Esempio n. 1
0
void testgeo(const char* rootfile)
{

  // Clear global scope
  gROOT->Reset();

  // Load the library with class dictionary info
  gSystem->Load("libWCSimRoot.so");

  // Open the file, replace if you've named it something else
  TFile file(rootfile);
  
  // Get the a pointer to the tree from the file
  TTree *gtree = (TTree*)file.Get("wcsimGeoT");
  
  // Get the number of events
  int nevent = gtree->GetEntries();
  printf("geo nevent %d\n",nevent);
  
  // Create a WCSimRootGeom to put stuff from the tree in

  WCSimRootGeom* wcsimrootgeom = new WCSimRootGeom();

  // Set the branch address for reading from the tree
  TBranch *branch = gtree->GetBranch("wcsimrootgeom");
  branch->SetAddress(&wcsimrootgeom);

  // Now loop over "events"  (should be only one for geo tree)
  int ev;
  for (ev=0;ev<nevent; ev++)  {
      // Read the event from the tree into the WCSimRootGeom instance
      gtree->GetEntry(ev);
      printf("Cyl radius %f\n", wcsimrootgeom->GetWCCylRadius());
      printf("Cyl length %f\n", wcsimrootgeom->GetWCCylLength());
      printf("PMT radius %f\n", wcsimrootgeom->GetWCPMTRadius());
      printf("Offset x y z %f %f %f\n", wcsimrootgeom->GetWCOffset(0),
	     wcsimrootgeom->GetWCOffset(1),wcsimrootgeom->GetWCOffset(2));
      int numpmt = wcsimrootgeom->GetWCNumPMT();
      printf("Num PMTs %d\n", numpmt);

      int i;
      for (i=0;i<((numpmt<20)?numpmt:20);i++){
	WCSimRootPMT pmt;
	pmt = wcsimrootgeom->GetPMT(i);
	printf ("pmt %d %d %d\n",i,pmt.GetTubeNo(), pmt.GetCylLoc());
	printf ("position: %f %f %f\n", pmt.GetPosition(0),
		pmt.GetPosition(1),pmt.GetPosition(2));
	printf ("orientation: %f %f %f\n", pmt.GetOrientation(0),
		pmt.GetOrientation(1),pmt.GetOrientation(2));
      }
            
    } // End of loop over events

}
Esempio n. 2
0
void compare_wls1(TString filename="../p15m_nwls/wcsim.root",TString histoname="p15m_nwls", Int_t *flag, TString rootfile = "temp.root") {

    TFile *file1;
    if (*flag!=0) {
        //file1 = new TFile(rootfile,"Update");
        file1 = new TFile(rootfile,"RECREATE");
    } else {
        file1 = new TFile(rootfile,"RECREATE");
    }
    TString filename1;
    filename1 = histoname + "_digi";
    TTree *T = new TTree(filename1,filename1);
    T->SetDirectory(file1);
    Double_t diginpe,digitime,cor_digitime,digitheta,dis_digihit;
    Int_t neve;

    Double_t mom;
    Double_t pos_x,pos_y,pos_z;
    Double_t dir_x,dir_y,dir_z;
    Double_t tube_x,tube_y,tube_z;
    Double_t totankdis;
    Double_t vertex[3],dir[3];

    Double_t tube_pos[3];

    T->Branch("digi_eve",&neve,"data/I");
    T->Branch("diginpe",&diginpe,"data/D");
    T->Branch("digitime",&digitime,"data/D");
    T->Branch("cor_digitime",&cor_digitime,"data/D");
    T->Branch("digitheta",&digitheta,"data/D");
    T->Branch("dis_dighit",&dis_digihit,"data/D");

    T->Branch("mom",&mom,"data/D");
    T->Branch("totankdis",&totankdis,"data/D");
    T->Branch("pos_x",&vertex[0],"data/D");
    T->Branch("pos_y",&vertex[1],"data/D");
    T->Branch("pos_z",&vertex[2],"data/D");

    T->Branch("dir_x",&dir[0],"data/D");
    T->Branch("dir_y",&dir[1],"data/D");
    T->Branch("dir_z",&dir[2],"data/D");

    T->Branch("tube_x",&tube_pos[0],"data/D");
    T->Branch("tube_y",&tube_pos[1],"data/D");
    T->Branch("tube_z",&tube_pos[2],"data/D");

    filename1 = histoname + "_hit";
    TTree *t1 = new TTree(filename1,filename1);
    t1->SetDirectory(file1);

