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# include <stdexcept>
# include <pybind11/pybind11.h>
# include <pybind11/operators.h>
# include <pybind11/numpy.h>
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# include <pybind11/stl.h>
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# include "catima/catima.h"
# include "catima/srim.h"
# include "catima/nucdata.h"
# include <iostream>
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# include <string>
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namespace py = pybind11 ;
using namespace catima ;
void catima_info ( ) {
printf ( " CATIMA version = 1.5 \n " ) ;
printf ( " number of energy points = %d \n " , max_datapoints ) ;
printf ( " min energy point = 10^%lf MeV/u \n " , logEmin ) ;
printf ( " max energy point = 10^%lf MeV/u \n " , logEmax ) ;
}
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std : : string material_to_string ( const Material & r ) {
std : : string s ;
auto n = r . ncomponents ( ) ;
for ( int i = 0 ; i < n ; i + + ) {
auto el = r . get_element ( i ) ;
s + = " # " + std : : to_string ( i ) ;
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s + = " : A = " + std : : to_string ( el . A ) + " , Z = " + std : : to_string ( el . Z ) + " , stn = " + std : : to_string ( el . stn ) + " \n " ;
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}
return s ;
} ;
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py : : list storage_info ( ) {
py : : list res ;
for ( int i = 0 ; i < max_storage_data ; i + + ) {
auto & data = _storage . Get ( i ) ;
if ( data . p . A > 0 & & data . p . Z & & data . m . ncomponents ( ) > 0 ) {
py : : list mat ;
py : : dict d ;
py : : list p ;
p . append ( data . p . A ) ;
p . append ( data . p . Z ) ;
d [ " projectile " ] = p ;
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d [ " matter " ] = material_to_string ( data . m ) ;
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d [ " config " ] = py : : cast ( data . config ) ;
res . append ( d ) ;
}
}
return res ;
}
py : : list get_energy_table ( ) {
py : : list r ;
for ( auto e : energy_table ) {
r . append ( e ) ;
}
return r ;
}
py : : list get_data ( Projectile & p , const Material & m , const Config & c = default_config ) {
py : : list r ;
auto & data = _storage . Get ( p , m , c ) ;
py : : list ran ;
py : : list rans ;
py : : list av ;
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for ( double e : data . range ) { ran . append ( e ) ; }
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for ( double e : data . range_straggling ) rans . append ( e ) ;
for ( double e : data . angular_variance ) av . append ( e ) ;
r . append ( ran ) ;
r . append ( rans ) ;
r . append ( av ) ;
return r ;
}
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Material py_make_material ( py : : list d , double density = 0.0 , double thickness = 0.0 , double ipot = 0.0 , double mass = 0.0 ) {
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Material m ;
if ( density > 0.0 ) m . density ( density ) ;
if ( ipot > 0.0 ) m . I ( ipot ) ;
if ( mass > 0.0 ) m . M ( mass ) ;
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if ( thickness > 0.0 ) m . thickness ( thickness ) ;
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for ( int i = 0 ; i < d . size ( ) ; i + + ) {
py : : list e ( d [ i ] ) ;
if ( e . size ( ) ! = 3 ) throw std : : invalid_argument ( " invalid Material constructor argument " ) ;
double a = e [ 0 ] . cast < double > ( ) ;
int z = e [ 1 ] . cast < int > ( ) ;
double stn = e [ 2 ] . cast < double > ( ) ;
m . add_element ( a , z , stn ) ;
}
return m ;
}
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py : : dict get_result_dict ( const Result & r ) {
py : : dict d ;
d [ " Ein " ] = r . Ein ;
d [ " Eout " ] = r . Eout ;
d [ " Eloss " ] = r . Eloss ;
d [ " range " ] = r . range ;
d [ " dEdxi " ] = r . dEdxi ;
d [ " dEdxo " ] = r . dEdxo ;
d [ " sigma_E " ] = r . sigma_E ;
d [ " sigma_r " ] = r . sigma_r ;
d [ " sigma_a " ] = r . sigma_a ;
d [ " tof " ] = r . tof ;
d [ " sp " ] = r . sp ;
return d ;
}
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PYBIND11_MODULE ( pycatima , m ) {
py : : class_ < Projectile > ( m , " Projectile " )
. def ( py : : init < > ( ) , " constructor " )
. def ( py : : init < double , double , double , double > ( ) , " constructor " , py : : arg ( " A " ) , py : : arg ( " Z " ) , py : : arg ( " Q " ) = 0 , py : : arg ( " T " ) = 0 )
. def ( " __call__ " , & Projectile : : operator ( ) )
