veloren/assets/voxygen/shaders/clouds-frag.glsl

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#version 420 core
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#include <constants.glsl>
#define LIGHTING_TYPE (LIGHTING_TYPE_TRANSMISSION | LIGHTING_TYPE_REFLECTION)
#define LIGHTING_REFLECTION_KIND LIGHTING_REFLECTION_KIND_SPECULAR
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#if (FLUID_MODE == FLUID_MODE_LOW)
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#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_IMPORTANCE
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#elif (FLUID_MODE >= FLUID_MODE_MEDIUM)
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#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_RADIANCE
#endif
#define LIGHTING_DISTRIBUTION_SCHEME LIGHTING_DISTRIBUTION_SCHEME_MICROFACET
#define LIGHTING_DISTRIBUTION LIGHTING_DISTRIBUTION_BECKMANN
// Must come before includes
#define IS_POSTPROCESS
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#include <globals.glsl>
// Note: The sampler uniform is declared here because it differs for MSAA
#include <anti-aliasing.glsl>
#include <srgb.glsl>
#include <cloud.glsl>
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#include <light.glsl>
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// This *MUST* come after `cloud.glsl`: it contains a function that depends on `cloud.glsl` when clouds are enabled
#include <point_glow.glsl>
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#include <random.glsl>
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layout(set = 2, binding = 0)
uniform texture2D t_src_color;
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layout(set = 2, binding = 1)
uniform sampler s_src_color;
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layout(set = 2, binding = 2)
uniform texture2D t_src_depth;
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layout(set = 2, binding = 3)
uniform sampler s_src_depth;
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layout(location = 0) in vec2 uv;
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layout (std140, set = 2, binding = 4)
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uniform u_locals {
mat4 all_mat_inv;
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};
layout(location = 0) out vec4 tgt_color;
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vec3 wpos_at(vec2 uv) {
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uvec2 sz = textureSize(sampler2D(t_src_depth, s_src_depth), 0);
float buf_depth = texelFetch(sampler2D(t_src_depth, s_src_depth), clamp(ivec2(uv * sz), ivec2(0), ivec2(sz) - 1), 0).x;
//float buf_depth = texture(sampler2D(t_src_depth, s_src_depth), uv).x;
vec4 clip_space = vec4((uv * 2.0 - 1.0) * vec2(1, -1), buf_depth, 1.0);
vec4 view_space = all_mat_inv * clip_space;
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view_space /= view_space.w;
if (buf_depth == 0.0) {
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vec3 direction = normalize(view_space.xyz);
return direction.xyz * 524288.0625 + cam_pos.xyz;
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} else {
return view_space.xyz;
}
}
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float depth_at(vec2 uv) {
uvec2 sz = textureSize(sampler2D(t_src_depth, s_src_depth), 0);
float buf_depth = texelFetch(sampler2D(t_src_depth, s_src_depth), clamp(ivec2(uv * sz), ivec2(0), ivec2(sz) - 1), 0).x;
if (buf_depth == 0.0) {
return 524288.0;
} else {
vec4 clip_space = vec4((uv * 2.0 - 1.0) * vec2(1, -1), buf_depth, 1.0);
vec4 view_space = all_mat_inv * clip_space;
view_space /= view_space.w;
