flight/src/TrkCalibQLook_BASIC.cpp

#include <utils/yodaUtility.h>
#include "TrkFunctions.cpp"
#include <iostream>
#include <fstream>
#include <TPaveText.h>
#include <TLatex.h>
#include <TCanvas.h>
#include <TGraph.h>
#include <TStyle.h>
#include <TObjString.h>
#include <PscuHeader.h>
#include <EventHeader.h>
#include <CalibTrk1Event.h>
#include <CalibTrk2Event.h>

/**
 * TrkCalibQLookBasic.cpp
 *
 * autor: D.Fedele
 * version 1.0
 * Parameters:
 *      base - the path to the root directory for the specific
 *             Pamela unpack session
 *      fromevent - first event to analyse
 *      toevent - last event to analyse
 *      outdir - total path of output file 
 *      outfile - extension of output file (pdf,ps,gif,jpg)
 * 
 */

void TrkCalibQLook_BASIC(TString file,Int_t fromevent,Int_t toevent,TString outdir,TString outfile)
{
  // 
  //   obtain information about the data file and select the output dir
  const string filepath=file.Data(); 
  Int_t dwpos = filepath.find("DW_");
  Int_t dwpos1 = filepath.find(".root");
  TString fpath=(filepath.c_str());
  TString base,ffile;
  stringcopy(base,fpath,0,dwpos);
  stringcopy(ffile,fpath,dwpos,dwpos1);

  TString out;
  if(outdir.Length()==0){
    out = base;
  }else{
    out = outdir;
  };
  
  //
  // inizialise the variables and open the file
  struct caltrk_def ctrk;
  Int_t nevents=0;
  Int_t minevent = 0;
  Int_t maxevent = 0;
  ULong64_t OBT[2];
  
  OBT[0]=0;
  OBT[1]=0;
  ctrk.good0[0]=0;
  ctrk.good0[1]=0;
  for(Int_t i=0;i<12;i++){ 
    ctrk.daqmode[i]=0;
    ctrk.dspnum[i]=0;
    ctrk.calibnum[i]=0;
    ctrk.ncalev[i]=0;
    ctrk.calfl[i]=0;
    ctrk.ped1[i]=0;
    ctrk.ped2[i]=0;
    ctrk.ped3[i]=0;
    ctrk.sig1[i]=0;
    ctrk.sig2[i]=0;
    ctrk.sig3[i]=0;
    ctrk.nbad1[i]=0;
    ctrk.nbad2[i]=0;
    ctrk.nbad3[i]=0;
    ctrk.crc_hc[i]=0;
    ctrk.crc_c[i][0]=0;
    ctrk.crc_c[i][1]=0;
    ctrk.crc_c[i][2]=0;
    for(Int_t iii=0;iii<3072;iii++){
      ctrk.dspped[i][iii]=0;
      ctrk.dspsig[i][iii]=0;
      ctrk.dspbad[i][iii]=0;
    }
  }

  pamela::EventHeader *eh1=0,*eh2=0;
  pamela::PscuHeader *ph1=0,*ph2=0;
  pamela::CalibTrk1Event *trk1 = 0;
  pamela::CalibTrk2Event *trk2 = 0;

  TFile *datafile = new TFile(file);
  if ( !datafile ){
    printf("No data file, exiting...\n");
    return;
  };  
  TTree *otr1,*otr2;
  
  otr1 = (TTree*)datafile->Get("CalibTrk1");
  otr1->SetBranchAddress("CalibTrk1", &trk1);
  otr1->SetBranchAddress("Header",&eh1);
  otr2 = (TTree*)datafile->Get("CalibTrk2");
  otr2->SetBranchAddress("CalibTrk2", &trk2);
  otr2->SetBranchAddress("Header",&eh2);
  

  if(otr1->GetEntries()==otr2->GetEntries())
    nevents = otr1->GetEntries();
  else{
    printf("WARNING: CalibTrk1 entries is different from CalibTrk2 entries");
    return;}

  if (nevents<=0) {
    datafile->Close();
    printf("No calibration packets found, exiting...\n");
    return;
  };
  // printf("Number of calibration packets: %i\n",nevents);

  if ( fromevent > toevent && toevent ){
    printf("It must be fromevent < toevent \n");
    return;
  };
    
  if ( fromevent > nevents || fromevent < 0 ) {
    printf("You can choose fromevent between 0 (all) and %i \n",nevents);
    return;
  };
    
  if ( toevent > nevents || toevent < 0 ) {
    printf("You can choose toevent between 0 (all) and %i \n",nevents);
    return;
  };
  if ( fromevent == 0 ) {
    minevent = 0;
    maxevent = nevents;
  } else {
    minevent = fromevent - 1;
    if ( toevent > 0 ){
      maxevent = toevent;
    } else if (toevent > nevents) {        
      maxevent = nevents;
    } else {       
      maxevent = fromevent;
    };
  };

  //
  // other variables definitions
  stringstream fromfile,rep,tit;
  fromfile<<"TrkCalibQLookBasic      File: "<<ffile;
  
  gStyle->SetLabelSize(0.08,"x");
  gStyle->SetLabelSize(0.08,"y");
  gStyle->SetFillColor(0); 
  gStyle->SetTitleFillColor(0); 
  gStyle->SetTitleFontSize(0.1);
  gStyle->SetTitleOffset(0.8,"y");
  gStyle->SetTitleOffset(1.,"x");
  gStyle->SetTitleSize(0.06,"y");
  gStyle->SetTitleSize(0.06,"x");
  gStyle->SetOptStat(0);

  TLatex *tzz=new TLatex();
  tzz->SetTextFont(32);
  tzz->SetTextColor(1);
  tzz->SetTextAlign(12);
  tzz->SetTextSize(0.02);

  Int_t canvasx=900;
  Int_t canvasy=1200;

  Int_t ndsp =0,alarm=0;
  Float_t pedav[12][12],pedavtemp[12][12],sigav[12][12],sigavtemp[12][12];
  Int_t flpedav[12][12],flsigav[12][12];
  Float_t siglimsup[12][12],sigliminf[12][12],pedlimsup[12][12],pedliminf[12][12];

