/** * @class Ext.fx.Animator * Animation instance This class is used to run keyframe based animations, which follows the CSS3 based animation structure. Keyframe animations differ from typical from/to animations in that they offer the ability to specify values at various points throughout the animation. __Using Keyframes__ The {@link #keyframes} option is the most important part of specifying an animation when using this class. A key frame is a point in a particular animation. We represent this as a percentage of the total animation duration. At each key frame, we can specify the target values at that time. Note that you *must* specify the values at 0% and 100%, the start and ending values. There is also a {@link keyframe} event that fires after each key frame is reached. __Example Usage__ In the example below, we modify the values of the element at each fifth throughout the animation. Ext.create('Ext.fx.Animator', { target: Ext.getBody().createChild({ style: { width: '100px', height: '100px', 'background-color': 'red' } }), duration: 10000, // 10 seconds keyframes: { 0: { opacity: 1, backgroundColor: 'FF0000' }, 20: { x: 30, opacity: 0.5 }, 40: { x: 130, backgroundColor: '0000FF' }, 60: { y: 80, opacity: 0.3 }, 80: { width: 200, y: 200 }, 100: { opacity: 1, backgroundColor: '00FF00' } } }); * @markdown */ Ext.define('Ext.fx.Animator', { /* Begin Definitions */ mixins: { observable: 'Ext.util.Observable' }, requires: ['Ext.fx.Manager'], /* End Definitions */ isAnimator: true, /** * @cfg {Number} duration * Time in milliseconds for the animation to last. Defaults to 250. */ duration: 250, /** * @cfg {Number} delay * Time to delay before starting the animation. Defaults to 0. */ delay: 0, /* private used to track a delayed starting time */ delayStart: 0, /** * @cfg {Boolean} dynamic * Currently only for Component Animation: Only set a component's outer element size bypassing layouts. Set to true to do full layouts for every frame of the animation. Defaults to false. */ dynamic: false, /** * @cfg {String} easing This describes how the intermediate values used during a transition will be calculated. It allows for a transition to change speed over its duration. - backIn - backOut - bounceIn - bounceOut - ease - easeIn - easeOut - easeInOut - elasticIn - elasticOut - cubic-bezier(x1, y1, x2, y2) Note that cubic-bezier will create a custom easing curve following the CSS3 transition-timing-function specification `{@link http://www.w3.org/TR/css3-transitions/#transition-timing-function_tag}`. The four values specify points P1 and P2 of the curve as (x1, y1, x2, y2). All values must be in the range [0, 1] or the definition is invalid. * @markdown */ easing: 'ease', /** * Flag to determine if the animation has started * @property running * @type boolean */ running: false, /** * Flag to determine if the animation is paused. Only set this to true if you need to * keep the Anim instance around to be unpaused later; otherwise call {@link #end}. * @property paused * @type boolean */ paused: false, /** * @private */ damper: 1, /** * @cfg {Number} iterations * Number of times to execute the animation. Defaults to 1. */ iterations: 1, /** * Current iteration the animation is running. * @property currentIteration * @type int */ currentIteration: 0, /** * Current keyframe step of the animation. * @property keyframeStep * @type Number */ keyframeStep: 0, /** * @private */ animKeyFramesRE: /^(from|to|\d+%?)$/, /** * @cfg {Ext.fx.target} target * The Ext.fx.target to apply the animation to. If not specified during initialization, this can be passed to the applyAnimator * method to apply the same animation to many targets. */ /** * @cfg {Object} keyframes * Animation keyframes follow the CSS3 Animation configuration pattern. 'from' is always considered '0%' and 'to' * is considered '100%'.