ClassImp(AliDCSSensorArray)
-const Int_t kMinGraph = 10; // minimum #points of graph to be fitted
-const Int_t kMinPoints = 10; // minimum number of points per knot in fit
-const Int_t kIter = 10; // number of iterations for spline fit
-const Double_t kMaxDelta = 0.00; // precision parameter for spline fit
-const Int_t kFitReq = 2; // fit requirement, 2 = continuous 2nd derivative
+const Double_t kSecInHour = 3600.; // seconds in one hour
//_____________________________________________________________________________
AliDCSSensorArray::AliDCSSensorArray():TNamed(),
- fFirstSensor(0),
- fLastSensor(0),
+ fMinGraph(10),
+ fMinPoints(10),
+ fIter(10),
+ fMaxDelta(0.0),
+ fFitReq(2),
+ fValCut(-1),
+ fDiffCut(-1),
fStartTime (2000,1,1,0,0,0),
fEndTime (2000,1,1,0,0,0),
fSensors(0)
}
//_____________________________________________________________________________
-AliDCSSensorArray::AliDCSSensorArray(Int_t prevRun, const char* dbEntry) :
+AliDCSSensorArray::AliDCSSensorArray(TClonesArray *arr):TNamed(),
+ fMinGraph(10),
+ fMinPoints(10),
+ fIter(10),
+ fMaxDelta(0.0),
+ fFitReq(2),
+ fValCut(-1),
+ fDiffCut(-1),
+ fStartTime (2000,1,1,0,0,0),
+ fEndTime (2000,1,1,0,0,0),
+ fSensors(arr)
+{
+ //
+ // AliDCSSensorArray special constructor taking TClonesArray from ReadList
+ //
+
+}
+//_____________________________________________________________________________
+AliDCSSensorArray::AliDCSSensorArray(Int_t run, const char* dbEntry) :
TNamed(),
- fFirstSensor(0),
- fLastSensor(0),
+ fMinGraph(10),
+ fMinPoints(10),
+ fIter(10),
+ fMaxDelta(0.0),
+ fFitReq(2),
+ fValCut(-1),
+ fDiffCut(-1),
fStartTime (2000,1,1,0,0,0),
fEndTime (2000,1,1,0,0,0),
fSensors(0)
{
//
- // Read positions etc. from data base entry for previous run
- // Delete all fits and graphs
+ // Read configuration from OCDB
//
- AliDCSSensorArray *temp=0;
- AliCDBEntry* entry =
- AliCDBManager::Instance()->Get(dbEntry,prevRun);
- if (entry){
- entry->SetOwner(kTRUE);
- temp = (AliDCSSensorArray*)entry->GetObject();
- }
-
- TGraph *gr;
- AliSplineFit* fit;
+
+ AliCDBEntry *entry = AliCDBManager::Instance()->Get(dbEntry,run);
+ TTree *tree = (TTree*) entry->GetObject();
+ fSensors = AliDCSSensor::ReadTree(tree);
+}
+//_____________________________________________________________________________
+AliDCSSensorArray::AliDCSSensorArray(UInt_t startTime, UInt_t endTime,
+ TTree* confTree) :
+ TNamed(),
+ fMinGraph(10),
+ fMinPoints(10),
+ fIter(10),
+ fMaxDelta(0.0),
+ fFitReq(2),
+ fValCut(-1),
+ fDiffCut(-1),
+ fStartTime (2000,1,1,0,0,0),
+ fEndTime (2000,1,1,0,0,0),
+ fSensors(0)
-// Delete previous values
-
- Int_t nsensors = temp->fSensors->GetEntries();
- for ( Int_t isensor=0; isensor<nsensors; isensor++) {
- AliDCSSensor *entry = (AliDCSSensor*)temp->fSensors->At(isensor);
- gr = entry->GetGraph();
- if ( gr != 0 ) {
- delete gr;
- gr = 0;
- }
- fit = entry->GetFit();
- if ( fit != 0 ) {
- delete fit;
- fit = 0;
- }
- }
-
- new (this) AliDCSSensorArray(*temp);
- delete temp;
+{
+ //
+ // AliDCSSensorArray constructor for Shuttle preprocessor
+ // (confTree read from OCDB)
+ //
+ fSensors = AliDCSSensor::ReadTree(confTree);
+ fSensors->BypassStreamer(kFALSE);
+ fStartTime = TTimeStamp(startTime);
+ fEndTime = TTimeStamp(endTime);
}
//_____________________________________________________________________________
AliDCSSensorArray::AliDCSSensorArray(const AliDCSSensorArray &c):TNamed(c),
- fFirstSensor(c.fFirstSensor),
- fLastSensor(c.fLastSensor),
+ fMinGraph(c.fMinGraph),
+ fMinPoints(c.fMinPoints),
+ fIter(c.fIter),
