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Merge branch 'zesterer/underwater' into 'master'

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Underwater shaders

See merge request veloren/veloren!3127
This commit is contained in:
Joshua Barretto 2022-01-23 20:36:47 +00:00
commit bdb0fc9c16
21 changed files with 239 additions and 102 deletions
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16
assets/voxygen/shaders/clouds-frag.glsl
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@ -16,6 +16,9 @@
#define LIGHTING_DISTRIBUTION LIGHTING_DISTRIBUTION_BECKMANN #define LIGHTING_DISTRIBUTION LIGHTING_DISTRIBUTION_BECKMANN
// Must come before includes
#define IS_POSTPROCESS
#include <globals.glsl> #include <globals.glsl>
// Note: The sampler uniform is declared here because it differs for MSAA // Note: The sampler uniform is declared here because it differs for MSAA
#include <anti-aliasing.glsl> #include <anti-aliasing.glsl>
@ -67,10 +70,15 @@ void main() {
vec3 dir = (wpos - cam_pos.xyz) / dist; vec3 dir = (wpos - cam_pos.xyz) / dist;
// Apply clouds // Apply clouds
#if (CLOUD_MODE != CLOUD_MODE_NONE) float cloud_blend = 1.0;
color.rgb = get_cloud_color(color.rgb, dir, cam_pos.xyz, time_of_day.x, dist, 1.0); if (color.a < 1.0) {
#else cloud_blend = 1.0 - color.a;
color.rgb = apply_point_glow(cam_pos.xyz + focus_off.xyz, dir, dist, color.rgb, BLOOM_FACTOR); dist = DIST_CAP;
}
color.rgb = mix(color.rgb, get_cloud_color(color.rgb, dir, cam_pos.xyz, time_of_day.x, dist, 1.0), cloud_blend);
#if (CLOUD_MODE == CLOUD_MODE_NONE)
color.rgb = apply_point_glow(cam_pos.xyz + focus_off.xyz, dir, dist, color.rgb);
#endif #endif
tgt_color = vec4(color.rgb, 1); tgt_color = vec4(color.rgb, 1);

20
assets/voxygen/shaders/figure-frag.glsl
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@ -8,7 +8,11 @@
#define LIGHTING_REFLECTION_KIND LIGHTING_REFLECTION_KIND_GLOSSY #define LIGHTING_REFLECTION_KIND LIGHTING_REFLECTION_KIND_GLOSSY
#if (FLUID_MODE == FLUID_MODE_CHEAP)
#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_IMPORTANCE #define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_IMPORTANCE
#elif (FLUID_MODE == FLUID_MODE_SHINY)
#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_RADIANCE
#endif
#define LIGHTING_DISTRIBUTION_SCHEME LIGHTING_DISTRIBUTION_SCHEME_MICROFACET #define LIGHTING_DISTRIBUTION_SCHEME LIGHTING_DISTRIBUTION_SCHEME_MICROFACET
@ -183,7 +187,6 @@ void main() {
// vec3 light, diffuse_light, ambient_light; // vec3 light, diffuse_light, ambient_light;
//get_sun_diffuse(f_norm, time_of_day.x, view_dir, k_a * point_shadow * (shade_frac * 0.5 + light_frac * 0.5), k_d * point_shadow * shade_frac, k_s * point_shadow * shade_frac, alpha, emitted_light, reflected_light); //get_sun_diffuse(f_norm, time_of_day.x, view_dir, k_a * point_shadow * (shade_frac * 0.5 + light_frac * 0.5), k_d * point_shadow * shade_frac, k_s * point_shadow * shade_frac, alpha, emitted_light, reflected_light);
float max_light = 0.0; float max_light = 0.0;
max_light += get_sun_diffuse2(sun_info, moon_info, f_norm, view_dir, k_a/* * (shade_frac * 0.5 + light_frac * 0.5)*/, k_d, k_s, alpha, emitted_light, reflected_light);
// reflected_light *= point_shadow * shade_frac; // reflected_light *= point_shadow * shade_frac;
// emitted_light *= point_shadow * max(shade_frac, MIN_SHADOW); // emitted_light *= point_shadow * max(shade_frac, MIN_SHADOW);
// max_light *= point_shadow * shade_frac; // max_light *= point_shadow * shade_frac;
@ -191,7 +194,18 @@ void main() {
// emitted_light *= point_shadow; // emitted_light *= point_shadow;
// max_light *= point_shadow; // max_light *= point_shadow;
max_light += lights_at(f_pos, f_norm, view_dir, k_a, k_d, k_s, alpha, emitted_light, reflected_light); vec3 cam_attenuation = vec3(1);
float fluid_alt = max(f_pos.z + 1, floor(f_alt + 1));
vec3 mu = medium.x == MEDIUM_WATER ? MU_WATER : vec3(0.0);
#if (FLUID_MODE == FLUID_MODE_SHINY)
cam_attenuation =
medium.x == MEDIUM_WATER ? compute_attenuation_point(cam_pos.xyz, view_dir, mu, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/f_pos)
: compute_attenuation_point(f_pos, -view_dir, mu, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/cam_pos.xyz);
#endif
max_light += get_sun_diffuse2(sun_info, moon_info, f_norm, view_dir, f_pos, mu, cam_attenuation, fluid_alt, k_a, k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
max_light += lights_at(f_pos, f_norm, view_dir, mu, cam_attenuation, fluid_alt, k_a, k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
float ao = f_ao * sqrt(f_ao);//0.25 + f_ao * 0.75; ///*pow(f_ao, 0.5)*/f_ao * 0.85 + 0.15; float ao = f_ao * sqrt(f_ao);//0.25 + f_ao * 0.75; ///*pow(f_ao, 0.5)*/f_ao * 0.85 + 0.15;
@ -206,7 +220,7 @@ void main() {
* glow_light(f_pos) * glow_light(f_pos)
* (max(dot(f_norm, model_glow.xyz / glow_mag) * 0.5 + 0.5, 0.0) + max(1.0 - glow_mag, 0.0)); * (max(dot(f_norm, model_glow.xyz / glow_mag) * 0.5 + 0.5, 0.0) + max(1.0 - glow_mag, 0.0));
emitted_light += glow; emitted_light += glow * cam_attenuation;
reflected_light *= ao; reflected_light *= ao;
emitted_light *= ao; emitted_light *= ao;

