StFcsQaMaker.cxx

/*
 *
 * \class StFcsQaMaker
 *
 */

#include "StFcsQaMaker.h"

#include "StRoot/StEvent/StEvent.h"
#include "StRoot/St_base/StMessMgr.h"
#include "StRoot/StEvent/StTriggerData.h"
#include "StRoot/StEvent/StFcsCollection.h"
#include "StRoot/StEvent/StFcsHit.h"
#include "StRoot/StEvent/StFcsCluster.h"
#include "StRoot/StFcsDbMaker/StFcsDb.h"
#include "StRoot/StSpinPool/StFcsRawDaqReader/StFcsRawDaqReader.h"

#include "TH1F.h"
#include "TH2F.h"
#include "TString.h"
#include "TFile.h"
#include "TCanvas.h"

#include <string.h>
#include <time.h>

StFcsQaMaker::StFcsQaMaker(const Char_t* name) : StMaker(name) {};

StFcsQaMaker::~StFcsQaMaker(){};

Int_t StFcsQaMaker::Init(){
  mFcsDb = static_cast<StFcsDb*>(GetDataSet("fcsDb"));
  if(!mFcsDb){
    LOG_FATAL << "Error finding StFcsDb"<< endm;
    return kStFatal;
  }

  //  if(mPedSub>0 || mDump>0) mFcsDbMkr->readPedFromText();

  if(mSetFile==0){
      int yday=mRun/1000;
      sprintf(mFilename,"%d/%d.root",yday,mRun);
      printf("StFcsQaMaker::Init - Opening %s\n",mFilename);
  }else{
      sprintf(mFilename,"%s",mSetFile);
  }
  mFile=new TFile(mFilename,"RECREATE");

  const char* nameEHP[kFcsEHP] = {"Ecal","Hcal","Pres"};
  const char* nameNS[kFcsNorthSouth] = {"N","S"};
  char t[100],t2[100],t3[100];

  mDataSize = new TH1F("DataSize","DataSize",100,-1.0,7.0);
  mEsum[0] = new TH1F("EcalESum","EcalESum",100,0.0,10.0);
  mEsum[1] = new TH1F("HcalESum","HcalESum",100,0.0,10.0);
  mEsum[2] = new TH1F("TotESum", "TotESum", 100,0.0,10.0);

  for(int det=0; det<kFcsNDet; det++){
    int ns  = mFcsDb->northSouth(det);
    int ehp = mFcsDb->ecalHcalPres(det);
    int maxid = mFcsDb->maxId(det);

    if(maxid==0) continue; 
    
    sprintf(t,"%4s_%1s_IdTbinAdc",nameEHP[ehp],nameNS[ns]);
    sprintf(t2,"%4s_%1s; Id; Tbin",nameEHP[ehp],nameNS[ns]);
    mAdcTb2[det] = new TH2F(t,t2,
                            maxid, 0.0, float(maxid),
                            mNTimeBins, 0.0, float(mNTimeBins));

    for(int id=0; id<maxid; id++){      
      mFcsDb->getName(det,id,t3);       
      int ehp2,ns2,crt,sub,dep,ch;
      mFcsDb->getDepfromId(det,id,ehp2,ns2,crt,sub,dep,ch);
      sprintf(t ,"%4s_%1s_TbinAdc_id%03d",nameEHP[ehp],nameNS[ns],id);
      sprintf(t2,"%s; TBin; ADC",t3);
      //printf("%s %s\n",t,t2);
      mAdcTb[det][id] = new TH2F(t,t2,
                                 mNTimeBins, 0.0, float(mNTimeBins),
                                 512, 0.0, float(mMaxAdc));
    }

    sprintf(t,"%4s_%1s_Adc",nameEHP[ehp],nameNS[ns]);
    sprintf(t2,"%4s_%1s; DEP+ch/32; ADC",nameEHP[ehp],nameNS[ns]);
    int maxdep = mFcsDb->getNDep(ehp,ns);
    int maxdepch = maxdep * kFcsMaxDepCh;
    mAdcId[det] = new TH2F(t,t2,
                           maxdepch, 0.0, float(maxdep),
                           256, 0.0, float(mMaxAdc));
    mAdcId[det]->GetXaxis()->SetNdivisions(-maxdep);

