// Quality Assurance Object//_________________________________________________________________________
// Quality Assurance object. The QA status is held in one word per detector,
// each bit corresponds to a different status.
-// bit 0-3 : QA raised during simulation (SIM)
-// bit 4-7 : QA raised during reconstruction (REC)
-// bit 8-11 : QA raised during ESD checking (ESD)
-// bit 12-15: QA raised during analysis (ANA)
+// bit 0-3 : QA raised during simulation (RAW)
+// bit 4-7 : QA raised during simulation (SIM)
+// bit 8-11 : QA raised during reconstruction (REC)
+// bit 12-15 : QA raised during ESD checking (ESD)
+// bit 16-19 : QA raised during analysis (ANA)
// Each of the 4 bits corresponds to a severity level of increasing importance
// from lower to higher bit (INFO, WARNING, ERROR, FATAL)
//
//////////////////////////////////////////////////////////////////////////////
+#include <cstdlib>
// --- ROOT system ---
#include <TFile.h>
#include <TSystem.h>
ClassImp(AliQA)
AliQA * AliQA::fgQA = 0x0 ;
TFile * AliQA::fgQADataFile = 0x0 ;
-TString AliQA::fgQADataFileName = "QA" ; // will transform into Det.QA.run.cycle.root
+TString AliQA::fgQADataFileName = "QA" ; // will transform into Det.QA.run.root
TFile * AliQA::fgQARefFile = 0x0 ;
-TString AliQA::fgQARefDirName = "" ;
+TString AliQA::fgQARefDirName = "" ;
TString AliQA::fgQARefFileName = "QA.root" ;
TFile * AliQA::fgQAResultFile = 0x0 ;
TString AliQA::fgQAResultDirName = "" ;
TString AliQA::fgQAResultFileName = "QA.root" ;
TString AliQA::fgDetNames[] = {"ITS", "TPC", "TRD", "TOF", "PHOS", "HMPID", "EMCAL", "MUON", "FMD",
- "ZDC", "PMD", "T0", "VZERO", "ACORDE", "HLT"} ;
+ "ZDC", "PMD", "T0", "VZERO", "ACORDE", "HLT", "Global", "CORR"} ;
+TString AliQA::fgGRPPath = "GRP/GRP/Data" ;
TString AliQA::fgTaskNames[] = {"Raws", "Hits", "SDigits", "Digits", "RecPoints", "TrackSegments", "RecParticles", "ESDs"} ;
-const TString AliQA::fkgLabLocalFile = "file://" ;
-const TString AliQA::fkgLabLocalOCDB = "local://" ;
-const TString AliQA::fkgLabAliEnOCDB = "alien://" ;
-const TString AliQA::fkgRefFileName = "QA.root" ;
-const TString AliQA::fkgQAOCDBDirName = "QA" ;
-const TString AliQA::fkgRefOCDBDirName = "Ref" ;
-const TString AliQA::fkgQARefOCDBDefault = "local://$ALICE_ROOT" ;
+const TString AliQA::fgkLabLocalFile = "file://" ;
+const TString AliQA::fgkLabLocalOCDB = "local://" ;
+const TString AliQA::fgkLabAliEnOCDB = "alien://" ;
+const TString AliQA::fgkRefFileName = "QA.root" ;
+const TString AliQA::fgkQAName = "QA" ;
+const TString AliQA::fgkQACorrNtName = "CorrQA" ;
+const TString AliQA::fgkRefOCDBDirName = "QA" ;
+TString AliQA::fgRefDataDirName = "" ;
+const TString AliQA::fgkQARefOCDBDefault = "alien://folder=/alice/QA/20" ;
+const TString AliQA::fgkExpert = "Expert" ;
+const UInt_t AliQA::fgkExpertBit = 16 ;
+const UInt_t AliQA::fgkQABit = 17 ;
+
//____________________________________________________________________________
AliQA::AliQA() :
TNamed("", ""),