    Double_t wavelength, truetime, corr_time,theta,distance,index;
    Int_t qe_flag,parentid,tubeid,totalpe;

    Int_t ntracks;

    t1->Branch("ntracks",&ntracks,"data/I");
    t1->Branch("neve",&neve,"data/I");
    t1->Branch("wavelength",&wavelength,"data/D");
    t1->Branch("truetime",&truetime,"data/D");
    t1->Branch("corr_time",&corr_time,"data/D");
    t1->Branch("theta",&theta,"data/D");
    t1->Branch("distance",&distance,"data/D");
    t1->Branch("index",&index,"data/D");

    t1->Branch("mom",&mom,"data/D");
    t1->Branch("totankdis",&totankdis,"data/D");
    t1->Branch("pos_x",&vertex[0],"data/D");
    t1->Branch("pos_y",&vertex[1],"data/D");
    t1->Branch("pos_z",&vertex[2],"data/D");

    t1->Branch("dir_x",&dir[0],"data/D");
    t1->Branch("dir_y",&dir[1],"data/D");
    t1->Branch("dir_z",&dir[2],"data/D");

    t1->Branch("tube_x",&tube_pos[0],"data/D");
    t1->Branch("tube_y",&tube_pos[1],"data/D");
    t1->Branch("tube_z",&tube_pos[2],"data/D");

    // t1->Branch("pos_x",&pos_x,"data/D");
//   t1->Branch("pos_y",&pos_y,"data/D");
//   t1->Branch("pos_z",&pos_z,"data/D");

//   t1->Branch("dir_x",&dir_x,"data/D");
//   t1->Branch("dir_y",&dir_y,"data/D");
//   t1->Branch("dir_z",&dir_z,"data/D");

//   t1->Branch("tube_x",&tube_x,"data/D");
//   t1->Branch("tube_y",&tube_y,"data/D");
//   t1->Branch("tube_z",&tube_z,"data/D");

    t1->Branch("qe_flag",&qe_flag,"data/I");
    t1->Branch("parentid",&parentid,"data/I");
    t1->Branch("tubeid",&tubeid,"data/I");
    t1->Branch("totalpe",&totalpe,"data/I");


    TFile *file = new TFile(filename);
    TTree  *wcsimT = file->Get("wcsimT");
    WCSimRootEvent *wcsimrootsuperevent = new WCSimRootEvent();
    wcsimT->SetBranchAddress("wcsimrootevent",&wcsimrootsuperevent);
    wcsimT->GetBranch("wcsimrootevent")->SetAutoDelete(kTRUE);



    TTree *gtree = file->Get("wcsimGeoT");
    WCSimRootGeom *wcsimrootgeom = new WCSimRootGeom();
    gbranch = gtree->GetBranch("wcsimrootgeom");
    gbranch->SetAddress(&wcsimrootgeom);
    gtree->GetEntry(0);

    WCSimRootPMT *pmt;

    Double_t pmt_pos[500000][3];

    for (Int_t i=0; i!=wcsimrootgeom->GetWCNumPMT(); i++) {
        pmt_pos[i][0] = (wcsimrootgeom->GetPMT(i)).GetPosition(0);
        pmt_pos[i][1] = (wcsimrootgeom->GetPMT(i)).GetPosition(1);
        pmt_pos[i][2] = (wcsimrootgeom->GetPMT(i)).GetPosition(2);
    }

    //in terms of wavelength (total NPE) real hit
    filename1 = histoname + "_total_wl";
    TH1F *hqx = new TH1F(filename1,filename1,600,200,800);

    //NPE in each event sum over digi hit
    filename1 = histoname + "_total_npe";
    TH1F *hqx2 = new TH1F(filename1,filename1,1000,0.,10000);

    //digitized hit time
    filename1 = histoname + "_digitime";
    TH1F *hqx1 = new TH1F(filename1,filename1,500,900,1400);

    //corrected digitized hit time
    filename1 = histoname + "_cor_digitime";
    TH1F *hqx4 = new TH1F(filename1,filename1,1000,400,1400);

    //digitized hit angle
    filename1 = histoname + "_digitheta";
    TH1F *hqx5 = new TH1F(filename1,filename1,180,0,180);



