const TString kAmandaTemp = "TPC_PT_%d_TEMPERATURE"; // Amanda string for temperature entries
//const Double_t kFitFraction = 0.7; // Fraction of DCS sensor fits required
const Double_t kFitFraction = -1.0; // Don't require minimum number of fits in commissioning run
+const Int_t kNumPressureSensors = 3; // number of pressure sensors
+const char* kPressureSensorNames[kNumPressureSensors] = {
+ "CavernAtmosPressure",
+ "CavernAtmosPressure2",
+ "SurfaceAtmosPressure" };
+
//
// This class is the SHUTTLE preprocessor for the TPC detector.
//______________________________________________________________________________________________
AliTPCPreprocessor::AliTPCPreprocessor(AliShuttleInterface* shuttle) :
AliPreprocessor("TPC",shuttle),
- fConfEnv(0), fTemp(0), fHighVoltage(0), fHighVoltageStat(0), fGoofie(0), fConfigOK(kTRUE), fROC(0)
+ fConfEnv(0), fTemp(0), fHighVoltage(0), fHighVoltageStat(0), fGoofie(0),
+ fPressure(0), fConfigOK(kTRUE), fROC(0)
{
// constructor
fROC = AliTPCROC::Instance();
//______________________________________________________________________________________________
AliTPCPreprocessor::AliTPCPreprocessor(const AliTPCPreprocessor& ) :
AliPreprocessor("TPC",0),
- fConfEnv(0), fTemp(0), fHighVoltage(0), fHighVoltageStat(0), fGoofie(0), fConfigOK(kTRUE), fROC(0)
+ fConfEnv(0), fTemp(0), fHighVoltage(0), fHighVoltageStat(0), fGoofie(0),
+ fPressure(0), fConfigOK(kTRUE), fROC(0)
{
Fatal("AliTPCPreprocessor", "copy constructor not implemented");
delete fTemp;
delete fHighVoltage;
+ delete fHighVoltageStat;
+ delete fGoofie;
+ delete fPressure;
}
//______________________________________________________________________________________________
AliTPCPreprocessor& AliTPCPreprocessor::operator = (const AliTPCPreprocessor& )
void AliTPCPreprocessor::Initialize(Int_t run, UInt_t startTime,
UInt_t endTime)
{
- // Creates AliTestDataDCS object -- start maps half an hour beforre actual run start
- UInt_t startTimeLocal = startTime-3600;
- UInt_t endTimeLocal = endTime+1800;
-
- AliPreprocessor::Initialize(run, startTimeLocal, endTimeLocal);
+ AliPreprocessor::Initialize(run, startTime, endTime);
AliInfo(Form("\n\tRun %d \n\tStartTime %s \n\tEndTime %s", run,
TTimeStamp((time_t)startTime,0).AsString(),
fConfigOK = kFALSE;
return;
}
- fTemp = new AliTPCSensorTempArray(startTimeLocal, endTimeLocal, confTree, kAmandaTemp);
+ fTemp = new AliTPCSensorTempArray(startTime, endTime, confTree, kAmandaTemp);
fTemp->SetValCut(kValCutTemp);
fTemp->SetDiffCut(kDiffCutTemp);
}
fConfigOK = kFALSE;
return;
}
- fHighVoltage = new AliDCSSensorArray(startTimeLocal, endTimeLocal, confTree);
+ time_t timeStart = (time_t)(((TString)GetRunParameter("DAQ_time_start")).Atoi());
+ time_t timeEnd = (time_t)(((TString)GetRunParameter("DAQ_time_end")).Atoi());
+ fHighVoltage = new AliDCSSensorArray (UInt_t(timeStart),
+ UInt_t(timeEnd), confTree);
}
// High voltage status values
fConfigOK = kFALSE;
return;
}
- fHighVoltageStat = new AliDCSSensorArray(startTimeLocal, endTimeLocal, confTree);
