* provided "as is" without express or implied warranty. *
**************************************************************************/
-/* $Id:$ */
+/* $Id$ */
//////////////////////////////////////////////////////////////////////////
// //
#include "AliITSChannelStatus.h"
#include "AliITSCalibrationSPD.h"
#include "AliITSCalibrationSDD.h"
+#include "AliITSCalibrationSSD.h"
#include "AliITSsegmentationSPD.h"
#include "AliITSsegmentationSDD.h"
+#include "AliITSsegmentationSSD.h"
#include "AliCDBEntry.h"
#include "TMath.h"
#include "AliLog.h"
AliITSChannelStatus::AliITSChannelStatus():
TObject(),
fSPDChannelStatus(0),
-fSDDChannelStatus(0)
+fSDDChannelStatus(0),
+fSSDChannelStatus(0)
{
// default constructor
UInt_t nSPDchan=kSPDModules*kSPDNpxPerModule*kSPDNpzPerModule;
fSPDChannelStatus=new TBits(nSPDchan);
UInt_t nSDDchan=kSDDModules*kSDDAnodesPerModule;
fSDDChannelStatus=new TBits(nSDDchan);
+ UInt_t nSSDchan=kSSDModules*kSSDStripsPerModule;
+ fSSDChannelStatus=new TBits(nSSDchan);
InitDefaults();
}
//______________________________________________________________________
AliITSChannelStatus::AliITSChannelStatus(AliCDBManager *cdb):
TObject(),
fSPDChannelStatus(0),
-fSDDChannelStatus(0)
+fSDDChannelStatus(0),
+fSSDChannelStatus(0)
{
AliCDBEntry* spdEntryD = cdb->Get("ITS/Calib/SPDDead");
if (!spdEntryD) AliFatal("Cannot get CDB entry for SPDDead");
TObjArray* deadArrSPD = (TObjArray*)spdEntryD->GetObject();
if (!deadArrSPD) AliFatal("No object found in SPDDead file");
+ AliCDBEntry* spdEntrySparseD = cdb->Get("ITS/Calib/SPDSparseDead");
+ if (!spdEntrySparseD) AliFatal("Cannot get CDB entry for SPDSparseDead");
+ TObjArray* deadSparseArrSPD = (TObjArray*)spdEntrySparseD->GetObject();
+ if (!deadSparseArrSPD) AliFatal("No object found in SPDSparseDead file");
+
AliCDBEntry* spdEntryN = cdb->Get("ITS/Calib/SPDNoisy");
if (!spdEntryN) AliFatal("Cannot get CDB entry for SPDNoisy");
TObjArray* noisArrSPD = (TObjArray*)spdEntryN->GetObject();
TObjArray* calArrSDD = (TObjArray*)sddEntry->GetObject();
if (!calArrSDD) AliFatal("No object found in CalibSDD file");
+ AliCDBEntry* ssdEntry = cdb->Get("ITS/Calib/CalibSSD");
+ if (!ssdEntry) AliFatal("Cannot get CDB entry for CalibSSD");
+ TObjArray* calArrSSD = (TObjArray*)ssdEntry->GetObject();
+ if (!calArrSSD) AliFatal("No object found in CalibSSD file");
+
UInt_t nSPDchan=kSPDModules*kSPDNpxPerModule*kSPDNpzPerModule;
fSPDChannelStatus=new TBits(nSPDchan);
UInt_t nSDDchan=kSDDModules*kSDDAnodesPerModule;
fSDDChannelStatus=new TBits(nSDDchan);
- InitFromOCDB(deadArrSPD,noisArrSPD,calArrSDD);
+ UInt_t nSSDchan=kSSDModules*kSSDStripsPerModule;
+ fSSDChannelStatus=new TBits(nSSDchan);
+ InitFromOCDB(deadArrSPD,deadSparseArrSPD,noisArrSPD,calArrSDD,calArrSSD);
}
