#include "AliCDBEntry.h"
#include "AliCDBManager.h"
//#include "AliCDBRunRange.h"
-//#include "AliITSsegmentationSPD.h"
+#include "AliITSsegmentationSPD.h"
#include "AliITSCalibrationSPD.h"
ClassImp(AliITSPlaneEffSPD)
//______________________________________________________________________
AliITSPlaneEffSPD::AliITSPlaneEffSPD():
AliITSPlaneEff(),
- //fHis(kFALSE),
fHisResX(0),
fHisResZ(0),
fHisResXZ(0),
fHisClusterSize(0),
fHisResXclu(0),
- fHisResZclu(0){
+ fHisResZclu(0),
+ fHisResXchip(0),
+ fHisResZchip(0),
+ fProfResXvsPhi(0),
+ fProfResZvsDip(0),
+ fProfResXvsPhiclu(0),
+ fProfResZvsDipclu(0),
+ fHisTrackErrX(0),
+ fHisTrackErrZ(0),
+ fHisClusErrX(0),
+ fHisClusErrZ(0){
for (UInt_t i=0; i<kNModule*kNChip; i++){
+ //
+ // default constructor
+ //
fFound[i]=0;
fTried[i]=0;
}
- // default constructor
AliDebug(1,Form("Calling default constructor"));
}
//______________________________________________________________________
fHisResXZ(0),
fHisClusterSize(0),
fHisResXclu(0),
-fHisResZclu(0)
+fHisResZclu(0),
+fHisResXchip(0),
+fHisResZchip(0),
+fProfResXvsPhi(0),
+fProfResZvsDip(0),
+fProfResXvsPhiclu(0),
+fProfResZvsDipclu(0),
+fHisTrackErrX(0),
+fHisTrackErrZ(0),
+fHisClusErrX(0),
+fHisClusErrZ(0)
{
// Copy Constructor
// Inputs:
for(Int_t clu=0; clu<kNclu; clu++) { // clu=0 --> cluster size 1
s.fHisResXclu[i][clu]->Copy(*fHisResXclu[i][clu]);
s.fHisResZclu[i][clu]->Copy(*fHisResZclu[i][clu]);
+ s.fProfResXvsPhiclu[i][clu]->Copy(*fProfResXvsPhiclu[i][clu]);
+ s.fProfResZvsDipclu[i][clu]->Copy(*fProfResZvsDipclu[i][clu]);
}
+ for(Int_t chip=0; chip<kNChip; chip++) {
+ s.fHisResXchip[i][chip]->Copy(*fHisResXchip[i][chip]);
+ s.fHisResZchip[i][chip]->Copy(*fHisResZchip[i][chip]);
+ }
+ s.fProfResXvsPhi[i]->Copy(*fProfResXvsPhi[i]);
+ s.fProfResZvsDip[i]->Copy(*fProfResZvsDip[i]);
+ s.fHisTrackErrX[i]->Copy(*fHisTrackErrX[i]);
+ s.fHisTrackErrZ[i]->Copy(*fHisTrackErrZ[i]);
+ s.fHisClusErrX[i]->Copy(*fHisClusErrX[i]);
+ s.fHisClusErrZ[i]->Copy(*fHisClusErrZ[i]);
}
}
}
for(Int_t clu=0; clu<kNclu; clu++) { // clu=0 --> cluster size 1
fHisResXclu[i][clu]->Add(add.fHisResXclu[i][clu]);
fHisResZclu[i][clu]->Add(add.fHisResZclu[i][clu]);
+ fProfResXvsPhiclu[i][clu]->Add(add.fProfResXvsPhiclu[i][clu]);
+ fProfResZvsDipclu[i][clu]->Add(add.fProfResZvsDipclu[i][clu]);
+ }
+ for(Int_t chip=0; chip<kNChip; chip++) {
+ fHisResXchip[i][chip]->Add(add.fHisResXchip[i][chip]);
+ fHisResZchip[i][chip]->Add(add.fHisResZchip[i][chip]);
}
+ fProfResXvsPhi[i]->Add(add.fProfResXvsPhi[i]);
+ fProfResZvsDip[i]->Add(add.fProfResZvsDip[i]);
+ fHisTrackErrX[i]->Add(add.fHisTrackErrX[i]);
+ fHisTrackErrZ[i]->Add(add.fHisTrackErrZ[i]);
+ fHisClusErrX[i]->Add(add.fHisClusErrX[i]);
+ fHisClusErrZ[i]->Add(add.fHisClusErrZ[i]);
}
}
return *this;
target.fHisClusterSize=new TH2I*[kNHisto];
target.fHisResXclu=new TH1F**[kNHisto];
target.fHisResZclu=new TH1F**[kNHisto];
+ target.fHisResXchip=new TH1F**[kNHisto];
+ target.fHisResZchip=new TH1F**[kNHisto];
+ target.fProfResXvsPhi=new TProfile*[kNHisto];
+ target.fProfResZvsDip=new TProfile*[kNHisto];
+ target.fProfResXvsPhiclu=new TProfile**[kNHisto];
+ target.fProfResZvsDipclu=new TProfile**[kNHisto];
+ target.fHisTrackErrX=new TH1F*[kNHisto];
+ target.fHisTrackErrZ=new TH1F*[kNHisto];
+ target.fHisClusErrX=new TH1F*[kNHisto];
+ target.fHisClusErrZ=new TH1F*[kNHisto];
for(Int_t i=0; i<kNHisto; i++) {
target.fHisResX[i] = new TH1F(*fHisResX[i]);
target.fHisResZ[i] = new TH1F(*fHisResZ[i]);
target.fHisClusterSize[i] = new TH2I(*fHisClusterSize[i]);
target.fHisResXclu[i]=new TH1F*[kNclu];
target.fHisResZclu[i]=new TH1F*[kNclu];
+ target.fProfResXvsPhiclu[i]=new TProfile*[kNclu];
+ target.fProfResZvsDipclu[i]=new TProfile*[kNclu];
for(Int_t clu=0; clu<kNclu; clu++) { // clu=0 --> cluster size 1
target.fHisResXclu[i][clu] = new TH1F(*fHisResXclu[i][clu]);
target.fHisResZclu[i][clu] = new TH1F(*fHisResZclu[i][clu]);
+ target.fProfResXvsPhiclu[i][clu] = new TProfile(*fProfResXvsPhiclu[i][clu]);
+ target.fProfResZvsDipclu[i][clu] = new TProfile(*fProfResZvsDipclu[i][clu]);
+ }
+ target.fHisResXchip[i]=new TH1F*[kNChip];
+ target.fHisResZchip[i]=new TH1F*[kNChip];
+ for(Int_t chip=0; chip<kNChip; chip++) {
+ target.fHisResXchip[i][chip] = new TH1F(*fHisResXchip[i][chip]);
+ target.fHisResZchip[i][chip] = new TH1F(*fHisResZchip[i][chip]);
}
+ target.fProfResXvsPhi[i] = new TProfile(*fProfResXvsPhi[i]);
+ target.fProfResZvsDip[i] = new TProfile(*fProfResZvsDip[i]);
+ target.fHisTrackErrX[i] = new TH1F(*fHisTrackErrX[i]);
+ target.fHisTrackErrZ[i] = new TH1F(*fHisTrackErrZ[i]);
+ target.fHisClusErrX[i] = new TH1F(*fHisClusErrX[i]);
+ target.fHisClusErrZ[i] = new TH1F(*fHisClusErrZ[i]);
}
}
return;
}
-//______________________________________________________________________
-AliITSPlaneEff& AliITSPlaneEffSPD::operator=(const
- AliITSPlaneEff &s){
- // Assignment operator
- // Inputs:
- // AliITSPlaneEffSPD &s The original class for which
- // this class is a copy of
- // Outputs:
- // none.
