2023-07-24 08:42:25 +02:00
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#define _MAT_VARIANT1(NEW_NAME, BASE_FN, TYPE_1, ARG_1) \
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SurfacePoint NEW_NAME(float3 p, TYPE_1 ARG_1, Material mat = DEFAULT_MAT) {\
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SurfacePoint o;\
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o.dist = BASE_FN(p, ARG_1);\
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o.mat = mat;\
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return o;\
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}
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#define _MAT_VARIANT2(NEW_NAME, BASE_FN, TYPE_1, ARG_1, TYPE_2, ARG_2) \
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SurfacePoint NEW_NAME(float3 p, TYPE_1 ARG_1, TYPE_2 ARG_2, Material mat = DEFAULT_MAT) {\
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SurfacePoint o;\
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o.dist = BASE_FN(p, ARG_1, ARG_2);\
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o.mat = mat;\
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return o;\
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}
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#define _MAT_VARIANT3(NEW_NAME, BASE_FN, TYPE_1, ARG_1, TYPE_2, ARG_2, TYPE_3, ARG_3) \
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SurfacePoint NEW_NAME(float3 p, TYPE_1 ARG_1, TYPE_2 ARG_2, TYPE_3 ARG_3, Material mat = DEFAULT_MAT) {\
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SurfacePoint o;\
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o.dist = BASE_FN(p, ARG_1, ARG_2, ARG_3);\
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o.mat = mat;\
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return o;\
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}
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//
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// Most of these are taken from https://iquilezles.org/articles/distfunctions/
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// Thank you Inigo Quilez <3
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float sdBox(float3 p, float3 size) {
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float3 q = abs(p) - size / 2.0;
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return length(max(q, 0)) + min(max(q.x, max(q.y, q.z)), 0);
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}
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_MAT_VARIANT1(mBox, sdBox, float3, size)
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float sdSphere(float3 p, float radius) {
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return length(p) - radius;
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}
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_MAT_VARIANT1(mSphere, sdSphere, float, radius)
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2023-07-24 16:28:02 +02:00
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float sdTorus(float3 p, float radius, float thickness) {
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float2 q = float2(length(p.xz) - radius, p.y);
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return length(q) - thickness;
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}
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_MAT_VARIANT2(mTorus, sdTorus, float, radius, float, thickness)
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float sdPlaneY(float3 p, float height) {
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return p.y - height;
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}
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_MAT_VARIANT1(mPlaneY, sdPlaneY, float, height)
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2023-07-29 16:43:23 +02:00
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float sdHexPrism(float3 p, float width, float height) {
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const float3 k = float3(-0.8660254, 0.5, 0.57735);
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p = abs(p);
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p.xz -= 2.0 * min(dot(k.xy, p.xz), 0) * k.xy;
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float2 d = float2(length(p.xz - float2(clamp(p.x,-k.z * width, k.z * width), width)) * sign(p.z - width), p.y - height);
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return min(max(d.x, d.y), 0) + length(max(d, 0));
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}
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_MAT_VARIANT2(mHexPrism, sdHexPrism, float, width, float, height)
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float sdInfCylinder(float3 p, float3 c) {
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return length(p.xz - c.xy) - c.z;
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}
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_MAT_VARIANT1(mInfCylinder, sdInfCylinder, float3, c)
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float sdCylinder(float3 p, float r, float h) {
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float2 d = abs(float2(length(p.xz), p.y)) - float2(r, h);
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return min(max(d.x, d.y), 0) + length(max(d, 0));
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}
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_MAT_VARIANT2(mCylinder, sdCylinder, float, r, float, h)
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2023-07-24 16:28:02 +02:00
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2023-07-29 16:43:23 +02:00
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float sdHelix(float3 p, float r1, float r2, float incline) {
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float x2 = length(p.xz) - r1; // vertical plane
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float angle = atan2(p.z, p.x); // angle around y axis
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float y = angle * incline - p.y;
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y = fmod(y, UNITY_PI * incline * 2) + UNITY_PI * incline;
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return length(float2(x2, y)) - r2;
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}
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_MAT_VARIANT3(mHelix, sdHelix, float, r1, float, r2, float, incline)
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float sdLine(float3 p, float3 a, float3 b, float r) {
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float3 pa = p - a;
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float3 ba = b - a;
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float h = clamp(dot(pa, ba) / dot(ba, ba), 0, 1);
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return length(p- a - (b-a) * h) - r;
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}
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_MAT_VARIANT3(mLine, sdLine, float3, a, float3, b, float3, r)
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2023-07-24 16:28:02 +02:00
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2023-07-29 16:43:23 +02:00
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SurfacePoint mDummy(float d, Material mat = DEFAULT_MAT) {
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SurfacePoint o;
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o.dist = d;
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o.mat = mat;
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return o;
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}
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