+ fMaxDelta(c.fMaxDelta),
+ fFitReq(c.fFitReq),
+ fValCut(c.fValCut),
+ fDiffCut(c.fDiffCut),
fStartTime (c.fStartTime),
fEndTime (c.fEndTime),
fSensors(0)
TObject::Copy(c);
}
//_____________________________________________________________________________
-void AliDCSSensorArray::SetGraph(TMap *map, const char *amandaString)
+void AliDCSSensorArray::SetGraph(TMap *map)
{
//
// Read graphs from DCS maps
//
- char dname[100];
Int_t nsensors = fSensors->GetEntries();
for ( Int_t isensor=0; isensor<nsensors; isensor++) {
AliDCSSensor *entry = (AliDCSSensor*)fSensors->At(isensor);
- Int_t dcsSensor=entry->GetIdDCS();
- sprintf(dname,amandaString,dcsSensor);
- TGraph *gr = (TGraph*)map->GetValue(dname);
- entry->SetGraph(gr);
+ TString stringID = entry->GetStringID();
+ TGraph *gr = (TGraph*)map->GetValue(stringID.Data());
+ if ( gr !=0 ) {
+ entry->SetGraph((TGraph*)gr->Clone());
+ } else {
+ entry->SetGraph(0);
+ }
}
}
//_____________________________________________________________________________
-void AliDCSSensorArray::MakeSplineFit(TMap *map, const char *amandaString)
+void AliDCSSensorArray::MakeSplineFit(TMap *map, Bool_t keepMap)
{
//
// Make spline fits from DCS maps
//
- char dname[100];
Int_t nsensors = fSensors->GetEntries();
for ( Int_t isensor=0; isensor<nsensors; isensor++) {
AliDCSSensor *entry = (AliDCSSensor*)fSensors->At(isensor);
- Int_t dcsSensor=entry->GetIdDCS();
- sprintf(dname,amandaString,dcsSensor);
- TGraph *gr = (TGraph*)map->GetValue(dname);
- if (gr->GetN() < kMinGraph ) continue;
+ TString stringID = entry->GetStringID();
+ TGraph *gr = (TGraph*)map->GetValue(stringID.Data());
+ if (gr==0 || gr->GetN() < fMinGraph) {
+ entry->SetFit(0);
+ continue;
+ }
AliSplineFit *fit = new AliSplineFit();
- fit->InitKnots(gr,kMinPoints,kIter,kMaxDelta);
- fit->SplineFit(kFitReq);
+ fit->InitKnots(gr,fMinPoints,fIter,fMaxDelta);
+ fit->SplineFit(fFitReq);
entry->SetStartTime(fStartTime);
+ entry->SetEndTime(fEndTime);
fit->Cleanup();
entry->SetFit(fit);
+ if (keepMap) entry->SetGraph(gr);
}
}
+
//_____________________________________________________________________________
Double_t AliDCSSensorArray::GetValue(UInt_t timeSec, Int_t sensor)
{
//_____________________________________________________________________________
-TMap* AliDCSSensorArray::ExtractDCS(TMap *dcsMap, const char *amandaString)
+TMap* AliDCSSensorArray::ExtractDCS(TMap *dcsMap)
{
//
// Extract temperature graphs from DCS maps
Int_t nsensors = fSensors->GetEntries();
for ( Int_t isensor=0; isensor<nsensors; isensor++) {
AliDCSSensor *entry = (AliDCSSensor*)fSensors->At(isensor);
- Int_t dcsSensor=entry->GetIdDCS();
- TString DPname = Form (amandaString,dcsSensor);
- TPair *pair = (TPair*)dcsMap->FindObject(DPname.Data());
- valueSet = (TObjArray*)pair->Value();
- TGraph *graph = MakeGraph(valueSet);
- values->Add(new TObjString(DPname.Data()),graph);
+ TString stringID = entry->GetStringID();
+ TPair *pair = (TPair*)dcsMap->FindObject(stringID.Data());
+ if ( pair ) { // only try to read values
+ // if DCS object available
+ valueSet = (TObjArray*)pair->Value();
+ TGraph *graph = MakeGraph(valueSet);
+ values->Add(new TObjString(stringID.Data()),graph);
+ }
}
return values;
}
// (spline fit parameters will subsequently be obtained from this graph)
//
Int_t nentries = valueSet->GetEntriesFast();
+ if ( nentries == 0 ) return 0;
+
Float_t *x = new Float_t[nentries];
Float_t *y = new Float_t[nentries];
Int_t time0=0;
Int_t out=0;
Int_t skipped=0;
- Float_t value;
+ AliDCSValue *val = (AliDCSValue *)valueSet->At(0);
