//-*- Mode: C++ -*- // ** USED macros : // *************************************************** // - hlt_alieve_init.C // - VizDB_scan.C // - geom_gentle_hlt.C // - geom_gentle_muon.C // *************************************************** #if !defined(__CINT__) || defined(__MAKECINT__) //****************** ROOT ****************************************** #include "TTimer.h" #include "TRandom.h" #include "TVirtualPad.h" #include "TGLViewer.h" #include "TThread.h" #include "TGFileBrowser.h" #include "TStyle.h" #include "TList.h" #include "TDirectory.h" #include "TFile.h" #include "TH2.h" #include "TCanvas.h" #include "TColor.h" #include "TVector3.h" //****************** ROOT/EVE ************************************** #include "TEveManager.h" #include "TEvePointSet.h" #include "TEveTrack.h" #include "TEveVSDStructs.h" #include "TEveTrackPropagator.h" #include "TEveScene.h" #include "TEveElement.h" #include "TEveUtil.h" #include "TEveEventManager.h" #include "TEveProjectionAxes.h" #include "TEveWindowManager.h" #include "TEveViewer.h" #include "TEveText.h" #include "TEveProjectionManager.h" #include "TEveGeoShape.h" #include "TEveBoxSet.h" #include "TEveTrans.h" #include "TEveRGBAPalette.h" #include "TLine.h" #include "TEveStraightLineSet.h" #include "TGeoNode.h" #include "TGeoManager.h" #include "TGLOverlayButton.h" //****************** AliRoot *************************************** #include "AliESDEvent.h" #include "AliCDBManager.h" #include "AliRawReaderMemory.h" #include "AliTPCRawStream.h" #include "AliGeomManager.h" //****************** AliRoot/EVE *********************************** #include "AliHLTHOMERManager.h" #include "AliEveHOMERManager.h" #include "AliEveTPCLoader.h" #include "AliEveTPCData.h" #include "AliEveITSDigitsInfo.h" #include "AliEveITSModule.h" #include "AliEveMacroExecutor.h" #include "AliEveMacro.h" #include "AliEveTrack.h" //****************** AliRoot/HLT *********************************** #include "AliHLTHOMERBlockDesc.h" #include "AliHLTHOMERReader.h" #include "AliHLTMUONUtils.h" #include "AliHLTMUONDataBlockReader.h" #include "AliHLTTriggerDecision.h" #include "AliHLTGlobalTriggerDecision.h" #include "AliHLTTPCCATrackParam.h" //****************** AliRoot/MUON ********************************** #include "AliMUONCalibrationData.h" #include "AliMUONVCalibParam.h" #include "AliMUONGeometryTransformer.h" #include "AliMUONGeometryDetElement.h" #include "AliMUONConstants.h" #include "AliMpCDB.h" #include "AliMpDDLStore.h" #include "AliMpDetElement.h" #include "AliMpDEIterator.h" #include "AliMpVSegmentation.h" #include "AliMpSegmentation.h" #include "AliMpTriggerCrate.h" #include "AliMpLocalBoard.h" //****************** AliRoot/ITS *********************************** #include "AliITSRecPoint.h" //****************** AliRoot/TRD *********************************** #include "AliHLTTRDCluster.h" #include "AliTRDcluster.h" #include "AliTRDCalibraVdriftLinearFit.h" //****************** AliRoot/EMCAL ********************************* #include "AliHLTCaloClusterDataStruct.h" #include "AliHLTCaloClusterReader.h" #include "HLT/CALO/AliHLTCaloChannelDataHeaderStruct.h" #include "HLT/CALO/AliHLTCaloChannelDataStruct.h" //****************** AliRoot/PHOS ********************************** #include "AliPHOSGeometry.h" #include "HLT/PHOS/AliHLTPHOSDigitDataStruct.h" #include "AliHLTPHOSChannelDataHeaderStruct.h" #include "AliHLTPHOSChannelDataStruct.h" #include "HLT/CALO/AliHLTCaloChannelDataHeaderStruct.h" #include "HLT/CALO/AliHLTCaloChannelDataStruct.h" #include "AliHLTCaloDigitDataStruct.h" //****************** Macros **************************************** #include "hlt_structs.C" #include "hlt_alieve_init.C" #include "geom_gentle_hlt.C" #include "alice-macros/esd_tracks.C" #include "hlt_esd_tracks.C" //#include "alieve_vizdb.C" #endif class TEveTrackList; class TEveProjectionManager; class TEveGeoShape; class TEveUtil; class AliEveMacroExecutor; class TEveScene; class TEveElement; class TEveText; class AliHLTTriggerDecision; class TEvePointSet; class TEvePointSetArray; class AliHLTHOMERBlockDesc; class TEveViewer; // ----------------------------------------------------------------- // -- Geometry / Scenes -- // ----------------------------------------------------------------- TEveGeoShape *gGeomGentle = 0; TEveGeoShape *gGeomGentleRPhi = 0; TEveGeoShape *gGeomGentleRhoZ = 0; TEveGeoShape *gGeomGentleTRD = 0; TEveGeoShape *gGeomGentleMUON = 0; TEveScene *gRPhiGeomScene = 0; TEveScene *gRhoZGeomScene = 0; TEveScene *gRPhiEventScene = 0; TEveScene *gRhoZEventScene = 0; TEveProjectionManager *gRPhiMgr = 0; TEveProjectionManager *gRhoZMgr = 0; TEveViewer *g3DView = 0; TEveViewer *gRPhiView = 0; TEveViewer *gRhoZView = 0; // ----------------------------------------------------------------- // -- Geometry / Scenes Parameters -- // ----------------------------------------------------------------- // -- Parameters to show different geometries Bool_t gShowMUON = kTRUE; Bool_t gShowMUONRPhi = kFALSE; Bool_t gShowMUONRhoZ = kTRUE; Bool_t gShowTRD = kFALSE; Bool_t gCenterProjectionsAtPrimaryVertex = kFALSE; // ----------------------------------------------------------------- // -- Members -- // ----------------------------------------------------------------- // -- Timer for automatic event loop TTimer eventTimer; TTimer eventTimerFast; // -- HOMERManager AliEveHOMERManager* gHomerManager = 0; // -- Geometry Manager TGeoManager* gGeoManager = 0; AliPHOSGeometry* gPHOSGeom = 0; // -- Cluster members TEvePointSet* gSPDClusters = 0; TEvePointSet* gSSDClusters = 0; TEvePointSet* gSDDClusters = 0; TEvePointSet* gTRDClusters = 0; TEvePointSetArray* gTRDColClusters = 0; TEvePointSet* gTPCClusters = 0; TEvePointSet* gTPCTestClusters = 0; TEvePointSetArray* gTPCColClusters = 0; TEveBoxSet* gPHOSBoxSet[5] = {0, 0, 0, 0, 0}; TEveBoxSet* gEMCALBoxSet[13] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; TEvePointSet* gMUONClusters = 0; TEveStraightLineSet* gMUONTracks = 0; // -- Text output members TEveText* gHLTText = 0; // -- Tracks members TEveTrackList* gTPCTrack = 0; // -- Canvas for histograms TCanvas* gTRDCanvas = 0; TCanvas* gTPCCanvas = 0; TCanvas* gTPCClustCanvas = 0; TCanvas* gTRDCalibCanvas = 0; TCanvas* gTRDEORCanvas = 0; TCanvas* gPrimVertexCanvas = 0; TCanvas* gSPDVertexCanvas = 0; TCanvas* gITSCanvas = 0; TCanvas* gSSDCanvas0 = 0; TCanvas* gSSDCanvas1 = 0; TCanvas* gV0Canvas = 0; TCanvas* gPHOSCanvas = NULL; TCanvas* gEMCALCanvas = 0; // -- vertex -- Int_t gSPDVertexHistoCount = 0; // -- ITS -- Int_t gITSHistoCount = 0; Int_t gSSDHistoCount0 = 0; Int_t gSSDHistoCount1 = 0; // -- TRD -- Int_t gTRDHistoCount = 0; Int_t gTRDEvents = 0; Int_t gTRDBins = 12; // -- TPC -- Int_t gTPCBins = 15; TH1F* gTPCCharge = 0; TH1F* gTPCQMax = 0; TH1F* gTPCQMaxOverCharge = 0; TH1F* gTPCPt = 0; // KK TH1F* gTPCEta = 0; TH1F* gTPCPsi = 0; TH1F* gTPCnClusters = 0; TH1F* gTPCMult = 0; // -- PHOS -- TEveElementList* gPHOSElementList = 0; Int_t gPHOSHistoCount =0; // -- EMCAL TEveElementList* gEMCALElementList = 0; TGeoNode* gEMCALNode = 0; Int_t gEMCALHistoCount =0; // --- Flag if eventloop is running Bool_t gEventLoopStarted = kFALSE; //Container for gGeoManager till it is broken TGeoManager *fGeoManager = 