    sprintf(t,"%4s_%1s_ped",nameEHP[ehp],nameNS[ns]);
    sprintf(t2,"%4s_%1s_Ped; DEP+ch/32; ADC",nameEHP[ehp],nameNS[ns]);
    mAdcIdp[det] = new TH2F(t,t2,
                           maxdepch, 0.0, float(maxdep),
                           4096, 0.0, 4096);
    mAdcId[det]->GetXaxis()->SetNdivisions(-maxdep);

    sprintf(t,"%4s_%1s_IdSum",nameEHP[ehp],nameNS[ns]);
    sprintf(t2,"%4s_%1s; id; AdcSum(TB=%d-%d)",nameEHP[ehp],nameNS[ns],mMinTB,mMaxTB);
    mAdcSumId[det] = new TH2F(t,t2,
                              maxid, 0.0, float(maxid),
                              200, 0.0, float(mMaxAdcSum));

    sprintf(t,"%4s_%1s_IdTime",nameEHP[ehp],nameNS[ns]);
    sprintf(t2,"%4s_%1s; id; MeanTimeBin",nameEHP[ehp],nameNS[ns]);
    mTimeId[det] = new TH2F(t,t2,
                            maxid, 0.0, float(maxid),
                            200, mMinTB, mMaxTB);

    sprintf(t,"%4s_%1s_FitIntg",nameEHP[ehp],nameNS[ns]);
    sprintf(t2,"%4s_%1s; DEP+ch/32; FitIntegral",nameEHP[ehp],nameNS[ns]);
    mFitIntg[det] = new TH2F(t,t2,
                             maxdepch, 0.0, float(maxdep),
                             400, 0.0, float(mMaxAdcSum));

    sprintf(t,"%4s_%1s_FitSigm",nameEHP[ehp],nameNS[ns]);
    sprintf(t2,"%4s_%1s; DEP+ch/32; FitSigma[TB]",nameEHP[ehp],nameNS[ns]);
    mFitSigm[det] = new TH2F(t,t2,
                             maxdepch, 0.0, float(maxdep),
                             100, 0.0, 5.0);
    
    sprintf(t,"%4s_%1s_FitTime",nameEHP[ehp],nameNS[ns]);
    sprintf(t2,"%4s_%1s; DEP+ch/32; FitPeakTime[TB]",nameEHP[ehp],nameNS[ns]);
    mFitTime[det] = new TH2F(t,t2,
                             maxdepch, 0.0, float(maxdep),
                             200, mMinTB, mMaxTB);
    
    sprintf(t,"%4s_%1s_FitChi2",nameEHP[ehp],nameNS[ns]);
    sprintf(t2,"%4s_%1s; DEP+ch/32; FitChi2",nameEHP[ehp],nameNS[ns]);
    mFitChi2[det] = new TH2F(t,t2,
                             maxdepch, 0.0, float(maxdep),
                             100, 0.0, 400.0);
    
    sprintf(t,"%4s_%1s_NHit",nameEHP[ehp],nameNS[ns]);
    sprintf(t2,"%4s_%1s; NHit",nameEHP[ehp],nameNS[ns]);
    mNHit[det] = new TH1F(t,t2,maxid,0.0,float(maxid+1));
    
    if(ehp<2){ //clusters for Ecasl/Hcal
      sprintf(t,"%4s_%1s_NCluster",nameEHP[ehp],nameNS[ns]);
      mNClu[det] = new TH1F(t,t,10,0.0,10.0);

      sprintf(t,"%4s_%1s_NTowClu",nameEHP[ehp],nameNS[ns]);
      mNTowClu[det] = new TH1F(t,t,10,0.0,10.0);

      sprintf(t,"%4s_%1s_NNeiClu",nameEHP[ehp],nameNS[ns]);
      mNNeiClu[det] = new TH1F(t,t,10,0.0,10.0);