+ AliDCSValue::Type type = val->GetType();
+ if ( type == AliDCSValue::kInvalid || type == AliDCSValue::kBool ) return 0;
+ Float_t value;
for (Int_t i=0; i<nentries; i++){
- AliDCSValue * val = (AliDCSValue *)valueSet->At(i);
+ val = (AliDCSValue *)valueSet->At(i);
if (!val) continue;
if (time0==0){
time0=val->GetTimeStamp();
}
- value = val->GetFloat();
- if (TMath::Abs(value)>100) continue; // refuse values exceeding 100
- if ( out>0 && skipped<10 && TMath::Abs(value-y[out-1])>5) {
- skipped++; // refuse temperatures changing
- continue; // by > 5 degrees in one time step
- }
- skipped=0;
+ switch ( type )
+ {
+ case AliDCSValue::kFloat:
+ value = val->GetFloat();
+ break;
+ case AliDCSValue::kChar:
+ value = static_cast<Float_t>(val->GetChar());
+ break;
+ case AliDCSValue::kInt:
+ value = static_cast<Float_t>(val->GetInt());
+ break;
+ case AliDCSValue::kUInt:
+ value = static_cast<Float_t>(val->GetUInt());
+ break;
+ default:
+ continue;
+ }
+ if (fValCut>0 && TMath::Abs(value)>fValCut) continue; // refuse values greater than cut
+ if (fDiffCut>0 ) {
+ if ( out>0 && skipped<10 && TMath::Abs(value-y[out-1])>fDiffCut) {
+ skipped++; // refuse values changing
+ continue; // by > cut in one time step
+ }
+ skipped=0;
+ }
if (val->GetTimeStamp()-time0>1000000) continue;
- x[out] = (val->GetTimeStamp()-time0)/3600.0; // give times in fractions of hours
+ x[out] = (val->GetTimeStamp()-time0)/kSecInHour; // give times in fractions of hours
y[out] = val->GetFloat();
out++;
return 0;
}
//_____________________________________________________________________________
+AliDCSSensor* AliDCSSensorArray::GetSensor(const TString& stringID)
+{
+ //
+ // Return sensor information for sensor specified by IdDCS
+ //
+ Int_t nsensors = fSensors->GetEntries();
+ for (Int_t isensor=0; isensor<nsensors; isensor++) {
+ AliDCSSensor *entry = (AliDCSSensor*)fSensors->At(isensor);
+ if (entry->GetStringID() == stringID) return entry;
+ }
+ return 0;
+}
+//_____________________________________________________________________________
AliDCSSensor* AliDCSSensorArray::GetSensor(Double_t x, Double_t y, Double_t z)
{
//
return 0;
}
}
+
+AliDCSSensor* AliDCSSensorArray::GetSensorNum(Int_t ind)
+{
+ //
+ // Return sensor given by array index
+ //
+ return (AliDCSSensor*)fSensors->At(ind);
+}
+
+Int_t AliDCSSensorArray::GetFirstIdDCS() const
+{
+ //
+ // Return DCS Id of first sensor
+ //
+ if ( fSensors != 0 ) {
+ return ((AliDCSSensor*)fSensors->At(0))->GetIdDCS();
+ } else {
+ return 0;
+ }
+}
+
+Int_t AliDCSSensorArray::GetLastIdDCS() const
+{
+ //
+ // Return DCS Id of last sensor
+ //
+ if ( fSensors != 0 ) {
+ Int_t last = fSensors->GetEntries();
+ return ((AliDCSSensor*)fSensors->At(last-1))->GetIdDCS();
+ } else {
+ return 0;
+ }
+}
+void AliDCSSensorArray::ClearGraph()
+{
+ //
+ // Delete DCS graphs from all sensors in array
+ //
+
+ Int_t nsensors = fSensors->GetEntries();
+ for ( Int_t isensor=0; isensor<nsensors; isensor++) {
+ AliDCSSensor *sensor = (AliDCSSensor*)fSensors->At(isensor);
+ TGraph *gr = sensor->GetGraph();
+ if ( gr != 0 ) {
+ delete gr;
+ gr = 0;
+ }
+ sensor->SetGraph(0);
+ }
+}
+void AliDCSSensorArray::ClearFit()
+{
+ //
+ // Delete spline fits from all sensors in array
+ //
+
+ Int_t nsensors = fSensors->GetEntries();
+ for ( Int_t isensor=0; isensor<nsensors; isensor++) {
+ AliDCSSensor *sensor = (AliDCSSensor*)fSensors->At(isensor);
+ AliSplineFit *fit = sensor->GetFit();
+ if ( fit != 0 ) {
+ delete fit;
+ fit = 0;
+ }
+ sensor->SetFit(0);
+ }
+}