return -(view_mat * view_space).z;
}
}
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void main() {
vec4 color = texture(sampler2D(t_src_color, s_src_color), uv);
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#ifdef EXPERIMENTAL_BAREMINIMUM
tgt_color = vec4(color.rgb, 1);
return;
#endif
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vec3 wpos = wpos_at(uv);
float dist = distance(wpos, cam_pos.xyz);
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vec3 cam_dir = (wpos - cam_pos.xyz) / dist;
vec3 dir = cam_dir;
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// Apply clouds
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float cloud_blend = 1.0;
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if (color.a < 1.0) {
vec2 nz = vec2(0);
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uvec2 col_sz = textureSize(sampler2D(t_src_color, s_src_color), 0);
#if (REFLECTION_MODE >= REFLECTION_MODE_MEDIUM)
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nz = (vec2(
noise_3d(vec3((wpos.xy + focus_off.xy) * 0.1, tick.x * 0.2 + wpos.x * 0.01)).x,
noise_3d(vec3((wpos.yx + focus_off.yx) * 0.1, tick.x * 0.2 + wpos.y * 0.01)).x
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) - 0.5) * (dir.z < 0.0 ? color.a : 1.0);
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const float n2 = 1.3325;
vec3 refr_dir;
// TODO: Proper refraction
// if (medium.x == MEDIUM_WATER) {
// vec3 surf_norm = normalize(vec3(nz * 0.03 / (1.0 + dist * 0.1), 1));
// refr_dir = refract(dir, surf_norm * -sign(dir.z), 1.0 / n2);
// } else {
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refr_dir = normalize(dir + vec3(nz * 1.5 / dist, 0.0));
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// }
vec4 clip = (all_mat * vec4(cam_pos.xyz + refr_dir, 1.0));
vec2 new_uv = (clip.xy / max(clip.w, 0)) * 0.5 * vec2(1, -1) + 0.5;
float uv_merge = clamp((1.0 - abs(new_uv.y - 0.5) * 2) * 5.0, 0, 1);
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new_uv = mix(uv, new_uv, uv_merge);
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vec4 new_col = texelFetch(sampler2D(t_src_color, s_src_color), clamp(ivec2(new_uv * col_sz), ivec2(0), ivec2(col_sz) - 1), 0);
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if (new_col.a < 1.0) {
color = new_col;
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dir = refr_dir;
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}
#endif
{
cloud_blend = 1.0 - color.a;
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#if (FLUID_MODE >= FLUID_MODE_MEDIUM || REFLECTION_MODE >= REFLECTION_MODE_MEDIUM)
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if (dir.z < 0.0) {
vec3 surf_norm = normalize(vec3(nz * 0.3 / (1.0 + dist * 0.1), 1));
vec3 refl_dir = reflect(dir, surf_norm);
vec4 clip = (all_mat * vec4(cam_pos.xyz + refl_dir, 1.0));
vec2 new_uv = (clip.xy / max(clip.w, 0)) * 0.5 * vec2(1, -1) + 0.5;
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#if (REFLECTION_MODE >= REFLECTION_MODE_HIGH)
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vec3 ray_end = wpos + refl_dir * 5.0 * dist;
// Trace through the screen-space depth buffer to find the ray intersection
const int MAIN_ITERS = 64;
for (int i = 0; i < MAIN_ITERS; i ++) {
float t = float(i) / float(MAIN_ITERS);
// TODO: Trace in screen space, not world space
vec3 swpos = mix(wpos, ray_end, t);
vec3 svpos = (view_mat * vec4(swpos, 1)).xyz;
vec4 clippos = proj_mat * vec4(svpos, 1);
vec2 suv = (clippos.xy / clippos.w) * 0.5 * vec2(1, -1) + 0.5;
float d = -depth_at(suv);
if (d < svpos.z * 0.8 && d > svpos.z * 0.999) {
// Don't cast into water!
