var pathHandlers = { M: function(c, p, p0) { p.x = p0.x = c[0] p.y = p0.y = c[1] return ['M', p.x, p.y] }, L: function(c, p) { p.x = c[0] p.y = c[1] return ['L', c[0], c[1]] }, H: function(c, p) { p.x = c[0] return ['H', c[0]] }, V: function(c, p) { p.y = c[0] return ['V', c[0]] }, C: function(c, p) { p.x = c[4] p.y = c[5] return ['C', c[0], c[1], c[2], c[3], c[4], c[5]] }, S: function(c, p) { p.x = c[2] p.y = c[3] return ['S', c[0], c[1], c[2], c[3]] }, Q: function(c, p) { p.x = c[2] p.y = c[3] return ['Q', c[0], c[1], c[2], c[3]] }, T: function(c, p) { p.x = c[0] p.y = c[1] return ['T', c[0], c[1]] }, Z: function(c, p, p0) { p.x = p0.x p.y = p0.y return ['Z'] }, A: function(c, p) { p.x = c[5] p.y = c[6] return ['A', c[0], c[1], c[2], c[3], c[4], c[5], c[6]] } } var mlhvqtcsa = 'mlhvqtcsaz'.split('') for(var i = 0, il = mlhvqtcsa.length; i < il; ++i){ pathHandlers[mlhvqtcsa[i]] = (function(i){ return function(c, p, p0) { if(i == 'H') c[0] = c[0] + p.x else if(i == 'V') c[0] = c[0] + p.y else if(i == 'A'){ c[5] = c[5] + p.x, c[6] = c[6] + p.y } else for(var j = 0, jl = c.length; j < jl; ++j) { c[j] = c[j] + (j%2 ? p.y : p.x) } return pathHandlers[i](c, p, p0) } })(mlhvqtcsa[i].toUpperCase()) } // Path points array SVG.PathArray = function(array, fallback) { SVG.Array.call(this, array, fallback || [['M', 0, 0]]) } // Inherit from SVG.Array SVG.PathArray.prototype = new SVG.Array SVG.PathArray.prototype.constructor = SVG.PathArray SVG.extend(SVG.PathArray, { // Convert array to string toString: function() { return arrayToString(this.value) } // Move path string , move: function(x, y) { // get bounding box of current situation var box = this.bbox() // get relative offset x -= box.x y -= box.y if (!isNaN(x) && !isNaN(y)) { // move every point for (var l, i = this.value.length - 1; i >= 0; i--) { l = this.value[i][0] if (l == 'M' || l == 'L' || l == 'T') { this.value[i][1] += x this.value[i][2] += y } else if (l == 'H') { this.value[i][1] += x } else if (l == 'V') { this.value[i][1] += y } else if (l == 'C' || l == 'S' || l == 'Q') { this.value[i][1] += x this.value[i][2] += y this.value[i][3] += x this.value[i][4] += y if (l == 'C') { this.value[i][5] += x this.value[i][6] += y } } else if (l == 'A') { this.value[i][6] += x this.value[i][7] += y } } } return this } // Resize path string , size: function(width, height) { // get bounding box of current situation var i, l, box = this.bbox() // recalculate position of all points according to new size for (i = this.value.length - 1; i >= 0; i--) { l = this.value[i][0] if (l == 'M' || l == 'L' || l == 'T') { this.value[i][1] = ((this.value[i][1] - box.x) * width) / box.width + box.x this.value[i][2] = ((this.value[i][2] - box.y) * height) / box.height + box.y } else if (l == 'H') { this.value[i][1] = ((this.value[i][1] - box.x) * width) / box.width + box.x } else if (l == 'V') { this.value[i][1] = ((this.value[i][1] - box.y) * height) / box.height + box.y } else if (l == 'C' || l == 'S' || l == 'Q') { this.value[i][1] = ((this.value[i][1] - box.x) * width) / box.width + box.x this.value[i][2] = ((this.value[i][2] - box.y) * height) / box.height + box.y this.value[i][3] = ((this.value[i][3] - box.x) * width) / box.width + box.x this.value[i][4] = ((this.value[i][4] - box.y) * height) / box.height + box.y if (l == 'C') { this.value[i][5] = ((this.value[i][5] - box.x) * width) / box.width + box.x this.value[i][6] = ((this.value[i][6] - box.y) * height) / box.height + box.y } } else if (l == 'A') { // resize radii this.value[i][1] = (this.value[i][1] * width) / box.width