/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Id$ */ //------------------------------------------------------------------------- // Class AliGRPPreprocessor // Global Run Parameters (GRP) preprocessor // Origin: Panos Christakoglou, UOA-CERN, Panos.Christakoglou@cern.ch // Modified: Ernesto.Lopez.Torres@cern.ch CEADEN-CERN // Modified: Chiara.Zampolli@cern.ch CERN //------------------------------------------------------------------------- #include #include #include #include #include #include #include #include #include "AliGRPPreprocessor.h" #include "AliGRPObject.h" #include "AliDCSSensor.h" #include "AliSplineFit.h" #include "AliDCSSensorArray.h" #include "AliRawEventHeaderVersions.h" #include "AliTriggerConfiguration.h" #include "AliTriggerRunScalers.h" #include "AliCDBMetaData.h" #include "AliLog.h" class AliDCSValue; class AliShuttleInterface; // needed for ReceivePromptRecoParameters #include #include #include #include #include #include #include #include const Double_t kFitFraction = -1.; // Fraction of DCS sensor fits required ClassImp(AliGRPPreprocessor) //_______________________________________________________________ const Int_t AliGRPPreprocessor::fgknDAQLbPar = 8; // num parameters in the logbook for PHYSICS runs, when beamType from DAQ logbook == NULL const Int_t AliGRPPreprocessor::fgknDAQLbParReduced = 7; // num parameters in the logbook for the other cases const Int_t AliGRPPreprocessor::fgknDCSDP = 51; // number of dcs dps const Int_t AliGRPPreprocessor::fgknDCSDPHallProbes = 40; // number of dcs dps const char* AliGRPPreprocessor::fgkDCSDataPoints[AliGRPPreprocessor::fgknDCSDP] = { "LHCState", // missing in DCS "L3Polarity", "DipolePolarity", "LHCLuminosity", // missing in DCS "BeamIntensity", // missing in DCS "L3Current", "DipoleCurrent", "L3_BSF17_H1", "L3_BSF17_H2", "L3_BSF17_H3", "L3_BSF17_Temperature", "L3_BSF4_H1", "L3_BSF4_H2", "L3_BSF4_H3", "L3_BSF4_Temperature", "L3_BKF17_H1", "L3_BKF17_H2", "L3_BKF17_H3", "L3_BKF17_Temperature", "L3_BKF4_H1", "L3_BKF4_H2", "L3_BKF4_H3", "L3_BKF4_Temperature", "L3_BSF13_H1", "L3_BSF13_H2", "L3_BSF13_H3", "L3_BSF13_Temperature", "L3_BSF8_H1", "L3_BSF8_H2", "L3_BSF8_H3", "L3_BSF8_Temperature", "L3_BKF13_H1", "L3_BKF13_H2", "L3_BKF13_H3", "L3_BKF13_Temperature", "L3_BKF8_H1", "L3_BKF8_H2", "L3_BKF8_H3", "L3_BKF8_Temperature", "Dipole_Inside_H1", "Dipole_Inside_H2", "Dipole_Inside_H3", "Dipole_Inside_Temperature", "Dipole_Outside_H1", "Dipole_Outside_H2", "Dipole_Outside_H3", "Dipole_Outside_Temperature", "CavernTemperature", "CavernAtmosPressure", "SurfaceAtmosPressure", "CavernAtmosPressure2" }; const char* AliGRPPreprocessor::fgkDCSDataPointsHallProbes[AliGRPPreprocessor::fgknDCSDPHallProbes] = { "L3_BSF17_H1", "L3_BSF17_H2", "L3_BSF17_H3", "L3_BSF17_Temperature", "L3_BSF4_H1", "L3_BSF4_H2", "L3_BSF4_H3", "L3_BSF4_Temperature", "L3_BKF17_H1", "L3_BKF17_H2", "L3_BKF17_H3", "L3_BKF17_Temperature", "L3_BKF4_H1", "L3_BKF4_H2", "L3_BKF4_H3", "L3_BKF4_Temperature", "L3_BSF13_H1", "L3_BSF13_H2", "L3_BSF13_H3", "L3_BSF13_Temperature", "L3_BSF8_H1", "L3_BSF8_H2", "L3_BSF8_H3", "L3_BSF8_Temperature", "L3_BKF13_H1", "L3_BKF13_H2", "L3_BKF13_H3", "L3_BKF13_Temperature", "L3_BKF8_H1", "L3_BKF8_H2", "L3_BKF8_H3", "L3_BKF8_Temperature", "Dipole_Inside_H1", "Dipole_Inside_H2", "Dipole_Inside_H3", "Dipole_Inside_Temperature", "Dipole_Outside_H1", "Dipole_Outside_H2", "Dipole_Outside_H3", "Dipole_Outside_Temperature" }; const Short_t kSensors = 48; // start index position of sensor in DCS DPs const Short_t kNumSensors = 3; // Number of sensors in DCS DPs (CavernAtmosPressure, SurfaceAtmosPressure, CavernAtmosPressure2) const char* AliGRPPreprocessor::fgkLHCState[20] = { "P", "PREPARE", "J", "PREINJECTION", "I", "INJECTION", "F", "FILLING", "A", "ADJUST", "U", "UNSTABLE BEAMS", "S", "STABLE