Using the Gamepad API - Web APIs 编辑

HTML5 introduced many of the necessary components for rich, interactive game development. Technologies like <canvas>, WebGL, <audio>, and <video>, along with JavaScript implementations, have matured to the point where they can now support many tasks previously requiring native code. The Gamepad API is a way for developers and designers to access and use gamepads and other game controllers.

The Gamepad API introduces new events on the Window object for reading gamepad and controller (hereby referred to as gamepad) state. In addition to these events, the API also adds a Gamepad object, which you can use to query the state of a connected gamepad, and a navigator.getGamepads() method which you can use to get a list of gamepads known to the page.

Connecting to a gamepad

When a new gamepad is connected to the computer, the focused page first receives a gamepadconnected event. If a gamepad is already connected when the page loaded, the gamepadconnected event is dispatched to the focused page when the user presses a button or moves an axis.

In Firefox, gamepads are only exposed to a page when the user interacts with one with the page visible. This helps prevent gamepads being used for fingerprinting the user. Once one gamepad has been interacted with, other gamepads that are connected will automatically be visible.

You can use gamepadconnected like this:

window.addEventListener("gamepadconnected", function(e) {
  console.log("Gamepad connected at index %d: %s. %d buttons, %d axes.",
    e.gamepad.index, e.gamepad.id,
    e.gamepad.buttons.length, e.gamepad.axes.length);
});

Each gamepad has a unique ID associated with it, which is available on the event's gamepad property.

Disconnecting a gamepad

When a gamepad is disconnected, and if a page has previously received data for that gamepad (e.g. gamepadconnected), a second event is dispatched to the focused window, gamepaddisconnected:

window.addEventListener("gamepaddisconnected", function(e) {
  console.log("Gamepad disconnected from index %d: %s",
    e.gamepad.index, e.gamepad.id);
});

The gamepad's index property will be unique per-device connected to the system, even if multiple controllers of the same type are used. The index property also functions as the index into the Array returned by Navigator.getGamepads().

var gamepads = {};

function gamepadHandler(event, connecting) {
  var gamepad = event.gamepad;
  // Note:
  // gamepad === navigator.getGamepads()[gamepad.index]

  if (connecting) {
    gamepads[gamepad.index] = gamepad;
  } else {
    delete gamepads[gamepad.index];
  }
}

window.addEventListener("gamepadconnected", function(e) { gamepadHandler(e, true); }, false);
window.addEventListener("gamepaddisconnected", function(e) { gamepadHandler(e, false); }, false);

This previous example also demonstrates how the gamepad property can be held after the event has completed — a technique we will use for device state querying later.

Querying the Gamepad object

As you can see, the gamepad events discussed above include a gamepad property on the event object, which returns a Gamepad object. We can use this in order to determine which gamepad (i.e., its ID) had caused the event, since multiple gamepads might be connected at once. We can do much more with the Gamepad object, including holding a reference to it and querying it to find out which buttons and axes are being pressed at any one time. Doing so is often desirable for games or other interactive web pages that need to know the state of a gamepad now vs. the next time an event fires.

Performing such checks tends to involve using the Gamepad object in conjunction with an animation loop (e.g., requestAnimationFrame), where developers want to make decisions for the current frame based on the state of the gamepad or gamepads.

The Navigator.getGamepads() method returns an array of all devices currently visible to the webpage, as Gamepad objects (the first value is always null, so null will be returned if there are no gamepads connected.) This can then be used to get the same information. For example, the first code example above you be rewritten as shown below:

window.addEventListener("gamepadconnected", function(e) {
  var gp = navigator.getGamepads()[e.gamepad.index];
  console.log("Gamepad connected at index %d: %s. %d buttons, %d axes.",
    gp.index, gp.id,
    gp.buttons.length, gp.axes.length);
});

The Gamepad object's properties are as follows:

