/* build: `node build.js modules=ALL exclude=json,gestures minifier=uglifyjs` */ /*! Fabric.js Copyright 2008-2015, Printio (Juriy Zaytsev, Maxim Chernyak) */ var fabric = fabric || { version: "1.6.7" }; if (typeof exports !== 'undefined') { exports.fabric = fabric; } if (typeof document !== 'undefined' && typeof window !== 'undefined') { fabric.document = document; fabric.window = window; // ensure globality even if entire library were function wrapped (as in Meteor.js packaging system) window.fabric = fabric; } else { // assume we're running under node.js when document/window are not present fabric.document = require("jsdom") .jsdom(""); if (fabric.document.createWindow) { fabric.window = fabric.document.createWindow(); } else { fabric.window = fabric.document.parentWindow; } } /** * True when in environment that supports touch events * @type boolean */ fabric.isTouchSupported = "ontouchstart" in fabric.document.documentElement; /** * True when in environment that's probably Node.js * @type boolean */ fabric.isLikelyNode = typeof Buffer !== 'undefined' && typeof window === 'undefined'; /* _FROM_SVG_START_ */ /** * Attributes parsed from all SVG elements * @type array */ fabric.SHARED_ATTRIBUTES = [ "display", "transform", "fill", "fill-opacity", "fill-rule", "opacity", "stroke", "stroke-dasharray", "stroke-linecap", "stroke-linejoin", "stroke-miterlimit", "stroke-opacity", "stroke-width", "id" ]; /* _FROM_SVG_END_ */ /** * Pixel per Inch as a default value set to 96. Can be changed for more realistic conversion. */ fabric.DPI = 96; fabric.reNum = '(?:[-+]?(?:\\d+|\\d*\\.\\d+)(?:e[-+]?\\d+)?)'; fabric.fontPaths = { }; /** * Cache Object for widths of chars in text rendering. */ fabric.charWidthsCache = { }; /** * Device Pixel Ratio * @see https://developer.apple.com/library/safari/documentation/AudioVideo/Conceptual/HTML-canvas-guide/SettingUptheCanvas/SettingUptheCanvas.html */ fabric.devicePixelRatio = fabric.window.devicePixelRatio || fabric.window.webkitDevicePixelRatio || fabric.window.mozDevicePixelRatio || 1; (function() { /** * @private * @param {String} eventName * @param {Function} handler */ function _removeEventListener(eventName, handler) { if (!this.__eventListeners[eventName]) { return; } var eventListener = this.__eventListeners[eventName]; if (handler) { eventListener[eventListener.indexOf(handler)] = false; } else { fabric.util.array.fill(eventListener, false); } } /** * Observes specified event * @deprecated `observe` deprecated since 0.8.34 (use `on` instead) * @memberOf fabric.Observable * @alias on * @param {String|Object} eventName Event name (eg. 'after:render') or object with key/value pairs (eg. {'after:render': handler, 'selection:cleared': handler}) * @param {Function} handler Function that receives a notification when an event of the specified type occurs * @return {Self} thisArg * @chainable */ function observe(eventName, handler) { if (!this.__eventListeners) { this.__eventListeners = { }; } // one object with key/value pairs was passed if (arguments.length === 1) { for (var prop in eventName) { this.on(prop, eventName[prop]); } } else { if (!this.__eventListeners[eventName]) { this.__eventListeners[eventName] = []; } this.__eventListeners[eventName].push(handler); } return this; } /** * Stops event observing for a particular event handler. Calling this method * without arguments removes all handlers for all events * @deprecated `stopObserving` deprecated since 0.8.34 (use `off` instead) * @memberOf fabric.Observable * @alias off * @param {String|Object} eventName Event name (eg. 'after:render') or object with key/value pairs (eg. {'after:render': handler, 'selection:cleared': handler}) * @param {Function} handler Function to be deleted from EventListeners * @return {Self} thisArg * @chainable */ function stopObserving(eventName, handler) { if (!this.__eventListeners) { return; } // remove all key/value pairs (event name -> event handler) if (arguments.length === 0) { for (eventName in this.__eventListeners) { _removeEventListener.call(this, eventName); } } // one object with key/value pairs was passed else if (arguments.length === 1 && typeof arguments[0] === 'object') { for (var prop in eventName) { _removeEventListener.call(this, prop, eventName[prop]); } } else { _removeEventListener.call(this, eventName, handler); } return this; } /** * Fires event with an optional options object * @deprecated `fire` deprecated since 1.0.7 (use `trigger` instead) * @memberOf fabric.Observable * @alias trigger * @param {String} eventName Event name to fire * @param {Object} [options] Options object * @return {Self} thisArg * @chainable */ function fire(eventName, options) { if (!this.__eventListeners) { return; } var listenersForEvent = this.__eventListeners[eventName]; if (!listenersForEvent) { return; } for (var i = 0, len = listenersForEvent.length; i < len; i++) { listenersForEvent[i] && listenersForEvent[i].call(this, options || { }); } this.__eventListeners[eventName] = listenersForEvent.filter(function(value) { return value !== false; }); return this; } /** * @namespace fabric.Observable * @tutorial {@link http://fabricjs.com/fabric-intro-part-2#events} * @see {@link http://fabricjs.com/events|Events demo} */ fabric.Observable = { observe: observe, stopObserving: stopObserving, fire: fire, on: observe, off: stopObserving, trigger: fire }; })(); /** * @namespace fabric.Collection */ fabric.Collection = { _objects: [], /** * Adds objects to collection, Canvas or Group, then renders canvas * (if `renderOnAddRemove` is not `false`). * in case of Group no changes to bounding box are made. * Objects should be instances of (or inherit from) fabric.Object * @param {...fabric.Object} object Zero or more fabric instances * @return {Self} thisArg * @chainable */ add: function () { this._objects.push.apply(this._objects, arguments); if (this._onObjectAdded) { for (var i = 0, length = arguments.length; i < length; i++) { this._onObjectAdded(arguments[i]); } } this.renderOnAddRemove && this.renderAll(); return this; }, /** * Inserts an object into collection at specified index, then renders canvas (if `renderOnAddRemove` is not `false`) * An object should be an instance of (or inherit from) fabric.Object * @param {Object} object Object to insert * @param {Number} index Index to insert object at * @param {Boolean} nonSplicing When `true`, no splicing (shifting) of objects occurs * @return {Self} thisArg * @chainable */ insertAt: function (object, index, nonSplicing) { var objects = this.getObjects(); if (nonSplicing) { objects[index] = object; } else { objects.splice(index, 0, object); } this._onObjectAdded && this._onObjectAdded(object); this.renderOnAddRemove && this.renderAll(); return this; }, /** * Removes objects from a collection, then renders canvas (if `renderOnAddRemove` is not `false`) * @param {...fabric.Object} object Zero or more fabric instances * @return {Self} thisArg * @chainable */ remove: function() { var objects = this.getObjects(), index, somethingRemoved = false; for (var i = 0, length = arguments.length; i < length; i++) { index = objects.indexOf(arguments[i]); // only call onObjectRemoved if an object was actually removed if (index !== -1) { somethingRemoved = true; objects.splice(index, 1); this._onObjectRemoved && this._onObjectRemoved(arguments[i]); } } this.renderOnAddRemove && somethingRemoved && this.renderAll(); return this; }, /** * Executes given function for each object in this group * @param {Function} callback * Callback invoked with current object as first argument, * index - as second and an array of all objects - as third. * Callback is invoked in a context of Global Object (e.g. `window`) * when no `context` argument is given * * @param {Object} context Context (aka thisObject) * @return {Self} thisArg * @chainable */ forEachObject: function(callback, context) { var objects = this.getObjects(); for (var i = 0, len = objects.length; i < len; i++) { callback.call(context, objects[i], i, objects); } return this; }, /** * Returns an array of children objects of this instance * Type parameter introduced in 1.3.10 * @param {String} [type] When specified, only objects of this type are returned * @return {Array} */ getObjects: function(type) { if (typeof type === 'undefined') { return this._objects; } return this._objects.filter(function(o) { return o.type === type; }); }, /** * Returns object at specified index * @param {Number} index * @return {Self} thisArg */ item: function (index) { return this.getObjects()[index]; }, /** * Returns true if collection contains no objects * @return {Boolean} true if collection is empty */ isEmpty: function () { return this.getObjects().length === 0; }, /** * Returns a size of a collection (i.e: length of an array containing its objects) * @return {Number} Collection size */ size: function() { return this.getObjects().length; }, /** * Returns true if collection contains an object * @param {Object} object Object to check against * @return {Boolean} `true` if collection contains an object */ contains: function(object) { return this.getObjects().indexOf(object) > -1; }, /** * Returns number representation of a collection complexity * @return {Number} complexity */ complexity: function () { return this.getObjects().reduce(function (memo, current) { memo += current.complexity ? current.complexity() : 0; return memo; }, 0); } }; (function(global) { var sqrt = Math.sqrt, atan2 = Math.atan2, pow = Math.pow, abs = Math.abs, PiBy180 = Math.PI / 180; /** * @namespace fabric.util */ fabric.util = { /** * Removes value from an array. * Presence of value (and its position in an array) is determined via `Array.prototype.indexOf` * @static * @memberOf fabric.util * @param {Array} array * @param {*} value * @return {Array} original array */ removeFromArray: function(array, value) { var idx = array.indexOf(value); if (idx !== -1) { array.splice(idx, 1); } return array; }, /** * Returns random number between 2 specified ones. * @static * @memberOf fabric.util * @param {Number} min lower limit * @param {Number} max upper limit * @return {Number} random value (between min and max) */ getRandomInt: function(min, max) { return Math.floor(Math.random() * (max - min + 1)) + min; }, /** * Transforms degrees to radians. * @static * @memberOf fabric.util * @param {Number} degrees value in degrees * @return {Number} value in radians */ degreesToRadians: function(degrees) { return degrees * PiBy180; }, /** * Transforms radians to degrees. * @static * @memberOf fabric.util * @param {Number} radians value in radians * @return {Number} value in degrees */ radiansToDegrees: function(radians) { return radians / PiBy180; }, /** * Rotates `point` around `origin` with `radians` * @static * @memberOf fabric.util * @param {fabric.Point} point The point to rotate * @param {fabric.Point} origin The origin of the rotation * @param {Number} radians The radians of the angle for the rotation * @return {fabric.Point} The new rotated point */ rotatePoint: function(point, origin, radians) { point.subtractEquals(origin); var v = fabric.util.rotateVector(point, radians); return new fabric.Point(v.x, v.y).addEquals(origin); }, /** * Rotates `vector` with `radians` * @static * @memberOf fabric.util * @param {Object} vector The vector to rotate (x and y) * @param {Number} radians The radians of the angle for the rotation * @return {Object} The new rotated point */ rotateVector: function(vector, radians) { var sin = Math.sin(radians), cos = Math.cos(radians), rx = vector.x * cos - vector.y * sin, ry = vector.x * sin + vector.y * cos; return { x: rx, y: ry }; }, /** * Apply transform t to point p * @static * @memberOf fabric.util * @param {fabric.Point} p The point to transform * @param {Array} t The transform * @param {Boolean} [ignoreOffset] Indicates that the offset should not be applied * @return {fabric.Point} The transformed point */ transformPoint: function(p, t, ignoreOffset) { if (ignoreOffset) { return new fabric.Point( t[0] * p.x + t[2] * p.y, t[1] * p.x + t[3] * p.y ); } return new fabric.Point( t[0] * p.x + t[2] * p.y + t[4], t[1] * p.x + t[3] * p.y + t[5] ); }, /** * Returns coordinates of points's bounding rectangle (left, top, width, height) * @param {Array} points 4 points array * @return {Object} Object with left, top, width, height properties */ makeBoundingBoxFromPoints: function(points) { var xPoints = [points[0].x, points[1].x, points[2].x, points[3].x], minX = fabric.util.array.min(xPoints), maxX = fabric.util.array.max(xPoints), width = Math.abs(minX - maxX), yPoints = [points[0].y, points[1].y, points[2].y, points[3].y], minY = fabric.util.array.min(yPoints), maxY = fabric.util.array.max(yPoints), height = Math.abs(minY - maxY); return { left: minX, top: minY, width: width, height: height }; }, /** * Invert transformation t * @static * @memberOf fabric.util * @param {Array} t The transform * @return {Array} The inverted transform */ invertTransform: function(t) { var a = 1 / (t[0] * t[3] - t[1] * t[2]), r = [a * t[3], -a * t[1], -a * t[2], a * t[0]], o = fabric.util.transformPoint({ x: t[4], y: t[5] }, r, true); r[4] = -o.x; r[5] = -o.y; return r; }, /** * A wrapper around Number#toFixed, which contrary to native method returns number, not string. * @static * @memberOf fabric.util * @param {Number|String} number number to operate on * @param {Number} fractionDigits number of fraction digits to "leave" * @return {Number} */ toFixed: function(number, fractionDigits) { return parseFloat(Number(number).toFixed(fractionDigits)); }, /** * Converts from attribute value to pixel value if applicable. * Returns converted pixels or original value not converted. * @param {Number|String} value number to operate on * @param {Number} fontSize * @return {Number|String} */ parseUnit: function(value, fontSize) { var unit = /\D{0,2}$/.exec(value), number = parseFloat(value); if (!fontSize) { fontSize = fabric.Text.DEFAULT_SVG_FONT_SIZE; } switch (unit[0]) { case 'mm': return number * fabric.DPI / 25.4; case 'cm': return number * fabric.DPI / 2.54; case 'in': return number * fabric.DPI; case 'pt': return number * fabric.DPI / 72; // or * 4 / 3 case 'pc': return number * fabric.DPI / 72 * 12; // or * 16 case 'em': return number * fontSize; default: return number; } }, /** * Function which always returns `false`. * @static * @memberOf fabric.util * @return {Boolean} */ falseFunction: function() { return false; }, /** * Returns klass "Class" object of given namespace * @memberOf fabric.util * @param {String} type Type of object (eg. 'circle') * @param {String} namespace Namespace to get klass "Class" object from * @return {Object} klass "Class" */ getKlass: function(type, namespace) { // capitalize first letter only type = fabric.util.string.camelize(type.charAt(0).toUpperCase() + type.slice(1)); return fabric.util.resolveNamespace(namespace)[type]; }, /** * Returns object of given namespace * @memberOf fabric.util * @param {String} namespace Namespace string e.g. 'fabric.Image.filter' or 'fabric' * @return {Object} Object for given namespace (default fabric) */ resolveNamespace: function(namespace) { if (!namespace) { return fabric; } var parts = namespace.split('.'), len = parts.length, i, obj = global || fabric.window; for (i = 0; i < len; ++i) { obj = obj[parts[i]]; } return obj; }, /** * Loads image element from given url and passes it to a callback * @memberOf fabric.util * @param {String} url URL representing an image * @param {Function} callback Callback; invoked with loaded image * @param {*} [context] Context to invoke callback in * @param {Object} [crossOrigin] crossOrigin value to set image element to */ loadImage: function(url, callback, context, crossOrigin) { if (!url) { callback && callback.call(context, url); return; } var img = fabric.util.createImage(); /** @ignore */ img.onload = function () { callback && callback.call(context, img); img = img.onload = img.onerror = null; }; /** @ignore */ img.onerror = function() { fabric.log('Error loading ' + img.src); callback && callback.call(context, null, true); img = img.onload = img.onerror = null; }; // data-urls appear to be buggy with crossOrigin // https://github.com/kangax/fabric.js/commit/d0abb90f1cd5c5ef9d2a94d3fb21a22330da3e0a#commitcomment-4513767 // see https://code.google.com/p/chromium/issues/detail?id=315152 // https://bugzilla.mozilla.org/show_bug.cgi?id=935069 if (url.indexOf('data') !