- // Return:
- if(&s == this) return *this;
- AliError("operator=: Not allowed to make a =, use default creater instead");
- return *this;
-}
//_______________________________________________________________________
Int_t AliITSPlaneEffSPD::GetMissingTracksForGivenEff(Double_t eff, Double_t RelErr,
UInt_t im, UInt_t ic) const {
if (im>=kNModule || ic>=kNChip)
{AliError("GetMissingTracksForGivenEff: you asked for a non existing chip");
return -1;}
-else return GetNTracksForGivenEff(eff,RelErr)-fTried[GetKey(im,ic)];
+else {
+ UInt_t key=GetKey(im,ic);
+ if(key<kNModule*kNChip) return GetNTracksForGivenEff(eff,RelErr)-fTried[key];
+ else return -1;
+}
}
//_________________________________________________________________________
Double_t AliITSPlaneEffSPD::PlaneEff(const UInt_t im,const UInt_t ic) const {
// ic -> chip number [0,4]
if (im>=kNModule || ic>=kNChip)
{AliError("PlaneEff(Uint_t,Uint_t): you asked for a non existing chip"); return -1.;}
- Int_t nf=fFound[GetKey(im,ic)];
- Int_t nt=fTried[GetKey(im,ic)];
+UInt_t key=GetKey(im,ic);
+Int_t nf=-1;
+Int_t nt=-1;
+if(key<kNModule*kNChip) {
+ nf=fFound[key];
+ nt=fTried[key];
+}
return AliITSPlaneEff::PlaneEff(nf,nt);
}
//_________________________________________________________________________
// ic -> chip number [0,4]
if (im>=kNModule || ic>=kNChip)
{AliError("ErrPlaneEff(Uint_t,Uint_t): you asked for a non existing chip"); return -1.;}
-Int_t nf=fFound[GetKey(im,ic)];
-Int_t nt=fTried[GetKey(im,ic)];
+UInt_t key=GetKey(im,ic);
+Int_t nf=-1;
+Int_t nt=-1;
+if(key<kNModule*kNChip) {
+ nf=fFound[key];
+ nt=fTried[key];
+}
return AliITSPlaneEff::ErrPlaneEff(nf,nt);
}
//_________________________________________________________________________
// Update efficiency for a basic block
if (im>=kNModule || ic>=kNChip)
{AliError("UpDatePlaneEff: you asked for a non existing chip"); return kFALSE;}
- fTried[GetKey(im,ic)]++;
- if(Kfound) fFound[GetKey(im,ic)]++;
- return kTRUE;
+ UInt_t key=GetKey(im,ic);
+ if(key<kNModule*kNChip) {
+ fTried[key]++;
+ if(Kfound) fFound[key]++;
+ return kTRUE;
+ }
+ return kFALSE;
}
//_________________________________________________________________________
UInt_t AliITSPlaneEffSPD::GetChipFromCol(const UInt_t col) const {
AliError("GetDeadAndNoisyInChip: did not find Calib/SPDDead.");
return;
}
+// retrieve map of sparse dead Pixel
+AliCDBEntry *cdbSPDSparseDead = man->Get("ITS/Calib/SPDSparseDead", fRunNumber);
+TObjArray* spdSparseDead;
+if(cdbSPDSparseDead) {
+ spdSparseDead = (TObjArray*)cdbSPDSparseDead->GetObject();
+ if(!spdSparseDead)
+ {AliError("GetDeadAndNoisyInChip: SPDSparseDead not found in CDB");
+ return;}
+} else {
+ AliError("GetDeadAndNoisyInChip: did not find Calib/SPDSparseDead.");
+ return;
+}
+
// retrieve map of noisy Pixel
AliCDBEntry *cdbSPDNoisy = man->Get("ITS/Calib/SPDNoisy", fRunNumber);
TObjArray* spdNoisy;
for (UInt_t index=0; index<nrDead; index++) {
if(GetChipFromCol(calibSPD->GetBadColAt(index))==chip) nrDeadInChip++;
}
+// add the number of sparse dead to the previous dead
+calibSPD=(AliITSCalibrationSPD*) spdSparseDead->At(mod);
+UInt_t nrSparseDead = calibSPD->GetNrBad();
+for (UInt_t index=0; index<nrSparseDead; index++) {
+ if(GetChipFromCol(calibSPD->GetBadColAt(index))==chip) nrDeadInChip++;
+}
calibSPD=(AliITSCalibrationSPD*) spdNoisy->At(mod);
UInt_t nrNoisy = calibSPD->GetNrBad();
for (UInt_t index=0; index<nrNoisy; index++) {
return kFALSE;}
// to be written properly: now only for debugging
AliCDBMetaData *md= new AliCDBMetaData(); // metaData describing the object
- md->SetObjectClassName("AliITSPlaneEff");
+ //md->SetObjectClassName("AliITSPlaneEff");
md->SetResponsible("Giuseppe Eugenio Bruno");
md->SetBeamPeriod(0);
md->SetAliRootVersion("head 19/11/07"); //root version
