mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
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557 lines
15 KiB
JavaScript
557 lines
15 KiB
JavaScript
/**
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* Copyright (c) 2013 Lea Verou. All rights reserved.
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*
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* Permission is hereby granted, free of charge, to any person obtaining a
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* copy of this software and associated documentation files (the "Software"),
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* to deal in the Software without restriction, including without limitation
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* the rights to use, copy, modify, merge, publish, distribute, sublicense,
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* and/or sell copies of the Software, and to permit persons to whom the
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* Software is furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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* DEALINGS IN THE SOFTWARE.
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*/
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// Based on www.cubic-bezier.com by Lea Verou
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// See https://github.com/LeaVerou/cubic-bezier
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"use strict";
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const EventEmitter = require("devtools/toolkit/event-emitter");
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const {setTimeout, clearTimeout} = require("sdk/timers");
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const PREDEFINED = exports.PREDEFINED = {
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"ease": [.25, .1, .25, 1],
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"linear": [0, 0, 1, 1],
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"ease-in": [.42, 0, 1, 1],
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"ease-out": [0, 0, .58, 1],
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"ease-in-out": [.42, 0, .58, 1]
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};
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/**
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* CubicBezier data structure helper
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* Accepts an array of coordinates and exposes a few useful getters
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* @param {Array} coordinates i.e. [.42, 0, .58, 1]
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*/
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function CubicBezier(coordinates) {
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if (!coordinates) {
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throw "No offsets were defined";
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}
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this.coordinates = coordinates.map(n => +n);
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for (let i = 4; i--;) {
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let xy = this.coordinates[i];
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if (isNaN(xy) || (!(i%2) && (xy < 0 || xy > 1))) {
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throw "Wrong coordinate at " + i + "(" + xy + ")";
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}
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}
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this.coordinates.toString = function() {
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return this.map(n => {
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return (Math.round(n * 100)/100 + '').replace(/^0\./, '.');
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}) + "";
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}
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}
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exports.CubicBezier = CubicBezier;
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CubicBezier.prototype = {
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get P1() {
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return this.coordinates.slice(0, 2);
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},
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get P2() {
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return this.coordinates.slice(2);
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},
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toString: function() {
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return 'cubic-bezier(' + this.coordinates + ')';
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}
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};
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/**
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* Bezier curve canvas plotting class
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* @param {DOMNode} canvas
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* @param {CubicBezier} bezier
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* @param {Array} padding Amount of horizontal,vertical padding around the graph
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*/
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function BezierCanvas(canvas, bezier, padding) {
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this.canvas = canvas;
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this.bezier = bezier;
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this.padding = getPadding(padding);
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// Convert to a cartesian coordinate system with axes from 0 to 1
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this.ctx = this.canvas.getContext('2d');
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let p = this.padding;
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this.ctx.scale(canvas.width * (1 - p[1] - p[3]),
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-canvas.height * (1 - p[0] - p[2]));
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this.ctx.translate(p[3] / (1 - p[1] - p[3]),
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-1 - p[0] / (1 - p[0] - p[2]));
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};
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exports.BezierCanvas = BezierCanvas;
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BezierCanvas.prototype = {
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/**
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* Get P1 and P2 current top/left offsets so they can be positioned
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* @return {Array} Returns an array of 2 {top:String,left:String} objects
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*/
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get offsets() {
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let p = this.padding, w = this.canvas.width, h = this.canvas.height;
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return [{
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left: w * (this.bezier.coordinates[0] * (1 - p[3] - p[1]) - p[3]) + 'px',
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top: h * (1 - this.bezier.coordinates[1] * (1 - p[0] - p[2]) - p[0]) + 'px'
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}, {
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left: w * (this.bezier.coordinates[2] * (1 - p[3] - p[1]) - p[3]) + 'px',
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top: h * (1 - this.bezier.coordinates[3] * (1 - p[0] - p[2]) - p[0]) + 'px'
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}]
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},
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/**
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* Convert an element's left/top offsets into coordinates
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*/
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offsetsToCoordinates: function(element) {
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let p = this.padding, w = this.canvas.width, h = this.canvas.height;
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// Convert padding percentage to actual padding
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p = p.map(function(a, i) { return a * (i % 2? w : h)});
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return [
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(parseInt(element.style.left) - p[3]) / (w + p[1] + p[3]),
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(h - parseInt(element.style.top) - p[2]) / (h - p[0] - p[2])
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];
