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glyph-generator.js
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glyph-generator.js
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import * as THREE from 'three';
import {alea} from './procgen/procgen.js';
import {getRenderer} from './renderer.js';
import {fullscreenGeometry, fullscreenVertexShader} from './background-fx/common.js';
const localVector2D = new THREE.Vector2();
const localVector4D = new THREE.Vector4();
const localColor = new THREE.Color();
const glyphFragmentShader = `\
uniform float iTime;
varying vec2 tex_coords;
/*
draw letter shapes after subdividing uv space randomly
*/
#define PI 3.1415926535
float random2d(vec2 n) {
return fract(sin(dot(n, vec2(129.9898, 4.1414))) * 2398.5453);
}
vec2 getCellIJ(vec2 uv, float gridDims){
return floor(uv * gridDims)/ gridDims;
}
vec2 rotate2D(vec2 position, float theta)
{
mat2 m = mat2( cos(theta), -sin(theta), sin(theta), cos(theta) );
return m * position;
}
//from https://github.com/keijiro/ShaderSketches/blob/master/Text.glsl
float letter(vec2 coord, float size)
{
vec2 gp = floor(coord / size * 7.); // global
vec2 rp = floor(fract(coord / size) * 7.); // repeated
vec2 odd = fract(rp * 0.5) * 2.;
float rnd = random2d(gp);
float c = max(odd.x, odd.y) * step(0.5, rnd); // random lines
c += min(odd.x, odd.y); // fill corner and center points
c *= rp.x * (6. - rp.x); // cropping
c *= rp.y * (6. - rp.y);
return clamp(c, 0., 1.);
}
void mainImage( out vec4 fragColor, in vec2 fragCoord )
{
vec2 uv = fragCoord; // .xy / iResolution.xy;
//correct aspect ratio
// uv.x *= iResolution.x/iResolution.y;
float t = iTime;
float scrollSpeed = 0.3;
float dims = 0.5;
int maxSubdivisions = 0;
// uv = rotate2D(uv,PI/12.0);
uv.y -= floor(iTime * scrollSpeed * 4.);
float cellRand;
vec2 ij;
for(int i = 0; i <= maxSubdivisions; i++) {
ij = getCellIJ(uv, dims);
cellRand = random2d(ij);
dims *= 2.0;
//decide whether to subdivide cells again
float cellRand2 = random2d(ij + 454.4543);
if (cellRand2 > 0.3){
break;
}
}
//draw letters
float b = letter(uv, 1.0 / (dims));
fragColor = vec4(vec3(1.-b), b);
if (b < 0.5) {
discard;
}
}
void main() {
mainImage(gl_FragColor, tex_coords);
}
`;
const glyphSize = 7;
const glyphMaterial = new THREE.ShaderMaterial({
uniforms: {
iTime: {
value: 0,
needsUpdate: true,
},
},
vertexShader: fullscreenVertexShader,
fragmentShader: glyphFragmentShader,
});
const glyphMesh = new THREE.Mesh(fullscreenGeometry, glyphMaterial);
glyphMesh.frustumCulled = false;
const glyphScene = new THREE.Scene();
glyphScene.name = 'glyphScene';
glyphScene.autoUpdate = false;
glyphScene.add(glyphMesh);
const glyphCamera = new THREE.OrthographicCamera();
export const generateGlyph = seed => {
const canvas = document.createElement('canvas');
canvas.width = glyphSize;
canvas.height = glyphSize;
const ctx = canvas.getContext('2d');
ctx.imageSmoothingEnabled = false;
const renderer = getRenderer();
const size = renderer.getSize(localVector2D);
const pixelRatio = renderer.getPixelRatio();
const rng = alea(seed);
glyphMaterial.uniforms.iTime.value = rng();
glyphMaterial.uniforms.iTime.needsUpdate = true;
{
// push old state
// const oldRenderTarget = renderer.getRenderTarget();
const oldViewport = renderer.getViewport(localVector4D);
const oldClearColor = renderer.getClearColor(localColor);
const oldClearAlpha = renderer.getClearAlpha();
// render
renderer.setViewport(0, 0, glyphSize, glyphSize);
renderer.setClearColor(0x000000, 0);
renderer.clear();
renderer.render(glyphScene, glyphCamera);
// copy to canvas
ctx.drawImage(
renderer.domElement,
0,
size.y * pixelRatio - glyphSize * pixelRatio,
glyphSize * pixelRatio,
glyphSize * pixelRatio,
0,
0,
glyphSize,
glyphSize
);
// pop old state
// renderer.setRenderTarget(oldRenderTarget);
renderer.setViewport(oldViewport);
renderer.setClearColor(oldClearColor, oldClearAlpha);
}
return canvas;
};