//##############################################################################
// extend.js
//##############################################################################
this.createjs = this.createjs||{};
/**
* @class Utility Methods
*/
/**
* Sets up the prototype chain and constructor property for a new class.
*
* This should be called right after creating the class constructor.
*
* function MySubClass() {}
* createjs.extend(MySubClass, MySuperClass);
* ClassB.prototype.doSomething = function() { }
*
* var foo = new MySubClass();
* console.log(foo instanceof MySuperClass); // true
* console.log(foo.prototype.constructor === MySubClass); // true
*
* @method extends
* @param {Function} subclass The subclass.
* @param {Function} superclass The superclass to extend.
* @return {Function} Returns the subclass's new prototype.
*/
createjs.extend = function(subclass, superclass) {
"use strict";
function o() { this.constructor = subclass; }
o.prototype = superclass.prototype;
return (subclass.prototype = new o());
};
//##############################################################################
// promote.js
//##############################################################################
this.createjs = this.createjs||{};
/**
* @class Utility Methods
*/
/**
* Promotes any methods on the super class that were overridden, by creating an alias in the format `prefix_methodName`.
* It is recommended to use the super class's name as the prefix.
* An alias to the super class's constructor is always added in the format `prefix_constructor`.
* This allows the subclass to call super class methods without using `function.call`, providing better performance.
*
* For example, if `MySubClass` extends `MySuperClass`, and both define a `draw` method, then calling `promote(MySubClass, "MySuperClass")`
* would add a `MySuperClass_constructor` method to MySubClass and promote the `draw` method on `MySuperClass` to the
* prototype of `MySubClass` as `MySuperClass_draw`.
*
* This should be called after the class's prototype is fully defined.
*
* function ClassA(name) {
* this.name = name;
* }
* ClassA.prototype.greet = function() {
* return "Hello "+this.name;
* }
*
* function ClassB(name, punctuation) {
* this.ClassA_constructor(name);
* this.punctuation = punctuation;
* }
* createjs.extend(ClassB, ClassA);
* ClassB.prototype.greet = function() {
* return this.ClassA_greet()+this.punctuation;
* }
* createjs.promote(ClassB, "ClassA");
*
* var foo = new ClassB("World", "!?!");
* console.log(foo.greet()); // Hello World!?!
*
* @method promote
* @param {Function} subclass The class to promote super class methods on.
* @param {String} prefix The prefix to add to the promoted method names. Usually the name of the superclass.
* @return {Function} Returns the subclass.
*/
createjs.promote = function(subclass, prefix) {
"use strict";
var subP = subclass.prototype, supP = (Object.getPrototypeOf&&Object.getPrototypeOf(subP))||subP.__proto__;
if (supP) {
subP[(prefix+="_") + "constructor"] = supP.constructor; // constructor is not always innumerable
for (var n in supP) {
if (subP.hasOwnProperty(n) && (typeof supP[n] == "function")) { subP[prefix + n] = supP[n]; }
}
}
return subclass;
};
//##############################################################################
// indexOf.js
//##############################################################################
this.createjs = this.createjs||{};
/**
* @class Utility Methods
*/
/**
* Finds the first occurrence of a specified value searchElement in the passed in array, and returns the index of
* that value. Returns -1 if value is not found.
*
* var i = createjs.indexOf(myArray, myElementToFind);
*
* @method indexOf
* @param {Array} array Array to search for searchElement
* @param searchElement Element to find in array.
* @return {Number} The first index of searchElement in array.
*/
createjs.indexOf = function (array, searchElement){
"use strict";
for (var i = 0,l=array.length; i < l; i++) {
if (searchElement === array[i]) {
return i;
}
}
return -1;
};
//##############################################################################
// Event.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Contains properties and methods shared by all events for use with
* {{#crossLink "EventDispatcher"}}{{/crossLink}}.
*
* Note that Event objects are often reused, so you should never
* rely on an event object's state outside of the call stack it was received in.
* @class Event
* @param {String} type The event type.
* @param {Boolean} bubbles Indicates whether the event will bubble through the display list.
* @param {Boolean} cancelable Indicates whether the default behaviour of this event can be cancelled.
* @constructor
**/
function Event(type, bubbles, cancelable) {
// public properties:
/**
* The type of event.
* @property type
* @type String
**/
this.type = type;
/**
* The object that generated an event.
* @property target
* @type Object
* @default null
* @readonly
*/
this.target = null;
/**
* The current target that a bubbling event is being dispatched from. For non-bubbling events, this will
* always be the same as target. For example, if childObj.parent = parentObj, and a bubbling event
* is generated from childObj, then a listener on parentObj would receive the event with
* target=childObj (the original target) and currentTarget=parentObj (where the listener was added).
* @property currentTarget
* @type Object
* @default null
* @readonly
*/
this.currentTarget = null;
/**
* For bubbling events, this indicates the current event phase:
* - capture phase: starting from the top parent to the target
* - at target phase: currently being dispatched from the target
* - bubbling phase: from the target to the top parent
*
* @property eventPhase
* @type Number
* @default 0
* @readonly
*/
this.eventPhase = 0;
/**
* Indicates whether the event will bubble through the display list.
* @property bubbles
* @type Boolean
* @default false
* @readonly
*/
this.bubbles = !!bubbles;
/**
* Indicates whether the default behaviour of this event can be cancelled via
* {{#crossLink "Event/preventDefault"}}{{/crossLink}}. This is set via the Event constructor.
* @property cancelable
* @type Boolean
* @default false
* @readonly
*/
this.cancelable = !!cancelable;
/**
* The epoch time at which this event was created.
* @property timeStamp
* @type Number
* @default 0
* @readonly
*/
this.timeStamp = (new Date()).getTime();
/**
* Indicates if {{#crossLink "Event/preventDefault"}}{{/crossLink}} has been called
* on this event.
* @property defaultPrevented
* @type Boolean
* @default false
* @readonly
*/
this.defaultPrevented = false;
/**
* Indicates if {{#crossLink "Event/stopPropagation"}}{{/crossLink}} or
* {{#crossLink "Event/stopImmediatePropagation"}}{{/crossLink}} has been called on this event.
* @property propagationStopped
* @type Boolean
* @default false
* @readonly
*/
this.propagationStopped = false;
/**
* Indicates if {{#crossLink "Event/stopImmediatePropagation"}}{{/crossLink}} has been called
* on this event.
* @property immediatePropagationStopped
* @type Boolean
* @default false
* @readonly
*/
this.immediatePropagationStopped = false;
/**
* Indicates if {{#crossLink "Event/remove"}}{{/crossLink}} has been called on this event.
* @property removed
* @type Boolean
* @default false
* @readonly
*/
this.removed = false;
}
var p = Event.prototype;
// public methods:
/**
* Sets {{#crossLink "Event/defaultPrevented"}}{{/crossLink}} to true.
* Mirrors the DOM event standard.
* @method preventDefault
**/
p.preventDefault = function() {
this.defaultPrevented = this.cancelable&&true;
};
/**
* Sets {{#crossLink "Event/propagationStopped"}}{{/crossLink}} to true.
* Mirrors the DOM event standard.
* @method stopPropagation
**/
p.stopPropagation = function() {
this.propagationStopped = true;
};
/**
* Sets {{#crossLink "Event/propagationStopped"}}{{/crossLink}} and
* {{#crossLink "Event/immediatePropagationStopped"}}{{/crossLink}} to true.
* Mirrors the DOM event standard.
* @method stopImmediatePropagation
**/
p.stopImmediatePropagation = function() {
this.immediatePropagationStopped = this.propagationStopped = true;
};
/**
* Causes the active listener to be removed via removeEventListener();
*
* myBtn.addEventListener("click", function(evt) {
* // do stuff...
* evt.remove(); // removes this listener.
* });
*
* @method remove
**/
p.remove = function() {
this.removed = true;
};
/**
* Returns a clone of the Event instance.
* @method clone
* @return {Event} a clone of the Event instance.
**/
p.clone = function() {
return new Event(this.type, this.bubbles, this.cancelable);
};
/**
* Provides a chainable shortcut method for setting a number of properties on the instance.
*
* @method set
* @param {Object} props A generic object containing properties to copy to the instance.
* @return {Event} Returns the instance the method is called on (useful for chaining calls.)
*/
p.set = function(props) {
for (var n in props) { this[n] = props[n]; }
return this;
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Event (type="+this.type+")]";
};
createjs.Event = Event;
}());
//##############################################################################
// EventDispatcher.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* EventDispatcher provides methods for managing queues of event listeners and dispatching events.
*
* You can either extend EventDispatcher or mix its methods into an existing prototype or instance by using the
* EventDispatcher {{#crossLink "EventDispatcher/initialize"}}{{/crossLink}} method.
*
* Together with the CreateJS Event class, EventDispatcher provides an extended event model that is based on the
* DOM Level 2 event model, including addEventListener, removeEventListener, and dispatchEvent. It supports
* bubbling / capture, preventDefault, stopPropagation, stopImmediatePropagation, and handleEvent.
*
* EventDispatcher also exposes a {{#crossLink "EventDispatcher/on"}}{{/crossLink}} method, which makes it easier
* to create scoped listeners, listeners that only run once, and listeners with associated arbitrary data. The
* {{#crossLink "EventDispatcher/off"}}{{/crossLink}} method is merely an alias to
* {{#crossLink "EventDispatcher/removeEventListener"}}{{/crossLink}}.
*
* Another addition to the DOM Level 2 model is the {{#crossLink "EventDispatcher/removeAllEventListeners"}}{{/crossLink}}
* method, which can be used to listeners for all events, or listeners for a specific event. The Event object also
* includes a {{#crossLink "Event/remove"}}{{/crossLink}} method which removes the active listener.
*
* Example
* Add EventDispatcher capabilities to the "MyClass" class.
*
* EventDispatcher.initialize(MyClass.prototype);
*
* Add an event (see {{#crossLink "EventDispatcher/addEventListener"}}{{/crossLink}}).
*
* instance.addEventListener("eventName", handlerMethod);
* function handlerMethod(event) {
* console.log(event.target + " Was Clicked");
* }
*
* Maintaining proper scope
* Scope (ie. "this") can be be a challenge with events. Using the {{#crossLink "EventDispatcher/on"}}{{/crossLink}}
* method to subscribe to events simplifies this.
*
* instance.addEventListener("click", function(event) {
* console.log(instance == this); // false, scope is ambiguous.
* });
*
* instance.on("click", function(event) {
* console.log(instance == this); // true, "on" uses dispatcher scope by default.
* });
*
* If you want to use addEventListener instead, you may want to use function.bind() or a similar proxy to manage scope.
*
*
* @class EventDispatcher
* @constructor
**/
function EventDispatcher() {
// private properties:
/**
* @protected
* @property _listeners
* @type Object
**/
this._listeners = null;
/**
* @protected
* @property _captureListeners
* @type Object
**/
this._captureListeners = null;
}
var p = EventDispatcher.prototype;
// static public methods:
/**
* Static initializer to mix EventDispatcher methods into a target object or prototype.
*
* EventDispatcher.initialize(MyClass.prototype); // add to the prototype of the class
* EventDispatcher.initialize(myObject); // add to a specific instance
*
* @method initialize
* @static
* @param {Object} target The target object to inject EventDispatcher methods into. This can be an instance or a
* prototype.
**/
EventDispatcher.initialize = function(target) {
target.addEventListener = p.addEventListener;
target.on = p.on;
target.removeEventListener = target.off = p.removeEventListener;
target.removeAllEventListeners = p.removeAllEventListeners;
target.hasEventListener = p.hasEventListener;
target.dispatchEvent = p.dispatchEvent;
target._dispatchEvent = p._dispatchEvent;
target.willTrigger = p.willTrigger;
};
// public methods:
/**
* Adds the specified event listener. Note that adding multiple listeners to the same function will result in
* multiple callbacks getting fired.
*
* Example
*
* displayObject.addEventListener("click", handleClick);
* function handleClick(event) {
* // Click happened.
* }
*
* @method addEventListener
* @param {String} type The string type of the event.
* @param {Function | Object} listener An object with a handleEvent method, or a function that will be called when
* the event is dispatched.
* @param {Boolean} [useCapture] For events that bubble, indicates whether to listen for the event in the capture or bubbling/target phase.
* @return {Function | Object} Returns the listener for chaining or assignment.
**/
p.addEventListener = function(type, listener, useCapture) {
var listeners;
if (useCapture) {
listeners = this._captureListeners = this._captureListeners||{};
} else {
listeners = this._listeners = this._listeners||{};
}
var arr = listeners[type];
if (arr) { this.removeEventListener(type, listener, useCapture); }
arr = listeners[type]; // remove may have deleted the array
if (!arr) { listeners[type] = [listener]; }
else { arr.push(listener); }
return listener;
};
/**
* A shortcut method for using addEventListener that makes it easier to specify an execution scope, have a listener
* only run once, associate arbitrary data with the listener, and remove the listener.
*
* This method works by creating an anonymous wrapper function and subscribing it with addEventListener.
* The created anonymous function is returned for use with .removeEventListener (or .off).
*
* Example
*
* var listener = myBtn.on("click", handleClick, null, false, {count:3});
* function handleClick(evt, data) {
* data.count -= 1;
* console.log(this == myBtn); // true - scope defaults to the dispatcher
* if (data.count == 0) {
* alert("clicked 3 times!");
* myBtn.off("click", listener);
* // alternately: evt.remove();
* }
* }
*
* @method on
* @param {String} type The string type of the event.
* @param {Function | Object} listener An object with a handleEvent method, or a function that will be called when
* the event is dispatched.
* @param {Object} [scope] The scope to execute the listener in. Defaults to the dispatcher/currentTarget for function listeners, and to the listener itself for object listeners (ie. using handleEvent).
* @param {Boolean} [once=false] If true, the listener will remove itself after the first time it is triggered.
* @param {*} [data] Arbitrary data that will be included as the second parameter when the listener is called.
* @param {Boolean} [useCapture=false] For events that bubble, indicates whether to listen for the event in the capture or bubbling/target phase.
* @return {Function} Returns the anonymous function that was created and assigned as the listener. This is needed to remove the listener later using .removeEventListener.
**/
p.on = function(type, listener, scope, once, data, useCapture) {
if (listener.handleEvent) {
scope = scope||listener;
listener = listener.handleEvent;
}
scope = scope||this;
return this.addEventListener(type, function(evt) {
listener.call(scope, evt, data);
once&&evt.remove();
}, useCapture);
};
/**
* Removes the specified event listener.
*
* Important Note: that you must pass the exact function reference used when the event was added. If a proxy
* function, or function closure is used as the callback, the proxy/closure reference must be used - a new proxy or
* closure will not work.
*
* Example
*
* displayObject.removeEventListener("click", handleClick);
*
* @method removeEventListener
* @param {String} type The string type of the event.
* @param {Function | Object} listener The listener function or object.
* @param {Boolean} [useCapture] For events that bubble, indicates whether to listen for the event in the capture or bubbling/target phase.
**/
p.removeEventListener = function(type, listener, useCapture) {
var listeners = useCapture ? this._captureListeners : this._listeners;
if (!listeners) { return; }
var arr = listeners[type];
if (!arr) { return; }
for (var i=0,l=arr.length; iExample
*
* // Remove all listeners
* displayObject.removeAllEventListeners();
*
* // Remove all click listeners
* displayObject.removeAllEventListeners("click");
*
* @method removeAllEventListeners
* @param {String} [type] The string type of the event. If omitted, all listeners for all types will be removed.
**/
p.removeAllEventListeners = function(type) {
if (!type) { this._listeners = this._captureListeners = null; }
else {
if (this._listeners) { delete(this._listeners[type]); }
if (this._captureListeners) { delete(this._captureListeners[type]); }
}
};
/**
* Dispatches the specified event to all listeners.
*
* Example
*
* // Use a string event
* this.dispatchEvent("complete");
*
* // Use an Event instance
* var event = new createjs.Event("progress");
* this.dispatchEvent(event);
*
* @method dispatchEvent
* @param {Object | String | Event} eventObj An object with a "type" property, or a string type.
* While a generic object will work, it is recommended to use a CreateJS Event instance. If a string is used,
* dispatchEvent will construct an Event instance with the specified type.
* @return {Boolean} Returns the value of eventObj.defaultPrevented.
**/
p.dispatchEvent = function(eventObj) {
if (typeof eventObj == "string") {
// won't bubble, so skip everything if there's no listeners:
var listeners = this._listeners;
if (!listeners || !listeners[eventObj]) { return false; }
eventObj = new createjs.Event(eventObj);
} else if (eventObj.target && eventObj.clone) {
// redispatching an active event object, so clone it:
eventObj = eventObj.clone();
}
try { eventObj.target = this; } catch (e) {} // try/catch allows redispatching of native events
if (!eventObj.bubbles || !this.parent) {
this._dispatchEvent(eventObj, 2);
} else {
var top=this, list=[top];
while (top.parent) { list.push(top = top.parent); }
var i, l=list.length;
// capture & atTarget
for (i=l-1; i>=0 && !eventObj.propagationStopped; i--) {
list[i]._dispatchEvent(eventObj, 1+(i==0));
}
// bubbling
for (i=1; iTicker.getPaused()) and
* should not be instantiated.
*
* Example
*
* createjs.Ticker.addEventListener("tick", handleTick);
* function handleTick(event) {
* // Actions carried out each frame
* if (!event.paused) {
* // Actions carried out when the Ticker is not paused.
* }
* }
*
* To update a stage every tick, the {{#crossLink "Stage"}}{{/crossLink}} instance can also be used as a listener, as
* it will automatically update when it receives a tick event:
*
* createjs.Ticker.addEventListener("tick", stage);
*
* @class Ticker
* @uses EventDispatcher
* @static
**/
function Ticker() {
throw "Ticker cannot be instantiated.";
}
// constants:
/**
* In this mode, Ticker uses the requestAnimationFrame API, but attempts to synch the ticks to target framerate. It
* uses a simple heuristic that compares the time of the RAF return to the target time for the current frame and
* dispatches the tick when the time is within a certain threshold.
*
* This mode has a higher variance for time between frames than TIMEOUT, but does not require that content be time
* based as with RAF while gaining the benefits of that API (screen synch, background throttling).
*
* Variance is usually lowest for framerates that are a divisor of the RAF frequency. This is usually 60, so
* framerates of 10, 12, 15, 20, and 30 work well.
*
* Falls back on TIMEOUT if the requestAnimationFrame API is not supported.
* @property RAF_SYNCHED
* @static
* @type {String}
* @default "synched"
* @readonly
**/
Ticker.RAF_SYNCHED = "synched";
/**
* In this mode, Ticker passes through the requestAnimationFrame heartbeat, ignoring the target framerate completely.
* Because requestAnimationFrame frequency is not deterministic, any content using this mode should be time based.
* You can leverage {{#crossLink "Ticker/getTime"}}{{/crossLink}} and the tick event object's "delta" properties
* to make this easier.
*
* Falls back on TIMEOUT if the requestAnimationFrame API is not supported.
* @property RAF
* @static
* @type {String}
* @default "raf"
* @readonly
**/
Ticker.RAF = "raf";
/**
* In this mode, Ticker uses the setTimeout API. This provides predictable, adaptive frame timing, but does not
* provide the benefits of requestAnimationFrame (screen synch, background throttling).
* @property TIMEOUT
* @static
* @type {String}
* @default "timer"
* @readonly
**/
Ticker.TIMEOUT = "timeout";
// static events:
/**
* Dispatched each tick. The event will be dispatched to each listener even when the Ticker has been paused using
* {{#crossLink "Ticker/setPaused"}}{{/crossLink}}.
*
* Example
*
* createjs.Ticker.addEventListener("tick", handleTick);
* function handleTick(event) {
* console.log("Paused:", event.paused, event.delta);
* }
*
* @event tick
* @param {Object} target The object that dispatched the event.
* @param {String} type The event type.
* @param {Boolean} paused Indicates whether the ticker is currently paused.
* @param {Number} delta The time elapsed in ms since the last tick.
* @param {Number} time The total time in ms since Ticker was initialized.
* @param {Number} runTime The total time in ms that Ticker was not paused since it was initialized. For example,
* you could determine the amount of time that the Ticker has been paused since initialization with time-runTime.
* @since 0.6.0
*/
// public static properties:
/**
* Deprecated in favour of {{#crossLink "Ticker/timingMode"}}{{/crossLink}}, and will be removed in a future version. If true, timingMode will
* use {{#crossLink "Ticker/RAF_SYNCHED"}}{{/crossLink}} by default.
* @deprecated Deprecated in favour of {{#crossLink "Ticker/timingMode"}}{{/crossLink}}.
* @property useRAF
* @static
* @type {Boolean}
* @default false
**/
Ticker.useRAF = false;
/**
* Specifies the timing api (setTimeout or requestAnimationFrame) and mode to use. See
* {{#crossLink "Ticker/TIMEOUT"}}{{/crossLink}}, {{#crossLink "Ticker/RAF"}}{{/crossLink}}, and
* {{#crossLink "Ticker/RAF_SYNCHED"}}{{/crossLink}} for mode details.
* @property timingMode
* @static
* @type {String}
* @default Ticker.TIMEOUT
**/
Ticker.timingMode = null;
/**
* Specifies a maximum value for the delta property in the tick event object. This is useful when building time
* based animations and systems to prevent issues caused by large time gaps caused by background tabs, system sleep,
* alert dialogs, or other blocking routines. Double the expected frame duration is often an effective value
* (ex. maxDelta=50 when running at 40fps).
*
* This does not impact any other values (ex. time, runTime, etc), so you may experience issues if you enable maxDelta
* when using both delta and other values.
*
* If 0, there is no maximum.
* @property maxDelta
* @static
* @type {number}
* @default 0
*/
Ticker.maxDelta = 0;
// mix-ins:
// EventDispatcher methods:
Ticker.removeEventListener = null;
Ticker.removeAllEventListeners = null;
Ticker.dispatchEvent = null;
Ticker.hasEventListener = null;
Ticker._listeners = null;
createjs.EventDispatcher.initialize(Ticker); // inject EventDispatcher methods.
Ticker._addEventListener = Ticker.addEventListener;
Ticker.addEventListener = function() {
!Ticker._inited&&Ticker.init();
return Ticker._addEventListener.apply(Ticker, arguments);
};
// private static properties:
/**
* @property _paused
* @type {Boolean}
* @protected
**/
Ticker._paused = false;
/**
* @property _inited
* @type {Boolean}
* @protected
**/
Ticker._inited = false;
/**
* @property _startTime
* @type {Number}
* @protected
**/
Ticker._startTime = 0;
/**
* @property _pausedTime
* @type {Number}
* @protected
**/
Ticker._pausedTime=0;
/**
* The number of ticks that have passed
* @property _ticks
* @type {Number}
* @protected
**/
Ticker._ticks = 0;
/**
* The number of ticks that have passed while Ticker has been paused
* @property _pausedTicks
* @type {Number}
* @protected
**/
Ticker._pausedTicks = 0;
/**
* @property _interval
* @type {Number}
* @protected
**/
Ticker._interval = 50;
/**
* @property _lastTime
* @type {Number}
* @protected
**/
Ticker._lastTime = 0;
/**
* @property _times
* @type {Array}
* @protected
**/
Ticker._times = null;
/**
* @property _tickTimes
* @type {Array}
* @protected
**/
Ticker._tickTimes = null;
/**
* Stores the timeout or requestAnimationFrame id.
* @property _timerId
* @type {Number}
* @protected
**/
Ticker._timerId = null;
/**
* True if currently using requestAnimationFrame, false if using setTimeout.
* @property _raf
* @type {Boolean}
* @protected
**/
Ticker._raf = true;
// public static methods:
/**
* Starts the tick. This is called automatically when the first listener is added.
* @method init
* @static
**/
Ticker.init = function() {
if (Ticker._inited) { return; }
Ticker._inited = true;
Ticker._times = [];
Ticker._tickTimes = [];
Ticker._startTime = Ticker._getTime();
Ticker._times.push(Ticker._lastTime = 0);
Ticker.setInterval(Ticker._interval);
};
/**
* Stops the Ticker and removes all listeners. Use init() to restart the Ticker.
* @method reset
* @static
**/
Ticker.reset = function() {
if (Ticker._raf) {
var f = window.cancelAnimationFrame || window.webkitCancelAnimationFrame || window.mozCancelAnimationFrame || window.oCancelAnimationFrame || window.msCancelAnimationFrame;
f&&f(Ticker._timerId);
} else {
clearTimeout(Ticker._timerId);
}
Ticker.removeAllEventListeners("tick");
Ticker._timerId = null;
Ticker._inited = false;
};
/**
* Sets the target time (in milliseconds) between ticks. Default is 50 (20 FPS).
*
* Note actual time between ticks may be more than requested depending on CPU load.
* @method setInterval
* @static
* @param {Number} interval Time in milliseconds between ticks. Default value is 50.
**/
Ticker.setInterval = function(interval) {
Ticker._interval = interval;
if (!Ticker._inited) { return; }
Ticker._setupTick();
};
/**
* Returns the current target time between ticks, as set with {{#crossLink "Ticker/setInterval"}}{{/crossLink}}.
* @method getInterval
* @static
* @return {Number} The current target interval in milliseconds between tick events.
**/
Ticker.getInterval = function() {
return Ticker._interval;
};
/**
* Sets the target frame rate in frames per second (FPS). For example, with an interval of 40, getFPS()
* will return 25 (1000ms per second divided by 40 ms per tick = 25fps).
* @method setFPS
* @static
* @param {Number} value Target number of ticks broadcast per second.
**/
Ticker.setFPS = function(value) {
Ticker.setInterval(1000/value);
};
/**
* Returns the target frame rate in frames per second (FPS). For example, with an interval of 40, getFPS()
* will return 25 (1000ms per second divided by 40 ms per tick = 25fps).
* @method getFPS
* @static
* @return {Number} The current target number of frames / ticks broadcast per second.
**/
Ticker.getFPS = function() {
return 1000/Ticker._interval;
};
/**
* Returns the average time spent within a tick. This can vary significantly from the value provided by getMeasuredFPS
* because it only measures the time spent within the tick execution stack.
*
* Example 1: With a target FPS of 20, getMeasuredFPS() returns 20fps, which indicates an average of 50ms between
* the end of one tick and the end of the next. However, getMeasuredTickTime() returns 15ms. This indicates that
* there may be up to 35ms of "idle" time between the end of one tick and the start of the next.
*
* Example 2: With a target FPS of 30, getFPS() returns 10fps, which indicates an average of 100ms between the end of
* one tick and the end of the next. However, getMeasuredTickTime() returns 20ms. This would indicate that something
* other than the tick is using ~80ms (another script, DOM rendering, etc).
* @method getMeasuredTickTime
* @static
* @param {Number} [ticks] The number of previous ticks over which to measure the average time spent in a tick.
* Defaults to the number of ticks per second. To get only the last tick's time, pass in 1.
* @return {Number} The average time spent in a tick in milliseconds.
**/
Ticker.getMeasuredTickTime = function(ticks) {
var ttl=0, times=Ticker._tickTimes;
if (!times || times.length < 1) { return -1; }
// by default, calculate average for the past ~1 second:
ticks = Math.min(times.length, ticks||(Ticker.getFPS()|0));
for (var i=0; itick event. When the ticker is paused, all
* listeners will still receive a tick event, but the paused
property will be false.
*
* Note that in EaselJS v0.5.0 and earlier, "pauseable" listeners would not receive the tick
* callback when Ticker was paused. This is no longer the case.
*
* Example
*
* createjs.Ticker.addEventListener("tick", handleTick);
* createjs.Ticker.setPaused(true);
* function handleTick(event) {
* console.log("Paused:", event.paused, createjs.Ticker.getPaused());
* }
*
* @method setPaused
* @static
* @param {Boolean} value Indicates whether to pause (true) or unpause (false) Ticker.
**/
Ticker.setPaused = function(value) {
Ticker._paused = value;
};
/**
* Returns a boolean indicating whether Ticker is currently paused, as set with {{#crossLink "Ticker/setPaused"}}{{/crossLink}}.
* When the ticker is paused, all listeners will still receive a tick event, but this value will be false.
*
* Note that in EaselJS v0.5.0 and earlier, "pauseable" listeners would not receive the tick
* callback when Ticker was paused. This is no longer the case.
*
* Example
*
* createjs.Ticker.addEventListener("tick", handleTick);
* createjs.Ticker.setPaused(true);
* function handleTick(event) {
* console.log("Paused:", createjs.Ticker.getPaused());
* }
*
* @method getPaused
* @static
* @return {Boolean} Whether the Ticker is currently paused.
**/
Ticker.getPaused = function() {
return Ticker._paused;
};
/**
* Returns the number of milliseconds that have elapsed since Ticker was initialized via {{#crossLink "Ticker/init"}}.
* Returns -1 if Ticker has not been initialized. For example, you could use
* this in a time synchronized animation to determine the exact amount of time that has elapsed.
* @method getTime
* @static
* @param {Boolean} [runTime=false] If true only time elapsed while Ticker was not paused will be returned.
* If false, the value returned will be total time elapsed since the first tick event listener was added.
* @return {Number} Number of milliseconds that have elapsed since Ticker was initialized or -1.
**/
Ticker.getTime = function(runTime) {
return Ticker._startTime ? Ticker._getTime() - Ticker._startTime - (runTime ? Ticker._pausedTime : 0) : -1;
};
/**
* Similar to getTime(), but returns the time included with the current (or most recent) tick event object.
* @method getEventTime
* @param runTime {Boolean} [runTime=false] If true, the runTime property will be returned instead of time.
* @returns {number} The time or runTime property from the most recent tick event or -1.
*/
Ticker.getEventTime = function(runTime) {
return Ticker._startTime ? (Ticker._lastTime || Ticker._startTime) - (runTime ? Ticker._pausedTime : 0) : -1;
};
/**
* Returns the number of ticks that have been broadcast by Ticker.
* @method getTicks
* @static
* @param {Boolean} pauseable Indicates whether to include ticks that would have been broadcast
* while Ticker was paused. If true only tick events broadcast while Ticker is not paused will be returned.
* If false, tick events that would have been broadcast while Ticker was paused will be included in the return
* value. The default value is false.
* @return {Number} of ticks that have been broadcast.
**/
Ticker.getTicks = function(pauseable) {
return Ticker._ticks - (pauseable ?Ticker._pausedTicks : 0);
};
// private static methods:
/**
* @method _handleSynch
* @static
* @protected
**/
Ticker._handleSynch = function() {
Ticker._timerId = null;
Ticker._setupTick();
// run if enough time has elapsed, with a little bit of flexibility to be early:
if (Ticker._getTime() - Ticker._lastTime >= (Ticker._interval-1)*0.97) {
Ticker._tick();
}
};
/**
* @method _handleRAF
* @static
* @protected
**/
Ticker._handleRAF = function() {
Ticker._timerId = null;
Ticker._setupTick();
Ticker._tick();
};
/**
* @method _handleTimeout
* @static
* @protected
**/
Ticker._handleTimeout = function() {
Ticker._timerId = null;
Ticker._setupTick();
Ticker._tick();
};
/**
* @method _setupTick
* @static
* @protected
**/
Ticker._setupTick = function() {
if (Ticker._timerId != null) { return; } // avoid duplicates
var mode = Ticker.timingMode||(Ticker.useRAF&&Ticker.RAF_SYNCHED);
if (mode == Ticker.RAF_SYNCHED || mode == Ticker.RAF) {
var f = window.requestAnimationFrame || window.webkitRequestAnimationFrame || window.mozRequestAnimationFrame || window.oRequestAnimationFrame || window.msRequestAnimationFrame;
if (f) {
Ticker._timerId = f(mode == Ticker.RAF ? Ticker._handleRAF : Ticker._handleSynch);
Ticker._raf = true;
return;
}
}
Ticker._raf = false;
Ticker._timerId = setTimeout(Ticker._handleTimeout, Ticker._interval);
};
/**
* @method _tick
* @static
* @protected
**/
Ticker._tick = function() {
var time = Ticker._getTime();
var adjTime = time-Ticker._startTime;
var elapsedTime = time-Ticker._lastTime;
var paused = Ticker._paused;
Ticker._ticks++;
if (paused) {
Ticker._pausedTicks++;
Ticker._pausedTime += elapsedTime;
}
Ticker._lastTime = time;
if (Ticker.hasEventListener("tick")) {
var event = new createjs.Event("tick");
var maxDelta = Ticker.maxDelta;
event.delta = (maxDelta && elapsedTime > maxDelta) ? maxDelta : elapsedTime;
event.paused = paused;
event.time = adjTime;
event.runTime = adjTime-Ticker._pausedTime;
Ticker.dispatchEvent(event);
}
Ticker._tickTimes.unshift(Ticker._getTime()-time);
while (Ticker._tickTimes.length > 100) { Ticker._tickTimes.pop(); }
Ticker._times.unshift(adjTime);
while (Ticker._times.length > 100) { Ticker._times.pop(); }
};
/**
* @method _getTime
* @static
* @protected
**/
var now = window.performance && (performance.now || performance.mozNow || performance.msNow || performance.oNow || performance.webkitNow);
Ticker._getTime = function() {
return (now&&now.call(performance))||(new Date().getTime());
};
createjs.Ticker = Ticker;
}());
//##############################################################################
// UID.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Global utility for generating sequential unique ID numbers. The UID class uses a static interface (ex. UID.get()
)
* and should not be instantiated.
* @class UID
* @static
**/
function UID() {
throw "UID cannot be instantiated";
}
// private static properties:
/**
* @property _nextID
* @type Number
* @protected
**/
UID._nextID = 0;
// public static methods:
/**
* Returns the next unique id.
* @method get
* @return {Number} The next unique id
* @static
**/
UID.get = function() {
return UID._nextID++;
};
createjs.UID = UID;
}());
//##############################################################################
// MouseEvent.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Passed as the parameter to all mouse/pointer/touch related events. For a listing of mouse events and their properties,
* see the {{#crossLink "DisplayObject"}}{{/crossLink}} and {{#crossLink "Stage"}}{{/crossLink}} event listings.
* @class MouseEvent
* @param {String} type The event type.
* @param {Boolean} bubbles Indicates whether the event will bubble through the display list.
* @param {Boolean} cancelable Indicates whether the default behaviour of this event can be cancelled.
* @param {Number} stageX The normalized x position relative to the stage.
* @param {Number} stageY The normalized y position relative to the stage.
* @param {MouseEvent} nativeEvent The native DOM event related to this mouse event.
* @param {Number} pointerID The unique id for the pointer.
* @param {Boolean} primary Indicates whether this is the primary pointer in a multitouch environment.
* @param {Number} rawX The raw x position relative to the stage.
* @param {Number} rawY The raw y position relative to the stage.
* @extends Event
* @constructor
**/
function MouseEvent(type, bubbles, cancelable, stageX, stageY, nativeEvent, pointerID, primary, rawX, rawY) {
this.Event_constructor(type, bubbles, cancelable);
// public properties:
/**
* The normalized x position on the stage. This will always be within the range 0 to stage width.
* @property stageX
* @type Number
*/
this.stageX = stageX;
/**
* The normalized y position on the stage. This will always be within the range 0 to stage height.
* @property stageY
* @type Number
**/
this.stageY = stageY;
/**
* The raw x position relative to the stage. Normally this will be the same as the stageX value, unless
* stage.mouseMoveOutside is true and the pointer is outside of the stage bounds.
* @property rawX
* @type Number
*/
this.rawX = (rawX==null)?stageX:rawX;
/**
* The raw y position relative to the stage. Normally this will be the same as the stageY value, unless
* stage.mouseMoveOutside is true and the pointer is outside of the stage bounds.
* @property rawY
* @type Number
*/
this.rawY = (rawY==null)?stageY:rawY;
/**
* The native MouseEvent generated by the browser. The properties and API for this
* event may differ between browsers. This property will be null if the
* EaselJS property was not directly generated from a native MouseEvent.
* @property nativeEvent
* @type HtmlMouseEvent
* @default null
**/
this.nativeEvent = nativeEvent;
/**
* The unique id for the pointer (touch point or cursor). This will be either -1 for the mouse, or the system
* supplied id value.
* @property pointerID
* @type {Number}
*/
this.pointerID = pointerID;
/**
* Indicates whether this is the primary pointer in a multitouch environment. This will always be true for the mouse.
* For touch pointers, the first pointer in the current stack will be considered the primary pointer.
* @property primary
* @type {Boolean}
*/
this.primary = !!primary;
}
var p = createjs.extend(MouseEvent, createjs.Event);
// getter / setters:
/**
* Returns the x position of the mouse in the local coordinate system of the current target (ie. the dispatcher).
* @property localX
* @type {Number}
* @readonly
*/
p._get_localX = function() {
return this.currentTarget.globalToLocal(this.rawX, this.rawY).x;
};
/**
* Returns the y position of the mouse in the local coordinate system of the current target (ie. the dispatcher).
* @property localY
* @type {Number}
* @readonly
*/
p._get_localY = function() {
return this.currentTarget.globalToLocal(this.rawX, this.rawY).y;
};
try {
Object.defineProperties(p, {
localX: { get: p._get_localX },
localY: { get: p._get_localY }
});
} catch (e) {} // TODO: use Log
// public methods:
/**
* Returns a clone of the MouseEvent instance.
* @method clone
* @return {MouseEvent} a clone of the MouseEvent instance.
**/
p.clone = function() {
return new MouseEvent(this.type, this.bubbles, this.cancelable, this.stageX, this.stageY, this.nativeEvent, this.pointerID, this.primary, this.rawX, this.rawY);
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[MouseEvent (type="+this.type+" stageX="+this.stageX+" stageY="+this.stageY+")]";
};
createjs.MouseEvent = createjs.promote(MouseEvent, "Event");
}());
//##############################################################################
// Matrix2D.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Represents an affine transformation matrix, and provides tools for constructing and concatenating matrixes.
* @class Matrix2D
* @param {Number} [a=1] Specifies the a property for the new matrix.
* @param {Number} [b=0] Specifies the b property for the new matrix.
* @param {Number} [c=0] Specifies the c property for the new matrix.
* @param {Number} [d=1] Specifies the d property for the new matrix.
* @param {Number} [tx=0] Specifies the tx property for the new matrix.
* @param {Number} [ty=0] Specifies the ty property for the new matrix.
* @constructor
**/
function Matrix2D(a, b, c, d, tx, ty) {
this.setValues(a,b,c,d,tx,ty);
// public properties:
// assigned in the setValues method.
/**
* Position (0, 0) in a 3x3 affine transformation matrix.
* @property a
* @type Number
**/
/**
* Position (0, 1) in a 3x3 affine transformation matrix.
* @property b
* @type Number
**/
/**
* Position (1, 0) in a 3x3 affine transformation matrix.
* @property c
* @type Number
**/
/**
* Position (1, 1) in a 3x3 affine transformation matrix.
* @property d
* @type Number
**/
/**
* Position (2, 0) in a 3x3 affine transformation matrix.
* @property tx
* @type Number
**/
/**
* Position (2, 1) in a 3x3 affine transformation matrix.
* @property ty
* @type Number
**/
}
var p = Matrix2D.prototype;
// constants:
/**
* Multiplier for converting degrees to radians. Used internally by Matrix2D.
* @property DEG_TO_RAD
* @static
* @final
* @type Number
* @readonly
**/
Matrix2D.DEG_TO_RAD = Math.PI/180;
// static public properties:
/**
* An identity matrix, representing a null transformation.
* @property identity
* @static
* @type Matrix2D
* @readonly
**/
Matrix2D.identity = null; // set at bottom of class definition.
// public methods:
/**
* Sets the specified values on this instance.
* @method setValues
* @param {Number} [a=1] Specifies the a property for the new matrix.
* @param {Number} [b=0] Specifies the b property for the new matrix.
* @param {Number} [c=0] Specifies the c property for the new matrix.
