2 |
* FTrkCalibQLook_BASIC.cxx |
* FTrkCalibQLook_BASIC.cxx |
3 |
* |
* |
4 |
* autor: D.Fedele |
* autor: D.Fedele |
5 |
* version v1r09 |
* version v1r11 |
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* Parameters: |
* Parameters: |
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* file - the data file to analyze |
* file - the data file to analyze |
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* fromevent - first event to analyze |
* fromevent - first event to analyze |
19 |
#include <TTree.h> |
#include <TTree.h> |
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#include <TStyle.h> |
#include <TStyle.h> |
21 |
#include <TString.h> |
#include <TString.h> |
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|
#include <TAxis.h> |
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|
#include <TH1F.h> |
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|
#include <TROOT.h> |
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|
#include <cstdlib> |
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// |
// |
27 |
#include <PscuHeader.h> |
#include <PscuHeader.h> |
28 |
#include <EventHeader.h> |
#include <EventHeader.h> |
30 |
#include <CalibTrk2Event.h> |
#include <CalibTrk2Event.h> |
31 |
// |
// |
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|
|
33 |
typedef struct caltrk_def{ |
struct caltrk_def{ |
34 |
Int_t good0[2]; |
Int_t good0[2]; |
35 |
Int_t daqmode[12]; |
Int_t daqmode[12]; |
36 |
Int_t dspnum[12]; |
Int_t dspnum[12]; |
78 |
Int_t nevents=0; |
Int_t nevents=0; |
79 |
Int_t minevent = 0; |
Int_t minevent = 0; |
80 |
Int_t maxevent = 0; |
Int_t maxevent = 0; |
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ULong64_t OBT[2]; |
ULong_t OBT[2]; |
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|
|
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OBT[0]=0; |
OBT[0]=0; |
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OBT[1]=0; |
OBT[1]=0; |
196 |
Int_t canvasx=900; |
Int_t canvasx=900; |
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Int_t canvasy=1200; |
Int_t canvasy=1200; |
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|
|
199 |
Int_t ndsp =0,alarm=0; |
Int_t alarm=0; |
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Float_t pedav[12][12],pedavtemp[12][12],sigav[12][12],sigavtemp[12][12]; |
Float_t pedav[12][12],pedavtemp[12][12],sigav[12][12],sigavtemp[12][12]; |
201 |
Int_t flpedav[12][12],flsigav[12][12]; |
Int_t flpedav[12][12],flsigav[12][12]; |
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Float_t siglimsup[12][12],sigliminf[12][12],pedlimsup[12][12],pedliminf[12][12]; |
Float_t siglimsup[12][12],sigliminf[12][12],pedlimsup[12][12],pedliminf[12][12]; |
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for (Int_t m = 0; m < 6; m++){ |
for (Int_t m = 0; m < 6; m++){ |
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ph1 = eh1->GetPscuHeader(); |
ph1 = eh1->GetPscuHeader(); |
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OBT[0]= ph1->GetOrbitalTime(); |
OBT[0]= ph1->GetOrbitalTime(); |
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ctrk.daqmode[trk1->DSPnumber[m]-1]=trk1->DAQmode[m]; |
if(trk1->DSPnumber[m]>0){ |
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ctrk.dspnum[trk1->DSPnumber[m]-1]=trk1->DSPnumber[m]; |
if(trk1->DSPnumber[m]<13){ |
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ctrk.calibnum[trk1->DSPnumber[m]-1]=trk1->calibnumber[m]; |
ctrk.daqmode[trk1->DSPnumber[m]-1]=trk1->DAQmode[m]; |
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ctrk.ncalev[trk1->DSPnumber[m]-1]=trk1->ncalib_event[m]; |
ctrk.dspnum[trk1->DSPnumber[m]-1]=trk1->DSPnumber[m]; |
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ctrk.ped1[trk1->DSPnumber[m]-1]=trk1->ped_l1[m]; |
ctrk.calibnum[trk1->DSPnumber[m]-1]=trk1->calibnumber[m]; |
284 |
ctrk.ped2[trk1->DSPnumber[m]-1]=trk1->ped_l2[m]; |
ctrk.ncalev[trk1->DSPnumber[m]-1]=trk1->ncalib_event[m]; |
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ctrk.ped3[trk1->DSPnumber[m]-1]=trk1->ped_l3[m]; |
ctrk.ped1[trk1->DSPnumber[m]-1]=trk1->ped_l1[m]; |
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ctrk.sig1[trk1->DSPnumber[m]-1]=trk1->sig_l1[m]; |
ctrk.ped2[trk1->DSPnumber[m]-1]=trk1->ped_l2[m]; |
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ctrk.sig2[trk1->DSPnumber[m]-1]=trk1->sig_l2[m]; |
ctrk.ped3[trk1->DSPnumber[m]-1]=trk1->ped_l3[m]; |
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ctrk.sig3[trk1->DSPnumber[m]-1]=trk1->sig_l3[m]; |
