StRoot: StSvtSeqAdjMaker/StSvtPedSub.cc Source File

00001 /***************************************************************************
00002  *
00003  * $Id: StSvtPedSub.cc,v 1.8 2003/09/02 17:59:08 perev Exp $
00004  *
00005  * Author: Helen Caines
00006  ***************************************************************************
00007  *
00008  * Description: SVT Pedestal Subtraction Code
00009  *
00010  ***************************************************************************
00011  *
00012  * $Log: StSvtPedSub.cc,v $
00013  * Revision 1.8  2003/09/02 17:59:08  perev
00014  * gcc 3.2 updates + WarnOff
00015  *
00016  * Revision 1.7  2001/07/22 20:31:28  caines
00017  * Better tuning for real data. Common mode noise calc and sub. Avoid overlapping seq. Fill histograms only in debug
00018  *
00019  * Revision 1.6  2000/11/30 20:45:56  caines
00020  * Dynamically calc prob values, use database
00021  *
00022  * Revision 1.5  2000/08/28 22:12:39  caines
00023  * Error accessing timebucket in Ped. subtraction
00024  *
00025  * Revision 1.4  2000/08/21 12:57:30  caines
00026  * Now opens and reads in ped using CalibMaker
00027  *
00028  * Revision 1.3  2000/07/16 22:32:23  caines
00029  * Now also saves RAW data
00030  *
00031  * Revision 1.2  2000/07/03 02:07:56  perev
00032  * StEvent: vector<TObject*>
00033  *
00034  * Revision 1.1  2000/06/15 20:04:54  caines
00035  * Initial versions of sequence adjusting codes
00036  *
00037  *
00038  **************************************************************************/
00039 #include "StSvtPedSub.h"
00040 #include "StSequence.hh"
00041 #include "StSvtClassLibrary/StSvtHybridData.hh"
00042 #include "StSvtClassLibrary/StSvtHybridPed.hh"
00043 #include "StSvtClassLibrary/StSvtHybridCollection.hh"
00044 #include "StMessMgr.h"
00045 #include <Stiostream.h>
00046 
00047 StSvtPedSub::StSvtPedSub( StSvtHybridCollection *PedPointer)
00048 {
00049   mPed = NULL;
00050   mSvtPed = PedPointer;
00051 }
00052 
00053 
00054 
00055 //_____________________________________________________________________________
00056 
00057 
00058 int StSvtPedSub::SubtractPed( StSvtHybridData* fData, int Index, int PedOffset)
00059 {
00060 
00061 
00062   int nAnodes, anodeID, nSeq, iseq, time, newAdc, status;
00063   StSequence* Seq;
00064   int* anodeList;
00065           
00066   anodeList = NULL;
00067 
00068   nAnodes = fData->getAnodeList(anodeList);
00069   mPed = (StSvtHybridPed *) mSvtPed->at(Index);
00070 
00071   if (!mPed) return 0;
00072   
00073   for (int ianode=0;ianode<nAnodes;ianode++) {
00074     
00075     anodeID = anodeList[ianode];
00076     Seq = NULL;
00077     nSeq = 0;
00078     
00079     status = fData->getSequences(anodeID,nSeq,Seq);
00080     for (iseq=0;iseq<nSeq;iseq++) {               
00081       for (time=0; time<Seq[iseq].length; time++) {
00082 
00083         //      if ((anodeID == 180) && (time == 64) )
00084           //gMessMgr->Debug() << "ped = " << mPed->getPixelContent(anodeID,Seq[iseq].startTimeBin+time) << endm;
00085         
00086         // Actually subtract the pedestal per pixel. PedOffset  
00087         //allows undershoot to be seen 
00088         newAdc= (int)Seq[iseq].firstAdc[time]-
00089           (int) mPed->getPixelContent(anodeID,Seq[iseq].startTimeBin+time)
00090           +PedOffset;
00091 
00092         //Check adc hasn't gone -ve
00093         if( newAdc < 0) newAdc=0;
00094         else if( newAdc >= 256) newAdc=255;
00095         Seq[iseq].firstAdc[time]= newAdc;
00096         
00097       }
00098     }
00099   }
00100   
00101   return 0;
00102 }
00103   
00104 
00105 //_____________________________________________________________________________
00106 
00107