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CelticCraft/Plugins/VoxelFree/Source/VoxelGraph/Private/Examples/VG_Example_MultiIndex.cpp

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// Copyright 2020 Phyronnaz
#include "VG_Example_MultiIndex.h"
PRAGMA_GENERATED_VOXEL_GRAPH_START
using FVoxelGraphSeed = int32;
#if VOXEL_GRAPH_GENERATED_VERSION == 1
class FVG_Example_MultiIndexInstance : public TVoxelGraphGeneratorInstanceHelper<FVG_Example_MultiIndexInstance, UVG_Example_MultiIndex>
{
public:
struct FParams
{
const FName Layer_0;
const FName Layer_1;
const FName Layer_2;
const FName Layer_3;
};
class FLocalComputeStruct_LocalValue
{
public:
struct FOutputs
{
FOutputs() {}
void Init(const FVoxelGraphOutputsInit& Init)
{
}
template<typename T, uint32 Index>
T Get() const;
template<typename T, uint32 Index>
void Set(T Value);
v_flt Value;
};
struct FBufferConstant
{
FBufferConstant() {}
};
struct FBufferX
{
FBufferX() {}
v_flt Variable_2; // X output 0
};
struct FBufferXY
{
FBufferXY() {}
v_flt Variable_0; // 2D Noise SDF.+ output 0
};
FLocalComputeStruct_LocalValue(const FParams& InParams)
: Params(InParams)
{
}
void Init(const FVoxelGeneratorInit& InitStruct)
{
////////////////////////////////////////////////////
//////////////////// Init nodes ////////////////////
////////////////////////////////////////////////////
{
////////////////////////////////////////////////////
/////////////// Constant nodes init ////////////////
////////////////////////////////////////////////////
{
/////////////////////////////////////////////////////////////////////////////////
//////// First compute all seeds in case they are used by constant nodes ////////
/////////////////////////////////////////////////////////////////////////////////
// Init of Make Seeds
FVoxelGraphSeed Variable_5; // Make Seeds output 0
FVoxelGraphSeed Make_Seeds_0_Temp_1; // Make Seeds output 1
Variable_5 = FVoxelUtilities::MurmurHash32(FVoxelGraphSeed(1337));
Make_Seeds_0_Temp_1 = FVoxelUtilities::MurmurHash32(Variable_5);
////////////////////////////////////////////////////
///////////// Then init constant nodes /////////////
////////////////////////////////////////////////////
}
////////////////////////////////////////////////////
//////////////////// Other inits ///////////////////
////////////////////////////////////////////////////
Function0_XYZWithoutCache_Init(InitStruct);
}
////////////////////////////////////////////////////
//////////////// Compute constants /////////////////
////////////////////////////////////////////////////
{
}
}
void ComputeX(const FVoxelContext& Context, FBufferX& BufferX) const
{
Function0_X_Compute(Context, BufferX);
}
void ComputeXYWithCache(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
Function0_XYWithCache_Compute(Context, BufferX, BufferXY);
}
void ComputeXYWithoutCache(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
Function0_XYWithoutCache_Compute(Context, BufferX, BufferXY);
}
void ComputeXYZWithCache(const FVoxelContext& Context, const FBufferX& BufferX, const FBufferXY& BufferXY, FOutputs& Outputs) const
{
Function0_XYZWithCache_Compute(Context, BufferX, BufferXY, Outputs);
}
void ComputeXYZWithoutCache(const FVoxelContext& Context, FOutputs& Outputs) const
{
Function0_XYZWithoutCache_Compute(Context, Outputs);
}
inline FBufferX GetBufferX() const { return {}; }
inline FBufferXY GetBufferXY() const { return {}; }
inline FOutputs GetOutputs() const { return {}; }
private:
FBufferConstant BufferConstant;
const FParams& Params;
FVoxelFastNoise _2D_Perlin_Noise_Fractal_0_Noise;
TStaticArray<uint8, 32> _2D_Perlin_Noise_Fractal_0_LODToOctaves;
///////////////////////////////////////////////////////////////////////
//////////////////////////// Init functions ///////////////////////////
///////////////////////////////////////////////////////////////////////
void Function0_XYZWithoutCache_Init(const FVoxelGeneratorInit& InitStruct)
{
// Init of Make Seeds
FVoxelGraphSeed Variable_5; // Make Seeds output 0
FVoxelGraphSeed Make_Seeds_0_Temp_1; // Make Seeds output 1
Variable_5 = FVoxelUtilities::MurmurHash32(FVoxelGraphSeed(1337));
Make_Seeds_0_Temp_1 = FVoxelUtilities::MurmurHash32(Variable_5);
// Init of 2D Perlin Noise Fractal
_2D_Perlin_Noise_Fractal_0_Noise.SetSeed(Variable_5);
_2D_Perlin_Noise_Fractal_0_Noise.SetInterpolation(EVoxelNoiseInterpolation::Quintic);
_2D_Perlin_Noise_Fractal_0_Noise.SetFractalOctavesAndGain(7, 0.5);
_2D_Perlin_Noise_Fractal_0_Noise.SetFractalLacunarity(2.0);
_2D_Perlin_Noise_Fractal_0_Noise.SetFractalType(EVoxelNoiseFractalType::FBM);