  //
  // inizialize the limits for simga and pedestall
  for(Int_t i=0;i<12;i++){
    for(Int_t ii=0;ii<12;ii++){
      siglimsup[i][ii]=20.;
      sigliminf[i][ii]=0.;
      pedlimsup[i][ii]=3500.;
      pedliminf[i][ii]=50.;
    }
  }
  
  //
  // count of possible alarm to set the number of output pages
  alarm+=(maxevent-minevent)/9 +1;
  for (Int_t i = minevent; i < maxevent; i++){     
    otr1->GetEntry(i); 
    otr2->GetEntry(i); 
    for(Int_t m=0;m<6;m++){
      for(Int_t mm=0;mm<3;mm++){
        if(trk1->crc_cal[m][mm]!=0) alarm+=1;
        if(trk2->crc_cal[m][mm]!=0 ) alarm+=1;
      }
      if(trk1->crc_hcal[m]!=0 ) alarm+=1;
      if(trk1->cal_flag[m]!=0 ) alarm+=1;
      if(trk2->crc_hcal[m]!=0) alarm+=1;
      if(trk2->cal_flag[m]!=0) alarm+=1;
    }  
  }
  const Int_t cnum=alarm/30 + 10;
  Int_t flcanvas=1;
  Float_t spacep=1.5,space[cnum];
  TCanvas *c[cnum];
  
  //
  //  create output canvas  
  for(Int_t i=0;i<cnum;i++){
    space[i]=96.0;
    rep.str("");
    tit.str("");
    tit<<"c"<<i;
    rep<<"TrkCalibQLook_BASIC_pag"<<i+1;
    c[i]=new TCanvas(tit.str().c_str(),rep.str().c_str(),canvasx,canvasy);
    c[i]->Range(0,0,100,100);
    tzz->DrawLatex(1,98.5,fromfile.str().c_str());
    rep.str("");
    rep<<"CALIBRATION REPORT pag"<<i+1;
    tzz->DrawLatex(70,98.5,rep.str().c_str());
    rep.str("");
  }


  //**********************************************************************
  //
  //   LOOP OVER EVENTS
  //
  //**********************************************************************
  
  Int_t wc=0;
  //   printf("\n Scan of calibration packets from %i to %i ... \n",minevent+1,maxevent);
  for (Int_t i = minevent; i < maxevent; i++){     
      
    otr1->GetEntry(i); 
    otr2->GetEntry(i); 
      
    ctrk.good0[0]=trk1->good0;
    ctrk.good0[1]=trk2->good0;
    for (Int_t m = 0; m < 6; m++){
      ph1 = eh1->GetPscuHeader();
      OBT[0]= ph1->GetOrbitalTime();
      ctrk.daqmode[trk1->DSPnumber[m]-1]=trk1->DAQmode[m];
      ctrk.dspnum[trk1->DSPnumber[m]-1]=trk1->DSPnumber[m];
      ctrk.calibnum[trk1->DSPnumber[m]-1]=trk1->calibnumber[m];
      ctrk.ncalev[trk1->DSPnumber[m]-1]=trk1->ncalib_event[m];
      ctrk.ped1[trk1->DSPnumber[m]-1]=trk1->ped_l1[m];
      ctrk.ped2[trk1->DSPnumber[m]-1]=trk1->ped_l2[m];
      ctrk.ped3[trk1->DSPnumber[m]-1]=trk1->ped_l3[m];
      ctrk.sig1[trk1->DSPnumber[m]-1]=trk1->sig_l1[m];
      ctrk.sig2[trk1->DSPnumber[m]-1]=trk1->sig_l2[m];
      ctrk.sig3[trk1->DSPnumber[m]-1]=trk1->sig_l3[m];
      ctrk.nbad1[trk1->DSPnumber[m]-1]=trk1->nbad_l1[m];
      ctrk.nbad2[trk1->DSPnumber[m]-1]=trk1->nbad_l2[m];
      ctrk.nbad3[trk1->DSPnumber[m]-1]=trk1->nbad_l3[m];
      ctrk.calfl[trk1->DSPnumber[m]-1]=trk1->cal_flag[m];
      ctrk.crc_c[trk1->DSPnumber[m]-1][0]=trk1->crc_cal[m][0];
      ctrk.crc_c[trk1->DSPnumber[m]-1][1]=trk1->crc_cal[m][1];
      ctrk.crc_c[trk1->DSPnumber[m]-1][2]=trk1->crc_cal[m][2];
      ctrk.crc_hc[trk1->DSPnumber[m]-1]=trk1->crc_hcal[m];
      for (Int_t j = 0; j < 3072; j++){
        ctrk.dspped[trk1->DSPnumber[m]-1][j]=trk1->DSPped_par[m][j];
        ctrk.dspsig[trk1->DSPnumber[m]-1][j]=trk1->DSPsig_par[m][j];
        ctrk.dspbad[trk1->DSPnumber[m]-1][j]=trk1->DSPbad_par[m][j];
      }
      ph2 = eh2->GetPscuHeader();
      OBT[1]= ph2->GetOrbitalTime();
      ctrk.daqmode[trk2->DSPnumber[m]-1]=trk2->DAQmode[m];
      ctrk.dspnum[trk2->DSPnumber[m]-1]=trk2->DSPnumber[m];
      ctrk.calibnum[trk2->DSPnumber[m]-1]=trk2->calibnumber[m];
      ctrk.ncalev[trk2->DSPnumber[m]-1]=trk2->ncalib_event[m];
      ctrk.ped1[trk2->DSPnumber[m]-1]=trk2->ped_l1[m];
      ctrk.ped2[trk2->DSPnumber[m]-1]=trk2->ped_l2[m];
      ctrk.ped3[trk2->DSPnumber[m]-1]=trk2->ped_l3[m];
      ctrk.sig1[trk2->DSPnumber[m]-1]=trk2->sig_l1[m];
      ctrk.sig2[trk2->DSPnumber[m]-1]=trk2->sig_l2[m];
      ctrk.sig3[trk2->DSPnumber[m]-1]=trk2->sig_l3[m];
      ctrk.nbad1[trk2->DSPnumber[m]-1]=trk2->nbad_l1[m];
      ctrk.nbad2[trk2->DSPnumber[m]-1]=trk2->nbad_l2[m];
      ctrk.nbad3[trk2->DSPnumber[m]-1]=trk2->nbad_l3[m];
      ctrk.calfl[trk2->DSPnumber[m]-1]=trk2->cal_flag[m];
      ctrk.crc_c[trk1->DSPnumber[m]-1][0]=trk2->crc_cal[m][0];
      ctrk.crc_c[trk1->DSPnumber[m]-1][1]=trk2->crc_cal[m][1];
      ctrk.crc_c[trk1->DSPnumber[m]-1][2]=trk2->crc_cal[m][2];
      ctrk.crc_hc[trk1->DSPnumber[m]-1]=trk2->crc_hcal[m];
      for (Int_t j = 0; j < 3072; j++){
        ctrk.dspped[trk2->DSPnumber[m]-1][j]=trk2->DSPped_par[m][j];
        ctrk.dspsig[trk2->DSPnumber[m]-1][j]=trk2->DSPsig_par[m][j];
        ctrk.dspbad[trk2->DSPnumber[m]-1][j]=trk2->DSPbad_par[m][j];
      }
    }  

