count the number of children in the `children` data structure. ```js RowList.js active import { Children } from 'react'; function RowList({ children }) { return ( <>

Total rows: {Children.count(children)}

... ); } ``` [See more examples below.](#counting-children) #### Parameters {/*children-count-parameters*/} * `children`: The value of the [`children` prop](/learn/passing-props-to-a-component#passing-jsx-as-children) received by your component. #### Returns {/*children-count-returns*/} The number of nodes inside these `children`. #### Caveats {/*children-count-caveats*/} - Empty nodes (`null`, `undefined`, and Booleans), strings, numbers, and [React elements](/reference/react/createElement) count as individual nodes. Arrays don't count as individual nodes, but their children do. **The traversal does not go deeper than React elements:** they don't get rendered, and their children aren't traversed. [Fragments](/reference/react/Fragment) don't get traversed. --- ### `Children.forEach(children, fn, thisArg?)` {/*children-foreach*/} Call `Children.forEach(children, fn, thisArg?)` to run some code for each child in the `children` data structure. ```js RowList.js active import { Children } from 'react'; function SeparatorList({ children }) { const result = []; Children.forEach(children, (child, index) => { result.push(child); result.push(
); }); // ... ``` [See more examples below.](#running-some-code-for-each-child) #### Parameters {/*children-foreach-parameters*/} * `children`: The value of the [`children` prop](/learn/passing-props-to-a-component#passing-jsx-as-children) received by your component. * `fn`: The function you want to run for each child, similar to the [array `forEach` method](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/forEach) callback. It will be called with the child as the first argument and its index as the second argument. The index starts at `0` and increments on each call. * **optional** `thisArg`: The [`this` value](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/this) with which the `fn` function should be called. If omitted, it's `undefined`. #### Returns {/*children-foreach-returns*/} `Children.forEach` returns `undefined`. #### Caveats {/*children-foreach-caveats*/} - Empty nodes (`null`, `undefined`, and Booleans), strings, numbers, and [React elements](/reference/react/createElement) count as individual nodes. Arrays don't count as individual nodes, but their children do. **The traversal does not go deeper than React elements:** they don't get rendered, and their children aren't traversed. [Fragments](/reference/react/Fragment) don't get traversed. --- ### `Children.map(children, fn, thisArg?)` {/*children-map*/} Call `Children.map(children, fn, thisArg?)` to map or transform each child in the `children` data structure. ```js RowList.js active import { Children } from 'react'; function RowList({ children }) { return (
{Children.map(children, child =>
{child}
)}
); } ``` [See more examples below.](#transforming-children) #### Parameters {/*children-map-parameters*/} * `children`: The value of the [`children` prop](/learn/passing-props-to-a-component#passing-jsx-as-children) received by your component. * `fn`: The mapping function, similar to the [array `map` method](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/map) callback. It will be called with the child as the first argument and its index as the second argument. The index starts at `0` and increments on each call. You need to return a React node from this function. This may be an empty node (`null`, `undefined`, or a Boolean), a string, a number, a React element, or an array of other React nodes. * **optional** `thisArg`: The [`this` value](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/this) with which the `fn` function should be called. If omitted, it's `undefined`. #### Returns {/*children-map-returns*/} If `children` is `null` or `undefined`, returns the same value. Otherwise, returns a flat array consisting of the nodes you've returned from the `fn` function. The returned array will contain all nodes you returned except for `null` and `undefined`. #### Caveats {/*children-map-caveats*/} - Empty nodes (`null`, `undefined`, and Booleans), strings, numbers, and [React elements](/reference/react/createElement) count as individual nodes. Arrays don't count as individual nodes, but their children do. **The traversal does not go deeper than React elements:** they don't get rendered, and their children aren't traversed. [Fragments](/reference/react/Fragment) don't get traversed. - If you return an element or an array of elements with keys from `fn`, **the returned elements' keys will be automatically combined with the key of the corresponding original item from `children`.** When you return multiple elements from `fn` in an array, their keys only need to be unique locally amongst each other. --- ### `Children.only(children)` {/*children-only*/} Call `Children.only(children)` to assert that `children` represent a single React element. ```js function Box({ children }) { const element = Children.only(children); // ... ``` #### Parameters {/*children-only-parameters*/} * `children`: The value of the [`children` prop](/learn/passing-props-to-a-component#passing-jsx-as-children) received by your component. #### Returns {/*children-only-returns*/} If `children` [is a valid element,](/reference/react/isValidElement) returns that element. Otherwise, throws an error. #### Caveats {/*children-only-caveats*/} - This method always **throws if you pass an array (such as the return value of `Children.map`) as `children`.** In other words, it enforces that `children` is a single React element, not that it's an array with a single element. --- ### `Children.toArray(children)` {/*children-toarray*/} Call `Children.toArray(children)` to create an array out of the `children` data structure. ```js ReversedList.js active import { Children } from 'react'; export default function ReversedList({ children }) { const result = Children.toArray(children); result.reverse(); // ... ``` #### Parameters {/*children-toarray-parameters*/} * `children`: The value of the [`children` prop](/learn/passing-props-to-a-component#passing-jsx-as-children) received by your component. #### Returns {/*children-toarray-returns*/} Returns a flat array of elements in `children`. #### Caveats {/*children-toarray-caveats*/} - Empty nodes (`null`, `undefined`, and Booleans) will be omitted in the returned array. **The returned elements' keys will be calculated from the original elements' keys and their level of nesting and position.** This ensures that flattening the array does not introduce changes in behavior. --- ## Usage {/*usage*/} ### Transforming children {/*transforming-children*/} To transform the children JSX that your component [receives as the `children` prop,](/learn/passing-props-to-a-component#passing-jsx-as-children) call `Children.map`: ```js {6,10} import { Children } from 'react'; function RowList({ children }) { return (
{Children.map(children, child =>
{child}
)}
); } ``` In the example above, the `RowList` wraps every child it receives into a `
` container. For example, let's say the parent component passes three `