    //TH2F *h1 = new TH2F("h1","h1",100,1000,20000,100,90000,140000);

    Double_t index = 1.333;



    neve = *flag;

    cout << histoname << "\t" << wcsimT->GetEntries() << endl;
    for (Int_t j=0; j!=wcsimT->GetEntries(); j++) {
        //for (Int_t j=0;j!=90;j++){
        // cout << j << endl;
        wcsimT->GetEvent(j);
        neve ++;

        WCSimRootTrigger *wcsimrootevent = wcsimrootsuperevent->GetTrigger(0);
        temp = (TClonesArray*)wcsimrootevent->GetTracks();

        Int_t ntrack =  wcsimrootevent->GetNtrack();
        //cout << ntrack << endl;
        ntracks = ntrack;

        mom = ((WCSimRootTrack*)temp->At(ntrack-1))->GetP();
        //get the vertex information
        vertex[0] = ((WCSimRootTrack*)temp->At(ntrack-1))->GetStart(0);
        vertex[1] = ((WCSimRootTrack*)temp->At(ntrack-1))->GetStart(1);
        vertex[2] = ((WCSimRootTrack*)temp->At(ntrack-1))->GetStart(2);

        //get position information
        dir[0] = ((WCSimRootTrack*)temp->At(ntrack-1))->GetDir(0);
        dir[1] = ((WCSimRootTrack*)temp->At(ntrack-1))->GetDir(1);
        dir[2] = ((WCSimRootTrack*)temp->At(ntrack-1))->GetDir(2);

        totankdis=ToTankDistance(vertex,dir);

        TVector3 vertex3(vertex[0],vertex[1],vertex[2]);
        TVector3 dir3(dir[0],dir[1],dir[2]);


        //loop through digi hit
        int max = wcsimrootevent->GetNcherenkovdigihits();

        double sum = 0;

        for (int i=0; i<max; i++) {
            // cout << max << "\t" << i << endl;
            WCSimRootCherenkovDigiHit *cDigiHit = ((WCSimRootCherenkovDigiHit*)wcsimrootevent->GetCherenkovDigiHits()->At(i));
            hqx1->Fill(cDigiHit->GetT());
            tube_pos[0] =  pmt_pos[(cDigiHit->GetTubeId()-1)][0];
            tube_pos[1] =  pmt_pos[(cDigiHit->GetTubeId()-1)][1];
            tube_pos[2] =  pmt_pos[(cDigiHit->GetTubeId()-1)][2];

            TVector3 hit3(tube_pos[0],tube_pos[1],tube_pos[2]);
            TVector3 dis = hit3-vertex3;

            diginpe = cDigiHit->GetQ();
            digitime = cDigiHit->GetT();
            cor_digitime = digitime-dis.Mag()/299792458.*1.333*1.e7;
            digitheta = dis.Angle(dir3)/3.1415926*180.;
            dis_digihit = dis.Mag();


            hqx4->Fill(cor_digitime,diginpe);
            hqx5->Fill(digitheta,diginpe);
            sum += diginpe;

            T->Fill();
        }
        hqx2->Fill(sum);


        //loop through real hit



        //loop through PMT hit first
        max = wcsimrootevent-> GetNcherenkovhits();
        //cout << max << endl;
        if (max ==0) {
            t1->Fill();
        }
        for (int i=0; i<max; i++) {
            WCSimRootCherenkovHit* wcsimrootcherenkovhit =
                dynamic_cast<WCSimRootCherenkovHit*>((wcsimrootevent->GetCherenkovHits())->At(i));

            totalpe = wcsimrootcherenkovhit->GetTotalPe(1);
            tubeid = wcsimrootcherenkovhit->GetTubeID() ;

            //loop through hit time etc
            for (int k=0; k<totalpe; k++) {
                TObject *element2 = (wcsimrootevent->GetCherenkovHitTimes())->
                                    At(wcsimrootcherenkovhit->GetTotalPe(0)+k);
                WCSimRootCherenkovHitTime *wcsimrootcherenkovhittime
                    = dynamic_cast<WCSimRootCherenkovHitTime*>(element2);

                wavelength =wcsimrootcherenkovhittime->GetWavelength();
                qe_flag = wcsimrootcherenkovhittime->GetQe_flag();
                truetime = wcsimrootcherenkovhittime->GetTruetime();
                parentid = wcsimrootcherenkovhittime->GetParentID();

