TMust2Spectra.cxx

/*****************************************************************************
 * Copyright (C) 2009-2013   this file is part of the NPTool Project         *
 *                                                                           *
 * For the licensing terms see $NPTOOL/Licence/NPTool_Licence                *
 * For the list of contributors see $NPTOOL/Licence/Contributors             *
 *****************************************************************************/

/*****************************************************************************
 * Original Author: N. de Sereville  contact address: deserevi@ipno.in2p3.fr *
 *                                                                           *
 * Creation Date  : march 2011                                               *
 * Last update    :                                                          *
 *---------------------------------------------------------------------------*
 * Decription:                                                               *
 *  This class holds all the online spectra needed for Must2                 *
 *                                                                           *
 *---------------------------------------------------------------------------*
 * Comment:                                                                  *
 *    + first version (not complete yet)                                     *
 *                                                                           *
 *                                                                           *
 *****************************************************************************/

// NPL
#include "TMust2Spectra.h"
#include "NPOptionManager.h"
#include "NPGlobalSystemOfUnits.h"
#include "NPPhysicalConstants.h"
#ifdef NP_SYSTEM_OF_UNITS_H
using namespace NPUNITS;
#endif

   
// ROOT
#include "TString.h"
#include "TDirectory.h"
#include "TFile.h"


////////////////////////////////////////////////////////////////////////////////
  TMust2Spectra::TMust2Spectra(){
    fNumberOfTelescope = 0;
    fStripX=128;
    fStripY=128;
    fPadSili=16;
    fCrystalCsI=16;
  }

////////////////////////////////////////////////////////////////////////////////
TMust2Spectra::TMust2Spectra(unsigned int NumberOfTelescope){
 if(NPOptionManager::getInstance()->GetVerboseLevel()>0)
    cout << "************************************************" << endl
         << "TMust2Spectra : Initalising control spectra for " 
         << NumberOfTelescope << " Telescopes" << endl
         << "************************************************" << endl ;

  fNumberOfTelescope = NumberOfTelescope;
  fStripX=128;
  fStripY=128;
  fPadSili=16;
  fCrystalCsI=16;

  InitRawSpectra();
  InitPreTreatedSpectra();
  InitPhysicsSpectra();
}

////////////////////////////////////////////////////////////////////////////////
TMust2Spectra::~TMust2Spectra(){
}

////////////////////////////////////////////////////////////////////////////////
void TMust2Spectra::InitRawSpectra(){
  TString name;
  for (Int_t i = 0; i < fNumberOfTelescope; i++) { // loop on number of detectors
    // STRX_E_RAW
    name = Form("MM%d_STRX_E_RAW", i+1);
    AddHisto2D(name, name, fStripX, 1, fStripX+1, 512, 0, 8192, "MUST2/RAW/STRXE");

    // STRY_E_RAW
    name = Form("MM%d_STRY_E_RAW", i+1);
    AddHisto2D(name, name, fStripY, 1, fStripY+1, 512, 0, 8192, "MUST2/RAW/STRYE");

    // STRX_T_RAW
    name = Form("MM%d_STRX_T_RAW", i+1);
    AddHisto2D(name, name, fStripX, 1, fStripX+1, 512, 0, 8192, "MUST2/RAW/STRXT");

    // STRY_T_RAW
    name = Form("MM%d_STRY_T_RAW", i+1);
    AddHisto2D(name, name, fStripY, 1, fStripY+1, 512, 0, 8192, "MUST2/RAW/STRYT");

    // SILI_E_RAW
    name = Form("MM%d_SILI_E_RAW", i+1);
    AddHisto2D(name, name, fPadSili, 1, fPadSili+1, 512, 0, 8192, "MUST2/RAW/SILIE");

    // SILI_T_RAW
    name = Form("MM%d_SILI_T_RAW", i+1);
    AddHisto2D(name, name, fPadSili, 1, fPadSili+1, 512, 0, 8192, "MUST2/RAW/SILIT");

    // CSI_E_RAW
    name = Form("MM%d_CSI_E_RAW", i+1);
    AddHisto2D(name, name, fCrystalCsI, 1, fCrystalCsI+1, 512, 0, 8192, "MUST2/RAW/CSIE");