. def ( " A " , [ ] ( const Projectile & p ) { return p . A ; } )
. def ( " Z " , [ ] ( const Projectile & p ) { return p . Z ; } )
. def ( " Q " , [ ] ( const Projectile & p ) { return p . Q ; } )
. def ( " T " , [ ] ( const Projectile & p ) { return p . T ; } )
. def ( " T " , [ ] ( Projectile & p , double v ) { p . T = v ; } ) ;
//.def_readwrite("A", &Projectile::A)
//.def_readwrite("Z", &Projectile::Z)
//.def_readwrite("T", &Projectile::T)
//.def_readwrite("Q", &Projectile::Q);
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py : : class_ < Target > ( m , " Target " )
. def ( py : : init < > ( ) , " constructor " )
. def_readwrite ( " A " , & Target : : A )
. def_readwrite ( " Z " , & Target : : Z )
. def_readwrite ( " stn " , & Target : : stn ) ;
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py : : class_ < Material > ( m , " Material " )
. def ( py : : init < > ( ) , " constructor " )
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. def ( py : : init < const Material & > ( ) , " constructor " )
. def ( py : : init < double , int , double , double , double > ( ) , " constructor " , py : : arg ( " A " ) , py : : arg ( " Z " ) , py : : arg ( " density " ) = 0.0 , py : : arg ( " thickness " ) = 0.0 , py : : arg ( " i_potential " ) = 0.0 )
. def ( py : : init ( & py_make_material ) , " constructor " , py : : arg ( " elements " ) , py : : arg ( " density " ) = 0.0 , py : : arg ( " thickness " ) = 0.0 , py : : arg ( " i_potential " ) = 0.0 , py : : arg ( " mass " ) = 0.0 )
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. def ( " add_element " , & Material : : add_element )
. def ( " ncomponents " , & Material : : ncomponents )
. def ( " density " , py : : overload_cast < > ( & Material : : density , py : : const_ ) , " get density " )
. def ( " density " , py : : overload_cast < double > ( & Material : : density ) , " set density " )
. def ( " molar_mass " , py : : overload_cast < > ( & Material : : M , py : : const_ ) , " get mass " )
. def ( " thickness " , py : : overload_cast < > ( & Material : : thickness , py : : const_ ) , " get thickness " )
. def ( " thickness " , py : : overload_cast < double > ( & Material : : thickness ) , " set thickness " )
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. def ( " thickness_cm " , py : : overload_cast < double > ( & Material : : thickness_cm ) , " set thickness in cm unit " )
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. def ( " I " , py : : overload_cast < > ( & Material : : I , py : : const_ ) , " get I " )
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. def ( " I " , py : : overload_cast < double > ( & Material : : I ) , " set I " )
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. def ( " __str__ " , & material_to_string ) ;
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py : : class_ < Layers > ( m , " Layers " )
. def ( py : : init < > ( ) , " constructor " )
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. def ( " add " , py : : overload_cast < Material > ( & Layers : : add ) )
. def ( " add_layers " , py : : overload_cast < const Layers & > ( & Layers : : add ) )
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. def ( " num " , & Layers : : num )
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// .def("__getitem__",&Layers::operator[], py::is_operator())
. def ( " __getitem__ " , [ ] ( Layers & r , int i ) - > Material *
{
if ( i > = r . num ( ) ) {
throw std : : invalid_argument ( " index out of range " ) ; }
return & r [ i ] ;
} , py : : is_operator ( ) , py : : return_value_policy : : automatic_reference )
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. def ( " get " , & Layers : : operator [ ] )
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. def ( py : : self + py : : self )
. def ( " __add__ " , [ ] ( const Layers s , const Material & m ) { return s + m ; } ) ;
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py : : class_ < Result > ( m , " Result " )
. def ( py : : init < > ( ) , " constructor " )
. def_readwrite ( " Ein " , & Result : : Ein )
. def_readwrite ( " Eout " , & Result : : Eout )
. def_readwrite ( " Eloss " , & Result : : Eloss )
. def_readwrite ( " range " , & Result : : range )
. def_readwrite ( " dEdxi " , & Result : : dEdxi )
. def_readwrite ( " dEdxo " , & Result : : dEdxo )
. def_readwrite ( " sigma_E " , & Result : : sigma_E )
. def_readwrite ( " sigma_a " , & Result : : sigma_a )
. def_readwrite ( " sigma_r " , & Result : : sigma_r )