* @param {Number} [d=1] Specifies the d property for the new matrix.
* @param {Number} [tx=0] Specifies the tx property for the new matrix.
* @param {Number} [ty=0] Specifies the ty property for the new matrix.
* @return {Matrix2D} This instance. Useful for chaining method calls.
*/
p.setValues = function(a, b, c, d, tx, ty) {
// don't forget to update docs in the constructor if these change:
this.a = (a == null) ? 1 : a;
this.b = b || 0;
this.c = c || 0;
this.d = (d == null) ? 1 : d;
this.tx = tx || 0;
this.ty = ty || 0;
return this;
};
/**
* Appends the specified matrix properties to this matrix. All parameters are required.
* This is the equivalent of multiplying `(this matrix) * (specified matrix)`.
* @method append
* @param {Number} a
* @param {Number} b
* @param {Number} c
* @param {Number} d
* @param {Number} tx
* @param {Number} ty
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.append = function(a, b, c, d, tx, ty) {
var tx1 = this.tx;
if (a != 1 || b != 0 || c != 0 || d != 1) {
var a1 = this.a;
var c1 = this.c;
this.a = a1*a+this.b*c;
this.b = a1*b+this.b*d;
this.c = c1*a+this.d*c;
this.d = c1*b+this.d*d;
}
this.tx = tx1*a+this.ty*c+tx;
this.ty = tx1*b+this.ty*d+ty;
return this;
};
/**
* Prepends the specified matrix properties to this matrix.
* This is the equivalent of multiplying `(specified matrix) * (this matrix)`.
* All parameters are required.
* @method prepend
* @param {Number} a
* @param {Number} b
* @param {Number} c
* @param {Number} d
* @param {Number} tx
* @param {Number} ty
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.prepend = function(a, b, c, d, tx, ty) {
var a1 = this.a;
var b1 = this.b;
var c1 = this.c;
var d1 = this.d;
this.a = a*a1+b*c1;
this.b = a*b1+b*d1;
this.c = c*a1+d*c1;
this.d = c*b1+d*d1;
this.tx = tx*a1+ty*c1+this.tx;
this.ty = tx*b1+ty*d1+this.ty;
return this;
};
/**
* Appends the specified matrix to this matrix.
* This is the equivalent of multiplying `(this matrix) * (specified matrix)`.
* For example, you could calculate the combined transformation for a child object using:
* var o = myDisplayObject;
* var mtx = o.getMatrix();
* while (o = o.parent) {
* // append each parent's transformation in turn:
* o.appendMatrix(o.getMatrix());
* }
* @method appendMatrix
* @param {Matrix2D} matrix
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.appendMatrix = function(matrix) {
return this.append(matrix.a, matrix.b, matrix.c, matrix.d, matrix.tx, matrix.ty);
};
/**
* Prepends the specified matrix to this matrix.
* This is the equivalent of multiplying `(specified matrix) * (this matrix)`.
* @method prependMatrix
* @param {Matrix2D} matrix
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.prependMatrix = function(matrix) {
return this.prepend(matrix.a, matrix.b, matrix.c, matrix.d, matrix.tx, matrix.ty);
};
/**
* Generates matrix properties from the specified display object transform properties, and appends them to this matrix.
* For example, you can use this to generate a matrix from a display object:
*
* var mtx = new Matrix2D();
* mtx.appendTransform(o.x, o.y, o.scaleX, o.scaleY, o.rotation);
* @method appendTransform
* @param {Number} x
* @param {Number} y
* @param {Number} scaleX
* @param {Number} scaleY
* @param {Number} rotation
* @param {Number} skewX
* @param {Number} skewY
* @param {Number} regX Optional.
* @param {Number} regY Optional.
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.appendTransform = function(x, y, scaleX, scaleY, rotation, skewX, skewY, regX, regY) {
if (rotation%360) {
var r = rotation*Matrix2D.DEG_TO_RAD;
var cos = Math.cos(r);
var sin = Math.sin(r);
} else {
cos = 1;
sin = 0;
}
if (regX || regY) {
// append the registration offset:
this.tx -= regX; this.ty -= regY;
}
if (skewX || skewY) {
// TODO: can this be combined into a single prepend operation?
skewX *= Matrix2D.DEG_TO_RAD;
skewY *= Matrix2D.DEG_TO_RAD;
this.append(cos*scaleX, sin*scaleX, -sin*scaleY, cos*scaleY, 0, 0);
this.append(Math.cos(skewY), Math.sin(skewY), -Math.sin(skewX), Math.cos(skewX), x, y);
} else {
this.append(cos*scaleX, sin*scaleX, -sin*scaleY, cos*scaleY, x, y);
}
return this;
};
/**
* Generates matrix properties from the specified display object transform properties, and prepends them to this matrix.
* For example, you can use this to generate a matrix from a display object:
*
* var mtx = new Matrix2D();
* mtx.prependTransform(o.x, o.y, o.scaleX, o.scaleY, o.rotation);
* @method prependTransform
* @param {Number} x
* @param {Number} y
* @param {Number} scaleX
* @param {Number} scaleY
* @param {Number} rotation
* @param {Number} skewX
* @param {Number} skewY
* @param {Number} regX Optional.
* @param {Number} regY Optional.
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.prependTransform = function(x, y, scaleX, scaleY, rotation, skewX, skewY, regX, regY) {
if (rotation%360) {
var r = rotation*Matrix2D.DEG_TO_RAD;
var cos = Math.cos(r);
var sin = Math.sin(r);
} else {
cos = 1;
sin = 0;
}
if (skewX || skewY) {
// TODO: can this be combined into a single append?
skewX *= Matrix2D.DEG_TO_RAD;
skewY *= Matrix2D.DEG_TO_RAD;
this.prepend(Math.cos(skewY), Math.sin(skewY), -Math.sin(skewX), Math.cos(skewX), x, y);
this.prepend(cos*scaleX, sin*scaleX, -sin*scaleY, cos*scaleY, 0, 0);
} else {
this.prepend(cos*scaleX, sin*scaleX, -sin*scaleY, cos*scaleY, x, y);
}
if (regX || regY) {
// prepend the registration offset:
this.tx -= regX*this.a+regY*this.c;
this.ty -= regX*this.b+regY*this.d;
}
return this;
};
/**
* Applies a rotation transformation to the matrix.
* @method rotate
* @param {Number} angle The angle in radians. To use degrees, multiply by `Math.PI/180`.
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.rotate = function(angle) {
var cos = Math.cos(angle);
var sin = Math.sin(angle);
var a1 = this.a;
var c1 = this.c;
var tx1 = this.tx;
this.a = a1*cos-this.b*sin;
this.b = a1*sin+this.b*cos;
this.c = c1*cos-this.d*sin;
this.d = c1*sin+this.d*cos;
this.tx = tx1*cos-this.ty*sin;
this.ty = tx1*sin+this.ty*cos;
return this;
};
/**
* Applies a skew transformation to the matrix.
* @method skew
* @param {Number} skewX The amount to skew horizontally in degrees.
* @param {Number} skewY The amount to skew vertically in degrees.
* @return {Matrix2D} This matrix. Useful for chaining method calls.
*/
p.skew = function(skewX, skewY) {
skewX = skewX*Matrix2D.DEG_TO_RAD;
skewY = skewY*Matrix2D.DEG_TO_RAD;
this.prepend(Math.cos(skewY), Math.sin(skewY), -Math.sin(skewX), Math.cos(skewX), 0, 0);
return this;
};
/**
* Applies a scale transformation to the matrix.
* @method scale
* @param {Number} x The amount to scale horizontally
* @param {Number} y The amount to scale vertically
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.scale = function(x, y) {
this.a *= x;
this.d *= y;
this.c *= x;
this.b *= y;
this.tx *= x;
this.ty *= y;
return this;
};
/**
* Translates the matrix on the x and y axes.
* @method translate
* @param {Number} x
* @param {Number} y
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.translate = function(x, y) {
this.tx += x;
this.ty += y;
return this;
};
/**
* Sets the properties of the matrix to those of an identity matrix (one that applies a null transformation).
* @method identity
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.identity = function() {
this.a = this.d = 1;
this.b = this.c = this.tx = this.ty = 0;
return this;
};
/**
* Inverts the matrix, causing it to perform the opposite transformation.
* @method invert
* @return {Matrix2D} This matrix. Useful for chaining method calls.
**/
p.invert = function() {
var a1 = this.a;
var b1 = this.b;
var c1 = this.c;
var d1 = this.d;
var tx1 = this.tx;
var n = a1*d1-b1*c1;
this.a = d1/n;
this.b = -b1/n;
this.c = -c1/n;
this.d = a1/n;
this.tx = (c1*this.ty-d1*tx1)/n;
this.ty = -(a1*this.ty-b1*tx1)/n;
return this;
};
/**
* Returns true if the matrix is an identity matrix.
* @method isIdentity
* @return {Boolean}
**/
p.isIdentity = function() {
return this.tx === 0 && this.ty === 0 && this.a === 1 && this.b === 0 && this.c === 0 && this.d === 1;
};
/**
* Returns true if this matrix is equal to the specified matrix (all property values are equal).
* @method equals
* @param {Matrix2D} matrix The matrix to compare.
* @return {Boolean}
**/
p.equals = function(matrix) {
return this.tx === matrix.tx && this.ty === matrix.ty && this.a === matrix.a && this.b === matrix.b && this.c === matrix.c && this.d === matrix.d;
};
/**
* Transforms a point according to this matrix.
* @method transformPoint
* @param {Number} x The x component of the point to transform.
* @param {Number} y The y component of the point to transform.
* @param {Point | Object} [pt] An object to copy the result into. If omitted a generic object with x/y properties will be returned.
* @return {Point} This matrix. Useful for chaining method calls.
**/
p.transformPoint = function(x, y, pt) {
pt = pt||{};
pt.x = x*this.a+y*this.c+this.tx;
pt.y = x*this.b+y*this.d+this.ty;
return pt;
};
/**
* Decomposes the matrix into transform properties (x, y, scaleX, scaleY, and rotation). Note that these values
* may not match the transform properties you used to generate the matrix, though they will produce the same visual
* results.
* @method decompose
* @param {Object} target The object to apply the transform properties to. If null, then a new object will be returned.
* @return {Object} The target, or a new generic object with the transform properties applied.
*/
p.decompose = function(target) {
// TODO: it would be nice to be able to solve for whether the matrix can be decomposed into only scale/rotation even when scale is negative
if (target == null) { target = {}; }
target.x = this.tx;
target.y = this.ty;
target.scaleX = Math.sqrt(this.a * this.a + this.b * this.b);
target.scaleY = Math.sqrt(this.c * this.c + this.d * this.d);
var skewX = Math.atan2(-this.c, this.d);
var skewY = Math.atan2(this.b, this.a);
var delta = Math.abs(1-skewX/skewY);
if (delta < 0.00001) { // effectively identical, can use rotation:
target.rotation = skewY/Matrix2D.DEG_TO_RAD;
if (this.a < 0 && this.d >= 0) {
target.rotation += (target.rotation <= 0) ? 180 : -180;
}
target.skewX = target.skewY = 0;
} else {
target.skewX = skewX/Matrix2D.DEG_TO_RAD;
target.skewY = skewY/Matrix2D.DEG_TO_RAD;
}
return target;
};
/**
* Copies all properties from the specified matrix to this matrix.
* @method copy
* @param {Matrix2D} matrix The matrix to copy properties from.
* @return {Matrix2D} This matrix. Useful for chaining method calls.
*/
p.copy = function(matrix) {
return this.setValues(matrix.a, matrix.b, matrix.c, matrix.d, matrix.tx, matrix.ty);
};
/**
* Returns a clone of the Matrix2D instance.
* @method clone
* @return {Matrix2D} a clone of the Matrix2D instance.
**/
p.clone = function() {
return new Matrix2D(this.a, this.b, this.c, this.d, this.tx, this.ty);
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Matrix2D (a="+this.a+" b="+this.b+" c="+this.c+" d="+this.d+" tx="+this.tx+" ty="+this.ty+")]";
};
// this has to be populated after the class is defined:
Matrix2D.identity = new Matrix2D();
createjs.Matrix2D = Matrix2D;
}());
//##############################################################################
// DisplayProps.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
/**
* Used for calculating and encapsulating display related properties.
* @class DisplayProps
* @param {Number} [visible=true] Visible value.
* @param {Number} [alpha=0] Alpha value.
* @param {Number} [shadow=null] A Shadow instance or null.
* @param {Number} [compositeOperation=null] A compositeOperation value or null.
* @param {Number} [matrix] A transformation matrix. Defaults to a new identity matrix.
* @constructor
**/
function DisplayProps(visible, alpha, shadow, compositeOperation, matrix) {
this.setValues(visible, alpha, shadow, compositeOperation, matrix);
// public properties:
// assigned in the setValues method.
/**
* Property representing the alpha that will be applied to a display object.
* @property alpha
* @type Number
**/
/**
* Property representing the shadow that will be applied to a display object.
* @property shadow
* @type Shadow
**/
/**
* Property representing the compositeOperation that will be applied to a display object.
* You can find a list of valid composite operations at:
* https://developer.mozilla.org/en/Canvas_tutorial/Compositing
* @property compositeOperation
* @type String
**/
/**
* Property representing the value for visible that will be applied to a display object.
* @property visible
* @type Boolean
**/
/**
* The transformation matrix that will be applied to a display object.
* @property matrix
* @type Matrix2D
**/
}
var p = DisplayProps.prototype;
// initialization:
/**
* Reinitializes the instance with the specified values.
* @method setValues
* @param {Number} [visible=true] Visible value.
* @param {Number} [alpha=1] Alpha value.
* @param {Number} [shadow=null] A Shadow instance or null.
* @param {Number} [compositeOperation=null] A compositeOperation value or null.
* @param {Number} [matrix] A transformation matrix. Defaults to an identity matrix.
* @return {DisplayProps} This instance. Useful for chaining method calls.
*/
p.setValues = function (visible, alpha, shadow, compositeOperation, matrix) {
this.visible = visible == null ? true : !!visible;
this.alpha = alpha == null ? 1 : alpha;
this.shadow = shadow;
this.compositeOperation = shadow;
this.matrix = matrix || (this.matrix&&this.matrix.identity()) || new createjs.Matrix2D();
return this;
};
// public methods:
/**
* Prepends the specified display properties. This is generally used to apply a parent's properties to a child's.
* For example, to get the combined display properties that would be applied to a child, you could use:
* var o = myDisplayObject;
* var props = new createjs.DisplayProps();
* do {
* // append each parent's props in turn:
* props.append(o.visible, o.alpha, o.shadow, o.compositeOperation, o.getMatrix());
* o = o.parent;
* } while (o);
* @method prepend
* @param {Boolean} visible desired visible value
* @param {Number} alpha desired alpha value
* @param {Shadow} shadow desired shadow value
* @param {String} compositeOperation desired composite operation value
* @param {Matrix2D} [matrix] a Matrix2D instance
* @return {DisplayProps} This instance. Useful for chaining method calls.
*/
p.prepend = function(visible, alpha, shadow, compositeOperation, matrix) {
this.alpha *= alpha;
this.shadow = shadow || this.shadow;
this.compositeOperation = compositeOperation || this.compositeOperation;
this.visible = this.visible && visible;
matrix&&this.matrix.prependMatrix(matrix);
return this;
};
/**
* Appends the specified display properties. This is generally used to apply a child's properties its parent's.
* @method append
* @param {Boolean} visible desired visible value
* @param {Number} alpha desired alpha value
* @param {Shadow} shadow desired shadow value
* @param {String} compositeOperation desired composite operation value
* @param {Matrix2D} [matrix] a Matrix2D instance
* @return {DisplayProps} This instance. Useful for chaining method calls.
*/
p.append = function(visible, alpha, shadow, compositeOperation, matrix) {
this.alpha *= alpha;
this.shadow = this.shadow || shadow;
this.compositeOperation = this.compositeOperation || compositeOperation;
this.visible = this.visible && visible;
matrix&&this.matrix.appendMatrix(matrix);
return this;
};
/**
* Resets this instance and its matrix to default values.
* @method identity
* @return {DisplayProps} This instance. Useful for chaining method calls.
*/
p.identity = function() {
this.visible = true;
this.alpha = 1;
this.shadow = this.compositeOperation = null;
this.matrix.identity();
return this;
};
/**
* Returns a clone of the DisplayProps instance. Clones the associated matrix.
* @method clone
* @return {DisplayProps} a clone of the DisplayProps instance.
**/
p.clone = function() {
return new DisplayProps(this.alpha, this.shadow, this.compositeOperation, this.visible, this.matrix.clone());
};
// private methods:
createjs.DisplayProps = DisplayProps;
})();
//##############################################################################
// Point.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Represents a point on a 2 dimensional x / y coordinate system.
*
* Example
*
* var point = new createjs.Point(0, 100);
*
* @class Point
* @param {Number} [x=0] X position.
* @param {Number} [y=0] Y position.
* @constructor
**/
function Point(x, y) {
this.setValues(x, y);
// public properties:
// assigned in the setValues method.
/**
* X position.
* @property x
* @type Number
**/
/**
* Y position.
* @property y
* @type Number
**/
}
var p = Point.prototype;
// public methods:
/**
* Sets the specified values on this instance.
* @method setValues
* @param {Number} [x=0] X position.
* @param {Number} [y=0] Y position.
* @return {Point} This instance. Useful for chaining method calls.
*/
p.setValues = function(x, y) {
this.x = x||0;
this.y = y||0;
return this;
};
/**
* Copies all properties from the specified point to this point.
* @method copy
* @param {Point} point The point to copy properties from.
* @return {Point} This point. Useful for chaining method calls.
*/
p.copy = function(point) {
this.x = point.x;
this.y = point.y;
return this;
};
/**
* Returns a clone of the Point instance.
* @method clone
* @return {Point} a clone of the Point instance.
**/
p.clone = function() {
return new Point(this.x, this.y);
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Point (x="+this.x+" y="+this.y+")]";
};
createjs.Point = Point;
}());
//##############################################################################
// Rectangle.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Represents a rectangle as defined by the points (x, y) and (x+width, y+height).
*
* Example
*
* var rect = new createjs.Rectangle(0, 0, 100, 100);
*
* @class Rectangle
* @param {Number} [x=0] X position.
* @param {Number} [y=0] Y position.
* @param {Number} [width=0] The width of the Rectangle.
* @param {Number} [height=0] The height of the Rectangle.
* @constructor
**/
function Rectangle(x, y, width, height) {
this.setValues(x, y, width, height);
// public properties:
// assigned in the setValues method.
/**
* X position.
* @property x
* @type Number
**/
/**
* Y position.
* @property y
* @type Number
**/
/**
* Width.
* @property width
* @type Number
**/
/**
* Height.
* @property height
* @type Number
**/
}
var p = Rectangle.prototype;
// public methods:
/**
* Sets the specified values on this instance.
* @method setValues
* @param {Number} [x=0] X position.
* @param {Number} [y=0] Y position.
* @param {Number} [width=0] The width of the Rectangle.
* @param {Number} [height=0] The height of the Rectangle.
* @return {Rectangle} This instance. Useful for chaining method calls.
*/
p.setValues = function(x, y, width, height) {
// don't forget to update docs in the constructor if these change:
this.x = x||0;
this.y = y||0;
this.width = width||0;
this.height = height||0;
return this;
};
/**
* Extends the rectangle's bounds to include the described point or rectangle.
* @method extend
* @param {Number} x X position of the point or rectangle.
* @param {Number} y Y position of the point or rectangle.
* @param {Number} [width=0] The width of the rectangle.
* @param {Number} [height=0] The height of the rectangle.
* @return {Rectangle} This instance. Useful for chaining method calls.
*/
p.extend = function(x, y, width, height) {
width = width||0;
height = height||0;
if (x+width > this.x+this.width) { this.width = x+width-this.x; }
if (y+height > this.y+this.height) { this.height = y+height-this.y; }
if (x < this.x) { this.width += this.x-x; this.x = x; }
if (y < this.y) { this.height += this.y-y; this.y = y; }
return this;
};
/**
* Returns true if this rectangle fully encloses the described point or rectangle.
* @method contains
* @param {Number} x X position of the point or rectangle.
* @param {Number} y Y position of the point or rectangle.
* @param {Number} [width=0] The width of the rectangle.
* @param {Number} [height=0] The height of the rectangle.
* @return {Boolean} True if the described point or rectangle is contained within this rectangle.
*/
p.contains = function(x, y, width, height) {
width = width||0;
height = height||0;
return (x >= this.x && x+width <= this.x+this.width && y >= this.y && y+height <= this.y+this.height);
};
/**
* Returns a new rectangle which contains this rectangle and the specified rectangle.
* @method union
* @param {Rectangle} rect The rectangle to calculate a union with.
* @return {Rectangle} A new rectangle describing the union.
*/
p.union = function(rect) {
return this.clone().extend(rect.x, rect.y, rect.width, rect.height);
};
/**
* Returns a new rectangle which describes the intersection (overlap) of this rectangle and the specified rectangle,
* or null if they do not intersect.
* @method intersection
* @param {Rectangle} rect The rectangle to calculate an intersection with.
* @return {Rectangle} A new rectangle describing the intersection or null.
*/
p.intersection = function(rect) {
var x1 = rect.x, y1 = rect.y, x2 = x1+rect.width, y2 = y1+rect.height;
if (this.x > x1) { x1 = this.x; }
if (this.y > y1) { y1 = this.y; }
if (this.x + this.width < x2) { x2 = this.x + this.width; }
if (this.y + this.height < y2) { y2 = this.y + this.height; }
return (x2 <= x1 || y2 <= y1) ? null : new Rectangle(x1, y1, x2-x1, y2-y1);
};
/**
* Returns true if the specified rectangle intersects (has any overlap) with this rectangle.
* @method intersects
* @param {Rectangle} rect The rectangle to compare.
* @return {Boolean} True if the rectangles intersect.
*/
p.intersects = function(rect) {
return (rect.x <= this.x+this.width && this.x <= rect.x+rect.width && rect.y <= this.y+this.height && this.y <= rect.y + rect.height);
};
/**
* Returns true if the width or height are equal or less than 0.
* @method isEmpty
* @return {Boolean} True if the rectangle is empty.
*/
p.isEmpty = function() {
return this.width <= 0 || this.height <= 0;
};
/**
* Copies all properties from the specified rectangle to this rectangle.
* @method copy
* @param {Rectangle} rectangle The rectangle to copy properties from.
* @return {Rectangle} This rectangle. Useful for chaining method calls.
*/
p.copy = function(rectangle) {
return this.setValues(rectangle.x, rectangle.y, rectangle.width, rectangle.height);
};
/**
* Returns a clone of the Rectangle instance.
* @method clone
* @return {Rectangle} a clone of the Rectangle instance.
**/
p.clone = function() {
return new Rectangle(this.x, this.y, this.width, this.height);
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Rectangle (x="+this.x+" y="+this.y+" width="+this.width+" height="+this.height+")]";
};
createjs.Rectangle = Rectangle;
}());
//##############################################################################
// ButtonHelper.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* The ButtonHelper is a helper class to create interactive buttons from {{#crossLink "MovieClip"}}{{/crossLink}} or
* {{#crossLink "Sprite"}}{{/crossLink}} instances. This class will intercept mouse events from an object, and
* automatically call {{#crossLink "Sprite/gotoAndStop"}}{{/crossLink}} or {{#crossLink "Sprite/gotoAndPlay"}}{{/crossLink}},
* to the respective animation labels, add a pointer cursor, and allows the user to define a hit state frame.
*
* The ButtonHelper instance does not need to be added to the stage, but a reference should be maintained to prevent
* garbage collection.
*
* Note that over states will not work unless you call {{#crossLink "Stage/enableMouseOver"}}{{/crossLink}}.
*
* Example
*
* var helper = new createjs.ButtonHelper(myInstance, "out", "over", "down", false, myInstance, "hit");
* myInstance.addEventListener("click", handleClick);
* function handleClick(event) {
* // Click Happened.
* }
*
* @class ButtonHelper
* @param {Sprite|MovieClip} target The instance to manage.
* @param {String} [outLabel="out"] The label or animation to go to when the user rolls out of the button.
* @param {String} [overLabel="over"] The label or animation to go to when the user rolls over the button.
* @param {String} [downLabel="down"] The label or animation to go to when the user presses the button.
* @param {Boolean} [play=false] If the helper should call "gotoAndPlay" or "gotoAndStop" on the button when changing
* states.
* @param {DisplayObject} [hitArea] An optional item to use as the hit state for the button. If this is not defined,
* then the button's visible states will be used instead. Note that the same instance as the "target" argument can be
* used for the hitState.
* @param {String} [hitLabel] The label or animation on the hitArea instance that defines the hitArea bounds. If this is
* null, then the default state of the hitArea will be used. *
* @constructor
*/
function ButtonHelper(target, outLabel, overLabel, downLabel, play, hitArea, hitLabel) {
if (!target.addEventListener) { return; }
// public properties:
/**
* The target for this button helper.
* @property target
* @type MovieClip | Sprite
* @readonly
**/
this.target = target;
/**
* The label name or frame number to display when the user mouses out of the target. Defaults to "over".
* @property overLabel
* @type String | Number
**/
this.overLabel = overLabel == null ? "over" : overLabel;
/**
* The label name or frame number to display when the user mouses over the target. Defaults to "out".
* @property outLabel
* @type String | Number
**/
this.outLabel = outLabel == null ? "out" : outLabel;
/**
* The label name or frame number to display when the user presses on the target. Defaults to "down".
* @property downLabel
* @type String | Number
**/
this.downLabel = downLabel == null ? "down" : downLabel;
/**
* If true, then ButtonHelper will call gotoAndPlay, if false, it will use gotoAndStop. Default is false.
* @property play
* @default false
* @type Boolean
**/
this.play = play;
// private properties
/**
* @property _isPressed
* @type Boolean
* @protected
**/
this._isPressed = false;
/**
* @property _isOver
* @type Boolean
* @protected
**/
this._isOver = false;
/**
* @property _enabled
* @type Boolean
* @protected
**/
this._enabled = false;
// setup:
target.mouseChildren = false; // prevents issues when children are removed from the display list when state changes.
this.enabled = true;
this.handleEvent({});
if (hitArea) {
if (hitLabel) {
hitArea.actionsEnabled = false;
hitArea.gotoAndStop&&hitArea.gotoAndStop(hitLabel);
}
target.hitArea = hitArea;
}
}
var p = ButtonHelper.prototype;
// getter / setters:
/**
* Enables or disables the button functionality on the target.
* @property enabled
* @type {Boolean}
**/
/**
* Enables or disables the button functionality on the target.
* @deprecated in favour of the enabled property.
* @method setEnabled
* @param {Boolean} value
**/
p.setEnabled = function(value) { // TODO: deprecated.
if (value == this._enabled) { return; }
var o = this.target;
this._enabled = value;
if (value) {
o.cursor = "pointer";
o.addEventListener("rollover", this);
o.addEventListener("rollout", this);
o.addEventListener("mousedown", this);
o.addEventListener("pressup", this);
} else {
o.cursor = null;
o.removeEventListener("rollover", this);
o.removeEventListener("rollout", this);
o.removeEventListener("mousedown", this);
o.removeEventListener("pressup", this);
}
};
/**
* Returns enabled state of this instance.
* @deprecated in favour of the enabled property.
* @method getEnabled
* @return {Boolean} The last value passed to setEnabled().
**/
p.getEnabled = function() {
return this._enabled;
};
try {
Object.defineProperties(p, {
enabled: { get: p.getEnabled, set: p.setEnabled }
});
} catch (e) {} // TODO: use Log
// public methods:
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[ButtonHelper]";
};
// private methods:
/**
* @method handleEvent
* @param {Object} evt The mouse event to handle.
* @protected
**/
p.handleEvent = function(evt) {
var label, t = this.target, type = evt.type;
if (type == "mousedown") {
this._isPressed = true;
label = this.downLabel;
} else if (type == "pressup") {
this._isPressed = false;
label = this._isOver ? this.overLabel : this.outLabel;
} else if (type == "rollover") {
this._isOver = true;
label = this._isPressed ? this.downLabel : this.overLabel;
} else { // rollout and default
this._isOver = false;
label = this._isPressed ? this.overLabel : this.outLabel;
}
if (this.play) {
t.gotoAndPlay&&t.gotoAndPlay(label);
} else {
t.gotoAndStop&&t.gotoAndStop(label);
}
};
createjs.ButtonHelper = ButtonHelper;
}());
//##############################################################################
// Shadow.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* This class encapsulates the properties required to define a shadow to apply to a {{#crossLink "DisplayObject"}}{{/crossLink}}
* via its shadow
property.
*
* Example
*
* myImage.shadow = new createjs.Shadow("#000000", 5, 5, 10);
*
* @class Shadow
* @constructor
* @param {String} color The color of the shadow.
* @param {Number} offsetX The x offset of the shadow in pixels.
* @param {Number} offsetY The y offset of the shadow in pixels.
* @param {Number} blur The size of the blurring effect.
**/
function Shadow(color, offsetX, offsetY, blur) {
// public properties:
/** The color of the shadow.
* property color
* @type String
* @default null
*/
this.color = color||"black";
/** The x offset of the shadow.
* property offsetX
* @type Number
* @default 0
*/
this.offsetX = offsetX||0;
/** The y offset of the shadow.
* property offsetY
* @type Number
* @default 0
*/
this.offsetY = offsetY||0;
/** The blur of the shadow.
* property blur
* @type Number
* @default 0
*/
this.blur = blur||0;
}
var p = Shadow.prototype;
// static public properties:
/**
* An identity shadow object (all properties are set to 0).
* @property identity
* @type Shadow
* @static
* @final
* @readonly
**/
Shadow.identity = new Shadow("transparent", 0, 0, 0);
// public methods:
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Shadow]";
};
/**
* Returns a clone of this Shadow instance.
* @method clone
* @return {Shadow} A clone of the current Shadow instance.
**/
p.clone = function() {
return new Shadow(this.color, this.offsetX, this.offsetY, this.blur);
};
createjs.Shadow = Shadow;
}());
//##############################################################################
// SpriteSheet.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Encapsulates the properties and methods associated with a sprite sheet. A sprite sheet is a series of images (usually
* animation frames) combined into a larger image (or images). For example, an animation consisting of eight 100x100
* images could be combined into a single 400x200 sprite sheet (4 frames across by 2 high).
*
* The data passed to the SpriteSheet constructor defines:
* - The source image or images to use.
* - The positions of individual image frames.
* - Sequences of frames that form named animations. Optional.
* - The target playback framerate. Optional.
*
*
* SpriteSheet Format
*
* SpriteSheets are an object with two required properties (`images` and `frames`), and two optional properties
* (`framerate` and `animations`). This makes them easy to define in javascript code, or in JSON.
*
* images
* An array of source images. Images can be either an HTMLImage
* instance, or a uri to an image. The former is recommended to control preloading.
*
* images: [image1, "path/to/image2.png"],
*
* frames
* Defines the individual frames. There are two supported formats for frame data:
* - when all of the frames are the same size (in a grid), use an object with `width`, `height`, `regX`, `regY`, and `count` properties.
* `width` & `height` are required and specify the dimensions of the frames.
* `regX` & `regY` indicate the registration point or "origin" of the frames.
* `count` allows you to specify the total number of frames in the spritesheet; if omitted, this will be calculated
* based on the dimensions of the source images and the frames. Frames will be assigned indexes based on their position
* in the source images (left to right, top to bottom).
*
* frames: {width:64, height:64, count:20, regX: 32, regY:64}
*
*
- if the frames are of different sizes, use an array of frame definitions. Each definition is itself an array
* with 4 required and 3 optional entries, in the order: `x`, `y`, `width`, `height`, `imageIndex`, `regX`, `regY`. The first
* four entries are required and define the frame rectangle. The fifth specifies the index of the source image (defaults to 0). The
* last two specify the registration point of the frame.
*
* frames: [
* // x, y, width, height, imageIndex*, regX*, regY*
* [64, 0, 96, 64],
* [0, 0, 64, 64, 1, 32, 32]
* // etc.
* ]
*
*
*
* animations
* Optional. An object defining sequences of frames to play as named animations. Each property corresponds to an
* animation of the same name. Each animation must specify the frames to play, and may
* also include a relative playback `speed` (ex. 2 would playback at double speed, 0.5 at half), and
* the name of the `next` animation to sequence to after it completes.
*
* There are three formats supported for defining the frames in an animation, which can be mixed and matched as appropriate:
* - for a single frame animation, you can simply specify the frame index
*
* animations: {
* sit: 7
* }
*
*
- for an animation of consecutive frames, you can use an array with two required, and two optional entries
* in the order: `start`, `end`, `next`, and `speed`. This will play the frames from start to end inclusive.
*
* animations: {
* // start, end, next*, speed*
* run: [0, 8],
* jump: [9, 12, "run", 2]
* }
*
*
- for non-consecutive frames, you can use an object with a `frames` property defining an array of frame indexes to
* play in order. The object can also specify `next` and `speed` properties.
*
* animations: {
* walk: {
* frames: [1,2,3,3,2,1]
* },
* shoot: {
* frames: [1,4,5,6],
* next: "walk",
* speed: 0.5
* }
* }
*
*
* Note: the `speed` property was added in EaselJS 0.7.0. Earlier versions had a `frequency`
* property instead, which was the inverse of `speed`. For example, a value of "4" would be 1/4 normal speed in earlier
* versions, but is 4x normal speed in 0.7.0+.
*
* framerate
* Optional. Indicates the default framerate to play this spritesheet at in frames per second.
* See {{#crossLink "SpriteSheet/framerate:property"}}{{/crossLink}} for more information.
*
* framerate: 20
*
* Example
* To define a simple sprite sheet, with a single image "sprites.jpg" arranged in a regular 50x50 grid with three
* animations: "stand" showing the first frame, "run" looping frame 1-5 inclusive, and "jump" playing frame 6-8 and sequencing back to run.
*
* var data = {
* images: ["sprites.jpg"],
* frames: {width:50, height:50},
* animations: {
* stand:0,
* run:[1,5],
* jump:[6,8,"run"]
* }
* };
* var spriteSheet = new createjs.SpriteSheet(data);
* var animation = new createjs.Sprite(spriteSheet, "run");
*
*
* Warning: Images loaded cross-origin will throw cross-origin security errors when interacted with
* using a mouse, using methods such as `getObjectUnderPoint`, using filters, or caching. You can get around this by
* setting `crossOrigin` flags on your images before passing them to EaselJS, eg: `img.crossOrigin="Anonymous";`
*
* @class SpriteSheet
* @constructor
* @param {Object} data An object describing the SpriteSheet data.
* @extends EventDispatcher
**/
function SpriteSheet(data) {
this.EventDispatcher_constructor();
// public properties:
/**
* Indicates whether all images are finished loading.
* @property complete
* @type Boolean
* @readonly
**/
this.complete = true;
/**
* Specifies the framerate to use by default for Sprite instances using the SpriteSheet. See
* Sprite.framerate for more information.
* @property framerate
* @type Number
**/
this.framerate = 0;
// private properties:
/**
* @property _animations
* @protected
**/
this._animations = null;
/**
* @property _frames
* @protected
**/
this._frames = null;
/**
* @property _images
* @protected
**/
this._images = null;
/**
* @property _data
* @protected
**/
this._data = null;
/**
* @property _loadCount
* @protected
**/
this._loadCount = 0;
// only used for simple frame defs:
/**
* @property _frameHeight
* @protected
**/
this._frameHeight = 0;
/**
* @property _frameWidth
* @protected
**/
this._frameWidth = 0;
/**
* @property _numFrames
* @protected
**/
this._numFrames = 0;
/**
* @property _regX
* @protected
**/
this._regX = 0;
/**
* @property _regY
* @protected
**/
this._regY = 0;
// setup:
this._parseData(data);
}
var p = createjs.extend(SpriteSheet, createjs.EventDispatcher);
// events:
/**
* Dispatched when all images are loaded. Note that this only fires if the images
* were not fully loaded when the sprite sheet was initialized. You should check the complete property
* to prior to adding a listener. Ex.
*
* var sheet = new SpriteSheet(data);
* if (!sheet.complete) {
* // not preloaded, listen for the complete event:
* sheet.addEventListener("complete", handler);
* }
*
* @event complete
* @param {Object} target The object that dispatched the event.
* @param {String} type The event type.
* @since 0.6.0
*/
// public methods:
/**
* Returns the total number of frames in the specified animation, or in the whole sprite
* sheet if the animation param is omitted. Returns 0 if the spritesheet relies on calculated frame counts, and
* the images have not been fully loaded.
* @method getNumFrames
* @param {String} animation The name of the animation to get a frame count for.
* @return {Number} The number of frames in the animation, or in the entire sprite sheet if the animation param is omitted.
*/
p.getNumFrames = function(animation) {
if (animation == null) {
return this._frames ? this._frames.length : this._numFrames || 0;
} else {
var data = this._data[animation];
if (data == null) { return 0; }
else { return data.frames.length; }
}
};
/**
* Returns an array of all available animation names as strings.
* @method getAnimations
* @return {Array} an array of animation names available on this sprite sheet.
**/
p.getAnimations = function() {
return this._animations.slice(0);
};
/**
* Returns an object defining the specified animation. The returned object contains:
* - frames: an array of the frame ids in the animation
* - speed: the playback speed for this animation
* - name: the name of the animation
* - next: the default animation to play next. If the animation loops, the name and next property will be the
* same.
*
* @method getAnimation
* @param {String} name The name of the animation to get.
* @return {Object} a generic object with frames, speed, name, and next properties.
**/
p.getAnimation = function(name) {
return this._data[name];
};
/**
* Returns an object specifying the image and source rect of the specified frame. The returned object has:
* - an image property holding a reference to the image object in which the frame is found
* - a rect property containing a Rectangle instance which defines the boundaries for the frame within that
* image.
* - A regX and regY property corresponding to the regX/Y values for the frame.
*
* @method getFrame
* @param {Number} frameIndex The index of the frame.
* @return {Object} a generic object with image and rect properties. Returns null if the frame does not exist.
**/
p.getFrame = function(frameIndex) {
var frame;
if (this._frames && (frame=this._frames[frameIndex])) { return frame; }
return null;
};
/**
* Returns a {{#crossLink "Rectangle"}}{{/crossLink}} instance defining the bounds of the specified frame relative
* to the origin. For example, a 90 x 70 frame with a regX of 50 and a regY of 40 would return:
*
* [x=-50, y=-40, width=90, height=70]
*
* @method getFrameBounds
* @param {Number} frameIndex The index of the frame.
* @param {Rectangle} [rectangle] A Rectangle instance to copy the values into. By default a new instance is created.
* @return {Rectangle} A Rectangle instance. Returns null if the frame does not exist, or the image is not fully loaded.
**/
p.getFrameBounds = function(frameIndex, rectangle) {
var frame = this.getFrame(frameIndex);
return frame ? (rectangle||new createjs.Rectangle()).setValues(-frame.regX, -frame.regY, frame.rect.width, frame.rect.height) : null;
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[SpriteSheet]";
};
/**
* SpriteSheet cannot be cloned. A SpriteSheet can be shared by multiple Sprite instances without cloning it.
* @method clone
**/
p.clone = function() {
throw("SpriteSheet cannot be cloned.")
};
// private methods:
/**
* @method _parseData
* @param {Object} data An object describing the SpriteSheet data.
* @protected
**/
p._parseData = function(data) {
var i,l,o,a;
if (data == null) { return; }
this.framerate = data.framerate||0;
// parse images:
if (data.images && (l=data.images.length) > 0) {
a = this._images = [];
for (i=0; i0 ? Math.min(this._numFrames-ttlFrames,cols*rows) : cols*rows;
for (var j=0;jTiny API
* The Graphics class also includes a "tiny API", which is one or two-letter methods that are shortcuts for all of the
* Graphics methods. These methods are great for creating compact instructions, and is used by the Toolkit for CreateJS
* to generate readable code. All tiny methods are marked as protected, so you can view them by enabling protected
* descriptions in the docs.