_2D_Perlin_Noise_Fractal_0_LODToOctaves[0] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[1] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[2] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[3] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[4] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[5] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[6] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[7] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[8] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[9] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[10] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[11] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[12] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[13] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[14] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[15] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[16] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[17] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[18] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[19] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[20] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[21] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[22] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[23] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[24] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[25] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[26] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[27] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[28] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[29] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[30] = 7;
_2D_Perlin_Noise_Fractal_0_LODToOctaves[31] = 7;
}
///////////////////////////////////////////////////////////////////////
////////////////////////// Compute functions //////////////////////////
///////////////////////////////////////////////////////////////////////
void Function0_X_Compute(const FVoxelContext& Context, FBufferX& BufferX) const
{
// X
BufferX.Variable_2 = Context.GetLocalX();
}
void Function0_XYWithCache_Compute(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
// Y
v_flt Variable_3; // Y output 0
Variable_3 = Context.GetLocalY();
// 2D Perlin Noise Fractal
v_flt Variable_1; // 2D Perlin Noise Fractal output 0
Variable_1 = _2D_Perlin_Noise_Fractal_0_Noise.GetPerlinFractal_2D(BufferX.Variable_2, Variable_3, v_flt(0.002f), _2D_Perlin_Noise_Fractal_0_LODToOctaves[FMath::Clamp(Context.LOD, 0, 31)]);
Variable_1 = FMath::Clamp<v_flt>(Variable_1, -0.601283, 0.600269);
// 2D Noise SDF.*
v_flt Variable_8; // 2D Noise SDF.* output 0
Variable_8 = Variable_1 * v_flt(300.0f);
// 2D Noise SDF.+
BufferXY.Variable_0 = Variable_8 + v_flt(0.0f);
}
void Function0_XYWithoutCache_Compute(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
// Y
v_flt Variable_3; // Y output 0
Variable_3 = Context.GetLocalY();
// X
BufferX.Variable_2 = Context.GetLocalX();
// 2D Perlin Noise Fractal
v_flt Variable_1; // 2D Perlin Noise Fractal output 0
Variable_1 = _2D_Perlin_Noise_Fractal_0_Noise.GetPerlinFractal_2D(BufferX.Variable_2, Variable_3, v_flt(0.002f), _2D_Perlin_Noise_Fractal_0_LODToOctaves[FMath::Clamp(Context.LOD, 0, 31)]);
Variable_1 = FMath::Clamp<v_flt>(Variable_1, -0.601283, 0.600269);
// 2D Noise SDF.*
v_flt Variable_8; // 2D Noise SDF.* output 0
Variable_8 = Variable_1 * v_flt(300.0f);
// 2D Noise SDF.+
BufferXY.Variable_0 = Variable_8 + v_flt(0.0f);
}
void Function0_XYZWithCache_Compute(const FVoxelContext& Context, const FBufferX& BufferX, const FBufferXY& BufferXY, FOutputs& Outputs) const
{
// Z
v_flt Variable_4; // Z output 0
Variable_4 = Context.GetLocalZ();
// 2D Noise SDF.-
v_flt Variable_7; // 2D Noise SDF.- output 0
Variable_7 = Variable_4 - BufferXY.Variable_0;
// Set High Quality Value.*
v_flt Variable_6; // Set High Quality Value.* output 0
Variable_6 = Variable_7 * v_flt(0.2f);
Outputs.Value = Variable_6;
}
void Function0_XYZWithoutCache_Compute(const FVoxelContext& Context, FOutputs& Outputs) const
{
// Z
v_flt Variable_4; // Z output 0
Variable_4 = Context.GetLocalZ();
// Y
v_flt Variable_3; // Y output 0
Variable_3 = Context.GetLocalY();
// X
v_flt Variable_2; // X output 0
Variable_2 = Context.GetLocalX();
// 2D Perlin Noise Fractal
v_flt Variable_1; // 2D Perlin Noise Fractal output 0
Variable_1 = _2D_Perlin_Noise_Fractal_0_Noise.GetPerlinFractal_2D(Variable_2, Variable_3, v_flt(0.002f), _2D_Perlin_Noise_Fractal_0_LODToOctaves[FMath::Clamp(Context.LOD, 0, 31)]);
