Accueil Explorer Aide
Connexion
lu
/
lp
miroir de git://github.com/heyLu/lp
Suivre 1
Voter 0
Fork 0
Code Tickets 0 Commits 109 Publications 1 Wiki

Aucune description

Aborescence: 49283576f0
Branches Tags
lp
/
js
/
pixl
/
public
/
trixl.html

trixl.html 9.3KB
Historique Raw 

    <!doctype html>
<html>
<head>
	<title>.trixl</title>
	<meta charset="utf-8" />
	<style>
		#stage {
			position: absolute;
			top: 0;
			left: 0;
		}

		#debug {
			position: absolute;
			bottom: 0;
			right: 0;
		}
	</style>
</head>

<body>
	<canvas id="stage">
		sorry. your browser is from the dark ages. please initiate
		temporal leap to a minimally brighter future where browsers can
		investigate the third dimension.
	</canvas>
	<span id="debug"></span>
	<script type="gl/vertex-shader">
		attribute vec3 pos;
		varying vec3 world_pos;

		uniform mat4 transform;

		void main() {
			world_pos = pos;
			gl_Position = vec4(transform * vec4(pos, 1));
		}
	</script>
	<script type="gl/fragment-shader">
		precision mediump float;
		uniform vec4 color;
		varying vec3 world_pos;

		void main() {
			if (color.x >= 0.0 && color.x <= 1.0) {
				gl_FragColor = color;
			} else {
				gl_FragColor = vec4(world_pos.x, world_pos.y, world_pos.z, 1);
			}
		}
	</script>
	<script src="gl.js"></script>
	<script src="geometry.js"></script>
	<script src="matrix.js"></script>
	<script src="glmatrix.js"></script>
	<script>
		mat4.multiplyMany = function() {
			var m = arguments[0];
			for(var i = 1; i < arguments.length; i++) {
				m = mat4.multiply([], arguments[i], m);
			}
			return m;
		}

		var range = function(lo, hi) {
			var both = hi !== undefined,
			    l = both ? lo : 0,
			    h = both ? hi : lo;
			return Array.apply(null, Array(h - l)).map(function(_, i) {
				return l + i;
			});
		}
	</script>
	<script>
		window.trixl = {};
		trixl.stage = document.querySelector("#stage");
		trixl.window = {w: window.innerWidth, h: window.innerHeight};
		trixl.stage.width = trixl.window.w;
		trixl.stage.height = trixl.window.h;
		trixl.debug = document.querySelector("#debug");
		trixl.debug_pos = function(pos) {
			var coord_html = function(coord) {
				var s = (coord.toString() + "    ").slice(0, 6);
				if (coord < -1.0 || coord > 1.0) {
					return '<span style="color: red">' + s + '</span>';
				} else {
					return '<span>' + s + '</span>';
				}
				return s;
			}

			return coord_html(pos[0]) + ", " + coord_html(pos[1]) + ", " + coord_html(pos[2]);
		}
		var gl = trixl.gl = trixl.stage.getContext("webgl");
		//gl.enable(gl.CULL_FACE);
		gl.enable(gl.DEPTH_TEST);

		trixl.camera = { pos: [0, 0, 5], focus: [0, 0, 10], up: [0, 1, 0] };
		trixl.camera.front = function() {
			var front = vec3.subtract([], trixl.camera.focus, trixl.camera.pos);
			return vec3.normalize(front, front);
		}
		trixl.camera.strafe = function(front) {
			var strafe = vec3.cross([], front || trixl.camera.front(), trixl.camera.up);
			return vec3.normalize(strafe, strafe);
		}
		trixl.camera.forward = function(scale) {
			var front = trixl.camera.front();
			vec3.scale(front, front, scale);

			vec3.add(trixl.camera.pos, trixl.camera.pos, front);
			vec3.add(trixl.camera.focus, trixl.camera.focus, front);
		}
		trixl.camera.sideways = function(scale) {
			var front = trixl.camera.front();
			var strafe = trixl.camera.strafe(front);
			vec3.scale(strafe, strafe, scale);

