92 lines
2.7 KiB
GLSL
92 lines
2.7 KiB
GLSL
#version 320 es
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precision highp float;
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precision highp int;
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precision lowp sampler2D;
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precision lowp samplerCube;
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uniform vec2 WindowSize;
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uniform float time;
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layout(location = 0) out vec4 color;
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float lerp(float a, float b, float x) {
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return a + x*(b-a);
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}
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uint xxhash32(uvec2 p) {
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const uint PRIME32_2 = 2246822519U, PRIME32_3 = 3266489917U;
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const uint PRIME32_4 = 668265263U, PRIME32_5 = 374761393U;
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uint h32 = p.y + PRIME32_5 + p.x*PRIME32_3;
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h32 = PRIME32_4*((h32 << 17) | (h32 >> (32 - 17)));
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h32 = PRIME32_2*(h32^(h32 >> 15));
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h32 = PRIME32_3*(h32^(h32 >> 13));
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return h32^(h32 >> 16);
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}
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//const uint k = 1103515245U;
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//
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//vec3 hash33( uvec3 x ) {
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// x = ((x >> 8U) ^ x.yzx) * k;
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// x = ((x >> 8U) ^ x.yzx) * k;
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// x = ((x >> 8U) ^ x.yzx) * k;
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// return vec3(x) * (1.0 / float(0xffffffffU));
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//}
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float rand(vec2 v, float seed) {
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uint hash = xxhash32(uvec2(v * 10000.0 + seed * 10000.0));
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return float(hash) * (1.0/float(0xffffffffu));
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}
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float cell_size = 0.01;
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#define PI 3.1415926538
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// whatever that corner contributes
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float c_dot(vec2 point, vec2 corner) {
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vec2 c = vec2(ivec2(round(corner * 100.0)));
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float angle = rand(c, 0.0) * 2.0*PI;
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vec2 random_corner_vec = vec2(cos(angle), sin(angle));
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vec2 offset = (point - corner) / cell_size;
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float dot_product = dot(random_corner_vec, offset);
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// for now just return something
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return dot_product;
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}
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// better than built in smoothstep.
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float fade(float t) {
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return ((6.0*t - 15.0)*t + 10.0)*t*t*t;
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}
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void main() {
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// We'll make origin in the top-left.
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vec2 uv = gl_FragCoord.xy / WindowSize;
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uv.y = 1.0 - uv.y;
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vec2 grid_edge_offset = mod(uv, cell_size);
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// c: corner
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vec2 c_tl = uv - grid_edge_offset;
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vec2 c_tr = uv - grid_edge_offset + vec2(cell_size, 0);
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vec2 c_bl = uv - grid_edge_offset + vec2(0, cell_size);
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vec2 c_br = uv - grid_edge_offset + vec2(cell_size, cell_size);
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float c_tl_dot = c_dot(uv, c_tl);
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float c_tr_dot = c_dot(uv, c_tr);
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float c_bl_dot = c_dot(uv, c_bl);
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float c_br_dot = c_dot(uv, c_br);
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// the uv within the tile (0 to 1)
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vec2 tile_uv = (uv - c_tl) / cell_size;
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// lerp index
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float u = fade(tile_uv.x);
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float v = fade(tile_uv.y);
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//float u = tile_uv.x;
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//float v = tile_uv.y;
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float val = lerp(lerp(c_tl_dot, c_bl_dot, v), lerp(c_tr_dot, c_br_dot, v), u);
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float out_val = val /2.0 + 0.5;
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//uvec3 p = uvec3(uint(round(uv.x * 500.0)), uint(round(uv.y * 500.0)), 1);
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//color = vec4( hash33(p), 1.0 );
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//float lel = noise(vec3(uv * 10.0, 1.0));
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//float lel = gold_noise(uv, time * 100.0);
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//float lel = random( uv.x * 100.0 );
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float lel = rand(uv, 0.0);
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color = vec4(lel, lel, lel, 1.0);
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}
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