/* This file contains proprietary software owned by Motorola Mobility, Inc.
No rights, expressed or implied, whatsoever to this software are provided by Motorola Mobility, Inc. hereunder.
(c) Copyright 2011 Motorola Mobility, Inc. All Rights Reserved. */ /*global require,exports */ /** @module montage/ui/composer/translate-composer @requires montage/core/core @requires montage/ui/composer/composer */ var Montage = require("montage").Montage, Composer = require("ui/composer/composer").Composer, defaultEventManager = require("core/event/event-manager").defaultEventManager; /** Provides translateX and translateY properties that are updated when the user clicks/touches and drags on the given element. Should be used wherever a user interacts with an element by dragging it. @class module:montage/ui/composer/translate-composer.TranslateComposer @extends module:montage/ui/composer/composer.Composer */ var TranslateComposer = exports.TranslateComposer = Montage.create(Composer,/** @lends module:montage/ui/composer/translate-composer.TranslateComposer# */ { /** These elements perform some native action when clicked/touched and so we should not preventDefault when a mousedown/touchstart happens on them. @private */ _NATIVE_ELEMENTS: { value: ["A", "IFRAME", "EMBED", "OBJECT", "VIDEO", "AUDIO", "CANVAS", "LABEL", "INPUT", "BUTTON", "SELECT", "TEXTAREA", "KEYGEN", "DETAILS", "COMMAND" ] }, _WHEEL_POINTER: { value: "wheel", writable: false }, _externalUpdate: { value: true }, isAnimating: { value: false }, frame: { value: function(timestamp) { if (this.isAnimating) { this._animationInterval(); } this._externalUpdate = false; } }, _pointerSpeedMultiplier: { value: 1 }, /** How many pixels to translate by for each pixel of cursor movement. @type {Number} @default 1 */ pointerSpeedMultiplier: { get: function() { return this._pointerSpeedMultiplier; }, set: function(value) { this._pointerSpeedMultiplier = value; }, serializable: true }, pointerStartEventPosition: { value: null }, _shouldDispatchTranslate: { value: false, enumerable: false }, _isSelfUpdate: { enumerable: false, value: false }, _allowFloats: { enumerable: false, value: false }, /** Allow (@link translateX} and {@link translateY} to be floats. @type {Boolean} @default false */ allowFloats: { get: function() { return this._allowFloats; }, set: function(value) { if (this._allowFloats !== value) { this._allowFloats = value; this.translateX = this._translateX; this.translateY = this._translateY; } }, serializable: true }, _translateX: { value: 0 }, /** Amount of translation in the X (left/right) direction. Can be inverted with {@link invertXAxis}, and restricted to a range with {@link minTranslateX} and {@link maxTranslateX}. @type {Number} @default 0 */ translateX: { get: function() { return this._translateX; }, set: function(value) { if (this._axis === "vertical") { this._translateX = this._minTranslateX || 0; } else { var tmp = isNaN(value) ? 0 : this._allowFloats ? parseFloat(value) : value >> 0; if (this._minTranslateX !== null && tmp < this._minTranslateX) { tmp = this._minTranslateX; } if (this._maxTranslateX !== null && tmp > this._maxTranslateX) { tmp = this._maxTranslateX; } if (!this._isSelfUpdate) { this.isAnimating = false; } this._translateX = tmp; } }, serializable: true }, _translateY: { value: 0 }, /** Amount of translation in the Y (up/down) direction. Can be inverted with {@link invertYAxis}, and restricted to a range with {@link minTranslateY} and {@link maxTranslateY}. @type {Number} @default 0 */ translateY: { get: function() { return this._translateY; }, set: function(value) { if (this._axis === "horizontal") { this._translateY = this._minTranslateY || 0; } else { var tmp = isNaN(value) ? 0 : this._allowFloats ? parseFloat(value) : value >> 0; if (this._minTranslateY !== null && tmp < this._minTranslateY) { tmp = this._minTranslateY; } if (this._maxTranslateY !== null && tmp > this._maxTranslateY) { tmp = this._maxTranslateY; } if (!this._isSelfUpdate) { this.isAnimating = false; } this._translateY = tmp; } }, serializable: true }, _minTranslateX: { value: null }, /** The minimum value {@link translateX} can take. If set to null then there is no minimum. @type {number|null} @default null */ minTranslateX: { get: function() { return this._minTranslateX; }, set: function(value) { if (value !