BEAMS", "D", "BEAM DUMP", "R", "RECOVER", "C", "PRECYCLE" }; const char* kppError[] = { "", "(DAQ logbook ERROR)", "(DAQ FXS ERROR)", "(Trigger Scalers not found in DCS FXS - ERROR)", "(DCS data points ERROR)", "(Trigger Configuration ERROR)", "(DAQ logbook ERROR determining partition of the run)", "(CTP timing ERROR)" }; //_______________________________________________________________ AliGRPPreprocessor::AliGRPPreprocessor(AliShuttleInterface* shuttle): AliPreprocessor("GRP",shuttle), fPressure(0), fmaxFloat(0), fminFloat(0),fmaxDouble(0), fminDouble(0), fmaxInt(0), fminInt(0), fmaxUInt(0), fminUInt(0),fdaqStartEndTimeOk(kTRUE),ffailedDPs(new TObjArray(fgknDCSDP)) { // constructor - shuttle must be instantiated! AddRunType("COSMIC"); AddRunType("LASER"); AddRunType("PHYSICS"); AddRunType("CALIBRATION_BC"); AddRunType("CALIBRATION_CENTRAL"); AddRunType("CALIBRATION_EMD"); AddRunType("CALIBRATION_MB"); AddRunType("CALIBRATION_SEMICENTRAL"); AddRunType("CALIBRATION"); AddRunType("PEDESTAL"); AddRunType("STANDALONE"); AddRunType("GAIN"); AddRunType("NOISE"); AddRunType("PULSER"); AddRunType("STANDALONE_PULSER"); AddRunType("STANDALONE_BC"); fmaxFloat = FLT_MAX; fminFloat = -FLT_MAX; fmaxDouble = DBL_MAX; fminDouble = -DBL_MAX; fmaxInt = kMaxInt; fminInt = kMinInt; fmaxUInt = kMaxUInt; fminUInt = 0; AliInfo(Form("Max allowed float = %6.5e",fmaxFloat)); AliInfo(Form("Min allowed float = %6.5e",fminFloat)); AliInfo(Form("Max allowed double = %6.5e",fmaxDouble)); AliInfo(Form("Min allowed double = %6.5e",fminDouble)); AliInfo(Form("Max allowed integer = %d",fmaxInt)); AliInfo(Form("Min allowed integer = %d",fminInt)); AliInfo(Form("Max allowed unsigned integer = %u",(Int_t)fmaxUInt)); AliInfo(Form("Min allowed unsigned integer = %u",(Int_t)fminUInt)); ffailedDPs->SetOwner(kTRUE); } //_______________________________________________________________ AliGRPPreprocessor::~AliGRPPreprocessor() { //destructor delete fPressure; delete ffailedDPs; } //_______________________________________________________________ void AliGRPPreprocessor::Initialize(Int_t run, UInt_t startTime, UInt_t endTime) { // Initialize preprocessor AliPreprocessor::Initialize(run, startTime, endTime); AliInfo("Initialization of the GRP preprocessor."); AliInfo(Form("Start Time DCS = %d",GetStartTimeDCSQuery())); AliInfo(Form("End Time DCS = %d",GetEndTimeDCSQuery())); TClonesArray * array = new TClonesArray("AliDCSSensor",kNumSensors); for(Int_t j = 0; j < kNumSensors; j++) { AliDCSSensor * sens = new ((*array)[j])AliDCSSensor; sens->SetStringID(fgkDCSDataPoints[j+kSensors]); } AliInfo(Form("Pressure Entries: %d",array->GetEntries())); fPressure = new AliDCSSensorArray(GetStartTimeDCSQuery(), GetEndTimeDCSQuery(), array); for (Int_t iDP=0; iDP < fgknDCSDP; iDP++){ TObjString* dp = new TObjString(fgkDCSDataPoints[iDP]); ffailedDPs->AddAt(dp,iDP); } } //_______________________________________________________________ UInt_t AliGRPPreprocessor::Process(TMap* valueMap) { // process data retrieved by the Shuttle // retrieving "partition" and "detector" fields from DAQ logbook to // determine the partition in which the run was taken // the partition is used to decide how to react in case of errors for CTP TString partition = (TString)GetRunParameter("partition"); TString detector = (TString)GetRunParameter("detector"); AliGRPObject *grpobj = new AliGRPObject(); // object to store data //=================// // DAQ logbook // //=================// UInt_t error = 0; Int_t iDaqLB = ProcessDaqLB(grpobj); TString runType = (TString)GetRunType(); TString beamType = (TString)GetRunParameter("beamType"); //if((runType == "PHYSICS" && iDaqLB == fgknDAQLbPar && beamType!