[u/mrichter/AliRoot.git] / PHOS / PHOSPEDda.cxx

/*\r
contact: Boris.Polishchuk@cern.ch\r
reference run: /alice/data/2010/LHC10a_PHOS/000112189/raw/10000112189003.10.root\r
run type: PEDESTAL\r
DA type: MON \r
number of events needed: 200\r
input files: Mod0RCU0.data Mod0RCU1.data Mod0RCU2.data Mod0RCU3.data Mod1RCU0.data Mod1RCU1.data Mod1RCU2.data Mod1RCU3.data Mod2RCU0.data Mod2RCU1.data Mod2RCU2.data Mod2RCU3.data Mod3RCU0.data Mod3RCU1.data Mod3RCU2.data Mod3RCU3.data Mod4RCU0.data Mod4RCU1.data Mod4RCU2.data Mod4RCU3.data\r
Output files: PHOS_PED.root\r
Trigger types used: \r
*/\r
\r
#include "event.h"\r
#include "monitor.h"\r
\r
extern "C" {\r
#include "daqDA.h"\r
}\r
\r
#include <stdio.h>\r
#include <stdlib.h>\r
\r
#include <TSystem.h>\r
#include <TROOT.h>\r
#include <TPluginManager.h>\r
\r
#include <TStyle.h>\r
#include <TFile.h>\r
#include <TH1F.h>\r
#include <TH2F.h>\r
#include <TString.h>\r
#include "AliRawReader.h"\r
#include "AliRawReaderDate.h"\r
#include "AliCaloAltroMapping.h"\r
#include "AliCaloRawStreamV3.h"\r
#include "AliLog.h"\r
\r
int main(int argc, char **argv) \r
{\r
  // Read raw data, decode it to samples,\r
  // calculate pedestals from presamples, \r
  // evaluate the signal amplitude as a maximum sample, \r
  // and fill histograms with pedestals and amplitudes\r
\r
  gROOT->GetPluginManager()->AddHandler("TVirtualStreamerInfo",\r
                                        "*",\r
                                        "TStreamerInfo",\r
                                        "RIO",\r
                                        "TStreamerInfo()");\r
  \r
  AliLog::SetGlobalDebugLevel(0) ;\r
  AliLog::SetGlobalLogLevel(AliLog::kFatal);\r
\r
  int status;\r
  \r
  if (argc!=2) {\r
    printf("Wrong number of arguments\n");\r
    return -1;\r
  }\r
\r
  /* Retrieve mapping files from DAQ DB */ \r
  const char* mapFiles[20] = {\r
    "Mod0RCU0.data",\r
    "Mod0RCU1.data",\r
    "Mod0RCU2.data",\r
    "Mod0RCU3.data",\r
    "Mod1RCU0.data",\r
    "Mod1RCU1.data",\r
    "Mod1RCU2.data",\r
    "Mod1RCU3.data",\r
    "Mod2RCU0.data",\r
    "Mod2RCU1.data",\r
    "Mod2RCU2.data",\r
    "Mod2RCU3.data",\r
    "Mod3RCU0.data",\r
    "Mod3RCU1.data",\r
    "Mod3RCU2.data",\r
    "Mod3RCU3.data",\r
    "Mod4RCU0.data",\r
    "Mod4RCU1.data",\r
    "Mod4RCU2.data",\r
    "Mod4RCU3.data"\r
  };\r
\r
  for(Int_t iFile=0; iFile<20; iFile++) {\r
    int failed = daqDA_DB_getFile(mapFiles[iFile], mapFiles[iFile]);\r
    if(failed) { \r
      printf("Cannot retrieve file %s from DAQ DB. Exit.\n",mapFiles[iFile]);\r
      return -1;\r
    }\r
  }\r
  \r
  /* Open mapping files */\r
  AliAltroMapping *mapping[20];\r
  TString path = "./";\r
\r
  path += "Mod";\r
  TString path2;\r
  TString path3;\r
  Int_t iMap = 0;\r
\r
  for(Int_t iMod = 0; iMod < 5; iMod++) {\r
    path2 = path;\r
    path2 += iMod;\r
    path2 += "RCU";\r
\r
    for(Int_t iRCU=0; iRCU<4; iRCU++) {\r
      path3 = path2;\r
      path3 += iRCU;\r
      path3 += ".data";\r
      mapping[iMap] = new AliCaloAltroMapping(path3.Data());\r
      iMap++;\r
    }\r
  }\r
  \r
  /* define data source : this is argument 1 */  \r
  status=monitorSetDataSource( argv[1] );\r
  if (status!=0) {\r
    printf("monitorSetDataSource() failed : %s\n",monitorDecodeError(status));\r
    return -1;\r
  }\r
  \r
  /* declare monitoring program */\r
  status=monitorDeclareMp( __FILE__ );\r
  if (status!=0) {\r
    printf("monitorDeclareMp() failed : %s\n",monitorDecodeError(status));\r
    return -1;\r
  }\r
  \r
  /* define wait event timeout - 1s max */\r
  monitorSetNowait();\r
  monitorSetNoWaitNetworkTimeout(1000);\r
  \r
  /* init some counters */\r
  int nevents_physics=0;\r
  int nevents_total=0;\r
\r
  AliRawReader * reader = NULL;\r
  AliCaloRawStreamV3* stream = NULL;\r
  \r
  TString baseNamePed ="hPed";\r
  TString baseTitlePed="Ped in cell (";\r
  const char* sgain[3]={"LG","HG", "TRU"};\r
\r
  const Int_t caloFlagMax=3,modMax=5,cellXMax=64,cellZMax=56;\r
  TH1F *hPed[5][3][64][56] = {};\r
\r
  TH1F *hPedHiMean1m2 = new TH1F("hPedHiMean1m2","Mean pedestals in module 2, high gain" ,100,0.,100.);\r
  TH1F *hPedHiRMS1m2  = new TH1F("hPedHiRMS1m2" ,"RMS pedestals in module 2, high gain"  ,100,0.,50.);\r
  TH1F *hPedLoMean1m2 = new TH1F("hPedLoMean1m2","Mean pedestals in module 2, low gain"  ,100,0.,100.);\r
  TH1F *hPedLoRMS1m2  = new TH1F("hPedLoRMS1m2" ,"RMS pedestals in module 2, low gain"   ,100,0.,50.);\r