+ fHighVoltageStat = new AliDCSSensorArray(startTime, endTime, confTree);
}
// Goofie values
fConfigOK = kFALSE;
return;
}
- fGoofie = new AliDCSSensorArray(startTimeLocal, endTimeLocal, confTree);
+ fGoofie = new AliDCSSensorArray(startTime, endTime, confTree);
}
-
+ // Pressure values
+
+ TString runType = GetRunType();
+
+ if( runType == kPhysicsRunType ||
+ runType == kLaserRunType ) {
+ TString pressureConf = fConfEnv->GetValue("Pressure","ON");
+ pressureConf.ToUpper();
+ if (pressureConf != "OFF" ) {
+ TClonesArray * array = new TClonesArray("AliDCSSensor",kNumPressureSensors);
+ for(Int_t j = 0; j < kNumPressureSensors; j++) {
+ AliDCSSensor * sens = new ((*array)[j])AliDCSSensor;
+ sens->SetStringID(kPressureSensorNames[j]);
+ }
+ fPressure = new AliDCSSensorArray(startTime, endTime, array);
+ }
+ }
}
//______________________________________________________________________________________________
TObject * status;
UInt_t dcsResult=0;
- if (errorHandling == "OFF" ) {
- if (!dcsAliasMap) dcsResult=1;
- if (dcsAliasMap->GetEntries() == 0 ) dcsResult=1;
- status = new TParameter<int>("dcsResult",dcsResult);
- resultArray->Add(status);
- } else {
- if (!dcsAliasMap) return 9;
- if (dcsAliasMap->GetEntries() == 0 ) return 9;
- }
+ if (!dcsAliasMap) dcsResult=1;
+ if (dcsAliasMap->GetEntries() == 0 ) dcsResult=1;
+ status = new TParameter<int>("dcsResult",dcsResult);
+ resultArray->Add(status);
-
-
TString runType = GetRunType();
+ if ( dcsResult == 0 ) {
+
// Temperature sensors are processed by AliTPCCalTemp
- TString tempConf = fConfEnv->GetValue("Temperature","ON");
- tempConf.ToUpper();
- if (tempConf != "OFF" ) {
- UInt_t tempResult = MapTemperature(dcsAliasMap);
- result=tempResult;
- status = new TParameter<int>("tempResult",tempResult);
- resultArray->Add(status);
- }
+ TString tempConf = fConfEnv->GetValue("Temperature","ON");
+ tempConf.ToUpper();
+ if (tempConf != "OFF" ) {
+ UInt_t tempResult = MapTemperature(dcsAliasMap);
+ if ( tempConf != "TRY") result+=tempResult;
+ status = new TParameter<int>("tempResult",tempResult);
+ resultArray->Add(status);
+ }
// High Voltage recordings
- TString hvConf = fConfEnv->GetValue("HighVoltage","ON");
- hvConf.ToUpper();
- if (hvConf != "OFF" ) {
- UInt_t hvResult = MapHighVoltage(dcsAliasMap);
- result+=hvResult;
- status = new TParameter<int>("hvResult",hvResult);
- resultArray->Add(status);
- }
+ TString hvConf = fConfEnv->GetValue("HighVoltage","ON");
+ hvConf.ToUpper();
+ if (hvConf != "OFF" ) {
+ UInt_t hvResult = MapHighVoltage(dcsAliasMap);
+ if (hvConf != "TRY") result+=hvResult;
+ status = new TParameter<int>("hvResult",hvResult);
+ resultArray->Add(status);
+ }
- // Goofie values
+ // Goofie values
- TString goofieConf = fConfEnv->GetValue("Goofie","ON");
- goofieConf.ToUpper();
- if (goofieConf != "OFF" ) {
- UInt_t goofieResult = MapGoofie(dcsAliasMap);
- result+=goofieResult;
- status = new TParameter<int>("goofieResult",goofieResult);
