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#define trkstruct_h |
#define trkstruct_h |
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#define NPLANE 6 |
#define NPLANE 6 |
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#define NVIEW 12 |
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#define NVK 24 |
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#define NLADDER 3 |
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#define NCLMAX_VIEW 200 //max n.clusters per view |
#define NCLMAX_VIEW 200 //max n.clusters per view |
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#define NCLSTR 20 //max n.strip per cluster |
#define NCLSTR 20 //max n.strip per cluster |
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#define NTRKMAX 10 |
#define NTRKMAX 10 |
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#define NSINGMAX NCLMAX //100 |
#define NSINGMAX NCLMAX //100 |
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#define NANGMAX 21 |
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#define NETAVALMAX 500 |
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#include <CalibTrk1Event.h> |
#include <CalibTrk1Event.h> |
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#include <CalibTrk2Event.h> |
#include <CalibTrk2Event.h> |
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using namespace pamela; |
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//#include <TrkCalib.h> |
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#include <TString.h> |
#include <TString.h> |
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#include <TFile.h> |
#include <TFile.h> |
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#include <TTree.h> |
#include <TTree.h> |
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#include <fstream> |
#include <fstream> |
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#include <iostream> |
#include <iostream> |
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/** |
/** |
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float sigma_t[128][24][12]; |
float sigma_t[128][24][12]; |
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int bad[128][24][12]; |
int bad[128][24][12]; |
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void FillACalibFrom(TFile* , Int_t , Int_t ); |
/* void FillACalibFrom(TFile* , Int_t , Int_t ); */ |
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void FillFCalibFrom(TFile* , Int_t , Int_t ); |
/* void FillFCalibFrom(TFile* , Int_t , Int_t ); */ |
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void FillTCalibFrom(TFile* , Int_t , Int_t ); |
/* void FillTCalibFrom(TFile* , Int_t , Int_t ); */ |
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void FillTCalibFrom(TString); |
/* void FillTCalibFrom(TString); */ |
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}; |
}; |
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// ================================================================== |
// ================================================================== |
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float cnrmsev[24][12]; |
float cnrmsev[24][12]; |
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int fshower[12]; |
int fshower[12]; |
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int whichtrack[NCLMAX]; |
int whichtrack[NCLMAX]; |
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}; |
}; |
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// ================================================================== |
// ================================================================== |
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/** |
/** |
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const char *pc = s.Data(); |
const char *pc = s.Data(); |
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for(Int_t i=0; i<=pathlen; i++) path[i] = *pc++; |
for(Int_t i=0; i<=pathlen; i++) path[i] = *pc++; |
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}; |
}; |
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}; |
}; |
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// ================================================================== |
// ================================================================== |
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/** |
/* /\** */ |
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* \brief Struct to pass magnetic-field file paths to F77 routines |
/* * \brief Struct to pass magnetic-field file paths to F77 routines */ |
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*/ |
/* *\/ */ |
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struct cBPath { |
/* struct cBPath { */ |
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char b_path[256]; |
/* char b_path[256]; */ |
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int b_pathlen; |
/* int b_pathlen; */ |
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int b_error; |
/* int b_error; */ |
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int b_loaded; |
/* int b_loaded; */ |
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/** |
/* /\** */ |
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* Fill the struct variables from a TString object and set |
/* * Fill the struct variables from a TString object and set */ |
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* the load flag to FALSE. |
/* * the load flag to FALSE. */ |
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*/ |
/* *\/ */ |
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void FillWith(TString s){ |