if(!fInitCDBCalled)
{AliError("ReadFromCDB: CDB not inizialized. Call InitCDB first");
return kFALSE;}
-//if(!AliCDBManager::Instance()->IsDefaultStorageSet()) {
-// AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT");
-// }
AliCDBEntry *cdbEntry = AliCDBManager::Instance()->Get("ITS/PlaneEff/PlaneEffSPD",fRunNumber);
+if(!cdbEntry) return kFALSE;
AliITSPlaneEffSPD* eff= (AliITSPlaneEffSPD*)cdbEntry->GetObject();
if(this==eff) return kFALSE;
if(fHis) CopyHistos(*eff); // If histos already exist then copy them to eff
return kTRUE;
}
//_____________________________________________________________________________
+Bool_t AliITSPlaneEffSPD::AddFromCDB(AliCDBId *cdbId) {
+AliCDBEntry *cdbEntry=0;
+// read efficiency values from CDB
+if (!cdbId) {
+ if(!fInitCDBCalled)
+ {AliError("ReadFromCDB: CDB not inizialized. Call InitCDB first"); return kFALSE;}
+ cdbEntry = AliCDBManager::Instance()->Get("ITS/PlaneEff/PlaneEffSPD",fRunNumber);
+} else {
+ cdbEntry = AliCDBManager::Instance()->Get(*cdbId);
+}
+if(!cdbEntry) return kFALSE;
+AliITSPlaneEffSPD* eff= (AliITSPlaneEffSPD*)cdbEntry->GetObject();
+*this+=*eff;
+return kTRUE;
+}
+//_____________________________________________________________________________
UInt_t AliITSPlaneEffSPD::GetKeyFromDetLocCoord(Int_t ilay, Int_t idet,
Float_t, Float_t locz) const {
// method to locate a basic block from Detector Local coordinate (to be used in tracking)
}
//_____________________________________________________________________________
UInt_t AliITSPlaneEffSPD::GetColFromLocZ(Float_t zloc) const {
-UInt_t col=0;
-/* note: as it is now, the AliITSsegmentationSPD::Init() does not properly initialize (6 chips !!!)
-AliITSsegmentationSPD spd;
-spd.Init();
-Int_t ix,iz;
-if(spd.LocalToDet(0,zloc,ix,iz)) col+=iz;
-else {
- AliError("GetColFromLocZ: cannot compute column number from local z");
- col=99999;}
-return col;
-*/
+// method to retrieve column number from the local z coordinate
+ UInt_t col=0;
+ AliITSsegmentationSPD spd;
+ Int_t ix,iz;
+ if(spd.LocalToDet(0,zloc,ix,iz)) col+=iz;
+ else {
+ AliDebug(1,Form("cannot compute column number from local z=%f",zloc));
+ col=99999;}
+ return col;
+/*
const Float_t kconv = 1.0E-04; // converts microns to cm.
Float_t bz[160];
for(Int_t i=000;i<160;i++) bz[i] = 425.0; // most are 425 microns except below
col+=j;
//
return col;
+*/
}
//________________________________________________________
Bool_t AliITSPlaneEffSPD::GetBlockBoundaries(const UInt_t key, Float_t& xmn,Float_t& xmx,
zmx=GetLocZFromCol((chip+1)*kNCol);
xmn=GetLocXFromRow(0);
xmx=GetLocXFromRow(kNRow);
+//
Float_t tmp=zmn;
if(zmx<zmn) {zmn=zmx; zmx=tmp;}
tmp=xmn;
//
if(row>kNRow) // not >= ! allow also computation of upper limit of the last row.
{AliError("LocYFromRow: you asked for a non existing row"); return 9999999.;}
-const Float_t kconv = 1.0E-04; // converts microns to cm.
-Float_t bx[256];
-for(Int_t i=000;i<256;i++) bx[i] = 50.0; // in x all are 50 microns.
-//
-Float_t dx=0;
-for(Int_t i=000;i<256;i++) dx+=bx[i];
-dx = -0.5*kconv*dx;
-for(UInt_t j=0;j<row;j++){
- dx += kconv*bx[j];
-} // end for j
-return dx;
+// Use only AliITSsegmentationSPD
+AliITSsegmentationSPD spd;
+Double_t dummy,x;
+if(row==kNRow) spd.CellBoundries((Int_t)row-1,0,dummy,x,dummy,dummy);
+else spd.CellBoundries((Int_t)row,0,x,dummy,dummy,dummy);
+return (Float_t)x;
+
}
//________________________________________________________
Float_t AliITSPlaneEffSPD::GetLocZFromCol(const UInt_t col) const {
//
if(col>kNChip*kNCol) // not >= ! allow also computation of upper limit of the last column
{AliError("LocZFromCol: you asked for a non existing column"); return 9999999.;}
-const Float_t kconv = 1.0E-04; // converts microns to cm.
