88 lines
2.6 KiB
GLSL
88 lines
2.6 KiB
GLSL
#version 450 core
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#extension GL_ARB_separate_shader_objects : enable
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layout (constant_id = 0) const bool FOG = true;
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layout (constant_id = 1) const bool PBR = true;
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// FS spe
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layout (constant_id = 5) const bool DO_CURVATURE = false;
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layout (constant_id = 6) const bool CURV_DEPTH = true;
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layout (binding = 0) uniform UniformBufferObject {
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mat4 view;
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mat4 proj;
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vec3 lightInvDirection_worldspace;
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vec4 fog; //color.rgb depth.a
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} UBO;
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layout(push_constant) uniform PushConst {
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#ifndef INSTANCED
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mat4 model;
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#endif
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vec4 sphereProj;
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float curvature;
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} Push;
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layout (location = 0) in vec3 Position_modelspace;
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layout (location = 1) in uint Texture_model;
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layout (location = 2) in vec3 Normal_modelspace;
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#ifdef INSTANCED
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layout (location = 6) in mat4 Model;
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#endif
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layout (location = 0) out VertexData {
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vec3 Position_modelspace;
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flat uint Texture;
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vec3 FaceNormal_modelspace;
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vec3 FaceNormal_worldspace;
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vec3 EyeDirection_cameraspace;
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vec3 LightDirection_cameraspace;
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float Depth;
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} vs;
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void main(){
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#ifndef INSTANCED
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mat4 Model = Push.model;
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#endif
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vs.Position_modelspace = Position_modelspace;
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if(DO_CURVATURE) {
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if(Push.curvature > 0) {
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vec3 Position_areaspace = Position_modelspace + Push.sphereProj.xyz;
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vec2 sph = vec2(acos(Position_areaspace.z / length(Position_areaspace.xyz)), atan(Position_areaspace.y, Position_areaspace.x));
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float radius = CURV_DEPTH ?
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max(max(abs(Position_areaspace.x), abs(Position_areaspace.y)), abs(Position_areaspace.z)) :
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Push.sphereProj.w;
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vs.Position_modelspace = mix(vs.Position_modelspace, vec3(sin(sph.x)*cos(sph.y), sin(sph.x)*sin(sph.y), cos(sph.x)) * radius - Push.sphereProj.xyz, Push.curvature);
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}
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}
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vec4 Position_cameraspace = UBO.view * Model * vec4(vs.Position_modelspace, 1);
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gl_Position = UBO.proj * Position_cameraspace;
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if(FOG) {
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vs.Depth = length(Position_cameraspace.xyz) / UBO.fog.a;
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}
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vs.Texture = Texture_model;
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vs.FaceNormal_modelspace = normalize(Normal_modelspace);
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if(PBR) {
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// TODO: correct normal curvature
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vs.FaceNormal_worldspace = normalize((Model * vec4(vs.FaceNormal_modelspace, 0)).xyz);
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// Vector that goes from the vertex to the camera, in camera space.
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// In camera space, the camera is at the origin (0,0,0).
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vs.EyeDirection_cameraspace = vec3(0,0,0) - Position_cameraspace.xyz;
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// Vector that goes from the vertex to the light, in camera space
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vs.LightDirection_cameraspace = (UBO.view * vec4(UBO.lightInvDirection_worldspace,0)).xyz;
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}
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}
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