using System; using System.Linq; using System.Collections.Generic; using UnityEngine; using UnityEditor.Graphing; using UnityEditor.ShaderGraph.Internal; using UnityEditor.ShaderGraph.Serialization; namespace UnityEditor.ShaderGraph { [Serializable] [Title("Input", "Property")] class PropertyNode : AbstractMaterialNode, IGeneratesBodyCode, IOnAssetEnabled { public PropertyNode() { name = "Property"; UpdateNodeAfterDeserialization(); } public override void UpdateNodeAfterDeserialization() { base.UpdateNodeAfterDeserialization(); if (owner == null) return; if (property is Vector1ShaderProperty vector1ShaderProperty && vector1ShaderProperty.floatType == FloatType.Slider) { // Previously, the Slider vector1 property allowed the min value to be greater than the max // We no longer want to support that behavior so if such a property is encountered, swap the values if (vector1ShaderProperty.rangeValues.x > vector1ShaderProperty.rangeValues.y) { vector1ShaderProperty.rangeValues = new Vector2(vector1ShaderProperty.rangeValues.y, vector1ShaderProperty.rangeValues.x); Dirty(ModificationScope.Graph); } } } [SerializeField] JsonRef m_Property; public AbstractShaderProperty property { get { return m_Property; } set { if (m_Property == value) return; m_Property = value; // Set callback association for display name updates m_Property.value.displayNameUpdateTrigger += UpdateNodeDisplayName; AddOutputSlot(); Dirty(ModificationScope.Topological); } } // this node's precision is always controlled by the property precision public override bool canSetPrecision => false; public void UpdateNodeDisplayName(string newDisplayName) { MaterialSlot foundSlot = FindSlot(OutputSlotId); if (foundSlot != null) foundSlot.displayName = newDisplayName; } public void OnEnable() { AddOutputSlot(); } public const int OutputSlotId = 0; void AddOutputSlot() { if (property is MultiJsonInternal.UnknownShaderPropertyType uspt) { // keep existing slots, don't modify them return; } switch (property.concreteShaderValueType) { case ConcreteSlotValueType.Boolean: AddSlot(new BooleanMaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output, false)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Vector1: AddSlot(new Vector1MaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output, 0)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Vector2: AddSlot(new Vector2MaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output, Vector4.zero)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Vector3: AddSlot(new Vector3MaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output, Vector4.zero)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Vector4: AddSlot(new Vector4MaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output, Vector4.zero)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Matrix2: AddSlot(new Matrix2MaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Matrix3: AddSlot(new Matrix3MaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Matrix4: AddSlot(new Matrix4MaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Texture2D: AddSlot(new Texture2DMaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Texture2DArray: AddSlot(new Texture2DArrayMaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Texture3D: AddSlot(new Texture3DMaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Cubemap: AddSlot(new CubemapMaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.SamplerState: AddSlot(new SamplerStateMaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.Gradient: AddSlot(new GradientMaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; case ConcreteSlotValueType.VirtualTexture: AddSlot(new VirtualTextureMaterialSlot(OutputSlotId, property.displayName, "Out", SlotType.Output)); RemoveSlotsNameNotMatching(new[] { OutputSlotId }); break; default: throw new ArgumentOutOfRangeException(); } } public void GenerateNodeCode(ShaderStringBuilder sb, GenerationMode mode) { // preview is always generating a full shader, even when previewing within a subgraph bool isGeneratingSubgraph = owner.isSubGraph && (mode != GenerationMode.Preview); switch (property.propertyType) { case PropertyType.Boolean: sb.AppendLine($"$precision {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Float: sb.AppendLine($"$precision {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Vector2: sb.AppendLine($"$precision2 {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Vector3: sb.AppendLine($"$precision3 {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Vector4: sb.AppendLine($"$precision4 {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Color: switch (property.sgVersion) { case 0: case 2: sb.AppendLine($"$precision4 {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case 1: case 3: //Exposed color properties get put into the correct space automagikally by Unity UNLESS tagged as HDR, then they just get passed in as is. //for consistency with other places in the editor, we assume HDR colors are in linear space, and correct for gamma space here if ((property as ColorShaderProperty).colorMode == ColorMode.HDR) { sb.AppendLine($"$precision4 {GetVariableNameForSlot(OutputSlotId)} = IsGammaSpace() ? LinearToSRGB({property.GetHLSLVariableName(isGeneratingSubgraph, mode)}) : {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); } else { sb.AppendLine($"$precision4 {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); } break; default: throw new Exception($"Unknown Color Property Version on property {property.displayName}"); } break; case PropertyType.Matrix2: sb.AppendLine($"$precision2x2 {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Matrix3: sb.AppendLine($"$precision3x3 {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Matrix4: sb.AppendLine($"$precision4x4 {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Texture2D: sb.AppendLine($"UnityTexture2D {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Texture3D: sb.AppendLine($"UnityTexture3D {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Texture2DArray: sb.AppendLine($"UnityTexture2DArray {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Cubemap: sb.AppendLine($"UnityTextureCube {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.SamplerState: sb.AppendLine($"UnitySamplerState {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; case PropertyType.Gradient: if (mode == GenerationMode.Preview) sb.AppendLine($"Gradient {GetVariableNameForSlot(OutputSlotId)} = {GradientUtil.GetGradientForPreview(property.GetHLSLVariableName(isGeneratingSubgraph, mode))};"); else sb.AppendLine($"Gradient {GetVariableNameForSlot(OutputSlotId)} = {property.GetHLSLVariableName(isGeneratingSubgraph, mode)};"); break; } if (property.isConnectionTestable) { // If in a subgraph, the value will be read from a function parameter. // If generating preview mode code, we always inline the value, according to code gen requirements. // The parent graph always sets the explicit value to be passed to a subgraph function. sb.AppendLine("bool {0} = {1};", GetConnectionStateVariableNameForSlot(OutputSlotId), (mode == GenerationMode.Preview || !isGeneratingSubgraph) ? (IsSlotConnected(OutputSlotId) ? "true" : "false") : property.GetConnectionStateHLSLVariableName()); } } public override string GetVariableNameForSlot(int slotId) { // TODO: we should switch VirtualTexture away from the macro-based variables and towards using the same approach as Texture2D switch (property.propertyType) { case PropertyType.VirtualTexture: return property.GetHLSLVariableName(owner.isSubGraph, GenerationMode.ForReals); } return base.GetVariableNameForSlot(slotId); } public string GetConnectionStateVariableNameForSlot(int slotId) { return ShaderInput.GetConnectionStateVariableName(GetVariableNameForSlot(slotId)); } protected override void CalculateNodeHasError() { if (property == null || !owner.properties.Any(x => x == property)) { owner.AddConcretizationError(objectId, "Property Node has no associated Blackboard property."); } else if (property is MultiJsonInternal.UnknownShaderPropertyType) { owner.AddValidationError(objectId, "Property is of unknown type, a package may be missing.", Rendering.ShaderCompilerMessageSeverity.Warning); } } public override void UpdatePrecision(List inputSlots) { // Get precision from Property if (property == null) { owner.AddConcretizationError(objectId, string.Format("No matching poperty found on owner for node {0}", objectId)); hasError = true; return; } // this node's precision is always controlled by the property precision precision = property.precision; graphPrecision = precision.ToGraphPrecision(GraphPrecision.Graph); concretePrecision = graphPrecision.ToConcrete(owner.graphDefaultConcretePrecision); } } }