  TH1F *hPedTRUMean1m2 = new TH1F("hPedTRUMean1m2","Mean pedestals in module 2, TRU"     ,1000,0.,1000.);\r
  TH1F *hPedTRURMS1m2  = new TH1F("hPedTRURMS1m2" ,"RMS pedestals in module 2, TRU"      ,100,0.,50.);\r
\r
  TH1F *hPedHiMean1m3 = new TH1F("hPedHiMean1m3","Mean pedestals in module 3, high gain" ,100,0.,100.);\r
  TH1F *hPedHiRMS1m3  = new TH1F("hPedHiRMS1m3" ,"RMS pedestals in module 3, high gain"  ,100,0.,50.);\r
  TH1F *hPedLoMean1m3 = new TH1F("hPedLoMean1m3","Mean pedestals in module 3, low gain"  ,100,0.,100.);\r
  TH1F *hPedLoRMS1m3  = new TH1F("hPedLoRMS1m3" ,"RMS pedestals in module 3, low gain"   ,100,0.,50.);\r
  TH1F *hPedTRUMean1m3 = new TH1F("hPedTRUMean1m3","Mean pedestals in module 3, TRU"     ,1000,0.,1000.);\r
  TH1F *hPedTRURMS1m3  = new TH1F("hPedTRURMS1m3" ,"RMS pedestals in module 3, TRU"      ,100,0.,50.);\r
\r
  TH1F *hPedHiMean1m4 = new TH1F("hPedHiMean1m4","Mean pedestals in module 4, high gain" ,100,0.,100.);\r
  TH1F *hPedHiRMS1m4  = new TH1F("hPedHiRMS1m4" ,"RMS pedestals in module 4, high gain"  ,100,0.,50.);\r
  TH1F *hPedLoMean1m4 = new TH1F("hPedLoMean1m4","Mean pedestals in module 4, low gain"  ,100,0.,100.);\r
  TH1F *hPedLoRMS1m4  = new TH1F("hPedLoRMS1m4" ,"RMS pedestals in module 4, low gain"   ,100,0.,50.);\r
  TH1F *hPedTRUMean1m4 = new TH1F("hPedTRUMean1m4","Mean pedestals in module 4, TRU"     ,1000,0.,1000.);\r
  TH1F *hPedTRURMS1m4  = new TH1F("hPedTRURMS1m4" ,"RMS pedestals in module 4, TRU"      ,100,0.,50.);\r
\r
  hPedHiMean1m2->Sumw2();\r
  hPedHiRMS1m2 ->Sumw2();\r
  hPedLoMean1m2->Sumw2();\r
  hPedLoRMS1m2 ->Sumw2();\r
  hPedTRUMean1m2->Sumw2();\r
  hPedTRURMS1m2 ->Sumw2();\r
  hPedHiMean1m3->Sumw2();\r
  hPedHiRMS1m3 ->Sumw2();\r
  hPedLoMean1m3->Sumw2();\r
  hPedLoRMS1m3 ->Sumw2();\r
  hPedTRUMean1m3->Sumw2();\r
  hPedTRURMS1m3 ->Sumw2();\r
  hPedHiMean1m4->Sumw2();\r
  hPedHiRMS1m4 ->Sumw2();\r
  hPedLoMean1m4->Sumw2();\r
  hPedLoRMS1m4 ->Sumw2();\r
  hPedTRUMean1m4->Sumw2();\r
  hPedTRURMS1m4 ->Sumw2();\r
\r
  TH2F *hPedHiMeanm2  = new TH2F("hPedHiMeanm2","Mean pedestals in module 2, high gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedHiRMSm2   = new TH2F("hPedHiRMSm2" ,"R.M.S. of pedestals in module 2, high gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedHiNumm2   = new TH2F("hPedHiNumm2" ,"Number of pedestals in module 2, high gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedLoMeanm2  = new TH2F("hPedLoMeanm2","Mean pedestals in module 2, low gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedLoRMSm2   = new TH2F("hPedLoRMSm2" ,"R.M.S. of pedestals in module 2, low gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedLoNumm2   = new TH2F("hPedLoNumm2" ,"Number of pedestals in module 2, low gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
\r
  TH2F *hPedHiMeanm3  = new TH2F("hPedHiMeanm3","Mean pedestals in module 3, high gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedHiRMSm3   = new TH2F("hPedHiRMSm3" ,"R.M.S. of pedestals in module 3, high gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedHiNumm3   = new TH2F("hPedHiNumm3" ,"Number of pedestals in module 3, high gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedLoMeanm3  = new TH2F("hPedLoMeanm3","Mean pedestals in module 3, low gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedLoRMSm3   = new TH2F("hPedLoRMSm3" ,"R.M.S. of pedestals in module 3, low gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedLoNumm3   = new TH2F("hPedLoNumm3" ,"Number of pedestals in module 3, low gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
\r
  TH2F *hPedHiMeanm4  = new TH2F("hPedHiMeanm4","Mean pedestals in module 4, high gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedHiRMSm4   = new TH2F("hPedHiRMSm4" ,"R.M.S. of pedestals in module 4, high gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedHiNumm4   = new TH2F("hPedHiNumm4" ,"Number of pedestals in module 4, high gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedLoMeanm4  = new TH2F("hPedLoMeanm4","Mean pedestals in module 4, low gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedLoRMSm4   = new TH2F("hPedLoRMSm4" ,"R.M.S. of pedestals in module 4, low gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
  TH2F *hPedLoNumm4   = new TH2F("hPedLoNumm4" ,"Number of pedestals in module 4, low gain",\r
			       cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
\r
  TH1I *hNBunches = new TH1I("hNBunches","Number of bunches",10,0,10);\r