8
assets/voxygen/shaders/fluid-frag/cheap.glsl
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@ -146,6 +146,7 @@ void main() {
// vec3 surf_color = /*srgb_to_linear*/(vec3(0.4, 0.7, 2.0)); // vec3 surf_color = /*srgb_to_linear*/(vec3(0.4, 0.7, 2.0));
float max_light = 0.0; float max_light = 0.0;
max_light += get_sun_diffuse2(sun_info, moon_info, f_norm, /*time_of_day.x*//*-cam_to_frag*/sun_view_dir/*view_dir*/, f_pos, mu, cam_attenuation, fluid_alt, k_a/* * (shade_frac * 0.5 + light_frac * 0.5)*/, /*vec3(0.0)*/k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light); max_light += get_sun_diffuse2(sun_info, moon_info, f_norm, /*time_of_day.x*//*-cam_to_frag*/sun_view_dir/*view_dir*/, f_pos, mu, cam_attenuation, fluid_alt, k_a/* * (shade_frac * 0.5 + light_frac * 0.5)*/, /*vec3(0.0)*/k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
emitted_light *= not_underground; emitted_light *= not_underground;
reflected_light *= not_underground; reflected_light *= not_underground;
@ -185,8 +186,11 @@ void main() {
// float reflected_light_point = /*length*/(diffuse_light_point.r) + f_light * point_shadow; // float reflected_light_point = /*length*/(diffuse_light_point.r) + f_light * point_shadow;
// reflected_light += k_d * (diffuse_light_point + f_light * point_shadow * shade_frac) + specular_light_point; // reflected_light += k_d * (diffuse_light_point + f_light * point_shadow * shade_frac) + specular_light_point;
float passthrough = clamp(dot(cam_norm, -cam_to_frag) * 1.0 - 0.2, 0, 1); float passthrough = max(dot(f_norm, -cam_to_frag), 0);
float min_refl = min(emitted_light.r, min(emitted_light.g, emitted_light.b)); float min_refl = 0.0;
if (medium.x != MEDIUM_WATER) {
min_refl = min(emitted_light.r, min(emitted_light.g, emitted_light.b));
}
vec3 surf_color = illuminate(max_light, view_dir, water_color * /* fog_color * */emitted_light, /*surf_color * */water_color * reflected_light); vec3 surf_color = illuminate(max_light, view_dir, water_color * /* fog_color * */emitted_light, /*surf_color * */water_color * reflected_light);
// vec4 color = vec4(surf_color, passthrough * 1.0 / (1.0 + min_refl));// * (1.0 - /*log(1.0 + cam_attenuation)*//*cam_attenuation*/1.0 / (2.0 - log_cam))); // vec4 color = vec4(surf_color, passthrough * 1.0 / (1.0 + min_refl));// * (1.0 - /*log(1.0 + cam_attenuation)*//*cam_attenuation*/1.0 / (2.0 - log_cam)));

