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386 行
14 KiB
386 行
14 KiB
using System;
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using System.Collections.Generic;
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using System.Linq;
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using UnityEngine.Graphing;
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namespace UnityEngine.MaterialGraph
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{
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[Serializable]
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public abstract class AbstractMaterialNode : SerializableNode, IGenerateProperties
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{
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public enum OutputPrecision
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{
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@fixed,
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@half,
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@float
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}
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[NonSerialized]
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private bool m_HasError;
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public OutputPrecision precision
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{
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get { return m_OutputPrecision; }
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set { m_OutputPrecision = value; }
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}
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//[SerializeField]
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private OutputPrecision m_OutputPrecision = OutputPrecision.@float;
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// Nodes that want to have a preview area can override this and return true
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public virtual bool hasPreview
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{
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get { return false; }
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}
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public virtual PreviewMode previewMode
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{
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get { return PreviewMode.Preview2D; }
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}
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public virtual bool allowedInSubGraph
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{
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get { return true; }
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}
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public virtual bool allowedInRemapGraph
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{
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get { return true; }
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}
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protected virtual bool generateDefaultInputs
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{
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get { return true; }
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}
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public override bool hasError
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{
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get { return m_HasError; }
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protected set { m_HasError = value; }
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}
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protected AbstractMaterialNode()
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{
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version = 0;
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}
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public virtual void GeneratePropertyBlock(PropertyGenerator visitor, GenerationMode generationMode)
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{}
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public virtual void GeneratePropertyUsages(ShaderGenerator visitor, GenerationMode generationMode)
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{
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if (!generateDefaultInputs)
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return;
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if (!generationMode.IsPreview())
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return;
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foreach (var inputSlot in GetInputSlots<MaterialSlot>())
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{
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var edges = owner.GetEdges(inputSlot.slotReference);
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if (edges.Any())
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continue;
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inputSlot.GeneratePropertyUsages(visitor, generationMode);
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}
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}
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public string GetSlotValue(int inputSlotId, GenerationMode generationMode)
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{
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var inputSlot = FindSlot<MaterialSlot>(inputSlotId);
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if (inputSlot == null)
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return string.Empty;
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var edges = owner.GetEdges(inputSlot.slotReference).ToArray();
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if (edges.Any())
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{
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var fromSocketRef = edges[0].outputSlot;
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var fromNode = owner.GetNodeFromGuid<AbstractMaterialNode>(fromSocketRef.nodeGuid);
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if (fromNode == null)
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return string.Empty;
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var slot = fromNode.FindOutputSlot<MaterialSlot>(fromSocketRef.slotId);
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if (slot == null)
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return string.Empty;
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return ShaderGenerator.AdaptNodeOutput(fromNode, slot.id, slot.concreteValueType);
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}
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return inputSlot.GetDefaultValue(generationMode);
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}
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private ConcreteSlotValueType FindCommonChannelType(ConcreteSlotValueType from, ConcreteSlotValueType to)
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{
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if (ImplicitConversionExists(from, to))
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return to;
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return ConcreteSlotValueType.Error;
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}
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private static ConcreteSlotValueType ToConcreteType(SlotValueType svt)
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{
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switch (svt)
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{
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case SlotValueType.Vector1:
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return ConcreteSlotValueType.Vector1;
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case SlotValueType.Vector2:
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return ConcreteSlotValueType.Vector2;
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case SlotValueType.Vector3:
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return ConcreteSlotValueType.Vector3;
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case SlotValueType.Vector4:
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return ConcreteSlotValueType.Vector4;
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case SlotValueType.sampler2D:
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return ConcreteSlotValueType.sampler2D;
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}
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return ConcreteSlotValueType.Error;
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}
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private static bool ImplicitConversionExists(ConcreteSlotValueType from, ConcreteSlotValueType to)
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{
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return from >= to || from == ConcreteSlotValueType.Vector1;
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}
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private ConcreteSlotValueType ConvertDynamicInputTypeToConcrete(IEnumerable<ConcreteSlotValueType> inputTypes)
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{
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var concreteSlotValueTypes = inputTypes as IList<ConcreteSlotValueType> ?? inputTypes.ToList();
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if (concreteSlotValueTypes.Any(x => x == ConcreteSlotValueType.Error))
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return ConcreteSlotValueType.Error;
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var inputTypesDistinct = concreteSlotValueTypes.Distinct().ToList();
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switch (inputTypesDistinct.Count)
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{
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case 0:
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return ConcreteSlotValueType.Vector1;
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case 1:
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return inputTypesDistinct.FirstOrDefault();
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default:
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// find the 'minumum' channel width excluding 1 as it can promote
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inputTypesDistinct.RemoveAll(x => x == ConcreteSlotValueType.Vector1);
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var ordered = inputTypesDistinct.OrderBy(x => x);
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if (ordered.Any())
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return ordered.FirstOrDefault();
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break;
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}
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return ConcreteSlotValueType.Error;
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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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foreach (var inputSlot in GetInputSlots<MaterialSlot>())
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{
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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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var dynamicInputSlotsToCompare = new Dictionary<MaterialSlot, ConcreteSlotValueType>();
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var skippedDynamicSlots = new List<MaterialSlot>();
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// iterate the input slots
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foreach (var inputSlot in GetInputSlots<MaterialSlot>())
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{
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var inputType = inputSlot.valueType;
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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 (inputType != SlotValueType.Dynamic)
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inputSlot.concreteValueType = ToConcreteType(inputType);
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else
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skippedDynamicSlots.Add(inputSlot);
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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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var outputConcreteType = outputSlot.concreteValueType;
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// if we have a standard connection... just check the types work!
