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https://github.com/bevyengine/bevy
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Modify fog functions to take fog as an argument
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3 changed files with 15 additions and 10 deletions
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@ -6,6 +6,7 @@
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// https://iquilezles.org/articles/fog/ (Atmospheric Fog and Scattering)
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fn scattering_adjusted_fog_color(
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fog: Fog,
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scattering: vec3<f32>,
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) -> vec4<f32> {
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if (fog.directional_light_color.a > 0.0) {
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@ -20,11 +21,12 @@ fn scattering_adjusted_fog_color(
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}
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fn linear_fog(
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fog: Fog,
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input_color: vec4<f32>,
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distance: f32,
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scattering: vec3<f32>,
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) -> vec4<f32> {
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var fog_color = scattering_adjusted_fog_color(scattering);
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var fog_color = scattering_adjusted_fog_color(fog, scattering);
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let start = fog.be.x;
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let end = fog.be.y;
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fog_color.a *= 1.0 - clamp((end - distance) / (end - start), 0.0, 1.0);
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@ -32,33 +34,36 @@ fn linear_fog(
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}
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fn exponential_fog(
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fog: Fog,
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input_color: vec4<f32>,
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distance: f32,
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scattering: vec3<f32>,
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) -> vec4<f32> {
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var fog_color = scattering_adjusted_fog_color(scattering);
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var fog_color = scattering_adjusted_fog_color(fog, scattering);
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let density = fog.be.x;
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fog_color.a *= 1.0 - 1.0 / exp(distance * density);
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return vec4<f32>(mix(input_color.rgb, fog_color.rgb, fog_color.a), input_color.a);
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}
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fn exponential_squared_fog(
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fog: Fog,
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input_color: vec4<f32>,
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distance: f32,
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scattering: vec3<f32>,
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) -> vec4<f32> {
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var fog_color = scattering_adjusted_fog_color(scattering);
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var fog_color = scattering_adjusted_fog_color(fog, scattering);
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let distance_times_density = distance * fog.be.x;
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fog_color.a *= 1.0 - 1.0 / exp(distance_times_density * distance_times_density);
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return vec4<f32>(mix(input_color.rgb, fog_color.rgb, fog_color.a), input_color.a);
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}
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fn atmospheric_fog(
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fog: Fog,
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input_color: vec4<f32>,
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distance: f32,
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scattering: vec3<f32>,
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) -> vec4<f32> {
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var fog_color = scattering_adjusted_fog_color(scattering);
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var fog_color = scattering_adjusted_fog_color(fog, scattering);
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let extinction_factor = 1.0 - 1.0 / exp(distance * fog.be);
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let inscattering_factor = 1.0 - 1.0 / exp(distance * fog.bi);
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return vec4<f32>(
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@ -155,7 +155,7 @@ fn fragment(in: FragmentInput) -> @location(0) vec4<f32> {
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// fog
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if (fog.mode != FOG_MODE_OFF && (material.flags & STANDARD_MATERIAL_FLAGS_FOG_ENABLED_BIT) != 0u) {
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output_color = apply_fog(output_color, in.world_position.xyz, view.world_position.xyz);
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output_color = apply_fog(fog, output_color, in.world_position.xyz, view.world_position.xyz);
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}
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#ifdef TONEMAP_IN_SHADER
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@ -385,7 +385,7 @@ fn pbr(
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#endif // PREPASS_FRAGMENT
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#ifndef PREPASS_FRAGMENT
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fn apply_fog(input_color: vec4<f32>, fragment_world_position: vec3<f32>, view_world_position: vec3<f32>) -> vec4<f32> {
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fn apply_fog(fog: Fog, input_color: vec4<f32>, fragment_world_position: vec3<f32>, view_world_position: vec3<f32>) -> vec4<f32> {
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let view_to_world = fragment_world_position.xyz - view_world_position.xyz;
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// `length()` is used here instead of just `view_to_world.z` since that produces more
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@ -411,13 +411,13 @@ fn apply_fog(input_color: vec4<f32>, fragment_world_position: vec3<f32>, view_wo
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}
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if fog.mode == FOG_MODE_LINEAR {
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return linear_fog(input_color, distance, scattering);
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return linear_fog(fog, input_color, distance, scattering);
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} else if fog.mode == FOG_MODE_EXPONENTIAL {
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return exponential_fog(input_color, distance, scattering);
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return exponential_fog(fog, input_color, distance, scattering);
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} else if fog.mode == FOG_MODE_EXPONENTIAL_SQUARED {
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return exponential_squared_fog(input_color, distance, scattering);
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return exponential_squared_fog(fog, input_color, distance, scattering);
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} else if fog.mode == FOG_MODE_ATMOSPHERIC {
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return atmospheric_fog(input_color, distance, scattering);
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return atmospheric_fog(fog, input_color, distance, scattering);
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} else {
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return input_color;
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}
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