veloren/assets/voxygen/shaders/include/random.glsl
2022-09-22 21:12:20 +01:00

155 lines
4.9 KiB
GLSL

#ifndef RANDOM_GLSL
#define RANDOM_GLSL
layout(set = 0, binding = 1) uniform texture2D t_noise;
layout(set = 0, binding = 2) uniform sampler s_noise;
float hash(vec4 p) {
p = fract(p * 0.3183099 + 0.1) - fract(p + 23.22121);
p *= 17.0;
return (fract(p.x * p.y * (1.0 - p.z) * p.w * (p.x + p.y + p.z + p.w)) - 0.5) * 2.0;
}
#define M1 2047667443U
#define M2 3883706873U
#define M3 3961281721U
float hash_one(uint q) {
uint n = ((M3 * q) ^ M2) * M1;
return float(n) * (1.0 / float(0xffffffffU));
}
float hash_two(uvec2 q) {
q *= uvec2(M1, M2);
uint n = q.x ^ q.y;
n = n * (n ^ (n >> 15));
return float(n) * (1.0 / float(0xffffffffU));
}
float hash_fast(uvec3 q) {
q *= uvec3(M1, M2, M3);
uint n = (q.x ^ q.y ^ q.z) * M1;
return float(n) * (1.0 / float(0xffffffffU));
}
// 2D, but using shifted 2D textures
float noise_2d(vec2 pos) {
return textureLod(sampler2D(t_noise, s_noise), pos, 0).x;
}
// 3D, but using shifted 2D textures
float noise_3d(vec3 pos) {
pos.z *= 15.0;
uint z = uint(trunc(pos.z));
vec2 offs0 = vec2(hash_one(z), hash_one(z + 73u));
vec2 offs1 = vec2(hash_one(z + 1u), hash_one(z + 1u + 73u));
return mix(textureLod(sampler2D(t_noise, s_noise), pos.xy + offs0, 0).x, textureLod(sampler2D(t_noise, s_noise), pos.xy + offs1, 0).x, fract(pos.z));
}
// 3D version of `snoise`
float snoise3(in vec3 x) {
uvec3 p = uvec3(floor(x) + 10000.0);
vec3 f = fract(x);
//f = f * f * (3.0 - 2.0 * f);
return mix(
mix(
mix(hash_fast(p + uvec3(0, 0, 0)), hash_fast(p + uvec3(1, 0, 0)), f.x),
mix(hash_fast(p + uvec3(0, 1, 0)), hash_fast(p + uvec3(1, 1, 0)), f.x),
f.y),
mix(
mix(hash_fast(p + uvec3(0, 0, 1)), hash_fast(p + uvec3(1, 0, 1)), f.x),
mix(hash_fast(p + uvec3(0, 1, 1)), hash_fast(p + uvec3(1, 1, 1)), f.x),
f.y),
f.z);
}
// 4D noise
float snoise(in vec4 x) {
vec4 p = floor(x);
vec4 f = fract(x);
f = f * f * (3.0 - 2.0 * f);
return mix(
mix(
mix(
mix(hash(p + vec4(0, 0, 0, 0)), hash(p + vec4(1, 0, 0, 0)), f.x),
mix(hash(p + vec4(0, 1, 0, 0)), hash(p + vec4(1, 1, 0, 0)), f.x),
f.y),
mix(
mix(hash(p + vec4(0, 0, 1, 0)), hash(p + vec4(1, 0, 1, 0)), f.x),
mix(hash(p + vec4(0, 1, 1, 0)), hash(p + vec4(1, 1, 1, 0)), f.x),
f.y),
f.z),
mix(
mix(
mix(hash(p + vec4(0, 0, 0, 1)), hash(p + vec4(1, 0, 0, 1)), f.x),
mix(hash(p + vec4(0, 1, 0, 1)), hash(p + vec4(1, 1, 0, 1)), f.x),
f.y),
mix(
mix(hash(p + vec4(0, 0, 1, 1)), hash(p + vec4(1, 0, 1, 1)), f.x),
mix(hash(p + vec4(0, 1, 1, 1)), hash(p + vec4(1, 1, 1, 1)), f.x),
f.y),
f.z),
f.w);
}
vec3 rand_perm_3(vec3 pos) {
return abs(sin(pos * vec3(1473.7 * pos.z + 472.3, 8891.1 * pos.x + 723.1, 3813.3 * pos.y + 982.5)));
}
vec4 rand_perm_4(vec4 pos) {
return sin(473.3 * pos * vec4(317.3 * pos.w + 917.7, 1473.7 * pos.z + 472.3, 8891.1 * pos.x + 723.1, 3813.3 * pos.y + 982.5) / pos.yxwz);
}
vec3 smooth_rand(vec3 pos, float lerp_axis) {
return vec3(snoise(vec4(pos, lerp_axis)), snoise(vec4(pos + 400.0, lerp_axis)), snoise(vec4(pos + 1000.0, lerp_axis)));
vec3 r0 = rand_perm_3(vec3(pos.x, pos.y, pos.z) + floor(lerp_axis));
vec3 r1 = rand_perm_3(vec3(pos.x, pos.y, pos.z) + floor(lerp_axis + 1.0));
return r0 + (r1 - r0) * fract(lerp_axis);
}
// Transform normal distribution to triangle distribution.
float norm2tri(float n) {
// TODO: compare perf with adding two normal noise distributions
bool flip = n > 0.5;
n = flip ? 1.0 - n : n;
n = sqrt(n / 2.0);
n = flip ? 1.0 - n : n;
return n;
}
// Caustics, ported and modified from https://www.shadertoy.com/view/3tlfR7, originally David Hoskins.
// License Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License: https://creativecommons.org/licenses/by-nc-sa/3.0/legalcode.
// Modifying these three functions mean that you agree to release your changes under the above license, *not* under GPL 3 as with the rest of the project.
float hashvec2(vec2 p) {return fract(sin(p.x * 1e2 + p.y) * 1e5 + sin(p.y * 1e3) * 1e3 + sin(p.x * 735. + p.y * 11.1) * 1.5e2); }
float n12(vec2 p) {
vec2 i = floor(p);
vec2 f = fract(p);
f *= f * (3.-2.*f);
return mix(
mix(hashvec2(i+vec2(0.,0.)),hashvec2(i+vec2(1.,0.)),f.x),
mix(hashvec2(i+vec2(0.,1.)),hashvec2(i+vec2(1.,1.)),f.x),
f.y
);
}
float caustics(vec2 p, float t) {
vec3 k = vec3(p,t);
float l;
mat3 m = mat3(-2.,-1.,2.,3.,-2.,1.,1.,2.,2.);
float n = n12(p);
k = k*m*.5;
l = length(.5 - fract(k+n));
k = k*m*.4;
l = min(l, length(.5-fract(k+n)));
k = k*m*.3;
l = min(l, length(.5-fract(k+n)));
return pow(l,4.)*5.5;
}
#endif