mirror-github-bspeice/fractorium
1
0
Fork 0
mirror of https://bitbucket.org/mfeemster/fractorium.git synced 2025-01-21 21:20:07 -05:00
Code Issues Actions Packages Projects Releases Wiki Activity
4059767dc4
fractorium/Source/Ember/Variations03.h

4605 lines
140 KiB
C++
Raw Blame History

#pragma once
#include "Variation.h"
namespace EmberNs
{
/// <summary>
/// Funnel.
/// </summary>
template <typename T>
class EMBER_API FunnelVariation : public ParametricVariation<T>
{
public:
FunnelVariation(T weight = 1.0) : ParametricVariation<T>("funnel", VAR_FUNNEL, weight)
{
Init();
}
PARVARCOPY(FunnelVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T temp = 1 / Zeps(cos(helper.In.y)) + m_Effect * T(M_PI);
helper.Out.x = m_Weight * (tanh(helper.In.x) * temp);
helper.Out.y = m_Weight * (tanh(helper.In.y) * temp);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string effect = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t temp = 1 / Zeps(cos(vIn.y)) + " << effect << " * M_PI;\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (tanh(vIn.x) * temp);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (tanh(vIn.y) * temp);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Effect, prefix + "funnel_effect", 8, INTEGER));
}
private:
T m_Effect;
};
/// <summary>
/// Linear3D.
/// </summary>
template <typename T>
class EMBER_API Linear3DVariation : public Variation<T>
{
public:
Linear3DVariation(T weight = 1.0) : Variation<T>("linear3D", VAR_LINEAR3D, weight) { }
VARCOPY(Linear3DVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
helper.Out.x = m_Weight * helper.In.x;
helper.Out.y = m_Weight * helper.In.y;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss;
intmax_t varIndex = IndexInXform();
ss << "\t{\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * vIn.x;\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * vIn.y;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
};
/// <summary>
/// PowBlock.
/// </summary>
template <typename T>
class EMBER_API PowBlockVariation : public ParametricVariation<T>
{
public:
PowBlockVariation(T weight = 1.0) : ParametricVariation<T>("pow_block", VAR_POW_BLOCK, weight, true, false, false, false, true)
{
Init();
}
PARVARCOPY(PowBlockVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T r2 = pow(helper.m_PrecalcSumSquares, m_Power * T(0.5)) * m_Weight;
T ran = (helper.m_PrecalcAtanyx / Zeps(m_Denominator) + (m_Root * M_2PI * Floor<T>(rand.Frand01<T>() * m_Denominator) / Zeps(m_Denominator))) * m_Numerator;
helper.Out.x = r2 * cos(ran);
helper.Out.y = r2 * sin(ran);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string numerator = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string denominator = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string root = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string correctN = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string correctD = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string power = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t r2 = pow(precalcSumSquares, " << power << " * 0.5) * xform->m_VariationWeights[" << varIndex << "];\n"
<< "\t\treal_t ran = (precalcAtanyx / Zeps(" << denominator << ") + (" << root << " * M_2PI * floor(MwcNext01(mwc) * " << denominator << ") / Zeps(" << denominator << "))) * " << numerator << ";\n"
<< "\n"
<< "\t\tvOut.x = r2 * cos(ran);\n"
<< "\t\tvOut.y = r2 * sin(ran);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_Power = m_Numerator / Zeps(m_Denominator * m_Correctn * (1 / m_Correctd));
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Numerator, prefix + "pow_block_numerator", 3));//Original used a prefix of pow_, which is incompatible with Ember's design.
m_Params.push_back(ParamWithName<T>(&m_Denominator, prefix + "pow_block_denominator", 2));
m_Params.push_back(ParamWithName<T>(&m_Root, prefix + "pow_block_root", 1));
m_Params.push_back(ParamWithName<T>(&m_Correctn, prefix + "pow_block_correctn", 1));
m_Params.push_back(ParamWithName<T>(&m_Correctd, prefix + "pow_block_correctd", 1));
m_Params.push_back(ParamWithName<T>(true, &m_Power, prefix + "pow_block_power"));//Precalc.
}
private:
T m_Numerator;
T m_Denominator;
T m_Root;
T m_Correctn;
T m_Correctd;
T m_Power;//Precalc.
};
/// <summary>
/// Squirrel.
/// </summary>
template <typename T>
class EMBER_API SquirrelVariation : public ParametricVariation<T>
{
public:
SquirrelVariation(T weight = 1.0) : ParametricVariation<T>("squirrel", VAR_SQUIRREL, weight)
{
Init();
}
PARVARCOPY(SquirrelVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T u = sqrt(ClampGte0<T>(Zeps(m_A) * SQR(helper.In.x) + Zeps(m_B) * SQR(helper.In.y)));//Original did not clamp.
helper.Out.x = cos(u) * SafeTan<T>(helper.In.x) * m_Weight;
helper.Out.y = sin(u) * SafeTan<T>(helper.In.y) * m_Weight;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string a = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string b = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t u = sqrt(ClampGte(Zeps(" << a << ") * SQR(vIn.x) + Zeps(" << b << ") * SQR(vIn.y), 0.0));\n"
<< "\n"
<< "\t\tvOut.x = cos(u) * tan(vIn.x) * xform->m_VariationWeights[" << varIndex << "];\n"
<< "\t\tvOut.y = sin(u) * tan(vIn.y) * xform->m_VariationWeights[" << varIndex << "];\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_A, prefix + "squirrel_a", 1));
m_Params.push_back(ParamWithName<T>(&m_B, prefix + "squirrel_b", 1));
}
private:
T m_A;
T m_B;
};
/// <summary>
/// Ennepers.
/// </summary>
template <typename T>
class EMBER_API EnnepersVariation : public Variation<T>
{
public:
EnnepersVariation(T weight = 1.0) : Variation<T>("ennepers", VAR_ENNEPERS, weight) { }
VARCOPY(EnnepersVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
helper.Out.x = m_Weight * (helper.In.x - ((SQR(helper.In.x) * helper.In.x) / 3)) + helper.In.x * SQR(helper.In.y);
helper.Out.y = m_Weight * (helper.In.y - ((SQR(helper.In.y) * helper.In.y) / 3)) + helper.In.y * SQR(helper.In.x);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss;
intmax_t varIndex = IndexInXform();
ss << "\t{\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (vIn.x - ((SQR(vIn.x) * vIn.x) / 3)) + vIn.x * SQR(vIn.y);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (vIn.y - ((SQR(vIn.y) * vIn.y) / 3)) + vIn.y * SQR(vIn.x);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
};
/// <summary>
/// SphericalN.
/// </summary>
template <typename T>
class EMBER_API SphericalNVariation : public ParametricVariation<T>
{
public:
SphericalNVariation(T weight = 1.0) : ParametricVariation<T>("SphericalN", VAR_SPHERICALN, weight, true, true, false, false, true)
{
Init();
}
PARVARCOPY(SphericalNVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T r = Zeps(pow(helper.m_PrecalcSqrtSumSquares, m_Dist));
int n = Floor<T>(m_Power * rand.Frand01<T>());
T alpha = helper.m_PrecalcAtanyx + n * M_2PI / Zeps<T>(T(Floor<T>(m_Power)));
T sina = sin(alpha);
T cosa = cos(alpha);
helper.Out.x = m_Weight * cosa / r;
helper.Out.y = m_Weight * sina / r;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string power = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string dist = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t r = Zeps(pow(precalcSqrtSumSquares, " << dist << "));\n"
<< "\t\tint n = floor(" << power << " * MwcNext01(mwc));\n"
<< "\t\treal_t alpha = precalcAtanyx + n * M_2PI / Zeps(floor(" << power << "));\n"
<< "\t\treal_t sina = sin(alpha);\n"
<< "\t\treal_t cosa = cos(alpha);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * cosa / r;\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sina / r;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Power, prefix + "SphericalN_Power", 1));
m_Params.push_back(ParamWithName<T>(&m_Dist, prefix + "SphericalN_Dist", 1));
}
private:
T m_Power;
T m_Dist;
};
/// <summary>
/// Kaleidoscope.
/// </summary>
template <typename T>
class EMBER_API KaleidoscopeVariation : public ParametricVariation<T>
{
public:
KaleidoscopeVariation(T weight = 1.0) : ParametricVariation<T>("Kaleidoscope", VAR_KALEIDOSCOPE, weight)
{
Init();
}
PARVARCOPY(KaleidoscopeVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T sin45 = sin(45 * DEG_2_RAD_T);//Was 45 radians? They probably meant to convert this from degrees.
T cos45 = cos(45 * DEG_2_RAD_T);
helper.Out.x = ((m_Rotate * helper.In.x) * cos45 - helper.In.y * sin45 + m_LineUp) + m_X;
//The if function splits the plugin in two.
if (helper.In.y > 0)
helper.Out.y = ((m_Rotate * helper.In.y) * cos45 + helper.In.x * sin45 + m_Pull + m_LineUp) + m_Y;
else
helper.Out.y = (m_Rotate * helper.In.y) * cos45 + helper.In.x * sin45 - m_Pull - m_LineUp;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string pull = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rotate = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string lineUp = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string x = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string y = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t sin45 = sin(45 * DEG_2_RAD);\n"
<< "\t\treal_t cos45 = cos(45 * DEG_2_RAD);\n"
<< "\n"
<< "\t\tvOut.x = ((" << rotate << " * vIn.x) * cos45 - vIn.y * sin45 + " << lineUp << ") + " << x << ";\n"
<< "\n"
<< "\t\tif (vIn.y > 0)\n"
<< "\t\t vOut.y = ((" << rotate << " * vIn.y) * cos45 + vIn.x * sin45 + " << pull << " + " << lineUp << ") + " << y << ";\n"
<< "\t\telse\n"
<< "\t\t vOut.y = (" << rotate << " * vIn.y) * cos45 + vIn.x * sin45 - " << pull << " - " << lineUp << ";\n"
<< "\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Pull, prefix + "Kaleidoscope_pull"));
m_Params.push_back(ParamWithName<T>(&m_Rotate, prefix + "Kaleidoscope_rotate", 1));
m_Params.push_back(ParamWithName<T>(&m_LineUp, prefix + "Kaleidoscope_line_up", 1));
m_Params.push_back(ParamWithName<T>(&m_X, prefix + "Kaleidoscope_x"));
m_Params.push_back(ParamWithName<T>(&m_Y, prefix + "Kaleidoscope_y"));
}
private:
T m_Pull;//Pulls apart the 2 sections of the plugin.
T m_Rotate;//Rotates both halves of the plugin.
T m_LineUp;
T m_X;//Changes x co-ordinates.
T m_Y;//Changes y co-ordinates for 1 part of the plugin.
};
/// <summary>
/// GlynnSim1.
/// </summary>
template <typename T>
class EMBER_API GlynnSim1Variation : public ParametricVariation<T>
{
public:
GlynnSim1Variation(T weight = 1.0) : ParametricVariation<T>("GlynnSim1", VAR_GLYNNSIM1, weight, true, true)
{
Init();
}
PARVARCOPY(GlynnSim1Variation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T x, y, z;
if (helper.m_PrecalcSqrtSumSquares < m_Radius)//Object generation.
{
Circle(rand, &x, &y);
helper.Out.x = m_Weight * x;
helper.Out.y = m_Weight * y;
}
else
{
T alpha = fabs(m_Radius / Zeps(helper.m_PrecalcSqrtSumSquares));//Original did not fabs().
if (rand.Frand01<T>() > m_Contrast * pow(alpha, m_Pow))
{
x = helper.In.x;
y = helper.In.y;
}
else
{
x = SQR(alpha) * helper.In.x;
y = SQR(alpha) * helper.In.y;
}
z = Sqr(x - m_X1) + Sqr(y - m_Y1);
if (z < SQR(m_Radius1))//Object generation.
{
Circle(rand, &x, &y);
helper.Out.x = m_Weight * x;
helper.Out.y = m_Weight * y;
}
else
{
helper.Out.x = m_Weight * x;
helper.Out.y = m_Weight * y;
}
}
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string radius = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string radius1 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string phi1 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string thickness = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string contrast = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string pow = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string x1 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string y1 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t x, y, z;\n"
<< "\n"
<< "\t\tif (precalcSqrtSumSquares < " << radius << ")\n"
<< "\t\t{\n"
<< "\t\t GlynnSim1Circle(&" << radius1 << ", &" << thickness << ", &" << x1 << ", &" << y1 << ", mwc, &x, &y);\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * y;\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t real_t alpha = fabs(" << radius << " / Zeps(precalcSqrtSumSquares));\n"
<< "\n"
<< "\t\t if (MwcNext01(mwc) > " << contrast << " * pow(alpha, " << pow << "))\n"
<< "\t\t {\n"
<< "\t\t x = vIn.x;\n"
<< "\t\t y = vIn.y;\n"
<< "\t\t }\n"
<< "\t\t else\n"
<< "\t\t {\n"
<< "\t\t x = SQR(alpha) * vIn.x;\n"
<< "\t\t y = SQR(alpha) * vIn.y;\n"
<< "\t\t }\n"
<< "\n"
<< "\t\t z = Sqr(x - " << x1 << ") + Sqr(y - " << y1 << ");\n"
<< "\n"
<< "\t\t if (z < SQR(" << radius1 << "))\n"
<< "\t\t {\n"
<< "\t\t GlynnSim1Circle(&" << radius1 << ", &" << thickness << ", &" << x1 << ", &" << y1 << ", mwc, &x, &y);\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * y;\n"
<< "\t\t }\n"
<< "\t\t else\n"
<< "\t\t {\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * y;\n"
<< "\t\t }\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual string OpenCLFuncsString()
{
return
"void GlynnSim1Circle(__constant real_t* radius1, __constant real_t* thickness, __constant real_t* x1, __constant real_t* y1, uint2* mwc, real_t* x, real_t* y)\n"
"{\n"
" real_t r = *radius1 * (*thickness + (1.0 - *thickness) * MwcNext01(mwc));\n"
" real_t phi = M_2PI * MwcNext01(mwc);\n"
" real_t sinPhi = sin(phi);\n"
" real_t cosPhi = cos(phi);\n"
"\n"
" *x = r * cosPhi + *x1;\n"
" *y = r * sinPhi + *y1;\n"
"}\n"
"\n";
}
virtual void Precalc() override
{
T val = DEG_2_RAD_T * m_Phi1;
T sinPhi1 = sin(val);
T cosPhi1 = cos(val);
m_Pow = fabs(m_Pow);
m_X1 = m_Radius * cosPhi1;
m_Y1 = m_Radius * sinPhi1;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Radius, prefix + "GlynnSim1_radius", 1));
m_Params.push_back(ParamWithName<T>(&m_Radius1, prefix + "GlynnSim1_radius1", T(0.1)));
m_Params.push_back(ParamWithName<T>(&m_Phi1, prefix + "GlynnSim1_phi1"));
m_Params.push_back(ParamWithName<T>(&m_Thickness, prefix + "GlynnSim1_thickness", T(0.1), REAL, 0, 1));
m_Params.push_back(ParamWithName<T>(&m_Contrast, prefix + "GlynnSim1_contrast", T(1.5)));
m_Params.push_back(ParamWithName<T>(&m_Pow, prefix + "GlynnSim1_pow", T(0.5), REAL, 0, 1));
m_Params.push_back(ParamWithName<T>(true, &m_X1, prefix + "GlynnSim1_x1"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_Y1, prefix + "GlynnSim1_y1"));
}
private:
void Circle(QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand, T* x, T* y)
{
T r = m_Radius1 * (m_Thickness + (1 - m_Thickness) * rand.Frand01<T>());
T phi = M_2PI * rand.Frand01<T>();
T sinPhi = sin(phi);
T cosPhi = cos(phi);
*x = r * cosPhi + m_X1;
*y = r * sinPhi + m_Y1;
}
T m_Radius;//Params.
T m_Radius1;
T m_Phi1;
T m_Thickness;
T m_Contrast;
T m_Pow;
T m_X1;//Precalc.
T m_Y1;
};
/// <summary>
/// GlynnSim2.