Variable_1 = FMath::Clamp<v_flt>(Variable_1, -0.601283, 0.600269);
// 2D Noise SDF.*
v_flt Variable_8; // 2D Noise SDF.* output 0
Variable_8 = Variable_1 * v_flt(300.0f);
// 2D Noise SDF.+
v_flt Variable_0; // 2D Noise SDF.+ output 0
Variable_0 = Variable_8 + v_flt(0.0f);
// 2D Noise SDF.-
v_flt Variable_7; // 2D Noise SDF.- output 0
Variable_7 = Variable_4 - Variable_0;
// Set High Quality Value.*
v_flt Variable_6; // Set High Quality Value.* output 0
Variable_6 = Variable_7 * v_flt(0.2f);
Outputs.Value = Variable_6;
}
};
class FLocalComputeStruct_LocalMaterial
{
public:
struct FOutputs
{
FOutputs() {}
void Init(const FVoxelGraphOutputsInit& Init)
{
MaterialBuilder.SetMaterialConfig(Init.MaterialConfig);
}
template<typename T, uint32 Index>
T Get() const;
template<typename T, uint32 Index>
void Set(T Value);
FVoxelMaterialBuilder MaterialBuilder;
};
struct FBufferConstant
{
FBufferConstant() {}
int32 Variable_6; // Get Material Collection Index: Layer 1 output 0
int32 Variable_7; // Get Material Collection Index: Layer 2 output 0
int32 Variable_8; // Get Material Collection Index: Layer 3 output 0
int32 Variable_0; // Get Material Collection Index: Layer 0 output 0
};
struct FBufferX
{
FBufferX() {}
v_flt Variable_11; // X output 0
};
struct FBufferXY
{
FBufferXY() {}
v_flt Variable_14; // * output 0
};
FLocalComputeStruct_LocalMaterial(const FParams& InParams)
: Params(InParams)
{
}
void Init(const FVoxelGeneratorInit& InitStruct)
{
////////////////////////////////////////////////////
//////////////////// Init nodes ////////////////////
////////////////////////////////////////////////////
{
////////////////////////////////////////////////////
/////////////// Constant nodes init ////////////////
////////////////////////////////////////////////////
{
/////////////////////////////////////////////////////////////////////////////////
//////// First compute all seeds in case they are used by constant nodes ////////
/////////////////////////////////////////////////////////////////////////////////
// Init of Make Seeds
FVoxelGraphSeed Make_Seeds_1_Temp_0; // Make Seeds output 0
FVoxelGraphSeed Variable_10; // Make Seeds output 1
Make_Seeds_1_Temp_0 = FVoxelUtilities::MurmurHash32(FVoxelGraphSeed(1337));
Variable_10 = FVoxelUtilities::MurmurHash32(Make_Seeds_1_Temp_0);
////////////////////////////////////////////////////
///////////// Then init constant nodes /////////////
////////////////////////////////////////////////////
// Init of Get Material Collection Index: Layer 1
if (InitStruct.MaterialCollection)
{
Get_Material_Collection_Index__Layer_1_0_Index = InitStruct.MaterialCollection->GetMaterialIndex(Params.Layer_1);
}
else
{
Get_Material_Collection_Index__Layer_1_0_Index = -1;
}
// Init of Get Material Collection Index: Layer 2
if (InitStruct.MaterialCollection)
{
Get_Material_Collection_Index__Layer_2_0_Index = InitStruct.MaterialCollection->GetMaterialIndex(Params.Layer_2);
}
else
{
Get_Material_Collection_Index__Layer_2_0_Index = -1;
}
// Init of Get Material Collection Index: Layer 3
if (InitStruct.MaterialCollection)
{
Get_Material_Collection_Index__Layer_3_0_Index = InitStruct.MaterialCollection->GetMaterialIndex(Params.Layer_3);
}
else
{
Get_Material_Collection_Index__Layer_3_0_Index = -1;
}
// Init of Get Material Collection Index: Layer 0
if (InitStruct.MaterialCollection)
{
Get_Material_Collection_Index__Layer_0_0_Index = InitStruct.MaterialCollection->GetMaterialIndex(Params.Layer_0);
}
else
{
Get_Material_Collection_Index__Layer_0_0_Index = -1;
}
}
////////////////////////////////////////////////////
//////////////////// Other inits ///////////////////
////////////////////////////////////////////////////
Function0_XYZWithoutCache_Init(InitStruct);
}
////////////////////////////////////////////////////
//////////////// Compute constants /////////////////
////////////////////////////////////////////////////
{
// Get Material Collection Index: Layer 1
BufferConstant.Variable_6 = Get_Material_Collection_Index__Layer_1_0_Index;
// Get Material Collection Index: Layer 2
BufferConstant.Variable_7 = Get_Material_Collection_Index__Layer_2_0_Index;
// Get Material Collection Index: Layer 3
BufferConstant.Variable_8 = Get_Material_Collection_Index__Layer_3_0_Index;
// Get Material Collection Index: Layer 0
BufferConstant.Variable_0 = Get_Material_Collection_Index__Layer_0_0_Index;
}
}
void ComputeX(const FVoxelContext& Context, FBufferX& BufferX) const
{
Function0_X_Compute(Context, BufferX);
}
void ComputeXYWithCache(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