    // CSI_T_RAW
    name = Form("MM%d_CSI_T_RAW", i+1);
    AddHisto2D(name, name, fCrystalCsI, 1, fCrystalCsI+1, 512, 0, 8192, "MUST2/RAW/CSIT");

    // STRX_RAW_MULT
    name = Form("MM%d_STRX_RAW_MULT", i+1);
    AddHisto1D(name, name, fStripX, 1, fStripX+1, "MUST2/RAW/MULT");

    // STRY_RAW_MULT
    name = Form("MM%d_STRY_RAW_MULT", i+1);
    AddHisto1D(name, name, fStripX, 1, fStripX+1, "MUST2/RAW/MULT");

    // SILI_RAW_MULT
    name = Form("MM%d_SILI_RAW_MULT", i+1);
    AddHisto1D(name, name, fPadSili, 1, fPadSili+1, "MUST2/RAW/MULT");

    // CSI_RAW_MULT
    name = Form("MM%d_CSI_RAW_MULT", i+1);
    AddHisto1D(name, name, fCrystalCsI, 1, fCrystalCsI+1, "MUST2/RAW/MULT");
  } // end loop on number of detectors
}

////////////////////////////////////////////////////////////////////////////////
void TMust2Spectra::InitPreTreatedSpectra()
{
  TString name;
  for (Int_t i = 0; i < fNumberOfTelescope; i++) { // loop on number of detectors
    // STRX_E_CAL
    name = Form("MM%d_STRX_E_CAL", i+1);
    AddHisto2D(name, name, fStripX, 1, fStripX+1, 500, 0, 50, "MUST2/CAL/STRXE");

    // STRY_E_CAL
    name = Form("MM%d_STRY_E_CAL", i+1);
    AddHisto2D(name, name, fStripY, 1, fStripY+1, 500, 0, 50, "MUST2/CAL/STRYE");

    // STRX_T_CAL
    name = Form("MM%d_STRX_T_CAL", i+1);
    AddHisto2D(name, name, fStripX, 1, fStripX+1, 500, 0, 500, "MUST2/CAL/STRXT");

    // STRY_T_CAL
    name = Form("MM%d_STRY_T_CAL", i+1);
    AddHisto2D(name, name, fStripY, 1, fStripY+1, 500, 0, 500, "MUST2/CAL/STRYT");

    // SILI_E_CAL
    name = Form("MM%d_SILI_E_CAL", i+1);
    AddHisto2D(name, name, fPadSili, 1, fPadSili+1, 500, 0, 50, "MUST2/CAL/SILIE");

    // SILI_T_CAL
    name = Form("MM%d_SILI_T_CAL", i+1);
    AddHisto2D(name, name, fPadSili, 1, fPadSili+1, 500, 0, 50, "MUST2/CAL/SILIT");

    // CSI_E_CAL
    name = Form("MM%d_CSI_E_CAL", i+1);
    AddHisto2D(name, name, fCrystalCsI, 1, fCrystalCsI+1, 500, 0, 50, "MUST2/CAL/CSIE");

    // CSI_T_CAL
    name = Form("MM%d_CSI_T_CAL", i+1);
    AddHisto2D(name, name, fCrystalCsI, 1, fCrystalCsI+1, 500, 0, 50, "MUST2/CAL/CSIT");

    // STRX_CAL_MULT
    name = Form("MM%d_STRX_CAL_MULT", i+1);
    AddHisto1D(name, name, fStripX, 1, fStripX+1, "MUST2/CAL/MULT");

    // STRY_CAL_MULT
    name = Form("MM%d_STRY_CAL_MULT", i+1);
    AddHisto1D(name, name, fStripX, 1, fStripX+1, "MUST2/CAL/MULT");

    // SILI_CAL_MULT
    name = Form("MM%d_SILI_CAL_MULT", i+1);
    AddHisto1D(name, name, fPadSili, 1, fPadSili+1, "MUST2/CAL/MULT");