19
assets/voxygen/shaders/fluid-frag/shiny.glsl
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@ -170,14 +170,20 @@ void main() {
vec3 refract_ray_dir = refract(cam_to_frag/*-view_dir*/, norm, 1.0 / n2); vec3 refract_ray_dir = refract(cam_to_frag/*-view_dir*/, norm, 1.0 / n2);
vec3 sun_view_dir = view_dir;///*sign(cam_pos.z - fluid_alt) * view_dir;*/cam_pos.z <= fluid_alt ? -view_dir : view_dir; vec3 sun_view_dir = view_dir;///*sign(cam_pos.z - fluid_alt) * view_dir;*/cam_pos.z <= fluid_alt ? -view_dir : view_dir;
// vec3 sun_view_dir = cam_pos.z <= fluid_alt ? -view_dir : view_dir; // vec3 sun_view_dir = cam_pos.z <= fluid_alt ? -view_dir : view_dir;
vec3 beam_view_dir = reflect_ray_dir;//cam_pos.z <= fluid_alt ? -refract_ray_dir : reflect_ray_dir;
/* vec4 reflect_ray_dir4 = view_mat * vec4(reflect_ray_dir, 1.0); /* vec4 reflect_ray_dir4 = view_mat * vec4(reflect_ray_dir, 1.0);
reflect_ray_dir = normalize(vec3(reflect_ray_dir4) / reflect_ray_dir4.w); */ reflect_ray_dir = normalize(vec3(reflect_ray_dir4) / reflect_ray_dir4.w); */
// vec3 cam_to_frag = normalize(f_pos - cam_pos.xyz); // vec3 cam_to_frag = normalize(f_pos - cam_pos.xyz);
// Squared to account for prior saturation. // Squared to account for prior saturation.
float f_light = 1.0;// pow(f_light, 1.5); float f_light = 1.0;// pow(f_light, 1.5);
vec3 reflect_color = get_sky_color(/*reflect_ray_dir*/beam_view_dir, time_of_day.x, f_pos, vec3(-100000), 0.125, true); vec3 ray_dir;
reflect_color = get_cloud_color(reflect_color, reflect_ray_dir, f_pos.xyz, time_of_day.x, 100000.0, 0.1); if (medium.x == MEDIUM_WATER) {
ray_dir = refract(cam_to_frag, -norm, 1.33);
} else {
ray_dir = reflect_ray_dir;
}
vec3 reflect_color = get_sky_color(/*reflect_ray_dir*/ray_dir, time_of_day.x, f_pos, vec3(-100000), 0.125, true);
reflect_color = get_cloud_color(reflect_color, ray_dir, f_pos.xyz, time_of_day.x, 100000.0, 0.2);
reflect_color *= f_light; reflect_color *= f_light;
// Prevent the sky affecting light when underground // Prevent the sky affecting light when underground
@ -254,7 +260,7 @@ void main() {
// vec3 light, diffuse_light, ambient_light; // vec3 light, diffuse_light, ambient_light;
// vec3 light_frac = /*vec3(1.0);*/light_reflection_factor(f_norm/*vec3(0, 0, 1.0)*/, view_dir, vec3(0, 0, -1.0), vec3(1.0), vec3(R_s), alpha); // vec3 light_frac = /*vec3(1.0);*/light_reflection_factor(f_norm/*vec3(0, 0, 1.0)*/, view_dir, vec3(0, 0, -1.0), vec3(1.0), vec3(R_s), alpha);
// 0 = 100% reflection, 1 = translucent water // 0 = 100% reflection, 1 = translucent water
float passthrough = /*pow(*/dot(faceforward(norm, norm, cam_to_frag/*view_dir*/), -cam_to_frag/*view_dir*/)/*, 0.5)*/; float passthrough = max(dot(norm, -cam_to_frag), 0);
float max_light = 0.0; float max_light = 0.0;
max_light += get_sun_diffuse2(sun_info, moon_info, norm, /*time_of_day.x*/sun_view_dir, f_pos, mu, cam_attenuation, fluid_alt, k_a/* * (shade_frac * 0.5 + light_frac * 0.5)*/, vec3(k_d), /*vec3(f_light * point_shadow)*//*reflect_color*/k_s, alpha, f_norm, 1.0, emitted_light, reflected_light); max_light += get_sun_diffuse2(sun_info, moon_info, norm, /*time_of_day.x*/sun_view_dir, f_pos, mu, cam_attenuation, fluid_alt, k_a/* * (shade_frac * 0.5 + light_frac * 0.5)*/, vec3(k_d), /*vec3(f_light * point_shadow)*//*reflect_color*/k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
@ -324,7 +330,10 @@ void main() {
// vec4 color = mix(vec4(reflect_color, 1.0), vec4(surf_color, 1.0 / (1.0 + /*diffuse_light*/(/*f_light * point_shadow*/reflected_light_point/* + point_light*//*reflected_light*/))), passthrough); // vec4 color = mix(vec4(reflect_color, 1.0), vec4(surf_color, 1.0 / (1.0 + /*diffuse_light*/(/*f_light * point_shadow*/reflected_light_point/* + point_light*//*reflected_light*/))), passthrough);
// float log_cam = log(min(cam_attenuation.r, min(cam_attenuation.g, cam_attenuation.b))); // float log_cam = log(min(cam_attenuation.r, min(cam_attenuation.g, cam_attenuation.b)));
float min_refl = min(emitted_light.r, min(emitted_light.g, emitted_light.b)); float min_refl = 0.0;
if (medium.x != MEDIUM_WATER) {
min_refl = min(emitted_light.r, min(emitted_light.g, emitted_light.b));
}
vec4 color = vec4(surf_color, (1.0 - passthrough) * 1.0 / (1.0 + min_refl));// * (1.0 - /*log(1.0 + cam_attenuation)*//*cam_attenuation*/1.0 / (2.0 - log_cam))); vec4 color = vec4(surf_color, (1.0 - passthrough) * 1.0 / (1.0 + min_refl));// * (1.0 - /*log(1.0 + cam_attenuation)*//*cam_attenuation*/1.0 / (2.0 - log_cam)));
// vec4 color = vec4(surf_color, mix(1.0, 1.0 / (1.0 + /*0.25 * *//*diffuse_light*/(/*f_light * point_shadow*/reflected_light_point)), passthrough)); // vec4 color = vec4(surf_color, mix(1.0, 1.0 / (1.0 + /*0.25 * *//*diffuse_light*/(/*f_light * point_shadow*/reflected_light_point)), passthrough));
// vec4 color = vec4(surf_color, mix(1.0, length(cam_attenuation), passthrough)); // vec4 color = vec4(surf_color, mix(1.0, length(cam_attenuation), passthrough));

5
assets/voxygen/shaders/include/cloud/none.glsl
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@ -1,3 +1,8 @@
#include <lod.glsl>
vec3 get_cloud_color(vec3 surf_color, vec3 dir, vec3 origin, float time_of_day, float max_dist, float quality) { vec3 get_cloud_color(vec3 surf_color, vec3 dir, vec3 origin, float time_of_day, float max_dist, float quality) {
// Underwater light attenuation
surf_color = water_diffuse(surf_color, dir, max_dist);
return surf_color; return surf_color;
} }

