/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Log$ */ #include "AliTPCMonitor.h" ClassImp(AliTPCMonitor) //____________________________________________________________________________ AliTPCMonitor::AliTPCMonitor(char* name, char* title) : AliTPCMonitorConfig(name,title) { // Constructor fPad = new Int_t*[GetMaxHwAddr()]; for(Int_t i = 0; iGetList()) { Warning("Build","Current directory is not a valid directory"); return; } AliTPCMonitor *hold = (AliTPCMonitor*)gDirectory->GetList()->FindObject(GetName()); if(hold) { Warning("Build","Replacing existing histogram: %s (Potential memory leak).",GetName()); gDirectory->GetList()->Remove(hold); } gDirectory->Append(this); } fHistList = new TObjArray(); fGdcId = 0; fLdcId = 0; fLdcIdOld = -1; CreateHistos(); SetEqIds(); } //____________________________________________________________________________ AliTPCMonitor::~AliTPCMonitor() { // destructor for(Int_t i = 0; iAdd(fHistIROC); fHistOROC = new TH2F("fHistOROC" ,"fHistOROC" ,kNRowsOroc,0,kNRowsOroc,kNPadsOroc, kNPadMinOroc, kNPadMaxOroc); fHistList->Add(fHistOROC); fHistIROCIndex = new TH2S("fHistIROCIndex" ,"fHistIROCIndex" ,kNRowsIroc,0,kNRowsIroc,kNPadsIroc, kNPadMinIroc, kNPadMaxIroc); fHistList->Add(fHistIROCIndex); fHistOROCIndex = new TH2S("fHistOROCIndex" ,"fHistOROCIndex" ,kNRowsOroc,0,kNRowsOroc,kNPadsOroc, kNPadMinOroc, kNPadMaxOroc); fHistList->Add(fHistOROCIndex); fHistIROCTime = new TH2F("fHistIROCTime" ,"fHistIROCTime" ,kNRowsIroc,0,kNRowsIroc,kNPadsIroc, kNPadMinIroc, kNPadMaxIroc); fHistList->Add(fHistIROCTime); fHistOROCTime = new TH2F("fHistOROCTime" ,"fHistOROCTime" ,kNRowsOroc,0,kNRowsOroc,kNPadsOroc, kNPadMinOroc, kNPadMaxOroc); fHistList->Add(fHistOROCTime); fHistIROCRMS = new TH2F("fHistIROCRMS" ,"fHistIROCRMS" ,kNRowsIroc,0,kNRowsIroc,kNPadsIroc, kNPadMinIroc, kNPadMaxIroc); fHistList->Add(fHistIROCRMS); fHistOROCRMS = new TH2F("fHistOROCRMS" ,"fHistOROCRMS" ,kNRowsOroc,0,kNRowsOroc,kNPadsOroc, kNPadMinOroc, kNPadMaxOroc); fHistList->Add(fHistOROCRMS); fHistIROCSUM = new TH2F("fHistIROCSUM" ,"fHistIROCSUM" ,kNRowsIroc,0,kNRowsIroc,kNPadsIroc, kNPadMinIroc, kNPadMaxIroc); fHistList->Add(fHistIROCSUM); fHistOROCSUM = new TH2F("fHistOROCSUM" ,"fHistOROCSUM" ,kNRowsOroc,0,kNRowsOroc,kNPadsOroc, kNPadMinOroc, kNPadMaxOroc); fHistList->Add(fHistOROCSUM); fHistIROCBASE = new TH2F("fHistIROCBASE" ,"fHistIROCBASE" ,kNRowsIroc,0,kNRowsIroc,kNPadsIroc, kNPadMinIroc, kNPadMaxIroc); fHistList->Add(fHistIROCBASE); fHistOROCBASE = new TH2F("fHistOROCBASE" ,"fHistOROCBASE" ,kNRowsOroc,0,kNRowsOroc,kNPadsOroc, kNPadMinOroc, kNPadMaxOroc); fHistList->Add(fHistOROCBASE); fHistChannelTime = new TH2F("fHistChannelTime" ,"fHistChannelTime" ,GetNumOfChannels(),0,GetNumOfChannels(),GetTimeBins(),0,GetTimeBins());fHistList->Add(fHistChannelTime); fHistAddrMapIndex = new TH1F("fHistAddrMapIndex" ,"fHistAddrMapIndex" ,GetMaxHwAddr() ,0,GetMaxHwAddr()); fHistList->Add(fHistAddrMapIndex); fHistAddrMaxAdc = new TH1F("fHistAddrMaxAdc" ,"fHistAddrMaxAdc" ,GetMaxHwAddr(),0,GetMaxHwAddr()); fHistList->Add(fHistAddrMaxAdc); fHistAddrMaxAdcX = new TH1F("fHistAddrMaxAdcX" ,"fHistAddrMaxAdcX" ,GetMaxHwAddr(),0,GetMaxHwAddr()); fHistList->Add(fHistAddrMaxAdcX); fHistAddrBaseMean = new TH1F("fHistAddrBaseMean" ,"fHistAddrBaseMean" ,GetMaxHwAddr(),0,GetMaxHwAddr()); fHistList->Add(fHistAddrBaseMean); fHistAddrAdcSum = new TH1F("fHistAddrAdcSum" ,"fHistAddrAdcSum" ,GetMaxHwAddr(),0,GetMaxHwAddr()); fHistList->Add(fHistAddrAdcSum); fHistAddrBaseRms = new TH1F("fHistAddrBaseRms" ,"fHistAddrBaseRms" ,GetMaxHwAddr(),0,GetMaxHwAddr()); fHistList->Add(fHistAddrBaseRms); fHistDistrSumIROC = new TH1F("fHistDistrSumIROC" ,"fHistDistrSumIROC" ,400,0.0,4000.0); fHistList->Add(fHistDistrSumIROC); fHistDistrMaxIROC = new TH1F("fHistDistrMaxIROC" ,"fHistDistrMaxIROC" ,500,0.0,1000.0); fHistList->Add(fHistDistrMaxIROC); fHistDistrSumOROC = new TH1F("fHistDistrSumOROC" ,"fHistDistrSumOROC" ,400,0.0,4000.0); fHistList->Add(fHistDistrSumOROC); fHistDistrMaxOROC = new TH1F("fHistDistrMaxOROC" ,"fHistDistrMaxOROC" ,500,0.0,1000.0); fHistList->Add(fHistDistrMaxOROC); fHistDistrBase2dIROC = new TH2F("fHistDistrBase2dIROC" ,"fHistDistrBase2dIROC",100,0.0,100.0,100,0.0,10.0); fHistList->Add(fHistDistrBase2dIROC); fHistDistrBase2dOROC = new TH2F("fHistDistrBase2dOROC" ,"fHistDistrBase2dOROC",100,0.0,100.0,100,0.0,10.0); fHistList->Add(fHistDistrBase2dOROC); fHistGlobalMaxA = new TH2S("SIDE A" ,"SIDE A" ,500,-3000,3000,500,-3000,3000); fHistList->Add(fHistGlobalMaxA); fHistGlobalMaxC = new TH2S("SIDE C" ,"SIDE C" ,500,-3000,3000,500,-3000,3000); fHistList->Add(fHistGlobalMaxC); ResetArrays(); } //____________________________________________________________________________ Int_t AliTPCMonitor::ProcessEvent() { // Process Event // Depending on the value of the sector id all sectors (sectorid == -1) are processed. // // In this case only the maximum values are calculated per pad and filled to the global histograms // In a second loop the last processed(displayed) sector will be processed (sectorid!=-1) // again and the baseline rms and further quantities are calculated // // If only one sector should be processed SetProcOneSector(1) should be set. // In this case only the specified (last/last displayed) sector will be processed. // // If GetProcNextEvent()==0 the same event will be processed again Int_t sectorid = 0; Int_t retflag = 0; // id of last sector + 1000, or error flag if(GetProcNextEvent()==1 && fLastEv) { AliInfo("Last event already processed"); } if(GetProcNextEvent()==1) ResetSectorArray(); if(GetProcNextEvent()==0 || GetProcOneSector()==1 ) sectorid = GetLastSector(); else sectorid = -1; // first iteration retflag = ReadData(sectorid); SetLastProcFile(GetFile()); if(retflag>=10 && retflag<1000){ AliError("Could not read event properly: Check file name and format or try next event"); return 0 ;} DrawHists(3); // second iteration if(sectorid==-1 && retflag >1000) { AliInfo("Second read cycle"); SetProcNextEvent(0); if(GetLastSectorDisplayed()==-1) {sectorid = GetLastSector() ; } else {sectorid = GetLastSectorDisplayed(); SetLastSector(sectorid) ; } retflag = ReadData(sectorid); } SetLastSectorDisplayed(sectorid) ; fMapHand->ReadfecHwMap(GetLastSector()); FillHistsPadPlane(); DrawHists(1); SetEventProcessed(1); return retflag; } //__________________________________________________________________ Int_t AliTPCMonitor::ReadData(Int_t secid) { // Read Data File/Stream for specified Format // Payload will be extracted from either ROOT or DATE format // and passed to FillHistsDecode for decoding of the adc information Int_t format = GetFormat(); //if(format==2 && !gSystem->Getenv("DATE_ROOT")) { AliError("DATE not initialized on this system"); return 11;} if(format==0){return ReadDataROOT(secid);} else {return ReadDataDATE(secid,format);} } //__________________________________________________________________ Int_t AliTPCMonitor::ReadDataDATE(Int_t secid, Int_t format ) { // Read Data in Date format // Date file and monitor will be handled in this function Int_t MON = 0; if(format==1) MON =0; else MON =1; cout << " Monitor " << MON << endl; if(fReaderROOT) { delete fReaderROOT ; fReaderROOT=0;} if(MON) { if(fReaderDATE) { delete fReaderDATE ; fReaderDATE =0; }} else { if(fReaderDATEMon) { delete fReaderDATEMon ; fReaderDATEMon=0; }} fChannelIter =0; Int_t last_eq = 0; Int_t last_rcu_id = 0; Int_t rcu_patch = 0; Char_t* eventPtr = 0; UInt_t* eventPtrUI = 0; Bool_t exitSubEventLoop = false; AliTPCMonitorDateFormat* DateForm =0 ; // Create objects /// if( !MON && (fReaderDATE==0 || ( fReaderDATE!=0 && (strcmp(GetLastProcFile(),GetFile())!=0) )) ) { cout << " Create new DATE file "<< endl; if(fReaderDATE) { delete fReaderDATE ; fReaderDATE=0; } fReaderDATE = new AliTPCMonitorDateFile() ; fReaderDATE->SetName("fReaderDATE") ; fReaderDATE->OpenDateFile(GetFile()) ; fEventNumber =0; } else if(MON && (fReaderDATEMon==0 || ( fReaderDATEMon!=0 && (strcmp(GetLastProcFile(),GetFile())!=0) ))) { if(fReaderDATEMon!