Here's an example of a Vue component:
// Create a Vue application const app = Vue.createApp({}) // Define a new global component called button-counter app.component('button-counter', { data() { return { count: 0 } }, template: ` <button @click="count++"> You clicked me {{ count }} times. </button>` })
We're showing you a simple example here, but in a typical Vue application we use Single File Components instead of a string template. You can find more information about them in this section.
Components are reusable instances with a name: in this case, <button-counter>
. We can use this component as a custom element inside a root instance:
<div id="components-demo"> <button-counter></button-counter> </div>
app.mount('#components-demo')See the Pen Component basics by Vue (@Vue) on CodePen.
Since components are reusable instances, they accept the same options as a root instance, such as data
, computed
, watch
, methods
, and lifecycle hooks.
Components can be reused as many times as you want:
<div id="components-demo"> <button-counter></button-counter> <button-counter></button-counter> <button-counter></button-counter> </div>See the Pen Component basics: reusing components by Vue (@Vue) on CodePen.
Notice that when clicking on the buttons, each one maintains its own, separate count
. That's because each time you use a component, a new instance of it is created.
It's common for an app to be organized into a tree of nested components:
For example, you might have components for a header, sidebar, and content area, each typically containing other components for navigation links, blog posts, etc.
To use these components in templates, they must be registered so that Vue knows about them. There are two types of component registration: global and local. So far, we've only registered components globally, using the component
method of our app:
const app = Vue.createApp({}) app.component('my-component-name', { // ... options ... })
Globally registered components can be used in the template of any component within the app.
That's all you need to know about registration for now, but once you've finished reading this page and feel comfortable with its content, we recommend coming back later to read the full guide on Component Registration.
Earlier, we mentioned creating a component for blog posts. The problem is, that component won't be useful unless you can pass data to it, such as the title and content of the specific post we want to display. That's where props come in.
Props are custom attributes you can register on a component. To pass a title to our blog post component, we can include it in the list of props this component accepts, using the props
option:
const app = Vue.createApp({}) app.component('blog-post', { props: ['title'], template: `<h4>{{ title }}</h4>` }) app.mount('#blog-post-demo')
When a value is passed to a prop attribute, it becomes a property on that component instance. The value of that property is accessible within the template, just like any other component property.
A component can have as many props as you like and, by default, any value can be passed to any prop.
Once a prop is registered, you can pass data to it as a custom attribute, like this:
<div id="blog-post-demo" class="demo"> <blog-post title="My journey with Vue"></blog-post> <blog-post title="Blogging with Vue"></blog-post> <blog-post title="Why Vue is so fun"></blog-post> </div>See the Pen Component basics: passing props by Vue (@Vue) on CodePen.
In a typical app, however, you'll likely have an array of posts in data
:
const App = { data() { return { posts: [ { id: 1, title: 'My journey with Vue' }, { id: 2, title: 'Blogging with Vue' }, { id: 3, title: 'Why Vue is so fun' } ] } } } const app = Vue.createApp(App) app.component('blog-post', { props: ['title'], template: `<h4>{{ title }}</h4>` }) app.mount('#blog-posts-demo')
Then want to render a component for each one:
<div id="blog-posts-demo"> <blog-post v-for="post in posts" :key="post.id" :title="post.title" ></blog-post> </div>
Above, you'll see that we can use v-bind
to dynamically pass props. This is especially useful when you don't know the exact content you're going to render ahead of time.
That's all you need to know about props for now, but once you've finished reading this page and feel comfortable with its content, we recommend coming back later to read the full guide on Props.
As we develop our <blog-post>
component, some features may require communicating back up to the parent. For example, we may decide to include an accessibility feature to enlarge the text of blog posts, while leaving the rest of the page its default size.
In the parent, we can support this feature by adding a postFontSize
data property:
const App = { data() { return { posts: [ /* ... */ ], postFontSize: 1 } } }
Which can be used in the template to control the font size of all blog posts:
<div id="blog-posts-events-demo"> <div :style="{ fontSize: postFontSize + 'em' }"> <blog-post v-for="post in posts" :key="post.id" :title="post.title" ></blog-post> </div> </div>
Now let's add a button to enlarge the text right before the content of every post:
app.component('blog-post', { props: ['title'], template: ` <div class="blog-post"> <h4>{{ title }}</h4> <button> Enlarge text </button> </div> ` })
The problem is, this button doesn't do anything:
<button> Enlarge text </button>
When we click on the button, we need to communicate to the parent that it should enlarge the text of all posts. To solve this problem, component instances provide a custom events system. The parent can choose to listen to any event on the child component instance with v-on
or @
, just as we would with a native DOM event:
<blog-post ... @enlarge-text="postFontSize += 0.1"></blog-post>
Then the child component can emit an event on itself by calling the built-in $emit
method, passing the name of the event:
<button @click="$emit('enlargeText')"> Enlarge text </button>
Thanks to the @enlarge-text="postFontSize += 0.1"
listener, the parent will receive the event and update the value of postFontSize
. See the Pen Component basics: emitting events by Vue (@Vue) on CodePen.
We can list emitted events in the component's emits
option:
app.component('blog-post', { props: ['title'], emits: ['enlargeText'] })
This will allow you to check all the events that a component emits and optionally validate them.