    for(Int_t n = 0; n<12; n++){
      for(Int_t nm = 0; nm<12; nm++){
        pedav[n][nm]=0;
        pedavtemp[n][nm]=0;
        sigav[n][nm]=0;
        sigavtemp[n][nm]=0;
        flpedav[n][nm]=0;
        flsigav[n][nm]=0;
      }
    }
    
    Int_t nn,ok=0;
    
    //
    // write warning if it occur      
    for(Int_t n = 0; n<12; n++){
      
      ndsp = ctrk.dspnum[n];
      nn = ndsp-1;

      for(Int_t iii=0;iii<3;iii++){
        if(ctrk.crc_c[nn][iii]!=0){
          ok=1;
          if(space[wc]<=3){
            wc+=1;
            flcanvas+=1;
          }
          c[wc]->cd();
          tzz->SetTextFont(40);
          tzz->SetTextSize(0.02);
          tzz->SetTextAlign(13);
          tzz->SetTextColor(2);
          rep<<"***************************************************************************************************************************";
          tzz->DrawLatex(2,space[wc],rep.str().c_str());
          rep.str("");
          space[wc]-=spacep;
          rep<<" ERROR >>> CALIBRATION pkt "<<i+1<<" -->CalibTrk"<<(nn+1)%2+1<<" at OBT: "<<OBT[(nn+1)%2]<<" --> crc_cal["<<nn+1<<"]["<<iii+1<<"]= "<<ctrk.crc_c[nn][iii];
          tzz->DrawLatex(2,space[wc],rep.str().c_str());
          rep.str("");
          space[wc]-=spacep;
        }
      }
          
      if(ctrk.crc_hc[nn]!=0){
        ok=1;
        if(space[wc]<=3){
          wc+=1;
          flcanvas+=1;
        }
        c[wc]->cd();
        tzz->SetTextFont(40);
        tzz->SetTextSize(0.02);
        tzz->SetTextAlign(13);
        tzz->SetTextColor(2);
        rep<<"***************************************************************************************************************************";
        tzz->DrawLatex(2,space[wc],rep.str().c_str());
        rep.str("");
        space[wc]-=spacep;
        rep<<" ERROR >>> CALIBRATION pkt "<<i+1<<" -->CalibTrk"<<(nn+1)%2+1<<" at OBT: "<<OBT[(nn+1)%2]<<" --> crc_hcal["<<nn+1<<"]= "<<ctrk.crc_hc[nn];
        tzz->DrawLatex(2,space[wc],rep.str().c_str());
        rep.str("");
        space[wc]-=spacep;
      }
      
      if(ctrk.calfl[nn]!=0){
        ok=1;
        if(space[wc]<=3){
          wc+=1;
          flcanvas+=1;
        }
        c[wc]->cd();
        tzz->SetTextFont(40);
        tzz->SetTextSize(0.02);
        tzz->SetTextAlign(13);
        tzz->SetTextColor(2);
        rep<<"***************************************************************************************************************************";
        tzz->DrawLatex(2,space[wc],rep.str().c_str());
        rep.str("");
        space[wc]-=spacep;
        rep<<" ERROR >>> CALIBRATION pkt "<<i+1<<" -->CalibTrk"<<(nn+1)%2+1<<" at OBT: "<<OBT[(nn+1)%2]<<" --> cal_flag["<<nn+1<<"]= "<<ctrk.calfl[nn];
        tzz->DrawLatex(2,space[wc],rep.str().c_str());
        rep.str("");
        space[wc]-=spacep;
      }

      if(ctrk.good0[0]==1 && ctrk.good0[1]==1){
        //
        // evaluate the mean value of the sigma and pedestal
        for(Int_t j = 0; j < 3072; j++){
          sigavtemp[nn][j/256]+=ctrk.dspsig[nn][j];
          pedavtemp[nn][j/256]+=ctrk.dspped[nn][j];
        }

        for(Int_t ii=0;ii<12;ii++){   
          pedav[nn][ii]=pedavtemp[nn][ii]/256;  
          sigav[nn][ii]=sigavtemp[nn][ii]/256;

          if(pedav[nn][ii]>pedlimsup[nn][ii] || pedav[nn][ii]<pedliminf[nn][ii]) flpedav[nn][ii]=1;  
          if(sigav[nn][ii]>siglimsup[nn][ii] || sigav[nn][ii]<sigliminf[nn][ii]) flsigav[nn][ii]=1; 