== null) { value = parseFloat(value); } if (this._minTranslateX != value) { if (value !== null && this._translateX < value) { this.translateX = value; } this._minTranslateX = value; } }, serializable: true }, _maxTranslateX: { value: null }, /** The maximum value {@link translateX} can take. If set to null then there is no maximum. @type {number|null} @default null */ maxTranslateX: { get: function() { return this._maxTranslateX; }, set: function(value) { if (value !== null) { value = parseFloat(value); } if (this._maxTranslateX != value) { if (value !== null && this._translateX > value) { this.translateX = value; } this._maxTranslateX = value; } }, serializable: true }, _minTranslateY: { value: null }, /** The minimum value {@link translateY} can take. If set to null then there is no minimum. @type {number|null} @default null */ minTranslateY: { get: function() { return this._minTranslateY; }, set: function(value) { if (value !== null) { value = parseFloat(value); } if (this._minTranslateY != value) { if (value !== null && this._translateY < value) { this.translateY = value; } this._minTranslateY = value; } }, serializable: true }, _maxTranslateY: { value: null }, /** The maximum value {@link translateY} can take. If set to null then there is no maximum. @type {number|null} @default null */ maxTranslateY: { get: function() { return this._maxTranslateY; }, set: function(value) { if (value !== null) { value = parseFloat(value); } if (this._maxTranslateY != value) { if (value !== null && this._translateY > value) { this.translateY = value; } this._maxTranslateY = value; } }, serializable: true }, _axis: { value: "both" }, /** Which axis translation is restricted to. Can be "vertical", "horizontal" or "both". @type {String} @default "both" */ axis: { get: function() { return this._axis; }, set: function(value) { switch (value) { case "vertical": case "horizontal": this._axis = value; this.translateX = this._translateX; this.translateY = this._translateY; break; default: this._axis = "both"; break; } }, serializable: true }, /** Invert direction of translation on both axes. This inverts the effect of cursor motion on both axes. For example if set to true moving the mouse up will increase the value of translateY instead of decreasing it. Depends on invertXAxis and invertYAxis. @type {Boolean} @default false */ invertAxis: { depends: ["invertXAxis", "invertYAxis"], get: function() { return (this._invertXAxis === this._invertYAxis) ? this._invertXAxis : null; }, set: function(value) { this.invertXAxis = value; this.invertYAxis = value; }, serializable: true }, _invertXAxis: { value: false }, /** Invert direction of translation along the X axis. This inverts the effect of left/right cursor motion on translateX. @type {Boolean} @default false */ invertXAxis: { get: function() { return this._invertXAxis; }, set: function(value) { this._invertXAxis = !!value; }, serializable: true }, _invertYAxis: { value: false }, /** Invert direction of translation along the Y axis. This inverts the effect of up/down cursor motion on translateX. @type {Boolean} @default false */ invertYAxis: { get: function() { return this._invertYAxis; }, set: function(value) { this._invertYAxis = !!value; }, serializable: true }, /** How fast the cursor has to be moving before translating starts. Only applied when another component has claimed the pointer. @type {Number} @default 500 */ startTranslateSpeed: { value: 500, serializable: true }, startTranslateRadius: { value: 8, serializable: true }, _hasMomentum: { value: true }, /** Whether to keep translating after the user has releases the cursor. @type {Boolean} @default true */ hasMomentum: { get: function() { return this._hasMomentum; }, set: function(value) { this._hasMomentum = value ? true : false; }, serializable: true }, __momentumDuration: { value: 650 }, _momentumDuration: { get: function() { return this.__momentumDuration; }, set: function(value) { this.__momentumDuration = isNaN(value) ? 1 : value >> 0; if (this.__momentumDuration < 1) { this.