It's sometimes useful to emit a specific value with an event. For example, we may want the <blog-post>
component to be in charge of how much to enlarge the text by. In those cases, we can pass a second parameter to $emit
to provide this value:
<button @click="$emit('enlargeText', 0.1)"> Enlarge text </button>
Then when we listen to the event in the parent, we can access the emitted event's value with $event
:
<blog-post ... @enlarge-text="postFontSize += $event"></blog-post>
Or, if the event handler is a method:
<blog-post ... @enlarge-text="onEnlargeText"></blog-post>
Then the value will be passed as the first parameter of that method:
methods: { onEnlargeText(enlargeAmount) { this.postFontSize += enlargeAmount } }
v-model
on ComponentsCustom events can also be used to create custom inputs that work with v-model
. Remember that:
<input v-model="searchText" />
does the same thing as:
<input :value="searchText" @input="searchText = $event.target.value" />
When used on a component, v-model
instead does this:
<custom-input :model-value="searchText" @update:model-value="searchText = $event" ></custom-input>
Please note we used model-value
with kebab-case here because we are working with in-DOM templates. You can find a detailed explanation on kebab-cased vs camelCased attributes in the DOM Template Parsing Caveats section
For this to actually work though, the <input>
inside the component must:
value
attribute to the modelValue
propinput
, emit an update:modelValue
event with the new valueHere's that in action:
app.component('custom-input', { props: ['modelValue'], emits: ['update:modelValue'], template: ` <input :value="modelValue" @input="$emit('update:modelValue', $event.target.value)" > ` })
Now v-model
should work perfectly with this component:
<custom-input v-model="searchText"></custom-input>
Another way of implementing v-model
within this component is to use the ability of computed
properties to define a getter and setter. The get
method should return the modelValue
property and the set
method should emit the corresponding event:
app.component('custom-input', { props: ['modelValue'], emits: ['update:modelValue'], template: ` <input v-model="value"> `, computed: { value: { get() { return this.modelValue }, set(value) { this.$emit('update:modelValue', value) } } } })
That's all you need to know about custom component events for now, but once you've finished reading this page and feel comfortable with its content, we recommend coming back later to read the full guide on Custom Events.
Just like with HTML elements, it's often useful to be able to pass content to a component, like this:
<alert-box> Something bad happened. </alert-box>
Which might render something like: See the Pen Component basics: slots by Vue (@Vue) on CodePen.
This can be achieved using Vue's custom <slot>
element:
app.component('alert-box', { template: ` <div class="demo-alert-box"> <strong>Error!</strong> <slot></slot> </div> ` })
As you'll see above, we use the <slot>
as a placeholder where we want the content to go – and that's it. We're done!
That's all you need to know about slots for now, but once you've finished reading this page and feel comfortable with its content, we recommend coming back later to read the full guide on Slots.
Sometimes, it's useful to dynamically switch between components, like in a tabbed interface: See the Pen Component basics: dynamic components by Vue (@Vue) on CodePen.
The above is made possible by Vue's <component>
element with the special is
attribute:
<!-- Component changes when currentTabComponent changes --> <component :is="currentTabComponent"></component>
In the example above, currentTabComponent
can contain either:
See this sandbox (opens new window) to experiment with the full code, or this version (opens new window) for an example binding to a component's options object, instead of its registered name.
You can also use the is
attribute to create regular HTML elements.
That's all you need to know about dynamic components for now, but once you've finished reading this page and feel comfortable with its content, we recommend coming back later to read the full guide on Dynamic & Async Components.
If you are writing your Vue templates directly in the DOM, Vue will have to retrieve the template string from the DOM. This leads to some caveats due to browsers' native HTML parsing behavior.
It should be noted that the limitations discussed below only apply if you are writing your templates directly in the DOM. They do NOT apply if you are using string templates from the following sources:
template: '...'
).vue
) components<script type="text/x-template">
Some HTML elements, such as <ul>
, <ol>
, <table>
and <select>
have restrictions on what elements can appear inside them, and some elements such as <li>
, <tr>
, and <option>
can only appear inside certain other elements.
This will lead to issues when using components with elements that have such restrictions. For example:
<table> <blog-post-row></blog-post-row> </table>
The custom component <blog-post-row>
will be hoisted out as invalid content, causing errors in the eventual rendered output. We can use the special is
attribute as a workaround:
<table> <tr is="vue:blog-post-row"></tr> </table>
When used on native HTML elements, the value of is
must be prefixed with vue:
in order to be interpreted as a Vue component. This is required to avoid confusion with native customized built-in elements (opens new window).
HTML attribute names are case-insensitive, so browsers will interpret any uppercase characters as lowercase. That means when you’re using in-DOM templates, camelCased prop names and event handler parameters need to use their kebab-cased (hyphen-delimited) equivalents:
// camelCase in JavaScript app.component('blog-post', { props: ['postTitle'], template: ` <h3>{{ postTitle }}</h3> ` })
<!-- kebab-case in HTML --> <blog-post post-title="hello!"></blog-post>
That's all you need to know about DOM template parsing caveats for now - and actually, the end of Vue's Essentials. Congratulations! There's still more to learn, but first, we recommend taking a break to play with Vue yourself and build something fun.
Once you feel comfortable with the knowledge you've just digested, we recommend coming back to read the full guide on Dynamic & Async Components, as well as the other pages in the Components In-Depth section of the sidebar.
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Licensed under the MIT License.
https://v3.vuejs.org/guide/component-basics.html