*
*
* Tiny | Method | Tiny | Method |
* mt | {{#crossLink "Graphics/moveTo"}}{{/crossLink}} |
* lt | {{#crossLink "Graphics/lineTo"}}{{/crossLink}} |
* a/at | {{#crossLink "Graphics/arc"}}{{/crossLink}} / {{#crossLink "Graphics/arcTo"}}{{/crossLink}} |
* bt | {{#crossLink "Graphics/bezierCurveTo"}}{{/crossLink}} |
* qt | {{#crossLink "Graphics/quadraticCurveTo"}}{{/crossLink}} (also curveTo) |
* r | {{#crossLink "Graphics/rect"}}{{/crossLink}} |
* cp | {{#crossLink "Graphics/closePath"}}{{/crossLink}} |
* c | {{#crossLink "Graphics/clear"}}{{/crossLink}} |
* f | {{#crossLink "Graphics/beginFill"}}{{/crossLink}} |
* lf | {{#crossLink "Graphics/beginLinearGradientFill"}}{{/crossLink}} |
* rf | {{#crossLink "Graphics/beginRadialGradientFill"}}{{/crossLink}} |
* bf | {{#crossLink "Graphics/beginBitmapFill"}}{{/crossLink}} |
* ef | {{#crossLink "Graphics/endFill"}}{{/crossLink}} |
* ss | {{#crossLink "Graphics/setStrokeStyle"}}{{/crossLink}} |
* s | {{#crossLink "Graphics/beginStroke"}}{{/crossLink}} |
* ls | {{#crossLink "Graphics/beginLinearGradientStroke"}}{{/crossLink}} |
* rs | {{#crossLink "Graphics/beginRadialGradientStroke"}}{{/crossLink}} |
* bs | {{#crossLink "Graphics/beginBitmapStroke"}}{{/crossLink}} |
* es | {{#crossLink "Graphics/endStroke"}}{{/crossLink}} |
* dr | {{#crossLink "Graphics/drawRect"}}{{/crossLink}} |
* rr | {{#crossLink "Graphics/drawRoundRect"}}{{/crossLink}} |
* rc | {{#crossLink "Graphics/drawRoundRectComplex"}}{{/crossLink}} |
* dc | {{#crossLink "Graphics/drawCircle"}}{{/crossLink}} |
* de | {{#crossLink "Graphics/drawEllipse"}}{{/crossLink}} |
* dp | {{#crossLink "Graphics/drawPolyStar"}}{{/crossLink}} |
* p | {{#crossLink "Graphics/decodePath"}}{{/crossLink}} |
*
*
* Here is the above example, using the tiny API instead.
*
* myGraphics.s("red").f("blue").r(20, 20, 100, 50);
*
* @class Graphics
* @constructor
**/
function Graphics() {
// public properties
/**
* Holds a reference to the last command that was created or appended. For example, you could retain a reference
* to a Fill command in order to dynamically update the color later by using:
* myFill = myGraphics.beginFill("red").command;
* // update color later:
* myFill.style = "yellow";
* @property command
* @type Object
**/
this.command = null;
// private properties
/**
* @property _stroke
* @protected
* @type {Array}
**/
this._stroke = null;
/**
* @property _strokeStyle
* @protected
* @type {Array}
**/
this._strokeStyle = null;
/**
* @property _strokeIgnoreScale
* @protected
* @type Boolean
**/
this._strokeIgnoreScale = false;
/**
* @property _fill
* @protected
* @type {Array}
**/
this._fill = null;
/**
* @property _instructions
* @protected
* @type {Array}
**/
this._instructions = [];
/**
* Indicates the last instruction index that was committed.
* @property _commitIndex
* @protected
* @type {Number}
**/
this._commitIndex = 0;
/**
* Uncommitted instructions.
* @property _activeInstructions
* @protected
* @type {Array}
**/
this._activeInstructions = [];
/**
* This indicates that there have been changes to the activeInstruction list since the last updateInstructions call.
* @property _dirty
* @protected
* @type {Boolean}
* @default false
**/
this._dirty = false;
/**
* Index to draw from if a store operation has happened.
* @property _storeIndex
* @protected
* @type {Number}
* @default 0
**/
this._storeIndex = 0;
// setup:
this.clear();
}
var p = Graphics.prototype;
var G = Graphics; // shortcut
// static public methods:
/**
* Returns a CSS compatible color string based on the specified RGB numeric color values in the format
* "rgba(255,255,255,1.0)", or if alpha is null then in the format "rgb(255,255,255)". For example,
*
* createjs.Graphics.getRGB(50, 100, 150, 0.5);
* // Returns "rgba(50,100,150,0.5)"
*
* It also supports passing a single hex color value as the first param, and an optional alpha value as the second
* param. For example,
*
* createjs.Graphics.getRGB(0xFF00FF, 0.2);
* // Returns "rgba(255,0,255,0.2)"
*
* @method getRGB
* @static
* @param {Number} r The red component for the color, between 0 and 0xFF (255).
* @param {Number} g The green component for the color, between 0 and 0xFF (255).
* @param {Number} b The blue component for the color, between 0 and 0xFF (255).
* @param {Number} [alpha] The alpha component for the color where 0 is fully transparent and 1 is fully opaque.
* @return {String} A CSS compatible color string based on the specified RGB numeric color values in the format
* "rgba(255,255,255,1.0)", or if alpha is null then in the format "rgb(255,255,255)".
**/
Graphics.getRGB = function(r, g, b, alpha) {
if (r != null && b == null) {
alpha = g;
b = r&0xFF;
g = r>>8&0xFF;
r = r>>16&0xFF;
}
if (alpha == null) {
return "rgb("+r+","+g+","+b+")";
} else {
return "rgba("+r+","+g+","+b+","+alpha+")";
}
};
/**
* Returns a CSS compatible color string based on the specified HSL numeric color values in the format "hsla(360,100,100,1.0)",
* or if alpha is null then in the format "hsl(360,100,100)".
*
* createjs.Graphics.getHSL(150, 100, 70);
* // Returns "hsl(150,100,70)"
*
* @method getHSL
* @static
* @param {Number} hue The hue component for the color, between 0 and 360.
* @param {Number} saturation The saturation component for the color, between 0 and 100.
* @param {Number} lightness The lightness component for the color, between 0 and 100.
* @param {Number} [alpha] The alpha component for the color where 0 is fully transparent and 1 is fully opaque.
* @return {String} A CSS compatible color string based on the specified HSL numeric color values in the format
* "hsla(360,100,100,1.0)", or if alpha is null then in the format "hsl(360,100,100)".
**/
Graphics.getHSL = function(hue, saturation, lightness, alpha) {
if (alpha == null) {
return "hsl("+(hue%360)+","+saturation+"%,"+lightness+"%)";
} else {
return "hsla("+(hue%360)+","+saturation+"%,"+lightness+"%,"+alpha+")";
}
};
// static properties:
/**
* A reusable instance of {{#crossLink "Graphics/BeginPath"}}{{/crossLink}} to avoid
* unnecessary instantiation.
* @property beginCmd
* @type {Graphics.BeginPath}
* @static
**/
// defined at the bottom of this file.
/**
* Map of Base64 characters to values. Used by {{#crossLink "Graphics/decodePath"}}{{/crossLink}}.
* @property BASE_64
* @static
* @final
* @readonly
* @type {Object}
**/
Graphics.BASE_64 = {"A":0,"B":1,"C":2,"D":3,"E":4,"F":5,"G":6,"H":7,"I":8,"J":9,"K":10,"L":11,"M":12,"N":13,"O":14,"P":15,"Q":16,"R":17,"S":18,"T":19,"U":20,"V":21,"W":22,"X":23,"Y":24,"Z":25,"a":26,"b":27,"c":28,"d":29,"e":30,"f":31,"g":32,"h":33,"i":34,"j":35,"k":36,"l":37,"m":38,"n":39,"o":40,"p":41,"q":42,"r":43,"s":44,"t":45,"u":46,"v":47,"w":48,"x":49,"y":50,"z":51,"0":52,"1":53,"2":54,"3":55,"4":56,"5":57,"6":58,"7":59,"8":60,"9":61,"+":62,"/":63};
/**
* Maps numeric values for the caps parameter of {{#crossLink "Graphics/setStrokeStyle"}}{{/crossLink}} to
* corresponding string values. This is primarily for use with the tiny API. The mappings are as follows: 0 to
* "butt", 1 to "round", and 2 to "square".
* For example, to set the line caps to "square":
*
* myGraphics.ss(16, 2);
*
* @property STROKE_CAPS_MAP
* @static
* @final
* @readonly
* @type {Array}
**/
Graphics.STROKE_CAPS_MAP = ["butt", "round", "square"];
/**
* Maps numeric values for the joints parameter of {{#crossLink "Graphics/setStrokeStyle"}}{{/crossLink}} to
* corresponding string values. This is primarily for use with the tiny API. The mappings are as follows: 0 to
* "miter", 1 to "round", and 2 to "bevel".
* For example, to set the line joints to "bevel":
*
* myGraphics.ss(16, 0, 2);
*
* @property STROKE_JOINTS_MAP
* @static
* @final
* @readonly
* @type {Array}
**/
Graphics.STROKE_JOINTS_MAP = ["miter", "round", "bevel"];
/**
* @property _ctx
* @static
* @protected
* @type {CanvasRenderingContext2D}
**/
var canvas = (createjs.createCanvas?createjs.createCanvas():document.createElement("canvas"));
if (canvas.getContext) {
Graphics._ctx = canvas.getContext("2d");
canvas.width = canvas.height = 1;
}
// public methods:
/**
* Returns true if this Graphics instance has no drawing commands.
* @method isEmpty
* @return {Boolean} Returns true if this Graphics instance has no drawing commands.
**/
p.isEmpty = function() {
return !(this._instructions.length || this._activeInstructions.length);
};
/**
* Draws the display object into the specified context ignoring its visible, alpha, shadow, and transform.
* Returns true if the draw was handled (useful for overriding functionality).
*
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method draw
* @param {CanvasRenderingContext2D} ctx The canvas 2D context object to draw into.
* @param {Object} data Optional data that is passed to graphics command exec methods. When called from a Shape instance, the shape passes itself as the data parameter. This can be used by custom graphic commands to insert contextual data.
**/
p.draw = function(ctx, data) {
this._updateInstructions();
var instr = this._instructions;
for (var i=this._storeIndex, l=instr.length; iDisplayObject.mask to draw the clipping path, for example.
* @method drawAsPath
* @param {CanvasRenderingContext2D} ctx The canvas 2D context object to draw into.
**/
p.drawAsPath = function(ctx) {
this._updateInstructions();
var instr, instrs = this._instructions;
for (var i=0, l=instrs.length; i
* whatwg spec.
* @method lineTo
* @param {Number} x The x coordinate the drawing point should draw to.
* @param {Number} y The y coordinate the drawing point should draw to.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.lineTo = function(x, y) {
return this.append(new G.LineTo(x,y));
};
/**
* Draws an arc with the specified control points and radius. For detailed information, read the
*
* whatwg spec. A tiny API method "at" also exists.
* @method arcTo
* @param {Number} x1
* @param {Number} y1
* @param {Number} x2
* @param {Number} y2
* @param {Number} radius
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.arcTo = function(x1, y1, x2, y2, radius) {
return this.append(new G.ArcTo(x1, y1, x2, y2, radius));
};
/**
* Draws an arc defined by the radius, startAngle and endAngle arguments, centered at the position (x, y). For
* example, to draw a full circle with a radius of 20 centered at (100, 100):
*
* arc(100, 100, 20, 0, Math.PI*2);
*
* For detailed information, read the
* whatwg spec.
* A tiny API method "a" also exists.
* @method arc
* @param {Number} x
* @param {Number} y
* @param {Number} radius
* @param {Number} startAngle Measured in radians.
* @param {Number} endAngle Measured in radians.
* @param {Boolean} anticlockwise
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.arc = function(x, y, radius, startAngle, endAngle, anticlockwise) {
return this.append(new G.Arc(x, y, radius, startAngle, endAngle, anticlockwise));
};
/**
* Draws a quadratic curve from the current drawing point to (x, y) using the control point (cpx, cpy). For detailed
* information, read the
* whatwg spec. A tiny API method "qt" also exists.
* @method quadraticCurveTo
* @param {Number} cpx
* @param {Number} cpy
* @param {Number} x
* @param {Number} y
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.quadraticCurveTo = function(cpx, cpy, x, y) {
return this.append(new G.QuadraticCurveTo(cpx, cpy, x, y));
};
/**
* Draws a bezier curve from the current drawing point to (x, y) using the control points (cp1x, cp1y) and (cp2x,
* cp2y). For detailed information, read the
*
* whatwg spec. A tiny API method "bt" also exists.
* @method bezierCurveTo
* @param {Number} cp1x
* @param {Number} cp1y
* @param {Number} cp2x
* @param {Number} cp2y
* @param {Number} x
* @param {Number} y
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.bezierCurveTo = function(cp1x, cp1y, cp2x, cp2y, x, y) {
return this.append(new G.BezierCurveTo(cp1x, cp1y, cp2x, cp2y, x, y));
};
/**
* Draws a rectangle at (x, y) with the specified width and height using the current fill and/or stroke.
* For detailed information, read the
*
* whatwg spec. A tiny API method "r" also exists.
* @method rect
* @param {Number} x
* @param {Number} y
* @param {Number} w Width of the rectangle
* @param {Number} h Height of the rectangle
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.rect = function(x, y, w, h) {
return this.append(new G.Rect(x, y, w, h));
};
/**
* Closes the current path, effectively drawing a line from the current drawing point to the first drawing point specified
* since the fill or stroke was last set. A tiny API method "cp" also exists.
* @method closePath
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.closePath = function() {
return this._activeInstructions.length ? this.append(new G.ClosePath()) : this;
};
// public methods that roughly map to Flash graphics APIs:
/**
* Clears all drawing instructions, effectively resetting this Graphics instance. Any line and fill styles will need
* to be redefined to draw shapes following a clear call. A tiny API method "c" also exists.
* @method clear
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.clear = function() {
this._instructions.length = this._activeInstructions.length = this._commitIndex = 0;
this._strokeStyle = this._stroke = this._fill = null;
this._dirty = this._strokeIgnoreScale = false;
return this;
};
/**
* Begins a fill with the specified color. This ends the current sub-path. A tiny API method "f" also exists.
* @method beginFill
* @param {String} color A CSS compatible color value (ex. "red", "#FF0000", or "rgba(255,0,0,0.5)"). Setting to
* null will result in no fill.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.beginFill = function(color) {
return this._setFill(color ? new G.Fill(color) : null);
};
/**
* Begins a linear gradient fill defined by the line (x0, y0) to (x1, y1). This ends the current sub-path. For
* example, the following code defines a black to white vertical gradient ranging from 20px to 120px, and draws a
* square to display it:
*
* myGraphics.beginLinearGradientFill(["#000","#FFF"], [0, 1], 0, 20, 0, 120).drawRect(20, 20, 120, 120);
*
* A tiny API method "lf" also exists.
* @method beginLinearGradientFill
* @param {Array} colors An array of CSS compatible color values. For example, ["#F00","#00F"] would define a gradient
* drawing from red to blue.
* @param {Array} ratios An array of gradient positions which correspond to the colors. For example, [0.1, 0.9] would draw
* the first color to 10% then interpolating to the second color at 90%.
* @param {Number} x0 The position of the first point defining the line that defines the gradient direction and size.
* @param {Number} y0 The position of the first point defining the line that defines the gradient direction and size.
* @param {Number} x1 The position of the second point defining the line that defines the gradient direction and size.
* @param {Number} y1 The position of the second point defining the line that defines the gradient direction and size.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.beginLinearGradientFill = function(colors, ratios, x0, y0, x1, y1) {
return this._setFill(new G.Fill().linearGradient(colors, ratios, x0, y0, x1, y1));
};
/**
* Begins a radial gradient fill. This ends the current sub-path. For example, the following code defines a red to
* blue radial gradient centered at (100, 100), with a radius of 50, and draws a circle to display it:
*
* myGraphics.beginRadialGradientFill(["#F00","#00F"], [0, 1], 100, 100, 0, 100, 100, 50).drawCircle(100, 100, 50);
*
* A tiny API method "rf" also exists.
* @method beginRadialGradientFill
* @param {Array} colors An array of CSS compatible color values. For example, ["#F00","#00F"] would define
* a gradient drawing from red to blue.
* @param {Array} ratios An array of gradient positions which correspond to the colors. For example, [0.1,
* 0.9] would draw the first color to 10% then interpolating to the second color at 90%.
* @param {Number} x0 Center position of the inner circle that defines the gradient.
* @param {Number} y0 Center position of the inner circle that defines the gradient.
* @param {Number} r0 Radius of the inner circle that defines the gradient.
* @param {Number} x1 Center position of the outer circle that defines the gradient.
* @param {Number} y1 Center position of the outer circle that defines the gradient.
* @param {Number} r1 Radius of the outer circle that defines the gradient.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.beginRadialGradientFill = function(colors, ratios, x0, y0, r0, x1, y1, r1) {
return this._setFill(new G.Fill().radialGradient(colors, ratios, x0, y0, r0, x1, y1, r1));
};
/**
* Begins a pattern fill using the specified image. This ends the current sub-path. A tiny API method "bf" also
* exists.
* @method beginBitmapFill
* @param {HTMLImageElement | HTMLCanvasElement | HTMLVideoElement} image The Image, Canvas, or Video object to use
* as the pattern.
* @param {String} repetition Optional. Indicates whether to repeat the image in the fill area. One of "repeat",
* "repeat-x", "repeat-y", or "no-repeat". Defaults to "repeat". Note that Firefox does not support "repeat-x" or
* "repeat-y" (latest tests were in FF 20.0), and will default to "repeat".
* @param {Matrix2D} matrix Optional. Specifies a transformation matrix for the bitmap fill. This transformation
* will be applied relative to the parent transform.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.beginBitmapFill = function(image, repetition, matrix) {
return this._setFill(new G.Fill(null,matrix).bitmap(image, repetition));
};
/**
* Ends the current sub-path, and begins a new one with no fill. Functionally identical to beginFill(null)
.
* A tiny API method "ef" also exists.
* @method endFill
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.endFill = function() {
return this.beginFill();
};
/**
* Sets the stroke style for the current sub-path. Like all drawing methods, this can be chained, so you can define
* the stroke style and color in a single line of code like so:
*
* myGraphics.setStrokeStyle(8,"round").beginStroke("#F00");
*
* A tiny API method "ss" also exists.
* @method setStrokeStyle
* @param {Number} thickness The width of the stroke.
* @param {String | Number} [caps=0] Indicates the type of caps to use at the end of lines. One of butt,
* round, or square. Defaults to "butt". Also accepts the values 0 (butt), 1 (round), and 2 (square) for use with
* the tiny API.
* @param {String | Number} [joints=0] Specifies the type of joints that should be used where two lines meet.
* One of bevel, round, or miter. Defaults to "miter". Also accepts the values 0 (miter), 1 (round), and 2 (bevel)
* for use with the tiny API.
* @param {Number} [miterLimit=10] If joints is set to "miter", then you can specify a miter limit ratio which
* controls at what point a mitered joint will be clipped.
* @param {Boolean} [ignoreScale=false] If true, the stroke will be drawn at the specified thickness regardless
* of active transformations.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.setStrokeStyle = function(thickness, caps, joints, miterLimit, ignoreScale) {
this._updateInstructions(true);
this._strokeStyle = this.command = new G.StrokeStyle(thickness, caps, joints, miterLimit, ignoreScale);
// ignoreScale lives on Stroke, not StrokeStyle, so we do a little trickery:
if (this._stroke) { this._stroke.ignoreScale = ignoreScale; }
this._strokeIgnoreScale = ignoreScale;
return this;
};
/**
* Begins a stroke with the specified color. This ends the current sub-path. A tiny API method "s" also exists.
* @method beginStroke
* @param {String} color A CSS compatible color value (ex. "#FF0000", "red", or "rgba(255,0,0,0.5)"). Setting to
* null will result in no stroke.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.beginStroke = function(color) {
return this._setStroke(color ? new G.Stroke(color) : null);
};
/**
* Begins a linear gradient stroke defined by the line (x0, y0) to (x1, y1). This ends the current sub-path. For
* example, the following code defines a black to white vertical gradient ranging from 20px to 120px, and draws a
* square to display it:
*
* myGraphics.setStrokeStyle(10).
* beginLinearGradientStroke(["#000","#FFF"], [0, 1], 0, 20, 0, 120).drawRect(20, 20, 120, 120);
*
* A tiny API method "ls" also exists.
* @method beginLinearGradientStroke
* @param {Array} colors An array of CSS compatible color values. For example, ["#F00","#00F"] would define
* a gradient drawing from red to blue.
* @param {Array} ratios An array of gradient positions which correspond to the colors. For example, [0.1,
* 0.9] would draw the first color to 10% then interpolating to the second color at 90%.
* @param {Number} x0 The position of the first point defining the line that defines the gradient direction and size.
* @param {Number} y0 The position of the first point defining the line that defines the gradient direction and size.
* @param {Number} x1 The position of the second point defining the line that defines the gradient direction and size.
* @param {Number} y1 The position of the second point defining the line that defines the gradient direction and size.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.beginLinearGradientStroke = function(colors, ratios, x0, y0, x1, y1) {
return this._setStroke(new G.Stroke().linearGradient(colors, ratios, x0, y0, x1, y1));
};
/**
* Begins a radial gradient stroke. This ends the current sub-path. For example, the following code defines a red to
* blue radial gradient centered at (100, 100), with a radius of 50, and draws a rectangle to display it:
*
* myGraphics.setStrokeStyle(10)
* .beginRadialGradientStroke(["#F00","#00F"], [0, 1], 100, 100, 0, 100, 100, 50)
* .drawRect(50, 90, 150, 110);
*
* A tiny API method "rs" also exists.
* @method beginRadialGradientStroke
* @param {Array} colors An array of CSS compatible color values. For example, ["#F00","#00F"] would define
* a gradient drawing from red to blue.
* @param {Array} ratios An array of gradient positions which correspond to the colors. For example, [0.1,
* 0.9] would draw the first color to 10% then interpolating to the second color at 90%, then draw the second color
* to 100%.
* @param {Number} x0 Center position of the inner circle that defines the gradient.
* @param {Number} y0 Center position of the inner circle that defines the gradient.
* @param {Number} r0 Radius of the inner circle that defines the gradient.
* @param {Number} x1 Center position of the outer circle that defines the gradient.
* @param {Number} y1 Center position of the outer circle that defines the gradient.
* @param {Number} r1 Radius of the outer circle that defines the gradient.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.beginRadialGradientStroke = function(colors, ratios, x0, y0, r0, x1, y1, r1) {
return this._setStroke(new G.Stroke().radialGradient(colors, ratios, x0, y0, r0, x1, y1, r1));
};
/**
* Begins a pattern fill using the specified image. This ends the current sub-path. Note that unlike bitmap fills,
* strokes do not currently support a matrix parameter due to limitations in the canvas API. A tiny API method "bs"
* also exists.
* @method beginBitmapStroke
* @param {HTMLImageElement | HTMLCanvasElement | HTMLVideoElement} image The Image, Canvas, or Video object to use
* as the pattern.
* @param {String} [repetition=repeat] Optional. Indicates whether to repeat the image in the fill area. One of
* "repeat", "repeat-x", "repeat-y", or "no-repeat". Defaults to "repeat".
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.beginBitmapStroke = function(image, repetition) {
// NOTE: matrix is not supported for stroke because transforms on strokes also affect the drawn stroke width.
return this._setStroke(new G.Stroke().bitmap(image, repetition));
};
/**
* Ends the current sub-path, and begins a new one with no stroke. Functionally identical to beginStroke(null)
.
* A tiny API method "es" also exists.
* @method endStroke
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.endStroke = function() {
return this.beginStroke();
};
/**
* Maps the familiar ActionScript curveTo()
method to the functionally similar {{#crossLink "Graphics/quadraticCurveTo"}}{{/crossLink}}
* method.
* @method curveTo
* @type {Function}
**/
p.curveTo = p.quadraticCurveTo;
/**
* Maps the familiar ActionScript drawRect()
method to the functionally similar {{#crossLink "Graphics/rect"}}{{/crossLink}}
* method.
* @method drawRect
* @type {Function}
**/
p.drawRect = p.rect;
/**
* Draws a rounded rectangle with all corners with the specified radius.
* @method drawRoundRect
* @param {Number} x
* @param {Number} y
* @param {Number} w
* @param {Number} h
* @param {Number} radius Corner radius.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.drawRoundRect = function(x, y, w, h, radius) {
return this.drawRoundRectComplex(x, y, w, h, radius, radius, radius, radius);
};
/**
* Draws a rounded rectangle with different corner radii. Supports positive and negative corner radii. A tiny API
* method "rc" also exists.
* @method drawRoundRectComplex
* @param {Number} x The horizontal coordinate to draw the round rect.
* @param {Number} y The vertical coordinate to draw the round rect.
* @param {Number} w The width of the round rect.
* @param {Number} h The height of the round rect.
* @param {Number} radiusTL Top left corner radius.
* @param {Number} radiusTR Top right corner radius.
* @param {Number} radiusBR Bottom right corner radius.
* @param {Number} radiusBL Bottom left corner radius.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.drawRoundRectComplex = function(x, y, w, h, radiusTL, radiusTR, radiusBR, radiusBL) {
return this.append(new G.RoundRect(x, y, w, h, radiusTL, radiusTR, radiusBR, radiusBL));
};
/**
* Draws a circle with the specified radius at (x, y).
*
* var g = new createjs.Graphics();
* g.setStrokeStyle(1);
* g.beginStroke(createjs.Graphics.getRGB(0,0,0));
* g.beginFill(createjs.Graphics.getRGB(255,0,0));
* g.drawCircle(0,0,3);
*
* var s = new createjs.Shape(g);
* s.x = 100;
* s.y = 100;
*
* stage.addChild(s);
* stage.update();
*
* A tiny API method "dc" also exists.
* @method drawCircle
* @param {Number} x x coordinate center point of circle.
* @param {Number} y y coordinate center point of circle.
* @param {Number} radius Radius of circle.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.drawCircle = function(x, y, radius) {
return this.append(new G.Circle(x, y, radius));
};
/**
* Draws an ellipse (oval) with a specified width (w) and height (h). Similar to {{#crossLink "Graphics/drawCircle"}}{{/crossLink}},
* except the width and height can be different. A tiny API method "de" also exists.
* @method drawEllipse
* @param {Number} x The left coordinate point of the ellipse. Note that this is different from {{#crossLink "Graphics/drawCircle"}}{{/crossLink}}
* which draws from center.
* @param {Number} y The top coordinate point of the ellipse. Note that this is different from {{#crossLink "Graphics/drawCircle"}}{{/crossLink}}
* which draws from the center.
* @param {Number} w The height (horizontal diameter) of the ellipse. The horizontal radius will be half of this
* number.
* @param {Number} h The width (vertical diameter) of the ellipse. The vertical radius will be half of this number.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.drawEllipse = function(x, y, w, h) {
return this.append(new G.Ellipse(x, y, w, h));
};
/**
* Draws a star if pointSize is greater than 0, or a regular polygon if pointSize is 0 with the specified number of
* points. For example, the following code will draw a familiar 5 pointed star shape centered at 100, 100 and with a
* radius of 50:
*
* myGraphics.beginFill("#FF0").drawPolyStar(100, 100, 50, 5, 0.6, -90);
* // Note: -90 makes the first point vertical
*
* A tiny API method "dp" also exists.
*
* @method drawPolyStar
* @param {Number} x Position of the center of the shape.
* @param {Number} y Position of the center of the shape.
* @param {Number} radius The outer radius of the shape.
* @param {Number} sides The number of points on the star or sides on the polygon.
* @param {Number} pointSize The depth or "pointy-ness" of the star points. A pointSize of 0 will draw a regular
* polygon (no points), a pointSize of 1 will draw nothing because the points are infinitely pointy.
* @param {Number} angle The angle of the first point / corner. For example a value of 0 will draw the first point
* directly to the right of the center.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.drawPolyStar = function(x, y, radius, sides, pointSize, angle) {
return this.append(new G.PolyStar(x, y, radius, sides, pointSize, angle));
};
/**
* Removed in favour of using custom command objects with {{#crossLink "Graphics/append"}}{{/crossLink}}.
* @method inject
* @deprecated
**/
/**
* Appends a graphics command object to the graphics queue. Command objects expose an "exec" method
* that accepts two parameters: the Context2D to operate on, and an arbitrary data object passed into
* {{#crossLink "Graphics/draw"}}{{/crossLink}}. The latter will usually be the Shape instance that called draw.
*
* This method is used internally by Graphics methods, such as drawCircle, but can also be used directly to insert
* built-in or custom graphics commands. For example:
*
* // attach data to our shape, so we can access it during the draw:
* myShape.color = "red";
*
* // append a Circle command object:
* myShape.graphics.append(new Graphics.Circle(50, 50, 30));
*
* // append a custom command object with an exec method that sets the fill style
* // based on the shape's data, and then fills the circle.
* myShape.graphics.append({exec:function(ctx, shape) {
* ctx.fillStyle = shape.color;
* ctx.fill();
* }});
*
* @method append
* @param {Object} command A graphics command object exposing an "exec" method.
* @param {boolean} clean The clean param is primarily for internal use. A value of true indicates that a command does not generate a path that should be stroked or filled.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.append = function(command, clean) {
this._activeInstructions.push(command);
this.command = command;
if (!clean) { this._dirty = true; }
return this;
};
/**
* Decodes a compact encoded path string into a series of draw instructions.
* This format is not intended to be human readable, and is meant for use by authoring tools.
* The format uses a base64 character set, with each character representing 6 bits, to define a series of draw
* commands.
*
* Each command is comprised of a single "header" character followed by a variable number of alternating x and y
* position values. Reading the header bits from left to right (most to least significant): bits 1 to 3 specify the
* type of operation (0-moveTo, 1-lineTo, 2-quadraticCurveTo, 3-bezierCurveTo, 4-closePath, 5-7 unused). Bit 4
* indicates whether position values use 12 bits (2 characters) or 18 bits (3 characters), with a one indicating the
* latter. Bits 5 and 6 are currently unused.
*
* Following the header is a series of 0 (closePath), 2 (moveTo, lineTo), 4 (quadraticCurveTo), or 6 (bezierCurveTo)
* parameters. These parameters are alternating x/y positions represented by 2 or 3 characters (as indicated by the
* 4th bit in the command char). These characters consist of a 1 bit sign (1 is negative, 0 is positive), followed
* by an 11 (2 char) or 17 (3 char) bit integer value. All position values are in tenths of a pixel. Except in the
* case of move operations which are absolute, this value is a delta from the previous x or y position (as
* appropriate).
*
* For example, the string "A3cAAMAu4AAA" represents a line starting at -150,0 and ending at 150,0.
*
A - bits 000000. First 3 bits (000) indicate a moveTo operation. 4th bit (0) indicates 2 chars per
* parameter.
*
n0 - 110111011100. Absolute x position of -150.0px. First bit indicates a negative value, remaining bits
* indicate 1500 tenths of a pixel.
*
AA - 000000000000. Absolute y position of 0.
*
I - 001100. First 3 bits (001) indicate a lineTo operation. 4th bit (1) indicates 3 chars per parameter.
*
Au4 - 000000101110111000. An x delta of 300.0px, which is added to the previous x value of -150.0px to
* provide an absolute position of +150.0px.
*
AAA - 000000000000000000. A y delta value of 0.
*
* A tiny API method "p" also exists.
* @method decodePath
* @param {String} str The path string to decode.
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.decodePath = function(str) {
var instructions = [this.moveTo, this.lineTo, this.quadraticCurveTo, this.bezierCurveTo, this.closePath];
var paramCount = [2, 2, 4, 6, 0];
var i=0, l=str.length;
var params = [];
var x=0, y=0;
var base64 = Graphics.BASE_64;
while (i>3; // highest order bits 1-3 code for operation.
var f = instructions[fi];
// check that we have a valid instruction & that the unused bits are empty:
if (!f || (n&3)) { throw("bad path data (@"+i+"): "+c); }
var pl = paramCount[fi];
if (!fi) { x=y=0; } // move operations reset the position.
params.length = 0;
i++;
var charCount = (n>>2&1)+2; // 4th header bit indicates number size for this operation.
for (var p=0; p>5) ? -1 : 1;
num = ((num&31)<<6)|(base64[str.charAt(i+1)]);
if (charCount == 3) { num = (num<<6)|(base64[str.charAt(i+2)]); }
num = sign*num/10;
if (p%2) { x = (num += x); }
else { y = (num += y); }
params[p] = num;
i += charCount;
}
f.apply(this,params);
}
return this;
};
/**
* Stores all graphics commands so they won't be executed in future draws. Calling store() a second time adds to
* the existing store.
*
* This is useful in cases where you are creating vector graphics in an iterative manner, so that only new
* graphics need to be drawn (which can provide huge performance benefits), but you wish to retain all of
* the vector instructions for later use (ex. scaling, modifying, or exporting).
*
* Note that calling store() will force the active path (if any) to be ended in a manner similar to changing
* the fill or stroke.
*
* For example, consider a application where the user draws lines with the mouse. As each line segment (or collection of
* segments) are added to a Shape, it can be rasterized using {{#crossLink "DisplayObject/updateCache"}}{{/crossLink}},
* and then stored, so that it can be redrawn at a different scale when the application is resized, or exported to SVG.
*
* // set up cache:
* myShape.cache(0,0,500,500,scale);
*
* // when the user drags, draw a new line:
* myShape.graphics.moveTo(oldX,oldY).lineTo(newX,newY);
* // then draw it into the existing cache:
* myShape.updateCache("source-over");
* // store the new line, so it isn't redrawn next time:
* myShape.store();
*
* // then, when the window resizes, we can re-render at a different scale:
* // first, unstore all our lines:
* myShape.unstore();
* // then cache using the new scale:
* myShape.cache(0,0,500,500,newScale);
* // finally, store the existing commands again:
* myShape.store();
*
* @method store
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.store = function() {
this._updateInstructions(true);
this._storeIndex = this._instructions.length;
return this;
};
/**
* Unstores any graphics commands that were previously stored using {{#crossLink "Graphics/store"}}{{/crossLink}}
* so that they will be executed in subsequent draw calls.
*
* @method unstore
* @return {Graphics} The Graphics instance the method is called on (useful for chaining calls.)
**/
p.unstore = function() {
this._storeIndex = 0;
return this;
};
/**
* Returns the graphics instructions array. Each entry is a graphics command object (ex. Graphics.Fill, Graphics.Rect)
* Modifying the array directly is very likely to result in unexpected behaviour.
*
* This method is mainly intended for introspection of the instructions (ex. for graphics export).
* @method getInstructions
* @return {Array} The graphics instructions array.
**/
p.getInstructions = function() {
this._updateInstructions();
return this._instructions;
};
/**
* Returns a clone of this Graphics instance. Note that the individual command objects are not cloned.
* @method clone
* @return {Graphics} A clone of the current Graphics instance.
**/
p.clone = function() {
var o = new Graphics();
o.command = this.command;
o._stroke = this._stroke;
o._strokeStyle = this._strokeStyle;
o._strokeIgnoreScale = this._strokeIgnoreScale;
o._fill = this._fill;
o._instructions = this._instructions.slice();
o._commitIndex = this._commitIndex;
o._activeInstructions = this._activeInstructions.slice();
o._dirty = this._dirty;
o._storeIndex = this._storeIndex;
return o;
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Graphics]";
};
// tiny API:
/** Shortcut to moveTo.
* @method mt
* @protected
* @type {Function}
**/
p.mt = p.moveTo;
/** Shortcut to lineTo.
* @method lt
* @protected
* @type {Function}
**/
p.lt = p.lineTo;
/** Shortcut to arcTo.
* @method at
* @protected
* @type {Function}
**/
p.at = p.arcTo;
/** Shortcut to bezierCurveTo.
* @method bt
* @protected
* @type {Function}
**/
p.bt = p.bezierCurveTo;
/** Shortcut to quadraticCurveTo / curveTo.
* @method qt
* @protected
* @type {Function}
**/
p.qt = p.quadraticCurveTo;
/** Shortcut to arc.
* @method a
* @protected
* @type {Function}
**/
p.a = p.arc;
/** Shortcut to rect.
* @method r
* @protected
* @type {Function}
**/
p.r = p.rect;
/** Shortcut to closePath.
* @method cp
* @protected
* @type {Function}
**/
p.cp = p.closePath;
/** Shortcut to clear.
* @method c
* @protected
* @type {Function}
**/
p.c = p.clear;
/** Shortcut to beginFill.
* @method f
* @protected
* @type {Function}
**/
p.f = p.beginFill;
/** Shortcut to beginLinearGradientFill.
* @method lf
* @protected
* @type {Function}
**/
p.lf = p.beginLinearGradientFill;
/** Shortcut to beginRadialGradientFill.
* @method rf
* @protected
* @type {Function}
**/
p.rf = p.beginRadialGradientFill;
/** Shortcut to beginBitmapFill.
* @method bf
* @protected
* @type {Function}
**/
p.bf = p.beginBitmapFill;
/** Shortcut to endFill.
* @method ef
* @protected
* @type {Function}
**/
p.ef = p.endFill;
/** Shortcut to setStrokeStyle.
* @method ss
* @protected
* @type {Function}
**/
p.ss = p.setStrokeStyle;
/** Shortcut to beginStroke.
* @method s
* @protected
* @type {Function}
**/
p.s = p.beginStroke;
/** Shortcut to beginLinearGradientStroke.
* @method ls
* @protected
* @type {Function}
**/
p.ls = p.beginLinearGradientStroke;
/** Shortcut to beginRadialGradientStroke.
* @method rs
* @protected
* @type {Function}
**/
p.rs = p.beginRadialGradientStroke;
/** Shortcut to beginBitmapStroke.
* @method bs
* @protected
* @type {Function}
**/
p.bs = p.beginBitmapStroke;
/** Shortcut to endStroke.
* @method es
* @protected
* @type {Function}
**/
p.es = p.endStroke;
/** Shortcut to drawRect.
* @method dr
* @protected
* @type {Function}
**/
p.dr = p.drawRect;
/** Shortcut to drawRoundRect.
* @method rr
* @protected
* @type {Function}
**/
p.rr = p.drawRoundRect;
/** Shortcut to drawRoundRectComplex.
* @method rc
* @protected
* @type {Function}
**/
p.rc = p.drawRoundRectComplex;
/** Shortcut to drawCircle.
* @method dc
* @protected
* @type {Function}
**/
p.dc = p.drawCircle;
/** Shortcut to drawEllipse.
* @method de
* @protected
* @type {Function}
**/
p.de = p.drawEllipse;
/** Shortcut to drawPolyStar.
* @method dp
* @protected
* @type {Function}
**/
p.dp = p.drawPolyStar;
/** Shortcut to decodePath.
