using System; using System.Collections.Generic; using System.Globalization; using UnityEditor.Graphing; using UnityEditor.ShaderGraph.Drawing.Controls; using UnityEngine; namespace UnityEditor.ShaderGraph { public enum DielectricMaterialType { Common, RustedMetal, Water, Ice, Glass, Custom }; [Title("Input", "PBR", "Dielectric Specular")] public class DielectricSpecularNode : AbstractMaterialNode, IGeneratesBodyCode { public DielectricSpecularNode() { name = "Dielectric Specular"; UpdateNodeAfterDeserialization(); } public override string documentationURL { get { return "https://github.com/Unity-Technologies/ShaderGraph/wiki/Dielectric-Specular-Node"; } } [SerializeField] DielectricMaterial m_Material = new DielectricMaterial(DielectricMaterialType.Common, 0.5f, 1.0f); [Serializable] public struct DielectricMaterial { public DielectricMaterialType type; public float range; public float indexOfRefraction; public DielectricMaterial(DielectricMaterialType type, float range, float indexOfRefraction) { this.type = type; this.range = range; this.indexOfRefraction = indexOfRefraction; } } [DielectricSpecularControl()] public DielectricMaterial material { get { return m_Material; } set { if ((value.type == m_Material.type) && (value.range == m_Material.range) && (value.indexOfRefraction == m_Material.indexOfRefraction)) return; DielectricMaterialType previousType = m_Material.type; m_Material = value; if(value.type != previousType) Dirty(ModificationScope.Graph); else Dirty(ModificationScope.Node); } } static Dictionary m_MaterialList = new Dictionary { {DielectricMaterialType.RustedMetal, "(0.030, 0.030, 0.030)"}, {DielectricMaterialType.Water, "(0.020, 0.020, 0.020)"}, {DielectricMaterialType.Ice, "(0.018, 0.018, 0.018)"}, {DielectricMaterialType.Glass, "(0.040, 0.040, 0.040)"} }; private const int kOutputSlotId = 0; private const string kOutputSlotName = "Out"; public override bool hasPreview { get { return true; } } public override PreviewMode previewMode { get { return PreviewMode.Preview2D; } } public sealed override void UpdateNodeAfterDeserialization() { AddSlot(new Vector3MaterialSlot(kOutputSlotId, kOutputSlotName, kOutputSlotName, SlotType.Output, Vector3.zero)); RemoveSlotsNameNotMatching(new[] { kOutputSlotId }); } public void GenerateNodeCode(ShaderGenerator visitor, GenerationMode generationMode) { var sb = new ShaderStringBuilder(); if (!generationMode.IsPreview()) { switch (material.type) { case DielectricMaterialType.Custom: sb.AppendLine("{0} _{1}_IOR = {2};", precision, GetVariableNameForNode(), material.indexOfRefraction); break; case DielectricMaterialType.Common: sb.AppendLine("{0} _{1}_Range = {2};", precision, GetVariableNameForNode(), material.range); break; default: break; } } switch (material.type) { case DielectricMaterialType.Common: sb.AppendLine("{0}3 {1} = lerp(0.034, 0.048, _{2}_Range);", precision, GetVariableNameForSlot(kOutputSlotId), GetVariableNameForNode()); break; case DielectricMaterialType.Custom: sb.AppendLine("{0}3 {1} = pow(_{2}_IOR - 1, 2) / pow(_{2}_IOR + 1, 2);", precision, GetVariableNameForSlot(kOutputSlotId), GetVariableNameForNode()); break; default: sb.AppendLine("{0}3 {1} = {0}3{2};", precision, GetVariableNameForSlot(kOutputSlotId), m_MaterialList[material.type].ToString(CultureInfo.InvariantCulture)); break; } visitor.AddShaderChunk(sb.ToString(), false); } public override void CollectPreviewMaterialProperties(List properties) { base.CollectPreviewMaterialProperties(properties); if(material.type == DielectricMaterialType.Common) { properties.Add(new PreviewProperty(PropertyType.Vector1) { name = string.Format("_{0}_Range", GetVariableNameForNode()), floatValue = material.range }); } else if (material.type == DielectricMaterialType.Custom) { properties.Add(new PreviewProperty(PropertyType.Vector1) { name = string.Format("_{0}_IOR", GetVariableNameForNode()), floatValue = material.indexOfRefraction }); } } public override void CollectShaderProperties(PropertyCollector properties, GenerationMode generationMode) { if (!generationMode.IsPreview()) return; base.CollectShaderProperties(properties, generationMode); if (material.type == DielectricMaterialType.Common) { properties.AddShaderProperty(new Vector1ShaderProperty() { overrideReferenceName = string.Format("_{0}_Range", GetVariableNameForNode()), generatePropertyBlock = false }); } else if (material.type == DielectricMaterialType.Custom) { properties.AddShaderProperty(new Vector1ShaderProperty() { overrideReferenceName = string.Format("_{0}_IOR", GetVariableNameForNode()), generatePropertyBlock = false }); } } } }