== 0 && crossOrigin) { img.crossOrigin = crossOrigin; } img.src = url; }, /** * Creates corresponding fabric instances from their object representations * @static * @memberOf fabric.util * @param {Array} objects Objects to enliven * @param {Function} callback Callback to invoke when all objects are created * @param {String} namespace Namespace to get klass "Class" object from * @param {Function} reviver Method for further parsing of object elements, * called after each fabric object created. */ enlivenObjects: function(objects, callback, namespace, reviver) { objects = objects || []; function onLoaded() { if (++numLoadedObjects === numTotalObjects) { callback && callback(enlivenedObjects); } } var enlivenedObjects = [], numLoadedObjects = 0, numTotalObjects = objects.length; if (!numTotalObjects) { callback && callback(enlivenedObjects); return; } objects.forEach(function (o, index) { // if sparse array if (!o || !o.type) { onLoaded(); return; } var klass = fabric.util.getKlass(o.type, namespace); if (klass.async) { klass.fromObject(o, function (obj, error) { if (!error) { enlivenedObjects[index] = obj; reviver && reviver(o, enlivenedObjects[index]); } onLoaded(); }); } else { enlivenedObjects[index] = klass.fromObject(o); reviver && reviver(o, enlivenedObjects[index]); onLoaded(); } }); }, /** * Groups SVG elements (usually those retrieved from SVG document) * @static * @memberOf fabric.util * @param {Array} elements SVG elements to group * @param {Object} [options] Options object * @param {String} path Value to set sourcePath to * @return {fabric.Object|fabric.PathGroup} */ groupSVGElements: function(elements, options, path) { var object; object = new fabric.PathGroup(elements, options); if (typeof path !== 'undefined') { object.setSourcePath(path); } return object; }, /** * Populates an object with properties of another object * @static * @memberOf fabric.util * @param {Object} source Source object * @param {Object} destination Destination object * @return {Array} properties Propertie names to include */ populateWithProperties: function(source, destination, properties) { if (properties && Object.prototype.toString.call(properties) === '[object Array]') { for (var i = 0, len = properties.length; i < len; i++) { if (properties[i] in source) { destination[properties[i]] = source[properties[i]]; } } } }, /** * Draws a dashed line between two points * * This method is used to draw dashed line around selection area. * See dotted stroke in canvas * * @param {CanvasRenderingContext2D} ctx context * @param {Number} x start x coordinate * @param {Number} y start y coordinate * @param {Number} x2 end x coordinate * @param {Number} y2 end y coordinate * @param {Array} da dash array pattern */ drawDashedLine: function(ctx, x, y, x2, y2, da) { var dx = x2 - x, dy = y2 - y, len = sqrt(dx * dx + dy * dy), rot = atan2(dy, dx), dc = da.length, di = 0, draw = true; ctx.save(); ctx.translate(x, y); ctx.moveTo(0, 0); ctx.rotate(rot); x = 0; while (len > x) { x += da[di++ % dc]; if (x > len) { x = len; } ctx[draw ? 'lineTo' : 'moveTo'](x, 0); draw = !draw; } ctx.restore(); }, /** * Creates canvas element and initializes it via excanvas if necessary * @static * @memberOf fabric.util * @param {CanvasElement} [canvasEl] optional canvas element to initialize; * when not given, element is created implicitly * @return {CanvasElement} initialized canvas element */ createCanvasElement: function(canvasEl) { canvasEl || (canvasEl = fabric.document.createElement('canvas')); /* eslint-disable camelcase */ if (!canvasEl.getContext && typeof G_vmlCanvasManager !== 'undefined') { G_vmlCanvasManager.initElement(canvasEl); } /* eslint-enable camelcase */ return canvasEl; }, /** * Creates image element (works on client and node) * @static * @memberOf fabric.util * @return {HTMLImageElement} HTML image element */ createImage: function() { return fabric.isLikelyNode ? new (require('canvas').Image)() : fabric.document.createElement('img'); }, /** * Creates accessors (getXXX, setXXX) for a "class", based on "stateProperties" array * @static * @memberOf fabric.util * @param {Object} klass "Class" to create accessors for */ createAccessors: function(klass) { var proto = klass.prototype, i, propName, capitalizedPropName, setterName, getterName; for (i = proto.stateProperties.length; i--; ) { propName = proto.stateProperties[i]; capitalizedPropName = propName.charAt(0).toUpperCase() + propName.slice(1); setterName = 'set' + capitalizedPropName; getterName = 'get' + capitalizedPropName; // using `new Function` for better introspection if (!proto[getterName]) { proto[getterName] = (function(property) { return new Function('return this.get("' + property + '")'); })(propName); } if (!proto[setterName]) { proto[setterName] = (function(property) { return new Function('value', 'return this.set("' + property + '", value)'); })(propName); } } }, /** * @static * @memberOf fabric.util * @param {fabric.Object} receiver Object implementing `clipTo` method * @param {CanvasRenderingContext2D} ctx Context to clip */ clipContext: function(receiver, ctx) { ctx.save(); ctx.beginPath(); receiver.clipTo(ctx); ctx.clip(); }, /** * Multiply matrix A by matrix B to nest transformations * @static * @memberOf fabric.util * @param {Array} a First transformMatrix * @param {Array} b Second transformMatrix * @param {Boolean} is2x2 flag to multiply matrices as 2x2 matrices * @return {Array} The product of the two transform matrices */ multiplyTransformMatrices: function(a, b, is2x2) { // Matrix multiply a * b return [ a[0] * b[0] + a[2] * b[1], a[1] * b[0] + a[3] * b[1], a[0] * b[2] + a[2] * b[3], a[1] * b[2] + a[3] * b[3], is2x2 ? 0 : a[0] * b[4] + a[2] * b[5] + a[4], is2x2 ? 0 : a[1] * b[4] + a[3] * b[5] + a[5] ]; }, /** * Decomposes standard 2x2 matrix into transform componentes * @static * @memberOf fabric.util * @param {Array} a transformMatrix * @return {Object} Components of transform */ qrDecompose: function(a) { var angle = atan2(a[1], a[0]), denom = pow(a[0], 2) + pow(a[1], 2), scaleX = sqrt(denom), scaleY = (a[0] * a[3] - a[2] * a [1]) / scaleX, skewX = atan2(a[0] * a[2] + a[1] * a [3], denom); return { angle: angle / PiBy180, scaleX: scaleX, scaleY: scaleY, skewX: skewX / PiBy180, skewY: 0, translateX: a[4], translateY: a[5] }; }, customTransformMatrix: function(scaleX, scaleY, skewX) { var skewMatrixX = [1, 0, abs(Math.tan(skewX * PiBy180)), 1], scaleMatrix = [abs(scaleX), 0, 0, abs(scaleY)]; return fabric.util.multiplyTransformMatrices(scaleMatrix, skewMatrixX, true); }, resetObjectTransform: function (target) { target.scaleX = 1; target.scaleY = 1; target.skewX = 0; target.skewY = 0; target.flipX = false; target.flipY = false; target.setAngle(0); }, /** * Returns string representation of function body * @param {Function} fn Function to get body of * @return {String} Function body */ getFunctionBody: function(fn) { return (String(fn).match(/function[^{]*\{([\s\S]*)\}/) || {})[1]; }, /** * Returns true if context has transparent pixel * at specified location (taking tolerance into account) * @param {CanvasRenderingContext2D} ctx context * @param {Number} x x coordinate * @param {Number} y y coordinate * @param {Number} tolerance Tolerance */ isTransparent: function(ctx, x, y, tolerance) { // If tolerance is > 0 adjust start coords to take into account. // If moves off Canvas fix to 0 if (tolerance > 0) { if (x > tolerance) { x -= tolerance; } else { x = 0; } if (y > tolerance) { y -= tolerance; } else { y = 0; } } var _isTransparent = true, i, temp, imageData = ctx.getImageData(x, y, (tolerance * 2) || 1, (tolerance * 2) || 1), l = imageData.data.length; // Split image data - for tolerance > 1, pixelDataSize = 4; for (i = 3; i < l; i += 4) { temp = imageData.data[i]; _isTransparent = temp <= 0; if (_isTransparent === false) { break; // Stop if colour found } } imageData = null; return _isTransparent; }, /** * Parse preserveAspectRatio attribute from element * @param {string} attribute to be parsed * @return {Object} an object containing align and meetOrSlice attribute */ parsePreserveAspectRatioAttribute: function(attribute) { var meetOrSlice = 'meet', alignX = 'Mid', alignY = 'Mid', aspectRatioAttrs = attribute.split(' '), align; if (aspectRatioAttrs && aspectRatioAttrs.length) { meetOrSlice = aspectRatioAttrs.pop(); if (meetOrSlice !== 'meet' && meetOrSlice !== 'slice') { align = meetOrSlice; meetOrSlice = 'meet'; } else if (aspectRatioAttrs.length) { align = aspectRatioAttrs.pop(); } } //divide align in alignX and alignY alignX = align !== 'none' ? align.slice(1, 4) : 'none'; alignY = align !== 'none' ? align.slice(5, 8) : 'none'; return { meetOrSlice: meetOrSlice, alignX: alignX, alignY: alignY }; }, /** * Clear char widths cache for a font family. * @memberOf fabric.util * @param {String} [fontFamily] font family to clear */ clearFabricFontCache: function(fontFamily) { if (!fontFamily) { fabric.charWidthsCache = { }; } else if (fabric.charWidthsCache[fontFamily]) { delete fabric.charWidthsCache[fontFamily]; } } }; })(typeof exports !== 'undefined' ? exports : this); (function() { var arcToSegmentsCache = { }, segmentToBezierCache = { }, boundsOfCurveCache = { }, _join = Array.prototype.join; /* Adapted from http://dxr.mozilla.org/mozilla-central/source/content/svg/content/src/nsSVGPathDataParser.cpp * by Andrea Bogazzi code is under MPL. if you don't have a copy of the license you can take it here * http://mozilla.org/MPL/2.0/ */ function arcToSegments(toX, toY, rx, ry, large, sweep, rotateX) { var argsString = _join.call(arguments); if (arcToSegmentsCache[argsString]) { return arcToSegmentsCache[argsString]; } var PI = Math.PI, th = rotateX * PI / 180, sinTh = Math.sin(th), cosTh = Math.cos(th), fromX = 0, fromY = 0; rx = Math.abs(rx); ry = Math.abs(ry); var px = -cosTh * toX * 0.5 - sinTh * toY * 0.5, py = -cosTh * toY * 0.5 + sinTh * toX * 0.5, rx2 = rx * rx, ry2 = ry * ry, py2 = py * py, px2 = px * px, pl = rx2 * ry2 - rx2 * py2 - ry2 * px2, root = 0; if (pl < 0) { var s = Math.sqrt(1 - pl / (rx2 * ry2)); rx *= s; ry *= s; } else { root = (large === sweep ? -1.0 : 1.0) * Math.sqrt( pl / (rx2 * py2 + ry2 * px2)); } var cx = root * rx * py / ry, cy = -root * ry * px / rx, cx1 = cosTh * cx - sinTh * cy + toX * 0.5, cy1 = sinTh * cx + cosTh * cy + toY * 0.5, mTheta = calcVectorAngle(1, 0, (px - cx) / rx, (py - cy) / ry), dtheta = calcVectorAngle((px - cx) / rx, (py - cy) / ry, (-px - cx) / rx, (-py - cy) / ry); if (sweep === 0 && dtheta > 0) { dtheta -= 2 * PI; } else if (sweep === 1 && dtheta < 0) { dtheta += 2 * PI; } // Convert into cubic bezier segments <= 90deg var segments = Math.ceil(Math.abs(dtheta / PI * 2)), result = [], mDelta = dtheta / segments, mT = 8 / 3 * Math.sin(mDelta / 4) * Math.sin(mDelta / 4) / Math.sin(mDelta / 2), th3 = mTheta + mDelta; for (var i = 0; i < segments; i++) { result[i] = segmentToBezier(mTheta, th3, cosTh, sinTh, rx, ry, cx1, cy1, mT, fromX, fromY); fromX = result[i][4]; fromY = result[i][5]; mTheta = th3; th3 += mDelta; } arcToSegmentsCache[argsString] = result; return result; } function segmentToBezier(th2, th3, cosTh, sinTh, rx, ry, cx1, cy1, mT, fromX, fromY) { var argsString2 = _join.call(arguments); if (segmentToBezierCache[argsString2]) { return segmentToBezierCache[argsString2]; } var costh2 = Math.cos(th2), sinth2 = Math.sin(th2), costh3 = Math.cos(th3), sinth3 = Math.sin(th3), toX = cosTh * rx * costh3 - sinTh * ry * sinth3 + cx1, toY = sinTh * rx * costh3 + cosTh * ry * sinth3 + cy1, cp1X = fromX + mT * ( -cosTh * rx * sinth2 - sinTh * ry * costh2), cp1Y = fromY + mT * ( -sinTh * rx * sinth2 + cosTh * ry * costh2), cp2X = toX + mT * ( cosTh * rx * sinth3 + sinTh * ry * costh3), cp2Y = toY + mT * ( sinTh * rx * sinth3 - cosTh * ry * costh3); segmentToBezierCache[argsString2] = [ cp1X, cp1Y, cp2X, cp2Y, toX, toY ]; return segmentToBezierCache[argsString2]; } /* * Private */ function calcVectorAngle(ux, uy, vx, vy) { var ta = Math.atan2(uy, ux), tb = Math.atan2(vy, vx); if (tb >= ta) { return tb - ta; } else { return 2 * Math.PI - (ta - tb); } } /** * Draws arc * @param {CanvasRenderingContext2D} ctx * @param {Number} fx * @param {Number} fy * @param {Array} coords */ fabric.util.drawArc = function(ctx, fx, fy, coords) { var rx = coords[0], ry = coords[1], rot = coords[2], large = coords[3], sweep = coords[4], tx = coords[5], ty = coords[6], segs = [[], [], [], []], segsNorm = arcToSegments(tx - fx, ty - fy, rx, ry, large, sweep, rot); for (var i = 0, len = segsNorm.length; i < len; i++) { segs[i][0] = segsNorm[i][0] + fx; segs[i][1] = segsNorm[i][1] + fy; segs[i][2] = segsNorm[i][2] + fx; segs[i][3] = segsNorm[i][3] + fy; segs[i][4] = segsNorm[i][4] + fx; segs[i][5] = segsNorm[i][5] + fy; ctx.bezierCurveTo.apply(ctx, segs[i]); } }; /** * Calculate bounding box of a elliptic-arc * @param {Number} fx start point of arc * @param {Number} fy * @param {Number} rx horizontal radius * @param {Number} ry vertical radius * @param {Number} rot angle of horizontal axe * @param {Number} large 1 or 0, whatever the arc is the big or the small on the 2 points * @param {Number} sweep 1 or 0, 1 clockwise or counterclockwise direction * @param {Number} tx end point of arc * @param {Number} ty */ fabric.util.getBoundsOfArc = function(fx, fy, rx, ry, rot, large, sweep, tx, ty) { var fromX = 0, fromY = 0, bound, bounds = [], segs = arcToSegments(tx - fx, ty - fy, rx, ry, large, sweep, rot); for (var i = 0, len = segs.length; i < len; i++) { bound = getBoundsOfCurve(fromX, fromY, segs[i][0], segs[i][1], segs[i][2], segs[i][3], segs[i][4], segs[i][5]); bounds.push({ x: bound[0].x + fx, y: bound[0].y + fy }); bounds.push({ x: bound[1].x + fx, y: bound[1].y + fy }); fromX = segs[i][4]; fromY = segs[i][5]; } return bounds; }; /** * Calculate bounding box of a beziercurve * @param {Number} x0 starting point * @param {Number} y0 * @param {Number} x1 first control point * @param {Number} y1 * @param {Number} x2 secondo control point * @param {Number} y2 * @param {Number} x3 end of beizer * @param {Number} y3 */ // taken from http://jsbin.com/ivomiq/56/edit no credits available for that. function getBoundsOfCurve(x0, y0, x1, y1, x2, y2, x3, y3) { var argsString = _join.call(arguments); if (boundsOfCurveCache[argsString]) { return boundsOfCurveCache[argsString]; } var sqrt = Math.sqrt, min = Math.min, max = Math.max, abs = Math.abs, tvalues = [], bounds = [[], []], a, b, c, t, t1, t2, b2ac, sqrtb2ac; b = 6 * x0 - 12 * x1 + 6 * x2; a = -3 * x0 + 9 * x1 - 9 * x2 + 3 * x3; c = 3 * x1 - 3 * x0; for (var i = 0; i < 2; ++i) { if (i > 0) { b = 6 * y0 - 12 * y1 + 6 * y2; a = -3 * y0 + 9 * y1 - 9 * y2 + 3 * y3; c = 3 * y1 - 3 * y0; } if (abs(a) < 1e-12) { if (abs(b) < 1e-12) { continue; } t = -c / b; if (0 < t && t < 1) { tvalues.push(t); } continue; } b2ac = b * b - 4 * c * a; if (b2ac < 0) { continue; } sqrtb2ac = sqrt(b2ac); t1 = (-b + sqrtb2ac) / (2 * a); if (0 < t1 && t1 < 1) { tvalues.push(t1); } t2 = (-b - sqrtb2ac) / (2 * a); if (0 < t2 && t2 < 1) { tvalues.push(t2); } } var x, y, j = tvalues.length, jlen = j, mt; while (j--) { t = tvalues[j]; mt = 1 - t; x = (mt * mt * mt * x0) + (3 * mt * mt * t * x1) + (3 * mt * t * t * x2) + (t * t * t * x3); bounds[0][j] = x; y = (mt * mt * mt * y0) + (3 * mt * mt * t * y1) + (3 * mt * t * t * y2) + (t * t * t * y3); bounds[1][j] = y; } bounds[0][jlen] = x0; bounds[1][jlen] = y0; bounds[0][jlen + 1] = x3; bounds[1][jlen + 1] = y3; var result = [ { x: min.apply(null, bounds[0]), y: min.apply(null, bounds[1]) }, { x: max.apply(null, bounds[0]), y: max.apply(null, bounds[1]) } ]; boundsOfCurveCache[argsString] = result; return result; } fabric.util.getBoundsOfCurve = getBoundsOfCurve; })(); (function() { var slice = Array.prototype.slice; /* _ES5_COMPAT_START_ */ if (!Array.prototype.indexOf) { /** * Finds index of an element in an array * @param {*} searchElement * @return {Number} */ Array.prototype.indexOf = function (searchElement /*, fromIndex */ ) { if (this === void 0 || this === null) { throw new TypeError(); } var t = Object(this), len = t.length >>> 0; if (len === 0) { return -1; } var n = 0; if (arguments.length > 0) { n = Number(arguments[1]); if (n !== n) { // shortcut for verifying if it's NaN n = 0; } else if (n !== 0 && n !== Number.POSITIVE_INFINITY && n !