//______________________________________________________________________
-AliITSChannelStatus::AliITSChannelStatus(AliITSDetTypeRec *dtrec):
+AliITSChannelStatus::AliITSChannelStatus(const AliITSDetTypeRec *dtrec):
TObject(),
fSPDChannelStatus(0),
-fSDDChannelStatus(0)
+fSDDChannelStatus(0),
+fSSDChannelStatus(0)
{
UInt_t nSPDchan=kSPDModules*kSPDNpxPerModule*kSPDNpzPerModule;
fSPDChannelStatus=new TBits(nSPDchan);
UInt_t nSDDchan=kSDDModules*kSDDAnodesPerModule;
fSDDChannelStatus=new TBits(nSDDchan);
+
+ UInt_t nSSDchan=kSSDModules*kSSDStripsPerModule;
+ fSSDChannelStatus=new TBits(nSSDchan);
// SPD modules
for(Int_t imod=0; imod<kSPDModules; imod++){
Int_t index=imod*kSPDNpxPerModule*kSPDNpzPerModule+ix*kSPDNpzPerModule+iz;
fSPDChannelStatus->SetBitNumber(index,kFALSE);
}
+
+ // Mask SPD sparse dead pixels
+ AliITSCalibrationSPD* deadSparseSpd=(AliITSCalibrationSPD*)dtrec->GetSPDSparseDeadModel(imod);
+ for(Int_t ipix=0; ipix<deadSparseSpd->GetNrBad();ipix++){
+ deadSparseSpd->GetBadPixel(ipix,ix,iz);
+ Int_t index=imod*kSPDNpxPerModule*kSPDNpzPerModule+ix*kSPDNpzPerModule+iz;
+ fSPDChannelStatus->SetBitNumber(index,kFALSE);
+ }
+
// Mask SPD noisy pixels
AliITSCalibrationSPD* noisspd=(AliITSCalibrationSPD*)dtrec->GetCalibrationModel(imod);
for(Int_t ipix=0; ipix<noisspd->GetNrBad();ipix++){
fSDDChannelStatus->SetBitNumber(index,cstatus);
}
}
+
+ // SSD modules
+ for (Int_t imod = 0; imod < kSSDModules; imod++) {
+ AliITSCalibrationSSD* calssd=(AliITSCalibrationSSD*)dtrec->GetCalibrationModel(kSSDFirstModule+imod);
+ for(Int_t ip=0; ip<kSSDStripsPerModule; ip++) {
+ Int_t index=imod*kSSDStripsPerModule+ip;
+ Bool_t cstatus = kTRUE;
+ if (ip < 768 && calssd->IsPChannelBad(ip))
+ cstatus = kFALSE;
+ if (ip >= 768 && calssd->IsNChannelBad(ip-768))
+ cstatus = kFALSE;
+
+ fSSDChannelStatus->SetBitNumber(index,cstatus);
+ }
+ }
}
//______________________________________________________________________
void AliITSChannelStatus::InitDefaults(){
fSDDChannelStatus->SetBitNumber(index,kTRUE);
}
}
+ for(Int_t imod=0; imod<kSSDModules; imod++){
+ for(Int_t is=0; is<kSSDStripsPerModule; is++){
+ Int_t index=imod*kSSDStripsPerModule+is;
+ fSSDChannelStatus->SetBitNumber(index,kTRUE);
+ }
+ }
}
//______________________________________________________________________
-void AliITSChannelStatus::InitFromOCDB(TObjArray* deadArrSPD, TObjArray* noisArrSPD, TObjArray* calArrSDD){
+void AliITSChannelStatus::InitFromOCDB(TObjArray* deadArrSPD, TObjArray* /* deadSparseArrSPD */, TObjArray* noisArrSPD, TObjArray* calArrSDD, TObjArray *calArrSSD){
// fills bitmaps from arrays of AliITSCalibrationSXD objects
// SPD modules
Int_t index=imod*kSPDNpxPerModule*kSPDNpzPerModule+ix*kSPDNpzPerModule+iz;
fSPDChannelStatus->SetBitNumber(index,kFALSE);
}
+
+ // Mask SPD sparse dead pixels