			vec3.add(trixl.camera.pos, trixl.camera.pos, strafe);
			vec3.add(trixl.camera.focus, trixl.camera.focus, strafe);
		}
		trixl.camera.rotate = function(dx, dy) {
			var front = trixl.camera.front();
			var strafe = trixl.camera.strafe(front);

			trixl.camera.rotateAround(-dx, trixl.camera.up);
			trixl.camera.rotateAround(-dy, strafe);
		}
		trixl.camera.rotateAround = function(angle, axis) {
			var front = trixl.camera.front();

			var q = quat.setAxisAngle([], axis, angle);
			vec3.transformQuat(front, front, q);

			vec3.add(trixl.camera.focus, trixl.camera.pos, front);
		}

		var vertexPosBuffer = gl.createBuffer();
		gl.bindBuffer(gl.ARRAY_BUFFER, vertexPosBuffer);
		gl.bufferData(gl.ARRAY_BUFFER, new Float32Array(geometry.cube()), gl.STATIC_DRAW);

		var vs = document.querySelector("script[type='gl/vertex-shader']").textContent;
		var fs = document.querySelector("script[type='gl/fragment-shader']").textContent;
		var program = createProgram(vs, fs);
		gl.useProgram(program);

		program.vertexPosAttrib = gl.getAttribLocation(program, 'pos');
		gl.enableVertexAttribArray(program.vertexPosAttrib);
		gl.vertexAttribPointer(program.vertexPosBuffer, 3, gl.FLOAT, false, 0, 0);

		program.color = gl.getUniformLocation(program, 'color');
		gl.uniform4f(program.color, -1, -1, -1, -1);

		trixl.color = [0, 0, 0, 1];

		trixl.world = new Map([
			[[0, 0, 2], {color: [0.7, 0, 0, 1]}],
			[[-3.0, +0.0, 2], {color: [0.5, 0.5, 0.5, 1]}],
			[[+3.0, +0.0, 2], {color: [0.5, 0.5, 0.5, 1]}],
			[[+0.0, -3.0, 2], {color: [0.5, 0.5, 0.5, 1]}],
			[[+0.0, +3.0, 2], {color: [0.5, 0.5, 0.5, 1]}]
		]);

		trixl.world.remove = function(pos) {
			var key = null;
			for(var k of trixl.world.keys()) {
				if (k[0] === pos[0] && k[1] === pos[1] && k[2] === pos[2]) {
					key = k;
					break;
				}
			}
			return trixl.world.delete(key);
		}

		trixl.generate = {};
		trixl.generate.random = function(lo, hi, color) {
			var x = lo + Math.round(Math.random() * (hi - lo)),
			    y = lo + Math.round(Math.random() * (hi - lo)),
			    z = lo + Math.round(Math.random() * (hi - lo)),
			    color = color || [Math.random(), Math.random(), Math.random(), 1];
			trixl.world.set([x, y, z], {color: color || trixl.color});
		}

		trixl.generate.many = function(n, lo, hi, color) {
			Array.apply(null, Array(n)).map(function() { trixl.generate.random(lo, hi, color) });
		}

		trixl.generate.fun = function() {
			trixl.generate.many(10, -3, 3);
			trixl.generate.many(100, -25, 25);
			trixl.generate.many(1000, -100, 100);
		}

		trixl.geometry = {};

		trixl.geometry.circle = function(pos, radius, color) {
			range(0, 2 * radius).map(function(i) {
				trixl.world.set([
					pos[0] + radius * Math.sin(i * Math.PI / radius),
					pos[1] + radius * Math.cos(i * Math.PI / radius),
					pos[2]
				], {color: color || trixl.color});
			});
		}

		var angle = {x: 0, y: 0, z: 0};
		var offset = {x: 0, y: 0, z: 0};
		program.transform = gl.getUniformLocation(program, 'transform');
		trixl.redraw = function() {
			var view = mat4.lookAt([], trixl.camera.pos, trixl.camera.focus, trixl.camera.up);

