#include "shared/point.hlsl" #include "shared/quat-functions.hlsl" static const float4 Factors[] = { // x y z w float4(0, 0, 0, 0), // 0 nothing float4(1, 0, 0, 0), // 1 for x float4(0, 1, 0, 0), // 2 for y float4(0, 0, 1, 0), // 3 for z float4(0, 0, 0, 1), // 4 for w float4(0, 0, 0, 0), // avoid rotation effects }; cbuffer Transforms : register(b0) { float4x4 CameraToClipSpace; float4x4 ClipSpaceToCamera; float4x4 WorldToCamera; float4x4 CameraToWorld; float4x4 WorldToClipSpace; float4x4 ClipSpaceToWorld; float4x4 ObjectToWorld; float4x4 WorldToObject; float4x4 ObjectToCamera; float4x4 ObjectToClipSpace; }; cbuffer Params : register(b1) { float L; float LFactor; float LOffset; float R; float RFactor; float ROffset; float G; float GFactor; float GOffset; float B; float BFactor; float BOffset; // float A; // float AFactor; // float AOffset; float __padding; float3 Center; } // StructuredBuffer Points : t0; RWStructuredBuffer ResultPoints : u0; // output Texture2D inputTexture : register(t0); sampler texSampler : register(s0); [numthreads(256, 4, 1)] void main(uint3 i : SV_DispatchThreadID) { uint index = i.x; Point P = ResultPoints[index]; float3 pos = P.Position; pos -= Center; float3 posInObject = mul(float4(pos.xyz, 0), WorldToObject).xyz; float4 c = inputTexture.SampleLevel(texSampler, posInObject.xy * float2(1, -1) + float2(0.5, 0.5), 0.0); float gray = (c.r + c.g + c.b) / 3; float4 ff = Factors[(uint)clamp(L, 0, 5.1)] * (gray * LFactor + LOffset) + Factors[(uint)clamp(R, 0, 5.1)] * (c.r * RFactor + ROffset) + Factors[(uint)clamp(G, 0, 5.1)] * (c.g * GFactor + GOffset) + Factors[(uint)clamp(B, 0, 5.1)] * (c.b * BFactor + BOffset); P.Position = P.Position + float3(ff.xyz); P.FX1 = P.FX1 + ff.w; float4 rot = P.Rotation; P.Rotation = P.Rotation; float rotXFactor = (R == 5 ? (c.r * RFactor + ROffset) : 0) + (G == 5 ? (c.g * GFactor + GOffset) : 0) + (B == 5 ? (c.b * BFactor + BOffset) : 0) + (L == 5 ? (gray * LFactor + LOffset) : 0); float rotYFactor = (R == 6 ? (c.r * RFactor + ROffset) : 0) + (G == 6 ? (c.g * GFactor + GOffset) : 0) + (B == 6 ? (c.b * BFactor + BOffset) : 0) + (L == 6 ? (gray * LFactor + LOffset) : 0); float rotZFactor = (R == 7 ? (c.r * RFactor + ROffset) : 0) + (G == 7 ? (c.g * GFactor + GOffset) : 0) + (B == 7 ? (c.b * BFactor + BOffset) : 0) + (L == 7 ? (gray * LFactor + LOffset) : 0); if (rotXFactor != 0) { rot = qMul(rot, qFromAngleAxis(rotXFactor, float3(1, 0, 0))); } if (rotYFactor != 0) { rot = qMul(rot, qFromAngleAxis(rotYFactor, float3(0, 1, 0))); } if (rotZFactor != 0) { rot = qMul(rot, qFromAngleAxis(rotZFactor, float3(0, 0, 1))); } P.Rotation = normalize(rot); ResultPoints[index] = P; }