111 lines
3.7 KiB
Plaintext
111 lines
3.7 KiB
Plaintext
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shader_type sky;
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/// Procedural sky supporting overcast and time of day.
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/// Color of the sky in the daytime.
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const vec3 COLOR_DAY = vec3(0.0, 0.41, 0.8);
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/// Color of the horizon at sunrise and sunset.
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const vec3 COLOR_TWILIGHT = vec3(1.0, 0.29, 0.0);
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/// Color of the sky at night.
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const vec3 COLOR_NIGHT = vec3(0.01, 0.0, 0.03);
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/// Typical color of the clouds.
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const vec3 COLOR_CLOUDS_LIGHT = vec3(2.0);
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/// Shade the clouds take on at peak overcast.
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const vec3 COLOR_CLOUDS_HEAVY = vec3(0.25);
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/// Multipliers for the clouds' color at night.
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const vec3 MUL_CLOUDS_NIGHT = vec3(0.0);
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/// Multiplier for the clouds' color at their edges.
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const vec3 MUL_CLOUDS_EDGE = vec3(0.75);
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/// Threshold between 0-to-mask and mask-to-1 interpolation of cloud alpha.
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const float ALPHA_THRESHOLD_CLOUDS = 0.25;
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/// Color of the stars.
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const vec3 COLOR_STARS = vec3(2.0);
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/// Radiance color of the sky in the daytime.
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const vec3 RADIANCE_DAY = vec3(0.625);
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/// Radiance color of the sky at sunrise and sunset.
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const vec3 RADIANCE_TWILIGHT = COLOR_TWILIGHT/2.0;
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/// Radiance color of the sky at night.
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const vec3 RADIANCE_NIGHT = 3.0*COLOR_NIGHT;
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/// Multipliers for the radiance color of the sky at peak overcast.
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const vec3 MUL_RADIANCE_OVERCAST = vec3(0.875);
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/// Peak wind velocity in UV units per second.
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const vec2 PEAK_WIND = vec2(0.25, 0.0);
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/// Alpha mask for the cloud layer.
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uniform sampler2D cloud_map:
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source_color, filter_linear, repeat_enable, hint_default_black;
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/// Alpha mask for the star layer.
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uniform sampler2D star_map:
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source_color, filter_linear, repeat_enable, hint_default_black;
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/// Interpolates between brightest time of day and darkest time of night.
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global uniform float night = 0.0;
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/// Interpolates quadratically between clear sky and cloudy sky.
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global uniform float overcast = 0.25;
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/// Interpolates quadratically between no wind and maximum wind.
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global uniform float wind = 0.25;
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/// Computes cloud RGBA at given UV.
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vec4 clouds(vec2 uv) {
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float sq = overcast*overcast;
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float m = texture(cloud_map, uv).r;
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float s = step(ALPHA_THRESHOLD_CLOUDS, sq);
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return vec4(
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mix(COLOR_CLOUDS_LIGHT, COLOR_CLOUDS_HEAVY, sq) *
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mix(MUL_CLOUDS_EDGE, vec3(1.0), m) *
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mix(vec3(1.0), MUL_CLOUDS_NIGHT, night),
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mix(
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mix(0.0, m, smoothstep(0.0, ALPHA_THRESHOLD_CLOUDS, sq)),
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mix(m, 1.0, smoothstep(ALPHA_THRESHOLD_CLOUDS, 1.0, sq)),
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s
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)
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);
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}
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/// Computes star RGBA at given UV.
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vec4 stars(vec2 uv) {
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float m = texture(star_map, uv).r;
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return vec4(COLOR_STARS, mix(mix(0.0, m, night), 0.0, sqrt(overcast)));
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}
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/// Computes atmospheric scattering RGB at given UV.
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vec3 background(vec2 uv) {
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vec3 top = mix(COLOR_DAY, COLOR_NIGHT, night);
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vec3 bottom = mix(
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top, COLOR_TWILIGHT,
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smoothstep(0.5, 0.0, abs(0.5 - night))
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);
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return mix(
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mix(top, bottom, uv.y),
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COLOR_CLOUDS_HEAVY * MUL_CLOUDS_EDGE *
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mix(vec3(1.0), MUL_CLOUDS_NIGHT, night),
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overcast
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);
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}
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/// Computes solid radiance color for entire sky.
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vec3 radiance() {
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return mix(
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mix(RADIANCE_DAY, RADIANCE_NIGHT, night),
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RADIANCE_TWILIGHT,
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smoothstep(1.0, 0.0, abs(0.5 - night))
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)*mix(vec3(1.0), MUL_RADIANCE_OVERCAST, overcast);
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}
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/// Alpha-blends overlay over opaque underlay.
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vec3 alpha_blend_opaque(vec4 overlay, vec3 underlay) {
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return mix(underlay, overlay.rgb, overlay.a);
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}
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/// Composites clouds over stars over background, plus wind and edge fading.
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vec3 composite(vec2 uv) {
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vec2 uv_after_wind = fract(uv + TIME*wind*wind*PEAK_WIND);
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vec3 color = background(uv);
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vec4 fade = sqrt(vec4(vec3(1.0), smoothstep(0.5, 0.0, abs(0.5 - uv.y))));
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color = alpha_blend_opaque(stars(uv)*fade, color);
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color = alpha_blend_opaque(clouds(uv_after_wind)*fade, color);
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return color;
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}
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/// Shader sky pass.
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void sky() {
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COLOR = AT_CUBEMAP_PASS? radiance() : composite(SKY_COORDS);
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}
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