11
assets/voxygen/shaders/include/cloud/regular.glsl
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@ -178,7 +178,6 @@ float atan2(in float y, in float x) {
return mix(PI/2.0 - atan(x,y), atan(y,x), s); return mix(PI/2.0 - atan(x,y), atan(y,x), s);
} }
const float DIST_CAP = 50000;
#if (CLOUD_MODE == CLOUD_MODE_ULTRA) #if (CLOUD_MODE == CLOUD_MODE_ULTRA)
const uint QUALITY = 200u; const uint QUALITY = 200u;
#elif (CLOUD_MODE == CLOUD_MODE_HIGH) #elif (CLOUD_MODE == CLOUD_MODE_HIGH)
@ -229,6 +228,10 @@ vec3 get_cloud_color(vec3 surf_color, vec3 dir, vec3 origin, const float time_of
vec3 sun_color = get_sun_color(); vec3 sun_color = get_sun_color();
vec3 moon_color = get_moon_color(); vec3 moon_color = get_moon_color();
// Clouds aren't visible underwater
#ifdef IS_POSTPROCESS
if (medium.x != 1) {
#endif
float cdist = max_dist; float cdist = max_dist;
float ldist = cdist; float ldist = cdist;
// i is an emergency brake // i is an emergency brake
@ -263,6 +266,12 @@ vec3 get_cloud_color(vec3 surf_color, vec3 dir, vec3 origin, const float time_of
sky_light * (1.0 - global_darken) * not_underground + sky_light * (1.0 - global_darken) * not_underground +
emission * density_integrals.y * step; emission * density_integrals.y * step;
} }
#ifdef IS_POSTPROCESS
}
#endif
// Underwater light attenuation
surf_color = water_diffuse(surf_color, dir, max_dist);
// Apply point glow // Apply point glow
surf_color = apply_point_glow(origin, dir, max_dist, surf_color); surf_color = apply_point_glow(origin, dir, max_dist, surf_color);

7
assets/voxygen/shaders/include/constants.glsl
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@ -44,6 +44,13 @@
#define LIGHTING_DISTRIBUTION_BECKMANN 0 #define LIGHTING_DISTRIBUTION_BECKMANN 0
#define LIGHTING_DISTRIBUTION_TROWBRIDGE 1 #define LIGHTING_DISTRIBUTION_TROWBRIDGE 1
#define MEDIUM_AIR 0
#define MEDIUM_WATER 1
// An arbitrary value that represents a very far distance (at least as far as the player should be able to see) without
// being too far that we end up with precision issues (used in clouds and elsewhere).
#define DIST_CAP 50000
/* Constants expected to be defined automatically by configuration: */ /* Constants expected to be defined automatically by configuration: */
/* /*

17
assets/voxygen/shaders/include/lod.glsl
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@ -382,4 +382,21 @@ vec3 lod_col(vec2 pos) {
} }
#endif #endif
vec3 water_diffuse(vec3 color, vec3 dir, float max_dist) {
if (medium.x == 1) {
float f_alt = alt_at(cam_pos.xy);
float fluid_alt = max(cam_pos.z + 1, floor(f_alt + 1));
float water_dist = clamp((fluid_alt - cam_pos.z) / pow(max(dir.z, 0), 5), 0, max_dist);
float fade = pow(0.97, water_dist);
return mix(vec3(0.0, 0.2, 0.5)
* (get_sun_brightness() * get_sun_color() + get_moon_brightness() * get_moon_color())
* pow(0.99, max((fluid_alt - cam_pos.z) * 12.0 - dir.z * 200, 0)), color.rgb, fade);
} else {
return color;
}
}
#endif #endif

17
assets/voxygen/shaders/include/sky.glsl
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@ -418,14 +418,6 @@ float get_sun_diffuse2(DirectionalLight sun_info, DirectionalLight moon_info, ve
return rel_luminance(emitted_light + reflected_light);//rel_luminance(emitted_light + reflected_light);//sun_chroma + moon_chroma + PERSISTENT_AMBIANCE; return rel_luminance(emitted_light + reflected_light);//rel_luminance(emitted_light + reflected_light);//sun_chroma + moon_chroma + PERSISTENT_AMBIANCE;
} }
float get_sun_diffuse2(DirectionalLight sun_info, DirectionalLight moon_info, vec3 norm, vec3 dir, vec3 k_a, vec3 k_d, vec3 k_s, float alpha, vec3 voxel_norm, float voxel_lighting, out vec3 emitted_light, out vec3 reflected_light) {
return get_sun_diffuse2(sun_info, moon_info, norm, dir, vec3(0.0), vec3(0.0), vec3(1.0), 0.0, k_a, k_d, k_s, alpha, voxel_norm, voxel_lighting, emitted_light, reflected_light);
}
float get_sun_diffuse2(DirectionalLight sun_info, DirectionalLight moon_info, vec3 norm, vec3 dir, vec3 k_a, vec3 k_d, vec3 k_s, float alpha, out vec3 emitted_light, out vec3 reflected_light) {
return get_sun_diffuse2(sun_info, moon_info, norm, dir, vec3(0.0), vec3(0.0), vec3(1.0), 0.0, k_a, k_d, k_s, alpha, norm, 1.0, emitted_light, reflected_light);
}
// This has been extracted into a function to allow quick exit when detecting a star. // This has been extracted into a function to allow quick exit when detecting a star.
float is_star_at(vec3 dir) { float is_star_at(vec3 dir) {
@ -559,9 +551,14 @@ vec3 get_sky_color(vec3 dir, float time_of_day, vec3 origin, vec3 f_pos, float q
#if (CLOUD_MODE == CLOUD_MODE_NONE) #if (CLOUD_MODE == CLOUD_MODE_NONE)
vec3 sky_color = get_sky_light(dir, time_of_day, true); vec3 sky_color = get_sky_light(dir, time_of_day, true);
#else #else
vec3 sky_color;
if (medium.x == MEDIUM_WATER) {
sky_color = get_sky_light(dir, time_of_day, true);
} else {
vec3 star_dir = normalize(sun_dir.xyz * dir.z + cross(sun_dir.xyz, vec3(0, 1, 0)) * dir.x + vec3(0, 1, 0) * dir.y); vec3 star_dir = normalize(sun_dir.xyz * dir.z + cross(sun_dir.xyz, vec3(0, 1, 0)) * dir.x + vec3(0, 1, 0) * dir.y);
float star = is_star_at(star_dir); float star = is_star_at(star_dir);
vec3 sky_color = vec3(0) + star; sky_color = vec3(0) + star;
}
#endif #endif
return sky_color + sun_light + moon_light; return sky_color + sun_light + moon_light;
@ -580,7 +577,7 @@ float fog(vec3 f_pos, vec3 focus_pos, uint medium) {
// float min_fog = 0.5; // float min_fog = 0.5;
// float max_fog = 1.0; // float max_fog = 1.0;
// if (medium == 1u) { // if (medium == MEDIUM_WATER) {
// mist_radius = UNDERWATER_MIST_DIST; // mist_radius = UNDERWATER_MIST_DIST;
// min_fog = 0.0; // min_fog = 0.0;
// } // }