=0) { fReaderDATEMon->Logout(); delete fReaderDATEMon; } cout << " Creating new Date monitoring Object "<< endl; fReaderDATEMon = new AliTPCMonitorDateMonitor(); fReaderDATEMon->SetName("DMon"); Int_t status = fReaderDATEMon->OpenMonitoring(GetFile()); if(status) { AliError(Form("Could not read event online: Error: %s",fReaderDATEMon->DecodeError(status))); return 11; } } // Get Event pointer /// if(!MON) { if(fReaderDATE->IsDateFileOpen() ==false ) { AliError("Could not open Date File"); return 11 ; } // Rewind event if new event number is smaller than old one if(fEventNumberOld>fEventNumber) { fReaderDATE->ResetFilePos(); } while(GetProcNextEvent() || fEventNumber==0) { fReaderDATE->ReadEvent(); eventPtr = fReaderDATE->GetMemoryPointer(); DateForm = new AliTPCMonitorDateFormat(eventPtr); Int_t current_ev = DateForm->GetEventID(); if(fEventNumber <= current_ev ){ break; } } } else if(GetProcNextEvent()) { fReaderDATEMon->Free(); Int_t status = fReaderDATEMon->GetEvent(); if(status) { AliError(Form("Could not read event online: Error: %s",fReaderDATEMon->DecodeError(status))); return 11 ;} //fReaderDATEMon->Logout(); } if(!MON) { eventPtr = fReaderDATE->GetMemoryPointer(); } else { eventPtr = fReaderDATEMon->GetEventPointerasChar(); } if(DateForm==0) DateForm = new AliTPCMonitorDateFormat(eventPtr); fEventNumber = DateForm->GetEventID(); fEventNumberOld = DateForm->GetEventID(); if(!MON && fReaderDATE->IsLastEvent()) fLastEv =1; if(DateForm->IsEventEndOfRun()) { AliInfo("Event is end of run: eventType END_OF_RUN "); } if( !MON && fReaderDATE->IsEventValid() == false ) {AliInfo("Skipping Event because invalid"); return 10; } if(DateForm->IsEventPhysicsEvent() == false ) {AliInfo("Skipping Header/event because not Physics event"); return 12; } ResetHistos() ; Int_t start =1; while(exitSubEventLoop == false) { if(start==1) { DateForm->GotoSubEventHeader() ; start=0;} else { DateForm->GotoNextSubEventHeader(); } if(DateForm->IsLastSubEventHeader()) exitSubEventLoop = true; if(fVerb) cout << " next subevent LDC " << (Int_t)DateForm->GetSubEventLDC() << endl; last_eq = 0 ; Int_t neq = 0 ; while(last_eq==0) { if(neq ==0){ DateForm->GotoFirstEquipment();} else { DateForm->GotoNextEquipment();} fGdcId = DateForm->GetSubEventGDC() ; fLdcId = DateForm->GetSubEventLDC(); fRunId = DateForm->GetEventRunID(); fEqId = DateForm->GetEquipmentID(); rcu_patch = GetRCUPatch(fRunId, fEqId); last_rcu_id = (rcu_patch+1000); neq++; if(fLdcIdOld!=fLdcId && fChannelIter!=0) { if(secid==-1) { FillGlobal(GetLastSector()); ResetArrays(); fChannelIter =0; } else { return last_rcu_id; } } fLdcIdOld = fLdcId ; if(DateForm->IsLastEquipment() != false ) last_eq = 1; eventPtr = DateForm->GetFirstDataPointer(); eventPtrUI = (UInt_t *) eventPtr; Int_t payload = DateForm->GetPayloadSize(); if(fVerb)DumpHeader(DateForm); if(fVerb) cout << "Check sector and fEqId " << endl; if(fVerb && secid >0 ) { cout << "secid : "<< secid << " fEqId "<< fEqId << " equipment 0 form map " << endl; cout << fMapEqidsSec[secid][0] << endl; cout << " showed map_eqids " << endl; } if(CheckEqId(secid,fEqId)) { if(fVerb) cout << " init altro " << endl; AliTPCMonitorAltro* altro = new AliTPCMonitorAltro((UInt_t *)eventPtrUI,(payload/4),1); altro->SetWrite10Bit(GetWrite10Bit()); altro->SetActFilename(GetFile()); if(fVerb) cout << " allocated 10bit " << endl; altro->Allocate10BitArray(); altro->Decodeto10Bit(fEqId); AliInfo(Form("Process eqid %i , patch %i ",fEqId,rcu_patch%6)); FillHistsDecode(altro,(rcu_patch%6),secid); if(fChannelIter!=0 && secid==-1 ) SetSectorFilled(rcu_patch/6); delete altro; }// if(CheckID) }// while last eq AliInfo(Form("Process sector %i eqid %i , patch %i ",rcu_patch/6,fEqId,rcu_patch%6)); SetLastSector(rcu_patch/6); }// getSubEventLDC if(fChannelIter!=0 && secid==-1){ FillGlobal(GetLastSector()); } delete DateForm; if(fVerb) cout << " last rcu " << last_rcu_id << endl; return last_rcu_id; } //__________________________________________________________________ Int_t AliTPCMonitor::ReadDataROOT(Int_t secid) { // Read in data in ROOT format if(fReaderDATE){ delete fReaderDATE ; fReaderDATE=0;} fChannelIter =0; Int_t last_rcu_id = 0; Int_t rcu_patch = 0; Int_t equipmentSize = 0; UChar_t* eventPtr = 0 ; UInt_t* eventPtrUI = 0 ; Int_t evtype = 0; if(fReaderROOT==0 || ( fReaderROOT!=0 && (strcmp(GetLastProcFile(),GetFile())!=0) ) ) { if(fVerb) cout << "AliTPCMonitor::ReadDataROOT create new reader " << endl; if(fReaderROOT) { delete fReaderROOT ; fReaderROOT=0; } fReaderROOT = new AliRawReaderRoot(GetFile()); if(!fReaderROOT) { AliError("Could not initiate AliRawReaderRoo "); return 10;} fEventNumber=0; } // reset to beginning of the event fReaderROOT->Reset(); // Rewind event if new event number is smaller than old one if(fEventNumberOld>fEventNumber) fReaderROOT->RewindEvents(); while(GetProcNextEvent() || fEventNumber==0) { if(fVerb) cout << "AliTPCMonitor::ReadDataROOT get event " << endl; if(!fReaderROOT->NextEvent()) { AliError("Could not get next Event"); return 11 ;} Int_t current_ev = *(fReaderROOT->GetEventId()); if(fEventNumber <= current_ev ){ break; } } fEventNumber = *(fReaderROOT->GetEventId()); fEventNumberOld = *(fReaderROOT->GetEventId()); ResetHistos() ; while(fReaderROOT->ReadHeader()) { if(fVerb) cout << "AliTPCMonitor::ReadDataROOT read header " << endl; fGdcId = fReaderROOT->GetGDCId() ; fLdcId = fReaderROOT->GetLDCId() ; fRunId = fReaderROOT->GetRunNumber() ; equipmentSize = fReaderROOT->GetEquipmentSize(); fEqId = fReaderROOT->GetEquipmentId(); evtype = fReaderROOT->GetType(); rcu_patch = GetRCUPatch(fRunId, fEqId); last_rcu_id = (rcu_patch+1000); if(evtype==1) { AliWarning(Form("EventType==1 in event %i ",fEventNumber)); return 10; } if(equipmentSize==0) { AliWarning(Form("Equipmentsize ==0 in event %i ",fEventNumber)); return 10; } if(fVerb) DumpHeader(fReaderROOT); if(fLdcIdOld!=fLdcId && fChannelIter!=0) { if(secid==-1) { FillGlobal(GetLastSector()); ResetArrays(); fChannelIter =0; } else { return last_rcu_id; } } fLdcIdOld = fLdcId ; if(CheckEqId(secid,fEqId)) { fReaderROOT->ReadNextData(eventPtr); eventPtrUI = (UInt_t *) eventPtr; Int_t offset = 16; Int_t fsize = (Int_t)((equipmentSize/4) -offset) +1; AliTPCMonitorAltro* altro = new AliTPCMonitorAltro((UInt_t *)eventPtrUI,fsize,2); altro->SetWrite10Bit(GetWrite10Bit()); if(fVerb) cout << "AliTPCMonitor::ReadDataROOT Set Write10bit to " << GetWrite10Bit() << endl; altro->SetActFilename(GetFile()); altro->Allocate10BitArray(); altro->Decodeto10Bit(fEqId); AliInfo(Form("Process sector %i eqid %i , patch %i ",rcu_patch/6,fEqId,rcu_patch%6)); FillHistsDecode(altro,(rcu_patch%6),secid); if(fChannelIter!=0 && secid==-1 ) SetSectorFilled(rcu_patch/6); delete altro; } SetLastSector(rcu_patch/6); } if(fChannelIter!=0 && secid==-1) { FillGlobal(GetLastSector()); } return last_rcu_id; } //____________________________________________________________________________ void AliTPCMonitor::FillHistsDecode(AliTPCMonitorAltro* altro ,Int_t rcu_patch, Int_t secid) { // Decode Channels, calculate base mean and rms depending on the // value of secid (see ProcessEvent) and fill histograms if(fVerb) cout << "FillHistsDecode : rcu_patch " << rcu_patch << " id " << secid << endl; Int_t time_stamp = 0; Int_t sample_iter = 0; Int_t sample_length = 0; Int_t sample_bins = 0; Float_t max = 0; Float_t max_x = 0; Float_t sum = 0.0; Int_t sumn = 0; Int_t block_pos = 0; Int_t hw = 0; Int_t nwords = 0; Int_t nextHwAddress = 0; Int_t ntime = 0; Int_t adc = 0; Int_t nextpos = 0; Int_t lastpos = altro->Get10BitArraySize()-1; Short_t* entries = altro->Get10BitArray(); Double_t h_rms = 0.0; Double_t h_mean = 0.0; Int_t supnextpos = 0; TH1D* hbase = new TH1D("hbase","hbase",GetTimeBins(),0.5,(GetTimeBins()+0.5)); while(lastpos>0) { nextpos = altro->DecodeTrailer(lastpos); supnextpos = altro->GetNextTrailerPos(); if(nextpos==-1) { break; } lastpos = nextpos; block_pos = altro->GetTrailerBlockPos(); hw = altro->GetTrailerHwAddress(); nwords = altro->GetTrailerNWords(); nextHwAddress = ( hw + (rcu_patch<<12) ); fPad[fChannelIter][0] = nextHwAddress ; if(fPadMapHw[nextHwAddress]!=-1 ) { //Int_t hw_before1 = fPad[fChannelIter-2][0]; //Int_t hw_before2 = fPad[fChannelIter-3][0]; if(fVerb){ cout <<"\n //// Ambiguous hwaddress " << nextHwAddress << " write 10bit files and check file for eqid : " << fEqId << " /////// " << endl;} if( TMath::Abs(fPadMapRCU[nextHwAddress][4] - fChannelIter)==1) { if(fVerb) cout << "//// Difference to previous channel==1 : reset branch bit of hw from last channel to 1 " << endl; Int_t hwreset = (nextHwAddress + (1<<11)); fPad[fChannelIter-1][0] = hwreset; fPadMapHw[hwreset] = fChannelIter-1 ; fPadMapRCU[hwreset][0]= rcu_patch ; fPadMapRCU[hwreset][1]= ((hwreset & AliTPCMonitorAltro::GetHwMaskBranch()) >> 11); fPadMapRCU[hwreset][2]= ((hwreset & AliTPCMonitorAltro::GetHwMaskFEC()) >>7 ); fPadMapRCU[hwreset][3]= ( hwreset & AliTPCMonitorAltro::GetHwMaskFECChannel() ); fPadMapRCU[hwreset][4]= fChannelIter-1; fPadMapRCU[hwreset][5]= altro->GetTrailerPos(); } } fPadMapHw[nextHwAddress] = fChannelIter ; fPadMapRCU[nextHwAddress][0]= rcu_patch ; fPadMapRCU[nextHwAddress][1]= ((nextHwAddress & AliTPCMonitorAltro::GetHwMaskBranch())>> 11) ; fPadMapRCU[nextHwAddress][2]= ((nextHwAddress & AliTPCMonitorAltro::GetHwMaskFEC()) >>7); fPadMapRCU[nextHwAddress][3]= (nextHwAddress & AliTPCMonitorAltro::GetHwMaskFECChannel()); fPadMapRCU[nextHwAddress][4]= fChannelIter; fPadMapRCU[nextHwAddress][5]= altro->GetTrailerPos(); time_stamp = 0; sample_iter = 0; sample_length = 0; sample_bins = 0; max = 0.0; max_x = 0.0; sum = 0.0; sumn = 0; hbase->Reset(); for(Int_t iter_words = 0 ; iter_words< nwords ; iter_words++) { if(entries[block_pos-iter_words]==682) { continue; } if(entries[block_pos-iter_words]!