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if (texelFetch(sampler2D(t_src_color, s_src_color), clamp(ivec2(suv * col_sz), ivec2(0), ivec2(col_sz) - 1), 0).a >= 1.0) {
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/* t -= 1.0 / float(MAIN_ITERS); */
// Do a bit of extra iteration to try to refine the estimate
const int ITERS = 8;
float diff = 1.0 / float(MAIN_ITERS);
for (int i = 0; i < ITERS; i ++) {
vec3 swpos = mix(wpos, ray_end, t);
svpos = (view_mat * vec4(swpos, 1)).xyz;
vec4 clippos = proj_mat * vec4(svpos, 1);
suv = (clippos.xy / clippos.w) * 0.5 * vec2(1, -1) + 0.5;
float d = -depth_at(suv);
t += ((d > svpos.z * 0.999) ? -1.0 : 1.0) * diff;
diff *= 0.5;
}
// Small offset to push us into obscured territory
new_uv = suv - vec2(0, 0.001);
break;
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}
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}
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}
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#endif
new_uv = clamp(new_uv, vec2(0), vec2(1));
vec3 new_wpos = wpos_at(new_uv);
float new_dist = distance(new_wpos, cam_pos.xyz);
float merge = min(
// Off-screen merge factor
clamp((1.0 - abs(new_uv.y - 0.5) * 2) * 3.0, 0, 1),
// Depth merge factor
clamp((new_dist - dist * 0.5) / (dist * 0.5), 0.0, 1.0)
);
if (merge > 0.0) {
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vec3 new_col = texelFetch(sampler2D(t_src_color, s_src_color), clamp(ivec2(new_uv * col_sz), ivec2(0), ivec2(col_sz) - 1), 0).rgb;
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new_col = get_cloud_color(new_col.rgb, refl_dir, wpos, time_of_day.x, distance(new_wpos, wpos.xyz), 1.0);
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color.rgb = mix(color.rgb, new_col, min(merge * (color.a * 2.0), 0.75));
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}
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cloud_blend = 1;
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} else {
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#else
{
#endif
cloud_blend = 1;
}
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}
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}
color.rgb = mix(color.rgb, get_cloud_color(color.rgb, dir, cam_pos.xyz, time_of_day.x, dist, 1.0), cloud_blend);
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#if (CLOUD_MODE == CLOUD_MODE_NONE)
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color.rgb = apply_point_glow(cam_pos.xyz + focus_off.xyz, dir, dist, color.rgb);
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#else
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if (medium.x == MEDIUM_AIR && rain_density > 0.001) {
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vec3 cam_wpos = cam_pos.xyz + focus_off.xyz;
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vec3 adjusted_dir = (vec4(cam_dir, 0) * rain_dir_mat).xyz;
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vec2 dir2d = adjusted_dir.xy;
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vec3 rorigin = cam_pos.xyz + focus_off.xyz + 0.5;
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vec3 rpos = vec3(0.0);
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float t = 0.0;
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const float PLANCK = 0.01;
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for (int i = 0; i < 14 /* log2(64) * 2 + 2 */; i ++) {
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float scale = min(pow(2, ceil(t / 2.0)), 32);
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vec2 deltas = (step(vec2(0), dir2d) - fract(rpos.xy / scale + 100.0)) / dir2d;
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float jump = max(min(deltas.x, deltas.y) * scale, PLANCK);
t += jump;
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#if (CLOUD_MODE >= CLOUD_MODE_MEDIUM)
if (t >= 64.0) { break; }
#else
if (t >= 16.0) { break; }
#endif
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rpos = rorigin + adjusted_dir * t;
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vec2 diff = abs(round(rpos.xy) - rpos.xy);
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vec3 wall_pos = vec3((diff.x > diff.y) ? rpos.xy : rpos.yx, rpos.z + integrated_rain_vel);
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wall_pos.xz *= vec2(4, 0.3);
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wall_pos.z += hash_two(uvec2(wall_pos.xy + vec2(0, 0.5)));
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float depth_adjust = fract(hash_two(uvec2(wall_pos.xz) + 500u));
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float wpos_dist = t - jump * depth_adjust;
vec3 wpos = cam_pos.xyz + dir * wpos_dist;
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if (wpos_dist > dist) { break; }
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if (length((fract(wall_pos.xz) - 0.5)) < 0.1 + pow(max(0.0, wpos_dist - (dist - 0.25)) / 0.25, 4.0) * 0.2) {
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float density = rain_density * rain_occlusion_at(wpos);
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if (fract(hash_two(uvec2(wall_pos.xz) + 1000u)) >= density) { continue; }
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float alpha = 0.5 * clamp((wpos_dist - 1.0) * 0.5, 0.0, 1.0);
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float light = dot(color.rgb, vec3(1)) + 0.05 + (get_sun_brightness() + get_moon_brightness()) * 0.2;
color.rgb = mix(color.rgb, vec3(0.3, 0.35, 0.5) * light, alpha);
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}
}
}
#endif
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tgt_color = vec4(color.rgb, 1);
}