0; // ----------------------------------------------------------------- // -- Methods -- // ----------------------------------------------------------------- Int_t initializeEveViewer( Bool_t TPCMode, Bool_t MUONMode, Bool_t TRDMode ); void nextEvent(); Int_t processEvent(); Int_t processPHOSClusters( AliHLTHOMERBlockDesc* block); Int_t processPHOSDigits(AliHLTHOMERBlockDesc* block); Int_t processEMCALClusters( AliHLTHOMERBlockDesc* block); Int_t processEsdTracks( AliHLTHOMERBlockDesc* block, TEveTrackList* cont ); Int_t processHLTRDLST( AliHLTHOMERBlockDesc* block ); Int_t processROOTTOBJ( AliHLTHOMERBlockDesc* block, TEveText* text ); Int_t processTPCClusters( AliHLTHOMERBlockDesc * block, TEvePointSet *cont, TEvePointSetArray *contCol = NULL ); Int_t processTRDClusters( AliHLTHOMERBlockDesc * block, TEvePointSet *cont, TEvePointSetArray *contCol); Int_t processTRDHistograms( AliHLTHOMERBlockDesc * block, TCanvas * canvas ); Int_t processITSHistograms( AliHLTHOMERBlockDesc * block, TCanvas * canvas ); Int_t processSSDHistograms( AliHLTHOMERBlockDesc * block, TCanvas * canvas, TCanvas * canvas1 ); Int_t processPrimVertexHistograms( AliHLTHOMERBlockDesc * block, TCanvas * canvas ); Int_t processSPDVertexHistograms( AliHLTHOMERBlockDesc * block, TCanvas * canvas ); Int_t processV0Histograms( AliHLTHOMERBlockDesc * block, TCanvas * canvas ); Int_t processTRDCalibHistograms( AliHLTHOMERBlockDesc *block, TCanvas *canvas ); Int_t processMUONClusters( AliHLTHOMERBlockDesc* block ); Int_t processMUONTracks( AliHLTHOMERBlockDesc* block ); Int_t processITSClusters( AliHLTHOMERBlockDesc* block, TEvePointSet* cont ); Int_t processITSHist( AliHLTHOMERBlockDesc* block ); //Global functions Int_t processBlock( AliHLTHOMERBlockDesc* block ); void resetDisplay(); //Detector specific block handlers Int_t processTRDBlock(AliHLTHOMERBlockDesc * block); void processISPDBlock(AliHLTHOMERBlockDesc * block); void processISDDBlock(AliHLTHOMERBlockDesc * block); void processISSDBlock(AliHLTHOMERBlockDesc * block); void processMUONBlock(AliHLTHOMERBlockDesc * block); Int_t processPHOSBlock (AliHLTHOMERBlockDesc * block); TEveElementList * createPHOSElementList(); void processEMCALBlock(AliHLTHOMERBlockDesc * block); TEveElementList * createEMCALElementList(); void processHLTBlock(AliHLTHOMERBlockDesc * block); void processTPCBlock(AliHLTHOMERBlockDesc * block); void processITSBlock(AliHLTHOMERBlockDesc * block); //Generic functions TCanvas * CreateCanvas(TString tabTitle, TString canvasTitle ); Int_t updateDisplay(); Int_t AddHistogramsToCanvas(AliHLTHOMERBlockDesc * block, TCanvas * canvas, Int_t &cdCount ); void writeToFile(); // ################################################################# // ################################################################# // ################################################################# // ----------------------------------------------------------------- void onlineDisplay(Bool_t TPCMode = kTRUE, Bool_t MUONMode = kFALSE, Bool_t TRDMode = kFALSE) { // -- Loading Geometry // --------------------- Int_t run = 67179; AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT/OCDB"); AliCDBManager::Instance()->SetRun(run); AliGeomManager::LoadGeometry(); // Get the pointer to gGeoManager before it's broken (bug in alieve) fGeoManager = gGeoManager; // -- Create new hM object // ------------------------- gHomerManager = new AliEveHOMERManager(); gHomerManager->SetRetryCount(100,10); Int_t iResult = gHomerManager->Initialize(); if (iResult) { printf("Error Initializing AliHLTHOMERManager, quitting"); return; } // -- Add hM to EveTree // ---------------------- gEve->AddToListTree(gHomerManager, kTRUE); // -- Create SourceList // ---------------------- iResult = gHomerManager->CreateEveSourcesListLoop(); if (iResult) { printf ("Couldn't find active services. returning\n"); return; } // -- Initialize pointsets and add macros // ---------------------------------------- //TEveUtil::LoadMacro("hlt_alieve_init.C"); //hlt_alieve_init(".", -1); // -- Initialize Eve // ------------------- initializeEveViewer( TPCMode, MUONMode, TRDMode); // -- Reset gGeoManager to the original pointer // ---------------------------------------------- gGeoManager = fGeoManager; gPHOSGeom = AliPHOSGeometry::GetInstance("IHEP", "IHEP"); // -- Finalize Eve // ----------------- gSystem->ProcessEvents(); gEve->Redraw3D(kTRUE); if ( TPCMode ) { gHomerManager->ConnectEVEtoHOMER("TPC" ); } else if ( MUONMode ) { gHomerManager->ConnectEVEtoHOMER("MUON"); } else if( TRDMode ) { gHomerManager->ConnectEVEtoHOMER("TRD"); } else { cout<<" No detectors selected, nothing will be displayed"<GetBrowser(); browser->ShowCloseTab(kFALSE); // -- Disable extra geometry // --------------------------- if (!MUONMode) gShowMUON = gShowMUONRPhi = gShowMUONRhoZ = kFALSE; // -- Load Geometry // ------------------ TEveUtil::LoadMacro("geom_gentle_hlt.C"); gGeomGentle = geom_gentle_hlt(); gGeomGentleRPhi = geom_gentle_rphi(); gGeomGentleRPhi->IncDenyDestroy(); gGeomGentleRhoZ = geom_gentle_rhoz(); gGeomGentleRhoZ->IncDenyDestroy(); gGeomGentleTRD = geom_gentle_trd(); gGeoManager = fGeoManager; gEMCALNode = gGeoManager->GetTopVolume()->FindNode("XEN1_1"); TEveGeoTopNode* emcal_re = new TEveGeoTopNode(gGeoManager, gEMCALNode); gEve->AddGlobalElement(emcal_re); gEve->Redraw3D(); if (gShowMUON) gGeomGentleMUON = geom_gentle_muon(kFALSE); // -- Scenes // ----------- gRPhiGeomScene = gEve->SpawnNewScene("RPhi Geometry", "Scene holding projected geometry for the RPhi view."); gRhoZGeomScene = gEve->SpawnNewScene("RhoZ Geometry", "Scene holding projected geometry for the RhoZ view."); gRPhiEventScene = gEve->SpawnNewScene("RPhi Event Data", "Scene holding projected geometry for the RPhi view."); gRhoZEventScene = gEve->SpawnNewScene("RhoZ Event Data", "Scene holding projected geometry for the RhoZ view."); // -- Projection managers // ------------------------ gRPhiMgr = new TEveProjectionManager(); gRPhiMgr->SetProjection(TEveProjection::kPT_RPhi); gEve->AddToListTree(gRPhiMgr, kFALSE); { TEveProjectionAxes* a = new TEveProjectionAxes(gRPhiMgr); a->SetMainColor(kWhite); a->SetTitle("R-Phi"); a->SetTitleSize(0.05); a->SetTitleFont(102); a->SetLabelSize(0.025); a->SetLabelFont(102); gRPhiGeomScene->AddElement(a); } gRPhiMgr->SetCurrentDepth(-10); gRPhiMgr->ImportElements(gGeomGentleRPhi, gRPhiGeomScene); gRPhiMgr->SetCurrentDepth(0); gRPhiMgr->ImportElements(gGeomGentleTRD, gRPhiGeomScene); if (gShowMUONRPhi) gRPhiMgr->ImportElements(gGeomGentleMUON, gRPhiGeomScene); gRhoZMgr = new TEveProjectionManager(); gRhoZMgr->SetProjection(TEveProjection::kPT_RhoZ); gEve->AddToListTree(gRhoZMgr, kFALSE); { TEveProjectionAxes* a = new TEveProjectionAxes(gRhoZMgr); a->SetMainColor(kWhite); a->SetTitle("Rho-Z"); a->SetTitleSize(0.05); a->SetTitleFont(102); a->SetLabelSize(0.025); a->SetLabelFont(102); gRhoZGeomScene->AddElement(a); } gRhoZMgr->SetCurrentDepth(-10); gRhoZMgr->ImportElements(gGeomGentleRhoZ, gRhoZGeomScene); gRhoZMgr->SetCurrentDepth(0); if (gShowTRD) gRhoZMgr->ImportElements(gGeomGentleTRD, gRhoZGeomScene); if (gShowMUONRhoZ) gRhoZMgr->ImportElements(gGeomGentleMUON, gRhoZGeomScene); // -- Viewers // ------------ TEveWindowSlot *slot = TEveWindow::CreateWindowInTab(browser->GetTabRight()); TEveWindowPack *pack = slot->MakePack(); pack->SetElementName("Multi View"); pack->SetHorizontal(); pack->SetShowTitleBar(kFALSE); pack->NewSlot()->MakeCurrent(); g3DView = gEve->SpawnNewViewer("3D View", ""); g3DView->AddScene(gEve->GetGlobalScene()); g3DView->AddScene(gEve->GetEventScene()); pack = pack->NewSlot()->MakePack(); pack->SetShowTitleBar(kFALSE); pack->NewSlot()->MakeCurrent(); gRPhiView = gEve->SpawnNewViewer("RPhi View", ""); gRPhiView->GetGLViewer()->SetCurrentCamera(TGLViewer::kCameraOrthoXOY); gRPhiView->AddScene(gRPhiGeomScene); gRPhiView->AddScene(gRPhiEventScene); pack->NewSlot()->MakeCurrent(); gRhoZView = gEve->SpawnNewViewer("RhoZ View", ""); gRhoZView->GetGLViewer()->SetCurrentCamera(TGLViewer::kCameraOrthoXOY); gRhoZView->AddScene(gRhoZGeomScene); gRhoZView->AddScene(gRhoZEventScene); //Add HLT Text to windows TGLOverlayButton *ob1 = new TGLOverlayButton(g3DView->GetGLViewer(), "HLT", 0, 20, 110, 60); ob1->SetAlphaValues(0.8, 0.8); // cout << "color" << ob1->GetBackColor() << endl; //ob1->SetBackColor(8421631); ob1->SetBackColor(10492431); TGLOverlayButton *ob2 = new TGLOverlayButton(g3DView->GetGLViewer(), "ALICE", 0, 0, 110, 20); ob2->SetAlphaValues(0.8, 0.8); ob1->SetBackColor(0.2); TGLOverlayButton *ob3 = new TGLOverlayButton(gEve->GetDefaultGLViewer(), "HLT", 0, 20, 110, 60); ob3->SetAlphaValues(0.8, 0.8); TGLOverlayButton *ob4 = new TGLOverlayButton(gEve->GetDefaultGLViewer(), "ALICE", 0, 0, 110, 20); ob4->SetAlphaValues(0.8, 0.8); // -- List of Viewers // -------------------- TEveViewerList *viewerlist = new TEveViewerList(); viewerlist->AddElement(gEve->GetDefaultViewer()); viewerlist->AddElement(g3DView); viewerlist->AddElement(gRhoZView); viewerlist->AddElement(gRPhiView); viewerlist->SwitchColorSet(); //============================================================================== // -- Macros / QA histograms //============================================================================== // -- Registration of per-event macros // ------------------------------------- AliEveMacroExecutor *exec = new AliEveMacroExecutor(); #if 0 exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "SIM Track", "kine_tracks.C", "kine_tracks", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "SIM Hit ITS", "its_hits.C", "its_hits", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "SIM Hit TPC", "tpc_hits.C", "tpc_hits", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "SIM Hit T0", "t0_hits.C", "t0_hits", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "SIM Hit FMD", "fmd_hits.C", "fmd_hits", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "DIG FMD", "fmd_digits.C", "fmd_digits", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRawReader, "RAW TPC", "tpc_raw.C", "tpc_raw", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRawReader, "RAW T0", "t0_raw.C", "t0_raw", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRawReader, "RAW FMD", "fmd_raw.C", "fmd_raw", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRawReader, "RAW VZERO", "vzero_raw.C", "vzero_raw", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRawReader, "RAW ACORDE", "acorde_raw.C", "acorde_raw", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC PVTX", "primary_vertex.C", "primary_vertex", "", kTRUE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC PVTX Ellipse", "primary_vertex.C", "primary_vertex_ellipse", "", kTRUE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC PVTX Box", "primary_vertex.C", "primary_vertex_box", "kFALSE, 3, 3, 3", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC PVTX", "primary_vertex.C", "primary_vertex_spd", "", kTRUE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC PVTX Ellipse", "primary_vertex.C", "primary_vertex_ellipse_spd", "", kTRUE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC PVTX Box", "primary_vertex.C", "primary_vertex_box_spd", "kFALSE, 3, 3, 3", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC PVTX", "primary_vertex.C", "primary_vertex_tpc", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC PVTX Ellipse", "primary_vertex.C", "primary_vertex_ellipse_tpc", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC PVTX Box", "primary_vertex.C", "primary_vertex_box_tpc", "kFALSE, 3, 3, 3", kFALSE)); #endif exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC V0", "esd_V0_points.C", "esd_V0_points_onfly")); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC V0", "esd_V0_points.C", "esd_V0_points_offline")); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC V0", "esd_V0.C", "esd_V0")); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC CSCD", "esd_cascade_points.C", "esd_cascade_points")); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC CSCD", "esd_cascade.C", "esd_cascade")); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC KINK", "esd_kink_points.C", "esd_kink_points")); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC KINK", "esd_kink.C", "esd_kink")); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC Track", "esd_tracks.C", "esd_tracks", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC Track", "esd_tracks.C", "esd_tracks_MI", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC Track", "esd_tracks.C", "esd_tracks_by_category", "", kTRUE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC Tracklet", "esd_spd_tracklets.C", "esd_spd_tracklets", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kESD, "REC ZDC", "esd_zdc.C", "esd_zdc", "", kFALSE)); #if 0 exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "REC Clus", "clusters.C+", "clusters", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "REC Clus ITS", "its_clusters.C+", "its_clusters")); exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "REC Clus TPC", "tpc_clusters.C+", "tpc_clusters")); exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "REC Clus TRD", "trd_clusters.C+", "trd_clusters")); exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "REC Clus TOF", "tof_clusters.C+", "tof_clusters")); exec->AddMacro(new AliEveMacro(AliEveMacro::kRunLoader, "REC Clus TPC", "vplot_tpc.C+", "vplot_tpc", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kAOD, "ANA HF", "aod_HF.C", "aod_HF", "", kFALSE)); exec->AddMacro(new AliEveMacro(AliEveMacro::kAOD, "ANA Jets", "jetplane.C", "jetplane", "", kFALSE)); // -- QA Viewer // -------------- # endif //============================================================================== // -- Histograms //============================================================================== slot = TEveWindow::CreateWindowInTab(browser->GetTabRight()); slot->StartEmbedding(); gPrimVertexCanvas = new TCanvas("canvasPrimVertex","canvasPrimVertex", 600, 400); slot->StopEmbedding("Primary Vertex"); slot = TEveWindow::CreateWindowInTab(browser->GetTabRight()); slot->StartEmbedding(); gSPDVertexCanvas = new TCanvas("canvasSPDVertex","canvasSPDVertex", 600, 400); slot->StopEmbedding("SPD Vertex"); slot = TEveWindow::CreateWindowInTab(browser->GetTabRight()); slot->StartEmbedding(); gV0Canvas = new TCanvas("canvasV0","canvasV0", 600, 400); slot->StopEmbedding("V0"); slot = TEveWindow::CreateWindowInTab(browser->GetTabRight()); slot->StartEmbedding(); gSSDCanvas0 = new TCanvas("canvasSSD0","canvasSSD0", 