- resultArray->Add(status);
- }
+ TString goofieConf = fConfEnv->GetValue("Goofie","ON");
+ goofieConf.ToUpper();
+ if (goofieConf != "OFF" ) {
+ UInt_t goofieResult = MapGoofie(dcsAliasMap);
+ if (goofieConf != "TRY") result+=goofieResult;
+ status = new TParameter<int>("goofieResult",goofieResult);
+ resultArray->Add(status);
+ }
+ // Pressure values
+
+ if( runType == kPhysicsRunType ||
+ runType == kLaserRunType ) {
+
+ TString pressureConf = fConfEnv->GetValue("Pressure","ON");
+ pressureConf.ToUpper();
+ if (pressureConf != "OFF" ) {
+ UInt_t pressureResult = MapPressure(dcsAliasMap);
+ status = new TParameter<int>("pressureResult",pressureResult);
+ resultArray->Add(status);
+ }
+ }
+ }
// Other calibration information will be retrieved through FXS files
// examples:
// TList* fileSourcesDAQ = GetFile(AliShuttleInterface::kDAQ, "pedestals");
pulserSource[1] = AliShuttleInterface::kDAQ;
}
if (source == "DAQHLT" ) numSources=2;
+ if (source == "TRY" ) numSources=2;
UInt_t pulserResult=0;
for (Int_t i=0; i<numSources; i++ ) {
pulserResult = ExtractPulser(pulserSource[i]);
if ( pulserResult == 0 ) break;
}
- result += pulserResult;
+ if (source != "TRY") result += pulserResult;
status = new TParameter<int>("pulserResult",pulserResult);
resultArray->Add(status);
}
rawSource[1] = AliShuttleInterface::kDAQ;
}
if (source == "DAQHLT" ) numSources=2;
+ if (source == "TRY" ) numSources=2;
UInt_t rawResult=0;
for (Int_t i=0; i<numSources; i++ ) {
rawResult = ExtractRaw(rawSource[i]);
if ( rawResult == 0 ) break;
}
- result += rawResult;
+ if (source != "TRY" )result += rawResult;
status = new TParameter<int>("rawResult",rawResult);
resultArray->Add(status);
}
TString altroConf = fConfEnv->GetValue("AltroConf","ON");
- goofieConf.ToUpper();
+ altroConf.ToUpper();
if (altroConf != "OFF" ) {
UInt_t altroResult = ExtractAltro(AliShuttleInterface::kDCS);
- result+=altroResult;
+ if (altroConf != "TRY" ) result+=altroResult;
status = new TParameter<int>("altroResult",altroResult);
resultArray->Add(status);
}
ceSource[1] = AliShuttleInterface::kDAQ;
}
if (source == "DAQHLT" ) numSources=2;
+ if (source == "TRY" ) numSources=2;
UInt_t ceResult=0;
for (Int_t i=0; i<numSources; i++ ) {
ceResult = ExtractCE(ceSource[i]);
// only flag error if CE result is missing from LASER runs
// -- for PHYSICS run do CE processing if data available
- if ( runType == kLaserRunType ) result += ceResult;
+ if ( runType == kLaserRunType && source != "TRY" ) result += ceResult;
status = new TParameter<int>("ceResult",ceResult);
resultArray->Add(status);
qaSource[1] = AliShuttleInterface::kDAQ;
}
if (source == "DAQHLT" ) numSources=2;
+ if (source == "TRY" ) numSources=2;
UInt_t qaResult=0;
for (Int_t i=0; i<numSources; i++ ) {
qaResult = ExtractQA(qaSource[i]);
}
}
- if (errorHandling == "OFF" ) {
- AliCDBMetaData metaData;
- metaData.SetBeamPeriod(0);
- metaData.SetResponsible("Haavard Helstrup");
- metaData.SetAliRootVersion(ALIROOT_SVN_BRANCH);
