using UnityEngine.Rendering; using System; namespace UnityEngine.Experimental.Rendering.HDPipeline { public class IBLFilterGGX { RenderTexture m_GgxIblSampleData = null; int k_GgxIblMaxSampleCount = TextureCache.isMobileBuildTarget ? 34 : 89; // Width const int k_GgxIblMipCountMinusOne = 6; // Height (UNITY_SPECCUBE_LOD_STEPS) ComputeShader m_ComputeGgxIblSampleDataCS = null; int m_ComputeGgxIblSampleDataKernel = -1; ComputeShader m_BuildProbabilityTablesCS = null; int m_ConditionalDensitiesKernel = -1; int m_MarginalRowDensitiesKernel = -1; Material m_GgxConvolveMaterial = null; // Convolves a cubemap with GGX bool m_SupportMIS = !TextureCache.isMobileBuildTarget; RenderPipelineResources m_RenderPipelinesResources; public IBLFilterGGX(RenderPipelineResources renderPipelinesResources) { m_RenderPipelinesResources = renderPipelinesResources; } public bool IsInitialized() { return m_GgxIblSampleData != null; } public bool SupportMIS { get { return m_SupportMIS; } } public void Initialize(CommandBuffer cmd) { if (!m_ComputeGgxIblSampleDataCS) { m_ComputeGgxIblSampleDataCS = m_RenderPipelinesResources.computeGgxIblSampleData; m_ComputeGgxIblSampleDataKernel = m_ComputeGgxIblSampleDataCS.FindKernel("ComputeGgxIblSampleData"); } if (!m_BuildProbabilityTablesCS && SupportMIS) { m_BuildProbabilityTablesCS = m_RenderPipelinesResources.buildProbabilityTables; m_ConditionalDensitiesKernel = m_BuildProbabilityTablesCS.FindKernel("ComputeConditionalDensities"); m_MarginalRowDensitiesKernel = m_BuildProbabilityTablesCS.FindKernel("ComputeMarginalRowDensities"); } if (!m_GgxConvolveMaterial) { m_GgxConvolveMaterial = CoreUtils.CreateEngineMaterial(m_RenderPipelinesResources.GGXConvolve); } if (!m_GgxIblSampleData) { m_GgxIblSampleData = new RenderTexture(k_GgxIblMaxSampleCount, k_GgxIblMipCountMinusOne, 0, RenderTextureFormat.ARGBFloat, RenderTextureReadWrite.Linear); m_GgxIblSampleData.useMipMap = false; m_GgxIblSampleData.autoGenerateMips = false; m_GgxIblSampleData.enableRandomWrite = true; m_GgxIblSampleData.filterMode = FilterMode.Point; m_GgxIblSampleData.Create(); m_ComputeGgxIblSampleDataCS.SetTexture(m_ComputeGgxIblSampleDataKernel, "output", m_GgxIblSampleData); using (new ProfilingSample(cmd, "Compute GGX IBL Sample Data")) { cmd.DispatchCompute(m_ComputeGgxIblSampleDataCS, m_ComputeGgxIblSampleDataKernel, 1, 1, 1); } } } void FilterCubemapCommon(CommandBuffer cmd, Texture source, RenderTexture target, int mipCount, Matrix4x4[] worldToViewMatrices) { // Solid angle associated with a texel of the cubemap. float invOmegaP = (6.0f * source.width * source.width) / (4.0f * Mathf.PI); m_GgxConvolveMaterial.SetTexture("_MainTex", source); m_GgxConvolveMaterial.SetTexture("_GgxIblSamples", m_GgxIblSampleData); m_GgxConvolveMaterial.SetFloat("_LastLevel", mipCount - 1); m_GgxConvolveMaterial.SetFloat("_InvOmegaP", invOmegaP); for (int mip = 1; mip < ((int)EnvConstants.SpecCubeLodStep + 1); ++mip) { string sampleName = String.Format("Filter Cubemap Mip {0}", mip); cmd.BeginSample(sampleName); for (int face = 0; face < 6; ++face) { Vector4 faceSize = new Vector4(source.width >> mip, source.height >> mip, 1.0f / (source.width >> mip), 1.0f / (source.height >> mip)); Matrix4x4 transform = SkyManager.ComputePixelCoordToWorldSpaceViewDirectionMatrix(0.5f * Mathf.PI, faceSize, worldToViewMatrices[face], true); MaterialPropertyBlock props = new MaterialPropertyBlock(); props.SetFloat("_Level", mip); props.SetMatrix(HDShaderIDs._PixelCoordToViewDirWS, transform); CoreUtils.SetRenderTarget(cmd, target, ClearFlag.None, mip, (CubemapFace)face); CoreUtils.DrawFullScreen(cmd, m_GgxConvolveMaterial, props); } cmd.EndSample(sampleName); } } // Filters MIP map levels (other than 0) with GGX using BRDF importance sampling. public void FilterCubemap(CommandBuffer cmd, Texture source, RenderTexture target, int mipCount, Matrix4x4[] worldToViewMatrices) { m_GgxConvolveMaterial.DisableKeyword("USE_MIS"); FilterCubemapCommon(cmd, source, target, mipCount, worldToViewMatrices); } // Filters MIP map levels (other than 0) with GGX using multiple importance sampling. public void FilterCubemapMIS(CommandBuffer cmd, Texture source, RenderTexture target, int mipCount, RenderTexture conditionalCdf, RenderTexture marginalRowCdf, Matrix4x4[] worldToViewMatrices) { // Bind the input cubemap. m_BuildProbabilityTablesCS.SetTexture(m_ConditionalDensitiesKernel, "envMap", source); // Bind the outputs. m_BuildProbabilityTablesCS.SetTexture(m_ConditionalDensitiesKernel, "conditionalDensities", conditionalCdf); m_BuildProbabilityTablesCS.SetTexture(m_ConditionalDensitiesKernel, "marginalRowDensities", marginalRowCdf); m_BuildProbabilityTablesCS.SetTexture(m_MarginalRowDensitiesKernel, "marginalRowDensities", marginalRowCdf); int numRows = conditionalCdf.height; using (new ProfilingSample(cmd, "Build Probability Tables")) { cmd.DispatchCompute(m_BuildProbabilityTablesCS, m_ConditionalDensitiesKernel, numRows, 1, 1); cmd.DispatchCompute(m_BuildProbabilityTablesCS, m_MarginalRowDensitiesKernel, 1, 1, 1); } m_GgxConvolveMaterial.EnableKeyword("USE_MIS"); m_GgxConvolveMaterial.SetTexture("_ConditionalDensities", conditionalCdf); m_GgxConvolveMaterial.SetTexture("_MarginalRowDensities", marginalRowCdf); FilterCubemapCommon(cmd, source, target, mipCount, worldToViewMatrices); } } }