=682 && sample_iter==0) { sample_length = entries[block_pos-iter_words]; sample_iter = sample_length; sample_bins = 0; time_stamp = entries[block_pos-iter_words-1]; iter_words++; } else { ntime = time_stamp-sample_bins; adc = entries[block_pos-iter_words]; fPad[fChannelIter][ntime] = adc; if( (adc!=0) && (ntime>=GetRangeBaseMin() ) && (ntimeFill(adc) ;} if( (adc>max) && (ntime>=GetRangeMaxAdcMin()) && (ntime=GetRangeSumMin()) && (ntimeGetMean(); hbase->GetXaxis()->SetRangeUser(h_mean- h_mean/3 , h_mean + h_mean/3); h_mean = hbase->GetMean(); h_rms = hbase->GetRMS(); if( GetPedestals()==1) fHistAddrMaxAdc->SetBinContent( nextHwAddress,max- h_mean); else fHistAddrMaxAdc->SetBinContent( nextHwAddress,max ); if(secid!=-1) { if(rcu_patch<2) { fHistDistrBase2dIROC->Fill(h_mean,h_rms); fHistDistrSumIROC->Fill(sum); if( GetPedestals()==1 ) { fHistDistrMaxIROC->Fill(max-h_mean); fHistDistrSumIROC->Fill(sum -sumn*h_mean);} else { fHistDistrMaxIROC->Fill(max); fHistDistrSumIROC->Fill(sum );} } else { fHistDistrBase2dOROC->Fill(h_mean,h_rms); fHistDistrSumOROC->Fill(sum); if( GetPedestals()==1 ){ fHistDistrMaxOROC->Fill(max-h_mean); fHistDistrSumOROC->Fill(sum -sumn*h_mean);} else { fHistDistrMaxOROC->Fill(max); fHistDistrSumOROC->Fill(sum) ;} } fHistAddrAdcSum->SetBinContent( nextHwAddress,sum); fHistAddrMapIndex->SetBinContent(nextHwAddress,fChannelIter); fHistAddrBaseMean->SetBinContent(nextHwAddress,h_mean); fHistAddrMaxAdcX->SetBinContent( nextHwAddress,max_x); fHistAddrBaseRms->SetBinContent( nextHwAddress,h_rms); } fChannelIter++; if(nextpos<0) { AliError("Error : next pos < 0 "); break ;} } delete hbase; return ; } //____________________________________________________________________________ void AliTPCMonitor::FillHistsPadPlane() { // Fill 2Dim histograms for IROC and OROC (max , rms and sum) if(fVerb)cout << "AliTPCMonitor::FillHistsPadPlane() Start " << endl; if(fVerb)PrintConfig(); Int_t pad = 0; Int_t row = 0; Int_t padmax = 0; Int_t hwadd = 0; for(Int_t ch = 0; chSetCellContent(ch,0,hwadd); for(Int_t bin = 1; bin GetCellContent(ch,bin)!=0) cout << " cellcontent already set " << endl; if( GetPedestals()==1 ) fHistChannelTime->SetCellContent(ch,bin,(fPad[ch][bin]- fHistAddrBaseMean->GetBinContent(hwadd))); else fHistChannelTime->SetCellContent(ch,bin,(fPad[ch][bin])); } pad = fMapHand->GetPad( hwadd); row = fMapHand->GetPadRow(hwadd); padmax = fMapHand->GetNumofPads(row); if(row<63) { fHistIROC->SetCellContent( row +1 ,pad +55 -padmax/2 +1,fHistAddrMaxAdc->GetBinContent( hwadd)); fHistIROCIndex->SetCellContent(row +1 ,pad +55 -padmax/2 +1,ch); fHistIROCRMS->SetCellContent( row +1 ,pad +55 -padmax/2 +1,fHistAddrBaseRms->GetBinContent( hwadd)); fHistIROCBASE->SetCellContent( row +1 ,pad +55 -padmax/2 +1,fHistAddrBaseMean->GetBinContent(hwadd)); fHistIROCSUM->SetCellContent( row +1 ,pad +55 -padmax/2 +1,fHistAddrAdcSum->GetBinContent( hwadd)); } else { fHistOROC->SetCellContent( row-63 +1 ,pad +70 -padmax/2 +1,fHistAddrMaxAdc->GetBinContent( hwadd)); fHistOROCIndex->SetCellContent(row-63 +1 ,pad +70 -padmax/2 +1,ch); fHistOROCRMS->SetCellContent( row-63 +1 ,pad +70 -padmax/2 +1,fHistAddrBaseRms->GetBinContent( hwadd)); fHistOROCBASE->SetCellContent( row-63 +1 ,pad +70 -padmax/2 +1,fHistAddrBaseMean->GetBinContent(hwadd)); fHistOROCSUM->SetCellContent( row-63 +1 ,pad +70 -padmax/2 +1,fHistAddrAdcSum->GetBinContent( hwadd)); } } fHistChannelTime->GetXaxis()->SetRange(0,fChannelIter); fHistChannelTime->GetYaxis()->SetRange(0,GetTimeBins()); } //____________________________________________________________________________ void AliTPCMonitor::ResetArrays() { // Reset data arrays for(Int_t row = 0 ; row < kNRowsIroc; row++) { for(Int_t pad = 0 ; pad < kNPadsIroc ; pad++) { fHistIROCIndex->SetCellContent(row+1,pad+1,-1); } } for(Int_t row = 0 ; row < kNRowsOroc; row++) { for(Int_t pad = 0 ; pad < kNPadsOroc ; pad++) { fHistOROCIndex->SetCellContent(row+1,pad+1,-1); } } for(Int_t ch= 0; chSetBinContent(ch,-1); fHistAddrMapIndex->SetBinContent(ch,-1); fHistAddrMaxAdc->SetBinContent( ch, 0); fHistAddrBaseMean->SetBinContent( ch, 0); fHistAddrAdcSum->SetBinContent( ch, 0); fHistAddrBaseRms->SetBinContent(ch, 0); } for(Int_t ch = 0; ch< GetNumOfChannels(); ch++) { for(Int_t bin = 0; bin< GetTimeBins(); bin++) { fPad[ch][bin] = 0; } } for(Int_t ch = 0; ch< GetMaxHwAddr(); ch++) { fPadMapHw[ch]=-1; fPadMapRCU[ch][0]=-1; fPadMapRCU[ch][1]=-1; fPadMapRCU[ch][2]=-1; fPadMapRCU[ch][3]=-1; fPadMapRCU[ch][4]=-1; fPadMapRCU[ch][5]=-1; } fPadUsedHwAddr=-1; } //____________________________________________________________________________ void AliTPCMonitor::ResetHistos() { // Reset all but for(Int_t i =0; iGetEntries(); i++) { if(GetProcNextEvent()==0 && strcmp(((TH1*)fHistList->At(i))->GetName(),"SIDE A")==0) continue; if(GetProcNextEvent()==0 && strcmp(((TH1*)fHistList->At(i))->GetName(),"SIDE C")==0) continue; ((TH1*)fHistList->At(i))->Reset(); } ResetArrays(); } //____________________________________________________________________________ void AliTPCMonitor::DeleteHistos() { // Delete histograms for(Int_t i =0; iGetEntries(); i++) { delete (TH1*)fHistList->At(i); } } //__________________________________________________________________ Int_t AliTPCMonitor::CheckEqId(Int_t secid,Int_t eqid) { // Check if equipment id corresponds to any rcu patch in sector // Equipment ids changed during commisioning in 2006 (starting from run 704) // However Runids started from 0 again in 2007 // Now only runids from commissioning in 2006 after runid 704 and all new ones are supported. // Comment in equipment check for runids < 704 if old runs should be processed if(fVerb) cout << "AliTPCMonitor::CheckEqId : SectorId " << secid << " EquipmentId " << eqid << " runid " << fRunId << endl; Int_t passed =1; if(fRunId<704 && 0) // commented out --> runs with runid < 704 in 2006 are not recognized anymore { if( (secid>-1) && (secid<36) ) // if ( secid is in range) { take only specific eqids} else { take all } { if( (secid==13) && ( eqid!=408 && eqid!=409 && eqid!=509 && eqid!=512 && eqid!=513 && eqid!=517 )) {passed=0;} else if( (secid==4) && ( eqid!=404 && eqid!=504 && eqid!=407 && eqid!=503 && eqid!=508 && eqid!=506 )) {passed=0;} } else {if(fVerb) cout << "passed check "<< endl; } } else { if( (secid>-1) && (secid<36) ) // if ( secid is in range) { take only specific eqids} else { take all } { if(eqid!=fMapEqidsSec[secid][0] && eqid!= fMapEqidsSec[secid][1] && eqid!=fMapEqidsSec[secid][2] && eqid!=fMapEqidsSec[secid][3] && eqid!= fMapEqidsSec[secid][4] && eqid!=fMapEqidsSec[secid][5] ) {passed=0;} } else {if(fVerb) cout << "passed check "<< endl;} } return passed; } //__________________________________________________________________ void AliTPCMonitor::SetEqIds() { // Set mapping for equipment ids for(Int_t i = 0; i<36 ; i++) { for(Int_t j = 0; j<6; j++) { if(j<2) fMapEqidsSec[i][j]= 768+i*2+j; else fMapEqidsSec[i][j]= 840+i*4+j-2; } } for(Int_t i = 0; i<36 ; i++) { for(Int_t j = 0; j<6; j++) { if(j<2) fMapEqidsRcu[768+i*2+j] = i*6 +j; else fMapEqidsRcu[840+i*4+j-2] = i*6 +j; } } } //__________________________________________________________________ void AliTPCMonitor::FillGlobal(Int_t sector) { // Fill global histograms with max adc for each channel TH2S* hglob =0; if((sector/18) ==0) hglob = fHistGlobalMaxA; else hglob = fHistGlobalMaxC; Float_t rotsec = (2*TMath::Pi()/18.0); Float_t rot = (-rotsec*(sector%18) +4*rotsec); Float_t m11 = TMath::Cos(rot); Float_t m12 = TMath::Sin(rot); Float_t m21 = -1*TMath::Sin(rot); Float_t m22 = TMath::Cos(rot); Int_t max = 0; // use integer for global view Double_t xval = 0.0; Double_t yval = 0.0; Int_t pad = 0; Int_t row = 0; Int_t padmax = 0; Float_t xdr = 0; Float_t ydr = 0; for(Int_t hw = 0; hwGetNbinsX(); hw++) { max = (Int_t)fHistAddrMaxAdc->GetBinContent(hw); if(max!