* @method p
* @protected
* @type Function
**/
p.p = p.decodePath;
// private methods:
/**
* @method _updateInstructions
* @protected
**/
p._updateInstructions = function(commit) {
var instr = this._instructions, active = this._activeInstructions, commitIndex = this._commitIndex;
if (this._dirty && active.length) {
instr.length = commitIndex; // remove old, uncommitted commands
instr.push(Graphics.beginCmd);
instr.push.apply(instr, active);
if (this._fill) { instr.push(this._fill); }
if (this._stroke && this._strokeStyle) { instr.push(this._strokeStyle); }
if (this._stroke) { instr.push(this._stroke); }
this._dirty = false;
}
if (commit) {
active.length = 0;
this._commitIndex = instr.length;
}
};
/**
* @method _setFill
* @protected
**/
p._setFill = function(fill) {
this._updateInstructions(true);
if (this._fill = fill) { this.command = fill; }
return this;
};
/**
* @method _setStroke
* @protected
**/
p._setStroke = function(stroke) {
this._updateInstructions(true);
if (this._stroke = stroke) {
this.command = stroke;
stroke.ignoreScale = this._strokeIgnoreScale;
}
return this;
};
// Command Objects:
/**
* @namespace Graphics
*/
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class MoveTo
* @constructor
* @param {Number} x
* @param {Number} y
**/
/**
* @property x
* @type Number
*/
/**
* @property y
* @type Number
*/
(G.LineTo = function(x, y) {
this.x = x; this.y = y;
}).prototype.exec = function(ctx) { ctx.lineTo(this.x,this.y); };
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class LineTo
* @constructor
* @param {Number} x
* @param {Number} y
**/
/**
* @property x
* @type Number
*/
/**
* @property y
* @type Number
*/
(G.MoveTo = function(x, y) {
this.x = x; this.y = y;
}).prototype.exec = function(ctx) { ctx.moveTo(this.x, this.y); };
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class ArcTo
* @constructor
* @param {Number} x1
* @param {Number} y1
* @param {Number} x2
* @param {Number} y2
* @param {Number} radius
**/
/**
* @property x1
* @type Number
*/
/**
* @property y1
* @type Number
*/
/**
* @property x2
* @type Number
*/
/**
* @property y2
* @type Number
*/
/**
* @property radius
* @type Number
*/
(G.ArcTo = function(x1, y1, x2, y2, radius) {
this.x1 = x1; this.y1 = y1;
this.x2 = x2; this.y2 = y2;
this.radius = radius;
}).prototype.exec = function(ctx) { ctx.arcTo(this.x1, this.y1, this.x2, this.y2, this.radius); };
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class Arc
* @constructor
* @param {Number} x
* @param {Number} y
* @param {Number} radius
* @param {Number} startAngle
* @param {Number} endAngle
* @param {Number} anticlockwise
**/
/**
* @property x
* @type Number
*/
/**
* @property y
* @type Number
*/
/**
* @property radius
* @type Number
*/
/**
* @property startAngle
* @type Number
*/
/**
* @property endAngle
* @type Number
*/
/**
* @property anticlockwise
* @type Number
*/
(G.Arc = function(x, y, radius, startAngle, endAngle, anticlockwise) {
this.x = x; this.y = y;
this.radius = radius;
this.startAngle = startAngle; this.endAngle = endAngle;
this.anticlockwise = !!anticlockwise;
}).prototype.exec = function(ctx) { ctx.arc(this.x, this.y, this.radius, this.startAngle, this.endAngle, this.anticlockwise); };
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class QuadraticCurveTo
* @constructor
* @param {Number} cpx
* @param {Number} cpy
* @param {Number} x
* @param {Number} y
**/
/**
* @property cpx
* @type Number
*/
/**
* @property cpy
* @type Number
*/
/**
* @property x
* @type Number
*/
/**
* @property y
* @type Number
*/
(G.QuadraticCurveTo = function(cpx, cpy, x, y) {
this.cpx = cpx; this.cpy = cpy;
this.x = x; this.y = y;
}).prototype.exec = function(ctx) { ctx.quadraticCurveTo(this.cpx, this.cpy, this.x, this.y); };
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class BezierCurveTo
* @constructor
* @param {Number} cp1x
* @param {Number} cp1y
* @param {Number} cp2x
* @param {Number} cp2y
* @param {Number} x
* @param {Number} y
**/
/**
* @property cp1x
* @type Number
*/
/**
* @property cp1y
* @type Number
*/
/**
* @property cp2x
* @type Number
*/
/**
* @property cp2y
* @type Number
*/
/**
* @property x
* @type Number
*/
/**
* @property y
* @type Number
*/
(G.BezierCurveTo = function(cp1x, cp1y, cp2x, cp2y, x, y) {
this.cp1x = cp1x; this.cp1y = cp1y;
this.cp2x = cp2x; this.cp2y = cp2y;
this.x = x; this.y = y;
}).prototype.exec = function(ctx) { ctx.bezierCurveTo(this.cp1x, this.cp1y, this.cp2x, this.cp2y, this.x, this.y); };
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class Rect
* @constructor
* @param {Number} x
* @param {Number} y
* @param {Number} w
* @param {Number} h
**/
/**
* @property x
* @type Number
*/
/**
* @property y
* @type Number
*/
/**
* @property w
* @type Number
*/
/**
* @property h
* @type Number
*/
(G.Rect = function(x, y, w, h) {
this.x = x; this.y = y;
this.w = w; this.h = h;
}).prototype.exec = function(ctx) { ctx.rect(this.x, this.y, this.w, this.h); };
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class ClosePath
* @constructor
**/
(G.ClosePath = function() {
}).prototype.exec = function(ctx) { ctx.closePath(); };
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class BeginPath
* @constructor
**/
(G.BeginPath = function() {
}).prototype.exec = function(ctx) { ctx.beginPath(); };
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class Fill
* @constructor
* @param {Object} style A valid Context2D fillStyle.
* @param {Matrix2D} matrix
**/
/**
* A valid Context2D fillStyle.
* @property style
* @type Object
*/
/**
* @property matrix
* @type Matrix2D
*/
p = (G.Fill = function(style, matrix) {
this.style = style;
this.matrix = matrix;
}).prototype;
p.exec = function(ctx) {
if (!this.style) { return; }
ctx.fillStyle = this.style;
var mtx = this.matrix;
if (mtx) { ctx.save(); ctx.transform(mtx.a, mtx.b, mtx.c, mtx.d, mtx.tx, mtx.ty); }
ctx.fill();
if (mtx) { ctx.restore(); }
};
/**
* Creates a linear gradient style and assigns it to {{#crossLink "Fill/style:property"}}{{/crossLink}}.
* @method linearGradient
* @param {Array} colors
* @param {Array} ratios
* @param {Number} x0
* @param {Number} y0
* @param {Number} x1
* @param {Number} y1
* @return {Fill} Returns this Fill object for chaining or assignment.
*/
p.linearGradient = function(colors, ratios, x0, y0, x1, y1) {
var o = this.style = Graphics._ctx.createLinearGradient(x0, y0, x1, y1);
for (var i=0, l=colors.length; i max) { rTL = max; }
if (rTR < 0) { rTR *= (mTR=-1); }
if (rTR > max) { rTR = max; }
if (rBR < 0) { rBR *= (mBR=-1); }
if (rBR > max) { rBR = max; }
if (rBL < 0) { rBL *= (mBL=-1); }
if (rBL > max) { rBL = max; }
ctx.moveTo(x+w-rTR, y);
ctx.arcTo(x+w+rTR*mTR, y-rTR*mTR, x+w, y+rTR, rTR);
ctx.lineTo(x+w, y+h-rBR);
ctx.arcTo(x+w+rBR*mBR, y+h+rBR*mBR, x+w-rBR, y+h, rBR);
ctx.lineTo(x+rBL, y+h);
ctx.arcTo(x-rBL*mBL, y+h+rBL*mBL, x, y+h-rBL, rBL);
ctx.lineTo(x, y+rTL);
ctx.arcTo(x-rTL*mTL, y-rTL*mTL, x+rTL, y, rTL);
ctx.closePath();
};
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class Circle
* @constructor
* @param {Number} x
* @param {Number} y
* @param {Number} radius
**/
/**
* @property x
* @type Number
*/
/**
* @property y
* @type Number
*/
/**
* @property radius
* @type Number
*/
(G.Circle = function(x, y, radius) {
this.x = x; this.y = y;
this.radius = radius;
}).prototype.exec = function(ctx) { ctx.arc(this.x, this.y, this.radius, 0, Math.PI*2); };
(G.Ellipse = function(x, y, w, h) {
this.x = x; this.y = y;
this.w = w; this.h = h;
}).prototype.exec = function(ctx) {
var x = this.x, y = this.y;
var w = this.w, h = this.h;
var k = 0.5522848;
var ox = (w / 2) * k;
var oy = (h / 2) * k;
var xe = x + w;
var ye = y + h;
var xm = x + w / 2;
var ym = y + h / 2;
ctx.moveTo(x, ym);
ctx.bezierCurveTo(x, ym-oy, xm-ox, y, xm, y);
ctx.bezierCurveTo(xm+ox, y, xe, ym-oy, xe, ym);
ctx.bezierCurveTo(xe, ym+oy, xm+ox, ye, xm, ye);
ctx.bezierCurveTo(xm-ox, ye, x, ym+oy, x, ym);
};
/**
* Graphics command object. See {{#crossLink "Graphics"}}{{/crossLink}} and {{#crossLink "Graphics/append"}}{{/crossLink}} for more information.
* @class PolyStar
* @constructor
* @param {Number} x
* @param {Number} y
* @param {Number} radius
* @param {Number} sides
* @param {Number} pointSize
* @param {Number} angle
**/
/**
* @property x
* @type Number
*/
/**
* @property y
* @type Number
*/
/**
* @property radius
* @type Number
*/
/**
* @property sides
* @type Number
*/
/**
* @property pointSize
* @type Number
*/
/**
* @property angle
* @type Number
*/
(G.PolyStar = function(x, y, radius, sides, pointSize, angle) {
this.x = x; this.y = y;
this.radius = radius;
this.sides = sides;
this.pointSize = pointSize;
this.angle = angle;
}).prototype.exec = function(ctx) {
var x = this.x, y = this.y;
var radius = this.radius;
var angle = (this.angle||0)/180*Math.PI;
var sides = this.sides;
var ps = 1-(this.pointSize||0);
var a = Math.PI/sides;
ctx.moveTo(x+Math.cos(angle)*radius, y+Math.sin(angle)*radius);
for (var i=0; iNote: In EaselJS 0.7.0, the mouseEnabled property will not work properly with nested Containers. Please
* check out the latest NEXT version in GitHub for an updated version with this issue resolved. The fix will be
* provided in the next release of EaselJS.
* @property mouseEnabled
* @type {Boolean}
* @default true
**/
this.mouseEnabled = true;
/**
* If false, the tick will not run on this display object (or its children). This can provide some performance benefits.
* In addition to preventing the "tick" event from being dispatched, it will also prevent tick related updates
* on some display objects (ex. Sprite & MovieClip frame advancing, DOMElement visibility handling).
* @property tickEnabled
* @type Boolean
* @default true
**/
this.tickEnabled = true;
/**
* An optional name for this display object. Included in {{#crossLink "DisplayObject/toString"}}{{/crossLink}} . Useful for
* debugging.
* @property name
* @type {String}
* @default null
**/
this.name = null;
/**
* A reference to the {{#crossLink "Container"}}{{/crossLink}} or {{#crossLink "Stage"}}{{/crossLink}} object that
* contains this display object, or null if it has not been added
* to one.
* @property parent
* @final
* @type {Container}
* @default null
* @readonly
**/
this.parent = null;
/**
* The left offset for this display object's registration point. For example, to make a 100x100px Bitmap rotate
* around its center, you would set regX and {{#crossLink "DisplayObject/regY:property"}}{{/crossLink}} to 50.
* @property regX
* @type {Number}
* @default 0
**/
this.regX = 0;
/**
* The y offset for this display object's registration point. For example, to make a 100x100px Bitmap rotate around
* its center, you would set {{#crossLink "DisplayObject/regX:property"}}{{/crossLink}} and regY to 50.
* @property regY
* @type {Number}
* @default 0
**/
this.regY = 0;
/**
* The rotation in degrees for this display object.
* @property rotation
* @type {Number}
* @default 0
**/
this.rotation = 0;
/**
* The factor to stretch this display object horizontally. For example, setting scaleX to 2 will stretch the display
* object to twice its nominal width. To horizontally flip an object, set the scale to a negative number.
* @property scaleX
* @type {Number}
* @default 1
**/
this.scaleX = 1;
/**
* The factor to stretch this display object vertically. For example, setting scaleY to 0.5 will stretch the display
* object to half its nominal height. To vertically flip an object, set the scale to a negative number.
* @property scaleY
* @type {Number}
* @default 1
**/
this.scaleY = 1;
/**
* The factor to skew this display object horizontally.
* @property skewX
* @type {Number}
* @default 0
**/
this.skewX = 0;
/**
* The factor to skew this display object vertically.
* @property skewY
* @type {Number}
* @default 0
**/
this.skewY = 0;
/**
* A shadow object that defines the shadow to render on this display object. Set to `null` to remove a shadow. If
* null, this property is inherited from the parent container.
* @property shadow
* @type {Shadow}
* @default null
**/
this.shadow = null;
/**
* Indicates whether this display object should be rendered to the canvas and included when running the Stage
* {{#crossLink "Stage/getObjectsUnderPoint"}}{{/crossLink}} method.
* @property visible
* @type {Boolean}
* @default true
**/
this.visible = true;
/**
* The x (horizontal) position of the display object, relative to its parent.
* @property x
* @type {Number}
* @default 0
**/
this.x = 0;
/** The y (vertical) position of the display object, relative to its parent.
* @property y
* @type {Number}
* @default 0
**/
this.y = 0;
/**
* If set, defines the transformation for this display object, overriding all other transformation properties
* (x, y, rotation, scale, skew).
* @property transformMatrix
* @type {Matrix2D}
* @default null
**/
this.transformMatrix = null;
/**
* The composite operation indicates how the pixels of this display object will be composited with the elements
* behind it. If `null`, this property is inherited from the parent container. For more information, read the
*
* whatwg spec on compositing.
* @property compositeOperation
* @type {String}
* @default null
**/
this.compositeOperation = null;
/**
* Indicates whether the display object should be drawn to a whole pixel when
* {{#crossLink "Stage/snapToPixelEnabled"}}{{/crossLink}} is true. To enable/disable snapping on whole
* categories of display objects, set this value on the prototype (Ex. Text.prototype.snapToPixel = true).
* @property snapToPixel
* @type {Boolean}
* @default true
**/
this.snapToPixel = true;
/**
* An array of Filter objects to apply to this display object. Filters are only applied / updated when {{#crossLink "cache"}}{{/crossLink}}
* or {{#crossLink "updateCache"}}{{/crossLink}} is called on the display object, and only apply to the area that is
* cached.
* @property filters
* @type {Array}
* @default null
**/
this.filters = null;
/**
* A Shape instance that defines a vector mask (clipping path) for this display object. The shape's transformation
* will be applied relative to the display object's parent coordinates (as if it were a child of the parent).
* @property mask
* @type {Shape}
* @default null
*/
this.mask = null;
/**
* A display object that will be tested when checking mouse interactions or testing {{#crossLink "Container/getObjectsUnderPoint"}}{{/crossLink}}.
* The hit area will have its transformation applied relative to this display object's coordinate space (as though
* the hit test object were a child of this display object and relative to its regX/Y). The hitArea will be tested
* using only its own `alpha` value regardless of the alpha value on the target display object, or the target's
* ancestors (parents).
*
* If set on a {{#crossLink "Container"}}{{/crossLink}}, children of the Container will not receive mouse events.
* This is similar to setting {{#crossLink "mouseChildren"}}{{/crossLink}} to false.
*
* Note that hitArea is NOT currently used by the `hitTest()` method, nor is it supported for {{#crossLink "Stage"}}{{/crossLink}}.
* @property hitArea
* @type {DisplayObject}
* @default null
*/
this.hitArea = null;
/**
* A CSS cursor (ex. "pointer", "help", "text", etc) that will be displayed when the user hovers over this display
* object. You must enable mouseover events using the {{#crossLink "Stage/enableMouseOver"}}{{/crossLink}} method to
* use this property. Setting a non-null cursor on a Container will override the cursor set on its descendants.
* @property cursor
* @type {String}
* @default null
*/
this.cursor = null;
// private properties:
/**
* @property _cacheOffsetX
* @protected
* @type {Number}
* @default 0
**/
this._cacheOffsetX = 0;
/**
* @property _cacheOffsetY
* @protected
* @type {Number}
* @default 0
**/
this._cacheOffsetY = 0;
/**
* @property _cacheScale
* @protected
* @type {Number}
* @default 1
**/
this._cacheScale = 1;
/**
* @property _cacheDataURLID
* @protected
* @type {Number}
* @default 0
*/
this._cacheDataURLID = 0;
/**
* @property _cacheDataURL
* @protected
* @type {String}
* @default null
*/
this._cacheDataURL = null;
/**
* @property _props
* @protected
* @type {DisplayObject}
* @default null
**/
this._props = new createjs.DisplayProps();
/**
* @property _rectangle
* @protected
* @type {Rectangle}
* @default null
**/
this._rectangle = new createjs.Rectangle();
/**
* @property _bounds
* @protected
* @type {Rectangle}
* @default null
**/
this._bounds = null;
}
var p = createjs.extend(DisplayObject, createjs.EventDispatcher);
// static properties:
/**
* Listing of mouse event names. Used in _hasMouseEventListener.
* @property _MOUSE_EVENTS
* @protected
* @static
* @type {Array}
**/
DisplayObject._MOUSE_EVENTS = ["click","dblclick","mousedown","mouseout","mouseover","pressmove","pressup","rollout","rollover"];
/**
* Suppresses errors generated when using features like hitTest, mouse events, and {{#crossLink "getObjectsUnderPoint"}}{{/crossLink}}
* with cross domain content.
* @property suppressCrossDomainErrors
* @static
* @type {Boolean}
* @default false
**/
DisplayObject.suppressCrossDomainErrors = false;
/**
* @property _snapToPixelEnabled
* @protected
* @static
* @type {Boolean}
* @default false
**/
DisplayObject._snapToPixelEnabled = false; // stage.snapToPixelEnabled is temporarily copied here during a draw to provide global access.
/**
* @property _hitTestCanvas
* @type {HTMLCanvasElement | Object}
* @static
* @protected
**/
/**
* @property _hitTestContext
* @type {CanvasRenderingContext2D}
* @static
* @protected
**/
var canvas = createjs.createCanvas?createjs.createCanvas():document.createElement("canvas"); // prevent errors on load in browsers without canvas.
if (canvas.getContext) {
DisplayObject._hitTestCanvas = canvas;
DisplayObject._hitTestContext = canvas.getContext("2d");
canvas.width = canvas.height = 1;
}
/**
* @property _nextCacheID
* @type {Number}
* @static
* @protected
**/
DisplayObject._nextCacheID = 1;
// events:
/**
* Dispatched when the user presses their left mouse button over the display object. See the
* {{#crossLink "MouseEvent"}}{{/crossLink}} class for a listing of event properties.
* @event mousedown
* @since 0.6.0
*/
/**
* Dispatched when the user presses their left mouse button and then releases it while over the display object.
* See the {{#crossLink "MouseEvent"}}{{/crossLink}} class for a listing of event properties.
* @event click
* @since 0.6.0
*/
/**
* Dispatched when the user double clicks their left mouse button over this display object.
* See the {{#crossLink "MouseEvent"}}{{/crossLink}} class for a listing of event properties.
* @event dblclick
* @since 0.6.0
*/
/**
* Dispatched when the user's mouse enters this display object. This event must be enabled using
* {{#crossLink "Stage/enableMouseOver"}}{{/crossLink}}. See also {{#crossLink "DisplayObject/rollover:event"}}{{/crossLink}}.
* See the {{#crossLink "MouseEvent"}}{{/crossLink}} class for a listing of event properties.
* @event mouseover
* @since 0.6.0
*/
/**
* Dispatched when the user's mouse leaves this display object. This event must be enabled using
* {{#crossLink "Stage/enableMouseOver"}}{{/crossLink}}. See also {{#crossLink "DisplayObject/rollout:event"}}{{/crossLink}}.
* See the {{#crossLink "MouseEvent"}}{{/crossLink}} class for a listing of event properties.
* @event mouseout
* @since 0.6.0
*/
/**
* This event is similar to {{#crossLink "DisplayObject/mouseover:event"}}{{/crossLink}}, with the following
* differences: it does not bubble, and it considers {{#crossLink "Container"}}{{/crossLink}} instances as an
* aggregate of their content.
*
* For example, myContainer contains two overlapping children: shapeA and shapeB. The user moves their mouse over
* shapeA and then directly on to shapeB. With a listener for {{#crossLink "mouseover:event"}}{{/crossLink}} on
* myContainer, two events would be received, each targeting a child element:
* - when the mouse enters shapeA (target=shapeA)
* - when the mouse enters shapeB (target=shapeB)
*
* However, with a listener for "rollover" instead, only a single event is received when the mouse first enters
* the aggregate myContainer content (target=myContainer).
*
* This event must be enabled using {{#crossLink "Stage/enableMouseOver"}}{{/crossLink}}.
* See the {{#crossLink "MouseEvent"}}{{/crossLink}} class for a listing of event properties.
* @event rollover
* @since 0.7.0
*/
/**
* This event is similar to {{#crossLink "DisplayObject/mouseout:event"}}{{/crossLink}}, with the following
* differences: it does not bubble, and it considers {{#crossLink "Container"}}{{/crossLink}} instances as an
* aggregate of their content.
*
* For example, myContainer contains two overlapping children: shapeA and shapeB. The user moves their mouse over
* shapeA, then directly on to shapeB, then off both. With a listener for {{#crossLink "mouseout:event"}}{{/crossLink}}
* on myContainer, two events would be received, each targeting a child element:
* - when the mouse leaves shapeA (target=shapeA)
* - when the mouse leaves shapeB (target=shapeB)
*
* However, with a listener for "rollout" instead, only a single event is received when the mouse leaves
* the aggregate myContainer content (target=myContainer).
*
* This event must be enabled using {{#crossLink "Stage/enableMouseOver"}}{{/crossLink}}.
* See the {{#crossLink "MouseEvent"}}{{/crossLink}} class for a listing of event properties.
* @event rollout
* @since 0.7.0
*/
/**
* After a {{#crossLink "DisplayObject/mousedown:event"}}{{/crossLink}} occurs on a display object, a pressmove
* event will be generated on that object whenever the mouse moves until the mouse press is released. This can be
* useful for dragging and similar operations.
* @event pressmove
* @since 0.7.0
*/
/**
* After a {{#crossLink "DisplayObject/mousedown:event"}}{{/crossLink}} occurs on a display object, a pressup event
* will be generated on that object when that mouse press is released. This can be useful for dragging and similar
* operations.
* @event pressup
* @since 0.7.0
*/
/**
* Dispatched when the display object is added to a parent container.
* @event added
*/
/**
* Dispatched when the display object is removed from its parent container.
* @event removed
*/
/**
* Dispatched on each display object on a stage whenever the stage updates. This occurs immediately before the
* rendering (draw) pass. When {{#crossLink "Stage/update"}}{{/crossLink}} is called, first all display objects on
* the stage dispatch the tick event, then all of the display objects are drawn to stage. Children will have their
* {{#crossLink "tick:event"}}{{/crossLink}} event dispatched in order of their depth prior to the event being
* dispatched on their parent.
* @event tick
* @param {Object} target The object that dispatched the event.
* @param {String} type The event type.
* @param {Array} params An array containing any arguments that were passed to the Stage.update() method. For
* example if you called stage.update("hello"), then the params would be ["hello"].
* @since 0.6.0
*/
// public methods:
/**
* Returns true or false indicating whether the display object would be visible if drawn to a canvas.
* This does not account for whether it would be visible within the boundaries of the stage.
*
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method isVisible
* @return {Boolean} Boolean indicating whether the display object would be visible if drawn to a canvas
**/
p.isVisible = function() {
return !!(this.visible && this.alpha > 0 && this.scaleX != 0 && this.scaleY != 0);
};
/**
* Draws the display object into the specified context ignoring its visible, alpha, shadow, and transform.
* Returns true
if the draw was handled (useful for overriding functionality).
*
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method draw
* @param {CanvasRenderingContext2D} ctx The canvas 2D context object to draw into.
* @param {Boolean} [ignoreCache=false] Indicates whether the draw operation should ignore any current cache. For example,
* used for drawing the cache (to prevent it from simply drawing an existing cache back into itself).
* @return {Boolean}
**/
p.draw = function(ctx, ignoreCache) {
var cacheCanvas = this.cacheCanvas;
if (ignoreCache || !cacheCanvas) { return false; }
var scale = this._cacheScale, offX = this._cacheOffsetX, offY = this._cacheOffsetY, fBounds;
if (fBounds = this._applyFilterBounds(offX, offY, 0, 0)) {
offX = fBounds.x;
offY = fBounds.y;
}
ctx.drawImage(cacheCanvas, offX, offY, cacheCanvas.width/scale, cacheCanvas.height/scale);
return true;
};
/**
* Applies this display object's transformation, alpha, globalCompositeOperation, clipping path (mask), and shadow
* to the specified context. This is typically called prior to {{#crossLink "DisplayObject/draw"}}{{/crossLink}}.
* @method updateContext
* @param {CanvasRenderingContext2D} ctx The canvas 2D to update.
**/
p.updateContext = function(ctx) {
var o=this, mask=o.mask, mtx= o._props.matrix;
if (mask && mask.graphics && !mask.graphics.isEmpty()) {
mask.getMatrix(mtx);
ctx.transform(mtx.a, mtx.b, mtx.c, mtx.d, mtx.tx, mtx.ty);
mask.graphics.drawAsPath(ctx);
ctx.clip();
mtx.invert();
ctx.transform(mtx.a, mtx.b, mtx.c, mtx.d, mtx.tx, mtx.ty);
}
this.getMatrix(mtx);
var tx = mtx.tx, ty = mtx.ty;
if (DisplayObject._snapToPixelEnabled && o.snapToPixel) {
tx = tx + (tx < 0 ? -0.5 : 0.5) | 0;
ty = ty + (ty < 0 ? -0.5 : 0.5) | 0;
}
ctx.transform(mtx.a, mtx.b, mtx.c, mtx.d, tx, ty);
ctx.globalAlpha *= o.alpha;
if (o.compositeOperation) { ctx.globalCompositeOperation = o.compositeOperation; }
if (o.shadow) { this._applyShadow(ctx, o.shadow); }
};
/**
* Draws the display object into a new canvas, which is then used for subsequent draws. For complex content
* that does not change frequently (ex. a Container with many children that do not move, or a complex vector Shape),
* this can provide for much faster rendering because the content does not need to be re-rendered each tick. The
* cached display object can be moved, rotated, faded, etc freely, however if its content changes, you must
* manually update the cache by calling updateCache()
or cache()
again. You must specify
* the cache area via the x, y, w, and h parameters. This defines the rectangle that will be rendered and cached
* using this display object's coordinates.
*
* Example
* For example if you defined a Shape that drew a circle at 0, 0 with a radius of 25:
*
* var shape = new createjs.Shape();
* shape.graphics.beginFill("#ff0000").drawCircle(0, 0, 25);
* myShape.cache(-25, -25, 50, 50);
*
* Note that filters need to be defined before the cache is applied. Check out the {{#crossLink "Filter"}}{{/crossLink}}
* class for more information. Some filters (ex. BlurFilter) will not work as expected in conjunction with the scale param.
*
* Usually, the resulting cacheCanvas will have the dimensions width*scale by height*scale, however some filters (ex. BlurFilter)
* will add padding to the canvas dimensions.
*
* @method cache
* @param {Number} x The x coordinate origin for the cache region.
* @param {Number} y The y coordinate origin for the cache region.
* @param {Number} width The width of the cache region.
* @param {Number} height The height of the cache region.
* @param {Number} [scale=1] The scale at which the cache will be created. For example, if you cache a vector shape using
* myShape.cache(0,0,100,100,2) then the resulting cacheCanvas will be 200x200 px. This lets you scale and rotate
* cached elements with greater fidelity. Default is 1.
**/
p.cache = function(x, y, width, height, scale) {
// draw to canvas.
scale = scale||1;
if (!this.cacheCanvas) { this.cacheCanvas = createjs.createCanvas?createjs.createCanvas():document.createElement("canvas"); }
this._cacheWidth = width;
this._cacheHeight = height;
this._cacheOffsetX = x;
this._cacheOffsetY = y;
this._cacheScale = scale;
this.updateCache();
};
/**
* Redraws the display object to its cache. Calling updateCache without an active cache will throw an error.
* If compositeOperation is null the current cache will be cleared prior to drawing. Otherwise the display object
* will be drawn over the existing cache using the specified compositeOperation.
*
* Example
* Clear the current graphics of a cached shape, draw some new instructions, and then update the cache. The new line
* will be drawn on top of the old one.
*
* // Not shown: Creating the shape, and caching it.
* shapeInstance.clear();
* shapeInstance.setStrokeStyle(3).beginStroke("#ff0000").moveTo(100, 100).lineTo(200,200);
* shapeInstance.updateCache();
*
* @method updateCache
* @param {String} compositeOperation The compositeOperation to use, or null to clear the cache and redraw it.
*
* whatwg spec on compositing.
**/
p.updateCache = function(compositeOperation) {
var cacheCanvas = this.cacheCanvas, scale = this._cacheScale, offX = this._cacheOffsetX*scale, offY = this._cacheOffsetY*scale;
var w = this._cacheWidth, h = this._cacheHeight, fBounds;
if (!cacheCanvas) { throw "cache() must be called before updateCache()"; }
var ctx = cacheCanvas.getContext("2d");
// update bounds based on filters:
if (fBounds = this._applyFilterBounds(offX, offY, w, h)) {
offX = fBounds.x;
offY = fBounds.y;
w = fBounds.width;
h = fBounds.height;
}
w = Math.ceil(w*scale);
h = Math.ceil(h*scale);
if (w != cacheCanvas.width || h != cacheCanvas.height) {
// TODO: it would be nice to preserve the content if there is a compositeOperation.
cacheCanvas.width = w;
cacheCanvas.height = h;
} else if (!compositeOperation) {
ctx.clearRect(0, 0, w+1, h+1);
}
ctx.save();
ctx.globalCompositeOperation = compositeOperation;
ctx.setTransform(scale, 0, 0, scale, -offX, -offY);
this.draw(ctx, true);
// TODO: filters and cache scale don't play well together at present.
this._applyFilters();
ctx.restore();
this.cacheID = DisplayObject._nextCacheID++;
};
/**
* Clears the current cache. See {{#crossLink "DisplayObject/cache"}}{{/crossLink}} for more information.
* @method uncache
**/
p.uncache = function() {
this._cacheDataURL = this.cacheCanvas = null;
this.cacheID = this._cacheOffsetX = this._cacheOffsetY = 0;
this._cacheScale = 1;
};
/**
* Returns a data URL for the cache, or null if this display object is not cached.
* Uses cacheID to ensure a new data URL is not generated if the cache has not changed.
* @method getCacheDataURL
* @return {String} The image data url for the cache.
**/
p.getCacheDataURL = function() {
if (!this.cacheCanvas) { return null; }
if (this.cacheID != this._cacheDataURLID) { this._cacheDataURL = this.cacheCanvas.toDataURL(); }
return this._cacheDataURL;
};
/**
* Returns the stage that this display object will be rendered on, or null if it has not been added to one.
* @method getStage
* @return {Stage} The Stage instance that the display object is a descendent of. null if the DisplayObject has not
* been added to a Stage.
**/
p.getStage = function() {
var o = this;
while (o.parent) {
o = o.parent;
}
// using dynamic access to avoid circular dependencies;
if (o instanceof createjs["Stage"]) { return o; }
return null;
};
/**
* Transforms the specified x and y position from the coordinate space of the display object
* to the global (stage) coordinate space. For example, this could be used to position an HTML label
* over a specific point on a nested display object. Returns a Point instance with x and y properties
* correlating to the transformed coordinates on the stage.
*
* Example
*
* displayObject.x = 300;
* displayObject.y = 200;
* stage.addChild(displayObject);
* var point = myDisplayObject.localToGlobal(100, 100);
* // Results in x=400, y=300
*
* @method localToGlobal
* @param {Number} x The x position in the source display object to transform.
* @param {Number} y The y position in the source display object to transform.
* @return {Point} A Point instance with x and y properties correlating to the transformed coordinates
* on the stage.
**/
p.localToGlobal = function(x, y) {
var mtx = this.getConcatenatedMatrix(this._props.matrix).prepend(1, 0, 0, 1, x, y);
return new createjs.Point(mtx.tx, mtx.ty);
};
/**
* Transforms the specified x and y position from the global (stage) coordinate space to the
* coordinate space of the display object. For example, this could be used to determine
* the current mouse position within the display object. Returns a Point instance with x and y properties
* correlating to the transformed position in the display object's coordinate space.
*
* Example
*
* displayObject.x = 300;
* displayObject.y = 200;
* stage.addChild(displayObject);
* var point = myDisplayObject.globalToLocal(100, 100);
* // Results in x=-200, y=-100
*
* @method globalToLocal
* @param {Number} x The x position on the stage to transform.
* @param {Number} y The y position on the stage to transform.
* @return {Point} A Point instance with x and y properties correlating to the transformed position in the
* display object's coordinate space.
**/
p.globalToLocal = function(x, y) {
var mtx = this.getConcatenatedMatrix(this._props.matrix).invert().prepend(1, 0, 0, 1, x, y);
return new createjs.Point(mtx.tx, mtx.ty);
};
/**
* Transforms the specified x and y position from the coordinate space of this display object to the coordinate
* space of the target display object. Returns a Point instance with x and y properties correlating to the
* transformed position in the target's coordinate space. Effectively the same as using the following code with
* {{#crossLink "DisplayObject/localToGlobal"}}{{/crossLink}} and {{#crossLink "DisplayObject/globalToLocal"}}{{/crossLink}}.
*
* var pt = this.localToGlobal(x, y);
* pt = target.globalToLocal(pt.x, pt.y);
*
* @method localToLocal
* @param {Number} x The x position in the source display object to transform.
* @param {Number} y The y position on the source display object to transform.
* @param {DisplayObject} target The target display object to which the coordinates will be transformed.
* @return {Point} Returns a Point instance with x and y properties correlating to the transformed position
* in the target's coordinate space.
**/
p.localToLocal = function(x, y, target) {
var pt = this.localToGlobal(x, y);
return target.globalToLocal(pt.x, pt.y);
};
/**
* Shortcut method to quickly set the transform properties on the display object. All parameters are optional.
* Omitted parameters will have the default value set.
*
* Example
*
* displayObject.setTransform(100, 100, 2, 2);
*
* @method setTransform
* @param {Number} [x=0] The horizontal translation (x position) in pixels
* @param {Number} [y=0] The vertical translation (y position) in pixels
* @param {Number} [scaleX=1] The horizontal scale, as a percentage of 1
* @param {Number} [scaleY=1] the vertical scale, as a percentage of 1
* @param {Number} [rotation=0] The rotation, in degrees
* @param {Number} [skewX=0] The horizontal skew factor
* @param {Number} [skewY=0] The vertical skew factor
* @param {Number} [regX=0] The horizontal registration point in pixels
* @param {Number} [regY=0] The vertical registration point in pixels
* @return {DisplayObject} Returns this instance. Useful for chaining commands.
*/
p.setTransform = function(x, y, scaleX, scaleY, rotation, skewX, skewY, regX, regY) {
this.x = x || 0;
this.y = y || 0;
this.scaleX = scaleX == null ? 1 : scaleX;
this.scaleY = scaleY == null ? 1 : scaleY;
this.rotation = rotation || 0;
this.skewX = skewX || 0;
this.skewY = skewY || 0;
this.regX = regX || 0;
this.regY = regY || 0;
return this;
};
/**
* Returns a matrix based on this object's current transform.
* @method getMatrix
* @param {Matrix2D} matrix Optional. A Matrix2D object to populate with the calculated values. If null, a new
* Matrix object is returned.
* @return {Matrix2D} A matrix representing this display object's transform.
**/
p.getMatrix = function(matrix) {
var o = this, mtx = matrix&&matrix.identity() || new createjs.Matrix2D();
return o.transformMatrix ? mtx.copy(o.transformMatrix) : mtx.prependTransform(o.x, o.y, o.scaleX, o.scaleY, o.rotation, o.skewX, o.skewY, o.regX, o.regY);
};
/**
* Generates a Matrix2D object representing the combined transform of the display object and all of its
* parent Containers up to the highest level ancestor (usually the {{#crossLink "Stage"}}{{/crossLink}}). This can
* be used to transform positions between coordinate spaces, such as with {{#crossLink "DisplayObject/localToGlobal"}}{{/crossLink}}
* and {{#crossLink "DisplayObject/globalToLocal"}}{{/crossLink}}.
* @method getConcatenatedMatrix
* @param {Matrix2D} [matrix] A {{#crossLink "Matrix2D"}}{{/crossLink}} object to populate with the calculated values.
* If null, a new Matrix2D object is returned.
* @return {Matrix2D} The combined matrix.
**/
p.getConcatenatedMatrix = function(matrix) {
var o = this, mtx = this.getMatrix(matrix);
while (o = o.parent) {
mtx.appendMatrix(o.getMatrix(o._props.matrix));
}
return mtx;
};
/**
* Generates a DisplayProps object representing the combined display properties of the object and all of its
* parent Containers up to the highest level ancestor (usually the {{#crossLink "Stage"}}{{/crossLink}}).
* @method getConcatenatedDisplayProps
* @param {DisplayProps} [props] A {{#crossLink "DisplayProps"}}{{/crossLink}} object to populate with the calculated values.
* If null, a new DisplayProps object is returned.
* @return {DisplayProps} The combined display properties.
**/
p.getConcatenatedDisplayProps = function(props) {
props = props ? props.identity() : new createjs.DisplayProps();
var o = this, mtx = o.getMatrix(props.matrix);
do {
props.append(o.visible, o.alpha, o.shadow, o.compositeOperation);
// we do this to avoid problems with the matrix being used for both operations when o._props.matrix is passed in as the props param.
// this could be simplified (ie. just done as part of the append above) if we switched to using a pool.
if (o != this) { mtx.appendMatrix(o.getMatrix(o._props.matrix)); }
} while (o = o.parent);
return props;
};
/**
* Tests whether the display object intersects the specified point in local coordinates (ie. draws a pixel with alpha > 0 at
* the specified position). This ignores the alpha, shadow, hitArea, mask, and compositeOperation of the display object.
*
* Example
*
* stage.addEventListener("stagemousedown", handleMouseDown);
* function handleMouseDown(event) {
* var hit = myShape.hitTest(event.stageX, event.stageY);
* }
*
* Please note that shape-to-shape collision is not currently supported by EaselJS.
* @method hitTest
* @param {Number} x The x position to check in the display object's local coordinates.
* @param {Number} y The y position to check in the display object's local coordinates.
* @return {Boolean} A Boolean indicting whether a visible portion of the DisplayObject intersect the specified
* local Point.
*/
p.hitTest = function(x, y) {
var ctx = DisplayObject._hitTestContext;
ctx.setTransform(1, 0, 0, 1, -x, -y);
this.draw(ctx);
var hit = this._testHit(ctx);
ctx.setTransform(1, 0, 0, 1, 0, 0);
ctx.clearRect(0, 0, 2, 2);
return hit;
};
/**
* Provides a chainable shortcut method for setting a number of properties on the instance.
*
* Example
*
* var myGraphics = new createjs.Graphics().beginFill("#ff0000").drawCircle(0, 0, 25);
* var shape = stage.addChild(new Shape())
* .set({graphics:myGraphics, x:100, y:100, alpha:0.5});
*
* @method set
* @param {Object} props A generic object containing properties to copy to the DisplayObject instance.
* @return {DisplayObject} Returns the instance the method is called on (useful for chaining calls.)
*/
p.set = function(props) {
for (var n in props) { this[n] = props[n]; }
return this;
};
/**
* Returns a rectangle representing this object's bounds in its local coordinate system (ie. with no transformation).