fNdet(kNDET),
- fQA(new ULong_t[fNdet]),
+ fNEventSpecies(AliRecoParam::kNSpecies),
+ fLengthQA(fNdet*fNEventSpecies),
+ fQA(new ULong_t[fLengthQA]),
fDet(kNULLDET),
- fTask(kNULLTASK)
-
+ fTask(kNULLTASK),
+ fEventSpecie(AliRecoParam::kDefault),
+ fEventSpecies(new Bool_t[fNEventSpecies])
{
// default constructor
- // beware singleton: not to be used
-
- for (Int_t index = 0 ; index < fNdet ; index++)
- fQA[index] = 0 ;
+ memset(fQA,0,fLengthQA);
+ memset(fEventSpecies,kFALSE,fNEventSpecies);
}
//____________________________________________________________________________
AliQA::AliQA(const AliQA& qa) :
TNamed(qa),
fNdet(qa.fNdet),
- fQA(qa.fQA),
+ fNEventSpecies(qa.fNEventSpecies),
+ fLengthQA(qa.fLengthQA),
+ fQA(new ULong_t[fLengthQA]),
fDet(qa.fDet),
- fTask(qa.fTask)
+ fTask(qa.fTask),
+ fEventSpecie(qa.fEventSpecie),
+ fEventSpecies(new Bool_t[fNEventSpecies])
{
// cpy ctor
+ memcpy(fQA,qa.fQA,fLengthQA*sizeof(ULong_t));
+ memcpy(fEventSpecies,qa.fEventSpecies,fNEventSpecies*sizeof(Bool_t));
}
//_____________________________________________________________________________
AliQA& AliQA::operator = (const AliQA& qa)
{
-// assignment operator
-
- this->~AliQA();
- new(this) AliQA(qa);
+ // assignment operator
+ if(&qa != this) {
+ TNamed::operator=(qa);
+ fNdet = qa.fNdet;
+ fNEventSpecies = qa.fNEventSpecies;
+ fLengthQA = qa.fLengthQA;
+
+ if(fQA) delete [] fQA;
+ fQA = new ULong_t[fLengthQA];
+ memcpy(fQA,qa.fQA,fLengthQA*sizeof(ULong_t));
+
+ fDet = qa.fDet;
+ fTask = qa.fTask;
+ fEventSpecie = qa.fEventSpecie;
+ if(fEventSpecies) delete [] fEventSpecies;
+ fEventSpecies = new Bool_t[fNEventSpecies];
+ memcpy(fEventSpecies,qa.fEventSpecies,fNEventSpecies*sizeof(Bool_t));
+ }
return *this;
}
//_______________________________________________________________
-AliQA::AliQA(const DETECTORINDEX det) :
+AliQA::AliQA(const DETECTORINDEX_t det) :
TNamed("QA", "Quality Assurance status"),
- fNdet(kNDET),
- fQA(new ULong_t[fNdet]),
+ fNdet(kNDET),
+ fNEventSpecies(AliRecoParam::kNSpecies),
+ fLengthQA(fNdet*fNEventSpecies),
+ fQA(new ULong_t[fLengthQA]),
fDet(det),
- fTask(kNULLTASK)
+ fTask(kNULLTASK),
+ fEventSpecie(AliRecoParam::kDefault),
+ fEventSpecies(new Bool_t[fNEventSpecies])
{
// constructor to be used
- if (! CheckRange(det) ) {
- fDet = kNULLDET ;
- return ;
- }
- Int_t index ;
- for (index = 0; index < fNdet; index++)
- fQA[index] = 0 ;
+ if (! CheckRange(det) ) fDet = kNULLDET ;
+ memset(fQA,0,fLengthQA);
+ memset(fEventSpecies,kFALSE,fNEventSpecies);
}
//_______________________________________________________________
-AliQA::AliQA(const ALITASK tsk) :
- TNamed("QA", "Quality Assurance status"),
- fNdet(kNDET),
- fQA(new ULong_t[fNdet]),
+AliQA::AliQA(const ALITASK_t tsk) :
+ TNamed("QA", "Quality Assurance status"),
+ fNdet(kNDET),
+ fNEventSpecies(AliRecoParam::kNSpecies),
+ fLengthQA(fNdet*fNEventSpecies),
+ fQA(new ULong_t[fLengthQA]),
fDet(kNULLDET),
- fTask(tsk)
+ fTask(tsk),