    // CSI_CAL_MULT
    name = Form("MM%d_CSI_CAL_MULT", i+1);
    AddHisto1D(name, name, fCrystalCsI, 1, fCrystalCsI+1, "MUST2/CAL/MULT");

  }  // end loop on number of detectors
}

////////////////////////////////////////////////////////////////////////////////
void TMust2Spectra::InitPhysicsSpectra(){
  TString name;
  // X-Y Impact Matrix
  name = "MM_IMPACT_MATRIX";
  AddHisto2D(name, name,500,-150,150,500,-150,150, "MUST2/PHY");
  
  // X-Y Impact Matrix
  name = "MM_THETA_E";
  AddHisto2D(name, name, 360, 0, 180,500,0,50,"MUST2/PHY");

  // X-Y Energy Correlation
  for (Int_t i = 0 ; i < fNumberOfTelescope ; i++) { // loop on number of detectors
    // STRX_E_CAL
    name = Form("MM%d_XY_COR", i+1);
    AddHisto2D(name, name, 500,0,50,500,0,50, "MUST2/PHY"); 
   }

}



////////////////////////////////////////////////////////////////////////////////
void TMust2Spectra::FillRawSpectra(TMust2Data* RawData){
  TString name;
  TString family;

  // STRX_E 
  for (Int_t i = 0; i < RawData->GetMMStripXEMult(); i++) {
    name = Form("MM%d_STRX_E_RAW", RawData->GetMMStripXEDetectorNbr(i) );
    family = "MUST2/RAW/STRXE";

    GetHisto(family,name)
      -> Fill(RawData->GetMMStripXEStripNbr(i), 
          RawData->GetMMStripXEEnergy(i) - 8192);
  }

  // STRY_E
  for (Int_t i = 0; i < RawData->GetMMStripYEMult(); i++) {
    name = Form("MM%d_STRY_E_RAW", RawData->GetMMStripYEDetectorNbr(i) );
    family = "MUST2/RAW/STRYE";

    GetHisto(family,name)
      -> Fill(RawData->GetMMStripYEStripNbr(i),
         8192 - RawData->GetMMStripYEEnergy(i));
  }

  // STRX_T
  for (Int_t i = 0; i < RawData->GetMMStripXTMult(); i++) {
    name = Form("MM%d_STRX_T_RAW", RawData->GetMMStripXTDetectorNbr(i) );
    family = "MUST2/RAW/STRXT";

    GetHisto(family,name)
      -> Fill(RawData->GetMMStripXTStripNbr(i),
          RawData->GetMMStripXTTime(i) - 8192);
  }
  // STRY_T
  for (Int_t i = 0; i < RawData->GetMMStripYTMult(); i++) {
    name = Form("MM%d_STRY_T_RAW", RawData->GetMMStripYTDetectorNbr(i) );
    family = "MUST2/RAW/STRYT";

    GetHisto(family,name)
      -> Fill(RawData->GetMMStripYTStripNbr(i),
          8192 - RawData->GetMMStripYTTime(i));
  }

  // SILI_E
  for (Int_t i = 0; i < RawData->GetMMSiLiEMult(); i++) {
    name = Form("MM%d_SILI_E_RAW", RawData->GetMMSiLiEDetectorNbr(i) );
    family = "MUST2/RAW/SILIE";

    GetHisto(family,name)
      -> Fill(RawData->GetMMSiLiEPadNbr(i),
          RawData->GetMMSiLiEEnergy(i));
  }

  // SILI_T
  for (Int_t i = 0; i < RawData->GetMMSiLiTMult(); i++) {
    name = Form("MM%d_SILI_T_RAW", RawData->GetMMSiLiTDetectorNbr(i) );
    family = "MUST2/RAW/SILIT";

    GetHisto(family,name)
      -> Fill(RawData->GetMMSiLiTPadNbr(i),
          RawData->GetMMSiLiTTime(i));
  }

  // CSI_E
  for (Int_t i = 0; i < RawData->GetMMCsIEMult(); i++) {
    name = Form("MM%d_CSI_E_RAW", RawData->GetMMCsIEDetectorNbr(i) );
    family = "MUST2/RAW/CSIE";

