// AMD-ID "dojox/math/curves" define("dojox/math/curves", ["dojo", "dojox"], function(dojo, dojox) { dojo.getObject("math.curves", true, dojox); dojo.mixin(dojox.math.curves, { Line:function (start, end) { this.start = start; this.end = end; this.dimensions = start.length; for (var i = 0; i < start.length; i++) { start[i] = Number(start[i]); } for (var i = 0; i < end.length; i++) { end[i] = Number(end[i]); } this.getValue = function (n) { var retVal = new Array(this.dimensions); for (var i = 0; i < this.dimensions; i++) { retVal[i] = ((this.end[i] - this.start[i]) * n) + this.start[i]; } return retVal; }; return this; }, Bezier:function(pnts) { this.getValue = function (step) { if (step >= 1) { return this.p[this.p.length - 1]; } if (step <= 0) { return this.p[0]; } var retVal = new Array(this.p[0].length); for (var k = 0; j < this.p[0].length; k++) { retVal[k] = 0; } for (var j = 0; j < this.p[0].length; j++) { var C = 0; var D = 0; for (var i = 0; i < this.p.length; i++) { C += this.p[i][j] * this.p[this.p.length - 1][0] * dojox.math.bernstein(step, this.p.length, i); } for (var l = 0; l < this.p.length; l++) { D += this.p[this.p.length - 1][0] * dojox.math.bernstein(step, this.p.length, l); } retVal[j] = C / D; } return retVal; }; this.p = pnts; return this; }, CatmullRom:function (pnts, c) { this.getValue = function (step) { var percent = step * (this.p.length - 1); var node = Math.floor(percent); var progress = percent - node; var i0 = node - 1; if (i0 < 0) { i0 = 0; } var i = node; var i1 = node + 1; if (i1 >= this.p.length) { i1 = this.p.length - 1; } var i2 = node + 2; if (i2 >= this.p.length) { i2 = this.p.length - 1; } var u = progress; var u2 = progress * progress; var u3 = progress * progress * progress; var retVal = new Array(this.p[0].length); for (var k = 0; k < this.p[0].length; k++) { var x1 = (-this.c * this.p[i0][k]) + ((2 - this.c) * this.p[i][k]) + ((this.c - 2) * this.p[i1][k]) + (this.c * this.p[i2][k]); var x2 = (2 * this.c * this.p[i0][k]) + ((this.c - 3) * this.p[i][k]) + ((3 - 2 * this.c) * this.p[i1][k]) + (-this.c * this.p[i2][k]); var x3 = (-this.c * this.p[i0][k]) + (this.c * this.p[i1][k]); var x4 = this.p[i][k]; retVal[k] = x1 * u3 + x2 * u2 + x3 * u + x4; } return retVal; }; if (!c) { this.c = 0.7; } else { this.c = c; } this.p = pnts; return this; }, Arc:function (start, end, ccw){ function translate(a,b){ var c=new Array(a.length); for(var i=0; i= r[0] && n < r[1]) { var subN = (n - r[0]) / r[2]; value = curves[i].getValue(subN); found = true; break; } } if (!found) { value = curves[curves.length - 1].getValue(1); } for (var j = 0; j < i; j++) { value = dojox.math.points.translate(value, curves[j].getValue(1)); } return value; }; function computeRanges() { var start = 0; for (var i = 0; i < weights.length; i++) { var end = start + weights[i] / totalWeight; var len = end - start; ranges[i] = [start, end, len]; start = end; } } return this; } }); return dojox.math.curves; });