- metaData.SetComment("Preprocessor AliTPC status.");
- Store("Calib", "PreprocStatus", resultArray, &metaData, 0, kFALSE);
- resultArray->Delete();
- return 0;
- } else {
- return result;
- }
+// Store component status to OCDB
+
+ AliCDBMetaData metaData;
+ metaData.SetBeamPeriod(0);
+ metaData.SetResponsible("Haavard Helstrup");
+ metaData.SetAliRootVersion(ALIROOT_SVN_BRANCH);
+ metaData.SetComment("Preprocessor AliTPC status.");
+ Store("Calib", "PreprocStatus", resultArray, &metaData, 0, kFALSE);
+ resultArray->Delete();
+ delete resultArray;
+
+ if (errorHandling == "OFF" ) return 0;
+ return result;
+
}
//______________________________________________________________________________________________
UInt_t AliTPCPreprocessor::MapTemperature(TMap* dcsAliasMap)
return result;
}
+//______________________________________________________________________________________________
+UInt_t AliTPCPreprocessor::MapPressure(TMap* dcsAliasMap)
+{
+
+ // extract DCS pressure maps. Perform fits to save space
+
+ UInt_t result=0;
+ TMap *map = fPressure->ExtractDCS(dcsAliasMap);
+ if (map) {
+ fPressure->MakeSplineFit(map);
+ Double_t fitFraction = 1.0*fPressure->NumFits()/fPressure->NumSensors();
+ if (fitFraction > kFitFraction ) {
+ AliInfo(Form("Pressure values extracted, fits performed.\n"));
+ } else {
+ Log ("Too few pressure maps fitted. \n");
+ result = 9;
+ }
+ } else {
+ Log("No pressure map extracted. \n");
+ result=9;
+ }
+ delete map;
+ return result;
+}
//______________________________________________________________________________________________
UInt_t AliTPCPreprocessor::MapHighVoltage(TMap* dcsAliasMap)
UInt_t result=0;
TMap *map = fHighVoltage->ExtractDCS(dcsAliasMap);
if (map) {
- fHighVoltage->MakeSplineFit(map);
+ fHighVoltage->MakeSplineFit(map, kTRUE); // keep both spline fits and original maps
Double_t fitFraction = 1.0*fHighVoltage->NumFits()/fHighVoltage->NumSensors();
if (fitFraction > kFitFraction ) {
AliInfo(Form("High voltage recordings extracted, fits performed.\n"));
if ( !storeOK ) ++result;
}
} else {
- Log ("Error: no entries in input file list!");
+ Log ("Error: no entries in pedestal file list!");
result = 1;
}
+ delete calPadPed;
+ delete calPadRMS;
+
return result;
}
if ( !storeOK ) ++result;
}
} else {
- Log ("Error: no entries in input file list!");
+ Log ("Error: no entries in pulser file list!");
result = 1;
}
+ pulserObjects->Delete();
+ delete pulserObjects;
return result;
}
break;
}
rawArray->Add(calRaw);
- delete calRaw;
f->Close();
}
++index;
Bool_t storeOK = Store("Calib", "Raw", rawArray, &metaData, 0, kTRUE);
if ( !storeOK ) ++result;
} else {
- Log ("Error: no entries in input file list!");
+ Log ("Error: no entries in raw file list!");
result = 1;
}
+
+ rawArray->Delete();
+ delete rawArray;
return result;
}
rocQtime = new TObjArray(nSectors);
rocQtime->SetName("rocQtime");
ceObjects->Add(rocQtime);
-
+
+// Temperature maps
+
+ if (fTemp) {
+ AliTPCSensorTempArray *tempMap = new AliTPCSensorTempArray(*fTemp);