  • id: A string containing some information about the controller. This is not strictly specified, but in Firefox it will contain three pieces of information separated by dashes (-): two 4-digit hexadecimal strings containing the USB vendor and product id of the controller, and the name of the controller as provided by the driver. This information is intended to allow you to find a mapping for the controls on the device as well as display useful feedback to the user.
  • index: An integer that is unique for each gamepad currently connected to the system. This can be used to distinguish multiple controllers. Note that disconnecting a device and then connecting a new device may reuse the previous index.
  • mapping: A string indicating whether the browser has remapped the controls on the device to a known layout. Currently there is only one supported known layout — the standard gamepad. If the browser is able to map controls on the device to that layout the mapping property will be set to the string standard.
  • connected: A boolean indicating whether the gamepad is still connected to the system. If this is so the value is True; if not, it is False.
  • buttons: An array of GamepadButton objects representing the buttons present on the device. Each GamepadButton has a pressed and a value property:
    • The pressed property is a boolean indicating whether the button is currently pressed (true) or unpressed (false).
    • The value property is a floating point value used to enable representing analog buttons, such as the triggers on many modern gamepads. The values are normalized to the range 0.0..1.0, with 0.0 representing a button that is not pressed, and 1.0 representing a button that is fully pressed.
  • axes: An array representing the controls with axes present on the device (e.g. analog thumb sticks). Each entry in the array is a floating point value in the range -1.0 - 1.0, representing the axis position from the lowest value (-1.0) to the highest value (1.0).
  • timestamp: This returns a DOMHighResTimeStamp representing the last time the data for this gamepad was updated, allowing developers to determine if the axes and button data have been updated from the hardware. The value must be relative to the navigationStart attribute of the PerformanceTiming interface. Values are monotonically increasing, meaning that they can be compared to determine the ordering of updates, as newer values will always be greater than or equal to older values. Note that this property is not currently supported in Firefox.

Note: The Gamepad object is available on the gamepadconnected event rather than the Window object itself, for security reasons. Once we have a reference to it, we can query its properties for information about the current state of the gamepad. Behind the scenes, this object will be updated every time the gamepad's state changes.

Using button information

Let's look at a simple example that displays connection information for one gamepad (it ignores subsequent gamepad connections) and allows you to move a ball around the screen using the four gamepad buttons on the right hand side of the gamepad. You can view the demo live, and find the source code on Github.

To start with, we declare some variables: The gamepadInfo paragraph that the connection info is written into, the ball that we want to move, the start variable that acts as the ID for requestAnimation Frame, the a and b variables that act as position modifiers for moving the ball, and the shorthand variables that will be used for the requestAnimationFrame() and cancelAnimationFrame() cross browser forks.

var gamepadInfo = document.getElementById("gamepad-info");
var ball = document.getElementById("ball");
var start;
var a = 0;
var b = 0;

Next we use the gamepadconnected event to check for a gamepad being connected. When one is connected, we grab the gamepad using Navigator.getGamepads()[0], print information about the gamepad into our gamepad info div, and fire the gameLoop() function that starts the whole ball movement process up.

window.addEventListener("gamepadconnected", function(e) {
  var gp = navigator.getGamepads()[e.gamepad.index];
  gamepadInfo.innerHTML = "Gamepad connected at index " + gp.index + ": " + gp.id + ". It has " + gp.buttons.length + " buttons and " + gp.axes.length + " axes.";

  gameLoop();
});

Now we use the gamepaddisconnected event to check if the gamepad is disconnected again. If so, we stop the requestAnimationFrame() loop (see below) and revert the gamepad information back to what it was originally.

window.addEventListener("gamepaddisconnected", function(e) {
  gamepadInfo.innerHTML = "Waiting for gamepad.";

  cancelRequestAnimationFrame(start);
});

Chrome does things differently here. Instead of constantly storing the gamepad's latest state in a variable it only stores a snapshot, so to do the same thing in Chrome you have to keep polling it and then only use the Gamepad object in code when it is available. We have done this below using Window.setInterval(); once the object is available the gamepad info is outputted, the game loop is started, and the interval is cleared using Window.clearInterval(). Note that in older versions of Chrome Navigator.getGamepads() is implemented with a webkit prefix. We attempt to detect and handle both the prefixed version and the standard version of the function for backwards compatibility.

var interval;

if (!('ongamepadconnected' in window)) {
  // No gamepad events available, poll instead.
  interval = setInterval(pollGamepads, 500);
}

function pollGamepads() {
  var gamepads = navigator.getGamepads ? navigator.getGamepads() : (navigator.webkitGetGamepads ? navigator.webkitGetGamepads : []);
  for (var i = 0; i < gamepads.length; i++) {
    var gp = gamepads[i];
    if (gp) {
      gamepadInfo.innerHTML = "Gamepad connected at index " + gp.index + ": " + gp.id +
        ". It has " + gp.buttons.length + " buttons and " + gp.axes.length + " axes.";
      gameLoop();
      clearInterval(interval);
    }
  }
}

Now on to the main game loop. In each execution of the loop we check if one of four buttons is being pressed; if so, we update the values of the a and b movement variables appropriately, then update the left and top properties, changing their values to the current values of a and b respectively. This has the effect of moving the ball around the screen.  In current versions of Chrome (version 34 as of this writing) the button values are stored as an array of double values, instead of GamepadButton objects. This is fixed in development versions.