1
assets/voxygen/shaders/include/srgb.glsl
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@ -650,4 +650,5 @@ vec3 greedy_extract_col_light_glow(texture2D t_col_light, sampler s_col_light, v
uint f_attr; uint f_attr;
return greedy_extract_col_light_attr(t_col_light, s_col_light, f_uv_pos, f_light, f_glow, f_attr); return greedy_extract_col_light_attr(t_col_light, s_col_light, f_uv_pos, f_light, f_glow, f_attr);
} }
#endif #endif

4
assets/voxygen/shaders/lod-terrain-frag.glsl
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@ -565,12 +565,12 @@ void main() {
const float R_s2s1 = pow((1.0 - 1.3325) / (1.0 + 1.3325), 2); const float R_s2s1 = pow((1.0 - 1.3325) / (1.0 + 1.3325), 2);
const float R_s1s2 = pow((1.3325 - 1.0) / (1.3325 + 1.0), 2); const float R_s1s2 = pow((1.3325 - 1.0) / (1.3325 + 1.0), 2);
float cam_alt = alt_at(cam_pos.xy); float cam_alt = alt_at(cam_pos.xy);
float fluid_alt = medium.x == 1u ? max(cam_alt + 1, floor(shadow_alt)) : view_distance.w; float fluid_alt = medium.x == MEDIUM_WATER ? max(cam_alt + 1, floor(shadow_alt)) : view_distance.w;
float R_s = (f_pos.z < my_alt) ? mix(R_s2s1 * R_s1s0, R_s1s0, medium.x) : mix(R_s2s0, R_s1s2 * R_s2s0, medium.x); float R_s = (f_pos.z < my_alt) ? mix(R_s2s1 * R_s1s0, R_s1s0, medium.x) : mix(R_s2s0, R_s1s2 * R_s2s0, medium.x);
vec3 emitted_light, reflected_light; vec3 emitted_light, reflected_light;
vec3 mu = medium.x == 1u/* && f_pos.z <= fluid_alt*/ ? MU_WATER : vec3(0.0); vec3 mu = medium.x == MEDIUM_WATER/* && f_pos.z <= fluid_alt*/ ? MU_WATER : vec3(0.0);
// NOTE: Default intersection point is camera position, meaning if we fail to intersect we assume the whole camera is in water. // NOTE: Default intersection point is camera position, meaning if we fail to intersect we assume the whole camera is in water.
vec3 cam_attenuation = compute_attenuation_point(cam_pos.xyz, view_dir, mu, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/f_pos); vec3 cam_attenuation = compute_attenuation_point(cam_pos.xyz, view_dir, mu, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/f_pos);
// Use f_norm here for better shadows. // Use f_norm here for better shadows.

18
assets/voxygen/shaders/particle-frag.glsl
View File

@ -6,7 +6,11 @@
#define LIGHTING_REFLECTION_KIND LIGHTING_REFLECTION_KIND_GLOSSY #define LIGHTING_REFLECTION_KIND LIGHTING_REFLECTION_KIND_GLOSSY
#if (FLUID_MODE == FLUID_MODE_CHEAP)
#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_IMPORTANCE #define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_IMPORTANCE
#elif (FLUID_MODE == FLUID_MODE_SHINY)
#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_RADIANCE
#endif
#define LIGHTING_DISTRIBUTION_SCHEME LIGHTING_DISTRIBUTION_SCHEME_MICROFACET #define LIGHTING_DISTRIBUTION_SCHEME LIGHTING_DISTRIBUTION_SCHEME_MICROFACET
@ -75,9 +79,19 @@ void main() {
// To account for prior saturation. // To account for prior saturation.
float max_light = 0.0; float max_light = 0.0;
max_light += get_sun_diffuse2(sun_info, moon_info, f_norm, view_dir, k_a, k_d, k_s, alpha, emitted_light, reflected_light);
max_light += lights_at(f_pos, f_norm, view_dir, k_a, k_d, k_s, alpha, emitted_light, reflected_light); vec3 cam_attenuation = vec3(1);
float fluid_alt = max(f_pos.z + 1, floor(f_alt + 1));
vec3 mu = medium.x == MEDIUM_WATER ? MU_WATER : vec3(0.0);
#if (FLUID_MODE == FLUID_MODE_SHINY)
cam_attenuation =
medium.x == MEDIUM_WATER ? compute_attenuation_point(cam_pos.xyz, view_dir, MU_WATER, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/f_pos)
: compute_attenuation_point(f_pos, -view_dir, vec3(0), fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/cam_pos.xyz);
#endif
max_light += get_sun_diffuse2(sun_info, moon_info, f_norm, view_dir, f_pos, MU_WATER, cam_attenuation, fluid_alt, k_a, k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
max_light += lights_at(f_pos, f_norm, view_dir, mu, cam_attenuation, fluid_alt, k_a, k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
// Allow particles to glow at night // Allow particles to glow at night
// TODO: Not this // TODO: Not this