600, 400); slot->StopEmbedding("SSD QA 0"); slot = TEveWindow::CreateWindowInTab(browser->GetTabRight()); slot->StartEmbedding(); gSSDCanvas1 = new TCanvas("canvasSSD1","canvasSSD1", 600, 400); slot->StopEmbedding("SSD QA 1"); slot = TEveWindow::CreateWindowInTab(browser->GetTabRight()); slot->StartEmbedding(); gTPCClustCanvas = new TCanvas("canvasTPCClust","canvasTPCClust", 600, 400); gTPCClustCanvas->Divide(3, 2); slot->StopEmbedding("TPC Cluster QA Histograms "); //============================================================================== // -- Additional GUI components //============================================================================== slot = TEveWindow::CreateWindowInTab(browser->GetTabRight()); TEveWindowTab *storeTab = slot->MakeTab(); storeTab->SetElementNameTitle("WindowStore", "Undocked windows whose previous container is not known\n" "are placed here when the main-frame is closed."); gEve->GetWindowManager()->SetDefaultContainer(storeTab); return 0; } // ----------------------------------------------------------------- void nextEvent() { if ( gHomerManager->NextEvent() ) { if (gEventLoopStarted) { cout << "HomerManager failed getting next event, trying to reconnect" << endl; gHomerManager->DisconnectHOMER(); gHomerManager->ConnectEVEtoHOMER(); nextEvent(); } else { return; } } processEvent(); } TCanvas * CreateCanvas(TString tabTitle, TString canvasTitle ) { // TEveWindowSlot *slot = TEveWindow::CreateWindowInTab(gEve->GetBrowser()->GetTabRight()); // slot->StartEmbedding(); // TCanvas * canvas = new TCanvas(canvasTitle.Data(),canvasTitle.Data(), 600, 400); // slot->StopEmbedding(tabTitle.Data()); cout << "Create"<AddCanvasTab(canvasTitle.Data()); return canvas; } // ----------------------------------------------------------------- Int_t processEvent() { Int_t iResult = 0; gStyle->SetPalette(1, 0); gEve->DisableRedraw(); resetDisplay(); //============================================================================== // -- Process Blocks //============================================================================== AliHLTHOMERBlockDesc* block = 0; if ( gHomerManager->GetBlockList() == NULL) { printf ("onlineDisplay: No regular BlockList ... \n"); cout << endl; //return -1; } else { if (gHomerManager->GetBlockList()->IsEmpty() ) { printf ("onlineDisplay: No Sync Blocks in list ... \n"); cout<GetBlockList()); while ((block = (AliHLTHOMERBlockDesc*)next())) { iResult = processBlock(block); } } //Read out histograms and elements from detectors outside physics 1 partition TIter anext(gHomerManager->GetAsyncBlockList()); while ( (block = (AliHLTHOMERBlockDesc*)anext()) ) { iResult = processBlock(block); } updateDisplay(); return iResult; } void resetDisplay() { //============================================================================== // -- Reset //============================================================================== if ( gTRDCanvas ) { gTRDCanvas->Clear(); gTRDCanvas->Divide(3,2); } if(gTRDCalibCanvas){ gTRDCalibCanvas->Clear(); gTRDCalibCanvas->Divide(2,2); } if(gTRDEORCanvas){ gTRDEORCanvas->Clear(); gTRDEORCanvas->Divide(3,2); } if(gSSDCanvas0) { gSSDCanvas0->Clear(); gSSDCanvas0->Divide(6,6); } if(gSSDCanvas1) { gSSDCanvas1->Clear(); gSSDCanvas1->Divide(2,3); } if(gITSCanvas) { gITSCanvas->Clear(); gITSCanvas->Divide(3,3); } if(gPrimVertexCanvas) { gPrimVertexCanvas->Clear(); gPrimVertexCanvas->Divide(2,2); } if(gSPDVertexCanvas) { gSPDVertexCanvas->Clear(); gSPDVertexCanvas->Divide(2,2); } if(gV0Canvas) { gV0Canvas->Clear(); gV0Canvas->Divide(2,2); } if(gPHOSCanvas) { gPHOSCanvas->Clear(); gPHOSCanvas->Divide(3, 3); } if(gEMCALCanvas) { gEMCALCanvas->Clear(); gEMCALCanvas->Divide(3, 3); } if ( gTPCTrack ) gTPCTrack->DestroyElements(); if ( gSPDClusters ) gSPDClusters->Reset(); if ( gSSDClusters ) gSSDClusters->Reset(); if ( gSDDClusters ) gSDDClusters->Reset(); if ( gTPCClusters ) gTPCClusters->Reset(); if ( gTPCTestClusters ) gTPCTestClusters->Reset(); if ( gTRDClusters ) gTRDClusters->Reset(); if ( gMUONClusters ) gMUONClusters->Reset(); if ( gMUONTracks ){ gMUONTracks->Destroy(); gMUONTracks = 0x0; } if ( gPHOSBoxSet[1] ) for(int im = 0; im < 5; im++) gPHOSBoxSet[im]->Reset(); if ( gEMCALElementList) for(int i = 0; i < 12; i++) { gEMCALBoxSet[i]->Reset(); } if ( gTPCColClusters ) for (Int_t ii = 0; ii <= gTPCBins+1; ++ii) gTPCColClusters->GetBin(ii)->Reset(); if ( gTRDColClusters ) for (Int_t ii = 0; ii <= gTRDBins+1; ++ii) gTRDColClusters->GetBin(ii)->Reset(); gTRDHistoCount = 0; gSPDVertexHistoCount = 0; gSSDHistoCount0 = 0; gSSDHistoCount1 = 0; gITSHistoCount = 0; gPHOSHistoCount = 0; gEMCALHistoCount = 0; } Int_t updateDisplay() { Int_t iResult = 0; //============================================================================== // -- Update Objects //============================================================================== // -- TPC Histograms if ( gTPCCanvas && gTPCCharge && gTPCQMax) { gTPCCanvas->Clear(); gTPCCanvas->Divide(1,3); gTPCCanvas->cd(1); gTPCCharge->Draw(); gTPCCanvas->cd(2); gTPCQMax->Draw(); gTPCCanvas->cd(3); gTPCQMaxOverCharge->Draw(); gTPCCanvas->Update(); } if ( gTPCClusters ) gTPCClusters->ResetBBox(); if ( gTPCTestClusters ) gTPCTestClusters->ResetBBox(); if ( gTRDClusters ) gTRDClusters->ResetBBox(); if ( gSPDClusters ) gSPDClusters->ResetBBox(); if ( gSDDClusters ) gSDDClusters->ResetBBox(); if ( gSSDClusters ) gSSDClusters->ResetBBox(); if ( gMUONClusters ) gMUONClusters->ResetBBox(); if ( gPHOSBoxSet[1] ) for(int im = 0; im < 5; im++) gPHOSBoxSet[im]->ResetBBox(); if ( gEMCALElementList ) for(int sm = 0; sm < 12; sm++) gEMCALBoxSet[sm]->ResetBBox(); //============================================================================== // -- Set EventID in Window Title // -- Update Objects //============================================================================== TString winTitle("Eve Main Window -- Event ID : "); winTitle += Form("0x%016X ", gHomerManager->GetEventID() ); gEve->GetBrowser()->SetWindowName(winTitle); //============================================================================== // -- Set Projections //============================================================================== // XXX Primary vertex ... to be retrieved from the ESD Double_t x[3] = { 0, 0, 0 }; TEveElement* top = gEve->GetCurrentEvent(); if (gRPhiMgr && top) { gRPhiEventScene->DestroyElements(); if (gCenterProjectionsAtPrimaryVertex) gRPhiMgr->SetCenter(x[0], x[1], x[2]); gRPhiMgr->ImportElements(top, gRPhiEventScene); } if (gRhoZMgr && top) { gRhoZEventScene->DestroyElements(); if (gCenterProjectionsAtPrimaryVertex) gRhoZMgr->SetCenter(x[0], x[1], x[2]); gRhoZMgr->ImportElements(top, gRhoZEventScene); } //============================================================================== gEve->Redraw3D(0,1); // (0, 1) gEve->EnableRedraw(); return iResult; } // ----------------------------------------------------------------- Int_t processITSHist(AliHLTHOMERBlockDesc* /*block*/) { return 0; } // ----------------------------------------------------------------- Int_t processHLTRDLST(AliHLTHOMERBlockDesc* /*block*/) { return 0; } // ----------------------------------------------------------------- Int_t