+ fEventSpecie(AliRecoParam::kDefault),
+ fEventSpecies(new Bool_t[fNEventSpecies])
{
// constructor to be used in the AliRoot module (SIM, REC, ESD or ANA)
- if (! CheckRange(tsk) ) {
- fTask = kNULLTASK ;
- return ;
- }
- Int_t index ;
- for (index = 0; index < fNdet; index++)
- fQA[index] = 0 ;
+ if (! CheckRange(tsk) ) fTask = kNULLTASK ;
+ memset(fQA,0,fLengthQA);
+ memset(fEventSpecies,kFALSE,fNEventSpecies);
}
//____________________________________________________________________________
AliQA::~AliQA()
{
// dtor
- delete[] fQA ;
+ delete [] fQA;
+ delete [] fEventSpecies;
}
//_______________________________________________________________
}
//_______________________________________________________________
-const Bool_t AliQA::CheckFatal() const
+Bool_t AliQA::CheckFatal() const
{
// check if any FATAL status is set
Bool_t rv = kFALSE ;
Int_t index ;
for (index = 0; index < kNDET ; index++)
- rv = rv || IsSet(DETECTORINDEX(index), fTask, kFATAL) ;
+ rv = rv || IsSet(DETECTORINDEX_t(index), fTask, fEventSpecie, kFATAL) ;
return rv ;
}
//_______________________________________________________________
-const Bool_t AliQA::CheckRange(DETECTORINDEX det) const
+Bool_t AliQA::CheckRange(DETECTORINDEX_t det) const
{
// check if detector is in given detector range: 0-kNDET
}
//_______________________________________________________________
-const Bool_t AliQA::CheckRange(ALITASK task) const
+Bool_t AliQA::CheckRange(ALITASK_t task) const
{
// check if task is given taskk range: 0:kNTASK
Bool_t rv = ( task < kRAW || task > kNTASK ) ? kFALSE : kTRUE ;
}
//_______________________________________________________________
-const Bool_t AliQA::CheckRange(QABIT bit) const
+Bool_t AliQA::CheckRange(QABIT_t bit) const
{
// check if bit is in given bit range: 0-kNBit
return rv ;
}
+//_______________________________________________________________
+Bool_t AliQA::CheckRange(AliRecoParam::EventSpecie_t es) const
+{
+ // check if bit is in given bit range: 0-kNBit
+ Bool_t rv = kFALSE ;
+ switch (es) {
+ case AliRecoParam::kDefault:
+ rv = kTRUE ;
+ break ;
+ case AliRecoParam::kLowMult:
+ rv = kTRUE ;
+ break ;
+ case AliRecoParam::kHighMult:
+ rv = kTRUE ;
+ break ;
+ case AliRecoParam::kCosmic:
+ rv = kTRUE ;
+ break ;
+ case AliRecoParam::kCalib:
+ rv = kTRUE ;
+ break ;
+ }
+ if (!rv)
+ AliFatal(Form("Event Specie %d is not valid", es)) ;
+ return rv ;
+}
+//_______________________________________________________________
+const char * AliQA::GetAliTaskName(ALITASK_t tsk)
+{
+ // returns the char name corresponding to module index
+ TString tskName ;
+ switch (tsk) {
+ case kNULLTASK:
+ break ;
+ case kRAW:
+ tskName = "RAW" ;
+ break ;
+ case kSIM:
+ tskName = "SIM" ;
+ break ;
+ case kREC:
+ tskName = "REC" ;
+ break ;
+ case kESD:
+ tskName = "ESD" ;
+ break ;
+ case kANA:
+ tskName = "ANA" ;
+ break ;
+ default:
+ tsk = kNULLTASK ;
+ break ;
+ }
+ return tskName.Data() ;
+}
//_______________________________________________________________