<b>Every keyframe declaration must have a keyframe rule for 0% and 100%, possibly defined using * "from" or "to"</b>. A keyframe declaration without these keyframe selectors is invalid and will not be available for * animation. The keyframe declaration for a keyframe rule consists of properties and values. Properties that are unable to * be animated are ignored in these rules, with the exception of 'easing' which can be changed at each keyframe. For example: <pre><code> keyframes : { '0%': { left: 100 }, '40%': { left: 150 }, '60%': { left: 75 }, '100%': { left: 100 } } </code></pre> */ constructor: function(config) { var me = this; config = Ext.apply(me, config || {}); me.config = config; me.id = Ext.id(null, 'ext-animator-'); me.addEvents( /** * @event beforeanimate * Fires before the animation starts. A handler can return false to cancel the animation. * @param {Ext.fx.Animator} this */ 'beforeanimate', /** * @event keyframe * Fires at each keyframe. * @param {Ext.fx.Animator} this * @param {Number} keyframe step number */ 'keyframe', /** * @event afteranimate * Fires when the animation is complete. * @param {Ext.fx.Animator} this * @param {Date} startTime */ 'afteranimate' ); me.mixins.observable.constructor.call(me, config); me.timeline = []; me.createTimeline(me.keyframes); if (me.target) { me.applyAnimator(me.target); Ext.fx.Manager.addAnim(me); } }, /** * @private */ sorter: function (a, b) { return a.pct - b.pct; }, /** * @private * Takes the given keyframe configuration object and converts it into an ordered array with the passed attributes per keyframe * or applying the 'to' configuration to all keyframes. Also calculates the proper animation duration per keyframe. */ createTimeline: function(keyframes) { var me = this, attrs = [], to = me.to || {}, duration = me.duration, prevMs, ms, i, ln, pct, anim, nextAnim, attr; for (pct in keyframes) { if (keyframes.hasOwnProperty(pct) && me.animKeyFramesRE.test(pct)) { attr = {attrs: Ext.apply(keyframes[pct], to)}; // CSS3 spec allow for from/to to be specified. if (pct == "from") { pct = 0; } else if (pct == "to") { pct = 100; } // convert % values into integers attr.pct = parseInt(pct, 10); attrs.push(attr); } } // Sort by pct property Ext.Array.sort(attrs, me.sorter); // Only an end //if (attrs[0].pct) { // attrs.unshift({pct: 0, attrs: element.attrs}); //} ln = attrs.length; for (i = 0; i < ln; i++) { prevMs = (attrs[i - 1]) ? duration * (attrs[i - 1].pct / 100) : 0; ms = duration * (attrs[i].pct / 100); me.timeline.push({ duration: ms - prevMs, attrs: attrs[i].attrs }); } }, /** * Applies animation to the Ext.fx.target * @private * @param target * @type string/object */ applyAnimator: function(target) { var me = this, anims = [], timeline = me.timeline, reverse = me.reverse, ln = timeline.length, anim, easing, damper, initial, attrs, lastAttrs, i; if (me.fireEvent('beforeanimate', me) !== false) { for (i = 0; i < ln; i++) { anim = timeline[i]; attrs = anim.attrs; easing = attrs.easing || me.easing; damper = attrs.damper || me.damper; delete attrs.easing; delete attrs.damper; anim = Ext.create('Ext.fx.Anim', { target: target, easing: easing, damper: damper, duration: anim.duration, paused: true, to: attrs }); anims.push(anim); } me.animations = anims; me.target = anim.target; for (i = 0; i < ln - 1; i++) { anim = anims[i]; anim.nextAnim = anims[i + 1]; anim.on('afteranimate', function() { this.nextAnim.paused = false; }); anim.on('afteranimate', function() { this.fireEvent('keyframe', this, ++this.keyframeStep); }, me); } anims[ln - 1].on('afteranimate', function() { this.lastFrame(); }, me); } }, /* * @private * Fires beforeanimate and sets the running flag. */ start: function(startTime) { var me = this, delay = me.delay, delayStart = me.delayStart, delayDelta; if (delay) { if (!delayStart) { me.delayStart = startTime; return; } else { delayDelta = startTime - delayStart; if (delayDelta < delay) { return; } else { // Compensate for frame delay; startTime = new Date(delayStart.getTime() + delay); } } } if (me.fireEvent('beforeanimate', me) !== false) { me.startTime = startTime; me.running = true; me.animations[me.keyframeStep].paused = false; } }, /* * @private * Perform lastFrame cleanup and handle iterations * @returns a hash of the new attributes. */ lastFrame: function() { var me = this, iter = me.iterations, iterCount = me.currentIteration; iterCount++; if (iterCount < iter) { me.startTime = new Date(); me.currentIteration = iterCount; me.keyframeStep = 0; me.applyAnimator(me.target); me.animations[me.keyframeStep].paused = false; } else { me.currentIteration = 0; me.end(); } }, /* * Fire afteranimate event and end the animation. Usually called automatically when the * animation reaches its final frame, but can also be called manually to pre-emptively * stop and destroy the running animation. */ end: function() { var me = this; me.fireEvent('afteranimate', me, me.startTime, new Date() - me.startTime); } });