+ AliITSCalibrationSPD* deadSparseSpd=(AliITSCalibrationSPD*)deadArrSPD->At(imod);
+ for(Int_t ipix=0; ipix<deadSparseSpd->GetNrBad();ipix++){
+ deadSparseSpd->GetBadPixel(ipix,ix,iz);
+ Int_t index=imod*kSPDNpxPerModule*kSPDNpzPerModule+ix*kSPDNpzPerModule+iz;
+ fSPDChannelStatus->SetBitNumber(index,kFALSE);
+ }
// Mask SPD noisy pixels
AliITSCalibrationSPD* noisspd=(AliITSCalibrationSPD*)noisArrSPD->At(imod);
fSDDChannelStatus->SetBitNumber(index,cstatus);
}
}
+
+ // SSD modules
+ for (Int_t imod = 0; imod < kSSDModules; imod++) {
+ AliITSCalibrationSSD* calssd=(AliITSCalibrationSSD*)calArrSSD->At(imod);
+ for(Int_t ip=0; ip<kSSDStripsPerModule; ip++) {
+ Int_t index=imod*kSSDStripsPerModule+ip;
+ Bool_t cstatus = kTRUE;
+ if (ip < 768 && calssd->IsPChannelBad(ip))
+ cstatus = kFALSE;
+ if (ip >= 768 && calssd->IsNChannelBad(ip-768))
+ cstatus = kFALSE;
+
+ fSSDChannelStatus->SetBitNumber(index,cstatus);
+ }
+ }
}
//______________________________________________________________________
AliITSChannelStatus::AliITSChannelStatus(const AliITSChannelStatus& cstatus):
TObject(),
fSPDChannelStatus(cstatus.fSPDChannelStatus),
-fSDDChannelStatus(cstatus.fSDDChannelStatus)
+fSDDChannelStatus(cstatus.fSDDChannelStatus),
+fSSDChannelStatus(cstatus.fSSDChannelStatus)
{
// copy constructor
}
// destructor
if(fSPDChannelStatus) delete fSPDChannelStatus;
if(fSDDChannelStatus) delete fSDDChannelStatus;
+ if(fSSDChannelStatus) delete fSSDChannelStatus;
}
//______________________________________________________________________
Bool_t AliITSChannelStatus::CheckBounds(Int_t imod, Int_t iz, Int_t ix) const {
// check for out of bounds
- if(imod<0 || imod>=kSPDModules+kSDDModules){
+ if(imod<0 || imod>=kSPDModules+kSDDModules+kSSDModules){
AliError(Form("Module number out of range 0-%d",kSPDModules+kSDDModules));
return kFALSE;
}
AliError("SPD: Pixel number out of range");
return kFALSE;
}
- }else{
+ }else if (imod<kSSDFirstModule){
if(iz<0 || iz>=kSDDAnodesPerModule){
AliError("SDD: anode number out of range");
return kFALSE;
}
}
+ else {
+ if(iz<0 || iz>=kSSDStripsPerModule){
+ AliError("SSD: strip number out of range");
+ return kFALSE;
+ }
+ }
return kTRUE;
}
//______________________________________________________________________
if(imod<kSPDModules){
Int_t index=imod*kSPDNpxPerModule*kSPDNpzPerModule+ix*kSPDNpzPerModule+iz;
return fSPDChannelStatus->TestBitNumber(index);
- }else{
+ } else if (imod < kSSDFirstModule) {
imod-=kSPDModules;
Int_t index=imod*kSDDAnodesPerModule+iz;
return fSDDChannelStatus->TestBitNumber(index);
}
+ else { // SSD: iz is strip number 0-767 P-side, 768 - 1535 N-side
+ imod-=kSSDFirstModule;
+ Int_t index=imod*kSSDStripsPerModule+iz;
+ return fSSDChannelStatus->TestBitNumber(index);
+ }
}
//______________________________________________________________________
