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catima/utils/generator.cpp

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#include <iostream>
#include "catima/catima.h"
#include "catima/nucdata.h"
#include <functional>
#include <fstream>
#include <sstream>
using namespace catima;
using std::cout;
using std::endl;
//// configuration ////
constexpr double logEmin_forLS = 0.0;
constexpr double logEmax_forLS = catima::logEmax;
constexpr double num_LS_datapoints = 200;
/////////////////////////////////////////
inline double ls_energy_table( int i ) { return exp(M_LN10*(logEmin_forLS + ((double)i)*(logEmax_forLS-logEmin_forLS)/(num_LS_datapoints - 1.0))); }
int main(){
double r;
double r2;
double dx;
double x1,x2;
#define LS_COEFFICENTS
#ifdef LS_COEFFICENTS
std::ofstream file("generated_LS_coeff.h",std::ofstream::out);
catima::Projectile p;
std::vector<double> ve;
std::stringstream sv1;
std::stringstream sv2;
std::stringstream sx1;
std::stringstream sx2;
file<<"//LS precalculated LS coefficients \n ";
file<<"#include \"catima/storage.h\"";
file<<"\n\n";
file<<"#define LS_NUM_ENERGY_POINTS "<<num_LS_datapoints<<"\n";
file<<"#define LS_MAX_Z "<<ATOMIC_WEIGHT_MAXZ<<"\n";
file<<"namespace catima{\n\n";
file<<"namespace ls_coefficients{\n\n";
file<<"// relative difference of mass number for 2nd mass point ls_coefficients_ahi \n\n";
file<<"constexpr double a_rel_increase=0.05;\n";
file<<"constexpr double logEmin = "<<logEmin_forLS<<";\n";
file<<"constexpr double logEmax = "<<logEmax_forLS<<";\n";
file<<"// energy points array in MeV/u \n";
//file<<"constexpr EnergyTable<"<<num_LS_datapoints<<"> ls_energy_table("<<logEmin_forLS<<","<<logEmax_forLS<<");\n";
file<<"EnergyTable<"<<num_LS_datapoints<<"> ls_energy_table("<<logEmin_forLS<<","<<logEmax_forLS<<");\n";
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/*
file<<"double ls_energy_points["<<num_LS_datapoints<<"]={";
for(int i=0;i<num_LS_datapoints;i++){
if(i!=0)file<<",";
file<<ls_energy_table(i);
}
file<<"};\n";
*/
sv1<<"{";
sv2<<"{";
sx1<<"{";
sx2<<"{";
for(int z=1;z<ATOMIC_WEIGHT_MAXZ-1;z++){
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cout<<z<<"/"<<ATOMIC_WEIGHT_MAXZ-2<<endl;
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p.Z = z;
if(z!=1)sv1<<",";
if(z!=1)sv2<<",";
if(z!=1)sx1<<",";
if(z!=1)sx2<<",";
sv1<<"\n\t{";
sv2<<"\n\t{";
sx1<<"\n\t{";
sx2<<"\n\t{";
for(int i=0;i<num_LS_datapoints;i++){
p.T = ls_energy_table(i);
p.A = element_atomic_weight((int)p.Z);
r = bethek_lindhard(p);
x1 = bethek_lindhard_X(p);
dx = p.A*0.05;
p.A +=dx;
r2 = bethek_lindhard(p);
x2 = bethek_lindhard_X(p);
if(i!=0)sv1<<",";
sv1<<r;
if(i!=0)sv2<<",";
sv2<<r2;
if(i!=0)sx1<<",";
sx1<<x1;
if(i!=0)sx2<<",";
sx2<<x2;
}
sv1<<"}";
sv2<<"}";
sx1<<"}";
sx2<<"}";
}
sv1<<"\n};";
sv2<<"\n};";
sx1<<"\n};";
sx2<<"\n};";
file<<"\n";
file<<"//arrays dimensions are [z][energy], z=1 starts from index=0\n";
file<<"\n//LS coefficient for A=atomic weight\n";
file<<"double ls_coefficients_a[]["<<num_LS_datapoints<<"]=\n";
file<<sv1.str();
file<<"\n";
file<<"\n//LS coefficient for A=atomic weight * 1.05\n";
file<<"double ls_coefficients_ahi[]["<<num_LS_datapoints<<"]=\n";
file<<sv2.str();
file<<"\n";
file<<"\n";
file<<"//arrays dimensions are [z][energy], z=1 starts from index=0\n";
file<<"\n//LS X coefficient (dE straggling) for A=atomic weight\n";
file<<"double ls_X_coefficients_a[]["<<num_LS_datapoints<<"]=\n";
file<<sx1.str();
file<<"\n";
file<<"\n//LS X coefficient for A=atomic weight * 1.05\n";
file<<"double ls_X_coefficients_ahi[]["<<num_LS_datapoints<<"]=\n";
file<<sx2.str();
file<<"\n";
file<<"\n}\n"; // end of ls_coefficient namespace
file<<"\n}\n"; // end of catima namespace
file.close();
#endif
return 0;
}