== Number.NEGATIVE_INFINITY) { n = (n > 0 || -1) * Math.floor(Math.abs(n)); } } if (n >= len) { return -1; } var k = n >= 0 ? n : Math.max(len - Math.abs(n), 0); for (; k < len; k++) { if (k in t && t[k] === searchElement) { return k; } } return -1; }; } if (!Array.prototype.forEach) { /** * Iterates an array, invoking callback for each element * @param {Function} fn Callback to invoke for each element * @param {Object} [context] Context to invoke callback in * @return {Array} */ Array.prototype.forEach = function(fn, context) { for (var i = 0, len = this.length >>> 0; i < len; i++) { if (i in this) { fn.call(context, this[i], i, this); } } }; } if (!Array.prototype.map) { /** * Returns a result of iterating over an array, invoking callback for each element * @param {Function} fn Callback to invoke for each element * @param {Object} [context] Context to invoke callback in * @return {Array} */ Array.prototype.map = function(fn, context) { var result = []; for (var i = 0, len = this.length >>> 0; i < len; i++) { if (i in this) { result[i] = fn.call(context, this[i], i, this); } } return result; }; } if (!Array.prototype.every) { /** * Returns true if a callback returns truthy value for all elements in an array * @param {Function} fn Callback to invoke for each element * @param {Object} [context] Context to invoke callback in * @return {Boolean} */ Array.prototype.every = function(fn, context) { for (var i = 0, len = this.length >>> 0; i < len; i++) { if (i in this && !fn.call(context, this[i], i, this)) { return false; } } return true; }; } if (!Array.prototype.some) { /** * Returns true if a callback returns truthy value for at least one element in an array * @param {Function} fn Callback to invoke for each element * @param {Object} [context] Context to invoke callback in * @return {Boolean} */ Array.prototype.some = function(fn, context) { for (var i = 0, len = this.length >>> 0; i < len; i++) { if (i in this && fn.call(context, this[i], i, this)) { return true; } } return false; }; } if (!Array.prototype.filter) { /** * Returns the result of iterating over elements in an array * @param {Function} fn Callback to invoke for each element * @param {Object} [context] Context to invoke callback in * @return {Array} */ Array.prototype.filter = function(fn, context) { var result = [], val; for (var i = 0, len = this.length >>> 0; i < len; i++) { if (i in this) { val = this[i]; // in case fn mutates this if (fn.call(context, val, i, this)) { result.push(val); } } } return result; }; } if (!Array.prototype.reduce) { /** * Returns "folded" (reduced) result of iterating over elements in an array * @param {Function} fn Callback to invoke for each element * @return {*} */ Array.prototype.reduce = function(fn /*, initial*/) { var len = this.length >>> 0, i = 0, rv; if (arguments.length > 1) { rv = arguments[1]; } else { do { if (i in this) { rv = this[i++]; break; } // if array contains no values, no initial value to return if (++i >= len) { throw new TypeError(); } } while (true); } for (; i < len; i++) { if (i in this) { rv = fn.call(null, rv, this[i], i, this); } } return rv; }; } /* _ES5_COMPAT_END_ */ /** * Invokes method on all items in a given array * @memberOf fabric.util.array * @param {Array} array Array to iterate over * @param {String} method Name of a method to invoke * @return {Array} */ function invoke(array, method) { var args = slice.call(arguments, 2), result = []; for (var i = 0, len = array.length; i < len; i++) { result[i] = args.length ? array[i][method].apply(array[i], args) : array[i][method].call(array[i]); } return result; } /** * Finds maximum value in array (not necessarily "first" one) * @memberOf fabric.util.array * @param {Array} array Array to iterate over * @param {String} byProperty * @return {*} */ function max(array, byProperty) { return find(array, byProperty, function(value1, value2) { return value1 >= value2; }); } /** * Finds minimum value in array (not necessarily "first" one) * @memberOf fabric.util.array * @param {Array} array Array to iterate over * @param {String} byProperty * @return {*} */ function min(array, byProperty) { return find(array, byProperty, function(value1, value2) { return value1 < value2; }); } /** * @private */ function fill(array, value) { var k = array.length; while (k--) { array[k] = value; } return array; } /** * @private */ function find(array, byProperty, condition) { if (!array || array.length === 0) { return; } var i = array.length - 1, result = byProperty ? array[i][byProperty] : array[i]; if (byProperty) { while (i--) { if (condition(array[i][byProperty], result)) { result = array[i][byProperty]; } } } else { while (i--) { if (condition(array[i], result)) { result = array[i]; } } } return result; } /** * @namespace fabric.util.array */ fabric.util.array = { fill: fill, invoke: invoke, min: min, max: max }; })(); (function() { /** * Copies all enumerable properties of one object to another * @memberOf fabric.util.object * @param {Object} destination Where to copy to * @param {Object} source Where to copy from * @return {Object} */ function extend(destination, source, deep) { // JScript DontEnum bug is not taken care of // the deep clone is for internal use, is not meant to avoid // javascript traps or cloning html element or self referenced objects. if (deep) { if (!fabric.isLikelyNode && source instanceof Element) { // avoid cloning deep images, canvases, destination = source; } else if (source instanceof Array) { destination = source.map(function(v) { return clone(v, deep) }) } else if (source instanceof Object) { for (var property in source) { destination[property] = clone(source[property], deep) } } else { // this sounds odd for an extend but is ok for recursive use destination = source; } } else { for (var property in source) { destination[property] = source[property]; } } return destination; } /** * Creates an empty object and copies all enumerable properties of another object to it * @memberOf fabric.util.object * @param {Object} object Object to clone * @return {Object} */ function clone(object, deep) { return extend({ }, object, deep); } /** @namespace fabric.util.object */ fabric.util.object = { extend: extend, clone: clone }; })(); (function() { /* _ES5_COMPAT_START_ */ if (!String.prototype.trim) { /** * Trims a string (removing whitespace from the beginning and the end) * @function external:String#trim * @see String#trim on MDN */ String.prototype.trim = function () { // this trim is not fully ES3 or ES5 compliant, but it should cover most cases for now return this.replace(/^[\s\xA0]+/, '').replace(/[\s\xA0]+$/, ''); }; } /* _ES5_COMPAT_END_ */ /** * Camelizes a string * @memberOf fabric.util.string * @param {String} string String to camelize * @return {String} Camelized version of a string */ function camelize(string) { return string.replace(/-+(.)?/g, function(match, character) { return character ? character.toUpperCase() : ''; }); } /** * Capitalizes a string * @memberOf fabric.util.string * @param {String} string String to capitalize * @param {Boolean} [firstLetterOnly] If true only first letter is capitalized * and other letters stay untouched, if false first letter is capitalized * and other letters are converted to lowercase. * @return {String} Capitalized version of a string */ function capitalize(string, firstLetterOnly) { return string.charAt(0).toUpperCase() + (firstLetterOnly ? string.slice(1) : string.slice(1).toLowerCase()); } /** * Escapes XML in a string * @memberOf fabric.util.string * @param {String} string String to escape * @return {String} Escaped version of a string */ function escapeXml(string) { return string.replace(/&/g, '&') .replace(/"/g, '"') .replace(/'/g, ''') .replace(//g, '>'); } /** * String utilities * @namespace fabric.util.string */ fabric.util.string = { camelize: camelize, capitalize: capitalize, escapeXml: escapeXml }; })(); /* _ES5_COMPAT_START_ */ (function() { var slice = Array.prototype.slice, apply = Function.prototype.apply, Dummy = function() { }; if (!Function.prototype.bind) { /** * Cross-browser approximation of ES5 Function.prototype.bind (not fully spec conforming) * @see Function#bind on MDN * @param {Object} thisArg Object to bind function to * @param {Any[]} Values to pass to a bound function * @return {Function} */ Function.prototype.bind = function(thisArg) { var _this = this, args = slice.call(arguments, 1), bound; if (args.length) { bound = function() { return apply.call(_this, this instanceof Dummy ? this : thisArg, args.concat(slice.call(arguments))); }; } else { /** @ignore */ bound = function() { return apply.call(_this, this instanceof Dummy ? this : thisArg, arguments); }; } Dummy.prototype = this.prototype; bound.prototype = new Dummy(); return bound; }; } })(); /* _ES5_COMPAT_END_ */ (function() { var slice = Array.prototype.slice, emptyFunction = function() { }, IS_DONTENUM_BUGGY = (function() { for (var p in { toString: 1 }) { if (p === 'toString') { return false; } } return true; })(), /** @ignore */ addMethods = function(klass, source, parent) { for (var property in source) { if (property in klass.prototype && typeof klass.prototype[property] === 'function' && (source[property] + '').indexOf('callSuper') > -1) { klass.prototype[property] = (function(property) { return function() { var superclass = this.constructor.superclass; this.constructor.superclass = parent; var returnValue = source[property].apply(this, arguments); this.constructor.superclass = superclass; if (property !== 'initialize') { return returnValue; } }; })(property); } else { klass.prototype[property] = source[property]; } if (IS_DONTENUM_BUGGY) { if (source.toString !== Object.prototype.toString) { klass.prototype.toString = source.toString; } if (source.valueOf !== Object.prototype.valueOf) { klass.prototype.valueOf = source.valueOf; } } } }; function Subclass() { } function callSuper(methodName) { var fn = this.constructor.superclass.prototype[methodName]; return (arguments.length > 1) ? fn.apply(this, slice.call(arguments, 1)) : fn.call(this); } /** * Helper for creation of "classes". * @memberOf fabric.util * @param {Function} [parent] optional "Class" to inherit from * @param {Object} [properties] Properties shared by all instances of this class * (be careful modifying objects defined here as this would affect all instances) */ function createClass() { var parent = null, properties = slice.call(arguments, 0); if (typeof properties[0] === 'function') { parent = properties.shift(); } function klass() { this.initialize.apply(this, arguments); } klass.superclass = parent; klass.subclasses = []; if (parent) { Subclass.prototype = parent.prototype; klass.prototype = new Subclass(); parent.subclasses.push(klass); } for (var i = 0, length = properties.length; i < length; i++) { addMethods(klass, properties[i], parent); } if (!klass.prototype.initialize) { klass.prototype.initialize = emptyFunction; } klass.prototype.constructor = klass; klass.prototype.callSuper = callSuper; return klass; } fabric.util.createClass = createClass; })(); (function () { var unknown = 'unknown'; /* EVENT HANDLING */ function areHostMethods(object) { var methodNames = Array.prototype.slice.call(arguments, 1), t, i, len = methodNames.length; for (i = 0; i < len; i++) { t = typeof object[methodNames[i]]; if (!(/^(?:function|object|unknown)$/).test(t)) { return false; } } return true; } /** @ignore */ var getElement, setElement, getUniqueId = (function () { var uid = 0; return function (element) { return element.__uniqueID || (element.__uniqueID = 'uniqueID__' + uid++); }; })(); (function () { var elements = { }; /** @ignore */ getElement = function (uid) { return elements[uid]; }; /** @ignore */ setElement = function (uid, element) { elements[uid] = element; }; })(); function createListener(uid, handler) { return { handler: handler, wrappedHandler: createWrappedHandler(uid, handler) }; } function createWrappedHandler(uid, handler) { return function (e) { handler.call(getElement(uid), e || fabric.window.event); }; } function createDispatcher(uid, eventName) { return function (e) { if (handlers[uid] && handlers[uid][eventName]) { var handlersForEvent = handlers[uid][eventName]; for (var i = 0, len = handlersForEvent.length; i < len; i++) { handlersForEvent[i].call(this, e || fabric.window.event); } } }; } var shouldUseAddListenerRemoveListener = ( areHostMethods(fabric.document.documentElement, 'addEventListener', 'removeEventListener') && areHostMethods(fabric.window, 'addEventListener', 'removeEventListener')), shouldUseAttachEventDetachEvent = ( areHostMethods(fabric.document.documentElement, 'attachEvent', 'detachEvent') && areHostMethods(fabric.window, 'attachEvent', 'detachEvent')), // IE branch listeners = { }, // DOM L0 branch handlers = { }, addListener, removeListener; if (shouldUseAddListenerRemoveListener) { /** @ignore */ addListener = function (element, eventName, handler) { element.addEventListener(eventName, handler, false); }; /** @ignore */ removeListener = function (element, eventName, handler) { element.removeEventListener(eventName, handler, false); }; } else if (shouldUseAttachEventDetachEvent) { /** @ignore */ addListener = function (element, eventName, handler) { var uid = getUniqueId(element); setElement(uid, element); if (!listeners[uid]) { listeners[uid] = { }; } if (!listeners[uid][eventName]) { listeners[uid][eventName] = []; } var listener = createListener(uid, handler); listeners[uid][eventName].push(listener); element.attachEvent('on' + eventName, listener.wrappedHandler); }; /** @ignore */ removeListener = function (element, eventName, handler) { var uid = getUniqueId(element), listener; if (listeners[uid] && listeners[uid][eventName]) { for (var i = 0, len = listeners[uid][eventName].length; i < len; i++) { listener = listeners[uid][eventName][i]; if (listener && listener.handler === handler) { element.detachEvent('on' + eventName, listener.wrappedHandler); listeners[uid][eventName][i] = null; } } } }; } else { /** @ignore */ addListener = function (element, eventName, handler) { var uid = getUniqueId(element); if (!handlers[uid]) { handlers[uid] = { }; } if (!handlers[uid][eventName]) { handlers[uid][eventName] = []; var existingHandler = element['on' + eventName]; if (existingHandler) { handlers[uid][eventName].push(existingHandler); } element['on' + eventName] = createDispatcher(uid, eventName); } handlers[uid][eventName].push(handler); }; /** @ignore */ removeListener = function (element, eventName, handler) { var uid = getUniqueId(element); if (handlers[uid] && handlers[uid][eventName]) { var handlersForEvent = handlers[uid][eventName]; for (var i = 0, len = handlersForEvent.length; i < len; i++) { if (handlersForEvent[i] === handler) { handlersForEvent.splice(i, 1); } } } }; } /** * Adds an event listener to an element * @function * @memberOf fabric.util * @param {HTMLElement} element * @param {String} eventName * @param {Function} handler */ fabric.util.addListener = addListener; /** * Removes an event listener from an element * @function * @memberOf fabric.util * @param {HTMLElement} element * @param {String} eventName * @param {Function} handler */ fabric.util.removeListener = removeListener; /** * Cross-browser wrapper for getting event's coordinates * @memberOf fabric.util * @param {Event} event Event object */ function getPointer(event) { event || (event = fabric.window.event); var element = event.target || (typeof event.srcElement !== unknown ? event.srcElement : null), scroll = fabric.util.getScrollLeftTop(element); return { x: pointerX(event) + scroll.left, y: pointerY(event) + scroll.top }; } var pointerX = function(event) { // looks like in IE (<9) clientX at certain point (apparently when mouseup fires on VML element) // is represented as COM object, with all the consequences, like "unknown" type and error on [[Get]] // need to investigate later return (typeof event.clientX !== unknown ? event.clientX : 0); }, pointerY = function(event) { return (typeof event.clientY !== unknown ? event.clientY : 0); }; function _getPointer(event, pageProp, clientProp) { var touchProp = event.type === 'touchend' ? 'changedTouches' : 'touches'; return (event[touchProp] && event[touchProp][0] ? (event[touchProp][0][pageProp] - (event[touchProp][0][pageProp] - event[touchProp][0][clientProp])) || event[clientProp] : event[clientProp]); } if (fabric.isTouchSupported) { pointerX = function(event) { return _getPointer(event, 'pageX', 'clientX'); }; pointerY = function(event) { return _getPointer(event, 'pageY', 'clientY'); }; } fabric.util.getPointer = getPointer; fabric.util.object.extend(fabric.util, fabric.Observable); })(); (function () { /** * Cross-browser wrapper for setting element's style * @memberOf fabric.util * @param {HTMLElement} element * @param {Object} styles * @return {HTMLElement} Element that was passed as a first argument */ function setStyle(element, styles) { var elementStyle = element.style; if (!elementStyle) { return element; } if (typeof styles === 'string') { element.style.cssText += ';' + styles; return styles.indexOf('opacity') > -1 ? setOpacity(element, styles.match(/opacity:\s*(\d?\.?\d*)/)[1]) : element; } for (var property in styles) { if (property === 'opacity') { setOpacity(element, styles[property]); } else { var normalizedProperty = (property === 'float' || property === 'cssFloat') ? (typeof elementStyle.styleFloat === 'undefined' ? 