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              <canvas></canvas>
<!-- Click to generate a new image -->
            
          
!
            
              html, body {
	overflow: hidden;
	touch-action: none;
	content-zooming: none;
	position: absolute;
	margin: 0;
	padding: 0;
	width: 100%;
	height: 100%;
	background: #000;
}

canvas {
	position: absolute;
	width: 100%;
	height: 100%;
	user-select: none;
	cursor: pointer;
}

            
          
!
            
              // adapted from https://www.contextfreeart.org/gallery2/index.html#design/299
// Colourful neurons by krajzega, May 30th, 2006
"use strict";
const cfa = {
	canvas: document.querySelector("canvas"),
	queue: [],
	identity: [1, 0, 0, 1, 0, 0, 0, 1, 1, 1],
	init(background) {
		this.ctx = this.canvas.getContext("2d");
		this.width = this.canvas.width = this.canvas.offsetWidth * 2;
		this.height = this.canvas.height = this.canvas.offsetHeight * 2;
		this.ctx.fillStyle = background;
		this.ctx.fillRect(0, 0, this.width, this.height);
		this.rect = [0, 0, 0, 0];
		this.queue.length = 0;
		this.scale = 500;
		this.minSize = 20;
		this.iter = this.run();
	},
	ajustments: {
		x(m, v) {
			m[4] += v * m[0];
			m[5] += v * m[1];
		},
		y(m, v) {
			m[4] += v * m[2];
			m[5] += v * m[3];
		},
		rotate(m, v) {
			const cos = Math.cos(Math.PI * v / 180);
			const sin = Math.sin(Math.PI * v / 180);
			const r00 = cos * m[0] + sin * m[2];
			const r01 = cos * m[1] + sin * m[3];
			m[2] = cos * m[2] - sin * m[0];
			m[3] = cos * m[3] - sin * m[1];
			m[0] = r00;
			m[1] = r01;
		},
		scale(m, v) {
			let x, y;
			if (Array.isArray(v)) {
				x = v[0];
				y = v[1];
			} else {
				x = v;
				y = x;
			}
			m[0] *= x;
			m[1] *= x;
			m[2] *= y;
			m[3] *= y;
		},
		hue(m, v) {
			m[6] += v;
			m[6] %= 360;
		},
		sat(m, v) {
			this.adjustColor(m, v, 7);
		},
		bri(m, v) {
			this.adjustColor(m, v, 8);
		},
		alpha(m, v) {
			this.adjustColor(m, v, 9);
		},
		adjustColor(m, v, p) {
			let c = m[p] + Math.abs(v) * ((v < 0 ? 0 : 1) - m[p]);
			if (c < 0) c = 0;
			else if (c > 1) c = 1;
			m[p] = c;
		}
	},
	adjust(s, p) {
		const m = s.slice();
		for (const c in p) {
			this.ajustments[c](m, p[c]);
		}
		return m;
	},
	setTransform(s) {
		this.ctx.setTransform(
			-this.scale * s[0],
			this.scale * s[1],
			this.scale * s[2],
			-this.scale * s[3],
			this.scale * s[4] + this.offsetX,
			-this.scale * s[5] + this.offsetY
		);
	},
	CIRCLE(s, p) {
		s = this.adjust(s, p);
		cfa.queue.push([s, "circle"]);
		cfa.boundingRect(s);
	},
	SQUARE(s, p) {
		s = this.adjust(s, p);
		cfa.queue.push([s, "square"]);
		cfa.boundingRect(s);
	},
	circle(s) {
		this.setTransform(s);
		this.fillStyle(s);
		this.ctx.beginPath();
		this.ctx.arc(0, 0, 0.5, 0, 2 * Math.PI);
		this.ctx.fill();
	},
	square(s) {
		this.setTransform(s);
		this.fillStyle(s);
		this.ctx.fillRect(-0.5, -0.5, 1, 1);
	},
	fillStyle(s) {
		const light = (2 - s[7]) * (s[8] * 0.5);
		const sat = light <= 1 ? s[7] * s[8] / light : s[7] * s[8] / (2 - light);