* Objects that have been cached will return the bounds of the cache.
*
* Not all display objects can calculate their own bounds (ex. Shape). For these objects, you can use
* {{#crossLink "DisplayObject/setBounds"}}{{/crossLink}} so that they are included when calculating Container
* bounds.
*
*
* All |
* All display objects support setting bounds manually using setBounds(). Likewise, display objects that
* have been cached using cache() will return the bounds of their cache. Manual and cache bounds will override
* the automatic calculations listed below.
* |
* Bitmap |
* Returns the width and height of the sourceRect (if specified) or image, extending from (x=0,y=0).
* |
* Sprite |
* Returns the bounds of the current frame. May have non-zero x/y if a frame registration point was specified
* in the spritesheet data. See also {{#crossLink "SpriteSheet/getFrameBounds"}}{{/crossLink}}
* |
* Container |
* Returns the aggregate (combined) bounds of all children that return a non-null value from getBounds().
* |
* Shape |
* Does not currently support automatic bounds calculations. Use setBounds() to manually define bounds.
* |
* Text |
* Returns approximate bounds. Horizontal values (x/width) are quite accurate, but vertical values (y/height) are
* not, especially when using textBaseline values other than "top".
* |
* BitmapText |
* Returns approximate bounds. Values will be more accurate if spritesheet frame registration points are close
* to (x=0,y=0).
* |
*
*
* Bounds can be expensive to calculate for some objects (ex. text, or containers with many children), and
* are recalculated each time you call getBounds(). You can prevent recalculation on static objects by setting the
* bounds explicitly:
*
* var bounds = obj.getBounds();
* obj.setBounds(bounds.x, bounds.y, bounds.width, bounds.height);
* // getBounds will now use the set values, instead of recalculating
*
* To reduce memory impact, the returned Rectangle instance may be reused internally; clone the instance or copy its
* values if you need to retain it.
*
* var myBounds = obj.getBounds().clone();
* // OR:
* myRect.copy(obj.getBounds());
*
* @method getBounds
* @return {Rectangle} A Rectangle instance representing the bounds, or null if bounds are not available for this
* object.
**/
p.getBounds = function() {
if (this._bounds) { return this._rectangle.copy(this._bounds); }
var cacheCanvas = this.cacheCanvas;
if (cacheCanvas) {
var scale = this._cacheScale;
return this._rectangle.setValues(this._cacheOffsetX, this._cacheOffsetY, cacheCanvas.width/scale, cacheCanvas.height/scale);
}
return null;
};
/**
* Returns a rectangle representing this object's bounds in its parent's coordinate system (ie. with transformations applied).
* Objects that have been cached will return the transformed bounds of the cache.
*
* Not all display objects can calculate their own bounds (ex. Shape). For these objects, you can use
* {{#crossLink "DisplayObject/setBounds"}}{{/crossLink}} so that they are included when calculating Container
* bounds.
*
* To reduce memory impact, the returned Rectangle instance may be reused internally; clone the instance or copy its
* values if you need to retain it.
*
* Container instances calculate aggregate bounds for all children that return bounds via getBounds.
* @method getTransformedBounds
* @return {Rectangle} A Rectangle instance representing the bounds, or null if bounds are not available for this object.
**/
p.getTransformedBounds = function() {
return this._getBounds();
};
/**
* Allows you to manually specify the bounds of an object that either cannot calculate their own bounds (ex. Shape &
* Text) for future reference, or so the object can be included in Container bounds. Manually set bounds will always
* override calculated bounds.
*
* The bounds should be specified in the object's local (untransformed) coordinates. For example, a Shape instance
* with a 25px radius circle centered at 0,0 would have bounds of (-25, -25, 50, 50).
* @method setBounds
* @param {Number} x The x origin of the bounds. Pass null to remove the manual bounds.
* @param {Number} y The y origin of the bounds.
* @param {Number} width The width of the bounds.
* @param {Number} height The height of the bounds.
**/
p.setBounds = function(x, y, width, height) {
if (x == null) { this._bounds = x; }
this._bounds = (this._bounds || new createjs.Rectangle()).setValues(x, y, width, height);
};
/**
* Returns a clone of this DisplayObject. Some properties that are specific to this instance's current context are
* reverted to their defaults (for example .parent). Caches are not maintained across clones, and some elements
* are copied by reference (masks, individual filter instances, hit area)
* @method clone
* @return {DisplayObject} A clone of the current DisplayObject instance.
**/
p.clone = function() {
return this._cloneProps(new DisplayObject());
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[DisplayObject (name="+ this.name +")]";
};
// private methods:
// separated so it can be used more easily in subclasses:
/**
* @method _cloneProps
* @param {DisplayObject} o The DisplayObject instance which will have properties from the current DisplayObject
* instance copied into.
* @return {DisplayObject} o
* @protected
**/
p._cloneProps = function(o) {
o.alpha = this.alpha;
o.mouseEnabled = this.mouseEnabled;
o.tickEnabled = this.tickEnabled;
o.name = this.name;
o.regX = this.regX;
o.regY = this.regY;
o.rotation = this.rotation;
o.scaleX = this.scaleX;
o.scaleY = this.scaleY;
o.shadow = this.shadow;
o.skewX = this.skewX;
o.skewY = this.skewY;
o.visible = this.visible;
o.x = this.x;
o.y = this.y;
o.compositeOperation = this.compositeOperation;
o.snapToPixel = this.snapToPixel;
o.filters = this.filters==null?null:this.filters.slice(0);
o.mask = this.mask;
o.hitArea = this.hitArea;
o.cursor = this.cursor;
o._bounds = this._bounds;
return o;
};
/**
* @method _applyShadow
* @protected
* @param {CanvasRenderingContext2D} ctx
* @param {Shadow} shadow
**/
p._applyShadow = function(ctx, shadow) {
shadow = shadow || Shadow.identity;
ctx.shadowColor = shadow.color;
ctx.shadowOffsetX = shadow.offsetX;
ctx.shadowOffsetY = shadow.offsetY;
ctx.shadowBlur = shadow.blur;
};
/**
* @method _tick
* @param {Object} evtObj An event object that will be dispatched to all tick listeners. This object is reused between dispatchers to reduce construction & GC costs.
* @protected
**/
p._tick = function(evtObj) {
// because tick can be really performance sensitive, check for listeners before calling dispatchEvent.
var ls = this._listeners;
if (ls && ls["tick"]) {
// reset & reuse the event object to avoid construction / GC costs:
evtObj.target = null;
evtObj.propagationStopped = evtObj.immediatePropagationStopped = false;
this.dispatchEvent(evtObj);
}
};
/**
* @method _testHit
* @protected
* @param {CanvasRenderingContext2D} ctx
* @return {Boolean}
**/
p._testHit = function(ctx) {
try {
var hit = ctx.getImageData(0, 0, 1, 1).data[3] > 1;
} catch (e) {
if (!DisplayObject.suppressCrossDomainErrors) {
throw "An error has occurred. This is most likely due to security restrictions on reading canvas pixel data with local or cross-domain images.";
}
}
return hit;
};
/**
* @method _applyFilters
* @protected
**/
p._applyFilters = function() {
if (!this.filters || this.filters.length == 0 || !this.cacheCanvas) { return; }
var l = this.filters.length;
var ctx = this.cacheCanvas.getContext("2d");
var w = this.cacheCanvas.width;
var h = this.cacheCanvas.height;
for (var i=0; i maxX) { maxX = x; }
if ((x = x_a + y_c + tx) < minX) { minX = x; } else if (x > maxX) { maxX = x; }
if ((x = y_c + tx) < minX) { minX = x; } else if (x > maxX) { maxX = x; }
if ((y = x_b + ty) < minY) { minY = y; } else if (y > maxY) { maxY = y; }
if ((y = x_b + y_d + ty) < minY) { minY = y; } else if (y > maxY) { maxY = y; }
if ((y = y_d + ty) < minY) { minY = y; } else if (y > maxY) { maxY = y; }
return bounds.setValues(minX, minY, maxX-minX, maxY-minY);
};
/**
* Indicates whether the display object has any mouse event listeners or a cursor.
* @method _isMouseOpaque
* @return {Boolean}
* @protected
**/
p._hasMouseEventListener = function() {
var evts = DisplayObject._MOUSE_EVENTS;
for (var i= 0, l=evts.length; itransform and alpha
properties concatenated with their parent
* Container.
*
* For example, a {{#crossLink "Shape"}}{{/crossLink}} with x=100 and alpha=0.5, placed in a Container with x=50
* and alpha=0.7
will be rendered to the canvas at x=150
and alpha=0.35
.
* Containers have some overhead, so you generally shouldn't create a Container to hold a single child.
*
* Example
*
* var container = new createjs.Container();
* container.addChild(bitmapInstance, shapeInstance);
* container.x = 100;
*
* @class Container
* @extends DisplayObject
* @constructor
**/
function Container() {
this.DisplayObject_constructor();
// public properties:
/**
* The array of children in the display list. You should usually use the child management methods such as
* {{#crossLink "Container/addChild"}}{{/crossLink}}, {{#crossLink "Container/removeChild"}}{{/crossLink}},
* {{#crossLink "Container/swapChildren"}}{{/crossLink}}, etc, rather than accessing this directly, but it is
* included for advanced uses.
* @property children
* @type Array
* @default null
**/
this.children = [];
/**
* Indicates whether the children of this container are independently enabled for mouse/pointer interaction.
* If false, the children will be aggregated under the container - for example, a click on a child shape would
* trigger a click event on the container.
* @property mouseChildren
* @type Boolean
* @default true
**/
this.mouseChildren = true;
/**
* If false, the tick will not be propagated to children of this Container. This can provide some performance benefits.
* In addition to preventing the "tick" event from being dispatched, it will also prevent tick related updates
* on some display objects (ex. Sprite & MovieClip frame advancing, DOMElement visibility handling).
* @property tickChildren
* @type Boolean
* @default true
**/
this.tickChildren = true;
}
var p = createjs.extend(Container, createjs.DisplayObject);
// public methods:
/**
* Constructor alias for backwards compatibility. This method will be removed in future versions.
* Subclasses should be updated to use {{#crossLink "Utility Methods/extends"}}{{/crossLink}}.
* @method initialize
* @deprecated in favour of `createjs.promote()`
**/
p.initialize = Container; // TODO: deprecated.
/**
* Returns true or false indicating whether the display object would be visible if drawn to a canvas.
* This does not account for whether it would be visible within the boundaries of the stage.
*
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method isVisible
* @return {Boolean} Boolean indicating whether the display object would be visible if drawn to a canvas
**/
p.isVisible = function() {
var hasContent = this.cacheCanvas || this.children.length;
return !!(this.visible && this.alpha > 0 && this.scaleX != 0 && this.scaleY != 0 && hasContent);
};
/**
* Draws the display object into the specified context ignoring its visible, alpha, shadow, and transform.
* Returns true if the draw was handled (useful for overriding functionality).
*
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method draw
* @param {CanvasRenderingContext2D} ctx The canvas 2D context object to draw into.
* @param {Boolean} [ignoreCache=false] Indicates whether the draw operation should ignore any current cache.
* For example, used for drawing the cache (to prevent it from simply drawing an existing cache back
* into itself).
**/
p.draw = function(ctx, ignoreCache) {
if (this.DisplayObject_draw(ctx, ignoreCache)) { return true; }
// this ensures we don't have issues with display list changes that occur during a draw:
var list = this.children.slice(0);
for (var i=0,l=list.length; iExample
*
* container.addChild(bitmapInstance);
*
* You can also add multiple children at once:
*
* container.addChild(bitmapInstance, shapeInstance, textInstance);
*
* @method addChild
* @param {DisplayObject} child The display object to add.
* @return {DisplayObject} The child that was added, or the last child if multiple children were added.
**/
p.addChild = function(child) {
if (child == null) { return child; }
var l = arguments.length;
if (l > 1) {
for (var i=0; iExample
*
* addChildAt(child1, index);
*
* You can also add multiple children, such as:
*
* addChildAt(child1, child2, ..., index);
*
* The index must be between 0 and numChildren. For example, to add myShape under otherShape in the display list,
* you could use:
*
* container.addChildAt(myShape, container.getChildIndex(otherShape));
*
* This would also bump otherShape's index up by one. Fails silently if the index is out of range.
*
* @method addChildAt
* @param {DisplayObject} child The display object to add.
* @param {Number} index The index to add the child at.
* @return {DisplayObject} Returns the last child that was added, or the last child if multiple children were added.
**/
p.addChildAt = function(child, index) {
var l = arguments.length;
var indx = arguments[l-1]; // can't use the same name as the index param or it replaces arguments[1]
if (indx < 0 || indx > this.children.length) { return arguments[l-2]; }
if (l > 2) {
for (var i=0; iExample
*
* container.removeChild(child);
*
* You can also remove multiple children:
*
* removeChild(child1, child2, ...);
*
* Returns true if the child (or children) was removed, or false if it was not in the display list.
* @method removeChild
* @param {DisplayObject} child The child to remove.
* @return {Boolean} true if the child (or children) was removed, or false if it was not in the display list.
**/
p.removeChild = function(child) {
var l = arguments.length;
if (l > 1) {
var good = true;
for (var i=0; iExample
*
* container.removeChildAt(2);
*
* You can also remove multiple children:
*
* container.removeChild(2, 7, ...)
*
* Returns true if the child (or children) was removed, or false if any index was out of range.
* @method removeChildAt
* @param {Number} index The index of the child to remove.
* @return {Boolean} true if the child (or children) was removed, or false if any index was out of range.
**/
p.removeChildAt = function(index) {
var l = arguments.length;
if (l > 1) {
var a = [];
for (var i=0; i this.children.length-1) { return false; }
var child = this.children[index];
if (child) { child.parent = null; }
this.children.splice(index, 1);
child.dispatchEvent("removed");
return true;
};
/**
* Removes all children from the display list.
*
* Example
*
* container.removeAlLChildren();
*
* @method removeAllChildren
**/
p.removeAllChildren = function() {
var kids = this.children;
while (kids.length) { this.removeChildAt(0); }
};
/**
* Returns the child at the specified index.
*
* Example
*
* container.getChildAt(2);
*
* @method getChildAt
* @param {Number} index The index of the child to return.
* @return {DisplayObject} The child at the specified index. Returns null if there is no child at the index.
**/
p.getChildAt = function(index) {
return this.children[index];
};
/**
* Returns the child with the specified name.
* @method getChildByName
* @param {String} name The name of the child to return.
* @return {DisplayObject} The child with the specified name.
**/
p.getChildByName = function(name) {
var kids = this.children;
for (var i=0,l=kids.length;iExample: Display children with a higher y in front.
*
* var sortFunction = function(obj1, obj2, options) {
* if (obj1.y > obj2.y) { return 1; }
* if (obj1.y < obj2.y) { return -1; }
* return 0;
* }
* container.sortChildren(sortFunction);
*
* @method sortChildren
* @param {Function} sortFunction the function to use to sort the child list. See JavaScript's Array.sort
* documentation for details.
**/
p.sortChildren = function(sortFunction) {
this.children.sort(sortFunction);
};
/**
* Returns the index of the specified child in the display list, or -1 if it is not in the display list.
*
* Example
*
* var index = container.getChildIndex(child);
*
* @method getChildIndex
* @param {DisplayObject} child The child to return the index of.
* @return {Number} The index of the specified child. -1 if the child is not found.
**/
p.getChildIndex = function(child) {
return createjs.indexOf(this.children, child);
};
/**
* Returns the number of children in the display list.
* @method getNumChildren
* @return {Number} The number of children in the display list.
**/
p.getNumChildren = function() {
return this.children.length;
};
/**
* Swaps the children at the specified indexes. Fails silently if either index is out of range.
* @method swapChildrenAt
* @param {Number} index1
* @param {Number} index2
**/
p.swapChildrenAt = function(index1, index2) {
var kids = this.children;
var o1 = kids[index1];
var o2 = kids[index2];
if (!o1 || !o2) { return; }
kids[index1] = o2;
kids[index2] = o1;
};
/**
* Swaps the specified children's depth in the display list. Fails silently if either child is not a child of this
* Container.
* @method swapChildren
* @param {DisplayObject} child1
* @param {DisplayObject} child2
**/
p.swapChildren = function(child1, child2) {
var kids = this.children;
var index1,index2;
for (var i=0,l=kids.length;i= l) { return; }
for (var i=0;i 0 at the
* specified position). This ignores the alpha, shadow and compositeOperation of the display object, and all
* transform properties including regX/Y.
* @method hitTest
* @param {Number} x The x position to check in the display object's local coordinates.
* @param {Number} y The y position to check in the display object's local coordinates.
* @return {Boolean} A Boolean indicating whether there is a visible section of a DisplayObject that overlaps the specified
* coordinates.
**/
p.hitTest = function(x, y) {
// TODO: optimize to use the fast cache check where possible.
return (this.getObjectUnderPoint(x, y) != null);
};
/**
* Returns an array of all display objects under the specified coordinates that are in this container's display
* list. This routine ignores any display objects with mouseEnabled set to false. The array will be sorted in order
* of visual depth, with the top-most display object at index 0. This uses shape based hit detection, and can be an
* expensive operation to run, so it is best to use it carefully. For example, if testing for objects under the
* mouse, test on tick (instead of on mousemove), and only if the mouse's position has changed.
*
* By default this method evaluates all display objects. By setting the `mode` parameter to `1`, the `mouseEnabled`
* and `mouseChildren` properties will be respected.
* Setting it to `2` additionally excludes display objects that do not have active mouse event listeners
* or a `cursor` property. That is, only objects that would normally intercept mouse interaction will be included.
* This can significantly improve performance in some cases by reducing the number of
* display objects that need to be tested.
*
* Accounts for both {{#crossLink "DisplayObject/hitArea:property"}}{{/crossLink}} and {{#crossLink "DisplayObject/mask:property"}}{{/crossLink}}.
* @method getObjectsUnderPoint
* @param {Number} x The x position in the container to test.
* @param {Number} y The y position in the container to test.
* @param {Number} mode The mode to use to determine which display objects to include. 0-all, 1-respect mouseEnabled/mouseChildren, 2-only mouse opaque objects.
* @return {Array} An Array of DisplayObjects under the specified coordinates.
**/
p.getObjectsUnderPoint = function(x, y, mode) {
var arr = [];
var pt = this.localToGlobal(x, y);
this._getObjectsUnderPoint(pt.x, pt.y, arr, mode>0, mode==1);
return arr;
};
/**
* Similar to {{#crossLink "Container/getObjectsUnderPoint()"}}{{/crossLink}}, but returns only the top-most display
* object. This runs significantly faster than getObjectsUnderPoint()
, but is still potentially an expensive
* operation. See {{#crossLink "Container/getObjectsUnderPoint"}}{{/crossLink}} for more information.
* @method getObjectUnderPoint
* @param {Number} x The x position in the container to test.
* @param {Number} y The y position in the container to test.
* @param {Number} mode The mode to use to determine which display objects to include. 0-all, 1-respect mouseEnabled/mouseChildren, 2-only mouse opaque objects.
* @return {DisplayObject} The top-most display object under the specified coordinates.
**/
p.getObjectUnderPoint = function(x, y, mode) {
var pt = this.localToGlobal(x, y);
return this._getObjectsUnderPoint(pt.x, pt.y, null, mode>0, mode==1);
};
/**
* Docced in superclass.
*/
p.getBounds = function() {
return this._getBounds(null, true);
};
/**
* Docced in superclass.
*/
p.getTransformedBounds = function() {
return this._getBounds();
};
/**
* Returns a clone of this Container. Some properties that are specific to this instance's current context are
* reverted to their defaults (for example .parent).
* @method clone
* @param {Boolean} recursive If true, all of the descendants of this container will be cloned recursively. If false, the
* properties of the container will be cloned, but the new instance will not have any children.
* @return {Container} A clone of the current Container instance.
**/
p.clone = function(recursive) {
var o = this._cloneProps(new Container());
if (recursive) { this._cloneChildren(o); }
return o;
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Container (name="+ this.name +")]";
};
// private methods:
/**
* @method _tick
* @param {Object} evtObj An event object that will be dispatched to all tick listeners. This object is reused between dispatchers to reduce construction & GC costs.
* @protected
**/
p._tick = function(evtObj) {
if (this.tickChildren) {
for (var i=this.children.length-1; i>=0; i--) {
var child = this.children[i];
if (child.tickEnabled && child._tick) { child._tick(evtObj); }
}
}
this.DisplayObject__tick(evtObj);
};
/**
* Recursively clones all children of this container, and adds them to the target container.
* @method cloneChildren
* @protected
* @param {Container} o The target container.
**/
p._cloneChildren = function(o) {
if (o.children.length) { o.removeAllChildren(); }
var arr = o.children;
for (var i=0, l=this.children.length; i=0; i--) {
var child = children[i];
var hitArea = child.hitArea;
if (!child.visible || (!hitArea && !child.isVisible()) || (mouse && !child.mouseEnabled)) { continue; }
if (!hitArea && !this._testMask(child, x, y)) { continue; }
// if a child container has a hitArea then we only need to check its hitArea, so we can treat it as a normal DO:
if (!hitArea && child instanceof Container) {
var result = child._getObjectsUnderPoint(x, y, arr, mouse, activeListener, currentDepth+1);
if (!arr && result) { return (mouse && !this.mouseChildren) ? this : result; }
} else {
if (mouse && !activeListener && !child._hasMouseEventListener()) { continue; }
// TODO: can we pass displayProps forward, to avoid having to calculate this backwards every time? It's kind of a mixed bag. When we're only hunting for DOs with event listeners, it may not make sense.
var props = child.getConcatenatedDisplayProps(child._props);
mtx = props.matrix;
if (hitArea) {
mtx.prependMatrix(hitArea.getMatrix(hitArea._props.matrix));
props.alpha = hitArea.alpha;
}
ctx.globalAlpha = props.alpha;
ctx.setTransform(mtx.a, mtx.b, mtx.c, mtx.d, mtx.tx-x, mtx.ty-y);
(hitArea||child).draw(ctx);
if (!this._testHit(ctx)) { continue; }
ctx.setTransform(1, 0, 0, 1, 0, 0);
ctx.clearRect(0, 0, 2, 2);
if (arr) { arr.push(child); }
else { return (mouse && !this.mouseChildren) ? this : child; }
}
}
return null;
};
/**
* @method _testMask
* @param {DisplayObject} target
* @param {Number} x
* @param {Number} y
* @return {Boolean} Indicates whether the x/y is within the masked region.
* @protected
**/
p._testMask = function(target, x, y) {
var mask = target.mask;
if (!mask || !mask.graphics || mask.graphics.isEmpty()) { return true; }
var mtx = this._props.matrix, parent = target.parent;
mtx = parent ? parent.getConcatenatedMatrix(mtx) : mtx.identity();
mtx = mask.getMatrix(mask._props.matrix).appendMatrix(mtx);
var ctx = createjs.DisplayObject._hitTestContext;
ctx.setTransform(mtx.a, mtx.b, mtx.c, mtx.d, mtx.tx-x, mtx.ty-y);
// draw the mask as a solid fill:
mask.graphics.drawAsPath(ctx);
ctx.fillStyle = "#000";
ctx.fill();
if (!this._testHit(ctx)) { return false; }
ctx.setTransform(1, 0, 0, 1, 0, 0);
ctx.clearRect(0, 0, 2, 2);
return true;
};
/**
* @method _getBounds
* @param {Matrix2D} matrix
* @param {Boolean} ignoreTransform If true, does not apply this object's transform.
* @return {Rectangle}
* @protected
**/
p._getBounds = function(matrix, ignoreTransform) {
var bounds = this.DisplayObject_getBounds();
if (bounds) { return this._transformBounds(bounds, matrix, ignoreTransform); }
var mtx = this._props.matrix;
mtx = ignoreTransform ? mtx.identity() : this.getMatrix(mtx);
if (matrix) { mtx.appendMatrix(matrix); }
var l = this.children.length, rect=null;
for (var i=0; iExample
* This example creates a stage, adds a child to it, then uses {{#crossLink "Ticker"}}{{/crossLink}} to update the child
* and redraw the stage using {{#crossLink "Stage/update"}}{{/crossLink}}.
*
* var stage = new createjs.Stage("canvasElementId");
* var image = new createjs.Bitmap("imagePath.png");
* stage.addChild(image);
* createjs.Ticker.addEventListener("tick", handleTick);
* function handleTick(event) {
* image.x += 10;
* stage.update();
* }
*
* @class Stage
* @extends Container
* @constructor
* @param {HTMLCanvasElement | String | Object} canvas A canvas object that the Stage will render to, or the string id
* of a canvas object in the current document.
**/
function Stage(canvas) {
this.Container_constructor();
// public properties:
/**
* Indicates whether the stage should automatically clear the canvas before each render. You can set this to false
* to manually control clearing (for generative art, or when pointing multiple stages at the same canvas for
* example).
*
* Example
*
* var stage = new createjs.Stage("canvasId");
* stage.autoClear = false;
*
* @property autoClear
* @type Boolean
* @default true
**/
this.autoClear = true;
/**
* The canvas the stage will render to. Multiple stages can share a single canvas, but you must disable autoClear for all but the
* first stage that will be ticked (or they will clear each other's render).
*
* When changing the canvas property you must disable the events on the old canvas, and enable events on the
* new canvas or mouse events will not work as expected. For example:
*
* myStage.enableDOMEvents(false);
* myStage.canvas = anotherCanvas;
* myStage.enableDOMEvents(true);
*
* @property canvas
* @type HTMLCanvasElement | Object
**/
this.canvas = (typeof canvas == "string") ? document.getElementById(canvas) : canvas;
/**
* The current mouse X position on the canvas. If the mouse leaves the canvas, this will indicate the most recent
* position over the canvas, and mouseInBounds will be set to false.
* @property mouseX
* @type Number
* @readonly
**/
this.mouseX = 0;
/**
* The current mouse Y position on the canvas. If the mouse leaves the canvas, this will indicate the most recent
* position over the canvas, and mouseInBounds will be set to false.
* @property mouseY
* @type Number
* @readonly
**/
this.mouseY = 0;
/**
* Specifies the area of the stage to affect when calling update. This can be use to selectively
* re-draw specific regions of the canvas. If null, the whole canvas area is drawn.
* @property drawRect
* @type {Rectangle}
*/
this.drawRect = null;
/**
* Indicates whether display objects should be rendered on whole pixels. You can set the
* {{#crossLink "DisplayObject/snapToPixel"}}{{/crossLink}} property of
* display objects to false to enable/disable this behaviour on a per instance basis.
* @property snapToPixelEnabled
* @type Boolean
* @default false
**/
this.snapToPixelEnabled = false;
/**
* Indicates whether the mouse is currently within the bounds of the canvas.
* @property mouseInBounds
* @type Boolean
* @default false
**/
this.mouseInBounds = false;
/**
* If true, tick callbacks will be called on all display objects on the stage prior to rendering to the canvas.
* @property tickOnUpdate
* @type Boolean
* @default true
**/
this.tickOnUpdate = true;
/**
* If true, mouse move events will continue to be called when the mouse leaves the target canvas. See
* {{#crossLink "Stage/mouseInBounds:property"}}{{/crossLink}}, and {{#crossLink "MouseEvent"}}{{/crossLink}}
* x/y/rawX/rawY.
* @property mouseMoveOutside
* @type Boolean
* @default false
**/
this.mouseMoveOutside = false;
/**
* The hitArea property is not supported for Stage.
* @property hitArea
* @type {DisplayObject}
* @default null
*/
// private properties:
/**
* Holds objects with data for each active pointer id. Each object has the following properties:
* x, y, event, target, overTarget, overX, overY, inBounds, posEvtObj (native event that last updated position)
* @property _pointerData
* @type {Object}
* @private
*/
this._pointerData = {};
/**
* Number of active pointers.
* @property _pointerCount
* @type {Object}
* @private
*/
this._pointerCount = 0;
/**
* The ID of the primary pointer.
* @property _primaryPointerID
* @type {Object}
* @private
*/
this._primaryPointerID = null;
/**
* @property _mouseOverIntervalID
* @protected
* @type Number
**/
this._mouseOverIntervalID = null;
/**
* @property _nextStage
* @protected
* @type Stage
**/
this._nextStage = null;
/**
* @property _prevStage
* @protected
* @type Stage
**/
this._prevStage = null;
// initialize:
this.enableDOMEvents(true);
}
var p = createjs.extend(Stage, createjs.Container);
// events:
/**
* Dispatched when the user moves the mouse over the canvas.
* See the {{#crossLink "MouseEvent"}}{{/crossLink}} class for a listing of event properties.
* @event stagemousemove
* @since 0.6.0
*/
/**
* Dispatched when the user presses their left mouse button on the canvas. See the {{#crossLink "MouseEvent"}}{{/crossLink}}
* class for a listing of event properties.
* @event stagemousedown
* @since 0.6.0
*/
/**
* Dispatched when the user the user releases the mouse button anywhere that the page can detect it (this varies slightly between browsers).
* You can use {{#crossLink "Stage/mouseInBounds:property"}}{{/crossLink}} to check whether the mouse is currently within the stage bounds.
* See the {{#crossLink "MouseEvent"}}{{/crossLink}} class for a listing of event properties.
* @event stagemouseup
* @since 0.6.0
*/
/**
* Dispatched when the mouse moves from within the canvas area (mouseInBounds == true) to outside it (mouseInBounds == false).
* This is currently only dispatched for mouse input (not touch). See the {{#crossLink "MouseEvent"}}{{/crossLink}}
* class for a listing of event properties.
* @event mouseleave
* @since 0.7.0
*/
/**
* Dispatched when the mouse moves into the canvas area (mouseInBounds == false) from outside it (mouseInBounds == true).
* This is currently only dispatched for mouse input (not touch). See the {{#crossLink "MouseEvent"}}{{/crossLink}}
* class for a listing of event properties.
* @event mouseenter
* @since 0.7.0
*/
/**
* Dispatched each update immediately before the tick event is propagated through the display list.
* You can call preventDefault on the event object to cancel propagating the tick event.
* @event tickstart
* @since 0.7.0
*/
/**
* Dispatched each update immediately after the tick event is propagated through the display list. Does not fire if
* tickOnUpdate is false. Precedes the "drawstart" event.
* @event tickend
* @since 0.7.0
*/
/**
* Dispatched each update immediately before the canvas is cleared and the display list is drawn to it.
* You can call preventDefault on the event object to cancel the draw.
* @event drawstart
* @since 0.7.0
*/
/**
* Dispatched each update immediately after the display list is drawn to the canvas and the canvas context is restored.
* @event drawend
* @since 0.7.0
*/
// getter / setters:
/**
* Specifies a target stage that will have mouse / touch interactions relayed to it after this stage handles them.
* This can be useful in cases where you have multiple layered canvases and want user interactions
* events to pass through. For example, this would relay mouse events from topStage to bottomStage:
*
* topStage.nextStage = bottomStage;
*
* To disable relaying, set nextStage to null.
*
* MouseOver, MouseOut, RollOver, and RollOut interactions are also passed through using the mouse over settings
* of the top-most stage, but are only processed if the target stage has mouse over interactions enabled.
* Considerations when using roll over in relay targets:
* - The top-most (first) stage must have mouse over interactions enabled (via enableMouseOver)
* - All stages that wish to participate in mouse over interaction must enable them via enableMouseOver
* - All relay targets will share the frequency value of the top-most stage
*
* To illustrate, in this example the targetStage would process mouse over interactions at 10hz (despite passing
* 30 as it's desired frequency):
* topStage.nextStage = targetStage;
* topStage.enableMouseOver(10);
* targetStage.enableMouseOver(30);
*
* If the target stage's canvas is completely covered by this stage's canvas, you may also want to disable its
* DOM events using:
*
* targetStage.enableDOMEvents(false);
*
* @property nextStage
* @type {Stage}
**/
p._get_nextStage = function() {
return this._nextStage;
};
p._set_nextStage = function(value) {
if (this._nextStage) { this._nextStage._prevStage = null; }
if (value) { value._prevStage = this; }
this._nextStage = value;
};
try {
Object.defineProperties(p, {
nextStage: { get: p._get_nextStage, set: p._set_nextStage }
});
} catch (e) {} // TODO: use Log
// public methods:
/**
* Each time the update method is called, the stage will call {{#crossLink "Stage/tick"}}{{/crossLink}}
* unless {{#crossLink "Stage/tickOnUpdate:property"}}{{/crossLink}} is set to false,
* and then render the display list to the canvas.
*
* @method update
* @param {Object} [props] Props object to pass to `tick()`. Should usually be a {{#crossLink "Ticker"}}{{/crossLink}} event object, or similar object with a delta property.
**/
p.update = function(props) {
if (!this.canvas) { return; }
if (this.tickOnUpdate) { this.tick(props); }
if (this.dispatchEvent("drawstart")) { return; }
createjs.DisplayObject._snapToPixelEnabled = this.snapToPixelEnabled;
var r = this.drawRect, ctx = this.canvas.getContext("2d");
ctx.setTransform(1, 0, 0, 1, 0, 0);
if (this.autoClear) {
if (r) { ctx.clearRect(r.x, r.y, r.width, r.height); }
else { ctx.clearRect(0, 0, this.canvas.width+1, this.canvas.height+1); }
}
ctx.save();
if (this.drawRect) {
ctx.beginPath();
ctx.rect(r.x, r.y, r.width, r.height);
ctx.clip();
}
this.updateContext(ctx);
this.draw(ctx, false);
ctx.restore();
this.dispatchEvent("drawend");
};
/**
* Propagates a tick event through the display list. This is automatically called by {{#crossLink "Stage/update"}}{{/crossLink}}
* unless {{#crossLink "Stage/tickOnUpdate:property"}}{{/crossLink}} is set to false.
*
* If a props object is passed to `tick()`, then all of its properties will be copied to the event object that is
* propagated to listeners.
*
* Some time-based features in EaselJS (for example {{#crossLink "Sprite/framerate"}}{{/crossLink}} require that
* a {{#crossLink "Ticker/tick:event"}}{{/crossLink}} event object (or equivalent object with a delta property) be
* passed as the `props` parameter to `tick()`. For example:
*
* Ticker.on("tick", handleTick);
* function handleTick(evtObj) {
* // clone the event object from Ticker, and add some custom data to it:
* var evt = evtObj.clone().set({greeting:"hello", name:"world"});
*
* // pass it to stage.update():
* myStage.update(evt); // subsequently calls tick() with the same param
* }
*
* // ...
* myDisplayObject.on("tick", handleDisplayObjectTick);
* function handleDisplayObjectTick(evt) {
* console.log(evt.delta); // the delta property from the Ticker tick event object
* console.log(evt.greeting, evt.name); // custom data: "hello world"
* }
*
* @method tick
* @param {Object} [props] An object with properties that should be copied to the event object. Should usually be a Ticker event object, or similar object with a delta property.
**/
p.tick = function(props) {
if (!this.tickEnabled || this.dispatchEvent("tickstart")) { return; }
var evtObj = new createjs.Event("tick");
if (props) {
for (var n in props) {
if (props.hasOwnProperty(n)) { evtObj[n] = props[n]; }
}
}
this._tick(evtObj);
this.dispatchEvent("tickend");
};
/**
* Default event handler that calls the Stage {{#crossLink "Stage/update"}}{{/crossLink}} method when a {{#crossLink "DisplayObject/tick:event"}}{{/crossLink}}
* event is received. This allows you to register a Stage instance as a event listener on {{#crossLink "Ticker"}}{{/crossLink}}
* directly, using:
*
* Ticker.addEventListener("tick", myStage");
*
* Note that if you subscribe to ticks using this pattern, then the tick event object will be passed through to
* display object tick handlers, instead of delta
and paused
parameters.
* @property handleEvent
* @type Function
**/
p.handleEvent = function(evt) {
if (evt.type == "tick") { this.update(evt); }
};
/**
* Clears the target canvas. Useful if {{#crossLink "Stage/autoClear:property"}}{{/crossLink}} is set to `false`.
* @method clear
**/
p.clear = function() {
if (!this.canvas) { return; }
var ctx = this.canvas.getContext("2d");
ctx.setTransform(1, 0, 0, 1, 0, 0);
ctx.clearRect(0, 0, this.canvas.width+1, this.canvas.height+1);
};
/**
* Returns a data url that contains a Base64-encoded image of the contents of the stage. The returned data url can
* be specified as the src value of an image element.
* @method toDataURL
* @param {String} [backgroundColor] The background color to be used for the generated image. Any valid CSS color
* value is allowed. The default value is a transparent background.
* @param {String} [mimeType="image/png"] The MIME type of the image format to be create. The default is "image/png". If an unknown MIME type
* is passed in, or if the browser does not support the specified MIME type, the default value will be used.
* @return {String} a Base64 encoded image.
**/
p.toDataURL = function(backgroundColor, mimeType) {
var data, ctx = this.canvas.getContext('2d'), w = this.canvas.width, h = this.canvas.height;
if (backgroundColor) {
data = ctx.getImageData(0, 0, w, h);
var compositeOperation = ctx.globalCompositeOperation;
ctx.globalCompositeOperation = "destination-over";
ctx.fillStyle = backgroundColor;
ctx.fillRect(0, 0, w, h);
}
var dataURL = this.canvas.toDataURL(mimeType||"image/png");
if(backgroundColor) {
ctx.putImageData(data, 0, 0);
ctx.globalCompositeOperation = compositeOperation;
}
return dataURL;
};
/**
* Enables or disables (by passing a frequency of 0) mouse over ({{#crossLink "DisplayObject/mouseover:event"}}{{/crossLink}}
* and {{#crossLink "DisplayObject/mouseout:event"}}{{/crossLink}}) and roll over events ({{#crossLink "DisplayObject/rollover:event"}}{{/crossLink}}
* and {{#crossLink "DisplayObject/rollout:event"}}{{/crossLink}}) for this stage's display list. These events can
* be expensive to generate, so they are disabled by default. The frequency of the events can be controlled
* independently of mouse move events via the optional `frequency` parameter.
*
* Example
*
* var stage = new createjs.Stage("canvasId");
* stage.enableMouseOver(10); // 10 updates per second
*
* @method enableMouseOver
* @param {Number} [frequency=20] Optional param specifying the maximum number of times per second to broadcast
* mouse over/out events. Set to 0 to disable mouse over events completely. Maximum is 50. A lower frequency is less
* responsive, but uses less CPU.
**/
p.enableMouseOver = function(frequency) {
if (this._mouseOverIntervalID) {
clearInterval(this._mouseOverIntervalID);
this._mouseOverIntervalID = null;
if (frequency == 0) {
this._testMouseOver(true);
}
}
if (frequency == null) { frequency = 20; }
else if (frequency <= 0) { return; }
var o = this;
this._mouseOverIntervalID = setInterval(function(){ o._testMouseOver(); }, 1000/Math.min(50,frequency));
};
/**
* Enables or disables the event listeners that stage adds to DOM elements (window, document and canvas). It is good
* practice to disable events when disposing of a Stage instance, otherwise the stage will continue to receive
* events from the page.
*
* When changing the canvas property you must disable the events on the old canvas, and enable events on the
* new canvas or mouse events will not work as expected. For example:
*
* myStage.enableDOMEvents(false);
* myStage.canvas = anotherCanvas;
* myStage.enableDOMEvents(true);
*
* @method enableDOMEvents
* @param {Boolean} [enable=true] Indicates whether to enable or disable the events. Default is true.