9
assets/voxygen/shaders/postprocess-frag.glsl
View File

@ -191,6 +191,13 @@ void main() {
// return; // return;
// } // }
#ifdef EXPERIMENTAL_UNDERWARPER
vec2 uv = uv;
if (medium.x == MEDIUM_WATER) {
uv += sin(uv.yx * 40 + tick.xx * 1.0) * 0.003;
}
#endif
vec4 aa_color = aa_apply(t_src_color, s_src_color, uv * screen_res.xy, screen_res.xy); vec4 aa_color = aa_apply(t_src_color, s_src_color, uv * screen_res.xy, screen_res.xy);
// Bloom // Bloom
@ -248,7 +255,7 @@ void main() {
vec4 final_color = aa_color; vec4 final_color = aa_color;
#if (FLUID_MODE == FLUID_MODE_CHEAP) #if (FLUID_MODE == FLUID_MODE_CHEAP)
if (medium.x == 1u) { if (medium.x == MEDIUM_WATER) {
final_color *= vec4(0.2, 0.2, 0.8, 1.0); final_color *= vec4(0.2, 0.2, 0.8, 1.0);
} }
#endif #endif

6
assets/voxygen/shaders/skybox-frag.glsl
View File

@ -32,9 +32,9 @@ void main() {
float cam_alt = alt_at(cam_pos.xy); float cam_alt = alt_at(cam_pos.xy);
// float f_alt = alt_at(f_pos.xy); // float f_alt = alt_at(f_pos.xy);
float fluid_alt = medium.x == 1u ? floor(cam_alt + 1) : view_distance.w; float fluid_alt = medium.x == MEDIUM_WATER ? floor(cam_alt + 1) : view_distance.w;
// float fluid_alt = max(f_pos.z + 1, floor(f_alt)); // float fluid_alt = max(f_pos.z + 1, floor(f_alt));
vec3 mu = medium.x == 1u /* && f_pos.z <= fluid_alt*/ ? MU_WATER : vec3(0.0); vec3 mu = medium.x == MEDIUM_WATER /* && f_pos.z <= fluid_alt*/ ? MU_WATER : vec3(0.0);
// vec3 sun_attenuation = compute_attenuation(wpos, -sun_dir, mu, surface_alt, wpos); // vec3 sun_attenuation = compute_attenuation(wpos, -sun_dir, mu, surface_alt, wpos);
vec3 cam_attenuation = compute_attenuation(cam_pos.xyz, -cam_dir, mu, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*//*f_pos*//*vec3(f_pos.xy, fluid_alt)*/cam_pos.xyz); vec3 cam_attenuation = compute_attenuation(cam_pos.xyz, -cam_dir, mu, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*//*f_pos*//*vec3(f_pos.xy, fluid_alt)*/cam_pos.xyz);
// vec3 cam_attenuation = compute_attenuation_point(f_pos, -view_dir, mu, fluid_alt, cam_pos.xyz); // vec3 cam_attenuation = compute_attenuation_point(f_pos, -view_dir, mu, fluid_alt, cam_pos.xyz);
@ -47,7 +47,7 @@ void main() {
float dist = 100000.0; float dist = 100000.0;
float refractionIndex = medium.x == 1u ? 1.0 / 1.3325 : 1.0; float refractionIndex = medium.x == MEDIUM_WATER ? 1.0 / 1.3325 : 1.0;
/* if (medium.x == 1u) { /* if (medium.x == 1u) {
dist = UNDERWATER_MIST_DIST; dist = UNDERWATER_MIST_DIST;
} */ } */

26
assets/voxygen/shaders/sprite-frag.glsl
View File

@ -6,7 +6,11 @@
#define LIGHTING_REFLECTION_KIND LIGHTING_REFLECTION_KIND_GLOSSY #define LIGHTING_REFLECTION_KIND LIGHTING_REFLECTION_KIND_GLOSSY
#if (FLUID_MODE == FLUID_MODE_CHEAP)
#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_IMPORTANCE #define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_IMPORTANCE
#elif (FLUID_MODE == FLUID_MODE_SHINY)
#define LIGHTING_TRANSPORT_MODE LIGHTING_TRANSPORT_MODE_RADIANCE
#endif
#define LIGHTING_DISTRIBUTION_SCHEME LIGHTING_DISTRIBUTION_SCHEME_MICROFACET #define LIGHTING_DISTRIBUTION_SCHEME LIGHTING_DISTRIBUTION_SCHEME_MICROFACET
@ -73,19 +77,33 @@ void main() {
vec3 k_d = vec3(1.0); vec3 k_d = vec3(1.0);
vec3 k_s = vec3(R_s); vec3 k_s = vec3(R_s);
vec3 emitted_light, reflected_light; vec3 emitted_light = vec3(1);
vec3 reflected_light = vec3(1);
// Make voxel shadows block the sun and moon // Make voxel shadows block the sun and moon
sun_info.block = f_inst_light.x; sun_info.block = f_inst_light.x;
moon_info.block = f_inst_light.x; moon_info.block = f_inst_light.x;
float max_light = 0.0; float max_light = 0.0;
max_light += get_sun_diffuse2(sun_info, moon_info, f_norm, view_dir, k_a, k_d, k_s, alpha, emitted_light, reflected_light);
max_light += lights_at(f_pos, f_norm, view_dir, k_a, k_d, k_s, alpha, emitted_light, reflected_light); vec3 cam_attenuation = vec3(1);
float fluid_alt = max(f_pos.z + 1, floor(f_alt + 1));
vec3 mu = medium.x == MEDIUM_WATER ? MU_WATER : vec3(0.0);
#if (FLUID_MODE == FLUID_MODE_SHINY)
cam_attenuation =
medium.x == MEDIUM_WATER ? compute_attenuation_point(cam_pos.xyz, view_dir, mu, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/f_pos)
: compute_attenuation_point(f_pos, -view_dir, mu, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/cam_pos.xyz);
#endif
max_light += get_sun_diffuse2(sun_info, moon_info, f_norm, view_dir, f_pos, mu, cam_attenuation, fluid_alt, k_a, k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
emitted_light *= sun_info.block;
reflected_light *= sun_info.block;
max_light += lights_at(f_pos, f_norm, view_dir, mu, cam_attenuation, fluid_alt, k_a, k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
vec3 glow = pow(f_inst_light.y, 3) * 4 * glow_light(f_pos); vec3 glow = pow(f_inst_light.y, 3) * 4 * glow_light(f_pos);
emitted_light += glow; emitted_light += glow * cam_attenuation;
float ao = f_ao; float ao = f_ao;
emitted_light *= ao; emitted_light *= ao;