          if(flpedav[nn][ii]==1){
            ok=1;
            if(space[wc]<=3){
              wc+=1;
              flcanvas+=1;
            }
            c[wc]->cd();
            tzz->SetTextFont(40);
            tzz->SetTextSize(0.02);
            tzz->SetTextAlign(13);
            tzz->SetTextColor(50);
            rep<<"********************************************************************************************************************************";
            tzz->DrawLatex(2,space[wc],rep.str().c_str());
            rep.str("");
            space[wc]-=spacep;
            rep<<"WARNING >>> CALIBRATION pkt "<<i+1<<" -->CalibTrk"<<(nn+1)%2+1<<" at OBT: "<<OBT[(nn+1)%2]<<"-->DSP "<<nn+1<<" -VA1 "<<2*ii+1<<"-"<<2*ii+2<<" --> <PED>= "<<pedav[nn][ii];
            tzz->DrawLatex(2,space[wc],rep.str().c_str());
            rep.str("");
            space[wc]-=spacep;
          }

          if(flsigav[nn][ii]==1){
            ok=1;
            if(space[wc]<=3){
              wc+=1;
              flcanvas+=1;
            }
            c[wc]->cd();
            tzz->SetTextFont(40);
            tzz->SetTextSize(0.02);
            tzz->SetTextAlign(13);
            tzz->SetTextColor(50);
            rep<<"********************************************************************************************************************************";
            tzz->DrawLatex(2,space[wc],rep.str().c_str());
            rep.str("");
            space[wc]-=spacep;
            rep<<"WARNING >>> CALIBRATION pkt "<<i+1<<" -->CalibTrk"<<(nn+1)%2+1<<" at OBT: "<<OBT[(nn+1)%2]<<"-->DSP "<<nn+1<<" -VA1 "<<2*ii+1<<"-"<<2*ii+2<<" --> <SIG>= "<<sigav[nn][ii];
            tzz->DrawLatex(2,space[wc],rep.str().c_str());
            rep.str("");
            space[wc]-=spacep;
          }
        }
      }
    }
    
    if(ok==0 && ctrk.good0[0]==1 && ctrk.good0[1]==1){  
      if(space[wc]<=10){
        wc+=1;
        flcanvas+=1;
      }
      c[wc]->cd();
      tzz->SetTextFont(40);
      tzz->SetTextSize(0.03);
      tzz->SetTextAlign(13);
      tzz->SetTextColor(1);
      rep<<"*********************************** CALIBRATION pkt "<<i+1<<"********************************";
      tzz->DrawLatex(2,space[wc],rep.str().c_str());
      rep.str("");
      space[wc]-=spacep+1;
      rep<<">>>>>>> CalibTrk1 at OBT: "<<OBT[0]<<" ---------> OK ";
      tzz->DrawLatex(2,space[wc],rep.str().c_str());
      rep.str("");
      space[wc]-=spacep+1;
      rep<<">>>>>>> CalibTrk2 at OBT: "<<OBT[1]<<" ---------> OK ";
      tzz->DrawLatex(2,space[wc],rep.str().c_str());
      rep.str("");
      space[wc]-=spacep+1;
      rep<<"*******************************************************************************************";
      tzz->DrawLatex(2,space[wc],rep.str().c_str());
      rep.str("");
      space[wc]-=spacep+1;
    }
  };//end loop on events
  datafile->Close(); 

  //
  // Save output Files
  stringstream nom1,nom2,nom3;

  for(Int_t i=0;i<cnum;i++)
    c[i]->Update();//draw pads in canvas 
    
  for(Int_t fl=0;fl<flcanvas;fl++){
    if(flcanvas==1){
      nom1.str("");
      nom1<<ffile<<"_TrkCalibQLook_BASIC."<<outfile.Data();
      c[fl]->Print(out+nom1.str().c_str());
      nom1.str("");
    }

    if(flcanvas>=2){
      if(!strcmp(outfile.Data(),"ps")||!strcmp(outfile.Data(),"pdf")){
        nom1.str("");
        nom2.str("");
        nom3.str("");
        nom1<<ffile<<"_TrkCalibQLook_BASIC.ps(";
        nom2<<ffile<<"_TrkCalibQLook_BASIC.ps";
        nom3<<ffile<<"_TrkCalibQLook_BASIC.ps)";
        if(fl==0) c[fl]->Print(out+nom1.str().c_str(),"portrait");
        else if(fl==flcanvas-1) c[fl]->Print(out+nom3.str().c_str(),"portrait");
        else c[fl]->Print(out+nom2.str().c_str(),"portrait");
        
      }
      else{
        nom1.str("");
        nom1<<ffile<<"_TrkCalibQLook_BASIC-pag"<<fl+1<<"."<<outfile.Data();
        c[fl]->Print(out+nom1.str().c_str());
      }
    }
  }
  
  if(!strcmp(outfile.Data(),"pdf")&&flcanvas>=2){
    stringstream com;
    com<<"ps2pdf13 "<<out<<ffile<<"_TrkCalibQLook_BASIC.ps "<<out<<ffile<<"_TrkCalibQLook_BASIC.pdf";
    system(com.str().c_str());
    com.str("");
    com<<"rm -f "<<out<<ffile<<"_TrkCalibQLook_BASIC.ps";
    system(com.str().c_str());
    com.str("");
  }
    
  for(Int_t i=0;i<cnum;i++)
    delete c[i];
  
  gROOT->Reset();
  //   printf("... end of packets. \n");
  return;
  