**/
p.enableDOMEvents = function(enable) {
if (enable == null) { enable = true; }
var n, o, ls = this._eventListeners;
if (!enable && ls) {
for (n in ls) {
o = ls[n];
o.t.removeEventListener(n, o.f, false);
}
this._eventListeners = null;
} else if (enable && !ls && this.canvas) {
var t = window.addEventListener ? window : document;
var _this = this;
ls = this._eventListeners = {};
ls["mouseup"] = {t:t, f:function(e) { _this._handleMouseUp(e)} };
ls["mousemove"] = {t:t, f:function(e) { _this._handleMouseMove(e)} };
ls["dblclick"] = {t:this.canvas, f:function(e) { _this._handleDoubleClick(e)} };
ls["mousedown"] = {t:this.canvas, f:function(e) { _this._handleMouseDown(e)} };
for (n in ls) {
o = ls[n];
o.t.addEventListener(n, o.f, false);
}
}
};
/**
* Stage instances cannot be cloned.
* @method clone
**/
p.clone = function() {
throw("Stage cannot be cloned.");
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Stage (name="+ this.name +")]";
};
// private methods:
/**
* @method _getElementRect
* @protected
* @param {HTMLElement} e
**/
p._getElementRect = function(e) {
var bounds;
try { bounds = e.getBoundingClientRect(); } // this can fail on disconnected DOM elements in IE9
catch (err) { bounds = {top: e.offsetTop, left: e.offsetLeft, width:e.offsetWidth, height:e.offsetHeight}; }
var offX = (window.pageXOffset || document.scrollLeft || 0) - (document.clientLeft || document.body.clientLeft || 0);
var offY = (window.pageYOffset || document.scrollTop || 0) - (document.clientTop || document.body.clientTop || 0);
var styles = window.getComputedStyle ? getComputedStyle(e,null) : e.currentStyle; // IE <9 compatibility.
var padL = parseInt(styles.paddingLeft)+parseInt(styles.borderLeftWidth);
var padT = parseInt(styles.paddingTop)+parseInt(styles.borderTopWidth);
var padR = parseInt(styles.paddingRight)+parseInt(styles.borderRightWidth);
var padB = parseInt(styles.paddingBottom)+parseInt(styles.borderBottomWidth);
// note: in some browsers bounds properties are read only.
return {
left: bounds.left+offX+padL,
right: bounds.right+offX-padR,
top: bounds.top+offY+padT,
bottom: bounds.bottom+offY-padB
}
};
/**
* @method _getPointerData
* @protected
* @param {Number} id
**/
p._getPointerData = function(id) {
var data = this._pointerData[id];
if (!data) {
data = this._pointerData[id] = {x:0,y:0};
// if it's the first new touch, then make it the primary pointer id:
if (this._primaryPointerID == null) { this._primaryPointerID = id; }
// if it's the mouse (id == -1) or the first new touch, then make it the primary pointer id:
if (this._primaryPointerID == null || this._primaryPointerID == -1) { this._primaryPointerID = id; }
}
return data;
};
/**
* @method _handleMouseMove
* @protected
* @param {MouseEvent} e
**/
p._handleMouseMove = function(e) {
if(!e){ e = window.event; }
this._handlePointerMove(-1, e, e.pageX, e.pageY);
};
/**
* @method _handlePointerMove
* @protected
* @param {Number} id
* @param {Event} e
* @param {Number} pageX
* @param {Number} pageY
* @param {Stage} owner Indicates that the event has already been captured & handled by the indicated stage.
**/
p._handlePointerMove = function(id, e, pageX, pageY, owner) {
if (this._prevStage && owner === undefined) { return; } // redundant listener.
if (!this.canvas) { return; }
var nextStage=this._nextStage, o=this._getPointerData(id);
var inBounds = o.inBounds;
this._updatePointerPosition(id, e, pageX, pageY);
if (inBounds || o.inBounds || this.mouseMoveOutside) {
if (id == -1 && o.inBounds == !inBounds) {
this._dispatchMouseEvent(this, (inBounds ? "mouseleave" : "mouseenter"), false, id, o, e);
}
this._dispatchMouseEvent(this, "stagemousemove", false, id, o, e);
this._dispatchMouseEvent(o.target, "pressmove", true, id, o, e);
}
nextStage&&nextStage._handlePointerMove(id, e, pageX, pageY, null);
};
/**
* @method _updatePointerPosition
* @protected
* @param {Number} id
* @param {Event} e
* @param {Number} pageX
* @param {Number} pageY
**/
p._updatePointerPosition = function(id, e, pageX, pageY) {
var rect = this._getElementRect(this.canvas);
pageX -= rect.left;
pageY -= rect.top;
var w = this.canvas.width;
var h = this.canvas.height;
pageX /= (rect.right-rect.left)/w;
pageY /= (rect.bottom-rect.top)/h;
var o = this._getPointerData(id);
if (o.inBounds = (pageX >= 0 && pageY >= 0 && pageX <= w-1 && pageY <= h-1)) {
o.x = pageX;
o.y = pageY;
} else if (this.mouseMoveOutside) {
o.x = pageX < 0 ? 0 : (pageX > w-1 ? w-1 : pageX);
o.y = pageY < 0 ? 0 : (pageY > h-1 ? h-1 : pageY);
}
o.posEvtObj = e;
o.rawX = pageX;
o.rawY = pageY;
if (id == this._primaryPointerID) {
this.mouseX = o.x;
this.mouseY = o.y;
this.mouseInBounds = o.inBounds;
}
};
/**
* @method _handleMouseUp
* @protected
* @param {MouseEvent} e
**/
p._handleMouseUp = function(e) {
this._handlePointerUp(-1, e, false);
};
/**
* @method _handlePointerUp
* @protected
* @param {Number} id
* @param {Event} e
* @param {Boolean} clear
* @param {Stage} owner Indicates that the event has already been captured & handled by the indicated stage.
**/
p._handlePointerUp = function(id, e, clear, owner) {
var nextStage = this._nextStage, o = this._getPointerData(id);
if (this._prevStage && owner === undefined) { return; } // redundant listener.
this._dispatchMouseEvent(this, "stagemouseup", false, id, o, e);
var target=null, oTarget = o.target;
if (!owner && (oTarget || nextStage)) { target = this._getObjectsUnderPoint(o.x, o.y, null, true); }
if (target == oTarget) { this._dispatchMouseEvent(oTarget, "click", true, id, o, e); }
this._dispatchMouseEvent(oTarget, "pressup", true, id, o, e);
if (clear) {
if (id==this._primaryPointerID) { this._primaryPointerID = null; }
delete(this._pointerData[id]);
} else { o.target = null; }
nextStage&&nextStage._handlePointerUp(id, e, clear, owner || target && this);
};
/**
* @method _handleMouseDown
* @protected
* @param {MouseEvent} e
**/
p._handleMouseDown = function(e) {
this._handlePointerDown(-1, e, e.pageX, e.pageY);
};
/**
* @method _handlePointerDown
* @protected
* @param {Number} id
* @param {Event} e
* @param {Number} pageX
* @param {Number} pageY
* @param {Stage} owner Indicates that the event has already been captured & handled by the indicated stage.
**/
p._handlePointerDown = function(id, e, pageX, pageY, owner) {
if (pageY != null) { this._updatePointerPosition(id, e, pageX, pageY); }
var target = null, nextStage = this._nextStage, o = this._getPointerData(id);
if (o.inBounds) { this._dispatchMouseEvent(this, "stagemousedown", false, id, o, e); }
if (!owner) {
target = o.target = this._getObjectsUnderPoint(o.x, o.y, null, true);
this._dispatchMouseEvent(o.target, "mousedown", true, id, o, e);
}
nextStage&&nextStage._handlePointerDown(id, e, pageX, pageY, owner || target && this);
};
/**
* @method _testMouseOver
* @param {Boolean} clear If true, clears the mouseover / rollover (ie. no target)
* @param {Stage} owner Indicates that the event has already been captured & handled by the indicated stage.
* @param {Stage} eventTarget The stage that the cursor is actively over.
* @protected
**/
p._testMouseOver = function(clear, owner, eventTarget) {
if (this._prevStage && owner === undefined) { return; } // redundant listener.
var nextStage = this._nextStage;
if (!this._mouseOverIntervalID) {
// not enabled for mouseover, but should still relay the event.
nextStage&&nextStage._testMouseOver(clear, owner, eventTarget);
return;
}
// only update if the mouse position has changed. This provides a lot of optimization, but has some trade-offs.
if (this._primaryPointerID != -1 || (!clear && this.mouseX == this._mouseOverX && this.mouseY == this._mouseOverY && this.mouseInBounds)) { return; }
var o = this._getPointerData(-1), e = o.posEvtObj;
var isEventTarget = eventTarget || e&&(e.target == this.canvas);
var target=null, common = -1, cursor="", t, i, l;
if (!owner && (clear || this.mouseInBounds && isEventTarget)) {
target = this._getObjectsUnderPoint(this.mouseX, this.mouseY, null, true);
this._mouseOverX = this.mouseX;
this._mouseOverY = this.mouseY;
}
var oldList = this._mouseOverTarget||[];
var oldTarget = oldList[oldList.length-1];
var list = this._mouseOverTarget = [];
// generate ancestor list and check for cursor:
t = target;
while (t) {
list.unshift(t);
if (t.cursor != null) { cursor = t.cursor; }
t = t.parent;
}
this.canvas.style.cursor = cursor;
if (!owner && eventTarget) { eventTarget.canvas.style.cursor = cursor; }
// find common ancestor:
for (i=0,l=list.length; icommon; i--) {
this._dispatchMouseEvent(oldList[i], "rollout", false, -1, o, e);
}
for (i=list.length-1; i>common; i--) {
this._dispatchMouseEvent(list[i], "rollover", false, -1, o, e);
}
if (oldTarget != target) {
this._dispatchMouseEvent(target, "mouseover", true, -1, o, e);
}
nextStage&&nextStage._testMouseOver(clear, owner || target && this, eventTarget || isEventTarget && this);
};
/**
* @method _handleDoubleClick
* @protected
* @param {MouseEvent} e
* @param {Stage} owner Indicates that the event has already been captured & handled by the indicated stage.
**/
p._handleDoubleClick = function(e, owner) {
var target=null, nextStage=this._nextStage, o=this._getPointerData(-1);
if (!owner) {
target = this._getObjectsUnderPoint(o.x, o.y, null, true);
this._dispatchMouseEvent(target, "dblclick", true, -1, o, e);
}
nextStage&&nextStage._handleDoubleClick(e, owner || target && this);
};
/**
* @method _dispatchMouseEvent
* @protected
* @param {DisplayObject} target
* @param {String} type
* @param {Boolean} bubbles
* @param {Number} pointerId
* @param {Object} o
* @param {MouseEvent} [nativeEvent]
**/
p._dispatchMouseEvent = function(target, type, bubbles, pointerId, o, nativeEvent) {
// TODO: might be worth either reusing MouseEvent instances, or adding a willTrigger method to avoid GC.
if (!target || (!bubbles && !target.hasEventListener(type))) { return; }
/*
// TODO: account for stage transformations:
this._mtx = this.getConcatenatedMatrix(this._mtx).invert();
var pt = this._mtx.transformPoint(o.x, o.y);
var evt = new createjs.MouseEvent(type, bubbles, false, pt.x, pt.y, nativeEvent, pointerId, pointerId==this._primaryPointerID, o.rawX, o.rawY);
*/
var evt = new createjs.MouseEvent(type, bubbles, false, o.x, o.y, nativeEvent, pointerId, pointerId==this._primaryPointerID, o.rawX, o.rawY);
target.dispatchEvent(evt);
};
createjs.Stage = createjs.promote(Stage, "Container");
}());
//##############################################################################
// Bitmap.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
/**
* A Bitmap represents an Image, Canvas, or Video in the display list. A Bitmap can be instantiated using an existing
* HTML element, or a string.
*
* Example
*
* var bitmap = new createjs.Bitmap("imagePath.jpg");
*
* Notes:
*
* - When a string path or image tag that is not yet loaded is used, the stage may need to be redrawn before it
* will be displayed.
* - Bitmaps with an SVG source currently will not respect an alpha value other than 0 or 1. To get around this,
* the Bitmap can be cached.
* - Bitmaps with an SVG source will taint the canvas with cross-origin data, which prevents interactivity. This
* happens in all browsers except recent Firefox builds.
* - Images loaded cross-origin will throw cross-origin security errors when interacted with using a mouse, using
* methods such as `getObjectUnderPoint`, or using filters, or caching. You can get around this by setting
* `crossOrigin` flags on your images before passing them to EaselJS, eg: `img.crossOrigin="Anonymous";`
*
*
* @class Bitmap
* @extends DisplayObject
* @constructor
* @param {Image | HTMLCanvasElement | HTMLVideoElement | String} imageOrUri The source object or URI to an image to
* display. This can be either an Image, Canvas, or Video object, or a string URI to an image file to load and use.
* If it is a URI, a new Image object will be constructed and assigned to the .image property.
**/
function Bitmap(imageOrUri) {
this.DisplayObject_constructor();
// public properties:
/**
* The image to render. This can be an Image, a Canvas, or a Video.
* @property image
* @type Image | HTMLCanvasElement | HTMLVideoElement
**/
if (typeof imageOrUri == "string") {
this.image = document.createElement("img");
this.image.src = imageOrUri;
} else {
this.image = imageOrUri;
}
/**
* Specifies an area of the source image to draw. If omitted, the whole image will be drawn.
* @property sourceRect
* @type Rectangle
* @default null
*/
this.sourceRect = null;
}
var p = createjs.extend(Bitmap, createjs.DisplayObject);
// public methods:
/**
* Returns true or false indicating whether the display object would be visible if drawn to a canvas.
* This does not account for whether it would be visible within the boundaries of the stage.
*
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method isVisible
* @return {Boolean} Boolean indicating whether the display object would be visible if drawn to a canvas
**/
p.isVisible = function() {
var hasContent = this.cacheCanvas || (this.image && (this.image.complete || this.image.getContext || this.image.readyState >= 2));
return !!(this.visible && this.alpha > 0 && this.scaleX != 0 && this.scaleY != 0 && hasContent);
};
/**
* Draws the display object into the specified context ignoring its visible, alpha, shadow, and transform.
* Returns true if the draw was handled (useful for overriding functionality).
*
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method draw
* @param {CanvasRenderingContext2D} ctx The canvas 2D context object to draw into.
* @param {Boolean} [ignoreCache=false] Indicates whether the draw operation should ignore any current cache.
* For example, used for drawing the cache (to prevent it from simply drawing an existing cache back
* into itself).
* @return {Boolean}
**/
p.draw = function(ctx, ignoreCache) {
if (this.DisplayObject_draw(ctx, ignoreCache) || !this.image.complete) { return true; }
var img = this.image, rect = this.sourceRect;
if (rect) {
// some browsers choke on out of bound values, so we'll fix them:
var x1 = rect.x, y1 = rect.y, x2 = x1 + rect.width, y2 = y1 + rect.height, x = 0, y = 0, w = img.width, h = img.height;
if (x1 < 0) { x -= x1; x1 = 0; }
if (x2 > w) { x2 = w; }
if (y1 < 0) { y -= y1; y1 = 0; }
if (y2 > h) { y2 = h; }
ctx.drawImage(img, x1, y1, x2-x1, y2-y1, x, y, x2-x1, y2-y1);
} else {
ctx.drawImage(img, 0, 0);
}
return true;
};
//Note, the doc sections below document using the specified APIs (from DisplayObject) from
//Bitmap. This is why they have no method implementations.
/**
* Because the content of a Bitmap is already in a simple format, cache is unnecessary for Bitmap instances.
* You should not cache Bitmap instances as it can degrade performance.
*
* However: If you want to use a filter on a Bitmap, you MUST cache it, or it will not work.
* To see the API for caching, please visit the DisplayObject {{#crossLink "DisplayObject/cache"}}{{/crossLink}}
* method.
* @method cache
**/
/**
* Because the content of a Bitmap is already in a simple format, cache is unnecessary for Bitmap instances.
* You should not cache Bitmap instances as it can degrade performance.
*
* However: If you want to use a filter on a Bitmap, you MUST cache it, or it will not work.
* To see the API for caching, please visit the DisplayObject {{#crossLink "DisplayObject/cache"}}{{/crossLink}}
* method.
* @method updateCache
**/
/**
* Because the content of a Bitmap is already in a simple format, cache is unnecessary for Bitmap instances.
* You should not cache Bitmap instances as it can degrade performance.
*
* However: If you want to use a filter on a Bitmap, you MUST cache it, or it will not work.
* To see the API for caching, please visit the DisplayObject {{#crossLink "DisplayObject/cache"}}{{/crossLink}}
* method.
* @method uncache
**/
/**
* Docced in superclass.
*/
p.getBounds = function() {
var rect = this.DisplayObject_getBounds();
if (rect) { return rect; }
var o = this.sourceRect || this.image;
var hasContent = (this.image && (this.image.complete || this.image.getContext || this.image.readyState >= 2));
return hasContent ? this._rectangle.setValues(0, 0, o.width, o.height) : null;
};
/**
* Returns a clone of the Bitmap instance.
* @method clone
* @return {Bitmap} a clone of the Bitmap instance.
**/
p.clone = function() {
var o = new Bitmap(this.image);
if (this.sourceRect) { o.sourceRect = this.sourceRect.clone(); }
this._cloneProps(o);
return o;
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Bitmap (name="+ this.name +")]";
};
createjs.Bitmap = createjs.promote(Bitmap, "DisplayObject");
}());
//##############################################################################
// Sprite.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Displays a frame or sequence of frames (ie. an animation) from a SpriteSheet instance. A sprite sheet is a series of
* images (usually animation frames) combined into a single image. For example, an animation consisting of 8 100x100
* images could be combined into a 400x200 sprite sheet (4 frames across by 2 high). You can display individual frames,
* play frames as an animation, and even sequence animations together.
*
* See the {{#crossLink "SpriteSheet"}}{{/crossLink}} class for more information on setting up frames and animations.
*
* Example
*
* var instance = new createjs.Sprite(spriteSheet);
* instance.gotoAndStop("frameName");
*
* Until {{#crossLink "Sprite/gotoAndStop"}}{{/crossLink}} or {{#crossLink "Sprite/gotoAndPlay"}}{{/crossLink}} is called,
* only the first defined frame defined in the sprite sheet will be displayed.
*
* @class Sprite
* @extends DisplayObject
* @constructor
* @param {SpriteSheet} spriteSheet The SpriteSheet instance to play back. This includes the source image(s), frame
* dimensions, and frame data. See {{#crossLink "SpriteSheet"}}{{/crossLink}} for more information.
* @param {String|Number} [frameOrAnimation] The frame number or animation to play initially.
**/
function Sprite(spriteSheet, frameOrAnimation) {
this.DisplayObject_constructor();
// public properties:
/**
* The frame index that will be drawn when draw is called. Note that with some {{#crossLink "SpriteSheet"}}{{/crossLink}}
* definitions, this will advance non-sequentially. This will always be an integer value.
* @property currentFrame
* @type {Number}
* @default 0
* @readonly
**/
this.currentFrame = 0;
/**
* Returns the name of the currently playing animation.
* @property currentAnimation
* @type {String}
* @final
* @readonly
**/
this.currentAnimation = null;
/**
* Prevents the animation from advancing each tick automatically. For example, you could create a sprite
* sheet of icons, set paused to true, and display the appropriate icon by setting currentFrame
.
* @property paused
* @type {Boolean}
* @default false
**/
this.paused = true;
/**
* The SpriteSheet instance to play back. This includes the source image, frame dimensions, and frame
* data. See {{#crossLink "SpriteSheet"}}{{/crossLink}} for more information.
* @property spriteSheet
* @type {SpriteSheet}
* @readonly
**/
this.spriteSheet = spriteSheet;
/**
* Specifies the current frame index within the currently playing animation. When playing normally, this will increase
* from 0 to n-1, where n is the number of frames in the current animation.
*
* This could be a non-integer value if
* using time-based playback (see {{#crossLink "Sprite/framerate"}}{{/crossLink}}, or if the animation's speed is
* not an integer.
* @property currentAnimationFrame
* @type {Number}
* @default 0
**/
this.currentAnimationFrame = 0;
/**
* By default Sprite instances advance one frame per tick. Specifying a framerate for the Sprite (or its related
* SpriteSheet) will cause it to advance based on elapsed time between ticks as appropriate to maintain the target
* framerate.
*
* For example, if a Sprite with a framerate of 10 is placed on a Stage being updated at 40fps, then the Sprite will
* advance roughly one frame every 4 ticks. This will not be exact, because the time between each tick will
* vary slightly between frames.
*
* This feature is dependent on the tick event object (or an object with an appropriate "delta" property) being
* passed into {{#crossLink "Stage/update"}}{{/crossLink}}.
* @property framerate
* @type {Number}
* @default 0
**/
this.framerate = 0;
// private properties:
/**
* Current animation object.
* @property _animation
* @protected
* @type {Object}
* @default null
**/
this._animation = null;
/**
* Current frame index.
* @property _currentFrame
* @protected
* @type {Number}
* @default null
**/
this._currentFrame = null;
/**
* Skips the next auto advance. Used by gotoAndPlay to avoid immediately jumping to the next frame
* @property _skipAdvance
* @protected
* @type {Boolean}
* @default false
**/
this._skipAdvance = false;
if (frameOrAnimation) { this.gotoAndPlay(frameOrAnimation); }
}
var p = createjs.extend(Sprite, createjs.DisplayObject);
// events:
/**
* Dispatched when an animation reaches its ends.
* @event animationend
* @param {Object} target The object that dispatched the event.
* @param {String} type The event type.
* @param {String} name The name of the animation that just ended.
* @param {String} next The name of the next animation that will be played, or null. This will be the same as name if the animation is looping.
* @since 0.6.0
*/
/**
* Dispatched any time the current frame changes. For example, this could be due to automatic advancement on a tick,
* or calling gotoAndPlay() or gotoAndStop().
* @event change
* @param {Object} target The object that dispatched the event.
* @param {String} type The event type.
*/
// public methods:
/**
* Returns true or false indicating whether the display object would be visible if drawn to a canvas.
* This does not account for whether it would be visible within the boundaries of the stage.
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method isVisible
* @return {Boolean} Boolean indicating whether the display object would be visible if drawn to a canvas
**/
p.isVisible = function() {
var hasContent = this.cacheCanvas || this.spriteSheet.complete;
return !!(this.visible && this.alpha > 0 && this.scaleX != 0 && this.scaleY != 0 && hasContent);
};
/**
* Draws the display object into the specified context ignoring its visible, alpha, shadow, and transform.
* Returns true if the draw was handled (useful for overriding functionality).
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method draw
* @param {CanvasRenderingContext2D} ctx The canvas 2D context object to draw into.
* @param {Boolean} ignoreCache Indicates whether the draw operation should ignore any current cache.
* For example, used for drawing the cache (to prevent it from simply drawing an existing cache back
* into itself).
**/
p.draw = function(ctx, ignoreCache) {
if (this.DisplayObject_draw(ctx, ignoreCache)) { return true; }
this._normalizeFrame();
var o = this.spriteSheet.getFrame(this._currentFrame|0);
if (!o) { return false; }
var rect = o.rect;
if (rect.width && rect.height) { ctx.drawImage(o.image, rect.x, rect.y, rect.width, rect.height, -o.regX, -o.regY, rect.width, rect.height); }
return true;
};
//Note, the doc sections below document using the specified APIs (from DisplayObject) from
//Bitmap. This is why they have no method implementations.
/**
* Because the content of a Sprite is already in a raster format, cache is unnecessary for Sprite instances.
* You should not cache Sprite instances as it can degrade performance.
* @method cache
**/
/**
* Because the content of a Sprite is already in a raster format, cache is unnecessary for Sprite instances.
* You should not cache Sprite instances as it can degrade performance.
* @method updateCache
**/
/**
* Because the content of a Sprite is already in a raster format, cache is unnecessary for Sprite instances.
* You should not cache Sprite instances as it can degrade performance.
* @method uncache
**/
/**
* Play (unpause) the current animation. The Sprite will be paused if either {{#crossLink "Sprite/stop"}}{{/crossLink}}
* or {{#crossLink "Sprite/gotoAndStop"}}{{/crossLink}} is called. Single frame animations will remain
* unchanged.
* @method play
**/
p.play = function() {
this.paused = false;
};
/**
* Stop playing a running animation. The Sprite will be playing if {{#crossLink "Sprite/gotoAndPlay"}}{{/crossLink}}
* is called. Note that calling {{#crossLink "Sprite/gotoAndPlay"}}{{/crossLink}} or {{#crossLink "Sprite/play"}}{{/crossLink}}
* will resume playback.
* @method stop
**/
p.stop = function() {
this.paused = true;
};
/**
* Sets paused to false and plays the specified animation name, named frame, or frame number.
* @method gotoAndPlay
* @param {String|Number} frameOrAnimation The frame number or animation name that the playhead should move to
* and begin playing.
**/
p.gotoAndPlay = function(frameOrAnimation) {
this.paused = false;
this._skipAdvance = true;
this._goto(frameOrAnimation);
};
/**
* Sets paused to true and seeks to the specified animation name, named frame, or frame number.
* @method gotoAndStop
* @param {String|Number} frameOrAnimation The frame number or animation name that the playhead should move to
* and stop.
**/
p.gotoAndStop = function(frameOrAnimation) {
this.paused = true;
this._goto(frameOrAnimation);
};
/**
* Advances the playhead. This occurs automatically each tick by default.
* @param [time] {Number} The amount of time in ms to advance by. Only applicable if framerate is set on the Sprite
* or its SpriteSheet.
* @method advance
*/
p.advance = function(time) {
var fps = this.framerate || this.spriteSheet.framerate;
var t = (fps && time != null) ? time/(1000/fps) : 1;
this._normalizeFrame(t);
};
/**
* Returns a {{#crossLink "Rectangle"}}{{/crossLink}} instance defining the bounds of the current frame relative to
* the origin. For example, a 90 x 70 frame with regX=50
and regY=40
would return a
* rectangle with [x=-50, y=-40, width=90, height=70]. This ignores transformations on the display object.
*
* Also see the SpriteSheet {{#crossLink "SpriteSheet/getFrameBounds"}}{{/crossLink}} method.
* @method getBounds
* @return {Rectangle} A Rectangle instance. Returns null if the frame does not exist, or the image is not fully
* loaded.
**/
p.getBounds = function() {
// TODO: should this normalizeFrame?
return this.DisplayObject_getBounds() || this.spriteSheet.getFrameBounds(this.currentFrame, this._rectangle);
};
/**
* Returns a clone of the Sprite instance. Note that the same SpriteSheet is shared between cloned
* instances.
* @method clone
* @return {Sprite} a clone of the Sprite instance.
**/
p.clone = function() {
return this._cloneProps(new Sprite(this.spriteSheet));
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Sprite (name="+ this.name +")]";
};
// private methods:
/**
* @method _cloneProps
* @param {Sprite} o
* @return {Sprite} o
* @protected
**/
p._cloneProps = function(o) {
this.DisplayObject__cloneProps(o);
o.currentFrame = this.currentFrame;
o.currentAnimation = this.currentAnimation;
o.paused = this.paused;
o.currentAnimationFrame = this.currentAnimationFrame;
o.framerate = this.framerate;
o._animation = this._animation;
o._currentFrame = this._currentFrame;
o._skipAdvance = this._skipAdvance;
return o;
};
/**
* Advances the currentFrame
if paused is not true. This is called automatically when the {{#crossLink "Stage"}}{{/crossLink}}
* ticks.
* @param {Object} evtObj An event object that will be dispatched to all tick listeners. This object is reused between dispatchers to reduce construction & GC costs.
* @protected
* @method _tick
**/
p._tick = function(evtObj) {
if (!this.paused) {
if (!this._skipAdvance) { this.advance(evtObj&&evtObj.delta); }
this._skipAdvance = false;
}
this.DisplayObject__tick(evtObj);
};
/**
* Normalizes the current frame, advancing animations and dispatching callbacks as appropriate.
* @protected
* @method _normalizeFrame
**/
p._normalizeFrame = function(frameDelta) {
frameDelta = frameDelta || 0;
var animation = this._animation;
var paused = this.paused;
var frame = this._currentFrame;
var l;
if (animation) {
var speed = animation.speed || 1;
var animFrame = this.currentAnimationFrame;
l = animation.frames.length;
if (animFrame + frameDelta * speed >= l) {
var next = animation.next;
if (this._dispatchAnimationEnd(animation, frame, paused, next, l - 1)) {
// something changed in the event stack, so we shouldn't make any more changes here.
return;
} else if (next) {
// sequence. Automatically calls _normalizeFrame again with the remaining frames.
return this._goto(next, frameDelta - (l - animFrame) / speed);
} else {
// end.
this.paused = true;
animFrame = animation.frames.length - 1;
}
} else {
animFrame += frameDelta * speed;
}
this.currentAnimationFrame = animFrame;
this._currentFrame = animation.frames[animFrame | 0]
} else {
frame = (this._currentFrame += frameDelta);
l = this.spriteSheet.getNumFrames();
if (frame >= l && l > 0) {
if (!this._dispatchAnimationEnd(animation, frame, paused, l - 1)) {
// looped.
if ((this._currentFrame -= l) >= l) { return this._normalizeFrame(); }
}
}
}
frame = this._currentFrame | 0;
if (this.currentFrame != frame) {
this.currentFrame = frame;
this.dispatchEvent("change");
}
};
/**
* Dispatches the "animationend" event. Returns true if a handler changed the animation (ex. calling {{#crossLink "Sprite/stop"}}{{/crossLink}},
* {{#crossLink "Sprite/gotoAndPlay"}}{{/crossLink}}, etc.)
* @property _dispatchAnimationEnd
* @private
* @type {Function}
**/
p._dispatchAnimationEnd = function(animation, frame, paused, next, end) {
var name = animation ? animation.name : null;
if (this.hasEventListener("animationend")) {
var evt = new createjs.Event("animationend");
evt.name = name;
evt.next = next;
this.dispatchEvent(evt);
}
// did the animation get changed in the event stack?:
var changed = (this._animation != animation || this._currentFrame != frame);
// if the animation hasn't changed, but the sprite was paused, then we want to stick to the last frame:
if (!changed && !paused && this.paused) { this.currentAnimationFrame = end; changed = true; }
return changed;
};
/**
* Moves the playhead to the specified frame number or animation.
* @method _goto
* @param {String|Number} frameOrAnimation The frame number or animation that the playhead should move to.
* @param {Boolean} [frame] The frame of the animation to go to. Defaults to 0.
* @protected
**/
p._goto = function(frameOrAnimation, frame) {
this.currentAnimationFrame = 0;
if (isNaN(frameOrAnimation)) {
var data = this.spriteSheet.getAnimation(frameOrAnimation);
if (data) {
this._animation = data;
this.currentAnimation = frameOrAnimation;
this._normalizeFrame(frame);
}
} else {
this.currentAnimation = this._animation = null;
this._currentFrame = frameOrAnimation;
this._normalizeFrame();
}
};
createjs.Sprite = createjs.promote(Sprite, "DisplayObject");
}());
//##############################################################################
// Shape.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* A Shape allows you to display vector art in the display list. It composites a {{#crossLink "Graphics"}}{{/crossLink}}
* instance which exposes all of the vector drawing methods. The Graphics instance can be shared between multiple Shape
* instances to display the same vector graphics with different positions or transforms.
*
* If the vector art will not
* change between draws, you may want to use the {{#crossLink "DisplayObject/cache"}}{{/crossLink}} method to reduce the
* rendering cost.
*
* Example
*
* var graphics = new createjs.Graphics().beginFill("#ff0000").drawRect(0, 0, 100, 100);
* var shape = new createjs.Shape(graphics);
*
* //Alternatively use can also use the graphics property of the Shape class to renderer the same as above.
* var shape = new createjs.Shape();
* shape.graphics.beginFill("#ff0000").drawRect(0, 0, 100, 100);
*
* @class Shape
* @extends DisplayObject
* @constructor
* @param {Graphics} graphics Optional. The graphics instance to display. If null, a new Graphics instance will be created.
**/
function Shape(graphics) {
this.DisplayObject_constructor();
// public properties:
/**
* The graphics instance to display.
* @property graphics
* @type Graphics
**/
this.graphics = graphics ? graphics : new createjs.Graphics();
}
var p = createjs.extend(Shape, createjs.DisplayObject);
// public methods:
/**
* Returns true or false indicating whether the Shape would be visible if drawn to a canvas.
* This does not account for whether it would be visible within the boundaries of the stage.
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method isVisible
* @return {Boolean} Boolean indicating whether the Shape would be visible if drawn to a canvas
**/
p.isVisible = function() {
var hasContent = this.cacheCanvas || (this.graphics && !this.graphics.isEmpty());
return !!(this.visible && this.alpha > 0 && this.scaleX != 0 && this.scaleY != 0 && hasContent);
};
/**
* Draws the Shape into the specified context ignoring its visible, alpha, shadow, and transform. Returns true if
* the draw was handled (useful for overriding functionality).
*
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method draw
* @param {CanvasRenderingContext2D} ctx The canvas 2D context object to draw into.
* @param {Boolean} [ignoreCache=false] Indicates whether the draw operation should ignore any current cache. For example,
* used for drawing the cache (to prevent it from simply drawing an existing cache back into itself).
* @return {Boolean}
**/
p.draw = function(ctx, ignoreCache) {
if (this.DisplayObject_draw(ctx, ignoreCache)) { return true; }
this.graphics.draw(ctx, this);
return true;
};
/**
* Returns a clone of this Shape. Some properties that are specific to this instance's current context are reverted to
* their defaults (for example .parent).
* @method clone
* @param {Boolean} recursive If true, this Shape's {{#crossLink "Graphics"}}{{/crossLink}} instance will also be
* cloned. If false, the Graphics instance will be shared with the new Shape.
**/
p.clone = function(recursive) {
var g = (recursive && this.graphics) ? this.graphics.clone() : this.graphics;
return this._cloneProps(new Shape(g));
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Shape (name="+ this.name +")]";
};
createjs.Shape = createjs.promote(Shape, "DisplayObject");
}());
//##############################################################################
// Text.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Display one or more lines of dynamic text (not user editable) in the display list. Line wrapping support (using the
* lineWidth) is very basic, wrapping on spaces and tabs only. Note that as an alternative to Text, you can position HTML
* text above or below the canvas relative to items in the display list using the {{#crossLink "DisplayObject/localToGlobal"}}{{/crossLink}}
* method, or using {{#crossLink "DOMElement"}}{{/crossLink}}.
*
* Please note that Text does not support HTML text, and can only display one font style at a time. To use
* multiple font styles, you will need to create multiple text instances, and position them manually.
*
* Example
*
* var text = new createjs.Text("Hello World", "20px Arial", "#ff7700");
* text.x = 100;
* text.textBaseline = "alphabetic";
*
* CreateJS Text supports web fonts (the same rules as Canvas). The font must be loaded and supported by the browser
* before it can be displayed.
*
* Note: Text can be expensive to generate, so cache instances where possible. Be aware that not all
* browsers will render Text exactly the same.
* @class Text
* @extends DisplayObject
* @constructor
* @param {String} [text] The text to display.
* @param {String} [font] The font style to use. Any valid value for the CSS font attribute is acceptable (ex. "bold
* 36px Arial").
* @param {String} [color] The color to draw the text in. Any valid value for the CSS color attribute is acceptable (ex.
* "#F00", "red", or "#FF0000").
**/
function Text(text, font, color) {
this.DisplayObject_constructor();
// public properties:
/**
* The text to display.
* @property text
* @type String
**/
this.text = text;
/**
* The font style to use. Any valid value for the CSS font attribute is acceptable (ex. "bold 36px Arial").
* @property font
* @type String
**/
this.font = font;
/**
* The color to draw the text in. Any valid value for the CSS color attribute is acceptable (ex. "#F00"). Default is "#000".
* It will also accept valid canvas fillStyle values.
* @property color
* @type String
**/
this.color = color;
/**
* The horizontal text alignment. Any of "start", "end", "left", "right", and "center". For detailed
* information view the
*
* whatwg spec. Default is "left".
* @property textAlign
* @type String
**/
this.textAlign = "left";
/**
* The vertical alignment point on the font. Any of "top", "hanging", "middle", "alphabetic", "ideographic", or
* "bottom". For detailed information view the
* whatwg spec. Default is "top".
* @property textBaseline
* @type String
*/
this.textBaseline = "top";
/**
* The maximum width to draw the text. If maxWidth is specified (not null), the text will be condensed or
* shrunk to make it fit in this width. For detailed information view the
*
* whatwg spec.
* @property maxWidth
* @type Number
*/
this.maxWidth = null;
/**
* If greater than 0, the text will be drawn as a stroke (outline) of the specified width.
* @property outline
* @type Number
**/
this.outline = 0;
/**
* Indicates the line height (vertical distance between baselines) for multi-line text. If null or 0,
* the value of getMeasuredLineHeight is used.
* @property lineHeight
* @type Number
**/
this.lineHeight = 0;
/**
* Indicates the maximum width for a line of text before it is wrapped to multiple lines. If null,
* the text will not be wrapped.
* @property lineWidth
* @type Number
**/
this.lineWidth = null;
}
var p = createjs.extend(Text, createjs.DisplayObject);
// static properties:
/**
* @property _workingContext
* @type CanvasRenderingContext2D
* @private
**/
var canvas = (createjs.createCanvas?createjs.createCanvas():document.createElement("canvas"));
if (canvas.getContext) { Text._workingContext = canvas.getContext("2d"); canvas.width = canvas.height = 1; }
// constants:
/**
* Lookup table for the ratio to offset bounds x calculations based on the textAlign property.
* @property H_OFFSETS
* @type Object
* @protected
* @static
**/
Text.H_OFFSETS = {start: 0, left: 0, center: -0.5, end: -1, right: -1};
/**
* Lookup table for the ratio to offset bounds y calculations based on the textBaseline property.
* @property H_OFFSETS
* @type Object
* @protected
* @static
**/
Text.V_OFFSETS = {top: 0, hanging: -0.01, middle: -0.4, alphabetic: -0.8, ideographic: -0.85, bottom: -1};
// public methods:
/**
* Returns true or false indicating whether the display object would be visible if drawn to a canvas.
* This does not account for whether it would be visible within the boundaries of the stage.
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method isVisible
* @return {Boolean} Whether the display object would be visible if drawn to a canvas
**/
p.isVisible = function() {
var hasContent = this.cacheCanvas || (this.text != null && this.text !== "");
return !!(this.visible && this.alpha > 0 && this.scaleX != 0 && this.scaleY != 0 && hasContent);
};
/**
* Draws the Text into the specified context ignoring its visible, alpha, shadow, and transform.
* Returns true if the draw was handled (useful for overriding functionality).
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method draw
* @param {CanvasRenderingContext2D} ctx The canvas 2D context object to draw into.
* @param {Boolean} ignoreCache Indicates whether the draw operation should ignore any current cache.
* For example, used for drawing the cache (to prevent it from simply drawing an existing cache back
* into itself).
**/
p.draw = function(ctx, ignoreCache) {
if (this.DisplayObject_draw(ctx, ignoreCache)) { return true; }
var col = this.color || "#000";
if (this.outline) { ctx.strokeStyle = col; ctx.lineWidth = this.outline*1; }
else { ctx.fillStyle = col; }
this._drawText(this._prepContext(ctx));
return true;
};
/**
* Returns the measured, untransformed width of the text without wrapping. Use getBounds for a more robust value.
* @method getMeasuredWidth
* @return {Number} The measured, untransformed width of the text.
**/
p.getMeasuredWidth = function() {
return this._getMeasuredWidth(this.text);
};
/**
* Returns an approximate line height of the text, ignoring the lineHeight property. This is based on the measured
* width of a "M" character multiplied by 1.2, which provides an approximate line height for most fonts.
* @method getMeasuredLineHeight
* @return {Number} an approximate line height of the text, ignoring the lineHeight property. This is
* based on the measured width of a "M" character multiplied by 1.2, which approximates em for most fonts.