=-1) { pad = fMapHand->GetPad( hw); row = fMapHand->GetPadRow(hw); padmax = fMapHand->GetNumofPads(row); GetXY(xval ,yval , padmax,row ,pad); xdr = xval*m11 +yval*m12; ydr = xval*m21 +yval*m22; if(hglob->GetBinContent(hglob->GetXaxis()->FindBin(xdr),hglob->GetYaxis()->FindBin(ydr))==0) hglob->Fill(xdr,ydr,(Int_t)max); } } } //__________________________________________________________________ void AliTPCMonitor::GetXY( Double_t& xval , Double_t& yval , Int_t padmax, Int_t row , Int_t pad) { // Get x and y position of pad if(row<63) { xval = fMirror*( 2*padmax -4*pad -2); yval = 852.25 +7.5*row; } else { xval = fMirror*( 3*padmax -6*pad -3); if((row-63)<63) { yval = 10*(row-63) +1351; } else { yval = 15*(row-63-64)+1993.5; } } } //__________________________________________________________________ Int_t AliTPCMonitor::GetPadAtX(Float_t xval, Int_t row, Int_t padmax) { // Get pad number at given position in x Int_t pad = 0; if(row<63) {pad = (Int_t)( ( (xval/fMirror) +2 -2*padmax)/-4);} else {pad = (Int_t)( ( (xval/fMirror) +3 -3*padmax)/-6);} if(pad>=padmax) return -1; else return pad ; } //__________________________________________________________________ Int_t AliTPCMonitor::GetPadAtX(Float_t xval, Int_t row) { // Get pad number at given position in x Int_t padmax = fMapHand->GetNumofPads(row); Int_t pad = 0; if(row<63) {pad = (Int_t)( ( (xval/fMirror) +2 -2*padmax)/-4);} else {pad = (Int_t)( ( (xval/fMirror) +3 -3*padmax)/-6);} if(pad>=padmax) return -1; else return pad ; } //__________________________________________________________________ void AliTPCMonitor::DrawHists(Int_t histos) { // Draw sets of histograms // histos==1 : 2Dim histos for MAX adc and add executables // histos==2 : distributions max/rms/sum // histos==3 : global max adc for specified SideA/C if(fVerb) cout << " Draw histos " << endl; Char_t cside[10]; if(GetLastSector()/18==0 ) sprintf(cside,"A"); else sprintf(cside,"C"); Char_t titleSEC[256]; sprintf(titleSEC ,"Sector %i Side %s Run : %05i EventID %i " ,GetLastSector()%18,cside,fRunId, fEventNumber); Char_t titleEvent[256]; sprintf(titleEvent ,"Time <-> Channles %s" ,titleSEC); Char_t titleIROC[256]; sprintf(titleIROC ,"IROC %s" ,titleSEC); Char_t titleOROC[256]; sprintf(titleOROC ,"OROC %s" ,titleSEC); Char_t titleMAX[256]; sprintf(titleMAX ,"Max (timebin: %i,%i) %s" ,GetRangeMaxAdcMin(),GetRangeMaxAdcMax(),titleSEC); Char_t titleSUM[256]; sprintf(titleSUM ,"Sum (timebin: %i,%i) %s" ,GetRangeSumMin() ,GetRangeSumMax() ,titleSEC); Char_t titleBASE[256]; sprintf(titleBASE ,"Baseline RMS<->Mean (timebin: %i-%i) %s" ,GetRangeBaseMin() ,GetRangeBaseMax() ,titleSEC); Char_t titleMEAN[256]; sprintf(titleMEAN ,"Baseline Mean (timebin: %i-%i) %s" ,GetRangeBaseMin() ,GetRangeBaseMax() ,titleSEC); Char_t titleRMS[256] ; sprintf(titleRMS ,"Baseline RMS (timebin: %i-%i) %s" ,GetRangeBaseMin() ,GetRangeBaseMax() ,titleSEC); if(histos==1) { // IROC _______________________________________________________________ TCanvas* ciroc = 0; ciroc = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("ciroc"); if(!ciroc) { ciroc = CreateCanvas("ciroc"); fExecPlaneMax=0; } ciroc->cd(); fHistIROC->SetXTitle("row"); fHistIROC->SetYTitle("pad"); if(GetPedestals()) fHistIROC->SetZTitle("max ADC (baseline sub)"); else fHistIROC->SetZTitle("max ADC "); fHistIROC->SetTitle(titleIROC); fHistIROC->SetMinimum(0.01); fHistIROC->Draw("COLZ"); ciroc->UseCurrentStyle(); fHistIROCTime->SetXTitle("row"); fHistIROCTime->SetZTitle("peak time (fit)"); fHistIROCTime->SetYTitle("pad"); fHistIROCTime->SetTitle(titleIROC); fHistIROCRMS->SetXTitle("row"); fHistIROCRMS->SetZTitle( "baseline rms (ADC)"); fHistIROCRMS->SetYTitle("pad"); fHistIROCRMS->SetTitle(titleIROC); // OROC TCanvas* coroc = 0; coroc =(TCanvas*)gROOT->GetListOfCanvases()->FindObject("coroc"); if(!coroc) { coroc = CreateCanvas("coroc"); fExecPlaneMax=0; } coroc->cd(); fHistOROC->SetXTitle("row"); fHistOROC->SetYTitle("pad"); if(GetPedestals()) fHistOROC->SetZTitle("max ADC (baseline sub)"); else fHistOROC->SetZTitle("max ADC "); fHistOROC->SetTitle(titleOROC); fHistOROC->SetMinimum(0.01); fHistOROC->Draw("COLZ"); coroc->UseCurrentStyle(); fHistOROCTime->SetXTitle("row"); fHistOROCTime->SetZTitle("peak time (fit) (timebins)"); fHistOROCTime->SetYTitle("pad"); fHistOROCTime->SetTitle(titleOROC); fHistOROCRMS->SetXTitle("row"); fHistOROCRMS->SetZTitle("baseline rms (ADC)"); fHistOROCRMS->SetYTitle("pad"); fHistOROCRMS->SetTitle(titleOROC); // SUM Char_t name_sum[256] ; sprintf(name_sum,"ADC sum (bins: %i, %i)",GetRangeSumMin() ,GetRangeSumMax() ); fHistIROCSUM->SetXTitle("row"); fHistIROCSUM->SetZTitle(name_sum); fHistIROCSUM->SetYTitle("pad"); fHistIROCSUM->SetTitle(titleIROC); fHistOROCSUM->SetXTitle("row"); fHistOROCSUM->SetZTitle(name_sum); fHistOROCSUM->SetYTitle("pad"); fHistOROCSUM->SetTitle(titleOROC); // BASE Char_t name_base[256] ; sprintf(name_base ,"base mean (timbebin: %i, %i )",GetRangeBaseMin(),GetRangeBaseMax()); fHistIROCBASE->SetXTitle("row"); fHistIROCBASE->SetZTitle(name_base); fHistIROCBASE->SetYTitle("pad"); fHistIROCBASE->SetTitle(titleIROC); fHistOROCBASE->SetXTitle("row"); fHistOROCBASE->SetZTitle(name_base); fHistOROCBASE->SetYTitle("pad"); fHistOROCBASE->SetTitle(titleOROC); if(fHistIROCClone) fHistIROCClone->Delete(); if(fHistOROCClone) fHistOROCClone->Delete(); fHistIROCClone = (TH2F*)fHistIROC->Clone("fHistIROCClone"); fHistOROCClone = (TH2F*)fHistOROC->Clone("fHistOROCClone"); // Executables if(fExecPlaneMax==0) { Char_t carry1[100]; sprintf(carry1,".x %s/TPC/AliTPCMonitorExec.C(1)",gSystem->Getenv("ALICE_ROOT")); ciroc->AddExec("pad",carry1); coroc->AddExec("pad",carry1); Char_t carry2[100]; sprintf(carry2,".x %s/TPC/AliTPCMonitorExec.C(2)",gSystem->Getenv("ALICE_ROOT")); ciroc->AddExec("row",carry2); coroc->AddExec("row",carry2); fExecPlaneMax=1; } coroc->Update(); ciroc->Update(); } else if(histos==2) { // MAX ADC distribution ____________________________________________ TCanvas* cmax = 0; cmax = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("cmax"); if(!cmax) cmax = CreateCanvas("cmax"); cmax->cd(); fHistDistrMaxIROC->GetXaxis()->SetRangeUser(0.0,1000.0); fHistDistrMaxIROC->SetXTitle("max ADC (ADC)"); fHistDistrMaxIROC->SetYTitle("counts"); fHistDistrMaxIROC->SetTitle(titleMAX); fHistDistrMaxIROC->Draw(""); fHistDistrMaxOROC->SetLineColor(2); fHistDistrMaxOROC->Draw("same"); if(fHistDistrMaxOROC->GetMaximum()> fHistDistrMaxIROC->GetMaximum()) fHistDistrMaxIROC->SetMaximum(fHistDistrMaxOROC->GetMaximum()*1.1); TLegend* legio = new TLegend(0.6,0.6,0.8,0.8); legio->SetFillColor(0); legio->AddEntry(fHistDistrMaxIROC,"IROC","l"); legio->AddEntry(fHistDistrMaxOROC,"OROC","l"); legio->Draw("same"); // ADC sum distribution TCanvas* csum = 0; csum = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("csum"); if(!csum) csum = CreateCanvas("csum") ; csum->cd(); fHistDistrSumIROC->SetXTitle("sum ADC (ADC)"); fHistDistrSumIROC->SetYTitle("counts"); fHistDistrSumIROC->SetTitle(titleSUM); fHistDistrSumIROC->Draw(""); fHistDistrSumOROC->SetLineColor(2); fHistDistrSumOROC->Draw("same"); if(fHistDistrSumOROC->GetMaximum()> fHistDistrSumIROC->GetMaximum()) fHistDistrSumIROC->SetMaximum(fHistDistrSumOROC->GetMaximum()*1.1); legio->Draw("same"); // BASELINE MEAN distribution TCanvas* cbasemean = 0; cbasemean = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("cbasemean"); if(!cbasemean) cbasemean = CreateCanvas("cbasemean"); cbasemean->cd(); fHistDistrBaseMeanIROC = fHistDistrBase2dIROC->ProjectionX("fHistDistrBaseMeanIROC"); fHistDistrBaseMeanIROC->SetXTitle("base mean (ADC)"); fHistDistrBaseMeanIROC->SetYTitle("counts"); fHistDistrBaseMeanIROC->SetTitle(titleMEAN); fHistDistrBaseMeanIROC->Draw(""); fHistDistrBaseMeanOROC = fHistDistrBase2dOROC->ProjectionX("fHistDistrBaseMeanOROC"); fHistDistrBaseMeanOROC->SetLineColor(2); fHistDistrBaseMeanOROC->Draw("same"); if(fHistDistrBaseMeanOROC->GetMaximum()>fHistDistrBaseMeanIROC->GetMaximum()) fHistDistrBaseMeanIROC->SetMaximum(fHistDistrBaseMeanOROC->GetMaximum()*1.1); legio->Draw("same"); TCanvas* cbaserms = 0; cbaserms = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("cbaserms"); if(!cbaserms) cbaserms = CreateCanvas("cbaserms") ; cbaserms->cd(); // BASELINE RMS distribution fHistDistrBaseRmsIROC = fHistDistrBase2dIROC->ProjectionY("fHistDistrBaseRmsIROC"); fHistDistrBaseRmsIROC->SetXTitle("base rms (ADC)"); fHistDistrBaseRmsIROC->SetYTitle("counts"); fHistDistrBaseRmsIROC->SetTitle(titleRMS); fHistDistrBaseRmsIROC->Draw(""); fHistDistrBaseRmsOROC = fHistDistrBase2dOROC->ProjectionY("fHistDistrBaseRmsOROC"); fHistDistrBaseRmsOROC->SetLineColor(2); fHistDistrBaseRmsOROC->Draw("same"); if(fHistDistrBaseRmsOROC->GetMaximum()>fHistDistrBaseRmsIROC->GetMaximum()) fHistDistrBaseRmsIROC->SetMaximum(fHistDistrBaseRmsOROC->GetMaximum()*1.1); legio->Draw("same"); cmax->Update(); csum->Update(); cbasemean->Update(); cbaserms->Update(); } else if(histos==3) { // GLOBAL MAX ADC _________________________________ if(GetProcNextEvent()==1) { TCanvas* cglobA =0; TCanvas* cglobC =0; if(!