/************************************************************************** * 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. * **************************************************************************/ /* $Id$ */ /// \class AliMUONData /// /// Class containing MUON data: hits, digits, rawclusters, globaltrigger, localtrigger, etc .. /// The classe makes the lik between the MUON data lists and the event trees from loaders /// /// \author Gines Martinez, Subatech, September 2003 /// #include "AliMUONData.h" #include "AliMUONDataIterator.h" #include "AliMUONConstants.h" #include "AliMUONHit.h" #include "AliMUONDigit.h" #include "AliMUONGlobalTrigger.h" #include "AliMUONLocalTrigger.h" #include "AliMUONRegionalTrigger.h" #include "AliMUONTriggerCrateStore.h" #include "AliMUONTriggerCircuit.h" #include "AliMUONGeometryTransformer.h" #include "AliMUONRawCluster.h" // This is from rec, classes in base should not depend on rec !!! #include "AliMUONTrack.h" #include "AliMUONTriggerTrack.h" #include "AliRunLoader.h" #include "AliStack.h" #include "AliLog.h" #include #include #include #include #include /// \cond CLASSIMP ClassImp(AliMUONData) /// \endcond //_____________________________________________________________________________ AliMUONData::AliMUONData(): TNamed(), fRunLoader(0x0), fLoader(0x0), fHits(0x0), fDigits(0x0), fSDigits(0x0), fRawClusters(0x0), fGlobalTrigger(0x0), fLocalTrigger(0x0), fRegionalTrigger(0x0), fRecTracks(0x0), fRecTriggerTracks(0x0), fNhits(0), fNdigits(0x0), fNSdigits(0x0), fNrawclusters(0x0), fNglobaltrigger(0), fNlocaltrigger(0), fNregionaltrigger(0), fNrectracks(0), fNrectriggertracks(0), fSplitLevel(0), fCurrentEvent(-1) { /// Default constructor } //_____________________________________________________________________________ AliMUONData::AliMUONData(AliLoader * loader, const char* name, const char* title): TNamed(name,title), fRunLoader(0x0), fLoader(loader), fHits(0x0), fDigits(0x0), fSDigits(0x0), fRawClusters(0x0), fGlobalTrigger(0x0), fLocalTrigger(0x0), fRegionalTrigger(0x0), fRecTracks(0x0), fRecTriggerTracks(0x0), fNhits(0), fNdigits(0x0), fNSdigits(0x0), fNrawclusters(0x0), fNglobaltrigger(0), fNlocaltrigger(0), fNregionaltrigger(0), fNrectracks(0), fNrectriggertracks(0), fSplitLevel(0), fCurrentEvent(-1) { /// Standard constructor } //_____________________________________________________________________________ AliMUONData::AliMUONData(const char* galiceFile): TNamed("MUON", "MUON"), fRunLoader(0x0), fLoader(0x0), fHits(0x0), fDigits(0x0), fSDigits(0x0), fRawClusters(0x0), fGlobalTrigger(0x0), fLocalTrigger(0x0), fRegionalTrigger(0x0), fRecTracks(0x0), fRecTriggerTracks(0x0), fNhits(0), fNdigits(0x0), fNSdigits(0x0), fNrawclusters(0x0), fNglobaltrigger(0), fNlocaltrigger(0), fNregionaltrigger(0), fNrectracks(0), fNrectriggertracks(0), fSplitLevel(0), fCurrentEvent(-1) { /// Constructor for loading data from gAlice file fRunLoader = AliRunLoader::Open(galiceFile, "MUONFolder", "READ"); if (!fRunLoader) { AliError(Form("Error opening %s file \n", galiceFile)); return; } fLoader = fRunLoader->GetLoader("MUONLoader"); if ( ! fLoader ) { AliError(Form("Could get MUONLoader")); return; } } //_____________________________________________________________________________ AliMUONData::~AliMUONData() { /// Destructor for AliMUONData if (fHits) { fHits->Delete(); delete fHits; } if (fDigits) { fDigits->Delete(); delete fDigits; } if (fSDigits) { fSDigits->Delete(); delete fSDigits; } if (fRawClusters) { fRawClusters->Delete(); delete fRawClusters; } if (fGlobalTrigger){ fGlobalTrigger->Delete(); delete fGlobalTrigger; } if (fRegionalTrigger){ fRegionalTrigger->Delete(); delete fRegionalTrigger; } if (fLocalTrigger){ fLocalTrigger->Delete(); delete fLocalTrigger; } if (fRecTracks){ fRecTracks->Delete(); delete fRecTracks; } if (fRecTriggerTracks){ fRecTriggerTracks->Delete(); delete fRecTriggerTracks; } if (fRunLoader) { fRunLoader->UnloadAll(); delete fRunLoader; } } //____________________________________________________________________________ void AliMUONData::AddHit(Int_t fIshunt, Int_t track, Int_t detElemId, Int_t idpart, Float_t X, Float_t Y, Float_t Z, Float_t tof, Float_t momentum, Float_t theta, Float_t phi, Float_t length, Float_t destep, Float_t Xref,Float_t Yref,Float_t Zref) { /// Add new hit to the hit list TClonesArray &lhits = *fHits; new(lhits[fNhits++]) AliMUONHit(fIshunt, track, detElemId, idpart, X, Y, Z, tof, momentum, theta, phi, length, destep, Xref,Yref,Zref); } //_____________________________________________________________________________ void AliMUONData::AddDigit(Int_t id, const AliMUONDigit& digit) { /// Add a MUON digit to the list of Digits of the detection plane id TClonesArray &ldigits = * Digits(id) ; new(ldigits[fNdigits[id]++]) AliMUONDigit(digit); } //_____________________________________________________________________________ void AliMUONData::AddSDigit(Int_t id, const AliMUONDigit& Sdigit) { /// Add a MUON Sdigit to the list of SDigits of the detection plane id TClonesArray &lSdigits = * SDigits(id) ; new(lSdigits[fNSdigits[id]++]) AliMUONDigit(Sdigit); } //_____________________________________________________________________________ void AliMUONData::AddGlobalTrigger(const AliMUONGlobalTrigger& trigger ) { /// Add a MUON Global Trigger to the list (only one GlobalTrigger per event !); TClonesArray &globalTrigger = *fGlobalTrigger; new(globalTrigger[fNglobaltrigger++]) AliMUONGlobalTrigger(trigger); } //____________________________________________________________________________ void AliMUONData::AddRegionalTrigger(const AliMUONRegionalTrigger& trigger) { /// add a MUON regional Trigger to the list TClonesArray ®ionalTrigger = *fRegionalTrigger; new(regionalTrigger[fNregionaltrigger++]) AliMUONRegionalTrigger(trigger); } //____________________________________________________________________________ void AliMUONData::AddLocalTrigger(const AliMUONLocalTrigger& trigger) { /// add a MUON Local Trigger to the list TClonesArray &localTrigger = *fLocalTrigger; new(localTrigger[fNlocaltrigger++]) AliMUONLocalTrigger(trigger); } //_____________________________________________________________________________ void AliMUONData::AddRawCluster(Int_t id, const AliMUONRawCluster& c) { /// Add a MUON rawcluster to the list in the detection plane id TClonesArray &lrawcl = *((TClonesArray*) fRawClusters->At(id)); new(lrawcl[fNrawclusters[id]++]) AliMUONRawCluster(c); } //_____________________________________________________________________________ void AliMUONData::AddRecTrack(const AliMUONTrack& track) { /// Add a MUON rectrack TClonesArray &lrectracks = *fRecTracks; new(lrectracks[fNrectracks++]) AliMUONTrack(track); } //_____________________________________________________________________________ void AliMUONData::AddRecTriggerTrack(const AliMUONTriggerTrack& triggertrack) { /// Add a MUON triggerrectrack TClonesArray &lrectriggertracks = *fRecTriggerTracks; new(lrectriggertracks[fNrectriggertracks++]) AliMUONTriggerTrack(triggertrack); } //____________________________________________________________________________ TClonesArray* AliMUONData::Digits(Int_t DetectionPlane) const { /// Getting List of Digits if (fDigits) return ( (TClonesArray*) fDigits->At(DetectionPlane) ); else return NULL; } //____________________________________________________________________________ TClonesArray* AliMUONData::SDigits(Int_t DetectionPlane) const { /// Getting List of SDigits if (fSDigits) return ( (TClonesArray*) fSDigits->At(DetectionPlane) ); else return NULL; } //____________________________________________________________________________ Bool_t AliMUONData::IsRawClusterBranchesInTree() { /// Checking if there are RawCluster Branches In TreeR if (TreeR()==0x0) { AliError("No treeR in memory"); return kFALSE; } else { char branchname[30]; sprintf(branchname,"%sRawClusters1",GetName()); TBranch * branch = 0x0; branch = TreeR()->GetBranch(branchname); if (branch) return kTRUE; else return kFALSE; } } //____________________________________________________________________________ Bool_t AliMUONData::IsDigitsBranchesInTree() { /// Checking if there are RawCluster Branches In TreeR if (TreeD()==0x0) { AliError("No treeD in memory"); return kFALSE; } else { char branchname[30]; sprintf(branchname,"%sDigits1",GetName()); TBranch * branch = 0x0; branch = TreeD()->GetBranch(branchname); if (branch) return kTRUE; else return kFALSE; } } //____________________________________________________________________________ Bool_t AliMUONData::IsTriggerBranchesInTree() { /// Checking if there are Trigger Branches In TreeR if (TreeR()==0x0) { AliError("No treeR in memory"); return kFALSE; } else { char branchname[30]; sprintf(branchname,"%sLocalTrigger",GetName()); TBranch * branch = 0x0; branch = TreeR()->GetBranch(branchname); if (branch) return kTRUE; else return kFALSE; } } //____________________________________________________________________________ Bool_t AliMUONData::IsTriggerBranchesInTreeD() { /// Checking if there are Trigger Branches In TreeR if (TreeD()==0x0) { AliError("No treeD in memory"); return kFALSE; } else { char branchname[30]; sprintf(branchname,"%sLocalTrigger",GetName()); TBranch * branch = 0x0; branch = TreeD()->GetBranch(branchname); if (branch) return kTRUE; else return kFALSE; } } //____________________________________________________________________________ Bool_t AliMUONData::IsTrackBranchesInTree() { /// Checking if there are Track Branches In TreeT if (TreeT()==0x0) { AliError("No