processROOTTOBJ(AliHLTHOMERBlockDesc* block, TEveText* /*et*/) { // -- AliHLTGlobalTriggerDecision if ( ! block->GetClassName().CompareTo("AliHLTGlobalTriggerDecision") ) { AliHLTGlobalTriggerDecision *trig = dynamic_cast( block->GetTObject()); trig->Print(); // et->SetText("balle");; // TEveText* tt = new TEveText("Trigger: Class is known ;-) "); // gEve->AddElement(tt); } else { printf(" Unknown root object %s",block->GetClassName().Data() ); } return 0; } // ----------------------------------------------------------------- Int_t processEsdTracks( AliHLTHOMERBlockDesc* block, TEveTrackList* cont ) { AliESDEvent* esd = (AliESDEvent *) (block->GetTObject()); esd->GetStdContent(); esd_track_propagator_setup(cont->GetPropagator(),-0.1*esd->GetMagneticField(), 520); // printf( "Number of ESD Tracks : %d \n", esd->GetNumberOfTracks()); for (Int_t iter = 0; iter < esd->GetNumberOfTracks(); ++iter) { //AliEveTrack* track = dynamic_cast(esd_make_track(esd->GetTrack(iter), cont)); AliEveTrack* track = dynamic_cast(hlt_esd_make_track(esd->GetTrack(iter), cont)); cont->AddElement(track); // gTPCPt->Fill(esd->GetTrack(iter)->GetSignedPt()); // KK // gTPCEta->Fill(esd->GetTrack(iter)->GetSnp()); // gTPCPsi->Fill(esd->GetTrack(iter)->GetTgl()); // gTPCnClusters->Fill(esd->GetTrack(iter)->GetTPCNcls()); } // gTPCMult->Fill(esd->GetNumberOfTracks()); // KK // Int_t icd = 0; // gTPCClustCanvas->Clear(); // gTPCClustCanvas->Divide(2, 2); // gTPCClustCanvas->cd(icd++); // gTPCPt->Draw(); // gTPCClustCanvas->cd(icd++); // gTPCEta->Draw(); // gTPCClustCanvas->cd(icd++); // gTPCPsi->Draw(); // gTPCClustCanvas->cd(icd++); // gTPCnClusters->Draw(); // gTPCClustCanvas->cd(icd++); // gTPCMult->Draw(); // gTPCClustCanvas->Update(); cont->SetTitle(Form("N=%d", esd->GetNumberOfTracks()) ); cont->MakeTracks(); return 0; } // // ----------------------------------------------------------------- // Int_t processPHOSClusters(AliHLTHOMERBlockDesc* block) { // cout <<"Processgin phos clusters"< (block->GetData()); // AliHLTCaloChannelDataStruct *chd = reinterpret_cast(chh+1); // for(Int_t i = 0; i < chh->fNChannels; i++, chd++) { // Int_t gain = (chd->fChannelID >> 12)&0x1; // Int_t module = (chd->fChannelID >> 13)&0x1f; // module = 4 -module; // if(gain == 1) // { // Float_t x = (static_cast(chd->fChannelID&0x3f) - 32)* 2.2; // Float_t z = (static_cast((chd->fChannelID >> 6)&0x3f) - 28) * 2.2; // // gPHOSBoxSet[ds->fModule]->AddBox(ds->fLocX, 0, ds->fLocZ, 2.2, ds->fEnergy*20, 2.2); // gPHOSBoxSet[module]->AddBox(x, 0, z, 2.2, chd->fEnergy/1, 2.2); // gPHOSBoxSet[module]->DigitValue(static_cast(chd->fEnergy)); // } // } // cout <<"done with phos"< (block->GetData()); UInt_t nDigits = block->GetSize()/sizeof(AliHLTCaloDigitDataStruct); for(UInt_t i = 0; i < nDigits; i++, ds++) { Float_t x = (ds->fX - 32)* 2.2; Float_t z = (ds->fZ - 28) * 2.2; cout << "MODULE DIGITTYP :" << ds->fModule; gPHOSBoxSet[4-ds->fModule]->AddBox(x, 0, z, 2.2, ds->fEnergy*20, 2.2); gPHOSBoxSet[4-ds->fModule]->DigitValue(static_cast(ds->fEnergy*10)); } return 0; } // ----------------------------------------------------------------- Int_t processPHOSClusters(AliHLTHOMERBlockDesc* block) { AliHLTCaloClusterHeaderStruct *dh = reinterpret_cast (block->GetData()); AliHLTCaloClusterReader * clusterReader = new AliHLTCaloClusterReader(); clusterReader->SetMemory(dh); AliHLTCaloClusterDataStruct * ds; Int_t nc = 0; while( (ds = clusterReader->NextCluster()) ){ nc++; cout << "Cluster nr " << nc << " Energy " << ds->fEnergy<< " " << ds->fGlobalPos[0] << " " << ds->fGlobalPos[1] << " " << ds->fGlobalPos[2] << endl; gPHOSBoxSet[2]->AddBox(ds->fGlobalPos[0], 0, ds->fGlobalPos[2], 2.2, -ds->fEnergy*20, 2.2); gPHOSBoxSet[2]->DigitValue(static_cast(ds->fEnergy*10)); } return 0; } // ----------------------------------------------------------------- Int_t processEMCALClusters(AliHLTHOMERBlockDesc* block) { cout << "EMCAL"< (block->GetData()); Short_t nC = dhs->fNChannels; AliHLTUInt8_t *ui = reinterpret_cast(dhs) + sizeof(AliHLTCaloChannelDataHeaderStruct); AliHLTCaloChannelDataStruct *ds = reinterpret_cast(ui); UShort_t fX =0; UShort_t fZ =0; UShort_t fGain =0; UShort_t fModuleId =0; for(Short_t s = 0; s < nC; s++ ) { fX = ds->fChannelID&0x3f; fZ = (ds->fChannelID >> 6)&0x3f; fGain = (ds->fChannelID >> 12)&0x1; fModuleId = (ds->fChannelID >> 13)&0x1f; // cout << fX << " " << fZ << " " << fGain << " " << fModuleId <AddBox(10, fX*6-12*6, fZ*6-24*6, ds->fEnergy/4, 6, 6); gEMCALBoxSet[fModuleId]->DigitValue(static_cast(ds->fEnergy)); } ds++; } return 0; } // ----------------------------------------------------------------- Int_t processITSClusters(AliHLTHOMERBlockDesc* block, TEvePointSet* cont) { AliHLTITSClusterData *cd = reinterpret_cast (block->GetData()); UChar_t *data = reinterpret_cast (cd->fSpacePoints); if ( cd->fSpacePointCnt != 0 ) { for (Int_t iter = 0; iter < cd->fSpacePointCnt; ++iter, data += sizeof(AliHLTITSSpacePointData)) { AliHLTITSSpacePointData *sp = reinterpret_cast (data); Int_t lab[4] = {0,0,0,0}; Float_t hit[6] = {0,0,0,0,0,0}; Int_t info[3] = {0,0,0}; lab[0] = sp->fTracks[0]; lab[1] = sp->fTracks[1]; lab[2] = sp->fTracks[2]; lab[3] = sp->fIndex; hit[0] = sp->fY; hit[1] = sp->fZ; hit[2] = sp->fSigmaY2; hit[3] = sp->fSigmaZ2; hit[4] = sp->fQ; hit[5] = sp->fSigmaYZ; info[0] = sp->fNy; info[1] = sp->fNz; info[2] = sp->fLayer; Float_t xyz[3]; AliITSRecPoint recpoint(lab,hit,info); recpoint.GetGlobalXYZ(xyz); cont->SetNextPoint(xyz[0], xyz[1], xyz[2]); } } return 0; } // ----------------------------------------------------------------- Int_t processTPCClusters(AliHLTHOMERBlockDesc* block, TEvePointSet* cont, TEvePointSetArray *contCol ) { Int_t slice = block->GetSubDetector(); Float_t phi = ( slice + 0.5 ) * TMath::Pi() / 9.0; Float_t cos = TMath::Cos( phi ); Float_t sin = TMath::Sin( phi ); AliHLTTPCClusterData *cd = reinterpret_cast (block->GetData()); UChar_t *data = reinterpret_cast (cd->fSpacePoints); if(!gTPCCanvas){ gTPCCanvas = gEve->AddCanvasTab("TPC QA"); gTPCCharge = new TH1F("ClusterCharge","ClusterCharge",100,0,500); gTPCQMax = new TH1F("QMax","QMax",50,0,250); gTPCQMaxOverCharge = new TH1F("QMaxOverCharge","QMaxOverCharge",50,0,1); } if ( cd->fSpacePointCnt != 0 ) { for (Int_t iter = 0; iter < cd->fSpacePointCnt; ++iter, data += sizeof(AliHLTTPCSpacePointData)) { AliHLTTPCSpacePointData *sp = reinterpret_cast (data); cont->SetNextPoint(cos*sp->fX - sin*sp->fY, sin*sp->fX + cos*sp->fY, sp->fZ); if (contCol) contCol->Fill(cos*sp->fX - sin*sp->fY, sin*sp->fX + cos*sp->fY, sp->fZ, sp->fCharge); gTPCCharge->Fill(sp->fCharge); gTPCQMax->Fill(sp->fQMax); gTPCQMaxOverCharge->Fill(((Float_t)sp->fQMax)/((Float_t)sp->fCharge)); } } return 0; } // ----------------------------------------------------------------- Int_t processMUONClusters(AliHLTHOMERBlockDesc* block) { Int_t iResult = 0; unsigned long size = block->GetSize(); Int_t * buffer ; buffer = (Int_t *)block->GetData(); // cout<<"block size : "<GetDataType()<GetDataType().CompareTo("RECHITS") == 0){ AliHLTMUONRecHitsBlockReader trackblock((char*)buffer, size); const AliHLTMUONRecHitStruct* hit = trackblock.GetArray(); for(AliHLTUInt32_t ientry = 0; ientry < trackblock.Nentries(); ientry++){ // cout << setw(13) << left << hit->fX << setw(0); // cout << setw(13) << left << hit->fY << setw(0); // cout << hit->fZ << setw(0) << endl; if(hit->fX!