		this.ctx.fillStyle = `hsla(${s[6]},${sat * 100}%,${light * 100}%,${s[9]})`;
	},
	boundingRect(s) {
		const x = s[4] * this.scale;
		const y = s[5] * this.scale;
		if (x < this.rect[0]) this.rect[0] = x;
		else if (x > this.rect[1]) this.rect[1] = x;
		if (y < this.rect[2]) this.rect[2] = y;
		else if (y > this.rect[3]) this.rect[3] = y;
	},
	center(s) {
		const br = this.rect;
		const scale =
			Math.min(this.width / (br[1] - br[0]), this.height / (br[3] - br[2])) * s;
		this.scale *= scale;
		this.offsetX = this.width * 0.5 - (br[0] + br[1]) * 0.5 * scale;
		this.offsetY = this.height * 0.5 + (br[3] + br[2]) * 0.5 * scale;
	},
	execRule(s, p, rules) {
		s = this.adjust(s, p);
		if (
			Math.abs(s[1]) * this.scale < this.minSize &&
			Math.abs(s[3]) * this.scale < this.minSize
		)
			return;
		let totalWeight = 0;
		for (const rule of rules) totalWeight += rule.weight || 1.0;
		let weight = 0,
			rnd = Math.random() * totalWeight;
		for (const rule of rules) {
			weight += rule.weight || 1.0;
			if (rnd <= weight) {
				rule.exec(s);
				break;
			}
		}
	},
	*run() {
		let s = 0;
		for (const draw of this.queue) {
			this[draw[1]](draw[0]);
			if (s++ > 10) {
				s = 0;
				yield requestAnimationFrame(_ => this.iter.next());
			}
		}
	},
	render() {
		this.iter.return();
		this.iter = this.run();
		this.iter.next();
	}
};
["click", "touchdown"].forEach(event => {
	document.addEventListener(event, e => start(), false);
});
/*
		o
		 \_/\o
		( Oo)                    \|/
		(_=-)  .===O-  ~~Z~A~P~~ -O-
		/   \_/U'                /|\
		||  |_/
		\\  |
		{K ||
		 | PP
		 | ||
		 (__\\
*/
const neuron = (s, p) => {
	cfa.execRule(s, p, [
		{
			exec(s) {
				cfa.CIRCLE(s, { scale: 1.02 });
				cfa.CIRCLE(s, { scale: 0.8, hue: 20, sat: -1, alpha: -0.5 });
				synapse(s, { rotate: 30, y: 0.54, scale: 0.9, hue: 1 });
				synapse(s, { rotate: -30, y: 0.54, scale: 0.9, hue: 1 });
				synapse(s, { rotate: -110, y: 0.54, scale: 0.9, hue: 1 });
			}
		}
	]);
};
const synapse = (s, p) => {
	cfa.execRule(s, p, [
		{
			weight: 20,
			exec(s) {
				cfa.SQUARE(s, { y: 0.2, scale: [0.06, 0.4] });
				synapse(s, { y: 0.4, rotate: 10, hue: -10 });
			}
		},
		{
			weight: 20,
			exec(s) {
				cfa.SQUARE(s, { y: 0.2, scale: [0.06, 0.4] });
				synapse(s, { y: 0.4, rotate: -10, hue: 10 });
			}
		},
		{
			weight: 6,
			exec(s) {
				endsynapse(s);
			}
		},
		{
			weight: 4,
			exec(s) {
				neuron(s, { scale: 0.9, hue: 2 });
			}
		}
	]);
};
const endsynapse = (s, p) => {
	cfa.execRule(s, p, [
		{
			weight: 20,
			exec(s) {
				cfa.SQUARE(s, { y: 0.2, scale: [0.06, 0.4] });
				endsynapse(s, { y: 0.4, rotate: 10, scale: 0.9, alpha: -0.2 });
			}
		},
		{
			weight: 20,
			exec(s) {
				cfa.SQUARE(s, { y: 0.2, scale: [0.06, 0.4] });
				endsynapse(s, { y: 0.4, rotate: -10, scale: 0.9, alpha: -0.2 });
			}
		}
	]);
};
const start = () => {
	do {
		cfa.init("#000");
		neuron(cfa.identity);
	} while (cfa.queue.length < 2000);
	cfa.center(1.5);
	cfa.render();
};
start();

            
          
!
999px
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