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385 行
16 KiB
385 行
16 KiB
//using System.Reflection;
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using System;
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using System.Collections.Generic;
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using UnityEditor.Graphing;
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using UnityEngine;
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using System.Linq;
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namespace UnityEditor.ShaderGraph
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{
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[Title("Math", "Basic", "Multiply")]
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public class MultiplyNode : AbstractMaterialNode, IGeneratesBodyCode, IGeneratesFunction
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{
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public MultiplyNode()
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{
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name = "Multiply";
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UpdateNodeAfterDeserialization();
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}
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public override string documentationURL
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{
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get { return "https://github.com/Unity-Technologies/ShaderGraph/wiki/Multiply-Node"; }
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}
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const int Input1SlotId = 0;
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const int Input2SlotId = 1;
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const int OutputSlotId = 2;
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const string kInput1SlotName = "A";
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const string kInput2SlotName = "B";
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const string kOutputSlotName = "Out";
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public enum MultiplyType
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{
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Vector,
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Matrix,
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Mixed
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}
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MultiplyType m_MultiplyType;
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public override bool hasPreview
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{
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get { return m_MultiplyType != MultiplyType.Matrix; }
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}
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string GetFunctionHeader()
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{
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return string.Format("Unity_Multiply_{0}", precision);
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}
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public sealed override void UpdateNodeAfterDeserialization()
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{
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AddSlot(new DynamicValueMaterialSlot(Input1SlotId, kInput1SlotName, kInput1SlotName, SlotType.Input, Matrix4x4.zero));
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AddSlot(new DynamicValueMaterialSlot(Input2SlotId, kInput2SlotName, kInput2SlotName, SlotType.Input, new Matrix4x4(new Vector4(2,2,2,2), Vector4.zero, Vector4.zero, Vector4.zero)));
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AddSlot(new DynamicValueMaterialSlot(OutputSlotId, kOutputSlotName, kOutputSlotName, SlotType.Output, Matrix4x4.zero));
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RemoveSlotsNameNotMatching(new[] { Input1SlotId, Input2SlotId, OutputSlotId });
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}
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public void GenerateNodeCode(ShaderGenerator visitor, GenerationMode generationMode)
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{
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var sb = new ShaderStringBuilder();
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var input1Value = GetSlotValue(Input1SlotId, generationMode);
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var input2Value = GetSlotValue(Input2SlotId, generationMode);
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var outputValue = GetSlotValue(OutputSlotId, generationMode);
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sb.AppendLine("{0} {1};", NodeUtils.ConvertConcreteSlotValueTypeToString(precision, FindOutputSlot<MaterialSlot>(OutputSlotId).concreteValueType), GetVariableNameForSlot(OutputSlotId));
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sb.AppendLine("{0}({1}, {2}, {3});", GetFunctionHeader(), input1Value, input2Value, outputValue);
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visitor.AddShaderChunk(sb.ToString(), false);
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}
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string GetFunctionName()
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{
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return string.Format("{0}_{1}_{2}",
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GetFunctionHeader(),
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FindInputSlot<MaterialSlot>(Input1SlotId).concreteValueType.ToString(precision),
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FindInputSlot<MaterialSlot>(Input2SlotId).concreteValueType.ToString(precision));
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}
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public void GenerateNodeFunction(FunctionRegistry registry, GenerationMode generationMode)
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{
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registry.ProvideFunction(GetFunctionName(), s =>
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{
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s.AppendLine("void {0} ({1} A, {2} B, out {3} Out)",
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GetFunctionHeader(),
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FindInputSlot<MaterialSlot>(Input1SlotId).concreteValueType.ToString(precision),
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FindInputSlot<MaterialSlot>(Input2SlotId).concreteValueType.ToString(precision),
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FindOutputSlot<MaterialSlot>(OutputSlotId).concreteValueType.ToString(precision));
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using (s.BlockScope())
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{
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switch(m_MultiplyType)
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{
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case MultiplyType.Vector:
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s.AppendLine("Out = A * B;");
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break;
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default:
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s.AppendLine("Out = mul(A, B);");
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break;
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}
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}
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});
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}
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// Internal validation
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// -------------------------------------------------
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public override void ValidateNode()
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{
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var isInError = false;
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// all children nodes needs to be updated first
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// so do that here
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var slots = ListPool<MaterialSlot>.Get();
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GetInputSlots(slots);
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foreach (var inputSlot in slots)
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{
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inputSlot.hasError = false;
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var edges = owner.GetEdges(inputSlot.slotReference);
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foreach (var edge in edges)
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{
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var fromSocketRef = edge.outputSlot;
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var outputNode = owner.GetNodeFromGuid(fromSocketRef.nodeGuid);
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if (outputNode == null)
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continue;
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outputNode.ValidateNode();
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if (outputNode.hasError)
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isInError = true;
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}
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}
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ListPool<MaterialSlot>.Release(slots);
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var dynamicInputSlotsToCompare = DictionaryPool<DynamicValueMaterialSlot, ConcreteSlotValueType>.Get();
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var skippedDynamicSlots = ListPool<DynamicValueMaterialSlot>.Get();
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// iterate the input slots
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s_TempSlots.Clear();
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GetInputSlots(s_TempSlots);
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foreach (var inputSlot in s_TempSlots)
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{
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// if there is a connection
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var edges = owner.GetEdges(inputSlot.slotReference).ToList();
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if (!edges.Any())
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{
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if (inputSlot is DynamicValueMaterialSlot)
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skippedDynamicSlots.Add(inputSlot as DynamicValueMaterialSlot);
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continue;
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}
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// get the output details
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var outputSlotRef = edges[0].outputSlot;
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var outputNode = owner.GetNodeFromGuid(outputSlotRef.nodeGuid);
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if (outputNode == null)
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continue;
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var outputSlot = outputNode.FindOutputSlot<MaterialSlot>(outputSlotRef.slotId);
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if (outputSlot == null)
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continue;
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if (outputSlot.hasError)
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{
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inputSlot.hasError = true;
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continue;
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}
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var outputConcreteType = outputSlot.concreteValueType;
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// dynamic input... depends on output from other node.