  TH2I *hHWaddr   = new TH2I("hHWaddr","DDL is vs HW addr",216,0,216,4096,0,4096);\r
  TH1I *hModule   = new TH1I("hModule" ,"Module number", 5,0.,5);\r
\r
  Int_t runNum=0;\r
  Int_t module,cellX,cellZ,caloFlag;\r
\r
  /* main loop (infinite) */\r
  for(;;) {\r
    struct eventHeaderStruct *event;\r
    eventTypeType eventT;\r
    \r
    /* check shutdown condition */\r
    if (daqDA_checkShutdown()) {break;}\r
    \r
    /* get next event (blocking call until timeout) */\r
    status=monitorGetEventDynamic((void **)&event);\r
    if (status==MON_ERR_EOF) {\r
      printf ("End of File detected\n");\r
      break; /* end of monitoring file has been reached */\r
    }\r
    \r
    if (status!=0) {\r
      printf("monitorGetEventDynamic() failed : %s\n",monitorDecodeError(status));\r
      break;\r
    }\r
    \r
    /* retry if got no event */\r
    if (event==NULL) {\r
      continue;\r
    }\r
\r
    /* use event - here, just write event id to result file */\r
    eventT=event->eventType;\r
    \r
    if (eventT==PHYSICS_EVENT) {\r
      \r
      reader = new AliRawReaderDate((void*)event);\r
      stream =  new AliCaloRawStreamV3(reader,"PHOS",mapping);\r
\r
      runNum = reader->GetRunNumber();\r
      while (stream->NextDDL()) {\r
	while (stream->NextChannel()) {\r
	  module   = stream->GetModule();\r
	  cellX    = stream->GetCellX();\r
	  cellZ    = stream->GetCellZ();\r
	  caloFlag = stream->GetCaloFlag();\r
	  if (caloFlag!=0 && caloFlag!=1) continue;\r
\r
	  hHWaddr->Fill(stream->GetDDLNumber(),stream->GetHWAddress());\r
	  hModule->Fill(module);\r
	  if (!hPed[module][caloFlag][cellX][cellZ]) {\r
	    TString name  = baseNamePed;\r
	    TString title = baseTitlePed;\r
	    name +="_g"; name +=caloFlag;\r
	    name +="_m"; name +=module;\r
	    name +="_x"; name +=cellX;\r
	    name +="_z"; name +=cellZ;\r
	    \r
	    title +=module; title +=",";\r
	    title +=cellX; title +=",";\r
	    title +=cellZ; title +="), ";\r
	    title +=sgain[caloFlag];\r
	    \r
	    hPed[module][caloFlag][cellX][cellZ] = new TH1F(name,title,100,0.,100.);\r
	    hPed[module][caloFlag][cellX][cellZ]->Sumw2();\r
	    hPed[module][caloFlag][cellX][cellZ]->SetMarkerStyle(20);\r
	    hPed[module][caloFlag][cellX][cellZ]->SetOption("eph");\r
	  }\r
	    \r
	  Int_t nBunches = 0;\r
	  while (stream->NextBunch()) {\r
	    nBunches++;\r
	    const UShort_t *sig = stream->GetSignals();\r
	    Int_t sigLength = stream->GetBunchLength();\r
	    for (Int_t i = 0; i < sigLength; i++) {\r
	      hPed[module][caloFlag][cellX][cellZ]->Fill(sig[i]);\r
	    }\r
	  }\r
	  hNBunches->Fill(nBunches);\r
	} // end of NextChannel()\r
      } // end of NextDDL()\r
      \r
      delete reader;     \r
      delete stream;\r
      nevents_physics++;\r
    } // end of if(eventT==PHYSICS_EVENT)\r
    \r
    nevents_total++;\r
    \r
    /* free resources */\r
    free(event);\r
    \r
    /* exit when last event received, no need to wait for TERM signal */\r
    if (eventT==END_OF_RUN) {\r
      printf("EOR event detected\n");\r
      break;\r
    }\r
\r
  } // end of inf. loop over events\r
  \r
  for(Int_t i = 0; i < 20; i++) delete mapping[i];\r
\r
  // Fill 2-dim histograms for mean, rms and n pedestals\r
  \r
  for (Int_t mod=2; mod<=4; mod++) {\r
    for (Int_t caloFlag=0; caloFlag<2; caloFlag++) {\r
      for (Int_t cellX=0; cellX<cellXMax; cellX++) {\r
	for (Int_t cellZ=0; cellZ<cellZMax; cellZ++) {\r
	  if (hPed[mod][caloFlag][cellX][cellZ] != 0) {\r
	    if      (caloFlag == 0) {\r
	      if (mod==2) {\r
		hPedLoMean1m2->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedLoRMS1m2 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
		hPedLoMeanm2 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedLoRMSm2  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
		hPedLoNumm2  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	      }\r
	      else if (mod==3) {\r
		hPedLoMean1m3->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedLoRMS1m3 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
		hPedLoMeanm3 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedLoRMSm3  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
		hPedLoNumm3  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	      }\r
	      else if (mod==4) {\r
		hPedLoMean1m4->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedLoRMS1m4 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