treeT in memory"); return kFALSE; } else { char branchname[30]; sprintf(branchname,"%sTrack",GetName()); TBranch * branch = 0x0; branch = TreeT()->GetBranch(branchname); if (branch) return kTRUE; else return kFALSE; } } //____________________________________________________________________________ Bool_t AliMUONData::IsTriggerTrackBranchesInTree() { /// Checking if there are TriggerTrack Branches In TreeT if (TreeT()==0x0) { AliError("No treeT in memory"); return kFALSE; } else { char branchname[30]; sprintf(branchname,"%sTriggerTrack",GetName()); TBranch * branch = 0x0; branch = TreeT()->GetBranch(branchname); if (branch) return kTRUE; else return kFALSE; } } //____________________________________________________________________________ void AliMUONData::Fill(Option_t* option) { /// Method to fill the trees const char *cH = strstr(option,"H"); const char *cD = strstr(option,"D"); // Digits branches in TreeD const char *cS = strstr(option,"S"); // SDigits branches in TreeS const char *cRC = strstr(option,"RC"); // RawCluster branches in TreeR const char *cGLT = strstr(option,"GLT"); // Global and Local Trigger branches in TreeD const char *cTC = strstr(option,"TC"); // global and local Trigger branches Copy in TreeR const char *cRT = strstr(option,"RT"); // Reconstructed Track in TreeT const char *cRL = strstr(option,"RL"); // Reconstructed Trigger Track in TreeT //const char *cRP = strstr(option,"RP"); // Reconstructed Particle in TreeP char branchname[30]; TBranch * branch = 0x0; // Filling TreeH if ( TreeH() && cH ) { TreeH()->Fill(); } // Filling TreeD if ( TreeD() && cD && cGLT ) { // Writing digits and (global+local) trigger at once. TreeD()->Fill(); } else { if ( TreeD() && cD ) { if ( IsTriggerBranchesInTreeD() ) { for (int i=0; iGetBranch(branchname); branch->Fill(); } } else { TreeD()->Fill(); } } if ( TreeD() && cGLT ) { if ( IsDigitsBranchesInTree() ) { sprintf(branchname,"%sLocalTrigger",GetName()); branch = TreeD()->GetBranch(branchname); branch->Fill(); sprintf(branchname,"%sRegionalTrigger",GetName()); branch = TreeD()->GetBranch(branchname); branch->Fill(); sprintf(branchname,"%sGlobalTrigger",GetName()); branch = TreeD()->GetBranch(branchname); branch->Fill(); } else { TreeD()->Fill(); } } } // end of TreeD() handling. // Filling TreeS if ( TreeS() && cS) { TreeS()->Fill(); } // Filling TreeR if ( TreeR() && cRC && cTC ) { TreeR()->Fill(); } else { if ( TreeR() && cRC ) { if ( IsTriggerBranchesInTree() ) { // Branch per branch filling for (int i=0; iGetBranch(branchname); branch->Fill(); } } else { TreeR()->Fill(); } } if ( TreeR() && cTC) { if (IsRawClusterBranchesInTree()) { // Branch per branch filling sprintf(branchname,"%sLocalTrigger",GetName()); branch = TreeR()->GetBranch(branchname); branch->Fill(); sprintf(branchname,"%sRegionalTrigger",GetName()); branch = TreeR()->GetBranch(branchname); branch->Fill(); sprintf(branchname,"%sGlobalTrigger",GetName()); branch = TreeR()->GetBranch(branchname); branch->Fill(); } else { TreeR()->Fill(); } } } // Filling TreeT if ( TreeT() && cRT && cRL ) { TreeT()->Fill(); } else { if ( TreeT() && cRT ) { if (IsTriggerTrackBranchesInTree()) { sprintf(branchname,"%sTrack",GetName()); branch = TreeT()->GetBranch(branchname); branch->Fill(); } else { TreeT()->Fill(); } } if ( TreeT() && cRL ) { if (IsTrackBranchesInTree()) { sprintf(branchname,"%sTriggerTrack",GetName()); branch = TreeT()->GetBranch(branchname); branch->Fill(); } else { TreeT()->Fill(); } } } } //_____________________________________________________________________________ void AliMUONData::MakeBranch(Option_t* option) { /// Create Tree branches for the MUON. const Int_t kBufferSize = 4000; char branchname[30]; //Setting Data Container SetDataContainer(option); const char *cH = strstr(option,"H"); const char *cD = strstr(option,"D"); // Digits branches in TreeD const char *cS = strstr(option,"S"); // Digits branches in TreeS const char *cRC = strstr(option,"RC"); // RawCluster branches in TreeR const char *cGLT = strstr(option,"GLT"); // Global and Local Trigger branches in TreeD const char *cTC = strstr(option,"TC"); // global and local Trigger branches Copy in TreeR const char *cRT = strstr(option,"RT"); // Reconstructed Track in TreeT const char *cRL = strstr(option,"RL"); // Reconstructed Trigger Track in TreeT //const char *cRP = strstr(option,"RP"); // Reconstructed Particle in TreeP TBranch * branch = 0x0; // Creating Branches for Hits if (TreeH() && cH) { sprintf(branchname,"%sHits",GetName()); branch = TreeH()->GetBranch(branchname); if (branch) { AliInfo(Form("MakeBranch","Branch %s is already in tree.",branchname)); return ; } branch = TreeH()->Branch(branchname,&fHits,kBufferSize); //Info("MakeBranch","Making Branch %s for