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// we need to compare ALL dynamic inputs to make sure they
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// are compatable.
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if (inputSlot is DynamicValueMaterialSlot)
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{
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dynamicInputSlotsToCompare.Add((DynamicValueMaterialSlot)inputSlot, outputConcreteType);
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continue;
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}
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// if we have a standard connection... just check the types work!
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if (!ImplicitConversionExists(outputConcreteType, inputSlot.concreteValueType))
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inputSlot.hasError = true;
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}
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m_MultiplyType = GetMultiplyType(dynamicInputSlotsToCompare.Values);
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// Resolve dynamics depending on matrix/vector configuration
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switch(m_MultiplyType)
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{
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// If all matrix resolve as per dynamic matrix
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case MultiplyType.Matrix:
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var dynamicMatrixType = ConvertDynamicMatrixInputTypeToConcrete(dynamicInputSlotsToCompare.Values);
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foreach (var dynamicKvP in dynamicInputSlotsToCompare)
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dynamicKvP.Key.SetConcreteType(dynamicMatrixType);
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foreach (var skippedSlot in skippedDynamicSlots)
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skippedSlot.SetConcreteType(dynamicMatrixType);
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break;
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// If mixed handle differently:
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// Iterate all slots and set their concretes based on their edges
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// Find matrix slot and convert its type to a vector type
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// Reiterate all slots and set non matrix slots to the vector type
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case MultiplyType.Mixed:
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foreach (var dynamicKvP in dynamicInputSlotsToCompare)
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{
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SetConcreteValueTypeFromEdge(dynamicKvP.Key);
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}
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MaterialSlot matrixSlot = GetMatrixSlot();
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ConcreteSlotValueType vectorType = SlotValueHelper.ConvertMatrixToVectorType(matrixSlot.concreteValueType);
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foreach (var dynamicKvP in dynamicInputSlotsToCompare)
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{
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if(dynamicKvP.Key != matrixSlot)
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dynamicKvP.Key.SetConcreteType(vectorType);
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}
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foreach (var skippedSlot in skippedDynamicSlots)
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{
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skippedSlot.SetConcreteType(vectorType);
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}
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break;
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// If all vector resolve as per dynamic vector
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default:
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var dynamicVectorType = ConvertDynamicInputTypeToConcrete(dynamicInputSlotsToCompare.Values);
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foreach (var dynamicKvP in dynamicInputSlotsToCompare)
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dynamicKvP.Key.SetConcreteType(dynamicVectorType);
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foreach (var skippedSlot in skippedDynamicSlots)
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skippedSlot.SetConcreteType(dynamicVectorType);
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break;
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}
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s_TempSlots.Clear();
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GetInputSlots(s_TempSlots);
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var inputError = s_TempSlots.Any(x => x.hasError);
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// configure the output slots now
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// their slotType will either be the default output slotType
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// or the above dynanic slotType for dynamic nodes
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// or error if there is an input error
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s_TempSlots.Clear();
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GetOutputSlots(s_TempSlots);
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foreach (var outputSlot in s_TempSlots)
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{
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outputSlot.hasError = false;
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if (inputError)
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{
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outputSlot.hasError = true;
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continue;
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}
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if (outputSlot is DynamicValueMaterialSlot)
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{
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// Apply similar logic to output slot
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switch(m_MultiplyType)
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{
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// As per dynamic matrix
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case MultiplyType.Matrix:
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var dynamicMatrixType = ConvertDynamicMatrixInputTypeToConcrete(dynamicInputSlotsToCompare.Values);
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(outputSlot as DynamicValueMaterialSlot).SetConcreteType(dynamicMatrixType);
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break;
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// Mixed configuration
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// Find matrix slot and convert type to vector
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// Set output concrete to vector
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case MultiplyType.Mixed:
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MaterialSlot matrixSlot = GetMatrixSlot();
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ConcreteSlotValueType vectorType = SlotValueHelper.ConvertMatrixToVectorType(matrixSlot.concreteValueType);
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(outputSlot as DynamicValueMaterialSlot).SetConcreteType(vectorType);
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break;
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// As per dynamic vector
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default:
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var dynamicVectorType = ConvertDynamicInputTypeToConcrete(dynamicInputSlotsToCompare.Values);
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(outputSlot as DynamicValueMaterialSlot).SetConcreteType(dynamicVectorType);
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break;
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}
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continue;
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}
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}
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isInError |= inputError;
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s_TempSlots.Clear();