}
1	#include <utils/yodaUtility.h>
2	#include "TrkFunctions.cpp"
3	#include <iostream>
4	#include <fstream>
5	#include <TPaveText.h>
6	#include <TLatex.h>
7	#include <TCanvas.h>
8	#include <TGraph.h>
9	#include <TStyle.h>
10	#include <TObjString.h>
11	#include <PscuHeader.h>
12	#include <EventHeader.h>
13	#include <CalibTrk1Event.h>
14	#include <CalibTrk2Event.h>
15
16	/**
17	* TrkCalibQLookBasic.cpp
18	*
19	* autor: D.Fedele
20	* version 1.0
21	* Parameters:
22	* base - the path to the root directory for the specific
23	* Pamela unpack session
24	* fromevent - first event to analyse
25	* toevent - last event to analyse
26	* outdir - total path of output file
27	* outfile - extension of output file (pdf,ps,gif,jpg)
28	*
29	*/
30
31	void TrkCalibQLook_BASIC(TString file,Int_t fromevent,Int_t toevent,TString outdir,TString outfile)
32	{
33	//
34	// obtain information about the data file and select the output dir
35	const string filepath=file.Data();
36	Int_t dwpos = filepath.find("DW_");
37	Int_t dwpos1 = filepath.find(".root");
38	TString fpath=(filepath.c_str());
39	TString base,ffile;
40	stringcopy(base,fpath,0,dwpos);
41	stringcopy(ffile,fpath,dwpos,dwpos1);
42
43	TString out;
44	if(outdir.Length()==0){
45	out = base;
46	}else{
47	out = outdir;
48	};
49
50	//
51	// inizialise the variables and open the file
52	struct caltrk_def ctrk;
53	Int_t nevents=0;
54	Int_t minevent = 0;
55	Int_t maxevent = 0;
56	ULong64_t OBT[2];
57
58	OBT[0]=0;
59	OBT[1]=0;
60	ctrk.good0[0]=0;
61	ctrk.good0[1]=0;
62	for(Int_t i=0;i<12;i++){
63	ctrk.daqmode[i]=0;
64	ctrk.dspnum[i]=0;
65	ctrk.calibnum[i]=0;
66	ctrk.ncalev[i]=0;
67	ctrk.calfl[i]=0;
68	ctrk.ped1[i]=0;
69	ctrk.ped2[i]=0;
70	ctrk.ped3[i]=0;
71	ctrk.sig1[i]=0;
72	ctrk.sig2[i]=0;
73	ctrk.sig3[i]=0;
74	ctrk.nbad1[i]=0;
75	ctrk.nbad2[i]=0;
76	ctrk.nbad3[i]=0;
77	ctrk.crc_hc[i]=0;
78	ctrk.crc_c[i][0]=0;
79	ctrk.crc_c[i][1]=0;
80	ctrk.crc_c[i][2]=0;
81	for(Int_t iii=0;iii<3072;iii++){
82	ctrk.dspped[i][iii]=0;
83	ctrk.dspsig[i][iii]=0;
84	ctrk.dspbad[i][iii]=0;
85	}
86	}
87
88	pamela::EventHeader eh1=0,eh2=0;
89	pamela::PscuHeader ph1=0,ph2=0;
90	pamela::CalibTrk1Event *trk1 = 0;
91	pamela::CalibTrk2Event *trk2 = 0;
92
93	TFile *datafile = new TFile(file);
94	if ( !datafile ){
95	printf("No data file, exiting...\n");
96	return;
97	};
98	TTree otr1,otr2;
99
100	otr1 = (TTree*)datafile->Get("CalibTrk1");
101	otr1->SetBranchAddress("CalibTrk1", &trk1);
102	otr1->SetBranchAddress("Header",&eh1);
103	otr2 = (TTree*)datafile->Get("CalibTrk2");
104	otr2->SetBranchAddress("CalibTrk2", &trk2);
105	otr2->SetBranchAddress("Header",&eh2);
106
107
108	if(otr1->GetEntries()==otr2->GetEntries())
109	nevents = otr1->GetEntries();
110	else{
111	printf("WARNING: CalibTrk1 entries is different from CalibTrk2 entries");
112	return;}
113
114	if (nevents<=0) {
115	datafile->Close();
116	printf("No calibration packets found, exiting...\n");
117	return;
118	};
119	// printf("Number of calibration packets: %i\n",nevents);
120
121	if ( fromevent > toevent && toevent ){
122	printf("It must be fromevent < toevent \n");
123	return;
124	};
125
126	if ( fromevent > nevents \|\| fromevent < 0 ) {
127	printf("You can choose fromevent between 0 (all) and %i \n",nevents);
128	return;
129	};
130
131	if ( toevent > nevents \|\| toevent < 0 ) {
132	printf("You can choose toevent between 0 (all) and %i \n",nevents);
133	return;
134	};
135	if ( fromevent == 0 ) {
136	minevent = 0;
137	maxevent = nevents;
138	} else {
139	minevent = fromevent - 1;
140	if ( toevent > 0 ){
141	maxevent = toevent;
142	} else if (toevent > nevents) {
143	maxevent = nevents;
144	} else {
145	maxevent = fromevent;
146	};
147	};
148
149	//
150	// other variables definitions
151	stringstream fromfile,rep,tit;
152	fromfile<<"TrkCalibQLookBasic File: "<<ffile;
153
154	gStyle->SetLabelSize(0.08,"x");
155	gStyle->SetLabelSize(0.08,"y");
156	gStyle->SetFillColor(0);
157	gStyle->SetTitleFillColor(0);
158	gStyle->SetTitleFontSize(0.1);
159	gStyle->SetTitleOffset(0.8,"y");
160	gStyle->SetTitleOffset(1.,"x");