/* void FillWith(TString s){ */ |
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b_loaded = 0; |
/* b_loaded = 0; */ |
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b_pathlen = s.Length(); |
/* b_pathlen = s.Length(); */ |
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const char *pc = s.Data(); |
/* const char *pc = s.Data(); */ |
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for(Int_t i=0; i<=b_pathlen; i++) b_path[i] = *pc++; |
/* for(Int_t i=0; i<=b_pathlen; i++) b_path[i] = *pc++; */ |
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}; |
/* }; */ |
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/** |
/* /\** */ |
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* Fill the struct variables from a TString object |
/* * Fill the struct variables from a TString object */ |
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*/ |
/* *\/ */ |
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int BIsLoaded(){ return b_loaded; }; |
/* int BIsLoaded(){ return b_loaded; }; */ |
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}; |
/* }; */ |
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// ================================================================== |
// ================================================================== |
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/** |
/** |
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double cov[5][5]; |
double cov[5][5]; |
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int nstep; |
int nstep; |
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int idcand; |
int idcand; |
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}; |
}; |
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// |
// |
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/** |
/** |
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struct cTrkHough { |
struct cTrkHough { |
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int ndblt; |
int ndblt_nt; |
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float alfayz1[NDBLT_MAX_NT]; |
float alfayz1_nt[NDBLT_MAX_NT]; |
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float alfayz2[NDBLT_MAX_NT]; |
float alfayz2_nt[NDBLT_MAX_NT]; |
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int db_cloud[NDBLT_MAX_NT]; |
int db_cloud_nt[NDBLT_MAX_NT]; |
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int ntrpt; |
int ntrpt_nt; |
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float alfaxz1[NTRPT_MAX_NT]; |
float alfaxz1_nt[NTRPT_MAX_NT]; |
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float alfaxz2[NTRPT_MAX_NT]; |
float alfaxz2_nt[NTRPT_MAX_NT]; |
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float alfaxz3[NTRPT_MAX_NT]; |
float alfaxz3_nt[NTRPT_MAX_NT]; |
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int tr_cloud[NTRPT_MAX_NT]; |
int tr_cloud_nt[NTRPT_MAX_NT]; |
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int nclouds_yz; |
int nclouds_yz_nt; |
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float alfayz1_av[NCLOYZ_MAX]; |
float alfayz1_av_nt[NCLOYZ_MAX]; |
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float alfayz2_av[NCLOYZ_MAX]; |
float alfayz2_av_nt[NCLOYZ_MAX]; |
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int ptcloud_yz[NCLOYZ_MAX]; |
int ptcloud_yz_nt[NCLOYZ_MAX]; |
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int nclouds_xz; |
int nclouds_xz_nt; |
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float alfaxz1_av[NCLOXZ_MAX]; |
float alfaxz1_av_nt[NCLOXZ_MAX]; |
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float alfaxz2_av[NCLOXZ_MAX]; |
float alfaxz2_av_nt[NCLOXZ_MAX]; |
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float alfaxz3_av[NCLOXZ_MAX]; |
float alfaxz3_av_nt[NCLOXZ_MAX]; |
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int ptcloud_xz[NCLOXZ_MAX]; |
int ptcloud_xz_nt[NCLOXZ_MAX]; |
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int nclstr; |
int nclstr; |
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float totaltime; |
float totaltime; |
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float houghtime; |
float houghtime; |
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void InitcTrkHough(){ |
void InitcTrkHough(){ |
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ndblt = 0; |
ndblt_nt = 0; |
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ntrpt = 0; |
ntrpt_nt = 0; |
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nclouds_yz = 0; |
nclouds_yz_nt = 0; |
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nclouds_xz = 0; |
nclouds_xz_nt = 0; |
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nclstr = 0; |
nclstr = 0; |
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totaltime = 0; |
totaltime = 0; |
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houghtime = 0; |
houghtime = 0; |
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fittime = 0; |
fittime = 0; |
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for(int i=0;i<NDBLT_MAX_NT ;i++){ |
for(int i=0;i<NDBLT_MAX_NT ;i++){ |
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alfayz1[i] = 0; |
alfayz1_nt[i] = 0; |
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alfayz2[i] = 0; |
alfayz2_nt[i] = 0; |
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db_cloud[i] = 0; |
db_cloud_nt[i] = 0; |
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} |
} |
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for(int i=0;i<NTRPT_MAX_NT ;i++){ |
for(int i=0;i<NTRPT_MAX_NT ;i++){ |