hits \n",branchname); } //Creating Branches for Digits TTree* treeD = 0x0; if ( cD || cGLT ) { treeD = TreeD(); } if ( treeD && cD ) { // one branch for digits per chamber for (Int_t iDetectionPlane=0; iDetectionPlaneGetBranch(branchname); if (branch) { AliInfo(Form("Branch %s is already in tree.",branchname)); return; } TClonesArray * digits = Digits(iDetectionPlane); branch = treeD->Branch(branchname, &digits, kBufferSize,1); } } if ( treeD && cGLT ) { // // one branch for global trigger // sprintf(branchname,"%sGlobalTrigger",GetName()); branch = treeD->GetBranch(branchname); if (branch) { AliInfo(Form("Branch GlobalTrigger is already in treeD.")); return ; } branch = treeD->Branch(branchname, &fGlobalTrigger, kBufferSize); // // one branch for regional trigger // sprintf(branchname,"%sRegionalTrigger",GetName()); branch = 0x0; branch = treeD->GetBranch(branchname); if (branch) { AliInfo(Form("Branch RegionalTrigger is already in treeD.")); return; } branch = treeD->Branch(branchname, &fRegionalTrigger, kBufferSize); // // one branch for local trigger // sprintf(branchname,"%sLocalTrigger",GetName()); branch = 0x0; branch = treeD->GetBranch(branchname); if (branch) { AliInfo(Form("Branch LocalTrigger is already in treeD.")); return; } branch = treeD->Branch(branchname, &fLocalTrigger, kBufferSize); } //Creating Branches for SDigits if (TreeS() && cS ) { // one branch for Sdigits per chamber for (Int_t iDetectionPlane=0; iDetectionPlaneGetBranch(branchname); if (branch) { AliInfo(Form("Branch %s is already in tree.",branchname)); return; } TClonesArray * sdigits = SDigits(iDetectionPlane); branch = TreeS()->Branch(branchname, &sdigits, kBufferSize,1); //Info("MakeBranch","Making Branch %s for sdigits in detection plane %d\n",branchname,iDetectionPlane+1); } } if (TreeR() && cRC ) { // one branch for raw clusters per tracking detection plane // Int_t i; for (i=0; iGetBranch(branchname); if (branch) { AliInfo(Form("Branch %s is already in tree.",branchname)); return; } branch = TreeR()->Branch(branchname, &((*fRawClusters)[i]),kBufferSize); //Info("MakeBranch","Making Branch %s for rawcluster in detection plane %d\n",branchname,i+1); } } if (TreeR() && cTC ) { // // one branch for global trigger // sprintf(branchname,"%sGlobalTrigger",GetName()); branch = 0x0; branch = TreeR()->GetBranch(branchname); if (branch) { AliInfo(Form("Branch GlobalTrigger is already in treeR.")); return ; } branch = TreeR()->Branch(branchname, &fGlobalTrigger, kBufferSize); //Info("MakeBranch", "Making Branch %s for Global Trigger\n",branchname); // // one branch for regional trigger // sprintf(branchname,"%sRegionalTrigger",GetName()); branch = 0x0; branch = TreeR()->GetBranch(branchname); if (branch) { AliInfo(Form("Branch RegionalTrigger is already in treeR.")); return; } branch = TreeR()->Branch(branchname, &fRegionalTrigger, kBufferSize); // // one branch for local trigger // sprintf(branchname,"%sLocalTrigger",GetName()); branch = 0x0; branch = TreeR()->GetBranch(branchname); if (branch) { AliInfo(Form("Branch LocalTrigger is already in treeR.")); return; } branch = TreeR()->Branch(branchname, &fLocalTrigger, kBufferSize); //Info("MakeBranch", "Making Branch %s for Global Trigger\n",branchname); } if (TreeT() && cRT ) { sprintf(branchname,"%sTrack",GetName()); branch = TreeT()->GetBranch(branchname); if (branch) { AliInfo(Form("Branch %s is already in tree.",GetName())); return ; } branch = TreeT()->Branch(branchname,&fRecTracks,kBufferSize); //Info("MakeBranch","Making Branch %s for tracks \n",branchname); } // trigger tracks if (TreeT() && cRL ) { sprintf(branchname,"%sTriggerTrack",GetName()); branch = TreeT()->GetBranch(branchname); if (branch) { AliInfo(Form("Branch %s is already in tree.",GetName())); return ; } branch = TreeT()->Branch(branchname,&fRecTriggerTracks,kBufferSize); //Info("MakeBranch","Making Branch %s for trigger tracks \n",branchname); } } //____________________________________________________________________________ TClonesArray* AliMUONData::RawClusters(Int_t DetectionPlane) { /// Getting Raw Clusters if (fRawClusters) return ( (TClonesArray*) fRawClusters->At(DetectionPlane) ); else return NULL; } //____________________________________________________________________________ TClonesArray* AliMUONData::LocalTrigger() const { /// Getting local trigger return fLocalTrigger; } //____________________________________________________________________________ TClonesArray* AliMUONData::RegionalTrigger() const { /// Getting regional trigger return fRegionalTrigger; } //____________________________________________________________________________ Int_t AliMUONData::GetNtracks() const { /// Get number of entries in hits three Int_t ntrk = 0; if (fLoader && fLoader->TreeH()) ntrk = (Int_t) fLoader->TreeH()->GetEntries(); return ntrk; } //____________________________________________________________________________ void AliMUONData::GetDigits() const { /// Load the digits from TreeD for the current event. Int_t event = fLoader->GetRunLoader()->GetEventNumber(); if ( fCurrentEvent != event ) { if (fLoader->TreeD()) { fLoader->TreeD()->GetEvent(0); fCurrentEvent = event; } } } //____________________________________________________________________________ TClonesArray* AliMUONData::GlobalTrigger() const { /// Return the global trigger return fGlobalTrigger; } //____________________________________________________________________________ void AliMUONData::ResetDigits() { /// Reset number of digits and the digits array for this detector if (fDigits == 0x0) return; for ( int i=0;iAt(i))->Clear("C"); if (fNdigits) fNdigits[i]=0; } } //____________________________________________________________________________ void AliMUONData::ResetSDigits() { /// Reset number of Sdigits and the Sdigits array for this detector if (fSDigits == 0x0) return; for ( int i=0;iAt(i))->Clear(); if (fNSdigits) fNSdigits[i]=0; } } //______________________________________________________________________________ void AliMUONData::ResetHits() { /// Reset number of clusters and the cluster array for this detector fNhits = 0; if (fHits) fHits->Clear(); } //_______________________________________________________________________________ void AliMUONData::ResetRawClusters() { /// Reset number of raw clusters and the raw clust array for this detector for ( int i=0;iAt(i))->Clear(); if (fNrawclusters) fNrawclusters[i]=0; } } //_______________________________________________________________________________ void AliMUONData::ResetTrigger() { /// Reset Local and Global Trigger fNglobaltrigger = 0; if (fGlobalTrigger) fGlobalTrigger->Clear(); fNregionaltrigger = 0; if (fRegionalTrigger) fRegionalTrigger->Clear(); fNlocaltrigger = 0; if (fLocalTrigger) fLocalTrigger->Clear(); } //____________________________________________________________________________ void AliMUONData::ResetRecTracks() { /// Reset tracks information fNrectracks = 0; if (fRecTracks) fRecTracks->Delete(); // necessary to delete in case of memory allocation } //____________________________________________________________________________ void AliMUONData::ResetRecTriggerTracks() { /// Reset tracks information fNrectriggertracks = 0; if (fRecTriggerTracks) fRecTriggerTracks->Delete(); // necessary to delete in case of memory allocation } //____________________________________________________________________________ void AliMUONData::SetDataContainer(Option_t* option) { /// Setting data containers of muon data const char *cH = strstr(option,"H"); const char *cD = strstr(option,"D"); // Digits const char *cS = strstr(option,"S"); // SDigits const char *cRC = strstr(option,"RC"); // RawCluster const char *cGLT = strstr(option,"GLT"); // Global and Local Trigger const char *cTC = strstr(option,"TC"); // global and local Trigger const char *cRT = strstr(option,"RT"); // Reconstructed Tracks const char *cRL = strstr(option,"RL"); // Reconstructed Trigger Tracks //const char *cRP = strstr(option,"RP"); // Reconstructed Particles AliDebug(1,Form("option=%s",option)); // // Clones array for hits if ( cH ) { if (fHits == 0x0) { fHits = new TClonesArray("AliMUONHit",1000); } ResetHits(); } // // ObjArray of ClonesArrays for Digits if ( cD ) { if (fDigits == 0x0 ) { fDigits = new TObjArray(AliMUONConstants::NCh()); fNdigits= new Int_t[AliMUONConstants::NCh()]; for (Int_t i=0; iSetOwner(); fDigits->AddAt(tca,i); fNdigits[i]=0; } } else { AliDebug(1,Form("fDigits already there = %p",fSDigits)); } ResetDigits(); } // // ClonesArrays for Trigger if ( cGLT ) { if (fLocalTrigger == 0x0) { fLocalTrigger = new TClonesArray("AliMUONLocalTrigger",234); } if (fRegionalTrigger == 0x0) { fRegionalTrigger = new TClonesArray("AliMUONRegionalTrigger",16); } if (fGlobalTrigger== 0x0) { fGlobalTrigger = new TClonesArray("AliMUONGlobalTrigger",1); } ResetTrigger(); } // // Container for Sdigits if (cS) { if (fSDigits == 0x0) { AliDebug(1,"Creating fSDigits TObjArray"); fSDigits = new TObjArray(AliMUONConstants::NCh()); fNSdigits= new Int_t[AliMUONConstants::NCh()]; for (Int_t i=0; iSetOwner(); fSDigits->AddAt(a,i); AliDebug(1,Form("fSDigits[%d]=%p",i,a)); fNSdigits[i]=0; } } else { AliDebug(1,Form("fSDigits already there = %p",fSDigits)); } ResetSDigits(); } // // Containers for rawclusters, globaltrigger and local trigger tree if (cRC ) { if (fRawClusters == 0x0) { fRawClusters = new TObjArray(AliMUONConstants::NTrackingCh()); fNrawclusters= new Int_t[AliMUONConstants::NTrackingCh()]; for (Int_t i=0; iSetOwner(); fRawClusters->AddAt(tca,i); fNrawclusters[i]=0; } } // ResetRawClusters(); // It