                pos_x = wcsimrootcherenkovhittime->GetPosX() ;
                pos_y = wcsimrootcherenkovhittime->GetPosY() ;
                pos_z = wcsimrootcherenkovhittime->GetPosZ() ;
                dir_x = wcsimrootcherenkovhittime->GetDirX() ;
                dir_y = wcsimrootcherenkovhittime->GetDirY() ;
                dir_z = wcsimrootcherenkovhittime->GetDirZ() ;

                tube_pos[0] =  pmt_pos[tubeid-1][0];
                tube_pos[1] =  pmt_pos[tubeid-1][1];
                tube_pos[2] =  pmt_pos[tubeid-1][2];

                tube_x = tube_pos[0];
                tube_y = tube_pos[1];
                tube_z = tube_pos[2];



                TVector3 hit3(tube_pos[0],tube_pos[1],tube_pos[2]);
                TVector3 dis = hit3-vertex3;

                distance = dis.Mag();
                theta = dis.Angle(dir3)/3.1415926*180.;
                //index = index(wavelength);
                index = 1.34;
                corr_time = truetime - distance/299792458.*1e7*index;

                if (qe_flag==1) {
                    hqx->Fill(wavelength);
                }

                t1->Fill();
            }
        }



    }

    if (flag==1) {
        hqx->SetDirectory(file1);
        hqx2->SetDirectory(file1);
        hqx1->SetDirectory(file1);
        hqx4->SetDirectory(file1);
        hqx5->SetDirectory(file1);
        file1->Write();
        file1->Close();
    } else {
        hqx->SetDirectory(file1);
        hqx2->SetDirectory(file1);
        hqx1->SetDirectory(file1);
        hqx4->SetDirectory(file1);
        hqx5->SetDirectory(file1);
        file1->Write();
        file1->Close();
    }

    *flag = neve;

}
Esempio n. 3
0
void pmtremove(TString infile, TString outfile, double removefrac)
{
  // read old geometry from the input rootfile

  TFile *f2 = new TFile(infile);  
  TTree *oldtree = (TTree*)f2->Get("wcsimGeoT");
  WCSimRootGeom* oldgeom = new WCSimRootGeom();
  TBranch *gb = oldtree->GetBranch("wcsimrootgeom");
  gb->SetAddress(&oldgeom);
  oldtree->GetEntry(0);
  int oldpmtnum = oldgeom->GetWCNumPMT();
  Printf("Initial Number of PMTs: %d", oldpmtnum);

  // set up the new output file
  TFile *f3 = new TFile(outfile,"RECREATE");
  TTree *newtree = oldtree->CloneTree(0);
  WCSimRootGeom* newgeom = new WCSimRootGeom();  
  newtree->SetBranchAddress("wcsimrootgeom",&newgeom);

  newgeom->SetWCCylRadius(oldgeom->GetWCCylRadius());
  newgeom->SetWCCylLength(oldgeom->GetWCCylLength());
  newgeom->SetMailBox_x(oldgeom->GetMailBox_x());
  newgeom->SetMailBox_y(oldgeom->GetMailBox_y());
  newgeom->SetMailBox_z(oldgeom->GetMailBox_z());
  newgeom->SetGeo_Type(oldgeom->GetGeo_Type());
  newgeom->SetWCOffset(oldgeom->GetWCOffset(0),
		       oldgeom->GetWCOffset(1),
		       oldgeom->GetWCOffset(2));
  newgeom->SetOrientation(oldgeom->GetOrientation());
  newgeom->SetWCPMTRadius(oldgeom->GetWCPMTRadius());

  // associates old PMTs with new PMTs  Index into it is the old pmt number,
  // gives back new PMT number.  If PMT is removed, this array has -1 in it.

  const int asize = oldpmtnum + 1;
  int pmtassoc[asize];

  int newpmtnum = 0;
  int ict = 0;  // old floor count
  for (int i=0;i<oldpmtnum;i++)
    {
      WCSimRootPMT pmt = oldgeom->GetPMT(i);
      int oldtubeno = pmt.GetTubeNo();
      double ft = removefrac*( (double) i);
      int icc = (int) floor(ft);  // check to see when this rolls around another integer

      if ( ict != icc)
	{
	  ict = icc;  
	  pmtassoc[oldtubeno] = -1;  // and remove this tube
	}
      else
	{
          pmtassoc[oldtubeno] = newpmtnum+1;
	  float rot[3];
	  float pos[3];
	  for (int j=0;j<3;j++)
	    { 
	      rot[j] = pmt.GetOrientation(j);
	      pos[j] = pmt.GetPosition(j);
	    }
          newgeom->SetPMT(newpmtnum,newpmtnum+1,pmt.GetCylLoc(),rot,pos,true);
          newpmtnum++;
	}
      //if (i<100)  std::cout << "input pmt: " << i << " " << oldtubeno << " assoc: " << pmtassoc[oldtubeno] <<  std::endl;