		hPedLoMeanm4 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedLoRMSm4  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
		hPedLoNumm4  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	      }\r
	    }\r
	    else if (caloFlag == 1) {\r
	      if (mod==2) {\r
		hPedHiMean1m2->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedHiRMS1m2 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS() );\r
		hPedHiMeanm2 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedHiRMSm2  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
		hPedHiNumm2  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	      }\r
	      if (mod==3) {\r
		hPedHiMean1m3->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedHiRMS1m3 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS() );\r
		hPedHiMeanm3 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedHiRMSm3  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
		hPedHiNumm3  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	      }\r
	      if (mod==4) {\r
		hPedHiMean1m4->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedHiRMS1m4 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
		hPedHiMeanm4 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedHiRMSm4  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
		hPedHiNumm4  ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	      }\r
	    }\r
	    else if (caloFlag == 2) {\r
	      if (mod==2) {\r
		hPedTRUMean1m2->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedTRURMS1m2 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS() );\r
	      }\r
	      if (mod==3) {\r
		hPedTRUMean1m3->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedTRURMS1m3 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS() );\r
	      }\r
	      if (mod==4) {\r
		hPedTRUMean1m4->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
		hPedTRURMS1m4 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS() );\r
	      }\r
	    }\r
	  }\r
	}\r
      }\r
    }\r
  }\r
  \r
  // Write existing histograms to a root file\r
  \r
  TString fileName = "PHOS_PED.root";\r
  TFile *file = new TFile(fileName,"RECREATE");\r
  \r
  for (Int_t mod=2; mod<=3; mod++) {\r
    for (Int_t caloFlag=0; caloFlag<caloFlagMax; caloFlag++) {\r
      for (Int_t mod=0; mod<modMax; mod++) {\r
	for (Int_t cellX=0; cellX<cellXMax; cellX++) {\r
	  for (Int_t cellZ=0; cellZ<cellZMax; cellZ++) {\r
	    if (hPed[mod][caloFlag][cellX][cellZ] != 0)\r
	      hPed[mod][caloFlag][cellX][cellZ]->Write();\r
	  }\r
	}\r
      }\r
    }\r
  }\r
  \r
  hPedHiMean1m2->Write();\r
  hPedHiRMS1m2 ->Write();\r
  hPedLoMean1m2->Write();\r
  hPedLoRMS1m2 ->Write();\r
  hPedHiMeanm2 ->Write();\r
  hPedHiRMSm2  ->Write();\r
  hPedHiNumm2  ->Write();\r
  hPedLoMeanm2 ->Write();\r
  hPedLoRMSm2  ->Write();\r
  hPedLoNumm2  ->Write();\r
  hPedTRUMean1m2->Write();\r
  hPedTRURMS1m2 ->Write();\r
  \r
  hPedHiMean1m3->Write();\r
  hPedHiRMS1m3 ->Write();\r
  hPedLoMean1m3->Write();\r
  hPedLoRMS1m3 ->Write();\r
  hPedHiMeanm3 ->Write();\r
  hPedHiRMSm3  ->Write();\r
  hPedHiNumm3  ->Write();\r
  hPedLoMeanm3 ->Write();\r
  hPedLoRMSm3  ->Write();\r
  hPedLoNumm3  ->Write();\r
  hPedTRUMean1m3->Write();\r
  hPedTRURMS1m3 ->Write();\r
\r
  hPedHiMean1m4->Write();\r
  hPedHiRMS1m4 ->Write();\r
  hPedLoMean1m4->Write();\r
  hPedLoRMS1m4 ->Write();\r
  hPedHiMeanm4 ->Write();\r
  hPedHiRMSm4  ->Write();\r
  hPedHiNumm4  ->Write();\r
  hPedLoMeanm4 ->Write();\r
  hPedLoRMSm4  ->Write();\r
  hPedLoNumm4  ->Write();\r
  hPedTRUMean1m4->Write();\r
  hPedTRURMS1m4 ->Write();\r
\r
  hNBunches  ->Write();\r
  hHWaddr    ->Write();\r
  hModule    ->Write();\r
  \r
  file->Close();\r
  \r
  /* Store output files to the File Exchange Server */\r
  daqDA_FES_storeFile(fileName.Data(),"PED");\r
  \r
  printf("%d physics events of %d total processed.\n",nevents_physics,nevents_total);\r
  return status;\r
}\r
Commit	Line	Data
9d12ffd1	1	/*\r
	2	contact: Boris.Polishchuk@cern.ch\r
	3	reference run: /alice/data/2010/LHC10a_PHOS/000112189/raw/10000112189003.10.root\r
	4	run type: PEDESTAL\r
	5	DA type: MON \r
	6	number of events needed: 200\r
	7	input files: Mod0RCU0.data Mod0RCU1.data Mod0RCU2.data Mod0RCU3.data Mod1RCU0.data Mod1RCU1.data Mod1RCU2.data Mod1RCU3.data Mod2RCU0.data Mod2RCU1.data Mod2RCU2.data Mod2RCU3.data Mod3RCU0.data Mod3RCU1.data Mod3RCU2.data Mod3RCU3.data Mod4RCU0.data Mod4RCU1.data Mod4RCU2.data Mod4RCU3.data\r
