#ifndef UNIVERSAL_PIPELINE_MOTIONVECTORSCOMMON_INCLUDED #define UNIVERSAL_PIPELINE_MOTIONVECTORSCOMMON_INCLUDED #include "Packages/com.unity.render-pipelines.core/ShaderLibrary/FoveatedRendering.hlsl" // 6000.0 Deprecated. This is for backwards compatibility. Remove in the future. void ApplyMotionVectorZBias(inout float4 positionCS) { } float2 CalcNdcMotionVectorFromCsPositions(float4 posCS, float4 prevPosCS) { // Note: unity_MotionVectorsParams.y is 0 is forceNoMotion is enabled bool forceNoMotion = unity_MotionVectorsParams.y == 0.0; if (forceNoMotion) return float2(0.0, 0.0); // Non-uniform raster needs to keep the posNDC values in float to avoid additional conversions // since uv remap functions use floats float2 posNDC = posCS.xy * rcp(posCS.w); float2 prevPosNDC = prevPosCS.xy * rcp(prevPosCS.w); float2 velocity; #if defined(SUPPORTS_FOVEATED_RENDERING_NON_UNIFORM_RASTER) UNITY_BRANCH if (_FOVEATED_RENDERING_NON_UNIFORM_RASTER) { // Convert velocity from NDC space (-1..1) to screen UV 0..1 space since FoveatedRendering remap needs that range. float2 posUV = RemapFoveatedRenderingResolve(posNDC * 0.5 + 0.5); float2 prevPosUV = RemapFoveatedRenderingPrevFrameLinearToNonUniform(prevPosNDC * 0.5 + 0.5); // Calculate forward velocity velocity = (posUV - prevPosUV); #if UNITY_UV_STARTS_AT_TOP velocity.y = -velocity.y; #endif } else #endif { // Calculate forward velocity velocity = (posNDC.xy - prevPosNDC.xy); #if UNITY_UV_STARTS_AT_TOP velocity.y = -velocity.y; #endif // Convert velocity from NDC space (-1..1) to UV 0..1 space // Note: It doesn't mean we don't have negative values, we store negative or positive offset in UV space. // Note: ((posNDC * 0.5 + 0.5) - (prevPosNDC * 0.5 + 0.5)) = (velocity * 0.5) velocity.xy *= 0.5; } return velocity; } // Same as CalcNdcMotionVectorFromCsPositions but returns vec3 ndc space motion vector. // Also Application SpaceWarp does not support non-uniform foveated rendering so the relevant foveated rendering code is not in this variant. float3 CalcAswNdcMotionVectorFromCsPositions(float4 posCS, float4 prevPosCS) { float3 posNDC = posCS.xyz * rcp(posCS.w); float3 prevPosNDC = prevPosCS.xyz * rcp(prevPosCS.w); float3 velocity; // Calculate forward velocity velocity = (posNDC.xyz - prevPosNDC.xyz); return velocity; } #endif