ctrk.sig1[trk1->DSPnumber[m]-1]=trk1->sig_l1[m]; |
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ctrk.nbad1[trk1->DSPnumber[m]-1]=trk1->nbad_l1[m]; |
ctrk.sig2[trk1->DSPnumber[m]-1]=trk1->sig_l2[m]; |
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ctrk.nbad2[trk1->DSPnumber[m]-1]=trk1->nbad_l2[m]; |
ctrk.sig3[trk1->DSPnumber[m]-1]=trk1->sig_l3[m]; |
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ctrk.nbad3[trk1->DSPnumber[m]-1]=trk1->nbad_l3[m]; |
ctrk.nbad1[trk1->DSPnumber[m]-1]=trk1->nbad_l1[m]; |
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ctrk.calfl[trk1->DSPnumber[m]-1]=trk1->cal_flag[m]; |
ctrk.nbad2[trk1->DSPnumber[m]-1]=trk1->nbad_l2[m]; |
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ctrk.crc_c[trk1->DSPnumber[m]-1][0]=trk1->crc_cal[m][0]; |
ctrk.nbad3[trk1->DSPnumber[m]-1]=trk1->nbad_l3[m]; |
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ctrk.crc_c[trk1->DSPnumber[m]-1][1]=trk1->crc_cal[m][1]; |
ctrk.calfl[trk1->DSPnumber[m]-1]=trk1->cal_flag[m]; |
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ctrk.crc_c[trk1->DSPnumber[m]-1][2]=trk1->crc_cal[m][2]; |
ctrk.crc_c[trk1->DSPnumber[m]-1][0]=trk1->crc_cal[m][0]; |
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ctrk.crc_hc[trk1->DSPnumber[m]-1]=trk1->crc_hcal[m]; |
ctrk.crc_c[trk1->DSPnumber[m]-1][1]=trk1->crc_cal[m][1]; |
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for (Int_t j = 0; j < 3072; j++){ |
ctrk.crc_c[trk1->DSPnumber[m]-1][2]=trk1->crc_cal[m][2]; |
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ctrk.dspped[trk1->DSPnumber[m]-1][j]=trk1->DSPped_par[m][j]; |
ctrk.crc_hc[trk1->DSPnumber[m]-1]=trk1->crc_hcal[m]; |
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ctrk.dspsig[trk1->DSPnumber[m]-1][j]=trk1->DSPsig_par[m][j]; |
for (Int_t j = 0; j < 3072; j++){ |
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ctrk.dspbad[trk1->DSPnumber[m]-1][j]=trk1->DSPbad_par[m][j]; |
ctrk.dspped[trk1->DSPnumber[m]-1][j]=trk1->DSPped_par[m][j]; |
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|
ctrk.dspsig[trk1->DSPnumber[m]-1][j]=trk1->DSPsig_par[m][j]; |
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ctrk.dspbad[trk1->DSPnumber[m]-1][j]=trk1->DSPbad_par[m][j]; |
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} |
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} |
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} |
} |
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ph2 = eh2->GetPscuHeader(); |
ph2 = eh2->GetPscuHeader(); |
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OBT[1]= ph2->GetOrbitalTime(); |
OBT[1]= ph2->GetOrbitalTime(); |
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ctrk.daqmode[trk2->DSPnumber[m]-1]=trk2->DAQmode[m]; |
if(trk2->DSPnumber[m]>0){ |
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ctrk.dspnum[trk2->DSPnumber[m]-1]=trk2->DSPnumber[m]; |
if(trk2->DSPnumber[m]<13){ |
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ctrk.calibnum[trk2->DSPnumber[m]-1]=trk2->calibnumber[m]; |
ctrk.daqmode[trk2->DSPnumber[m]-1]=trk2->DAQmode[m]; |
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ctrk.ncalev[trk2->DSPnumber[m]-1]=trk2->ncalib_event[m]; |
ctrk.dspnum[trk2->DSPnumber[m]-1]=trk2->DSPnumber[m]; |
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ctrk.ped1[trk2->DSPnumber[m]-1]=trk2->ped_l1[m]; |
ctrk.calibnum[trk2->DSPnumber[m]-1]=trk2->calibnumber[m]; |
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ctrk.ped2[trk2->DSPnumber[m]-1]=trk2->ped_l2[m]; |
ctrk.ncalev[trk2->DSPnumber[m]-1]=trk2->ncalib_event[m]; |
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ctrk.ped3[trk2->DSPnumber[m]-1]=trk2->ped_l3[m]; |
ctrk.ped1[trk2->DSPnumber[m]-1]=trk2->ped_l1[m]; |
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ctrk.sig1[trk2->DSPnumber[m]-1]=trk2->sig_l1[m]; |
ctrk.ped2[trk2->DSPnumber[m]-1]=trk2->ped_l2[m]; |
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ctrk.sig2[trk2->DSPnumber[m]-1]=trk2->sig_l2[m]; |
ctrk.ped3[trk2->DSPnumber[m]-1]=trk2->ped_l3[m]; |
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ctrk.sig3[trk2->DSPnumber[m]-1]=trk2->sig_l3[m]; |
ctrk.sig1[trk2->DSPnumber[m]-1]=trk2->sig_l1[m]; |
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ctrk.nbad1[trk2->DSPnumber[m]-1]=trk2->nbad_l1[m]; |
ctrk.sig2[trk2->DSPnumber[m]-1]=trk2->sig_l2[m]; |
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ctrk.nbad2[trk2->DSPnumber[m]-1]=trk2->nbad_l2[m]; |
