import { Curve, Vector3 } from 'three'; /** * A bunch of parametric curves * * Formulas collected from various sources * http://mathworld.wolfram.com/HeartCurve.html * http://en.wikipedia.org/wiki/Viviani%27s_curve * http://www.mi.sanu.ac.rs/vismath/taylorapril2011/Taylor.pdf * https://prideout.net/blog/old/blog/index.html@p=44.html */ // GrannyKnot class GrannyKnot extends Curve { getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; t = 2 * Math.PI * t; const x = - 0.22 * Math.cos( t ) - 1.28 * Math.sin( t ) - 0.44 * Math.cos( 3 * t ) - 0.78 * Math.sin( 3 * t ); const 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 ); const z = 0.7 * Math.cos( 3 * t ) - 0.4 * Math.sin( 3 * t ); return point.set( x, y, z ).multiplyScalar( 20 ); } } // HeartCurve class HeartCurve extends Curve { constructor( scale = 5 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; t *= 2 * Math.PI; const x = 16 * Math.pow( Math.sin( t ), 3 ); const y = 13 * Math.cos( t ) - 5 * Math.cos( 2 * t ) - 2 * Math.cos( 3 * t ) - Math.cos( 4 * t ); const z = 0; return point.set( x, y, z ).multiplyScalar( this.scale ); } } // Viviani's Curve class VivianiCurve extends Curve { constructor( scale = 70 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; t = t * 4 * Math.PI; // normalized to 0..1 const a = this.scale / 2; const x = a * ( 1 + Math.cos( t ) ); const y = a * Math.sin( t ); const z = 2 * a * Math.sin( t / 2 ); return point.set( x, y, z ); } } // KnotCurve class KnotCurve extends Curve { getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; t *= 2 * Math.PI; const R = 10; const s = 50; const x = s * Math.sin( t ); const y = Math.cos( t ) * ( R + s * Math.cos( t ) ); const z = Math.sin( t ) * ( R + s * Math.cos( t ) ); return point.set( x, y, z ); } } // HelixCurve class HelixCurve extends Curve { getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; const a = 30; // radius const b = 150; // height const t2 = 2 * Math.PI * t * b / 30; const x = Math.cos( t2 ) * a; const y = Math.sin( t2 ) * a; const z = b * t; return point.set( x, y, z ); } } // TrefoilKnot class TrefoilKnot extends Curve { constructor( scale = 10 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; t *= Math.PI * 2; const x = ( 2 + Math.cos( 3 * t ) ) * Math.cos( 2 * t ); const y = ( 2 + Math.cos( 3 * t ) ) * Math.sin( 2 * t ); const z = Math.sin( 3 * t ); return point.set( x, y, z ).multiplyScalar( this.scale ); } } // TorusKnot class TorusKnot extends Curve { constructor( scale = 10 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; const p = 3; const q = 4; t *= Math.PI * 2; const x = ( 2 + Math.cos( q * t ) ) * Math.cos( p * t ); const y = ( 2 + Math.cos( q * t ) ) * Math.sin( p * t ); const z = Math.sin( q * t ); return point.set( x, y, z ).multiplyScalar( this.scale ); } } // CinquefoilKnot class CinquefoilKnot extends Curve { constructor( scale = 10 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; const p = 2; const q = 5; t *= Math.PI * 2; const x = ( 2 + Math.cos( q * t ) ) * Math.cos( p * t ); const y = ( 2 + Math.cos( q * t ) ) * Math.sin( p * t ); const z = Math.sin( q * t ); return point.set( x, y, z ).multiplyScalar( this.scale ); } } // TrefoilPolynomialKnot class TrefoilPolynomialKnot extends Curve { constructor( scale = 10 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; t = t * 4 - 2; const x = Math.pow( t, 3 ) - 3 * t; const y = Math.pow( t, 4 ) - 4 * t * t; const z = 1 / 5 * Math.pow( t, 5 ) - 2 * t; return point.set( x, y, z ).multiplyScalar( this.scale ); } } function scaleTo( x, y, t ) { const r = y - x; return t * r + x; } // FigureEightPolynomialKnot class FigureEightPolynomialKnot extends Curve { constructor( scale = 1 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; t = scaleTo( - 4, 4, t ); const x = 2 / 5 * t * ( t * t - 7 ) * ( t * t - 10 ); const y = Math.pow( t, 4 ) - 13 * t * t; const z = 1 / 10 * t * ( t * t - 4 ) * ( t * t - 9 ) * ( t * t - 12 ); return point.set( x, y, z ).multiplyScalar( this.scale ); } } // DecoratedTorusKnot4a class DecoratedTorusKnot4a extends Curve { constructor( scale = 40 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; t *= Math.PI * 2; const x = Math.cos( 2 * t ) * ( 1 + 0.6 * ( Math.cos( 5 * t ) + 0.75 * Math.cos( 10 * t ) ) ); const y = Math.sin( 2 * t ) * ( 1 + 0.6 * ( Math.cos( 5 * t ) + 0.75 * Math.cos( 10 * t ) ) ); const z = 0.35 * Math.sin( 5 * t ); return point.set( x, y, z ).multiplyScalar( this.scale ); } } // DecoratedTorusKnot4b class DecoratedTorusKnot4b extends Curve { constructor( scale = 40 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; const fi = t * Math.PI * 2; const x = Math.cos( 2 * fi ) * ( 1 + 0.45 * Math.cos( 3 * fi ) + 0.4 * Math.cos( 9 * fi ) ); const y = Math.sin( 2 * fi ) * ( 1 + 0.45 * Math.cos( 3 * fi ) + 0.4 * Math.cos( 9 * fi ) ); const z = 0.2 * Math.sin( 9 * fi ); return point.set( x, y, z ).multiplyScalar( this.scale ); } } // DecoratedTorusKnot5a class DecoratedTorusKnot5a extends Curve { constructor( scale = 40 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; const fi = t * Math.PI * 2; const x = Math.cos( 3 * fi ) * ( 1 + 0.3 * Math.cos( 5 * fi ) + 0.5 * Math.cos( 10 * fi ) ); const y = Math.sin( 3 * fi ) * ( 1 + 0.3 * Math.cos( 5 * fi ) + 0.5 * Math.cos( 10 * fi ) ); const z = 0.2 * Math.sin( 20 * fi ); return point.set( x, y, z ).multiplyScalar( this.scale ); } } // DecoratedTorusKnot5c class DecoratedTorusKnot5c extends Curve { constructor( scale = 40 ) { super(); this.scale = scale; } getPoint( t, optionalTarget = new Vector3() ) { const point = optionalTarget; const fi = t * Math.PI * 2; const x = Math.cos( 4 * fi ) * ( 1 + 0.5 * ( Math.cos( 5 * fi ) + 0.4 * Math.cos( 20 * fi ) ) ); const y = Math.sin( 4 * fi ) * ( 1 + 0.5 * ( Math.cos( 5 * fi ) + 0.4 * Math.cos( 20 * fi ) ) ); const z = 0.35 * Math.sin( 15 * fi ); return point.set( x, y, z ).multiplyScalar( this.scale ); } } export { GrannyKnot, HeartCurve, VivianiCurve, KnotCurve, HelixCurve, TrefoilKnot, TorusKnot, CinquefoilKnot, TrefoilPolynomialKnot, FigureEightPolynomialKnot, DecoratedTorusKnot4a, DecoratedTorusKnot4b, DecoratedTorusKnot5a, DecoratedTorusKnot5c };