'cssFloat' : 'styleFloat') : property; elementStyle[normalizedProperty] = styles[property]; } } return element; } var parseEl = fabric.document.createElement('div'), supportsOpacity = typeof parseEl.style.opacity === 'string', supportsFilters = typeof parseEl.style.filter === 'string', reOpacity = /alpha\s*\(\s*opacity\s*=\s*([^\)]+)\)/, /** @ignore */ setOpacity = function (element) { return element; }; if (supportsOpacity) { /** @ignore */ setOpacity = function(element, value) { element.style.opacity = value; return element; }; } else if (supportsFilters) { /** @ignore */ setOpacity = function(element, value) { var es = element.style; if (element.currentStyle && !element.currentStyle.hasLayout) { es.zoom = 1; } if (reOpacity.test(es.filter)) { value = value >= 0.9999 ? '' : ('alpha(opacity=' + (value * 100) + ')'); es.filter = es.filter.replace(reOpacity, value); } else { es.filter += ' alpha(opacity=' + (value * 100) + ')'; } return element; }; } fabric.util.setStyle = setStyle; })(); (function() { var _slice = Array.prototype.slice; /** * Takes id and returns an element with that id (if one exists in a document) * @memberOf fabric.util * @param {String|HTMLElement} id * @return {HTMLElement|null} */ function getById(id) { return typeof id === 'string' ? fabric.document.getElementById(id) : id; } var sliceCanConvertNodelists, /** * Converts an array-like object (e.g. arguments or NodeList) to an array * @memberOf fabric.util * @param {Object} arrayLike * @return {Array} */ toArray = function(arrayLike) { return _slice.call(arrayLike, 0); }; try { sliceCanConvertNodelists = toArray(fabric.document.childNodes) instanceof Array; } catch (err) { } if (!sliceCanConvertNodelists) { toArray = function(arrayLike) { var arr = new Array(arrayLike.length), i = arrayLike.length; while (i--) { arr[i] = arrayLike[i]; } return arr; }; } /** * Creates specified element with specified attributes * @memberOf fabric.util * @param {String} tagName Type of an element to create * @param {Object} [attributes] Attributes to set on an element * @return {HTMLElement} Newly created element */ function makeElement(tagName, attributes) { var el = fabric.document.createElement(tagName); for (var prop in attributes) { if (prop === 'class') { el.className = attributes[prop]; } else if (prop === 'for') { el.htmlFor = attributes[prop]; } else { el.setAttribute(prop, attributes[prop]); } } return el; } /** * Adds class to an element * @memberOf fabric.util * @param {HTMLElement} element Element to add class to * @param {String} className Class to add to an element */ function addClass(element, className) { if (element && (' ' + element.className + ' ').indexOf(' ' + className + ' ') === -1) { element.className += (element.className ? ' ' : '') + className; } } /** * Wraps element with another element * @memberOf fabric.util * @param {HTMLElement} element Element to wrap * @param {HTMLElement|String} wrapper Element to wrap with * @param {Object} [attributes] Attributes to set on a wrapper * @return {HTMLElement} wrapper */ function wrapElement(element, wrapper, attributes) { if (typeof wrapper === 'string') { wrapper = makeElement(wrapper, attributes); } if (element.parentNode) { element.parentNode.replaceChild(wrapper, element); } wrapper.appendChild(element); return wrapper; } /** * Returns element scroll offsets * @memberOf fabric.util * @param {HTMLElement} element Element to operate on * @return {Object} Object with left/top values */ function getScrollLeftTop(element) { var left = 0, top = 0, docElement = fabric.document.documentElement, body = fabric.document.body || { scrollLeft: 0, scrollTop: 0 }; // While loop checks (and then sets element to) .parentNode OR .host // to account for ShadowDOM. We still want to traverse up out of ShadowDOM, // but the .parentNode of a root ShadowDOM node will always be null, instead // it should be accessed through .host. See http://stackoverflow.com/a/24765528/4383938 while (element && (element.parentNode || element.host)) { // Set element to element parent, or 'host' in case of ShadowDOM element = element.parentNode || element.host; if (element === fabric.document) { left = body.scrollLeft || docElement.scrollLeft || 0; top = body.scrollTop || docElement.scrollTop || 0; } else { left += element.scrollLeft || 0; top += element.scrollTop || 0; } if (element.nodeType === 1 && fabric.util.getElementStyle(element, 'position') === 'fixed') { break; } } return { left: left, top: top }; } /** * Returns offset for a given element * @function * @memberOf fabric.util * @param {HTMLElement} element Element to get offset for * @return {Object} Object with "left" and "top" properties */ function getElementOffset(element) { var docElem, doc = element && element.ownerDocument, box = { left: 0, top: 0 }, offset = { left: 0, top: 0 }, scrollLeftTop, offsetAttributes = { borderLeftWidth: 'left', borderTopWidth: 'top', paddingLeft: 'left', paddingTop: 'top' }; if (!doc) { return offset; } for (var attr in offsetAttributes) { offset[offsetAttributes[attr]] += parseInt(getElementStyle(element, attr), 10) || 0; } docElem = doc.documentElement; if ( typeof element.getBoundingClientRect !== 'undefined' ) { box = element.getBoundingClientRect(); } scrollLeftTop = getScrollLeftTop(element); return { left: box.left + scrollLeftTop.left - (docElem.clientLeft || 0) + offset.left, top: box.top + scrollLeftTop.top - (docElem.clientTop || 0) + offset.top }; } /** * Returns style attribute value of a given element * @memberOf fabric.util * @param {HTMLElement} element Element to get style attribute for * @param {String} attr Style attribute to get for element * @return {String} Style attribute value of the given element. */ var getElementStyle; if (fabric.document.defaultView && fabric.document.defaultView.getComputedStyle) { getElementStyle = function(element, attr) { var style = fabric.document.defaultView.getComputedStyle(element, null); return style ? style[attr] : undefined; }; } else { getElementStyle = function(element, attr) { var value = element.style[attr]; if (!value && element.currentStyle) { value = element.currentStyle[attr]; } return value; }; } (function () { var style = fabric.document.documentElement.style, selectProp = 'userSelect' in style ? 'userSelect' : 'MozUserSelect' in style ? 'MozUserSelect' : 'WebkitUserSelect' in style ? 'WebkitUserSelect' : 'KhtmlUserSelect' in style ? 'KhtmlUserSelect' : ''; /** * Makes element unselectable * @memberOf fabric.util * @param {HTMLElement} element Element to make unselectable * @return {HTMLElement} Element that was passed in */ function makeElementUnselectable(element) { if (typeof element.onselectstart !== 'undefined') { element.onselectstart = fabric.util.falseFunction; } if (selectProp) { element.style[selectProp] = 'none'; } else if (typeof element.unselectable === 'string') { element.unselectable = 'on'; } return element; } /** * Makes element selectable * @memberOf fabric.util * @param {HTMLElement} element Element to make selectable * @return {HTMLElement} Element that was passed in */ function makeElementSelectable(element) { if (typeof element.onselectstart !== 'undefined') { element.onselectstart = null; } if (selectProp) { element.style[selectProp] = ''; } else if (typeof element.unselectable === 'string') { element.unselectable = ''; } return element; } fabric.util.makeElementUnselectable = makeElementUnselectable; fabric.util.makeElementSelectable = makeElementSelectable; })(); (function() { /** * Inserts a script element with a given url into a document; invokes callback, when that script is finished loading * @memberOf fabric.util * @param {String} url URL of a script to load * @param {Function} callback Callback to execute when script is finished loading */ function getScript(url, callback) { var headEl = fabric.document.getElementsByTagName('head')[0], scriptEl = fabric.document.createElement('script'), loading = true; /** @ignore */ scriptEl.onload = /** @ignore */ scriptEl.onreadystatechange = function(e) { if (loading) { if (typeof this.readyState === 'string' && this.readyState !== 'loaded' && this.readyState !== 'complete') { return; } loading = false; callback(e || fabric.window.event); scriptEl = scriptEl.onload = scriptEl.onreadystatechange = null; } }; scriptEl.src = url; headEl.appendChild(scriptEl); // causes issue in Opera // headEl.removeChild(scriptEl); } fabric.util.getScript = getScript; })(); fabric.util.getById = getById; fabric.util.toArray = toArray; fabric.util.makeElement = makeElement; fabric.util.addClass = addClass; fabric.util.wrapElement = wrapElement; fabric.util.getScrollLeftTop = getScrollLeftTop; fabric.util.getElementOffset = getElementOffset; fabric.util.getElementStyle = getElementStyle; })(); (function() { function addParamToUrl(url, param) { return url + (/\?/.test(url) ? '&' : '?') + param; } var makeXHR = (function() { var factories = [ function() { return new ActiveXObject('Microsoft.XMLHTTP'); }, function() { return new ActiveXObject('Msxml2.XMLHTTP'); }, function() { return new ActiveXObject('Msxml2.XMLHTTP.3.0'); }, function() { return new XMLHttpRequest(); } ]; for (var i = factories.length; i--; ) { try { var req = factories[i](); if (req) { return factories[i]; } } catch (err) { } } })(); function emptyFn() { } /** * Cross-browser abstraction for sending XMLHttpRequest * @memberOf fabric.util * @param {String} url URL to send XMLHttpRequest to * @param {Object} [options] Options object * @param {String} [options.method="GET"] * @param {String} [options.parameters] parameters to append to url in GET or in body * @param {String} [options.body] body to send with POST or PUT request * @param {Function} options.onComplete Callback to invoke when request is completed * @return {XMLHttpRequest} request */ function request(url, options) { options || (options = { }); var method = options.method ? options.method.toUpperCase() : 'GET', onComplete = options.onComplete || function() { }, xhr = makeXHR(), body = options.body || options.parameters; /** @ignore */ xhr.onreadystatechange = function() { if (xhr.readyState === 4) { onComplete(xhr); xhr.onreadystatechange = emptyFn; } }; if (method === 'GET') { body = null; if (typeof options.parameters === 'string') { url = addParamToUrl(url, options.parameters); } } xhr.open(method, url, true); if (method === 'POST' || method === 'PUT') { xhr.setRequestHeader('Content-Type', 'application/x-www-form-urlencoded'); } xhr.send(body); return xhr; } fabric.util.request = request; })(); /** * Wrapper around `console.log` (when available) * @param {*} [values] Values to log */ fabric.log = function() { }; /** * Wrapper around `console.warn` (when available) * @param {*} [values] Values to log as a warning */ fabric.warn = function() { }; /* eslint-disable */ if (typeof console !== 'undefined') { ['log', 'warn'].forEach(function(methodName) { if (typeof console[methodName] !== 'undefined' && typeof console[methodName].apply === 'function') { fabric[methodName] = function() { return console[methodName].apply(console, arguments); }; } }); } /* eslint-enable */ (function() { /** * Changes value from one to another within certain period of time, invoking callbacks as value is being changed. * @memberOf fabric.util * @param {Object} [options] Animation options * @param {Function} [options.onChange] Callback; invoked on every value change * @param {Function} [options.onComplete] Callback; invoked when value change is completed * @param {Number} [options.startValue=0] Starting value * @param {Number} [options.endValue=100] Ending value * @param {Number} [options.byValue=100] Value to modify the property by * @param {Function} [options.easing] Easing function * @param {Number} [options.duration=500] Duration of change (in ms) */ function animate(options) { requestAnimFrame(function(timestamp) { options || (options = { }); var start = timestamp || +new Date(), duration = options.duration || 500, finish = start + duration, time, onChange = options.onChange || function() { }, abort = options.abort || function() { return false; }, easing = options.easing || function(t, b, c, d) {return -c * Math.cos(t / d * (Math.PI / 2)) + c + b;}, startValue = 'startValue' in options ? options.startValue : 0, endValue = 'endValue' in options ? options.endValue : 100, byValue = options.byValue || endValue - startValue; options.onStart && options.onStart(); (function tick(ticktime) { time = ticktime || +new Date(); var currentTime = time > finish ? duration : (time - start); if (abort()) { options.onComplete && options.onComplete(); return; } onChange(easing(currentTime, startValue, byValue, duration)); if (time > finish) { options.onComplete && options.onComplete(); return; } requestAnimFrame(tick); })(start); }); } var _requestAnimFrame = fabric.window.requestAnimationFrame || fabric.window.webkitRequestAnimationFrame || fabric.window.mozRequestAnimationFrame || fabric.window.oRequestAnimationFrame || fabric.window.msRequestAnimationFrame || function(callback) { fabric.window.setTimeout(callback, 1000 / 60); }; /** * requestAnimationFrame polyfill based on http://paulirish.com/2011/requestanimationframe-for-smart-animating/ * In order to get a precise start time, `requestAnimFrame` should be called as an entry into the method * @memberOf fabric.util * @param {Function} callback Callback to invoke * @param {DOMElement} element optional Element to associate with animation */ function requestAnimFrame() { return _requestAnimFrame.apply(fabric.window, arguments); } fabric.util.animate = animate; fabric.util.requestAnimFrame = requestAnimFrame; })(); (function() { function normalize(a, c, p, s) { if (a < Math.abs(c)) { a = c; s = p / 4; } else { //handle the 0/0 case: if (c === 0 && a === 0) { s = p / (2 * Math.PI) * Math.asin(1); } else { s = p / (2 * Math.PI) * Math.asin(c / a); } } return { a: a, c: c, p: p, s: s }; } function elastic(opts, t, d) { return opts.a * Math.pow(2, 10 * (t -= 1)) * Math.sin( (t * d - opts.s) * (2 * Math.PI) / opts.p ); } /** * Cubic easing out * @memberOf fabric.util.ease */ function easeOutCubic(t, b, c, d) { return c * ((t = t / d - 1) * t * t + 1) + b; } /** * Cubic easing in and out * @memberOf fabric.util.ease */ function easeInOutCubic(t, b, c, d) { t /= d / 2; if (t < 1) { return c / 2 * t * t * t + b; } return c / 2 * ((t -= 2) * t * t + 2) + b; } /** * Quartic easing in * @memberOf fabric.util.ease */ function easeInQuart(t, b, c, d) { return c * (t /= d) * t * t * t + b; } /** * Quartic easing out * @memberOf fabric.util.ease */ function easeOutQuart(t, b, c, d) { return -c * ((t = t / d - 1) * t * t * t - 1) + b; } /** * Quartic easing in and out * @memberOf fabric.util.ease */ function easeInOutQuart(t, b, c, d) { t /= d / 2; if (t < 1) { return c / 2 * t * t * t * t + b; } return -c / 2 * ((t -= 2) * t * t * t - 2) + b; } /** * Quintic easing in * @memberOf fabric.util.ease */ function easeInQuint(t, b, c, d) { return c * (t /= d) * t * t * t * t + b; } /** * Quintic easing out * @memberOf fabric.util.ease */ function easeOutQuint(t, b, c, d) { return c * ((t = t / d - 1) * t * t * t * t + 1) + b; } /** * Quintic easing in and out * @memberOf fabric.util.ease */ function easeInOutQuint(t, b, c, d) { t /= d / 2; if (t < 1) { return c / 2 * t * t * t * t * t + b; } return c / 2 * ((t -= 2) * t * t * t * t + 2) + b; } /** * Sinusoidal easing in * @memberOf fabric.util.ease */ function easeInSine(t, b, c, d) { return -c * Math.cos(t / d * (Math.PI / 2)) + c + b; } /** * Sinusoidal easing out * @memberOf fabric.util.ease */ function easeOutSine(t, b, c, d) { return c * Math.sin(t / d * (Math.PI / 2)) + b; } /** * Sinusoidal easing in and out * @memberOf fabric.util.ease */ function easeInOutSine(t, b, c, d) { return -c / 2 * (Math.cos(Math.PI * t / d) - 1) + b; } /** * Exponential easing in * @memberOf fabric.util.ease */ function easeInExpo(t, b, c, d) { return (t === 0) ? b : c * Math.pow(2, 10 * (t / d - 1)) + b; } /** * Exponential easing out * @memberOf fabric.util.ease */ function easeOutExpo(t, b, c, d) { return (t === d) ? b + c : c * (-Math.pow(2, -10 * t / d) + 1) + b; } /** * Exponential easing in and out * @memberOf fabric.util.ease */ function easeInOutExpo(t, b, c, d) { if (t === 0) { return b; } if (t === d) { return b + c; } t /= d / 2; if (t < 1) { return c / 2 * Math.pow(2, 10 * (t - 1)) + b; } return c / 2 * (-Math.pow(2, -10 * --t) + 2) + b; } /** * Circular easing in * @memberOf fabric.util.ease */ function easeInCirc(t, b, c, d) { return -c * (Math.sqrt(1 - (t /= d) * t) - 1) + b; } /** * Circular easing out * @memberOf fabric.util.ease */ function easeOutCirc(t, b, c, d) { return c * Math.sqrt(1 - (t = t / d - 1) * t) + b; } /** * Circular easing in and out * @memberOf fabric.util.ease */ function easeInOutCirc(t, b, c, d) { t /= d / 2; if (t < 1) { return -c / 2 * (Math.sqrt(1 - t * t) - 1) + b; } return c / 2 * (Math.sqrt(1 - (t -= 2) * t) + 1) + b; } /** * Elastic easing in * @memberOf fabric.util.ease */ function easeInElastic(t, b, c, d) { var s = 1.70158, p = 0, a = c; if (t === 0) { return b; } t /= d; if (t === 1) { return b + c; } if (!p) { p = d * 0.3; } var opts = normalize(a, c, p, s); return -elastic(opts, t, d) + b; } /** * Elastic easing out * @memberOf fabric.util.ease */ function easeOutElastic(t, b, c, d) { var s = 1.70158, p = 0, a = c; if (t === 0) { return b; } t /= d; if (t === 1) { return b + c; } if (!p) { p = d * 0.3; } var opts = normalize(a, c, p, s); return opts.a * Math.pow(2, -10 * t) * Math.sin((t * d - opts.s) * (2 * Math.PI) / opts.p ) + opts.c + b; } /** * Elastic easing in and out * @memberOf fabric.util.ease */ function easeInOutElastic(t, b, c, d) { var s = 1.70158, p = 0, a = c; if (t === 0) { return b; } t /= d / 2; if (t === 2) { return b + c; } if (!p) { p = d * (0.3 * 1.5); } var opts = normalize(a, c, p, s); if (t < 1) { return -0.5 * elastic(opts, t, d) + b; } return opts.a * Math.pow(2, -10 * (t -= 1)) * Math.sin((t * d - opts.s) * (2 * Math.PI) / opts.p ) * 0.5 + opts.c + b; } /** * Backwards easing in * @memberOf fabric.util.ease */ function easeInBack(t, b, c, d, s) { if (s === undefined) { s = 1.70158; } return c * (t /= d) * t * ((s + 1) * t - s) + b; } /** * Backwards easing out * @memberOf fabric.util.ease */ function easeOutBack(t, b, c, d, s) { if (s === undefined) { s = 1.70158; } return c * ((t = t / d - 1) * t * ((s + 1) * t + s) + 1) + b; } /** * Backwards easing in and out * @memberOf fabric.util.ease */ function easeInOutBack(t, b, c, d, s) { if (s === undefined) { s = 1.70158; } t /= d / 2; if (t < 1) { return c / 2 * (t * t * (((s *= (1.525)) + 1) * t - s)) + b; } return c / 2 * ((t -= 2) * t * (((s *= (1.525)) + 1) * t + s) + 2) + b; } /** * Bouncing easing in * @memberOf fabric.util.ease */ function easeInBounce(t, b, c, d) { return c - easeOutBounce (d - t, 0, c, d) + b; } /** * Bouncing easing out * @memberOf fabric.util.ease */ function easeOutBounce(t, b, c, d) { if ((t /= d) < (1 / 2.75)) { return c * (7.5625 * t * t) + b; } else if (t < (2 / 2.75)) { return c * (7.5625 * (t -= (1.5 / 2.75)) * t + 0.75) + b; } else if (t < (2.5 / 2.75)) { return c * (7.5625 * (t -= (2.25 / 2.75)) * t + 0.9375) + b; } else { return c * (7.5625 * (t -= (2.625 / 2.75)) * t + 0.984375) + b; } } /** * Bouncing easing in and out * @memberOf fabric.util.ease */ function easeInOutBounce(t, b, c, d) { if (t < d / 2) { return easeInBounce (t * 2, 0, c, d) * 0.5 + b; } return easeOutBounce(t * 2 - d, 0, c, d) * 0.5 + c * 0.5 + b; } /** * Easing functions * See Easing Equations by Robert Penner * @namespace fabric.util.ease */ fabric.util.ease = { /** * Quadratic easing in * @memberOf fabric.util.ease */ easeInQuad: function(t, b, c, d) { return c * (t /= d) * t + b; }, /** * Quadratic easing out * @memberOf fabric.util.ease */ easeOutQuad: function(t, b, c, d) { return -c * (t /= d) * (t - 2) + b; }, /** * Quadratic easing in and out * @memberOf fabric.util.ease */ easeInOutQuad: function(t, b, c, d) { t /= (d / 2); if (t < 1) { return c / 2 * t * t + b; } return -c / 2 * ((--t) * (t - 2) - 1) + b; }, /** * Cubic easing in * @memberOf fabric.util.ease */ easeInCubic: function(t, b, c, d) { return c * (t /= d) * t * t + b; }, easeOutCubic: easeOutCubic, easeInOutCubic: easeInOutCubic, easeInQuart: easeInQuart, easeOutQuart: easeOutQuart, easeInOutQuart: easeInOutQuart, easeInQuint: easeInQuint, easeOutQuint: easeOutQuint, easeInOutQuint: easeInOutQuint, easeInSine: easeInSine, easeOutSine: easeOutSine, easeInOutSine: easeInOutSine, easeInExpo: easeInExpo, easeOutExpo: easeOutExpo, easeInOutExpo: easeInOutExpo, easeInCirc: easeInCirc, easeOutCirc: easeOutCirc, easeInOutCirc: easeInOutCirc, easeInElastic: easeInElastic, easeOutElastic: easeOutElastic, easeInOutElastic: easeInOutElastic, easeInBack: easeInBack, easeOutBack: easeOutBack, easeInOutBack: easeInOutBack, easeInBounce: easeInBounce, easeOutBounce: easeOutBounce, easeInOutBounce: easeInOutBounce }; })(); (function(global) { 'use strict'; /** * @name fabric * @namespace */ var fabric = global.fabric || (global.fabric = { }), extend = fabric.util.object.extend, capitalize = fabric.util.string.capitalize, clone = fabric.util.object.clone, toFixed = fabric.util.toFixed, parseUnit = fabric.util.parseUnit, multiplyTransformMatrices = fabric.util.multiplyTransformMatrices, reAllowedSVGTagNames = /^(path|circle|polygon|polyline|ellipse|rect|line|image|text)$/i, reViewBoxTagNames = /^(symbol|image|marker|pattern|view|svg)$/i, reNotAllowedAncestors = /^(?:pattern|defs|symbol|metadata)$/i, reAllowedParents = /^(symbol|g|a|svg)$/i, attributesMap = { cx: 'left', x: 'left', r: 'radius', cy: 'top', y: 'top', display: 'visible', visibility: 'visible', transform: 'transformMatrix', 'fill-opacity': 'fillOpacity', 'fill-rule': 'fillRule', 'font-family': 'fontFamily', 'font-size': 'fontSize', 'font-style': 'fontStyle', 'font-weight': 'fontWeight', 'stroke-dasharray': 'strokeDashArray', 'stroke-linecap': 'strokeLineCap', 'stroke-linejoin': 'strokeLineJoin', 'stroke-miterlimit': 'strokeMiterLimit', 'stroke-opacity': 'strokeOpacity', 'stroke-width': 'strokeWidth', 'text-decoration': 'textDecoration', 'text-anchor': 'originX' }, colorAttributes = { stroke: 'strokeOpacity', fill: 'fillOpacity' }; fabric.cssRules = { }; fabric.gradientDefs = { }; function normalizeAttr(attr) { // transform attribute names if (attr in attributesMap) { return attributesMap[attr]; } return attr; } function normalizeValue(attr, value, parentAttributes, fontSize) { var isArray = Object.prototype.toString.call(value) === '[object Array]', parsed; if ((attr === 'fill' || attr === 'stroke') && value === 'none') { value = ''; } else if (attr === 'strokeDashArray') { value = value.replace(/,/g, ' ').split(/\s+/).map(function(n) { return parseFloat(n); }); } else if (attr === 'transformMatrix') { if (parentAttributes && parentAttributes.transformMatrix) { value = multiplyTransformMatrices( parentAttributes.transformMatrix, fabric.parseTransformAttribute(value)); } else { value = fabric.parseTransformAttribute(value); } } else if (attr === 'visible') { value = (value === 'none' || value === 'hidden') ? false : true; // display=none on parent element always takes precedence over child element if (parentAttributes && parentAttributes.visible === false) { value = false; } } else if (attr === 'originX' /* text-anchor */) { value = value === 'start' ? 'left' : value === 'end' ? 'right' : 'center'; } else { parsed = isArray ? value.map(parseUnit) : parseUnit(value, fontSize); } return (!isArray && isNaN(parsed) ? value : parsed); } /** * @private * @param {Object} attributes Array of attributes to parse */ function _setStrokeFillOpacity(attributes) { for (var attr in colorAttributes) { if (typeof attributes[colorAttributes[attr]] === 'undefined' || attributes[attr] === '') { continue; } if (typeof attributes[attr] === 'undefined') { if (!fabric.Object.prototype[attr]) { continue; } attributes[attr] = fabric.Object.prototype[attr]; } if (attributes[attr].indexOf('url(') === 0) { continue; } var color = new fabric.Color(attributes[attr]); attributes[attr] = color.setAlpha(toFixed(color.getAlpha() * attributes[colorAttributes[attr]], 2)).toRgba(); } return attributes; } /** * @private */ function _getMultipleNodes(doc, nodeNames) { var nodeName, nodeArray = [], nodeList; for (var i = 0; i < nodeNames.length; i++) { nodeName = nodeNames[i]; nodeList = doc.getElementsByTagName(nodeName); nodeArray = nodeArray.concat(Array.prototype.slice.call(nodeList)); } return nodeArray; } /** * Parses "transform" attribute, returning an array of values * @static * @function * @memberOf fabric * @param {String} attributeValue String containing attribute value * @return {Array} Array of 6 elements representing transformation matrix */ fabric.parseTransformAttribute = (function() { function rotateMatrix(matrix, args) { var angle = args[0], x = (args.length === 3) ? args[1] : 0, y = (args.length === 3) ? args[2] : 0; matrix[0] = Math.cos(angle); matrix[1] = Math.sin(angle); matrix[2] = -Math.sin(angle); matrix[3] = Math.cos(angle); matrix[4] = x - (matrix[0] * x + matrix[2] * y); matrix[5] = y - (matrix[1] * x + matrix[3] * y); } function scaleMatrix(matrix, args) { var multiplierX = args[0], multiplierY = (args.length === 2) ? args[1] : args[0]; matrix[0] = multiplierX; matrix[3] = multiplierY; } function skewXMatrix(matrix, args) { matrix[2] = Math.tan(fabric.util.degreesToRadians(args[0])); } function skewYMatrix(matrix, args) { matrix[1] = Math.tan(fabric.util.degreesToRadians(args[0])); } function translateMatrix(matrix, args) { matrix[4] = args[0]; if (args.length === 2) { matrix[5] = args[1]; } } // identity matrix var iMatrix = [ 1, // a 0, // b 0, // c 1, // d 0, // e 0 // f ], // == begin transform regexp number = fabric.reNum, commaWsp = '(?:\\s+,?\\s*|,\\s*)', skewX = '(?:(skewX)\\s*\\(\\s*(' + number + ')\\s*\\))', skewY = '(?:(skewY)\\s*\\(\\s*(' + number + ')\\s*\\))', rotate = '(?:(rotate)\\s*\\(\\s*(' + number + ')(?:' + commaWsp + '(' + number + ')' + commaWsp + '(' + number + '))?\\s*\\))', scale = '(?:(scale)\\s*\\(\\s*(' + number + ')(?:' + commaWsp + '(' + number + '))?\\s*\\))', translate = '(?:(translate)\\s*\\(\\s*(' + number + ')(?:' + commaWsp + '(' + number + '))?\\s*\\))', matrix = '(?:(matrix)\\s*\\(\\s*' + '(' + number + ')' + commaWsp + '(' + number + ')' + commaWsp + '(' + number + ')' + commaWsp + '(' + number + ')' + commaWsp + '(' + number + ')' + commaWsp + '(' + number + ')' + '\\s*\\))', transform = '(?:' + matrix + '|' + translate + '|' + scale + '|' + rotate + '|' + skewX + '|' + skewY + ')', transforms = '(?:' + transform + '(?:' + commaWsp + '*' + transform + ')*' + ')', transformList = '^\\s*(?:' + transforms + '?)\\s*$', // http://www.w3.org/TR/SVG/coords.html#TransformAttribute reTransformList = new RegExp(transformList), // == end transform regexp reTransform = new RegExp(transform, 'g'); return function(attributeValue) { // start with identity matrix var matrix = iMatrix.concat(), matrices = []; // return if no argument was given or // an argument does not match transform attribute regexp if (!attributeValue || (attributeValue && !reTransformList.test(attributeValue))) { return matrix; } attributeValue.replace(reTransform, function(match) { var m = new RegExp(transform).exec(match).filter(function (match) { // match !== '' && match != null return (!!match); }), operation = m[1], args = m.slice(2).map(parseFloat); switch (operation) { case 'translate': translateMatrix(matrix, args); break; case 'rotate': args[0] = fabric.util.degreesToRadians(args[0]); rotateMatrix(matrix, args); break; case 'scale': scaleMatrix(matrix, args); break; case 'skewX': skewXMatrix(matrix, args); break; case 'skewY': skewYMatrix(matrix, args); break; case 'matrix': matrix = args; break; } // snapshot current matrix into matrices array matrices.push(matrix.concat()); // reset matrix = iMatrix.concat(); }); var combinedMatrix = matrices[0]; while (matrices.length > 1) { matrices.shift(); combinedMatrix = fabric.util.multiplyTransformMatrices(combinedMatrix, matrices[0]); } return combinedMatrix; }; })(); /** * @private */ function parseStyleString(style, oStyle) { var attr, value; style.replace(/;\s*$/, '').split(';').forEach(function (chunk) { var pair = chunk.split(':'); attr = normalizeAttr(pair[0].trim().toLowerCase()); value = normalizeValue(attr, pair[1].trim()); oStyle[attr] = value; }); } /** * @private */ function parseStyleObject(style, oStyle) { var attr, value; for (var prop in style) { if (typeof style[prop] === 'undefined') { continue; } attr = normalizeAttr(prop.toLowerCase()); value = normalizeValue(attr, style[prop]); oStyle[attr] = value; } } /** * @private */ function getGlobalStylesForElement(element, svgUid) { var styles = { }; for (var rule in fabric.cssRules[svgUid]) { if (elementMatchesRule(element, rule.split(' '))) { for (var property in fabric.cssRules[svgUid][rule]) { styles[property] = fabric.cssRules[svgUid][rule][property]; } } } return styles; } /** * @private */ function elementMatchesRule(element, selectors) { var firstMatching, parentMatching = true; //start from rightmost selector. firstMatching = selectorMatches(element, selectors.pop()); if (firstMatching && selectors.length) { parentMatching = doesSomeParentMatch(element, selectors); } return firstMatching && parentMatching && (selectors.length === 0); } function doesSomeParentMatch(element, selectors) { var selector, parentMatching = true; while (element.parentNode && element.parentNode.nodeType === 1 && selectors.length) { if (parentMatching) { selector = selectors.pop(); } element = element.parentNode; parentMatching = selectorMatches(element, selector); } return selectors.length === 0; } /** * @private */ function selectorMatches(element, selector) { var nodeName = element.nodeName, classNames = element.getAttribute('class'), id = element.getAttribute('id'), matcher; // i check if a selector matches slicing away part from it. // if i get empty string i should match matcher = new RegExp('^' + nodeName, 'i'); selector = selector.replace(matcher, ''); if (id && selector.length) { matcher = new RegExp('#' + id + '(?![a-zA-Z\\-]+)', 'i'); selector = selector.replace(matcher, ''); } if (classNames && selector.length) { classNames = classNames.split(' '); for (var i = classNames.length; i--;) { matcher = new RegExp('\\.' + classNames[i] + '(?![a-zA-Z\\-]+)', 'i'); selector = selector.replace(matcher, ''); } } return selector.length === 0; } /** * @private * to support IE8 missing getElementById on SVGdocument */ function elementById(doc, id) { var el; doc.getElementById && (el = doc.getElementById(id)); if (el) { return el; } var node, i, nodelist = doc.getElementsByTagName('*'); for (i = 0; i < nodelist.length; i++) { node = nodelist[i]; if (id === node.getAttribute('id')) { return node; } } } /** * @private */ function parseUseDirectives(doc) { var nodelist = _getMultipleNodes(doc, ['use', 'svg:use']), i = 0; while (nodelist.length && i < nodelist.length) { var el = nodelist[i], xlink = el.getAttribute('xlink:href').substr(1), x = el.getAttribute('x') || 0, y = el.getAttribute('y') || 0, el2 = elementById(doc, xlink).cloneNode(true), currentTrans = (el2.getAttribute('transform') || '') + ' translate(' + x + ', ' + y + ')', parentNode, oldLength = nodelist.length, attr, j, attrs, l; applyViewboxTransform(el2); if (/^svg$/i.test(el2.nodeName)) { var el3 = el2.ownerDocument.createElement('g'); for (j = 0, attrs = el2.attributes, l = attrs.length; j < l; j++) { attr = attrs.item(j); el3.setAttribute(attr.nodeName, attr.nodeValue); } // el2.firstChild != null while (el2.firstChild) { el3.appendChild(el2.firstChild); } el2 = el3; } for (j = 0, attrs = el.attributes, l = attrs.length; j < l; j++) { attr = attrs.item(j); if (attr.nodeName === 'x' || attr.nodeName === 'y' || attr.nodeName === 'xlink:href') { continue; } if (attr.nodeName === 'transform') { currentTrans = attr.nodeValue + ' ' + currentTrans; } else { el2.setAttribute(attr.nodeName, attr.nodeValue); } } el2.setAttribute('transform', currentTrans); el2.setAttribute('instantiated_by_use', '1'); el2.removeAttribute('id'); parentNode = el.parentNode; parentNode.replaceChild(el2, el); // some browsers do not shorten nodelist after replaceChild (IE8) if (nodelist.length === oldLength) { i++; } } } // http://www.w3.org/TR/SVG/coords.html#ViewBoxAttribute // matches, e.g.: +14.56e-12, etc. var reViewBoxAttrValue = new RegExp( '^' + '\\s*(' + fabric.reNum + '+)\\s*,?' + '\\s*(' + fabric.reNum + '+)\\s*,?' + '\\s*(' + fabric.reNum + '+)\\s*,?' + '\\s*(' + fabric.reNum + '+)\\s*' + '$' ); /** * Add a element that envelop all child elements and makes the viewbox transformMatrix descend on all elements */ function applyViewboxTransform(element) { var viewBoxAttr = element.getAttribute('viewBox'), scaleX = 1, scaleY = 1, minX = 0, minY = 0, viewBoxWidth, viewBoxHeight, matrix, el, widthAttr = element.getAttribute('width'), heightAttr = element.getAttribute('height'), x = element.getAttribute('x') || 0, y = element.getAttribute('y') || 0, preserveAspectRatio = element.getAttribute('preserveAspectRatio') || '', missingViewBox = (!viewBoxAttr || !reViewBoxTagNames.test(element.nodeName) || !