using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Text.RegularExpressions; using UnityEditor.Graphing; namespace UnityEditor.ShaderGraph { /* [Serializable] [Title("Master/Lightweight/Fast Blinn")] public class LightweightFastBlinnMasterNode : AbstractMasterNode { public const string AlbedoSlotName = "Diffuse"; public const string SpecularSlotName = "Specular"; public const string ShininessSlotName = "Shininess"; public const string GlossinessSlotName = "Glossiness"; public const string NormalSlotName = "Normal"; public const string EmissionSlotName = "Emission"; public const string AlphaSlotName = "Alpha"; public const string VertexOffsetName = "VertexPosition"; public const int AlbedoSlotId = 0; public const int SpecularSlotId = 1; public const int ShininessSlotId = 3; public const int GlossinessSlotId = 4; public const int NormalSlotId = 5; public const int EmissionSlotId = 6; public const int AlphaSlotId = 7; public const int VertexOffsetId = 8; [SerializeField] private SurfaceMaterialOptions m_MaterialOptions = new SurfaceMaterialOptions(); public SurfaceMaterialOptions options { get { return m_MaterialOptions; } } public LightweightFastBlinnMasterNode() { name = "LightweightFastBlinnMasterNode"; UpdateNodeAfterDeserialization(); } public sealed override void UpdateNodeAfterDeserialization() { AddSlot(new MaterialSlot(VertexOffsetId, VertexOffsetName, VertexOffsetName, SlotType.Input, SlotValueType.Vector3, Vector4.zero, ShaderStage.Vertex)); AddSlot(new MaterialSlot(AlbedoSlotId, AlbedoSlotName, AlbedoSlotName, SlotType.Input, SlotValueType.Vector3, Vector4.zero, ShaderStage.Fragment)); AddSlot(new MaterialSlot(NormalSlotId, NormalSlotName, NormalSlotName, SlotType.Input, SlotValueType.Vector3, Vector4.zero, ShaderStage.Fragment)); AddSlot(new MaterialSlot(SpecularSlotId, SpecularSlotName, SpecularSlotName, SlotType.Input, SlotValueType.Vector3, Vector4.zero, ShaderStage.Fragment)); AddSlot(new MaterialSlot(ShininessSlotId, ShininessSlotName, ShininessSlotName, SlotType.Input, SlotValueType.Vector1, Vector4.zero, ShaderStage.Fragment)); AddSlot(new MaterialSlot(GlossinessSlotId, GlossinessSlotName, GlossinessSlotName, SlotType.Input, SlotValueType.Vector1, Vector4.zero, ShaderStage.Fragment)); AddSlot(new MaterialSlot(EmissionSlotId, EmissionSlotName, EmissionSlotName, SlotType.Input, SlotValueType.Vector3, Vector4.zero, ShaderStage.Fragment)); AddSlot(new MaterialSlot(AlphaSlotId, AlphaSlotName, AlphaSlotName, SlotType.Input, SlotValueType.Vector1, Vector4.zero, ShaderStage.Fragment)); // clear out slot names that do not match the slots // we support RemoveSlotsNameNotMatching( new[] { AlbedoSlotId, NormalSlotId, EmissionSlotId, SpecularSlotId, ShininessSlotId, GlossinessSlotId, AlphaSlotId, VertexOffsetId }); } protected int[] surfaceInputs { get { return new[] { AlbedoSlotId, NormalSlotId, EmissionSlotId, SpecularSlotId, ShininessSlotId, GlossinessSlotId, AlphaSlotId, }; } } protected int[] vertexInputs { get { return new[] { VertexOffsetId }; } } void GenerateNodeFunctionsAndPropertyUsages( ShaderGenerator shaderBody, ShaderGenerator propertyUsages, ShaderGenerator nodeFunction, GenerationMode mode, int[] validNodeIds) { var activeNodeList = new List(); NodeUtils.DepthFirstCollectNodesFromNode(activeNodeList, this, NodeUtils.IncludeSelf.Include, new List(validNodeIds)); foreach (var node in activeNodeList.OfType()) { if (node is IGeneratesFunction) (node as IGeneratesFunction).GenerateNodeFunction(nodeFunction, mode); node.GeneratePropertyUsages(propertyUsages, mode); } var nodes = ListPool.Get(); //Get the rest of the nodes for all the other slots NodeUtils.DepthFirstCollectNodesFromNode(nodes, this, NodeUtils.IncludeSelf.Exclude, new List(vertexInputs)); for (var i = 0; i < nodes.Count; i++) { var node = nodes[i]; if (node is IGeneratesBodyCode) (node as IGeneratesBodyCode).GenerateNodeCode(shaderBody, mode); } ListPool.Release(nodes); } void GenerateVertexShaderInternal( ShaderGenerator propertyUsages, ShaderGenerator shaderBody, ShaderGenerator nodeFunction, ShaderGenerator vertexShaderBlock, GenerationMode mode) { GenerateNodeFunctionsAndPropertyUsages(vertexShaderBlock, propertyUsages, nodeFunction, mode, vertexInputs); var slot = FindInputSlot(VertexOffsetId); foreach (var edge in owner.GetEdges(slot.slotReference)) { var outputRef = edge.outputSlot; var fromNode = owner.GetNodeFromGuid(outputRef.nodeGuid); if (fromNode == null) continue; var remapper = fromNode as INodeGroupRemapper; if (remapper != null && !remapper.IsValidSlotConnection(outputRef.slotId)) continue; vertexShaderBlock.AddShaderChunk("v.vertex.xyz += " + fromNode.GetVariableNameForSlot(outputRef.slotId) + ";", true); } } public override string GetSubShader(GenerationMode mode, PropertyGenerator shaderPropertiesVisitor) { var templateLocation = ShaderGenerator.GetTemplatePath("lightweightSubshaderFastBlinn.template"); if (!File.Exists(templateLocation)) return string.Empty; var activeNodeList = new List(); NodeUtils.DepthFirstCollectNodesFromNode(activeNodeList, this); foreach (var node in activeNodeList.OfType()) node.GeneratePropertyBlock(shaderPropertiesVisitor, mode); var templateText = File.ReadAllText(templateLocation); var shaderBodyVisitor = new ShaderGenerator(); var shaderFunctionVisitor = new ShaderGenerator(); var shaderPropertyUsagesVisitor = new ShaderGenerator(); var shaderInputVisitor = new ShaderGenerator(); var shaderOutputVisitor = new ShaderGenerator(); var vertexShaderBlock = new ShaderGenerator(); var definesVisitor = new ShaderGenerator(); GenerateSurfaceShaderInternal( shaderPropertyUsagesVisitor, shaderBodyVisitor, shaderFunctionVisitor, shaderInputVisitor, shaderOutputVisitor, vertexShaderBlock, definesVisitor, mode); GenerateVertexShaderInternal( shaderPropertyUsagesVisitor, shaderBodyVisitor, shaderFunctionVisitor, vertexShaderBlock, mode); var tagsVisitor = new ShaderGenerator(); var blendingVisitor = new ShaderGenerator(); var cullingVisitor = new ShaderGenerator(); var zTestVisitor = new ShaderGenerator(); var zWriteVisitor = new ShaderGenerator(); m_MaterialOptions.GetTags(tagsVisitor); m_MaterialOptions.GetBlend(blendingVisitor); m_MaterialOptions.GetCull(cullingVisitor); m_MaterialOptions.GetDepthTest(zTestVisitor); m_MaterialOptions.GetDepthWrite(zWriteVisitor); GetDefines(definesVisitor); var resultShader = templateText.Replace("${ShaderPropertyUsages}", shaderPropertyUsagesVisitor.GetShaderString(2)); resultShader = resultShader.Replace("${ShaderFunctions}", shaderFunctionVisitor.GetShaderString(2)); resultShader = resultShader.Replace("${VertexInputs}", shaderInputVisitor.GetShaderString(3)); resultShader = resultShader.Replace("${VertexOutputs}", shaderOutputVisitor.GetShaderString(3)); resultShader = resultShader.Replace("${PixelShaderBody}", shaderBodyVisitor.GetShaderString(3)); resultShader = resultShader.Replace("${Tags}", tagsVisitor.GetShaderString(2)); resultShader = resultShader.Replace("${Blending}", blendingVisitor.GetShaderString(2)); resultShader = resultShader.Replace("${Culling}", cullingVisitor.GetShaderString(2)); resultShader = resultShader.Replace("${ZTest}", zTestVisitor.GetShaderString(2)); resultShader = resultShader.Replace("${ZWrite}", zWriteVisitor.GetShaderString(2)); resultShader = resultShader.Replace("${LOD}", "" + m_MaterialOptions.lod); resultShader = resultShader.Replace("${Defines}", definesVisitor.GetShaderString(2)); resultShader = resultShader.Replace("${VertexShaderBody}", vertexShaderBlock.GetShaderString(3)); return resultShader; } public void GetDefines(ShaderGenerator