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},
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/**
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* Draw the cubic bezier curve for the current coordinates
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*/
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plot: function(settings={}) {
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let xy = this.bezier.coordinates;
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let defaultSettings = {
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handleColor: '#666',
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handleThickness: .008,
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bezierColor: '#4C9ED9',
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bezierThickness: .015
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};
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for (let setting in settings) {
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defaultSettings[setting] = settings[setting];
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}
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this.ctx.clearRect(-.5,-.5, 2, 2);
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// Draw control handles
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this.ctx.beginPath();
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this.ctx.fillStyle = defaultSettings.handleColor;
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this.ctx.lineWidth = defaultSettings.handleThickness;
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this.ctx.strokeStyle = defaultSettings.handleColor;
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this.ctx.moveTo(0, 0);
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this.ctx.lineTo(xy[0], xy[1]);
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this.ctx.moveTo(1,1);
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this.ctx.lineTo(xy[2], xy[3]);
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this.ctx.stroke();
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this.ctx.closePath();
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function circle(ctx, cx, cy, r) {
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return ctx.beginPath();
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ctx.arc(cx, cy, r, 0, 2*Math.PI, !1);
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ctx.closePath();
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}
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circle(this.ctx, xy[0], xy[1], 1.5 * defaultSettings.handleThickness);
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this.ctx.fill();
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circle(this.ctx, xy[2], xy[3], 1.5 * defaultSettings.handleThickness);
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this.ctx.fill();
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// Draw bezier curve
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this.ctx.beginPath();
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this.ctx.lineWidth = defaultSettings.bezierThickness;
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this.ctx.strokeStyle = defaultSettings.bezierColor;
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this.ctx.moveTo(0,0);
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this.ctx.bezierCurveTo(xy[0], xy[1], xy[2], xy[3], 1,1);
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this.ctx.stroke();
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this.ctx.closePath();
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}
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};
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/**
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* Cubic-bezier widget. Uses the BezierCanvas class to draw the curve and
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* adds the control points and user interaction
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* @param {DOMNode} parent The container where the graph should be created
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* @param {Array} coordinates Coordinates of the curve to be drawn
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*
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* Emits "updated" events whenever the curve is changed. Along with the event is
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* sent a CubicBezier object
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*/
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function CubicBezierWidget(parent, coordinates=PREDEFINED["ease-in-out"]) {
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this.parent = parent;
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let {curve, p1, p2} = this._initMarkup();
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this.curve = curve;
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this.curveBoundingBox = curve.getBoundingClientRect();
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this.p1 = p1;
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this.p2 = p2;
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// Create and plot the bezier curve
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this.bezierCanvas = new BezierCanvas(this.curve,
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new CubicBezier(coordinates), [.25, 0]);
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this.bezierCanvas.plot();
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// Place the control points
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let offsets = this.bezierCanvas.offsets;
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this.p1.style.left = offsets[0].left;
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this.p1.style.top = offsets[0].top;
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this.p2.style.left = offsets[1].left;
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this.p2.style.top = offsets[1].top;
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this._onPointMouseDown = this._onPointMouseDown.bind(this);
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this._onPointKeyDown = this._onPointKeyDown.bind(this);
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this._onCurveClick = this._onCurveClick.bind(this);
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this._initEvents();
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// Add the timing function previewer
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this.timingPreview = new TimingFunctionPreviewWidget(parent);
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EventEmitter.decorate(this);
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}
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exports.CubicBezierWidget = CubicBezierWidget;
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CubicBezierWidget.prototype = {
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_initMarkup: function() {
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let doc = this.parent.ownerDocument;
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let plane = doc.createElement("div");
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plane.className = "coordinate-plane";
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let p1 = doc.createElement("button");
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p1.className = "control-point";
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p1.id = "P1";
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plane.appendChild(p1);
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let p2 = doc.createElement("button");
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p2.className = "control-point";
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p2.id = "P2";
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plane.appendChild(p2);
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let curve = doc.createElement("canvas");
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curve.setAttribute("height", "400");
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curve.setAttribute("width", "200");
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curve.id = "curve";
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plane.appendChild(curve);
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this.parent.appendChild(plane);
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return {
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p1: p1,
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p2: p2,
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curve: curve
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}
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},