(viewBoxAttr = viewBoxAttr.match(reViewBoxAttrValue))), missingDimAttr = (!widthAttr || !heightAttr || widthAttr === '100%' || heightAttr === '100%'), toBeParsed = missingViewBox && missingDimAttr, parsedDim = { }, translateMatrix = ''; parsedDim.width = 0; parsedDim.height = 0; parsedDim.toBeParsed = toBeParsed; if (toBeParsed) { return parsedDim; } if (missingViewBox) { parsedDim.width = parseUnit(widthAttr); parsedDim.height = parseUnit(heightAttr); return parsedDim; } minX = -parseFloat(viewBoxAttr[1]); minY = -parseFloat(viewBoxAttr[2]); viewBoxWidth = parseFloat(viewBoxAttr[3]); viewBoxHeight = parseFloat(viewBoxAttr[4]); if (!missingDimAttr) { parsedDim.width = parseUnit(widthAttr); parsedDim.height = parseUnit(heightAttr); scaleX = parsedDim.width / viewBoxWidth; scaleY = parsedDim.height / viewBoxHeight; } else { parsedDim.width = viewBoxWidth; parsedDim.height = viewBoxHeight; } // default is to preserve aspect ratio preserveAspectRatio = fabric.util.parsePreserveAspectRatioAttribute(preserveAspectRatio); if (preserveAspectRatio.alignX !== 'none') { //translate all container for the effect of Mid, Min, Max scaleY = scaleX = (scaleX > scaleY ? scaleY : scaleX); } if (scaleX === 1 && scaleY === 1 && minX === 0 && minY === 0 && x === 0 && y === 0) { return parsedDim; } if (x || y) { translateMatrix = ' translate(' + parseUnit(x) + ' ' + parseUnit(y) + ') '; } matrix = translateMatrix + ' matrix(' + scaleX + ' 0' + ' 0 ' + scaleY + ' ' + (minX * scaleX) + ' ' + (minY * scaleY) + ') '; if (element.nodeName === 'svg') { el = element.ownerDocument.createElement('g'); // element.firstChild != null while (element.firstChild) { el.appendChild(element.firstChild); } element.appendChild(el); } else { el = element; matrix = el.getAttribute('transform') + matrix; } el.setAttribute('transform', matrix); return parsedDim; } /** * Parses an SVG document, converts it to an array of corresponding fabric.* instances and passes them to a callback * @static * @function * @memberOf fabric * @param {SVGDocument} doc SVG document to parse * @param {Function} callback Callback to call when parsing is finished; * It's being passed an array of elements (parsed from a document). * @param {Function} [reviver] Method for further parsing of SVG elements, called after each fabric object created. */ fabric.parseSVGDocument = (function() { function hasAncestorWithNodeName(element, nodeName) { while (element && (element = element.parentNode)) { if (element.nodeName && nodeName.test(element.nodeName.replace('svg:', '')) && !element.getAttribute('instantiated_by_use')) { return true; } } return false; } return function(doc, callback, reviver) { if (!doc) { return; } parseUseDirectives(doc); var startTime = new Date(), svgUid = fabric.Object.__uid++, options = applyViewboxTransform(doc), descendants = fabric.util.toArray(doc.getElementsByTagName('*')); options.svgUid = svgUid; if (descendants.length === 0 && fabric.isLikelyNode) { // we're likely in node, where "o3-xml" library fails to gEBTN("*") // https://github.com/ajaxorg/node-o3-xml/issues/21 descendants = doc.selectNodes('//*[name(.)!="svg"]'); var arr = []; for (var i = 0, len = descendants.length; i < len; i++) { arr[i] = descendants[i]; } descendants = arr; } var elements = descendants.filter(function(el) { applyViewboxTransform(el); return reAllowedSVGTagNames.test(el.nodeName.replace('svg:', '')) && !hasAncestorWithNodeName(el, reNotAllowedAncestors); // http://www.w3.org/TR/SVG/struct.html#DefsElement }); if (!elements || (elements && !elements.length)) { callback && callback([], {}); return; } fabric.gradientDefs[svgUid] = fabric.getGradientDefs(doc); fabric.cssRules[svgUid] = fabric.getCSSRules(doc); // Precedence of rules: style > class > attribute fabric.parseElements(elements, function(instances) { fabric.documentParsingTime = new Date() - startTime; if (callback) { callback(instances, options); } }, clone(options), reviver); }; })(); /** * Used for caching SVG documents (loaded via `fabric.Canvas#loadSVGFromURL`) * @namespace */ var svgCache = { /** * @param {String} name * @param {Function} callback */ has: function (name, callback) { callback(false); }, get: function () { /* NOOP */ }, set: function () { /* NOOP */ } }; /** * @private */ function _enlivenCachedObject(cachedObject) { var objects = cachedObject.objects, options = cachedObject.options; objects = objects.map(function (o) { return fabric[capitalize(o.type)].fromObject(o); }); return ({ objects: objects, options: options }); } /** * @private */ function _createSVGPattern(markup, canvas, property) { if (canvas[property] && canvas[property].toSVG) { markup.push( '\t\n', '\t\t\n\t\n' ); } } var reFontDeclaration = new RegExp( '(normal|italic)?\\s*(normal|small-caps)?\\s*' + '(normal|bold|bolder|lighter|100|200|300|400|500|600|700|800|900)?\\s*(' + fabric.reNum + '(?:px|cm|mm|em|pt|pc|in)*)(?:\\/(normal|' + fabric.reNum + '))?\\s+(.*)'); extend(fabric, { /** * Parses a short font declaration, building adding its properties to a style object * @static * @function * @memberOf fabric * @param {String} value font declaration * @param {Object} oStyle definition */ parseFontDeclaration: function(value, oStyle) { var match = value.match(reFontDeclaration); if (!match) { return; } var fontStyle = match[1], // font variant is not used // fontVariant = match[2], fontWeight = match[3], fontSize = match[4], lineHeight = match[5], fontFamily = match[6]; if (fontStyle) { oStyle.fontStyle = fontStyle; } if (fontWeight) { oStyle.fontWeight = isNaN(parseFloat(fontWeight)) ? fontWeight : parseFloat(fontWeight); } if (fontSize) { oStyle.fontSize = parseUnit(fontSize); } if (fontFamily) { oStyle.fontFamily = fontFamily; } if (lineHeight) { oStyle.lineHeight = lineHeight === 'normal' ? 1 : lineHeight; } }, /** * Parses an SVG document, returning all of the gradient declarations found in it * @static * @function * @memberOf fabric * @param {SVGDocument} doc SVG document to parse * @return {Object} Gradient definitions; key corresponds to element id, value -- to gradient definition element */ getGradientDefs: function(doc) { var tagArray = [ 'linearGradient', 'radialGradient', 'svg:linearGradient', 'svg:radialGradient'], elList = _getMultipleNodes(doc, tagArray), el, j = 0, id, xlink, gradientDefs = { }, idsToXlinkMap = { }; j = elList.length; while (j--) { el = elList[j]; xlink = el.getAttribute('xlink:href'); id = el.getAttribute('id'); if (xlink) { idsToXlinkMap[id] = xlink.substr(1); } gradientDefs[id] = el; } for (id in idsToXlinkMap) { var el2 = gradientDefs[idsToXlinkMap[id]].cloneNode(true); el = gradientDefs[id]; while (el2.firstChild) { el.appendChild(el2.firstChild); } } return gradientDefs; }, /** * Returns an object of attributes' name/value, given element and an array of attribute names; * Parses parent "g" nodes recursively upwards. * @static * @memberOf fabric * @param {DOMElement} element Element to parse * @param {Array} attributes Array of attributes to parse * @return {Object} object containing parsed attributes' names/values */ parseAttributes: function(element, attributes, svgUid) { if (!element) { return; } var value, parentAttributes = { }, fontSize; if (typeof svgUid === 'undefined') { svgUid = element.getAttribute('svgUid'); } // if there's a parent container (`g` or `a` or `symbol` node), parse its attributes recursively upwards if (element.parentNode && reAllowedParents.test(element.parentNode.nodeName)) { parentAttributes = fabric.parseAttributes(element.parentNode, attributes, svgUid); } fontSize = (parentAttributes && parentAttributes.fontSize ) || element.getAttribute('font-size') || fabric.Text.DEFAULT_SVG_FONT_SIZE; var ownAttributes = attributes.reduce(function(memo, attr) { value = element.getAttribute(attr); if (value) { attr = normalizeAttr(attr); value = normalizeValue(attr, value, parentAttributes, fontSize); memo[attr] = value; } return memo; }, { }); // add values parsed from style, which take precedence over attributes // (see: http://www.w3.org/TR/SVG/styling.html#UsingPresentationAttributes) ownAttributes = extend(ownAttributes, extend(getGlobalStylesForElement(element, svgUid), fabric.parseStyleAttribute(element))); if (ownAttributes.font) { fabric.parseFontDeclaration(ownAttributes.font, ownAttributes); } return _setStrokeFillOpacity(extend(parentAttributes, ownAttributes)); }, /** * Transforms an array of svg elements to corresponding fabric.* instances * @static * @memberOf fabric * @param {Array} elements Array of elements to parse * @param {Function} callback Being passed an array of fabric instances (transformed from SVG elements) * @param {Object} [options] Options object * @param {Function} [reviver] Method for further parsing of SVG elements, called after each fabric object created. */ parseElements: function(elements, callback, options, reviver) { new fabric.ElementsParser(elements, callback, options, reviver).parse(); }, /** * Parses "style" attribute, retuning an object with values * @static * @memberOf fabric * @param {SVGElement} element Element to parse * @return {Object} Objects with values parsed from style attribute of an element */ parseStyleAttribute: function(element) { var oStyle = { }, style = element.getAttribute('style'); if (!style) { return oStyle; } if (typeof style === 'string') { parseStyleString(style, oStyle); } else { parseStyleObject(style, oStyle); } return oStyle; }, /** * Parses "points" attribute, returning an array of values * @static * @memberOf fabric * @param {String} points points attribute string * @return {Array} array of points */ parsePointsAttribute: function(points) { // points attribute is required and must not be empty if (!points) { return null; } // replace commas with whitespace and remove bookending whitespace points = points.replace(/,/g, ' ').trim(); points = points.split(/\s+/); var parsedPoints = [], i, len; i = 0; len = points.length; for (; i < len; i += 2) { parsedPoints.push({ x: parseFloat(points[i]), y: parseFloat(points[i + 1]) }); } // odd number of points is an error // if (parsedPoints.length % 2 !== 0) { // return null; // } return parsedPoints; }, /** * Returns CSS rules for a given SVG document * @static * @function * @memberOf fabric * @param {SVGDocument} doc SVG document to parse * @return {Object} CSS rules of this document */ getCSSRules: function(doc) { var styles = doc.getElementsByTagName('style'), allRules = { }, rules; // very crude parsing of style contents for (var i = 0, len = styles.length; i < len; i++) { // IE9 doesn't support textContent, but provides text instead. var styleContents = styles[i].textContent || styles[i].text; // remove comments styleContents = styleContents.replace(/\/\*[\s\S]*?\*\//g, ''); if (styleContents.trim() === '') { continue; } rules = styleContents.match(/[^{]*\{[\s\S]*?\}/g); rules = rules.map(function(rule) { return rule.trim(); }); rules.forEach(function(rule) { var match = rule.match(/([\s\S]*?)\s*\{([^}]*)\}/), ruleObj = { }, declaration = match[2].trim(), propertyValuePairs = declaration.replace(/;$/, '').split(/\s*;\s*/); for (var i = 0, len = propertyValuePairs.length; i < len; i++) { var pair = propertyValuePairs[i].split(/\s*:\s*/), property = normalizeAttr(pair[0]), value = normalizeValue(property, pair[1], pair[0]); ruleObj[property] = value; } rule = match[1]; rule.split(',').forEach(function(_rule) { _rule = _rule.replace(/^svg/i, '').trim(); if (_rule === '') { return; } if (allRules[_rule]) { fabric.util.object.extend(allRules[_rule], ruleObj); } else { allRules[_rule] = fabric.util.object.clone(ruleObj); } }); }); } return allRules; }, /** * Takes url corresponding to an SVG document, and parses it into a set of fabric objects. * Note that SVG is fetched via XMLHttpRequest, so it needs to conform to SOP (Same Origin Policy) * @memberOf fabric * @param {String} url * @param {Function} callback * @param {Function} [reviver] Method for further parsing of SVG elements, called after each fabric object created. */ loadSVGFromURL: function(url, callback, reviver) { url = url.replace(/^\n\s*/, '').trim(); svgCache.has(url, function (hasUrl) { if (hasUrl) { svgCache.get(url, function (value) { var enlivedRecord = _enlivenCachedObject(value); callback(enlivedRecord.objects, enlivedRecord.options); }); } else { new fabric.util.request(url, { method: 'get', onComplete: onComplete }); } }); function onComplete(r) { var xml = r.responseXML; if (xml && !xml.documentElement && fabric.window.ActiveXObject && r.responseText) { xml = new ActiveXObject('Microsoft.XMLDOM'); xml.async = 'false'; //IE chokes on DOCTYPE xml.loadXML(r.responseText.replace(//i, '')); } if (!xml || !xml.documentElement) { callback && callback(null); } fabric.parseSVGDocument(xml.documentElement, function (results, options) { svgCache.set(url, { objects: fabric.util.array.invoke(results, 'toObject'), options: options }); callback && callback(results, options); }, reviver); } }, /** * Takes string corresponding to an SVG document, and parses it into a set of fabric objects * @memberOf fabric * @param {String} string * @param {Function} callback * @param {Function} [reviver] Method for further parsing of SVG elements, called after each fabric object created. */ loadSVGFromString: function(string, callback, reviver) { string = string.trim(); var doc; if (typeof DOMParser !== 'undefined') { var parser = new DOMParser(); if (parser && parser.parseFromString) { doc = parser.parseFromString(string, 'text/xml'); } } else if (fabric.window.ActiveXObject) { doc = new ActiveXObject('Microsoft.XMLDOM'); doc.async = 'false'; // IE chokes on DOCTYPE doc.loadXML(string.replace(//i, '')); } fabric.parseSVGDocument(doc.documentElement, function (results, options) { callback(results, options); }, reviver); }, /** * Creates markup containing SVG font faces, * font URLs for font faces must be collected by developers * and are not extracted from the DOM by fabricjs * @param {Array} objects Array of fabric objects * @return {String} */ createSVGFontFacesMarkup: function(objects) { var markup = '', fontList = { }, obj, fontFamily, style, row, rowIndex, _char, charIndex, fontPaths = fabric.fontPaths; for (var i = 0, len = objects.length; i < len; i++) { obj = objects[i]; fontFamily = obj.fontFamily; if (obj.type.indexOf('text') === -1 || fontList[fontFamily] || !fontPaths[fontFamily]) { continue; } fontList[fontFamily] = true; if (!obj.styles) { continue; } style = obj.styles; for (rowIndex in style) { row = style[rowIndex]; for (charIndex in row) { _char = row[charIndex]; fontFamily = _char.fontFamily; if (!fontList[fontFamily] && fontPaths[fontFamily]) { fontList[fontFamily] = true; } } } } for (var j in fontList) { markup += [ '\t\t@font-face {\n', '\t\t\tfont-family: \'', j, '\';\n', '\t\t\tsrc: url(\'', fontPaths[j], '\');\n', '\t\t}\n' ].join(''); } if (markup) { markup = [ '\t\n' ].join(''); } return markup; }, /** * Creates markup containing SVG referenced elements like patterns, gradients etc. * @param {fabric.Canvas} canvas instance of fabric.Canvas * @return {String} */ createSVGRefElementsMarkup: function(canvas) { var markup = []; _createSVGPattern(markup, canvas, 'backgroundColor'); _createSVGPattern(markup, canvas, 'overlayColor'); return markup.join(''); } }); })(typeof exports !== 'undefined' ? exports : this); fabric.ElementsParser = function(elements, callback, options, reviver) { this.elements = elements; this.callback = callback; this.options = options; this.reviver = reviver; this.svgUid = (options && options.svgUid) || 0; }; fabric.ElementsParser.prototype.parse = function() { this.instances = new Array(this.elements.length); this.numElements = this.elements.length; this.createObjects(); }; fabric.ElementsParser.prototype.createObjects = function() { for (var i = 0, len = this.elements.length; i < len; i++) { this.elements[i].setAttribute('svgUid', this.svgUid); (function(_obj, i) { setTimeout(function() { _obj.createObject(_obj.elements[i], i); }, 0); })(this, i); } }; fabric.ElementsParser.prototype.createObject = function(el, index) { var klass = fabric[fabric.util.string.capitalize(el.tagName.replace('svg:', ''))]; if (klass && klass.fromElement) { try { this._createObject(klass, el, index); } catch (err) { fabric.log(err); } } else { this.checkIfDone(); } }; fabric.ElementsParser.prototype._createObject = function(klass, el, index) { if (klass.async) { klass.fromElement(el, this.createCallback(index, el), this.options); } else { var obj = klass.fromElement(el, this.options); this.resolveGradient(obj, 'fill'); this.resolveGradient(obj, 'stroke'); this.reviver && this.reviver(el, obj); this.instances[index] = obj; this.checkIfDone(); } }; fabric.ElementsParser.prototype.createCallback = function(index, el) { var _this = this; return function(obj) { _this.resolveGradient(obj, 'fill'); _this.resolveGradient(obj, 'stroke'); _this.reviver && _this.reviver(el, obj); _this.instances[index] = obj; _this.checkIfDone(); }; }; fabric.ElementsParser.prototype.resolveGradient = function(obj, property) { var instanceFillValue = obj.get(property); if (!