=0.0 && hit->fY!=0.0 && hit->fZ!=0.0) gMUONClusters->SetNextPoint(hit->fX,hit->fY,hit->fZ); hit++; }// track hit loop } else{// if rechits // if(!strcmp((BlockType(ULong64_t(reader->GetBlockDataType(i)))).Data(),"TRIGRECS")){ AliHLTMUONTriggerRecordsBlockReader trigblock(buffer, size); const AliHLTMUONTriggerRecordStruct* trigrec = trigblock.GetArray(); for(AliHLTUInt32_t ientry = 0; ientry < trigblock.Nentries(); ientry++){ const AliHLTMUONRecHitStruct* hit = &trigrec->fHit[0]; for(AliHLTUInt32_t ch = 0; ch < 4; ch++) { // cout << setw(10) << left << ch + 11 << setw(0); // cout << setw(13) << left << hit->fX << setw(0); // cout << setw(13) << left << hit->fY << setw(0); // cout << hit->fZ << setw(0) << endl; if(hit->fX!=0.0 && hit->fY!=0.0 && hit->fZ!=0.0) gMUONClusters->SetNextPoint(hit->fX,hit->fY,hit->fZ); hit++; }// trig chamber loop trigrec++; }//trig hit loop }//else trigger return iResult; } // ----------------------------------------------------------------- Int_t processMUONTracks(AliHLTHOMERBlockDesc* block) { Int_t iResult = 0; unsigned long size = block->GetSize(); Int_t * buffer = (Int_t *)block->GetData(); AliHLTMUONRecHitStruct hit1,hit2; hit1.fX = hit1.fY = hit1.fZ = hit2.fX = hit2.fY = hit2.fZ = 0; Int_t ch1=0, ch2=0; Float_t x0=0.0,y0=0.0,z0=0.0; Float_t x3=0.0,y3=0.0,z3=0.0; if(block->GetDataType().CompareTo("MANTRACK") == 0){ AliHLTMUONMansoTracksBlockReader mantrackblock(buffer, size); const AliHLTMUONMansoTrackStruct* mtrack = mantrackblock.GetArray(); for(AliHLTUInt32_t ientry = 0; ientry < mantrackblock.Nentries(); ientry++){ const AliHLTMUONRecHitStruct* hit = &mtrack->fHit[0]; for(AliHLTUInt32_t ch = 0; ch < 4; ch++){ // cout << setw(10) << left << ch + 7 << setw(0); // cout << setw(13) << left << hit->fX << setw(0); // cout << setw(13) << left << hit->fY << setw(0); // cout << hit->fZ << setw(0) << endl; if(hit->fZ != 0.0){ if(ch==0 || ch==1){ hit1 = *hit; ch1 = ch+6; }else{ hit2 = *hit; ch2 = ch+6; } } hit++; }// trig chamber loop // printf("ch : %d, (X,Y,Z) : (%f,%f,%f)\n",ch1,hit1.fX,hit1.fY,hit1.fZ); // printf("ch : %d, (X,Y,Z) : (%f,%f,%f)\n",ch2,hit2.fX,hit2.fY,hit2.fZ); // meminfo(); z3 = AliMUONConstants::DefaultChamberZ(ch2+4); y3 = hit1.fY - (hit1.fZ-z3)*(hit1.fY - hit2.fY)/(hit1.fZ - hit2.fZ) ; x3 = hit1.fX - (hit1.fZ-z3)*(hit1.fX - hit2.fX)/(hit1.fZ - hit2.fZ) ; z0 = AliMUONConstants::DefaultChamberZ(ch1); y0 = hit1.fY - (hit1.fZ-z0)*(hit1.fY - hit2.fY)/(hit1.fZ - hit2.fZ) ; x0 = hit1.fX - (hit1.fZ-z0)*(hit1.fX - hit2.fX)/(hit1.fZ - hit2.fZ) ; gMUONTracks->AddLine(x0,y0,z0,x3,y3,z3); mtrack++; } cout<<"NofManso Tracks : "<GetSubDetector(); if ( sm == 6 ) sm = 7; Float_t phi = ( sm + 0.5 ) * TMath::Pi() / 9.0; Float_t cos = TMath::Cos( phi ); Float_t sin = TMath::Sin( phi ); Byte_t* ptrData = reinterpret_cast(block->GetData()); UInt_t ptrSize = block->GetSize(); for (UInt_t size = 0; size+sizeof(AliHLTTRDCluster) <= ptrSize; size+=sizeof(AliHLTTRDCluster) ) { AliHLTTRDCluster *cluster = reinterpret_cast(&(ptrData[size])); AliTRDcluster *trdCluster = new AliTRDcluster; cluster->ExportTRDCluster( trdCluster ); contCol->Fill(cos*trdCluster->GetX() - sin*trdCluster->GetY(), sin*trdCluster->GetX() + cos*trdCluster->GetY(), trdCluster->GetZ(), trdCluster->GetQ() ); cont->SetNextPoint(cos*trdCluster->GetX() - sin*trdCluster->GetY(), sin*trdCluster->GetX() + cos*trdCluster->GetY(), trdCluster->GetZ()); } return iResult; } // ----------------------------------------------------------------- Int_t processTRDHistograms(AliHLTHOMERBlockDesc* block, TCanvas * canvas) { Int_t iResult = 0; if ( ! block->GetClassName().CompareTo("TH1F")) { TH1F* histo = reinterpret_cast(block->GetTObject()); ++gTRDHistoCount; TVirtualPad* pad = canvas->cd(gTRDHistoCount); histo->Draw(); pad->SetGridy(); pad->SetGridx(); if ( ! strcmp(histo->GetName(), "nscls") ) { gTRDEvents = static_cast(histo->GetEntries()); histo->GetXaxis()->SetRangeUser(0.,15.); } if ( ! strcmp(histo->GetName(),"sclsdist") || ! strcmp(histo->GetName(),"evSize") ) pad->SetLogy(); } gTRDCanvas->Update(); return iResult; } // ----------------------------------------------------------------- Int_t processPrimVertexHistograms(AliHLTHOMERBlockDesc* block, TCanvas * canvas) { Int_t iResult = 0; if ( ! block->GetClassName().CompareTo("TH1F")) { TH1F* histo = reinterpret_cast(block->GetTObject()); if( histo ){ TString name(histo->GetName()); if( !name.CompareTo("primVertexZ") ){ canvas->cd(2); histo->Draw(); }else if( !name.CompareTo("primVertexX") ){ canvas->cd(3); histo->Draw(); }else if( !name.CompareTo("primVertexY") ){ canvas->cd(4); histo->Draw(); } } } else if ( ! block->GetClassName().CompareTo("TH2F")) { TH2F *hista = reinterpret_cast(block->GetTObject()); if (hista ){ TString name(hista->GetName()); if( !name.CompareTo("primVertexXY")) { canvas->cd(1); hista->Draw(); } } } canvas->cd(); return iResult; } // ----------------------------------------------------------------- Int_t processSPDVertexHistograms(AliHLTHOMERBlockDesc* block, TCanvas * canvas) { Int_t iResult = 0; if ( ! block->GetClassName().CompareTo("TH1F")) { TH1F* histo = reinterpret_cast(block->GetTObject()); ++gSPDVertexHistoCount; canvas->cd(gSPDVertexHistoCount); histo->Draw(); } else if ( ! block->GetClassName().CompareTo("TH2F")) { TH2F *hista = reinterpret_cast(block->GetTObject()); if (hista) { ++gSPDVertexHistoCount; canvas->cd(gSPDVertexHistoCount); hista->Draw(); } } canvas->cd(); return iResult; } // ----------------------------------------------------------------- Int_t processV0Histograms(AliHLTHOMERBlockDesc* block, TCanvas * canvas) { cout << "Processing to see if it's V0 histogram, !!!!!!!!!"<GetClassName().CompareTo("TH1F")) { TH1F* histo = reinterpret_cast(block->GetTObject()); if( histo ){ TString name(histo->GetName()); if( !name.CompareTo("hKShort") ){ canvas->cd(1); histo->Draw(); update = 1; }else if( !name.CompareTo("hLambda") ){ canvas->cd(3); histo->Draw(); update = 1; } } } else if ( ! block->GetClassName().CompareTo("TH2F")) { TH2F *hista = reinterpret_cast(block->GetTObject()); if (hista ){ TString name(hista->GetName()); if( !name.CompareTo("hAP")) { canvas->cd(2); hista->Draw(); update = 1; } else if( !name.CompareTo("hGammaXY")) { canvas->cd(4); hista->Draw(); update = 1; } } } if( update ){ canvas->cd(); canvas->Update(); } return iResult; } // ----------------------------------------------------------------- Int_t processITSHistograms(AliHLTHOMERBlockDesc* block, TCanvas * canvas) { Int_t iResult = 0; if ( ! block->GetClassName().CompareTo("TH1F")) { TH1F* histo = reinterpret_cast(block->GetTObject()); ++gITSHistoCount; canvas->cd(gITSHistoCount); histo->Draw(); } else if ( ! block->GetClassName().CompareTo("TH2F")) { TH2F *hista = reinterpret_cast(block->GetTObject()); if (hista) { ++gITSHistoCount; canvas->cd(gITSHistoCount); hista->Draw("COLZ"); } } canvas->cd(); return iResult; } Int_t AddHistogramsToCanvas(AliHLTHOMERBlockDesc * block, TCanvas * canvas, Int_t &cdCount ) { if (canvas == NULL) cout <<"fucked canvasn"<GetClassName().CompareTo("TObjArray")) { TIter next((TObjArray*)(block->GetTObject())); TObject *object; while (( object = (TObject*) next())) { TH1* histo = dynamic_cast(object); cout <<" cd "<< cdCount << endl; canvas->cd(++cdCount); cout <<"draw"<Draw(); cout <<"drew"<cd(); canvas->Update(); return iResult; } // ----------------------------------------------------------------- Int_t processSSDHistograms(AliHLTHOMERBlockDesc* block, TCanvas *canvas0, TCanvas *canvas1) { Int_t iResult = 0; if ( ! block->GetClassName().CompareTo("TH1F")) { TH1F* histo = reinterpret_cast(block->GetTObject()); ++gSSDHistoCount0; canvas0->cd(gSSDHistoCount0); histo->Draw(); } else if ( ! block->GetClassName().CompareTo("TH2F")) { TH2F *hista = reinterpret_cast(block->GetTObject()); if (hista) { ++gSSDHistoCount1; canvas1->cd(gSSDHistoCount1); hista->Draw("COLZ"); } } else if ( ! block->GetClassName().CompareTo("TObjArray")) { TIter next((TObjArray*)(block->GetTObject())); TObject *object; while (( object = (TObject*) next())) { TString string; string = "TH1F"; TString string2; string2 = "TH2F"; if ( !