public static bool GenerateShaderPass(AbstractMaterialNode masterNode, ShaderPass pass, GenerationMode mode, ActiveFields activeFields, ShaderGenerator result, List <string> sourceAssetDependencyPaths, List <Dependency[]> dependencies, string resourceClassName, string assemblyName) { // -------------------------------------------------- // Debug // Get scripting symbols BuildTargetGroup buildTargetGroup = EditorUserBuildSettings.selectedBuildTargetGroup; string defines = PlayerSettings.GetScriptingDefineSymbolsForGroup(buildTargetGroup); bool isDebug = defines.Contains(kDebugSymbol); // -------------------------------------------------- // Setup // Initiailize Collectors var propertyCollector = new PropertyCollector(); var keywordCollector = new KeywordCollector(); masterNode.owner.CollectShaderKeywords(keywordCollector, mode); // Get upstream nodes from ShaderPass port mask List <AbstractMaterialNode> vertexNodes; List <AbstractMaterialNode> pixelNodes; GetUpstreamNodesForShaderPass(masterNode, pass, out vertexNodes, out pixelNodes); // Track permutation indices for all nodes List <int>[] vertexNodePermutations = new List <int> [vertexNodes.Count]; List <int>[] pixelNodePermutations = new List <int> [pixelNodes.Count]; // Get active fields from upstream Node requirements ShaderGraphRequirementsPerKeyword graphRequirements; GetActiveFieldsAndPermutationsForNodes(masterNode, pass, keywordCollector, vertexNodes, pixelNodes, vertexNodePermutations, pixelNodePermutations, activeFields, out graphRequirements); // GET CUSTOM ACTIVE FIELDS HERE! // Get active fields from ShaderPass AddRequiredFields(pass.requiredAttributes, activeFields.baseInstance); AddRequiredFields(pass.requiredVaryings, activeFields.baseInstance); // Get Port references from ShaderPass var pixelSlots = FindMaterialSlotsOnNode(pass.pixelPorts, masterNode); var vertexSlots = FindMaterialSlotsOnNode(pass.vertexPorts, masterNode); // Function Registry var functionBuilder = new ShaderStringBuilder(); var functionRegistry = new FunctionRegistry(functionBuilder); // Hash table of named $splice(name) commands // Key: splice token // Value: string to splice Dictionary <string, string> spliceCommands = new Dictionary <string, string>(); // -------------------------------------------------- // Dependencies // Propagate active field requirements using dependencies // Must be executed before types are built foreach (var instance in activeFields.all.instances) { ShaderSpliceUtil.ApplyDependencies(instance, dependencies); } // -------------------------------------------------- // Pass Setup // Name if (!string.IsNullOrEmpty(pass.displayName)) { spliceCommands.Add("PassName", $"Name \"{pass.displayName}\""); } else { spliceCommands.Add("PassName", "// Name: <None>"); } // Tags if (!string.IsNullOrEmpty(pass.lightMode)) { spliceCommands.Add("LightMode", $"\"LightMode\" = \"{pass.lightMode}\""); } else { spliceCommands.Add("LightMode", "// LightMode: <None>"); } // Render state BuildRenderStatesFromPass(pass, ref spliceCommands); // -------------------------------------------------- // Pass Code // Pragmas using (var passPragmaBuilder = new ShaderStringBuilder()) { if (pass.pragmas != null) { foreach (string pragma in pass.pragmas) { passPragmaBuilder.AppendLine($"#pragma {pragma}"); } } if (passPragmaBuilder.length == 0) { passPragmaBuilder.AppendLine("// PassPragmas: <None>"); } spliceCommands.Add("PassPragmas", passPragmaBuilder.ToCodeBlack()); } // Includes using (var passIncludeBuilder = new ShaderStringBuilder()) { if (pass.includes != null) { foreach (string include in pass.includes) { passIncludeBuilder.AppendLine($"#include \"{include}\""); } } if (passIncludeBuilder.length == 0) { passIncludeBuilder.AppendLine("// PassIncludes: <None>"); } spliceCommands.Add("PassIncludes", passIncludeBuilder.ToCodeBlack()); } // Keywords using (var passKeywordBuilder = new ShaderStringBuilder()) { if (pass.keywords != null) { foreach (KeywordDescriptor keyword in pass.keywords) { passKeywordBuilder.AppendLine(keyword.ToDeclarationString()); } } if (passKeywordBuilder.length == 0) { passKeywordBuilder.AppendLine("// PassKeywords: <None>"); } spliceCommands.Add("PassKeywords", passKeywordBuilder.ToCodeBlack()); } // -------------------------------------------------- // Graph Vertex var vertexBuilder = new ShaderStringBuilder(); // If vertex modification enabled if (activeFields.baseInstance.Contains("features.graphVertex")) { // Setup string vertexGraphInputName = "VertexDescriptionInputs"; string vertexGraphOutputName = "VertexDescription"; string vertexGraphFunctionName = "VertexDescriptionFunction"; var vertexGraphInputGenerator = new ShaderGenerator(); var vertexGraphFunctionBuilder = new ShaderStringBuilder(); var vertexGraphOutputBuilder = new ShaderStringBuilder(); // Build vertex graph inputs ShaderSpliceUtil.BuildType(GetTypeForStruct("VertexDescriptionInputs", resourceClassName, assemblyName), activeFields, vertexGraphInputGenerator, isDebug); // Build vertex graph outputs // Add struct fields to active fields SubShaderGenerator.GenerateVertexDescriptionStruct(vertexGraphOutputBuilder, vertexSlots, vertexGraphOutputName, activeFields.baseInstance); // Build vertex graph functions from ShaderPass vertex port mask SubShaderGenerator.GenerateVertexDescriptionFunction( masterNode.owner as GraphData, vertexGraphFunctionBuilder, functionRegistry, propertyCollector, keywordCollector, mode, masterNode, vertexNodes, vertexNodePermutations, vertexSlots, vertexGraphInputName, vertexGraphFunctionName, vertexGraphOutputName); // Generate final shader strings vertexBuilder.AppendLines(vertexGraphInputGenerator.GetShaderString(0, false)); vertexBuilder.AppendNewLine(); vertexBuilder.AppendLines(vertexGraphOutputBuilder.ToString()); vertexBuilder.AppendNewLine(); vertexBuilder.AppendLines(vertexGraphFunctionBuilder.ToString()); } // Add to splice commands if (vertexBuilder.length == 0) { vertexBuilder.AppendLine("// GraphVertex: <None>"); } spliceCommands.Add("GraphVertex", vertexBuilder.ToCodeBlack()); // -------------------------------------------------- // Graph Pixel // Setup string pixelGraphInputName = "SurfaceDescriptionInputs"; string pixelGraphOutputName = "SurfaceDescription"; string pixelGraphFunctionName = "SurfaceDescriptionFunction"; var pixelGraphInputGenerator = new ShaderGenerator(); var pixelGraphOutputBuilder = new ShaderStringBuilder(); var pixelGraphFunctionBuilder = new ShaderStringBuilder(); // Build pixel graph inputs ShaderSpliceUtil.BuildType(GetTypeForStruct("SurfaceDescriptionInputs", resourceClassName, assemblyName), activeFields, pixelGraphInputGenerator, isDebug); // Build pixel graph outputs // Add struct fields to active fields SubShaderGenerator.GenerateSurfaceDescriptionStruct(pixelGraphOutputBuilder, pixelSlots, pixelGraphOutputName, activeFields.baseInstance); // Build pixel graph functions from ShaderPass pixel port mask SubShaderGenerator.GenerateSurfaceDescriptionFunction( pixelNodes, pixelNodePermutations, masterNode, masterNode.owner as GraphData, pixelGraphFunctionBuilder, functionRegistry, propertyCollector, keywordCollector, mode, pixelGraphFunctionName, pixelGraphOutputName, null, pixelSlots, pixelGraphInputName); using (var pixelBuilder = new ShaderStringBuilder()) { // Generate final shader strings pixelBuilder.AppendLines(pixelGraphInputGenerator.GetShaderString(0, false)); pixelBuilder.AppendNewLine(); pixelBuilder.AppendLines(pixelGraphOutputBuilder.ToString()); pixelBuilder.AppendNewLine(); pixelBuilder.AppendLines(pixelGraphFunctionBuilder.ToString()); // Add