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Reference Guide
alice_esd_split.C File Reference
Tutorials » Event display tutorials

Detailed Description

Complex example showing ALICE ESD visualization in several views.

alice_esd_split.C - a simple event-display for ALICE ESD tracks and clusters version with several windows in the same workspace

Only standard ROOT is used to process the ALICE ESD files.

No ALICE code is needed, only four simple coordinate-transformation functions declared in this macro.

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.

Automatic building of ALICE ESD class declarations and dictionaries.

ALICE ESD is a TTree containing tracks and other event-related information with one entry per event. All these classes are part of the AliROOT offline framework and are not available to standard ROOT.

To be able to access the event data in a natural way, by using data-members of classes and object containers, the header files and class dictionaries are automatically generated from the TStreamerInfo classes stored in the ESD file by using the TFile::MakeProject() function. The header files and a shared library is created in the aliesd/ directory and can be loaded dynamically into the ROOT session.

See the run_alice_esd.C macro.

Creation of simple GUI for event navigation.

Most common use of the event-display is to browse through a collection of events. Thus a simple GUI allowing this is created in the function make_gui().

Eve uses the configurable ROOT-browser as its main window and so we create an extra tab in the left working area of the browser and provide backward/forward buttons.

Event-navigation functions.

As this is a simple macro, we store the information about the current event in the global variable 'Int_t esd_event_id'. The functions for event-navigation simply modify this variable and call the load_event() function which does the following:

  1. drop the old visualization objects;
  2. retrieve given event from the ESD tree;
  3. call alice_esd_read() function to create visualization objects for the new event.

Reading of ALICE data and creation of visualization objects.

This is performed in alice_esd_read() function, with the following steps:

