void digitsPHOS(Int_t nevents, Int_t nfiles)
{
TH1F * hadc = new TH1F ("hadc", "hadc", 100, -10, 200);
TH1F * hadcLog = new TH1F ("hadclog", "hadclog", 100, -2, 4);
IlcRunLoader* runLoader = IlcRunLoader::Open("gilc.root","Event","READ");
IlcPHOSLoader * phosLoader = dynamic_cast<IlcPHOSLoader*>(runLoader->GetLoader("PHOSLoader"));
for (Int_t ievent=0; ievent <nevents; ievent++) {
// for (Int_t ievent = 0; ievent < runLoader->GetNumberOfEvents(); ievent++) {
runLoader->GetEvent(ievent) ;
phosLoader->CleanDigits() ;
phosLoader->LoadDigits("READ") ;
TClonesArray * digits = phosLoader->Digits() ;
printf("Event %d contains %d digits\n",ievent,digits->GetEntriesFast());
for (Int_t j = 0; j < digits->GetEntries(); j++) {
IlcPHOSDigit* dig = dynamic_cast<IlcPHOSDigit*> (digits->At(j));
//cout << dig->GetEnergy() << endl;
hadc->Fill(dig->GetEnergy());
if(dig->GetEnergy()>0)
hadcLog->Fill(TMath::Log10(dig->GetEnergy()));
}
}
TFile fc("digits.PHOS.root","RECREATE");
fc.cd();
hadc->Write();
hadcLog->Write();
fc.Close();
}
Int_t IlcDCHFindClustersFast(Int_t n=0) {
IlcRunLoader* rl = IlcRunLoader::Open("gilc.root");
if (rl == 0x0) {
cerr<<"Can not open session"<<endl;
return 1;
}
IlcLoader *dchl = (IlcLoader*)rl->GetLoader("DCHLoader");
if (dchl == 0x0) {
cerr<<"Can not get DCH Loader"<<endl;
return 1;
}
if (dchl->LoadHits()) {
cerr<<"Error occured while loading hits"<<endl;
return 1;
}
if (dchl->LoadRecPoints("recreate")) {
cerr<<"Error occured while loading digits"<<endl;
return 1;
}
if (rl->LoadgIlc()) {
cerr<<"Error occured while l"<<endl;
return 1;
}
rl->LoadKinematics();
rl->LoadTrackRefs();
rl->LoadHeader();
gIlc=rl->GetIlcRun();
if (!gIlc) {
cerr<<"Can't get gIlc !\n";
return 1;
}
TDirectory *cwd = gDirectory;
IlcDCH *dch = (IlcDCH*)gIlc->GetDetector("DCH");
// Int_t ver = dch->IsVersion();
// cerr<<"DCH version "<<ver<<" has been found !\n";
/*if (!gGeoManager) {
TString geom = "geometry.root";
TGeoManager::Import(geom.Data());
}*/
IlcDCHParam *param=dch->GetParam();
//param->ReadGeoMatrices();
// param->SetMWPCReadout(false);
rl->CdGAFile();
TStopwatch timer;
// IlcDCHwireposition *wireMatr = new IlcDCHwireposition();
// IlcDCHclusterizer *clus = new IlcDCHclusterizer("clusterer", "DCH clusterizer");
// IlcDCHFast dchfast(wireMatr,clus);
IlcDCHFast dchfast;
//n = 30;
if (n==0) n = rl->GetNumberOfEvents();
for(Int_t i=0;i<n;i++){
printf("Processing event %d\n",i);
rl->GetEvent(i);
// tpcfast.Hits2ExactClusters(rl);
dchfast.Hits2Clusters(rl,i);
}
timer.Stop();
timer.Print();
//cleans everything
delete rl;
// delete wireMatr;
// delete clus;
return 0;
}
Int_t IlcTARGETFindClustersV2(Int_t nev=5, Char_t SlowOrFast='s') {
cerr<<"Looking for clusters...\n";
if (gIlc) {
delete gIlc->GetRunLoader();
delete gIlc;
gIlc=0;
}
IlcRunLoader *rl = IlcRunLoader::Open("gilc.root");
if (rl == 0x0) {
cerr<<"IlcTARGETFindClustersV2.C : Can not open session RL=NULL"<< endl;