**/
p.getMeasuredLineHeight = function() {
return this._getMeasuredWidth("M")*1.2;
};
/**
* Returns the approximate height of multi-line text by multiplying the number of lines against either the
* lineHeight
(if specified) or {{#crossLink "Text/getMeasuredLineHeight"}}{{/crossLink}}. Note that
* this operation requires the text flowing logic to run, which has an associated CPU cost.
* @method getMeasuredHeight
* @return {Number} The approximate height of the untransformed multi-line text.
**/
p.getMeasuredHeight = function() {
return this._drawText(null,{}).height;
};
/**
* Docced in superclass.
*/
p.getBounds = function() {
var rect = this.DisplayObject_getBounds();
if (rect) { return rect; }
if (this.text == null || this.text == "") { return null; }
var o = this._drawText(null, {});
var w = (this.maxWidth && this.maxWidth < o.width) ? this.maxWidth : o.width;
var x = w * Text.H_OFFSETS[this.textAlign||"left"];
var lineHeight = this.lineHeight||this.getMeasuredLineHeight();
var y = lineHeight * Text.V_OFFSETS[this.textBaseline||"top"];
return this._rectangle.setValues(x, y, w, o.height);
};
/**
* Returns an object with width, height, and lines properties. The width and height are the visual width and height
* of the drawn text. The lines property contains an array of strings, one for
* each line of text that will be drawn, accounting for line breaks and wrapping. These strings have trailing
* whitespace removed.
* @method getMetrics
* @return {Object} An object with width, height, and lines properties.
**/
p.getMetrics = function() {
var o = {lines:[]};
o.lineHeight = this.lineHeight || this.getMeasuredLineHeight();
o.vOffset = o.lineHeight * Text.V_OFFSETS[this.textBaseline||"top"];
return this._drawText(null, o, o.lines);
};
/**
* Returns a clone of the Text instance.
* @method clone
* @return {Text} a clone of the Text instance.
**/
p.clone = function() {
return this._cloneProps(new Text(this.text, this.font, this.color));
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Text (text="+ (this.text.length > 20 ? this.text.substr(0, 17)+"..." : this.text) +")]";
};
// private methods:
/**
* @method _cloneProps
* @param {Text} o
* @protected
* @return {Text} o
**/
p._cloneProps = function(o) {
this.DisplayObject__cloneProps(o);
o.textAlign = this.textAlign;
o.textBaseline = this.textBaseline;
o.maxWidth = this.maxWidth;
o.outline = this.outline;
o.lineHeight = this.lineHeight;
o.lineWidth = this.lineWidth;
return o;
};
/**
* @method _getWorkingContext
* @param {CanvasRenderingContext2D} ctx
* @return {CanvasRenderingContext2D}
* @protected
**/
p._prepContext = function(ctx) {
ctx.font = this.font||"10px sans-serif";
ctx.textAlign = this.textAlign||"left";
ctx.textBaseline = this.textBaseline||"top";
return ctx;
};
/**
* Draws multiline text.
* @method _drawText
* @param {CanvasRenderingContext2D} ctx
* @param {Object} o
* @param {Array} lines
* @return {Object}
* @protected
**/
p._drawText = function(ctx, o, lines) {
var paint = !!ctx;
if (!paint) {
ctx = Text._workingContext;
ctx.save();
this._prepContext(ctx);
}
var lineHeight = this.lineHeight||this.getMeasuredLineHeight();
var maxW = 0, count = 0;
var hardLines = String(this.text).split(/(?:\r\n|\r|\n)/);
for (var i=0, l=hardLines.length; i this.lineWidth) {
// text wrapping:
var words = str.split(/(\s)/);
str = words[0];
w = ctx.measureText(str).width;
for (var j=1, jl=words.length; j this.lineWidth) {
if (paint) { this._drawTextLine(ctx, str, count*lineHeight); }
if (lines) { lines.push(str); }
if (w > maxW) { maxW = w; }
str = words[j+1];
w = ctx.measureText(str).width;
count++;
} else {
str += words[j] + words[j+1];
w += wordW;
}
}
}
if (paint) { this._drawTextLine(ctx, str, count*lineHeight); }
if (lines) { lines.push(str); }
if (o && w == null) { w = ctx.measureText(str).width; }
if (w > maxW) { maxW = w; }
count++;
}
if (o) {
o.width = maxW;
o.height = count*lineHeight;
}
if (!paint) { ctx.restore(); }
return o;
};
/**
* @method _drawTextLine
* @param {CanvasRenderingContext2D} ctx
* @param {String} text
* @param {Number} y
* @protected
**/
p._drawTextLine = function(ctx, text, y) {
// Chrome 17 will fail to draw the text if the last param is included but null, so we feed it a large value instead:
if (this.outline) { ctx.strokeText(text, 0, y, this.maxWidth||0xFFFF); }
else { ctx.fillText(text, 0, y, this.maxWidth||0xFFFF); }
};
/**
* @method _getMeasuredWidth
* @param {String} text
* @protected
**/
p._getMeasuredWidth = function(text) {
var ctx = Text._workingContext;
ctx.save();
var w = this._prepContext(ctx).measureText(text).width;
ctx.restore();
return w;
};
createjs.Text = createjs.promote(Text, "DisplayObject");
}());
//##############################################################################
// BitmapText.js
//##############################################################################
this.createjs = this.createjs || {};
(function () {
"use strict";
// constructor:
/**
* Displays text using bitmap glyphs defined in a sprite sheet. Multi-line text is supported
* using new line characters, but automatic wrapping is not supported. See the
* {{#crossLink "BitmapText/spriteSheet:property"}}{{/crossLink}}
* property for more information on defining glyphs.
*
* Important: BitmapText extends Container, but is not designed to be used as one.
* As such, methods like addChild and removeChild are disabled.
* @class BitmapText
* @extends DisplayObject
* @param {String} [text=""] The text to display.
* @param {SpriteSheet} [spriteSheet=null] The spritesheet that defines the character glyphs.
* @constructor
**/
function BitmapText(text, spriteSheet) {
this.Container_constructor();
// public properties:
/**
* The text to display.
* @property text
* @type String
* @default ""
**/
this.text = text||"";
/**
* A SpriteSheet instance that defines the glyphs for this bitmap text. Each glyph/character
* should have a single frame animation defined in the sprite sheet named the same as
* corresponding character. For example, the following animation definition:
*
* "A": {frames: [0]}
*
* would indicate that the frame at index 0 of the spritesheet should be drawn for the "A" character. The short form
* is also acceptable:
*
* "A": 0
*
* Note that if a character in the text is not found in the sprite sheet, it will also
* try to use the alternate case (upper or lower).
*
* See SpriteSheet for more information on defining sprite sheet data.
* @property spriteSheet
* @type String
* @default null
**/
this.spriteSheet = spriteSheet;
/**
* The height of each line of text. If 0, then it will use a line height calculated
* by checking for the height of the "1", "T", or "L" character (in that order). If
* those characters are not defined, it will use the height of the first frame of the
* sprite sheet.
* @property lineHeight
* @type Number
* @default 0
**/
this.lineHeight = 0;
/**
* This spacing (in pixels) will be added after each character in the output.
* @property letterSpacing
* @type Number
* @default 0
**/
this.letterSpacing = 0;
/**
* If a space character is not defined in the sprite sheet, then empty pixels equal to
* spaceWidth will be inserted instead. If 0, then it will use a value calculated
* by checking for the width of the "1", "l", "E", or "A" character (in that order). If
* those characters are not defined, it will use the width of the first frame of the
* sprite sheet.
* @property spaceWidth
* @type Number
* @default 0
**/
this.spaceWidth = 0;
// private properties:
/**
* @property _oldProps
* @type Object
* @protected
**/
this._oldProps = {text:0,spriteSheet:0,lineHeight:0,letterSpacing:0,spaceWidth:0};
}
var p = createjs.extend(BitmapText, createjs.Container);
// static properties:
/**
* BitmapText uses Sprite instances to draw text. To reduce the creation and destruction of instances (and thus garbage collection), it maintains
* an internal object pool of sprite instances to reuse. Increasing this value can cause more sprites to be
* retained, slightly increasing memory use, but reducing instantiation.
* @property maxPoolSize
* @type Number
* @static
* @default 100
**/
BitmapText.maxPoolSize = 100;
/**
* Sprite object pool.
* @type {Array}
* @static
* @private
*/
BitmapText._spritePool = [];
// public methods:
/**
* Docced in superclass.
**/
p.draw = function(ctx, ignoreCache) {
if (this.DisplayObject_draw(ctx, ignoreCache)) { return; }
this._updateText();
this.Container_draw(ctx, ignoreCache);
};
/**
* Docced in superclass.
**/
p.getBounds = function() {
this._updateText();
return this.Container_getBounds();
};
/**
* Returns true or false indicating whether the display object would be visible if drawn to a canvas.
* This does not account for whether it would be visible within the boundaries of the stage.
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method isVisible
* @return {Boolean} Boolean indicating whether the display object would be visible if drawn to a canvas
**/
p.isVisible = function() {
var hasContent = this.cacheCanvas || (this.spriteSheet && this.spriteSheet.complete && this.text);
return !!(this.visible && this.alpha > 0 && this.scaleX != 0 && this.scaleY != 0 && hasContent);
};
p.clone = function() {
return this._cloneProps(new BitmapText(this.text, this.spriteSheet));
};
/**
* Disabled in BitmapText.
* @method addChild
**/
/**
* Disabled in BitmapText.
* @method addChildAt
**/
/**
* Disabled in BitmapText.
* @method removeChild
**/
/**
* Disabled in BitmapText.
* @method removeChildAt
**/
/**
* Disabled in BitmapText.
* @method removeAllChildren
**/
p.addChild = p.addChildAt = p.removeChild = p.removeChildAt = p.removeAllChildren = function() {};
// private methods:
/**
* @method _cloneProps
* @param {BitmapText} o
* @return {BitmapText} o
* @protected
**/
p._cloneProps = function(o) {
this.DisplayObject__cloneProps(o);
o.lineHeight = this.lineHeight;
o.letterSpacing = this.letterSpacing;
o.spaceWidth = this.spaceWidth;
return o;
};
/**
* @method _getFrameIndex
* @param {String} character
* @param {SpriteSheet} spriteSheet
* @return {Number}
* @protected
**/
p._getFrameIndex = function(character, spriteSheet) {
var c, o = spriteSheet.getAnimation(character);
if (!o) {
(character != (c = character.toUpperCase())) || (character != (c = character.toLowerCase())) || (c=null);
if (c) { o = spriteSheet.getAnimation(c); }
}
return o && o.frames[0];
};
/**
* @method _getFrame
* @param {String} character
* @param {SpriteSheet} spriteSheet
* @return {Object}
* @protected
**/
p._getFrame = function(character, spriteSheet) {
var index = this._getFrameIndex(character, spriteSheet);
return index == null ? index : spriteSheet.getFrame(index);
};
/**
* @method _getLineHeight
* @param {SpriteSheet} ss
* @return {Number}
* @protected
**/
p._getLineHeight = function(ss) {
var frame = this._getFrame("1",ss) || this._getFrame("T",ss) || this._getFrame("L",ss) || ss.getFrame(0);
return frame ? frame.rect.height : 1;
};
/**
* @method _getSpaceWidth
* @param {SpriteSheet} ss
* @return {Number}
* @protected
**/
p._getSpaceWidth = function(ss) {
var frame = this._getFrame("1",ss) || this._getFrame("l",ss) || this._getFrame("e",ss) || this._getFrame("a",ss) || ss.getFrame(0);
return frame ? frame.rect.width : 1;
};
/**
* @method _drawText
* @protected
**/
p._updateText = function() {
var x=0, y=0, o=this._oldProps, change=false, spaceW=this.spaceWidth, lineH=this.lineHeight, ss=this.spriteSheet;
var pool=BitmapText._spritePool, kids=this.children, childIndex=0, numKids=kids.length, sprite;
for (var n in o) {
if (o[n] != this[n]) {
o[n] = this[n];
change = true;
}
}
if (!change) { return; }
var hasSpace = !!this._getFrame(" ", ss);
if (!hasSpace && spaceW==0) { spaceW = this._getSpaceWidth(ss); }
if (lineH==0) { lineH = this._getLineHeight(ss); }
for(var i=0, l=this.text.length; i childIndex) { pool.push(sprite = kids.pop()); sprite.parent = null; numKids--; } // faster than removeChild.
if (pool.length > BitmapText.maxPoolSize) { pool.length = BitmapText.maxPoolSize; }
};
createjs.BitmapText = createjs.promote(BitmapText, "Container");
}());
//##############################################################################
// SpriteSheetUtils.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* The SpriteSheetUtils class is a collection of static methods for working with {{#crossLink "SpriteSheet"}}{{/crossLink}}s.
* A sprite sheet is a series of images (usually animation frames) combined into a single image on a regular grid. For
* example, an animation consisting of 8 100x100 images could be combined into a 400x200 sprite sheet (4 frames across
* by 2 high). The SpriteSheetUtils class uses a static interface and should not be instantiated.
* @class SpriteSheetUtils
* @static
**/
function SpriteSheetUtils() {
throw "SpriteSheetUtils cannot be instantiated";
}
// private static properties:
/**
* @property _workingCanvas
* @static
* @type HTMLCanvasElement | Object
* @protected
*/
/**
* @property _workingContext
* @static
* @type CanvasRenderingContext2D
* @protected
*/
var canvas = (createjs.createCanvas?createjs.createCanvas():document.createElement("canvas"));
if (canvas.getContext) {
SpriteSheetUtils._workingCanvas = canvas;
SpriteSheetUtils._workingContext = canvas.getContext("2d");
canvas.width = canvas.height = 1;
}
// public static methods:
/**
* This is an experimental method, and may be buggy. Please report issues.
* Extends the existing sprite sheet by flipping the original frames horizontally, vertically, or both,
* and adding appropriate animation & frame data. The flipped animations will have a suffix added to their names
* (_h, _v, _hv as appropriate). Make sure the sprite sheet images are fully loaded before using this method.
*
* For example:
* SpriteSheetUtils.addFlippedFrames(mySpriteSheet, true, true);
* The above would add frames that are flipped horizontally AND frames that are flipped vertically.
*
* Note that you can also flip any display object by setting its scaleX or scaleY to a negative value. On some
* browsers (especially those without hardware accelerated canvas) this can result in slightly degraded performance,
* which is why addFlippedFrames is available.
* @method addFlippedFrames
* @static
* @param {SpriteSheet} spriteSheet
* @param {Boolean} horizontal If true, horizontally flipped frames will be added.
* @param {Boolean} vertical If true, vertically flipped frames will be added.
* @param {Boolean} both If true, frames that are flipped both horizontally and vertically will be added.
* @deprecated Modern browsers perform better when flipping via a transform (ex. scaleX=-1) rendering this obsolete.
**/
SpriteSheetUtils.addFlippedFrames = function(spriteSheet, horizontal, vertical, both) {
if (!horizontal && !vertical && !both) { return; }
var count = 0;
if (horizontal) { SpriteSheetUtils._flip(spriteSheet,++count,true,false); }
if (vertical) { SpriteSheetUtils._flip(spriteSheet,++count,false,true); }
if (both) { SpriteSheetUtils._flip(spriteSheet,++count,true,true); }
};
/**
* Returns a single frame of the specified sprite sheet as a new PNG image. An example of when this may be useful is
* to use a spritesheet frame as the source for a bitmap fill.
*
* WARNING: In almost all cases it is better to display a single frame using a {{#crossLink "Sprite"}}{{/crossLink}}
* with a {{#crossLink "Sprite/gotoAndStop"}}{{/crossLink}} call than it is to slice out a frame using this
* method and display it with a Bitmap instance. You can also crop an image using the {{#crossLink "Bitmap/sourceRect"}}{{/crossLink}}
* property of {{#crossLink "Bitmap"}}{{/crossLink}}.
*
* The extractFrame method may cause cross-domain warnings since it accesses pixels directly on the canvas.
* @method extractFrame
* @static
* @param {Image} spriteSheet The SpriteSheet instance to extract a frame from.
* @param {Number|String} frameOrAnimation The frame number or animation name to extract. If an animation
* name is specified, only the first frame of the animation will be extracted.
* @return {Image} a single frame of the specified sprite sheet as a new PNG image.
*/
SpriteSheetUtils.extractFrame = function(spriteSheet, frameOrAnimation) {
if (isNaN(frameOrAnimation)) {
frameOrAnimation = spriteSheet.getAnimation(frameOrAnimation).frames[0];
}
var data = spriteSheet.getFrame(frameOrAnimation);
if (!data) { return null; }
var r = data.rect;
var canvas = SpriteSheetUtils._workingCanvas;
canvas.width = r.width;
canvas.height = r.height;
SpriteSheetUtils._workingContext.drawImage(data.image, r.x, r.y, r.width, r.height, 0, 0, r.width, r.height);
var img = document.createElement("img");
img.src = canvas.toDataURL("image/png");
return img;
};
/**
* Merges the rgb channels of one image with the alpha channel of another. This can be used to combine a compressed
* JPEG image containing color data with a PNG32 monochromatic image containing alpha data. With certain types of
* images (those with detail that lend itself to JPEG compression) this can provide significant file size savings
* versus a single RGBA PNG32. This method is very fast (generally on the order of 1-2 ms to run).
* @method mergeAlpha
* @static
* @param {Image} rbgImage The image (or canvas) containing the RGB channels to use.
* @param {Image} alphaImage The image (or canvas) containing the alpha channel to use.
* @param {Canvas} canvas Optional. If specified, this canvas will be used and returned. If not, a new canvas will be created.
* @return {Canvas} A canvas with the combined image data. This can be used as a source for Bitmap or SpriteSheet.
* @deprecated Tools such as ImageAlpha generally provide better results. This will be moved to sandbox in the future.
*/
SpriteSheetUtils.mergeAlpha = function(rgbImage, alphaImage, canvas) {
if (!canvas) { canvas = createjs.createCanvas?createjs.createCanvas():document.createElement("canvas"); }
canvas.width = Math.max(alphaImage.width, rgbImage.width);
canvas.height = Math.max(alphaImage.height, rgbImage.height);
var ctx = canvas.getContext("2d");
ctx.save();
ctx.drawImage(rgbImage,0,0);
ctx.globalCompositeOperation = "destination-in";
ctx.drawImage(alphaImage,0,0);
ctx.restore();
return canvas;
};
// private static methods:
SpriteSheetUtils._flip = function(spriteSheet, count, h, v) {
var imgs = spriteSheet._images;
var canvas = SpriteSheetUtils._workingCanvas;
var ctx = SpriteSheetUtils._workingContext;
var il = imgs.length/count;
for (var i=0;imaxWidth or maxHeight
.
* @class SpriteSheetBuilder
* @extends EventDispatcher
* @constructor
**/
function SpriteSheetBuilder() {
this.EventDispatcher_constructor();
// public properties:
/**
* The maximum width for the images (not individual frames) in the generated sprite sheet. It is recommended to use
* a power of 2 for this value (ex. 1024, 2048, 4096). If the frames cannot all fit within the max dimensions, then
* additional images will be created as needed.
* @property maxWidth
* @type Number
* @default 2048
*/
this.maxWidth = 2048;
/**
* The maximum height for the images (not individual frames) in the generated sprite sheet. It is recommended to use
* a power of 2 for this value (ex. 1024, 2048, 4096). If the frames cannot all fit within the max dimensions, then
* additional images will be created as needed.
* @property maxHeight
* @type Number
* @default 2048
**/
this.maxHeight = 2048;
/**
* The sprite sheet that was generated. This will be null before a build is completed successfully.
* @property spriteSheet
* @type SpriteSheet
**/
this.spriteSheet = null;
/**
* The scale to apply when drawing all frames to the sprite sheet. This is multiplied against any scale specified
* in the addFrame call. This can be used, for example, to generate a sprite sheet at run time that is tailored to
* the a specific device resolution (ex. tablet vs mobile).
* @property scale
* @type Number
* @default 1
**/
this.scale = 1;
/**
* The padding to use between frames. This is helpful to preserve antialiasing on drawn vector content.
* @property padding
* @type Number
* @default 1
**/
this.padding = 1;
/**
* A number from 0.01 to 0.99 that indicates what percentage of time the builder can use. This can be
* thought of as the number of seconds per second the builder will use. For example, with a timeSlice value of 0.3,
* the builder will run 20 times per second, using approximately 15ms per build (30% of available time, or 0.3s per second).
* Defaults to 0.3.
* @property timeSlice
* @type Number
* @default 0.3
**/
this.timeSlice = 0.3;
/**
* A value between 0 and 1 that indicates the progress of a build, or -1 if a build has not
* been initiated.
* @property progress
* @type Number
* @default -1
* @readonly
**/
this.progress = -1;
// private properties:
/**
* @property _frames
* @protected
* @type Array
**/
this._frames = [];
/**
* @property _animations
* @protected
* @type Array
**/
this._animations = {};
/**
* @property _data
* @protected
* @type Array
**/
this._data = null;
/**
* @property _nextFrameIndex
* @protected
* @type Number
**/
this._nextFrameIndex = 0;
/**
* @property _index
* @protected
* @type Number
**/
this._index = 0;
/**
* @property _timerID
* @protected
* @type Number
**/
this._timerID = null;
/**
* @property _scale
* @protected
* @type Number
**/
this._scale = 1;
}
var p = createjs.extend(SpriteSheetBuilder, createjs.EventDispatcher);
// constants:
SpriteSheetBuilder.ERR_DIMENSIONS = "frame dimensions exceed max spritesheet dimensions";
SpriteSheetBuilder.ERR_RUNNING = "a build is already running";
// events:
/**
* Dispatched when a build completes.
* @event complete
* @param {Object} target The object that dispatched the event.
* @param {String} type The event type.
* @since 0.6.0
*/
/**
* Dispatched when an asynchronous build has progress.
* @event progress
* @param {Object} target The object that dispatched the event.
* @param {String} type The event type.
* @param {Number} progress The current progress value (0-1).
* @since 0.6.0
*/
// public methods:
/**
* Adds a frame to the {{#crossLink "SpriteSheet"}}{{/crossLink}}. Note that the frame will not be drawn until you
* call {{#crossLink "SpriteSheetBuilder/build"}}{{/crossLink}} method. The optional setup params allow you to have
* a function run immediately before the draw occurs. For example, this allows you to add a single source multiple
* times, but manipulate it or its children to change it to generate different frames.
*
* Note that the source's transformations (x, y, scale, rotate, alpha) will be ignored, except for regX/Y. To apply
* transforms to a source object and have them captured in the sprite sheet, simply place it into a {{#crossLink "Container"}}{{/crossLink}}
* and pass in the Container as the source.
* @method addFrame
* @param {DisplayObject} source The source {{#crossLink "DisplayObject"}}{{/crossLink}} to draw as the frame.
* @param {Rectangle} [sourceRect] A {{#crossLink "Rectangle"}}{{/crossLink}} defining the portion of the
* source to draw to the frame. If not specified, it will look for a getBounds
method, bounds property,
* or nominalBounds
property on the source to use. If one is not found, the frame will be skipped.
* @param {Number} [scale=1] Optional. The scale to draw this frame at. Default is 1.
* @param {Function} [setupFunction] A function to call immediately before drawing this frame. It will be called with two parameters: the source, and setupData.
* @param {Object} [setupData] Arbitrary setup data to pass to setupFunction as the second parameter.
* @return {Number} The index of the frame that was just added, or null if a sourceRect could not be determined.
**/
p.addFrame = function(source, sourceRect, scale, setupFunction, setupData) {
if (this._data) { throw SpriteSheetBuilder.ERR_RUNNING; }
var rect = sourceRect||source.bounds||source.nominalBounds;
if (!rect&&source.getBounds) { rect = source.getBounds(); }
if (!rect) { return null; }
scale = scale||1;
return this._frames.push({source:source, sourceRect:rect, scale:scale, funct:setupFunction, data:setupData, index:this._frames.length, height:rect.height*scale})-1;
};
/**
* Adds an animation that will be included in the created sprite sheet.
* @method addAnimation
* @param {String} name The name for the animation.
* @param {Array} frames An array of frame indexes that comprise the animation. Ex. [3,6,5] would describe an animation
* that played frame indexes 3, 6, and 5 in that order.
* @param {String} [next] Specifies the name of the animation to continue to after this animation ends. You can
* also pass false to have the animation stop when it ends. By default it will loop to the start of the same animation.
* @param {Number} [frequency] Specifies a frame advance frequency for this animation. For example, a value
* of 2 would cause the animation to advance every second tick.
**/
p.addAnimation = function(name, frames, next, frequency) {
if (this._data) { throw SpriteSheetBuilder.ERR_RUNNING; }
this._animations[name] = {frames:frames, next:next, frequency:frequency};
};
/**
* This will take a MovieClip instance, and add its frames and labels to this builder. Labels will be added as an animation
* running from the label index to the next label. For example, if there is a label named "foo" at frame 0 and a label
* named "bar" at frame 10, in a MovieClip with 15 frames, it will add an animation named "foo" that runs from frame
* index 0 to 9, and an animation named "bar" that runs from frame index 10 to 14.
*
* Note that this will iterate through the full MovieClip with actionsEnabled set to false, ending on the last frame.
* @method addMovieClip
* @param {MovieClip} source The source MovieClip instance to add to the sprite sheet.
* @param {Rectangle} [sourceRect] A {{#crossLink "Rectangle"}}{{/crossLink}} defining the portion of the source to
* draw to the frame. If not specified, it will look for a getBounds
method, frameBounds
* Array, bounds
property, or nominalBounds
property on the source to use. If one is not
* found, the MovieClip will be skipped.
* @param {Number} [scale=1] The scale to draw the movie clip at.
* @param {Function} [setupFunction] A function to call immediately before drawing each frame. It will be called with three parameters: the source, setupData, and the frame index.
* @param {Object} [setupData] Arbitrary setup data to pass to setupFunction as the second parameter.
* @param {Function} [labelFunction] This method will be called for each movieclip label that is added with four parameters: the label name, the source movieclip instance, the starting frame index (in the movieclip timeline) and the end index. It must return a new name for the label/animation, or false to exclude the label.
**/
p.addMovieClip = function(source, sourceRect, scale, setupFunction, setupData, labelFunction) {
if (this._data) { throw SpriteSheetBuilder.ERR_RUNNING; }
var rects = source.frameBounds;
var rect = sourceRect||source.bounds||source.nominalBounds;
if (!rect&&source.getBounds) { rect = source.getBounds(); }
if (!rect && !rects) { return; }
var i, l, baseFrameIndex = this._frames.length;
var duration = source.timeline.duration;
for (i=0; itimeSlice. When it is complete it will
* call the specified callback.
* @method buildAsync
* @param {Number} [timeSlice] Sets the timeSlice property on this instance.
**/
p.buildAsync = function(timeSlice) {
if (this._data) { throw SpriteSheetBuilder.ERR_RUNNING; }
this.timeSlice = timeSlice;
this._startBuild();
var _this = this;
this._timerID = setTimeout(function() { _this._run(); }, 50-Math.max(0.01, Math.min(0.99, this.timeSlice||0.3))*50);
};
/**
* Stops the current asynchronous build.
* @method stopAsync
**/
p.stopAsync = function() {
clearTimeout(this._timerID);
this._data = null;
};
/**
* SpriteSheetBuilder instances cannot be cloned.
* @method clone
**/
p.clone = function() {
throw("SpriteSheetBuilder cannot be cloned.");
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[SpriteSheetBuilder]";
};
// private methods:
/**
* @method _startBuild
* @protected
**/
p._startBuild = function() {
var pad = this.padding||0;
this.progress = 0;
this.spriteSheet = null;
this._index = 0;
this._scale = this.scale;
var dataFrames = [];
this._data = {
images: [],
frames: dataFrames,
animations: this._animations // TODO: should we "clone" _animations in case someone adds more animations after a build?
};
var frames = this._frames.slice();
frames.sort(function(a,b) { return (a.height<=b.height) ? -1 : 1; });
if (frames[frames.length-1].height+pad*2 > this.maxHeight) { throw SpriteSheetBuilder.ERR_DIMENSIONS; }
var y=0, x=0;
var img = 0;
while (frames.length) {
var o = this._fillRow(frames, y, img, dataFrames, pad);
if (o.w > x) { x = o.w; }
y += o.h;
if (!o.h || !frames.length) {
var canvas = createjs.createCanvas?createjs.createCanvas():document.createElement("canvas");
canvas.width = this._getSize(x,this.maxWidth);
canvas.height = this._getSize(y,this.maxHeight);
this._data.images[img] = canvas;
if (!o.h) {
x=y=0;
img++;
}
}
}
};
/**
* @method _setupMovieClipFrame
* @protected
* @return {Number} The width & height of the row.
**/
p._setupMovieClipFrame = function(source, data) {
var ae = source.actionsEnabled;
source.actionsEnabled = false;
source.gotoAndStop(data.i);
source.actionsEnabled = ae;
data.f&&data.f(source, data.d, data.i);
};
/**
* @method _getSize
* @protected
* @return {Number} The width & height of the row.
**/
p._getSize = function(size,max) {
var pow = 4;
while (Math.pow(2,++pow) < size){}
return Math.min(max,Math.pow(2,pow));
};
/**
* @method _fillRow
* @param {Array} frames
* @param {Number} y
* @param {Image} img
* @param {Object} dataFrames
* @param {Number} pad
* @protected
* @return {Number} The width & height of the row.
**/
p._fillRow = function(frames, y, img, dataFrames, pad) {
var w = this.maxWidth;
var maxH = this.maxHeight;
y += pad;
var h = maxH-y;
var x = pad;
var height = 0;
for (var i=frames.length-1; i>=0; i--) {
var frame = frames[i];
var sc = this._scale*frame.scale;
var rect = frame.sourceRect;
var source = frame.source;
var rx = Math.floor(sc*rect.x-pad);
var ry = Math.floor(sc*rect.y-pad);
var rh = Math.ceil(sc*rect.height+pad*2);
var rw = Math.ceil(sc*rect.width+pad*2);
if (rw > w) { throw SpriteSheetBuilder.ERR_DIMENSIONS; }
if (rh > h || x+rw > w) { continue; }
frame.img = img;
frame.rect = new createjs.Rectangle(x,y,rw,rh);
height = height || rh;
frames.splice(i,1);
dataFrames[frame.index] = [x,y,rw,rh,img,Math.round(-rx+sc*source.regX-pad),Math.round(-ry+sc*source.regY-pad)];
x += rw;
}
return {w:x, h:height};
};
/**
* @method _endBuild
* @protected
**/
p._endBuild = function() {
this.spriteSheet = new createjs.SpriteSheet(this._data);
this._data = null;
this.progress = 1;
this.dispatchEvent("complete");
};
/**
* @method _run
* @protected
**/
p._run = function() {
var ts = Math.max(0.01, Math.min(0.99, this.timeSlice||0.3))*50;
var t = (new Date()).getTime()+ts;
var complete = false;
while (t > (new Date()).getTime()) {
if (!this._drawNext()) { complete = true; break; }
}
if (complete) {
this._endBuild();
} else {
var _this = this;
this._timerID = setTimeout(function() { _this._run(); }, 50-ts);
}
var p = this.progress = this._index/this._frames.length;
if (this.hasEventListener("progress")) {
var evt = new createjs.Event("progress");
evt.progress = p;
this.dispatchEvent(evt);
}
};
/**
* @method _drawNext
* @protected
* @return Boolean Returns false if this is the last draw.
**/
p._drawNext = function() {
var frame = this._frames[this._index];
var sc = frame.scale*this._scale;
var rect = frame.rect;
var sourceRect = frame.sourceRect;
var canvas = this._data.images[frame.img];
var ctx = canvas.getContext("2d");
frame.funct&&frame.funct(frame.source, frame.data);
ctx.save();
ctx.beginPath();
ctx.rect(rect.x, rect.y, rect.width, rect.height);
ctx.clip();
ctx.translate(Math.ceil(rect.x-sourceRect.x*sc), Math.ceil(rect.y-sourceRect.y*sc));
ctx.scale(sc,sc);
frame.source.draw(ctx); // display object will draw itself.
ctx.restore();
return (++this._index) < this._frames.length;
};
createjs.SpriteSheetBuilder = createjs.promote(SpriteSheetBuilder, "EventDispatcher");
}());
//##############################################################################
// DOMElement.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* This class is still experimental, and more advanced use is likely to be buggy. Please report bugs.
*
* A DOMElement allows you to associate a HTMLElement with the display list. It will be transformed
* within the DOM as though it is child of the {{#crossLink "Container"}}{{/crossLink}} it is added to. However, it is
* not rendered to canvas, and as such will retain whatever z-index it has relative to the canvas (ie. it will be
* drawn in front of or behind the canvas).
*
* The position of a DOMElement is relative to their parent node in the DOM. It is recommended that
* the DOM Object be added to a div that also contains the canvas so that they share the same position
* on the page.
*
* DOMElement is useful for positioning HTML elements over top of canvas content, and for elements
* that you want to display outside the bounds of the canvas. For example, a tooltip with rich HTML
* content.
*
* Mouse Interaction
*
* DOMElement instances are not full EaselJS display objects, and do not participate in EaselJS mouse
* events or support methods like hitTest. To get mouse events from a DOMElement, you must instead add handlers to
* the htmlElement (note, this does not support EventDispatcher)
*
* var domElement = new createjs.DOMElement(htmlElement);
* domElement.htmlElement.onclick = function() {
* console.log("clicked");
* }
*
* @class DOMElement
* @extends DisplayObject
* @constructor
* @param {HTMLElement} htmlElement A reference or id for the DOM element to manage.
*/
function DOMElement(htmlElement) {
this.DisplayObject_constructor();
if (typeof(htmlElement)=="string") { htmlElement = document.getElementById(htmlElement); }
this.mouseEnabled = false;
var style = htmlElement.style;
style.position = "absolute";
style.transformOrigin = style.WebkitTransformOrigin = style.msTransformOrigin = style.MozTransformOrigin = style.OTransformOrigin = "0% 0%";
// public properties:
/**
* The DOM object to manage.
* @property htmlElement
* @type HTMLElement
*/
this.htmlElement = htmlElement;
// private properties:
/**
* @property _oldMtx
* @type Matrix2D
* @protected
*/
this._oldProps = null;
}
var p = createjs.extend(DOMElement, createjs.DisplayObject);
// public methods:
/**
* Returns true or false indicating whether the display object would be visible if drawn to a canvas.
* This does not account for whether it would be visible within the boundaries of the stage.
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method isVisible
* @return {Boolean} Boolean indicating whether the display object would be visible if drawn to a canvas
*/
p.isVisible = function() {
return this.htmlElement != null;
};
/**
* Draws the display object into the specified context ignoring its visible, alpha, shadow, and transform.
* Returns true if the draw was handled (useful for overriding functionality).
* NOTE: This method is mainly for internal use, though it may be useful for advanced uses.
* @method draw
* @param {CanvasRenderingContext2D} ctx The canvas 2D context object to draw into.
* @param {Boolean} ignoreCache Indicates whether the draw operation should ignore any current cache.
* For example, used for drawing the cache (to prevent it from simply drawing an existing cache back
* into itself).
* @return {Boolean}
*/
p.draw = function(ctx, ignoreCache) {
// this relies on the _tick method because draw isn't called if the parent is not visible.
// the actual update happens in _handleDrawEnd
return true;
};
/**
* Not applicable to DOMElement.
* @method cache
*/
p.cache = function() {};
/**
* Not applicable to DOMElement.
* @method uncache
*/
p.uncache = function() {};
/**
* Not applicable to DOMElement.
* @method updateCache
*/
p.updateCache = function() {};
/**
* Not applicable to DOMElement.
* @method hitTest
*/
p.hitTest = function() {};
/**
* Not applicable to DOMElement.
* @method localToGlobal
*/
p.localToGlobal = function() {};
/**
* Not applicable to DOMElement.
* @method globalToLocal
*/
p.globalToLocal = function() {};
/**
* Not applicable to DOMElement.
* @method localToLocal
*/
p.localToLocal = function() {};
/**
* DOMElement cannot be cloned. Throws an error.
* @method clone
*/
p.clone = function() {
throw("DOMElement cannot be cloned.")
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
*/
p.toString = function() {
return "[DOMElement (name="+ this.name +")]";
};
/**
* Interaction events should be added to `htmlElement`, and not the DOMElement instance, since DOMElement instances
* are not full EaselJS display objects and do not participate in EaselJS mouse events.
* @event click
*/
/**
* Interaction events should be added to `htmlElement`, and not the DOMElement instance, since DOMElement instances
* are not full EaselJS display objects and do not participate in EaselJS mouse events.
* @event dblClick
*/
/**
* Interaction events should be added to `htmlElement`, and not the DOMElement instance, since DOMElement instances
* are not full EaselJS display objects and do not participate in EaselJS mouse events.
* @event mousedown
*/
/**
* The HTMLElement can listen for the mouseover event, not the DOMElement instance.
* Since DOMElement instances are not full EaselJS display objects and do not participate in EaselJS mouse events.
* @event mouseover
*/
/**
* Not applicable to DOMElement.
* @event tick
*/
// private methods:
/**
* @method _tick
* @param {Object} evtObj An event object that will be dispatched to all tick listeners. This object is reused between dispatchers to reduce construction & GC costs.
* function.
* @protected
*/
p._tick = function(evtObj) {
var stage = this.getStage();
stage&&stage.on("drawend", this._handleDrawEnd, this, true);
this.DisplayObject__tick(evtObj);
};
/**
* @method _handleDrawEnd
* @param {Event} evt
* @protected
*/
p._handleDrawEnd = function(evt) {
var o = this.htmlElement;
if (!o) { return; }
var style = o.style;
var props = this.getConcatenatedDisplayProps(this._props), mtx = props.matrix;
var visibility = props.visible ? "visible" : "hidden";
if (visibility != style.visibility) { style.visibility = visibility; }
if (!props.visible) { return; }
var oldProps = this._oldProps, oldMtx = oldProps&&oldProps.matrix;
var n = 10000; // precision
if (!oldMtx || !oldMtx.equals(mtx)) {
var str = "matrix(" + (mtx.a*n|0)/n +","+ (mtx.b*n|0)/n +","+ (mtx.c*n|0)/n +","+ (mtx.d*n|0)/n +","+ (mtx.tx+0.5|0);
style.transform = style.WebkitTransform = style.OTransform = style.msTransform = str +","+ (mtx.ty+0.5|0) +")";
style.MozTransform = str +"px,"+ (mtx.ty+0.5|0) +"px)";
if (!oldProps) { oldProps = this._oldProps = new createjs.DisplayProps(true, NaN); }
oldProps.matrix.copy(mtx);
}
if (oldProps.alpha != props.alpha) {
style.opacity = ""+(props.alpha*n|0)/n;
oldProps.alpha = props.alpha;
}
};
createjs.DOMElement = createjs.promote(DOMElement, "DisplayObject");
}());
//##############################################################################
// Filter.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Base class that all filters should inherit from. Filters need to be applied to objects that have been cached using
* the {{#crossLink "DisplayObject/cache"}}{{/crossLink}} method. If an object changes, please cache it again, or use
* {{#crossLink "DisplayObject/updateCache"}}{{/crossLink}}. Note that the filters must be applied before caching.
*
* Example
*
* myInstance.filters = [
* new createjs.ColorFilter(0, 0, 0, 1, 255, 0, 0),
* new createjs.BlurFilter(5, 5, 10)
* ];
* myInstance.cache(0,0, 100, 100);
*
* Note that each filter can implement a {{#crossLink "Filter/getBounds"}}{{/crossLink}} method, which returns the
* margins that need to be applied in order to fully display the filter. For example, the {{#crossLink "BlurFilter"}}{{/crossLink}}
* will cause an object to feather outwards, resulting in a margin around the shape.
