using System.Linq; using UnityEngine; using UnityEditor.Graphing; namespace UnityEditor.ShaderGraph { [Title("Artistic", "Normal", "Normal Create")] public class NormalCreateNode : AbstractMaterialNode, IGeneratesBodyCode, IGeneratesFunction, IGenerateProperties, IMayRequireMeshUV { public const int TextureInputId = 0; public const int UVInputId = 1; public const int SamplerInputId = 2; public const int OffsetInputId = 3; public const int StrengthInputId = 4; public const int OutputSlotId = 5; const string k_TextureInputName = "Texture"; const string k_UVInputName = "UV"; const string k_SamplerInputName = "Sampler"; const string k_OffsetInputName = "Offset"; const string k_StrengthInputName = "Strength"; const string k_OutputSlotName = "Out"; public NormalCreateNode() { name = "Normal Create"; UpdateNodeAfterDeserialization(); } public override string documentationURL { get { return "https://github.com/Unity-Technologies/ShaderGraph/wiki/Normal-Create-Node"; } } string GetFunctionName() { return string.Format("Unity_NormalCreate_{0}", precision); } public override bool hasPreview { get { return true; } } public sealed override void UpdateNodeAfterDeserialization() { AddSlot(new Texture2DInputMaterialSlot(TextureInputId, k_TextureInputName, k_TextureInputName)); AddSlot(new UVMaterialSlot(UVInputId, k_UVInputName, k_UVInputName, UVChannel.UV0)); AddSlot(new SamplerStateMaterialSlot(SamplerInputId, k_SamplerInputName, k_SamplerInputName, SlotType.Input)); AddSlot(new Vector1MaterialSlot(OffsetInputId, k_OffsetInputName, k_OffsetInputName, SlotType.Input, 0.5f)); AddSlot(new Vector1MaterialSlot(StrengthInputId, k_StrengthInputName, k_StrengthInputName, SlotType.Input, 8f)); AddSlot(new Vector3MaterialSlot(OutputSlotId, k_OutputSlotName, k_OutputSlotName, SlotType.Output, Vector3.zero)); RemoveSlotsNameNotMatching(new[] { TextureInputId, UVInputId, SamplerInputId, OffsetInputId, StrengthInputId, OutputSlotId }); } public void GenerateNodeCode(ShaderGenerator visitor, GenerationMode generationMode) { var textureValue = GetSlotValue(TextureInputId, generationMode); var uvValue = GetSlotValue(UVInputId, generationMode); var offsetValue = GetSlotValue(OffsetInputId, generationMode); var strengthValue = GetSlotValue(StrengthInputId, generationMode); var outputValue = GetSlotValue(OutputSlotId, generationMode); var samplerSlot = FindInputSlot(SamplerInputId); var edgesSampler = owner.GetEdges(samplerSlot.slotReference); string samplerValue; if (edgesSampler.Any()) samplerValue = GetSlotValue(SamplerInputId, generationMode); else samplerValue = string.Format("sampler{0}", GetSlotValue(TextureInputId, generationMode)); var sb = new ShaderStringBuilder(); sb.AppendLine("{0} {1};", FindOutputSlot(OutputSlotId).concreteValueType.ToString(precision), GetVariableNameForSlot(OutputSlotId)); sb.AppendLine("{0}({1}, {2}, {3}, {4}, {5}, {6});", GetFunctionName(), textureValue, samplerValue, uvValue, offsetValue, strengthValue, outputValue); visitor.AddShaderChunk(sb.ToString(), false); } public void GenerateNodeFunction(ShaderGenerator visitor, GenerationMode generationMode) { var sb = new ShaderStringBuilder(); sb.AppendLine("void {0}({1} Texture, {2} Sampler, {3} UV, {4} Offset, {5} Strength, out {6} Out)", GetFunctionName(), FindInputSlot(TextureInputId).concreteValueType.ToString(precision), FindInputSlot(SamplerInputId).concreteValueType.ToString(precision), FindInputSlot(UVInputId).concreteValueType.ToString(precision), FindInputSlot(OffsetInputId).concreteValueType.ToString(precision), FindInputSlot(StrengthInputId).concreteValueType.ToString(precision), FindOutputSlot(OutputSlotId).concreteValueType.ToString(precision)); using (sb.BlockScope()) { sb.AppendLine("Offset = pow(Offset, 3) * 0.1;"); sb.AppendLine("{0}2 offsetU = float2(UV.x + Offset, UV.y);", precision); sb.AppendLine("{0}2 offsetV = float2(UV.x, UV.y + Offset);", precision); sb.AppendLine("{0} normalSample = Texture.Sample(Sampler, UV);", precision); sb.AppendLine("{0} uSample = Texture.Sample(Sampler, offsetU);", precision); sb.AppendLine("{0} vSample = Texture.Sample(Sampler, offsetV);", precision); sb.AppendLine("{0}3 va = float3(1, 0, (uSample - normalSample) * Strength);", precision); sb.AppendLine("{0}3 vb = float3(0, 1, (vSample - normalSample) * Strength);", precision); sb.AppendLine("Out = normalize(cross(va, vb));"); } visitor.AddShaderChunk(sb.ToString(), true); } public void GenerateNodeFunction(FunctionRegistry registry, GenerationMode generationMode) { registry.ProvideFunction(GetFunctionName(), s => { s.AppendLine("void {0}({1} Texture, {2} Sampler, {3} UV, {4} Offset, {5} Strength, out {6} Out)", GetFunctionName(), FindInputSlot(TextureInputId).concreteValueType.ToString(precision), FindInputSlot(SamplerInputId).concreteValueType.ToString(precision), FindInputSlot(UVInputId).concreteValueType.ToString(precision), FindInputSlot(OffsetInputId).concreteValueType.ToString(precision), FindInputSlot(StrengthInputId).concreteValueType.ToString(precision), FindOutputSlot(OutputSlotId).concreteValueType.ToString(precision)); using (s.BlockScope()) { s.AppendLine("Offset = pow(Offset, 3) * 0.1;"); s.AppendLine("{0}2 offsetU = float2(UV.x + Offset, UV.y);", precision); s.AppendLine("{0}2 offsetV = float2(UV.x, UV.y + Offset);", precision); s.AppendLine("{0} normalSample = Texture.Sample(Sampler, UV);", precision); s.AppendLine("{0} uSample = Texture.Sample(Sampler, offsetU);", precision); s.AppendLine("{0} vSample = Texture.Sample(Sampler, offsetV);", precision); s.AppendLine("{0}3 va = float3(1, 0, (uSample - normalSample) * Strength);", precision); s.AppendLine("{0}3 vb = float3(0, 1, (vSample - normalSample) * Strength);", precision); s.AppendLine("Out = normalize(cross(va, vb));"); } }); } public bool RequiresMeshUV(UVChannel channel) { foreach (var slot in this.GetInputSlots().OfType()) { if (slot.RequiresMeshUV(channel)) return true; } return false; } } }