161	gStyle->SetTitleSize(0.06,"y");
162	gStyle->SetTitleSize(0.06,"x");
163	gStyle->SetOptStat(0);
164
165	TLatex *tzz=new TLatex();
166	tzz->SetTextFont(32);
167	tzz->SetTextColor(1);
168	tzz->SetTextAlign(12);
169	tzz->SetTextSize(0.02);
170
171	Int_t canvasx=900;
172	Int_t canvasy=1200;
173
174	Int_t ndsp =0,alarm=0;
175	Float_t pedav[12][12],pedavtemp[12][12],sigav[12][12],sigavtemp[12][12];
176	Int_t flpedav[12][12],flsigav[12][12];
177	Float_t siglimsup[12][12],sigliminf[12][12],pedlimsup[12][12],pedliminf[12][12];
178
179	//
180	// inizialize the limits for simga and pedestall
181	for(Int_t i=0;i<12;i++){
182	for(Int_t ii=0;ii<12;ii++){
183	siglimsup[i][ii]=20.;
184	sigliminf[i][ii]=0.;
185	pedlimsup[i][ii]=3500.;
186	pedliminf[i][ii]=50.;
187	}
188	}
189
190	//
191	// count of possible alarm to set the number of output pages
192	alarm+=(maxevent-minevent)/9 +1;
193	for (Int_t i = minevent; i < maxevent; i++){
194	otr1->GetEntry(i);
195	otr2->GetEntry(i);
196	for(Int_t m=0;m<6;m++){
197	for(Int_t mm=0;mm<3;mm++){
198	if(trk1->crc_cal[m][mm]!=0) alarm+=1;
199	if(trk2->crc_cal[m][mm]!=0 ) alarm+=1;
200	}
201	if(trk1->crc_hcal[m]!=0 ) alarm+=1;
202	if(trk1->cal_flag[m]!=0 ) alarm+=1;
203	if(trk2->crc_hcal[m]!=0) alarm+=1;
204	if(trk2->cal_flag[m]!=0) alarm+=1;
205	}
206	}
207	const Int_t cnum=alarm/30 + 10;
208	Int_t flcanvas=1;
209	Float_t spacep=1.5,space[cnum];
210	TCanvas *c[cnum];
211
212	//
213	// create output canvas
214	for(Int_t i=0;i<cnum;i++){
215	space[i]=96.0;
216	rep.str("");
217	tit.str("");
218	tit<<"c"<<i;
219	rep<<"TrkCalibQLook_BASIC_pag"<<i+1;
220	c[i]=new TCanvas(tit.str().c_str(),rep.str().c_str(),canvasx,canvasy);
221	c[i]->Range(0,0,100,100);
222	tzz->DrawLatex(1,98.5,fromfile.str().c_str());
223	rep.str("");
224	rep<<"CALIBRATION REPORT pag"<<i+1;
225	tzz->DrawLatex(70,98.5,rep.str().c_str());
226	rep.str("");
227	}
228
229
230	//**********************************************************************
231	//
232	// LOOP OVER EVENTS
233	//
234	//**********************************************************************
235
236	Int_t wc=0;
237	// printf("\n Scan of calibration packets from %i to %i ... \n",minevent+1,maxevent);
238	for (Int_t i = minevent; i < maxevent; i++){
239
240	otr1->GetEntry(i);
241	otr2->GetEntry(i);
242
243	ctrk.good0[0]=trk1->good0;
244	ctrk.good0[1]=trk2->good0;
245	for (Int_t m = 0; m < 6; m++){
246	ph1 = eh1->GetPscuHeader();
247	OBT[0]= ph1->GetOrbitalTime();
248	ctrk.daqmode[trk1->DSPnumber[m]-1]=trk1->DAQmode[m];
249	ctrk.dspnum[trk1->DSPnumber[m]-1]=trk1->DSPnumber[m];
250	ctrk.calibnum[trk1->DSPnumber[m]-1]=trk1->calibnumber[m];
251	ctrk.ncalev[trk1->DSPnumber[m]-1]=trk1->ncalib_event[m];
252	ctrk.ped1[trk1->DSPnumber[m]-1]=trk1->ped_l1[m];
253	ctrk.ped2[trk1->DSPnumber[m]-1]=trk1->ped_l2[m];
254	ctrk.ped3[trk1->DSPnumber[m]-1]=trk1->ped_l3[m];
255	ctrk.sig1[trk1->DSPnumber[m]-1]=trk1->sig_l1[m];
256	ctrk.sig2[trk1->DSPnumber[m]-1]=trk1->sig_l2[m];
257	ctrk.sig3[trk1->DSPnumber[m]-1]=trk1->sig_l3[m];
258	ctrk.nbad1[trk1->DSPnumber[m]-1]=trk1->nbad_l1[m];
259	ctrk.nbad2[trk1->DSPnumber[m]-1]=trk1->nbad_l2[m];
260	ctrk.nbad3[trk1->DSPnumber[m]-1]=trk1->nbad_l3[m];
261	ctrk.calfl[trk1->DSPnumber[m]-1]=trk1->cal_flag[m];
262	ctrk.crc_c[trk1->DSPnumber[m]-1][0]=trk1->crc_cal[m][0];
263	ctrk.crc_c[trk1->DSPnumber[m]-1][1]=trk1->crc_cal[m][1];
264	ctrk.crc_c[trk1->DSPnumber[m]-1][2]=trk1->crc_cal[m][2];
265	ctrk.crc_hc[trk1->DSPnumber[m]-1]=trk1->crc_hcal[m];
266	for (Int_t j = 0; j < 3072; j++){
267	ctrk.dspped[trk1->DSPnumber[m]-1][j]=trk1->DSPped_par[m][j];
268	ctrk.dspsig[trk1->DSPnumber[m]-1][j]=trk1->DSPsig_par[m][j];
269	ctrk.dspbad[trk1->DSPnumber[m]-1][j]=trk1->DSPbad_par[m][j];
270	}
271	ph2 = eh2->GetPscuHeader();
272	OBT[1]= ph2->GetOrbitalTime();
273	ctrk.daqmode[trk2->DSPnumber[m]-1]=trk2->DAQmode[m];
274	ctrk.dspnum[trk2->DSPnumber[m]-1]=trk2->DSPnumber[m];
275	ctrk.calibnum[trk2->DSPnumber[m]-1]=trk2->calibnumber[m];
276	ctrk.ncalev[trk2->DSPnumber[m]-1]=trk2->ncalib_event[m];