+ tempMap->SetNameTitle("TempMap","TempMap");
+ ceObjects->Add(tempMap);
+ }
+
+// Pressure maps
+
+ if (fPressure) {
+ AliDCSSensor *sensor=0, *sensorCopy=0;
+ for (Int_t isensor=0; isensor<kNumPressureSensors; ++isensor ) {
+ sensor = fPressure->GetSensor(kPressureSensorNames[isensor]);
+ if (sensor) {
+ sensorCopy = new AliDCSSensor(*sensor);
+ sensorCopy->SetNameTitle(kPressureSensorNames[isensor],kPressureSensorNames[isensor]);
+ ceObjects->Add(sensorCopy);
+ }
+ }
+ }
UInt_t result=0;
TGraph *grT=calCE->MakeGraphTimeCE(sector,0,2); // T time graph
if ( grT ) rocTtime->AddAt(grT,sector);
TGraph *grQ=calCE->MakeGraphTimeCE(sector,0,3); // Q time graph
- if ( grQ ) rocTtime->AddAt(grQ,sector);
+ if ( grQ ) rocQtime->AddAt(grQ,sector);
}
TGraph *grT=calCE->MakeGraphTimeCE(-1,0,2); // A side average
if ( !storeOK ) ++result;
} else {
- Log ("Error: no entries!");
+ Log ("Error: no CE entries available from FXS!");
result = 1;
}
+ ceObjects->Delete();
+ delete ceObjects;
+
return result;
}
//______________________________________________________________________________________________
metaData.SetAliRootVersion(ALIROOT_SVN_BRANCH);
metaData.SetComment("Preprocessor AliTPC data base entries.");
- Bool_t storeOK = Store("Calib", "QA", calQA, &metaData, 0, kTRUE);
+ Bool_t storeOK = Store("Calib", "QA", calQA, &metaData, 0, kFALSE);
if ( !storeOK ) ++result;
+
+ delete calQA;
}
}
} else {
AliTPCCalPad *acqStop=0;
AliTPCCalPad *FPED=0;
AliTPCCalPad *masked=0;
+ AliTPCCalPad *k1=0, *k2=0, *k3=0;
+ AliTPCCalPad *l1=0, *l2=0, *l3=0;
+ TMap *mapRCUconfig=0;
- AliCDBEntry* entry = GetFromOCDB("Calib", "Altro");
+ AliCDBEntry* entry = GetFromOCDB("Calib", "AltroConfig");
if (entry) altroObjects = (TObjArray*)entry->GetObject();
if ( altroObjects==NULL ) {
Log("AliTPCPreprocsessor: No previous TPC altro calibration entry available.\n");
masked = new AliTPCCalPad("Masked","Masked");
altroObjects->Add(masked);
}
-
+ k1 = (AliTPCCalPad*)altroObjects->FindObject("K1");
+ if ( !k1 ) {
+ k1 = new AliTPCCalPad("K1","K1");
+ altroObjects->Add(k1);
+ }
+ k2 = (AliTPCCalPad*)altroObjects->FindObject("K2");
+ if ( !k2 ) {
+ k2 = new AliTPCCalPad("K2","K2");
+ altroObjects->Add(k2);
+ }
+ k3 = (AliTPCCalPad*)altroObjects->FindObject("K3");
+ if ( !k3 ) {
+ k3 = new AliTPCCalPad("K3","K3");
+ altroObjects->Add(k3);
+ }
+ l1 = (AliTPCCalPad*)altroObjects->FindObject("L1");
+ if ( !l1 ) {
+ l1 = new AliTPCCalPad("L1","L1");
+ altroObjects->Add(l1);
+ }
+ l2 = (AliTPCCalPad*)altroObjects->FindObject("L2");
+ if ( !l2 ) {
+ l2 = new AliTPCCalPad("L2","L2");
+ altroObjects->Add(l2);
+ }
+ l3 = (AliTPCCalPad*)altroObjects->FindObject("L3");
+ if ( !l3 ) {
+ l3 = new AliTPCCalPad("L3","L3");
+ altroObjects->Add(l3);
+ }
+ mapRCUconfig = (TMap*)altroObjects->FindObject("RCUconfig");
+ if (!mapRCUconfig) {
+ mapRCUconfig = new TMap();
+ mapRCUconfig->SetName("RCUconfig");
+ altroObjects->Add(mapRCUconfig);
+ }
UInt_t result=0;