return 1;
}
IlcTARGETLoader *itsl = (IlcTARGETLoader*)rl->GetLoader("TARGETLoader");
if (itsl == 0x0) {
cerr<<"IlcTARGETFindClustersV2.C : can not get TARGET loader"<< endl;
return 2;
}
rl->LoadKinematics();
Int_t retval = rl->LoadgIlc();
if (retval) {
cerr<<"IlcTARGETFindClustersV2.C : LoadgIlc returned error"<< endl;
delete rl;
return 3;
}
gIlc=rl->GetIlcRun();
IlcTARGET *TARGET = (IlcTARGET*)gIlc->GetModule("TARGET");
if (!TARGET) { cerr<<"Can't find the TARGET !\n"; delete rl; return 3; }
IlcTARGETgeom *geom=TARGET->GetTARGETgeom();
itsl->LoadRecPoints("recreate");
if (SlowOrFast=='s') itsl->LoadDigits("read");
else itsl->LoadHits("read");
if(SlowOrFast=='s'){
IlcTARGETclustererV2 clusterer(geom);
TStopwatch timer;
if (nev>rl->GetNumberOfEvents()) nev=rl->GetNumberOfEvents();
for (Int_t i=0; i<nev; i++) {
cerr<<"Processing event number: "<<i<<endl;
rl->GetEvent(i);
TTree *out=itsl->TreeR();
if (!out) {
itsl->MakeTree("R");
out=itsl->TreeR();
}
TTree *in=itsl->TreeD();
if (!in) {
cerr<<"Can't get digits tree !\n";
return 4;
}
clusterer.Digits2Clusters(in,out);
itsl->WriteRecPoints("OVERWRITE");
timer.Stop(); timer.Print();
}
} else{
for(Int_t i=0;i<3;i++){
TARGET->SetSimulationModel(i,new IlcTARGETsimulationFastPoints());
}
TStopwatch timer;
for (Int_t i=0; i<nev; i++) {
rl->GetEvent(i);
if(itsl->TreeR()== 0x0) itsl->MakeTree("R");
TTree* in = (TTree*)itsl->TreeH();
TTree* out= (TTree*)itsl->TreeR();
timer.Start();
TARGET->Hits2Clusters(in,out);
timer.Stop(); timer.Print();
itsl->WriteRecPoints("OVERWRITE");
}
}
delete rl;
return 0;
}
Int_t IlcTARGETGeoPlot (Int_t evesel=0, char *opt="All+ClustersV2", char *filename="gilc.root", Int_t isfastpoints = 0) {
/*******************************************************************
* This macro displays geometrical information related to the
* hits, digits and rec points (or V2 clusters) in TARGET.
* There are histograms that are not displayed (i.e. energy
* deposition) but that are saved onto a file (see below)
*
* INPUT arguments:
*
* Int_t evesel: the selected event number. It's =0 by default
*
* Options: Any combination of:
* 1) subdetector name: "SPD", "SDD", "SSD", "All" (default)
* 2) Printouts: "Verbose" Almost everything is printed out:
* it is wise to redirect the output onto a file
* e.g.: .x IlcTARGETGeoPlot.C("All+Verbose") > out.log
* 3) Rec Points option: "Rec" ---> Uses Rec. Points (default)
*
* 4) ClustersV2 option: "ClustersV2" ---->Uses ClustersV2
* otherwise ---->uses hits and digits only
* Examples:
* .x IlcTARGETGeoPlot(); (All subdetectors; no-verbose; no-recpoints)
* .x IlcTARGETGeoPlot("SPD+SSD+Verbose+Rec");
*
* filename: It's "gilc.root" by default.
* isfastpoints: integer. It is set to 0 by defaults. This means that
* slow reconstruction is assumed. If fast recpoint are in
* in use, isfastpoints must be set =1.