="Cosmics") || (runType == "PHYSICS" && iDaqLB == fgknDAQLbParReduced && beamType=="Cosmics") || (runType != "PHYSICS" && iDaqLB == fgknDAQLbParReduced)) { if((runType == "PHYSICS" && iDaqLB == fgknDAQLbPar && !beamType.IsNull()) || (runType == "PHYSICS" && iDaqLB == fgknDAQLbParReduced && beamType.IsNull()) || (runType != "PHYSICS" && iDaqLB == fgknDAQLbParReduced)) { Log(Form("DAQ Logbook, successful!")); } else { Log(Form("DAQ Logbook, could not get all expected entries!!!")); error |= 1; } //=================// // DAQ FXS // //=================// UInt_t iDaqFxs = ProcessDaqFxs(); if( iDaqFxs == 0 ) { Log(Form("DAQ FXS, successful!")); } else { Log(Form("DAQ FXS, could not store run raw tag file!!!")); error |= 2; } //=================// // DCS FXS // //=================// UInt_t iDcsFxs = ProcessDcsFxs(partition, detector); if( iDcsFxs == 0 ) { Log(Form("DCS FXS, successful!")); } else if (iDcsFxs ==1) { Log(Form("DCS FXS, Could not store CTP scalers!!!")); error |= 4; } else{ Log(Form("Incorrect field in DAQ logbook for partition = %s and detector = %s, going into error without CTP scalers...",partition.Data(),detector.Data())); error |= 32; } //=================// // DCS data points // //=================// Log(Form("Starting DCS Query at %d and finishing at %d",GetStartTimeDCSQuery(),GetEndTimeDCSQuery())); Int_t entries = ProcessDcsDPs( valueMap, grpobj ); Log(Form("entries found = %d (should be %d)",entries, fgknDCSDP-4)); if (fdaqStartEndTimeOk){ if( entries < fgknDCSDP-4 ) { // FIXME (!= ) LHState, LHCLuminosity, BeamIntensity, L3_BSF4_H3 are not working yet... Log(Form("Problem with the DCS data points!!! Only %d/%d entries found",entries,fgknDCSDP-4)); Log(Form("The DPs giving problems were:")); for (Int_t iDP = 0; iDP < fgknDCSDP; iDP++){ TObjString *dpString = (TObjString*)ffailedDPs->At(iDP); if (dpString){ TString name = dpString->String(); if (name != "LHCState" && name != "LHCLuminosity" && name != "BeamIntensity" && name != "L3_BSF4_H3"){ Log(Form("******** %s ******** not present, but foreseen --> causing an ERROR",name.Data())); } else { Log(Form(" %s is not present, but was not generating any error since it is not ready in DCS - check the other DPs in this list!",name.Data())); } } } error |= 8; } else Log(Form("DCS data points, successful!")); } else Log(Form("Statistical values for DCS DPs could not be computed due to missing DAQ_time_start and DAQ_time_end fields in DAQ logbook")); //=======================// // Trigger Configuration // //=======================// const char * triggerConf = GetTriggerConfiguration(); if (partition.IsNull() && !detector.IsNull()){ // standalone partition Log("STANDALONE partition for current run, using Trigger Configuration dummy value"); AliCDBEntry *cdbEntry = GetFromOCDB("CTP","DummyConfig"); if (!cdbEntry) { Log(Form("No dummy CTP configuration entry found, going into error...")); error |= 16; } else{ AliTriggerConfiguration *runcfg = (AliTriggerConfiguration*)cdbEntry->GetObject(); if (!runcfg){ Log(Form("dummy CTP config not found in OCDB entry, going into error...")); error |= 16; } else { TString titleCTPcfg = Form("CTP cfg for run %i from Dummy entry in OCDB",fRun); runcfg->SetTitle(titleCTPcfg); AliCDBMetaData metaData; metaData.SetResponsible("Roman Lietava"); metaData.SetComment("CTP run configuration from dummy entry in OCDB"); if (!Store("CTP","Config", runcfg, &metaData, 0, 0)) { Log("Unable to store the dummy CTP run configuration object to OCDB!"); error |= 16; } } } } else if (!partition.IsNull() && detector.IsNull()){ // global partition Log("GLOBAL partition for current run, using Trigger Configuration from DAQ Logbook"); if (triggerConf!