	8	Output files: PHOS_PED.root\r
e1502193	9	Trigger types used: \r
9d12ffd1	10	*/\r
9d12ffd1	11	\r
9d12ffd1	12	#include "event.h"\r
	13	#include "monitor.h"\r
	14	\r
	15	extern "C" {\r
	16	#include "daqDA.h"\r
	17	}\r
	18	\r
	19	#include <stdio.h>\r
	20	#include <stdlib.h>\r
	21	\r
	22	#include <TSystem.h>\r
	23	#include <TROOT.h>\r
	24	#include <TPluginManager.h>\r
	25	\r
	26	#include <TStyle.h>\r
	27	#include <TFile.h>\r
	28	#include <TH1F.h>\r
	29	#include <TH2F.h>\r
	30	#include <TString.h>\r
	31	#include "AliRawReader.h"\r
e1502193	32	#include "AliRawReaderDate.h"\r
e1502193	33	#include "AliCaloAltroMapping.h"\r
9d12ffd1	34	#include "AliCaloRawStreamV3.h"\r
	35	#include "AliLog.h"\r
	36	\r
	37	int main(int argc, char **argv) \r
	38	{\r
	39	// Read raw data, decode it to samples,\r
	40	// calculate pedestals from presamples, \r
	41	// evaluate the signal amplitude as a maximum sample, \r
	42	// and fill histograms with pedestals and amplitudes\r
	43	\r
	44	gROOT->GetPluginManager()->AddHandler("TVirtualStreamerInfo",\r
	45	"*",\r
	46	"TStreamerInfo",\r
	47	"RIO",\r
	48	"TStreamerInfo()");\r
	49	\r
	50	AliLog::SetGlobalDebugLevel(0) ;\r
	51	AliLog::SetGlobalLogLevel(AliLog::kFatal);\r
	52	\r
	53	int status;\r
	54	\r
	55	if (argc!=2) {\r
	56	printf("Wrong number of arguments\n");\r
	57	return -1;\r
	58	}\r
	59	\r
	60	/* Retrieve mapping files from DAQ DB */ \r
	61	const char* mapFiles[20] = {\r
	62	"Mod0RCU0.data",\r
	63	"Mod0RCU1.data",\r
	64	"Mod0RCU2.data",\r
	65	"Mod0RCU3.data",\r
	66	"Mod1RCU0.data",\r
	67	"Mod1RCU1.data",\r
	68	"Mod1RCU2.data",\r
	69	"Mod1RCU3.data",\r
	70	"Mod2RCU0.data",\r
	71	"Mod2RCU1.data",\r
	72	"Mod2RCU2.data",\r
	73	"Mod2RCU3.data",\r
	74	"Mod3RCU0.data",\r
	75	"Mod3RCU1.data",\r
	76	"Mod3RCU2.data",\r
	77	"Mod3RCU3.data",\r
	78	"Mod4RCU0.data",\r
	79	"Mod4RCU1.data",\r
	80	"Mod4RCU2.data",\r
	81	"Mod4RCU3.data"\r
	82	};\r
	83	\r
	84	for(Int_t iFile=0; iFile<20; iFile++) {\r
	85	int failed = daqDA_DB_getFile(mapFiles[iFile], mapFiles[iFile]);\r
	86	if(failed) { \r
	87	printf("Cannot retrieve file %s from DAQ DB. Exit.\n",mapFiles[iFile]);\r
	88	return -1;\r
	89	}\r
	90	}\r
	91	\r
	92	/* Open mapping files */\r
	93	AliAltroMapping *mapping[20];\r
	94	TString path = "./";\r
	95	\r
	96	path += "Mod";\r
	97	TString path2;\r
98	TString path3;\r
99	Int_t iMap = 0;\r
100	\r
101	for(Int_t iMod = 0; iMod < 5; iMod++) {\r
102	path2 = path;\r
103	path2 += iMod;\r
104	path2 += "RCU";\r
105	\r
106	for(Int_t iRCU=0; iRCU<4; iRCU++) {\r
107	path3 = path2;\r
108	path3 += iRCU;\r
109	path3 += ".data";\r
110	mapping[iMap] = new AliCaloAltroMapping(path3.Data());\r
111	iMap++;\r
112	}\r
113	}\r
114	\r
115	/* define data source : this is argument 1 */ \r
116	status=monitorSetDataSource( argv[1] );\r
117	if (status!=0) {\r
118	printf("monitorSetDataSource() failed : %s\n",monitorDecodeError(status));\r
119	return -1;\r
120	}\r
121	\r
122	/* declare monitoring program */\r
123	status=monitorDeclareMp( __FILE__ );\r
124	if (status!=0) {\r
125	printf("monitorDeclareMp() failed : %s\n",monitorDecodeError(status));\r
126	return -1;\r
127	}\r
128	\r
129	/* define wait event timeout - 1s max */\r
130	monitorSetNowait();\r
131	monitorSetNoWaitNetworkTimeout(1000);\r
132	\r
133	/* init some counters */\r
134	int nevents_physics=0;\r
135	int nevents_total=0;\r
136	\r
137	AliRawReader * reader = NULL;\r
138	AliCaloRawStreamV3* stream = NULL;\r
139	\r
140	TString baseNamePed ="hPed";\r
141	TString baseTitlePed="Ped in cell (";\r
142	const char* sgain[3]={"LG","HG", "TRU"};\r
143	\r
144	const Int_t caloFlagMax=3,modMax=5,cellXMax=64,cellZMax=56;\r
145	TH1F *hPed[5][3][64][56] = {};\r
146	\r
147	TH1F *hPedHiMean1m2 = new TH1F("hPedHiMean1m2","Mean pedestals in module 2, high gain" ,100,0.,100.);\r
148	TH1F *hPedHiRMS1m2 = new TH1F("hPedHiRMS1m2" ,"RMS pedestals in module 2, high gain" ,100,0.,50.);\r
149	TH1F *hPedLoMean1m2 = new TH1F("hPedLoMean1m2","Mean pedestals in module 2, low gain" ,100,0.,100.);\r
150	TH1F *hPedLoRMS1m2 = new TH1F("hPedLoRMS1m2" ,"RMS pedestals in module 2, low gain" ,100,0.,50.);\r
151	TH1F *hPedTRUMean1m2 = new TH1F("hPedTRUMean1m2","Mean pedestals in module 2, TRU" ,1000,0.,1000.);\r
152	TH1F *hPedTRURMS1m2 = new TH1F("hPedTRURMS1m2" ,"RMS pedestals in module 2, TRU" ,100,0.,50.);\r
153	\r
154	TH1F *hPedHiMean1m3 = new TH1F("hPedHiMean1m3","Mean pedestals in module 3, high gain" ,100,0.,100.);\r