this.value[i][2] = (this.value[i][2] * height) / box.height // move position values this.value[i][6] = ((this.value[i][6] - box.x) * width) / box.width + box.x this.value[i][7] = ((this.value[i][7] - box.y) * height) / box.height + box.y } } return this } // Test if the passed path array use the same path data commands as this path array , equalCommands: function(pathArray) { var i, il, equalCommands pathArray = new SVG.PathArray(pathArray) equalCommands = this.value.length === pathArray.value.length for(i = 0, il = this.value.length; equalCommands && i < il; i++) { equalCommands = this.value[i][0] === pathArray.value[i][0] } return equalCommands } // Make path array morphable , morph: function(pathArray) { pathArray = new SVG.PathArray(pathArray) if(this.equalCommands(pathArray)) { this.destination = pathArray } else { this.destination = null } return this } // Get morphed path array at given position , at: function(pos) { // make sure a destination is defined if (!this.destination) return this var sourceArray = this.value , destinationArray = this.destination.value , array = [], pathArray = new SVG.PathArray() , i, il, j, jl // Animate has specified in the SVG spec // See: https://www.w3.org/TR/SVG11/paths.html#PathElement for (i = 0, il = sourceArray.length; i < il; i++) { array[i] = [sourceArray[i][0]] for(j = 1, jl = sourceArray[i].length; j < jl; j++) { array[i][j] = sourceArray[i][j] + (destinationArray[i][j] - sourceArray[i][j]) * pos } // For the two flags of the elliptical arc command, the SVG spec say: // Flags and booleans are interpolated as fractions between zero and one, with any non-zero value considered to be a value of one/true // Elliptical arc command as an array followed by corresponding indexes: // ['A', rx, ry, x-axis-rotation, large-arc-flag, sweep-flag, x, y] // 0 1 2 3 4 5 6 7 if(array[i][0] === 'A') { array[i][4] = +(array[i][4] != 0) array[i][5] = +(array[i][5] != 0) } } // Directly modify the value of a path array, this is done this way for performance pathArray.value = array return pathArray } // Absolutize and parse path to array , parse: function(array) { // if it's already a patharray, no need to parse it if (array instanceof SVG.PathArray) return array.valueOf() // prepare for parsing var i, x0, y0, s, seg, arr , x = 0 , y = 0 , paramCnt = { 'M':2, 'L':2, 'H':1, 'V':1, 'C':6, 'S':4, 'Q':4, 'T':2, 'A':7, 'Z':0 } if(typeof array == 'string'){ array = array .replace(SVG.regex.numbersWithDots, pathRegReplace) // convert 45.123.123 to 45.123 .123 .replace(SVG.regex.pathLetters, ' $& ') // put some room between letters and numbers .replace(SVG.regex.hyphen, '$1 -') // add space before hyphen .trim() // trim .split(SVG.regex.delimiter) // split into array }else{ array = array.reduce(function(prev, curr){ return [].concat.call(prev, curr) }, []) } // array now is an array containing all parts of a path e.g. ['M', '0', '0', 'L', '30', '30' ...] var arr = [] , p = new SVG.Point() , p0 = new SVG.Point() , index = 0 , len = array.length do{ // Test if we have a path letter if(SVG.regex.isPathLetter.test(array[index])){ s = array[index] ++index // If last letter was a move command and we got no new, it defaults to [L]ine }else if(s == 'M'){ s = 'L' }else if(s == 'm'){ s = 'l' } arr.push(pathHandlers[s].call(null, array.slice(index, (index = index + paramCnt[s.toUpperCase()])).map(parseFloat), p, p0 ) ) }while(len > index) return arr } // Get bounding box of path , bbox: function() { SVG.parser.path.setAttribute('d', this.toString()) return SVG.parser.path.getBBox() } })