    GetHisto(family,name)
      -> Fill(RawData->GetMMCsIECristalNbr(i), 
          RawData->GetMMCsIEEnergy(i));
  }

  // CSI_T
  for (Int_t i = 0; i < RawData->GetMMCsITMult(); i++) {
    name = Form("MM%d_CSI_T_RAW", RawData->GetMMCsITDetectorNbr(i) );
    family = "MUST2/RAW/CSIT";

    GetHisto(family,name)
      -> Fill(RawData->GetMMCsITCristalNbr(i), 
          RawData->GetMMCsITTime(i));
  }
  
  // STRX MULT
  int myMULT[fNumberOfTelescope];
  for( Int_t i = 0; i < fNumberOfTelescope; i++)
    myMULT[i] = 0 ; 
  
  for(Int_t i = 0 ; i < RawData->GetMMStripXEMult();i++){
    myMULT[RawData->GetMMStripXEDetectorNbr(i)-1] += 1;  
  }
  
  for( Int_t i = 0; i < fNumberOfTelescope; i++){

    name = Form("MM%d_STRX_RAW_MULT", i+1);
    family= "MUST2/RAW/MULT";
    GetHisto(family,name)
      -> Fill(myMULT[i]);
  }
  
  // STRY MULT
 for( Int_t i = 0; i < fNumberOfTelescope; i++)
    myMULT[i] = 0 ; 
 
  for(Int_t i = 0 ; i < RawData->GetMMStripYEMult();i++){
    myMULT[RawData->GetMMStripYEDetectorNbr(i)-1] += 1;  
  }
  
  for( Int_t i = 0; i < fNumberOfTelescope; i++){
    name = Form("MM%d_STRY_RAW_MULT", i+1);
    family= "MUST2/RAW/MULT";
    GetHisto(family,name)
      -> Fill(myMULT[i]);
  }

  // SILI MULT
  for( Int_t i = 0; i < fNumberOfTelescope; i++)
    myMULT[i] = 0 ; 

  for(Int_t i = 0 ; i < RawData->GetMMSiLiEMult();i++){
    myMULT[RawData->GetMMSiLiEDetectorNbr(i)-1] += 1;  
  }
  
  for( Int_t i = 0; i < fNumberOfTelescope; i++){
    name = Form("MM%d_SILI_RAW_MULT", i+1);
    family= "MUST2/RAW/MULT";
    GetHisto(family,name)
      -> Fill(myMULT[i]);
  }
  
  // CSI MULT
  for( Int_t i = 0; i < fNumberOfTelescope; i++)
    myMULT[i] = 0 ; 
  
  for(Int_t i = 0 ; i < RawData->GetMMCsIEMult();i++){
    myMULT[RawData->GetMMCsIEDetectorNbr(i)-1] += 1;  
  }
  
  for( Int_t i = 0; i < fNumberOfTelescope; i++){
    name = Form("MM%d_CSI_RAW_MULT", i+1);
    family= "MUST2/RAW/MULT";
    GetHisto(family,name)
      -> Fill(myMULT[i]);
  }

}

////////////////////////////////////////////////////////////////////////////////
void TMust2Spectra::FillPreTreatedSpectra(TMust2Data* PreTreatedData){
  TString name ;
  TString family;
  // STRX_E
  for (Int_t i = 0; i < PreTreatedData->GetMMStripXEMult(); i++) {
    name = Form("MM%d_STRX_E_CAL", PreTreatedData->GetMMStripXEDetectorNbr(i) );
    family = "MUST2/CAL/STRXE";

    GetHisto(family,name)
      -> Fill(PreTreatedData->GetMMStripXEStripNbr(i), 
          PreTreatedData->GetMMStripXEEnergy(i));
  }
  // STRY_E
  for (Int_t i = 0; i < PreTreatedData->GetMMStripYEMult(); i++) {
    name = Form("MM%d_STRY_E_CAL", PreTreatedData->GetMMStripYEDetectorNbr(i) );
    family = "MUST2/CAL/STRYE";