to splice commands if (pixelBuilder.length == 0) { pixelBuilder.AppendLine("// GraphPixel: <None>"); } spliceCommands.Add("GraphPixel", pixelBuilder.ToCodeBlack()); } // -------------------------------------------------- // Graph Functions if (functionBuilder.length == 0) { functionBuilder.AppendLine("// GraphFunctions: <None>"); } spliceCommands.Add("GraphFunctions", functionBuilder.ToCodeBlack()); // -------------------------------------------------- // Graph Keywords using (var keywordBuilder = new ShaderStringBuilder()) { keywordCollector.GetKeywordsDeclaration(keywordBuilder, mode); if (keywordBuilder.length == 0) { keywordBuilder.AppendLine("// GraphKeywords: <None>"); } spliceCommands.Add("GraphKeywords", keywordBuilder.ToCodeBlack()); } // -------------------------------------------------- // Graph Properties using (var propertyBuilder = new ShaderStringBuilder()) { propertyCollector.GetPropertiesDeclaration(propertyBuilder, mode, masterNode.owner.concretePrecision); if (propertyBuilder.length == 0) { propertyBuilder.AppendLine("// GraphProperties: <None>"); } spliceCommands.Add("GraphProperties", propertyBuilder.ToCodeBlack()); } // -------------------------------------------------- // Graph Defines using (var graphDefines = new ShaderStringBuilder()) { graphDefines.AppendLine("#define {0}", pass.referenceName); if (graphRequirements.permutationCount > 0) { List <int> activePermutationIndices; // Depth Texture activePermutationIndices = graphRequirements.allPermutations.instances .Where(p => p.requirements.requiresDepthTexture) .Select(p => p.permutationIndex) .ToList(); if (activePermutationIndices.Count > 0) { graphDefines.AppendLine(KeywordUtil.GetKeywordPermutationSetConditional(activePermutationIndices)); graphDefines.AppendLine("#define REQUIRE_DEPTH_TEXTURE"); graphDefines.AppendLine("#endif"); } // Opaque Texture activePermutationIndices = graphRequirements.allPermutations.instances .Where(p => p.requirements.requiresCameraOpaqueTexture) .Select(p => p.permutationIndex) .ToList(); if (activePermutationIndices.Count > 0) { graphDefines.AppendLine(KeywordUtil.GetKeywordPermutationSetConditional(activePermutationIndices)); graphDefines.AppendLine("#define REQUIRE_OPAQUE_TEXTURE"); graphDefines.AppendLine("#endif"); } } else { // Depth Texture if (graphRequirements.baseInstance.requirements.requiresDepthTexture) { graphDefines.AppendLine("#define REQUIRE_DEPTH_TEXTURE"); } // Opaque Texture if (graphRequirements.baseInstance.requirements.requiresCameraOpaqueTexture) { graphDefines.AppendLine("#define REQUIRE_OPAQUE_TEXTURE"); } } // Add to splice commands spliceCommands.Add("GraphDefines", graphDefines.ToCodeBlack()); } // -------------------------------------------------- // Main // Main include is expected to contain vert/frag definitions for the pass // This must be defined after all graph code using (var mainBuilder = new ShaderStringBuilder()) { mainBuilder.AppendLine($"#include \"{pass.varyingsInclude}\""); mainBuilder.AppendLine($"#include \"{pass.passInclude}\""); // Add to splice commands spliceCommands.Add("MainInclude", mainBuilder.ToCodeBlack()); } // -------------------------------------------------- // Debug // Debug output all active fields using (var debugBuilder = new ShaderStringBuilder()) { if (isDebug) { // Active fields debugBuilder.AppendLine("// ACTIVE FIELDS:"); foreach (string field in activeFields.baseInstance.fields) { debugBuilder.AppendLine("// " + field); } } if (debugBuilder.length == 0) { debugBuilder.AppendLine("// <None>"); } // Add to splice commands spliceCommands.Add("Debug", debugBuilder.ToCodeBlack()); } // -------------------------------------------------- // Finalize // Get Template string templateLocation = GetTemplatePath("PassMesh.template"); if (!File.Exists(templateLocation)) { return(false); } // Get Template preprocessor string templatePath = "Assets/com.unity.render-pipelines.universal/Editor/ShaderGraph/Templates"; var templatePreprocessor = new ShaderSpliceUtil.TemplatePreprocessor(activeFields, spliceCommands, isDebug, templatePath, sourceAssetDependencyPaths, assemblyName, resourceClassName); // Process Template templatePreprocessor.ProcessTemplateFile(templateLocation); result.AddShaderChunk(templatePreprocessor.GetShaderCode().ToString(), false); return(true); }
public static GenerationResults GetShader(this GraphData graph, AbstractMaterialNode node, GenerationMode mode, string name) { // ----------------------------------------------------- // // SETUP // // ----------------------------------------------------- // // ------------------------------------- // String builders var finalShader = new ShaderStringBuilder(); var results = new GenerationResults(); var shaderProperties = new PropertyCollector(); var shaderKeywords = new KeywordCollector(); var shaderPropertyUniforms = new ShaderStringBuilder(); var shaderKeywordDeclarations = new ShaderStringBuilder(); var shaderKeywordPermutations = new ShaderStringBuilder(1); var functionBuilder = new ShaderStringBuilder(); var functionRegistry = new FunctionRegistry(functionBuilder); var vertexDescriptionFunction = new ShaderStringBuilder(0); var surfaceDescriptionInputStruct = new ShaderStringBuilder(0); var surfaceDescriptionStruct = new ShaderStringBuilder(0); var surfaceDescriptionFunction = new ShaderStringBuilder(0); var vertexInputs = new ShaderStringBuilder(0); graph.CollectShaderKeywords(shaderKeywords, mode); if (graph.GetKeywordPermutationCount() > ShaderGraphPreferences.variantLimit) { graph.AddValidationError(node.tempId, ShaderKeyword.kVariantLimitWarning, Rendering.ShaderCompilerMessageSeverity.Error); results.configuredTextures = shaderProperties.GetConfiguredTexutres(); results.shader = string.Empty; return(results); } // ------------------------------------- // Get Slot and Node lists var activeNodeList = ListPool <AbstractMaterialNode> .Get(); NodeUtils.DepthFirstCollectNodesFromNode(activeNodeList, node); var slots = new List <MaterialSlot>(); if (node is IMasterNode || node is SubGraphOutputNode) { slots.AddRange(node.GetInputSlots <MaterialSlot>()); } else { var outputSlots = node.GetOutputSlots <MaterialSlot>().ToList(); if (outputSlots.Count > 0) { slots.Add(outputSlots[0]); } } // ------------------------------------- // Get Requirements var requirements = ShaderGraphRequirements.FromNodes(activeNodeList, ShaderStageCapability.Fragment); // ----------------------------------------------------- // // KEYWORDS // // ----------------------------------------------------- // // ------------------------------------- // Get keyword permutations graph.CollectShaderKeywords(shaderKeywords, mode); // Track permutation indicies for all nodes and requirements List <int>[] keywordPermutationsPerNode = new List <int> [activeNodeList.Count]; // ------------------------------------- // Evaluate all permutations for (int i = 0; i < shaderKeywords.permutations.Count; i++) { // Get active nodes for this permutation var localNodes = ListPool <AbstractMaterialNode> .Get(); NodeUtils.DepthFirstCollectNodesFromNode(localNodes, node, keywordPermutation: shaderKeywords.permutations[i]); // Track each pixel node in this permutation foreach (AbstractMaterialNode pixelNode in localNodes) { int nodeIndex = activeNodeList.IndexOf(pixelNode); if (keywordPermutationsPerNode[nodeIndex] == null) { keywordPermutationsPerNode[nodeIndex] = new List <int>(); } keywordPermutationsPerNode[nodeIndex].Add(i); } // Get active requirements for this permutation var