-Float_t bz[160];
-for(Int_t i=000;i<160;i++) bz[i] = 425.0; // most are 425 microns except below
-bz[ 31] = bz[ 32] = 625.0; // first chip boundry
-bz[ 63] = bz[ 64] = 625.0; // first chip boundry
-bz[ 95] = bz[ 96] = 625.0; // first chip boundry
-bz[127] = bz[128] = 625.0; // first chip boundry
-//
-Float_t dz=0;
-for(Int_t i=000;i<160;i++) dz+=bz[i];
-dz = -0.5*kconv*dz;
-for(UInt_t j=0;j<col;j++){
- dz += kconv*bz[j];
-} // end for j
-return dz;
+// Use only AliITSsegmentationSPD
+AliITSsegmentationSPD spd;
+Double_t dummy,y;
+if(col==kNChip*kNCol) spd.CellBoundries(0,(Int_t)col-1,dummy,dummy,dummy,y);
+else spd.CellBoundries(0,(Int_t)col,dummy,dummy,y,dummy);
+return (Float_t)y;
+
}
//__________________________________________________________
void AliITSPlaneEffSPD::InitHistos() {
TString histnameClusterType="HistClusterType_mod_";
TString histnameResXclu="HistResX_mod_";
TString histnameResZclu="HistResZ_mod_";
+ TString histnameResXchip="HistResX_mod_";
+ TString histnameResZchip="HistResZ_mod_";
+ TString profnameResXvsPhi="ProfResXvsPhi_mod_";
+ TString profnameResZvsDip="ProfResZvsDip_mod_";
+ TString profnameResXvsPhiclu="ProfResXvsPhi_mod_";
+ TString profnameResZvsDipclu="ProfResZvsDip_mod_";
+ TString histnameTrackErrX="HistTrackErrX_mod_";
+ TString histnameTrackErrZ="HistTrackErrZ_mod_";
+ TString histnameClusErrX="HistClusErrX_mod_";
+ TString histnameClusErrZ="HistClusErrZ_mod_";
//
+
+ TH1::AddDirectory(kFALSE);
+
fHisResX=new TH1F*[kNHisto];
fHisResZ=new TH1F*[kNHisto];
fHisResXZ=new TH2F*[kNHisto];
fHisClusterSize=new TH2I*[kNHisto];
fHisResXclu=new TH1F**[kNHisto];
fHisResZclu=new TH1F**[kNHisto];
+ fHisResXchip=new TH1F**[kNHisto];
+ fHisResZchip=new TH1F**[kNHisto];
+ fProfResXvsPhi=new TProfile*[kNHisto];
+ fProfResZvsDip=new TProfile*[kNHisto];
+ fProfResXvsPhiclu=new TProfile**[kNHisto];
+ fProfResZvsDipclu=new TProfile**[kNHisto];
+ fHisTrackErrX=new TH1F*[kNHisto];
+ fHisTrackErrZ=new TH1F*[kNHisto];
+ fHisClusErrX=new TH1F*[kNHisto];
+ fHisClusErrZ=new TH1F*[kNHisto];
for (Int_t nhist=0;nhist<kNHisto;nhist++){
aux=histnameResX;
aux+=nhist;
- fHisResX[nhist]=new TH1F("histname","histname",800,-0.04,0.04); // +- 400 micron; 1 bin=1 micron
+ fHisResX[nhist]=new TH1F("histname","histname",1600,-0.32,0.32); // +- 3200 micron; 1 bin=4 micron
fHisResX[nhist]->SetName(aux.Data());
fHisResX[nhist]->SetTitle(aux.Data());
aux=histnameResZ;
aux+=nhist;
- fHisResZ[nhist]=new TH1F("histname","histname",800,-0.32,0.32); // +-3200 micron; 1 bin=8 micron
+ fHisResZ[nhist]=new TH1F("histname","histname",1200,-0.48,0.48); // +-4800 micron; 1 bin=8 micron
fHisResZ[nhist]->SetName(aux.Data());
fHisResZ[nhist]->SetTitle(aux.Data());
aux=histnameResXZ;
aux+=nhist;
- fHisResXZ[nhist]=new TH2F("histname","histname",40,-0.02,0.02,40,-0.16,0.16); // binning:
- // 10 micron in x;
- // 80 micron in z;
- fHisResXZ[nhist]->SetName(aux.Data());
- fHisResXZ[nhist]->SetTitle(aux.Data());
+ fHisResXZ[nhist]=new TH2F("histname","histname",80,-0.16,0.16,80,-0.32,0.32); // binning:
+ fHisResXZ[nhist]->SetName(aux.Data()); // 40 micron in x;
+ fHisResXZ[nhist]->SetTitle(aux.Data()); // 80 micron in z;
aux=histnameClusterType;
aux+=nhist;
aux+=nhist;
aux+="_clu_";
aux+=clu+1; // clu=0 --> cluster size 1
- fHisResXclu[nhist][clu]=new TH1F("histname","histname",800,-0.04,0.04); // +- 400 micron; 1 bin=1 micron
+ fHisResXclu[nhist][clu]=new TH1F("histname","histname",1600,-0.32,0.32); // +- 3200 micron; 1 bin=4 micron
fHisResXclu[nhist][clu]->SetName(aux.Data());
fHisResXclu[nhist][clu]->SetTitle(aux.Data());
aux+=nhist;
aux+="_clu_";
aux+=clu+1; // clu=0 --> cluster size 1
- fHisResZclu[nhist][clu]=new TH1F("histname","histname",800,-0.32,0.32); // +-3200 micron; 1 bin=8 micron
+ fHisResZclu[nhist][clu]=new TH1F("histname","histname",1200,-0.48,0.48); // +-4800 micron; 1 bin=8 micron
fHisResZclu[nhist][clu]->SetName(aux.Data());
fHisResZclu[nhist][clu]->SetTitle(aux.Data());
}
- }
+ fHisResXchip[nhist]=new TH1F*[kNChip];
+ fHisResZchip[nhist]=new TH1F*[kNChip];
+ for(Int_t chip=0; chip<kNChip; chip++) {
+ aux=histnameResXchip;
+ aux+=nhist;
+ aux+="_chip_";
+ aux+=chip;