*
* OUTPUT: It produces a root file with a list of histograms
*
* WARNING: spatial information for SSD/DIGTARGET is obtained by pairing
* digits on p and n side originating from the same track, when
* possible. This (mis)use of DIGTARGET is tolerated for debugging
* purposes only !!!! The pairing in real life should be done
* starting from info really available...
*
* COMPILATION: this macro can be compiled.
* 1) You need to set your include path with
* gSystem->SetIncludePath("-I- -I$ILC_ROOT/include -I$ILC_ROOT/TARGET -g");
* 3) If you are using root instead of ilcroot you need to
* execute the macro loadlibs.C in advance
* 4) To compile this macro from root (or ilcroot):
* --- .L IlcTARGETGeoPlot.C++
* --- IlcTARGETGeoPlot();
*
* M.Masera 14/05/2001 18:30
* Last rev. 31/05/2004 14:00 (Clusters V2 added) E.C.
********************************************************************/
//Options
TString choice(opt);
Bool_t All = choice.Contains("All");
Bool_t verbose=choice.Contains("Verbose");
Bool_t userec=choice.Contains("Rec");
Bool_t useclustersv2=choice.Contains("ClustersV2");
Int_t retcode=1; //return code
if (gClassTable->GetID("IlcRun") < 0) {
gInterpreter->ExecuteMacro("loadlibs.C");
}
else {
if(gIlc){
delete gIlc->GetRunLoader();
delete gIlc;
gIlc=0;
}
}
IlcRunLoader* rl = IlcRunLoader::Open(filename);
if (rl == 0x0){
cerr<<"IlcTARGETGeoPlot.C : Can not open session RL=NULL"<< endl;
return -1;
}
Int_t retval = rl->LoadgIlc();
if (retval){
cerr<<"IlcTARGETGeoPlot.C : LoadgIlc returned error"<<endl;
return -1;
}
gIlc=rl->GetIlcRun();
retval = rl->LoadHeader();
if (retval){
cerr<<"IlcTARGETGeoPlot.C : LoadHeader returned error"<<endl;
return -1;
}
IlcTARGETLoader* TARGETloader = (IlcTARGETLoader*) rl->GetLoader("TARGETLoader");
if(!TARGETloader){
cerr<<"IlcTARGETGeoPlot.C : TARGET loader not found"<<endl;
return -1;
}
TARGETloader->LoadHits("read");
TARGETloader->LoadDigits("read");
if(isfastpoints==1)TARGETloader->SetRecPointsFileName("TARGET.FastRecPoints.root");
TARGETloader->LoadRecPoints("read");
rl->GetEvent(evesel);
Int_t nparticles = rl->GetHeader()->GetNtrack();
IlcTARGET *TARGET = (IlcTARGET*)gIlc->GetModule("TARGET");
TARGET->SetTreeAddress();
if(verbose) {
cout<<" "<<endl<<" "<<endl;
cout<<"******* Event processing started *******"<<endl;
cout<<"In the following, hits with 'StatusEntering' flag active"<<endl;
cout<<"will not be processed"<<endl;
cout << "Number of particles= " << nparticles <<endl;
}
// HTARGET
TTree *TH = TARGETloader->TreeH();
Stat_t ntracks = TH->GetEntries();
if(verbose)cout<<"Number of primary tracks= "<<ntracks<<endl;
// TARGET
Int_t nmodules;
TARGET->InitModules(-1,nmodules);
cout<<"Number of TARGET modules= "<<nmodules<<endl;
cout<<"Filling modules... It takes a while, now. Please be patient"<<endl;
TARGET->FillModules(0,0,nmodules," "," ");
cout<<"TARGET modules .... DONE!"<<endl;