visitor) { visitor.AddShaderChunk("#define _GLOSSYREFLECTIONS_ON", true); visitor.AddShaderChunk("#define _SPECULARHIGHLIGHTS_ON", true); } public override string GetFullShader(GenerationMode mode, string name, out List configuredTextures) { var templateLocation = ShaderGenerator.GetTemplatePath("shader.template"); if (!File.Exists(templateLocation)) { configuredTextures = new List(); return string.Empty; } var templateText = File.ReadAllText(templateLocation); var shaderPropertiesVisitor = new PropertyGenerator(); var resultShader = templateText.Replace("${ShaderName}", name); resultShader = resultShader.Replace("${SubShader}", GetSubShader(mode, shaderPropertiesVisitor)); resultShader = resultShader.Replace("${ShaderPropertiesHeader}", shaderPropertiesVisitor.GetShaderString(2)); configuredTextures = shaderPropertiesVisitor.GetConfiguredTexutres(); Debug.Log(resultShader); return Regex.Replace(resultShader, @"\r\n|\n\r|\n|\r", Environment.NewLine); } private void GenerateSurfaceShaderInternal( ShaderGenerator propertyUsages, ShaderGenerator shaderBody, ShaderGenerator nodeFunction, ShaderGenerator shaderInputVisitor, ShaderGenerator shaderOutputVisitor, ShaderGenerator vertexShaderBlock, ShaderGenerator definesVisitor, GenerationMode mode) { var activeNodeList = new List(); NodeUtils.DepthFirstCollectNodesFromNode(activeNodeList, this, NodeUtils.IncludeSelf.Include, new List(surfaceInputs)); foreach (var node in activeNodeList.OfType()) { if (node is IGeneratesFunction) { ((IGeneratesFunction)node).GenerateNodeFunction(nodeFunction, mode); } node.GeneratePropertyUsages(propertyUsages, mode); } int vertInputIndex = 2; int vertOutputIndex = 5; shaderInputVisitor.AddShaderChunk("half4 texcoord1 : TEXCOORD1;", true); bool requiresBitangent = activeNodeList.OfType().Any(x => x.RequiresBitangent()); bool requiresTangent = activeNodeList.OfType().Any(x => x.RequiresTangent()); bool requiresViewDirTangentSpace = activeNodeList.OfType().Any(x => x.RequiresViewDirectionTangentSpace()); bool requiresViewDir = activeNodeList.OfType().Any(x => x.RequiresViewDirection()); bool requiresWorldPos = activeNodeList.OfType().Any(x => x.RequiresWorldPosition()); bool requiresNormal = activeNodeList.OfType().Any(x => x.RequiresNormal()); bool requiresScreenPosition = activeNodeList.OfType().Any(x => x.RequiresScreenPosition()); bool requiresVertexColor = activeNodeList.OfType().Any(x => x.RequiresVertexColor()); foreach (var slot in GetInputSlots()) { if (surfaceInputs.Contains(slot.id)) { foreach (var edge in owner.GetEdges(slot.slotReference)) { var outputRef = edge.outputSlot; var fromNode = owner.GetNodeFromGuid(outputRef.nodeGuid); if (fromNode == null) continue; var remapper = fromNode as INodeGroupRemapper; if (remapper != null && !remapper.IsValidSlotConnection(outputRef.slotId)) continue; if (slot.id == NormalSlotId) { requiresBitangent = true; requiresTangent = true; definesVisitor.AddShaderChunk("#define _NORMALMAP 1", true); } } } } for (int uvIndex = 0; uvIndex < ShaderGeneratorNames.UVCount; ++uvIndex) { var channel = (UVChannel)uvIndex; if (activeNodeList.OfType().Any(x => x.RequiresMeshUV(channel))) { if(uvIndex != 0) { shaderInputVisitor.AddShaderChunk(string.Format("half4 texcoord{0} : TEXCOORD{1};", uvIndex, vertInputIndex), true); shaderOutputVisitor.AddShaderChunk(string.Format("half4 meshUV{0} : TEXCOORD{1};", uvIndex, vertOutputIndex), true); vertexShaderBlock.AddShaderChunk(string.Format("o.meshUV{0} = v.texcoord{1};", uvIndex, uvIndex), true); vertInputIndex++; vertOutputIndex++; } shaderBody.AddShaderChunk(string.Format("half4 {0} = i.meshUV{1};", channel.GetUVName(), uvIndex), true); } } if (requiresViewDir || requiresViewDirTangentSpace) { shaderBody.AddShaderChunk("float3 " + ShaderGeneratorNames.WorldSpaceViewDirection + " = i.viewDir;", true); } if (requiresWorldPos) { shaderBody.AddShaderChunk("float3 " + ShaderGeneratorNames.WorldSpacePosition + " = i.posWS;", true); } if (requiresScreenPosition) { shaderOutputVisitor.AddShaderChunk(string.Format("half4 screenPos : TEXCOORD{0};", vertOutputIndex), true); vertexShaderBlock.AddShaderChunk("o.screenPos = ComputeScreenPos(v.vertex);", true); shaderBody.AddShaderChunk("float4 " + ShaderGeneratorNames.ScreenPosition + " = i.screenPos;", true); vertOutputIndex++; } if (requiresBitangent || requiresTangent || requiresViewDirTangentSpace) { shaderOutputVisitor.AddShaderChunk(string.Format("half3 tangent : TEXCOORD{0}; \\", vertOutputIndex), true); vertexShaderBlock.AddShaderChunk("o.tangent = normalize(UnityObjectToWorldDir(v.tangent)); \\", true); shaderBody.AddShaderChunk("float3 " + ShaderGeneratorNames.WorldSpaceTangent + " = normalize(i.tangent.xyz);", true); vertOutputIndex++; } if (requiresBitangent || requiresNormal || requiresViewDirTangentSpace) { shaderBody.AddShaderChunk("float3 " + ShaderGeneratorNames.WorldSpaceNormal + " = normalize(i.normal);", true); } if (requiresBitangent || requiresViewDirTangentSpace) { shaderOutputVisitor.AddShaderChunk(string.Format("half3 binormal : TEXCOORD{0};", vertOutputIndex), true); vertexShaderBlock.AddShaderChunk("o.binormal = cross(o.normal, o.tangent) * v.tangent.w;", true); shaderBody.AddShaderChunk("float3 " + ShaderGeneratorNames.WorldSpaceBitangent + " = i.binormal;", true); vertOutputIndex++; } if (requiresViewDirTangentSpace) { shaderBody.AddShaderChunk( "float3 " + ShaderGeneratorNames.TangentSpaceViewDirection + ";", true); shaderBody.AddShaderChunk( ShaderGeneratorNames.TangentSpaceViewDirection + ".x = dot(" + ShaderGeneratorNames.WorldSpaceViewDirection + "," + ShaderGeneratorNames.WorldSpaceTangent + ");", true); shaderBody.AddShaderChunk( ShaderGeneratorNames.TangentSpaceViewDirection + ".y = dot(" + ShaderGeneratorNames.WorldSpaceViewDirection + "," + ShaderGeneratorNames.WorldSpaceBitangent + ");", true); shaderBody.AddShaderChunk( ShaderGeneratorNames.TangentSpaceViewDirection + ".z = dot(" + ShaderGeneratorNames.WorldSpaceViewDirection + "," + ShaderGeneratorNames.WorldSpaceNormal + ");", true); } if (requiresVertexColor) { shaderOutputVisitor.AddShaderChunk(string.Format("half4 color : TEXCOORD{0};", vertOutputIndex), true); shaderBody.AddShaderChunk("float4 " + ShaderGeneratorNames.VertexColor + " = i.color;", true); vertInputIndex++; vertOutputIndex++; } GenerateNodeCode(shaderBody, propertyUsages, mode); } public void GenerateNodeCode(ShaderGenerator shaderBody, ShaderGenerator propertyUsages, GenerationMode generationMode) { var nodes = ListPool.Get(); //Get the rest of the nodes for all the other slots NodeUtils.DepthFirstCollectNodesFromNode(nodes, this, NodeUtils.IncludeSelf.Exclude, new List(surfaceInputs)); for (var i = 0; i < nodes.Count; i++) { var node = nodes[i]; if (node is IGeneratesBodyCode) (node as IGeneratesBodyCode).GenerateNodeCode(shaderBody, generationMode); } ListPool.Release(nodes); foreach (var slot in GetInputSlots()) { if (surfaceInputs.Contains(slot.id)) { foreach (var edge in owner.GetEdges(slot.slotReference)) { var outputRef = edge.outputSlot; var fromNode = owner.GetNodeFromGuid(outputRef.nodeGuid); if (fromNode == null) continue; var remapper = fromNode as INodeGroupRemapper; if (remapper != null && !remapper.IsValidSlotConnection(outputRef.slotId)) continue; shaderBody.AddShaderChunk("o." + slot.shaderOutputName + " = " + fromNode.GetVariableNameForSlot(outputRef.slotId) + ";", true); if (slot.id == NormalSlotId) shaderBody.AddShaderChunk("o." + slot.shaderOutputName + " += 1e-6;", true); if (slot.id == AlphaSlotId) propertyUsages.AddShaderChunk("#define _ALPHAPREMULTIPLY_ON", true); } } } } }*/ }