Function0_XYWithCache_Compute(Context, BufferX, BufferXY);
}
void ComputeXYWithoutCache(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
Function0_XYWithoutCache_Compute(Context, BufferX, BufferXY);
}
void ComputeXYZWithCache(const FVoxelContext& Context, const FBufferX& BufferX, const FBufferXY& BufferXY, FOutputs& Outputs) const
{
Function0_XYZWithCache_Compute(Context, BufferX, BufferXY, Outputs);
}
void ComputeXYZWithoutCache(const FVoxelContext& Context, FOutputs& Outputs) const
{
Function0_XYZWithoutCache_Compute(Context, Outputs);
}
inline FBufferX GetBufferX() const { return {}; }
inline FBufferXY GetBufferXY() const { return {}; }
inline FOutputs GetOutputs() const { return {}; }
private:
FBufferConstant BufferConstant;
const FParams& Params;
int32 Get_Material_Collection_Index__Layer_1_0_Index;
int32 Get_Material_Collection_Index__Layer_2_0_Index;
int32 Get_Material_Collection_Index__Layer_3_0_Index;
int32 Get_Material_Collection_Index__Layer_0_0_Index;
FVoxelFastNoise _2D_Perlin_Noise_Fractal_1_Noise;
TStaticArray<uint8, 32> _2D_Perlin_Noise_Fractal_1_LODToOctaves;
///////////////////////////////////////////////////////////////////////
//////////////////////////// Init functions ///////////////////////////
///////////////////////////////////////////////////////////////////////
void Function0_XYZWithoutCache_Init(const FVoxelGeneratorInit& InitStruct)
{
// Init of Make Seeds
FVoxelGraphSeed Make_Seeds_1_Temp_0; // Make Seeds output 0
FVoxelGraphSeed Variable_10; // Make Seeds output 1
Make_Seeds_1_Temp_0 = FVoxelUtilities::MurmurHash32(FVoxelGraphSeed(1337));
Variable_10 = FVoxelUtilities::MurmurHash32(Make_Seeds_1_Temp_0);
// Init of 2D Perlin Noise Fractal
_2D_Perlin_Noise_Fractal_1_Noise.SetSeed(Variable_10);
_2D_Perlin_Noise_Fractal_1_Noise.SetInterpolation(EVoxelNoiseInterpolation::Quintic);
_2D_Perlin_Noise_Fractal_1_Noise.SetFractalOctavesAndGain(7, 0.5);
_2D_Perlin_Noise_Fractal_1_Noise.SetFractalLacunarity(2.0);
_2D_Perlin_Noise_Fractal_1_Noise.SetFractalType(EVoxelNoiseFractalType::FBM);
_2D_Perlin_Noise_Fractal_1_LODToOctaves[0] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[1] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[2] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[3] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[4] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[5] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[6] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[7] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[8] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[9] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[10] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[11] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[12] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[13] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[14] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[15] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[16] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[17] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[18] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[19] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[20] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[21] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[22] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[23] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[24] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[25] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[26] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[27] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[28] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[29] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[30] = 7;
_2D_Perlin_Noise_Fractal_1_LODToOctaves[31] = 7;
}
///////////////////////////////////////////////////////////////////////
////////////////////////// Compute functions //////////////////////////
///////////////////////////////////////////////////////////////////////
void Function0_X_Compute(const FVoxelContext& Context, FBufferX& BufferX) const
{
// X
BufferX.Variable_11 = Context.GetLocalX();
}
void Function0_XYWithCache_Compute(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
// Y
v_flt Variable_12; // Y output 0
Variable_12 = Context.GetLocalY();
// 2D Perlin Noise Fractal
v_flt Variable_13; // 2D Perlin Noise Fractal output 0
Variable_13 = _2D_Perlin_Noise_Fractal_1_Noise.GetPerlinFractal_2D(BufferX.Variable_11, Variable_12, v_flt(0.02f), _2D_Perlin_Noise_Fractal_1_LODToOctaves[FMath::Clamp(Context.LOD, 0, 31)]);