= NULL) { Log("Found trigger configuration in DAQ logbook"); AliTriggerConfiguration *runcfg = AliTriggerConfiguration::LoadConfigurationFromString(triggerConf); if (!runcfg) { Log("Bad CTP run configuration file from DAQ logbook! The corresponding CDB entry will not be filled!"); error |= 16; } else { TString titleCTPcfg = Form("CTP cfg for run %i from DAQ",fRun); runcfg->SetTitle(titleCTPcfg); AliCDBMetaData metaData; metaData.SetBeamPeriod(0); metaData.SetResponsible("Roman Lietava"); metaData.SetComment("CTP run configuration from DAQ logbook"); if (!Store("CTP","Config", runcfg, &metaData, 0, 0)) { Log("Unable to store the CTP run configuration object to OCDB!"); error |= 16; } } } else { Log("Trigger configuration NULL in DAQ logbook"); error |= 16; } } else { Log(Form("Incorrect field in DAQ logbook for partition = %s and detector = %s, going into error without trigger configuration...",partition.Data(),detector.Data())); error |= 32; } //===========================// // Trigger Timing Parameters // //===========================// const char * triggerCTPtiming = GetCTPTimeParams(); if (partition.IsNull() && !detector.IsNull()){ // standalone partition Log("STANDALONE partition for current run, using CTP timing params dummy value"); AliCDBEntry *cdbEntry = GetFromOCDB("CTP","DummyCTPtime"); if (!cdbEntry) { Log(Form("No dummy CTP timing parameters entry found, going into error...")); error |= 64; } else{ AliCTPTimeParams *runCTPtiming = (AliCTPTimeParams*)cdbEntry->GetObject(); if (!runCTPtiming){ Log(Form("dummy CTP timing parameters not found in OCDB entry, going into error...")); error |= 64; } else { TString titleCTPtiming = Form("CTP timing params for run %i from Dummy entry in OCDB",fRun); runCTPtiming->SetTitle(titleCTPtiming); AliCDBMetaData metadata; metadata.SetResponsible("Roman Lietava"); metadata.SetComment("CTP run timing parameters from dummy entry in OCDB"); if (!Store("CTP","CTPtiming", runCTPtiming, &metadata, 0, 0)) { Log("Unable to store the dummy CTP timing params object to OCDB!"); error |= 64; } } } } else if (!partition.IsNull() && detector.IsNull()){ // global partition Log("GLOBAL partition for current run, using Trigger Timing Parameters from DAQ Logbook"); if (triggerCTPtiming!= NULL) { Log("Found trigger timing params in DAQ logbook"); AliDebug(2,Form("%s",triggerCTPtiming)); AliCTPTimeParams *runCTPtiming = AliCTPTimeParams::LoadCTPTimeParamsFromString(triggerCTPtiming); if (!runCTPtiming) { Log("Bad CTP trigger timing params file from DAQ logbook! The corresponding CDB entry will not be filled!"); error |= 64; } else { TString titleCTPtiming = Form("CTP timing params for run %i from DAQ",fRun); runCTPtiming->SetTitle(titleCTPtiming); AliCDBMetaData metadata; metadata.SetBeamPeriod(0); metadata.SetResponsible("Roman Lietava"); metadata.SetComment("CTP timing params from DAQ logbook"); if (!Store("CTP","CTPtiming", runCTPtiming, &metadata, 0, 0)) { Log("Unable to store the CTP timing params object to OCDB!"); error |= 64; } } } else { Log("Trigger timing params NULL in DAQ logbook"); error |= 64; } } else { Log(Form("Incorrect field in DAQ logbook for partition = %s and detector = %s, going into error without trigger timing parameters...",partition.Data(),detector.Data())); error |= 32; } // storing AliGRPObject in OCDB AliCDBMetaData md; md.SetResponsible("Chiara Zampolli"); md.SetComment("Output parameters from the GRP preprocessor."); Bool_t result = kTRUE; result = Store("GRP", "Data", grpobj, &md); delete grpobj; if (result && !error ) { Log("GRP Preprocessor Success"); return 0; } else { Log( Form("GRP Preprocessor FAILS!!! %s%s%s%s%s%s%s", kppError[(error&1)?1:0], kppError[(error&2)?2:0], kppError[(error&4)?3:0], kppError[(error&8)?4:0], kppError[(error&16)?5:0], kppError[(error&32)?6:0], kppError[(error&64)?7:0] )); return error; } } //_______________________________________________________________ Int_t AliGRPPreprocessor::ProcessDaqLB(AliGRPObject* grpObj) { //Getting the DAQ lb information time_t timeStart = (time_t)(((TString)GetRunParameter("DAQ_time_start")).Atoi()); time_t