(/^url\(/).test(instanceFillValue)) { return; } var gradientId = instanceFillValue.slice(5, instanceFillValue.length - 1); if (fabric.gradientDefs[this.svgUid][gradientId]) { obj.set(property, fabric.Gradient.fromElement(fabric.gradientDefs[this.svgUid][gradientId], obj)); } }; fabric.ElementsParser.prototype.checkIfDone = function() { if (--this.numElements === 0) { this.instances = this.instances.filter(function(el) { // eslint-disable-next-line no-eq-null, eqeqeq return el != null; }); this.callback(this.instances); } }; (function(global) { 'use strict'; /* Adaptation of work of Kevin Lindsey (kevin@kevlindev.com) */ var fabric = global.fabric || (global.fabric = { }); if (fabric.Point) { fabric.warn('fabric.Point is already defined'); return; } fabric.Point = Point; /** * Point class * @class fabric.Point * @memberOf fabric * @constructor * @param {Number} x * @param {Number} y * @return {fabric.Point} thisArg */ function Point(x, y) { this.x = x; this.y = y; } Point.prototype = /** @lends fabric.Point.prototype */ { type: 'point', constructor: Point, /** * Adds another point to this one and returns another one * @param {fabric.Point} that * @return {fabric.Point} new Point instance with added values */ add: function (that) { return new Point(this.x + that.x, this.y + that.y); }, /** * Adds another point to this one * @param {fabric.Point} that * @return {fabric.Point} thisArg * @chainable */ addEquals: function (that) { this.x += that.x; this.y += that.y; return this; }, /** * Adds value to this point and returns a new one * @param {Number} scalar * @return {fabric.Point} new Point with added value */ scalarAdd: function (scalar) { return new Point(this.x + scalar, this.y + scalar); }, /** * Adds value to this point * @param {Number} scalar * @return {fabric.Point} thisArg * @chainable */ scalarAddEquals: function (scalar) { this.x += scalar; this.y += scalar; return this; }, /** * Subtracts another point from this point and returns a new one * @param {fabric.Point} that * @return {fabric.Point} new Point object with subtracted values */ subtract: function (that) { return new Point(this.x - that.x, this.y - that.y); }, /** * Subtracts another point from this point * @param {fabric.Point} that * @return {fabric.Point} thisArg * @chainable */ subtractEquals: function (that) { this.x -= that.x; this.y -= that.y; return this; }, /** * Subtracts value from this point and returns a new one * @param {Number} scalar * @return {fabric.Point} */ scalarSubtract: function (scalar) { return new Point(this.x - scalar, this.y - scalar); }, /** * Subtracts value from this point * @param {Number} scalar * @return {fabric.Point} thisArg * @chainable */ scalarSubtractEquals: function (scalar) { this.x -= scalar; this.y -= scalar; return this; }, /** * Miltiplies this point by a value and returns a new one * TODO: rename in scalarMultiply in 2.0 * @param {Number} scalar * @return {fabric.Point} */ multiply: function (scalar) { return new Point(this.x * scalar, this.y * scalar); }, /** * Miltiplies this point by a value * TODO: rename in scalarMultiplyEquals in 2.0 * @param {Number} scalar * @return {fabric.Point} thisArg * @chainable */ multiplyEquals: function (scalar) { this.x *= scalar; this.y *= scalar; return this; }, /** * Divides this point by a value and returns a new one * TODO: rename in scalarDivide in 2.0 * @param {Number} scalar * @return {fabric.Point} */ divide: function (scalar) { return new Point(this.x / scalar, this.y / scalar); }, /** * Divides this point by a value * TODO: rename in scalarDivideEquals in 2.0 * @param {Number} scalar * @return {fabric.Point} thisArg * @chainable */ divideEquals: function (scalar) { this.x /= scalar; this.y /= scalar; return this; }, /** * Returns true if this point is equal to another one * @param {fabric.Point} that * @return {Boolean} */ eq: function (that) { return (this.x === that.x && this.y === that.y); }, /** * Returns true if this point is less than another one * @param {fabric.Point} that * @return {Boolean} */ lt: function (that) { return (this.x < that.x && this.y < that.y); }, /** * Returns true if this point is less than or equal to another one * @param {fabric.Point} that * @return {Boolean} */ lte: function (that) { return (this.x <= that.x && this.y <= that.y); }, /** * Returns true if this point is greater another one * @param {fabric.Point} that * @return {Boolean} */ gt: function (that) { return (this.x > that.x && this.y > that.y); }, /** * Returns true if this point is greater than or equal to another one * @param {fabric.Point} that * @return {Boolean} */ gte: function (that) { return (this.x >= that.x && this.y >= that.y); }, /** * Returns new point which is the result of linear interpolation with this one and another one * @param {fabric.Point} that * @param {Number} t , position of interpolation, between 0 and 1 default 0.5 * @return {fabric.Point} */ lerp: function (that, t) { if (typeof t === 'undefined') { t = 0.5; } t = Math.max(Math.min(1, t), 0); return new Point(this.x + (that.x - this.x) * t, this.y + (that.y - this.y) * t); }, /** * Returns distance from this point and another one * @param {fabric.Point} that * @return {Number} */ distanceFrom: function (that) { var dx = this.x - that.x, dy = this.y - that.y; return Math.sqrt(dx * dx + dy * dy); }, /** * Returns the point between this point and another one * @param {fabric.Point} that * @return {fabric.Point} */ midPointFrom: function (that) { return this.lerp(that); }, /** * Returns a new point which is the min of this and another one * @param {fabric.Point} that * @return {fabric.Point} */ min: function (that) { return new Point(Math.min(this.x, that.x), Math.min(this.y, that.y)); }, /** * Returns a new point which is the max of this and another one * @param {fabric.Point} that * @return {fabric.Point} */ max: function (that) { return new Point(Math.max(this.x, that.x), Math.max(this.y, that.y)); }, /** * Returns string representation of this point * @return {String} */ toString: function () { return this.x + ',' + this.y; }, /** * Sets x/y of this point * @param {Number} x * @param {Number} y * @chainable */ setXY: function (x, y) { this.x = x; this.y = y; return this; }, /** * Sets x of this point * @param {Number} x * @chainable */ setX: function (x) { this.x = x; return this; }, /** * Sets y of this point * @param {Number} y * @chainable */ setY: function (y) { this.y = y; return this; }, /** * Sets x/y of this point from another point * @param {fabric.Point} that * @chainable */ setFromPoint: function (that) { this.x = that.x; this.y = that.y; return this; }, /** * Swaps x/y of this point and another point * @param {fabric.Point} that */ swap: function (that) { var x = this.x, y = this.y; this.x = that.x; this.y = that.y; that.x = x; that.y = y; }, /** * return a cloned instance of the point * @return {fabric.Point} */ clone: function () { return new Point(this.x, this.y); } }; })(typeof exports !== 'undefined' ? exports : this); (function(global) { 'use strict'; /* Adaptation of work of Kevin Lindsey (kevin@kevlindev.com) */ var fabric = global.fabric || (global.fabric = { }); if (fabric.Intersection) { fabric.warn('fabric.Intersection is already defined'); return; } /** * Intersection class * @class fabric.Intersection * @memberOf fabric * @constructor */ function Intersection(status) { this.status = status; this.points = []; } fabric.Intersection = Intersection; fabric.Intersection.prototype = /** @lends fabric.Intersection.prototype */ { constructor: Intersection, /** * Appends a point to intersection * @param {fabric.Point} point * @return {fabric.Intersection} thisArg * @chainable */ appendPoint: function (point) { this.points.push(point); return this; }, /** * Appends points to intersection * @param {Array} points * @return {fabric.Intersection} thisArg * @chainable */ appendPoints: function (points) { this.points = this.points.concat(points); return this; } }; /** * Checks if one line intersects another * TODO: rename in intersectSegmentSegment * @static * @param {fabric.Point} a1 * @param {fabric.Point} a2 * @param {fabric.Point} b1 * @param {fabric.Point} b2 * @return {fabric.Intersection} */ fabric.Intersection.intersectLineLine = function (a1, a2, b1, b2) { var result, uaT = (b2.x - b1.x) * (a1.y - b1.y) - (b2.y - b1.y) * (a1.x - b1.x), ubT = (a2.x - a1.x) * (a1.y - b1.y) - (a2.y - a1.y) * (a1.x - b1.x), uB = (b2.y - b1.y) * (a2.x - a1.x) - (b2.x - b1.x) * (a2.y - a1.y); if (uB !== 0) { var ua = uaT / uB, ub = ubT / uB; if (0 <= ua && ua <= 1 && 0 <= ub && ub <= 1) { result = new Intersection('Intersection'); result.appendPoint(new fabric.Point(a1.x + ua * (a2.x - a1.x), a1.y + ua * (a2.y - a1.y))); } else { result = new Intersection(); } } else { if (uaT === 0 || ubT === 0) { result = new Intersection('Coincident'); } else { result = new Intersection('Parallel'); } } return result; }; /** * Checks if line intersects polygon * TODO: rename in intersectSegmentPolygon * fix detection of coincident * @static * @param {fabric.Point} a1 * @param {fabric.Point} a2 * @param {Array} points * @return {fabric.Intersection} */ fabric.Intersection.intersectLinePolygon = function(a1, a2, points) { var result = new Intersection(), length = points.length, b1, b2, inter; for (var i = 0; i < length; i++) { b1 = points[i]; b2 = points[(i + 1) % length]; inter = Intersection.intersectLineLine(a1, a2, b1, b2); result.appendPoints(inter.points); } if (result.points.length > 0) { result.status = 'Intersection'; } return result; }; /** * Checks if polygon intersects another polygon * @static * @param {Array} points1 * @param {Array} points2 * @return {fabric.Intersection} */ fabric.Intersection.intersectPolygonPolygon = function (points1, points2) { var result = new Intersection(), length = points1.length; for (var i = 0; i < length; i++) { var a1 = points1[i], a2 = points1[(i + 1) % length], inter = Intersection.intersectLinePolygon(a1, a2, points2); result.appendPoints(inter.points); } if (result.points.length > 0) { result.status = 'Intersection'; } return result; }; /** * Checks if polygon intersects rectangle * @static * @param {Array} points * @param {fabric.Point} r1 * @param {fabric.Point} r2 * @return {fabric.Intersection} */ fabric.Intersection.intersectPolygonRectangle = function (points, r1, r2) { var min = r1.min(r2), max = r1.max(r2), topRight = new fabric.Point(max.x, min.y), bottomLeft = new fabric.Point(min.x, max.y), inter1 = Intersection.intersectLinePolygon(min, topRight, points), inter2 = Intersection.intersectLinePolygon(topRight, max, points), inter3 = Intersection.intersectLinePolygon(max, bottomLeft, points), inter4 = Intersection.intersectLinePolygon(bottomLeft, min, points), result = new Intersection(); result.appendPoints(inter1.points); result.appendPoints(inter2.points); result.appendPoints(inter3.points); result.appendPoints(inter4.points); if (result.points.length > 0) { result.status = 'Intersection'; } return result; }; })(typeof exports !== 'undefined' ? exports : this); (function(global) { 'use strict'; var fabric = global.fabric || (global.fabric = { }); if (fabric.Color) { fabric.warn('fabric.Color is already defined.'); return; } /** * Color class * The purpose of {@link fabric.Color} is to abstract and encapsulate common color operations; * {@link fabric.Color} is a constructor and creates instances of {@link fabric.Color} objects. * * @class fabric.Color * @param {String} color optional in hex or rgb(a) or hsl format or from known color list * @return {fabric.Color} thisArg * @tutorial {@link http://fabricjs.com/fabric-intro-part-2/#colors} */ function Color(color) { if (!color) { this.setSource([0, 0, 0, 1]); } else { this._tryParsingColor(color); } } fabric.Color = Color; fabric.Color.prototype = /** @lends fabric.Color.prototype */ { /** * @private * @param {String|Array} color Color value to parse */ _tryParsingColor: function(color) { var source; if (color in Color.colorNameMap) { color = Color.colorNameMap[color]; } if (color === 'transparent') { source = [255, 255, 255, 0]; } if (!source) { source = Color.sourceFromHex(color); } if (!source) { source = Color.sourceFromRgb(color); } if (!source) { source = Color.sourceFromHsl(color); } if (!source) { //if color is not recognize let's make black as canvas does source = [0, 0, 0, 1]; } if (source) { this.setSource(source); } }, /** * Adapted from https://github.com/mjijackson * @private * @param {Number} r Red color value * @param {Number} g Green color value * @param {Number} b Blue color value * @return {Array} Hsl color */ _rgbToHsl: function(r, g, b) { r /= 255; g /= 255; b /= 255; var h, s, l, max = fabric.util.array.max([r, g, b]), min = fabric.util.array.min([r, g, b]); l = (max + min) / 2; if (max === min) { h = s = 0; // achromatic } else { var d = max - min; s = l > 0.5 ? d / (2 - max - min) : d / (max + min); switch (max) { case r: h = (g - b) / d + (g < b ? 6 : 0); break; case g: h = (b - r) / d + 2; break; case b: h = (r - g) / d + 4; break; } h /= 6; } return [ Math.round(h * 360), Math.round(s * 100), Math.round(l * 100) ]; }, /** * Returns source of this color (where source is an array representation; ex: [200, 200, 100, 1]) * @return {Array} */ getSource: function() { return this._source; }, /** * Sets source of this color (where source is an array representation; ex: [200, 200, 100, 1]) * @param {Array} source */ setSource: function(source) { this._source = source; }, /** * Returns color represenation in RGB format * @return {String} ex: rgb(0-255,0-255,0-255) */ toRgb: function() { var source = this.getSource(); return 'rgb(' + source[0] + ',' + source[1] + ',' + source[2] + ')'; }, /** * Returns color represenation in RGBA format * @return {String} ex: rgba(0-255,0-255,0-255,0-1) */ toRgba: function() { var source = this.getSource(); return 'rgba(' + source[0] + ',' + source[1] + ',' + source[2] + ',' + source[3] + ')'; }, /** * Returns color represenation in HSL format * @return {String} ex: hsl(0-360,0%-100%,0%-100%) */ toHsl: function() { var source = this.getSource(), hsl = this._rgbToHsl(source[0], source[1], source[2]); return 'hsl(' + hsl[0] + ',' + hsl[1] + '%,' + hsl[2] + '%)'; }, /** * Returns color represenation in HSLA format * @return {String} ex: hsla(0-360,0%-100%,0%-100%,0-1) */ toHsla: function() { var source = this.getSource(), hsl = this._rgbToHsl(source[0], source[1], source[2]); return 'hsla(' + hsl[0] + ',' + hsl[1] + '%,' + hsl[2] + '%,' + source[3] + ')'; }, /** * Returns color represenation in HEX format * @return {String} ex: FF5555 */ toHex: function() { var source = this.getSource(), r, g, b; r = source[0].toString(16); r = (r.length === 1) ? ('0' + r) : r; g = source[1].toString(16); g = (g.length === 1) ? ('0' + g) : g; b = source[2].toString(16); b = (b.length === 1) ? ('0' + b) : b; return r.toUpperCase() + g.toUpperCase() + b.toUpperCase(); }, /** * Gets value of alpha channel for this color * @return {Number} 0-1 */ getAlpha: function() { return this.getSource()[3]; }, /** * Sets value of alpha channel for this color * @param {Number} alpha Alpha value 0-1 * @return {fabric.Color} thisArg */ setAlpha: function(alpha) { var source = this.getSource(); source[3] = alpha; this.setSource(source); return this; }, /** * Transforms color to its grayscale representation * @return {fabric.Color} thisArg */ toGrayscale: function() { var source = this.getSource(), average = parseInt((source[0] * 0.3 + source[1] * 0.59 + source[2] * 0.11).toFixed(0), 10), currentAlpha = source[3]; this.setSource([average, average, average, currentAlpha]); return this; }, /** * Transforms color to its black and white representation * @param {Number} threshold * @return {fabric.Color} thisArg */ toBlackWhite: function(threshold) { var source = this.getSource(), average = (source[0] * 0.3 + source[1] * 0.59 + source[2] * 0.11).toFixed(0), currentAlpha = source[3]; threshold = threshold || 127; average = (Number(average) < Number(threshold)) ? 0 : 255; this.setSource([average, average, average, currentAlpha]); return this; }, /** * Overlays color with another color * @param {String|fabric.Color} otherColor * @return {fabric.Color} thisArg */ overlayWith: function(otherColor) { if (!(otherColor instanceof Color)) { otherColor = new Color(otherColor); } var result = [], alpha = this.getAlpha(), otherAlpha = 0.5, source = this.getSource(), otherSource = otherColor.getSource(); for (var i = 0; i < 3; i++) { result.push(Math.round((source[i] * (1 - otherAlpha)) + (otherSource[i] * otherAlpha))); } result[3] = alpha; this.setSource(result); return this; } }; /** * Regex matching color in RGB or RGBA formats (ex: rgb(0, 0, 0), rgba(255, 100, 10, 0.5), rgba( 255 , 100 , 10 , 0.5 ), rgb(1,1,1), rgba(100%, 60%, 10%, 0.5)) * @static * @field * @memberOf fabric.Color */ // eslint-disable-next-line max-len fabric.Color.reRGBa = /^rgba?