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GetOutputSlots(s_TempSlots);
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isInError |= s_TempSlots.Any(x => x.hasError);
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isInError |= CalculateNodeHasError();
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hasError = isInError;
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if (!hasError)
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{
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++version;
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}
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ListPool<DynamicValueMaterialSlot>.Release(skippedDynamicSlots);
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DictionaryPool<DynamicValueMaterialSlot, ConcreteSlotValueType>.Release(dynamicInputSlotsToCompare);
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}
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protected override bool CalculateNodeHasError()
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{
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if(m_MultiplyType == MultiplyType.Matrix)
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{
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foreach (var slot in this.GetOutputSlots<ISlot>())
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{
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foreach (var edge in owner.GetEdges(slot.slotReference))
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{
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var inputNode = owner.GetNodeFromGuid(edge.inputSlot.nodeGuid);
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List<MaterialSlot> slots = new List<MaterialSlot>();
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inputNode.GetInputSlots(slots);
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foreach(var s in slots)
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{
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foreach(var inputEdge in inputNode.owner.GetEdges(s.slotReference))
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{
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if(inputEdge == edge)
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{
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if(s as DynamicValueMaterialSlot == null)
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{
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if(s.concreteValueType != ConcreteSlotValueType.Matrix4
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&& s.concreteValueType != ConcreteSlotValueType.Matrix3
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&& s.concreteValueType != ConcreteSlotValueType.Matrix2)
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{
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Debug.Log("ERROR: slot "+s.displayName+" cannot accept a Matrix type input");
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return true;
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}
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}
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}
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}
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}
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}
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}
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}
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return false;
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}
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private MultiplyType GetMultiplyType(IEnumerable<ConcreteSlotValueType> inputTypes)
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{
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var concreteSlotValueTypes = inputTypes as List<ConcreteSlotValueType> ?? inputTypes.ToList();
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int matrixCount = 0;
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int vectorCount = 0;
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for (int i = 0; i < concreteSlotValueTypes.Count; i++)
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{
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if(concreteSlotValueTypes[i] == ConcreteSlotValueType.Vector4
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|| concreteSlotValueTypes[i] == ConcreteSlotValueType.Vector3
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|| concreteSlotValueTypes[i] == ConcreteSlotValueType.Vector2
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|| concreteSlotValueTypes[i] == ConcreteSlotValueType.Vector1)
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{
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vectorCount++;
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}
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else if(concreteSlotValueTypes[i] == ConcreteSlotValueType.Matrix4
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|| concreteSlotValueTypes[i] == ConcreteSlotValueType.Matrix3
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|| concreteSlotValueTypes[i] == ConcreteSlotValueType.Matrix2)
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{
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matrixCount++;
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}
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}
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if(matrixCount == 2)
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return MultiplyType.Matrix;
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else if(vectorCount == 2)
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return MultiplyType.Vector;
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else if(matrixCount == 1)
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return MultiplyType.Mixed;
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else
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return MultiplyType.Vector;
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}
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private MaterialSlot GetMatrixSlot()
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{
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List<MaterialSlot> slots = new List<MaterialSlot>();
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GetInputSlots(slots);
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for (int i = 0; i < slots.Count; i++)
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{
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var edges = owner.GetEdges(slots[i].slotReference).ToList();
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if(!edges.Any())
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continue;
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var outputNode = owner.GetNodeFromGuid(edges[0].outputSlot.nodeGuid);
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var outputSlot = outputNode.FindOutputSlot<MaterialSlot>(edges[0].outputSlot.slotId);
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if(outputSlot.concreteValueType == ConcreteSlotValueType.Matrix4
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|| outputSlot.concreteValueType == ConcreteSlotValueType.Matrix3
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|| outputSlot.concreteValueType == ConcreteSlotValueType.Matrix2)
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return slots[i];
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}
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return null;
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}
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private void SetConcreteValueTypeFromEdge(DynamicValueMaterialSlot slot)
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{
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var edges = owner.GetEdges(slot.slotReference).ToList();
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if(!edges.Any())
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return;
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var outputNode = owner.GetNodeFromGuid(edges[0].outputSlot.nodeGuid);
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var outputSlot = outputNode.FindOutputSlot<MaterialSlot>(edges[0].outputSlot.slotId);
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slot.SetConcreteType(outputSlot.concreteValueType);
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}
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}
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}
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