ctrk.sig3[trk2->DSPnumber[m]-1]=trk2->sig_l3[m]; |
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ctrk.nbad3[trk2->DSPnumber[m]-1]=trk2->nbad_l3[m]; |
ctrk.nbad1[trk2->DSPnumber[m]-1]=trk2->nbad_l1[m]; |
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ctrk.calfl[trk2->DSPnumber[m]-1]=trk2->cal_flag[m]; |
ctrk.nbad2[trk2->DSPnumber[m]-1]=trk2->nbad_l2[m]; |
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ctrk.crc_c[trk1->DSPnumber[m]-1][0]=trk2->crc_cal[m][0]; |
ctrk.nbad3[trk2->DSPnumber[m]-1]=trk2->nbad_l3[m]; |
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ctrk.crc_c[trk1->DSPnumber[m]-1][1]=trk2->crc_cal[m][1]; |
ctrk.calfl[trk2->DSPnumber[m]-1]=trk2->cal_flag[m]; |
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ctrk.crc_c[trk1->DSPnumber[m]-1][2]=trk2->crc_cal[m][2]; |
ctrk.crc_c[trk1->DSPnumber[m]-1][0]=trk2->crc_cal[m][0]; |
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ctrk.crc_hc[trk1->DSPnumber[m]-1]=trk2->crc_hcal[m]; |
ctrk.crc_c[trk1->DSPnumber[m]-1][1]=trk2->crc_cal[m][1]; |
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for (Int_t j = 0; j < 3072; j++){ |
ctrk.crc_c[trk1->DSPnumber[m]-1][2]=trk2->crc_cal[m][2]; |
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ctrk.dspped[trk2->DSPnumber[m]-1][j]=trk2->DSPped_par[m][j]; |
ctrk.crc_hc[trk1->DSPnumber[m]-1]=trk2->crc_hcal[m]; |
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ctrk.dspsig[trk2->DSPnumber[m]-1][j]=trk2->DSPsig_par[m][j]; |
for (Int_t j = 0; j < 3072; j++){ |
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ctrk.dspbad[trk2->DSPnumber[m]-1][j]=trk2->DSPbad_par[m][j]; |
ctrk.dspped[trk2->DSPnumber[m]-1][j]=trk2->DSPped_par[m][j]; |
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ctrk.dspsig[trk2->DSPnumber[m]-1][j]=trk2->DSPsig_par[m][j]; |
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ctrk.dspbad[trk2->DSPnumber[m]-1][j]=trk2->DSPbad_par[m][j]; |
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} |
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} |
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} |
} |
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} |
} |
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|
|
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} |
} |
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} |
} |
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|
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Int_t nn,ok=0; |
Int_t nn=0,ok=0; |
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|
|
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// |
// |
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// write warning if it occur |
// write warning if it occur |
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for(Int_t n = 0; n<12; n++){ |
for(Int_t n = 0; n<12; n++){ |
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|
|
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ndsp = ctrk.dspnum[n]; |
if(ctrk.dspnum[n]==0) |
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nn = ndsp-1; |
continue; |
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nn = ctrk.dspnum[n]-1; |
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|
|
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for(Int_t iii=0;iii<3;iii++){ |
for(Int_t iii=0;iii<3;iii++){ |
359 |
if(ctrk.crc_c[nn][iii]!=0){ |
if(ctrk.crc_c[nn][iii]!=0){ |
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space[wc]-=spacep; |
space[wc]-=spacep; |
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} |
} |
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|
|
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if(ctrk.good0[0]==1 && ctrk.good0[1]==1){ |
// if(ctrk.good0[0]==1 && ctrk.good0[1]==1){ |
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// |
// |
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// evaluate the mean value of the sigma and pedestal |
// evaluate the mean value of the sigma and pedestal |
426 |
for(Int_t j = 0; j < 3072; j++){ |
for(Int_t j = 0; j < 3072; j++){ |
481 |
} |
} |
482 |
} |
} |
483 |
} |
} |
484 |
} |
// } |
485 |
} |
} |
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if(ok==0 && ctrk.good0[0]==1 && ctrk.good0[1]==1){ |
if(ok==0){ |
487 |
|
// if(ok==0 && ctrk.good0[0]==1 && ctrk.good0[1]==1){ |
488 |
if(space[wc]<=10){ |
if(space[wc]<=10){ |
489 |
wc+=1; |
wc+=1; |
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flcanvas+=1; |
flcanvas+=1; |