AliTPCCalPad *acqStopFXS=(AliTPCCalPad*)altroFXS->FindObject("AcqStop");
AliTPCCalPad *FPEDFXS=(AliTPCCalPad*)altroFXS->FindObject("FPED");
AliTPCCalPad *maskedFXS=(AliTPCCalPad*)altroFXS->FindObject("Masked");
-
+ AliTPCCalPad *k1FXS=(AliTPCCalPad*)altroFXS->FindObject("K1");
+ AliTPCCalPad *k2FXS=(AliTPCCalPad*)altroFXS->FindObject("K2");
+ AliTPCCalPad *k3FXS=(AliTPCCalPad*)altroFXS->FindObject("K3");
+ AliTPCCalPad *l1FXS=(AliTPCCalPad*)altroFXS->FindObject("L1");
+ AliTPCCalPad *l2FXS=(AliTPCCalPad*)altroFXS->FindObject("L2");
+ AliTPCCalPad *l3FXS=(AliTPCCalPad*)altroFXS->FindObject("L3");
+ TMap *mapRCUconfigFXS = (TMap*)altroFXS->FindObject("RCUconfig");
+ TIterator *mapFXSiter = mapRCUconfigFXS->MakeIterator();
+
changed=true;
for (Int_t sector=0; sector<nSectors; sector++) {
AliTPCCalROC *rocMasked=maskedFXS->GetCalROC(sector);
if ( rocMasked ) masked->SetCalROC(rocMasked,sector);
}
+ if (k1FXS) {
+ AliTPCCalROC *rocK1=k1FXS->GetCalROC(sector);
+ if ( rocK1 ) k1->SetCalROC(rocK1,sector);
+ }
+ if (k2FXS) {
+ AliTPCCalROC *rocK2=k2FXS->GetCalROC(sector);
+ if ( rocK2 ) k2->SetCalROC(rocK2,sector);
+ }
+ if (k3FXS) {
+ AliTPCCalROC *rocK3=k3FXS->GetCalROC(sector);
+ if ( rocK3 ) k3->SetCalROC(rocK3,sector);
+ }
+ if (l1FXS) {
+ AliTPCCalROC *rocL1=l1FXS->GetCalROC(sector);
+ if ( rocL1 ) l1->SetCalROC(rocL1,sector);
+ }
+ if (l2FXS) {
+ AliTPCCalROC *rocL2=l2FXS->GetCalROC(sector);
+ if ( rocL2 ) l2->SetCalROC(rocL2,sector);
+ }
+ if (l3FXS) {
+ AliTPCCalROC *rocL3=l3FXS->GetCalROC(sector);
+ if ( rocL3 ) l3->SetCalROC(rocL3,sector);
+ }
+ }
+ if (mapRCUconfigFXS) {
+ Int_t mapEntries = mapRCUconfigFXS->GetEntries();
+ TObjString* keyFXS;
+ TVectorF* vecFXS;
+ TVectorF* vec; // nSectors = 72 (total number of inner/outer sectors)
+ for (Int_t i=0; i<mapEntries; ++i) {
+ keyFXS=(TObjString*)mapFXSiter->Next();
+ vecFXS=(TVectorF*)mapRCUconfigFXS->GetValue(keyFXS);
+ vec=(TVectorF*)mapRCUconfig->GetValue(keyFXS);
+ if (!vec) {
+ vec = new TVectorF(3*nSectors);
+ *vec = -1;
+ mapRCUconfig->Add(keyFXS,vec);
+ }
+ if (vec->GetNoElements() != 3*nSectors ) {
+ vec->ResizeTo(3*nSectors);
+ }
+ if (id==0) { // A side
+ vec->SetSub(0,vecFXS->GetSub(0,nSectors/2-1));
+ vec->SetSub(nSectors,vecFXS->GetSub(nSectors,2*nSectors-1));
+ } else { // C side
+ vec->SetSub(nSectors/2,vecFXS->GetSub(nSectors/2,nSectors-1));
+ vec->SetSub(2*nSectors,vecFXS->GetSub(2*nSectors,3*nSectors-1));
+ }
+ }
}
delete altroFXS;
f->Close();
++index;
} // while(list)
} else {
- Log ("Error: no entries in input file list!");
+ Log ("Error: no entries in AltroConfig file list!");
result = 1;
}
metaData.SetAliRootVersion(ALIROOT_SVN_BRANCH);
metaData.SetComment("Preprocessor AliTPC data base entries.");
- Bool_t storeOK = Store("Calib", "AltroConfig", altroObjects, &metaData, 0, kTRUE);
+ Bool_t storeOK = Store("Calib", "AltroConfig", altroObjects, &metaData, 0, kFALSE);
if ( !storeOK ) ++result;
}
+ altroObjects->Delete();
+ delete altroObjects;
+
return result;
}