Variable_13 = FMath::Clamp<v_flt>(Variable_13, -0.306139, 0.328394);
// *
BufferXY.Variable_14 = Variable_13 * v_flt(25.0f);
}
void Function0_XYWithoutCache_Compute(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
// Y
v_flt Variable_12; // Y output 0
Variable_12 = Context.GetLocalY();
// X
BufferX.Variable_11 = Context.GetLocalX();
// 2D Perlin Noise Fractal
v_flt Variable_13; // 2D Perlin Noise Fractal output 0
Variable_13 = _2D_Perlin_Noise_Fractal_1_Noise.GetPerlinFractal_2D(BufferX.Variable_11, Variable_12, v_flt(0.02f), _2D_Perlin_Noise_Fractal_1_LODToOctaves[FMath::Clamp(Context.LOD, 0, 31)]);
Variable_13 = FMath::Clamp<v_flt>(Variable_13, -0.306139, 0.328394);
// *
BufferXY.Variable_14 = Variable_13 * v_flt(25.0f);
}
void Function0_XYZWithCache_Compute(const FVoxelContext& Context, const FBufferX& BufferX, const FBufferXY& BufferXY, FOutputs& Outputs) const
{
// Z
v_flt Variable_5; // Z output 0
Variable_5 = Context.GetLocalZ();
// +
v_flt Variable_9; // + output 0
Variable_9 = Variable_5 + BufferXY.Variable_14;
// Height Splitter
v_flt Variable_1; // Height Splitter output 0
v_flt Variable_2; // Height Splitter output 1
v_flt Variable_3; // Height Splitter output 2
v_flt Variable_4; // Height Splitter output 3
{
TVoxelStaticArray<v_flt, 6> InputsArray;
TVoxelStaticArray<v_flt, 4> OutputsArray;
InputsArray[0] = v_flt(-75.0f);
InputsArray[1] = v_flt(5.0f);
InputsArray[2] = v_flt(-20.0f);
InputsArray[3] = v_flt(5.0f);
InputsArray[4] = v_flt(10.0f);
InputsArray[5] = v_flt(5.0f);
FVoxelMathNodeFunctions::HeightSplit(Variable_9, InputsArray, OutputsArray);
Variable_1 = OutputsArray[0];
Variable_2 = OutputsArray[1];
Variable_3 = OutputsArray[2];
Variable_4 = OutputsArray[3];
}
Outputs.MaterialBuilder.AddMultiIndex(BufferConstant.Variable_0, Variable_1, bool(false));
Outputs.MaterialBuilder.AddMultiIndex(BufferConstant.Variable_6, Variable_2, bool(false));
Outputs.MaterialBuilder.AddMultiIndex(BufferConstant.Variable_7, Variable_3, bool(false));
Outputs.MaterialBuilder.AddMultiIndex(BufferConstant.Variable_8, Variable_4, bool(false));
}
void Function0_XYZWithoutCache_Compute(const FVoxelContext& Context, FOutputs& Outputs) const
{
// Y
v_flt Variable_12; // Y output 0
Variable_12 = Context.GetLocalY();
// Z
v_flt Variable_5; // Z output 0
Variable_5 = Context.GetLocalZ();
// X
v_flt Variable_11; // X output 0
Variable_11 = Context.GetLocalX();
// 2D Perlin Noise Fractal
v_flt Variable_13; // 2D Perlin Noise Fractal output 0
Variable_13 = _2D_Perlin_Noise_Fractal_1_Noise.GetPerlinFractal_2D(Variable_11, Variable_12, v_flt(0.02f), _2D_Perlin_Noise_Fractal_1_LODToOctaves[FMath::Clamp(Context.LOD, 0, 31)]);
Variable_13 = FMath::Clamp<v_flt>(Variable_13, -0.306139, 0.328394);
// *
v_flt Variable_14; // * output 0
Variable_14 = Variable_13 * v_flt(25.0f);
// +
v_flt Variable_9; // + output 0
Variable_9 = Variable_5 + Variable_14;
// Height Splitter
v_flt Variable_1; // Height Splitter output 0
v_flt Variable_2; // Height Splitter output 1
v_flt Variable_3; // Height Splitter output 2
v_flt Variable_4; // Height Splitter output 3
{
TVoxelStaticArray<v_flt, 6> InputsArray;
TVoxelStaticArray<v_flt, 4> OutputsArray;
InputsArray[0] = v_flt(-75.0f);
InputsArray[1] = v_flt(5.0f);
InputsArray[2] = v_flt(-20.0f);
InputsArray[3] = v_flt(5.0f);
InputsArray[4] = v_flt(10.0f);
InputsArray[5] = v_flt(5.0f);
FVoxelMathNodeFunctions::HeightSplit(Variable_9, InputsArray, OutputsArray);
Variable_1 = OutputsArray[0];
Variable_2 = OutputsArray[1];
Variable_3 = OutputsArray[2];
Variable_4 = OutputsArray[3];
}
Outputs.MaterialBuilder.AddMultiIndex(BufferConstant.Variable_0, Variable_1, bool(false));
Outputs.MaterialBuilder.AddMultiIndex(BufferConstant.Variable_6, Variable_2, bool(false));
Outputs.MaterialBuilder.AddMultiIndex(BufferConstant.Variable_7, Variable_3, bool(false));
Outputs.MaterialBuilder.AddMultiIndex(BufferConstant.Variable_8, Variable_4, bool(false));
}
};
class FLocalComputeStruct_LocalUpVectorXUpVectorYUpVectorZ
{
public:
struct FOutputs
{
FOutputs() {}
void Init(const FVoxelGraphOutputsInit& Init)
{
}
template<typename T, uint32 Index>
T Get() const;
template<typename T, uint32 Index>
void Set(T Value);
v_flt UpVectorX;
v_flt UpVectorY;
v_flt UpVectorZ;
};
struct FBufferConstant
{
FBufferConstant() {}
};
struct FBufferX
{
FBufferX() {}
};
struct FBufferXY
{
FBufferXY() {}
};
FLocalComputeStruct_LocalUpVectorXUpVectorYUpVectorZ(const FParams& InParams)
: Params(InParams)
{
}
void Init(const FVoxelGeneratorInit& InitStruct)
{
////////////////////////////////////////////////////