-const char * AliQA::GetAliTaskName(ALITASK tsk)
+const char * AliQA::GetBitName(QABIT_t bit) const
{
- // returns the char name corresponding to module index
- TString tskName ;
- switch (tsk) {
- case kNULLTASK:
- break ;
- case kRAW:
- tskName = "RAW" ;
- break ;
- case kSIM:
- tskName = "SIM" ;
- break ;
- case kREC:
- tskName = "REC" ;
- break ;
- case kESD:
- tskName = "ESD" ;
- break ;
- case kANA:
- tskName = "ANA" ;
- break ;
- default:
- tsk = kNULLTASK ;
- break ;
- }
- return tskName.Data() ;
+ // returns the char name corresponding to bit
+ TString bitName ;
+ switch (bit) {
+ case kNULLBit:
+ break ;
+ case kINFO:
+ bitName = "INFO" ;
+ break ;
+ case kWARNING:
+ bitName = "WARNING" ;
+ break ;
+ case kERROR:
+ bitName = "ERROR" ;
+ break ;
+ case kFATAL:
+ bitName = "FATAL" ;
+ break ;
+ default:
+ bit = kNULLBit ;
+ break ;
+ }
+ return bitName.Data() ;
+}
+
+//_______________________________________________________________
+AliQA::DETECTORINDEX_t AliQA::GetDetIndex(const char * name)
+{
+ // returns the detector index corresponding to a given name
+ TString sname(name) ;
+ DETECTORINDEX_t rv = kNULLDET ;
+ for (Int_t det = 0; det < kNDET ; det++) {
+ if ( GetDetName(det) == sname ) {
+ rv = DETECTORINDEX_t(det) ;
+ break ;
+ }
+ }
+ return rv ;
}
//_______________________________________________________________
const char * AliQA::GetDetName(Int_t det)
{
// returns the detector name corresponding to a given index (needed in a loop)
-
+
if ( det >= 0 && det < kNDET)
return (fgDetNames[det]).Data() ;
else
}
//_______________________________________________________________
-TFile * AliQA::GetQADataFile(const char * name, const Int_t run, const Int_t cycle)
+TFile * AliQA::GetQADataFile(const char * name, Int_t run)
{
// opens the file to store the detectors Quality Assurance Data Maker results
- char temp[20] ;
- sprintf(temp, "%s.%s.%d.%d.root", name, fgQADataFileName.Data(), run, cycle) ;
- TString opt ;
- if (! fgQADataFile ) {
- if (gSystem->AccessPathName(temp))
- opt = "NEW" ;
- else
- opt = "UPDATE" ;
- fgQADataFile = TFile::Open(temp, opt.Data()) ;
- } else {
- if ( strcmp(temp, fgQADataFile->GetName()) != 0 ) {
- fgQADataFile = dynamic_cast<TFile *>(gROOT->FindObject(temp)) ;
- if ( !fgQADataFile ) {
- if (gSystem->AccessPathName(temp))
- opt = "NEW" ;
- else
- opt = "UPDATE" ;
- fgQADataFile = TFile::Open(temp, opt.Data()) ;
- }
- }
+ const char * temp = Form("%s.%s.%d.root", name, fgQADataFileName.Data(), run) ;
+ TString opt ;
+ if (! fgQADataFile ) {
+ if (gSystem->AccessPathName(temp))
+ opt = "NEW" ;
+ else
+ opt = "UPDATE" ;
+ fgQADataFile = TFile::Open(temp, opt.Data()) ;
+ } else {
+ if ( strcmp(temp, fgQADataFile->GetName()) != 0 ) {
+ fgQADataFile = dynamic_cast<TFile *>(gROOT->FindObject(temp)) ;
+ if ( !fgQADataFile ) {
+ if (gSystem->AccessPathName(temp))
+ opt = "NEW" ;
+ else
+ opt = "UPDATE" ;
+ fgQADataFile = TFile::Open(temp, opt.Data()) ;
+ }
+ }
}
- return fgQADataFile ;