  1. create the track container object - TEveTrackList;
  2. iterate over the ESD tracks, create TEveTrack objects and append them to the container;
  3. instruct the container to extrapolate the tracks and set their visual attributes.
eve_alice_esd_split.png
#ifndef __RUN_ALICE_ESD_SPLIT__
void alice_esd_split()
{
TString dir = gSystem->UnixPathName(__FILE__);
dir.ReplaceAll("alice_esd_split.C","");
dir.ReplaceAll("/./","/");
gROOT->LoadMacro(dir +"SplitGLView.C+");
const char* esd_file_name = "http://root.cern.ch/files/alice_ESDs.root";
TFile::SetCacheFileDir(".");
TString lib(Form("aliesd/aliesd.%s", gSystem->GetSoExt()));
if (gSystem->AccessPathName(lib, kReadPermission)) {
TFile* f = TFile::Open(esd_file_name, "CACHEREAD");
if (f == 0) return;
TTree *tree = (TTree*) f->Get("esdTree");
tree->SetBranchStatus ("ESDfriend*", 1);
f->MakeProject("aliesd", "*", "++");
f->Close();
delete f;
}
gSystem->Load(lib);
gROOT->ProcessLine("#define __RUN_ALICE_ESD_SPLIT__ 1");
gROOT->ProcessLine("#include \"alice_esd_split.C\"");
gROOT->ProcessLine("run_alice_esd_split()");
gROOT->ProcessLine("#undef __RUN_ALICE_ESD_SPLIT__");
}
#else
R__EXTERN TEveProjectionManager *gRPhiMgr;
R__EXTERN TEveProjectionManager *gRhoZMgr;
TEveGeoShape *gGeoShape;
// Forward declarations.
class AliESDEvent;
class AliESDfriend;
class AliESDtrack;
class AliExternalTrackParam;
void make_gui();
void load_event();
void update_projections();
void alice_esd_read();
TEveTrack* esd_make_track(TEveTrackPropagator* trkProp, Int_t index, AliESDtrack* at,
AliExternalTrackParam* tp=0);
Bool_t trackIsOn(AliESDtrack* t, Int_t mask);
void trackGetPos(AliExternalTrackParam* tp, Double_t r[3]);
void trackGetMomentum(AliExternalTrackParam* tp, Double_t p[3]);
Double_t trackGetP(AliExternalTrackParam* tp);
// Configuration and global variables.
const char* esd_file_name = "http://root.cern.ch/files/alice_ESDs.root";
const char* esd_friends_file_name = "http://root.cern.ch/files/alice_ESDfriends.root";
const char* esd_geom_file_name = "http://root.cern.ch/files/alice_ESDgeometry.root";
TFile *esd_file = 0;
TFile *esd_friends_file = 0;
TTree *esd_tree = 0;
AliESDEvent *esd = 0;
AliESDfriend *esd_friend = 0;
Int_t esd_event_id = 0; // Current event id.
TEveTrackList *track_list = 0;
TGTextEntry *gTextEntry;
TGHProgressBar *gProgress;
/******************************************************************************/
// Initialization and steering functions
/******************************************************************************/
//______________________________________________________________________________
void run_alice_esd_split(Bool_t auto_size=kFALSE)
{
// 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(".");
printf("*** Opening ESD ***\n");
esd_file = TFile::Open(esd_file_name, "CACHEREAD");
if (!esd_file)
return;
printf("*** Opening ESD-friends ***\n");
esd_friends_file = TFile::Open(esd_friends_file_name, "CACHEREAD");
if (!esd_friends_file)
return;
esd_tree = (TTree*) esd_file->Get("esdTree");
esd = (AliESDEvent*) esd_tree->GetUserInfo()->FindObject("AliESDEvent");
// Set the branch addresses.
{
TIter next(esd->fESDObjects);
TObject *el;
while ((el=(TNamed*)next()))
{
TString bname(el->GetName());
if(bname.CompareTo("AliESDfriend")==0)
{
// AliESDfriend needs some '.' magick.
esd_tree->SetBranchAddress("ESDfriend.", esd->fESDObjects->GetObjectRef(el));
}
else
{
esd_tree->SetBranchAddress(bname, esd->fESDObjects->GetObjectRef(el));
}
}
}
TEveManager::Create();
// Adapt the main frame to the screen size...
if (auto_size)
{
Int_t qq;
UInt_t ww, hh;
gVirtualX->GetWindowSize(gVirtualX->GetDefaultRootWindow(), qq, qq, ww, hh);
Float_t screen_ratio = (Float_t)ww/(Float_t)hh;
if (screen_ratio > 1.5) {
gEve->GetBrowser()->MoveResize(100, 50, ww - 300, hh - 100);
} else {
gEve->GetBrowser()->Move(50, 50);
}
}
{ // Simple geometry
TFile* geom = TFile::Open(esd_geom_file_name, "CACHEREAD");
if (!geom)
return;
TEveGeoShapeExtract* gse = (TEveGeoShapeExtract*) geom->Get("Gentle");
gGeoShape = TEveGeoShape::ImportShapeExtract(gse, 0);
geom->Close();
delete geom;
gEve->AddGlobalElement(gGeoShape);