IlcTARGETDetTypeRec* detTypeRec = new IlcTARGETDetTypeRec(TARGETloader);
detTypeRec->SetDefaults();
// DIGTARGET
TTree *TD = TARGETloader->TreeD();
//RECPOINTS (V2 clusters)
TTree *TR = TARGETloader->TreeR();
TClonesArray *TARGETrec = detTypeRec->RecPoints();
TBranch *branch = 0;
if(userec && TR && TARGETrec){
if(isfastpoints==1){
branch = TARGETloader->TreeR()->GetBranch("TARGETRecPointsF");
cout<<"using fast points\n";
}
else {
branch = TARGETloader->TreeR()->GetBranch("TARGETRecPoints");
}
if(branch)branch->SetAddress(&TARGETrec);
}
if(userec && (!TR || !TARGETrec || !branch)){
userec = kFALSE;
cout<<"\n ======================================================= \n";
cout<<"WARNING: there are no RECPOINTS on this file ! \n";
cout<<"======================================================= \n \n";
}
if(useclustersv2 && TR && TARGETrec){
branch = TARGETloader->TreeR()->GetBranch("TARGETRecPoints");
if(branch)branch->SetAddress(&TARGETrec);
}
if(useclustersv2 && (!TR || !TARGETrec || !branch)){
useclustersv2 = kFALSE;
cout<<"\n ======================================================= \n";
cout<<"WARNING: there are no CLUSTERSV2 on this file ! \n";
cout<<"======================================================= \n \n";
}
//local variables
Int_t mod; //module number
Int_t nbytes = 0;
Double_t pos[3]; // Global position of the current module
Float_t ragdet; // Radius of detector (x y plane)
Int_t first; // first module
Int_t last; // last module
Int_t nrecp; //number of RecPoints for a given module
//List of histograms
TObjArray histos(26,0); // contains the pointers to the histograms
// Book histograms SPD
TH2F *rspd = new TH2F("rspd","Radii of digits - SPD",50,-10.,10.,50,-10.,10.);
TH2F *rhspd = new TH2F("rhspd","Radii of hits - SPD",50,-10.,10.,50,-10.,10.);
TH2F *rmspd = new TH2F("rmspd","Radii of SPD modules",50,-10.,10.,50,-10.,10.);
TH1F *zspd = new TH1F("zspd","Z of digits - SPD",100,-30.,30.);
TH1F *zhspd = new TH1F("zhspd","Z of hits - SPD",100,-30.,30.);
TH1F *zmspd = new TH1F("zmspd","Z of SPD modules",100,-30,30.);
Char_t title1[50]="";
Char_t title2[50]="";
if(userec){
sprintf(title1,"Radii of recpoints - %s","SPD");
sprintf(title2,"Z of recpoints - %s","SPD");
}
if(useclustersv2){
sprintf(title1,"Radii of clustersV2 - %s","SPD");
sprintf(title2,"Z of clustersV2 - %s","SPD");
}
TH2F *rrspd = new TH2F("rrspd",title1,50,-10.,10.,50,-10.,10.);
TH1F *zrspd = new TH1F("zrspd",title2,100,-30.,30.);
TH1F *enespd = new TH1F("enespd","Energy deposition SPD (KeV)",100,0.,1000.);
histos.AddLast(rspd); // 0
histos.AddLast(rhspd); // 1
histos.AddLast(rmspd); // 2
histos.AddLast(zspd); // 3
histos.AddLast(zhspd); // 4
histos.AddLast(zmspd); // 5
histos.AddLast(rrspd); // 6
histos.AddLast(zrspd); // 7
histos.AddLast(enespd); // 8
// Book histograms SDD
TH2F *rsdd = new TH2F("rsdd","Radii of digits - SDD",50,-40.,40.,50,-40.,40.);
TH2F *rhsdd = new TH2F("rhsdd","Radii of hits - SDD",50,-40.,40.,50,-40.,40.);