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alfaxz1[i] = 0; |
alfaxz1_nt[i] = 0; |
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alfaxz2[i] = 0; |
alfaxz2_nt[i] = 0; |
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alfaxz3[i] = 0; |
alfaxz3_nt[i] = 0; |
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tr_cloud[i] = 0; |
tr_cloud_nt[i] = 0; |
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} |
} |
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for(int i=0;i<NCLOYZ_MAX ;i++){ |
for(int i=0;i<NCLOYZ_MAX ;i++){ |
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alfayz1_av[i] = 0; |
alfayz1_av_nt[i] = 0; |
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alfayz2_av[i] = 0; |
alfayz2_av_nt[i] = 0; |
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ptcloud_yz[i] = 0; |
ptcloud_yz_nt[i] = 0; |
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} |
} |
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for(int i=0;i<NCLOXZ_MAX ;i++){ |
for(int i=0;i<NCLOXZ_MAX ;i++){ |
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ptcloud_xz[i] = 0; |
ptcloud_xz_nt[i] = 0; |
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alfaxz1_av[i] = 0; |
alfaxz1_av_nt[i] = 0; |
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alfaxz2_av[i] = 0; |
alfaxz2_av_nt[i] = 0; |
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alfaxz3_av[i] = 0; |
alfaxz3_av_nt[i] = 0; |
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} |
} |
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} |
} |
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}; |
}; |
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/** |
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* \brief Struct to pass VA1-mask to F77 routines |
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*/ |
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struct cTrkMask { |
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int mask_vk[NVK][NVIEW]; |
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int mask_vk_run[NVK][NVIEW]; |
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// void Set(TFile* , Int_t , Int_t ); |
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}; |
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/** |
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* \brief Struct for pfa parameters |
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*/ |
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struct cTrkETA { |
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int nangbin; |
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float angL[NANGMAX],angR[NANGMAX]; |
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int netaval; |
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float eta2[NANGMAX][NETAVALMAX]; |
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float feta2[NANGMAX][NLADDER][NVIEW][NETAVALMAX]; |
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float eta3[NANGMAX][NETAVALMAX]; |
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float feta3[NANGMAX][NLADDER][NVIEW][NETAVALMAX]; |
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float eta4[NANGMAX][NETAVALMAX]; |
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float feta4[NANGMAX][NLADDER][NVIEW][NETAVALMAX]; |
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}; |
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extern "C" { |
extern "C" { |
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extern struct cTrkCalib pedsigbad_; |
extern struct cTrkCalib pedsigbad_; |
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extern struct cTrkMask mask_; |
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extern struct cTrkLevel0 level0event_; |
extern struct cTrkLevel0 level0event_; |
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extern struct cTrkLevel1 level1event_; |
extern struct cTrkLevel1 level1event_; |
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extern struct cTrkLevel2 level2event_; |
extern struct cTrkLevel2 level2event_; |
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extern struct cPath path_; |
extern struct cPath path_; |
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extern struct cBPath bpath_; |
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extern struct cDbg dbg_; |
extern struct cDbg dbg_; |
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extern struct cTrkHough houghevent_; |
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extern struct cMini2track track_; |
extern struct cMini2track track_; |
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extern struct cTrkHough hough_; |
extern struct cTrkETA pfa_; |
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void fillpedsigfromdefault_(); |
void fillpedsigfromdefault_(); |
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int readmipparam_(); |
int readmipparam_(); |
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int readalignparam_(); |
int readalignparam_(); |
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int readetaparam_(); |
int readetaparam_(); |
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void reductionflight_(int*); |
void reductionflight_(int*); |
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int analysisflight_(); |
int analysisflight_(int*); |
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} |
int readb_(); |
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} |
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#endif |
#endif |
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