36
assets/voxygen/shaders/terrain-frag.glsl
View File

@ -260,12 +260,10 @@ void main() {
// Compute attenuation due to water from the camera. // Compute attenuation due to water from the camera.
vec3 mu = faces_fluid/* && f_pos.z <= fluid_alt*/ ? MU_WATER : vec3(0.0); vec3 mu = faces_fluid/* && f_pos.z <= fluid_alt*/ ? MU_WATER : vec3(0.0);
// NOTE: Default intersection point is camera position, meaning if we fail to intersect we assume the whole camera is in water. // NOTE: Default intersection point is camera position, meaning if we fail to intersect we assume the whole camera is in water.
vec3 cam_attenuation =
medium.x == 1u ? compute_attenuation_point(cam_pos.xyz, view_dir, MU_WATER, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/f_pos)
: compute_attenuation_point(f_pos, -view_dir, mu, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/cam_pos.xyz);
// Computing light attenuation from water. // Computing light attenuation from water.
vec3 emitted_light, reflected_light; vec3 cam_attenuation =
medium.x == MEDIUM_WATER ? compute_attenuation_point(cam_pos.xyz, view_dir, MU_WATER, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/f_pos)
: compute_attenuation_point(f_pos, -view_dir, mu, fluid_alt, /*cam_pos.z <= fluid_alt ? cam_pos.xyz : f_pos*/cam_pos.xyz);
// Prevent the sky affecting light when underground // Prevent the sky affecting light when underground
float not_underground = clamp((f_pos.z - f_alt) / 128.0 + 1.0, 0.0, 1.0); float not_underground = clamp((f_pos.z - f_alt) / 128.0 + 1.0, 0.0, 1.0);
@ -273,9 +271,11 @@ void main() {
// To account for prior saturation // To account for prior saturation
/*float */f_light = faces_fluid ? not_underground : f_light * sqrt(f_light); /*float */f_light = faces_fluid ? not_underground : f_light * sqrt(f_light);
emitted_light = vec3(1.0); vec3 emitted_light = vec3(1.0);
reflected_light = vec3(1.0); vec3 reflected_light = vec3(1.0);
max_light += get_sun_diffuse2(/*time_of_day.x, */sun_info, moon_info, f_norm, view_dir, f_pos, mu, cam_attenuation, fluid_alt, k_a/* * (shade_frac * 0.5 + light_frac * 0.5)*/, k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
float sun_diffuse = get_sun_diffuse2(/*time_of_day.x, */sun_info, moon_info, f_norm, view_dir, f_pos, mu, cam_attenuation, fluid_alt, k_a/* * (shade_frac * 0.5 + light_frac * 0.5)*/, k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
max_light += sun_diffuse;
// emitted_light *= f_light * point_shadow * max(shade_frac, MIN_SHADOW); // emitted_light *= f_light * point_shadow * max(shade_frac, MIN_SHADOW);
// reflected_light *= f_light * point_shadow * shade_frac; // reflected_light *= f_light * point_shadow * shade_frac;
@ -285,11 +285,27 @@ void main() {
max_light *= f_light; max_light *= f_light;
// TODO: Apply AO after this // TODO: Apply AO after this
vec3 glow = glow_light(f_pos) * (pow(f_glow, 3) * 5 + pow(f_glow, 2.0) * 2); vec3 glow = glow_light(f_pos) * (pow(f_glow, 3) * 5 + pow(f_glow, 2.0) * 2) * pow(max(dot(face_norm, f_norm), 0), 2);
reflected_light += glow * pow(max(dot(face_norm, f_norm), 0), 2); reflected_light += glow * cam_attenuation;
max_light += lights_at(f_pos, f_norm, view_dir, mu, cam_attenuation, fluid_alt, k_a, k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light); max_light += lights_at(f_pos, f_norm, view_dir, mu, cam_attenuation, fluid_alt, k_a, k_d, k_s, alpha, f_norm, 1.0, emitted_light, reflected_light);
#ifndef EXPERIMENTAL_NOCAUSTICS
#if (FLUID_MODE == FLUID_MODE_SHINY)
if (faces_fluid) {
vec3 wpos = f_pos + vec3(focus_off.xy, 0);
vec3 spos = (wpos + (fluid_alt - wpos.z) * vec3(sun_dir.xy, 0)) * 0.05;
reflected_light += max(1.0 - pow(abs(noise_3d(vec3(spos.xy, tick.x * 0.1 + dot(sin(wpos.xy * 0.8), vec2(1)) * 0.05)) - 0.5) * 10, 0.001), 0)
* 1000
* cam_attenuation
* max(dot(f_norm, -sun_dir.xyz), 0)
* sun_diffuse
* sun_info.shadow
* f_light;
}
#endif
#endif
// float f_ao = 1.0; // float f_ao = 1.0;
// float ao = /*pow(f_ao, 0.5)*/f_ao * 0.9 + 0.1; // float ao = /*pow(f_ao, 0.5)*/f_ao * 0.9 + 0.1;