TH2F *rmsdd = new TH2F("rmsdd","Radii of SDD modules",50,-40.,40.,50,-40.,40.);
TH1F *zsdd = new TH1F("zsdd","Z of digits - SDD",100,-40.,40.);
TH1F *zhsdd = new TH1F("zhsdd","Z of hits - SDD",100,-40.,40.);
TH1F *zmsdd = new TH1F("zmsdd","Z of SDD modules",100,-40,40.);
Char_t title3[50];
Char_t title4[50];
if(userec){
sprintf(title3,"Radii of recpoints - %s","SDD");
sprintf(title4,"Z of recpoints - %s","SDD");
}
if(useclustersv2){
sprintf(title3,"Radii of clustersV2 - %s","SDD");
sprintf(title4,"Z of clustersV2 - %s","SDD");
}
TH2F *rrsdd = new TH2F("rrsdd",title3,50,-40.,40.,50,-40.,40.);
TH1F *zrsdd = new TH1F("zrsdd",title4,100,-40.,40.);
TH1F *enesdd = new TH1F("enesdd","Energy deposition SDD (KeV)",100,0.,1000.);
histos.AddLast(rsdd); // 9
histos.AddLast(rhsdd); // 10
histos.AddLast(rmsdd); // 11
histos.AddLast(zsdd); // 12
histos.AddLast(zhsdd); // 13
histos.AddLast(zmsdd); // 14
histos.AddLast(rrsdd); // 15
histos.AddLast(zrsdd); // 16
histos.AddLast(enesdd); // 17
// Book histogram SSD
TH2F *rssd = new TH2F("rssd","Radii of digits - SSD",50,-50.,50.,50,-50.,50.);
TH2F *rhssd = new TH2F("rhssd","Radii of hits - SSD",50,-50.,50.,50,-50.,50.);
TH2F *rmssd = new TH2F("rmssd","Radii of SSD modules",50,-50.,50.,50,-50.,50.);
TH1F *zssd = new TH1F("zssd","Z of digits - SSD",100,-70.,70.);
TH1F *zhssd = new TH1F("zhssd","Z of hits - SSD",100,-70.,70.);
TH1F *zmssd = new TH1F("zmssd","Z of SSD modules",100,-70,70.);
Char_t title5[50];
Char_t title6[50];
if(userec){
sprintf(title5,"Radii of recpoints - %s","SSD");
sprintf(title6,"Z of recpoints - %s","SSD");
}
if(useclustersv2){
sprintf(title5,"Radii of clustersV2 - %s","SSD");
sprintf(title6,"Z of clustersV2 - %s","SSD");
}
TH2F *rrssd = new TH2F("rrssd",title5,50,-50.,50.,50,-50.,50.);
TH1F *zrssd = new TH1F("zrssd",title6,100,-70.,70.);
TH1F *enessd = new TH1F("enessd","Energy deposition SSD (KeV)",100,0.,1000.);
histos.AddLast(rssd); // 18
histos.AddLast(rhssd); // 19
histos.AddLast(rmssd); // 20
histos.AddLast(zssd); // 21
histos.AddLast(zhssd); // 22
histos.AddLast(zmssd); // 23
histos.AddLast(rrssd); // 24
histos.AddLast(zrssd); // 25
histos.AddLast(enessd); // 26
//
// Loop on subdetectors
//
IlcTARGETgeom *geom = TARGET->GetTARGETgeom();
TString detna; // subdetector name
for(Int_t subd=0;subd<3;subd++){
if(All || (choice.Contains("SPD") && subd==0) || (choice.Contains("SDD") && subd==1) || (choice.Contains("SSD") && subd==2)){
// Prepare array for the digits
TClonesArray *TARGETdigits = TARGET->DigitsAddress(subd);
Bool_t usedigits = kTRUE;
if(!TARGETdigits){
usedigits = kFALSE;
cout<<"\n ======================================================= \n";
cout<<"WARNING: there are no DIGTARGET on this file ! \n";
cout<<"======================================================= \n \n";
}
// Get segmentation model
if(subd==0)detna="SPD";
if(subd==1)detna="SDD";
if(subd==2)detna="SSD";