//////////////////// Init nodes ////////////////////
////////////////////////////////////////////////////
{
////////////////////////////////////////////////////
/////////////// Constant nodes init ////////////////
////////////////////////////////////////////////////
{
/////////////////////////////////////////////////////////////////////////////////
//////// First compute all seeds in case they are used by constant nodes ////////
/////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////
///////////// Then init constant nodes /////////////
////////////////////////////////////////////////////
}
////////////////////////////////////////////////////
//////////////////// Other inits ///////////////////
////////////////////////////////////////////////////
Function0_XYZWithoutCache_Init(InitStruct);
}
////////////////////////////////////////////////////
//////////////// Compute constants /////////////////
////////////////////////////////////////////////////
{
}
}
void ComputeX(const FVoxelContext& Context, FBufferX& BufferX) const
{
Function0_X_Compute(Context, BufferX);
}
void ComputeXYWithCache(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
Function0_XYWithCache_Compute(Context, BufferX, BufferXY);
}
void ComputeXYWithoutCache(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
Function0_XYWithoutCache_Compute(Context, BufferX, BufferXY);
}
void ComputeXYZWithCache(const FVoxelContext& Context, const FBufferX& BufferX, const FBufferXY& BufferXY, FOutputs& Outputs) const
{
Function0_XYZWithCache_Compute(Context, BufferX, BufferXY, Outputs);
}
void ComputeXYZWithoutCache(const FVoxelContext& Context, FOutputs& Outputs) const
{
Function0_XYZWithoutCache_Compute(Context, Outputs);
}
inline FBufferX GetBufferX() const { return {}; }
inline FBufferXY GetBufferXY() const { return {}; }
inline FOutputs GetOutputs() const { return {}; }
private:
FBufferConstant BufferConstant;
const FParams& Params;
///////////////////////////////////////////////////////////////////////
//////////////////////////// Init functions ///////////////////////////
///////////////////////////////////////////////////////////////////////
void Function0_XYZWithoutCache_Init(const FVoxelGeneratorInit& InitStruct)
{
}
///////////////////////////////////////////////////////////////////////
////////////////////////// Compute functions //////////////////////////
///////////////////////////////////////////////////////////////////////
void Function0_X_Compute(const FVoxelContext& Context, FBufferX& BufferX) const
{
}
void Function0_XYWithCache_Compute(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
}
void Function0_XYWithoutCache_Compute(const FVoxelContext& Context, FBufferX& BufferX, FBufferXY& BufferXY) const
{
}
void Function0_XYZWithCache_Compute(const FVoxelContext& Context, const FBufferX& BufferX, const FBufferXY& BufferXY, FOutputs& Outputs) const
{
}
void Function0_XYZWithoutCache_Compute(const FVoxelContext& Context, FOutputs& Outputs) const
{
}
};
class FLocalComputeStruct_LocalValueRangeAnalysis
{
public:
struct FOutputs
{
FOutputs() {}
void Init(const FVoxelGraphOutputsInit& Init)
{
}
template<typename T, uint32 Index>
TVoxelRange<T> Get() const;
template<typename T, uint32 Index>
void Set(TVoxelRange<T> Value);
TVoxelRange<v_flt> Value;
};
struct FBufferConstant
{
FBufferConstant() {}
TVoxelRange<v_flt> Variable_0; // 2D Noise SDF.+ output 0
};
struct FBufferX
{
FBufferX() {}
};
struct FBufferXY
{
FBufferXY() {}
};
FLocalComputeStruct_LocalValueRangeAnalysis(const FParams& InParams)
: Params(InParams)
{
}
void Init(const FVoxelGeneratorInit& InitStruct)
{
////////////////////////////////////////////////////
//////////////////// Init nodes ////////////////////
////////////////////////////////////////////////////
{
////////////////////////////////////////////////////
/////////////// Constant nodes init ////////////////
////////////////////////////////////////////////////
{
/////////////////////////////////////////////////////////////////////////////////
//////// First compute all seeds in case they are used by constant nodes ////////
/////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////
///////////// Then init constant nodes /////////////
////////////////////////////////////////////////////
// Init of 2D Perlin Noise Fractal
_2D_Perlin_Noise_Fractal_2_Noise.SetSeed(FVoxelGraphSeed(1337));
_2D_Perlin_Noise_Fractal_2_Noise.SetInterpolation(EVoxelNoiseInterpolation::Quintic);
_2D_Perlin_Noise_Fractal_2_Noise.SetFractalOctavesAndGain(7, 0.5);
_2D_Perlin_Noise_Fractal_2_Noise.SetFractalLacunarity(2.0);