\(\s*(\d{1,3}(?:\.\d+)?\%?)\s*,\s*(\d{1,3}(?:\.\d+)?\%?)\s*,\s*(\d{1,3}(?:\.\d+)?\%?)\s*(?:\s*,\s*(\d+(?:\.\d+)?)\s*)?\)$/; /** * Regex matching color in HSL or HSLA formats (ex: hsl(200, 80%, 10%), hsla(300, 50%, 80%, 0.5), hsla( 300 , 50% , 80% , 0.5 )) * @static * @field * @memberOf fabric.Color */ fabric.Color.reHSLa = /^hsla?\(\s*(\d{1,3})\s*,\s*(\d{1,3}\%)\s*,\s*(\d{1,3}\%)\s*(?:\s*,\s*(\d+(?:\.\d+)?)\s*)?\)$/; /** * Regex matching color in HEX format (ex: #FF5544CC, #FF5555, 010155, aff) * @static * @field * @memberOf fabric.Color */ fabric.Color.reHex = /^#?([0-9a-f]{8}|[0-9a-f]{6}|[0-9a-f]{4}|[0-9a-f]{3})$/i; /** * Map of the 17 basic color names with HEX code * @static * @field * @memberOf fabric.Color * @see: http://www.w3.org/TR/CSS2/syndata.html#color-units */ fabric.Color.colorNameMap = { aqua: '#00FFFF', black: '#000000', blue: '#0000FF', fuchsia: '#FF00FF', gray: '#808080', grey: '#808080', green: '#008000', lime: '#00FF00', maroon: '#800000', navy: '#000080', olive: '#808000', orange: '#FFA500', purple: '#800080', red: '#FF0000', silver: '#C0C0C0', teal: '#008080', white: '#FFFFFF', yellow: '#FFFF00' }; /** * @private * @param {Number} p * @param {Number} q * @param {Number} t * @return {Number} */ function hue2rgb(p, q, t) { if (t < 0) { t += 1; } if (t > 1) { t -= 1; } if (t < 1 / 6) { return p + (q - p) * 6 * t; } if (t < 1 / 2) { return q; } if (t < 2 / 3) { return p + (q - p) * (2 / 3 - t) * 6; } return p; } /** * Returns new color object, when given a color in RGB format * @memberOf fabric.Color * @param {String} color Color value ex: rgb(0-255,0-255,0-255) * @return {fabric.Color} */ fabric.Color.fromRgb = function(color) { return Color.fromSource(Color.sourceFromRgb(color)); }; /** * Returns array representation (ex: [100, 100, 200, 1]) of a color that's in RGB or RGBA format * @memberOf fabric.Color * @param {String} color Color value ex: rgb(0-255,0-255,0-255), rgb(0%-100%,0%-100%,0%-100%) * @return {Array} source */ fabric.Color.sourceFromRgb = function(color) { var match = color.match(Color.reRGBa); if (match) { var r = parseInt(match[1], 10) / (/%$/.test(match[1]) ? 100 : 1) * (/%$/.test(match[1]) ? 255 : 1), g = parseInt(match[2], 10) / (/%$/.test(match[2]) ? 100 : 1) * (/%$/.test(match[2]) ? 255 : 1), b = parseInt(match[3], 10) / (/%$/.test(match[3]) ? 100 : 1) * (/%$/.test(match[3]) ? 255 : 1); return [ parseInt(r, 10), parseInt(g, 10), parseInt(b, 10), match[4] ? parseFloat(match[4]) : 1 ]; } }; /** * Returns new color object, when given a color in RGBA format * @static * @function * @memberOf fabric.Color * @param {String} color * @return {fabric.Color} */ fabric.Color.fromRgba = Color.fromRgb; /** * Returns new color object, when given a color in HSL format * @param {String} color Color value ex: hsl(0-260,0%-100%,0%-100%) * @memberOf fabric.Color * @return {fabric.Color} */ fabric.Color.fromHsl = function(color) { return Color.fromSource(Color.sourceFromHsl(color)); }; /** * Returns array representation (ex: [100, 100, 200, 1]) of a color that's in HSL or HSLA format. * Adapted from https://github.com/mjijackson * @memberOf fabric.Color * @param {String} color Color value ex: hsl(0-360,0%-100%,0%-100%) or hsla(0-360,0%-100%,0%-100%, 0-1) * @return {Array} source * @see http://http://www.w3.org/TR/css3-color/#hsl-color */ fabric.Color.sourceFromHsl = function(color) { var match = color.match(Color.reHSLa); if (!match) { return; } var h = (((parseFloat(match[1]) % 360) + 360) % 360) / 360, s = parseFloat(match[2]) / (/%$/.test(match[2]) ? 100 : 1), l = parseFloat(match[3]) / (/%$/.test(match[3]) ? 100 : 1), r, g, b; if (s === 0) { r = g = b = l; } else { var q = l <= 0.5 ? l * (s + 1) : l + s - l * s, p = l * 2 - q; r = hue2rgb(p, q, h + 1 / 3); g = hue2rgb(p, q, h); b = hue2rgb(p, q, h - 1 / 3); } return [ Math.round(r * 255), Math.round(g * 255), Math.round(b * 255), match[4] ? parseFloat(match[4]) : 1 ]; }; /** * Returns new color object, when given a color in HSLA format * @static * @function * @memberOf fabric.Color * @param {String} color * @return {fabric.Color} */ fabric.Color.fromHsla = Color.fromHsl; /** * Returns new color object, when given a color in HEX format * @static * @memberOf fabric.Color * @param {String} color Color value ex: FF5555 * @return {fabric.Color} */ fabric.Color.fromHex = function(color) { return Color.fromSource(Color.sourceFromHex(color)); }; /** * Returns array representation (ex: [100, 100, 200, 1]) of a color that's in HEX format * @static * @memberOf fabric.Color * @param {String} color ex: FF5555 or FF5544CC (RGBa) * @return {Array} source */ fabric.Color.sourceFromHex = function(color) { if (color.match(Color.reHex)) { var value = color.slice(color.indexOf('#') + 1), isShortNotation = (value.length === 3 || value.length === 4), isRGBa = (value.length === 8 || value.length === 4), r = isShortNotation ? (value.charAt(0) + value.charAt(0)) : value.substring(0, 2), g = isShortNotation ? (value.charAt(1) + value.charAt(1)) : value.substring(2, 4), b = isShortNotation ? (value.charAt(2) + value.charAt(2)) : value.substring(4, 6), a = isRGBa ? (isShortNotation ? (value.charAt(3) + value.charAt(3)) : value.substring(6, 8)) : 'FF'; return [ parseInt(r, 16), parseInt(g, 16), parseInt(b, 16), parseFloat((parseInt(a, 16) / 255).toFixed(2)) ]; } }; /** * Returns new color object, when given color in array representation (ex: [200, 100, 100, 0.5]) * @static * @memberOf fabric.Color * @param {Array} source * @return {fabric.Color} */ fabric.Color.fromSource = function(source) { var oColor = new Color(); oColor.setSource(source); return oColor; }; })(typeof exports !== 'undefined' ? exports : this); (function() { /* _FROM_SVG_START_ */ function getColorStop(el) { var style = el.getAttribute('style'), offset = el.getAttribute('offset') || 0, color, colorAlpha, opacity; // convert percents to absolute values offset = parseFloat(offset) / (/%$/.test(offset) ? 100 : 1); offset = offset < 0 ? 0 : offset > 1 ? 1 : offset; if (style) { var keyValuePairs = style.split(/\s*;\s*/); if (keyValuePairs[keyValuePairs.length - 1] === '') { keyValuePairs.pop(); } for (var i = keyValuePairs.length; i--; ) { var split = keyValuePairs[i].split(/\s*:\s*/), key = split[0].trim(), value = split[1].trim(); if (key === 'stop-color') { color = value; } else if (key === 'stop-opacity') { opacity = value; } } } if (!color) { color = el.getAttribute('stop-color') || 'rgb(0,0,0)'; } if (!opacity) { opacity = el.getAttribute('stop-opacity'); } color = new fabric.Color(color); colorAlpha = color.getAlpha(); opacity = isNaN(parseFloat(opacity)) ? 1 : parseFloat(opacity); opacity *= colorAlpha; return { offset: offset, color: color.toRgb(), opacity: opacity }; } function getLinearCoords(el) { return { x1: el.getAttribute('x1') || 0, y1: el.getAttribute('y1') || 0, x2: el.getAttribute('x2') || '100%', y2: el.getAttribute('y2') || 0 }; } function getRadialCoords(el) { return { x1: el.getAttribute('fx') || el.getAttribute('cx') || '50%', y1: el.getAttribute('fy') || el.getAttribute('cy') || '50%', r1: 0, x2: el.getAttribute('cx') || '50%', y2: el.getAttribute('cy') || '50%', r2: el.getAttribute('r') || '50%' }; } /* _FROM_SVG_END_ */ /** * Gradient class * @class fabric.Gradient * @tutorial {@link http://fabricjs.com/fabric-intro-part-2#gradients} * @see {@link fabric.Gradient#initialize} for constructor definition */ fabric.Gradient = fabric.util.createClass(/** @lends fabric.Gradient.prototype */ { /** * Horizontal offset for aligning gradients coming from SVG when outside pathgroups * @type Number * @default 0 */ offsetX: 0, /** * Vertical offset for aligning gradients coming from SVG when outside pathgroups * @type Number * @default 0 */ offsetY: 0, /** * Constructor * @param {Object} [options] Options object with type, coords, gradientUnits and colorStops * @return {fabric.Gradient} thisArg */ initialize: function(options) { options || (options = { }); var coords = { }; this.id = fabric.Object.__uid++; this.type = options.type || 'linear'; coords = { x1: options.coords.x1 || 0, y1: options.coords.y1 || 0, x2: options.coords.x2 || 0, y2: options.coords.y2 || 0 }; if (this.type === 'radial') { coords.r1 = options.coords.r1 || 0; coords.r2 = options.coords.r2 || 0; } this.coords = coords; this.colorStops = options.colorStops.slice(); if (options.gradientTransform) { this.gradientTransform = options.gradientTransform; } this.offsetX = options.offsetX || this.offsetX; this.offsetY = options.offsetY || this.offsetY; }, /** * Adds another colorStop * @param {Object} colorStop Object with offset and color * @return {fabric.Gradient} thisArg */ addColorStop: function(colorStop) { for (var position in colorStop) { var color = new fabric.Color(colorStop[position]); this.colorStops.push({ offset: position, color: color.toRgb(), opacity: color.getAlpha() }); } return this; }, /** * Returns object representation of a gradient * @return {Object} */ toObject: function() { return { type: this.type, coords: this.coords, colorStops: this.colorStops, offsetX: this.offsetX, offsetY: this.offsetY, gradientTransform: this.gradientTransform ? this.gradientTransform.concat() : this.gradientTransform }; }, /* _TO_SVG_START_ */ /** * Returns SVG representation of an gradient * @param {Object} object Object to create a gradient for * @return {String} SVG representation of an gradient (linear/radial) */ toSVG: function(object) { var coords = fabric.util.object.clone(this.coords), markup, commonAttributes; // colorStops must be sorted ascending this.colorStops.sort(function(a, b) { return a.offset - b.offset; }); if (!(object.group && object.group.type === 'path-group')) { for (var prop in coords) { if (prop === 'x1' || prop === 'x2' || prop === 'r2') { coords[prop] += this.offsetX - object.width / 2; } else if (prop === 'y1' || prop === 'y2') { coords[prop] += this.offsetY - object.height / 2; } } } commonAttributes = 'id="SVGID_' + this.id + '" gradientUnits="userSpaceOnUse"'; if (this.gradientTransform) { commonAttributes += ' gradientTransform="matrix(' + this.gradientTransform.join(' ') + ')" '; } if (this.type === 'linear') { markup = [ '\n' ]; } else if (this.type === 'radial') { markup = [ '\n' ]; } for (var i = 0; i < this.colorStops.length; i++) { markup.push( '\n' ); } markup.push((this.type === 'linear' ? '\n' : '\n')); return markup.join(''); }, /* _TO_SVG_END_ */ /** * Returns an instance of CanvasGradient * @param {CanvasRenderingContext2D} ctx Context to render on * @param {Object} object * @return {CanvasGradient} */ toLive: function(ctx, object) { var gradient, prop, coords = fabric.util.object.clone(this.coords); if (!this.type) { return; } if (object.group && object.group.type === 'path-group') { for (prop in coords) { if (prop === 'x1' || prop === 'x2') { coords[prop] += -this.offsetX + object.width / 2; } else if (prop === 'y1' || prop === 'y2') { coords[prop] += -this.offsetY + object.height / 2; } } } if (this.type === 'linear') { gradient = ctx.createLinearGradient( coords.x1, coords.y1, coords.x2, coords.y2); } else if (this.type === 'radial') { gradient = ctx.createRadialGradient( coords.x1, coords.y1, coords.r1, coords.x2, coords.y2, coords.r2); } for (var i = 0, len = this.colorStops.length; i < len; i++) { var color = this.colorStops[i].color, opacity = this.colorStops[i].opacity, offset = this.colorStops[i].offset; if (typeof opacity !== 'undefined') { color = new fabric.Color(color).setAlpha(opacity).toRgba(); } gradient.addColorStop(parseFloat(offset), color); } return gradient; } }); fabric.util.object.extend(fabric.Gradient, { /* _FROM_SVG_START_ */ /** * Returns {@link fabric.Gradient} instance from an SVG element * @static * @memberOf fabric.Gradient * @param {SVGGradientElement} el SVG gradient element * @param {fabric.Object} instance * @return {fabric.Gradient} Gradient instance * @see http://www.w3.org/TR/SVG/pservers.html#LinearGradientElement * @see http://www.w3.org/TR/SVG/pservers.html#RadialGradientElement */ fromElement: function(el, instance) { /** * @example: * * * * * * * OR * * * * * * * OR * * * * * * * * OR * * * * * * * */ var colorStopEls = el.getElementsByTagName('stop'), type, gradientUnits = el.getAttribute('gradientUnits') || 'objectBoundingBox', gradientTransform = el.getAttribute('gradientTransform'), colorStops = [], coords, ellipseMatrix; if (el.nodeName === 'linearGradient' || el.nodeName === 'LINEARGRADIENT') { type = 'linear'; } else { type = 'radial'; } if (type === 'linear') { coords = getLinearCoords(el); } else if (type === 'radial') { coords = getRadialCoords(el); } for (var i = colorStopEls.length; i--; ) { colorStops.push(getColorStop(colorStopEls[i])); } ellipseMatrix = _convertPercentUnitsToValues(instance, coords, gradientUnits); var gradient = new fabric.Gradient({ type: type, coords: coords, colorStops: colorStops, offsetX: -instance.left, offsetY: -instance.top }); if (gradientTransform || ellipseMatrix !== '') { gradient.gradientTransform = fabric.parseTransformAttribute((gradientTransform || '') + ellipseMatrix); } return gradient; }, /* _FROM_SVG_END_ */ /** * Returns {@link fabric.Gradient} instance from its object representation * @static * @memberOf fabric.Gradient * @param {Object} obj * @param {Object} [options] Options object */ forObject: function(obj, options) { options || (options = { }); _convertPercentUnitsToValues(obj, options.coords, 'userSpaceOnUse'); return new fabric.Gradient(options); } }); /** * @private */ function _convertPercentUnitsToValues(object, options, gradientUnits) { var propValue, addFactor = 0, multFactor = 1, ellipseMatrix = ''; for (var prop in options) { if (options[prop] === 'Infinity') { options[prop] = 1; } else if (options[prop] === '-Infinity') { options[prop] = 0; } propValue = parseFloat(options[prop], 10); if (typeof options[prop] === 'string' && /^\d+%$/.test(options[prop])) { multFactor = 0.01; } else { multFactor = 1; } if (prop === 'x1' || prop === 'x2' || prop === 'r2') { multFactor *= gradientUnits === 'objectBoundingBox' ? object.width : 1; addFactor = gradientUnits === 'objectBoundingBox' ? object.left || 0 : 0; } else if (prop === 'y1' || prop === 'y2') { multFactor *= gradientUnits === 'objectBoundingBox' ? object.height : 1; addFactor = gradientUnits === 'objectBoundingBox' ? object.top || 0 : 0; } options[prop] = propValue * multFactor + addFactor; } if (object.type === 'ellipse' && options.r2 !== null && gradientUnits === 'objectBoundingBox' && object.rx !== object.ry) { var scaleFactor = object.ry / object.rx; ellipseMatrix = ' scale(1, ' + scaleFactor + ')'; if (options.y1) { options.y1 /= scaleFactor; } if (options.y2) { options.y2 /= scaleFactor; } } return ellipseMatrix; } })(); /** * Pattern class * @class fabric.Pattern * @see {@link http://fabricjs.com/patterns|Pattern demo} * @see {@link http://fabricjs.com/dynamic-patterns|DynamicPattern demo} * @see {@link fabric.Pattern#initialize} for constructor definition */ fabric.Pattern = fabric.util.createClass(/** @lends fabric.Pattern.prototype */ { /** * Repeat property of a pattern (one of repeat, repeat-x, repeat-y or no-repeat) * @type String * @default */ repeat: 'repeat', /** * Pattern horizontal offset from object's left/top corner * @type Number * @default */ offsetX: 0, /** * Pattern vertical offset from object's left/top corner * @type Number * @default */ offsetY: 0, /** * Constructor * @param {Object} [options] Options object * @return {fabric.Pattern} thisArg */ initialize: function(options) { options || (options = { }); this.id = fabric.Object.__uid++; if (options.source) { if (typeof options.source === 'string') { // function string if (typeof fabric.util.getFunctionBody(options.source) !== 'undefined') { this.source = new Function(fabric.util.getFunctionBody(options.source)); } else { // img src string var _this = this; this.source = fabric.util.createImage(); fabric.util.loadImage(options.source, function(img) { _this.source = img; }); } } else { // img element this.source = options.source; } } if (options.repeat) { this.repeat = options.repeat; } if (options.offsetX) { this.offsetX = options.offsetX; } if (options.offsetY) { this.offsetY = options.offsetY; } }, /** * Returns object representation of a pattern * @return {Object} Object representation of a pattern instance */ toObject: function() { var source; // callback if (typeof this.source === 'function') { source = String(this.source); } // element else if (typeof this.source.src === 'string') { source = this.source.src; } //