timeEnd = (time_t)(((TString)GetRunParameter("DAQ_time_end")).Atoi()); Float_t beamEnergy = (Float_t)(((TString)GetRunParameter("beamEnergy")).Atof()); TString beamType = (TString)GetRunParameter("beamType"); Char_t numberOfDetectors = (Char_t)(((TString)GetRunParameter("numberOfDetectors")).Atoi()); UInt_t detectorMask = (UInt_t)(((TString)GetRunParameter("detectorMask")).Atoi()); TString lhcPeriod = (TString)GetRunParameter("LHCperiod"); TString runType = (TString)GetRunType(); UInt_t nparameter = 0; if (timeStart != 0){ grpObj->SetTimeStart(timeStart); Log(Form("Start time for run %d: %d",fRun, (Int_t)timeStart)); nparameter++; } else { Log(Form("Start time not put in logbook, setting to invalid in GRP entry!")); } if (timeEnd != 0){ grpObj->SetTimeEnd(timeEnd); Log(Form("End time for run %d: %i",fRun, (Int_t)timeEnd)); nparameter++; } else { Log(Form("End time not put in logbook, setting to invalid in GRP entry!")); } if (beamEnergy != 0){ grpObj->SetBeamEnergy(beamEnergy); Log(Form("Beam Energy for run %d: %f",fRun, beamEnergy)); //if ((runType == "PHYSICS" && beamType!="Cosmics")){ if ((runType == "PHYSICS" && !beamType.IsNull())){ // if beamType is NOT Null, then we're not in a Cosmics run nparameter++; // increasing nparameters only in case we're in PHYSICS runs with beamType != NULL } } else { //if ((runType == "PHYSICS" && beamType!="Cosmics")){ if ((runType == "PHYSICS" && !beamType.IsNull())){ // if beamType is NOT Null, then we're not in a Cosmics run Log(Form("Beam Energy not put in logbook, setting to invalid in GRP entry, and producing an error (beamType = %s, runType = %s)",beamType.Data(), runType.Data())); } else{ Log(Form("Beam Energy not put in logbook, setting to invalid in GRP entry, but not producing any error (beamType = NULL, runType = %s)", runType.Data())); } } if (beamType.Length() != 0){ grpObj->SetBeamType(beamType); Log(Form("Beam Type for run %d: %s",fRun, beamType.Data())); nparameter++; } else { Log(Form("Beam Type not put in logbook, setting to invalid in GRP entry! Not producing any error, considering this as a Cosmics run")); nparameter++; } if (numberOfDetectors != 0){ grpObj->SetNumberOfDetectors(numberOfDetectors); Log(Form("Number Of Detectors for run %d: %d",fRun, (Int_t)numberOfDetectors)); nparameter++; } else { Log(Form("Number Of Detectors not put in logbook, setting to invalid in GRP entry!")); } if (detectorMask != 0){ grpObj->SetDetectorMask(detectorMask); Log(Form("Detector Mask for run %d: %d",fRun, detectorMask)); nparameter++; } else { Log(Form("Detector Mask not put in logbook, setting to invalid in GRP entry!")); } if (lhcPeriod.Length() != 0) { grpObj->SetLHCPeriod(lhcPeriod); Log(Form("LHC period (DAQ) for run %d: %s",fRun, lhcPeriod.Data())); nparameter++; } else { Log(Form("LHCperiod not put in logbook, setting to invalid in GRP entry!")); } if (runType.Length() != 0) { grpObj->SetRunType(runType); Log(Form("Run Type (DAQ) for run %d: %s",fRun, runType.Data())); nparameter++; } else { Log(Form("Run Type not put in logbook, setting to invalid in GRP entry!")); } return nparameter; } //_______________________________________________________________ UInt_t AliGRPPreprocessor::ProcessDaqFxs() { //======DAQ FXS======// AliRawEventHeaderV3_9::Class()->IgnoreTObjectStreamer(); // to avoid trying reading TObject store in AliRawEventHeaderV3_9 - temporary fix TList* list = GetFileSources(kDAQ); if (!list) { Log("No raw data tag list: connection problems with DAQ FXS logbook!"); return 1; } if (list->GetEntries() == 0) { Log("no raw data tags in this run: nothing to merge!"); delete list; list=0; return 0; } TChain *fRawTagChain = new TChain("T"); Int_t nFiles=0; TIterator* iter = list->MakeIterator(); TObject* obj = 0; while ((obj = iter->Next())) { TObjString* objStr = dynamic_cast (obj); if (objStr) { Log(Form("Found source %s", objStr->String().Data())); TList* list2 = GetFileIDs(kDAQ, objStr->String()); if (!list2) { Log("No list with ids from DAQ was found: connection problems with DAQ FXS logbook!"); delete fRawTagChain; fRawTagChain=0; return 1; } Log(Form("Number of ids: %d",list2->GetEntries())); for(Int_t i = 0; i < list2->GetEntries(); i++) { TObjString *idStr = (TObjString *)list2->At(i); TString fileName = GetFile(kDAQ,idStr->String().Data(),objStr->String().Data()); if (fileName.Length() > 0) { Log(Form("Adding file in the chain: %s",fileName.Data())); fRawTagChain->Add(fileName.Data()); nFiles++; } else { Log(Form("Could not retrieve file with id %s from source %s: " "connection problems with DAQ FXS!", idStr->String().Data(), objStr->String().Data())); delete list; list=0; delete list2; list2=0; delete fRawTagChain; fRawTagChain=0; return 2; } } delete list2; } } TString fRawDataFileName = "GRP_Merged.tag.root"; Log(Form("Merging %d raw data tags into file: %s", nFiles, fRawDataFileName.Data())); if( fRawTagChain->Merge(fRawDataFileName) < 1 ) { Log("Error merging raw data files!!!"); return 3; } TString outputfile = Form("Run%d.Merged.RAW.tag.root", fRun); Bool_t result = StoreRunMetadataFile(fRawDataFileName.Data(),outputfile.Data()); if (!result) { Log("Problem storing raw data tags in local file!!!"); } else { Log("Raw data tags merged successfully!!"); } delete iter; delete list; delete fRawTagChain; fRawTagChain=0; if (result == kFALSE) { return 4; } return 0; } //_______________________________________________________________ UInt_t AliGRPPreprocessor::ProcessDcsFxs(TString partition, TString detector) { // processing the info // stored in the DCS FXS // coming from the trigger // Get the CTP counters information if (partition.IsNull() && !detector.IsNull()){ // standalone partition Log("STANDALONE partition for current run, using Trigger Scalers dummy value"); AliCDBEntry *cdbEntry = GetFromOCDB("CTP","DummyScalers"); if (!cdbEntry) { Log(Form("No dummy CTP scalers entry found, going into error...")); return 1; } else{ AliTriggerRunScalers *scalers = (AliTriggerRunScalers*)cdbEntry->GetObject(); if (!scalers){ Log(Form("CTP dummy scalers not found in OCDB entry, going into error...")); return 1; } else { AliCDBMetaData metaData; metaData.SetResponsible("Roman Lietava"); metaData.SetComment("CTP scalers from dummy entry in OCDB"); if (!Store("CTP","Scalers", scalers, &metaData, 0, 0)) { Log("Unable to store the dummy CTP scalers object to OCDB!"); return 1; } } } } else if (!partition.IsNull() && detector.IsNull()){ // global partition Log("GLOBAL partition for current run, using CTP scalers from DCS FXS"); TString countersfile = GetFile(kDCS, "CTP_xcounters",""); if (countersfile.IsNull()) { Log("No CTP counters files has been found: empty source!"); return 1; } else { Log(Form("File with Id CTP_xcounters found in DCS FXS! Copied to %s",countersfile.Data())); AliTriggerRunScalers *scalers = AliTriggerRunScalers::ReadScalers(countersfile); if (!scalers) { Log("Bad CTP counters file! The corresponding CDB entry will not be filled!"); return 1; } else { AliCDBMetaData metaData; metaData.SetBeamPeriod(0); metaData.SetResponsible("Roman Lietava"); metaData.SetComment("CTP scalers"); if (!Store("CTP","Scalers", scalers, &metaData, 0, 0)) { Log("Unable to store the CTP scalers object to OCDB!"); return 1; } } } } else{ Log(Form("Incorrect field in DAQ logbook for partition = %s and detector = %s, going into error...",partition.Data(),detector.Data())); return 2; } return 0; } //_______________________________________________________________ Int_t AliGRPPreprocessor::ProcessDcsDPs(TMap* valueMap, AliGRPObject* grpObj) { // // processing DCS DPs // Int_t entries = 0; // counting