` tags as the `children` prop to `RowList`: ```js

This is the first item.

This is the second item.

This is the third item.

``` Then, with the `RowList` implementation above, the final rendered result will look like this: ```js

This is the first item.

This is the second item.

This is the third item.

``` `Children.map` is similar to [to transforming arrays with `map()`.](/learn/rendering-lists) The difference is that the `children` data structure is considered *opaque.* This means that even if it's sometimes an array, you should not assume it's an array or any other particular data type. This is why you should use `Children.map` if you need to transform it. ```js import RowList from './RowList.js'; export default function App() { return (

This is the first item.

This is the second item.

This is the third item.

 ); } ``` ```js RowList.js active import { Children } from 'react'; export default function RowList({ children }) { return (
{Children.map(children, child =>
{child}
)}
); } ``` ```css .RowList { display: flex; flex-direction: column; border: 2px solid grey; padding: 5px; } .Row { border: 2px dashed black; padding: 5px; margin: 5px; } ``` #### Why is the children prop not always an array? {/*why-is-the-children-prop-not-always-an-array*/} In React, the `children` prop is considered an *opaque* data structure. This means that you shouldn't rely on how it is structured. To transform, filter, or count children, you should use the `Children` methods. In practice, the `children` data structure is often represented as an array internally. However, if there is only a single child, then React won't create an extra array since this would lead to unnecessary memory overhead. As long as you use the `Children` methods instead of directly introspecting the `children` prop, your code will not break even if React changes how the data structure is actually implemented. Even when `children` is an array, `Children.map` has useful special behavior. For example, `Children.map` combines the [keys](/learn/rendering-lists#keeping-list-items-in-order-with-key) on the returned elements with the keys on the `children` you've passed to it. This ensures the original JSX children don't "lose" keys even if they get wrapped like in the example above. The `children` data structure **does not include rendered output** of the components you pass as JSX. In the example below, the `children` received by the `RowList` only contains two items rather than three: 1. `

This is the first item.

` 2. `` This is why only two row wrappers are generated in this example: ```js import RowList from './RowList.js'; export default function App() { return (

This is the first item.

 ); } function MoreRows() { return ( <>

This is the second item.

This is the third item.

); } ``` ```js RowList.js import { Children } from 'react'; export default function RowList({ children }) { return (
{Children.map(children, child =>
{child}
)}
); } ``` ```css .RowList { display: flex; flex-direction: column; border: 2px solid grey; padding: 5px; } .Row { border: 2px dashed black; padding: 5px; margin: 5px; } ``` **There is no way to get the rendered output of an inner component** like `` when manipulating `children`. This is why [it's usually better to use one of the alternative solutions.](#alternatives) --- ### Running some code for each child {/*running-some-code-for-each-child*/} Call `Children.forEach` to iterate over each child in the `children` data structure. It does not return any value and is similar to the [array `forEach` method.](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/forEach) You can use it to run custom logic like constructing your own array. ```js import SeparatorList from './SeparatorList.js'; export default function App() { return (

This is the first item.