/// </summary>
template <typename T>
class EMBER_API GlynnSim2Variation : public ParametricVariation<T>
{
public:
GlynnSim2Variation(T weight = 1.0) : ParametricVariation<T>("GlynnSim2", VAR_GLYNNSIM2, weight, true, true)
{
Init();
}
PARVARCOPY(GlynnSim2Variation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T x, y;
if (helper.m_PrecalcSqrtSumSquares < m_Radius)
{
Circle(rand, &x,&y);
helper.Out.x = m_Weight * x;
helper.Out.y = m_Weight * y;
}
else
{
T alpha = fabs(m_Radius / Zeps(helper.m_PrecalcSqrtSumSquares));//Original did not fabs().
if (rand.Frand01<T>() > m_Contrast * pow(alpha, m_Pow))
{
helper.Out.x = m_Weight * helper.In.x;
helper.Out.y = m_Weight * helper.In.y;
}
else
{
helper.Out.x = m_Weight * SQR(alpha) * helper.In.x;
helper.Out.y = m_Weight * SQR(alpha) * helper.In.y;
}
}
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string radius = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string thickness = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string contrast = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string pow = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string phi1 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string phi2 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string phi10 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string phi20 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string gamma = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string delta = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t x, y;\n"
<< "\n"
<< "\t\tif (precalcSqrtSumSquares < " << radius << ")\n"
<< "\t\t{\n"
<< "\t\t GlynnSim2Circle(&" << radius << ", &" << thickness << ", &" << phi10 << ", &" << delta << ", &" << gamma << ", mwc, &x,&y);\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * y;\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t real_t alpha = fabs(" << radius << " / Zeps(precalcSqrtSumSquares));\n"
<< "\n"
<< "\t\t if (MwcNext01(mwc) > " << contrast << " * pow(alpha, " << pow << "))\n"
<< "\t\t {\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * vIn.x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * vIn.y;\n"
<< "\t\t }\n"
<< "\t\t else\n"
<< "\t\t {\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * SQR(alpha) * vIn.x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * SQR(alpha) * vIn.y;\n"
<< "\t\t }\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual string OpenCLFuncsString()
{
return
"void GlynnSim2Circle(__constant real_t* radius, __constant real_t* thickness, __constant real_t* phi10, __constant real_t* delta, __constant real_t* gamma, uint2* mwc, real_t* x, real_t* y)\n"
"{\n"
" real_t r = *radius + *thickness - *gamma * MwcNext01(mwc);\n"
" real_t phi = *phi10 + *delta * MwcNext01(mwc);\n"
" real_t sinPhi = sin(phi);\n"
" real_t cosPhi = cos(phi);\n"
"\n"
" *x = r * cosPhi;\n"
" *y = r * sinPhi;\n"
"}\n"
"\n";
}
virtual void Precalc() override
{
m_Pow = fabs(m_Pow);
m_Phi10 = T(M_PI) * m_Phi1 / 180;
m_Phi20 = T(M_PI) * m_Phi2 / 180;
m_Gamma = m_Thickness * (2 * m_Radius + m_Thickness) / Zeps(m_Radius + m_Thickness);
m_Delta = m_Phi20 - m_Phi10;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Radius, prefix + "GlynnSim2_radius", 1));
m_Params.push_back(ParamWithName<T>(&m_Thickness, prefix + "GlynnSim2_thickness", T(0.1), REAL, 0, 1));
m_Params.push_back(ParamWithName<T>(&m_Contrast, prefix + "GlynnSim2_contrast", T(0.5), REAL, 0, 1));
m_Params.push_back(ParamWithName<T>(&m_Pow, prefix + "GlynnSim2_pow", T(1.5)));
m_Params.push_back(ParamWithName<T>(&m_Phi1, prefix + "GlynnSim2_Phi1"));
m_Params.push_back(ParamWithName<T>(&m_Phi2, prefix + "GlynnSim2_Phi2", 360));
m_Params.push_back(ParamWithName<T>(true, &m_Phi10, prefix + "GlynnSim2_Phi10"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_Phi20, prefix + "GlynnSim2_Phi20"));
m_Params.push_back(ParamWithName<T>(true, &m_Gamma, prefix + "GlynnSim2_Gamma"));
m_Params.push_back(ParamWithName<T>(true, &m_Delta, prefix + "GlynnSim2_Delta"));
}
private:
void Circle(QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand, T* x, T* y)
{
T r = m_Radius + m_Thickness - m_Gamma * rand.Frand01<T>();
T phi = m_Phi10 + m_Delta * rand.Frand01<T>();
T sinPhi = sin(phi);
T cosPhi = cos(phi);
*x = r * cosPhi;
*y = r * sinPhi;
}
T m_Radius;//Params.
T m_Thickness;
T m_Contrast;
T m_Pow;
T m_Phi1;
T m_Phi2;
T m_Phi10;//Precalc.
T m_Phi20;
T m_Gamma;
T m_Delta;
};
/// <summary>
/// GlynnSim3.
/// </summary>
template <typename T>
class EMBER_API GlynnSim3Variation : public ParametricVariation<T>
{
public:
GlynnSim3Variation(T weight = 1.0) : ParametricVariation<T>("GlynnSim3", VAR_GLYNNSIM3, weight, true, true)
{
Init();
}
PARVARCOPY(GlynnSim3Variation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T x, y;
if (helper.m_PrecalcSqrtSumSquares < m_Radius1)
{
Circle(rand, &x,&y);
helper.Out.x = m_Weight * x;
helper.Out.y = m_Weight * y;
}
else
{
T alpha = fabs(m_Radius / Zeps(helper.m_PrecalcSqrtSumSquares));//Original did not fabs().
if (rand.Frand01<T>() > m_Contrast * pow(alpha, m_Pow))
{
helper.Out.x = m_Weight * helper.In.x;
helper.Out.y = m_Weight * helper.In.y;
}
else
{
helper.Out.x = m_Weight * SQR(alpha) * helper.In.x;
helper.Out.y = m_Weight * SQR(alpha) * helper.In.y;
}
}
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string radius = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string thickness = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string thickness2 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string contrast = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string pow = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string radius1 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string radius2 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string gamma = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t x, y;\n"
<< "\n"
<< "\t\tif (precalcSqrtSumSquares < " << radius1 << ")\n"
<< "\t\t{\n"
<< "\t\t GlynnSim3Circle(&" << radius << ", &" << radius1 << ", &" << radius2 << ", &" << thickness << ", &" << gamma << ", mwc, &x,&y);\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * y;\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t real_t alpha = fabs(" << radius << " / Zeps(precalcSqrtSumSquares));\n"
<< "\n"
<< "\t\t if (MwcNext01(mwc) > " << contrast << " * pow(alpha, " << pow << "))\n"
<< "\t\t {\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * vIn.x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * vIn.y;\n"
<< "\t\t }\n"
<< "\t\t else\n"
<< "\t\t {\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * SQR(alpha) * vIn.x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * SQR(alpha) * vIn.y;\n"
<< "\t\t }\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual string OpenCLFuncsString()
{
return
"void GlynnSim3Circle(__constant real_t* radius, __constant real_t* radius1, __constant real_t* radius2, __constant real_t* thickness, __constant real_t* gamma, uint2* mwc, real_t* x, real_t* y)\n"
"{\n"
" real_t r = *radius + *thickness - *gamma * MwcNext01(mwc);\n"
" real_t phi = M_2PI * MwcNext01(mwc);\n"
" real_t sinPhi = sin(phi);\n"
" real_t cosPhi = cos(phi);\n"
"\n"
" if (MwcNext01(mwc) < *gamma)\n"
" r = *radius1;\n"
" else\n"
" r = *radius2;\n"
"\n"
" *x = r * cosPhi;\n"
" *y = r * sinPhi;\n"
"}\n"
"\n";
}
virtual void Precalc() override
{
m_Radius1 = m_Radius + m_Thickness;
m_Radius2 = SQR(m_Radius) / Zeps(m_Radius1);
m_Gamma = m_Radius1 / Zeps(m_Radius1 + m_Radius2);
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Radius, prefix + "GlynnSim3_radius", 1));
m_Params.push_back(ParamWithName<T>(&m_Thickness, prefix + "GlynnSim3_thickness", T(0.1)));
m_Params.push_back(ParamWithName<T>(&m_Thickness2, prefix + "GlynnSim3_thickness2", T(0.1)));
m_Params.push_back(ParamWithName<T>(&m_Contrast, prefix + "GlynnSim3_contrast", T(0.5), REAL, 0, 1));
m_Params.push_back(ParamWithName<T>(&m_Pow, prefix + "GlynnSim3_pow", T(1.5)));
m_Params.push_back(ParamWithName<T>(true, &m_Radius1, prefix + "GlynnSim3_radius1"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_Radius2, prefix + "GlynnSim3_radius2"));
m_Params.push_back(ParamWithName<T>(true, &m_Gamma, prefix + "GlynnSim3_Gamma"));
}
private:
void Circle(QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand, T* x, T* y)
{
T r = m_Radius + m_Thickness - m_Gamma * rand.Frand01<T>();
T phi = M_2PI * rand.Frand01<T>();
T sinPhi = sin(phi);
T cosPhi = cos(phi);
if (rand.Frand01<T>() < m_Gamma)
r = m_Radius1;
else
r = m_Radius2;
*x = r * cosPhi;
*y = r * sinPhi;
}
T m_Radius;//Params.
T m_Thickness;
T m_Thickness2;
T m_Contrast;
T m_Pow;
T m_Radius1;//Precalc.
T m_Radius2;
T m_Gamma;
};
/// <summary>
/// Starblur.
/// </summary>
template <typename T>
class EMBER_API StarblurVariation : public ParametricVariation<T>
{
public:
StarblurVariation(T weight = 1.0) : ParametricVariation<T>("starblur", VAR_STARBLUR, weight)
{
Init();
}
PARVARCOPY(StarblurVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T f = rand.Frand01<T>() * m_Power * 2;
T angle = T(int(f));
f -= angle;
T x = f * m_Length;
T z = sqrt(1 + SQR(x) - 2 * x * cos(m_Alpha));
if (int(angle) % 2)
angle = M_2PI / m_Power * (int(angle) / 2) + asin(sin(m_Alpha) * x / z);
else
angle = M_2PI / m_Power * (int(angle) / 2) - asin(sin(m_Alpha) * x / z);
z *= sqrt(rand.Frand01<T>());
T temp = angle - T(M_PI_2);
helper.Out.x = m_Weight * z * cos(temp);
helper.Out.y = m_Weight * z * sin(temp);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string power = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string range = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string length = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string alpha = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t f = MwcNext01(mwc) * " << power << " * 2;\n"
<< "\t\treal_t angle = (real_t)(int)(f);\n"
<< "\n"
<< "\t\tf -= angle;\n"
<< "\n"
<< "\t\treal_t x = f * " << length << ";\n"
<< "\t\treal_t z = sqrt(1 + SQR(x) - 2 * x * cos(" << alpha << "));\n"
<< "\n"
<< "\t\tif (((int)angle) % 2)\n"
<< "\t\t angle = M_2PI / " << power << " * (((int)angle) / 2) + asin(sin(" << alpha << ") * x / z);\n"
<< "\t\telse\n"
<< "\t\t angle = M_2PI / " << power << " * (((int)angle) / 2) - asin(sin(" << alpha << ") * x / z);\n"
<< "\n"
<< "\t\tz *= sqrt(MwcNext01(mwc));\n"
<< "\n"
<< "\t\treal_t temp = angle - M_PI_2;\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * z * cos(temp);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * z * sin(temp);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_Alpha = T(M_PI) / m_Power;
m_Length = sqrt(1 + SQR(m_Range) - 2 * m_Range * cos(m_Alpha));
m_Alpha = asin(sin(m_Alpha) * m_Range / m_Length);
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Power, prefix + "starblur_power", 5, INTEGER_NONZERO));
m_Params.push_back(ParamWithName<T>(&m_Range, prefix + "starblur_range", T(0.4016228317)));
m_Params.push_back(ParamWithName<T>(true, &m_Length, prefix + "starblur_length"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_Alpha, prefix + "starblur_alpha"));
}
private:
T m_Power;
T m_Range;
T m_Length;//Precalc.
T m_Alpha;
};
/// <summary>
/// Sineblur.
/// </summary>
template <typename T>
class EMBER_API SineblurVariation : public ParametricVariation<T>
{
public:
SineblurVariation(T weight = 1.0) : ParametricVariation<T>("sineblur", VAR_SINEBLUR, weight)
{
Init();
}
PARVARCOPY(SineblurVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T ang = rand.Frand01<T>() * M_2PI;
T s = sin(ang);
T c = cos(ang);
T r = m_Weight * (m_Power == 1 ? acos(rand.Frand01<T>() * 2 - 1) / T(M_PI) : acos(exp(log(rand.Frand01<T>()) * m_Power) * 2 - 1) / T(M_PI));
helper.Out.x = r * c;
helper.Out.y = r * s;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string power = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t ang = MwcNext01(mwc) * M_2PI;\n"
<< "\t\treal_t s = sin(ang);\n"
<< "\t\treal_t c = cos(ang);\n"
<< "\t\treal_t r = xform->m_VariationWeights[" << varIndex << "] * (" << power << " == 1 ? acos(MwcNext01(mwc) * 2 - 1) / M_PI : acos(exp(log(MwcNext01(mwc)) * " << power << ") * 2 - 1) / M_PI);\n"
<< "\n"
<< "\t\tvOut.x = r * c;\n"
<< "\t\tvOut.y = r * s;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Power, prefix + "sineblur_power", 1, REAL, 0));
}
private:
T m_Power;
};
/// <summary>
/// Circleblur.
/// </summary>
template <typename T>
class EMBER_API CircleblurVariation : public Variation<T>
{
public:
CircleblurVariation(T weight = 1.0) : Variation<T>("circleblur", VAR_CIRCLEBLUR, weight) { }
VARCOPY(CircleblurVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T rad = sqrt(rand.Frand01<T>());
T temp = rand.Frand01<T>() * M_2PI;
helper.Out.x = m_Weight * cos(temp) * rad;
helper.Out.y = m_Weight * sin(temp) * rad;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss;
intmax_t varIndex = IndexInXform();
ss << "\t{\n"
<< "\t\treal_t rad = sqrt(MwcNext01(mwc));\n"
<< "\t\treal_t temp = MwcNext01(mwc) * M_2PI;\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * cos(temp) * rad;\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sin(temp) * rad;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
};
/// <summary>
/// Depth.
/// </summary>
template <typename T>
class EMBER_API DepthVariation : public ParametricVariation<T>
{
public:
DepthVariation(T weight = 1.0) : ParametricVariation<T>("depth", VAR_DEPTH, weight)
{
Init();
}
PARVARCOPY(DepthVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T coeff = fabs(helper.In.z);
if (coeff != 0 && m_Power != 1)
coeff = exp(log(coeff) * m_Power);
helper.Out.x = m_Weight * (helper.m_TransX + helper.In.x * coeff);
helper.Out.y = m_Weight * (helper.m_TransY + helper.In.y * coeff);
helper.Out.z = m_Weight * (helper.m_TransZ + helper.In.z * coeff);
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string power = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t coeff = fabs(vIn.z);\n"
<< "\n"
<< "\t\tif (coeff != 0 && " << power << " != 1)\n"
<< "\t\t coeff = exp(log(coeff) * " << power << ");\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (transX + vIn.x * coeff);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (transY + vIn.y * coeff);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * (transZ + vIn.z * coeff);\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Power, prefix + "depth_power", 1));
}
private:
T m_Power;
};
/// <summary>
/// CropN.