the entries that are in the DCS DB, not taking care whether they have values or not Int_t nLHCEntries = 0; Int_t nL3Entries = 0; Int_t nDipoleEntries = 0; Int_t nEnvEntries = 0; Int_t nHallProbesEntries = 0; nLHCEntries = ProcessLHCDPs(valueMap, grpObj); nL3Entries = ProcessL3DPs(valueMap, grpObj); nDipoleEntries = ProcessDipoleDPs(valueMap, grpObj); nEnvEntries = ProcessEnvDPs(valueMap, grpObj); nHallProbesEntries = ProcessHPDPs(valueMap, grpObj); grpObj->SetPolarityConventionLHC(); // after the dipole cables swap we comply with LHC convention Log(Form("nLHCEntries = %d, L3Entries = %d, nDipoleEntries =%d, nEnvEntries = %d, nHallProbesEntries = %d", nLHCEntries, nL3Entries, nDipoleEntries, nEnvEntries, nHallProbesEntries)); entries = nLHCEntries + nL3Entries + nDipoleEntries + nEnvEntries + nHallProbesEntries; return entries; } //_______________________________________________________________ Int_t AliGRPPreprocessor::ProcessL3DPs(const TMap* valueMap, AliGRPObject* grpObj) { // processing DPs // related to // L3 info Int_t nL3Entries = 0; TObjArray *array = 0x0; Int_t indexDP = -1; Bool_t isZero = kTRUE; // flag to monitor L3Current. If set to true, the magnet is OFF, and the polarity can change AliInfo(Form("==========L3Current===========")); Bool_t outOfRange = kFALSE; // flag to monitor if any value collected by DCS is out of range indexDP = kL3Current; array = (TObjArray *)valueMap->GetValue(fgkDCSDataPoints[indexDP]); if(!array) { Log(Form("%s not found in the map!!!",fgkDCSDataPoints[indexDP])); } else { if (array->GetEntries() == 0){ AliError(Form("No entries found in array! setting %s to invalid...",fgkDCSDataPoints[indexDP])); } else { Float_t *floatDCS = ProcessFloatAllMagnet(array, indexDP, isZero); if (floatDCS != NULL){ grpObj->SetL3Current(floatDCS); } else{ outOfRange = kTRUE; } if (floatDCS){ delete[] floatDCS; floatDCS = 0x0; } } if (!outOfRange) { nL3Entries++; ffailedDPs->RemoveAt(indexDP); } } if (array) array = 0x0; AliInfo(Form("==========L3Polarity===========")); indexDP = kL3Polarity; array = (TObjArray *)valueMap->GetValue(fgkDCSDataPoints[indexDP]); if(!array) { Log(Form("%s not found in the map!!!",fgkDCSDataPoints[indexDP])); } else { if (array->GetEntries() == 0){ AliError(Form("No entries found in array! setting %s Polarity to invalid...",fgkDCSDataPoints[indexDP])); } else { Bool_t change = kFALSE; Char_t charDCS = ProcessBool(array,change); if (change == kFALSE){ grpObj->SetL3Polarity(charDCS); AliInfo(Form("%s set to %d",fgkDCSDataPoints[indexDP],(Int_t)(grpObj->GetL3Polarity()))); ffailedDPs->RemoveAt(indexDP); nL3Entries++; } else if (isZero){ AliInfo(Form("%s set to invalid, but magnet was OFF (according to the current), DP not considered wrong",fgkDCSDataPoints[indexDP])); ffailedDPs->RemoveAt(indexDP); nL3Entries++; } else { AliError(Form("%s value changed within the run, while the magnet was ON (according to the current), setting it to invalid and considering the DP as wrong",fgkDCSDataPoints[indexDP])); } } } return nL3Entries; } //_______________________________________________________________ Int_t AliGRPPreprocessor::ProcessDipoleDPs(const TMap* valueMap, AliGRPObject* grpObj) { // processing DPs // related to // the Dipole info Int_t nDipoleEntries = 0; TObjArray *array = 0x0; Int_t indexDP = -1; Bool_t isZero = kTRUE; // flag to monitor L3Current. If set to true, the magnet is OFF, and the polarity can change AliInfo(Form("==========DipoleCurrent===========")); Bool_t outOfRange = kFALSE; // flag to monitor if any value collected by DCS is out of range indexDP = kDipoleCurrent; array = (TObjArray *)valueMap->GetValue(fgkDCSDataPoints[indexDP]); if(!array) { Log(Form("%s not found in the map!!!",fgkDCSDataPoints[indexDP])); } else { if (array->GetEntries() == 0){ AliError(Form("No entries