+ return fgQADataFile ;
}
//_____________________________________________________________________________
fgQAResultFile = 0x0 ;
// if (!fgQAResultFile) {
TString dirName(fgQAResultDirName) ;
- if ( dirName.Contains(fkgLabLocalFile))
- dirName.ReplaceAll(fkgLabLocalFile, "") ;
+ if ( dirName.Contains(fgkLabLocalFile))
+ dirName.ReplaceAll(fgkLabLocalFile, "") ;
TString fileName(dirName + fgQAResultFileName) ;
TString opt("") ;
if ( !gSystem->AccessPathName(fileName) )
}
//_______________________________________________________________
-const Bool_t AliQA::IsSet(DETECTORINDEX det, ALITASK tsk, QABIT bit) const
+AliQA::TASKINDEX_t AliQA::GetTaskIndex(const char * name)
+{
+ // returns the detector index corresponding to a given name
+ TString sname(name) ;
+ TASKINDEX_t rv = kNULLTASKINDEX ;
+ for (Int_t tsk = 0; tsk < kNTASKINDEX ; tsk++) {
+ if ( GetTaskName(tsk) == sname ) {
+ rv = TASKINDEX_t(tsk) ;
+ break ;
+ }
+ }
+ return rv ;
+}
+
+//_______________________________________________________________
+Bool_t AliQA::IsSet(DETECTORINDEX_t det, ALITASK_t tsk, Int_t ies, QABIT_t bit) const
{
// Checks is the requested bit is set
+
+ const AliRecoParam::EventSpecie_t es = AliRecoParam::Convert(ies) ;
+ return IsSet(det, tsk, es, bit) ;
+
+}
+//_______________________________________________________________
+Bool_t AliQA::IsSet(DETECTORINDEX_t det, ALITASK_t tsk, AliRecoParam::EventSpecie_t es, QABIT_t bit) const
+{
+ // Checks is the requested bit is set
+
CheckRange(det) ;
CheckRange(tsk) ;
CheckRange(bit) ;
-
+ CheckRange(es) ;
+
ULong_t offset = Offset(tsk) ;
- ULong_t status = GetStatus(det) ;
+ ULong_t status = GetStatus(det, es) ;
offset+= bit ;
status = (status & 1 << offset) != 0 ;
return status ;
}
+//_______________________________________________________________
+Bool_t AliQA::IsSetAny(DETECTORINDEX_t det, ALITASK_t tsk, AliRecoParam::EventSpecie_t es) const
+{
+ // Checks is the requested bit is set
+
+ CheckRange(det) ;
+ CheckRange(tsk) ;
+ CheckRange(es) ;
+
+ ULong_t offset = Offset(tsk) ;
+ ULong_t status = GetStatus(det, es) ;
+ ULong_t st = 0 ;
+ for ( Int_t bit = 0 ; bit < kNBIT ; bit++) {
+ offset+= bit ;
+ st += (status & 1 << offset) != 0 ;
+ }
+ if ( st == 0 )
+ return kFALSE ;
+ else
+ return kTRUE ;
+}
+//_______________________________________________________________
+Bool_t AliQA::IsSetAny(DETECTORINDEX_t det, AliRecoParam::EventSpecie_t es) const
+{
+ // Checks is the requested bit is set
+
+ CheckRange(det) ;
+ CheckRange(es) ;
+
+ ULong_t status = GetStatus(det, es) ;
+ ULong_t st = 0 ;
+ for ( Int_t tsk = 0 ; tsk < kNTASK ; tsk++) {
+ ULong_t offset = Offset(ALITASK_t(tsk)) ;
+ for ( Int_t bit = 0 ; bit < kNBIT ; bit++) {
+ offset+= bit ;
+ st += (status & 1 << offset) != 0 ;
+ }
+ }
+ if ( st == 0 )
+ return kFALSE ;
+ else
+ return kTRUE ;
+}
+
//_______________________________________________________________
AliQA * AliQA::Instance()
{
- // Get an instance of the singleton.
