SHADE_Y3/Assets/Shaders/ShinyHighlight_VS.glsl

#version 450
#extension GL_KHR_vulkan_glsl : enable

layout(location = 0) in vec3 aVertexPos;
layout(location = 1) in vec2 aUV;
layout(location = 2) in vec3 aNormal;
layout(location = 3) in vec3 aTangent;
layout(location = 4) in mat4 worldTransform;
layout(location = 8) in uvec2 integerData;
layout(location = 9)  in uvec4 aBoneIndices;
layout(location = 10) in vec4 aBoneWeights;
layout(location = 11) in uint firstBoneIndex;

layout(location = 0) out struct
{
  vec4 vertPos; // location 0
  vec2 uv; // location = 1
  vec4 normal; // location = 2
  vec4 worldPos; // location = 3 

} Out;

struct GenericData
{
  //! Delta time
  float dt;

  //! Elapsed time of the application
  float elapsedTime;

  //! Viewport width of the scene (excluding imgui, that means smaller than window)
  uint viewportWidth;

  //! Ditto but for height
  uint viewportHeight;
};

// material stuff
layout(location = 4) out struct
{
  int materialIndex;
  uint eid;
  uint lightLayerIndex;
  vec3 screenSpacePos;


} Out2;

layout(set = 1, binding = 0) uniform CameraData
{
  vec4 position; 
  mat4 vpMat;
  mat4 viewMat;
  mat4 projMat;
} cameraData;

layout (set = 0, binding = 0) uniform GenericDataBuffer
{
  GenericData data;
} genericDataBuffer;

void main()
{
  Out2.materialIndex = gl_InstanceIndex;
  Out2.eid             = integerData[0];
  Out2.lightLayerIndex = integerData[1];

  // for transforming gBuffer position and normal data
  mat4 modelViewMat = cameraData.viewMat * worldTransform;

  // gBuffer position will be in view space
  Out.vertPos = modelViewMat * vec4(aVertexPos, 1.0f);

  Out.worldPos = worldTransform * vec4 (aVertexPos, 1.0f);

  // uvs for texturing in fragment shader
  Out.uv = aUV;

  mat3 transposeInv = mat3 (transpose(inverse(modelViewMat)));

  // normals are also in view space
  Out.normal.rgb = transposeInv * aNormal.rgb;
  Out.normal.rgb = normalize (Out.normal.rgb);

  // Get center of object in world position
  vec4 worldPos = vec4(worldTransform[3][0], worldTransform[3][1], worldTransform[3][2], 1.0f);
  
  // transform to clip space
  worldPos = cameraData.vpMat * worldPos;
  worldPos.xyz /= worldPos.w;
  
  // transform to screen space
  worldPos.xy = ((worldPos.xy + vec2(1.0f)) * vec2 (0.5f)) * vec2 (genericDataBuffer.data.viewportWidth, genericDataBuffer.data.viewportHeight);  

  Out2.screenSpacePos = worldPos.xyz;

  // clip space for rendering
  gl_Position = cameraData.vpMat * worldTransform * vec4 (aVertexPos, 1.0f);
}
Shader, text, asset manager events and generic data desc sets - Made shader for shiniy effect (half done) - Text objects in scene now use a UI component for better scaling - Asset manager now creates an event for compilation of assets - Descriptor for generic data is implemented 2023-02-22 16:39:21 +08:00			`#version 450`
			`#extension GL_KHR_vulkan_glsl : enable`

			`layout(location = 0) in vec3 aVertexPos;`
			`layout(location = 1) in vec2 aUV;`
			`layout(location = 2) in vec3 aNormal;`
			`layout(location = 3) in vec3 aTangent;`
			`layout(location = 4) in mat4 worldTransform;`
			`layout(location = 8) in uvec2 integerData;`
			`layout(location = 9) in uvec4 aBoneIndices;`
			`layout(location = 10) in vec4 aBoneWeights;`
			`layout(location = 11) in uint firstBoneIndex;`

			`layout(location = 0) out struct`
			`{`
			`vec4 vertPos; // location 0`
			`vec2 uv; // location = 1`
			`vec4 normal; // location = 2`
			`vec4 worldPos; // location = 3`

			`} Out;`

			`struct GenericData`
			`{`
			`//! Delta time`
			`float dt;`

			`//! Elapsed time of the application`
			`float elapsedTime;`

			`//! Viewport width of the scene (excluding imgui, that means smaller than window)`
			`uint viewportWidth;`

			`//! Ditto but for height`
			`uint viewportHeight;`
			`};`

			`// material stuff`
			`layout(location = 4) out struct`
			`{`
			`int materialIndex;`
			`uint eid;`
			`uint lightLayerIndex;`
			`vec3 screenSpacePos;`


			`} Out2;`

			`layout(set = 1, binding = 0) uniform CameraData`
			`{`
			`vec4 position;`
			`mat4 vpMat;`
			`mat4 viewMat;`
			`mat4 projMat;`
			`} cameraData;`

			`layout (set = 0, binding = 0) uniform GenericDataBuffer`
			`{`
			`GenericData data;`
			`} genericDataBuffer;`

			`void main()`
			`{`
			`Out2.materialIndex = gl_InstanceIndex;`
			`Out2.eid = integerData[0];`
			`Out2.lightLayerIndex = integerData[1];`

			`// for transforming gBuffer position and normal data`
			`mat4 modelViewMat = cameraData.viewMat * worldTransform;`

			`// gBuffer position will be in view space`
			`Out.vertPos = modelViewMat * vec4(aVertexPos, 1.0f);`

			`Out.worldPos = worldTransform * vec4 (aVertexPos, 1.0f);`

			`// uvs for texturing in fragment shader`
			`Out.uv = aUV;`

			`mat3 transposeInv = mat3 (transpose(inverse(modelViewMat)));`

			`// normals are also in view space`
			`Out.normal.rgb = transposeInv * aNormal.rgb;`
			`Out.normal.rgb = normalize (Out.normal.rgb);`

			`// Get center of object in world position`
			`vec4 worldPos = vec4(worldTransform[3][0], worldTransform[3][1], worldTransform[3][2], 1.0f);`

			`// transform to clip space`
			`worldPos = cameraData.vpMat * worldPos;`
			`worldPos.xyz /= worldPos.w;`

			`// transform to screen space`
			`worldPos.xy = ((worldPos.xy + vec2(1.0f)) * vec2 (0.5f)) * vec2 (genericDataBuffer.data.viewportWidth, genericDataBuffer.data.viewportHeight);`

			`Out2.screenSpacePos = worldPos.xyz;`

			`// clip space for rendering`
			`gl_Position = cameraData.vpMat * worldTransform * vec4 (aVertexPos, 1.0f);`
			`}`