+ fHisResXchip[nhist][chip]=new TH1F("histname","histname",800,-0.32,0.32); // +- 3200 micron; 1 bin=8 micron
+ fHisResXchip[nhist][chip]->SetName(aux.Data());
+ fHisResXchip[nhist][chip]->SetTitle(aux.Data());
+
+ aux=histnameResZchip;
+ aux+=nhist;
+ aux+="_chip_";
+ aux+=chip;
+ fHisResZchip[nhist][chip]=new TH1F("histname","histname",300,-0.48,0.48); // +-4800 micron; 1 bin=32 micron
+ fHisResZchip[nhist][chip]->SetName(aux.Data());
+ fHisResZchip[nhist][chip]->SetTitle(aux.Data());
+ }
+
+ aux=histnameTrackErrX;
+ aux+=nhist;
+ fHisTrackErrX[nhist]=new TH1F("histname","histname",400,0.,0.32); // 0-3200 micron; 1 bin=8 micron
+ fHisTrackErrX[nhist]->SetName(aux.Data());
+ fHisTrackErrX[nhist]->SetTitle(aux.Data());
+
+ aux=histnameTrackErrZ;
+ aux+=nhist;
+ fHisTrackErrZ[nhist]=new TH1F("histname","histname",200,0.,0.32); // 0-3200 micron; 1 bin=16 micron
+ fHisTrackErrZ[nhist]->SetName(aux.Data());
+ fHisTrackErrZ[nhist]->SetTitle(aux.Data());
+
+ aux=histnameClusErrX;
+ aux+=nhist;
+ fHisClusErrX[nhist]=new TH1F("histname","histname",400,0.,0.08); // 0-800 micron; 1 bin=2 micron
+ fHisClusErrX[nhist]->SetName(aux.Data());
+ fHisClusErrX[nhist]->SetTitle(aux.Data());
+
+ aux=histnameClusErrZ;
+ aux+=nhist;
+ fHisClusErrZ[nhist]=new TH1F("histname","histname",400,0.,0.32); // 0-3200 micron; 1 bin=8 micron
+ fHisClusErrZ[nhist]->SetName(aux.Data());
+ fHisClusErrZ[nhist]->SetTitle(aux.Data());
+
+ aux=profnameResXvsPhi;
+ aux+=nhist;
+ fProfResXvsPhi[nhist]=new TProfile("histname","histname",40,-40.,40.0); // binning: range: -40°- 40°
+ fProfResXvsPhi[nhist]->SetName(aux.Data()); // bin width: 2°
+ fProfResXvsPhi[nhist]->SetTitle(aux.Data());
+
+ aux=profnameResZvsDip;
+ aux+=nhist;
+ fProfResZvsDip[nhist]=new TProfile("histname","histname",48,-72.,72.0); // binning: range: -70°-4°
+ fProfResZvsDip[nhist]->SetName(aux.Data()); // bin width: 3°
+ fProfResZvsDip[nhist]->SetTitle(aux.Data());
+
+ fProfResXvsPhiclu[nhist]=new TProfile*[kNclu];
+ fProfResZvsDipclu[nhist]=new TProfile*[kNclu];
+ for(Int_t clu=0; clu<kNclu; clu++) { // clu=0 --> cluster size 1
+ aux=profnameResXvsPhiclu;
+ aux+=nhist;
+ aux+="_clu_";
+ aux+=clu+1; // clu=0 --> cluster size 1
+ fProfResXvsPhiclu[nhist][clu]=new TProfile("histname","histname",40,-40.,40.0); // binning: range: -40°- 40
+ fProfResXvsPhiclu[nhist][clu]->SetName(aux.Data()); // bin width: 2°
+ fProfResXvsPhiclu[nhist][clu]->SetTitle(aux.Data());
+
+ aux=profnameResZvsDipclu;
+ aux+=nhist;
+ aux+="_clu_";
+ aux+=clu+1; // clu=0 --> cluster size 1
+ fProfResZvsDipclu[nhist][clu]= new TProfile("histname","histname",48,-72.,72.0); // binning: range: -70°-7°
+ fProfResZvsDipclu[nhist][clu]->SetName(aux.Data()); // bin width: 3°
+ fProfResZvsDipclu[nhist][clu]->SetTitle(aux.Data());
+ }
+
+ } // end loop on module
+
+ TH1::AddDirectory(kTRUE);
+
return;
}
//__________________________________________________________
void AliITSPlaneEffSPD::DeleteHistos() {
+// Delete the histograms and clean the memory
if(fHisResX) {
for (Int_t i=0; i<kNHisto; i++ ) delete fHisResX[i];
delete [] fHisResX; fHisResX=0;
delete [] fHisResZclu;
fHisResZclu = 0;
}
+ if(fHisResXchip) {
+ for (Int_t i=0; i<kNHisto; i++ ) {
+ for (Int_t chip=0; chip<kNChip; chip++) if (fHisResXchip[i][chip]) delete fHisResXchip[i][chip];
+ delete [] fHisResXchip[i];
+ }
+ delete [] fHisResXchip;
+ fHisResXchip = 0;
+ }
+ if(fHisResZchip) {
+ for (Int_t i=0; i<kNHisto; i++ ) {
+ for (Int_t chip=0; chip<kNChip; chip++) if (fHisResZchip[i][chip]) delete fHisResZchip[i][chip];
+ delete [] fHisResZchip[i];
+ }
+ delete [] fHisResZchip;
+ fHisResZchip = 0;
+ }
+ if(fHisTrackErrX) {
+ for (Int_t i=0; i<kNHisto; i++ ) delete fHisTrackErrX[i];
+ delete [] fHisTrackErrX; fHisTrackErrX=0;
+ }
+ if(fHisTrackErrZ) {
+ for (Int_t i=0; i<kNHisto; i++ ) delete fHisTrackErrZ[i];
+ delete [] fHisTrackErrZ; fHisTrackErrZ=0;
+ }
+ if(fHisClusErrX) {
+ for (Int_t i=0; i<kNHisto; i++ ) delete fHisClusErrX[i];
+ delete [] fHisClusErrX; fHisClusErrX=0;
+ }
+ if(fHisClusErrZ) {
+ for (Int_t i=0; i<kNHisto; i++ ) delete fHisClusErrZ[i];
+ delete [] fHisClusErrZ; fHisClusErrZ=0;
+ }
+ if(fProfResXvsPhi) {
+ for (Int_t i=0; i<kNHisto; i++ ) delete fProfResXvsPhi[i];