_2D_Perlin_Noise_Fractal_2_Noise.SetFractalType(EVoxelNoiseFractalType::FBM);
_2D_Perlin_Noise_Fractal_2_LODToOctaves[0] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[1] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[2] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[3] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[4] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[5] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[6] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[7] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[8] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[9] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[10] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[11] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[12] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[13] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[14] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[15] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[16] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[17] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[18] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[19] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[20] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[21] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[22] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[23] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[24] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[25] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[26] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[27] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[28] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[29] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[30] = 7;
_2D_Perlin_Noise_Fractal_2_LODToOctaves[31] = 7;
}
////////////////////////////////////////////////////
//////////////////// Other inits ///////////////////
////////////////////////////////////////////////////
Function0_XYZWithoutCache_Init(InitStruct);
}
////////////////////////////////////////////////////
//////////////// Compute constants /////////////////
////////////////////////////////////////////////////
{
// 2D Perlin Noise Fractal
TVoxelRange<v_flt> Variable_1; // 2D Perlin Noise Fractal output 0
Variable_1 = { -0.601283f, 0.600269f };
// 2D Noise SDF.*
TVoxelRange<v_flt> Variable_5; // 2D Noise SDF.* output 0
Variable_5 = Variable_1 * TVoxelRange<v_flt>(300.0f);
// 2D Noise SDF.+
BufferConstant.Variable_0 = Variable_5 + TVoxelRange<v_flt>(0.0f);
}
}
void ComputeXYZWithoutCache(const FVoxelContextRange& Context, FOutputs& Outputs) const
{
Function0_XYZWithoutCache_Compute(Context, Outputs);
}
inline FBufferX GetBufferX() const { return {}; }
inline FBufferXY GetBufferXY() const { return {}; }
inline FOutputs GetOutputs() const { return {}; }
private:
FBufferConstant BufferConstant;
const FParams& Params;
FVoxelFastNoise _2D_Perlin_Noise_Fractal_2_Noise;
TStaticArray<uint8, 32> _2D_Perlin_Noise_Fractal_2_LODToOctaves;
///////////////////////////////////////////////////////////////////////
//////////////////////////// Init functions ///////////////////////////
///////////////////////////////////////////////////////////////////////
void Function0_XYZWithoutCache_Init(const FVoxelGeneratorInit& InitStruct)
{
}
///////////////////////////////////////////////////////////////////////
////////////////////////// Compute functions //////////////////////////
///////////////////////////////////////////////////////////////////////
void Function0_XYZWithoutCache_Compute(const FVoxelContextRange& Context, FOutputs& Outputs) const
{
// Z
TVoxelRange<v_flt> Variable_2; // Z output 0
Variable_2 = Context.GetLocalZ();
// 2D Noise SDF.-
TVoxelRange<v_flt> Variable_4; // 2D Noise SDF.- output 0
Variable_4 = Variable_2 - BufferConstant.Variable_0;
// Set High Quality Value.*
TVoxelRange<v_flt> Variable_3; // Set High Quality Value.* output 0
Variable_3 = Variable_4 * TVoxelRange<v_flt>(0.2f);
Outputs.Value = Variable_3;
}
};
FVG_Example_MultiIndexInstance(UVG_Example_MultiIndex& Object)
: TVoxelGraphGeneratorInstanceHelper(
{
{ "Value", 1 },
},
{
},
{
},
{
{
{ "Value", NoTransformAccessor<v_flt>::Get<1, TOutputFunctionPtr<v_flt>>() },
},
{
},
{
},
{
{ "Value", NoTransformRangeAccessor<v_flt>::Get<1, TRangeOutputFunctionPtr<v_flt>>() },
}
},
{
{
{ "Value", WithTransformAccessor<v_flt>::Get<1, TOutputFunctionPtr_Transform<v_flt>>() },
},
{
},
{
},
{
{ "Value", WithTransformRangeAccessor<v_flt>::Get<1, TRangeOutputFunctionPtr_Transform<v_flt>>() },