    }
  newgeom->SetWCNumPMT(newpmtnum);
  std::cout << "New PMT count: " << newpmtnum << std::endl;
  newtree->Fill();
  newtree->Write();

  //-------------------------------------------------------------------------------------------
  //----------  Go through events -- drop PMT hits and renumber PMTs with the ones we have.
  //-------------------------------------------------------------------------------------------

  TTree *oldevtree = (TTree*) f2->Get("wcsimT");
  int nevent = oldevtree->GetEntries();
  std::cout << "Number of events: " << nevent << std::endl;

  // Create a WCSimRootEvent to put stuff from the old tree in
  WCSimRootEvent* oldsuperevent = new WCSimRootEvent();
  TBranch *branch = oldevtree->GetBranch("wcsimrootevent");
  branch->SetAddress(&oldsuperevent);
  // Force deletion to prevent memory leak 
  oldevtree->GetBranch("wcsimrootevent")->SetAutoDelete(kTRUE);

  // Initialize the output tree

  TTree *newevtree = oldevtree->CloneTree(0);
  WCSimRootEvent *newsuperevent = new WCSimRootEvent();
  newsuperevent->Initialize();
  newevtree->SetBranchAddress("wcsimrootevent",&newsuperevent);

  // Now loop over events
  for (int ev=0; ev<nevent; ev++)
    {
      // Read the event from the tree into the WCSimRootEvent instance
      oldevtree->GetEntry(ev);      

      // new output event -- allocate memory here and let it go out of scope at the end of the loop.
      // performance isn't so much an issue here.

      for (int itrigger = 0; itrigger < oldsuperevent->GetNumberOfEvents(); itrigger++)
	{
	  //std::cout << "about to get a trigger:  Event: " << ev << " Trigger: " << itrigger << std::endl;
	  WCSimRootTrigger *oldtrigger;
	  oldtrigger = oldsuperevent->GetTrigger(itrigger);
	  if (itrigger > 0) newsuperevent->AddSubEvent();  // don't have to add the first trigger, done by initialize
	  WCSimRootTrigger *newtrigger = newsuperevent->GetTrigger(itrigger);
	  
	  WCSimRootEventHeader *oldheader = oldtrigger->GetHeader();
	  newtrigger->SetHeader(oldheader->GetEvtNum(),oldheader->GetRun(),oldheader->GetDate(),oldheader->GetSubEvtNumber());
	  newtrigger->SetMode(oldtrigger->GetMode());
	  newtrigger->SetVtxvol(oldtrigger->GetVtxvol());
	  for (int i=0;i<3;i++) newtrigger->SetVtx(i,oldtrigger->GetVtx(i));
	  newtrigger->SetJmu(oldtrigger->GetJmu());
	  newtrigger->SetJp(oldtrigger->GetJp());
	  newtrigger->SetNpar(oldtrigger->GetNpar());
	
	  WCSimRootPi0 *pi0info = oldtrigger->GetPi0Info();
	  float pi0vtx[3],gammae[2],gammavtx[2][3];
	  int gammaid[2];
	  for (int i=0;i<3;i++)
	    { 
	      pi0vtx[i] = pi0info->GetPi0Vtx(i);
	      gammavtx[0][i] = pi0info->GetGammaVtx(0,i);
	      gammavtx[1][i] = pi0info->GetGammaVtx(1,i);
	    }
	  for (int i=0;i<2;i++)
	    {
	      gammaid[i] = pi0info->GetGammaID(i);
	      gammae[i] = pi0info->GetGammaE(i);
	    }
	  newtrigger->SetPi0Info(pi0vtx,gammaid,gammae,gammavtx);

	  // Get the number of tracks
	  int ntrack = oldtrigger->GetNtrack();
	  //printf("ntracks=%d\n",ntrack);
    
