Skip to main content
0.25.0
View Zag.js on Github
Join the Discord server

Slider

A slider allows users to make selections from a range of values. Think of it as a custom <input type='range'/> with the ability to achieve custom styling and accessibility.

20
Properties

Features

  • Supports centered origin (slider starting at center, instead of start position).
  • Fully managed keyboard navigation.
  • Supports touch or click on track to update value.
  • Supports Right-to-Left directionality.
  • Support for horizontal and vertical orientations.
  • Prevents text selection while dragging.

Installation

To use the slider machine in your project, run the following command in your command line:

npm install @zag-js/slider @zag-js/react
# or
yarn add @zag-js/slider @zag-js/react

This command will install the framework agnostic slider logic and the reactive utilities for your framework of choice.

Anatomy

To set up the slider correctly, you'll need to understand its anatomy and how we name its parts.

Each part includes a data-part attribute to help identify them in the DOM.

On a high level, the slider consists of:

  • Root: The root container for the slider
  • Label: The accessible label for the slider
  • Control: The container for the slider's track and thumb
  • Track: The slider's track element
  • Range: The element that visually represents the slider's range
  • Thumb: The control element used to drag the slider
  • Output: The element that displays the current value of the slider

Usage

First, import the slider package into your project

import * as slider from "@zag-js/slider"

The slider package exports two key functions:

  • machine — The state machine logic for the slider widget as described in the WAI-ARIA spec.
  • connect — The function that translates the machine's state to JSX attributes and event handlers.

You'll need to provide a unique id to the useMachine hook. This is used to ensure that every part has a unique identifier.

Next, import the required hooks and functions for your framework and use the slider machine in your project 🔥

import * as slider from "@zag-js/slider"
import { useMachine, normalizeProps } from "@zag-js/react"

export function Slider() {
  const [state, send] = useMachine(slider.machine({ id: "1", value: [0] }))

  const api = slider.connect(state, send, normalizeProps)

  return (
    <div {...api.rootProps}>
      <div>
        <label {...api.labelProps}>Slider Label</label>
        <output {...api.outputProps}>{api.value.at(0)}</output>
      </div>
      <div {...api.controlProps}>
        <div {...api.trackProps}>
          <div {...api.rangeProps} />
        </div>
        {api.value.map((_, index) => (
          <div key={index} {...api.getThumbProps({ index })}>
            <input {...api.getHiddenInputProps({ index })} />
          </div>
        ))}
      </div>
    </div>
  )
}

Changing the orientation

By default, the slider is assumed to be horizontal. To change the orientation to vertical, set the orientation property in the machine's context to vertical.

In this mode, the slider will use the arrow up and down keys to increment/decrement its value.

Don't forget to change the styles of the vertical slider by specifying its height

const [state, send] = useMachine(
  slider.machine({
    orientation: "vertical",
  }),
)

Setting the initial value

const [state, send] = useMachine(
  slider.machine({
    value: [30],
  }),
)

Specifying the minimum and maximum

By default, the minimum is 0 and the maximum is 100. If that's not what you want, you can easily specify different bounds by changing the values of the min and/or max attributes.

For example, to ask the user for a value between -10 and 10, you can use:

const [state, send] = useMachine(
  slider.machine({
    min: -10,
    max: 10,
  }),
)

Setting the value's granularity

By default, the granularity, is 1, meaning that the value is always an integer. You can change the step attribute to control the granularity.

For example, If you need a value between 5 and 10, accurate to two decimal places, you should set the value of step to 0.01:

const [state, send] = useMachine(
  slider.machine({
    min: 5,
    max: 10,
    step: 0.01,
  }),
)

Listening for changes

When the slider value changes, the onValueChange and onValueChangeEnd callbacks are invoked. You can use this to setup custom behaviors in your app.

const [state, send] = useMachine(
  slider.machine({
    onValueChange(details) {
      console.log("value is changing to:", details)
    },
    onValueChangeEnd(details) {
      console.log("value has changed to:", details)
    },
  }),
)

Changing the start position

By default, the slider's "zero position" is usually at the start position (left in LTR and right in RTL).

