/* * A bunch of parametric curves * @author zz85 * * Formulas collected from various sources * http://mathworld.wolfram.com/HeartCurve.html * http://mathdl.maa.org/images/upload_library/23/stemkoski/knots/page6.html * http://en.wikipedia.org/wiki/Viviani%27s_curve * http://mathdl.maa.org/images/upload_library/23/stemkoski/knots/page4.html * http://www.mi.sanu.ac.rs/vismath/taylorapril2011/Taylor.pdf * http://prideout.net/blog/?p=44 */ // Lets define some curves THREE.Curves = {}; THREE.Curves.GrannyKnot = THREE.Curve.create( function() {}, function(t) { t = 2 * Math.PI * t; var x = -0.22 * Math.cos(t) - 1.28 * Math.sin(t) - 0.44 * Math.cos(3 * t) - 0.78 * Math.sin(3 * t); var y = -0.1 * Math.cos(2 * t) - 0.27 * Math.sin(2 * t) + 0.38 * Math.cos(4 * t) + 0.46 * Math.sin(4 * t); var z = 0.7 * Math.cos(3 * t) - 0.4 * Math.sin(3 * t); return new THREE.Vector3(x, y, z).multiplyScalar(20); } ); THREE.Curves.HeartCurve = THREE.Curve.create( function(s) { this.scale = (s === undefined) ? 5 : s; }, function(t) { t *= 2 * Math.PI; var tx = 16 * Math.pow(Math.sin(t), 3); var ty = 13 * Math.cos(t) - 5 * Math.cos(2 * t) - 2 * Math.cos(3 * t) - Math.cos(4 * t), tz = 0; return new THREE.Vector3(tx, ty, tz).multiplyScalar(this.scale); } ); // Viviani's Curve THREE.Curves.VivianiCurve = THREE.Curve.create( function(radius) { this.radius = radius; }, function(t) { t = t * 4 * Math.PI; // Normalized to 0..1 var a = this.radius / 2; var tx = a * (1 + Math.cos(t)), ty = a * Math.sin(t), tz = 2 * a * Math.sin(t / 2); return new THREE.Vector3(tx, ty, tz); } ); THREE.Curves.KnotCurve = THREE.Curve.create( function() { }, function(t) { t *= 2 * Math.PI; var R = 10; var s = 50; var tx = s * Math.sin(t), ty = Math.cos(t) * (R + s * Math.cos(t)), tz = Math.sin(t) * (R + s * Math.cos(t)); return new THREE.Vector3(tx, ty, tz); } ); THREE.Curves.HelixCurve = THREE.Curve.create( function() { }, function(t) { var a = 30; // radius var b = 150; //height var t2 = 2 * Math.PI * t * b / 30; var tx = Math.cos(t2) * a, ty = Math.sin(t2) * a, tz = b * t; return new THREE.Vector3(tx, ty, tz); } ); THREE.Curves.TrefoilKnot = THREE.Curve.create( function(s) { this.scale = (s === undefined) ? 10 : s; }, function(t) { t *= Math.PI * 2; var tx = (2 + Math.cos(3 * t)) * Math.cos(2 * t), ty = (2 + Math.cos(3 * t)) * Math.sin(2 * t), tz = Math.sin(3 * t); return new THREE.Vector3(tx, ty, tz).multiplyScalar(this.scale); } ); THREE.Curves.TorusKnot = THREE.Curve.create( function(s) { this.scale = (s === undefined) ? 10 : s; }, function(t) { var p = 3, q = 4; t *= Math.PI * 2; var tx = (2 + Math.cos(q * t)) * Math.cos(p * t), ty = (2 + Math.cos(q * t)) * Math.sin(p * t), tz = Math.sin(q * t); return new THREE.Vector3(tx, ty, tz).multiplyScalar(this.scale); } ); THREE.Curves.CinquefoilKnot = THREE.Curve.create( function(s) { this.scale = (s === undefined) ? 