- // Object must have been instantiated with Instance(ALITASK) first
+ // Get an instance of the singleton. The only authorized way to call the ctor
+ if ( ! fgQA) {
+ TFile * f = GetQAResultFile() ;
+ fgQA = dynamic_cast<AliQA *>(f->Get("QA")) ;
+ if ( ! fgQA )
+ fgQA = new AliQA() ;
+ }
return fgQA ;
}
//_______________________________________________________________
-AliQA * AliQA::Instance(const DETECTORINDEX det)
+AliQA * AliQA::Instance(const DETECTORINDEX_t det)
{
// Get an instance of the singleton. The only authorized way to call the ctor
}
//_______________________________________________________________
-AliQA * AliQA::Instance(const ALITASK tsk)
+AliQA * AliQA::Instance(const ALITASK_t tsk)
{
- // get an instance of the singleton.
+ // Get an instance of the singleton. The only authorized way to call the ctor
if ( ! fgQA)
switch (tsk) {
}
//_______________________________________________________________
-const ULong_t AliQA::Offset(ALITASK tsk) const
+AliQA * AliQA::Instance(const TASKINDEX_t tsk)
+{
+ // get an instance of the singleton.
+
+ ALITASK_t index = kNULLTASK ;
+
+ if ( tsk == kRAWS )
+ index = kRAW ;
+ else if (tsk < kDIGITS)
+ index = kSIM ;
+ else if (tsk < kRECPARTICLES)
+ index = kREC ;
+ else if (tsk == kESDS)
+ index = kESD ;
+
+ return Instance(index) ;
+}
+
+//_______________________________________________________________
+void AliQA::Merge(TCollection * list) {
+ // Merge the QA resuls in the list into this single AliQA object
+
+ for (Int_t det = 0 ; det < kNDET ; det++) {
+ Set(DETECTORINDEX_t(det)) ;
+ for (Int_t task = 0 ; task < kNTASK ; task++) {
+ Set(ALITASK_t(task)) ;
+ for (Int_t bit = 0 ; bit < kNBIT ; bit++) {
+ TIter next(list) ;
+ AliQA * qa ;
+ while ( (qa = (AliQA*)next() ) ) {
+ for (Int_t es = 0 ; es < fNEventSpecies ; es++) {
+ if (qa->IsSet(DETECTORINDEX_t(det), ALITASK_t(task), es, QABIT_t(bit)))
+ Set(QABIT_t(bit), es) ;
+ }
+ } // qa list
+ } // bit
+ } // task
+ } // detector
+}
+
+//_______________________________________________________________
+ULong_t AliQA::Offset(ALITASK_t tsk) const
{
// Calculates the bit offset for a given module (SIM, REC, ESD, ANA)
}
//_______________________________________________________________
-void AliQA::Set(QABIT bit)
+void AliQA::ResetStatus(DETECTORINDEX_t det)
+{
+ // reset the status of det for all event specie
+ for (Int_t es = 0 ; es < fNEventSpecies ; es++)
+ fQA[det*fNdet+es] = 0 ;
+}
+
+//_______________________________________________________________
+void AliQA::Set(QABIT_t bit, Int_t ies)
{
- // Set the status bit of the current detector in the current module
+ // Set the status bit of the current detector in the current module and for the current event specie
+ Set(bit, AliRecoParam::Convert(ies)) ;
+}
+
+//_______________________________________________________________
+void AliQA::Set(QABIT_t bit, AliRecoParam::EventSpecie_t es)
+{
+ // Set the status bit of the current detector in the current module and for the current event specie
- SetStatusBit(fDet, fTask, bit) ;
+ SetStatusBit(fDet, fTask, es, bit) ;
}
//_____________________________________________________________________________