(cglobC=(TCanvas*)gROOT->GetListOfCanvases()->FindObject("SIDE C all"))) cglobC = CreateCanvas("SIDE C all"); if(!(cglobA=(TCanvas*)gROOT->GetListOfCanvases()->FindObject("SIDE A all"))) cglobA = CreateCanvas("SIDE A all"); Char_t gl_title1[256]; sprintf(gl_title1,"SIDE A Run %05i (EventID %i)",fRunId,fEventNumber); Char_t gl_title2[256]; sprintf(gl_title2,"SIDE C Run %05i (EventID %i)",fRunId,fEventNumber); fHistGlobalMaxA->SetTitle(gl_title1); fHistGlobalMaxC->SetTitle(gl_title2); fHistGlobalMaxA->SetXTitle("x/mm"); fHistGlobalMaxA->SetYTitle("y/mm"); fHistGlobalMaxC->SetXTitle("x/mm"); fHistGlobalMaxC->SetYTitle("y/mm"); if(GetPedestals()==0) { fHistGlobalMaxA->SetZTitle("max adc (not baseline sub)"); fHistGlobalMaxC->SetZTitle("max adc (not baseline sub)"); } else { fHistGlobalMaxA->SetZTitle("max adc "); fHistGlobalMaxC->SetZTitle("max adc "); } fHistGlobalMaxA->SetMinimum(0.01); fHistGlobalMaxC->SetMinimum(0.01); cglobC->cd() ; fHistGlobalMaxC->Draw("COLZ"); cglobA->cd() ; fHistGlobalMaxA->Draw("COLZ"); Char_t name_om[256]; sprintf(name_om,".x %s/TPC/AliTPCMonitorExec.C(3)",gSystem->Getenv("ALICE_ROOT")); if(fExecGlob==0) { if(fVerb)cout << " set exec " << name_om << endl; cglobC->AddExec("glob",name_om); cglobA->AddExec("glob",name_om); fExecGlob = 1; } else { cglobC->DeleteExec("glob"); cglobA->DeleteExec("glob"); if(fVerb) cout << " set exec " << name_om << endl; cglobC->AddExec("glob",name_om); cglobA->AddExec("glob",name_om); } cglobC->Update(); cglobA->Update(); } } } //__________________________________________________________________ void AliTPCMonitor::DrawRMSMap() { // Draw 2Dim rms histos for IROC and OROC // and set executables for canvases TCanvas* crmsoroc =0; TCanvas* crmsiroc =0; if(!(crmsoroc = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("crmsoroc"))) crmsoroc = CreateCanvas("crmsoroc"); if(!(crmsiroc = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("crmsiroc"))) crmsiroc = CreateCanvas("crmsiroc"); crmsiroc->cd(); fHistIROCRMS->Draw("COLZ"); crmsoroc->cd(); fHistOROCRMS->Draw("COLZ"); Char_t carry1[100]; sprintf(carry1,".x %s/TPC/AliTPCMonitorExec.C(1)",gSystem->Getenv("ALICE_ROOT")); Char_t carry2[100]; sprintf(carry2,".x %s/TPC/AliTPCMonitorExec.C(2)",gSystem->Getenv("ALICE_ROOT")); if(fExecPadIrocRms==0) { crmsiroc->AddExec("pad",carry1); crmsiroc->AddExec("row",carry2); fExecPadIrocRms=1; } if(fExecPadOrocRms==0) { crmsoroc->AddExec("pad",carry1); crmsoroc->AddExec("row",carry2); fExecPadOrocRms=1; } crmsiroc->Update(); crmsoroc->Update(); DrawHists(2); } //__________________________________________________________________ void AliTPCMonitor::ExecPad() { // Executable for Pad // Show time profile for channel the mouse is pointing at Int_t event = gPad->GetEvent(); if (event != 51) return; TObject *select = gPad->GetSelected(); if(!select) return; if(!select->InheritsFrom("TH2")) { return; } gPad->GetCanvas()->FeedbackMode(kTRUE); // get position Int_t px = gPad->GetEventX(); Int_t py = gPad->GetEventY(); Float_t upy = gPad->AbsPixeltoY(py); Float_t upx = gPad->AbsPixeltoX(px); Float_t y = gPad->PadtoY(upy); Float_t x = gPad->PadtoX(upx); Int_t setrange = 0; TCanvas* cpad = 0; // Char_t namehist[50]; Char_t projhist[60]; Char_t namesel[256]; Char_t namecanv[256]; Int_t xbin_min = 0; Int_t xbin_max = 0; Float_t ybin_min = 0; Float_t ybin_max = 0; Int_t ROC = 0; // Check wich Canvas executed the event TH2S* fHistIndex=0; sprintf(namesel,select->GetName()); if(strcmp(namesel,"fHistOROC")==0 || strcmp(namesel,"fHistOROCRMS")==0 || strcmp(namesel,"fHistOROCTime")==0 ) { ROC = 1; fPadUsedRoc =1; sprintf(projhist,"ProjectionOROC"); sprintf(namecanv,"coroc_ch"); fHistIndex = fHistOROCIndex; } if(strcmp(namesel,"fHistIROC")==0 || strcmp(namesel,"fHistIROCRMS")==0 || strcmp(namesel,"fHistIROCTime")==0 ) { ROC = 0; fPadUsedRoc=0; sprintf(projhist,"ProjectionIROC"); sprintf(namecanv,"ciroc_ch"); fHistIndex = fHistIROCIndex; } // Check if Canvas already existed and get Ranges from former Prjection histogram if(cpad=(TCanvas*)gROOT->GetListOfCanvases()->FindObject(namecanv)) { cpad->cd(); if(gROOT->Get(projhist)) { setrange = 1; xbin_min = ((TH1D*)gROOT->Get(projhist))->GetXaxis()->GetFirst(); xbin_max = ((TH1D*)gROOT->Get(projhist))->GetXaxis()->GetLast(); ybin_min = ((TH1D*)gROOT->Get(projhist))->GetMinimum(); ybin_max = ((TH1D*)gROOT->Get(projhist))->GetMaximum(); delete gROOT->Get("legfit"); delete gROOT->Get("fg"); } } else { cpad = CreateCanvas(namecanv); cpad->cd(); } // Get Bin Int_t testy = fHistIndex->GetYaxis()->FindBin(y); Int_t testx = fHistIndex->GetXaxis()->FindBin(x); Int_t binchannel = (Int_t)fHistIndex->GetCellContent(testx,testy); if(binchannel>30000 || binchannel<0) return; if(gROOT->Get(projhist)) delete gROOT->Get(projhist); // Get Projection TH1D *hp = (TH1D*)(((TH1D*)fHistChannelTime->ProjectionY("hp",binchannel,binchannel))->Clone(projhist)); // Make title and Pave for channel Info Char_t title[256]; Int_t npadRow , npad , nhw , nmax , hwadd; hwadd = (Int_t)fHistChannelTime->GetCellContent(binchannel,0); fPadUsedHwAddr = hwadd; if(ROC==0) npadRow = fMapHand->GetPadRow(hwadd); else npadRow = fMapHand->GetPadRow(hwadd)-63; npad = fMapHand->GetPad(hwadd); nhw = hwadd; nmax = (Int_t)hp->GetMaximum(); TPaveText* legstat = new TPaveText(0.18,0.65,0.3,0.8,"NDC"); Int_t connector = fMapHand->GetFECconnector(hwadd); Int_t FECnr = fMapHand->GetFECfromHw(hwadd); Int_t FECch = fMapHand->GetFECchannel(hwadd); Int_t Altro = fMapHand->GetAltro(hwadd); Int_t AltroCh = (fMapHand->GetAltroChannel(hwadd))%16; Int_t FECloc = fMapHand->U2fGetFECinRCU(FECnr) ; Int_t FEClocbran = fMapHand->U2fGetFECinBranch(FECnr); Int_t branch = fMapHand->U2fGetBranch(FECnr); Short_t fecget = (hwadd & AliTPCMonitorAltro::GetHwMaskFEC()) >> 7; Short_t branchget = (hwadd & AliTPCMonitorAltro::GetHwMaskBranch())>> 11; Char_t nstat1[100]; Char_t nstat2[100]; Char_t nstat3[100]; Char_t nstat4[100]; Char_t nstat5[100]; Char_t nstat6[100]; Char_t nstat7[100]; Char_t nstat8[100]; sprintf(nstat1,"Branch (map) \t %i (%i) \n",branchget,branch); sprintf(nstat2,"Fec in patch \t %i \n",FECloc); sprintf(nstat8,"Fec in branch (map)\t %i (%i)\n",fecget,FEClocbran); sprintf(nstat7,"Connector \t %i \n",connector); sprintf(nstat3,"Fec No. \t %i \n",FECnr); sprintf(nstat4,"Fec chan \t %i \n",FECch); sprintf(nstat5,"Altro chip\t %i \n",Altro); sprintf(nstat6,"Altro chan\t %i \n",AltroCh); legstat->AddText(nstat1); legstat->AddText(nstat2); legstat->AddText(nstat8); legstat->AddText(nstat7); legstat->AddText(nstat3); legstat->AddText(nstat4); legstat->AddText(nstat5); legstat->AddText(nstat6); sprintf(title,"Row=%d Pad=%d Hw =%d maxADC =%d count =%d",npadRow,npad,nhw,nmax,binchannel); hp->SetName(projhist); hp->SetTitleSize(0.04); hp->SetTitle(title); hp->SetYTitle("ADC"); hp->SetXTitle("Timebin"); hp->GetXaxis()->SetTitleColor(1); if(setrange) { hp->GetXaxis()->SetRange(xbin_min,xbin_max); hp->SetMinimum(ybin_min); hp->SetMaximum(ybin_max); } else { hp->SetMinimum(0.0); hp->SetMaximum(1000.0); } cpad->cd(); hp->Draw(); // Make Fit to peak if(GetPedestals() && fDisableFit==0) { Int_t max_x = (Int_t)fHistAddrMaxAdcX->GetBinContent(hwadd); Float_t max = (Float_t)fHistAddrMaxAdc->GetBinContent(hwadd); Float_t base = (Float_t)fHistAddrBaseMean->GetBinContent(hwadd); if(base!