breaks the correct functioning of the combined reconstruction (AZ) } if (cTC ) { if (fLocalTrigger == 0x0) { fLocalTrigger = new TClonesArray("AliMUONLocalTrigger",234); } if (fRegionalTrigger == 0x0) { fRegionalTrigger = new TClonesArray("AliMUONRegionalTrigger",16); } if (fGlobalTrigger== 0x0) { fGlobalTrigger = new TClonesArray("AliMUONGlobalTrigger",1); } // ResetTrigger(); // This is not necessary here since trigger info ins copied from digits info on flight to RecPoint output } // // Containers for rectracks and rectrigger tracks if ( cRT ) { if (fRecTracks == 0x0) { fRecTracks = new TClonesArray("AliMUONTrack",100); } ResetRecTracks(); } if (cRL) { if (fRecTriggerTracks == 0x0 && cRL) { fRecTriggerTracks = new TClonesArray("AliMUONTriggerTrack",100); } ResetRecTriggerTracks(); } } //____________________________________________________________________________ void AliMUONData::SetTreeAddress(Option_t* option) { // Setting Data containers SetDataContainer(option); /// Setting Addresses to the events trees const char *cH = strstr(option,"H"); const char *cD = strstr(option,"D"); // Digits branches in TreeD const char *cS = strstr(option,"S"); // SDigits branches in TreeS const char *cRC = strstr(option,"RC"); // RawCluster branches in TreeR const char *cGLT = strstr(option,"GLT"); // Global and Local Trigger branches in TreeD const char *cTC = strstr(option,"TC"); // global and local Trigger branches Copy in TreeR const char *cRT = strstr(option,"RT"); // Reconstructed Track in TreeT const char *cRL = strstr(option,"RL"); // Reconstructed Trigger Track in TreeT //const char *cRP = strstr(option,"RP"); // Reconstructed Particle in TreeP // Set branch address for the Hits, Digits, RawClusters, GlobalTrigger and LocalTrigger Tree. char branchname[30]; TBranch * branch = 0x0; AliDebug(1,Form("option=%s",option)); // // Branch address for hit tree if (TreeH() && fHits && cH) { sprintf(branchname,"%sHits",GetName()); branch = TreeH()->GetBranch(branchname); if (branch) { // Info("SetTreeAddress","(%s) Setting for Hits",GetName()); branch->SetAddress(&fHits); } else { //can be invoked before branch creation //AliWarning(Form("(%s) Failed for Hits. Can not find branch in tree.",GetName())); } } // // Branch address for digit tree if (TreeD() && fDigits && cD) { for (int i=0; iGetBranch(branchname); TClonesArray * digits = Digits(i); if (branch) { branch->SetAddress( &digits ); } else AliWarning(Form("(%s) Failed for Digits Detection plane %d. Can not find branch in tree.",GetName(),i)); } } } if ( TreeD() && fLocalTrigger && cGLT) { sprintf(branchname,"%sLocalTrigger",GetName()); branch = TreeD()->GetBranch(branchname); if (branch) branch->SetAddress(&fLocalTrigger); else AliWarning(Form("(%s) Failed for LocalTrigger. Can not find branch in treeD.",GetName())); } if ( TreeD() && fRegionalTrigger && cGLT) { sprintf(branchname,"%sRegionalTrigger",GetName()); branch = TreeD()->GetBranch(branchname); if (branch) branch->SetAddress(&fRegionalTrigger); else AliWarning(Form("(%s) Failed for RegionalTrigger. Can not find branch in treeD.",GetName())); } if ( TreeD() && fGlobalTrigger && cGLT) { sprintf(branchname,"%sGlobalTrigger",GetName()); branch = TreeD()->GetBranch(branchname); if (branch) branch->SetAddress(&fGlobalTrigger); else AliWarning(Form("(%s) Failed for GlobalTrigger. Can not find branch in treeD.",GetName())); } // // Branch address for Sdigit tree if (TreeS() && fSDigits && cS) { AliDebug(1,"Setting branch addresses"); for (int i=0; iGetBranch(branchname); TClonesArray * sdigits = SDigits(i); if (branch) branch->SetAddress( &sdigits ); else AliWarning(Form("(%s) Failed for SDigits Detection plane %d. Can not find branch in tree.",GetName(),i)); } } } // // Branch address for rawclusters, globaltrigger and local trigger tree if ( TreeR() && fRawClusters && cRC && !strstr(cRC,"RCC")) { for (int i=0; iGetBranch(branchname); if (branch) branch->SetAddress( &((*fRawClusters)[i]) ); else AliWarning(Form("(%s) Failed for RawClusters Detection plane %d. Can not find branch in tree.",GetName(),i)); } } } if ( TreeR() && fLocalTrigger && cTC) { sprintf(branchname,"%sLocalTrigger",GetName()); branch = TreeR()->GetBranch(branchname); if (branch) branch->SetAddress(&fLocalTrigger); else AliWarning(Form("(%s) Failed for LocalTrigger. Can not find branch in treeR.",GetName())); } if ( TreeR() && fRegionalTrigger && cTC) { sprintf(branchname,"%sRegionalTrigger",GetName()); branch = TreeR()->GetBranch(branchname); if (branch) branch->SetAddress(&fRegionalTrigger); else AliWarning(Form("(%s) Failed for RegionalTrigger. Can not find branch in treeR.",GetName())); } if ( TreeR() && fGlobalTrigger && cTC) { sprintf(branchname,"%sGlobalTrigger",GetName()); branch = TreeR()->GetBranch(branchname); if (branch) branch->SetAddress(&fGlobalTrigger); else AliWarning(Form("(%s) Failed for GlobalTrigger. Can not find branch in treeR.",GetName())); } // Rec Trakcs if ( TreeT() && fRecTracks && cRT ) { sprintf(branchname,"%sTrack",GetName()); branch = TreeT()->GetBranch(branchname); if (branch) branch->SetAddress(&fRecTracks); else AliWarning(Form("(%s) Failed for Tracks. Can not find branch in tree.",GetName())); } // Trigger tracks if ( TreeT() && fRecTriggerTracks && cRL ) { sprintf(branchname,"%sTriggerTrack",GetName()); branch = TreeT()->GetBranch(branchname); if (branch) branch->SetAddress(&fRecTriggerTracks); else AliWarning(Form("(%s) Failed for Trigger Tracks. Can not find branch in tree.",GetName())); } } //_____________________________________________________________________________ void AliMUONData::Print(Option_t* opt) const { /// Dump object on screen TString options(opt); options.ToUpper(); if ( options.Contains("D") ) { for ( Int_t ich = 0; ich < AliMUONConstants::NCh(); ++ich) { TClonesArray* digits = Digits(ich); Int_t ndigits = digits->GetEntriesFast(); for ( Int_t id = 0; id < ndigits; ++id ) { AliMUONDigit* digit = static_cast(digits->UncheckedAt(id)); digit->Print(); } } } if ( options.Contains("S") ) { for ( Int_t ich = 0; ich < AliMUONConstants::NCh(); ++ich) { TClonesArray* digits = SDigits(ich); Int_t ndigits = digits->GetEntriesFast(); for ( Int_t id = 0; id < ndigits; ++id ) { AliMUONDigit* digit = static_cast(digits->UncheckedAt(id)); digit->Print(); } } } } //_____________________________________________________________________________ void AliMUONData::DumpKine(Int_t event2Check) { /// Dump kinematics fRunLoader->LoadKinematics("READ"); Int_t nevents = fRunLoader->GetNumberOfEvents(); for (Int_t ievent=0; ieventGetEvent(ievent); // Stack of particle for this event AliStack* stack = fRunLoader->Stack(); Int_t nparticles = (Int_t) fRunLoader->Stack()->GetNtrack(); printf(">>> Event %d, Number of particles is %d \n", ievent, nparticles); for (Int_t iparticle=0; iparticleParticle(iparticle)->Print(""); } if (event2Check!=0) ievent=nevents; } fRunLoader->UnloadKinematics(); } //_____________________________________________________________________________ void AliMUONData::DumpHits(Int_t event2Check, Option_t* opt) { /// Dump hits fLoader->LoadHits("READ"); // Event loop Int_t nevents = fRunLoader->GetNumberOfEvents(); for (Int_t ievent=0; ievent>> Event %d \n",ievent); // Getting event ievent fRunLoader->GetEvent(ievent); SetTreeAddress("H"); // Track loop Int_t ntracks = (Int_t) GetNtracks(); for (Int_t itrack=0; itrackGetEntriesFast(); printf(">>> Track %d, Number of hits %d \n",itrack,nhits); for (Int_t ihit=0; ihit(Hits()->At(ihit)); mHit->Print(opt); } ResetHits(); } if (event2Check!=0) ievent=nevents; } fLoader->UnloadHits(); } //_____________________________________________________________________________ void AliMUONData::DumpDigits(Int_t event2Check, Option_t* opt) { /// Dump digits fLoader->LoadDigits("READ"); // Event loop Int_t firstEvent = 0; Int_t lastEvent = fRunLoader->GetNumberOfEvents()-1; if ( event2Check != 0 ) { firstEvent = event2Check; lastEvent = event2Check; } for ( Int_t ievent = firstEvent; ievent <= lastEvent; ++ievent ) { printf(">>> Event %d \n",ievent); fRunLoader->GetEvent(ievent); AliMUONDataIterator it(this, "digit", AliMUONDataIterator::kTrackingChambers); AliMUONDigit* digit; while ( ( digit = (AliMUONDigit*)it.Next() ) ) { digit->Print(opt); } } fLoader->UnloadDigits(); } //_____________________________________________________________________________ void AliMUONData::DumpSDigits(Int_t event2Check, Option_t* opt) { /// Dump SDigits fLoader->LoadSDigits("READ"); // Event loop Int_t nevents = fRunLoader->GetNumberOfEvents(); for (Int_t ievent=0; ievent>> Event %d \n",ievent); // Getting event ievent fRunLoader->GetEvent(ievent); SetTreeAddress("S"); GetSDigits(); // Loop on chambers Int_t nchambers = AliMUONConstants::NCh(); ; for (Int_t ichamber=0; ichamberGetEntriesFast(); for (Int_t idigit=0; idigit(digits->At(idigit)); mDigit->Print(opt); } } ResetSDigits(); if (event2Check!=0) ievent=nevents; } fLoader->UnloadSDigits(); } //_____________________________________________________________________________ void AliMUONData::DumpRecPoints(Int_t event2Check, Option_t* opt) { /// Dump rec points fLoader->LoadRecPoints("READ"); // Event loop Int_t nevents = fRunLoader->GetNumberOfEvents(); for (Int_t ievent=0; ievent>> Event %d \n",ievent); // Getting event ievent fRunLoader->GetEvent(ievent); Int_t nchambers = AliMUONConstants::NTrackingCh(); SetTreeAddress("RC,TC"); GetRawClusters(); // Loop on chambers for (Int_t ichamber=0; ichamber>> branchname %s\n",branchname); // Loop on rec points Int_t nrecpoints = (Int_t) RawClusters(ichamber)->GetEntriesFast(); // printf(">>> Chamber %2d, Number of recpoints = %6d \n",ichamber+1, nrecpoints); for (Int_t irecpoint=0; irecpoint(RawClusters(ichamber)->At(irecpoint)); mRecPoint->Print(opt); } } ResetRawClusters(); if (event2Check!