IlcTARGETsegmentation *seg=(IlcTARGETsegmentation*)detTypeRec->GetSegmentationModel(subd);
// Loop on modules
first = geom->GetStartDet(subd);
last = geom->GetLastDet(subd);
if(verbose){
cout<<" "<<endl<<"-------------------------------------"<<endl;
cout<<"Start processing subdetector "<<detna<<endl;
cout<<detna<<" first module "<<first<<endl;
cout<<detna<<" last module "<<last<<endl;
cout<<" "<<endl<<" "<<endl;
}
for (mod=first; mod<=last; mod++){
geom->GetTrans(mod,pos); // position of the module in the MRS
ragdet=sqrt(pos[0]*pos[0]+pos[1]*pos[1]);
// The following 2 histos are a check of the geometry
TH2F *bidi = (TH2F*)histos.At(2+subd*9);
TH1F *uni = (TH1F*)histos.At(5+subd*9);
bidi->Fill(pos[0],pos[1]);
uni->Fill(pos[2]);
if(verbose){
cout<<"=========================================================\n";
cout<<detna<<" module="<<mod<<endl;
cout<<"Mod. coordinates: "<<pos[0]<<", "<<pos[1]<<", ";
cout<<pos[2]<<" Radius "<<ragdet<<endl;
}
// Hits
GetHitsCoor(TARGET,mod,histos,subd,verbose);
//RecPoints
if(userec){
detTypeRec->ResetRecPoints();
branch->GetEvent(mod);
TH2F *bidi=(TH2F*)histos.At(6+subd*9);
TH1F *uni=(TH1F*)histos.At(7+subd*9);
nrecp=GetRecCoor(geom,TARGETrec,mod,bidi,uni,verbose);
}
if(useclustersv2){
detTypeRec->ResetRecPoints();
branch->GetEvent(mod);
TH2F *bidi=(TH2F*)histos.At(6+subd*9);
TH1F *uni=(TH1F*)histos.At(7+subd*9);
nrecp=GetClusCoor(geom,TARGETrec,mod,bidi,uni,verbose);
}
// Digits
if(usedigits){
detTypeRec->ResetDigits();
nbytes += TD->GetEvent(mod);
GetDigits(seg,geom,TARGETdigits,subd,mod,verbose,histos);
}
} // End of loop on the modules
TH1F *h1tmp;
TH2F *h2tmp;
// Plot the histograms
TCanvas *current=0; // current Canvas (1--> SPD, 2---> SDD, 3---> SSD)
if(subd==0){
// Prepare canvas 1
TCanvas *c1 = new TCanvas("c1","SPD",10,10,600,900);
c1->Divide(2,3);
current=c1;
}
if(subd==1){
// Prepare canvas 2
TCanvas *c2 = new TCanvas("c2","SDD",40,40,600,900);
c2->Divide(2,3);
current=c2;
}
if(subd==2){
// Prepare canvas 3
TCanvas *c3 = new TCanvas("c3","SSD",70,70,600,900);
c3->Divide(2,3);
current=c3;
}
current->cd(1);
h2tmp = (TH2F*)histos.At(9*subd);
h2tmp->Draw();
current->cd(2);
h1tmp=(TH1F*)histos.At(3+subd*9);
h1tmp->Draw();
current->cd(3);
h2tmp=(TH2F*)histos.At(1+9*subd);
h2tmp->Draw();
current->cd(4);
h1tmp=(TH1F*)histos.At(4+subd*9);
h1tmp->Draw();
if(userec || useclustersv2){
current->cd(5);
h2tmp=(TH2F*)histos.At(6+9*subd);
h2tmp->Draw();
current->cd(6);
h1tmp=(TH1F*)histos.At(7+subd*9);
h1tmp->Draw();
}
else {
current->cd(5);
h2tmp=(TH2F*)histos.At(2+9*subd);
h2tmp->Draw();
current->cd(6);
h2tmp=(TH2F*)histos.At(5+9*subd);
h2tmp->Draw();
}
} // if(All.....
} // end of loop on subdetectors
// Save the histograms
TFile *fh = new TFile("IlcTARGETGeoPlot.root","recreate");
// The list is written to file as a single entry
TList *lihi = new TList();
// copy the pointers to the histograms to a TList object.