    GetHisto(family,name)
      -> Fill(PreTreatedData->GetMMStripYEStripNbr(i), 
          PreTreatedData->GetMMStripYEEnergy(i));
  }
  // STRX_T
  for (Int_t i = 0; i < PreTreatedData->GetMMStripXTMult(); i++) {
    name = Form("MM%d_STRX_T_CAL", PreTreatedData->GetMMStripXTDetectorNbr(i) );
    family = "MUST2/CAL/STRXT";

    GetHisto(family,name)
      -> Fill(PreTreatedData->GetMMStripXTStripNbr(i), 
          PreTreatedData->GetMMStripXTTime(i));
  }
  // STRY_T
  for (Int_t i = 0; i < PreTreatedData->GetMMStripYTMult(); i++) {
   name = Form("MM%d_STRY_T_CAL", PreTreatedData->GetMMStripYTDetectorNbr(i) );
    family = "MUST2/CAL/STRYT";

    GetHisto(family,name)
      -> Fill(PreTreatedData->GetMMStripYTStripNbr(i), 
          PreTreatedData->GetMMStripYTTime(i));
  }
  // SILI_E
  for (Int_t i = 0; i < PreTreatedData->GetMMSiLiEMult(); i++) {
    name = Form("MM%d_SILI_E_CAL", PreTreatedData->GetMMSiLiEDetectorNbr(i) );
    family = "MUST2/CAL/SILIE";

    GetHisto(family,name)
      -> Fill(PreTreatedData->GetMMSiLiEPadNbr(i), 
          PreTreatedData->GetMMSiLiEEnergy(i));
  }
  // SILI_T
  for (Int_t i = 0; i < PreTreatedData->GetMMSiLiTMult(); i++) {
    name = Form("MM%d_SILI_T_CAL", PreTreatedData->GetMMSiLiTDetectorNbr(i) );
    family = "MUST2/CAL/SILIT";

    GetHisto(family,name)
      -> Fill(PreTreatedData->GetMMSiLiTPadNbr(i), 
          PreTreatedData->GetMMSiLiTTime(i));
  }
  // CSI_E
  for (Int_t i = 0; i < PreTreatedData->GetMMCsIEMult(); i++) {
    name = Form("MM%d_CSI_E_CAL", PreTreatedData->GetMMCsIEDetectorNbr(i) );
    family = "MUST2/CAL/CSIE";

    GetHisto(family,name)
      -> Fill(PreTreatedData->GetMMCsIECristalNbr(i),   
          PreTreatedData->GetMMCsIEEnergy(i));
  }
  // CSI_T
  for (Int_t i = 0; i < PreTreatedData->GetMMCsITMult(); i++) {
    name = Form("MM%d_CSI_T_CAL", PreTreatedData->GetMMCsITDetectorNbr(i) );
    family = "MUST2/CAL/CSIT";

    GetHisto(family,name)
      -> Fill(PreTreatedData->GetMMCsITCristalNbr(i), 
          PreTreatedData->GetMMCsITTime(i));
  }
 
  // STRX MULT
  int myMULT[fNumberOfTelescope];
  for( Int_t i = 0; i < fNumberOfTelescope; i++)
    myMULT[i] = 0 ; 
  
  for(Int_t i = 0 ; i < PreTreatedData->GetMMStripXEMult();i++){
    myMULT[PreTreatedData->GetMMStripXEDetectorNbr(i)-1] += 1;  
  }
  
  for( Int_t i = 0; i < fNumberOfTelescope; i++){

    name = Form("MM%d_STRX_CAL_MULT", i+1);
    family= "MUST2/CAL/MULT";
    GetHisto(family,name)
      -> Fill(myMULT[i]);
  }
  
  // STRY MULT
 for( Int_t i = 0; i < fNumberOfTelescope; i++)
    myMULT[i] = 0 ; 
 
  for(Int_t i = 0 ; i < PreTreatedData->GetMMStripYEMult();i++){
    myMULT[PreTreatedData->GetMMStripYEDetectorNbr(i)-1] += 1;  
  }
  
  for( Int_t i = 0; i < fNumberOfTelescope; i++){
    name = Form("MM%d_STRY_CAL_MULT", i+1);
    family= "MUST2/CAL/MULT";
    GetHisto(family,name)
      -> Fill(myMULT[i]);
  }