void AliQA::SetQARefStorage(const char * name)
{
- // Set the root directory where the QA reference data are stored
+ // Set the root directory where the QA reference data are stored
+
+ fgQARefDirName = name ;
+ if ( fgQARefDirName.Contains(fgkLabLocalFile) )
+ fgQARefFileName = fgkRefFileName ;
+ else if ( fgQARefDirName.Contains(fgkLabLocalOCDB) )
+ fgQARefFileName = fgkQAName ;
+ else if ( fgQARefDirName.Contains(fgkLabAliEnOCDB) )
+ fgQARefFileName = fgkQAName ;
- fgQARefDirName = name ;
- if ( fgQARefDirName.Contains(fkgLabLocalFile) )
- fgQARefFileName = fkgRefFileName ;
- else if ( fgQARefDirName.Contains(fkgLabLocalOCDB) )
- fgQARefFileName = fkgQAOCDBDirName ;
else {
printf("ERROR: %s is an invalid storage definition\n", name) ;
fgQARefDirName = "" ;
fgQARefFileName = "" ;
}
- TString tmp(fgQARefDirName + fgQARefFileName) ;
+ TString tmp(fgQARefDirName) ; // + fgQARefFileName) ;
printf("AliQA::SetQARefDir: QA references are in %s\n", tmp.Data() ) ;
}
fgQAResultDirName.Prepend(name) ;
printf("AliQA::SetQAResultDirName: QA results are in %s\n", fgQAResultDirName.Data()) ;
- if ( fgQAResultDirName.Contains(fkgLabLocalFile))
- fgQAResultDirName.ReplaceAll(fkgLabLocalFile, "") ;
+ if ( fgQAResultDirName.Contains(fgkLabLocalFile))
+ fgQAResultDirName.ReplaceAll(fgkLabLocalFile, "") ;
fgQAResultFileName.Prepend(fgQAResultDirName) ;
}
//_______________________________________________________________
-void AliQA::SetStatusBit(DETECTORINDEX det, ALITASK tsk, QABIT bit)
+void AliQA::SetStatusBit(DETECTORINDEX_t det, ALITASK_t tsk, AliRecoParam::EventSpecie_t es, QABIT_t bit)
{
// Set the status bit for a given detector and a given task
CheckRange(det) ;
CheckRange(tsk) ;
CheckRange(bit) ;
+ CheckRange(es) ;
ULong_t offset = Offset(tsk) ;
- ULong_t status = GetStatus(det) ;
+ ULong_t status = GetStatus(det, es) ;
offset+= bit ;
status = status | 1 << offset ;
- SetStatus(det, status) ;
+ SetStatus(det, es, status) ;
+}
+
+//_______________________________________________________________
+void AliQA::Show() const
+{
+ // dispplay the QA status word
+
+ for (Int_t ies = 0 ; ies < fNEventSpecies ; ies++) {
+ const Bool_t what = IsEventSpecieSet(ies) ;
+ if ( what )
+ ShowStatus(fDet, fTask, AliRecoParam::Convert(ies)) ;
+ }
+}
+
+//_______________________________________________________________
+void AliQA::Show(DETECTORINDEX_t det) const
+{
+ // dispplay the QA status word
+
+ for (Int_t ies = 0 ; ies < fNEventSpecies ; ies++) {
+ const Bool_t what = IsEventSpecieSet(ies) ;
+ if ( what )
+ ShowStatus(fDet, kNULLTASK, AliRecoParam::Convert(ies)) ;
+ }
}
//_______________________________________________________________
-void AliQA::ShowAll() const
+void AliQA::ShowAll() const
{
// dispplay the QA status word
Int_t index ;
- for (index = 0 ; index < kNDET ; index++)
- ShowStatus(DETECTORINDEX(index)) ;
+ for (index = 0 ; index < kNDET ; index++) {
+ for (Int_t tsk = kRAW ; tsk < kNTASK ; tsk++) {
+ for (Int_t ies = 0 ; ies < fNEventSpecies ; ies++) {
+ const Bool_t what = IsEventSpecieSet(ies) ;
+ if ( what )
+ ShowStatus(DETECTORINDEX_t(index), ALITASK_t(tsk), AliRecoParam::Convert(ies)) ;