/// </summary>
template <typename T>
class EMBER_API CropNVariation : public ParametricVariation<T>
{
public:
CropNVariation(T weight = 1.0) : ParametricVariation<T>("cropn", VAR_CROPN, weight, true, true, false, false, true)
{
Init();
}
PARVARCOPY(CropNVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T xang = (helper.m_PrecalcAtanyx + T(M_PI)) / m_Alpha;
xang = (xang - int(xang)) * m_Alpha;
xang = cos((xang < m_Alpha / 2) ? xang : m_Alpha - xang);
T xr = xang > 0 ? m_Radius / xang : 1;
if ((helper.m_PrecalcSqrtSumSquares > xr) == (m_Power > 0))
{
if (m_Zero == 1)
{
helper.Out.x = helper.Out.y = 0;
}
else
{
T rdc = xr + (rand.Frand01<T>() * T(0.5) * m_ScatterDist);
helper.Out.x = m_Weight * rdc * cos(helper.m_PrecalcAtanyx);
helper.Out.y = m_Weight * rdc * sin(helper.m_PrecalcAtanyx);
}
}
else
{
helper.Out.x = m_Weight * helper.In.x;
helper.Out.y = m_Weight * helper.In.y;
}
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string power = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string radius = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string scatterDist = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string zero = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string workPower = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string alpha = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t xang = (precalcAtanyx + M_PI) / " << alpha << ";\n"
<< "\n"
<< "\t\txang = (xang - (int) xang) * " << alpha << ";\n"
<< "\t\txang = cos((xang < " << alpha << " / 2) ? xang : " << alpha << " - xang);\n"
<< "\n"
<< "\t\treal_t xr = xang > 0 ? " << radius << " / xang : 1;\n"
<< "\n"
<< "\t\tif ((precalcSqrtSumSquares > xr) == (" << power << " > 0))\n"
<< "\t\t{\n"
<< "\t\t if (" << zero << " == 1)\n"
<< "\t\t {\n"
<< "\t\t vOut.x = vOut.y = 0;\n"
<< "\t\t }\n"
<< "\t\t else\n"
<< "\t\t {\n"
<< "\t\t real_t rdc = xr + (MwcNext01(mwc) * 0.5 * " << scatterDist << ");\n"
<< "\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * rdc * cos(precalcAtanyx);\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * rdc * sin(precalcAtanyx);\n"
<< "\t\t }\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * vIn.x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * vIn.y;\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
bool mode = m_Power > 0;
m_WorkPower = mode ? m_Power : -m_Power;
ClampGteRef<T>(m_WorkPower, 2);
m_Alpha = M_2PI / m_WorkPower;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Power, prefix + "cropn_power", -5));
m_Params.push_back(ParamWithName<T>(&m_Radius, prefix + "cropn_radius", 1));
m_Params.push_back(ParamWithName<T>(&m_ScatterDist, prefix + "cropn_scatterdist"));
m_Params.push_back(ParamWithName<T>(&m_Zero, prefix + "cropn_zero", 0, INTEGER, 0, 1));
m_Params.push_back(ParamWithName<T>(true, &m_WorkPower, prefix + "cropn_workpower"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_Alpha, prefix + "cropn_alpha"));
}
private:
T m_Power;
T m_Radius;
T m_ScatterDist;
T m_Zero;
T m_WorkPower;//Precalc.
T m_Alpha;
};
/// <summary>
/// ShredRad.
/// </summary>
template <typename T>
class EMBER_API ShredRadVariation : public ParametricVariation<T>
{
public:
ShredRadVariation(T weight = 1.0) : ParametricVariation<T>("shredrad", VAR_SHRED_RAD, weight, true, true, false, false, true)
{
Init();
}
PARVARCOPY(ShredRadVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T xang = (helper.m_PrecalcAtanyx + M_3PI + m_Alpha / 2) / m_Alpha;
T zang = ((xang - int(xang)) * m_Width + int(xang)) * m_Alpha - T(M_PI) - m_Alpha / 2 * m_Width;
helper.Out.x = m_Weight * helper.m_PrecalcSqrtSumSquares * cos(zang);
helper.Out.y = m_Weight * helper.m_PrecalcSqrtSumSquares * sin(zang);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string n = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string width = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string alpha = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t xang = (precalcAtanyx + M_3PI + " << alpha << " / 2) / " << alpha << ";\n"
<< "\t\treal_t zang = ((xang - (int)xang) * " << width << " + (int)xang) * " << alpha << " - M_PI - " << alpha << " / 2 * " << width << ";\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * precalcSqrtSumSquares * cos(zang);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * precalcSqrtSumSquares * sin(zang);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_Alpha = M_2PI / m_N;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_N, prefix + "shredrad_n", 4, REAL_NONZERO));
m_Params.push_back(ParamWithName<T>(&m_Width, prefix + "shredrad_width", T(0.5), REAL, -1, 1));
m_Params.push_back(ParamWithName<T>(true, &m_Alpha, prefix + "shredrad_alpha"));//Precalc.
}
private:
T m_N;
T m_Width;
T m_Alpha;//Precalc.
};
/// <summary>
/// Blob2.
/// </summary>
template <typename T>
class EMBER_API Blob2Variation : public ParametricVariation<T>
{
public:
Blob2Variation(T weight = 1.0) : ParametricVariation<T>("blob2", VAR_BLOB2, weight, true, true, false, false, true)
{
Init();
}
PARVARCOPY(Blob2Variation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
if (helper.m_PrecalcSqrtSumSquares < m_Radius)
{
helper.Out.x = m_Weight * helper.In.x;
helper.Out.y = m_Weight * helper.In.y;
}
else
{
T delta = (sin(helper.m_PrecalcAtanyx * m_N) + m_Symmetry) / m_DeltaHelp;
T positive = 1 - T(delta < 0 ? 1 : 0) * 2;
if (m_Mode != 0)
delta = exp(m_Prescale * log(delta * positive)) * m_Postscale * m_Mode;
else
delta = exp(m_Prescale * log(delta * positive)) * m_Postscale * positive;
T rad = m_Radius + (helper.m_PrecalcSqrtSumSquares - m_Radius) * delta;
helper.Out.x = m_Weight * rad * cos(helper.m_PrecalcAtanyx);
helper.Out.y = m_Weight * rad * sin(helper.m_PrecalcAtanyx);
helper.Out.z = m_Weight * helper.In.z;
//helper.m_TransZ += m_Weight * outPoint.m_Z;//Original had this which is probably wrong.
}
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string mode = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string n = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string radius = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string prescale = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string postscale = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string symmetry = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string comp = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string dataHelp = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\tif (precalcSqrtSumSquares < " << radius << ")\n"
<< "\t\t{\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * vIn.x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * vIn.y;\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t real_t delta = (sin(precalcAtanyx * " << n << ") + " << symmetry << ") / " << dataHelp << ";\n"
<< "\t\t real_t positive = 1 - (real_t)(delta < 0 ? 1 : 0) * 2;\n"
<< "\n"
<< "\t\t if (" << mode << " != 0)\n"
<< "\t\t delta = exp(" << prescale << " * log(delta * positive)) * " << postscale << " * " << mode << ";\n"
<< "\t\t else\n"
<< "\t\t delta = exp(" << prescale << " * log(delta * positive)) * " << postscale << " * positive;\n"
<< "\n"
<< "\t\t real_t rad = " << radius << " + (precalcSqrtSumSquares - " << radius << ") * delta;\n"
<< "\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * rad * cos(precalcAtanyx);\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * rad * sin(precalcAtanyx);\n"
<< "\t\t vOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
//<< "\t\t transZ += xform->m_VariationWeights[" << varIndex << "] * outPoint->m_Z;\n"//Original had this which is probably wrong.
<< "\t\t}\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_DeltaHelp = 1 + m_Compensation * m_Symmetry * (1 - (m_Symmetry < 0) * 2);
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Mode, prefix + "blob2_mode", 0, INTEGER, -1, 1));
m_Params.push_back(ParamWithName<T>(&m_N, prefix + "blob2_n", 5, INTEGER));
m_Params.push_back(ParamWithName<T>(&m_Radius, prefix + "blob2_radius"));
m_Params.push_back(ParamWithName<T>(&m_Prescale, prefix + "blob2_prescale", 1));
m_Params.push_back(ParamWithName<T>(&m_Postscale, prefix + "blob2_postscale", T(0.5)));
m_Params.push_back(ParamWithName<T>(&m_Symmetry, prefix + "blob2_symmetry", 0, REAL, -1, 1));
m_Params.push_back(ParamWithName<T>(&m_Compensation, prefix + "blob2_compensation", 0, REAL, 0, 1));
m_Params.push_back(ParamWithName<T>(true, &m_DeltaHelp, prefix + "blob2_deltahelp"));//Precalc.
}
private:
T m_Mode;
T m_N;
T m_Radius;
T m_Prescale;
T m_Postscale;
T m_Symmetry;
T m_Compensation;
T m_DeltaHelp;//Precalc.
};
/// <summary>
/// Julia3D.
/// </summary>
template <typename T>
class EMBER_API Julia3DVariation : public ParametricVariation<T>
{
public:
Julia3DVariation(T weight = 1.0) : ParametricVariation<T>("julia3D", VAR_JULIA3D, weight, true, true, false, false, true)
{
Init();
}
PARVARCOPY(Julia3DVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T z = helper.In.z / m_AbsN;
T r = m_Weight * pow(helper.m_PrecalcSumSquares + SQR(z), m_Cn);
T tmp = r * helper.m_PrecalcSqrtSumSquares;
T ang = (helper.m_PrecalcAtanyx + M_2PI * rand.Rand(uint(m_AbsN))) / m_N;
helper.Out.x = tmp * cos(ang);
helper.Out.y = tmp * sin(ang);
helper.Out.z = r * z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string n = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string absn = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string cn = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t z = vIn.z / " << absn << ";\n"
<< "\t\treal_t r = xform->m_VariationWeights[" << varIndex << "] * pow(precalcSumSquares + SQR(z), " << cn << ");\n"
<< "\t\treal_t tmp = r * precalcSqrtSumSquares;\n"
<< "\t\treal_t ang = (precalcAtanyx + M_2PI * MwcNextRange(mwc, (uint)" << absn << ")) / " << n << ";\n"
<< "\n"
<< "\t\tvOut.x = tmp * cos(ang);\n"
<< "\t\tvOut.y = tmp * sin(ang);\n"
<< "\t\tvOut.z = r * z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_AbsN = fabs(m_N);
m_Cn = (1 / m_N - 1) / 2;
}
virtual void Random(QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
m_N = T(rand.Rand(5) + 2);
if (rand.Rand(2) == 0)
m_N = -m_N;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_N, prefix + "julia3D_power", 2, INTEGER_NONZERO));
m_Params.push_back(ParamWithName<T>(true, &m_AbsN, prefix + "julia3D_absn"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_Cn, prefix + "julia3D_cn"));
}
private:
T m_N;
T m_AbsN;//Precalc.
T m_Cn;
};
/// <summary>
/// Julia3Dz.
/// </summary>
template <typename T>
class EMBER_API Julia3DzVariation : public ParametricVariation<T>
{
public:
Julia3DzVariation(T weight = 1.0) : ParametricVariation<T>("julia3Dz", VAR_JULIA3DZ, weight, true, true, false, false, true)
{
Init();
}
PARVARCOPY(Julia3DzVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T r = m_Weight * pow(helper.m_PrecalcSumSquares, m_Cn);
T temp = (helper.m_PrecalcAtanyx + M_2PI * rand.Rand(uint(m_AbsN))) / m_N;
helper.Out.x = r * cos(temp);
helper.Out.y = r * sin(temp);
helper.Out.z = r * helper.In.z / (helper.m_PrecalcSqrtSumSquares * m_AbsN);
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string n = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string absn = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string cn = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t r = xform->m_VariationWeights[" << varIndex << "] * pow(precalcSumSquares, " << cn << ");\n"
<< "\t\treal_t temp = (precalcAtanyx + M_2PI * MwcNextRange(mwc, (uint)" << absn << ")) / " << n << ";\n"
<< "\n"
<< "\t\tvOut.x = r * cos(temp);\n"
<< "\t\tvOut.y = r * sin(temp);\n"
<< "\t\tvOut.z = r * vIn.z / (precalcSqrtSumSquares * " << absn << ");\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_AbsN = fabs(m_N);
m_Cn = 1 / m_N / 2;
}
virtual void Random(QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
m_N = T(rand.Rand(5) + 2);
if (rand.Rand(2) == 0)
m_N = -m_N;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_N, prefix + "julia3Dz_power", 2, INTEGER_NONZERO));
m_Params.push_back(ParamWithName<T>(true, &m_AbsN, prefix + "julia3Dz_absn"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_Cn, prefix + "julia3Dz_cn"));
}
private:
T m_N;
T m_AbsN;//Precalc.
T m_Cn;
};
/// <summary>
/// LinearT.
/// </summary>
template <typename T>
class EMBER_API LinearTVariation : public ParametricVariation<T>
{
public:
LinearTVariation(T weight = 1.0) : ParametricVariation<T>("linearT", VAR_LINEAR_T, weight)
{
Init();
}
PARVARCOPY(LinearTVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
helper.Out.x = SignNz<T>(helper.In.x) * pow(fabs(helper.In.x), m_PowX) * m_Weight;
helper.Out.y = SignNz<T>(helper.In.y) * pow(fabs(helper.In.y), m_PowY) * m_Weight;
helper.Out.z = (m_VarType == VARTYPE_REG) ? 0 : helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string powx = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string powy = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\tvOut.x = SignNz(vIn.x) * pow(fabs(vIn.x), " << powx << ") * xform->m_VariationWeights[" << varIndex << "];\n"
<< "\t\tvOut.y = SignNz(vIn.y) * pow(fabs(vIn.y), " << powy << ") * xform->m_VariationWeights[" << varIndex << "];\n"
<< "\t\tvOut.z = " << ((m_VarType == VARTYPE_REG) ? "0" : "vIn.z") << ";\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_PowX, prefix + "linearT_powX", 1));//Original used a prefix of lT, which is incompatible with Ember's design.
m_Params.push_back(ParamWithName<T>(&m_PowY, prefix + "linearT_powY", 1));
}
private:
T m_PowX;
T m_PowY;
};
/// <summary>
/// LinearT3D.
/// </summary>
template <typename T>
class EMBER_API LinearT3DVariation : public ParametricVariation<T>
{
public:
LinearT3DVariation(T weight = 1.0) : ParametricVariation<T>("linearT3D", VAR_LINEAR_T3D, weight)
{
Init();
}
PARVARCOPY(LinearT3DVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
helper.Out.x = T(helper.In.x < 0 ? -1 : 1) * pow(fabs(helper.In.x), m_PowX) * m_Weight;
helper.Out.y = T(helper.In.y < 0 ? -1 : 1) * pow(fabs(helper.In.y), m_PowY) * m_Weight;
helper.Out.z = T(helper.In.z < 0 ? -1 : 1) * pow(fabs(helper.In.z), m_PowZ) * m_Weight;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string powx = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string powy = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string powz = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\tvOut.x = (real_t)(vIn.x < 0 ? -1 : 1) * pow(fabs(vIn.x), " << powx << ") * xform->m_VariationWeights[" << varIndex << "];\n"
<< "\t\tvOut.y = (real_t)(vIn.y < 0 ? -1 : 1) * pow(fabs(vIn.y), " << powy << ") * xform->m_VariationWeights[" << varIndex << "];\n"
<< "\t\tvOut.z = (real_t)(vIn.z < 0 ? -1 : 1) * pow(fabs(vIn.z), " << powz << ") * xform->m_VariationWeights[" << varIndex << "];\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_PowX, prefix + "linearT3D_powX", 1));
m_Params.push_back(ParamWithName<T>(&m_PowY, prefix + "linearT3D_powY", 1));
m_Params.push_back(ParamWithName<T>(&m_PowZ, prefix + "linearT3D_powZ", 1));
}
private:
T m_PowX;
T m_PowY;
T m_PowZ;
};
/// <summary>
/// Ovoid.
/// </summary>
template <typename T>
class EMBER_API OvoidVariation : public ParametricVariation<T>
{
public:
OvoidVariation(T weight = 1.0) : ParametricVariation<T>("ovoid", VAR_OVOID, weight, true)
{
Init();
}
PARVARCOPY(OvoidVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T r = m_Weight / Zeps(helper.m_PrecalcSumSquares);
helper.Out.x = helper.In.x * r * m_X;
helper.Out.y = helper.In.y * r * m_Y;
helper.Out.z = (m_VarType == VARTYPE_REG) ? 0 : helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string x = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string y = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t r = xform->m_VariationWeights[" << varIndex << "] / Zeps(precalcSumSquares);\n"
<< "\n"
<< "\t\tvOut.x = vIn.x * r * " << x << ";\n"
<< "\t\tvOut.y = vIn.y * r * " << y << ";\n"
<< "\t\tvOut.z = " << ((m_VarType == VARTYPE_REG) ? "0" : "vIn.z") << ";\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_X, prefix + "ovoid_x", 1));
m_Params.push_back(ParamWithName<T>(&m_Y, prefix + "ovoid_y", 1));
}
private:
T m_X;
T m_Y;
};
/// <summary>
/// Ovoid3D.