      for(int id=0; id<maxid; id++){      
        mFcsDb->getName(det,id,t2);     
        sprintf(t ,"%1s%1s%03d_NTowClu_E",nameEHP[ehp],nameNS[ns],id);
        sprintf(t2 ,"%22s_NTowClu_E",t2);
        mNTowEClu[det][id] =  new TH2F(t,t2,10,1.0,11.0,100,0.0,10.0);

        sprintf(t ,"%1s%1s%03d_NTowCluIso_E",nameEHP[ehp],nameNS[ns],id);
        sprintf(t2 ,"%22s_NTowCluIso_E",t2);
        mNTowECluIso[det][id] =  new TH2F(t,t2,10,1.0,11.0,100,0.0,10.0);

        sprintf(t ,"%1s%1s%03d_NTowCluIsoH_E",nameEHP[ehp],nameNS[ns],id);
        sprintf(t2 ,"%22s_NTowCluIsoH_E",t2);
        mNTowECluIsoH[det][id] =  new TH2F(t,t2,10,1.0,11.0,100,0.0,10.0);
      }      
    }
  }  
  mTimeEvt=new TH2F("TimeEvt","TimeEvent; Event; Sector Avg MeanTB",100,0,100,500,mMinTB+1.5,mMaxTB-1.5);
  memset(mTimeE,0,sizeof(mTimeE));
  
  int ecal_xmax = mFcsDb->nColumn(0);
  int ecal_ymax = mFcsDb->nRow(0);
  mHitMap[0] = new TH2F("EcalView","Ecal View from Back; +-Col (North <-> South); -Row (Bottom <-> Top)",
                        ecal_xmax*2+1,-ecal_xmax-0.5,ecal_xmax+0.5,
                        ecal_ymax,-ecal_ymax-0.5,-0.5);
  
  int hcal_xmax = mFcsDb->nColumn(2);
  int hcal_ymax = mFcsDb->nRow(2);
  mHitMap[1] = new TH2F("HcalView","Hcal View from Back; +-Col (North <-> South); -Row (Bottom <-> Top)",
                        hcal_xmax*2+1,-hcal_xmax-0.5,hcal_xmax+0.5,
                        hcal_ymax,-hcal_ymax-0.5,-0.5);
  
  int pres_xmax = mFcsDb->nColumn(4);
  int pres_ymax = mFcsDb->nRow(4);
  mHitMap[2] = new TH2F("PresView","Pres View from Back; +-Radius (North <-> South); -Phi (Bottom <-> Top)",
                        pres_xmax*2+1,-pres_xmax-0.5,pres_xmax+0.5,
                        pres_ymax,-pres_ymax-0.5,-0.5);
  
  return kStOK;
};

Int_t StFcsQaMaker::Make() {
  mFcsCollection=0;
  StTriggerData* trg=0;

  //Getting StFcsRawDaqReader and TriggerData
  StFcsRawDaqReader* fcsraw=(StFcsRawDaqReader*)GetMaker("daqReader");
  StEvent* event= (StEvent*)GetInputDS("StEvent");  
  if(fcsraw){
      //Getting trigger data (if daq file)
      trg = fcsraw->trgdata();
      if(!trg){
          LOG_DEBUG << "Canot find Trigger Data from StFcsRawDaqReader" << endm;
      }
  }else if(event){
      trg=event->triggerData();
      if(!trg){
          LOG_DEBUG << "Canot find Trigger Data from StEvent" << endm;
      }
  }

