mirror of
https://github.com/seigler/generative
synced 2025-07-26 22:56:10 +00:00
159 lines
4.7 KiB
JavaScript
159 lines
4.7 KiB
JavaScript
const Delaunay = require('./delaunay.js');
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new p5(sketch => {
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sketch.disableFriendlyErrors = true;
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// reused dimensions and a seed
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let seed, width, height, noiseResolution, overdraw, blurQuality;
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const layers = {}; // offscreen layers
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const shaders = {}; // shaders
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const lib = {}; // libraries
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const assets = {}; // fonts, images, sound files
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sketch.preload = () => {
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// shaders.whiteNoise = sketch.loadShader(
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// '../shaders/base.vert',
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// '../shaders/white-noise.frag'
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// );
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// shaders.blurH = sketch.loadShader(
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// '../shaders/base.vert',
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// '../shaders/blur-two-pass.frag'
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// );
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// shaders.blurV = sketch.loadShader(
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// '../shaders/base.vert',
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// '../shaders/blur-two-pass.frag'
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// );
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}
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sketch.setup = () => {
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filenamePrefix = 'seigler-p5-7-estrellas-';
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overdraw = 0.1;
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width = Math.floor(sketch.windowWidth * (1 + overdraw));
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height = Math.floor(sketch.windowHeight * (1 + overdraw));
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noiseResolution = [0.2, 0.1, 0.05, 2];
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blurQuality = 2;
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window.onhashchange = () => {
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seed = window.location.hash.substr(1);
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generate();
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};
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seed = window.location.hash.substr(1);
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sketch.colorMode(sketch.HSL, 1);
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sketch.createCanvas(sketch.windowWidth, sketch.windowHeight);
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layers.stars = sketch.createGraphics(width, height);
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layers.stars.colorMode(sketch.HSL, 1);
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// layers.noise = sketch.createGraphics(width, height, sketch.WEBGL);
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// layers.blur1 = sketch.createGraphics(width, height, sketch.WEBGL);
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// layers.blur2 = sketch.createGraphics(width, height, sketch.WEBGL);
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generate();
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};
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sketch.draw = () => {
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};
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sketch.keyReleased = () => {
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if (sketch.key == ' ') {
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seed = null;
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generate();
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} else if (sketch.key == 's') {
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sketch.saveCanvas(filenamePrefix + seed + '.jpg', 'jpg');
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}
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};
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sketch.doubleClicked = () => {
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seed = null;
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generate();
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};
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let resizeTimer;
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sketch.windowResized = () => {
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clearTimeout(resizeTimer);
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resizeTimer = setTimeout(() => {
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window.location.reload();
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}, 100);
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};
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function generate() {
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if (seed) {
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sketch.randomSeed(seed);
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} else {
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let seed = Math.floor(sketch.random(1000000000000));
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window.location.hash = seed;
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sketch.randomSeed(seed);
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}
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sketch.noiseSeed(sketch.random(0, 1000000000));
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layers.stars.clear();
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layers.stars.fill(1);
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layers.stars.noStroke();
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addStars(layers.stars);
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sketch.blendMode(sketch.BLEND);
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sketch.background(0);
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// layers.noise.shader(shaders.whiteNoise);
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// shaders.whiteNoise.setUniform('u_resolution', [width, height]);
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// shaders.whiteNoise.setUniform('u_alpha', 0.05);
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// layers.noise.rect(0, 0, width, height);
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sketch.image(layers.stars, Math.round(-width * overdraw/2), Math.round(-height * overdraw/2));
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// sketch.blendMode(sketch.OVERLAY);
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// sketch.image(layers.noise, 0, 0);
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}
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function addStars(layer) {
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const bigStars = new Array(Math.round(width * height / 2000));
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const littleStars = new Array(Math.round(width * height / 200));
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for (let i = 0; i < bigStars.length; i++) {
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bigStars[i] = [sketch.random(width), sketch.random(height)];
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}
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for (let i = 0; i < littleStars.length; i++) {
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littleStars[i] = [sketch.random(width), sketch.random(height)];
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}
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layer.noStroke();
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layer.fill(1);
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littleStars.forEach(star => {
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layer.circle(star[0], star[1], sketch.random(0.25, 0.5));
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});
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const triangles = Delaunay.triangulate(bigStars);
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layer.stroke(235/360, 0.82, 0.42, 0.28);
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layer.strokeWeight(2);
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layer.strokeCap(sketch.SQUARE);
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layer.noFill();
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for (let i = 0; i < triangles.length; i += 3) {
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if (sketch.random() > 0.85) {
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layer.triangle(
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bigStars[triangles[i ]][0], bigStars[triangles[i ]][1],
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bigStars[triangles[i + 1]][0], bigStars[triangles[i + 1]][1],
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bigStars[triangles[i + 2]][0], bigStars[triangles[i + 2]][1]
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);
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}
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}
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layer.noStroke();
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layer.fill(1);
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bigStars.forEach(star => {
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layer.circle(star[0], star[1], sketch.random(0.75, 2));
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});
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}
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// give Perlin noise 0-1 a uniform distribution
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function flattenPerlin(x) {
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return 23.8615 * Math.pow(x, 5)
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- 59.6041 * Math.pow(x, 4)
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+ 47.2472 * Math.pow(x, 3)
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- 11.3053 * Math.pow(x, 2)
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+ 0.806219 * x - 0.00259101;
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}
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// returns abs angle from a to b to c
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function three_point_angle(A,B,C) {
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var AB = Math.sqrt(Math.pow(B.x-A.x,2)+ Math.pow(B.y-A.y,2));
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var BC = Math.sqrt(Math.pow(B.x-C.x,2)+ Math.pow(B.y-C.y,2));
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var AC = Math.sqrt(Math.pow(C.x-A.x,2)+ Math.pow(C.y-A.y,2));
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return Math.acos((BC*BC+AB*AB-AC*AC)/(2*BC*AB));
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}
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});
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