}
},
Object)
, Params(FParams
{
*Object.Layer_0.GetAssetName(),
*Object.Layer_1.GetAssetName(),
*Object.Layer_2.GetAssetName(),
*Object.Layer_3.GetAssetName()
})
, LocalValue(Params)
, LocalMaterial(Params)
, LocalUpVectorXUpVectorYUpVectorZ(Params)
, LocalValueRangeAnalysis(Params)
{
}
virtual void InitGraph(const FVoxelGeneratorInit& InitStruct) override final
{
LocalValue.Init(InitStruct);
LocalMaterial.Init(InitStruct);
LocalUpVectorXUpVectorYUpVectorZ.Init(InitStruct);
LocalValueRangeAnalysis.Init(InitStruct);
}
template<uint32... Permutation>
auto& GetTarget() const;
template<uint32... Permutation>
auto& GetRangeTarget() const;
private:
FParams Params;
FLocalComputeStruct_LocalValue LocalValue;
FLocalComputeStruct_LocalMaterial LocalMaterial;
FLocalComputeStruct_LocalUpVectorXUpVectorYUpVectorZ LocalUpVectorXUpVectorYUpVectorZ;
FLocalComputeStruct_LocalValueRangeAnalysis LocalValueRangeAnalysis;
};
template<>
inline v_flt FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalValue::FOutputs::Get<v_flt, 1>() const
{
return Value;
}
template<>
inline void FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalValue::FOutputs::Set<v_flt, 1>(v_flt InValue)
{
Value = InValue;
}
template<>
inline FVoxelMaterial FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalMaterial::FOutputs::Get<FVoxelMaterial, 2>() const
{
return MaterialBuilder.Build();
}
template<>
inline void FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalMaterial::FOutputs::Set<FVoxelMaterial, 2>(FVoxelMaterial Material)
{
}
template<>
inline v_flt FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalUpVectorXUpVectorYUpVectorZ::FOutputs::Get<v_flt, 3>() const
{
return UpVectorX;
}
template<>
inline void FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalUpVectorXUpVectorYUpVectorZ::FOutputs::Set<v_flt, 3>(v_flt InValue)
{
UpVectorX = InValue;
}
template<>
inline v_flt FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalUpVectorXUpVectorYUpVectorZ::FOutputs::Get<v_flt, 4>() const
{
return UpVectorY;
}
template<>
inline void FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalUpVectorXUpVectorYUpVectorZ::FOutputs::Set<v_flt, 4>(v_flt InValue)
{
UpVectorY = InValue;
}
template<>
inline v_flt FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalUpVectorXUpVectorYUpVectorZ::FOutputs::Get<v_flt, 5>() const
{
return UpVectorZ;
}
template<>
inline void FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalUpVectorXUpVectorYUpVectorZ::FOutputs::Set<v_flt, 5>(v_flt InValue)
{
UpVectorZ = InValue;
}
template<>
inline TVoxelRange<v_flt> FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalValueRangeAnalysis::FOutputs::Get<v_flt, 1>() const
{
return Value;
}
template<>
inline void FVG_Example_MultiIndexInstance::FLocalComputeStruct_LocalValueRangeAnalysis::FOutputs::Set<v_flt, 1>(TVoxelRange<v_flt> InValue)
{
Value = InValue;
}
template<>
inline auto& FVG_Example_MultiIndexInstance::GetTarget<1>() const
{
return LocalValue;
}
template<>
inline auto& FVG_Example_MultiIndexInstance::GetTarget<2>() const
{
return LocalMaterial;
}
template<>
inline auto& FVG_Example_MultiIndexInstance::GetRangeTarget<0, 1>() const
{
return LocalValueRangeAnalysis;
}
template<>
inline auto& FVG_Example_MultiIndexInstance::GetTarget<3, 4, 5>() const
{
return LocalUpVectorXUpVectorYUpVectorZ;
}
#endif
////////////////////////////////////////////////////////////
////////////////////////// UCLASS //////////////////////////
////////////////////////////////////////////////////////////
UVG_Example_MultiIndex::UVG_Example_MultiIndex()
{
bEnableRangeAnalysis = true;
}
TVoxelSharedRef<FVoxelTransformableGeneratorInstance> UVG_Example_MultiIndex::GetTransformableInstance()
{
#if VOXEL_GRAPH_GENERATED_VERSION == 1
return MakeVoxelShared<FVG_Example_MultiIndexInstance>(*this);
#else
#if VOXEL_GRAPH_GENERATED_VERSION > 1
EMIT_CUSTOM_WARNING("Outdated generated voxel graph: VG_Example_MultiIndex. You need to regenerate it.");
FVoxelMessages::Warning("Outdated generated voxel graph: VG_Example_MultiIndex. You need to regenerate it.");
#else
EMIT_CUSTOM_WARNING("Generated voxel graph is more recent than the Voxel Plugin version: VG_Example_MultiIndex. You need to update the plugin.");
FVoxelMessages::Warning("Generated voxel graph is more recent than the Voxel Plugin version: VG_Example_MultiIndex. You need to update the plugin.");
#endif
return MakeVoxelShared<FVoxelTransformableEmptyGeneratorInstance>();
#endif
}
PRAGMA_GENERATED_VOXEL_GRAPH_END
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