}
make_gui();
// import the geometry in the projection managers
if (gRPhiMgr) {
TEveProjectionAxes* a = new TEveProjectionAxes(gRPhiMgr);
a->SetNdivisions(3);
gEve->GetScenes()->FindChild("R-Phi Projection")->AddElement(a);
gRPhiMgr->ImportElements(gGeoShape);
}
if (gRhoZMgr) {
TEveProjectionAxes* a = new TEveProjectionAxes(gRhoZMgr);
a->SetNdivisions(3);
gEve->GetScenes()->FindChild("Rho-Z Projection")->AddElement(a);
gRhoZMgr->ImportElements(gGeoShape);
}
load_event();
update_projections();
gEve->Redraw3D(kTRUE); // Reset camera after the first event has been shown.
}
//______________________________________________________________________________
void load_event()
{
// Load event specified in global esd_event_id.
// The contents of previous event are removed.
printf("Loading event %d.\n", esd_event_id);
gTextEntry->SetTextColor(0xff0000);
gTextEntry->SetText(Form("Loading event %d...",esd_event_id));
gSystem->ProcessEvents();
if (track_list)
track_list->DestroyElements();
esd_tree->GetEntry(esd_event_id);
alice_esd_read();
gEve->Redraw3D(kFALSE, kTRUE);
gTextEntry->SetTextColor((Pixel_t)0x000000);
gTextEntry->SetText(Form("Event %d loaded",esd_event_id));
gROOT->ProcessLine("SplitGLView::UpdateSummary()");
}
//______________________________________________________________________________
void update_projections()
{
// cleanup then import geometry and event
// in the projection managers
TEveElement* top = gEve->GetCurrentEvent();
if (gRPhiMgr && top) {
gRPhiMgr->DestroyElements();
gRPhiMgr->ImportElements(gGeoShape);
gRPhiMgr->ImportElements(top);
}
if (gRhoZMgr && top) {
gRhoZMgr->DestroyElements();
gRhoZMgr->ImportElements(gGeoShape);
gRhoZMgr->ImportElements(top);
}
}
/******************************************************************************/
// GUI
/******************************************************************************/
//______________________________________________________________________________
//
// EvNavHandler class is needed to connect GUI signals.
class EvNavHandler
{
public:
void Fwd()
{
if (esd_event_id < esd_tree->GetEntries() - 1) {
++esd_event_id;
load_event();
update_projections();
} else {
gTextEntry->SetTextColor(0xff0000);
gTextEntry->SetText("Already at last event");
printf("Already at last event.\n");
}
}
void Bck()
{
if (esd_event_id > 0) {
--esd_event_id;
load_event();
update_projections();
} else {
gTextEntry->SetTextColor(0xff0000);
gTextEntry->SetText("Already at first event");
printf("Already at first event.\n");
}
}
};
//______________________________________________________________________________
void make_gui()
{
// Create minimal GUI for event navigation.
gROOT->ProcessLine(".L SplitGLView.C+");
TEveBrowser* browser = gEve->GetBrowser();
browser->ShowCloseTab(kFALSE);
browser->ExecPlugin("SplitGLView", 0, "new SplitGLView(gClient->GetRoot(), 600, 450, kTRUE)");
browser->ShowCloseTab(kTRUE);
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( Form("%s/icons/", gSystem->Getenv("ROOTSYS")) );
TGPictureButton* b = 0;
EvNavHandler *fh = new EvNavHandler;
b = new TGPictureButton(hf, gClient->GetPicture(icondir + "GoBack.gif"));
hf->AddFrame(b, new TGLayoutHints(kLHintsLeft | kLHintsCenterY, 10, 2, 10, 10));
b->Connect("Clicked()", "EvNavHandler", fh, "Bck()");
b = new TGPictureButton(hf, gClient->GetPicture(icondir + "GoForward.gif"));
hf->AddFrame(b, new TGLayoutHints(kLHintsLeft | kLHintsCenterY, 2, 10, 10, 10));
b->Connect("Clicked()", "EvNavHandler", fh, "Fwd()");
gTextEntry = new TGTextEntry(hf);
gTextEntry->SetEnabled(kFALSE);
hf->AddFrame(gTextEntry, new TGLayoutHints(kLHintsLeft | kLHintsCenterY |
kLHintsExpandX, 2, 10, 10, 10));
}
frmMain->AddFrame(hf, new TGLayoutHints(kLHintsTop | kLHintsExpandX,0,0,20,0));
gProgress = new TGHProgressBar(frmMain, TGProgressBar::kFancy, 100);
gProgress->ShowPosition(kTRUE, kFALSE, "%.0f tracks");
gProgress->SetBarColor("green");
frmMain->AddFrame(gProgress, new TGLayoutHints(kLHintsExpandX, 10, 10, 5, 5));
frmMain->MapSubwindows();
frmMain->Resize();
frmMain->MapWindow();
browser->StopEmbedding();
browser->SetTabTitle("Event Control", 0);
}
