Detailed Description

Complex example showing ALICE VSD visualization.
alice_vsd.C - a simple event-display for ALICE
Only standard ROOT is used to process the ALICE VSD files.
No ALICE code is needed – the VSD file is exported from AliRoot into VSD format – see TEveVSDStructs.h and TEveVSD.h.
A simple geometry of 10KB, extracted from the full TGeo-geometry, is used to outline the central detectors of ALICE.
All files are access from the web by using the "CACHEREAD" option.
#include <TEveManager.h>
#include <TEveEventManager.h>
#include <TEveVSD.h>
#include <TEveVSDStructs.h>
#include <TEveTrack.h>
#include <TEveTrackPropagator.h>
#include <TEveGeoShape.h>
#include <TGTab.h>
#include <TGButton.h>
#include <TFile.h>
#include <TKey.h>
#include <TSystem.h>
#include <TPRegexp.h>
// Include componets -- compile time link :)
#include "MultiView.C"
MultiView* gMultiView = 0;
class TVSDReader
{
public:
   // ----------------------------------------------------------
   // File / Event Data
   // ----------------------------------------------------------
   TFile      *fFile;
   TDirectory *fDirectory;
   TObjArray  *fEvDirKeys;
   TEveVSD    *fVSD;
   Int_t       fMaxEv, fCurEv;
   // ----------------------------------------------------------
   // Event visualization structures
   // ----------------------------------------------------------
   TEveTrackList *fTrackList;
   TEvePointSet  *fITSClusters;
   TEvePointSet  *fTPCClusters;
   TEvePointSet  *fTRDClusters;
   TEvePointSet  *fTOFClusters;
public:
   TVSDReader(const char* file_name) :
      fFile(0), fDirectory(0), fEvDirKeys(0),
      fVSD(0),
      fMaxEv(-1), fCurEv(-1),
      fTrackList(0),
      fITSClusters(0), fTPCClusters(0), fTRDClusters(0), fTOFClusters(0)
   {
      fFile = TFile::Open(file_name);
      if (!fFile)
      {
         Error("VSD_Reader", "Can not open file '%s' ... terminating.",
               file_name);
         gSystem->Exit(1);
      }
      fEvDirKeys = new TObjArray;
      TPMERegexp name_re("Event\\d+");
      TObjLink* lnk = fFile->GetListOfKeys()->FirstLink();
      while (lnk)
      {
         if (name_re.Match(lnk->GetObject()->GetName()))
         {
            fEvDirKeys->Add(lnk->GetObject());
         }
         lnk = lnk->Next();
      }
      fMaxEv = fEvDirKeys->GetEntriesFast();
      if (fMaxEv == 0)
      {
         Error("VSD_Reader", "No events to show ... terminating.");
         gSystem->Exit(1);
      }
      fVSD = new TEveVSD;
   }
   virtual ~TVSDReader()
   {
      // Destructor.
      DropEvent();
      delete fVSD;
      delete fEvDirKeys;
      fFile->Close();
      delete fFile;
   }
   void AttachEvent()
   {
      // Attach event data from current directory.
      fVSD->LoadTrees();
      fVSD->SetBranchAddresses();
   }
   void DropEvent()
   {
      // Drup currently held event data, release current directory.
      // Drop old visualization structures.
      gEve->GetViewers()->DeleteAnnotations();
      gEve->GetCurrentEvent()->DestroyElements();
      // Drop old event-data.
      fVSD->DeleteTrees();
      delete fDirectory;
      fDirectory = 0;
   }
   //---------------------------------------------------------------------------
   // Event navigation
   //---------------------------------------------------------------------------
   void NextEvent()
   {
      GotoEvent(fCurEv + 1);
   }
   void PrevEvent()
   {
      GotoEvent(fCurEv - 1);
   }
   Bool_t GotoEvent(Int_t ev)
   {
      if (ev < 0 || ev >= fMaxEv)
      {
         Warning("GotoEvent", "Invalid event id %d.", ev);
         return kFALSE;
      }
      DropEvent();
      // Connect to new event-data.
      fCurEv = ev;
      fDirectory = (TDirectory*) ((TKey*) fEvDirKeys->At(fCurEv))->ReadObj();
      fVSD->SetDirectory(fDirectory);
      AttachEvent();
      // Load event data into visualization structures.