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if (inputType != SlotValueType.Dynamic)
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{
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var inputConcreteType = ToConcreteType(inputType);
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inputSlot.concreteValueType = FindCommonChannelType(outputConcreteType, inputConcreteType);
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continue;
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}
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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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dynamicInputSlotsToCompare.Add(inputSlot, outputConcreteType);
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}
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// we can now figure out the dynamic slotType
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// from here set all the
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var dynamicType = ConvertDynamicInputTypeToConcrete(dynamicInputSlotsToCompare.Values);
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foreach (var dynamicKvP in dynamicInputSlotsToCompare)
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dynamicKvP.Key.concreteValueType = dynamicType;
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foreach (var skippedSlot in skippedDynamicSlots)
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skippedSlot.concreteValueType = dynamicType;
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var inputError = GetInputSlots<MaterialSlot>().Any(x => x.concreteValueType == ConcreteSlotValueType.Error);
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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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foreach (var outputSlot in GetOutputSlots<MaterialSlot>())
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{
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if (inputError)
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{
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outputSlot.concreteValueType = ConcreteSlotValueType.Error;
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continue;
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}
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if (outputSlot.valueType == SlotValueType.Dynamic)
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{
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outputSlot.concreteValueType = dynamicType;
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continue;
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}
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outputSlot.concreteValueType = ToConcreteType(outputSlot.valueType);
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}
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isInError |= inputError;
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isInError |= GetOutputSlots<MaterialSlot>().Any(x => x.concreteValueType == ConcreteSlotValueType.Error);
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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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}
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public int version { get; private set; }
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//True if error
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protected virtual bool CalculateNodeHasError()
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{
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return false;
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}
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public static string ConvertConcreteSlotValueTypeToString(ConcreteSlotValueType slotValue)
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{
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switch (slotValue)
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{
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case ConcreteSlotValueType.Vector1:
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return string.Empty;
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case ConcreteSlotValueType.Vector2:
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return "2";
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case ConcreteSlotValueType.Vector3:
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return "3";
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case ConcreteSlotValueType.Vector4:
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return "4";
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case ConcreteSlotValueType.sampler2D:
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return "5";
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default:
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return "Error";
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}
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}
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public static PropertyType ConvertConcreteSlotValueTypeToPropertyType(ConcreteSlotValueType slotValue)
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{
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switch (slotValue)
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{
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case ConcreteSlotValueType.sampler2D:
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return PropertyType.Texture2D;
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case ConcreteSlotValueType.Vector1:
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return PropertyType.Float;
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case ConcreteSlotValueType.Vector2:
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return PropertyType.Vector2;
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case ConcreteSlotValueType.Vector3:
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return PropertyType.Vector3;
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case ConcreteSlotValueType.Vector4:
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return PropertyType.Vector4;
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default:
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return PropertyType.Vector4;
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}
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}
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/*
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public virtual bool DrawSlotDefaultInput(Rect rect, MaterialSlot inputSlot)
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{
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var inputSlotType = inputSlot.concreteValueType;
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return inputSlot.OnGUI(rect, inputSlotType);
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}
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*/
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public virtual void CollectPreviewMaterialProperties(List<PreviewProperty> properties)
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{
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var validSlots = GetInputSlots<MaterialSlot>().ToArray();
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for (var index = 0; index < validSlots.Length; index++)
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{
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var s = validSlots[index];
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var edges = owner.GetEdges(s.slotReference);
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if (edges.Any())
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continue;
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var pp = new PreviewProperty
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{
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m_Name = GetVariableNameForSlot(s.id),
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m_PropType = ConvertConcreteSlotValueTypeToPropertyType(s.concreteValueType),
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m_Vector4 = s.currentValue,
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m_Float = s.currentValue.x,
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m_Color = s.currentValue
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};
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properties.Add(pp);
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}
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}
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public virtual string GetVariableNameForSlot(int slotId)
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{
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var slot = FindSlot<MaterialSlot>(slotId);
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if (slot == null)
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throw new ArgumentException(string.Format("Attempting to use MaterialSlot({0}) on node of type {1} where this slot can not be found", slotId, this), "slotId");
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return GetVariableNameForNode() + "_" + slot.shaderOutputName;
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}
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public virtual string GetVariableNameForNode()
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{
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return name + "_" + guid.ToString().Replace("-", "_");
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}
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public sealed override void AddSlot(ISlot slot)
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{
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if (!(slot is MaterialSlot))
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throw new ArgumentException(string.Format("Trying to add slot {0} to Material node {1}, but it is not a {2}", slot, this, typeof(MaterialSlot)));
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var addingSlot = (MaterialSlot)slot;
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var foundSlot = FindSlot<MaterialSlot>(slot.id);
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// this will remove the old slot and add a new one
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// if an old one was found. This allows updating values
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base.AddSlot(slot);
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if (foundSlot == null)
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return;
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// preserve the old current value.
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addingSlot.currentValue = foundSlot.currentValue;
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}
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}
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}
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