10 : s; }, function(t) { var p = 2, q = 5; t *= Math.PI * 2; var tx = (2 + Math.cos(q * t)) * Math.cos(p * t), ty = (2 + Math.cos(q * t)) * Math.sin(p * t), tz = Math.sin(q * t); return new THREE.Vector3(tx, ty, tz).multiplyScalar(this.scale); } ); THREE.Curves.TrefoilPolynomialKnot = THREE.Curve.create( function(s) { this.scale = (s === undefined) ? 10 : s; }, function(t) { t = t * 4 - 2; var tx = Math.pow(t, 3) - 3 * t, ty = Math.pow(t, 4) - 4 * t * t, tz = 1 / 5 * Math.pow(t, 5) - 2 * t; return new THREE.Vector3(tx, ty, tz).multiplyScalar(this.scale); } ); // var scaleTo = function(x, y) { // var r = y - x; // return function(t) { // t * r + x; // }; // } var scaleTo = function(x, y, t) { var r = y - x; return t * r + x; } THREE.Curves.FigureEightPolynomialKnot = THREE.Curve.create( function(s) { this.scale = (s === undefined) ? 1 : s; }, function(t) { t = scaleTo(-4, 4, t); var tx = 2 / 5 * t * (t * t - 7) * (t * t - 10), ty = Math.pow(t, 4) - 13 * t * t, tz = 1 / 10 * t * (t * t - 4) * (t * t - 9) * (t * t - 12); return new THREE.Vector3(tx, ty, tz).multiplyScalar(this.scale); } ); THREE.Curves.DecoratedTorusKnot4a = THREE.Curve.create( function(s) { this.scale = (s === undefined) ? 40 : s; }, function(t) { t *= Math.PI * 2; var x = Math.cos(2 * t) * (1 + 0.6 * (Math.cos(5 * t) + 0.75 * Math.cos(10 * t))), y = Math.sin(2 * t) * (1 + 0.6 * (Math.cos(5 * t) + 0.75 * Math.cos(10 * t))), z = 0.35 * Math.sin(5 * t); return new THREE.Vector3(x, y, z).multiplyScalar(this.scale); } ); THREE.Curves.DecoratedTorusKnot4b = THREE.Curve.create( function(s) { this.scale = (s === undefined) ? 40 : s; }, function(t) { var fi = t * Math.PI * 2; var x = Math.cos(2 * fi) * (1 + 0.45 * Math.cos(3 * fi) + 0.4 * Math.cos(9 * fi)), y = Math.sin(2 * fi) * (1 + 0.45 * Math.cos(3 * fi) + 0.4 * Math.cos(9 * fi)), z = 0.2 * Math.sin(9 * fi); return new THREE.Vector3(x, y, z).multiplyScalar(this.scale); } ); THREE.Curves.DecoratedTorusKnot5a = THREE.Curve.create( function(s) { this.scale = (s === undefined) ? 40 : s; }, function(t) { var fi = t * Math.PI * 2; var x = Math.cos(3 * fi) * (1 + 0.3 * Math.cos(5 * fi) + 0.5 * Math.cos(10 * fi)), y = Math.sin(3 * fi) * (1 + 0.3 * Math.cos(5 * fi) + 0.5 * Math.cos(10 * fi)), z = 0.2 * Math.sin(20 * fi); return new THREE.Vector3(x, y, z).multiplyScalar(this.scale); } ); THREE.Curves.DecoratedTorusKnot5c = THREE.Curve.create( function(s) { this.scale = (s === undefined) ? 40 : s; }, function(t) { var fi = t * Math.PI * 2; var x = Math.cos(4 * fi) * (1 + 0.5 * (Math.cos(5 * fi) + 0.4 * Math.cos(20 * fi))), y = Math.sin(4 * fi) * (1 + 0.5 * (Math.cos(5 * fi) + 0.4 * Math.cos(20 * fi))), z = 0.35 * Math.sin(15 * fi); return new THREE.Vector3(x, y, z).multiplyScalar(this.scale); } );