void AliITSChannelStatus::SetChannelStatus(Bool_t cstatus, Int_t imod, Int_t iz, Int_t ix){
if(imod<kSPDModules){
Int_t index=imod*kSPDNpxPerModule*kSPDNpzPerModule+ix*kSPDNpzPerModule+iz;
fSPDChannelStatus->SetBitNumber(index,cstatus);
- }else{
+ }else if (imod < kSSDFirstModule) {
imod-=kSPDModules;
Int_t index=imod*kSDDAnodesPerModule+iz;
fSDDChannelStatus->SetBitNumber(index,cstatus);
}
+ else { // SSD: iz is strip number 0-767 P-side, 768 - 1535 N-side
+ imod-=kSSDFirstModule;
+ Int_t index=imod*kSSDStripsPerModule+iz;
+ return fSSDChannelStatus->SetBitNumber(index,cstatus);
+ }
}
//______________________________________________________________________
Bool_t AliITSChannelStatus::GetSDDLimits(Float_t zlocmin, Float_t zlocmax, Float_t xlocmin, Float_t xlocmax, Int_t& izmin, Int_t& izmax, Int_t& izmin2, Int_t& izmax2) const {
return kTRUE;
}
//______________________________________________________________________
+Bool_t AliITSChannelStatus::GetSSDLimits(Int_t layer, Float_t zlocmin, Float_t zlocmax, Float_t xlocmin, Float_t xlocmax, Int_t& iPmin, Int_t& iPmax, Int_t& iNmin, Int_t& iNmax) const {
+ // Returns min, max strip for SSD, given a search window
+ static AliITSsegmentationSSD seg;
+
+ AliDebug(2,Form("xmin %f zmin %f xmax %f zmax %f\n",xlocmin,zlocmin,xlocmax,zlocmax));
+
+ Int_t p,n;
+ seg.SetLayer(layer);
+ seg.GetPadIxz(xlocmin,zlocmin,p,n);
+ iPmin = iPmax = p;
+ iNmin = iNmax = n;
+ AliDebug(5,Form("lay %d xmin, zmin p %d n %d\n",layer,p,n));
+ seg.GetPadIxz(xlocmax,zlocmin,p,n);
+ iPmin = TMath::Min(iPmin,p);
+ iPmax = TMath::Max(iPmax,p);
+ iNmin = TMath::Min(iNmin,n);
+ iNmax = TMath::Max(iNmax,n);
+ AliDebug(5,Form("lay %d xmax, zmin p %d n %d\n",layer,p,n));
+ seg.GetPadIxz(xlocmax,zlocmax,p,n);
+ iPmin = TMath::Min(iPmin,p);
+ iPmax = TMath::Max(iPmax,p);
+ iNmin = TMath::Min(iNmin,n);
+ iNmax = TMath::Max(iNmax,n);
+ AliDebug(5,Form("lay %d xmax, zmax p %d n %d\n",layer,p,n));
+ seg.GetPadIxz(xlocmin,zlocmax,p,n);
+ iPmin = TMath::Min(iPmin,p);
+ iPmax = TMath::Max(iPmax,p);
+ iNmin = TMath::Min(iNmin,n);
+ iNmax = TMath::Max(iNmax,n);
+ AliDebug(5,Form("lay %d xmin, zmax p %d n %d\n",layer,p,n));
+
+ if (iPmin < 0)
+ iPmin = 0;
+ if (iNmin < 0)
+ iNmin = 0;
+ if (iPmax >= kSSDStripsPerSide)
+ iPmax = kSSDStripsPerSide-1;
+ if (iNmax >= kSSDStripsPerSide)
+ iNmax = kSSDStripsPerSide-1;
+ AliDebug(2,Form("lay %d p %d %d n %d %d\n",layer,iPmin,iPmax,iNmin,iNmax));
+ return kTRUE;
+}
+//______________________________________________________________________
Bool_t AliITSChannelStatus::AnyBadInRoad(Int_t imod, Float_t zlocmin, Float_t zlocmax, Float_t xlocmin, Float_t xlocmax) const{
// Checks if there is at least one bad channel in the search road
