createElement
createElement
lets you create a React element. It serves as an alternative to writing JSX.
const element = createElement(type, props, ...children)
Reference
createElement(type, props, ...children)
Call createElement
to create a React element with the given type
, props
, and children
.
import { createElement } from 'react';
function Greeting({ name }) {
return createElement(
'h1',
{ className: 'greeting' },
'Hello'
);
}
Parameters
-
type
: Thetype
argument must be a valid React component type. For example, it could be a tag name string (such as'div'
or'span'
), or a React component (a function, a class, or a special component likeFragment
). -
props
: Theprops
argument must either be an object ornull
. If you passnull
, it will be treated the same as an empty object. React will create an element with props matching theprops
you have passed. Note thatref
andkey
from yourprops
object are special and will not be available aselement.props.ref
andelement.props.key
on the returnedelement
. They will be available aselement.ref
andelement.key
. -
optional
...children
: Zero or more child nodes. They can be any React nodes, including React elements, strings, numbers, portals, empty nodes (null
,undefined
,true
, andfalse
), and arrays of React nodes.
Returns
createElement
returns a React element object with a few properties:
type
: Thetype
you have passed.props
: Theprops
you have passed except forref
andkey
. If thetype
is a component with legacytype.defaultProps
, then any missing or undefinedprops
will get the values fromtype.defaultProps
.ref
: Theref
you have passed. If missing,null
.key
: Thekey
you have passed, coerced to a string. If missing,null
.
Usually, you’ll return the element from your component or make it a child of another element. Although you may read the element’s properties, it’s best to treat every element as opaque after it’s created, and only render it.
Caveats
-
You must treat React elements and their props as immutable and never change their contents after creation. In development, React will freeze the returned element and its
props
property shallowly to enforce this. -
When you use JSX, you must start a tag with a capital letter to render your own custom component. In other words,
<Something />
is equivalent tocreateElement(Something)
, but<something />
(lowercase) is equivalent tocreateElement('something')
(note it’s a string, so it will be treated as a built-in HTML tag). -
You should only pass children as multiple arguments to
createElement
if they are all statically known, likecreateElement('h1', {}, child1, child2, child3)
. If your children are dynamic, pass the entire array as the third argument:createElement('ul', {}, listItems)
. This ensures that React will warn you about missingkey
s for any dynamic lists. For static lists this is not necessary because they never reorder.
Usage
Creating an element without JSX
If you don’t like JSX or can’t use it in your project, you can use createElement
as an alternative.
To create an element without JSX, call createElement
with some type, props, and children:
import { createElement } from 'react';
function Greeting({ name }) {
return createElement(
'h1',
{ className: 'greeting' },
'Hello ',
createElement('i', null, name),
'. Welcome!'
);
}
The children are optional, and you can pass as many as you need (the example above has three children). This code will display a <h1>
header with a greeting. For comparison, here is the same example rewritten with JSX:
function Greeting({ name }) {
return (
<h1 className="greeting">
Hello <i>{name}</i>. Welcome!
</h1>
);
}
To render your own React component, pass a function like Greeting
as the type instead of a string like 'h1'
:
export default function App() {
return createElement(Greeting, { name: 'Taylor' });
}
With JSX, it would look like this:
export default function App() {
return <Greeting name="Taylor" />;
}
Here is a complete example written with createElement
:
import { createElement } from 'react'; function Greeting({ name }) { return createElement( 'h1', { className: 'greeting' }, 'Hello ', createElement('i', null, name), '. Welcome!' ); } export default function App() { return createElement( Greeting, { name: 'Taylor' } ); }
And here is the same example written using JSX:
function Greeting({ name }) { return ( <h1 className="greeting"> Hello <i>{name}</i>. Welcome! </h1> ); } export default function App() { return <Greeting name="Taylor" />; }
Both coding styles are fine, so you can use whichever one you prefer for your project. The main benefit of using JSX compared to createElement
is that it’s easy to see which closing tag corresponds to which opening tag.
En détail
An element is a lightweight description of a piece of the user interface. For example, both <Greeting name="Taylor" />
and createElement(Greeting, { name: 'Taylor' })
produce an object like this:
// Slightly simplified
{
type: Greeting,
props: {
name: 'Taylor'
},
key: null,
ref: null,
}
Note that creating this object does not render the Greeting
component or create any DOM elements.
A React element is more like a description—an instruction for React to later render the Greeting
component. By returning this object from your App
component, you tell React what to do next.
Creating elements is extremely cheap so you don’t need to try to optimize or avoid it.