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_removeMarkup: function() {
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this.parent.ownerDocument.querySelector(".coordinate-plane").remove();
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},
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_initEvents: function() {
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this.p1.addEventListener("mousedown", this._onPointMouseDown);
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this.p2.addEventListener("mousedown", this._onPointMouseDown);
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this.p1.addEventListener("keydown", this._onPointKeyDown);
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this.p2.addEventListener("keydown", this._onPointKeyDown);
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this.curve.addEventListener("click", this._onCurveClick);
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},
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_removeEvents: function() {
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this.p1.removeEventListener("mousedown", this._onPointMouseDown);
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this.p2.removeEventListener("mousedown", this._onPointMouseDown);
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this.p1.removeEventListener("keydown", this._onPointKeyDown);
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this.p2.removeEventListener("keydown", this._onPointKeyDown);
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this.curve.removeEventListener("click", this._onCurveClick);
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},
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_onPointMouseDown: function(event) {
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// Updating the boundingbox in case it has changed
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this.curveBoundingBox = this.curve.getBoundingClientRect();
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let point = event.target;
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let doc = point.ownerDocument;
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let self = this;
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doc.onmousemove = function drag(e) {
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let x = e.pageX;
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let y = e.pageY;
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let left = self.curveBoundingBox.left;
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let top = self.curveBoundingBox.top;
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if (x === 0 && y == 0) {
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return;
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}
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// Constrain x
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x = Math.min(Math.max(left, x), left + self.curveBoundingBox.width);
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point.style.left = x - left + "px";
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point.style.top = y - top + "px";
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self._updateFromPoints();
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};
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doc.onmouseup = function () {
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point.focus();
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doc.onmousemove = doc.onmouseup = null;
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}
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},
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_onPointKeyDown: function(event) {
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let point = event.target;
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let code = event.keyCode;
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if (code >= 37 && code <= 40) {
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event.preventDefault();
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// Arrow keys pressed
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let left = parseInt(point.style.left);
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let top = parseInt(point.style.top);
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let offset = 3 * (event.shiftKey ? 10 : 1);
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switch (code) {
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case 37: point.style.left = left - offset + 'px'; break;
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case 38: point.style.top = top - offset + 'px'; break;
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case 39: point.style.left = left + offset + 'px'; break;
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case 40: point.style.top = top + offset + 'px'; break;
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}
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this._updateFromPoints();
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}
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},
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_onCurveClick: function(event) {
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let left = this.curveBoundingBox.left;
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let top = this.curveBoundingBox.top;
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let x = event.pageX - left;
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let y = event.pageY - top;
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// Find which point is closer
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let distP1 = distance(x, y,
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parseInt(this.p1.style.left), parseInt(this.p1.style.top));
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let distP2 = distance(x, y,
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parseInt(this.p2.style.left), parseInt(this.p2.style.top));
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let point = distP1 < distP2 ? this.p1 : this.p2;
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point.style.left = x + "px";
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point.style.top = y + "px";
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this._updateFromPoints();
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},
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/**
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* Get the current point coordinates and redraw the curve to match
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*/
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_updateFromPoints: function() {
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// Get the new coordinates from the point's offsets
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let coordinates = this.bezierCanvas.offsetsToCoordinates(this.p1)
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coordinates = coordinates.concat(this.bezierCanvas.offsetsToCoordinates(this.p2));
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this._redraw(coordinates);
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},
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/**
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* Redraw the curve
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* @param {Array} coordinates The array of control point coordinates
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*/
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_redraw: function(coordinates) {
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// Provide a new CubicBezier to the canvas and plot the curve
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this.bezierCanvas.bezier = new CubicBezier(coordinates);
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this.bezierCanvas.plot();
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this.emit("updated", this.bezierCanvas.bezier);
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this.timingPreview.preview(this.bezierCanvas.bezier + "");
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},
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/**
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* Set new coordinates for the control points and redraw the curve
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* @param {Array} coordinates
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*/
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set coordinates(coordinates) {
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this._redraw(coordinates)
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// Move the points
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let offsets = this.bezierCanvas.offsets;
