Get familiar with Ganja.js inline syntax
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@ -18,34 +18,30 @@
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</head>
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<body>
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<script>
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// the "points spheres plane" example from the Ganja coffee shop
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//
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// https://enkimute.github.io/ganja.js/examples/coffeeshop.html#cga3d_points_spheres_planes
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//
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// in the default view, e4 + e5 is the point at infinity
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CGA3 = Algebra(4, 1);
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v1 = CGA3.inline(() => 1e1 + 1e5)();
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v2 = CGA3.inline(() => 1e2 + 1e5)();
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v3 = CGA3.inline(() => 1e3 + 1e5)();
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w1 = CGA3.inline(() => 1e1 - Math.sqrt(0.2)*1e4 + Math.sqrt(1.2)*1e5)();
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w2 = CGA3.inline(() => 1e2 - Math.sqrt(0.2)*1e4 + Math.sqrt(1.2)*1e5)();
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w3 = CGA3.inline(() => 1e3 - Math.sqrt(0.2)*1e4 + Math.sqrt(1.2)*1e5)();
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s = CGA3.inline(() => -Math.sqrt(1.2)*1e4 + Math.sqrt(0.2)*1e5);
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// Create a Clifford Algebra with 4,1 metric for 3D CGA.
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Algebra(4,1,()=>{
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// We start by defining a null basis, and upcasting for points
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var ni = 1e4+1e5, no = .5e5-.5e4;
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var up = (x)=> no + x + .5*x*x*ni;
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// Next we'll define 4 points
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var p1 = up(1e1), p2 = up(1e2), p3 = up(-1e3), p4 = up(-1e2);
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// The outer product can be used to construct the sphere through
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// any four points.
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var s = ()=>p1^p2^p3^p4;
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// The outer product between any three points and infinity is a plane.
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var p = ()=>p1^p2^p3^ni;
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// Graph the items.
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document.body.appendChild(this.graph([
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0x00FF0000, p1, "p1", p2, "p2", p3, "p3", p4, "p4", // points
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0xE0008800, p, "p", // plane
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0xE00000FF, s, "s" // sphere
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], {conformal: true, gl: true, grid: true}));
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});
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document.body.appendChild(CGA3.graph(
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[
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0xff00b0, v1,
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0x00ffb0, v2,
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0x00b0ff, v3,
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0x800040, w1,
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0x008040, w2,
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0x004080, w3,
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0xd0e0f0, s
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],
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{
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conformal: true, gl: true, grid: true
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}
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));
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</script>
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</body>
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</html>
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@ -30,28 +30,30 @@ canvas {
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# https://enkimute.github.io/ganja.js/examples/coffeeshop.html#cga3d_points_spheres_planes
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#
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sphere_example = """
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Algebra(4, 1, ()=>{
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// We start by defining a null basis, and upcasting for points
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var ni = 1e4+1e5, no = .5e5-.5e4;
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var up = (x)=> no + x + .5*x*x*ni;
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// Next we'll define 4 points
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var p1 = up(1e1), p2 = up(1e2), p3 = up(-1e3), p4 = up(-1e2);
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// The outer product can be used to construct the sphere through
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// any four points.
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var s = ()=>p1^p2^p3^p4;
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// The outer product between any three points and infinity is a plane.
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var p = ()=>p1^p2^p3^ni;
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// Graph the items.
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document.body.appendChild(this.graph([
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0x00FF0000, p1, "p1", p2, "p2", p3, "p3", p4, "p4", // points
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0xE0008800, p, "p", // plane
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0xE00000FF, s, "s" // sphere
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], {conformal: true, gl: true, grid: true}));
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});
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// in the default view, e4 + e5 is the point at infinity
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CGA3 = Algebra(4, 1);
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v1 = CGA3.inline(() => 1e1 + 1e5)();
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v2 = CGA3.inline(() => 1e2 + 1e5)();
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v3 = CGA3.inline(() => 1e3 + 1e5)();
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w1 = CGA3.inline(() => 1e1 - Math.sqrt(0.2)*1e4 + Math.sqrt(1.2)*1e5)();
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w2 = CGA3.inline(() => 1e2 - Math.sqrt(0.2)*1e4 + Math.sqrt(1.2)*1e5)();
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w3 = CGA3.inline(() => 1e3 - Math.sqrt(0.2)*1e4 + Math.sqrt(1.2)*1e5)();
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s = CGA3.inline(() => -Math.sqrt(1.2)*1e4 + Math.sqrt(0.2)*1e5);
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document.body.appendChild(CGA3.graph(
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[
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0xff00b0, v1,
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0x00ffb0, v2,
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0x00b0ff, v3,
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0x800040, w1,
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0x008040, w2,
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0x004080, w3,
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0xd0e0f0, s
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],
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{
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conformal: true, gl: true, grid: true
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}
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));
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"""
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# === page construction ===
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