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221 lines
5.0 KiB
221 lines
5.0 KiB
import { Vector3 } from 'three';
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/**
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* Generates 2D-Coordinates in a very fast way.
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*
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* Based on work by:
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* @link http://www.openprocessing.org/sketch/15493
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*
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* @param center Center of Hilbert curve.
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* @param size Total width of Hilbert curve.
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* @param iterations Number of subdivisions.
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* @param v0 Corner index -X, -Z.
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* @param v1 Corner index -X, +Z.
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* @param v2 Corner index +X, +Z.
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* @param v3 Corner index +X, -Z.
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*/
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function hilbert2D( center = new Vector3( 0, 0, 0 ), size = 10, iterations = 1, v0 = 0, v1 = 1, v2 = 2, v3 = 3 ) {
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const half = size / 2;
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const vec_s = [
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new Vector3( center.x - half, center.y, center.z - half ),
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new Vector3( center.x - half, center.y, center.z + half ),
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new Vector3( center.x + half, center.y, center.z + half ),
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new Vector3( center.x + half, center.y, center.z - half )
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];
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const vec = [
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vec_s[ v0 ],
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vec_s[ v1 ],
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vec_s[ v2 ],
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vec_s[ v3 ]
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];
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// Recurse iterations
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if ( 0 <= -- iterations ) {
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return [
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...hilbert2D( vec[ 0 ], half, iterations, v0, v3, v2, v1 ),
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...hilbert2D( vec[ 1 ], half, iterations, v0, v1, v2, v3 ),
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...hilbert2D( vec[ 2 ], half, iterations, v0, v1, v2, v3 ),
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...hilbert2D( vec[ 3 ], half, iterations, v2, v1, v0, v3 )
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];
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}
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// Return complete Hilbert Curve.
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return vec;
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}
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/**
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* Generates 3D-Coordinates in a very fast way.
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*
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* Based on work by:
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* @link https://openprocessing.org/user/5654
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*
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* @param center Center of Hilbert curve.
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* @param size Total width of Hilbert curve.
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* @param iterations Number of subdivisions.
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* @param v0 Corner index -X, +Y, -Z.
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* @param v1 Corner index -X, +Y, +Z.
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* @param v2 Corner index -X, -Y, +Z.
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* @param v3 Corner index -X, -Y, -Z.
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* @param v4 Corner index +X, -Y, -Z.
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* @param v5 Corner index +X, -Y, +Z.
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* @param v6 Corner index +X, +Y, +Z.
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* @param v7 Corner index +X, +Y, -Z.
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*/
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function hilbert3D( center = new Vector3( 0, 0, 0 ), size = 10, iterations = 1, v0 = 0, v1 = 1, v2 = 2, v3 = 3, v4 = 4, v5 = 5, v6 = 6, v7 = 7 ) {
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// Default Vars
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const half = size / 2;
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const vec_s = [
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new Vector3( center.x - half, center.y + half, center.z - half ),
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new Vector3( center.x - half, center.y + half, center.z + half ),
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new Vector3( center.x - half, center.y - half, center.z + half ),
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new Vector3( center.x - half, center.y - half, center.z - half ),
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new Vector3( center.x + half, center.y - half, center.z - half ),
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new Vector3( center.x + half, center.y - half, center.z + half ),
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new Vector3( center.x + half, center.y + half, center.z + half ),
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new Vector3( center.x + half, center.y + half, center.z - half )
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];
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const vec = [
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vec_s[ v0 ],
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vec_s[ v1 ],
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vec_s[ v2 ],
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vec_s[ v3 ],
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vec_s[ v4 ],
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vec_s[ v5 ],
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vec_s[ v6 ],
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vec_s[ v7 ]
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];
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// Recurse iterations
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if ( -- iterations >= 0 ) {
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return [
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...hilbert3D( vec[ 0 ], half, iterations, v0, v3, v4, v7, v6, v5, v2, v1 ),
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...hilbert3D( vec[ 1 ], half, iterations, v0, v7, v6, v1, v2, v5, v4, v3 ),
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...hilbert3D( vec[ 2 ], half, iterations, v0, v7, v6, v1, v2, v5, v4, v3 ),
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...hilbert3D( vec[ 3 ], half, iterations, v2, v3, v0, v1, v6, v7, v4, v5 ),
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...hilbert3D( vec[ 4 ], half, iterations, v2, v3, v0, v1, v6, v7, v4, v5 ),
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...hilbert3D( vec[ 5 ], half, iterations, v4, v3, v2, v5, v6, v1, v0, v7 ),
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...hilbert3D( vec[ 6 ], half, iterations, v4, v3, v2, v5, v6, v1, v0, v7 ),
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...hilbert3D( vec[ 7 ], half, iterations, v6, v5, v2, v1, v0, v3, v4, v7 )
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];
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}
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// Return complete Hilbert Curve.
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return vec;
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}
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/**
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* Generates a Gosper curve (lying in the XY plane)
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*
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* https://gist.github.com/nitaku/6521802
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*
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* @param size The size of a single gosper island.
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*/
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function gosper( size = 1 ) {
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function fractalize( config ) {
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let output;
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let input = config.axiom;
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for ( let i = 0, il = config.steps; 0 <= il ? i < il : i > il; 0 <= il ? i ++ : i -- ) {
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output = '';
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for ( let j = 0, jl = input.length; j < jl; j ++ ) {
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const char = input[ j ];
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if ( char in config.rules ) {
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output += config.rules[ char ];
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} else {
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output += char;
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}
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}
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input = output;
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}
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return output;
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}
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function toPoints( config ) {
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let currX = 0, currY = 0;
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let angle = 0;
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const path = [ 0, 0, 0 ];
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const fractal = config.fractal;
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for ( let i = 0, l = fractal.length; i < l; i ++ ) {
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const char = fractal[ i ];
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if ( char === '+' ) {
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angle += config.angle;
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} else if ( char === '-' ) {
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angle -= config.angle;
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} else if ( char === 'F' ) {
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currX += config.size * Math.cos( angle );
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currY += - config.size * Math.sin( angle );
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path.push( currX, currY, 0 );
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}
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}
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return path;
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}
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//
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const gosper = fractalize( {
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axiom: 'A',
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steps: 4,
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rules: {
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A: 'A+BF++BF-FA--FAFA-BF+',
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B: '-FA+BFBF++BF+FA--FA-B'
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}
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} );
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const points = toPoints( {
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fractal: gosper,
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size: size,
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angle: Math.PI / 3 // 60 degrees
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} );
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return points;
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}
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export {
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hilbert2D,
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hilbert3D,
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gosper,
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};
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