  // SILI MULT
  for( Int_t i = 0; i < fNumberOfTelescope; i++)
    myMULT[i] = 0 ; 

  for(Int_t i = 0 ; i < PreTreatedData->GetMMSiLiEMult();i++){
    myMULT[PreTreatedData->GetMMSiLiEDetectorNbr(i)-1] += 1;  
  }
  
  for( Int_t i = 0; i < fNumberOfTelescope; i++){
    name = Form("MM%d_SILI_CAL_MULT", i+1);
    family= "MUST2/CAL/MULT";
    GetHisto(family,name)
      -> Fill(myMULT[i]);
  }
  
  // CSI MULT
  for( Int_t i = 0; i < fNumberOfTelescope; i++)
    myMULT[i] = 0 ; 
  
  for(Int_t i = 0 ; i < PreTreatedData->GetMMCsIEMult();i++){
    myMULT[PreTreatedData->GetMMCsIEDetectorNbr(i)-1] += 1;  
  }
  
  for( Int_t i = 0; i < fNumberOfTelescope; i++){
    name = Form("MM%d_CSI_CAL_MULT", i+1);
    family= "MUST2/CAL/MULT";
    GetHisto(family,name)
      -> Fill(myMULT[i]);
  }
}

////////////////////////////////////////////////////////////////////////////////
void TMust2Spectra::FillPhysicsSpectra(TMust2Physics* Physics){
  TString name;
  TString family= "MUST2/PHY";
  // X-Y Impact Matrix
  
  for(Int_t i = 0 ; i < Physics->Si_E.size(); i++){
    name = "MM_IMPACT_MATRIX";
    double x = Physics->GetPositionOfInteraction(i).x();
    double y = Physics->GetPositionOfInteraction(i).y();
    GetHisto(family,name)-> Fill(x,y);
  
    name = "MM_THETA_E";
    double Theta = Physics->GetPositionOfInteraction(i).Angle(TVector3(0,0,1));
    Theta = Theta/deg;
    GetHisto(family,name)-> Fill(Theta,Physics->Si_E[i]);

    // STRX_E_CAL
    name = Form("MM%d_XY_COR", Physics->TelescopeNumber[i]);
    GetHisto(family,name)-> Fill(Physics->Si_EX[i],Physics->Si_EY[i]);
  }






}
////////////////////////////////////////////////////////////////////////////////
TH1* TMust2Spectra::AddHisto1D(TString name, TString title, Int_t nbinsx, Double_t xlow, Double_t xup, TString family){
  // create histo
  TH1 *hist = new TH1D(name, title, nbinsx, xlow, xup);

  vector<TString> index ;
  index.push_back(family);
  index.push_back(name);

    // fill map
    fMapHisto[index]=hist;

  return hist;
}

////////////////////////////////////////////////////////////////////////////////
TH1* TMust2Spectra::AddHisto2D(TString name, TString title, Int_t nbinsx, Double_t xlow, Double_t xup, Int_t nbinsy, Double_t ylow, Double_t yup, TString family){
  // create histo
  TH1 *hist = new TH2D(name, title, nbinsx, xlow, xup, nbinsy, ylow, yup);

  vector<TString> index ;
  index.push_back(family);
  index.push_back(name);

    // fill map
    fMapHisto[index]=hist;

  return hist;
}

////////////////////////////////////////////////////////////////////////////////
TH1* TMust2Spectra::GetHisto(TString family, TString name){
  vector<TString> index ;
  index.push_back(family);
  index.push_back(name);
  
  // fill map
  return fMapHisto.at(index);
}

////////////////////////////////////////////////////////////////////////////////
void TMust2Spectra::WriteHisto(TString filename){
  TFile* f; 
  
  if(filename!="VOID"){
    f = new TFile(filename,"RECREATE");
  }
  
  map< vector<TString>, TH1* >::iterator it;

  for (it=fMapHisto.begin(); it!=fMapHisto.end(); ++it){
      it->second->Write();
  }
  
  if(filename!="VOID"){
     f->Close();
     delete f;
  }

}