  //tof multiplicity from trigger data
  int tofmult = 0;
  //check if FCS was readout for this event
  if(trg){
      tofmult = trg->tofMultiplicity(); 
      unsigned short detmask=trg->getTrgDetMask();
      printf("TrgDetMask = %4x\n",detmask);
      if(! ((detmask >> 30) & 0x1)){   //FCS_ID=30 but detmask is 16bit:O
          printf("No FCS readout for this event detmask=%x\n",detmask);
          //return kStOK;
      }
      unsigned short lastdsm4 = trg->lastDSM(4);
      unsigned short fcs2019 = (lastdsm4 >> 10) & 0x1;
      printf("fcs2019=%1d\n",fcs2019);
  }
  
  if(!event) { 
      LOG_INFO << "No StEvent found" << endm;
  }else{ 
      mFcsCollection=event->fcsCollection();
  } 
  if(!mFcsCollection){
    LOG_INFO << "No StFcsCollection found" << endm;
    return kStErr;
  }
  
  static int nevt=0;
  int nfcsdata=0;
  int nh[kFcsNDet]; memset(nh,0,sizeof(nh));
  int sum[kFcsNDet][kFcsEcalMaxId]; memset(sum,0,sizeof(sum));
  int esum[kFcsNDet][kFcsEcalMaxId]; memset(esum,0,sizeof(sum));
  float atot[kFcsNDet]; memset(atot,0,sizeof(atot));
  float etot[kFcsNDet]; memset(etot,0,sizeof(etot));
  float meantb=0;
  int   nmean=0;

  for(int det=0; det<kFcsNDet; det++){  //det==kFcsDet is for empty channel
    int nhit=mFcsCollection->numberOfHits(det);
    // printf("StFcsQaMaker found %d hits for det=%d in event#=%d\n",nhit,det,nevt);
    if(nhit<=0) continue;       
    StSPtrVecFcsHit& hits = mFcsCollection->hits(det); 
    for (int i=0; i<nhit; i++){
      nfcsdata++;          
      int id  = hits[i]->id();
      int ehp = hits[i]->ehp();
      int ns  = hits[i]->ns();
      int dep = hits[i]->dep();
      int ch  = hits[i]->channel();
      float depch=dep+(ch+0.5)/32.0;
      int ntb = hits[i]->nTimeBin();
      float ped=0.0;
      if(mPedSub>0)  ped=mFcsDb->pedestal(ehp,ns,dep,ch);

      //time from StFcsHit
      mTimeId[det]->Fill((float)id, hits[i]->fitPeak());
      if(det<4 && hits[i]->adcSum() > 100){
        nmean++;
        meantb+=hits[i]->fitPeak();
      }
      mTimeE[det][id][mEvent]=hits[i]->fitPeak();

      //from fits
      float chi2=hits[i]->fitChi2();
      if(chi2>0.0){
        mFitIntg[det]->Fill(depch,hits[i]->adcSum());
        mFitSigm[det]->Fill(depch,hits[i]->fitSigma());
        mFitTime[det]->Fill(depch,hits[i]->fitPeak());
        mFitChi2[det]->Fill(depch,chi2);      
      }

      /*
      int c = mFcsDb->getColumnNumber(det,id);
      int r = mFcsDb->getRowNumber(det,id);
      float x = c * (ns*2-1);
      float y = -r;
      printf("ehp=%d x=%f y=%f adcsum=%f\n",ehp,x,y,hits[i]->adcSum());
      mHitMap[ehp]->Fill(x,y,hits[i]->adcSum());
      */

      for(int j=0; j<ntb; j++){
        unsigned short adc = hits[i]->adc(j);
        unsigned short tb  = hits[i]->timebin(j);
        if(det<kFcsNDet){       //connected channel
          //printf("%1d %1d %2d %2d %4d %f %f\n",ehp,ns,dep,ch,adc,ped,adc-ped);
          mAdcTb2[det]->Fill(id,tb,adc);
          mAdcTb[det][id]->Fill(tb,adc);
          if(tb>=mMinTB && tb<=mMaxTB) {
            sum[det][id] += (adc - ped);
            //      printf("det=%1d id=%3d tb=%3d adc=%4d ped=%6.2f adc-ped=%6.2f\n",det,id,tb,adc,ped,adc-ped);
          }
          mAdcId[det]->Fill(depch,float(adc));
          if(tb>=mMinTBp && tb<=mMaxTBp) mAdcIdp[det]->Fill(depch,float(adc));    
        }else{ // empty channel
          if(ch<32){
            int ns2 = hits[i]->ns();
            int ehp2= hits[i]->ehp();
            int det2=mFcsDb->detectorId(ehp2,ns2);
            if(det2>=0 && det2<kFcsNDet)
              mAdcId[det2]->Fill(float(depch),float(adc));
          }
        }
      }
      if(det<kFcsNDet && ch<32){
          float e = hits[i]->energy();
          etot[det] += e;
      }
    }
    if(det<kFcsNDet){
      int maxid = mFcsDb->maxId(det);
      int ehp=det/2;
      int ns=det%2;
      for(int id=0; id<maxid; id++){
        if(sum[det][id]>0){
          mAdcSumId[det]->Fill((float)id, float(sum[det][id]));
          nh[det]++;
          atot[det]+=sum[det][id];