*
* EaselJS Filters
* EaselJS comes with a number of pre-built filters. Note that individual filters are not compiled into the minified
* version of EaselJS. To use them, you must include them manually in the HTML.
* - {{#crossLink "AlphaMapFilter"}}{{/crossLink}} : Map a greyscale image to the alpha channel of a display object
* - {{#crossLink "AlphaMaskFilter"}}{{/crossLink}}: Map an image's alpha channel to the alpha channel of a display object
* - {{#crossLink "BlurFilter"}}{{/crossLink}}: Apply vertical and horizontal blur to a display object
* - {{#crossLink "ColorFilter"}}{{/crossLink}}: Color transform a display object
* - {{#crossLink "ColorMatrixFilter"}}{{/crossLink}}: Transform an image using a {{#crossLink "ColorMatrix"}}{{/crossLink}}
*
*
* @class Filter
* @constructor
**/
function Filter() {}
var p = Filter.prototype;
// public methods:
/**
* Returns a rectangle with values indicating the margins required to draw the filter or null.
* For example, a filter that will extend the drawing area 4 pixels to the left, and 7 pixels to the right
* (but no pixels up or down) would return a rectangle with (x=-4, y=0, width=11, height=0).
* @method getBounds
* @return {Rectangle} a rectangle object indicating the margins required to draw the filter or null if the filter does not effect bounds.
**/
p.getBounds = function() {
return null;
};
/**
* Applies the filter to the specified context.
* @method applyFilter
* @param {CanvasRenderingContext2D} ctx The 2D context to use as the source.
* @param {Number} x The x position to use for the source rect.
* @param {Number} y The y position to use for the source rect.
* @param {Number} width The width to use for the source rect.
* @param {Number} height The height to use for the source rect.
* @param {CanvasRenderingContext2D} [targetCtx] The 2D context to draw the result to. Defaults to the context passed to ctx.
* @param {Number} [targetX] The x position to draw the result to. Defaults to the value passed to x.
* @param {Number} [targetY] The y position to draw the result to. Defaults to the value passed to y.
* @return {Boolean} If the filter was applied successfully.
**/
p.applyFilter = function(ctx, x, y, width, height, targetCtx, targetX, targetY) {
// this is the default behaviour because most filters access pixel data. It is overridden when not needed.
targetCtx = targetCtx || ctx;
if (targetX == null) { targetX = x; }
if (targetY == null) { targetY = y; }
try {
var imageData = ctx.getImageData(x, y, width, height);
} catch (e) {
return false;
}
if (this._applyFilter(imageData)) {
targetCtx.putImageData(imageData, targetX, targetY);
return true;
}
return false;
};
/**
* Returns a string representation of this object.
* @method toString
* @return {String} a string representation of the instance.
**/
p.toString = function() {
return "[Filter]";
};
/**
* Returns a clone of this Filter instance.
* @method clone
* @return {Filter} A clone of the current Filter instance.
**/
p.clone = function() {
return new Filter();
};
// private methods:
/**
* @method _applyFilter
* @param {ImageData} imageData Target ImageData instance.
* @return {Boolean}
**/
p._applyFilter = function(imageData) { return true; };
createjs.Filter = Filter;
}());
//##############################################################################
// BlurFilter.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Applies a box blur to DisplayObjects. Note that this filter is fairly CPU intensive, particularly if the quality is
* set higher than 1.
*
* Example
* This example creates a red circle, and then applies a 5 pixel blur to it. It uses the {{#crossLink "Filter/getBounds"}}{{/crossLink}}
* method to account for the spread that the blur causes.
*
* var shape = new createjs.Shape().set({x:100,y:100});
* shape.graphics.beginFill("#ff0000").drawCircle(0,0,50);
*
* var blurFilter = new createjs.BlurFilter(5, 5, 1);
* shape.filters = [blurFilter];
* var bounds = blurFilter.getBounds();
*
* shape.cache(-50+bounds.x, -50+bounds.y, 100+bounds.width, 100+bounds.height);
*
* See {{#crossLink "Filter"}}{{/crossLink}} for an more information on applying filters.
* @class BlurFilter
* @extends Filter
* @constructor
* @param {Number} [blurX=0] The horizontal blur radius in pixels.
* @param {Number} [blurY=0] The vertical blur radius in pixels.
* @param {Number} [quality=1] The number of blur iterations.
**/
function BlurFilter( blurX, blurY, quality) {
if ( isNaN(blurX) || blurX < 0 ) blurX = 0;
if ( isNaN(blurY) || blurY < 0 ) blurY = 0;
if ( isNaN(quality) || quality < 1 ) quality = 1;
// public properties:
/**
* Horizontal blur radius in pixels
* @property blurX
* @default 0
* @type Number
**/
this.blurX = blurX | 0;
/**
* Vertical blur radius in pixels
* @property blurY
* @default 0
* @type Number
**/
this.blurY = blurY | 0;
/**
* Number of blur iterations. For example, a value of 1 will produce a rough blur. A value of 2 will produce a
* smoother blur, but take twice as long to run.
* @property quality
* @default 1
* @type Number
**/
this.quality = quality | 0;
}
var p = createjs.extend(BlurFilter, createjs.Filter);
// constants:
/**
* Array of multiply values for blur calculations.
* @property MUL_TABLE
* @type Array
* @protected
* @static
**/
BlurFilter.MUL_TABLE = [1,171,205,293,57,373,79,137,241,27,391,357,41,19,283,265,497,469,443,421,25,191,365,349,335,161,155,149,9,278,269,261,505,245,475,231,449,437,213,415,405,395,193,377,369,361,353,345,169,331,325,319,313,307,301,37,145,285,281,69,271,267,263,259,509,501,493,243,479,118,465,459,113,446,55,435,429,423,209,413,51,403,199,393,97,3,379,375,371,367,363,359,355,351,347,43,85,337,333,165,327,323,5,317,157,311,77,305,303,75,297,294,73,289,287,71,141,279,277,275,68,135,67,133,33,262,260,129,511,507,503,499,495,491,61,121,481,477,237,235,467,232,115,457,227,451,7,445,221,439,218,433,215,427,425,211,419,417,207,411,409,203,202,401,399,396,197,49,389,387,385,383,95,189,47,187,93,185,23,183,91,181,45,179,89,177,11,175,87,173,345,343,341,339,337,21,167,83,331,329,327,163,81,323,321,319,159,79,315,313,39,155,309,307,153,305,303,151,75,299,149,37,295,147,73,291,145,289,287,143,285,71,141,281,35,279,139,69,275,137,273,17,271,135,269,267,133,265,33,263,131,261,130,259,129,257,1];
/**
* Array of shift values for blur calculations.
* @property SHG_TABLE
* @type Array
* @protected
* @static
**/
BlurFilter.SHG_TABLE = [0,9,10,11,9,12,10,11,12,9,13,13,10,9,13,13,14,14,14,14,10,13,14,14,14,13,13,13,9,14,14,14,15,14,15,14,15,15,14,15,15,15,14,15,15,15,15,15,14,15,15,15,15,15,15,12,14,15,15,13,15,15,15,15,16,16,16,15,16,14,16,16,14,16,13,16,16,16,15,16,13,16,15,16,14,9,16,16,16,16,16,16,16,16,16,13,14,16,16,15,16,16,10,16,15,16,14,16,16,14,16,16,14,16,16,14,15,16,16,16,14,15,14,15,13,16,16,15,17,17,17,17,17,17,14,15,17,17,16,16,17,16,15,17,16,17,11,17,16,17,16,17,16,17,17,16,17,17,16,17,17,16,16,17,17,17,16,14,17,17,17,17,15,16,14,16,15,16,13,16,15,16,14,16,15,16,12,16,15,16,17,17,17,17,17,13,16,15,17,17,17,16,15,17,17,17,16,15,17,17,14,16,17,17,16,17,17,16,15,17,16,14,17,16,15,17,16,17,17,16,17,15,16,17,14,17,16,15,17,16,17,13,17,16,17,17,16,17,14,17,16,17,16,17,16,17,9];
// public methods:
/** docced in super class **/
p.getBounds = function() {
var q = Math.pow(this.quality, 0.6)*0.5;
return new createjs.Rectangle(-this.blurX*q,-this.blurY*q,2*this.blurX*q,2*this.blurY*q);
};
/** docced in super class **/
p.clone = function() {
return new BlurFilter(this.blurX, this.blurY, this.quality);
};
/** docced in super class **/
p.toString = function() {
return "[BlurFilter]";
};
// private methods:
/** docced in super class **/
p._applyFilter = function(imageData) {
var radiusX = this.blurX/2;
if (isNaN(radiusX) || radiusX < 0 ) { return false; }
radiusX |= 0;
var radiusY = this.blurY/2;
if (isNaN(radiusY) || radiusY < 0 ) { return false; }
radiusY |= 0;
if ( radiusX == 0 && radiusY == 0 ) { return false; }
var iterations = this.quality;
if (isNaN(iterations) || iterations < 1) { iterations = 1; }
iterations |= 0;
if ( iterations > 3 ) { iterations = 3; }
if ( iterations < 1 ) { iterations = 1; }
var pixels = imageData.data, width = imageData.width, height=imageData.height;
// TODO: there are a lot of unused variables in this method:
var x, y, i, p, yp, yi, yw, r_sum, g_sum, b_sum, a_sum, pr, pg, pb, pa;
var divx = radiusX + radiusX + 1;
var divy = radiusY + radiusY + 1;
var widthMinus1 = width - 1;
var heightMinus1 = height - 1;
var rxp1 = radiusX + 1;
var ryp1 = radiusY + 1;
var stackStartX = {r:0,b:0,g:0,a:0,next:null};
var stackx = stackStartX;
for ( i = 1; i < divx; i++ )
{
stackx = stackx.next = {r:0,b:0,g:0,a:0,next:null};
}
stackx.next = stackStartX;
var stackStartY = {r:0,b:0,g:0,a:0,next:null};
var stacky = stackStartY;
for ( i = 1; i < divy; i++ )
{
stacky = stacky.next = {r:0,b:0,g:0,a:0,next:null};
}
stacky.next = stackStartY;
var stackIn = null;
var mul_table = BlurFilter.MUL_TABLE;
var shg_table = BlurFilter.SHG_TABLE;
while ( iterations-- > 0 ) {
yw = yi = 0;
var mul_sum = mul_table[radiusX];
var shg_sum = shg_table[radiusX];
for ( y = height; --y > -1; )
{
r_sum = rxp1 * ( pr = pixels[yi] );
g_sum = rxp1 * ( pg = pixels[yi+1] );
b_sum = rxp1 * ( pb = pixels[yi+2] );
a_sum = rxp1 * ( pa = pixels[yi+3] );
stackx = stackStartX;
for( i = rxp1; --i > -1; )
{
stackx.r = pr;
stackx.g = pg;
stackx.b = pb;
stackx.a = pa;
stackx = stackx.next;
}
for( i = 1; i < rxp1; i++ )
{
p = yi + (( widthMinus1 < i ? widthMinus1 : i ) << 2 );
r_sum += ( stackx.r = pixels[p]);
g_sum += ( stackx.g = pixels[p+1]);
b_sum += ( stackx.b = pixels[p+2]);
a_sum += ( stackx.a = pixels[p+3]);
stackx = stackx.next;
}
stackIn = stackStartX;
for ( x = 0; x < width; x++ )
{
pixels[yi++] = (r_sum * mul_sum) >>> shg_sum;
pixels[yi++] = (g_sum * mul_sum) >>> shg_sum;
pixels[yi++] = (b_sum * mul_sum) >>> shg_sum;
pixels[yi++] = (a_sum * mul_sum) >>> shg_sum;
p = ( yw + ( ( p = x + radiusX + 1 ) < widthMinus1 ? p : widthMinus1 ) ) << 2;
r_sum -= stackIn.r - ( stackIn.r = pixels[p]);
g_sum -= stackIn.g - ( stackIn.g = pixels[p+1]);
b_sum -= stackIn.b - ( stackIn.b = pixels[p+2]);
a_sum -= stackIn.a - ( stackIn.a = pixels[p+3]);
stackIn = stackIn.next;
}
yw += width;
}
mul_sum = mul_table[radiusY];
shg_sum = shg_table[radiusY];
for ( x = 0; x < width; x++ )
{
yi = x << 2;
r_sum = ryp1 * ( pr = pixels[yi]);
g_sum = ryp1 * ( pg = pixels[yi+1]);
b_sum = ryp1 * ( pb = pixels[yi+2]);
a_sum = ryp1 * ( pa = pixels[yi+3]);
stacky = stackStartY;
for( i = 0; i < ryp1; i++ )
{
stacky.r = pr;
stacky.g = pg;
stacky.b = pb;
stacky.a = pa;
stacky = stacky.next;
}
yp = width;
for( i = 1; i <= radiusY; i++ )
{
yi = ( yp + x ) << 2;
r_sum += ( stacky.r = pixels[yi]);
g_sum += ( stacky.g = pixels[yi+1]);
b_sum += ( stacky.b = pixels[yi+2]);
a_sum += ( stacky.a = pixels[yi+3]);
stacky = stacky.next;
if( i < heightMinus1 )
{
yp += width;
}
}
yi = x;
stackIn = stackStartY;
if ( iterations > 0 )
{
for ( y = 0; y < height; y++ )
{
p = yi << 2;
pixels[p+3] = pa =(a_sum * mul_sum) >>> shg_sum;
if ( pa > 0 )
{
pixels[p] = ((r_sum * mul_sum) >>> shg_sum );
pixels[p+1] = ((g_sum * mul_sum) >>> shg_sum );
pixels[p+2] = ((b_sum * mul_sum) >>> shg_sum );
} else {
pixels[p] = pixels[p+1] = pixels[p+2] = 0
}
p = ( x + (( ( p = y + ryp1) < heightMinus1 ? p : heightMinus1 ) * width )) << 2;
r_sum -= stackIn.r - ( stackIn.r = pixels[p]);
g_sum -= stackIn.g - ( stackIn.g = pixels[p+1]);
b_sum -= stackIn.b - ( stackIn.b = pixels[p+2]);
a_sum -= stackIn.a - ( stackIn.a = pixels[p+3]);
stackIn = stackIn.next;
yi += width;
}
} else {
for ( y = 0; y < height; y++ )
{
p = yi << 2;
pixels[p+3] = pa =(a_sum * mul_sum) >>> shg_sum;
if ( pa > 0 )
{
pa = 255 / pa;
pixels[p] = ((r_sum * mul_sum) >>> shg_sum ) * pa;
pixels[p+1] = ((g_sum * mul_sum) >>> shg_sum ) * pa;
pixels[p+2] = ((b_sum * mul_sum) >>> shg_sum ) * pa;
} else {
pixels[p] = pixels[p+1] = pixels[p+2] = 0
}
p = ( x + (( ( p = y + ryp1) < heightMinus1 ? p : heightMinus1 ) * width )) << 2;
r_sum -= stackIn.r - ( stackIn.r = pixels[p]);
g_sum -= stackIn.g - ( stackIn.g = pixels[p+1]);
b_sum -= stackIn.b - ( stackIn.b = pixels[p+2]);
a_sum -= stackIn.a - ( stackIn.a = pixels[p+3]);
stackIn = stackIn.next;
yi += width;
}
}
}
}
return true;
};
createjs.BlurFilter = createjs.promote(BlurFilter, "Filter");
}());
//##############################################################################
// AlphaMapFilter.js
//##############################################################################
this.createjs = this.createjs || {};
(function () {
"use strict";
// constructor:
/**
* Applies a greyscale alpha map image (or canvas) to the target, such that the alpha channel of the result will
* be copied from the red channel of the map, and the RGB channels will be copied from the target.
*
* Generally, it is recommended that you use {{#crossLink "AlphaMaskFilter"}}{{/crossLink}}, because it has much
* better performance.
*
* Example
* This example draws a red->blue box, caches it, and then uses the cache canvas as an alpha map on a 100x100 image.
*
* var box = new createjs.Shape();
* box.graphics.beginLinearGradientFill(["#ff0000", "#0000ff"], [0, 1], 0, 0, 0, 100)
* box.graphics.drawRect(0, 0, 100, 100);
* box.cache(0, 0, 100, 100);
*
* var bmp = new createjs.Bitmap("path/to/image.jpg");
* bmp.filters = [
* new createjs.AlphaMapFilter(box.cacheCanvas)
* ];
* bmp.cache(0, 0, 100, 100);
* stage.addChild(bmp);
*
* See {{#crossLink "Filter"}}{{/crossLink}} for more information on applying filters.
* @class AlphaMapFilter
* @extends Filter
* @constructor
* @param {Image|HTMLCanvasElement} alphaMap The greyscale image (or canvas) to use as the alpha value for the
* result. This should be exactly the same dimensions as the target.
**/
function AlphaMapFilter(alphaMap) {
// public properties:
/**
* The greyscale image (or canvas) to use as the alpha value for the result. This should be exactly the same
* dimensions as the target.
* @property alphaMap
* @type Image|HTMLCanvasElement
**/
this.alphaMap = alphaMap;
// private properties:
/**
* @property _alphaMap
* @protected
* @type Image|HTMLCanvasElement
**/
this._alphaMap = null;
/**
* @property _mapData
* @protected
* @type Uint8ClampedArray
**/
this._mapData = null;
}
var p = createjs.extend(AlphaMapFilter, createjs.Filter);
// public methods:
/** docced in super class **/
p.clone = function () {
var o = new AlphaMapFilter(this.alphaMap);
o._alphaMap = this._alphaMap;
o._mapData = this._mapData;
return o;
};
/** docced in super class **/
p.toString = function () {
return "[AlphaMapFilter]";
};
// private methods:
/** docced in super class **/
p._applyFilter = function (imageData) {
if (!this.alphaMap) { return true; }
if (!this._prepAlphaMap()) { return false; }
// TODO: update to support scenarios where the target has different dimensions.
var data = imageData.data;
var map = this._mapData;
for(var i=0, l=data.length; iIMPORTANT NOTE: This filter currently does not support the targetCtx, or targetX/Y parameters correctly.
*
* Example
* This example draws a gradient box, then caches it and uses the "cacheCanvas" as the alpha mask on a 100x100 image.
*
* var box = new createjs.Shape();
* box.graphics.beginLinearGradientFill(["#000000", "rgba(0, 0, 0, 0)"], [0, 1], 0, 0, 100, 100)
* box.graphics.drawRect(0, 0, 100, 100);
* box.cache(0, 0, 100, 100);
*
* var bmp = new createjs.Bitmap("path/to/image.jpg");
* bmp.filters = [
* new createjs.AlphaMaskFilter(box.cacheCanvas)
* ];
* bmp.cache(0, 0, 100, 100);
*
* See {{#crossLink "Filter"}}{{/crossLink}} for more information on applying filters.
* @class AlphaMaskFilter
* @extends Filter
* @constructor
* @param {Image} mask
**/
function AlphaMaskFilter(mask) {
// public properties:
/**
* The image (or canvas) to use as the mask.
* @property mask
* @type Image
**/
this.mask = mask;
}
var p = createjs.extend(AlphaMaskFilter, createjs.Filter);
// public methods:
/**
* Applies the filter to the specified context.
*
* IMPORTANT NOTE: This filter currently does not support the targetCtx, or targetX/Y parameters
* correctly.
* @method applyFilter
* @param {CanvasRenderingContext2D} ctx The 2D context to use as the source.
* @param {Number} x The x position to use for the source rect.
* @param {Number} y The y position to use for the source rect.
* @param {Number} width The width to use for the source rect.
* @param {Number} height The height to use for the source rect.
* @param {CanvasRenderingContext2D} [targetCtx] NOT SUPPORTED IN THIS FILTER. The 2D context to draw the result to. Defaults to the context passed to ctx.
* @param {Number} [targetX] NOT SUPPORTED IN THIS FILTER. The x position to draw the result to. Defaults to the value passed to x.
* @param {Number} [targetY] NOT SUPPORTED IN THIS FILTER. The y position to draw the result to. Defaults to the value passed to y.
* @return {Boolean} If the filter was applied successfully.
**/
p.applyFilter = function (ctx, x, y, width, height, targetCtx, targetX, targetY) {
if (!this.mask) { return true; }
targetCtx = targetCtx || ctx;
if (targetX == null) { targetX = x; }
if (targetY == null) { targetY = y; }
targetCtx.save();
if (ctx != targetCtx) {
// TODO: support targetCtx and targetX/Y
// clearRect, then draw the ctx in?
return false;
}
targetCtx.globalCompositeOperation = "destination-in";
targetCtx.drawImage(this.mask, targetX, targetY);
targetCtx.restore();
return true;
};
/** docced in super class **/
p.clone = function () {
return new AlphaMaskFilter(this.mask);
};
/** docced in super class **/
p.toString = function () {
return "[AlphaMaskFilter]";
};
createjs.AlphaMaskFilter = createjs.promote(AlphaMaskFilter, "Filter");
}());
//##############################################################################
// ColorFilter.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Applies a color transform to DisplayObjects.
*
* Example
* This example draws a red circle, and then transforms it to Blue. This is accomplished by multiplying all the channels
* to 0 (except alpha, which is set to 1), and then adding 255 to the blue channel.
*
* var shape = new createjs.Shape().set({x:100,y:100});
* shape.graphics.beginFill("#ff0000").drawCircle(0,0,50);
*
* shape.filters = [
* new createjs.ColorFilter(0,0,0,1, 0,0,255,0)
* ];
* shape.cache(-50, -50, 100, 100);
*
* See {{#crossLink "Filter"}}{{/crossLink}} for an more information on applying filters.
* @class ColorFilter
* @param {Number} [redMultiplier=1] The amount to multiply against the red channel. This is a range between 0 and 1.
* @param {Number} [greenMultiplier=1] The amount to multiply against the green channel. This is a range between 0 and 1.
* @param {Number} [blueMultiplier=1] The amount to multiply against the blue channel. This is a range between 0 and 1.
* @param {Number} [alphaMultiplier=1] The amount to multiply against the alpha channel. This is a range between 0 and 1.
* @param {Number} [redOffset=0] The amount to add to the red channel after it has been multiplied. This is a range
* between -255 and 255.
* @param {Number} [greenOffset=0] The amount to add to the green channel after it has been multiplied. This is a range
* between -255 and 255.
* @param {Number} [blueOffset=0] The amount to add to the blue channel after it has been multiplied. This is a range
* between -255 and 255.
* @param {Number} [alphaOffset=0] The amount to add to the alpha channel after it has been multiplied. This is a range
* between -255 and 255.
* @constructor
* @extends Filter
**/
function ColorFilter(redMultiplier, greenMultiplier, blueMultiplier, alphaMultiplier, redOffset, greenOffset, blueOffset, alphaOffset) {
// public properties:
/**
* Red channel multiplier.
* @property redMultiplier
* @type Number
**/
this.redMultiplier = redMultiplier != null ? redMultiplier : 1;
/**
* Green channel multiplier.
* @property greenMultiplier
* @type Number
**/
this.greenMultiplier = greenMultiplier != null ? greenMultiplier : 1;
/**
* Blue channel multiplier.
* @property blueMultiplier
* @type Number
**/
this.blueMultiplier = blueMultiplier != null ? blueMultiplier : 1;
/**
* Alpha channel multiplier.
* @property alphaMultiplier
* @type Number
**/
this.alphaMultiplier = alphaMultiplier != null ? alphaMultiplier : 1;
/**
* Red channel offset (added to value).
* @property redOffset
* @type Number
**/
this.redOffset = redOffset || 0;
/**
* Green channel offset (added to value).
* @property greenOffset
* @type Number
**/
this.greenOffset = greenOffset || 0;
/**
* Blue channel offset (added to value).
* @property blueOffset
* @type Number
**/
this.blueOffset = blueOffset || 0;
/**
* Alpha channel offset (added to value).
* @property alphaOffset
* @type Number
**/
this.alphaOffset = alphaOffset || 0;
}
var p = createjs.extend(ColorFilter, createjs.Filter);
// public methods:
/** docced in super class **/
p.toString = function() {
return "[ColorFilter]";
};
/** docced in super class **/
p.clone = function() {
return new ColorFilter(this.redMultiplier, this.greenMultiplier, this.blueMultiplier, this.alphaMultiplier, this.redOffset, this.greenOffset, this.blueOffset, this.alphaOffset);
};
// private methods:
/** docced in super class **/
p._applyFilter = function(imageData) {
var data = imageData.data;
var l = data.length;
for (var i=0; iExample
*
* myColorMatrix.adjustHue(20).adjustBrightness(50);
*
* See {{#crossLink "Filter"}}{{/crossLink}} for an example of how to apply filters, or {{#crossLink "ColorMatrixFilter"}}{{/crossLink}}
* for an example of how to use ColorMatrix to change a DisplayObject's color.
* @class ColorMatrix
* @param {Number} brightness
* @param {Number} contrast
* @param {Number} saturation
* @param {Number} hue
* @constructor
**/
function ColorMatrix(brightness, contrast, saturation, hue) {
this.setColor(brightness, contrast, saturation, hue);
}
var p = ColorMatrix.prototype;
// constants:
/**
* Array of delta values for contrast calculations.
* @property DELTA_INDEX
* @type Array
* @protected
* @static
**/
ColorMatrix.DELTA_INDEX = [
0, 0.01, 0.02, 0.04, 0.05, 0.06, 0.07, 0.08, 0.1, 0.11,
0.12, 0.14, 0.15, 0.16, 0.17, 0.18, 0.20, 0.21, 0.22, 0.24,
0.25, 0.27, 0.28, 0.30, 0.32, 0.34, 0.36, 0.38, 0.40, 0.42,
0.44, 0.46, 0.48, 0.5, 0.53, 0.56, 0.59, 0.62, 0.65, 0.68,
0.71, 0.74, 0.77, 0.80, 0.83, 0.86, 0.89, 0.92, 0.95, 0.98,
1.0, 1.06, 1.12, 1.18, 1.24, 1.30, 1.36, 1.42, 1.48, 1.54,
1.60, 1.66, 1.72, 1.78, 1.84, 1.90, 1.96, 2.0, 2.12, 2.25,
2.37, 2.50, 2.62, 2.75, 2.87, 3.0, 3.2, 3.4, 3.6, 3.8,
4.0, 4.3, 4.7, 4.9, 5.0, 5.5, 6.0, 6.5, 6.8, 7.0,
7.3, 7.5, 7.8, 8.0, 8.4, 8.7, 9.0, 9.4, 9.6, 9.8,
10.0
];
/**
* Identity matrix values.
* @property IDENTITY_MATRIX
* @type Array
* @protected
* @static
**/
ColorMatrix.IDENTITY_MATRIX = [
1,0,0,0,0,
0,1,0,0,0,
0,0,1,0,0,
0,0,0,1,0,
0,0,0,0,1
];
/**
* The constant length of a color matrix.
* @property LENGTH
* @type Number
* @protected
* @static
**/
ColorMatrix.LENGTH = ColorMatrix.IDENTITY_MATRIX.length;
// public methods:
/**
* Resets the instance with the specified values.
* @method setColor
* @param {Number} brightness
* @param {Number} contrast
* @param {Number} saturation
* @param {Number} hue
* @protected
*/
p.setColor = function(brightness,contrast,saturation,hue) {
return this.reset().adjustColor(brightness,contrast,saturation,hue);;
};
/**
* Resets the matrix to identity values.
* @method reset
* @return {ColorMatrix} The ColorMatrix instance the method is called on (useful for chaining calls.)
*/
p.reset = function() {
return this.copyMatrix(ColorMatrix.IDENTITY_MATRIX);
};
/**
* Shortcut method to adjust brightness, contrast, saturation and hue.
* Equivalent to calling adjustHue(hue), adjustContrast(contrast),
* adjustBrightness(brightness), adjustSaturation(saturation), in that order.
* @method adjustColor
* @param {Number} brightness
* @param {Number} contrast
* @param {Number} saturation
* @param {Number} hue
* @return {ColorMatrix} The ColorMatrix instance the method is called on (useful for chaining calls.)
**/
p.adjustColor = function(brightness,contrast,saturation,hue) {
this.adjustHue(hue);
this.adjustContrast(contrast);
this.adjustBrightness(brightness);
return this.adjustSaturation(saturation);
};
/**
* Adjusts the brightness of pixel color by adding the specified value to the red, green and blue channels.
* Positive values will make the image brighter, negative values will make it darker.
* @method adjustBrightness
* @param {Number} value A value between -255 & 255 that will be added to the RGB channels.
* @return {ColorMatrix} The ColorMatrix instance the method is called on (useful for chaining calls.)
**/
p.adjustBrightness = function(value) {
if (value == 0 || isNaN(value)) { return this; }
value = this._cleanValue(value,255);
this._multiplyMatrix([
1,0,0,0,value,
0,1,0,0,value,
0,0,1,0,value,
0,0,0,1,0,
0,0,0,0,1
]);
return this;
};
/**
* Adjusts the contrast of pixel color.
* Positive values will increase contrast, negative values will decrease contrast.
* @method adjustContrast
* @param {Number} value A value between -100 & 100.
* @return {ColorMatrix} The ColorMatrix instance the method is called on (useful for chaining calls.)
**/
p.adjustContrast = function(value) {
if (value == 0 || isNaN(value)) { return this; }
value = this._cleanValue(value,100);
var x;
if (value<0) {
x = 127+value/100*127;
} else {
x = value%1;
if (x == 0) {
x = ColorMatrix.DELTA_INDEX[value];
} else {
x = ColorMatrix.DELTA_INDEX[(value<<0)]*(1-x)+ColorMatrix.DELTA_INDEX[(value<<0)+1]*x; // use linear interpolation for more granularity.
}
x = x*127+127;
}
this._multiplyMatrix([
x/127,0,0,0,0.5*(127-x),
0,x/127,0,0,0.5*(127-x),
0,0,x/127,0,0.5*(127-x),
0,0,0,1,0,
0,0,0,0,1
]);
return this;
};
/**
* Adjusts the color saturation of the pixel.
* Positive values will increase saturation, negative values will decrease saturation (trend towards greyscale).
* @method adjustSaturation
* @param {Number} value A value between -100 & 100.
* @return {ColorMatrix} The ColorMatrix instance the method is called on (useful for chaining calls.)
**/
p.adjustSaturation = function(value) {
if (value == 0 || isNaN(value)) { return this; }
value = this._cleanValue(value,100);
var x = 1+((value > 0) ? 3*value/100 : value/100);
var lumR = 0.3086;
var lumG = 0.6094;
var lumB = 0.0820;
this._multiplyMatrix([
lumR*(1-x)+x,lumG*(1-x),lumB*(1-x),0,0,
lumR*(1-x),lumG*(1-x)+x,lumB*(1-x),0,0,
lumR*(1-x),lumG*(1-x),lumB*(1-x)+x,0,0,
0,0,0,1,0,
0,0,0,0,1
]);
return this;
};
/**
* Adjusts the hue of the pixel color.
* @method adjustHue
* @param {Number} value A value between -180 & 180.
* @return {ColorMatrix} The ColorMatrix instance the method is called on (useful for chaining calls.)
**/
p.adjustHue = function(value) {
if (value == 0 || isNaN(value)) { return this; }
value = this._cleanValue(value,180)/180*Math.PI;
var cosVal = Math.cos(value);
var sinVal = Math.sin(value);
var lumR = 0.213;
var lumG = 0.715;
var lumB = 0.072;
this._multiplyMatrix([
lumR+cosVal*(1-lumR)+sinVal*(-lumR),lumG+cosVal*(-lumG)+sinVal*(-lumG),lumB+cosVal*(-lumB)+sinVal*(1-lumB),0,0,
lumR+cosVal*(-lumR)+sinVal*(0.143),lumG+cosVal*(1-lumG)+sinVal*(0.140),lumB+cosVal*(-lumB)+sinVal*(-0.283),0,0,
lumR+cosVal*(-lumR)+sinVal*(-(1-lumR)),lumG+cosVal*(-lumG)+sinVal*(lumG),lumB+cosVal*(1-lumB)+sinVal*(lumB),0,0,
0,0,0,1,0,
0,0,0,0,1
]);
return this;
};
/**
* Concatenates (multiplies) the specified matrix with this one.
* @method concat
* @param {Array} matrix An array or ColorMatrix instance.
* @return {ColorMatrix} The ColorMatrix instance the method is called on (useful for chaining calls.)
**/
p.concat = function(matrix) {
matrix = this._fixMatrix(matrix);
if (matrix.length != ColorMatrix.LENGTH) { return this; }
this._multiplyMatrix(matrix);
return this;
};
/**
* Returns a clone of this ColorMatrix.
* @method clone
* @return {ColorMatrix} A clone of this ColorMatrix.
**/
p.clone = function() {
return (new ColorMatrix()).copyMatrix(this);
};
/**
* Return a length 25 (5x5) array instance containing this matrix's values.
* @method toArray
* @return {Array} An array holding this matrix's values.
**/
p.toArray = function() {
var arr = [];
for (var i= 0, l=ColorMatrix.LENGTH; i ColorMatrix.LENGTH) {
matrix = matrix.slice(0,ColorMatrix.LENGTH);
}
return matrix;
};
createjs.ColorMatrix = ColorMatrix;
}());
//##############################################################################
// ColorMatrixFilter.js
//##############################################################################
this.createjs = this.createjs||{};
(function() {
"use strict";
// constructor:
/**
* Allows you to carry out complex color operations such as modifying saturation, brightness, or inverting. See the
* {{#crossLink "ColorMatrix"}}{{/crossLink}} for more information on changing colors. For an easier color transform,
* consider the {{#crossLink "ColorFilter"}}{{/crossLink}}.
*
* Example
* This example creates a red circle, inverts its hue, and then saturates it to brighten it up.
*
* var shape = new createjs.Shape().set({x:100,y:100});
* shape.graphics.beginFill("#ff0000").drawCircle(0,0,50);
*
* var matrix = new createjs.ColorMatrix().adjustHue(180).adjustSaturation(100);
* shape.filters = [
* new createjs.ColorMatrixFilter(matrix)
* ];
*
* shape.cache(-50, -50, 100, 100);
*
* See {{#crossLink "Filter"}}{{/crossLink}} for an more information on applying filters.
* @class ColorMatrixFilter
* @constructor
* @extends Filter
* @param {Array | ColorMatrix} matrix A 4x5 matrix describing the color operation to perform. See also the {{#crossLink "ColorMatrix"}}{{/crossLink}}
* class.
**/
function ColorMatrixFilter(matrix) {
// public properties:
/**
* A 4x5 matrix describing the color operation to perform. See also the {{#crossLink "ColorMatrix"}}{{/crossLink}}
* @property matrix
* @type Array | ColorMatrix
**/
this.matrix = matrix;
}
var p = createjs.extend(ColorMatrixFilter, createjs.Filter);
// public methods:
/** docced in super class **/
p.toString = function() {
return "[ColorMatrixFilter]";
};
/** docced in super class **/
p.clone = function() {
return new ColorMatrixFilter(this.matrix);
};
// private methods:
/** docced in super class **/
p._applyFilter = function(imageData) {
var data = imageData.data;
var l = data.length;
var r,g,b,a;
var mtx = this.matrix;
var m0 = mtx[0], m1 = mtx[1], m2 = mtx[2], m3 = mtx[3], m4 = mtx[4];
var m5 = mtx[5], m6 = mtx[6], m7 = mtx[7], m8 = mtx[8], m9 = mtx[9];
var m10 = mtx[10], m11 = mtx[11], m12 = mtx[12], m13 = mtx[13], m14 = mtx[14];
var m15 = mtx[15], m16 = mtx[16], m17 = mtx[17], m18 = mtx[18], m19 = mtx[19];
for (var i=0; iExample
*
* var stage = new createjs.Stage("canvasId");
* createjs.Touch.enable(stage);
*
* Note: It is important to disable Touch on a stage that you are no longer using:
*
* createjs.Touch.disable(stage);
*
* @class Touch
* @static
**/
function Touch() {
throw "Touch cannot be instantiated";
}
// public static methods:
/**
* Returns `true` if touch is supported in the current browser.
* @method isSupported
* @return {Boolean} Indicates whether touch is supported in the current browser.
* @static
**/
Touch.isSupported = function() {
return !!(('ontouchstart' in window) // iOS & Android
|| (window.navigator['msPointerEnabled'] && window.navigator['msMaxTouchPoints'] > 0) // IE10
|| (window.navigator['pointerEnabled'] && window.navigator['maxTouchPoints'] > 0)); // IE11+
};
/**
* Enables touch interaction for the specified EaselJS {{#crossLink "Stage"}}{{/crossLink}}. Currently supports iOS
* (and compatible browsers, such as modern Android browsers), and IE10/11. Supports both single touch and
* multi-touch modes. Extends the EaselJS {{#crossLink "MouseEvent"}}{{/crossLink}} model, but without support for
* double click or over/out events. See the MouseEvent {{#crossLink "MouseEvent/pointerId:property"}}{{/crossLink}}
* for more information.
* @method enable
* @param {Stage} stage The {{#crossLink "Stage"}}{{/crossLink}} to enable touch on.
* @param {Boolean} [singleTouch=false] If `true`, only a single touch will be active at a time.
* @param {Boolean} [allowDefault=false] If `true`, then default gesture actions (ex. scrolling, zooming) will be
* allowed when the user is interacting with the target canvas.
* @return {Boolean} Returns `true` if touch was successfully enabled on the target stage.
* @static
**/
Touch.enable = function(stage, singleTouch, allowDefault) {
if (!stage || !stage.canvas || !Touch.isSupported()) { return false; }
if (stage.__touch) { return true; }
// inject required properties on stage:
stage.__touch = {pointers:{}, multitouch:!singleTouch, preventDefault:!allowDefault, count:0};
// note that in the future we may need to disable the standard mouse event model before adding
// these to prevent duplicate calls. It doesn't seem to be an issue with iOS devices though.
if ('ontouchstart' in window) { Touch._IOS_enable(stage); }
else if (window.navigator['msPointerEnabled'] || window.navigator["pointerEnabled"]) { Touch._IE_enable(stage); }
return true;
};
/**
* Removes all listeners that were set up when calling `Touch.enable()` on a stage.
* @method disable
* @param {Stage} stage The {{#crossLink "Stage"}}{{/crossLink}} to disable touch on.
* @static
**/
Touch.disable = function(stage) {
if (!stage) { return; }
if ('ontouchstart' in window) { Touch._IOS_disable(stage); }
else if (window.navigator['msPointerEnabled'] || window.navigator["pointerEnabled"]) { Touch._IE_disable(stage); }
delete stage.__touch;
};
// Private static methods:
/**
* @method _IOS_enable
* @protected
* @param {Stage} stage
* @static
**/
Touch._IOS_enable = function(stage) {
var canvas = stage.canvas;
var f = stage.__touch.f = function(e) { Touch._IOS_handleEvent(stage,e); };
canvas.addEventListener("touchstart", f, false);
canvas.addEventListener("touchmove", f, false);
canvas.addEventListener("touchend", f, false);
canvas.addEventListener("touchcancel", f, false);
};
/**
* @method _IOS_disable
* @protected
* @param {Stage} stage
* @static
**/
Touch._IOS_disable = function(stage) {
var canvas = stage.canvas;
if (!canvas) { return; }
var f = stage.__touch.f;
canvas.removeEventListener("touchstart", f, false);
canvas.removeEventListener("touchmove", f, false);
canvas.removeEventListener("touchend", f, false);
canvas.removeEventListener("touchcancel", f, false);
};
/**
* @method _IOS_handleEvent
* @param {Stage} stage
* @param {Object} e The event to handle
* @protected
* @static
**/
Touch._IOS_handleEvent = function(stage, e) {
if (!stage) { return; }
if (stage.__touch.preventDefault) { e.preventDefault&&e.preventDefault(); }
var touches = e.changedTouches;
var type = e.type;
for (var i= 0,l=touches.length; i