using UnityEngine.Graphing; using System.Collections.Generic; using System.Linq; namespace UnityEngine.MaterialGraph { /* [Title("UV/Tri-Planar Mapping")] public class UVTriPlanar : FunctionNInNOut, IGeneratesFunction, IMayRequireNormal, IMayRequireWorldPosition { private int slot0, slot1, slot2, slot3, slot4, slot5, slot6 = 0; private string slot0Name = "texRef"; private string slot1Name = "tileFactor"; private string slot2Name = "blendFactor"; private string slot4Name = "normalRef"; private string slot5Name = "posRef"; private string slot6Name = "outputRef"; protected override string GetFunctionName() { return "unity_triplanar_" + precision; } public UVTriPlanar() { name = "UVTriPlanar"; slot0 = AddSlot("Texture", slot0Name, Graphing.SlotType.Input, SlotValueType.Sampler2D, Vector4.zero); slot1 = AddSlot("Tile", slot1Name, Graphing.SlotType.Input, SlotValueType.Vector1, Vector4.zero); slot2 = AddSlot("Blend", slot2Name, Graphing.SlotType.Input, SlotValueType.Vector1, Vector4.zero); slot4 = AddSlot("Normals", slot4Name, Graphing.SlotType.Input, SlotValueType.Vector3, Vector3.one); slot5 = AddSlot("Position", slot5Name, Graphing.SlotType.Input, SlotValueType.Vector3, Vector3.one); slot6 = AddSlot("RGBA ", slot6Name, Graphing.SlotType.Output, SlotValueType.Vector4, Vector4.zero); UpdateNodeAfterDeserialization(); } public override bool hasPreview { get { return true; } } public override PreviewMode previewMode { get { return PreviewMode.Preview3D; } } //TODO:Externalize //Reference code from:http://www.chilliant.com/rgb2hsv.html public void GenerateNodeFunction(ShaderGenerator visitor, GenerationMode generationMode) { var outputString = new ShaderGenerator(); // outputString.AddShaderChunk(GetFunctionPrototype("arg1", "arg2", "arg3", samplerName), false); outputString.AddShaderChunk(GetFunctionPrototype(), false); outputString.Indent(); outputString.AddShaderChunk("{", false); // create UVs from position outputString.AddShaderChunk("float3 uvs = " + slot5Name + "*" + slot1Name + ";", false); // use absolute value of normal as texture weights outputString.AddShaderChunk("half3 blend = pow(abs(" + slot4Name + ")," + slot2Name + ");", false); // make sure the weights sum up to 1 (divide by sum of x+y+z) outputString.AddShaderChunk("blend /= dot(blend, 1.0);", false); // read the three texture projections, for x,y,z axes outputString.AddShaderChunk("float4 cx = " + "tex2D(" + slot0Name + ", uvs.yz);", false); outputString.AddShaderChunk("float4 cy = " + "tex2D(" + slot0Name + ", uvs.xz);", false); outputString.AddShaderChunk("float4 cz = " + "tex2D(" + slot0Name + ", uvs.xy);", false); // blend the textures based on weights outputString.AddShaderChunk(slot6Name + " = cx * blend.x + cy * blend.y + cz * blend.z;", false); outputString.Deindent(); outputString.AddShaderChunk("}", false); visitor.AddShaderChunk(outputString.GetShaderString(0), true); } //prevent validation errors when a sampler2D input is missing //use on any input requiring a Texture2DNode public override void ValidateNode() { base.ValidateNode(); var slot = FindInputSlot(0); if (slot == null) return; var edges = owner.GetEdges(slot.slotReference).ToList(); hasError |= edges.Count == 0; } public bool RequiresNormal() { return true; } public bool RequiresWorldPosition() { return true; } } } ///////////////// TEXTURE2D version below. Works fine, but the master nodes don't jive with it ////////////////////////// /* namespace UnityEngine.MaterialGraph { [Title("UV/Tri-Planar Mapping")] public class UVTriPlanar : FunctionNInNOut, IGeneratesFunction, IMayRequireNormal, IMayRequireWorldPosition { private int slot0, slot1, slot2, slot3, slot4, slot5, slot6 = 0; private string slot0Name = "texRef"; private string slot1Name = "tileFactor"; private