(string.CompareTo(object->ClassName())) ) { TH1F* histo = reinterpret_cast(object); ++gSSDHistoCount0; canvas0->cd(gSSDHistoCount0); histo->Draw(); } else if ( !(string2.CompareTo(object->ClassName()) ) ) { TH2F* histo = reinterpret_cast(object); ++gSSDHistoCount1; canvas1->cd(gSSDHistoCount1); histo->Draw("COLZ"); } } } canvas0->cd(); canvas1->cd(); return iResult; } //*-------------------------------------------------------------------------------------- Int_t processTRDCalibHistograms(AliHLTHOMERBlockDesc* block, TCanvas * canvas) { Int_t iResult = 0; TObjArray *HistArray=(TObjArray*)block->GetTObject(); Int_t nCalibHistos=HistArray->GetEntriesFast(); for(Int_t CalibHistoCount=0;CalibHistoCountcd(CalibHistoCount+1); if(HistArray->At(CalibHistoCount)->InheritsFrom("TH2S")){ TH2S *histCalib=(TH2S*)(HistArray->At(CalibHistoCount)); histCalib->Draw("colz"); } else if(HistArray->At(CalibHistoCount)->InheritsFrom("TH2")){ //TH2D *histCalib=dynamic_cast(HistArray->At(CalibHistoCount)); TH2D *histCalib=(TH2D*)(HistArray->At(CalibHistoCount)); histCalib->Draw("lego2"); } else if(HistArray->At(CalibHistoCount)->InheritsFrom("TH1")){ //TH1D *histCalib=dynamic_cast(HistArray->At(CalibHistoCount)); TH1D *histCalib=(TH1D*)(HistArray->At(CalibHistoCount)); histCalib->Draw(); } else if(HistArray->At(CalibHistoCount)->InheritsFrom("AliTRDCalibraVdriftLinearFit")){ //TH2S *histCalib = ((dynamic_cast(HistArray->At(CalibHistoCount)))->GetLinearFitterHisto(10,kTRUE)); TH2S *histCalib =(TH2S*)(((AliTRDCalibraVdriftLinearFit*)HistArray->At(CalibHistoCount))->GetLinearFitterHisto(10,kTRUE)); histCalib->Draw(); } } gTRDCalibCanvas->Update(); return iResult; } //**************************************************************************** void writeToFile(){ TList * bList = gHomerManager->GetBlockList(); TFile * file = TFile::Open(Form("Event_0x%016X_ITS.root", gHomerManager->GetEventID()), "RECREATE"); bList->Write("blockList", TObject::kSingleKey); file->Close(); bList = gHomerManager->GetAsyncBlockList(); TFile * afile = TFile::Open(Form("Event_0x%016X_Async.root", gHomerManager->GetEventID()), "RECREATE"); bList->Write("blockList", TObject::kSingleKey); afile->Close(); // TIter next(bList); // AliHLTHOMERBlockDesc* block = 0; // // -- Iterate over blocks in the block list // // ------------------------------------------ // while ((block = (AliHLTHOMERBlockDesc*)next())) { // cout << "balle " << endl; // } } // ----------------------------------------------------------------- void loopEvent() { eventTimer.SetCommand("nextEvent()"); eventTimer.Start(6000); } // ----------------------------------------------------------------- void stopLoopEvent() { eventTimer.Stop(); } // ----------------------------------------------------------------- void loopEventFast() { eventTimerFast.SetCommand("nextEvent()"); eventTimerFast.Start(500); } // ----------------------------------------------------------------- void stopLoopEventFast() { eventTimerFast.Stop(); } // ----------------------------------------------------------------- void EventLoopFast() { // Start/stop event loop if ( gEventLoopStarted ) { loopEventFast(); gEventLoopStarted = kTRUE; } else { stopLoopEventFast(); gEventLoopStarted = kFALSE; } } Int_t processBlock (AliHLTHOMERBlockDesc * block ){ #if 1//DEBUG printf( "------------------- xxxxxxxxxxxxxxx ----------------------\n"); printf( "Detector : %s\n", block->GetDetector().Data() ); printf( "Datatype : %s\n", block->GetDataType().Data() ); if (block->IsTObject() ) printf( "Is TObject of class: %s\n", block->GetClassName().Data() ); printf( "------------------- xxxxxxxxxxxxxxx ----------------------\n"); #endif Int_t iResult = 0; if ( ! block->GetDetector().CompareTo("HLT") ) processHLTBlock(block); else if ( ! block->GetDetector().CompareTo("TPC") ) processTPCBlock(block); else if ( ! block->GetDetector().CompareTo("TRD") ) iResult = processTRDBlock(block); else if ( ! block->GetDetector().CompareTo("MUON") && gShowMUON ) processMUONBlock(block); else if ( ! block->GetDetector().CompareTo("ISPD") ) processISPDBlock(block); else if ( ! block->GetDetector().CompareTo("ISDD") ) processISDDBlock(block); else if ( ! block->GetDetector().CompareTo("ISSD") ) processISSDBlock(block); else if ( ! block->GetDetector().CompareTo("PHOS") ) processPHOSBlock(block); else if ( ! block->GetDetector().CompareTo("EMCA") ) processEMCALBlock(block); else if ( ! block->GetDetector().CompareTo("ITS") ) processITSBlock(block); if ( block->GetDataType().CompareTo("ROOTHIST") == 0 ) processV0Histograms( block , gV0Canvas); return iResult; } void processITSBlock(AliHLTHOMERBlockDesc * block) { if ( block->GetDataType().CompareTo("ROOTHIST") == 0 ) { if(!gITSCanvas){ gITSCanvas = gEve->AddCanvasTab("ITS QA"); } processITSHistograms( block , gITSCanvas); gITSCanvas->Update(); } } Int_t processTRDBlock (AliHLTHOMERBlockDesc * block) { Int_t iResult = 0; if ( ! block->GetDataType().CompareTo("CLUSTERS") ) { if(!gTRDClusters){ gTRDClusters = new TEvePointSet("TRD Clusters"); gTRDClusters->SetMainColor(kBlue); gTRDClusters->SetMarkerStyle((Style_t)kFullDotSmall); //gEve->AddElement(gTRDClusters); } if(!gTRDColClusters){ gTRDColClusters = new TEvePointSetArray("TRD Clusters Colorized"); gTRDColClusters->SetMainColor(kRed); gTRDColClusters->SetMarkerStyle(4); // antialiased circle // gTRDColClusters->SetMarkerStyle((Style_t)kFullDotSmall); gTRDColClusters->SetMarkerSize(0.4); gTRDColClusters->InitBins("Cluster Charge", gTRDBins, 0., gTRDBins*100.); //TColor::SetPalette(1, 0); // Spectrum palette const Int_t nCol = TColor::GetNumberOfColors(); for (Int_t ii = 0; ii < gTRDBins+1; ++ii) gTRDColClusters->GetBin(ii)->SetMainColor(TColor::GetColorPalette(ii * nCol / (gTRDBins+2))); gEve->AddElement(gTRDColClusters); } iResult = processTRDClusters( block, gTRDClusters, gTRDColClusters ); //gTRDClusters->ElementChanged(); gTRDColClusters->ElementChanged(); } // -- Process TRD Histograms else if ( block->GetDataType().CompareTo("ROOTHIST") == 0 ) { if(!gTRDCanvas) { gTRDCanvas = gEve->AddCanvasTab("TRD"); gTRDCanvas->Divide(3,2); } iResult = processTRDHistograms( block, gTRDCanvas ); } else if(block->GetDataType().CompareTo("CALIBRAH")==0){ if(!gTRDCalibCanvas){ gTRDCalibCanvas = gEve->AddCanvasTab("TRD