          int c = mFcsDb->getColumnNumber(det,id);
          int r = mFcsDb->getRowNumber(det,id);
          float x = c * (ns*2-1);
          float y = -r;
          mHitMap[ehp]->Fill(x,y,float(sum[det][id]));
        }
      }
      mNHit[det]->Fill(float(nh[det]));
      mEsum[0]->Fill(etot[0]+etot[1]);
      mEsum[1]->Fill(etot[2]+etot[3]);
      mEsum[2]->Fill(etot[0]+etot[1]+etot[2]+etot[3]);

      if(mDump>0){
        int oldid=-1;
        for (int i=0; i<nhit; i++){
          int id  = hits[i]->id();
          int ehp = hits[i]->ehp();
          int ns  = hits[i]->ns();
          int dep = hits[i]->dep();
          int ch  = hits[i]->channel();
          int ntb = hits[i]->nTimeBin();
          float ped = mFcsDb->pedestal(ehp,ns,dep,ch);
          char name[22];
          mFcsDb->getName(det,id,name);
          if(mDump==1 && sum[det][id]>50){
            printf("\nFCSDump %5d %22s %4d %5.1f %5d ",nevt,name,ntb,ped,sum[det][id]);
            for(int j=0; j<ntb; j++) printf("%4d ",hits[i]->adc(j));
            //    }else if(mDump==2 && det==1 && id==50){
            //    }else if(mDump==2 && det==1 && (id==32 || id==18)){
          }else if(mDump==2 && det==1 && id==12){
            printf("\nFCSDump %5d %22s %5.1f %5d ",nevt,name,ped,sum[det][id]);
            int max=0, min=4000;
            for(int j=0; j<ntb; j++){
              unsigned int adc=hits[i]->adc(j);
              unsigned int tb =hits[i]->timebin(j);
              if(adc>max) max=adc;
              if(adc<min) min=adc;
              printf("%4d ",adc);                           
            }
            if(max-min>6) printf(" !!! min=%d max=%d diff=%d",min,max,max-min);
          }
        }
        printf("\n");
      }
    }
  }
  float avg=0.0;
  if(nmean>0) avg=meantb/float(nmean);  
  //  printf("EVT=%3d SECTOR Avg Mean TB= %f / %d = %f \n",mEvent,meantb,nmean,avg);
  mTimeEvt->Fill((float)mEvent,avg);

  //for Ecal/Hcal only for clusters
  for(int det=0; det<kFcsNDet; det++){        
    if(det<=kFcsHcalSouthDetId){ 
      int nclu=mFcsCollection->numberOfClusters(det);
      //printf("StFcsQaMaker found %d cluster for det=%d in event#=%d\n",nclu,det,nevt);
      if(nclu<=0) continue;       
      StSPtrVecFcsCluster& clusters = mFcsCollection->clusters(det); 
      mNClu[det]->Fill(nclu);
      for (int i=0; i<nclu; i++){
        StFcsCluster* cluster=clusters[i];
        int ntow=cluster->nTowers();
        int nnei=cluster->nNeighbor();
        mNTowClu[det]->Fill(ntow);
        mNNeiClu[det]->Fill(nnei);
        StPtrVecFcsHit& hits = cluster->hits(); 
        int htid = hits[0]->id();
        mNTowEClu[det][htid]->Fill(ntow,cluster->energy());
        if(nnei==0) {
          mNTowECluIso[det][htid]->Fill(ntow,cluster->energy());
          if(atot[3]>100){
            mNTowECluIsoH[det][htid]->Fill(ntow,cluster->energy());
          }
        }
      }
    }    
  }

  mDataSize->Fill(log10(nfcsdata));
  nevt++;
  return kStOK;
};