. def_readwrite ( " tof " , & Result : : tof )
. def_readwrite ( " sp " , & Result : : sp )
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. def ( " get_dict " , & get_result_dict ) ;
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py : : class_ < MultiResult > ( m , " MultiResult " )
. def ( py : : init < > ( ) , " constructor " )
. def_readwrite ( " total_result " , & MultiResult : : total_result )
. def_readwrite ( " results " , & MultiResult : : results )
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// .def_readwrite("Eout",&MultiResult::total_result.Eout)
. def ( " __getitem__ " , [ ] ( MultiResult & r , int i ) {
return py : : cast ( r . results [ i ] ) ;
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} , py : : is_operator ( ) )
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. def ( " __getattr__ " , [ ] ( MultiResult & r , std : : string & k ) {
if ( k . compare ( " Eout " ) = = 0 ) {
return py : : cast ( r . total_result . Eout ) ;
}
else if ( k . compare ( " sigma_a " ) = = 0 ) {
return py : : cast ( r . total_result . sigma_a ) ;
}
else if ( k . compare ( " tof " ) = = 0 ) {
return py : : cast ( r . total_result . tof ) ;
}
else if ( k . compare ( " Eloss " ) = = 0 ) {
return py : : cast ( r . total_result . Eloss ) ;
}
else {
return py : : cast ( NULL ) ;
}
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} , py : : is_operator ( ) )
. def ( " get_dict " , [ ] ( const MultiResult & r ) {
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py : : dict d ;
py : : list p ;
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d [ " result " ] = get_result_dict ( r . total_result ) ;
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for ( auto & entry : r . results ) {
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p . append ( get_result_dict ( entry ) ) ;
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}
d [ " partial " ] = p ;
return d ;
} ) ;
py : : enum_ < z_eff_type > ( m , " z_eff_type " )
. value ( " none " , z_eff_type : : none )
. value ( " pierce_blann " , z_eff_type : : pierce_blann )
. value ( " anthony_landorf " , z_eff_type : : anthony_landorf )
. value ( " hubert " , z_eff_type : : hubert )
. value ( " winger " , z_eff_type : : winger )
. value ( " schiwietz " , z_eff_type : : schiwietz )
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. value ( " cglobal " , z_eff_type : : global )
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. value ( " atima14 " , z_eff_type : : atima14 ) ;
py : : enum_ < corrections > ( m , " corrections " )
. value ( " no_barkas " , corrections : : no_barkas )
. value ( " no_lindhard " , corrections : : no_lindhard )
. value ( " no_shell_correction " , corrections : : no_shell_correction )
. value ( " no_highenergy " , corrections : : no_highenergy ) ;
py : : enum_ < omega_types > ( m , " omega_types " )
. value ( " atima " , omega_types : : atima )
. value ( " bohr " , omega_types : : bohr ) ;
py : : enum_ < low_energy_types > ( m , " low_energy_types " )
. value ( " srim_85 " , low_energy_types : : srim_85 )
. value ( " srim_95 " , low_energy_types : : srim_95 ) ;
py : : enum_ < material > ( m , " material " )
. value ( " Plastics " , material : : Plastics )
. value ( " Air " , material : : Air )
. value ( " CH2 " , material : : CH2 )
. value ( " lH2 " , material : : lH2 )
. value ( " lD2 " , material : : lD2 )
. value ( " Water " , material : : Water )
. value ( " Diamond " , material : : Diamond )
. value ( " Glass " , material : : Glass )
. value ( " ALMG3 " , material : : ALMG3 )
. value ( " ArCO2_30 " , material : : ArCO2_30 )
. value ( " CF4 " , material : : CF4 )
. value ( " Isobutane " , material : : Isobutane )
. value ( " Kapton " , material : : Kapton )
. value ( " Mylar " , material : : Mylar )
. value ( " NaF " , material : : NaF )
. value ( " P10 " , material : : P10 )
. value ( " Polyolefin " , material : : Polyolefin )
. value ( " CmO2 " , material : : CmO2 )
. value ( " Suprasil " , material : : Suprasil )
. value ( " HAVAR " , material : : HAVAR )
. value ( " Steel " , material : : Steel )
. value ( " CO2 " , material : : CO2 ) ;
py : : class_ < Config > ( m , " Config " )
. def ( py : : init < > ( ) , " constructor " )
. def_readwrite ( " z_effective " , & Config : : z_effective )
. def_readwrite ( " corrections " , & Config : : corrections )
. def_readwrite ( " calculation " , & Config : : calculation )
. def ( " get " , [ ] ( const Config & r ) {
py : : dict d ;
d [ " z_effective " ] = r . z_effective ;