/// </summary>
template <typename T>
class EMBER_API Ovoid3DVariation : public ParametricVariation<T>
{
public:
Ovoid3DVariation(T weight = 1.0) : ParametricVariation<T>("ovoid3d", VAR_OVOID3D, weight, true)
{
Init();
}
PARVARCOPY(Ovoid3DVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T r = m_Weight / Zeps(helper.m_PrecalcSumSquares + SQR(helper.In.z));
helper.Out.x = helper.In.x * r * m_X;
helper.Out.y = helper.In.y * r * m_Y;
helper.Out.z = helper.In.z * r * m_Z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string x = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string y = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string z = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t r = xform->m_VariationWeights[" << varIndex << "] / Zeps(precalcSumSquares + SQR(vIn.z));\n"
<< "\n"
<< "\t\tvOut.x = vIn.x * r * " << x << ";\n"
<< "\t\tvOut.y = vIn.y * r * " << y << ";\n"
<< "\t\tvOut.z = vIn.z * r * " << z << ";\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_X, prefix + "ovoid3d_x", 1));
m_Params.push_back(ParamWithName<T>(&m_Y, prefix + "ovoid3d_y", 1));
m_Params.push_back(ParamWithName<T>(&m_Z, prefix + "ovoid3d_z", 1));
}
private:
T m_X;
T m_Y;
T m_Z;
};
/// <summary>
/// Spirograph.
/// </summary>
template <typename T>
class EMBER_API SpirographVariation : public ParametricVariation<T>
{
public:
SpirographVariation(T weight = 1.0) : ParametricVariation<T>("Spirograph", VAR_SPIROGRAPH, weight)
{
Init();
}
PARVARCOPY(SpirographVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T t = (m_TMax - m_TMin) * rand.Frand01<T>() + m_TMin;
T y = (m_YMax - m_YMin) * rand.Frand01<T>() + m_YMin;
T x1 = (m_A + m_B) * cos(t) - m_C1 * cos((m_A + m_B) / m_B * t);
T y1 = (m_A + m_B) * sin(t) - m_C2 * sin((m_A + m_B) / m_B * t);
helper.Out.x = m_Weight * (x1 + m_D * cos(t) + y);
helper.Out.y = m_Weight * (y1 + m_D * sin(t) + y);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string a = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string b = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string d = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string tmin = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string ymin = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string tmax = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string ymax = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string c1 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string c2 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t t = (" << tmax << " - " << tmin << ") * MwcNext01(mwc) + " << tmin << ";\n"
<< "\t\treal_t y = (" << ymax << " - " << ymin << ") * MwcNext01(mwc) + " << ymin << ";\n"
<< "\t\treal_t x1 = (" << a << " + " << b << ") * cos(t) - " << c1 << " * cos((" << a << " + " << b << ") / " << b << " * t);\n"
<< "\t\treal_t y1 = (" << a << " + " << b << ") * sin(t) - " << c2 << " * sin((" << a << " + " << b << ") / " << b << " * t);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (x1 + " << d << " * cos(t) + y);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (y1 + " << d << " * sin(t) + y);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_A, prefix + "Spirograph_a", 3));
m_Params.push_back(ParamWithName<T>(&m_B, prefix + "Spirograph_b", 2));
m_Params.push_back(ParamWithName<T>(&m_D, prefix + "Spirograph_d", 1));
m_Params.push_back(ParamWithName<T>(&m_TMin, prefix + "Spirograph_tmin", -1));
m_Params.push_back(ParamWithName<T>(&m_YMin, prefix + "Spirograph_ymin", -1));
m_Params.push_back(ParamWithName<T>(&m_TMax, prefix + "Spirograph_tmax", 1));
m_Params.push_back(ParamWithName<T>(&m_YMax, prefix + "Spirograph_ymax", 1));
m_Params.push_back(ParamWithName<T>(&m_C1, prefix + "Spirograph_c1", 0));
m_Params.push_back(ParamWithName<T>(&m_C2, prefix + "Spirograph_c2", 0));
}
private:
T m_A;
T m_B;
T m_D;
T m_TMin;
T m_YMin;
T m_TMax;
T m_YMax;
T m_C1;
T m_C2;
};
/// <summary>
/// Petal.
/// </summary>
template <typename T>
class EMBER_API PetalVariation : public Variation<T>
{
public:
PetalVariation(T weight = 1.0) : Variation<T>("petal", VAR_PETAL, weight) { }
VARCOPY(PetalVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T sinX = sin(helper.In.x);
T cosX = cos(helper.In.x);
T cosY = cos(helper.In.y);
T bx = Cube(cosX*cosY);
T by = Cube(sinX*cosY);
helper.Out.x = m_Weight * cosX * bx;
helper.Out.y = m_Weight * cosX * by;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss;
intmax_t varIndex = IndexInXform();
ss << "\t{\n"
<< "\t\treal_t sinX = sin(vIn.x);\n"
<< "\t\treal_t cosX = cos(vIn.x);\n"
<< "\t\treal_t sinY = sin(vIn.y);\n"
<< "\t\treal_t cosY = cos(vIn.y);\n"
<< "\t\treal_t bx = Cube(cosX*cosY);\n"
<< "\t\treal_t by = Cube(sinX*cosY);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * cosX * bx;\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * cosX * by;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
};
/// <summary>
/// RoundSpher.
/// </summary>
template <typename T>
class EMBER_API RoundSpherVariation : public Variation<T>
{
public:
RoundSpherVariation(T weight = 1.0) : Variation<T>("roundspher", VAR_ROUNDSPHER, weight, true) { }
VARCOPY(RoundSpherVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T e = 1 / helper.m_PrecalcSumSquares + SQR(T(M_2_PI));
helper.Out.x = m_Weight * (m_Weight / helper.m_PrecalcSumSquares * helper.In.x / e);
helper.Out.y = m_Weight * (m_Weight / helper.m_PrecalcSumSquares * helper.In.y / e);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss;
intmax_t varIndex = IndexInXform();
ss << "\t{\n"
<< "\t\treal_t e = 1 / precalcSumSquares + SQR(M_2_PI);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (xform->m_VariationWeights[" << varIndex << "] / precalcSumSquares * vIn.x / e);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (xform->m_VariationWeights[" << varIndex << "] / precalcSumSquares * vIn.y / e);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
};
/// <summary>
/// roundSpher3D.
/// </summary>
template <typename T>
class EMBER_API RoundSpher3DVariation : public Variation<T>
{
public:
RoundSpher3DVariation(T weight = 1.0) : Variation<T>("roundspher3D", VAR_ROUNDSPHER3D, weight, true, true) { }
VARCOPY(RoundSpher3DVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T inZ, otherZ, tempTz, tempPz;
inZ = helper.In.z;
if (m_VarType == VARTYPE_PRE)
otherZ = helper.m_TransZ;
else
otherZ = outPoint.m_Z;
if (inZ == 0)
tempTz = cos(helper.m_PrecalcSqrtSumSquares);
else
tempTz = helper.In.z;
if (otherZ == 0)
{
tempPz = cos(helper.m_PrecalcSqrtSumSquares);
if (m_VarType == VARTYPE_PRE)
helper.m_TransZ = 0;
else
outPoint.m_Z = 0;
}
else
{
if (m_VarType == VARTYPE_PRE)
{
tempPz = helper.m_TransZ;
helper.m_TransZ = 0;
}
else
{
tempPz = outPoint.m_Z;
outPoint.m_Z = 0;
}
}
T d = helper.m_PrecalcSumSquares + SQR(tempTz);
T e = 1 / d + SQR(T(M_2_PI));
helper.Out.x = m_Weight * (m_Weight / d * helper.In.x / e);
helper.Out.y = m_Weight * (m_Weight / d * helper.In.y / e);
helper.Out.z = tempPz + m_Weight * (m_Weight / d * tempTz / e);
}
virtual string OpenCLString() override
{
ostringstream ss;
intmax_t varIndex = IndexInXform();
ss << "\t{\n"
<< "\t\treal_t inZ, otherZ, tempTz, tempPz;\n"
<< "\t\tinZ = vIn.z;\n"
<< "\n";
if (m_VarType == VARTYPE_PRE)
ss << "\t\totherZ = transZ;\n";
else
ss << "\t\totherZ = outPoint->m_Z;\n";
ss
<< "\n"
<< "\t\tif (inZ == 0)\n"
<< "\t\t tempTz = cos(precalcSqrtSumSquares);\n"
<< "\t\telse\n"
<< "\t\t tempTz = vIn.z;\n"
<< "\n"
<< "\t\tif (otherZ == 0)\n"
<< "\t\t{\n"
<< "\t\t tempPz = cos(precalcSqrtSumSquares);\n"
<< "\n";
if (m_VarType == VARTYPE_PRE)
ss << "\t\t transZ = 0;\n";
else
ss << "\t\t outPoint->m_Z = 0;\n";
ss
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n";
if (m_VarType == VARTYPE_PRE)
{
ss
<< "\t\t tempPz = transZ;\n"
<< "\t\t transZ = 0;\n";
}
else
{
ss
<< "\t\t tempPz = outPoint->m_Z;\n"
<< "\t\t outPoint->m_Z = 0;\n";
}
ss
<< "\t\t}\n"
<< "\n"
<< "\t\treal_t d = precalcSumSquares + SQR(tempTz);\n"
<< "\t\treal_t e = 1 / d + SQR(M_2_PI);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (xform->m_VariationWeights[" << varIndex << "] / d * vIn.x / e);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (xform->m_VariationWeights[" << varIndex << "] / d * vIn.y / e);\n"
<< "\t\tvOut.z = tempPz + xform->m_VariationWeights[" << varIndex << "] * (xform->m_VariationWeights[" << varIndex << "] / d * tempTz / e);\n"
<< "\t}\n";
return ss.str();
}
};
/// <summary>
/// SpiralWing.
/// </summary>
template <typename T>
class EMBER_API SpiralWingVariation : public Variation<T>
{
public:
SpiralWingVariation(T weight = 1.0) : Variation<T>("spiralwing", VAR_SPIRAL_WING, weight, true) { }
VARCOPY(SpiralWingVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T d = Zeps(helper.m_PrecalcSumSquares);
T c1 = Zeps(SQR(helper.In.x));
T c2 = Zeps(SQR(helper.In.y));
helper.Out.x = m_Weight * ((1 / d) * cos(c1) * sin(c2));
helper.Out.y = m_Weight * ((1 / d) * sin(c1) * sin(c2));
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss;
intmax_t varIndex = IndexInXform();
ss << "\t{\n"
<< "\t\treal_t d = Zeps(precalcSumSquares);\n"
<< "\t\treal_t c1 = Zeps(SQR(vIn.x));\n"
<< "\t\treal_t c2 = Zeps(SQR(vIn.y));\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * ((1.0 / d) * cos(c1) * sin(c2));\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * ((1.0 / d) * sin(c1) * sin(c2));\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
};
/// <summary>
/// Squarize.
/// </summary>
template <typename T>
class EMBER_API SquarizeVariation : public Variation<T>
{
public:
SquarizeVariation(T weight = 1.0) : Variation<T>("squarize", VAR_SQUARIZE, weight, true, true, false, false, true) { }
VARCOPY(SquarizeVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T a = helper.m_PrecalcAtanyx;
if (a < 0)
a += M_2PI;
T p = 4 * helper.m_PrecalcSqrtSumSquares * a * T(M_1_PI);
if (p <= 1 * helper.m_PrecalcSqrtSumSquares)
{
helper.Out.x = m_Weight * helper.m_PrecalcSqrtSumSquares;
helper.Out.y = m_Weight * p;
}
else if (p <= 3 * helper.m_PrecalcSqrtSumSquares)
{
helper.Out.x = m_Weight * (2 * helper.m_PrecalcSqrtSumSquares - p);
helper.Out.y = m_Weight * helper.m_PrecalcSqrtSumSquares;
}
else if (p <= 5 * helper.m_PrecalcSqrtSumSquares)
{
helper.Out.x = -(m_Weight * helper.m_PrecalcSqrtSumSquares);
helper.Out.y = m_Weight * (4 * helper.m_PrecalcSqrtSumSquares - p);
}
else if (p <= 7 * helper.m_PrecalcSqrtSumSquares)
{
helper.Out.x = -(m_Weight * (6 * helper.m_PrecalcSqrtSumSquares - p));
helper.Out.y = -(m_Weight * helper.m_PrecalcSqrtSumSquares);
}
else
{
helper.Out.x = m_Weight * helper.m_PrecalcSqrtSumSquares;
helper.Out.y = -(m_Weight * (8 * helper.m_PrecalcSqrtSumSquares - p));
}
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss;
intmax_t varIndex = IndexInXform();
ss << "\t{\n"
<< "\t\treal_t a = precalcAtanyx;\n"
<< "\n"
<< "\t\tif (a < 0)\n"
<< "\t\t a += M_2PI;\n"
<< "\n"
<< "\t\treal_t p = 4 * precalcSqrtSumSquares * a * M_1_PI;\n"
<< "\n"
<< "\t\tif (p <= 1 * precalcSqrtSumSquares)\n"
<< "\t\t{\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * precalcSqrtSumSquares;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * p;\n"
<< "\t\t}\n"
<< "\t\telse if (p <= 3 * precalcSqrtSumSquares)\n"
<< "\t\t{\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * (2 * precalcSqrtSumSquares - p);\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * precalcSqrtSumSquares;\n"
<< "\t\t}\n"
<< "\t\telse if (p <= 5 * precalcSqrtSumSquares)\n"
<< "\t\t{\n"
<< "\t\t vOut.x = -(xform->m_VariationWeights[" << varIndex << "] * precalcSqrtSumSquares);\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * (4 * precalcSqrtSumSquares - p);\n"
<< "\t\t}\n"
<< "\t\telse if (p <= 7 * precalcSqrtSumSquares)\n"
<< "\t\t{\n"
<< "\t\t vOut.x = -(xform->m_VariationWeights[" << varIndex << "] * (6 * precalcSqrtSumSquares - p));\n"
<< "\t\t vOut.y = -(xform->m_VariationWeights[" << varIndex << "] * precalcSqrtSumSquares);\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * precalcSqrtSumSquares;\n"
<< "\t\t vOut.y = -(xform->m_VariationWeights[" << varIndex << "] * (8 * precalcSqrtSumSquares - p));\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
};
/// <summary>
/// Sschecks.
/// </summary>
template <typename T>
class EMBER_API SschecksVariation : public ParametricVariation<T>
{
public:
SschecksVariation(T weight = 1.0) : ParametricVariation<T>("sschecks", VAR_SSCHECKS, weight, true)
{
Init();
}
PARVARCOPY(SschecksVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T dx, dy, r = m_Weight / (helper.m_PrecalcSumSquares + EPS);
int isXY = int(LRint(helper.In.x * m_InvSize) + LRint(helper.In.y * m_InvSize));
if (isXY % 2)
{
dx = -m_X + m_Rand * rand.Frand01<T>();
dy = -m_Y;
}
else
{
dx = m_X;
dy = m_Y + m_Rand * rand.Frand01<T>();
}
helper.Out.x = m_Weight * (sin(helper.In.x) * r + dx);
helper.Out.y = m_Weight * (sin(helper.In.y) * r + dy);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string x = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string y = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string size = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rand = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string invSize = "parVars[" + ToUpper(m_Params[i++].Name()) + index;//Precalc.
ss << "\t{\n"
<< "\t\treal_t dx, dy, r = xform->m_VariationWeights[" << varIndex << "] / (precalcSumSquares + EPS);\n"
<< "\t\tint isXY = LRint(vIn.x * " << invSize << ") + LRint(vIn.y * " << invSize << ");\n"
<< "\n"
<< "\t\tif (isXY % 2)\n"
<< "\t\t{\n"
<< "\t\t dx = -" << x << " + " << rand << " * MwcNext01(mwc);\n"
<< "\t\t dy = -" << y << ";\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t dx = " << x << ";\n"
<< "\t\t dy = " << y << " + " << rand << " * MwcNext01(mwc);\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (sin(vIn.x) * r + dx);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (sin(vIn.y) * r + dy);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_InvSize = 1 / (m_Size + EPS);
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_X, prefix + "sschecks_x", T(0.5)));
m_Params.push_back(ParamWithName<T>(&m_Y, prefix + "sschecks_y", T(0.5)));
m_Params.push_back(ParamWithName<T>(&m_Size, prefix + "sschecks_size", T(0.5)));
m_Params.push_back(ParamWithName<T>(&m_Rand, prefix + "sschecks_rnd"));
m_Params.push_back(ParamWithName<T>(true, &m_InvSize, prefix + "sschecks_inv_size"));//Precalc.