			var aspect = trixl.window.w / trixl.window.h;
			var transform = function(pos) {
				return mat4.multiplyMany(
					matrix.translate(-0.5, -0.5, -0.5),
					matrix.rotateZ(angle.z / 10),
					//matrix.rotateY(angle.y / 10),
					matrix.rotateX(angle.x / 10),
					matrix.translate(pos[0] + offset.x, pos[1] + offset.y, pos[2] + offset.z),
					view,
					matrix.perspective(Math.PI / 3, aspect)
				);
			}
			var t = transform([0.0, 0.0, 2]);
			trixl.debug.innerHTML = "";
			[[0, 0, 0], [0, 1, 0], [1, 0, 0], [1, 1, 0],
			 [0, 0, 1], [0, 1, 1], [1, 0, 1], [1, 1, 1]].forEach(function(el) {
				trixl.debug.innerHTML +=
				trixl.debug_pos(matrix.multiply([el[0], el[1], el[2], 1], [1, 4], t, [4, 4]));
				trixl.debug.innerHTML += "<br />";
			 });

			gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT);

			for (var pair of trixl.world) {
				var pos = pair[0], data = pair[1];

				gl.uniform4fv(program.color, data ? data.color || trixl.color : trixl.color);
				gl.uniformMatrix4fv(program.transform, false, transform(pos));
				gl.drawArrays(gl.TRIANGLES, 0, 6 * 6);
			}

			gl.uniform4f(program.color, -1, -1, -1, 0);

			//angle.x += Math.PI / 10;
			//angle.y += Math.PI / 10;
			//angle.z += Math.PI / 10;

			//offset.x = Math.sin(angle.x * 0.1);
			//offset.y = Math.sin(angle.y * 0.1);
			//offset.z = Math.cos(angle.z * 0.1) * 2;
		}

		trixl.step = function() {
			trixl.redraw();
			trixl.step.reqId = requestAnimationFrame(trixl.step);
		}
		trixl.start = function() {
			trixl.step.reqId = requestAnimationFrame(trixl.step);
		}
		trixl.stop = function() {
			cancelAnimationFrame(trixl.step.reqId);
			trixl.step.reqId = null;
		}

		trixl.start();

		trixl.speed = { move: 0.1, turn: 0.01 }

		trixl.input = {};
		trixl.input.keys = new Set();
		document.addEventListener("keydown", function(ev) {
			trixl.input.keys.add(ev.keyCode);
			var isPressed = function(keyCode) {
				return trixl.input.keys.has(keyCode);
			}

			if (isPressed(32)) { // space
				if (trixl.step.reqId == null) {
					trixl.start();
				} else {
					trixl.stop();
				}
			}

			if (isPressed(37) || isPressed(65)) { // left || a
				trixl.camera.sideways(-trixl.speed.move);
			}
			if (isPressed(38) || isPressed(87)) { // up || w
				trixl.camera.forward(-trixl.speed.move);
			}
			if (isPressed(39) || isPressed(68)) { // right || d
				trixl.camera.sideways(trixl.speed.move);
			}
			if (isPressed(40) || isPressed(83)) { // down || s
				trixl.camera.forward(trixl.speed.move);
			}
		});

		document.addEventListener("keyup", function(ev) {
			trixl.input.keys.delete(ev.keyCode);
		});

		trixl.input.mouse = {last: null};
		trixl.stage.addEventListener("mousemove",  function(ev) {
			var mouse = trixl.input.mouse;

			if (mouse.last === null) {
				mouse.last = {x: ev.clientX, y: ev.clientY};
			}

			var diff = { x: mouse.last.x - ev.clientX, y: mouse.last.y - ev.clientY };
			trixl.camera.rotate(diff.x * trixl.speed.turn, diff.y * trixl.speed.turn);

			mouse.last = {x: ev.clientX, y: ev.clientY};
		});

		window.onresize = function() {
			trixl.window.w = window.innerWidth;
			trixl.window.h = window.innerHeight;
			trixl.stage.width = trixl.window.w;
			trixl.stage.height = trixl.window.h;
			gl.viewport(0, 0, trixl.window.w, trixl.window.h);
			trixl.redraw();
		}
	</script>
</body>
</html>