+ delete [] fProfResXvsPhi; fProfResXvsPhi=0;
+ }
+ if(fProfResZvsDip) {
+ for (Int_t i=0; i<kNHisto; i++ ) delete fProfResZvsDip[i];
+ delete [] fProfResZvsDip; fProfResZvsDip=0;
+ }
+ if(fProfResXvsPhiclu) {
+ for (Int_t i=0; i<kNHisto; i++ ) {
+ for (Int_t clu=0; clu<kNclu; clu++) if (fProfResXvsPhiclu[i][clu]) delete fProfResXvsPhiclu[i][clu];
+ delete [] fProfResXvsPhiclu[i];
+ }
+ delete [] fProfResXvsPhiclu;
+ fProfResXvsPhiclu = 0;
+ }
+ if(fProfResZvsDipclu) {
+ for (Int_t i=0; i<kNHisto; i++ ) {
+ for (Int_t clu=0; clu<kNclu; clu++) if (fProfResZvsDipclu[i][clu]) delete fProfResZvsDipclu[i][clu];
+ delete [] fProfResZvsDipclu[i];
+ }
+ delete [] fProfResZvsDipclu;
+ fProfResZvsDipclu = 0;
+ }
return;
}
//__________________________________________________________
Bool_t AliITSPlaneEffSPD::FillHistos(UInt_t key, Bool_t found,
- Float_t tXZ[2], Float_t cXZ[2], Int_t ctXZ[2]) {
+ Float_t *tr, Float_t *clu, Int_t *csize, Float_t *angtrkmod) {
// this method fill the histograms
// input: - key: unique key of the basic block
// - found: Boolean to asses whether a cluster has been associated to the track or not
-// - tXZ[2] local X and Z coordinates of the track prediction
-// - cXZ[2] local X and Z coordinates of the cluster associated to the track
+// - tr[0],tr[1] local X and Z coordinates of the track prediction, respectively
+// - tr[2],tr[3] error on local X and Z coordinates of the track prediction, respectively
+// - clu[0],clu[1] local X and Z coordinates of the cluster associated to the track, respectively
+// - clu[2],clu[3] error on local X and Z coordinates of the cluster associated to the track, respectively
+// - csize[0][1] cluster size in X and Z, respectively
+// - angtrkmod[0],angtrkmod[1]
// output: kTRUE if filling was succesfull kFALSE otherwise
// side effects: updating of the histograms.
//
if(key>=kNModule*kNChip)
{AliWarning("FillHistos: you asked for a non existing key"); return kFALSE;}
Int_t id=GetModFromKey(key);
+ Int_t chip=GetChipFromKey(key);
if(id>=kNHisto)
{AliWarning("FillHistos: you want to fill a non-existing histos"); return kFALSE;}
if(found) {
- Float_t resx=tXZ[0]-cXZ[0];
- Float_t resz=tXZ[1]-cXZ[1];
+ Float_t resx=tr[0]-clu[0];
+ Float_t resz=tr[1]-clu[1];
fHisResX[id]->Fill(resx);
fHisResZ[id]->Fill(resz);
fHisResXZ[id]->Fill(resx,resz);
- fHisClusterSize[id]->Fill((Double_t)ctXZ[0],(Double_t)ctXZ[1]);
- if(ctXZ[0]>0 && ctXZ[0]<=kNclu) fHisResXclu[id][ctXZ[0]-1]->Fill(resx);
- if(ctXZ[1]>0 && ctXZ[1]<=kNclu) fHisResZclu[id][ctXZ[1]-1]->Fill(resx);
+ fHisClusterSize[id]->Fill((Double_t)csize[0],(Double_t)csize[1]);
+ if(csize[0]>0 && csize[0]<=kNclu) fHisResXclu[id][csize[0]-1]->Fill(resx);
+ if(csize[1]>0 && csize[1]<=kNclu) fHisResZclu[id][csize[1]-1]->Fill(resz);
+ fHisResXchip[id][chip]->Fill(resx);
+ fHisResZchip[id][chip]->Fill(resz);
+ fProfResXvsPhi[id]->Fill(angtrkmod[0],resx);
+ fProfResZvsDip[id]->Fill(angtrkmod[1],resz);
+ if(csize[0]>0 && csize[0]<=kNclu) fProfResXvsPhiclu[id][csize[0]-1]->Fill(angtrkmod[0],resx);
+ if(csize[1]>0 && csize[1]<=kNclu) fProfResZvsDipclu[id][csize[1]-1]->Fill(angtrkmod[1],resz);
}
+ fHisTrackErrX[id]->Fill(tr[2]);
+ fHisTrackErrZ[id]->Fill(tr[3]);
+ fHisClusErrX[id]->Fill(clu[2]);
+ fHisClusErrZ[id]->Fill(clu[3]);
return kTRUE;
}
//__________________________________________________________
// Saves the histograms into a tree and saves the trees into a file
//
if (!fHis) return kFALSE;
- if (filename.Data()=="") {
+ if (filename.IsNull() || filename.IsWhitespace()) {
AliWarning("WriteHistosToFile: null output filename!");
return kFALSE;
}
- char branchname[30];
+ char branchname[51];
TFile *hFile=new TFile(filename.Data(),option,
"The File containing the TREEs with ITS PlaneEff Histos");
TTree *SPDTree=new TTree("SPDTree","Tree whith Residuals and Cluster Type distributions for SPD");
TH2I *histClusterType;
TH1F *histXclu[kNclu];
TH1F *histZclu[kNclu];
+ TH1F *histXchip[kNChip];
+ TH1F *histZchip[kNChip];
+ TH1F *histTrErrZ,*histTrErrX;
+ TH1F *histClErrZ,*histClErrX;
+ TProfile *profXvsPhi,*profZvsDip;
+ TProfile *profXvsPhiclu[kNclu],*profZvsDipclu[kNclu];
histZ=new TH1F();
histX=new TH1F();
histXclu[clu]=new TH1F();
