#ifndef UNITY_BUILTIN_DATA_INCLUDED #define UNITY_BUILTIN_DATA_INCLUDED //----------------------------------------------------------------------------- // BuiltinData // This structure include common data that should be present in all material // and are independent from the BSDF parametrization. // Note: These parameters can be store in GBuffer if the writer wants //----------------------------------------------------------------------------- #include "Packages/com.unity.render-pipelines.core/ShaderLibrary/Debug.hlsl" // Require for GetIndexColor auto generated #include "Packages/com.unity.render-pipelines.high-definition/Runtime/Material/Builtin/BuiltinData.cs.hlsl" //----------------------------------------------------------------------------- // helper macro //----------------------------------------------------------------------------- #define BUILTIN_DATA_SHADOW_MASK float4(builtinData.shadowMask0, builtinData.shadowMask1, builtinData.shadowMask2, builtinData.shadowMask3) //----------------------------------------------------------------------------- // common Encode/Decode functions //----------------------------------------------------------------------------- // Guideline for motion vectors buffer. // The object motion vectors buffer is potentially fill in several pass. // - In gbuffer pass with extra RT (Not supported currently) // - In forward prepass pass // - In dedicated motion vectors pass // So same motion vectors buffer is use for all scenario, so if deferred define a motion vectors buffer, the same is reuse for forward case. // THis is similar to NormalBuffer // EncodeMotionVector / DecodeMotionVector code for now, i.e it must do nothing like it is doing currently. // Design note: We assume that motion vector/distortion fit into a single buffer (i.e not spread on several buffer) void EncodeMotionVector(float2 motionVector, out float4 outBuffer) { // RT - 16:16 float outBuffer = float4(motionVector.xy, 0.0, 0.0); } bool PixelSetAsNoMotionVectors(float4 inBuffer) { return inBuffer.x > 1.0f; } void DecodeMotionVector(float4 inBuffer, out float2 motionVector) { motionVector = PixelSetAsNoMotionVectors(inBuffer) ? 0.0f : inBuffer.xy; } void EncodeDistortion(float2 distortion, float distortionBlur, bool isValidSource, out float4 outBuffer) { // RT - 16:16:16:16 float // distortionBlur in alpha for a different blend mode outBuffer = float4(distortion, isValidSource, distortionBlur); // Caution: Blend mode depends on order of attribut here, can't change without updating blend mode. } void DecodeDistortion(float4 inBuffer, out float2 distortion, out float distortionBlur, out bool isValidSource) { distortion = inBuffer.xy; distortionBlur = inBuffer.a; isValidSource = (inBuffer.z != 0.0); } void GetBuiltinDataDebug(uint paramId, BuiltinData builtinData, PositionInputs posInput, inout float3 result, inout bool needLinearToSRGB) { GetGeneratedBuiltinDataDebug(paramId, builtinData, result, needLinearToSRGB); switch (paramId) { case DEBUGVIEW_BUILTIN_BUILTINDATA_BAKED_DIFFUSE_LIGHTING: // TODO: require a remap // TODO: we should not gamma correct, but easier to debug for now without correct high range value result = builtinData.bakeDiffuseLighting; needLinearToSRGB = true; break; case DEBUGVIEW_BUILTIN_BUILTINDATA_DEPTH_OFFSET: result = builtinData.depthOffset.xxx * 10.0; // * 10 assuming 1 unity is 1m break; case DEBUGVIEW_BUILTIN_BUILTINDATA_DISTORTION: result = float3((builtinData.distortion / (abs(builtinData.distortion) + 1) + 1) * 0.5, 0.5); break; #ifdef DEBUG_DISPLAY case DEBUGVIEW_BUILTIN_BUILTINDATA_RENDERING_LAYERS: // Only 8 first rendering layers are currently in use (used by light layers) // This mode shows only those layers uint stripeSize = 8; int lightLayers = builtinData.renderingLayers & _DebugLightLayersMask; uint layerId = 0, layerCount = countbits(lightLayers); result = float3(0, 0, 0); for (uint i = 0; (i < 8) && (layerId < layerCount); i++) { if (lightLayers & (1 << i)) { if ((posInput.positionSS.y / stripeSize) % layerCount == layerId) result = _DebugRenderingLayersColors[i].xyz; layerId++; } } break; #endif } } #endif // UNITY_BUILTIN_DATA_INCLUDED