      LoadClusters(fITSClusters, "ITS", 0);
      LoadClusters(fTPCClusters, "TPC", 1);
      LoadClusters(fTRDClusters, "TRD", 2);
      LoadClusters(fTOFClusters, "TOF", 3);
      LoadEsdTracks();
      // Fill projected views.
      TEveElement* top = gEve->GetCurrentEvent();
      gMultiView->DestroyEventRPhi();
      gMultiView->ImportEventRPhi(top);
      gMultiView->DestroyEventRhoZ();
      gMultiView->ImportEventRhoZ(top);
      gEve->Redraw3D(kFALSE, kTRUE);
      return kTRUE;
   }
   //---------------------------------------------------------------------------
   // Cluster loading
   //---------------------------------------------------------------------------
   void LoadClusters(TEvePointSet*& ps, const TString& det_name, Int_t det_id)
   {
      if (ps == 0)
      {
         ps = new TEvePointSet(det_name);
         ps->SetMainColor((Color_t)(det_id + 2));
         ps->SetMarkerSize(0.5);
         ps->SetMarkerStyle(2);
         ps->IncDenyDestroy();
      }
      else
      {
         ps->Reset();
      }
      TEvePointSelector ss(fVSD->fTreeC, ps, "fV.fX:fV.fY:fV.fZ",
                           TString::Format("fDetId==%d", det_id));
      ss.Select();
      ps->SetTitle(TString::Format("N=%d", ps->Size()));
      gEve->AddElement(ps);
   }
   //---------------------------------------------------------------------------
   // Track loading
   //---------------------------------------------------------------------------
   enum ESDTrackFlags
   {
      kITSin=0x0001,kITSout=0x0002,kITSrefit=0x0004,kITSpid=0x0008,
      kTPCin=0x0010,kTPCout=0x0020,kTPCrefit=0x0040,kTPCpid=0x0080,
      kTRDin=0x0100,kTRDout=0x0200,kTRDrefit=0x0400,kTRDpid=0x0800,
      kTOFin=0x1000,kTOFout=0x2000,kTOFrefit=0x4000,kTOFpid=0x8000,
      kHMPIDpid=0x20000,
      kEMCALmatch=0x40000,
      kTRDbackup=0x80000,
      kTRDStop=0x20000000,
      kESDpid=0x40000000,
      kTIME=0x80000000
   };
   Bool_t trackIsOn(TEveTrack* t, Int_t mask)
   {
      // Check is track-flag specified by mask are set.
      return (t->GetStatus() & mask) > 0;
   }
   void LoadEsdTracks()
   {
      // Read reconstructed tracks from current event.
      if (fTrackList == 0)
      {
         fTrackList = new TEveTrackList("ESD Tracks");
         fTrackList->SetMainColor(6);
         fTrackList->SetMarkerColor(kYellow);
         fTrackList->SetMarkerStyle(4);
         fTrackList->SetMarkerSize(0.5);
         fTrackList->IncDenyDestroy();
      }
      else
      {
         fTrackList->DestroyElements();
      }
      TEveTrackPropagator* trkProp = fTrackList->GetPropagator();
      // !!!! Need to store field on file !!!!
