<input type="button">

<input> elements of type button are rendered as simple push buttons, which can be programmed to control custom functionality anywhere on a webpage as required when assigned an event handler function (typically for the click event).

Note: While <input> elements of type button are still perfectly valid HTML, the newer <button> element is now the favored way to create buttons. Given that a <button>'s label text is inserted between the opening and closing tags, you can include HTML in the label, even images.

Value A DOMString used as the button's label
Events click
Supported common attributes type and value
IDL attributes value
DOM interface

HTMLInputElement

Methods None

Value

Button with a value

An <input type="button"> elements' value attribute contains a DOMString that is used as the button's label.

<input type="button" value="Click Me">

Button without a value

If you don't specify a value, you get an empty button:

<input type="button">

Using buttons

<input type="button"> elements have no default behavior (their cousins, <input type="submit"> and <input type="reset"> are used to submit and reset forms, respectively). To make buttons do anything, you have to write JavaScript code to do the work.

A simple button

We'll begin by creating a simple button with a click event handler that starts our machine (well, it toggles the value of the button and the text content of the following paragraph):

<form>
  <input type="button" value="Start machine">
</form>
<p>The machine is stopped.</p>
const button = document.querySelector('input');
const paragraph = document.querySelector('p');

button.addEventListener('click', updateButton);

function updateButton() {
  if (button.value === 'Start machine') {
    button.value = 'Stop machine';
    paragraph.textContent = 'The machine has started!';
  } else {
    button.value = 'Start machine';
    paragraph.textContent = 'The machine is stopped.';
  }
}

The script gets a reference to the HTMLInputElement object representing the <input> in the DOM, saving this reference in the variable button. addEventListener() is then used to establish a function that will be run when click events occur on the button.

Adding keyboard shortcuts to buttons

Keyboard shortcuts, also known as access keys and keyboard equivalents, let the user trigger a button using a key or combination of keys on the keyboard. To add a keyboard shortcut to a button — just as you would with any <input> for which it makes sense — you use the accesskey global attribute.

In this example, s is specified as the access key (you'll need to press s plus the particular modifier keys for your browser/OS combination; see accesskey for a useful list of those).

<form>
  <input type="button" value="Start machine" accesskey="s">
</form>
<p>The machine is stopped.</p>

Note: The problem with the above example of course is that the user will not know what the access key is! In a real site, you'd have to provide this information in a way that doesn't interfere with the site design (for example by providing an easily accessible link that points to information on what the site accesskeys are).

Disabling and enabling a button

To disable a button, specify the disabled global attribute on it, like so:

<input type="button" value="Disable me" disabled>

Setting the disabled attribute

You can enable and disable buttons at run time by setting disabled to true or false. In this example our button starts off enabled, but if you press it, it is disabled using button.disabled = true. A setTimeout() function is then used to reset the button back to its enabled state after two seconds.

<input type="button" value="Enabled">
const button = document.querySelector('input');

button.addEventListener('click', disableButton);

function disableButton() {
  button.disabled = true;
  button.value = 'Disabled';
  window.setTimeout(function() {
    button.disabled = false;
    button.value = 'Enabled';
  }, 2000);
}

Inheriting the disabled state

If the disabled attribute isn't specified, the button inherits its disabled state from its parent element. This makes it possible to enable and disable groups of elements all at once by enclosing them in a container such as a <fieldset> element, and then setting disabled on the container.

The example below shows this in action. This is very similar to the previous example, except that the disabled attribute is set on the <fieldset> when the first button is pressed — this causes all three buttons to be disabled until the two second timeout has passed.

<fieldset>
  <legend>Button group</legend>
  <input type="button" value="Button 1">
  <input type="button" value="Button 2">
  <input type="button" value="Button 3">
</fieldset>
const button = document.querySelector('input');
const fieldset = document.querySelector('fieldset');

button.addEventListener('click', disableButton);

function disableButton() {
  fieldset.disabled = true;
  window.setTimeout(function() {
    fieldset.disabled = false;
  }, 2000);
}

Note: Firefox will, unlike other browsers, by default, persist the dynamic disabled state of a <button> across page loads. Use the autocomplete attribute to control this feature.

Validation

Buttons don't participate in constraint validation; they have no real value to be constrained.

Examples

The below example shows a very simple drawing app created using a <canvas> element and some simple CSS and JavaScript (we'll hide the CSS for brevity). The top two controls allow you to choose the color and size of the drawing pen. The button, when clicked, invokes a function that clears the canvas.

<div class="toolbar">
  <input type="color" aria-label="select pen color">
  <input type="range" min="2" max="50" value="30" aria-label="select pen size"><span class="output">30</span>
  <input type="button" value="Clear canvas">
</div>

<canvas class="myCanvas">
  <p>Add suitable fallback here.</p>
</canvas>
var canvas = document.querySelector('.myCanvas');
var width = canvas.width = window.innerWidth;
var height = canvas.height = window.innerHeight-85;
var ctx = canvas.getContext('2d');

ctx.fillStyle = 'rgb(0,0,0)';
ctx.fillRect(0,0,width,height);

var colorPicker = document.querySelector('input[type="color"]');
var sizePicker = document.querySelector('input[type="range"]');
var output = document.querySelector('.output');
var clearBtn = document.querySelector('input[type="button"]');

// covert degrees to radians
function degToRad(degrees) {
  return degrees * Math.PI / 180;
};

// update sizepicker output value

sizePicker.oninput = function() {
  output.textContent = sizePicker.value;
}

// store mouse pointer coordinates, and whether the button is pressed
var curX;
var curY;
var pressed = false;

// update mouse pointer coordinates
document.onmousemove = function(e) {
  curX = (window.Event) ? e.pageX : e.clientX + (document.documentElement.scrollLeft ? document.documentElement.scrollLeft : document.body.scrollLeft);
  curY = (window.Event) ? e.pageY : e.clientY + (document.documentElement.scrollTop ? document.documentElement.scrollTop : document.body.scrollTop);
}

canvas.onmousedown = function() {
  pressed = true;
};

canvas.onmouseup = function() {
  pressed = false;
}

clearBtn.onclick = function() {
  ctx.fillStyle = 'rgb(0,0,0)';
  ctx.fillRect(0,0,width,height);
}

function draw() {
  if(pressed) {
    ctx.fillStyle = colorPicker.value;
    ctx.beginPath();
    ctx.arc(curX, curY-85, sizePicker.value, degToRad(0), degToRad(360), false);
    ctx.fill();
  }

  requestAnimationFrame(draw);
}

draw();

Specifications

Specification
HTML Standard
# button-state-(type=button)

Browser compatibility

BCD tables only load in the browser

See also