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this.p1.style.left = offsets[0].left;
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this.p1.style.top = offsets[0].top;
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this.p2.style.left = offsets[1].left;
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this.p2.style.top = offsets[1].top;
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},
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/**
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* Set new coordinates for the control point and redraw the curve
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* @param {String} value A string value. E.g. "linear", "cubic-bezier(0,0,1,1)"
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*/
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set cssCubicBezierValue(value) {
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if (!value) {
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return;
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}
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value = value.trim();
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// Try with one of the predefined values
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let coordinates = PREDEFINED[value];
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// Otherwise parse the coordinates from the cubic-bezier function
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if (!coordinates && value.startsWith("cubic-bezier")) {
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coordinates = value.replace(/cubic-bezier|\(|\)/g, "").split(",").map(parseFloat);
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}
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this.coordinates = coordinates;
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},
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destroy: function() {
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this._removeEvents();
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this._removeMarkup();
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this.timingPreview.destroy();
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this.curve = this.p1 = this.p2 = null;
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}
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};
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/**
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* The TimingFunctionPreviewWidget animates a dot on a scale with a given
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* timing-function
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* @param {DOMNode} parent The container where this widget should go
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*/
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function TimingFunctionPreviewWidget(parent) {
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this.previousValue = null;
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this.autoRestartAnimation = null;
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this.parent = parent;
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this._initMarkup();
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}
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TimingFunctionPreviewWidget.prototype = {
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PREVIEW_DURATION: 1000,
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_initMarkup: function() {
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let doc = this.parent.ownerDocument;
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let container = doc.createElement("div");
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container.className = "timing-function-preview";
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this.dot = doc.createElement("div");
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this.dot.className = "dot";
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container.appendChild(this.dot);
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let scale = doc.createElement("div");
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scale.className = "scale";
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container.appendChild(scale);
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this.parent.appendChild(container);
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},
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destroy: function() {
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clearTimeout(this.autoRestartAnimation);
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this.parent.querySelector(".timing-function-preview").remove();
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this.parent = this.dot = null;
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},
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/**
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* Preview a new timing function. The current preview will only be stopped if
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* the supplied function value is different from the previous one. If the
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* supplied function is invalid, the preview will stop.
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* @param {String} value
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*/
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preview: function(value) {
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// Don't restart the preview animation if the value is the same
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if (value === this.previousValue) {
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return false;
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}
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clearTimeout(this.autoRestartAnimation);
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if (isValidTimingFunction(value)) {
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this.dot.style.animationTimingFunction = value;
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this.restartAnimation();
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}
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this.previousValue = value;
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},
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/**
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* Re-start the preview animation from the beginning
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*/
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restartAnimation: function() {
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// Reset the animation duration in case it was changed
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this.dot.style.animationDuration = (this.PREVIEW_DURATION * 2) + "ms";
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// Just toggling the class won't do it unless there's a sync reflow
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this.dot.classList.remove("animate");
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let w = this.dot.offsetWidth;
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this.dot.classList.add("animate");
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// Restart it again after a while
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this.autoRestartAnimation = setTimeout(this.restartAnimation.bind(this),
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this.PREVIEW_DURATION * 2);
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}
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};
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// Helpers
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function getPadding(padding) {
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let p = typeof padding === 'number'? [padding] : padding;
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if (p.length === 1) {
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p[1] = p[0];
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}
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if (p.length === 2) {
|
|
p[2] = p[0];
|
|
}
|
|
|
|
if (p.length === 3) {
|
|
p[3] = p[1];
|
|
}
|
|
|
|
return p;
|
|
}
|
|
|
|
function distance(x1, y1, x2, y2) {
|
|
return Math.sqrt(Math.pow(x1 - x2, 2) + Math.pow(y1 - y2, 2));
|
|
}
|
|
|
|
/**
|
|
* Checks whether a string is a valid timing-function value
|
|
* @param {String} value
|
|
* @return {Boolean}
|
|
*/
|
|
function isValidTimingFunction(value) {
|
|
// Either it's a predefined value
|
|
if (value in PREDEFINED) {
|
|
return true;
|
|
}
|
|
|
|
// Or it has to match a cubic-bezier expression
|
|
if (value.match(/^cubic-bezier\(([0-9.\- ]+,){3}[0-9.\- ]+\)/)) {
|
|
return true;
|
|
}
|
|
|
|
return false;
|
|
}
|