155	TH1F *hPedHiRMS1m3 = new TH1F("hPedHiRMS1m3" ,"RMS pedestals in module 3, high gain" ,100,0.,50.);\r
156	TH1F *hPedLoMean1m3 = new TH1F("hPedLoMean1m3","Mean pedestals in module 3, low gain" ,100,0.,100.);\r
157	TH1F *hPedLoRMS1m3 = new TH1F("hPedLoRMS1m3" ,"RMS pedestals in module 3, low gain" ,100,0.,50.);\r
158	TH1F *hPedTRUMean1m3 = new TH1F("hPedTRUMean1m3","Mean pedestals in module 3, TRU" ,1000,0.,1000.);\r
159	TH1F *hPedTRURMS1m3 = new TH1F("hPedTRURMS1m3" ,"RMS pedestals in module 3, TRU" ,100,0.,50.);\r
160	\r
161	TH1F *hPedHiMean1m4 = new TH1F("hPedHiMean1m4","Mean pedestals in module 4, high gain" ,100,0.,100.);\r
162	TH1F *hPedHiRMS1m4 = new TH1F("hPedHiRMS1m4" ,"RMS pedestals in module 4, high gain" ,100,0.,50.);\r
163	TH1F *hPedLoMean1m4 = new TH1F("hPedLoMean1m4","Mean pedestals in module 4, low gain" ,100,0.,100.);\r
164	TH1F *hPedLoRMS1m4 = new TH1F("hPedLoRMS1m4" ,"RMS pedestals in module 4, low gain" ,100,0.,50.);\r
165	TH1F *hPedTRUMean1m4 = new TH1F("hPedTRUMean1m4","Mean pedestals in module 4, TRU" ,1000,0.,1000.);\r
166	TH1F *hPedTRURMS1m4 = new TH1F("hPedTRURMS1m4" ,"RMS pedestals in module 4, TRU" ,100,0.,50.);\r
167	\r
168	hPedHiMean1m2->Sumw2();\r
169	hPedHiRMS1m2 ->Sumw2();\r
170	hPedLoMean1m2->Sumw2();\r
171	hPedLoRMS1m2 ->Sumw2();\r
172	hPedTRUMean1m2->Sumw2();\r
173	hPedTRURMS1m2 ->Sumw2();\r
174	hPedHiMean1m3->Sumw2();\r
175	hPedHiRMS1m3 ->Sumw2();\r
176	hPedLoMean1m3->Sumw2();\r
177	hPedLoRMS1m3 ->Sumw2();\r
178	hPedTRUMean1m3->Sumw2();\r
179	hPedTRURMS1m3 ->Sumw2();\r
180	hPedHiMean1m4->Sumw2();\r
181	hPedHiRMS1m4 ->Sumw2();\r
182	hPedLoMean1m4->Sumw2();\r
183	hPedLoRMS1m4 ->Sumw2();\r
184	hPedTRUMean1m4->Sumw2();\r
185	hPedTRURMS1m4 ->Sumw2();\r
186	\r
187	TH2F *hPedHiMeanm2 = new TH2F("hPedHiMeanm2","Mean pedestals in module 2, high gain",\r
188	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
189	TH2F *hPedHiRMSm2 = new TH2F("hPedHiRMSm2" ,"R.M.S. of pedestals in module 2, high gain",\r
190	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
191	TH2F *hPedHiNumm2 = new TH2F("hPedHiNumm2" ,"Number of pedestals in module 2, high gain",\r
192	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
193	TH2F *hPedLoMeanm2 = new TH2F("hPedLoMeanm2","Mean pedestals in module 2, low gain",\r
194	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
195	TH2F *hPedLoRMSm2 = new TH2F("hPedLoRMSm2" ,"R.M.S. of pedestals in module 2, low gain",\r
196	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
197	TH2F *hPedLoNumm2 = new TH2F("hPedLoNumm2" ,"Number of pedestals in module 2, low gain",\r
198	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
199	\r
200	TH2F *hPedHiMeanm3 = new TH2F("hPedHiMeanm3","Mean pedestals in module 3, high gain",\r
201	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
202	TH2F *hPedHiRMSm3 = new TH2F("hPedHiRMSm3" ,"R.M.S. of pedestals in module 3, high gain",\r
203	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
204	TH2F *hPedHiNumm3 = new TH2F("hPedHiNumm3" ,"Number of pedestals in module 3, high gain",\r
205	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
206	TH2F *hPedLoMeanm3 = new TH2F("hPedLoMeanm3","Mean pedestals in module 3, low gain",\r
207	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
208	TH2F *hPedLoRMSm3 = new TH2F("hPedLoRMSm3" ,"R.M.S. of pedestals in module 3, low gain",\r
209	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
210	TH2F *hPedLoNumm3 = new TH2F("hPedLoNumm3" ,"Number of pedestals in module 3, low gain",\r
211	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
212	\r
213	TH2F *hPedHiMeanm4 = new TH2F("hPedHiMeanm4","Mean pedestals in module 4, high gain",\r
214	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
215	TH2F *hPedHiRMSm4 = new TH2F("hPedHiRMSm4" ,"R.M.S. of pedestals in module 4, high gain",\r
216	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
217	TH2F *hPedHiNumm4 = new TH2F("hPedHiNumm4" ,"Number of pedestals in module 4, high gain",\r
218	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
219	TH2F *hPedLoMeanm4 = new TH2F("hPedLoMeanm4","Mean pedestals in module 4, low gain",\r
220	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
221	TH2F *hPedLoRMSm4 = new TH2F("hPedLoRMSm4" ,"R.M.S. of pedestals in module 4, low gain",\r
222	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
223	TH2F *hPedLoNumm4 = new TH2F("hPedLoNumm4" ,"Number of pedestals in module 4, low gain",\r
224	cellXMax,0.,cellXMax, cellZMax,0.,cellZMax);\r
225	\r