localSurfaceRequirements = ShaderGraphRequirements.FromNodes(localNodes, ShaderStageCapability.Fragment, false); var localPixelRequirements = ShaderGraphRequirements.FromNodes(localNodes, ShaderStageCapability.Fragment); } // ----------------------------------------------------- // // START VERTEX DESCRIPTION // // ----------------------------------------------------- // // ------------------------------------- // Generate Vertex Description function vertexDescriptionFunction.AppendLine("GraphVertexInput PopulateVertexData(GraphVertexInput v)"); using (vertexDescriptionFunction.BlockScope()) { vertexDescriptionFunction.AppendLine("return v;"); } // ----------------------------------------------------- // // START SURFACE DESCRIPTION // // ----------------------------------------------------- // // ------------------------------------- // Generate Input structure for Surface Description function // Surface Description Input requirements are needed to exclude intermediate translation spaces GenerateSurfaceInputStruct(surfaceDescriptionInputStruct, requirements, "SurfaceDescriptionInputs"); results.previewMode = PreviewMode.Preview2D; foreach (var pNode in activeNodeList) { if (pNode.previewMode == PreviewMode.Preview3D) { results.previewMode = PreviewMode.Preview3D; break; } } // ------------------------------------- // Generate Output structure for Surface Description function GenerateSurfaceDescriptionStruct(surfaceDescriptionStruct, slots, useIdsInNames: !(node is IMasterNode)); // ------------------------------------- // Generate Surface Description function GenerateSurfaceDescriptionFunction( activeNodeList, keywordPermutationsPerNode, node, graph, surfaceDescriptionFunction, functionRegistry, shaderProperties, shaderKeywords, mode, outputIdProperty: results.outputIdProperty); // ----------------------------------------------------- // // GENERATE VERTEX > PIXEL PIPELINE // // ----------------------------------------------------- // // ------------------------------------- // Keyword declarations shaderKeywords.GetKeywordsDeclaration(shaderKeywordDeclarations, mode); // ------------------------------------- // Property uniforms shaderProperties.GetPropertiesDeclaration(shaderPropertyUniforms, mode, graph.concretePrecision); // ------------------------------------- // Generate Input structure for Vertex shader GenerateApplicationVertexInputs(requirements, vertexInputs); // ----------------------------------------------------- // // FINALIZE // // ----------------------------------------------------- // // ------------------------------------- // Build final shader finalShader.AppendLine(@"Shader ""{0}""", name); using (finalShader.BlockScope()) { SubShaderGenerator.GeneratePropertiesBlock(finalShader, shaderProperties, shaderKeywords, mode); finalShader.AppendNewLine(); finalShader.AppendLine(@"HLSLINCLUDE"); finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/Common.hlsl"""); finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/Packing.hlsl"""); finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/NormalSurfaceGradient.hlsl"""); finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/Color.hlsl"""); finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/UnityInstancing.hlsl"""); finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.render-pipelines.core/ShaderLibrary/EntityLighting.hlsl"""); finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.shadergraph/ShaderGraphLibrary/ShaderVariables.hlsl"""); finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.shadergraph/ShaderGraphLibrary/ShaderVariablesFunctions.hlsl"""); finalShader.AppendLine(@"#include ""Assets/Scripts/URP/com.unity.shadergraph/ShaderGraphLibrary/Functions.hlsl"""); finalShader.AppendLines(shaderKeywordDeclarations.ToString()); finalShader.AppendLine(@"#define