	  // Loop through elements in the TClonesArray of WCSimTracks
	  for (int i=0; i<ntrack; i++)
	    {
	      TObject *element = (oldtrigger->GetTracks())->At(i);
	      WCSimRootTrack *track = dynamic_cast<WCSimRootTrack*>(element);
	      float dir[3],pdir[3],stop[3],start[3];
	      for (int j=0;j<3;j++)
		{
		  dir[j] = track->GetDir(j);
		  pdir[j] = track->GetPdir(j);
		  stop[j] = track->GetStop(j);
		  start[j] = track->GetStart(j);
		}
	      newtrigger->AddTrack(track->GetIpnu(),
				   track->GetFlag(),
				   track->GetM(),
				   track->GetP(),
				   track->GetE(),
				   track->GetStartvol(),
				   track->GetStopvol(),
				   dir,
				   pdir,
				   stop,
				   start,
				   track->GetParenttype(),
				   track->GetTime(),
				   track->GetId());

	    }  // End of loop over tracks

	  // stopped here March 22 -- keep copying info from the old trigger to the new trigger
    
	  // Now look at the Cherenkov hits

	  // Get the number of Cherenkov hits.
	  // Note... this is *NOT* the number of photons that hit tubes.
	  // It is the number of tubes hit with Cherenkov photons.
	  // The number of digitized tubes will be smaller because of the threshold.
	  // Each hit "raw" tube has several photon hits.  The times are recorded.
	  // See chapter 5 of ../doc/DetectorDocumentation.pdf
	  // for more information on the structure of the root file.
	  //  
	  // For digitized info (one time/charge tube after a trigger) use
	  // the digitized information.
	  //
    
	  int ncherenkovhits     = oldtrigger->GetNcherenkovhits();
	  int ncherenkovdigihits = oldtrigger->GetNcherenkovdigihits(); 
    
	  // Grab the big arrays of times and parent IDs
	  TClonesArray *timeArray = oldtrigger->GetCherenkovHitTimes();
    
	  // Loop through elements in the TClonesArray of WCSimRootCherenkovHits and copy info for non-removed PMT's

	  for (int i=0; i< ncherenkovhits; i++)
	    {
	      TObject *Hit = (oldtrigger->GetCherenkovHits())->At(i);
	      WCSimRootCherenkovHit *wcsimrootcherenkovhit = dynamic_cast<WCSimRootCherenkovHit*>(Hit);

	      int tubeNumber     = wcsimrootcherenkovhit->GetTubeID();
	      int timeArrayIndex = wcsimrootcherenkovhit->GetTotalPe(0);
	      int peForTube      = wcsimrootcherenkovhit->GetTotalPe(1);

	      if (tubeNumber < 1 || tubeNumber > oldpmtnum)
		{
		  std::cout << "Error in pmtremove: tube number out of range: " << tubeNumber << " max: " << oldpmtnum << std::endl;
		  exit(0); // die if we get a bad tube number
		}
	      int newtubenumber = pmtassoc[tubeNumber];
	      if (newtubenumber > 0)   // keep the tube's hits
		{
		  vector<float> truetime;
		  vector<int> ppid;
		  for (int j=0; j<peForTube; j++)
		    {
		      WCSimRootCherenkovHitTime *HitTime = dynamic_cast<WCSimRootCherenkovHitTime*>(timeArray->At(timeArrayIndex+j));
		      truetime.push_back(HitTime->GetTruetime());
		      ppid.push_back(HitTime->GetParentID());
		    }
		  newtrigger->AddCherenkovHit(newtubenumber,truetime,ppid);
		}
      	    } // End of loop over Cherenkov hits

	  // Copy digitized hits for non-removed PMT's, and recompute sumq

	  float sumq = 0;