string slot2Name = "blendFactor"; private string slot3Name = "samplerRef"; private string slot4Name = "normalRef"; private string slot5Name = "posRef"; private string slot6Name = "outputRef"; protected override string GetFunctionName() { return "unity_triplanar_" + precision; } public UVTriPlanar() { name = "UVTriPlanar"; slot0 = AddSlot("Texture", slot0Name, Graphing.SlotType.Input, SlotValueType.Texture2D, Vector4.zero); slot1 = AddSlot("Tile", slot1Name, Graphing.SlotType.Input, SlotValueType.Vector1, Vector4.zero); slot2 = AddSlot("Blend", slot2Name, Graphing.SlotType.Input, SlotValueType.Vector1, Vector4.zero); slot3 = AddSlot("Sampler", slot3Name, Graphing.SlotType.Input, SlotValueType.SamplerState, Vector4.zero); slot4 = AddSlot("Normals", slot4Name, Graphing.SlotType.Input, SlotValueType.Vector3, Vector3.one); slot5 = AddSlot("Position", slot5Name, Graphing.SlotType.Input, SlotValueType.Vector3, Vector3.one); slot6 = AddSlot("RGBA ", slot6Name, Graphing.SlotType.Output, SlotValueType.Vector4, Vector4.zero); UpdateNodeAfterDeserialization(); } public override bool hasPreview { get { return true; } } public override PreviewMode previewMode { get { return PreviewMode.Preview3D; } } //TODO:Externalize //Reference code from:http://www.chilliant.com/rgb2hsv.html public void GenerateNodeFunction(ShaderGenerator visitor, GenerationMode generationMode) { var outputString = new ShaderGenerator(); //Sampler input var samplerName = GetSamplerInput(3); outputString.AddShaderChunk("#ifdef UNITY_COMPILER_HLSL", false); // outputString.AddShaderChunk(GetFunctionPrototype("arg1", "arg2", "arg3", samplerName), false); outputString.AddShaderChunk(GetFunctionPrototype(), false); outputString.Indent(); outputString.AddShaderChunk("{", false); // create UVs from position outputString.AddShaderChunk("float3 uvs = " + slot5Name + "*" + slot1Name + ";", false); // use absolute value of normal as texture weights outputString.AddShaderChunk("half3 blend = pow(abs(" + slot4Name + ")," + slot2Name + ");", false); // make sure the weights sum up to 1 (divide by sum of x+y+z) outputString.AddShaderChunk("blend /= dot(blend, 1.0);", false); // read the three texture projections, for x,y,z axes outputString.AddShaderChunk("float4 cx = " + slot0Name + ".Sample(" + slot3Name + ", uvs.yz);", false); outputString.AddShaderChunk("float4 cy = " + slot0Name + ".Sample(" + slot3Name + ", uvs.xz);", false); outputString.AddShaderChunk("float4 cz = " + slot0Name + ".Sample(" + slot3Name + ", uvs.xy);", false); // blend the textures based on weights outputString.AddShaderChunk(slot6Name + " = cx * blend.x + cy * blend.y + cz * blend.z;", false); //outputString.AddShaderChunk("return " + "c;", false); outputString.Deindent(); outputString.AddShaderChunk("}", false); outputString.AddShaderChunk("#endif", true); visitor.AddShaderChunk(outputString.GetShaderString(0), true); } public override void GeneratePropertyUsages(ShaderGenerator visitor, GenerationMode generationMode) { //Sampler input slot base.GeneratePropertyUsages(visitor, generationMode); var samplerSlot = FindInputSlot(slot3); if (samplerSlot != null) { var samplerName = GetSamplerInput(slot3); visitor.AddShaderChunk("#ifdef UNITY_COMPILER_HLSL", false); visitor.AddShaderChunk("SamplerState " + samplerName + ";", true); visitor.AddShaderChunk("#endif", false); } } //prevent validation errors when a sampler2D input is missing //use on any input requiring a Texture2DNode public override void ValidateNode() { base.ValidateNode(); var slot = FindInputSlot(0); if (slot == null) return; var edges = owner.GetEdges(slot.slotReference).ToList(); hasError |= edges.Count == 0; } public bool RequiresNormal() { return true; } public bool RequiresWorldPosition() { return true; } }*/ }