Int_t StFcsQaMaker::Finish(){
  mFile->Write();
  mFile->Close();

  /*
  float avg[kFcsNDet][kFcsEcalMaxId];
  char* nameEHP[kFcsEHP] = {"E","H","P"};
  char* nameNS[kFcsNorthSouth] = {"N","S"};
  for(int det=0; det<4; det++){
    int maxid=mFcsDb->maxId(det);
    for(int id=0; id<maxid; id++){
      for(int evt=0; evt<100; evt++){
        avg[det][id]+=mTimeE[det][id][evt];     
      }
      avg[det][id]/=100.0;
    }
  }  
  char name[100];
  for(int ehp=0; ehp<2; ehp++){
    for(int ns=0; ns<kFcsNorthSouth; ns++){
      int ndep=mFcsDb->getNDep(ehp,ns);
      for(int dep=0; dep<ndep; dep++){  
        for(int evt=0; evt<100; evt++){   
          printf("MT %1s%1sDEP%02d %2d : ",nameEHP[ehp],nameNS[ns],dep,evt);
          for(int ch=0; ch<kFcsMaxDepCh; ch++){
            int det,id,crt,slt;
            mFcsDb->getIdfromDep(ehp,ns,dep,ch,det,id,crt,slt);   
            printf("%5.1f ",0.5+107.0/8.0*(mTimeE[det][id][evt]-avg[det][id]));
            //      if(ch%8==7) printf("| ");
          }
          printf("\n",name);
        }
      }
    }
  }
  */

  printf("StFcsQaMaker::Finish - Closing %s\n",mFilename);
  return kStOK;
};

ClassImp(StFcsQaMaker);

/*
 * $Id: StFcsQaMaker.cxx,v 1.9 2021/03/30 13:29:27 akio Exp $
 * $Log: StFcsQaMaker.cxx,v $
 * Revision 1.9  2021/03/30 13:29:27  akio
 * StFcsDbMaker->StFcsDb
 *
 * Revision 1.8  2021/02/13 21:41:09  akio
 * sector avg peak time
 *
 * Revision 1.7  2021/01/11 14:40:31  akio
 * Many changes for FCS 2021 comissioning & LED monitor.
 * Includingplots for backview, fit plots and more.
 *
 * Revision 1.6  2020/12/17 21:09:54  akio
 * add esum
 *
 * Revision 1.5  2019/07/19 15:16:29  akio
 * add tofmult
 *
 * Revision 1.4  2019/07/10 03:18:36  akio
 * fix fcs_id to 30
 *
 * Revision 1.3  2019/07/10 03:10:21  akio
 * added run19 fcs trigger bit
 *
 * Revision 1.2  2019/06/21 17:44:46  akio
 * added cluster plots
 *
 * Revision 1.1  2019/06/07 19:06:44  akio
 * *** empty log message ***
 *
 * Revision 1.6  2017/02/25 04:43:08  akio
 * added checking for trgDetMask for sparse readout (skipping event when FCS was NOT readout)
 *
 * Revision 1.5  2017/02/20 19:18:53  akio
 * added check if we get StFcsRawDawReader
 *
 * Revision 1.4  2017/02/18 18:28:21  akio
 * adding RCC-TCU check
 *
 * Revision 1.3  2015/05/30 16:08:00  akio
 * *** empty log message ***
 *
 * Revision 1.2  2015/02/28 02:55:35  akio
 * fix a bug
 *
 * Revision 1.1  2015/02/25 20:03:26  akio
 * new fcs qa maker
 *
 */