__momentumDuration = 1; } } }, _pointerX: { value: null }, _pointerY: { value: null }, _touchIdentifier: { value: null }, _isFirstMove: { value: false }, _start: { value: function(x, y, target) { this.pointerStartEventPosition = { pageX: x, pageY: y, target: target }; this._pointerX = x; this._pointerY = y; if (window.Touch) { document.addEventListener("touchend", this, true); document.addEventListener("touchmove", this, true); } else { document.addEventListener("mouseup", this, true); document.addEventListener("mousemove", this, true); } this.isAnimating = false; this._isFirstMove = true; } }, _observedPointer: { value: null }, /** Returns if we should preventDefault on a touchstart/mousedown event. @param {Event} The event @returns {Boolean} Whether preventDefault should be called @private */ _shouldPreventDefault: { value: function(event) { return !!event.target.tagName && TranslateComposer._NATIVE_ELEMENTS.indexOf(event.target.tagName) === -1 && !event.target.isContentEditable; } }, captureMousedown: { value: function(event) { if (event.button !== 0) { return; } if (this._shouldPreventDefault(event)) { event.preventDefault(); } // Register some interest in the mouse pointer internally, we may end up claiming it but let's see if // anybody else cares first this._observedPointer = "mouse"; this._start(event.clientX, event.clientY, event.target); } }, /** Handle the mousedown that bubbled back up from beneath the element If nobody else claimed this pointer, we should handle it now @function @param {Event} event TODO @private */ handleMousedown: { value: function(event) { if (event.button === 0 && !this.eventManager.componentClaimingPointer(this._observedPointer)) { this.eventManager.claimPointer(this._observedPointer, this); this._start(event.clientX, event.clientY, event.target); } } }, captureMousemove: { value: function(event) { if (this.eventManager.isPointerClaimedByComponent(this._observedPointer, this)) { event.preventDefault(); this._move(event.clientX, event.clientY); } else { if (this.axis !== "both") { this._analyzeMovement(event); } else { this._stealPointer(); event.preventDefault(); this._move(event.clientX, event.clientY); } } } }, captureMouseup: { value: function(event) { this._end(event); } }, _releaseInterest: { // unload?? value: function() { if (window.Touch) { document.removeEventListener("touchend", this, true); document.removeEventListener("touchmove", this, true); } else { document.removeEventListener("mouseup", this, true); document.removeEventListener("mousemove", this, true); } if (this.eventManager.isPointerClaimedByComponent(this._observedPointer, this)) { this.eventManager.forfeitPointer(this._observedPointer, this); } this._observedPointer = null; } }, captureTouchstart: { value: function(event) { if (this._shouldPreventDefault(event)) { event.preventDefault(); } // If already scrolling, ignore any new touchstarts if (this._observedPointer !== null && this.eventManager.isPointerClaimedByComponent(this._observedPointer, this)) { return; } if (event.targetTouches.length === 1) { this._observedPointer = event.targetTouches[0].identifier; this._start(event.targetTouches[0].clientX, event.targetTouches[0].clientY, event.targetTouches[0].target); } } }, handleTouchstart: { value: function(event) { if (!this.eventManager.componentClaimingPointer(this._observedPointer)) { if (event.targetTouches.length === 1) { if (this._shouldPreventDefault(event)) { event.preventDefault(); } this.eventManager.claimPointer(this._observedPointer, this); this._start(event.targetTouches[0].clientX, event.targetTouches[0].clientY, event.targetTouches[0].target); } } } }, captureTouchmove: { value: function(event) { var i = 0, len = event.changedTouches.length; while (i < len && event.changedTouches[i].identifier !