}
private:
T m_X;
T m_Y;
T m_Size;
T m_Rand;
T m_InvSize;//Precalc.
};
/// <summary>
/// PhoenixJulia.
/// </summary>
template <typename T>
class EMBER_API PhoenixJuliaVariation : public ParametricVariation<T>
{
public:
PhoenixJuliaVariation(T weight = 1.0) : ParametricVariation<T>("phoenix_julia", VAR_PHOENIX_JULIA, weight, true)
{
Init();
}
PARVARCOPY(PhoenixJuliaVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T preX = helper.In.x * (m_XDistort + 1);
T preY = helper.In.y * (m_YDistort + 1);
T temp = atan2(preY, preX) * m_InvN + rand.Rand() * m_Inv2PiN;
T r = m_Weight * pow(helper.m_PrecalcSumSquares, m_Cn);
helper.Out.x = r * cos(temp);
helper.Out.y = r * sin(temp);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string power = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string dist = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string xDistort = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string yDistort = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string cN = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string invN = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string inv2PiN = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t preX = vIn.x * (" << xDistort << " + 1);\n"
<< "\t\treal_t preY = vIn.y * (" << yDistort << " + 1);\n"
<< "\t\treal_t temp = atan2(preY, preX) * " << invN << " + MwcNext(mwc) * " << inv2PiN << ";\n"
<< "\t\treal_t r = xform->m_VariationWeights[" << varIndex << "] * pow(precalcSumSquares, " << cN << ");\n"
<< "\n"
<< "\t\tvOut.x = r * cos(temp);\n"
<< "\t\tvOut.y = r * sin(temp);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_InvN = m_Dist / m_Power;
m_Inv2PiN = M_2PI / m_Power;
m_Cn = m_Dist / m_Power / 2;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Power, prefix + "phoenix_julia_power", 2));
m_Params.push_back(ParamWithName<T>(&m_Dist, prefix + "phoenix_julia_dist", 1));
m_Params.push_back(ParamWithName<T>(&m_XDistort, prefix + "phoenix_julia_x_distort", T(-0.5)));//Original omitted phoenix_ prefix.
m_Params.push_back(ParamWithName<T>(&m_YDistort, prefix + "phoenix_julia_y_distort"));
m_Params.push_back(ParamWithName<T>(true, &m_Cn, prefix + "phoenix_julia_cn"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_InvN, prefix + "phoenix_julia_invn"));
m_Params.push_back(ParamWithName<T>(true, &m_Inv2PiN, prefix + "phoenix_julia_inv2pin"));
}
private:
T m_Power;
T m_Dist;
T m_XDistort;
T m_YDistort;
T m_Cn;//Precalc.
T m_InvN;
T m_Inv2PiN;
};
/// <summary>
/// Mobius.
/// </summary>
template <typename T>
class EMBER_API MobiusVariation : public ParametricVariation<T>
{
public:
MobiusVariation(T weight = 1.0) : ParametricVariation<T>("Mobius", VAR_MOBIUS, weight)
{
Init();
}
PARVARCOPY(MobiusVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T uRe = m_Re_A * helper.In.x - m_Im_A * helper.In.y + m_Re_B;
T uIm = m_Re_A * helper.In.y + m_Im_A * helper.In.x + m_Im_B;
T vRe = m_Re_C * helper.In.x - m_Im_C * helper.In.y + m_Re_D;
T vIm = m_Re_C * helper.In.y + m_Im_C * helper.In.x + m_Im_D;
T vDenom = Zeps(SQR(vRe) + SQR(vIm));
helper.Out.x = m_Weight * (uRe * vRe + uIm * vIm) / vDenom;
helper.Out.y = m_Weight * (uIm * vRe - uRe * vIm) / vDenom;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string reA = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string imA = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string reB = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string imB = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string reC = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string imC = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string reD = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string imD = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t uRe = " << reA << " * vIn.x - " << imA << " * vIn.y + " << reB << ";\n"
<< "\t\treal_t uIm = " << reA << " * vIn.y + " << imA << " * vIn.x + " << imB << ";\n"
<< "\t\treal_t vRe = " << reC << " * vIn.x - " << imC << " * vIn.y + " << reD << ";\n"
<< "\t\treal_t vIm = " << reC << " * vIn.y + " << imC << " * vIn.x + " << imD << ";\n"
<< "\t\treal_t vDenom = Zeps(vRe * vRe + vIm * vIm);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (uRe * vRe + uIm * vIm) / vDenom;\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (uIm * vRe - uRe * vIm) / vDenom;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Re_A, prefix + "Mobius_Re_A", 1));//Original omitted Mobius_ prefix, which is incompatible with Ember's design.
m_Params.push_back(ParamWithName<T>(&m_Im_A, prefix + "Mobius_Im_A"));
m_Params.push_back(ParamWithName<T>(&m_Re_B, prefix + "Mobius_Re_B"));
m_Params.push_back(ParamWithName<T>(&m_Im_B, prefix + "Mobius_Im_B"));
m_Params.push_back(ParamWithName<T>(&m_Re_C, prefix + "Mobius_Re_C"));
m_Params.push_back(ParamWithName<T>(&m_Im_C, prefix + "Mobius_Im_C"));
m_Params.push_back(ParamWithName<T>(&m_Re_D, prefix + "Mobius_Re_D", 1));
m_Params.push_back(ParamWithName<T>(&m_Im_D, prefix + "Mobius_Im_D"));
}
private:
T m_Re_A;
T m_Im_A;
T m_Re_B;
T m_Im_B;
T m_Re_C;
T m_Im_C;
T m_Re_D;
T m_Im_D;
};
/// <summary>
/// MobiusN.
/// </summary>
template <typename T>
class EMBER_API MobiusNVariation : public ParametricVariation<T>
{
public:
MobiusNVariation(T weight = 1.0) : ParametricVariation<T>("MobiusN", VAR_MOBIUSN, weight, true, true, false, false, true)
{
Init();
}
PARVARCOPY(MobiusNVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
int n;
T z = 4 * m_Dist / m_Power;
T r = pow(helper.m_PrecalcSqrtSumSquares, z);
T alpha = helper.m_PrecalcAtanyx * m_Power;
T x = r * cos(alpha);
T y = r * sin(alpha);
T reU = m_Re_A * x - m_Im_A * y + m_Re_B;
T imU = m_Re_A * y + m_Im_A * x + m_Im_B;
T reV = m_Re_C * x - m_Im_C * y + m_Re_D;
T imV = m_Re_C * y + m_Im_C * x + m_Im_D;
T radV = reV * reV + imV * imV;
x = (reU * reV + imU * imV) / radV;
y = (imU * reV - reU * imV) / radV;
z = 1 / z;
r = pow(sqrt(SQR(x) + SQR(y)), z);
n = Floor<T>(m_Power * rand.Frand01<T>());
alpha = (atan2(y, x) + n * M_2PI) / Floor<T>(m_Power);
helper.Out.x = m_Weight * r * cos(alpha);
helper.Out.y = m_Weight * r * sin(alpha);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string reA = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string imA = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string reB = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string imB = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string reC = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string imC = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string reD = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string imD = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string power = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string dist = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\tint n;\n"
<< "\n"
<< "\t\treal_t z = 4.0 * " << dist << " / " << power << ";\n"
<< "\t\treal_t r = pow(precalcSqrtSumSquares, z);\n"
<< "\t\treal_t alpha = precalcAtanyx * " << power << ";\n"
<< "\t\treal_t x = r * cos(alpha);\n"
<< "\t\treal_t y = r * sin(alpha);\n"
<< "\t\treal_t reU = " << reA << " * x - " << imA << " * y + " << reB << ";\n"
<< "\t\treal_t imU = " << reA << " * y + " << imA << " * x + " << imB << ";\n"
<< "\t\treal_t reV = " << reC << " * x - " << imC << " * y + " << reD << ";\n"
<< "\t\treal_t imV = " << reC << " * y + " << imC << " * x + " << imD << ";\n"
<< "\t\treal_t radV = reV * reV + imV * imV;\n"
<< "\n"
<< "\t\tx = (reU * reV + imU * imV) / radV;\n"
<< "\t\ty = (imU * reV - reU * imV) / radV;\n"
<< "\n"
<< "\t\tz = 1.0 / z;\n"
<< "\t\tr = pow(sqrt(SQR(x) + SQR(y)), z);\n"
<< "\t\tn = (int)floor(" << power << " * MwcNext01(mwc));\n"
<< "\t\talpha = (atan2(y, x) + n * M_2PI) / floor(" << power << ");\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * r * cos(alpha);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * r * sin(alpha);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
if (fabs(m_Power) < 1)
m_Power = 1;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Re_A, prefix + "MobiusNRe_A", 1));
m_Params.push_back(ParamWithName<T>(&m_Im_A, prefix + "MobiusNIm_A"));
m_Params.push_back(ParamWithName<T>(&m_Re_B, prefix + "MobiusNRe_B"));
m_Params.push_back(ParamWithName<T>(&m_Im_B, prefix + "MobiusNIm_B"));
m_Params.push_back(ParamWithName<T>(&m_Re_C, prefix + "MobiusNRe_C"));
m_Params.push_back(ParamWithName<T>(&m_Im_C, prefix + "MobiusNIm_C"));
m_Params.push_back(ParamWithName<T>(&m_Re_D, prefix + "MobiusNRe_D", 1));
m_Params.push_back(ParamWithName<T>(&m_Im_D, prefix + "MobiusNIm_D"));
m_Params.push_back(ParamWithName<T>(&m_Power, prefix + "MobiusN_Power", 2));
m_Params.push_back(ParamWithName<T>(&m_Dist, prefix + "MobiusN_Dist", 1));
}
private:
T m_Re_A;
T m_Im_A;
T m_Re_B;
T m_Im_B;
T m_Re_C;
T m_Im_C;
T m_Re_D;
T m_Im_D;
T m_Power;
T m_Dist;
};
/// <summary>
/// mobius_strip.
/// Original was "mobius", which conflicts with the other mobius variation.
/// Rename this mobius_strip for deconfliction, which breaks backward compatibility.
/// </summary>
template <typename T>
class EMBER_API MobiusStripVariation : public ParametricVariation<T>
{
public:
MobiusStripVariation(T weight = 1.0) : ParametricVariation<T>("mobius_strip", VAR_MOBIUS_STRIP, weight)
{
Init();
}
PARVARCOPY(MobiusStripVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T s, t, mx, my, mz, rx, ry, rz;
T deltaT, deltaS;
t = helper.In.x;
//Put t in range -rectX to +rectX, then map that to 0 - 2pi.
if (m_RectX == 0)
{
t = 0;
}
else
{
deltaT = (t + m_RectX) / (2 * m_RectX);
deltaT -= Floor<T>(deltaT);
t = M_2PI * deltaT;
}
s = helper.In.y;
//Put s in range -rectY to +rectY, then map that to -width to +width.
if (m_RectY == 0)
{
s = 0;
}
else
{
deltaS = (s + m_RectY) / (2 * m_RectY);
deltaS -= Floor<T>(deltaS);
s = 2 * m_Width * deltaS - m_Width;
}
//Initial "object" co-ordinates.
mx = (m_Radius + s * cos(t / 2)) * cos(t);
my = (m_Radius + s * cos(t / 2)) * sin(t);
mz = s * sin(t / 2);
//Rotate around X axis (change y & z) and store temporarily in R variables.
rx = mx;
ry = my * m_RotyCos + mz * m_RotySin;
rz = mz * m_RotyCos - my * m_RotySin;
//Rotate around Y axis (change x & z) and store back in M variables.
mx = rx * m_RotxCos - rz * m_RotxSin;
my = ry;
mz = rz * m_RotxCos + rx * m_RotxSin;
//Add final values in to variations totals.
helper.Out.x = m_Weight * mx;
helper.Out.y = m_Weight * my;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string radius = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string width = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rectX = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rectY = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rotateX = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rotateY = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rotxSin = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rotxCos = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rotySin = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rotyCos = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t s, t, mx, my, mz, rx, ry, rz;\n"
<< "\t\treal_t deltaT, deltaS;\n"
<< "\n"
<< "\t\tt = vIn.x;\n"
<< "\n"
<< "\t\tif (" << rectX << " == 0)\n"
<< "\t\t{\n"
<< "\t\t t = 0;\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t deltaT = (t + " << rectX << ") / (2 * " << rectX << ");\n"
<< "\t\t deltaT -= floor(deltaT);\n"
<< "\t\t t = M_2PI * deltaT;\n"
<< "\t\t}\n"
<< "\n"
<< "\t\ts = vIn.y;\n"
<< "\n"
<< "\t\tif (" << rectY << " == 0)\n"
<< "\t\t{\n"
<< "\t\t s = 0;\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t deltaS = (s + " << rectY << ") / (2 * " << rectY << ");\n"
<< "\t\t deltaS -= floor(deltaS);\n"
<< "\t\t s = 2 * " << width << " * deltaS - " << width << ";\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tmx = (" << radius << " + s * cos(t / 2)) * cos(t);\n"
<< "\t\tmy = (" << radius << " + s * cos(t / 2)) * sin(t);\n"
<< "\t\tmz = s * sin(t / 2);\n"
<< "\n"
<< "\t\trx = mx;\n"
<< "\t\try = my * " << rotyCos << " + mz * " << rotySin << ";\n"
<< "\t\trz = mz * " << rotyCos << " - my * " << rotySin << ";\n"
<< "\n"
<< "\t\tmx = rx * " << rotxCos << " - rz * " << rotxSin << ";\n"
<< "\t\tmy = ry;\n"
<< "\t\tmz = rz * " << rotxCos << " + rx * " << rotxSin << ";\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * mx;\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * my;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_RotxSin = sin(m_RotateX * M_2PI);
m_RotxCos = cos(m_RotateX * M_2PI);
m_RotySin = sin(m_RotateY * M_2PI);
m_RotyCos = cos(m_RotateY * M_2PI);
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Radius, prefix + "mobius_strip_radius", 2));
m_Params.push_back(ParamWithName<T>(&m_Width, prefix + "mobius_strip_width", 1));
m_Params.push_back(ParamWithName<T>(&m_RectX, prefix + "mobius_strip_rect_x", M_2PI));
m_Params.push_back(ParamWithName<T>(&m_RectY, prefix + "mobius_strip_rect_y", 1));
m_Params.push_back(ParamWithName<T>(&m_RotateX, prefix + "mobius_strip_rotate_x"));
m_Params.push_back(ParamWithName<T>(&m_RotateY, prefix + "mobius_strip_rotate_y"));
m_Params.push_back(ParamWithName<T>(true, &m_RotxSin, prefix + "mobius_strip_rotxsin"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_RotxCos, prefix + "mobius_strip_rotxcos"));
m_Params.push_back(ParamWithName<T>(true, &m_RotySin, prefix + "mobius_strip_rotysin"));
m_Params.push_back(ParamWithName<T>(true, &m_RotyCos, prefix + "mobius_strip_rotycos"));
}
private:
T m_Radius;
T m_Width;
T m_RectX;
T m_RectY;
T m_RotateX;
T m_RotateY;
T m_RotxSin;//Precalc.
T m_RotxCos;
T m_RotySin;
T m_RotyCos;
};
/// <summary>
/// Lissajous.
