using UnityEngine; using UnityEditor.Graphing; /*namespace UnityEditor.ShaderGraph { [Title("OLD", "MultiLayerParallax")] public class MultiLayerParallaxNode : AbstractMaterialNode, IGeneratesBodyCode, IGeneratesFunction, IMayRequireMeshUV, IMayRequireViewDirection { protected const string kInputDepthShaderName = "Depth"; protected const string kInputFadeRateShaderName = "FadeRate"; protected const string kInputLayerCountShaderName = "LayerCount"; protected const string kTextureSlotShaderName = "Texture"; protected const string kOutputSlotShaderName = "Result"; public const int InputDepthSlotId = 0; // 'depth' public const int InputFadeRateSlotId = 1; // 'fade_rate' public const int InputLayerCountSlotId = 2; // 'layer_count' public const int TextureSlotId = 3; // 'tex' public const int OutputSlotId = 4; // 'result' public override bool hasPreview { get { return true; } } public override PreviewMode previewMode { get { return PreviewMode.Preview3D; } } public MultiLayerParallaxNode() { name = "MultiLayerParallax"; UpdateNodeAfterDeserialization(); } public string GetFunctionName() { return "unity_multilayer_parallax_" + precision; } public sealed override void UpdateNodeAfterDeserialization() { AddSlot(GetInputDepthSlot()); AddSlot(GetInputFadeRateSlot()); AddSlot(GetInputLayerCountSlot()); AddSlot(GetTextureSlot()); AddSlot(GetOutputSlot()); RemoveSlotsNameNotMatching(validSlots); } protected int[] validSlots { get { return new[] { InputDepthSlotId, InputFadeRateSlotId, InputLayerCountSlotId, TextureSlotId, OutputSlotId }; } } protected virtual MaterialSlot GetInputDepthSlot() { return new Vector1MaterialSlot(InputDepthSlotId, GetInputSlot1Name(), kInputDepthShaderName, SlotType.Input, 0); } protected virtual MaterialSlot GetInputFadeRateSlot() { return new DynamicVectorMaterialSlot(InputFadeRateSlotId, GetInputSlot2Name(), kInputFadeRateShaderName, SlotType.Input, Vector4.zero); } protected virtual MaterialSlot GetInputLayerCountSlot() { return new DynamicVectorMaterialSlot(InputLayerCountSlotId, GetInputSlot3Name(), kInputLayerCountShaderName, SlotType.Input, Vector4.zero); } protected virtual MaterialSlot GetTextureSlot() { return new Texture2DMaterialSlot(TextureSlotId, GetTextureSlotName(), kTextureSlotShaderName, SlotType.Input); } protected virtual MaterialSlot GetOutputSlot() { return new DynamicVectorMaterialSlot(OutputSlotId, GetOutputSlotName(), kOutputSlotShaderName, SlotType.Output, Vector4.zero); } protected virtual string GetInputSlot1Name() { return kInputDepthShaderName; } protected virtual string GetInputSlot2Name() { return kInputFadeRateShaderName; } protected virtual string GetInputSlot3Name() { return kInputLayerCountShaderName; } protected virtual string GetTextureSlotName() { return kTextureSlotShaderName; } protected virtual string GetOutputSlotName() { return kOutputSlotShaderName; } protected virtual string GetFunctionPrototype(string depth, string fadeRate, string layerCount, string tex, string UVs, string viewTangentSpace) { var input1 = ConvertConcreteSlotValueTypeToString(precision, FindInputSlot(InputDepthSlotId).concreteValueType); var input2 = ConvertConcreteSlotValueTypeToString(precision, FindInputSlot(InputFadeRateSlotId).concreteValueType); var input3 = ConvertConcreteSlotValueTypeToString(precision, FindInputSlot(InputLayerCountSlotId).concreteValueType); var output = ConvertConcreteSlotValueTypeToString(precision, FindOutputSlot(OutputSlotId).concreteValueType); return string.Format("inline {0} {1} ({2} {3}, {4} {5}, {6} {7}, " + "sampler2D {8}, {9}2 {10}, {9}3 {11})", output, GetFunctionName(), input1, depth, input2, fadeRate, input3, layerCount, tex, precision, UVs, viewTangentSpace); } public void GenerateNodeCode(ShaderGenerator visitor, GenerationMode generationMode) { NodeUtils.SlotConfigurationExceptionIfBadConfiguration(this, new[] { InputDepthSlotId, InputFadeRateSlotId, InputLayerCountSlotId, TextureSlotId }, new[] { OutputSlotId }); string depthValue = GetSlotValue(InputDepthSlotId, generationMode); string fadeRateValue = GetSlotValue(InputFadeRateSlotId, generationMode); string layerCountValue = GetSlotValue(InputLayerCountSlotId, generationMode); string textureValue = GetSlotValue(TextureSlotId, generationMode); var output = ConvertConcreteSlotValueTypeToString(precision, FindOutputSlot(OutputSlotId).concreteValueType); visitor.AddShaderChunk(string.Format("{0} {1} = {2};", output, GetVariableNameForSlot(OutputSlotId), GetFunctionCallBody(depthValue, fadeRateValue, layerCountValue, textureValue)), true); } public void GenerateNodeFunction(ShaderGenerator visitor, GenerationMode generationMode) { var outputString = new ShaderGenerator(); outputString.AddShaderChunk(GetFunctionPrototype("depth", "fadeRate", "layerCount", "tex", "UVs", "viewTangentSpace"), false); outputString.AddShaderChunk("{", false); outputString.Indent(); outputString.AddShaderChunk(precision + "2 texcoord = UVs;", false); outputString.AddShaderChunk(precision + "2 offset = -viewTangentSpace.xy * depth / layerCount;", false); var output = ConvertConcreteSlotValueTypeToString(precision, FindOutputSlot(OutputSlotId).concreteValueType); outputString.AddShaderChunk(output + " result = 0.0f;", false); outputString.AddShaderChunk(output + " fade = 1.0f;", false); outputString.AddShaderChunk(precision + " alpha = 0.0f;", false); outputString.AddShaderChunk("for (int i = 0; i < 10; i++) {", false); outputString.Indent(); outputString.AddShaderChunk("result += fade * tex2D(tex, texcoord);", false); outputString.AddShaderChunk("texcoord += offset;", false); outputString.AddShaderChunk("fade *= fadeRate;", false); outputString.Deindent(); outputString.AddShaderChunk("}", false); outputString.AddShaderChunk("return result / layerCount;", false); outputString.Deindent(); outputString.AddShaderChunk("}", false); visitor.AddShaderChunk(outputString.GetShaderString(0), true); } protected virtual string GetFunctionCallBody(string depthValue, string fadeRateValue, string layerCountValue, string texValue) { return GetFunctionName() + " (" + depthValue + ", " + fadeRateValue + ", " + layerCountValue + ", " + texValue + ", " + UVChannel.uv0.GetUVName() + ", " + CoordinateSpace.View.ToVariableName(InterpolatorType.Tangent) + ")"; } public bool RequiresMeshUV(UVChannel channel) { return channel == UVChannel.uv0; } public NeededCoordinateSpace RequiresViewDirection() { return NeededCoordinateSpace.Tangent; } } }*/