In scenarios where the value represents an offset (or relative value), it might be useful to change the "zero position" to center. To do this, pass the origin context property to center.

const [state, send] = useMachine(
  slider.machine({
    origin: "center",
  }),
)

Usage within forms

To use slider within forms, use the exposed inputProps from the connect function and ensure you pass name value to the machine's context. It will render a hidden input and ensure the value changes get propagated to the form correctly.

const [state, send] = useMachine(
  slider.machine({
    name: "quantity",
  }),
)

RTL Support

The slider has built-in support for RTL alignment and interaction. In the RTL mode, operations are performed from right to left, meaning, the left arrow key will increment and the right arrow key will decrement.

To enable RTL support, pass the dir: rtl context property

const [state, send] = useMachine(
  slider.machine({
    dir: "rtl",
  }),
)

While we take care of the interactions in RTL mode, you'll have to ensure you apply the correct CSS styles to flip the layout.

Using slider marks

To show marks or ticks along the slider track, use the exposed api.getMarkerProps() method to position the slider marks relative to the track.

//...
<div>
  <div {...api.controlProps}>
    <div {...api.trackProps}>
      <div {...api.rangeProps} />
    </div>
    {api.value.map((_, index) => (
      <div key={index} {...api.getThumbProps({ index })}>
        <input {...api.getHiddenInputProps({ index })} />
      </div>
    ))}
  </div>
  <div {...api.markerGroupProps}>
    <span {...api.getMarkerProps({ value: 10 })}>|</span>
    <span {...api.getMarkerProps({ value: 30 })}>|</span>
    <span {...api.getMarkerProps({ value: 90 })}>|</span>
  </div>
</div>
//...

Styling guide

Earlier, we mentioned that each slider part has a data-part attribute added to them to select and style them in the DOM.

Focused State

When the slider thumb is focused, the data-focus attribute is added to the root, control, thumb and label parts.

[data-part="root"][data-focus] {
  /* styles for root focus state */
}

[data-part="thumb"]:focus {
  /* styles for thumb focus state */
}

[data-part="control"][data-focus] {
  /* styles for control focus state */
}

[data-part="track"][data-focus] {
  /* styles for track focus state */
}

[data-part="range"][data-focus] {
  /* styles for range focus state */
}

Disabled State

When the slider is disabled, the data-disabled attribute is added to the root, label, control and thumb.

[data-part="root"][data-disabled] {
  /* styles for root disabled state */
}

[data-part="label"][data-disabled] {
  /* styles for label disabled state */
}

[data-part="control"][data-disabled] {
  /* styles for control disabled state */
}

[data-part="output"][data-disabled] {
  /* styles for output disabled state */
}

[data-part="thumb"][data-disabled] {
  /* styles for thumb disabled state */
}

[data-part="range"][data-disabled] {
  /* styles for thumb disabled state */
}

Invalid State

When the slider is invalid, the data-invalid attribute is added to the root, track, range, label, and thumb parts.

[data-part="root"][data-invalid] {
  /* styles for root invalid state */
}

[data-part="label"][data-invalid] {
  /* styles for label invalid state */
}

[data-part="control"][data-invalid] {
  /* styles for control invalid state */
}

[data-part="output"][data-invalid] {
  /* styles for output invalid state */
}

[data-part="thumb"][data-invalid] {
  /* styles for thumb invalid state */
}

[data-part="range"][data-invalid] {
  /* styles for range invalid state */
}

Orientation

[data-part="root"][data-orientation="(horizontal|vertical)"] {
  /* styles for horizontal or vertical  */
}

[data-part="thumb"][data-orientation="(horizontal|vertical)"] {
  /* styles for horizontal or vertical  */
}

[data-part="track"][data-orientation="(horizontal|vertical)"] {
  /* styles for horizontal or vertical  */
}

Styling the markers

[data-part="marker"][data-state="(at|under|over)-value"] {
  /* styles for when the value exceeds the marker's value */
}

Methods and Properties

The slider's api provides properties and methods you can use to programmatically read and set the slider's value.

  • isFocusedbooleanWhether the slider is focused.
  • isDraggingbooleanWhether the slider is being dragged.
  • valuenumberThe value of the slider.
  • percentnumberThe value of the slider as a percent.
  • setValue(value: number) => voidFunction to set the value of the slider.
  • getPercentValue(percent: number) => numberReturns the value of the slider at the given percent.
  • getValuePercent(value: number) => numberReturns the percent of the slider at the given value.
  • focus() => voidFunction to focus the slider.
  • increment() => voidFunction to increment the value of the slider by the step.
  • decrement() => voidFunction to decrement the value of the slider by the step.

Edit this page on GitHub

On this page