This is the second item.

This is the third item.

 ); } ``` ```js SeparatorList.js active import { Children } from 'react'; export default function SeparatorList({ children }) { const result = []; Children.forEach(children, (child, index) => { result.push(child); result.push(
); }); result.pop(); // Remove the last separator return result; } ``` As mentioned earlier, there is no way to get the rendered output of an inner component when manipulating `children`. This is why [it's usually better to use one of the alternative solutions.](#alternatives) --- ### Counting children {/*counting-children*/} Call `Children.count(children)` to calculate the number of children. ```js import RowList from './RowList.js'; export default function App() { return (

This is the first item.

This is the second item.

This is the third item.

 ); } ``` ```js RowList.js active import { Children } from 'react'; export default function RowList({ children }) { return (

Total rows: {Children.count(children)}

{Children.map(children, child =>
{child}
)}
); } ``` ```css .RowList { display: flex; flex-direction: column; border: 2px solid grey; padding: 5px; } .RowListHeader { padding-top: 5px; font-size: 25px; font-weight: bold; text-align: center; } .Row { border: 2px dashed black; padding: 5px; margin: 5px; } ``` As mentioned earlier, there is no way to get the rendered output of an inner component when manipulating `children`. This is why [it's usually better to use one of the alternative solutions.](#alternatives) --- ### Converting children to an array {/*converting-children-to-an-array*/} Call `Children.toArray(children)` to turn the `children` data structure into a regular JavaScript array. This lets you manipulate the array with built-in array methods like [`filter`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/filter), [`sort`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/sort), or [`reverse`.](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/reverse) ```js import ReversedList from './ReversedList.js'; export default function App() { return (

This is the first item.

This is the second item.

This is the third item.

 ); } ``` ```js ReversedList.js active import { Children } from 'react'; export default function ReversedList({ children }) { const result = Children.toArray(children); result.reverse(); return result; } ``` As mentioned earlier, there is no way to get the rendered output of an inner component when manipulating `children`. This is why [it's usually better to use one of the alternative solutions.](#alternatives) --- ## Alternatives {/*alternatives*/} This section describes alternatives to the `Children` API (with capital `C`) that's imported like this: ```js import { Children } from 'react'; ``` Don't confuse it with [using the `children` prop](/learn/passing-props-to-a-component#passing-jsx-as-children) (lowercase `c`), which is good and encouraged. ### Exposing multiple components {/*exposing-multiple-components*/} Manipulating children with the `Children` methods often leads to fragile code. When you pass children to a component in JSX, you don't usually expect the component to manipulate or transform the individual children. When you can, try to avoid using the `Children` methods. For example, if you want every child of `RowList` to be wrapped in `
`, export a `Row` component, and manually wrap every row into it like this: ```js import { RowList, Row } from './RowList.js'; export default function App() { return (

This is the first item.

This is the second item.

This is the third item.

 ); } ``` ```js RowList.js export function RowList({ children }) { return (
{children}
); } export function Row({ children }) { return (
{children}
); } ``` ```css .RowList { display: flex; flex-direction: column; border: 2px solid grey; padding: 5px; } .Row { border: 2px dashed black; padding: 5px; margin: 5px; } ``` Unlike using `Children.map`, this approach does not wrap every child automatically. **However, this approach has a significant benefit compared to the [earlier example with `Children.map`](#transforming-children) because it works even if you keep extracting more components.** For example, it still works if you extract your own `MoreRows` component: ```js import { RowList, Row } from './RowList.js'; export default function App() { return (

This is the first item.

 ); } function MoreRows() { return ( <>

This is the second item.

This is the third item.

 ); } ``` ```js RowList.js export function RowList({ children }) { return (
{children}
); } export function Row({ children }) { return (
{children}
); } ``` ```css .RowList { display: flex; flex-direction: column; border: 2px solid grey; padding: 5px; } .Row { border: 2px dashed black; padding: 5px; margin: 5px; } ``` This wouldn't work with `Children.map` because it would "see" `` as a single child (and a single row). --- ### Accepting an array of objects as a prop {/*accepting-an-array-of-objects-as-a-prop*/} You can also explicitly pass an array as a prop. For example, this `RowList` accepts a `rows` array as a prop: ```js import { RowList, Row } from './RowList.js'; export default function App() { return ( This is the first item.