=0) { if( ((max+base)/base)>1.2) { TF1* fg = new TF1("fg",AliTPCMonitor::Gamma4,max_x-5,max_x+5,4); fg->SetParName(0,"Normalisation"); fg->SetParName(1,"Minimum"); fg->SetParName(2,"Width"); fg->SetParName(3,"Base"); fg->SetParameter(0,max); fg->SetParameter(1,max_x-2); fg->SetParameter(2,1.5); fg->FixParameter(3,0); fg->SetLineColor(4); fg->SetLineWidth(1); hp->Fit("fg","RQ"); TLegend* legfit = new TLegend(0.6,0.7,0.7,0.8); legfit->AddEntry("fg","#Gamma 4 fit","l"); legfit->SetFillColor(0); legfit->SetName("legfit"); legfit->Draw("same"); } } } legstat->SetFillColor(0); legstat->Draw("same"); cpad->Update(); return; } //__________________________________________________________________ void AliTPCMonitor::ExecRow() { // Executable for Pad // Show profile of max adc over given pad row // and 2dim histo adc(pad-in-row,time bin) Int_t event = gPad->GetEvent(); if (event != 61) return; gPad->cd(); TObject *select = gPad->GetSelected(); if(!select) return; if(!select->InheritsFrom("TH2")) { return; } Int_t ROC = 0; // Char_t namehist[50]; Char_t rowhist[60]; Char_t rowhist_sum[60]; Char_t rowhist_max[60]; Char_t rowhist_xmax[60]; sprintf(rowhist, "hrow_time"); sprintf(rowhist_xmax ,"hx_max"); sprintf(rowhist_max , "hrow_max"); // get position Int_t px = gPad->GetEventX(); Int_t py = gPad->GetEventY(); Float_t upy = gPad->AbsPixeltoY(py); Float_t upx = gPad->AbsPixeltoX(px); Float_t y = gPad->PadtoY(upy); Float_t x = gPad->PadtoX(upx); TCanvas*crow_time = 0; TCanvas*crow_max = 0; TCanvas*cx_max = 0; TH2S* fHistIndex = 0; // ranges from already existing histos Int_t row_time_xmin = 0; Int_t row_time_xmax = 0; Int_t row_time_ymin = 0; Int_t row_time_ymax = 0; Float_t row_time_zmin = 0; Float_t row_time_zmax = 0; Int_t prof_row_xmin = 0; Int_t prof_row_xmax = 0; Double_t prof_row_ymin = 0; Double_t prof_row_ymax = 0; Int_t prof_x_xmin = 0; Int_t prof_x_xmax = 0; Double_t prof_x_ymin = 0; Double_t prof_x_ymax = 0; Int_t setrange = 0; if( strcmp(select->GetName(),"fHistIROC")==0 || strcmp(select->GetName(),"fHistIROCRMS")==0 ) { fHistIndex = fHistIROCIndex; ROC =1; } else if(strcmp(select->GetName(),"fHistOROC")==0 || strcmp(select->GetName(),"fHistOROCRMS")==0 ) { fHistIndex = fHistOROCIndex; ROC =2; } else { cout << " not implemented for this histo " << endl; return; } gPad->GetCanvas()->FeedbackMode(kTRUE); // check if canvases exist // crow_time = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("crow_time"); crow_max = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("crow_max"); cx_max = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("cx_max"); if(!crow_time) crow_time = CreateCanvas("crow_time") ; if(!crow_max) crow_max = CreateCanvas("crow_max") ; if(!cx_max ) cx_max = CreateCanvas("cx_max") ; // check ranges of already existing histos if(gROOT->Get(rowhist)) { row_time_xmin = ((TH2F*)gROOT->Get(rowhist))->GetXaxis()->GetFirst(); row_time_xmax = ((TH2F*)gROOT->Get(rowhist))->GetXaxis()->GetLast(); row_time_ymin = ((TH2F*)gROOT->Get(rowhist))->GetYaxis()->GetFirst(); row_time_ymax = ((TH2F*)gROOT->Get(rowhist))->GetYaxis()->GetLast(); row_time_zmin = ((TH2F*)gROOT->Get(rowhist))->GetMinimum(); row_time_zmax = ((TH2F*)gROOT->Get(rowhist))->GetMaximum(); prof_row_xmin = ((TH1F*)gROOT->Get(rowhist_max))->GetXaxis()->GetFirst(); prof_row_xmax = ((TH1F*)gROOT->Get(rowhist_max))->GetXaxis()->GetLast(); prof_row_ymin = ((TH1F*)gROOT->Get(rowhist_max))->GetMinimum(); prof_row_ymax = ((TH1F*)gROOT->Get(rowhist_max))->GetMaximum(); prof_x_xmin = ((TH1F*)gROOT->Get(rowhist_xmax))->GetXaxis()->GetFirst(); prof_x_xmax = ((TH1F*)gROOT->Get(rowhist_xmax))->GetXaxis()->GetLast(); prof_x_ymin = ((TH1F*)gROOT->Get(rowhist_xmax))->GetMinimum(); prof_x_ymax = ((TH1F*)gROOT->Get(rowhist_xmax))->GetMaximum(); setrange =1; delete gROOT->Get(rowhist); delete gROOT->Get(rowhist_max); delete gROOT->Get(rowhist_sum); delete gROOT->Get("hx_max"); delete gROOT->Get("legrow"); } // get channel for xy bin -> getRow -> getNrows -> getHw for each Pad in Row -> get channel for each hw -> make proj Int_t testy = fHistIndex->GetYaxis()->FindBin(y); Int_t testx = fHistIndex->GetXaxis()->FindBin(x); Int_t binchannel = (Int_t)fHistIndex->GetCellContent(testx,testy); if(binchannel>30000) return; if(binchannel<=0 ) { crow_time->Update() ; crow_max->Update() ; return ; } // get hwaddress Int_t hwadd = (Int_t)fHistChannelTime->GetCellContent(binchannel,0); Int_t row = fMapHand->GetPadRow(hwadd); Int_t pad = fMapHand->GetPad(hwadd) ; Int_t numofpads = fMapHand->GetNumofPads(row); // create histos TH2F *hrow_time = new TH2F(rowhist , "" ,numofpads,0,numofpads,GetTimeBins(),0.0,GetTimeBins()); TH1F *hrow_max = new TH1F(rowhist_max , "" ,numofpads,0,numofpads); TH1F *hx_max = new TH1F(rowhist_xmax, "" ,159,0,159 ); // Row profile /////////// if(fVerb) cout << " Number of pads " << numofpads << endl; for(Int_t padnr = 0; padnrGetPadAddInRow(row,padnr ); Int_t channel = (Int_t)fHistAddrMapIndex->GetBinContent(addrinrow); if(channel==-1) continue; hrow_max->SetBinContent(padnr+1,fHistAddrMaxAdc->GetBinContent(addrinrow)); TH1D *hp = fHistChannelTime->ProjectionY("hp",channel,channel); for(Int_t time = 0;timeGetBinContent(time); hrow_time->SetCellContent(padnr+1,time+1,val); } } // X profile ///////////// Double_t xval = 0.0; Double_t yval = 0.0; GetXY(xval,yval,numofpads,row,pad); Int_t padnr = 0; Int_t hw = 0; for(Int_t nrow = 0; nrow<159; nrow++) { padnr = GetPadAtX(xval,nrow); if(padnr>=0) { hw = fMapHand->GetPadAddInRow(nrow,padnr); if(fPadMapHw[hw]==-1){ continue ; } else { hx_max->SetBinContent(nrow+1,fHistAddrMaxAdc->GetBinContent(hw)) ; } } } cx_max->cd(); Char_t hx_titl[50] ; sprintf(hx_titl,"max adc in pads at x=%5.1f mm",xval); hx_max->SetTitle(hx_titl); hx_max->SetXTitle("row"); if(!GetPedestals()) hx_max->SetYTitle("max adc (baseline sub.)"); else hx_max->SetYTitle("max adc "); hx_max->SetMinimum(0.01); hx_max->Draw("l"); if(setrange) { hx_max->GetXaxis()->SetRange(prof_x_xmin,prof_x_xmax); hx_max->SetMinimum(prof_x_ymin); hx_max->SetMaximum(prof_x_ymax); } cx_max->Update(); crow_time->cd(); Char_t title[256]; Char_t title_max[256]; if(ROC==1) {sprintf(title,"%s Row=%d",((TH2*)select)->GetTitle(),row) ; sprintf(title_max,"IROC max/sum Row=%d",row );} else {sprintf(title,"%s Row=%d",((TH2*)select)->GetTitle(),row-63); sprintf(title_max,"OROC max/sum Row=%d",row-63);} if(fVerb) cout << " set name " << endl; // row vs time crow_time->cd(); hrow_time->SetTitleSize(0.04); hrow_time->SetTitle(title); hrow_time->SetYTitle("timbin"); hrow_time->SetXTitle("pad in row"); hrow_time->SetZTitle("signal (ADC)"); hrow_time->GetXaxis()->SetTitleColor(1); hrow_time->SetMaximum(1000.0); hrow_time->SetMinimum(0.0); if(setrange) { hrow_time->GetXaxis()->SetRange(row_time_xmin,row_time_xmax); hrow_time->GetYaxis()->SetRange(row_time_ymin,row_time_ymax); hrow_time->SetMinimum(row_time_zmin); hrow_time->SetMaximum(row_time_zmax); } hrow_time->Draw("COLZ"); crow_time->UseCurrentStyle(); crow_time->Update(); // max and sum ///////////////////////// crow_max->cd(); if(setrange) { hrow_max->GetXaxis()->SetRange(prof_row_xmin,prof_row_xmax); hrow_max->SetMinimum(prof_row_ymin); hrow_max->SetMaximum(prof_row_ymax); } hrow_max->SetTitleSize(0.04); hrow_max->SetTitle(title); hrow_max->SetYTitle("max adc"); hrow_max->SetXTitle("pad in row"); hrow_max->GetXaxis()->SetTitleColor(1); hrow_max->SetLineColor(2); hrow_max->Draw("l"); crow_max->Update(); return; } //__________________________________________________________________ void AliTPCMonitor::Write10bitChannel() { // Write 10 bit words form histogram for active(last pointed) channel if(fPadUsedHwAddr==-1){ AliWarning(" No active pad "); return ;} Int_t pad = (Int_t)fMapHand->GetPad( fPadUsedHwAddr); Int_t row = (Int_t)fMapHand->GetPadRow(fPadUsedHwAddr); Int_t channel = (Int_t)fPadMapHw[fPadUsedHwAddr]; Char_t filename_root[256]; Char_t filename_dat[256]; Char_t projhist[256]; if(fPadUsedRoc==1) { sprintf(projhist,"ProjectionOROC"); } if(fPadUsedRoc==0) { sprintf(projhist,"ProjectionIROC"); } sprintf(filename_dat, "Channel_Run%05i_EventID_%i_Pad_%i_Row_%i.dat" ,fRunId,fEventNumber,pad,row); sprintf(filename_root,"Channel_Run%05i_EventID_%i_Pad_%i_Row_%i.root" ,fRunId,fEventNumber,pad,row); TH1D* hpr = 0; if(hpr=(TH1D*)gROOT->Get(projhist)) { // root histo TFile f(filename_root,"recreate"); hpr->Write(); f.Close(); // raw singal ofstream datout(filename_dat,ios::out); datout <<"Timebin \t ADC value " << endl; for(Int_t i = 1; i Get(projhist)==0){AliWarning("Proj histo does not exist \n Move mouse over 2d histo choose channel \n and drag mouse form histo again!"); return ;} else hproj = (TH1D*)gROOT->Get(projhist) ; if(fPadUsedRoc==1) { sprintf(name_htr_imag,"htrans_imag_freq_oroc"); sprintf(name_htr_real,"htrans_real_freq_oroc"); } else { sprintf(name_htr_imag,"htrans_imag_freq_iroc"); sprintf(name_htr_real,"htrans_real_freq_iroc"); } if( gROOT->Get(name_htr_imag)) delete gROOT->Get(name_htr_imag); if( gROOT->Get(name_htr_real)) delete gROOT->Get(name_htr_real); TCanvas *ctrans = 0; if(!