SHADERGRAPH_PREVIEW 1"); finalShader.AppendNewLine(); finalShader.AppendLines(shaderKeywordPermutations.ToString()); finalShader.AppendLines(shaderPropertyUniforms.ToString()); finalShader.AppendNewLine(); finalShader.AppendLines(surfaceDescriptionInputStruct.ToString()); finalShader.AppendNewLine(); finalShader.Concat(functionBuilder); finalShader.AppendNewLine(); finalShader.AppendLines(surfaceDescriptionStruct.ToString()); finalShader.AppendNewLine(); finalShader.AppendLines(surfaceDescriptionFunction.ToString()); finalShader.AppendNewLine(); finalShader.AppendLines(vertexInputs.ToString()); finalShader.AppendNewLine(); finalShader.AppendLines(vertexDescriptionFunction.ToString()); finalShader.AppendNewLine(); finalShader.AppendLine(@"ENDHLSL"); finalShader.AppendLines(ShaderGenerator.GetPreviewSubShader(node, requirements)); ListPool <AbstractMaterialNode> .Release(activeNodeList); } // ------------------------------------- // Finalize results.configuredTextures = shaderProperties.GetConfiguredTexutres(); ShaderSourceMap sourceMap; results.shader = finalShader.ToString(out sourceMap); results.sourceMap = sourceMap; return(results); }
public void GenerateNodeCode(ShaderStringBuilder sb, GenerationMode generationMode) { if (asset == null || hasError) { var outputSlots = new List <MaterialSlot>(); GetOutputSlots(outputSlots); var outputPrecision = asset != null ? asset.outputPrecision : ConcretePrecision.Float; foreach (var slot in outputSlots) { sb.AppendLine($"{slot.concreteValueType.ToShaderString(outputPrecision)} {GetVariableNameForSlot(slot.id)} = {slot.GetDefaultValue(GenerationMode.ForReals)};"); } return; } var inputVariableName = $"_{GetVariableNameForNode()}"; SubShaderGenerator.GenerateSurfaceInputTransferCode(sb, asset.requirements, asset.inputStructName, inputVariableName); foreach (var outSlot in asset.outputs) { sb.AppendLine("{0} {1};", outSlot.concreteValueType.ToShaderString(asset.outputPrecision), GetVariableNameForSlot(outSlot.id)); } var arguments = new List <string>(); foreach (var prop in asset.inputs) { prop.ValidateConcretePrecision(asset.graphPrecision); var inSlotId = m_PropertyIds[m_PropertyGuids.IndexOf(prop.guid.ToString())]; switch (prop) { case Texture2DShaderProperty texture2DProp: arguments.Add(string.Format("TEXTURE2D_ARGS({0}, sampler{0}), {0}_TexelSize", GetSlotValue(inSlotId, generationMode, prop.concretePrecision))); break; case Texture2DArrayShaderProperty texture2DArrayProp: arguments.Add(string.Format("TEXTURE2D_ARRAY_ARGS({0}, sampler{0})", GetSlotValue(inSlotId, generationMode, prop.concretePrecision))); break; case Texture3DShaderProperty texture3DProp: arguments.Add(string.Format("TEXTURE3D_ARGS({0}, sampler{0})", GetSlotValue(inSlotId, generationMode, prop.concretePrecision))); break; case CubemapShaderProperty cubemapProp: arguments.Add(string.Format("TEXTURECUBE_ARGS({0}, sampler{0})", GetSlotValue(inSlotId, generationMode, prop.concretePrecision))); break; default: arguments.Add(string.Format("{0}", GetSlotValue(inSlotId, generationMode, prop.concretePrecision))); break; } } // pass surface inputs through arguments.Add(inputVariableName); foreach (var outSlot in asset.outputs) { arguments.Add(GetVariableNameForSlot(outSlot.id)); } sb.AppendLine("{0}({1});", asset.functionName, arguments.Aggregate((current, next) => string.Format("{0}, {1}", current, next))); }