+ }
+ }
+ }
}
//_______________________________________________________________
-void AliQA::ShowStatus(DETECTORINDEX det) const
+void AliQA::ShowStatus(DETECTORINDEX_t det, ALITASK_t tsk, AliRecoParam::EventSpecie_t es) const
{
- // Prints the full QA status of a given detector
- CheckRange(det) ;
- ULong_t status = GetStatus(det) ;
- ULong_t rawStatus = status & 0x0000f ;
- ULong_t simStatus = status & 0x000f0 ;
- ULong_t recStatus = status & 0x00f00 ;
- ULong_t esdStatus = status & 0x0f000 ;
- ULong_t anaStatus = status & 0xf0000 ;
+ // Prints the full QA status of a given detector
+ CheckRange(det) ;
+ CheckRange(es) ;
+ ULong_t status = GetStatus(det, es) ;
+ ULong_t tskStatus[kNTASK] ;
+ tskStatus[kRAW] = status & 0x0000f ;
+ tskStatus[kSIM] = status & 0x000f0 ;
+ tskStatus[kREC] = status & 0x00f00 ;
+ tskStatus[kESD] = status & 0x0f000 ;
+ tskStatus[kANA] = status & 0xf0000 ;
+
+ AliInfo(Form("====> QA Status for %8s %8s raw =0x%x, sim=0x%x, rec=0x%x, esd=0x%x, ana=0x%x", GetDetName(det).Data(), AliRecoParam::GetEventSpecieName(es),
+ tskStatus[kRAW], tskStatus[kSIM], tskStatus[kREC], tskStatus[kESD], tskStatus[kANA] )) ;
+ if (tsk == kNULLTASK) {
+ for (Int_t itsk = kRAW ; itsk < kNTASK ; itsk++) {
+ ShowASCIIStatus(es, det, ALITASK_t(itsk), tskStatus[itsk]) ;
+ }
+ } else {
+ ShowASCIIStatus(es, det, tsk, tskStatus[tsk]) ;
+ }
+}
- AliInfo(Form("QA Status for %8s raw =0x%x, sim=0x%x, rec=0x%x, esd=0x%x, ana=0x%x\n", GetDetName(det).Data(), rawStatus, simStatus, recStatus, esdStatus, anaStatus )) ;
+//_______________________________________________________________
+void AliQA::ShowASCIIStatus(AliRecoParam::EventSpecie_t es, DETECTORINDEX_t det, ALITASK_t tsk, const ULong_t status) const
+{
+ // print the QA status in human readable format
+ TString text;
+ for (Int_t bit = kINFO ; bit < kNBIT ; bit++) {
+ if (IsSet(det, tsk, es, QABIT_t(bit))) {
+ text = GetBitName(QABIT_t(bit)) ;
+ text += " " ;
+ }
+ }
+ if (! text.IsNull())
+ printf(" %8s %8s %4s 0x%4lx, Problem signalled: %8s \n", AliRecoParam::GetEventSpecieName(es), GetDetName(det).Data(), GetAliTaskName(tsk), status, text.Data()) ;
}
+//_______________________________________________________________
+void AliQA::UnSet(QABIT_t bit, Int_t ies)
+{
+ // UnSet the status bit of the current detector in the current module
+ UnSet(bit, AliRecoParam::Convert(ies)) ;
+}
+
+//_______________________________________________________________
+void AliQA::UnSet(QABIT_t bit, AliRecoParam::EventSpecie_t es)
+{
+ // UnSet the status bit of the current detector in the current module
+
+ UnSetStatusBit(fDet, fTask, es, bit) ;
+}
+
+//_______________________________________________________________
+void AliQA::UnSetStatusBit(DETECTORINDEX_t det, ALITASK_t tsk, AliRecoParam::EventSpecie_t es, QABIT_t bit)
+{
+ // UnSet the status bit for a given detector and a given task
+
+ CheckRange(det) ;
+ CheckRange(tsk) ;
+ CheckRange(bit) ;
+ CheckRange(es) ;
+
+ ULong_t offset = Offset(tsk) ;
+ ULong_t status = GetStatus(det, es) ;
+ offset+= bit ;
+ status = status & 0 << offset ;
+ SetStatus(det, es, status) ;
+}