histZclu[clu]=new TH1F();
}
+ for(Int_t chip=0;chip<kNChip;chip++) {
+ histXchip[chip]=new TH1F();
+ histZchip[chip]=new TH1F();
+ }
+ histTrErrX=new TH1F();
+ histTrErrZ=new TH1F();
+ histClErrX=new TH1F();
+ histClErrZ=new TH1F();
+ profXvsPhi=new TProfile();
+ profZvsDip=new TProfile();
+ for(Int_t clu=0;clu<kNclu;clu++) {
+ profXvsPhiclu[clu]=new TProfile();
+ profZvsDipclu[clu]=new TProfile();
+ }
+
SPDTree->Branch("histX","TH1F",&histX,128000,0);
SPDTree->Branch("histZ","TH1F",&histZ,128000,0);
SPDTree->Branch("histXZ","TH2F",&histXZ,128000,0);
SPDTree->Branch("histClusterType","TH2I",&histClusterType,128000,0);
for(Int_t clu=0;clu<kNclu;clu++) {
- sprintf(branchname,"histXclu_%d",clu+1);
+ snprintf(branchname,50,"histXclu_%d",clu+1);
SPDTree->Branch(branchname,"TH1F",&histXclu[clu],128000,0);
- sprintf(branchname,"histZclu_%d",clu+1);
+ snprintf(branchname,50,"histZclu_%d",clu+1);
SPDTree->Branch(branchname,"TH1F",&histZclu[clu],128000,0);
}
+ for(Int_t chip=0;chip<kNChip;chip++) {
+ snprintf(branchname,50,"histXchip_%d",chip);
+ SPDTree->Branch(branchname,"TH1F",&histXchip[chip],128000,0);
+ snprintf(branchname,50,"histZchip_%d",chip);
+ SPDTree->Branch(branchname,"TH1F",&histZchip[chip],128000,0);
+ }
+ SPDTree->Branch("histTrErrX","TH1F",&histTrErrX,128000,0);
+ SPDTree->Branch("histTrErrZ","TH1F",&histTrErrZ,128000,0);
+ SPDTree->Branch("histClErrX","TH1F",&histClErrX,128000,0);
+ SPDTree->Branch("histClErrZ","TH1F",&histClErrZ,128000,0);
+ SPDTree->Branch("profXvsPhi","TProfile",&profXvsPhi,128000,0);
+ SPDTree->Branch("profZvsDip","TProfile",&profZvsDip,128000,0);
+ for(Int_t clu=0;clu<kNclu;clu++) {
+ snprintf(branchname,50,"profXvsPhiclu_%d",clu+1);
+ SPDTree->Branch(branchname,"TProfile",&profXvsPhiclu[clu],128000,0);
+ snprintf(branchname,50,"profZvsDipclu_%d",clu+1);
+ SPDTree->Branch(branchname,"TProfile",&profZvsDipclu[clu],128000,0);
+ }
for(Int_t j=0;j<kNHisto;j++){
histX=fHisResX[j];
histXclu[clu]=fHisResXclu[j][clu];
histZclu[clu]=fHisResZclu[j][clu];
}
+ for(Int_t chip=0;chip<kNChip;chip++) {
+ histXchip[chip]=fHisResXchip[j][chip];
+ histZchip[chip]=fHisResZchip[j][chip];
+ }
+ histTrErrX=fHisTrackErrX[j];
+ histTrErrZ=fHisTrackErrZ[j];
+ histClErrX=fHisClusErrX[j];
+ histClErrZ=fHisClusErrZ[j];
+ profXvsPhi=fProfResXvsPhi[j];
+ profZvsDip=fProfResZvsDip[j];
+ for(Int_t clu=0;clu<kNclu;clu++) {
+ profXvsPhiclu[clu]=fProfResXvsPhiclu[j][clu];
+ profZvsDipclu[clu]=fProfResZvsDipclu[j][clu];
+ }
+
SPDTree->Fill();
}
hFile->Write();
// Read histograms from an already existing file
//
if (!fHis) return kFALSE;
- if (filename.Data()=="") {
+ if (filename.IsNull() || filename.IsWhitespace()) {
AliWarning("ReadHistosFromFile: incorrect output filename!");
return kFALSE;
}
- char branchname[30];
+ char branchname[51];
TH1F *h = 0;
TH2F *h2 = 0;
TH2I *h2i= 0;
+ TProfile *p = 0;
TFile *file=TFile::Open(filename.Data(),"READONLY");
TBranch *histXclu[kNclu], *histZclu[kNclu];
for(Int_t clu=0; clu<kNclu; clu++) {
- sprintf(branchname,"histXclu_%d",clu+1);
+ snprintf(branchname,50,"histXclu_%d",clu+1);
histXclu[clu]= (TBranch*) tree->GetBranch(branchname);
- sprintf(branchname,"histZclu_%d",clu+1);
+ snprintf(branchname,50,"histZclu_%d",clu+1);
histZclu[clu]= (TBranch*) tree->GetBranch(branchname);
}
+ TBranch *histXchip[kNChip], *histZchip[kNChip];
+ for(Int_t chip=0; chip<kNChip; chip++) {
+ snprintf(branchname,50,"histXchip_%d",chip);
+ histXchip[chip]= (TBranch*) tree->GetBranch(branchname);
+ snprintf(branchname,50,"histZchip_%d",chip);
+ histZchip[chip]= (TBranch*) tree->GetBranch(branchname);
+ }
+
+ TBranch *histTrErrX = (TBranch*) tree->GetBranch("histTrErrX");
+ TBranch *histTrErrZ = (TBranch*) tree->GetBranch("histTrErrZ");
+ TBranch *histClErrX = (TBranch*) tree->GetBranch("histClErrX");
+ TBranch *histClErrZ = (TBranch*) tree->GetBranch("histClErrZ");
+ TBranch *profXvsPhi = (TBranch*) tree->GetBranch("profXvsPhi");
+ TBranch *profZvsDip = (TBranch*) tree->GetBranch("profZvsDip");
+
+ TBranch *profXvsPhiclu[kNclu], *profZvsDipclu[kNclu];
+ for(Int_t clu=0; clu<kNclu; clu++) {
+ snprintf(branchname,50,"profXvsPhiclu_%d",clu+1);
+ profXvsPhiclu[clu]= (TBranch*) tree->GetBranch(branchname);