277	ctrk.ped1[trk2->DSPnumber[m]-1]=trk2->ped_l1[m];
278	ctrk.ped2[trk2->DSPnumber[m]-1]=trk2->ped_l2[m];
279	ctrk.ped3[trk2->DSPnumber[m]-1]=trk2->ped_l3[m];
280	ctrk.sig1[trk2->DSPnumber[m]-1]=trk2->sig_l1[m];
281	ctrk.sig2[trk2->DSPnumber[m]-1]=trk2->sig_l2[m];
282	ctrk.sig3[trk2->DSPnumber[m]-1]=trk2->sig_l3[m];
283	ctrk.nbad1[trk2->DSPnumber[m]-1]=trk2->nbad_l1[m];
284	ctrk.nbad2[trk2->DSPnumber[m]-1]=trk2->nbad_l2[m];
285	ctrk.nbad3[trk2->DSPnumber[m]-1]=trk2->nbad_l3[m];
286	ctrk.calfl[trk2->DSPnumber[m]-1]=trk2->cal_flag[m];
287	ctrk.crc_c[trk1->DSPnumber[m]-1][0]=trk2->crc_cal[m][0];
288	ctrk.crc_c[trk1->DSPnumber[m]-1][1]=trk2->crc_cal[m][1];
289	ctrk.crc_c[trk1->DSPnumber[m]-1][2]=trk2->crc_cal[m][2];
290	ctrk.crc_hc[trk1->DSPnumber[m]-1]=trk2->crc_hcal[m];
291	for (Int_t j = 0; j < 3072; j++){
292	ctrk.dspped[trk2->DSPnumber[m]-1][j]=trk2->DSPped_par[m][j];
293	ctrk.dspsig[trk2->DSPnumber[m]-1][j]=trk2->DSPsig_par[m][j];
294	ctrk.dspbad[trk2->DSPnumber[m]-1][j]=trk2->DSPbad_par[m][j];
295	}
296	}
297
298	for(Int_t n = 0; n<12; n++){
299	for(Int_t nm = 0; nm<12; nm++){
300	pedav[n][nm]=0;
301	pedavtemp[n][nm]=0;
302	sigav[n][nm]=0;
303	sigavtemp[n][nm]=0;
304	flpedav[n][nm]=0;
305	flsigav[n][nm]=0;
306	}
307	}
308
309	Int_t nn,ok=0;
310
311	//
312	// write warning if it occur
313	for(Int_t n = 0; n<12; n++){
314
315	ndsp = ctrk.dspnum[n];
316	nn = ndsp-1;
317
318	for(Int_t iii=0;iii<3;iii++){
319	if(ctrk.crc_c[nn][iii]!=0){
320	ok=1;
321	if(space[wc]<=3){
322	wc+=1;
323	flcanvas+=1;
324	}
325	c[wc]->cd();
326	tzz->SetTextFont(40);
327	tzz->SetTextSize(0.02);
328	tzz->SetTextAlign(13);
329	tzz->SetTextColor(2);
330	rep<<"***************************************************************************************************************************";
331	tzz->DrawLatex(2,space[wc],rep.str().c_str());
332	rep.str("");
333	space[wc]-=spacep;
334	rep<<" ERROR >>> CALIBRATION pkt "<<i+1<<" -->CalibTrk"<<(nn+1)%2+1<<" at OBT: "<<OBT[(nn+1)%2]<<" --> crc_cal["<<nn+1<<"]["<<iii+1<<"]= "<<ctrk.crc_c[nn][iii];
335	tzz->DrawLatex(2,space[wc],rep.str().c_str());
336	rep.str("");
337	space[wc]-=spacep;
338	}
339	}
340
341	if(ctrk.crc_hc[nn]!=0){
342	ok=1;
343	if(space[wc]<=3){
344	wc+=1;
345	flcanvas+=1;
346	}
347	c[wc]->cd();
348	tzz->SetTextFont(40);
349	tzz->SetTextSize(0.02);
350	tzz->SetTextAlign(13);
351	tzz->SetTextColor(2);
352	rep<<"***************************************************************************************************************************";
353	tzz->DrawLatex(2,space[wc],rep.str().c_str());
354	rep.str("");
355	space[wc]-=spacep;
356	rep<<" ERROR >>> CALIBRATION pkt "<<i+1<<" -->CalibTrk"<<(nn+1)%2+1<<" at OBT: "<<OBT[(nn+1)%2]<<" --> crc_hcal["<<nn+1<<"]= "<<ctrk.crc_hc[nn];
357	tzz->DrawLatex(2,space[wc],rep.str().c_str());
358	rep.str("");
359	space[wc]-=spacep;
360	}
361
362	if(ctrk.calfl[nn]!=0){
363	ok=1;
364	if(space[wc]<=3){
365	wc+=1;
366	flcanvas+=1;
367	}
368	c[wc]->cd();
369	tzz->SetTextFont(40);
370	tzz->SetTextSize(0.02);
371	tzz->SetTextAlign(13);
372	tzz->SetTextColor(2);
373	rep<<"***************************************************************************************************************************";
374	tzz->DrawLatex(2,space[wc],rep.str().c_str());
375	rep.str("");
376	space[wc]-=spacep;
377	rep<<" ERROR >>> CALIBRATION pkt "<<i+1<<" -->CalibTrk"<<(nn+1)%2+1<<" at OBT: "<<OBT[(nn+1)%2]<<" --> cal_flag["<<nn+1<<"]= "<<ctrk.calfl[nn];
378	tzz->DrawLatex(2,space[wc],rep.str().c_str());
379	rep.str("");
380	space[wc]-=spacep;
381	}
382
383	if(ctrk.good0[0]==1 && ctrk.good0[1]==1){
384	//
385	// evaluate the mean value of the sigma and pedestal
386	for(Int_t j = 0; j < 3072; j++){
387	sigavtemp[nn][j/256]+=ctrk.dspsig[nn][j];
388	pedavtemp[nn][j/256]+=ctrk.dspped[nn][j];
389	}
390
391	for(Int_t ii=0;ii<12;ii++){
392	pedav[nn][ii]=pedavtemp[nn][ii]/256;
393	sigav[nn][ii]=sigavtemp[nn][ii]/256;
394
395	if(pedav[nn][ii]>pedlimsup[nn][ii] \|\| pedav[nn][ii]<pedliminf[nn][ii]) flpedav[nn][ii]=1;