/// </summary>
template <typename T>
class EMBER_API LissajousVariation : public ParametricVariation<T>
{
public:
LissajousVariation(T weight = 1.0) : ParametricVariation<T>("Lissajous", VAR_LISSAJOUS, weight)
{
Init();
}
PARVARCOPY(LissajousVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T t = (m_Max - m_Min) * rand.Frand01<T>() + m_Min;
T y = rand.Frand01<T>() - T(0.5);
T x1 = sin(m_A * t + m_D);
T y1 = sin(m_B * t);
helper.Out.x = m_Weight * (x1 + m_C * t + m_E * y);
helper.Out.y = m_Weight * (y1 + m_C * t + m_E * y);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string min = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string max = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string a = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string b = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string c = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string d = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string e = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t t = (" << max << " - " << min << ") * MwcNext01(mwc) + " << min << ";\n"
<< "\t\treal_t y = MwcNext01(mwc) - 0.5;\n"
<< "\t\treal_t x1 = sin(" << a << " * t + " << d << ");\n"
<< "\t\treal_t y1 = sin(" << b << " * t);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (x1 + " << c << " * t + " << e << " * y);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (y1 + " << c << " * t + " << e << " * y);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Min, prefix + "Lissajous_tmin", -T(M_PI)));
m_Params.push_back(ParamWithName<T>(&m_Max, prefix + "Lissajous_tmax", T(M_PI)));
m_Params.push_back(ParamWithName<T>(&m_A, prefix + "Lissajous_a", 3));
m_Params.push_back(ParamWithName<T>(&m_B, prefix + "Lissajous_b", 2));
m_Params.push_back(ParamWithName<T>(&m_C, prefix + "Lissajous_c"));
m_Params.push_back(ParamWithName<T>(&m_D, prefix + "Lissajous_d"));
m_Params.push_back(ParamWithName<T>(&m_E, prefix + "Lissajous_e"));
}
private:
T m_Min;
T m_Max;
T m_A;
T m_B;
T m_C;
T m_D;
T m_E;
};
/// <summary>
/// svf.
/// </summary>
template <typename T>
class EMBER_API SvfVariation : public ParametricVariation<T>
{
public:
SvfVariation(T weight = 1.0) : ParametricVariation<T>("svf", VAR_SVF, weight)
{
Init();
}
PARVARCOPY(SvfVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T cn = cos(m_N * helper.In.y);
T sx = sin(helper.In.x);
T cx = cos(helper.In.x);
T sy = sin(helper.In.y);
T cy = cos(helper.In.y);
helper.Out.x = m_Weight * (cy * (cn * cx));
helper.Out.y = m_Weight * (cy * (cn * sx));
helper.Out.z = m_Weight * (sy * cn);
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string n = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t cn = cos(" << n << " * vIn.y);\n"
<< "\t\treal_t sx = sin(vIn.x);\n"
<< "\t\treal_t cx = cos(vIn.x);\n"
<< "\t\treal_t sy = sin(vIn.y);\n"
<< "\t\treal_t cy = cos(vIn.y);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (cy * (cn * cx));\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (cy * (cn * sx));\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * (sy * cn);\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_N, prefix + "svf_n", 2));
}
private:
T m_N;
};
/// <summary>
/// target.
/// </summary>
template <typename T>
class EMBER_API TargetVariation : public ParametricVariation<T>
{
public:
TargetVariation(T weight = 1.0) : ParametricVariation<T>("target", VAR_TARGET, weight, true, true, false, false, true)
{
Init();
}
PARVARCOPY(TargetVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T a = helper.m_PrecalcAtanyx;
T t = log(helper.m_PrecalcSqrtSumSquares);
if (t < 0)
t -= m_SizeDiv2;
t = fmod(fabs(t), m_Size);
if (t < m_SizeDiv2)
a += m_Even;
else
a += m_Odd;
helper.Out.x = helper.m_PrecalcSqrtSumSquares * cos(a);
helper.Out.y = helper.m_PrecalcSqrtSumSquares * sin(a);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string even = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string odd = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string size = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string sizeDiv2 = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t a = precalcAtanyx;\n"
<< "\t\treal_t t = log(precalcSqrtSumSquares);\n"
<< "\n"
<< "\t\tif (t < 0.0)\n"
<< "\t\t t -= " << sizeDiv2 << ";\n"
<< "\n"
<< "\t\tt = fmod(fabs(t), " << size << ");\n"
<< "\n"
<< "\t\tif (t < " << sizeDiv2 << ")\n"
<< "\t\t a += " << even << ";\n"
<< "\t\telse\n"
<< "\t\t a += " << odd << ";\n"
<< "\n"
<< "\t\tvOut.x = precalcSqrtSumSquares * cos(a);\n"
<< "\t\tvOut.y = precalcSqrtSumSquares * sin(a);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_SizeDiv2 = m_Size * T(0.5);
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Even, prefix + "target_even", 0, REAL_CYCLIC, 0, M_2PI));
m_Params.push_back(ParamWithName<T>(&m_Odd, prefix + "target_odd", 0, REAL_CYCLIC, 0, M_2PI));
m_Params.push_back(ParamWithName<T>(&m_Size, prefix + "target_size", 1, REAL, EPS, TMAX));
m_Params.push_back(ParamWithName<T>(true, &m_SizeDiv2, prefix + "target_size_2"));//Precalc.
}
private:
T m_Even;
T m_Odd;
T m_Size;
T m_SizeDiv2;//Precalc.
};
/// <summary>
/// taurus.
/// </summary>
template <typename T>
class EMBER_API TaurusVariation : public ParametricVariation<T>
{
public:
TaurusVariation(T weight = 1.0) : ParametricVariation<T>("taurus", VAR_TAURUS, weight)
{
Init();
}
PARVARCOPY(TaurusVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T sx = sin(helper.In.x);
T cx = cos(helper.In.x);
T sy = sin(helper.In.y);
T cy = cos(helper.In.y);
T ir = m_InvTimesR + (m_1MinusInv * (m_R * cos(m_N * helper.In.x)));
helper.Out.x = m_Weight * (cx * (ir + sy));
helper.Out.y = m_Weight * (sx * (ir + sy));
helper.Out.z = m_Weight * (m_Sor * cy) + (m_1MinusSor * helper.In.y);
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string r = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string n = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string inv = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string sor = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string invTimesR = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string oneMinusInv = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string oneMinusSor = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t sx = sin(vIn.x);\n"
<< "\t\treal_t cx = cos(vIn.x);\n"
<< "\t\treal_t sy = sin(vIn.y);\n"
<< "\t\treal_t cy = cos(vIn.y);\n"
<< "\t\treal_t ir = " << invTimesR << " + (" << oneMinusInv << " * (" << r << " * cos(" << n << " * vIn.x)));\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * (cx * (ir + sy));\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * (sx * (ir + sy));\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * (" << sor << " * cy) + (" << oneMinusSor << " * vIn.y);\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_InvTimesR = m_Inv * m_R;
m_1MinusInv = 1 - m_Inv;
m_1MinusSor = 1 - m_Sor;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_R, prefix + "taurus_r", 3));
m_Params.push_back(ParamWithName<T>(&m_N, prefix + "taurus_n", 5));
m_Params.push_back(ParamWithName<T>(&m_Inv, prefix + "taurus_inv", T(1.5)));
m_Params.push_back(ParamWithName<T>(&m_Sor, prefix + "taurus_sor", 1));
m_Params.push_back(ParamWithName<T>(true, &m_InvTimesR, prefix + "taurus_inv_times_r"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_1MinusInv, prefix + "taurus_1_minus_inv"));
m_Params.push_back(ParamWithName<T>(true, &m_1MinusSor, prefix + "taurus_1_minus_sor"));
}
private:
T m_R;
T m_N;
T m_Inv;
T m_Sor;
T m_InvTimesR;//Precalc.
T m_1MinusInv;
T m_1MinusSor;
};
/// <summary>
/// collideoscope.
/// </summary>
template <typename T>
class EMBER_API CollideoscopeVariation : public ParametricVariation<T>
{
public:
CollideoscopeVariation(T weight = 1.0) : ParametricVariation<T>("collideoscope", VAR_COLLIDEOSCOPE, weight, true, true, false, false, true)
{
Init();
}
PARVARCOPY(CollideoscopeVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
int alt;
T a = helper.m_PrecalcAtanyx;
T r = m_Weight * helper.m_PrecalcSqrtSumSquares;
if (a >= 0)
{
alt = int(a * m_KnPi);
if (alt % 2 == 0)
a = alt * m_PiKn + fmod(m_KaKn + a, m_PiKn);
else
a = alt * m_PiKn + fmod(-m_KaKn + a, m_PiKn);
}
else
{
alt = int(-a * m_KnPi);
if (alt % 2 == 1)
a = -(alt * m_PiKn + fmod(-m_KaKn - a, m_PiKn));
else
a = -(alt * m_PiKn + fmod(m_KaKn - a, m_PiKn));
}
helper.Out.x = r * cos(a);
helper.Out.y = r * sin(a);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string a = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string num = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string ka = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string knpi = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string kakn = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string pikn = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\tint alt;\n"
<< "\t\treal_t a = precalcAtanyx;\n"
<< "\t\treal_t r = xform->m_VariationWeights[" << varIndex << "] * precalcSqrtSumSquares;\n"
<< "\n"
<< "\t\tif (a >= 0)\n"
<< "\t\t{\n"
<< "\t\t alt = (int)(a * " << knpi << ");\n"
<< "\n"
<< "\t\t if (alt % 2 == 0)\n"
<< "\t\t a = alt * " << pikn << " + fmod(" << kakn << " + a, " << pikn << ");\n"
<< "\t\t else\n"
<< "\t\t a = alt * " << pikn << " + fmod(-" << kakn << " + a, " << pikn << ");\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t alt = (int)(-a * " << knpi << ");\n"
<< "\n"
<< "\t\t if (alt % 2 == 1)\n"
<< "\t\t a = -(alt * " << pikn << " + fmod(-" << kakn << " - a, " << pikn << "));\n"
<< "\t\t else\n"
<< "\t\t a = -(alt * " << pikn << " + fmod(" << kakn << " - a, " << pikn << "));\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tvOut.x = r * cos(a);\n"
<< "\t\tvOut.y = r * sin(a);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_Num = Zeps(m_Num);
m_KnPi = m_Num * T(M_1_PI);
m_PiKn = T(M_PI) / m_Num;
m_Ka = T(M_PI) * m_A;
m_KaKn = m_Ka / m_Num;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_A, prefix + "collideoscope_a", 0, REAL_CYCLIC, 0, 1));
m_Params.push_back(ParamWithName<T>(&m_Num, prefix + "collideoscope_num", 1, INTEGER));
m_Params.push_back(ParamWithName<T>(true, &m_Ka, prefix + "collideoscope_ka"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_KnPi, prefix + "collideoscope_kn_pi"));
m_Params.push_back(ParamWithName<T>(true, &m_KaKn, prefix + "collideoscope_ka_kn"));
m_Params.push_back(ParamWithName<T>(true, &m_PiKn, prefix + "collideoscope_pi_kn"));
}
private:
T m_A;
T m_Num;
T m_Ka;//Precalc.
T m_KnPi;
T m_KaKn;
T m_PiKn;
};
/// <summary>
/// bMod.
/// </summary>
template <typename T>
class EMBER_API BModVariation : public ParametricVariation<T>
{
public:
BModVariation(T weight = 1.0) : ParametricVariation<T>("bMod", VAR_BMOD, weight)
{
Init();
}
PARVARCOPY(BModVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T tau = T(0.5) * (log(Sqr(helper.In.x + 1) + SQR(helper.In.y)) - log(Sqr(helper.In.x - 1) + SQR(helper.In.y)));
T sigma = T(M_PI) - atan2(helper.In.y, helper.In.x + 1) - atan2(helper.In.y, 1 - helper.In.x);
if (tau < m_Radius && -tau < m_Radius)
tau = fmod(tau + m_Radius + m_Distance * m_Radius, 2 * m_Radius) - m_Radius;
T temp = cosh(tau) - cos(sigma);
helper.Out.x = m_Weight * sinh(tau) / temp;
helper.Out.y = m_Weight * sin(sigma) / temp;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string radius = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string dist = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t tau = 0.5 * (log(Sqr(vIn.x + 1.0) + SQR(vIn.y)) - log(Sqr(vIn.x - 1.0) + SQR(vIn.y)));\n"
<< "\t\treal_t sigma = M_PI - atan2(vIn.y, vIn.x + 1.0) - atan2(vIn.y, 1.0 - vIn.x);\n"
<< "\n"
<< "\t\tif (tau < " << radius << " && -tau < " << radius << ")\n"
<< "\t\t tau = fmod(tau + " << radius << " + " << dist << " * " << radius << ", 2.0 * " << radius << ") - " << radius << ";\n"
<< "\n"
<< "\t\treal_t temp = cosh(tau) - cos(sigma);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * sinh(tau) / temp;\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sin(sigma) / temp;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Radius, prefix + "bMod_radius", 1, REAL, 0, TMAX));
m_Params.push_back(ParamWithName<T>(&m_Distance, prefix + "bMod_distance", 0, REAL_CYCLIC, 0, 2));
}
private:
T m_Radius;
T m_Distance;
};
/// <summary>
/// bSwirl.
/// </summary>
template <typename T>
class EMBER_API BSwirlVariation : public ParametricVariation<T>
{
public:
BSwirlVariation(T weight = 1.0) : ParametricVariation<T>("bSwirl", VAR_BSWIRL, weight)
{
Init();
}
PARVARCOPY(BSwirlVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T tau = T(0.5) * (log(Sqr(helper.In.x + 1) + SQR(helper.In.y)) - log(Sqr(helper.In.x - 1) + SQR(helper.In.y)));
T sigma = T(M_PI) - atan2(helper.In.y, helper.In.x + 1) - atan2(helper.In.y, 1 - helper.In.x);
sigma = sigma + tau * m_Out + m_In / tau;
T temp = cosh(tau) - cos(sigma);
helper.Out.x = m_Weight * sinh(tau) / temp;
helper.Out.y = m_Weight * sin(sigma) / temp;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string in = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string out = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t tau = 0.5 * (log(Sqr(vIn.x + 1.0) + SQR(vIn.y)) - log(Sqr(vIn.x - 1.0) + SQR(vIn.y)));\n"
<< "\t\treal_t sigma = M_PI - atan2(vIn.y, vIn.x + 1.0) - atan2(vIn.y, 1.0 - vIn.x);\n"
<< "\n"
<< "\t\tsigma = sigma + tau * " << out << " + " << in << " / tau;\n"
<< "\n"
<< "\t\treal_t temp = cosh(tau) - cos(sigma);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * sinh(tau) / temp;\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sin(sigma) / temp;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_In, prefix + "bSwirl_in"));
m_Params.push_back(ParamWithName<T>(&m_Out, prefix + "bSwirl_out"));
}
private:
T m_In;
T m_Out;
};
/// <summary>
/// bTransform.
/// </summary>
template <typename T>
class EMBER_API BTransformVariation : public ParametricVariation<T>
{
public:
BTransformVariation(T weight = 1.0) : ParametricVariation<T>("bTransform", VAR_BTRANSFORM, weight)
{
Init();
}
PARVARCOPY(BTransformVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T tau = T(0.5) * (log(Sqr(helper.In.x + 1) + SQR(helper.In.y)) - log(Sqr(helper.In.x - 1) + SQR(helper.In.y))) / m_Power + m_Move;
T sigma = T(M_PI) - atan2(helper.In.y, helper.In.x + 1) - atan2(helper.In.y, 1 - helper.In.x) + m_Rotate;
sigma = sigma / m_Power + M_2PI / m_Power * Floor<T>(rand.Frand01<T>() * m_Power);
if (helper.In.x >= 0)
tau += m_Split;
else
tau -= m_Split;
T temp = cosh(tau) - cos(sigma);
helper.Out.x = m_Weight * sinh(tau) / temp;
helper.Out.y = m_Weight * sin(sigma) / temp;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string rotate = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string power = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string move = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string split = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t tau = 0.5 * (log(Sqr(vIn.x + 1.0) + SQR(vIn.y)) - log(Sqr(vIn.x - 1.0) + SQR(vIn.y))) / " << power << " + " << move << ";\n"
<< "\t\treal_t sigma = M_PI - atan2(vIn.y, vIn.x + 1.0) - atan2(vIn.y, 1.0 - vIn.x) + " << rotate << ";\n"
<< "\n"
<< "\t\tsigma = sigma / " << power << " + M_2PI / " << power << " * floor(MwcNext01(mwc) * " << power << ");\n"
<< "\n"
<< "\t\tif (vIn.x >= 0)\n"
<< "\t\t tau += " << split << ";\n"
<< "\t\telse\n"
<< "\t\t tau -= " << split << ";\n"
<< "\n"
<< "\t\treal_t temp = cosh(tau) - cos(sigma);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * sinh(tau) / temp;\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sin(sigma) / temp;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Rotate, prefix + "bTransform_rotate"));
m_Params.push_back(ParamWithName<T>(&m_Power, prefix + "bTransform_power", 1, INTEGER, 1, T(INT_MAX)));
m_Params.push_back(ParamWithName<T>(&m_Move, prefix + "bTransform_move"));
m_Params.push_back(ParamWithName<T>(&m_Split, prefix + "bTransform_split"));
}
private:
T m_Rotate;
T m_Power;
T m_Move;
T m_Split;
};
/// <summary>
/// bCollide.
