Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4GIDI_target.hh
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1//
2// ********************************************************************
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5// * The Geant4 software is copyright of the Copyright Holders of *
6// * the Geant4 Collaboration. It is provided under the terms and *
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25//
26/*
27# <<BEGIN-copyright>>
28# <<END-copyright>>
29*/
30#ifndef G4GIDI_target_h_included
31#define G4GIDI_target_h_included 1
32
33#include <vector>
34#include <string>
35
36//using namespace std;
37
39
40#include <MCGIDI.h>
41
44
46 int start, end;
47 std::vector<double> crossSection;
48};
49
50#define channelID std::string
51
53 int A, Z, m;
54 double kineticEnergy, px, py, pz;
56};
57
59
60 public:
61 void init( const char *fileName );
65
66 public:
67 GIDI::statusMessageReporting smr;
69 std::string name;
70 std::string sourceFilename;
71 double mass;
72 GIDI::MCGIDI_target *target;
73
74 G4GIDI_target( const char *fileName );
75 G4GIDI_target( std::string const &fileName );
77
78 std::string *getName( void );
79 std::string *getFilename( void );
80 int getZ( void );
81 int getA( void );
82 int getM( void );
83 double getMass( void );
84 int getTemperatures( double *temperatures );
85 int readTemperature( int index );
86 std::string getEqualProbableBinSampleMethod( void );
87 int setEqualProbableBinSampleMethod( std::string method );
88
89 int getNumberOfChannels( void );
91 channelID getChannelsID( int channelIndex );
92 std::vector<channelID> *getChannelIDs( void );
93 std::vector<channelID> *getProductionChannelIDs( void );
94
95 std::vector<double> *getEnergyGridAtTIndex( int index );
96
97 double getTotalCrossSectionAtE( double e_in, double temperature );
98 double getElasticCrossSectionAtE( double e_in, double temperature );
99 double getCaptureCrossSectionAtE( double e_in, double temperature );
100 double getFissionCrossSectionAtE( double e_in, double temperature );
101 double getOthersCrossSectionAtE( double e_in, double temperature );
102 double sumChannelCrossSectionAtE( int nIndices, int *indices, double e_in, double temperature );
103 int sampleChannelCrossSectionAtE( int nIndices, int *indices, double e_in, double temperature, double (*rng)( void * ), void *rngState );
104
105 double getElasticFinalState( double e_in, double temperature, double (*rng)( void * ), void *rngState );
106 std::vector<G4GIDI_Product> *getCaptureFinalState( double e_in, double temperature, double (*rng)( void * ), void *rngState );
107 std::vector<G4GIDI_Product> *getFissionFinalState( double e_in, double temperature, double (*rng)( void * ), void *rngState );
108 std::vector<G4GIDI_Product> *getOthersFinalState( double e_in, double temperature, double (*rng)( void * ), void *rngState );
109 std::vector<G4GIDI_Product> *getFinalState( int nIndices, int *indices, double e_in, double temperature, double (*rng)( void * ), void *rngState );
110
111 double getReactionsThreshold( int index );
112 double getReactionsDomain( int index, double *EMin, double *EMax );
113};
114
115#endif // End of G4GIDI_target_h_included
#define channelID
std::string name
std::vector< G4GIDI_Product > * getOthersFinalState(double e_in, double temperature, double(*rng)(void *), void *rngState)
std::string equalProbableBinSampleMethod
double getFissionCrossSectionAtE(double e_in, double temperature)
GIDI::statusMessageReporting smr
std::vector< G4GIDI_Product > * getFissionFinalState(double e_in, double temperature, double(*rng)(void *), void *rngState)
std::string sourceFilename
double getElasticFinalState(double e_in, double temperature, double(*rng)(void *), void *rngState)
double getCaptureCrossSectionAtE(double e_in, double temperature)
double getOthersCrossSectionAtE(double e_in, double temperature)
int readTemperature(int index)
std::string * getName(void)
int getZ(void)
channelID getChannelsID(int channelIndex)
GIDI::MCGIDI_target * target
double getTotalCrossSectionAtE(double e_in, double temperature)
double getReactionsThreshold(int index)
int * fissionIndices
int sampleChannelCrossSectionAtE(int nIndices, int *indices, double e_in, double temperature, double(*rng)(void *), void *rngState)
int getNumberOfProductionChannels(void)
std::vector< channelID > * getChannelIDs(void)
int * captureIndices
std::vector< G4GIDI_Product > * getFinalState(int nIndices, int *indices, double e_in, double temperature, double(*rng)(void *), void *rngState)
double getElasticCrossSectionAtE(double e_in, double temperature)
int * elasticIndices
std::string getEqualProbableBinSampleMethod(void)
std::vector< double > * getEnergyGridAtTIndex(int index)
int getM(void)
int setEqualProbableBinSampleMethod(std::string method)
int getTemperatures(double *temperatures)
std::vector< G4GIDI_Product > * getCaptureFinalState(double e_in, double temperature, double(*rng)(void *), void *rngState)
std::string * getFilename(void)
int getNumberOfChannels(void)
void init(const char *fileName)
int getA(void)
std::vector< channelID > * getProductionChannelIDs(void)
double getReactionsDomain(int index, double *EMin, double *EMax)
double sumChannelCrossSectionAtE(int nIndices, int *indices, double e_in, double temperature)
double getMass(void)
std::vector< double > crossSection