Esempio n. 1
0
        private static bool GenerateShaderPassHair(HairMasterNode masterNode, Pass pass, GenerationMode mode, ShaderGenerator result, List <string> sourceAssetDependencyPaths)
        {
            if (mode == GenerationMode.ForReals || pass.UseInPreview)
            {
                pass.OnGeneratePass(masterNode);

                // apply master node options to active fields
                HashSet <string> activeFields = GetActiveFieldsFromMasterNode(masterNode, pass);

                // use standard shader pass generation
                bool vertexActive = masterNode.IsSlotConnected(HairMasterNode.PositionSlotId);
                return(HDSubShaderUtilities.GenerateShaderPass(masterNode, pass, mode, activeFields, result, sourceAssetDependencyPaths, vertexActive));
            }
            else
            {
                return(false);
            }
        }
Esempio n. 2
0
        private static HashSet <string> GetActiveFieldsFromMasterNode(AbstractMaterialNode iMasterNode, Pass pass)
        {
            HashSet <string> activeFields = new HashSet <string>();

            HairMasterNode masterNode = iMasterNode as HairMasterNode;

            if (masterNode == null)
            {
                return(activeFields);
            }

            if (masterNode.doubleSidedMode != DoubleSidedMode.Disabled)
            {
                activeFields.Add("DoubleSided");
                if (pass.ShaderPassName != "SHADERPASS_VELOCITY")   // HACK to get around lack of a good interpolator dependency system
                {                                                   // we need to be able to build interpolators using multiple input structs
                                                                    // also: should only require isFrontFace if Normals are required...
                    if (masterNode.doubleSidedMode == DoubleSidedMode.FlippedNormals)
                    {
                        activeFields.Add("DoubleSided.Flip");
                    }
                    else if (masterNode.doubleSidedMode == DoubleSidedMode.MirroredNormals)
                    {
                        activeFields.Add("DoubleSided.Mirror");
                    }
                    // Important: the following is used in SharedCode.template.hlsl for determining the normal flip mode
                    activeFields.Add("FragInputs.isFrontFace");
                }
            }

            switch (masterNode.materialType)
            {
            case HairMasterNode.MaterialType.KajiyaKay:
                activeFields.Add("Material.KajiyaKay");
                break;

            default:
                UnityEngine.Debug.LogError("Unknown material type: " + masterNode.materialType);
                break;
            }

            if (masterNode.alphaTest.isOn)
            {
                int count = 0;

                // If alpha test shadow is enable, we use it, otherwise we use the regular test
                if (pass.PixelShaderUsesSlot(HairMasterNode.AlphaClipThresholdShadowSlotId) && masterNode.alphaTestShadow.isOn)
                {
                    activeFields.Add("AlphaTestShadow");
                    ++count;
                }
                else if (pass.PixelShaderUsesSlot(HairMasterNode.AlphaClipThresholdSlotId))
                {
                    activeFields.Add("AlphaTest");
                    ++count;
                }
                // Other alpha test are suppose to be alone
                else if (pass.PixelShaderUsesSlot(HairMasterNode.AlphaClipThresholdDepthPrepassSlotId))
                {
                    activeFields.Add("AlphaTestPrepass");
                    ++count;
                }
                else if (pass.PixelShaderUsesSlot(HairMasterNode.AlphaClipThresholdDepthPostpassSlotId))
                {
                    activeFields.Add("AlphaTestPostpass");
                    ++count;
                }
                UnityEngine.Debug.Assert(count == 1, "Alpha test value not set correctly");
            }

            if (masterNode.surfaceType != SurfaceType.Opaque)
            {
                activeFields.Add("SurfaceType.Transparent");

                if (masterNode.alphaMode == AlphaMode.Alpha)
                {
                    activeFields.Add("BlendMode.Alpha");
                }
                else if (masterNode.alphaMode == AlphaMode.Premultiply)
                {
                    activeFields.Add("BlendMode.Premultiply");
                }
                else if (masterNode.alphaMode == AlphaMode.Additive)
                {
                    activeFields.Add("BlendMode.Add");
                }

                if (masterNode.blendPreserveSpecular.isOn)
                {
                    activeFields.Add("BlendMode.PreserveSpecular");
                }

                if (masterNode.transparencyFog.isOn)
                {
                    activeFields.Add("AlphaFog");
                }

                if (masterNode.transparentWritesVelocity.isOn)
                {
                    activeFields.Add("TransparentWritesVelocity");
                }
            }

            if (!masterNode.receiveDecals.isOn)
            {
                activeFields.Add("DisableDecals");
            }

            if (!masterNode.receiveSSR.isOn)
            {
                activeFields.Add("DisableSSR");
            }

            if (masterNode.specularAA.isOn && pass.PixelShaderUsesSlot(HairMasterNode.SpecularAAThresholdSlotId) && pass.PixelShaderUsesSlot(HairMasterNode.SpecularAAScreenSpaceVarianceSlotId))
            {
                activeFields.Add("Specular.AA");
            }

            if (masterNode.IsSlotConnected(HairMasterNode.BentNormalSlotId) && pass.PixelShaderUsesSlot(HairMasterNode.BentNormalSlotId))
            {
                activeFields.Add("BentNormal");
            }

            if (masterNode.IsSlotConnected(HairMasterNode.HairStrandDirectionSlotId) && pass.PixelShaderUsesSlot(HairMasterNode.HairStrandDirectionSlotId))
            {
                activeFields.Add("HairStrandDirection");
            }

            if (masterNode.transmission.isOn)
            {
                activeFields.Add("Material.Transmission");
            }

            if (masterNode.subsurfaceScattering.isOn && masterNode.surfaceType != SurfaceType.Transparent)
            {
                activeFields.Add("Material.SubsurfaceScattering");
            }

            switch (masterNode.specularOcclusionMode)
            {
            case SpecularOcclusionMode.Off:
                break;

            case SpecularOcclusionMode.FromAO:
                activeFields.Add("SpecularOcclusionFromAO");
                break;

            case SpecularOcclusionMode.FromAOAndBentNormal:
                activeFields.Add("SpecularOcclusionFromAOBentNormal");
                break;

            case SpecularOcclusionMode.Custom:
                activeFields.Add("SpecularOcclusionCustom");
                break;

            default:
                break;
            }

            if (pass.PixelShaderUsesSlot(HairMasterNode.AmbientOcclusionSlotId))
            {
                var occlusionSlot = masterNode.FindSlot <Vector1MaterialSlot>(HairMasterNode.AmbientOcclusionSlotId);

                bool connected = masterNode.IsSlotConnected(HairMasterNode.AmbientOcclusionSlotId);
                if (connected || occlusionSlot.value != occlusionSlot.defaultValue)
                {
                    activeFields.Add("AmbientOcclusion");
                }
            }

            if (masterNode.IsSlotConnected(HairMasterNode.LightingSlotId) && pass.PixelShaderUsesSlot(HairMasterNode.LightingSlotId))
            {
                activeFields.Add("LightingGI");
            }
            if (masterNode.IsSlotConnected(HairMasterNode.BackLightingSlotId) && pass.PixelShaderUsesSlot(HairMasterNode.LightingSlotId))
            {
                activeFields.Add("BackLightingGI");
            }

            if (masterNode.depthOffset.isOn && pass.PixelShaderUsesSlot(HairMasterNode.DepthOffsetSlotId))
            {
                activeFields.Add("DepthOffset");
            }

            return(activeFields);
        }