      // Can store TEveMagField ?
      trkProp->SetMagField(0.5);
      trkProp->SetStepper(TEveTrackPropagator::kRungeKutta);
      Int_t nTracks = fVSD->fTreeR->GetEntries();
      for (Int_t n = 0; n < nTracks; ++n)
      {
         fVSD->fTreeR->GetEntry(n);
         TEveTrack* track = new TEveTrack(&fVSD->fR, trkProp);
         track->SetName(Form("ESD Track %d", fVSD->fR.fIndex));
         track->SetStdTitle();
         track->SetAttLineAttMarker(fTrackList);
         fTrackList->AddElement(track);
      }
      fTrackList->MakeTracks();
      gEve->AddElement(fTrackList);
   }
   ClassDef(TVSDReader, 0);
};
TVSDReader* gVSDReader = 0;
// Forward declaration.
void make_gui();
//______________________________________________________________________________
void alice_vsd(const char* vsd_file_name=
               "http://mtadel.home.cern.ch/mtadel/root/AliVSD.root")
{
   // Main function, initializes the application.
   //
   // 1. Load the auto-generated library holding ESD classes and
   //    ESD dictionaries.
   // 2. Open ESD data-files.
   // 3. Load cartoon geometry.
   // 4. Spawn simple GUI.
   // 5. Load first event.
   TFile::SetCacheFileDir(".");
   TEveVSD::DisableTObjectStreamersForVSDStruct();
   gVSDReader = new TVSDReader(vsd_file_name);
   TEveManager::Create();
   TEveGeoShape *gentle_geom = 0;
   { // Simple geometry
      TFile* geom =
      TFile::Open("http://mtadel.home.cern.ch/mtadel/root/alice_mini_geom.root",
                  "CACHEREAD");
      if (!geom)
         return;
      TEveGeoShapeExtract* gse = (TEveGeoShapeExtract*) geom->Get("Gentle");
      gentle_geom = TEveGeoShape::ImportShapeExtract(gse, 0);
      geom->Close();
      delete geom;
      gEve->AddGlobalElement(gentle_geom);
   }
   // Standard multi-view
   //=====================
   gMultiView = new MultiView;
   gMultiView->f3DView->GetGLViewer()->SetStyle(TGLRnrCtx::kOutline);
   gMultiView->SetDepth(-10);
   gMultiView->ImportGeomRPhi(gentle_geom);
   gMultiView->ImportGeomRhoZ(gentle_geom);
   gMultiView->SetDepth(0);
   // Final stuff
   //=============
   gEve->GetViewers()->SwitchColorSet();
   gEve->GetDefaultGLViewer()->SetStyle(TGLRnrCtx::kOutline);
   gEve->GetBrowser()->GetTabRight()->SetTab(1);
   make_gui();
   gEve->AddEvent(new TEveEventManager("Event", "ALICE VSD Event"));
   gVSDReader->GotoEvent(0);
   gEve->Redraw3D(kTRUE); // Reset camera after the first event has been shown.
}
//______________________________________________________________________________
void make_gui()
{
   // Create minimal GUI for event navigation.
   TEveBrowser* browser = gEve->GetBrowser();
   browser->StartEmbedding(TRootBrowser::kLeft);
   TGMainFrame* frmMain = new TGMainFrame(gClient->GetRoot(), 1000, 600);
   frmMain->SetWindowName("XX GUI");
   frmMain->SetCleanup(kDeepCleanup);
   TGHorizontalFrame* hf = new TGHorizontalFrame(frmMain);
   {
      TString icondir(TString::Format("%s/icons/", gSystem->Getenv("ROOTSYS")));
      TGPictureButton* b = 0;
      b = new TGPictureButton(hf, gClient->GetPicture(icondir+"GoBack.gif"));
      hf->AddFrame(b);
      b->Connect("Clicked()", "TVSDReader", gVSDReader, "PrevEvent()");
      b = new TGPictureButton(hf, gClient->GetPicture(icondir+"GoForward.gif"));
      hf->AddFrame(b);
      b->Connect("Clicked()", "TVSDReader", gVSDReader, "NextEvent()");
   }
   frmMain->AddFrame(hf);
   frmMain->MapSubwindows();
   frmMain->Resize();
   frmMain->MapWindow();
   browser->StopEmbedding();
   browser->SetTabTitle("Event Control", 0);
}
#endif
Author: Matevz Tadel
Definition in file alice_vsd.C.