226	TH1I *hNBunches = new TH1I("hNBunches","Number of bunches",10,0,10);\r
227	TH2I *hHWaddr = new TH2I("hHWaddr","DDL is vs HW addr",216,0,216,4096,0,4096);\r
228	TH1I *hModule = new TH1I("hModule" ,"Module number", 5,0.,5);\r
229	\r
230	Int_t runNum=0;\r
231	Int_t module,cellX,cellZ,caloFlag;\r
232	\r
233	/* main loop (infinite) */\r
234	for(;;) {\r
235	struct eventHeaderStruct *event;\r
236	eventTypeType eventT;\r
237	\r
238	/* check shutdown condition */\r
239	if (daqDA_checkShutdown()) {break;}\r
240	\r
241	/* get next event (blocking call until timeout) */\r
242	status=monitorGetEventDynamic((void **)&event);\r
243	if (status==MON_ERR_EOF) {\r
244	printf ("End of File detected\n");\r
245	break; /* end of monitoring file has been reached */\r
246	}\r
247	\r
248	if (status!=0) {\r
249	printf("monitorGetEventDynamic() failed : %s\n",monitorDecodeError(status));\r
250	break;\r
251	}\r
252	\r
253	/* retry if got no event */\r
254	if (event==NULL) {\r
255	continue;\r
256	}\r
257	\r
258	/* use event - here, just write event id to result file */\r
259	eventT=event->eventType;\r
260	\r
261	if (eventT==PHYSICS_EVENT) {\r
e1502193	262	\r
9d12ffd1	263	reader = new AliRawReaderDate((void*)event);\r
	264	stream = new AliCaloRawStreamV3(reader,"PHOS",mapping);\r
	265	\r
e1502193	266	runNum = reader->GetRunNumber();\r
	267	while (stream->NextDDL()) {\r
	268	while (stream->NextChannel()) {\r
	269	module = stream->GetModule();\r
	270	cellX = stream->GetCellX();\r
	271	cellZ = stream->GetCellZ();\r
	272	caloFlag = stream->GetCaloFlag();\r
	273	if (caloFlag!=0 && caloFlag!=1) continue;\r
	274	\r
	275	hHWaddr->Fill(stream->GetDDLNumber(),stream->GetHWAddress());\r
	276	hModule->Fill(module);\r
	277	if (!hPed[module][caloFlag][cellX][cellZ]) {\r
	278	TString name = baseNamePed;\r
	279	TString title = baseTitlePed;\r
	280	name +="_g"; name +=caloFlag;\r
	281	name +="_m"; name +=module;\r
	282	name +="_x"; name +=cellX;\r
	283	name +="_z"; name +=cellZ;\r
	284	\r
	285	title +=module; title +=",";\r
	286	title +=cellX; title +=",";\r
	287	title +=cellZ; title +="), ";\r
	288	title +=sgain[caloFlag];\r
	289	\r
	290	hPed[module][caloFlag][cellX][cellZ] = new TH1F(name,title,100,0.,100.);\r
	291	hPed[module][caloFlag][cellX][cellZ]->Sumw2();\r
	292	hPed[module][caloFlag][cellX][cellZ]->SetMarkerStyle(20);\r
	293	hPed[module][caloFlag][cellX][cellZ]->SetOption("eph");\r
	294	}\r
	295	\r
	296	Int_t nBunches = 0;\r
	297	while (stream->NextBunch()) {\r
	298	nBunches++;\r
	299	const UShort_t *sig = stream->GetSignals();\r
	300	Int_t sigLength = stream->GetBunchLength();\r
	301	for (Int_t i = 0; i < sigLength; i++) {\r
	302	hPed[module][caloFlag][cellX][cellZ]->Fill(sig[i]);\r
9d12ffd1	303	}\r
9d12ffd1	304	}\r
e1502193	305	hNBunches->Fill(nBunches);\r
	306	} // end of NextChannel()\r
	307	} // end of NextDDL()\r
9d12ffd1	308	\r
e1502193	309	delete reader; \r
9d12ffd1	310	delete stream;\r
9d12ffd1	311	nevents_physics++;\r
e1502193	312	} // end of if(eventT==PHYSICS_EVENT)\r
9d12ffd1	313	\r
	314	nevents_total++;\r
	315	\r
	316	/* free resources */\r
	317	free(event);\r
	318	\r
	319	/* exit when last event received, no need to wait for TERM signal */\r
	320	if (eventT==END_OF_RUN) {\r
	321	printf("EOR event detected\n");\r
	322	break;\r
	323	}\r
	324	\r
	325	} // end of inf. loop over events\r
	326	\r
	327	for(Int_t i = 0; i < 20; i++) delete mapping[i];\r
e1502193	328	\r
	329	// Fill 2-dim histograms for mean, rms and n pedestals\r
	330	\r
	331	for (Int_t mod=2; mod<=4; mod++) {\r
	332	for (Int_t caloFlag=0; caloFlag<2; caloFlag++) {\r
	333	for (Int_t cellX=0; cellX<cellXMax; cellX++) {\r
	334	for (Int_t cellZ=0; cellZ<cellZMax; cellZ++) {\r
	335	if (hPed[mod][caloFlag][cellX][cellZ] != 0) {\r
	336	if (caloFlag == 0) {\r
	337	if (mod==2) {\r
	338	hPedLoMean1m2->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	339	hPedLoRMS1m2 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
	340	hPedLoMeanm2 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	341	hPedLoRMSm2 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
	342	hPedLoNumm2 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	343	}\r
	344	else if (mod==3) {\r
	345	hPedLoMean1m3->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	346	hPedLoRMS1m3 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
	347	hPedLoMeanm3 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	348	hPedLoRMSm3 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