/// </summary>
template <typename T>
class EMBER_API BCollideVariation : public ParametricVariation<T>
{
public:
BCollideVariation(T weight = 1.0) : ParametricVariation<T>("bCollide", VAR_BCOLLIDE, weight)
{
Init();
}
PARVARCOPY(BCollideVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T tau = T(0.5) * (log(Sqr(helper.In.x + 1) + SQR(helper.In.y)) - log(Sqr(helper.In.x - 1) + SQR(helper.In.y)));
T sigma = T(M_PI) - atan2(helper.In.y, helper.In.x + 1) - atan2(helper.In.y, 1 - helper.In.x);
int alt = int(sigma * m_CnPi);
if (alt % 2 == 0)
sigma = alt * m_PiCn + fmod(sigma + m_CaCn, m_PiCn);
else
sigma = alt * m_PiCn + fmod(sigma - m_CaCn, m_PiCn);
T temp = cosh(tau) - cos(sigma);
helper.Out.x = m_Weight * sinh(tau) / temp;
helper.Out.y = m_Weight * sin(sigma) / temp;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string a = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string num = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string ca = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string cnPi = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string caCn = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string piCn = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t tau = 0.5 * (log(Sqr(vIn.x + 1.0) + SQR(vIn.y)) - log(Sqr(vIn.x - 1.0) + SQR(vIn.y)));\n"
<< "\t\treal_t sigma = M_PI - atan2(vIn.y, vIn.x + 1.0) - atan2(vIn.y, 1.0 - vIn.x);\n"
<< "\t\tint alt = (int)(sigma * " << cnPi << ");\n"
<< "\n"
<< "\t\tif (alt % 2 == 0)\n"
<< "\t\t sigma = alt * " << piCn << " + fmod(sigma + " << caCn << ", " << piCn << ");\n"
<< "\t\telse\n"
<< "\t\t sigma = alt * " << piCn << " + fmod(sigma - " << caCn << ", " << piCn << ");\n"
<< "\n"
<< "\t\treal_t temp = cosh(tau) - cos(sigma);\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * sinh(tau) / temp;\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sin(sigma) / temp;\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_CnPi = m_Num * T(M_1_PI);
m_PiCn = T(M_PI) / m_Num;
m_Ca = T(M_PI) * m_A;
m_CaCn = m_Ca / m_Num;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_A, prefix + "bCollide_a", 0, REAL_CYCLIC, 0, 1));
m_Params.push_back(ParamWithName<T>(&m_Num, prefix + "bCollide_num", 1, INTEGER, 1, T(INT_MAX)));
m_Params.push_back(ParamWithName<T>(true, &m_Ca, prefix + "bCollide_ca"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_CnPi, prefix + "bCollide_cn_pi"));
m_Params.push_back(ParamWithName<T>(true, &m_CaCn, prefix + "bCollide_ca_cn"));
m_Params.push_back(ParamWithName<T>(true, &m_PiCn, prefix + "bCollide_pi_cn"));
}
private:
T m_A;
T m_Num;
T m_Ca;//Precalc.
T m_CnPi;
T m_CaCn;
T m_PiCn;
};
/// <summary>
/// eclipse.
/// </summary>
template <typename T>
class EMBER_API EclipseVariation : public ParametricVariation<T>
{
public:
EclipseVariation(T weight = 1.0) : ParametricVariation<T>("eclipse", VAR_ECLIPSE, weight)
{
Init();
}
PARVARCOPY(EclipseVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T x, c2;
if (fabs(helper.In.y) <= m_Weight)
{
c2 = sqrt(SQR(m_Weight) - SQR(helper.In.y));
if (fabs(helper.In.x) <= c2)
{
x = helper.In.x + m_Shift * m_Weight;
if (fabs(x) >= c2)
helper.Out.x = -(m_Weight * helper.In.x);
else
helper.Out.x = m_Weight * x;
}
else
{
helper.Out.x = m_Weight * helper.In.x;
}
helper.Out.y = m_Weight * helper.In.y;
}
else
{
helper.Out.x = m_Weight * helper.In.x;
helper.Out.y = m_Weight * helper.In.y;
}
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string shift = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t x, c2;\n"
<< "\n"
<< "\t\tif (fabs(vIn.y) <= xform->m_VariationWeights[" << varIndex << "])\n"
<< "\t\t{\n"
<< "\t\t c2 = sqrt(SQR(xform->m_VariationWeights[" << varIndex << "]) - SQR(vIn.y));\n"
<< "\n"
<< "\t\t if (fabs(vIn.x) <= c2)\n"
<< "\t\t {\n"
<< "\t\t x = vIn.x + " << shift << " * xform->m_VariationWeights[" << varIndex << "];\n"
<< "\n"
<< "\t\t if (fabs(x) >= c2)\n"
<< "\t\t vOut.x = -(xform->m_VariationWeights[" << varIndex << "] * vIn.x);\n"
<< "\t\t else\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * x;\n"
<< "\t\t }\n"
<< "\t\t else\n"
<< "\t\t {\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * vIn.x;\n"
<< "\t\t }\n"
<< "\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * vIn.y;\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t vOut.x = xform->m_VariationWeights[" << varIndex << "] * vIn.x;\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * vIn.y;\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Shift, prefix + "eclipse_shift", 0, REAL_CYCLIC, -2, 2));
}
private:
T m_Shift;
};
/// <summary>
/// flipcircle.
/// </summary>
template <typename T>
class EMBER_API FlipCircleVariation : public ParametricVariation<T>
{
public:
FlipCircleVariation(T weight = 1.0) : ParametricVariation<T>("flipcircle", VAR_FLIP_CIRCLE, weight, true)
{
Init();
}
PARVARCOPY(FlipCircleVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
helper.Out.x = m_Weight * helper.In.x;
if (helper.m_PrecalcSumSquares > m_WeightSquared)
helper.Out.y = m_Weight * helper.In.y;
else
helper.Out.y = -(m_Weight * helper.In.y);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string ww = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * vIn.x;\n"
<< "\n"
<< "\t\tif (precalcSumSquares > " << ww << ")\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * vIn.y;\n"
<< "\t\telse\n"
<< "\t\t vOut.y = -(xform->m_VariationWeights[" << varIndex << "] * vIn.y);\n"
<< "\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_WeightSquared = SQR(m_Weight);
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(true, &m_WeightSquared, prefix + "flipcircle_weight_squared"));
}
private:
T m_WeightSquared;
};
/// <summary>
/// flipy.
/// </summary>
template <typename T>
class EMBER_API FlipYVariation : public Variation<T>
{
public:
FlipYVariation(T weight = 1.0) : Variation<T>("flipy", VAR_FLIP_Y, weight) { }
VARCOPY(FlipYVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
helper.Out.x = m_Weight * helper.In.x;
if (helper.In.x > 0)
helper.Out.y = -(m_Weight * helper.In.y);
else
helper.Out.y = m_Weight * helper.In.y;
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss;
intmax_t varIndex = IndexInXform();
ss << "\t{\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * vIn.x;\n"
<< "\n"
<< "\t\tif (vIn.x > 0)\n"
<< "\t\t vOut.y = -(xform->m_VariationWeights[" << varIndex << "] * vIn.y);\n"
<< "\t\telse\n"
<< "\t\t vOut.y = xform->m_VariationWeights[" << varIndex << "] * vIn.y;\n"
<< "\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
};
/// <summary>
/// eCollide.
/// </summary>
template <typename T>
class EMBER_API ECollideVariation : public ParametricVariation<T>
{
public:
ECollideVariation(T weight = 1.0) : ParametricVariation<T>("eCollide", VAR_ECOLLIDE, weight, true)
{
Init();
}
PARVARCOPY(ECollideVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T tmp = helper.m_PrecalcSumSquares + 1;
T tmp2 = 2 * helper.In.x;
T xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * T(0.5);
int alt;
if (xmax < 1)
xmax = 1;
T nu = acos(Clamp<T>(helper.In.x / xmax, -1, 1)); // -Pi < nu < Pi
if (helper.In.y > 0)
{
alt = int(nu * m_CnPi);
if (alt % 2 == 0)
nu = alt * m_PiCn + fmod(nu + m_CaCn, m_PiCn);
else
nu = alt * m_PiCn + fmod(nu - m_CaCn, m_PiCn);
}
else
{
alt = int(nu * m_CnPi);
if (alt % 2 == 0)
nu = alt * m_PiCn + fmod(nu + m_CaCn, m_PiCn);
else
nu = alt * m_PiCn + fmod(nu - m_CaCn, m_PiCn);
nu *= -1;
}
helper.Out.x = m_Weight * xmax * cos(nu);
helper.Out.y = m_Weight * sqrt(xmax - 1) * sqrt(xmax + 1) * sin(nu);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string a = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string num = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string ca = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string cnPi = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string caCn = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string piCn = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t tmp = precalcSumSquares + 1;\n"
<< "\t\treal_t tmp2 = 2 * vIn.x;\n"
<< "\t\treal_t xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * 0.5;\n"
<< "\t\tint alt;\n"
<< "\n"
<< "\t\tif (xmax < 1)\n"
<< "\t\t xmax = 1;\n"
<< "\n"
<< "\t\treal_t nu = acos(Clamp(vIn.x / xmax, -1.0, 1.0));\n"
<< "\n"
<< "\t\tif (vIn.y > 0)\n"
<< "\t\t{\n"
<< "\t\t alt = (int)(nu * " << cnPi << ");\n"
<< "\n"
<< "\t\t if (alt % 2 == 0)\n"
<< "\t\t nu = alt * " << piCn << " + fmod(nu + " << caCn << ", " << piCn << ");\n"
<< "\t\t else\n"
<< "\t\t nu = alt * " << piCn << " + fmod(nu - " << caCn << ", " << piCn << ");\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t alt = (int)(nu * " << cnPi << ");\n"
<< "\n"
<< "\t\t if (alt % 2 == 0)\n"
<< "\t\t nu = alt * " << piCn << " + fmod(nu + " << caCn << ", " << piCn << ");\n"
<< "\t\t else\n"
<< "\t\t nu = alt * " << piCn << " + fmod(nu - " << caCn << ", " << piCn << ");\n"
<< "\n"
<< "\t\t nu *= -1;\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * xmax * cos(nu);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sqrt(xmax - 1) * sqrt(xmax + 1) * sin(nu);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_CnPi = m_Num * T(M_1_PI);
m_PiCn = T(M_PI) / m_Num;
m_Ca = T(M_PI) * m_A;
m_CaCn = m_Ca / m_Num;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_A, prefix + "eCollide_a", 0, REAL_CYCLIC, 0, 1));
m_Params.push_back(ParamWithName<T>(&m_Num, prefix + "eCollide_num", 1, INTEGER, 1, T(INT_MAX)));
m_Params.push_back(ParamWithName<T>(true, &m_Ca, prefix + "eCollide_ca"));//Precalc.
m_Params.push_back(ParamWithName<T>(true, &m_CnPi, prefix + "eCollide_cn_pi"));
m_Params.push_back(ParamWithName<T>(true, &m_CaCn, prefix + "eCollide_ca_cn"));
m_Params.push_back(ParamWithName<T>(true, &m_PiCn, prefix + "eCollide_pi_cn"));
}
private:
T m_A;
T m_Num;
T m_Ca;//Precalc.
T m_CnPi;
T m_CaCn;
T m_PiCn;
};
/// <summary>
/// eJulia.
/// </summary>
template <typename T>
class EMBER_API EJuliaVariation : public ParametricVariation<T>
{
public:
EJuliaVariation(T weight = 1.0) : ParametricVariation<T>("eJulia", VAR_EJULIA, weight, true)
{
Init();
}
PARVARCOPY(EJuliaVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T x, r2 = helper.m_PrecalcSumSquares;
if (m_Sign == 1)
{
x = helper.In.x;
}
else
{
r2 = 1 / r2;
x = helper.In.x * r2;
}
T tmp = r2 + 1;
T tmp2 = 2 * x;
T xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * T(0.5);
ClampGteRef<T>(xmax, 1);
T mu = acosh(xmax);
T nu = acos(Clamp<T>(x / xmax, -1, 1));//-Pi < nu < Pi.
if (helper.In.y < 0)
nu *= -1;
nu = nu / m_Power + M_2PI / m_Power * Floor<T>(rand.Frand01<T>() * m_Power);
mu /= m_Power;
helper.Out.x = m_Weight * cosh(mu) * cos(nu);
helper.Out.y = m_Weight * sinh(mu) * sin(nu);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string power = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string sign = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t x, r2 = precalcSumSquares;\n"
<< "\n"
<< "\t\tif (" << sign << " == 1)\n"
<< "\t\t{\n"
<< "\t\t x = vIn.x;\n"
<< "\t\t}\n"
<< "\t\telse\n"
<< "\t\t{\n"
<< "\t\t r2 = 1 / r2;\n"
<< "\t\t x = vIn.x * r2;\n"
<< "\t\t}\n"
<< "\n"
<< "\t\treal_t tmp = r2 + 1;\n"
<< "\t\treal_t tmp2 = 2 * x;\n"
<< "\t\treal_t xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * 0.5;\n"
<< "\n"
<< "\t\tif (xmax < 1)\n"
<< "\t\t xmax = 1;\n"
<< "\n"
<< "\t\treal_t mu = acosh(xmax);\n"
<< "\t\treal_t nu = acos(Clamp(x / xmax, -1.0, 1.0));\n"
<< "\n"
<< "\t\tif (vIn.y < 0)\n"
<< "\t\t nu *= -1;\n"
<< "\n"
<< "\t\tnu = nu / " << power << " + M_2PI / " << power << " * floor(MwcNext01(mwc) * " << power << ");\n"
<< "\t\tmu /= " << power << ";\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * cosh(mu) * cos(nu);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sinh(mu) * sin(nu);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
virtual void Precalc() override
{
m_Sign = 1;
if (m_Power < 0)
m_Sign = -1;
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Power, prefix + "eJulia_power", 2, INTEGER_NONZERO));
m_Params.push_back(ParamWithName<T>(true, &m_Sign, prefix + "eJulia_sign"));//Precalc.
}
private:
T m_Power;
T m_Sign;//Precalc.
};
/// <summary>
/// eMod.
/// </summary>
template <typename T>
class EMBER_API EModVariation : public ParametricVariation<T>
{
public:
EModVariation(T weight = 1.0) : ParametricVariation<T>("eMod", VAR_EMOD, weight, true)
{
Init();
}
PARVARCOPY(EModVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T tmp = helper.m_PrecalcSumSquares + 1;
T tmp2 = 2 * helper.In.x;
T xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * T(0.5);
ClampGteRef<T>(xmax, 1);
T mu = acosh(xmax);
T nu = acos(Clamp<T>(helper.In.x / xmax, -1, 1));//-Pi < nu < Pi.
if (helper.In.y < 0)
nu *= -1;
if (mu < m_Radius && -mu < m_Radius)
{
if (nu > 0)
mu = fmod(mu + m_Radius + m_Distance * m_Radius, 2 * m_Radius) - m_Radius;
else
mu = fmod(mu - m_Radius - m_Distance * m_Radius, 2 * m_Radius) + m_Radius;
}
helper.Out.x = m_Weight * cosh(mu) * cos(nu);
helper.Out.y = m_Weight * sinh(mu) * sin(nu);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string radius = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string dist = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t tmp = precalcSumSquares + 1;\n"
<< "\t\treal_t tmp2 = 2 * vIn.x;\n"
<< "\t\treal_t xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * 0.5;\n"
<< "\n"
<< "\t\tif (xmax < 1)\n"
<< "\t\t xmax = 1;\n"
<< "\n"
<< "\t\treal_t mu = acosh(xmax);\n"
<< "\t\treal_t nu = acos(Clamp(vIn.x / xmax, -1.0, 1.0));\n"
<< "\n"
<< "\t\tif (vIn.y < 0)\n"
<< "\t\t nu *= -1;\n"
<< "\n"
<< "\t\tif (mu < " << radius << " && -mu < " << radius << ")\n"
<< "\t\t{\n"
<< "\t\t if (nu > 0)\n"
<< "\t\t mu = fmod(mu + " << radius << " + " << dist << " * " << radius << ", 2 * " << radius << ") - " << radius << ";\n"
<< "\t\t else\n"
<< "\t\t mu = fmod(mu - " << radius << " - " << dist << " * " << radius << ", 2 * " << radius << ") + " << radius << ";\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * cosh(mu) * cos(nu);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sinh(mu) * sin(nu);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Radius, prefix + "eMod_radius", 1, REAL, 0, TMAX));
m_Params.push_back(ParamWithName<T>(&m_Distance, prefix + "eMod_distance", 0, REAL_CYCLIC, 0, 2));
}
private:
T m_Radius;
T m_Distance;
};
/// <summary>
/// eMotion.