+ // For SSD: return kTRUE if there is at least one bad strip on both sides
+ // if only bad strips on one side 1D clusters can be used
+ AliDebug(2,Form("checking for module %d",imod));
if(imod<kSPDModules){
Int_t izmin,izmax,ixmin,ixmax;
Bool_t retcode=GetSPDLimits(zlocmin,zlocmax,xlocmin,xlocmax,izmin,izmax,ixmin,ixmax);
if(GetChannelStatus(imod,iz,ix)==kFALSE) return kTRUE;
}
}
- }else{
+ }else if (imod < kSSDFirstModule) {
Int_t izmin,izmax,izmin2,izmax2;
Bool_t retcode=GetSDDLimits(zlocmin,zlocmax,xlocmin,xlocmax,izmin,izmax,izmin2,izmax2);
if(!retcode) return kFALSE;
for(Int_t iz=izmin; iz<=izmax;iz++){
- if(GetChannelStatus(imod,iz,0)==kFALSE) return kTRUE;
+ if(GetChannelStatus(imod,iz,0)==kFALSE) { return kTRUE;}
}
if(izmin2!=-1 && izmax2!=-1){
for(Int_t iz=izmin2; iz<=izmax2;iz++){
- if(GetChannelStatus(imod,iz,0)==kFALSE) return kTRUE;
+ if(GetChannelStatus(imod,iz,0)==kFALSE) { return kTRUE;}
}
}
}
+ else {
+ Int_t layer = 5;
+ if (imod > kSSDMaxModLay5)
+ layer = 6;
+ Int_t iPmin,iPmax,iNmin,iNmax;
+ Bool_t retcode=GetSSDLimits(layer,zlocmin,zlocmax,xlocmin,xlocmax,iPmin,iPmax,iNmin,iNmax);
+ if(!retcode) return kFALSE;
+ Int_t nPbad = 0;
+ for(Int_t iP=iPmin; iP<=iPmax;iP++){
+ if(GetChannelStatus(imod,iP,0)==kFALSE) nPbad++;
+ }
+ if (nPbad == 0)
+ return kFALSE;
+ for(Int_t iN=iNmin; iN<=iNmax;iN++){
+ if(GetChannelStatus(imod,iN+768,0)==kFALSE) { return kTRUE; }
+ }
+ }
return kFALSE;
}
//______________________________________________________________________
Float_t AliITSChannelStatus::FractionOfBadInRoad(Int_t imod, Float_t zlocmin, Float_t zlocmax, Float_t xlocmin, Float_t xlocmax) const{
// Calculate the fraction of bad channels in the road
+ // Note: SSD returns fraction of dead strips on 'best' side. This
+ // is not proportional to dead surface area.
Float_t totChan=0.;
Float_t badChan=0.;
if(imod<kSPDModules){
if(GetChannelStatus(imod,iz,ix)==kFALSE) badChan+=1.;
}
}
- }else{
+ }else if (imod < kSSDFirstModule) {
Int_t izmin,izmax,izmin2,izmax2;
Bool_t retcode=GetSDDLimits(zlocmin,zlocmax,xlocmin,xlocmax,izmin,izmax,izmin2,izmax2);
if(!retcode) return 0.;
}
}
}
+ else {
+ Int_t layer = 5;
+ if (imod > kSSDMaxModLay5)
+ layer = 6;
+ Int_t iPmin,iPmax,iNmin,iNmax;
+ Bool_t retcode=GetSSDLimits(layer,zlocmin,zlocmax,xlocmin,xlocmax,iPmin,iPmax,iNmin,iNmax);
+ if(!retcode) return kFALSE;
+ Int_t nPbad = 0;
+ for(Int_t iP=iPmin; iP<=iPmax;iP++){
+ if(GetChannelStatus(imod,iP,0)==kFALSE) nPbad++;
+ }
+ Float_t fracP = (Float_t) nPbad / (iPmax-iPmin+1);
+ if (nPbad == 0)
+ return 0;
+ Int_t nNbad = 0;
+ for(Int_t iN=iNmin; iN<=iNmax;iN++){
+ if(GetChannelStatus(imod,iN+768,0)==kFALSE) nNbad++;
+ }
+ Float_t fracN = (Float_t) nNbad / (iPmax-iPmin+1);
+ return TMath::Min(fracP,fracN);
+ }
if(totChan==0.) return 0.;
else return badChan/totChan;
}
+