d [ " corrections " ] = r . corrections ;
d [ " calculation " ] = r . calculation ;
return d ;
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} )
. def ( " __str__ " , [ ] ( const Config & r ) {
std : : string s ;
s = " z_effective = " + std : : to_string ( r . z_effective ) ;
s + = " , corrections = " + std : : to_string ( r . corrections ) ;
s + = " , calculation = " + std : : to_string ( r . calculation ) ;
return s ;
} ) ;
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m . def ( " srim_dedx_e " , & srim_dedx_e ) ;
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m . def ( " sezi_dedx_e " , & sezi_dedx_e , " sezi_dedx_e " , py : : arg ( " projectile " ) , py : : arg ( " material " ) , py : : arg ( " config " ) = default_config ) ;
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m . def ( " calculate " , py : : overload_cast < Projectile , const Material & , const Config & > ( & calculate ) , " calculate " , py : : arg ( " projectile " ) , py : : arg ( " material " ) , py : : arg ( " config " ) = default_config ) ;
m . def ( " calculate_layers " , py : : overload_cast < const Projectile & , const Layers & , const Config & > ( & calculate ) , " calculate_layers " , py : : arg ( " projectile " ) , py : : arg ( " material " ) , py : : arg ( " config " ) = default_config ) ;
m . def ( " dedx_from_range " , py : : overload_cast < const Projectile & , const Material & , const Config & > ( & dedx_from_range ) , " calculate " , py : : arg ( " projectile " ) , py : : arg ( " material " ) , py : : arg ( " config " ) = default_config ) ;
m . def ( " dedx_from_range " , py : : overload_cast < const Projectile & , const std : : vector < double > & , const Material & , const Config & > ( & dedx_from_range ) , " calculate " , py : : arg ( " projectile " ) , py : : arg ( " energy " ) , py : : arg ( " material " ) , py : : arg ( " config " ) = default_config ) ;
m . def ( " dedx " , py : : overload_cast < const Projectile & , const Material & , const Config & > ( & dedx ) , " dedx " , py : : arg ( " projectile " ) , py : : arg ( " material " ) , py : : arg ( " config " ) = default_config ) ;
m . def ( " range " , py : : overload_cast < const Projectile & , const Material & , const Config & > ( & range ) , " range " , py : : arg ( " projectile " ) , py : : arg ( " material " ) , py : : arg ( " config " ) = default_config ) ;
m . def ( " energy_out " , py : : overload_cast < const Projectile & , const std : : vector < double > & , const Material & , const Config & > ( & energy_out ) , " energy_out " , py : : arg ( " projectile " ) , py : : arg ( " energy " ) , py : : arg ( " material " ) , py : : arg ( " config " ) = default_config ) ;
m . def ( " energy_out " , py : : overload_cast < const Projectile & , const Material & , const Config & > ( & energy_out ) , " energy_out " , py : : arg ( " projectile " ) , py : : arg ( " material " ) , py : : arg ( " config " ) = default_config ) ;
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m . def ( " lindhard " , & bethek_lindhard ) ;
m . def ( " lindhard_X " , & bethek_lindhard_X ) ;
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m . def ( " get_material " , py : : overload_cast < int > ( & get_material ) ) ;
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m . def ( " get_data " , py : : overload_cast < Projectile & , const Material & , const Config & > ( get_data ) , " list of data " , py : : arg ( " projectile " ) , py : : arg ( " material " ) , py : : arg ( " config " ) = default_config ) ;
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m . def ( " w_magnification " , [ ] ( Projectile & p , double energy , const Material & m , const Config & c ) {
py : : list l ;
auto r = w_magnification ( p , energy , m , c ) ;
l . append ( r . first ) ;
l . append ( r . second ) ;
return l ;
} ) ;
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m . def ( " catima_info " , & catima_info ) ;
m . def ( " storage_info " , & storage_info ) ;
m . def ( " get_energy_table " , & get_energy_table ) ;
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m . def ( " energy_table " , [ ] ( int i ) { return energy_table ( i ) ; } ) ;
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m . def ( " z_effective " , & z_effective ) ;
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m . attr ( " max_datapoints " ) = max_datapoints ;
m . attr ( " max_storage_data " ) = max_storage_data ;
m . attr ( " logEmin " ) = logEmin ;
m . attr ( " logEmax " ) = logEmax ;
}