/// </summary>
template <typename T>
class EMBER_API EMotionVariation : public ParametricVariation<T>
{
public:
EMotionVariation(T weight = 1.0) : ParametricVariation<T>("eMotion", VAR_EMOTION, weight, true)
{
Init();
}
PARVARCOPY(EMotionVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T tmp = helper.m_PrecalcSumSquares + 1;
T tmp2 = 2 * helper.In.x;
T xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * T(0.5);
ClampGteRef<T>(xmax, 1);
T mu = acosh(xmax);
T nu = acos(Clamp<T>(helper.In.x / xmax, -1, 1));//-Pi < nu < Pi.
if (helper.In.y < 0)
nu *= -1;
if (nu < 0)
mu += m_Move;
else
mu -= m_Move;
if (mu <= 0)
{
mu *= -1;
nu *= -1;
}
nu += m_Rotate;
helper.Out.x = m_Weight * cosh(mu) * cos(nu);
helper.Out.y = m_Weight * sinh(mu) * sin(nu);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string move = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rotate = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t tmp = precalcSumSquares + 1;\n"
<< "\t\treal_t tmp2 = 2 * vIn.x;\n"
<< "\t\treal_t xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * 0.5;\n"
<< "\n"
<< "\t\tif (xmax < 1)\n"
<< "\t\t xmax = 1;\n"
<< "\n"
<< "\t\treal_t mu = acosh(xmax);\n"
<< "\t\treal_t nu = acos(Clamp(vIn.x / xmax, -1.0, 1.0));\n"
<< "\n"
<< "\t\tif (vIn.y < 0)\n"
<< "\t\t nu *= -1;\n"
<< "\n"
<< "\t\tif (nu < 0)\n"
<< "\t\t mu += " << move << ";\n"
<< "\t\telse\n"
<< "\t\t mu -= " << move << ";\n"
<< "\n"
<< "\t\tif (mu <= 0)\n"
<< "\t\t{\n"
<< "\t\t mu *= -1;\n"
<< "\t\t nu *= -1;\n"
<< "\t\t}\n"
<< "\n"
<< "\t\tnu += " << rotate << ";\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * cosh(mu) * cos(nu);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sinh(mu) * sin(nu);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Move, prefix + "eMotion_move"));
m_Params.push_back(ParamWithName<T>(&m_Rotate, prefix + "eMotion_rotate", 0, REAL_CYCLIC, 0, M_2PI));
}
private:
T m_Move;
T m_Rotate;
};
/// <summary>
/// ePush.
/// </summary>
template <typename T>
class EMBER_API EPushVariation : public ParametricVariation<T>
{
public:
EPushVariation(T weight = 1.0) : ParametricVariation<T>("ePush", VAR_EPUSH, weight, true)
{
Init();
}
PARVARCOPY(EPushVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T tmp = helper.m_PrecalcSumSquares + 1;
T tmp2 = 2 * helper.In.x;
T xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * T(0.5);
ClampGteRef<T>(xmax, 1);
T mu = acosh(xmax);
T nu = acos(Clamp<T>(helper.In.x / xmax, -1, 1));//-Pi < nu < Pi.
if (helper.In.y < 0)
nu *= -1;
nu += m_Rotate;
mu *= m_Dist;
mu += m_Push;
helper.Out.x = m_Weight * cosh(mu) * cos(nu);
helper.Out.y = m_Weight * sinh(mu) * sin(nu);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string push = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string dist = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string rotate = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t tmp = precalcSumSquares + 1;\n"
<< "\t\treal_t tmp2 = 2 * vIn.x;\n"
<< "\t\treal_t xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * 0.5;\n"
<< "\n"
<< "\t\tif (xmax < 1)\n"
<< "\t\t xmax = 1;\n"
<< "\n"
<< "\t\treal_t mu = acosh(xmax);\n"
<< "\t\treal_t nu = acos(Clamp(vIn.x / xmax, -1.0, 1.0));\n"
<< "\n"
<< "\t\tif (vIn.y < 0)\n"
<< "\t\t nu *= -1;\n"
<< "\n"
<< "\t\tnu += " << rotate << ";\n"
<< "\t\tmu *= " << dist << ";\n"
<< "\t\tmu += " << push << ";\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * cosh(mu) * cos(nu);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sinh(mu) * sin(nu);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Push, prefix + "ePush_push"));
m_Params.push_back(ParamWithName<T>(&m_Dist, prefix + "ePush_dist", 1));
m_Params.push_back(ParamWithName<T>(&m_Rotate, prefix + "ePush_rotate", 0, REAL_CYCLIC, T(-M_PI), T(M_PI)));
}
private:
T m_Push;
T m_Dist;
T m_Rotate;
};
/// <summary>
/// eRotate.
/// </summary>
template <typename T>
class EMBER_API ERotateVariation : public ParametricVariation<T>
{
public:
ERotateVariation(T weight = 1.0) : ParametricVariation<T>("eRotate", VAR_EROTATE, weight, true)
{
Init();
}
PARVARCOPY(ERotateVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T tmp = helper.m_PrecalcSumSquares + 1;
T tmp2 = 2 * helper.In.x;
T xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * T(0.5);
if (xmax < 1)
xmax = 1;
T nu = acos(Clamp<T>(helper.In.x / xmax, -1, 1));//-Pi < nu < Pi.
if (helper.In.y < 0)
nu *= -1;
nu = fmod(nu + m_Rotate + T(M_PI), M_2PI) - T(M_PI);
helper.Out.x = m_Weight * xmax * cos(nu);
helper.Out.y = m_Weight * sqrt(xmax - 1) * sqrt(xmax + 1) * sin(nu);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string rotate = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t tmp = precalcSumSquares + 1;\n"
<< "\t\treal_t tmp2 = 2 * vIn.x;\n"
<< "\t\treal_t xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * 0.5;\n"
<< "\n"
<< "\t\tif (xmax < 1)\n"
<< "\t\t xmax = 1;\n"
<< "\n"
<< "\t\treal_t nu = acos(Clamp(vIn.x / xmax, -1.0, 1.0));\n"
<< "\n"
<< "\t\tif (vIn.y < 0)\n"
<< "\t\t nu *= -1;\n"
<< "\n"
<< "\t\tnu = fmod(nu + " << rotate << " + M_PI, M_2PI) - M_PI;\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * xmax * cos(nu);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sqrt(xmax - 1) * sqrt(xmax + 1) * sin(nu);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Rotate, prefix + "eRotate_rotate", 0, REAL_CYCLIC, T(-M_PI), T(M_PI)));
}
private:
T m_Rotate;
};
/// <summary>
/// eScale.
/// </summary>
template <typename T>
class EMBER_API EScaleVariation : public ParametricVariation<T>
{
public:
EScaleVariation(T weight = 1.0) : ParametricVariation<T>("eScale", VAR_ESCALE, weight, true)
{
Init();
}
PARVARCOPY(EScaleVariation)
virtual void Func(IteratorHelper<T>& helper, Point<T>& outPoint, QTIsaac<ISAAC_SIZE, ISAAC_INT>& rand) override
{
T tmp = helper.m_PrecalcSumSquares + 1;
T tmp2 = 2 * helper.In.x;
T xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * T(0.5);
ClampGteRef<T>(xmax, 1);
T mu = acosh(xmax);
T nu = acos(Clamp<T>(helper.In.x / xmax, -1, 1));//-Pi < nu < Pi.
if (helper.In.y < 0)
nu *= -1;
mu *= m_Scale;
nu = fmod(fmod(m_Scale * (nu + T(M_PI) + m_Angle), M_2PI * m_Scale) - m_Angle - m_Scale * T(M_PI), M_2PI);
if (nu > T(M_PI))
nu -= M_2PI;
if (nu < -T(M_PI))
nu += M_2PI;
helper.Out.x = m_Weight * cosh(mu) * cos(nu);
helper.Out.y = m_Weight * sinh(mu) * sin(nu);
helper.Out.z = m_Weight * helper.In.z;
}
virtual string OpenCLString() override
{
ostringstream ss, ss2;
intmax_t i = 0, varIndex = IndexInXform();
ss2 << "_" << XformIndexInEmber() << "]";
string index = ss2.str();
string scale = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
string angle = "parVars[" + ToUpper(m_Params[i++].Name()) + index;
ss << "\t{\n"
<< "\t\treal_t tmp = precalcSumSquares + 1;\n"
<< "\t\treal_t tmp2 = 2 * vIn.x;\n"
<< "\t\treal_t xmax = (SafeSqrt(tmp + tmp2) + SafeSqrt(tmp - tmp2)) * 0.5;\n"
<< "\n"
<< "\t\tif (xmax < 1)\n"
<< "\t\t xmax = 1;\n"
<< "\n"
<< "\t\treal_t mu = acosh(xmax);\n"
<< "\t\treal_t nu = acos(Clamp(vIn.x / xmax, -1.0, 1.0));\n"
<< "\n"
<< "\t\tif (vIn.y < 0)\n"
<< "\t\t nu *= -1;\n"
<< "\n"
<< "\t\tmu *= " << scale << ";\n"
<< "\t\tnu = fmod(fmod(" << scale << " * (nu + M_PI + " << angle << "), M_2PI * " << scale << ") - " << angle << " - " << scale << " * M_PI, M_2PI);\n"
<< "\n"
<< "\t\tif (nu > M_PI)\n"
<< "\t\t nu -= M_2PI;\n"
<< "\n"
<< "\t\tif (nu < -M_PI)\n"
<< "\t\t nu += M_2PI;\n"
<< "\n"
<< "\t\tvOut.x = xform->m_VariationWeights[" << varIndex << "] * cosh(mu) * cos(nu);\n"
<< "\t\tvOut.y = xform->m_VariationWeights[" << varIndex << "] * sinh(mu) * sin(nu);\n"
<< "\t\tvOut.z = xform->m_VariationWeights[" << varIndex << "] * vIn.z;\n"
<< "\t}\n";
return ss.str();
}
protected:
void Init()
{
string prefix = Prefix();
m_Params.clear();
m_Params.push_back(ParamWithName<T>(&m_Scale, prefix + "eScale_scale", 1, REAL_NONZERO, 0, 1));
m_Params.push_back(ParamWithName<T>(&m_Angle, prefix + "eScale_angle", 0, REAL_CYCLIC, 0, M_2PI));
}
private:
T m_Scale;
T m_Angle;
};
MAKEPREPOSTPARVAR(Funnel, funnel, FUNNEL)
MAKEPREPOSTVAR(Linear3D, linear3D, LINEAR3D)
MAKEPREPOSTPARVAR(PowBlock, pow_block, POW_BLOCK)
MAKEPREPOSTPARVAR(Squirrel, squirrel, SQUIRREL)
MAKEPREPOSTVAR(Ennepers, ennepers, ENNEPERS)
MAKEPREPOSTPARVAR(SphericalN, SphericalN, SPHERICALN)
MAKEPREPOSTPARVAR(Kaleidoscope, Kaleidoscope, KALEIDOSCOPE)
MAKEPREPOSTPARVAR(GlynnSim1, GlynnSim1, GLYNNSIM1)
MAKEPREPOSTPARVAR(GlynnSim2, GlynnSim2, GLYNNSIM2)
MAKEPREPOSTPARVAR(GlynnSim3, GlynnSim3, GLYNNSIM3)
MAKEPREPOSTPARVARASSIGN(Starblur, starblur, STARBLUR, ASSIGNTYPE_SUM)
MAKEPREPOSTPARVARASSIGN(Sineblur, sineblur, SINEBLUR, ASSIGNTYPE_SUM)
MAKEPREPOSTVARASSIGN(Circleblur, circleblur, CIRCLEBLUR, ASSIGNTYPE_SUM)
MAKEPREPOSTPARVAR(Depth, depth, DEPTH)
MAKEPREPOSTPARVAR(CropN, cropn, CROPN)
MAKEPREPOSTPARVAR(ShredRad, shredrad, SHRED_RAD)
MAKEPREPOSTPARVAR(Blob2, blob2, BLOB2)
MAKEPREPOSTPARVAR(Julia3D, julia3D, JULIA3D)
MAKEPREPOSTPARVAR(Julia3Dz, julia3Dz, JULIA3DZ)
MAKEPREPOSTPARVAR(LinearT, linearT, LINEAR_T)
MAKEPREPOSTPARVAR(LinearT3D, linearT3D, LINEAR_T3D)
MAKEPREPOSTPARVAR(Ovoid, ovoid, OVOID)
MAKEPREPOSTPARVAR(Ovoid3D, ovoid3d, OVOID3D)
MAKEPREPOSTPARVARASSIGN(Spirograph, Spirograph, SPIROGRAPH, ASSIGNTYPE_SUM)
MAKEPREPOSTVAR(Petal, petal, PETAL)
MAKEPREPOSTVAR(RoundSpher, roundspher, ROUNDSPHER)
MAKEPREPOSTVAR(RoundSpher3D, roundspher3D, ROUNDSPHER3D)
MAKEPREPOSTVAR(SpiralWing, spiralwing, SPIRAL_WING)
MAKEPREPOSTVAR(Squarize, squarize, SQUARIZE)
MAKEPREPOSTPARVAR(Sschecks, sschecks, SSCHECKS)
MAKEPREPOSTPARVAR(PhoenixJulia, phoenix_julia, PHOENIX_JULIA)
MAKEPREPOSTPARVAR(Mobius, Mobius, MOBIUS)
MAKEPREPOSTPARVAR(MobiusN, MobiusN, MOBIUSN)
MAKEPREPOSTPARVAR(MobiusStrip, mobius_strip, MOBIUS_STRIP)
MAKEPREPOSTPARVARASSIGN(Lissajous, Lissajous, LISSAJOUS, ASSIGNTYPE_SUM)
MAKEPREPOSTPARVAR(Svf, svf, SVF)
MAKEPREPOSTPARVAR(Target, target, TARGET)
MAKEPREPOSTPARVAR(Taurus, taurus, TAURUS)
MAKEPREPOSTPARVAR(Collideoscope, collideoscope, COLLIDEOSCOPE)
MAKEPREPOSTPARVAR(BMod, bMod, BMOD)
MAKEPREPOSTPARVAR(BSwirl, bSwirl, BSWIRL)
MAKEPREPOSTPARVAR(BTransform, bTransform, BTRANSFORM)
MAKEPREPOSTPARVAR(BCollide, bCollide, BCOLLIDE)
MAKEPREPOSTPARVAR(Eclipse, eclipse, ECLIPSE)
MAKEPREPOSTPARVAR(FlipCircle, flipcircle, FLIP_CIRCLE)
MAKEPREPOSTVAR(FlipY, flipy, FLIP_Y)
MAKEPREPOSTPARVAR(ECollide, eCollide, ECOLLIDE)
MAKEPREPOSTPARVAR(EJulia, eJulia, EJULIA)
MAKEPREPOSTPARVAR(EMod, eMod, EMOD)
MAKEPREPOSTPARVAR(EMotion, eMotion, EMOTION)
MAKEPREPOSTPARVAR(EPush, ePush, EPUSH)
MAKEPREPOSTPARVAR(ERotate, eRotate, EROTATE)
MAKEPREPOSTPARVAR(EScale, eScale, ESCALE)
}
Reference in New Issue View Git Blame Copy Permalink