=0) ievent=nevents; } fLoader->UnloadRecPoints(); } //_____________________________________________________________________________ void AliMUONData::DumpRecTrigger(Int_t event2Check, Int_t write, Bool_t readFromRP) { /// Reads and dumps trigger objects from MUON.RecPoints.root TClonesArray * globalTrigger; TClonesArray * localTrigger; // Do NOT print out all the info if the loop runs over all events Int_t printout = (event2Check == 0 ) ? 0 : 1 ; // Book a ntuple for more detailled studies TNtuple *tupleGlo = new TNtuple("TgtupleGlo","Global Trigger Ntuple","ev:global:slpt:shpt:uplpt:uphpt:lplpt:lplpt"); TNtuple *tupleLoc = new TNtuple("TgtupleLoc","Local Trigger Ntuple","ev:LoCircuit:LoStripX:LoDev:StripY:LoLpt:LoHpt:y11:y21:x11"); // counters Int_t sLowpt=0,sHighpt=0; Int_t uSLowpt=0,uSHighpt=0; Int_t lSLowpt=0,lSHighpt=0; AliMUONTriggerCrateStore* crateManager = new AliMUONTriggerCrateStore(); crateManager->ReadFromFile(); AliMUONGeometryTransformer* transformer = new AliMUONGeometryTransformer(kFALSE); transformer->ReadGeometryData("volpath.dat", "geometry.root"); TClonesArray* triggerCircuit = new TClonesArray("AliMUONTriggerCircuit", 234); for (Int_t i = 0; i < AliMUONConstants::NTriggerCircuit(); i++) { AliMUONTriggerCircuit* c = new AliMUONTriggerCircuit(); c->SetTransformer(transformer); c->Init(i,*crateManager); TClonesArray& circuit = *triggerCircuit; new(circuit[circuit.GetEntriesFast()])AliMUONTriggerCircuit(*c); delete c; } Char_t fileName[30]; if (!readFromRP) { AliInfoStream() << " reading from digits \n"; fLoader->LoadDigits("READ"); sprintf(fileName,"TriggerCheckFromDigits.root"); } else { AliInfoStream() << " reading from RecPoints \n"; fLoader->LoadRecPoints("READ"); sprintf(fileName,"TriggerCheckFromRP.root"); } AliMUONGlobalTrigger *gloTrg(0x0); AliMUONLocalTrigger *locTrg(0x0); Int_t nevents = fRunLoader->GetNumberOfEvents(); for (Int_t ievent=0; ieventGetEvent(ievent); if (!readFromRP) { SetTreeAddress("D,GLT"); GetTriggerD(); } else { SetTreeAddress("RC,TC"); GetTrigger(); } globalTrigger = GlobalTrigger(); localTrigger = LocalTrigger(); Int_t nglobals = (Int_t) globalTrigger->GetEntriesFast(); // should be 1 Int_t nlocals = (Int_t) localTrigger->GetEntriesFast(); // up to 234 if (printout) printf("###################################################\n"); if (printout) printf("event %d nglobal %d nlocal %d \n",ievent,nglobals,nlocals); for (Int_t iglobal=0; iglobal(globalTrigger->At(iglobal)); sLowpt+=gloTrg->SingleLpt() ; sHighpt+=gloTrg->SingleHpt() ; uSLowpt+=gloTrg->PairUnlikeLpt(); uSHighpt+=gloTrg->PairUnlikeHpt(); lSLowpt+=gloTrg->PairLikeLpt(); lSHighpt+=gloTrg->PairLikeHpt(); if (printout) gloTrg->Print("full"); } // end of loop on Global Trigger for (Int_t ilocal=0; ilocal(localTrigger->At(ilocal)); if (locTrg->LoLpt()!=0) { // board is fired if (printout) locTrg->Print("full"); AliMUONTriggerCircuit* circuit = (AliMUONTriggerCircuit*)triggerCircuit->At(locTrg->LoCircuit()-1); tupleLoc->Fill(ievent,locTrg->LoCircuit(),locTrg->LoStripX(),locTrg->LoDev(),locTrg->LoStripY(),locTrg->LoLpt(),locTrg->LoHpt(),circuit->GetY11Pos(locTrg->LoStripX()),circuit->GetY21Pos(locTrg->LoStripX()+locTrg->LoDev()+1),circuit->GetX11Pos(locTrg->LoStripY())); } } // end of loop on Local Trigger // fill ntuple tupleGlo->Fill(ievent,nglobals,gloTrg->SingleLpt(),gloTrg->SingleHpt(),gloTrg->PairUnlikeLpt(),gloTrg->PairUnlikeHpt(),gloTrg->PairLikeLpt(),gloTrg->PairLikeHpt()); ResetTrigger(); if (event2Check!=0) ievent=nevents; } // end loop on event // Print out summary if loop ran over all event if (!event2Check){ printf("\n"); printf("=============================================\n"); printf("================ SUMMARY ==================\n"); printf("\n"); printf("Total number of events processed %d \n", (event2Check==0) ? nevents : 1); printf("\n"); printf(" Global Trigger output Low pt High pt\n"); printf(" number of Single :\t"); printf("%i\t%i\t",sLowpt,sHighpt); printf("\n"); printf(" number of UnlikeSign pair :\t"); printf("%i\t%i\t",uSLowpt,uSHighpt); printf("\n"); printf(" number of LikeSign pair :\t"); printf("%i\t%i\t",lSLowpt,lSHighpt); printf("\n"); printf("=============================================\n"); fflush(stdout); } if (write){ TFile *myFile = new TFile(fileName, "RECREATE"); tupleGlo->Write(); tupleLoc->Write(); myFile->Close(); } fLoader->UnloadRecPoints(); delete crateManager; delete transformer; delete triggerCircuit; }