+ snprintf(branchname,50,"profZvsDipclu_%d",clu+1);
+ profZvsDipclu[clu]= (TBranch*) tree->GetBranch(branchname);
+ }
+
gROOT->cd();
Int_t nevent = (Int_t)histX->GetEntries();
{AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
histX->SetAddress(&h);
for(Int_t j=0;j<kNHisto;j++){
- delete h; h=0;
histX->GetEntry(j);
fHisResX[j]->Add(h);
}
{AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
histZ->SetAddress(&h);
for(Int_t j=0;j<kNHisto;j++){
- delete h; h=0;
histZ->GetEntry(j);
fHisResZ[j]->Add(h);
}
{AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
histXZ->SetAddress(&h2);
for(Int_t j=0;j<kNHisto;j++){
- delete h2; h2=0;
histXZ->GetEntry(j);
fHisResXZ[j]->Add(h2);
}
{AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
histClusterType->SetAddress(&h2i);
for(Int_t j=0;j<kNHisto;j++){
- delete h2i; h2i=0;
histClusterType->GetEntry(j);
fHisClusterSize[j]->Add(h2i);
}
{AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
histXclu[clu]->SetAddress(&h);
for(Int_t j=0;j<kNHisto;j++){
- delete h; h=0;
histXclu[clu]->GetEntry(j);
fHisResXclu[j][clu]->Add(h);
}
{AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
histZclu[clu]->SetAddress(&h);
for(Int_t j=0;j<kNHisto;j++){
- delete h; h=0;
histZclu[clu]->GetEntry(j);
fHisResZclu[j][clu]->Add(h);
}
}
- delete h; h=0;
- delete h2; h2=0;
- delete h2i; h2i=0;
+
+ for(Int_t chip=0; chip<kNChip; chip++) {
+
+ nevent = (Int_t)histXchip[chip]->GetEntries();
+ if(nevent!=kNHisto)
+ {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
+ histXchip[chip]->SetAddress(&h);
+ for(Int_t j=0;j<kNHisto;j++){
+ histXchip[chip]->GetEntry(j);
+ fHisResXchip[j][chip]->Add(h);
+ }
+
+ nevent = (Int_t)histZchip[chip]->GetEntries();
+ if(nevent!=kNHisto)
+ {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
+ histZchip[chip]->SetAddress(&h);
+ for(Int_t j=0;j<kNHisto;j++){
+ histZchip[chip]->GetEntry(j);
+ fHisResZchip[j][chip]->Add(h);
+ }
+ }
+
+ nevent = (Int_t)histTrErrX->GetEntries();
+ if(nevent!=kNHisto)
+ {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
+ histTrErrX->SetAddress(&h);
+ for(Int_t j=0;j<kNHisto;j++){
+ histTrErrX->GetEntry(j);
+ fHisTrackErrX[j]->Add(h);
+ }
+
+ nevent = (Int_t)histTrErrZ->GetEntries();
+ if(nevent!=kNHisto)
+ {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
+ histTrErrZ->SetAddress(&h);
+ for(Int_t j=0;j<kNHisto;j++){
+ histTrErrZ->GetEntry(j);
+ fHisTrackErrZ[j]->Add(h);
+ }
+
+ nevent = (Int_t)histClErrX->GetEntries();
+ if(nevent!=kNHisto)
+ {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
+ histClErrX->SetAddress(&h);
+ for(Int_t j=0;j<kNHisto;j++){
+ histClErrX->GetEntry(j);
+ fHisClusErrX[j]->Add(h);
+ }
+
+ nevent = (Int_t)histClErrZ->GetEntries();
+ if(nevent!=kNHisto)
+ {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
+ histClErrZ->SetAddress(&h);
+ for(Int_t j=0;j<kNHisto;j++){
+ histClErrZ->GetEntry(j);
+ fHisClusErrZ[j]->Add(h);
+ }
+
+ nevent = (Int_t)profXvsPhi->GetEntries();
+ if(nevent!=kNHisto)
+ {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
+ profXvsPhi->SetAddress(&p);
+ for(Int_t j=0;j<kNHisto;j++){
+ profXvsPhi->GetEntry(j);
+ fProfResXvsPhi[j]->Add(p);
+ }
+
+ nevent = (Int_t)profZvsDip->GetEntries();
+ if(nevent!=kNHisto)
+ {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
+ profZvsDip->SetAddress(&p);
+ for(Int_t j=0;j<kNHisto;j++){
+ profZvsDip->GetEntry(j);
+ fProfResZvsDip[j]->Add(p);
+ }
+
+ for(Int_t clu=0; clu<kNclu; clu++) {
+
+ nevent = (Int_t)profXvsPhiclu[clu]->GetEntries();
+ if(nevent!=kNHisto)
+ {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
+ profXvsPhiclu[clu]->SetAddress(&p);
+ for(Int_t j=0;j<kNHisto;j++){
+ profXvsPhiclu[clu]->GetEntry(j);
+ fProfResXvsPhiclu[j][clu]->Add(p);
+ }
+
+ nevent = (Int_t)profZvsDipclu[clu]->GetEntries();
+ if(nevent!=kNHisto)
+ {AliWarning("ReadHistosFromFile: trying to read too many or too few histos!"); return kFALSE;}
+ profZvsDipclu[clu]->SetAddress(&p);
+ for(Int_t j=0;j<kNHisto;j++){
+ profZvsDipclu[clu]->GetEntry(j);
+ fProfResZvsDipclu[j][clu]->Add(p);
+ }
+ }
+
+
+ delete h;
+ delete h2;
+ delete h2i;
+ delete p;
if (file) {
file->Close();
+ delete file;
}
return kTRUE;
}
+