	  for (int i=0;i<ncherenkovdigihits;i++)
	    {
	      // Loop through elements in the TClonesArray of WCSimRootCherenkovDigiHits
	      TObject *element = (oldtrigger->GetCherenkovDigiHits())->At(i);
	      WCSimRootCherenkovDigiHit *wcsimrootcherenkovdigihit = 
		dynamic_cast<WCSimRootCherenkovDigiHit*>(element);
	      int tubeNumber = wcsimrootcherenkovdigihit->GetTubeId();
	      if (tubeNumber < 1 || tubeNumber > oldpmtnum)
		{
		  std::cout << "Error in pmtremove: tube number out of range: " << tubeNumber << " max: " << oldpmtnum << std::endl;
		  exit(0); // die if we get a bad tube number
		}
	      int newtubenumber = pmtassoc[tubeNumber];
	      if (newtubenumber > 0)   // keep the tube's hits
		{
	          newtrigger->AddCherenkovDigiHit(wcsimrootcherenkovdigihit->GetQ(),
						  wcsimrootcherenkovdigihit->GetT(),
						  newtubenumber);
	          sumq += wcsimrootcherenkovdigihit->GetQ();
		}
	      //if ( i < 10 ) // Only print first XX=10 tubes
	      //printf("q, t, tubeid: %f %f %d \n",wcsimrootcherenkovdigihit->GetQ(),
	      //       wcsimrootcherenkovdigihit->GetT(),wcsimrootcherenkovdigihit->GetTubeId());
	
	    } // End of loop over Cherenkov digihits
	  newtrigger->SetSumQ(sumq);
	  //if (ev<100) { std::cout << "Sum charge: " << ev << " " << itrigger << " " <<  oldtrigger->GetSumQ() << " " << sumq <<  std::endl; }
	} // End of loop over triggers in the event

      newevtree->Fill();
      newevtree->Write();

      // reinitialize super events between loops.

      oldsuperevent->ReInitialize();
      newsuperevent->ReInitialize();
    
    } // End of loop over events
 


  delete f2;
  delete f3;
}
Esempio n. 4
0
File: testgeo.C Progetto: CSox/WCSim
// Simple example of reading a generated Root file
void testgeo(char *filename=NULL)
{

  // Clear global scope
  gROOT->Reset();

  // Load the library with class dictionary info
  // (create with "gmake shared")
  char* wcsimdirenv;
  wcsimdirenv = getenv ("WCSIMDIR");
  if(wcsimdirenv !=  NULL){
    gSystem->Load("${WCSIMDIR}/libWCSimRoot.so");
  }else{
    gSystem->Load("../libWCSimRoot.so");
  }

  // Open the file
  TFile *file; 
  if (filename==NULL){
    file = new TFile("../wcsim.root","read");
  }else{
    file = new TFile(filename,"read");
  }
  if (!file->IsOpen()){
    cout << "Error, could not open input file: " << filename << endl;
    return -1;
  }
  
  // Get the a pointer to the tree from the file
  TTree *gtree = (TTree*)file->Get("wcsimGeoT");
  
  // Get the number of events
  int nevent = gtree->GetEntries();
  printf("geo nevent %d\n",nevent);
  
  // Create a WCSimRootGeom to put stuff from the tree in

  WCSimRootGeom* wcsimrootgeom = new WCSimRootGeom();

  // Set the branch address for reading from the tree
  TBranch *branch = gtree->GetBranch("wcsimrootgeom");
  branch->SetAddress(&wcsimrootgeom);

  // Now loop over "events"  (should be only one for geo tree)
  int ev;
  for (ev=0;ev<nevent; ev++)  {
      // Read the event from the tree into the WCSimRootGeom instance
      gtree->GetEntry(ev);
      printf("Cyl radius %f\n", wcsimrootgeom->GetWCCylRadius());
      printf("Cyl length %f\n", wcsimrootgeom->GetWCCylLength());
      printf("PMT radius %f\n", wcsimrootgeom->GetWCPMTRadius());
      printf("Offset x y z %f %f %f\n", wcsimrootgeom->GetWCOffset(0),
	     wcsimrootgeom->GetWCOffset(1),wcsimrootgeom->GetWCOffset(2));
      int numpmt = wcsimrootgeom->GetWCNumPMT();
      printf("Num PMTs %d\n", numpmt);

      int i;
      for (i=0;i<((numpmt<20)?numpmt:20);i++){
	WCSimRootPMT pmt;
	pmt = wcsimrootgeom->GetPMT(i);
	printf ("pmt %d %d %d\n",i,pmt.GetTubeNo(), pmt.GetCylLoc());
	printf ("position: %f %f %f\n", pmt.GetPosition(0),
		pmt.GetPosition(1),pmt.GetPosition(2));
	printf ("orientation: %f %f %f\n", pmt.GetOrientation(0),
		pmt.GetOrientation(1),pmt.GetOrientation(2));
      }
            
    } // End of loop over events

}