/******************************************************************************/
// Code for reading AliESD and creating visualization objects
/******************************************************************************/
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
};
//______________________________________________________________________________
void alice_esd_read()
{
// Read tracks and associated clusters from current event.
AliESDRun *esdrun = (AliESDRun*) esd->fESDObjects->FindObject("AliESDRun");
TClonesArray *tracks = (TClonesArray*) esd->fESDObjects->FindObject("Tracks");
// This needs further investigation. Clusters not shown.
// AliESDfriend *frnd = (AliESDfriend*) esd->fESDObjects->FindObject("AliESDfriend");
// printf("Friend %p, n_tracks:%d\n", frnd, frnd->fTracks.GetEntries());
if (track_list == 0) {
track_list = new TEveTrackList("ESD Tracks");
track_list->SetMainColor(6);
//track_list->SetLineWidth(2);
track_list->SetMarkerColor(kYellow);
track_list->SetMarkerStyle(4);
track_list->SetMarkerSize(0.5);
gEve->AddElement(track_list);
}
TEveTrackPropagator* trkProp = track_list->GetPropagator();
trkProp->SetMagField( 0.1 * esdrun->fMagneticField ); // kGaus to Tesla
gProgress->Reset();
gProgress->SetMax(tracks->GetEntriesFast());
for (Int_t n=0; n<tracks->GetEntriesFast(); ++n)
{
AliESDtrack* at = (AliESDtrack*) tracks->At(n);
// If ITS refit failed, take track parameters at inner TPC radius.
AliExternalTrackParam* tp = at;
if (! trackIsOn(at, kITSrefit)) {
tp = at->fIp;
}
TEveTrack* track = esd_make_track(trkProp, n, at, tp);
track->SetAttLineAttMarker(track_list);
track_list->AddElement(track);
// This needs further investigation. Clusters not shown.
// if (frnd)
// {
// AliESDfriendTrack* ft = (AliESDfriendTrack*) frnd->fTracks->At(n);
// printf("%d friend = %p\n", ft);
// }
gProgress->Increment(1);
}
track_list->MakeTracks();
}
//______________________________________________________________________________
TEveTrack* esd_make_track(TEveTrackPropagator* trkProp,
Int_t index,
AliESDtrack* at,
AliExternalTrackParam* tp)
{
// Helper function creating TEveTrack from AliESDtrack.
//
// Optionally specific track-parameters (e.g. at TPC entry point)
// can be specified via the tp argument.
Double_t pbuf[3], vbuf[3];
TEveRecTrack rt;
if (tp == 0) tp = at;
rt.fLabel = at->fLabel;
rt.fIndex = index;
rt.fStatus = (Int_t) at->fFlags;
rt.fSign = (tp->fP[4] > 0) ? 1 : -1;
trackGetPos(tp, vbuf); rt.fV.Set(vbuf);
trackGetMomentum(tp, pbuf); rt.fP.Set(pbuf);
Double_t ep = trackGetP(at);
Double_t mc = 0.138; // at->GetMass(); - Complicated function, requiring PID.
rt.fBeta = ep/TMath::Sqrt(ep*ep + mc*mc);
TEveTrack* track = new TEveTrack(&rt, trkProp);
track->SetName(Form("TEveTrack %d", rt.fIndex));
track->SetStdTitle();
return track;
}
//______________________________________________________________________________
Bool_t trackIsOn(AliESDtrack* t, Int_t mask)
{
// Check is track-flag specified by mask are set.
return (t->fFlags & mask) > 0;
}
//______________________________________________________________________________
void trackGetPos(AliExternalTrackParam* tp, Double_t r[3])
{
// Get global position of starting point of tp.
r[0] = tp->fX; r[1] = tp->fP[0]; r[2] = tp->fP[1];
Double_t cs=TMath::Cos(tp->fAlpha), sn=TMath::Sin(tp->fAlpha), x=r[0];
r[0] = x*cs - r[1]*sn; r[1] = x*sn + r[1]*cs;
}
//______________________________________________________________________________
void trackGetMomentum(AliExternalTrackParam* tp, Double_t p[3])
{
// Return global momentum vector of starting point of tp.
p[0] = tp->fP[4]; p[1] = tp->fP[2]; p[2] = tp->fP[3];
Double_t pt=1./TMath::Abs(p[0]);
Double_t cs=TMath::Cos(tp->fAlpha), sn=TMath::Sin(tp->fAlpha);
Double_t r=TMath::Sqrt(1 - p[1]*p[1]);
p[0]=pt*(r*cs - p[1]*sn); p[1]=pt*(p[1]*cs + r*sn); p[2]=pt*p[2];
}
//______________________________________________________________________________
Double_t trackGetP(AliExternalTrackParam* tp)
{
// Return magnitude of momentum of tp.
return TMath::Sqrt(1.+ tp->fP[3]*tp->fP[3])/TMath::Abs(tp->fP[4]);
}
#endif
Author
Bertrand Bellenot

Definition in file alice_esd_split.C.