16
common/src/terrain/block.rs
View File

@ -223,15 +223,15 @@ impl Block {
// minimum block, attenuation // minimum block, attenuation
#[inline] #[inline]
pub fn get_max_sunlight(&self) -> (u8, u8) { pub fn get_max_sunlight(&self) -> (u8, f32) {
match self.kind() { match self.kind() {
BlockKind::Water => (1, 1), BlockKind::Water => (0, 0.4),
BlockKind::Leaves => (9, 255), BlockKind::Leaves => (9, 255.0),
BlockKind::Wood => (6, 2), BlockKind::Wood => (6, 2.0),
BlockKind::Snow => (6, 2), BlockKind::Snow => (6, 2.0),
BlockKind::Ice => (4, 2), BlockKind::Ice => (4, 2.0),
_ if self.is_opaque() => (0, 255), _ if self.is_opaque() => (0, 255.0),
_ => (0, 0), _ => (0, 0.0),
} }
} }

16
voxygen/src/mesh/terrain.rs
View File

@ -68,19 +68,19 @@ fn calc_light<V: RectRasterableVol<Vox = Block> + ReadVol + Debug>(
if is_sunlight { if is_sunlight {
for x in 0..outer.size().w { for x in 0..outer.size().w {
for y in 0..outer.size().h { for y in 0..outer.size().h {
let mut light = SUNLIGHT; let mut light = SUNLIGHT as f32;
for z in (0..outer.size().d).rev() { for z in (0..outer.size().d).rev() {
let (min_light, attenuation) = vol_cached let (min_light, attenuation) = vol_cached
.get(outer.min + Vec3::new(x, y, z)) .get(outer.min + Vec3::new(x, y, z))
.map_or((0, 0), |b| b.get_max_sunlight()); .map_or((0, 0.0), |b| b.get_max_sunlight());
if light > min_light { if light > min_light as f32 {
light = light.saturating_sub(attenuation).max(min_light); light = (light - attenuation).max(min_light as f32);
} }
light_map[lm_idx(x, y, z)] = light; light_map[lm_idx(x, y, z)] = light.floor() as u8;
if light == 0 { if light <= 0.0 {
break; break;
} else { } else {
prop_que.push_back((x as u8, y as u8, z as u16)); prop_que.push_back((x as u8, y as u8, z as u16));
@ -103,7 +103,7 @@ fn calc_light<V: RectRasterableVol<Vox = Block> + ReadVol + Debug>(
.ok() .ok()
.map_or(false, |b| b.is_fluid()) .map_or(false, |b| b.is_fluid())
{ {
*dest = src - 1; *dest = src.saturating_sub(1);
// Can't propagate further // Can't propagate further
if *dest > 1 { if *dest > 1 {
prop_que.push_back((pos.x as u8, pos.y as u8, pos.z as u16)); prop_que.push_back((pos.x as u8, pos.y as u8, pos.z as u16));
@ -111,7 +111,7 @@ fn calc_light<V: RectRasterableVol<Vox = Block> + ReadVol + Debug>(
} else { } else {
*dest = OPAQUE; *dest = OPAQUE;
} }
} else if *dest < src - 1 { } else if *dest < src.saturating_sub(1) {
*dest = src - 1; *dest = src - 1;
// Can't propagate further // Can't propagate further
if *dest > 1 { if *dest > 1 {

4
voxygen/src/render/mod.rs
View File

@ -427,4 +427,8 @@ pub enum ExperimentalShader {
CurvedWorld, CurvedWorld,
/// Adds extra detail to distant LoD (Level of Detail) terrain procedurally. /// Adds extra detail to distant LoD (Level of Detail) terrain procedurally.
ProceduralLodDetail, ProceduralLodDetail,
/// Add a warping effect when underwater.
Underwarper,
/// Remove caustics from underwater terrain when shiny water is enabled.
NoCaustics,
} }

2
voxygen/src/render/pipelines/fluid.rs
View File

@ -97,7 +97,7 @@ impl FluidPipeline {
}, },
depth_stencil: Some(wgpu::DepthStencilState { depth_stencil: Some(wgpu::DepthStencilState {
format: wgpu::TextureFormat::Depth32Float, format: wgpu::TextureFormat::Depth32Float,
depth_write_enabled: false, depth_write_enabled: true,
depth_compare: wgpu::CompareFunction::GreaterEqual, depth_compare: wgpu::CompareFunction::GreaterEqual,
stencil: wgpu::StencilState { stencil: wgpu::StencilState {
front: wgpu::StencilFaceState::IGNORE, front: wgpu::StencilFaceState::IGNORE,

9
voxygen/src/render/pipelines/skybox.rs
View File

@ -98,7 +98,14 @@ impl SkyboxPipeline {
entry_point: "main", entry_point: "main",
targets: &[wgpu::ColorTargetState { targets: &[wgpu::ColorTargetState {
format: wgpu::TextureFormat::Rgba16Float, format: wgpu::TextureFormat::Rgba16Float,
blend: None, blend: Some(wgpu::BlendState {
color: wgpu::BlendComponent::REPLACE,
alpha: wgpu::BlendComponent {
src_factor: wgpu::BlendFactor::Zero,
dst_factor: wgpu::BlendFactor::One,
operation: wgpu::BlendOperation::Add,
},
}),
write_mask: wgpu::ColorWrite::ALL, write_mask: wgpu::ColorWrite::ALL,
}], }],
}), }),