(ctrans = (TCanvas*)gROOT->GetListOfCanvases()->FindObject(namecanv))) { ctrans = CreateCanvas(namecanv); ctrans->Divide(1,2); } Int_t bin_first = hproj->GetXaxis()->GetFirst(); Int_t bin_last = hproj->GetXaxis()->GetLast(); Int_t bins = bin_last -bin_first +1; Int_t power = 0; for(Int_t pot = 0; pot<=10 ; pot++) { Int_t comp = (Int_t)TMath::Power(2,pot); if(bins>=comp)power = pot; } bins = (Int_t)TMath::Power(2,power); // sampling frequency ; Double_t delta_t = 1.0/(Float_t)GetSamplingFrequency(); // output histo TH1D* htrans_real_freq = new TH1D(name_htr_real,name_htr_real,10000,-1/(2*delta_t),1/(2*delta_t)); TH1D* htrans_imag_freq = new TH1D(name_htr_imag,name_htr_imag,10000,-1/(2*delta_t),1/(2*delta_t)); Char_t title_real[256]; Char_t title_imag[256]; if(fPadUsedRoc==1) { sprintf(title_real,"OROC DFT real part"); sprintf(title_imag,"OROC DFT imag part"); } else { sprintf(title_real,"IROC DFT real part"); sprintf(title_imag,"IROC DFT imag part"); } htrans_real_freq->SetTitle(title_real); htrans_real_freq->SetXTitle("f/hz"); htrans_real_freq->SetYTitle("z_{real}(f)"); htrans_imag_freq->SetTitle(title_imag); htrans_imag_freq->SetXTitle("f/hz"); htrans_imag_freq->SetYTitle("z_{imag}(f)"); // create complex packed data array const Int_t datasiz = 2*bins; Double_t* data = new Double_t[datasiz]; for(Int_t i=0;i<2*bins;i++) { data[i] = 0.0;} for(Int_t i=0;iGetBinContent(bin_first+i); } // make fourier transformation AliTPCMonitorFFT* four = new AliTPCMonitorFFT(); four->ComplexRadix2ForwardWrap(data,1,bins); // write output and fill histos forward Double_t freq = 0.0; for(Int_t i=0;i<2*bins;i++) { if(iFill( freq,data[2*i] ); htrans_imag_freq->Fill( freq,data[2*i+1]); } } ctrans->cd(1); htrans_real_freq->Draw(); ctrans->cd(2); htrans_imag_freq->Draw(); ctrans->Update(); delete four; delete data; } //__________________________________________________________________ void AliTPCMonitor::ShowSel(Int_t* comp_val) { // Show only selected components // First restore original histogram from clone // Than remove all not matching pads form histos Int_t connector = 0; Int_t FECnr = 0; Int_t Altro = 0; Int_t FEClocbran = 0; Int_t branch = 0; Short_t rcuget = 0; Int_t emptyI = 1; Int_t index = -1; Int_t hwadd = 0; Float_t maxiroc = fHistIROCClone->GetMaximum(); Float_t maxoroc = fHistOROCClone->GetMaximum(); // restore original histos for(Int_t row = 0; rowGetCellContent(row+1,pad+1); if(index==-1)continue; else fHistIROC->SetCellContent(row+1,pad+1,fHistIROCClone->GetCellContent(row+1,pad+1)); } } for(Int_t row = 0; rowGetCellContent(row+1,pad+1); if(index==-1)continue; else fHistOROC->SetCellContent(row+1,pad+1,fHistOROCClone->GetCellContent(row+1,pad+1)); } } // remove not matching entries from fHistIROC/fHistOROC TH2F* fHist =0; TH2S* fHistIndex =0; Int_t npads =0; Int_t subrows =0; for(Int_t row = 0; row< (kNRowsIroc + kNRowsOroc); row++) { if(rowGetCellContent(row -subrows +1,pad+1); if(index==-1) continue ; hwadd = (Int_t)fHistChannelTime->GetCellContent(index,0); // global fecnr FECnr = fMapHand->GetFECfromHw(hwadd); if(comp_val[0]!=-1 && FECnr!=comp_val[0]) { fHist->SetCellContent(row-subrows+1,pad+1,0); continue; } // rcu rcuget = (hwadd & AliTPCMonitorAltro::GetHwMaskRCU())>> 12; if(comp_val[1]!=-1 && rcuget!=comp_val[1]) { fHist->SetCellContent(row-subrows+1,pad+1,0); continue; } // branch branch = fMapHand->U2fGetBranch(FECnr) ; if(comp_val[2]!=-1 && branch!=comp_val[2]) { fHist->SetCellContent(row-subrows+1,pad+1,0); continue; } // local fec FEClocbran= fMapHand->U2fGetFECinBranch(FECnr) ; if(comp_val[3]!=-1 && FEClocbran!=comp_val[3]) { fHist->SetCellContent(row-subrows+1,pad+1,0); continue; } // connector connector = fMapHand->GetFECconnector(hwadd); if(comp_val[4]!=-1 && connector!=comp_val[4]) { fHist->SetCellContent(row-subrows+1,pad+1,0); continue; } // Altro chip Altro = fMapHand->GetAltro(hwadd); if(comp_val[5]!=-1 && Altro!=comp_val[5]) { fHist->SetCellContent(row-subrows+1,pad+1,0); continue; } emptyI =0; } } TCanvas* c1 =0; TCanvas* c2 =0; if(gROOT->GetListOfCanvases()->FindObject("ciroc")) { c1 = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("ciroc"); c1->cd() ; fHistIROC->Draw("COLZ"); fHistIROC->SetMaximum(maxiroc); fHistIROC->SetMinimum(0.0); c1->Update(); } if(gROOT->GetListOfCanvases()->FindObject("coroc")) { c2 = (TCanvas*)gROOT->GetListOfCanvases()->FindObject("coroc"); c2->cd() ; fHistOROC->Draw("COLZ"); fHistOROC->SetMaximum(maxoroc); fHistOROC->SetMinimum(0.0); c2->Update(); } return ; } //__________________________________________________________________ void AliTPCMonitor::ResizeCanv() { // Resize canvases and delete some of them Char_t carry1[100]; sprintf(carry1,".x %s/TPC/AliTPCMonitorExec.C(1)",gSystem->Getenv("ALICE_ROOT")); Char_t carry3[100]; sprintf(carry3,".x %s/TPC/AliTPCMonitorExec.C(2)",gSystem->Getenv("ALICE_ROOT")); if(fVerb) cout << " canv 1 " << endl; if(gROOT->GetListOfCanvases()->FindObject( "coroc_ch")) { delete gROOT->GetListOfCanvases()->FindObject("coroc_ch") ; } if(gROOT->GetListOfCanvases()->FindObject( "ciroc_ch")) { delete gROOT->GetListOfCanvases()->FindObject("ciroc_ch") ; } // for 2dim plots delete create and draw again if(gROOT->GetListOfCanvases()->FindObject("ciroc")) { delete gROOT->GetListOfCanvases()->FindObject("ciroc"); TCanvas* ciroc = CreateCanvas("ciroc"); ciroc->cd(); fHistIROC->Draw("COLZ"); ciroc->AddExec("pad",carry1); ciroc->AddExec("row",carry3); fExecPlaneMax=1; ciroc->Update(); } // for 2dim plots delete create and draw again if(gROOT->GetListOfCanvases()->FindObject("coroc")) { delete gROOT->GetListOfCanvases()->FindObject("coroc"); TCanvas* coroc = CreateCanvas("coroc"); coroc->cd(); fHistOROC->Draw("COLZ"); coroc->AddExec("pad",carry1); coroc->AddExec("row",carry3); coroc->Update(); fExecPlaneMax=1; } if(gROOT->GetListOfCanvases()->FindObject( "cbasemean")) { delete gROOT->GetListOfCanvases()->FindObject("cbasemean"); } if(gROOT->GetListOfCanvases()->FindObject( "cbase")) { delete gROOT->GetListOfCanvases()->FindObject("cbase");} if(gROOT->GetListOfCanvases()->FindObject( "cbaserms")) { delete gROOT->GetListOfCanvases()->FindObject("cbaserms"); } if(gROOT->GetListOfCanvases()->FindObject( "cmax")) { delete gROOT->GetListOfCanvases()->FindObject("cmax"); } if(gROOT->GetListOfCanvases()->FindObject( "csum")) { delete gROOT->GetListOfCanvases()->FindObject("csum"); } if(gROOT->GetListOfCanvases()->FindObject( "ciroc_ch_trans")) { delete gROOT->GetListOfCanvases()->FindObject("ciroc_ch_trans");} if(gROOT->GetListOfCanvases()->FindObject( "coroc_ch_trans")) { delete gROOT->GetListOfCanvases()->FindObject("coroc_ch_trans");} if(gROOT->GetListOfCanvases()->FindObject( "crow_time")) { delete gROOT->GetListOfCanvases()->FindObject("crow_time"); } if(gROOT->GetListOfCanvases()->FindObject( "crow_max")) { delete gROOT->GetListOfCanvases()->FindObject("crow_max"); } if(gROOT->GetListOfCanvases()->FindObject( "cx_max")) { delete gROOT->GetListOfCanvases()->FindObject("cx_max"); } if(gROOT->GetListOfCanvases()->FindObject( "crmsoroc")) { delete gROOT->GetListOfCanvases()->FindObject("crmsoroc"); fExecPadOrocRms = 0; } if(gROOT->GetListOfCanvases()->FindObject( "crmsiroc")) { delete gROOT->GetListOfCanvases()->FindObject("crmsiroc"); fExecPadIrocRms = 0; } if(gROOT->GetListOfCanvases()->FindObject( "crow_max")) { delete gROOT->GetListOfCanvases()->FindObject("crow_max"); } if(gROOT->GetListOfCanvases()->FindObject( "crow_max")) { delete gROOT->GetListOfCanvases()->FindObject("crow_max"); } } //__________________________________________________________________ Int_t AliTPCMonitor::ExecProcess() { // Executable for global Histogram // Will be called from /TPC/AliTPCMonitorExec.C(3) // Call ProcessEvent for same event and sector pointed at Int_t side = 0; Int_t sector = 0; Int_t event = gPad->GetEvent(); if(event != 61) return -1; TObject *select = gPad->GetSelected(); if(!select) return -1; if(!select->InheritsFrom("TH2")) {gPad->SetUniqueID(0); return -1; } if( strcmp(select->GetName(),"hglobal" )==0 || ( strcmp(select->GetName(),"SIDE A" )==0) ) side = 0; else if( strcmp(select->GetName(),"hglobal2")==0 || ( strcmp(select->GetName(),"SIDE C" )==0) ) side = 1; // get position Int_t px = gPad->GetEventX(); Int_t py = gPad->GetEventY(); Float_t upy = gPad->AbsPixeltoY(py); Float_t upx = gPad->AbsPixeltoX(px); Float_t y = gPad->PadtoY(upy); Float_t x = gPad->PadtoX(upx); Int_t testy = ((TH2*)select)->GetYaxis()->FindBin(y); Int_t testx = ((TH2*)select)->GetXaxis()->FindBin(x); if(((TH2*)select)->GetCellContent(testx,testy)==0) return -1 ; Float_t alpha = 0.0; if(x>0.0 && y > 0.0) alpha = TMath::Abs(TMath::ATan(TMath::Abs(x/y))); if(x>0.0 && y < 0.0) alpha = TMath::Abs(TMath::ATan(TMath::Abs(y/x))); if(x<0.0 && y < 0.0) alpha = TMath::Abs(TMath::ATan(TMath::Abs(x/y))); if(x<0.0 && y > 0.0) alpha = TMath::Abs(TMath::ATan(TMath::Abs(y/x))); if(x>0.0 && y < 0.0) alpha += ( TMath::Pi()/2); if(x<0.0 && y < 0.0) alpha += ( TMath::Pi()); if(x<0.0 && y > 0.0) alpha += (1.5*TMath::Pi()); sector = (Int_t)(alpha/(2*TMath::Pi()/18.0)); if(alpha> (sector+0.5)*(2*TMath::Pi()/18.0)) sector+=1; if(sector==18 && side ==0 ) { AliWarning("There was a wromg assignment of sector 0 with sector 18. Check sectors"); sector =0; } sector = (18-sector +4)%18; SetLastSector(sector+ side*18); SetProcNextEvent(0); if(fVerb) cout << "AliTPCMonitor::ExecProcess() next side " << side << " next sector " << sector << endl; return (Int_t)ProcessEvent(); } //__________________________________________________________________ Int_t AliTPCMonitor::GetRCUPatch(Int_t runid, Int_t eqid) { // Return RCU patch index for given equipment id eqid Int_t patch = 0; //if(runid>=704) if(runid>=0) { if(eqid>=1000) return 0; patch = fMapEqidsRcu[eqid] ; } else { if(eqid==408) {patch = 13*6+4 +0; } if(eqid==409) {patch = 13*6+5 +0; } if(eqid==509) {patch = 13*6+0 +0; } if(eqid==512) {patch = 13*6+3 +0; } if(eqid==513) {patch = 13*6+1 +0; } if(eqid==517) {patch = 13*6+2 +0; } if(eqid==404) {patch = 4*6+5 +0; } if(eqid==504) {patch = 4*6+4 +0; } if(eqid==407) {patch = 4*6+3 +0; } if(eqid==503) {patch = 4*6+2 +0; } if(eqid==508) {patch = 4*6+1 +0; } if(eqid==506) {patch = 4*6+0 +0; } } return patch; } //__________________________________________________________________ void AliTPCMonitor::DumpHeader(AliRawReaderRoot * fReaderROOT) { // Dump Event header for ROOT format cout << "EventHeader : fReaderROOT->GetEquipmentSize() :" << fReaderROOT->GetEquipmentSize() << endl; cout << "EventHeader : fReaderROOT->GetType() :" << fReaderROOT->GetType() << endl; cout << "EventHeader : fReaderROOT->GetRunNumber() :" << fReaderROOT->GetRunNumber() << endl; cout << "EventHeader : fReaderROOT->GetEventId() :" << *(fReaderROOT->GetEventId()) << endl; cout << "EventHeader : fReaderROOT->GetLDCId() :" << fReaderROOT->GetLDCId() << endl; cout << "EventHeader : fReaderROOT->GetGDCId() :" << fReaderROOT->GetGDCId() << endl; } //__________________________________________________________________ void AliTPCMonitor::DumpHeader(AliTPCMonitorDateFormat* DateForm) { // Dump Event header for DATE format cout << "EquipmentHeader : DateForm->GetEquipmentSize() :" << DateForm->GetEquipmentSize() << endl; cout << "EquipmentHeader : DateForm->GetEquipmentType() :" << DateForm->GetEquipmentType() << endl; cout << "EquipmentHeader : DateForm->GetEquipmentID() :" << DateForm->GetEquipmentID() << endl; cout << "EquipmentHeader : DateForm->GetEquipmentTypeAttribute() :" << DateForm->GetEquipmentTypeAttribute() << endl; cout << "EquipmentHeader : DateForm->GetEquipmentBasicSize() :" << DateForm->GetEquipmentBasicSize() << endl; cout << "EquipmentHeader : DateForm->GetEquipmentHeaderSize() :" << DateForm->GetEquipmentHeaderSize() << endl; cout << "EquipmentHeader : DateForm->IsLastSubEventHeader() :" << DateForm->IsLastSubEventHeader() << endl; } //__________________________________________________________________ Double_t AliTPCMonitor::Gamma4(Double_t* x, Double_t* par) { // Gamma4 function used to fit signals // Defined in sections: diverging branch set to 0 Double_t val = 0.0; if(x[0] > par[1]) val = par[0]*exp(4.0)* pow((x[0]-par[1])/par[2],4)*exp(-4.0*(x[0]-par[1])/par[2])+ par[3]; else val = 0; return val; } //__________________________________________________________________ TCanvas* AliTPCMonitor::CreateCanvas(Char_t* name) { // Create Canvases TCanvas* canv =0; Int_t xoffset = GetCanvasXOffset(); Int_t xsize = GetCanvasXSize(); Int_t ysize = GetCanvasYSize(); Int_t xspace = GetCanvasXSpace(); Int_t yspace = GetCanvasYSpace(); // ROC 2dim max distribution if( strcmp(name,"coroc" )==0) { canv = new TCanvas("coroc" ,"coroc" , -1+xoffset,(Int_t)(yspace+0.5*ysize) ,(Int_t)(1.5*xsize),(Int_t)(1.5*ysize)); return canv; } else if(strcmp(name,"ciroc" )==0) { canv = new TCanvas("ciroc" ,"ciroc" , -1+xoffset, 0 ,(Int_t)(1.5*xsize),(Int_t)(1.5*ysize)); return canv; } // ROC 2dim rms distribution else if(strcmp(name,"crmsoroc" )==0) { canv = new TCanvas("crmsoroc" ,"crmsoroc" , -1+xoffset,(Int_t)(yspace+0.5*ysize) ,(Int_t)(1.5*xsize),(Int_t)(1.5*ysize)); return canv; } else if(strcmp(name,"crmsiroc" )==0) { canv = new TCanvas("crmsiroc" ,"crmsiroc" , -1+xoffset, 0 ,(Int_t)(1.5*xsize),(Int_t)(1.5*ysize)); return canv; } // Global ADC max Histos else if(strcmp(name,"SIDE C all" )==0) { canv = new TCanvas("SIDE C all" ,"SIDE C all" , (Int_t)(3*xspace+ xoffset),(Int_t)(yspace+0.5*ysize) ,(Int_t)(1.5*xsize),(Int_t)(1.5*ysize)); return canv; } else if(strcmp(name,"SIDE A all" )==0) { canv = new TCanvas("SIDE A all" ,"SIDE A all" , (Int_t)(3*xspace+ xoffset), 0 ,(Int_t)(1.5*xsize),(Int_t)(1.5*ysize)); return canv; } // 1 dim max sum basekine distribution else if(strcmp(name,"cmax" )==0) { canv = new TCanvas("cmax" ,"cmax" , -1+xoffset, 3*yspace ,(Int_t)(1.0*xsize),(Int_t)(1.0*ysize)); return canv; } else if(strcmp(name,"csum" )==0) { canv = new TCanvas("csum" ,"csum" , xspace+xoffset, 3*yspace ,(Int_t)(1.0*xsize),(Int_t)(1.0*ysize)); return canv; } else if(strcmp(name,"cbasemean" )==0) { canv = new TCanvas("cbasemean" ,"cbasemean" , 2*xspace+xoffset, 3*yspace ,(Int_t)(1.0*xsize),(Int_t)(1.0*ysize)); return canv; } else if(strcmp(name,"cbaserms" )==0) { canv = new TCanvas("cbaserms" ,"cbaserms" , 3*xspace+xoffset, 3*yspace ,(Int_t)(1.0*xsize),(Int_t)(1.0*ysize)); return canv; } // Projections of single channel else if(strcmp(name,"coroc_ch" )==0) { canv = new TCanvas("coroc_ch" ,"coroc_ch" , (Int_t)(1.5*xspace+xoffset),(Int_t)(yspace+0.5*ysize),(Int_t)(1.5*xsize),(Int_t)(1.5*ysize)); return canv; } else if(strcmp(name,"ciroc_ch" )==0) { canv = new TCanvas("ciroc_ch" ,"ciroc_ch" , (Int_t)(1.5*xspace+xoffset), 0 ,(Int_t)(1.5*xsize),(Int_t)(1.5*ysize)); return canv; } // FFT for single channel else if(strcmp(name,"coroc_ch_trans")==0) { canv = new TCanvas("coroc_ch_trans","coroc_ch_trans",(Int_t)(3.0*xspace+xoffset),(Int_t)(yspace+0.5*ysize),(Int_t)(1.5*xsize),(Int_t)(1.5*ysize)); return canv; } else if(strcmp(name,"ciroc_ch_trans")==0) { canv = new TCanvas("ciroc_ch_trans","ciroc_ch_trans",(Int_t)(3.0*xspace+xoffset), 0 ,(Int_t)(1.5*xsize),(Int_t)(1.5*ysize)); return canv; } // row profile histograms else if(strcmp(name,"crow_time" )==0) { canv = new TCanvas("crow_time" ,"crow_time" , 1*xspace+xoffset, 2*yspace +ysize ,(Int_t)(1.0*xsize),(Int_t)(1.0*ysize)); return canv; } else if(strcmp(name,"crow_max" )==0) { canv = new TCanvas("crow_max" ,"crow_max" , 2*xspace+xoffset, 2*yspace +ysize ,(Int_t)(1.0*xsize),(Int_t)(1.0*ysize)); return canv; } else if(strcmp(name,"cx_max" )==0) { canv = new TCanvas("cx_max" ,"cx_max" , 3*xspace+xoffset, 2*yspace +ysize ,(Int_t)(1.0*xsize),(Int_t)(1.0*ysize)); return canv; } else { cout << " Warning Canvas name unknown " << endl; return 0 ; } } //__________________________________________________________________ void AliTPCMonitor::WriteHistos() { // Writes all available histograms to a file in current directory // File name will be specified by : sector, side, runid and eventnumber if(GetEventProcessed()) { AliInfo("Write histos to file"); Char_t name[256]; sprintf(name,"SIDE_%i_SECTOR_%02i_RUN_%05i_EventID_%06i.root",(GetLastSector()/18),(GetLastSector()%18),fRunId,fEventNumber); TFile* f = new TFile(name,"recreate"); for(Int_t i =0; iGetEntries(); i++) { if(((TH1*)fHistList->At(i))!=0) { ((TH1*)fHistList->At(i))->Write(); } } f->ls(); f->Close(); } else { AliError("No Event Processed : Chose Format , File and push 'Next Event' "); } } //__________________________________________________________________ TH1* AliTPCMonitor::GetHisto(char* histname) { // Returns histogram specified by histname // check available names for histos in CreateHistos() TH1* hist = 0; if((TH1*)fHistList->FindObject(histname)) { hist = (TH1*)fHistList->FindObject(histname); } else { cout << " AliTPCMonitor::GetHisto :: Can not find histo with name " << histname << endl; } return hist ; }