mirror of
https://github.com/KillzXGaming/Switch-Toolbox
synced 2024-11-27 06:50:23 +00:00
199 lines
4.7 KiB
GLSL
199 lines
4.7 KiB
GLSL
#version 330
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uniform mat4 mtxCam;
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uniform mat4 mtxMdl;
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uniform mat4 sphereMatrix;
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//This may not be correct, however any SRT used with this flag is used for special effects not supported yet!
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uniform float fuv1_mtx;
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in vec3 vPosition;
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in vec3 vNormal;
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in vec3 vTangent;
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in vec3 vBitangent;
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in vec2 vUV0;
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in vec4 vColor;
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in vec4 vBone;
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in vec4 vWeight;
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in vec2 vUV1;
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in vec2 vUV2;
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in vec3 vPosition2;
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in vec3 vPosition3;
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out vec2 f_texcoord0;
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out vec2 f_texcoord1;
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out vec2 f_texcoord2;
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out vec2 f_texcoord3;
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out vec3 objectPosition;
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out vec3 normal;
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out vec3 viewNormal;
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out vec4 vertexColor;
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out vec3 tangent;
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out vec3 bitangent;
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out vec3 boneWeightsColored;
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uniform vec2 SRT_Scale;
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uniform float SRT_Rotate;
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uniform vec2 SRT_Translate;
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// Bone Weight Display
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uniform sampler2D weightRamp1;
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uniform sampler2D weightRamp2;
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uniform int selectedBoneIndex;
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uniform int debugOption;
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// Shader Options
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uniform vec4 gsys_bake_st0;
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uniform vec4 gsys_bake_st1;
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uniform int boneIds[190];
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// Skinning uniforms
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uniform mat4 bones[190];
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//Meshes have a bone index and will use their transform depending on skin influence amount
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uniform int SingleBoneIndex;
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uniform mat4 SingleBoneBindTransform;
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uniform int NoSkinning;
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uniform int RigidSkinning;
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vec4 skin(vec3 pos, ivec4 index)
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{
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vec4 newPosition = vec4(pos.xyz, 1.0);
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newPosition = bones[index.x] * vec4(pos, 1.0) * vWeight.x;
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newPosition += bones[index.y] * vec4(pos, 1.0) * vWeight.y;
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newPosition += bones[index.z] * vec4(pos, 1.0) * vWeight.z;
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if (vWeight.w < 1) //Necessary. Bones may scale weirdly without
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newPosition += bones[index.w] * vec4(pos, 1.0) * vWeight.w;
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return newPosition;
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}
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vec3 skinNRM(vec3 nr, ivec4 index)
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{
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vec3 newNormal = vec3(0);
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newNormal = mat3(bones[index.x]) * nr * vWeight.x;
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newNormal += mat3(bones[index.y]) * nr * vWeight.y;
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newNormal += mat3(bones[index.z]) * nr * vWeight.z;
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newNormal += mat3(bones[index.w]) * nr * vWeight.w;
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return newNormal;
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}
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vec3 BoneWeightColor(float weights)
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{
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float rampInputLuminance = weights;
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rampInputLuminance = clamp((rampInputLuminance), 0.001, 0.999);
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if (debugOption == 1) // Greyscale
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return vec3(weights);
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else if (debugOption == 2) // Color 1
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return texture(weightRamp1, vec2(1 - rampInputLuminance, 0.50)).rgb;
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else // Color 2
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return texture(weightRamp2, vec2(1 - rampInputLuminance, 0.50)).rgb;
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}
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float BoneWeightDisplay(ivec4 index)
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{
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float weight = 0;
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if (selectedBoneIndex == boneIds[index.x])
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weight += vWeight.x;
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if (selectedBoneIndex == boneIds[index.y])
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weight += vWeight.y;
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if (selectedBoneIndex == boneIds[index.z])
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weight += vWeight.z;
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if (selectedBoneIndex == boneIds[index.w])
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weight += vWeight.w;
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if (selectedBoneIndex == boneIds[index.x] && RigidSkinning == 1)
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weight = 1;
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if (selectedBoneIndex == SingleBoneIndex && NoSkinning == 1)
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weight = 1;
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return weight;
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}
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vec2 rotateUV(vec2 uv, float rotation)
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{
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float mid = 0.5;
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return vec2(
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cos(rotation) * (uv.x - mid) + sin(rotation) * (uv.y - mid) + mid,
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cos(rotation) * (uv.y - mid) - sin(rotation) * (uv.x - mid) + mid
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);
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}
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void main()
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{
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ivec4 index = ivec4(vBone);
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vec4 objPos = vec4(vPosition.xyz, 1.0);
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if (vBone.x != -1.0)
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objPos = skin(objPos.xyz, index);
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objPos = mtxMdl * vec4(objPos.xyz, 1.0);
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vec4 position = mtxCam * objPos;
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normal = vNormal;
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if(vBone.x != -1.0)
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normal = normalize((skinNRM(normal.xyz, index)).xyz);
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if (RigidSkinning == 1)
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{
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position = mtxCam * mtxMdl * (bones[index.x] * vec4(vPosition.xyz, 1.0));
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normal = normalize(mat3(bones[index.x]) * vNormal.xyz);
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}
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if (NoSkinning == 1)
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{
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position = mtxCam * mtxMdl * (SingleBoneBindTransform * vec4(vPosition.xyz, 1.0));
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normal = normalize(mat3(SingleBoneBindTransform) * vNormal.xyz);
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}
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normal = normalize(mat3(mtxMdl) * normal.xyz);
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gl_Position = position;
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objectPosition = position.xyz;
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viewNormal = mat3(sphereMatrix) * normal.xyz;
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f_texcoord0 = vUV0;
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vec4 sampler2 = gsys_bake_st0;
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vec4 sampler3 = gsys_bake_st1;
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if (sampler2.x != 0 && sampler2.y != 0)
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f_texcoord1 = vec2((vUV1 * sampler2.xy) + sampler2.zw);
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else
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f_texcoord1 = vec2((vUV1 * vec2(1)) + sampler2.zw);
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if (sampler3.x != 0 && sampler3.y != 0)
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f_texcoord2 = vec2((vUV1 * sampler3.xy) + sampler3.zw);
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else
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f_texcoord2 = vec2((vUV1 * vec2(1)) + sampler3.zw);
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if (fuv1_mtx != 1)
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{
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f_texcoord0 = vec2((vUV0 * SRT_Scale.xy) + SRT_Translate.xy);
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}
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f_texcoord3 = vUV2;
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tangent = vTangent;
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bitangent = vBitangent;
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vertexColor = vColor;
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// fragment shader attributes
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float totalWeight = BoneWeightDisplay(index);
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boneWeightsColored = BoneWeightColor(totalWeight).rgb;
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}
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