After all this is done, we use our requestAnimationFrame() to request the next animation frame, running gameLoop() again.

function buttonPressed(b) {
  if (typeof(b) == "object") {
    return b.pressed;
  }
  return b == 1.0;
}

function gameLoop() {
  var gamepads = navigator.getGamepads ? navigator.getGamepads() : (navigator.webkitGetGamepads ? navigator.webkitGetGamepads : []);
  if (!gamepads) {
    return;
  }

  var gp = gamepads[0];
  if (buttonPressed(gp.buttons[0])) {
    b--;
  } else if (buttonPressed(gp.buttons[2])) {
    b++;
  }
  if (buttonPressed(gp.buttons[1])) {
    a++;
  } else if (buttonPressed(gp.buttons[3])) {
    a--;
  }

  ball.style.left = a * 2 + "px";
  ball.style.top = b * 2 + "px";

  start = requestAnimationFrame(gameLoop);
}

Complete example: Displaying gamepad state

This example shows how to use the Gamepad object, as well as the gamepadconnected and gamepaddisconnected events in order to display the state of all gamepads connected to the system. You can find a working demo and look at the full source code on Github.

var haveEvents = 'ongamepadconnected' in window;
var controllers = {};

function connecthandler(e) {
  addgamepad(e.gamepad);
}

function addgamepad(gamepad) {
  controllers[gamepad.index] = gamepad;

  var d = document.createElement("div");
  d.setAttribute("id", "controller" + gamepad.index);

  var t = document.createElement("h1");
  t.appendChild(document.createTextNode("gamepad: " + gamepad.id));
  d.appendChild(t);

  var b = document.createElement("div");
  b.className = "buttons";
  for (var i = 0; i < gamepad.buttons.length; i++) {
    var e = document.createElement("span");
    e.className = "button";
    //e.id = "b" + i;
    e.innerHTML = i;
    b.appendChild(e);
  }

  d.appendChild(b);

  var a = document.createElement("div");
  a.className = "axes";

  for (var i = 0; i < gamepad.axes.length; i++) {
    var p = document.createElement("progress");
    p.className = "axis";
    //p.id = "a" + i;
    p.setAttribute("max", "2");
    p.setAttribute("value", "1");
    p.innerHTML = i;
    a.appendChild(p);
  }

  d.appendChild(a);

  // See https://github.com/luser/gamepadtest/blob/master/index.html
  var start = document.getElementById("start");
  if (start) {
    start.style.display = "none";
  }

  document.body.appendChild(d);
  requestAnimationFrame(updateStatus);
}

function disconnecthandler(e) {
  removegamepad(e.gamepad);
}

function removegamepad(gamepad) {
  var d = document.getElementById("controller" + gamepad.index);
  document.body.removeChild(d);
  delete controllers[gamepad.index];
}

function updateStatus() {
  if (!haveEvents) {
    scangamepads();
  }

  var i = 0;
  var j;

  for (j in controllers) {
    var controller = controllers[j];
    var d = document.getElementById("controller" + j);
    var buttons = d.getElementsByClassName("button");

    for (i = 0; i < controller.buttons.length; i++) {
      var b = buttons[i];
      var val = controller.buttons[i];
      var pressed = val == 1.0;
      if (typeof(val) == "object") {
        pressed = val.pressed;
        val = val.value;
      }

      var pct = Math.round(val * 100) + "%";
      b.style.backgroundSize = pct + " " + pct;

      if (pressed) {
        b.className = "button pressed";
      } else {
        b.className = "button";
      }
    }

    var axes = d.getElementsByClassName("axis");
    for (i = 0; i < controller.axes.length; i++) {
      var a = axes[i];
      a.innerHTML = i + ": " + controller.axes[i].toFixed(4);
      a.setAttribute("value", controller.axes[i] + 1);
    }
  }

  requestAnimationFrame(updateStatus);
}

function scangamepads() {
  var gamepads = navigator.getGamepads ? navigator.getGamepads() : (navigator.webkitGetGamepads ? navigator.webkitGetGamepads() : []);
  for (var i = 0; i < gamepads.length; i++) {
    if (gamepads[i]) {
      if (gamepads[i].index in controllers) {
        controllers[gamepads[i].index] = gamepads[i];
      } else {
        addgamepad(gamepads[i]);
      }
    }
  }
}

window.addEventListener("gamepadconnected", connecthandler);
window.addEventListener("gamepaddisconnected", disconnecthandler);

if (!haveEvents) {
 setInterval(scangamepads, 500);
}

Specifications

SpecificationStatusComment
Gamepad
The definition of 'Gamepad' in that specification.
Working DraftInitial definition

Browser compatibility

BCD tables only load in the browser

The compatibility table on this page is generated from structured data. If you'd like to contribute to the data, please check out https://github.com/mdn/browser-compat-data and send us a pull request.

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