Calib"); gTRDCalibCanvas->Divide(2,2); } iResult=processTRDCalibHistograms(block,gTRDCalibCanvas); } else if(block->GetDataType().CompareTo("CALIBEOR")==0){ if(!gTRDEORCanvas){ gTRDEORCanvas = gEve->AddCanvasTab("TRD QA"); gTRDEORCanvas->Divide(3,2); } iResult=processTRDCalibHistograms(block,gTRDEORCanvas); } return iResult; } void processMUONBlock(AliHLTHOMERBlockDesc * block){ // -- Process MUON Clusters if ( (block->GetDataType().CompareTo("RECHITS") == 0) || (block->GetDataType().CompareTo("TRIGRECS") == 0) ) { if ( !gMUONClusters ) { gMUONClusters = new TEvePointSet("MUON RecHits"); gMUONClusters->SetMainColor(kBlue); gMUONClusters->SetMarkerStyle(20); gEve->AddElement(gMUONClusters); } processMUONClusters( block ); gMUONClusters->ElementChanged(); }else if(block->GetDataType().CompareTo("MANTRACK") == 0){ if ( !gMUONTracks ) { gMUONTracks = new TEveStraightLineSet("MUON Tracks"); gMUONTracks->SetMainColor(kRed); gMUONTracks->SetLineWidth(3); gEve->AddElement(gMUONTracks); } processMUONTracks( block ); gMUONTracks->ElementChanged(); } } void processISPDBlock( AliHLTHOMERBlockDesc * block) { if ( block->GetDataType().CompareTo("CLUSTERS") == 0 ) { if(!gSPDClusters){ gSPDClusters = new TEvePointSet("SPD Clusters"); gSPDClusters->SetMainColor(kBlack); gSPDClusters->SetMarkerStyle((Style_t)kFullDotMedium); gEve->AddElement(gSPDClusters); } processITSClusters( block , gSPDClusters); gSPDClusters->ElementChanged(); } else if ( block->GetDataType().CompareTo("ROOTHIST") == 0 ) { processSPDVertexHistograms( block , gSPDVertexCanvas); gSPDVertexCanvas->Update(); } } void processISDDBlock(AliHLTHOMERBlockDesc * block){ if ( block->GetDataType().CompareTo("CLUSTERS") == 0 ) { if(!gSDDClusters){ gSDDClusters = new TEvePointSet("SDD Clusters"); gSDDClusters->SetMainColor(kPink); gSDDClusters->SetMarkerStyle((Style_t)kFullDotMedium); gEve->AddElement(gSDDClusters); } processITSClusters( block , gSDDClusters); gSDDClusters->ElementChanged(); } } void processISSDBlock(AliHLTHOMERBlockDesc * block){ if ( block->GetDataType().CompareTo("CLUSTERS") == 0 ) { if(!gSSDClusters){ gSSDClusters = new TEvePointSet("SSD Clusters"); gSSDClusters->SetMainColor(kBlue); gSSDClusters->SetMarkerStyle((Style_t)kFullDotMedium); gEve->AddElement(gSSDClusters); } processITSClusters( block , gSSDClusters); gSSDClusters->ElementChanged(); } else if ( block->GetDataType().CompareTo("ROOTOBAR") == 0 ) { processSSDHistograms( block , gSSDCanvas0, gSSDCanvas1); gSSDCanvas0->Update(); gSSDCanvas1->Update(); } } Int_t processPHOSBlock(AliHLTHOMERBlockDesc * block) { Int_t iResult = 0; if ( block->GetDataType().CompareTo("ROOTHIST") == 0 ) { if(!gPHOSCanvas) { gPHOSCanvas = CreateCanvas("PHOS QA", "PHOS QA"); gPHOSCanvas->Divide(3, 2); } AddHistogramsToCanvas(block, gPHOSCanvas, gPHOSHistoCount); } else { cout <<"PHOS block not histo"<GetDataType().CompareTo("CALOCLUS") == 0 ) iResult = processPHOSClusters( block ); else if ( block->GetDataType().CompareTo("DIGITTYP") == 0 ) iResult = processPHOSDigits( block); else if ( block->GetDataType().CompareTo("CHANNELT") == 0 ) iResult = processPHOSClusters( block ); //Update the eve elements for(int im = 0; im < 5; im++) gPHOSBoxSet[im]->ElementChanged(); } return iResult; } TEveElementList * createPHOSElementList() { TEveElementList * elementList = new TEveElementList("PHOS Cells"); gEve->AddElement(elementList); TVector3 center; Float_t angle; // -- Create boxsets for(int im = 0; im < 5; im++) { TEveRGBAPalette* pal = new TEveRGBAPalette(0,120); pal->SetLimits(-0.1, 1024); gPHOSBoxSet[im] = new TEveBoxSet(Form("Cells Module %d" , im)); gPHOSBoxSet[im]->SetPalette(pal); gPHOSBoxSet[im]->Reset(TEveBoxSet::kBT_AABox, kFALSE, 64); gPHOSBoxSet[im]->SetOwnIds(kTRUE); gPHOSGeom->GetModuleCenter(center, "CPV", im+1); angle = gPHOSGeom->GetPHOSAngle(im+1)*TMath::Pi()/180; gPHOSBoxSet[im]->RefitPlex(); TEveTrans& t = gPHOSBoxSet[im]->RefMainTrans(); t.SetupRotation(1, 2, angle ); t.SetPos(center.X(), center.Y(), center.Z()); elementList->AddElement(gPHOSBoxSet[im]); } return elementList; } void processEMCALBlock(AliHLTHOMERBlockDesc * block) { Int_t iResult = 0; if ( block->GetDataType().CompareTo("ROOTHIST") == 0 ) { if(!gEMCALCanvas) { gEMCALCanvas = CreateCanvas("EMCAL QA", "EMCAL QA"); gEMCALCanvas->Divide(3, 2); } AddHistogramsToCanvas(block, gEMCALCanvas, gEMCALHistoCount); } else { if( !gEMCALElementList ){ gEMCALElementList = createEMCALElementList(); } if ( block->GetDataType().CompareTo("CALOCLUS") == 0 ) { iResult = processEMCALClusters( block ); for(int sm = 0; sm < 12; sm++) { gEMCALBoxSet[sm]->ElementChanged(); } } } } TEveElementList * createEMCALElementList() { TEveElementList * elementList = new TEveElementList("EMCAL Cells"); elementList->SetTitle("Tooltip"); gEve->AddElement(elementList); gStyle->SetPalette(1, 0); TEveRGBAPalette* pal = new TEveRGBAPalette(0, 512); pal->SetLimits(0, 1024); for (Int_t sm=0; sm<12; ++sm) { TEveBoxSet* q = new TEveBoxSet(Form("SM %d", sm+1)); q->SetOwnIds(kTRUE); q->Reset(TEveBoxSet::kBT_AABox, kFALSE, 64); q->RefMainTrans().SetFrom(*gEMCALNode->GetDaughter(sm)->GetMatrix()); q->SetPalette(pal); gEve->AddElement(q, elementList); gEMCALBoxSet[sm] = q; } return elementList; } void processHLTBlock(AliHLTHOMERBlockDesc * block) { if ( ! block->GetDataType().CompareTo("ALIESDV0") ) { if(!gTPCTrack){ gTPCTrack = new TEveTrackList("ESD Tracks"); gTPCTrack->SetMainColor(6); gEve->AddElement(gTPCTrack); } processEsdTracks(block, gTPCTrack); gTPCTrack->ElementChanged(); } else if ( ! block->GetDataType().CompareTo("ROOTTOBJ") ) { processROOTTOBJ( block, gHLTText ); } else if ( ! block->GetDataType().CompareTo("HLTRDLST") ) { processHLTRDLST( block ); } else if ( !block->GetDataType().CompareTo("ROOTHIST") ) { processPrimVertexHistograms( block , gPrimVertexCanvas); gPrimVertexCanvas->Update(); } } void processTPCBlock(AliHLTHOMERBlockDesc * block) { cout <<"Processing tpc clusters"<GetDataType().CompareTo("CLUSTERS") ) { if(!gTPCClusters){ gTPCClusters = new TEvePointSet("TPC Clusters"); //gTPCClusters->ApplyVizTag("TPC Clusters"); gTPCClusters->SetMainColor(kRed); gTPCClusters->SetMarkerStyle((Style_t)kFullDotSmall); //gEve->AddElement(gTPCClusters); } if(!gTPCColClusters){ gTPCColClusters = new TEvePointSetArray("TPC Clusters Colorized"); gTPCColClusters->SetMainColor(kRed); gTPCColClusters->SetMarkerStyle(4); // antialiased circle gTPCColClusters->SetMarkerSize(0.4); gTPCColClusters->InitBins("Cluster Charge", gTPCBins, 0., gTPCBins*20.); const Int_t nCol = TColor::GetNumberOfColors(); for (Int_t ii = 0; ii < gTPCBins+1; ++ii) gTPCColClusters->GetBin(ii)->SetMainColor(TColor::GetColorPalette(ii * nCol / (gTPCBins+2))); gEve->AddElement(gTPCColClusters); } processTPCClusters(block, gTPCClusters, gTPCColClusters); //gTPCClusters->ElementChanged(); gTPCColClusters->ElementChanged(); } else if ( ! block->GetDataType().CompareTo("HWCL_ALT") ) { if(!gTPCTestClusters){ gTPCTestClusters = new TEvePointSet("TPC Clusters Test"); //ggTPCTestClusters->ApplyVizTag("TPC Clusters"); gTPCTestClusters->SetMainColor(kBlue); gTPCTestClusters->SetMarkerStyle((Style_t)kFullDotSmall); gEve->AddElement(gTPCTestClusters); } processTPCClusters(block, gTPCTestClusters); gTPCTestClusters->ElementChanged(); } }