396	if(sigav[nn][ii]>siglimsup[nn][ii] \|\| sigav[nn][ii]<sigliminf[nn][ii]) flsigav[nn][ii]=1;
397
398	if(flpedav[nn][ii]==1){
399	ok=1;
400	if(space[wc]<=3){
401	wc+=1;
402	flcanvas+=1;
403	}
404	c[wc]->cd();
405	tzz->SetTextFont(40);
406	tzz->SetTextSize(0.02);
407	tzz->SetTextAlign(13);
408	tzz->SetTextColor(50);
409	rep<<"********************************************************************************************************************************";
410	tzz->DrawLatex(2,space[wc],rep.str().c_str());
411	rep.str("");
412	space[wc]-=spacep;
413	rep<<"WARNING >>> CALIBRATION pkt "<<i+1<<" -->CalibTrk"<<(nn+1)%2+1<<" at OBT: "<<OBT[(nn+1)%2]<<"-->DSP "<<nn+1<<" -VA1 "<<2ii+1<<"-"<<2ii+2<<" --> <PED>= "<<pedav[nn][ii];
414	tzz->DrawLatex(2,space[wc],rep.str().c_str());
415	rep.str("");
416	space[wc]-=spacep;
417	}
418
419	if(flsigav[nn][ii]==1){
420	ok=1;
421	if(space[wc]<=3){
422	wc+=1;
423	flcanvas+=1;
424	}
425	c[wc]->cd();
426	tzz->SetTextFont(40);
427	tzz->SetTextSize(0.02);
428	tzz->SetTextAlign(13);
429	tzz->SetTextColor(50);
430	rep<<"********************************************************************************************************************************";
431	tzz->DrawLatex(2,space[wc],rep.str().c_str());
432	rep.str("");
433	space[wc]-=spacep;
434	rep<<"WARNING >>> CALIBRATION pkt "<<i+1<<" -->CalibTrk"<<(nn+1)%2+1<<" at OBT: "<<OBT[(nn+1)%2]<<"-->DSP "<<nn+1<<" -VA1 "<<2ii+1<<"-"<<2ii+2<<" --> <SIG>= "<<sigav[nn][ii];
435	tzz->DrawLatex(2,space[wc],rep.str().c_str());
436	rep.str("");
437	space[wc]-=spacep;
438	}
439	}
440	}
441	}
442
443	if(ok==0 && ctrk.good0[0]==1 && ctrk.good0[1]==1){
444	if(space[wc]<=10){
445	wc+=1;
446	flcanvas+=1;
447	}
448	c[wc]->cd();
449	tzz->SetTextFont(40);
450	tzz->SetTextSize(0.03);
451	tzz->SetTextAlign(13);
452	tzz->SetTextColor(1);
453	rep<<"********************************* CALIBRATION pkt "<<i+1<<"******************************";
454	tzz->DrawLatex(2,space[wc],rep.str().c_str());
455	rep.str("");
456	space[wc]-=spacep+1;
457	rep<<">>>>>>> CalibTrk1 at OBT: "<<OBT[0]<<" ---------> OK ";
458	tzz->DrawLatex(2,space[wc],rep.str().c_str());
459	rep.str("");
460	space[wc]-=spacep+1;
461	rep<<">>>>>>> CalibTrk2 at OBT: "<<OBT[1]<<" ---------> OK ";
462	tzz->DrawLatex(2,space[wc],rep.str().c_str());
463	rep.str("");
464	space[wc]-=spacep+1;
465	rep<<"*******************************************************************************************";
466	tzz->DrawLatex(2,space[wc],rep.str().c_str());
467	rep.str("");
468	space[wc]-=spacep+1;
469	}
470	};//end loop on events
471	datafile->Close();
472
473	//
474	// Save output Files
475	stringstream nom1,nom2,nom3;
476
477	for(Int_t i=0;i<cnum;i++)
478	c[i]->Update();//draw pads in canvas
479
480	for(Int_t fl=0;fl<flcanvas;fl++){
481	if(flcanvas==1){
482	nom1.str("");
483	nom1<<ffile<<"_TrkCalibQLook_BASIC."<<outfile.Data();
484	c[fl]->Print(out+nom1.str().c_str());
485	nom1.str("");
486	}
487
488	if(flcanvas>=2){
489	if(!strcmp(outfile.Data(),"ps")\|\|!strcmp(outfile.Data(),"pdf")){
490	nom1.str("");
491	nom2.str("");
492	nom3.str("");
493	nom1<<ffile<<"_TrkCalibQLook_BASIC.ps(";
494	nom2<<ffile<<"_TrkCalibQLook_BASIC.ps";
495	nom3<<ffile<<"_TrkCalibQLook_BASIC.ps)";
496	if(fl==0) c[fl]->Print(out+nom1.str().c_str(),"portrait");
497	else if(fl==flcanvas-1) c[fl]->Print(out+nom3.str().c_str(),"portrait");
498	else c[fl]->Print(out+nom2.str().c_str(),"portrait");
499
500	}
501	else{
502	nom1.str("");
503	nom1<<ffile<<"_TrkCalibQLook_BASIC-pag"<<fl+1<<"."<<outfile.Data();
504	c[fl]->Print(out+nom1.str().c_str());
505	}
506	}
507	}
508
509	if(!strcmp(outfile.Data(),"pdf")&&flcanvas>=2){
510	stringstream com;
511	com<<"ps2pdf13 "<<out<<ffile<<"_TrkCalibQLook_BASIC.ps "<<out<<ffile<<"_TrkCalibQLook_BASIC.pdf";
512	system(com.str().c_str());
513	com.str("");
514	com<<"rm -f "<<out<<ffile<<"_TrkCalibQLook_BASIC.ps";
515	system(com.str().c_str());
516	com.str("");
517	}
518
519	for(Int_t i=0;i<cnum;i++)
520	delete c[i];
521
522	gROOT->Reset();
523	// printf("... end of packets. \n");
524	return;
525
526	}