using System; using System.Collections.Generic; #if UNITY_EDITOR using UnityEditor; #endif using UnityEngine.Graphing; namespace UnityEngine.MaterialGraph { [Title("Sub-graph/Sub-graph Node")] public class SubGraphNode : AbstractMaterialNode , IGeneratesBodyCode , IGeneratesFunction , IGeneratesVertexShaderBlock , IGeneratesVertexToFragmentBlock , IOnAssetEnabled { [SerializeField] private string m_SerializedSubGraph = string.Empty; [Serializable] private class SubGraphHelper { public MaterialSubGraphAsset subGraph; } #if UNITY_EDITOR public MaterialSubGraphAsset subGraphAsset { get { if (string.IsNullOrEmpty(m_SerializedSubGraph)) return null; var helper = new SubGraphHelper(); EditorJsonUtility.FromJsonOverwrite(m_SerializedSubGraph, helper); return helper.subGraph; } set { var helper = new SubGraphHelper(); helper.subGraph = value; m_SerializedSubGraph = EditorJsonUtility.ToJson(helper, true); OnEnable(); } } /* // SAVED FOR LATER if (serializedVersion(path); m_SerializedSubGraph = EditorJsonUtility.ToJson(helper, true); serializedVersion = kCurrentSerializedVersion; m_SubGraphAssetGuid = string.Empty; mark dirty damn }*/ #else public MaterialSubGraphAsset subGraphAsset {get; set; } #endif private SubGraph subGraph { get { if (subGraphAsset == null) return null; return subGraphAsset.subGraph; } } public override bool hasPreview { get { return subGraphAsset != null; } } public override PreviewMode previewMode { get { if (subGraphAsset == null) return PreviewMode.Preview2D; return PreviewMode.Preview3D; } } public SubGraphNode() { name = "SubGraph"; } public void OnEnable() { var validNames = new List(); if (subGraphAsset == null) { RemoveSlotsNameNotMatching(validNames); return; } var subGraphInputNode = subGraphAsset.subGraph.inputNode; foreach (var slot in subGraphInputNode.GetOutputSlots()) { AddSlot(new MaterialSlot(slot.id, slot.displayName, slot.shaderOutputName, SlotType.Input, slot.valueType, slot.defaultValue)); validNames.Add(slot.id); } var subGraphOutputNode = subGraphAsset.subGraph.outputNode; foreach (var slot in subGraphOutputNode.GetInputSlots()) { AddSlot(new MaterialSlot(slot.id, slot.displayName, slot.shaderOutputName, SlotType.Output, slot.valueType, slot.defaultValue)); validNames.Add(slot.id); } RemoveSlotsNameNotMatching(validNames); } public void GenerateNodeCode(ShaderGenerator shaderBodyVisitor, GenerationMode generationMode) { if (subGraphAsset == null) return; var outputString = new ShaderGenerator(); outputString.AddShaderChunk("// Subgraph for node " + GetVariableNameForNode(), false); // Step 1... // find out which output slots are actually used //TODO: Be smarter about this and only output ones that are actually USED, not just connected //var validOutputSlots = NodeUtils.GetSlotsThatOutputToNodeRecurse(this, (graph as BaseMaterialGraph).masterNode); foreach (var slot in GetOutputSlots()) { var outDimension = ConvertConcreteSlotValueTypeToString(slot.concreteValueType); outputString.AddShaderChunk( "float" + outDimension + " " + GetVariableNameForSlot(slot.id) + " = 0;", false); } // Step 2... // Go into the subgraph outputString.AddShaderChunk("{", false); outputString.Indent(); // Step 3... // For each input that is used and connects through we want to generate code. // First we assign the input variables to the subgraph var subGraphInputNode = subGraphAsset.subGraph.inputNode; foreach (var slot in GetInputSlots()) { var varName = subGraphInputNode.GetVariableNameForSlot(slot.id); var varValue = GetSlotValue(slot.id, GenerationMode.SurfaceShader); var outDimension = ConvertConcreteSlotValueTypeToString(slot.concreteValueType); outputString.AddShaderChunk( "float" + outDimension + " " + varName + " = " + varValue + ";", false); } // Step 4... // Using the inputs we can now generate the shader body :) var bodyGenerator = new ShaderGenerator(); subGraph.GenerateNodeCode(bodyGenerator, GenerationMode.SurfaceShader); var subGraphOutputNode = subGraphAsset.subGraph.outputNode; outputString.AddShaderChunk(bodyGenerator.GetShaderString(0), false); // Step 5... // Copy the outputs to the parent context name); foreach (var slot in GetOutputSlots()) { var inputValue = subGraphOutputNode.GetSlotValue(slot.id, GenerationMode.SurfaceShader); outputString.AddShaderChunk( GetVariableNameForSlot(slot.id) + " = " + inputValue + ";", false); } outputString.Deindent(); outputString.AddShaderChunk("}", false); outputString.AddShaderChunk("// Subgraph ends", false); shaderBodyVisitor.AddShaderChunk(outputString.GetShaderString(0), true); } public override void GeneratePropertyBlock(PropertyGenerator visitor, GenerationMode generationMode) { base.GeneratePropertyBlock(visitor, generationMode); if (subGraph == null) return; subGraph.GeneratePropertyBlock(visitor, GenerationMode.SurfaceShader); } public override void GeneratePropertyUsages(ShaderGenerator visitor, GenerationMode generationMode) { base.GeneratePropertyUsages(visitor, generationMode); if (subGraph == null) return; subGraph.GeneratePropertyUsages(visitor, GenerationMode.SurfaceShader); } public override void CollectPreviewMaterialProperties(List properties) { base.CollectPreviewMaterialProperties(properties); if (subGraph == null) return; properties.AddRange(subGraph.GetPreviewProperties()); } public void GenerateNodeFunction(ShaderGenerator visitor, GenerationMode generationMode) { if (subGraph == null) return; subGraph.GenerateNodeFunction(visitor, GenerationMode.SurfaceShader); } public void GenerateVertexShaderBlock(ShaderGenerator visitor, GenerationMode generationMode) { if (subGraph == null) return; subGraph.GenerateVertexShaderBlock(visitor, GenerationMode.SurfaceShader); } public void GenerateVertexToFragmentBlock(ShaderGenerator visitor, GenerationMode generationMode) { if (subGraph == null) return; subGraph.GenerateVertexToFragmentBlock(visitor, GenerationMode.SurfaceShader); } } }