== this._observedPointer) { i++; } if (i < len) { if (this.eventManager.isPointerClaimedByComponent(this._observedPointer, this)) { event.preventDefault(); this._move(event.changedTouches[i].clientX, event.changedTouches[i].clientY); } else { this._analyzeMovement(event.changedTouches[i]); } } } }, captureTouchend: { value: function(event) { var i = 0, len = event.changedTouches.length; while (i < len && !this.eventManager.isPointerClaimedByComponent(event.changedTouches[i].identifier, this)) { i++; } if (i < len) { this._end(event.changedTouches[i]); } } }, _analyzeMovement: { value: function(event) { var velocity = event.velocity; if (!velocity) { return; } var lowerRight = 0.7853981633974483, // pi/4 lowerLeft = 2.356194490192345, // 3pi/4 upperLeft = -2.356194490192345, // 5pi/4 upperRight = -0.7853981633974483, // 7pi/4 isUp, isDown, isRight, isLeft, angle, speed, dX, dY; speed = velocity.speed; if (0 === velocity.speed || isNaN(velocity.speed)) { // If there's no speed there's not much we can infer about direction; stop return; } angle = velocity.angle; // The motion is with the grain of the element; we may want to see if we should claim the pointer if ("horizontal" === this.axis) { isRight = (angle <= lowerRight && angle >= upperRight); isLeft = (angle >= lowerLeft || angle <= upperLeft); if (isRight || isLeft) { this._stealPointer(); } } else if ("vertical" === this.axis) { isUp = (angle <= upperRight && angle >= upperLeft); isDown = (angle >= lowerRight && angle <= lowerLeft); if (isUp || isDown) { this._stealPointer(); } } else if (speed >= this.startTranslateSpeed) { this._stealPointer(); } else { dX = this.pointerStartEventPosition.pageX - event.pageX; dY = this.pointerStartEventPosition.pageY - event.pageY; if (dX * dX + dY * dY > this.startTranslateRadius * this.startTranslateRadius) { this._stealPointer(); } } } }, _stealPointer: { value: function() { this.eventManager.claimPointer(this._observedPointer, this); } }, _translateEndTimeout: { value: null }, captureMousewheel: { value: function(event) { if (!this.eventManager.componentClaimingPointer(this._WHEEL_POINTER)) { this.eventManager.claimPointer(this._WHEEL_POINTER, this.component); } } }, handleMousewheel: { value: function(event) { var self = this; // If this composers' component is claiming the "wheel" pointer then handle the event if (this.eventManager.isPointerClaimedByComponent(this._WHEEL_POINTER, this.component)) { var oldTranslateY = this._translateY; this._dispatchTranslateStart(); this.translateY = this._translateY - ((event.wheelDeltaY * 20) / 120); this._dispatchTranslate(); window.clearTimeout(this._translateEndTimeout); this._translateEndTimeout = window.setTimeout(function() { self._dispatchTranslateEnd(); }, 400); // If we're not at one of the extremes (i.e. the scroll actually // changed the translate) then we want to preventDefault to stop // the page scrolling. if (oldTranslateY !== this._translateY && this._shouldPreventDefault(event)) { event.preventDefault(); } this.eventManager.forfeitPointer(this._WHEEL_POINTER, this.component); } } }, _move: { value: function(x, y) { var pointerDelta; if (this._isFirstMove) { this._dispatchTranslateStart(this._translateX, this._translateY); this._isFirstMove = false; } this._isSelfUpdate = true; if (this._axis != "vertical") { pointerDelta = this._invertXAxis ? (this._pointerX - x) : (x - this._pointerX); this.translateX += pointerDelta * this._pointerSpeedMultiplier; } if (this._axis != "horizontal") { pointerDelta = this._invertYAxis ? (this._pointerY - y) : (y - this._pointerY); this.translateY += pointerDelta * this._pointerSpeedMultiplier; } this._isSelfUpdate = false; this._pointerX = x; this._pointerY = y; if (this._shouldDispatchTranslate) { this._dispatchTranslate(); } } }, _bezierTValue: { value: function(x, p1x, p1y, p2x, p2y) { var a = 1 - 3 * p2x + 3 * p1x, b = 3 * p2x - 6 * p1x, c = 3 * p1x, t = 0.5, der, i, k, tmp; for (i = 0; i < 10; i++) { tmp = t * t; der = 3 * a * tmp + 2 * b * t + c; k = 1 - t; t -= ((3 * (k * k * t * p1x + k * tmp * p2x) + tmp * t - x) / der); // der==0 } tmp = t * t; k = 1 - t; return 3 * (k * k * t * p1y + k * tmp * p2y) + tmp * t; } }, _dispatchTranslateStart: { value: function(x, y) { var translateStartEvent = document.createEvent("CustomEvent"); translateStartEvent.initCustomEvent("translateStart", true, true, null); translateStartEvent.translateX = x; translateStartEvent.translateY = y; this.dispatchEvent(translateStartEvent); } }, _dispatchTranslateEnd: { value: function() { var translateEndEvent = document.createEvent("CustomEvent"); translateEndEvent.initCustomEvent("translateEnd", true, true, null); translateEndEvent.translateX = this._translateX; translateEndEvent.translateY = this._translateY; this.dispatchEvent(translateEndEvent); } }, _dispatchTranslate: { value: function() { var translateEvent = document.createEvent("CustomEvent"); translateEvent.initCustomEvent("translate", true, true, null); translateEvent.translateX = this._translateX; translateEvent.translateY = this._translateY; this.dispatchEvent(translateEvent); } }, animateBouncingX: {value: false, enumerable: false}, startTimeBounceX: {value: false, enumerable: false}, animateBouncingY: {value: false, enumerable: false}, startTimeBounceY: {value: false, enumerable: false}, animateMomentum: {value: false, enumerable: false}, startTime: {value: null, enumerable: false}, startX: {value: null, enumerable: false}, posX: {value: null, enumerable: false}, endX: {value: null, enumerable: false}, startY: {value: null, enumerable: false}, posY: {value: null, enumerable: false}, endY: {value: null, enumerable: false}, translateStrideX: { value: null, serializable: true }, translateStrideY: { value: null, serializable: true }, translateStrideDuration: { value: 330, serializable: true }, _animationInterval: { value: function () { var time = Date.now(), t, tmp, tmpX, tmpY, animateStride = false; if (this.animateMomentum) { t=time-this.startTime; if (t 0)) { if (time - this.startStrideXTime < this.translateStrideDuration) { t = this._bezierTValue((time - this.startStrideXTime) / this.translateStrideDuration, .275, 0, .275, 1); this.posX = this.posX * (1 - t) + (tmp * this.translateStrideX) * t; animateStride = true; } else { this.posX = tmp * this.translateStrideX; } } tmp = Math.round(this.endY / this.translateStrideY); if (this.startStrideYTime && (time - this.startStrideYTime > 0)) { if (time - this.startStrideYTime < this.translateStrideDuration) { t = this._bezierTValue((time - this.startStrideYTime) / this.translateStrideDuration, .275, 0, .275, 1); this.posY = this.posY * (1 - t) + (tmp * this.translateStrideY) * t; animateStride = true; } else { this.posY = tmp * this.translateStrideY; } } tmpX = this.posX; tmpY = this.posY; this._isSelfUpdate=true; this.translateX=tmpX; this.translateY=tmpY; this._isSelfUpdate=false; this.isAnimating = this.animateMomentum || animateStride; if (this.isAnimating) { this.needsFrame=true; } else { this._dispatchTranslateEnd(); } } }, _end: { value: function (event) { this.startTime=Date.now(); this.endX = this.posX = this.startX=this._translateX; this.endY=this.posY=this.startY=this._translateY; if ((this._hasMomentum) && ((event.velocity.speed>40) || this.translateStrideX || this.translateStrideY)) { if (this._axis != "vertical") { this.momentumX = event.velocity.x * this._pointerSpeedMultiplier * (this._invertXAxis ? 1 : -1); } else { this.momentumX = 0; } if (this._axis != "horizontal") { this.momentumY = event.velocity.y * this._pointerSpeedMultiplier * (this._invertYAxis ? 1 : -1); } else { this.momentumY=0; } this.endX = this.startX - (this.momentumX * this.__momentumDuration / 2000); this.endY = this.startY - (this.momentumY * this.__momentumDuration / 2000); this.startStrideXTime = null; this.startStrideYTime = null; this.animateMomentum = true; } else { this.animateMomentum = false; } if (this.animateMomentum) { this._animationInterval(); } else if (!this._isFirstMove) { // Only dispatch a translateEnd if a translate start has occured this._dispatchTranslateEnd(); } this._releaseInterest(); } }, surrenderPointer: { value: function(pointer, demandingComponent) { return true; } }, eventManager: { get: function() { return defaultEventManager; } }, load: { value: function() { if (window.Touch) { this._element.addEventListener("touchstart", this, true); this._element.addEventListener("touchstart", this, false); } else { this._element.addEventListener("mousedown", this, true); this._element.addEventListener("mousedown", this, false); this._element.addEventListener("mousewheel", this, false); this._element.addEventListener("mousewheel", this, true); } this.eventManager.isStoringPointerEvents = true; } }, addEventListener: { value: function(type, listener, useCapture) { Composer.addEventListener.call(this, type, listener, useCapture); if (type === "translate") { this._shouldDispatchTranslate = true; } } } });