// The histograms concerning recpoints are not copied if
// 'userec' is false.
for(Int_t i=0;i<histos.GetEntriesFast();i++){
if(choice.Contains("All") || (choice.Contains("SPD") && i<8) || (choice.Contains("SDD") && i>7 && i<16) || (choice.Contains("SSD") && i>15)){
if(!(!userec && ((i+2)%9==0 || (i+1)%9==0)))lihi->Add(histos.At(i));
}
}
lihi->Write("Histograms TARGET hits+digits+recpoints",TObject::kSingleKey);
fh->Close();
return retcode;
}
void testTARGETMultReco(Char_t* dir = ".") {
Char_t str[256];
// ########################################################
// defining pointers
IlcRunLoader* runLoader;
TFile* esdFile = 0;
TTree* esdTree = 0;
IlcESD* esd = 0;
// #########################################################
// setup gilc and runloader
if (gIlc) {
delete gIlc->GetRunLoader();
delete gIlc;
gIlc=0;
}
sprintf(str,"%s/gilc.root",dir);
runLoader = IlcRunLoader::Open(str);
if (runLoader == 0x0) {
cout << "Can not open session"<<endl;
return;
}
runLoader->LoadgIlc();
gIlc = runLoader->GetIlcRun();
runLoader->LoadKinematics();
runLoader->LoadHeader();
// #########################################################
// open esd file and get the tree
// close it first to avoid memory leak
if (esdFile)
if (esdFile->IsOpen())
esdFile->Close();
sprintf(str,"%s/IlcESDs.root",dir);
esdFile = TFile::Open(str);
esdTree = (TTree*)esdFile->Get("esdTree");
TBranch * esdBranch = esdTree->GetBranch("ESD");
esdBranch->SetAddress(&esd);
// #########################################################
// setup its stuff
IlcTARGET* its=(IlcTARGET*)runLoader->GetIlcRun()->GetDetector("TARGET");
if (!its) {
cout << " Can't get the TARGET!" << endl;
return ;
}
IlcTARGETgeom* itsGeo=its->GetTARGETgeom();
if (!itsGeo) {
cout << " Can't get the TARGET geometry!" << endl;
return ;
}
IlcTARGETLoader* itsLoader = (IlcTARGETLoader*)runLoader->GetLoader("TARGETLoader");
if (!itsLoader) {
cout << " Can't get the TARGET loader!" << endl;
return ;
}
itsLoader->LoadRecPoints("read");
// #########################################################
IlcTARGETMultReconstructor* multReco = new IlcTARGETMultReconstructor();
multReco->SetGeometry(itsGeo);
// #########################################################
// getting number of events
Int_t nEvents = (Int_t)runLoader->GetNumberOfEvents();
Int_t nESDEvents = esdBranch->GetEntries();
if (nEvents!=nESDEvents) {
cout << " Different number of events from runloader and esdtree!!!"
<< nEvents << " / " << nESDEvents << endl;
return;
}
// ########################################################
// loop over number of events
cout << nEvents << " event(s) found in the file set" << endl;
for(Int_t i=0; i<nEvents; i++) {
cout << "-------------------------" << endl << " event# " << i << endl;
runLoader->GetEvent(i);
esdBranch->GetEntry(i);
// ########################################################
// get the EDS vertex
const IlcESDVertex* vtxESD = esd->GetVertex();
Double_t vtx[3];
vtxESD->GetXYZ(vtx);
Float_t esdVtx[3];
esdVtx[0] = vtx[0];
esdVtx[1] = vtx[1];
esdVtx[2] = vtx[2];
///#########################################################
// get TARGET clusters
TTree* itsClusterTree = itsLoader->TreeR();
if (!itsClusterTree) {
cerr<< " Can't get the TARGET cluster tree !\n";
return;
}
multReco->SetHistOn(kTRUE);
multReco->Reconstruct(itsClusterTree, esdVtx, esdVtx);
for (Int_t t=0; t<multReco->GetNTracklets(); t++) {
cout << " tracklet " << t
<< " , theta = " << multReco->GetTracklet(t)[0]
<< " , phi = " << multReco->GetTracklet(t)[1] << endl;
}
}
TFile* fout = new TFile("out.root","RECREATE");
multReco->SaveHists();
fout->Write();
fout->Close();
}