	349	hPedLoNumm3 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	350	}\r
	351	else if (mod==4) {\r
	352	hPedLoMean1m4->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	353	hPedLoRMS1m4 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
	354	hPedLoMeanm4 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	355	hPedLoRMSm4 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
	356	hPedLoNumm4 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	357	}\r
	358	}\r
	359	else if (caloFlag == 1) {\r
	360	if (mod==2) {\r
	361	hPedHiMean1m2->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	362	hPedHiRMS1m2 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS() );\r
	363	hPedHiMeanm2 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	364	hPedHiRMSm2 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
	365	hPedHiNumm2 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	366	}\r
	367	if (mod==3) {\r
	368	hPedHiMean1m3->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	369	hPedHiRMS1m3 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS() );\r
	370	hPedHiMeanm3 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	371	hPedHiRMSm3 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
	372	hPedHiNumm3 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	373	}\r
	374	if (mod==4) {\r
	375	hPedHiMean1m4->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	376	hPedHiRMS1m4 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
	377	hPedHiMeanm4 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	378	hPedHiRMSm4 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetRMS());\r
	379	hPedHiNumm4 ->Fill( cellX, cellZ, hPed[mod][caloFlag][cellX][cellZ]->GetEntries());\r
	380	}\r
	381	}\r
	382	else if (caloFlag == 2) {\r
	383	if (mod==2) {\r
	384	hPedTRUMean1m2->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	385	hPedTRURMS1m2 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS() );\r
	386	}\r
	387	if (mod==3) {\r
	388	hPedTRUMean1m3->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
	389	hPedTRURMS1m3 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS() );\r
	390	}\r
	391	if (mod==4) {\r
392	hPedTRUMean1m4->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetMean());\r
393	hPedTRURMS1m4 ->Fill( hPed[mod][caloFlag][cellX][cellZ]->GetRMS() );\r
394	}\r
395	}\r
396	}\r
397	}\r
398	}\r
399	}\r
400	}\r
9d12ffd1	401	\r
	402	// Write existing histograms to a root file\r
	403	\r
	404	TString fileName = "PHOS_PED.root";\r
	405	TFile *file = new TFile(fileName,"RECREATE");\r
	406	\r
	407	for (Int_t mod=2; mod<=3; mod++) {\r
	408	for (Int_t caloFlag=0; caloFlag<caloFlagMax; caloFlag++) {\r
	409	for (Int_t mod=0; mod<modMax; mod++) {\r
	410	for (Int_t cellX=0; cellX<cellXMax; cellX++) {\r
	411	for (Int_t cellZ=0; cellZ<cellZMax; cellZ++) {\r
	412	if (hPed[mod][caloFlag][cellX][cellZ] != 0)\r
	413	hPed[mod][caloFlag][cellX][cellZ]->Write();\r
	414	}\r
	415	}\r
	416	}\r
	417	}\r
	418	}\r
	419	\r
	420	hPedHiMean1m2->Write();\r
	421	hPedHiRMS1m2 ->Write();\r
	422	hPedLoMean1m2->Write();\r
	423	hPedLoRMS1m2 ->Write();\r
	424	hPedHiMeanm2 ->Write();\r
	425	hPedHiRMSm2 ->Write();\r
	426	hPedHiNumm2 ->Write();\r
	427	hPedLoMeanm2 ->Write();\r
	428	hPedLoRMSm2 ->Write();\r
	429	hPedLoNumm2 ->Write();\r
	430	hPedTRUMean1m2->Write();\r
	431	hPedTRURMS1m2 ->Write();\r
	432	\r
	433	hPedHiMean1m3->Write();\r
	434	hPedHiRMS1m3 ->Write();\r
	435	hPedLoMean1m3->Write();\r
	436	hPedLoRMS1m3 ->Write();\r
	437	hPedHiMeanm3 ->Write();\r
	438	hPedHiRMSm3 ->Write();\r
	439	hPedHiNumm3 ->Write();\r
	440	hPedLoMeanm3 ->Write();\r
	441	hPedLoRMSm3 ->Write();\r
	442	hPedLoNumm3 ->Write();\r
	443	hPedTRUMean1m3->Write();\r
	444	hPedTRURMS1m3 ->Write();\r
	445	\r
	446	hPedHiMean1m4->Write();\r
	447	hPedHiRMS1m4 ->Write();\r
	448	hPedLoMean1m4->Write();\r
	449	hPedLoRMS1m4 ->Write();\r
	450	hPedHiMeanm4 ->Write();\r
	451	hPedHiRMSm4 ->Write();\r
	452	hPedHiNumm4 ->Write();\r
	453	hPedLoMeanm4 ->Write();\r
	454	hPedLoRMSm4 ->Write();\r
	455	hPedLoNumm4 ->Write();\r
	456	hPedTRUMean1m4->Write();\r
	457	hPedTRURMS1m4 ->Write();\r
	458	\r
	459	hNBunches ->Write();\r
	460	hHWaddr ->Write();\r
	461	hModule ->Write();\r
	462	\r
	463	file->Close();\r
	464	\r
465	/* Store output files to the File Exchange Server */\r
466	daqDA_FES_storeFile(fileName.Data(),"PED");\r
467	\r
468	printf("%d physics events of %d total processed.\n",nevents_physics,nevents_total);\r
469	return status;\r
470	}\r