static void ProcessSubGraph(SubGraphAsset asset, GraphData graph) { var registry = new FunctionRegistry(new ShaderStringBuilder(), true); registry.names.Clear(); asset.functions.Clear(); asset.nodeProperties.Clear(); asset.isValid = true; graph.OnEnable(); graph.messageManager.ClearAll(); graph.ValidateGraph(); var assetPath = AssetDatabase.GUIDToAssetPath(asset.assetGuid); asset.hlslName = NodeUtils.GetHLSLSafeName(Path.GetFileNameWithoutExtension(assetPath)); asset.inputStructName = $"Bindings_{asset.hlslName}_{asset.assetGuid}"; asset.functionName = $"SG_{asset.hlslName}_{asset.assetGuid}"; asset.path = graph.path; var outputNode = (SubGraphOutputNode)graph.outputNode; asset.outputs.Clear(); outputNode.GetInputSlots(asset.outputs); List <AbstractMaterialNode> nodes = new List <AbstractMaterialNode>(); NodeUtils.DepthFirstCollectNodesFromNode(nodes, outputNode); asset.effectiveShaderStage = ShaderStageCapability.All; foreach (var slot in asset.outputs) { var stage = NodeUtils.GetEffectiveShaderStageCapability(slot, true); if (stage != ShaderStageCapability.All) { asset.effectiveShaderStage = stage; break; } } asset.requirements = ShaderGraphRequirements.FromNodes(nodes, asset.effectiveShaderStage, false); asset.inputs = graph.properties.ToList(); asset.keywords = graph.keywords.ToList(); asset.graphPrecision = graph.concretePrecision; asset.outputPrecision = outputNode.concretePrecision; GatherFromGraph(assetPath, out var containsCircularDependency, out var descendents); asset.descendents.AddRange(descendents); var childrenSet = new HashSet <string>(); var anyErrors = false; foreach (var node in nodes) { if (node is SubGraphNode subGraphNode) { var subGraphGuid = subGraphNode.subGraphGuid; if (childrenSet.Add(subGraphGuid)) { asset.children.Add(subGraphGuid); } } if (node.hasError) { anyErrors = true; } } if (!anyErrors && containsCircularDependency) { Debug.LogError($"Error in Graph at {assetPath}: Sub Graph contains a circular dependency.", asset); anyErrors = true; } if (anyErrors) { asset.isValid = false; registry.ProvideFunction(asset.functionName, sb => { }); return; } foreach (var node in nodes) { if (node is IGeneratesFunction generatesFunction) { registry.builder.currentNode = node; generatesFunction.GenerateNodeFunction(registry, GenerationMode.ForReals); registry.builder.ReplaceInCurrentMapping(PrecisionUtil.Token, node.concretePrecision.ToShaderString()); } } registry.ProvideFunction(asset.functionName, sb => { SubShaderGenerator.GenerateSurfaceInputStruct(sb, asset.requirements, asset.inputStructName); sb.AppendNewLine(); // Generate arguments... first INPUTS var arguments = new List <string>(); foreach (var prop in asset.inputs) { prop.ValidateConcretePrecision(asset.graphPrecision); arguments.Add(string.Format("{0}", prop.GetPropertyAsArgumentString())); } // now pass surface inputs arguments.Add(string.Format("{0} IN", asset.inputStructName)); // Now generate outputs foreach (var output in asset.outputs) { arguments.Add($"out {output.concreteValueType.ToShaderString(asset.outputPrecision)} {output.shaderOutputName}_{output.id}"); } // Create the function prototype from the arguments sb.AppendLine("void {0}({1})" , asset.functionName , arguments.Aggregate((current, next) => $"{current}, {next}")); // now generate the function using (sb.BlockScope()) { // Just grab the body from the active nodes foreach (var node in nodes) { if (node is IGeneratesBodyCode generatesBodyCode) { sb.currentNode = node; generatesBodyCode.GenerateNodeCode(sb, GenerationMode.ForReals); sb.ReplaceInCurrentMapping(PrecisionUtil.Token, node.concretePrecision.ToShaderString()); } } foreach (var slot in asset.outputs) { sb.AppendLine($"{slot.shaderOutputName}_{slot.id} = {outputNode.GetSlotValue(slot.id, GenerationMode.ForReals, asset.outputPrecision)};"); } } }); asset.functions.AddRange(registry.names.Select(x => new FunctionPair(x, registry.sources[x].code))); var collector = new PropertyCollector(); asset.nodeProperties = collector.properties; foreach (var node in nodes) { node.CollectShaderProperties(collector, GenerationMode.ForReals); } asset.OnBeforeSerialize(); }