}, { id: 'second', content:

This is the second item.

}, { id: 'third', content:

This is the third item.

} ]} /> ); } ``` ```js RowList.js export function RowList({ rows }) { return (
{rows.map(row => (
{row.content}
))}
); } ``` ```css .RowList { display: flex; flex-direction: column; border: 2px solid grey; padding: 5px; } .Row { border: 2px dashed black; padding: 5px; margin: 5px; } ``` Since `rows` is a regular JavaScript array, the `RowList` component can use built-in array methods like [`map`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/map) on it. This pattern is especially useful when you want to be able to pass more information as structured data together with children. In the below example, the `TabSwitcher` component receives an array of objects as the `tabs` prop: ```js import TabSwitcher from './TabSwitcher.js'; export default function App() { return ( This is the first item.

}, { id: 'second', header: 'Second', content:

This is the second item.

}, { id: 'third', header: 'Third', content:

This is the third item.

} ]} /> ); } ``` ```js TabSwitcher.js import { useState } from 'react'; export default function TabSwitcher({ tabs }) { const [selectedId, setSelectedId] = useState(tabs[0].id); const selectedTab = tabs.find(tab => tab.id === selectedId); return ( <> {tabs.map(tab => ( ))}

{selectedTab.header}

{selectedTab.content}
); } ``` Unlike passing the children as JSX, this approach lets you associate some extra data like `header` with each item. Because you are working with the `tabs` directly, and it is an array, you do not need the `Children` methods. --- ### Calling a render prop to customize rendering {/*calling-a-render-prop-to-customize-rendering*/} Instead of producing JSX for every single item, you can also pass a function that returns JSX, and call that function when necessary. In this example, the `App` component passes a `renderContent` function to the `TabSwitcher` component. The `TabSwitcher` component calls `renderContent` only for the selected tab: ```js import TabSwitcher from './TabSwitcher.js'; export default function App() { return ( { return tabId[0].toUpperCase() + tabId.slice(1); }} renderContent={tabId => { return

This is the {tabId} item.

; }} /> ); } ``` ```js TabSwitcher.js import { useState } from 'react'; export default function TabSwitcher({ tabIds, getHeader, renderContent }) { const [selectedId, setSelectedId] = useState(tabIds[0]); return ( <> {tabIds.map((tabId) => ( ))}

{getHeader(selectedId)}

{renderContent(selectedId)}
); } ``` A prop like `renderContent` is called a *render prop* because it is a prop that specifies how to render a piece of the user interface. However, there is nothing special about it: it is a regular prop which happens to be a function. Render props are functions, so you can pass information to them. For example, this `RowList` component passes the `id` and the `index` of each row to the `renderRow` render prop, which uses `index` to highlight even rows: ```js import { RowList, Row } from './RowList.js'; export default function App() { return ( { return (

This is the {id} item.

 ); }} /> ); } ``` ```js RowList.js import { Fragment } from 'react'; export function RowList({ rowIds, renderRow }) { return (

Total rows: {rowIds.length}

{rowIds.map((rowId, index) => {renderRow(rowId, index)} )}
); } export function Row({ children, isHighlighted }) { return (
{children}
); } ``` ```css .RowList { display: flex; flex-direction: column; border: 2px solid grey; padding: 5px; } .RowListHeader { padding-top: 5px; font-size: 25px; font-weight: bold; text-align: center; } .Row { border: 2px dashed black; padding: 5px; margin: 5px; } .RowHighlighted { background: #ffa; } ``` This is another example of how parent and child components can cooperate without manipulating the children. --- ## Troubleshooting {/*troubleshooting*/} ### I pass a custom component, but the `Children` methods don't show its render result {/*i-pass-a-custom-component-but-the-children-methods-dont-show-its-render-result*/} Suppose you pass two children to `RowList` like this: ```js

First item

 ``` If you do `Children.count(children)` inside `RowList`, you will get `2`. Even if `MoreRows` renders 10 different items, or if it returns `null`, `Children.count(children)` will still be `2`. From the `RowList`'s perspective, it only "sees" the JSX it has received. It does not "see" the internals of the `MoreRows` component. The limitation makes it hard to extract a component. This is why [alternatives](#alternatives) are preferred to using `Children`.