found in array! setting %s to invalid...",fgkDCSDataPoints[indexDP])); } else { Float_t *floatDCS = ProcessFloatAllMagnet(array, indexDP, isZero); if (floatDCS != NULL){ grpObj->SetDipoleCurrent(floatDCS); } else{ outOfRange=kTRUE; } if (floatDCS){ delete[] floatDCS; floatDCS = 0x0; } } if (!outOfRange) { nDipoleEntries++; ffailedDPs->RemoveAt(indexDP); } } if (array) array = 0x0; AliInfo(Form("==========DipolePolarity===========")); indexDP = kDipolePolarity; array = (TObjArray *)valueMap->GetValue(fgkDCSDataPoints[indexDP]); if(!array) { Log(Form("%s not found in the map!!!",fgkDCSDataPoints[indexDP])); } else { if (array->GetEntries() == 0){ AliError(Form("No entries found in array! setting %s to invalid...",fgkDCSDataPoints[indexDP])); } else { Bool_t change = kFALSE; Char_t charDCS = ProcessBool(array,change); if (!change){ grpObj->SetDipolePolarity(charDCS); AliInfo(Form("%s set to %d",fgkDCSDataPoints[indexDP],(Int_t)(grpObj->GetDipolePolarity()))); ffailedDPs->RemoveAt(indexDP); nDipoleEntries++; } else if (isZero){ AliInfo(Form("%s set to invalid, but magnet was OFF (according to the current), DP not considered wrong",fgkDCSDataPoints[indexDP])); ffailedDPs->RemoveAt(indexDP); nDipoleEntries++; } else{ AliError(Form("%s value changed within the run while the magnet was ON (according to the current), setting it to invalid and considering the DP as wrong", fgkDCSDataPoints[indexDP])); } } } return nDipoleEntries; } //_______________________________________________________________ Int_t AliGRPPreprocessor::ProcessEnvDPs(TMap* valueMap, AliGRPObject* grpObj) { // processing DPs // related to // evironment conditions (temperature, pressure) info Int_t nEnvEntries = 0; TObjArray *array = 0x0; Int_t indexDP = -1; AliInfo(Form("==========CavernTemperature===========")); Bool_t outOfRange = kFALSE; // flag to monitor if any value collected by DCS is out of range indexDP = kCavernTemperature; array = (TObjArray *)valueMap->GetValue(fgkDCSDataPoints[indexDP]); if(!array) { Log(Form("%s not found in the map!!!",fgkDCSDataPoints[indexDP])); } else { if (array->GetEntries() == 0){ AliError(Form("No entries found in array! setting %s to invalid...",fgkDCSDataPoints[indexDP])); } else { Float_t *floatDCS = ProcessFloatAll(array); if (floatDCS != NULL){ grpObj->SetCavernTemperature(floatDCS); } else{ outOfRange = kTRUE; } if (floatDCS){ delete[] floatDCS; floatDCS = 0x0; } } if (!outOfRange) { ffailedDPs->RemoveAt(indexDP); nEnvEntries++; } } if (array) array = 0x0; AliInfo(Form("========== AtmosPressures (Cavern + Surface + Cavern2) ===========")); AliDCSSensorArray *dcsSensorArray = GetPressureMap(valueMap); //dcsSensorArray->Print(); if( fPressure->NumFits()NumFits())); AliInfo(Form("==========CavernAtmosPressure===========")); indexDP = kCavernAtmosPressure; AliDCSSensor* sensorCavernP2 = dcsSensorArray->GetSensor(fgkDCSDataPoints[indexDP]); TGraph* graph = sensorCavernP2->GetGraph(); AliDebug(3,Form("index = %d",indexDP)); AliDebug(3,Form("name = %s",fgkDCSDataPoints[indexDP])); AliDebug(2,Form("graph = %p",graph)); AliDebug(3,Form("sensorCavernP2 = %p", sensorCavernP2)); if(sensorCavernP2->GetFit() || graph) { if (sensorCavernP2->GetFit()){ Log(Form("Fit for sensor %s found",fgkDCSDataPoints[indexDP])); } else { Log(Form("Fit for sensor %s not found, but the graph is there - NOT going into error",fgkDCSDataPoints[indexDP])); } grpObj->SetCavernAtmosPressure(sensorCavernP2); ffailedDPs->RemoveAt(indexDP); nEnvEntries++; } //if (sensorP2) delete sensorP2; else { Log(Form("ERROR!!! Neither graph nor fit found for sensor %s - this will not increase the number of found DCS DPs and will cause an error", fgkDCSDataPoints[indexDP] )); } AliInfo(Form("==========SurfaceAtmosPressure===========")); indexDP = kSurfaceAtmosPressure; AliDCSSensor* sensorP2 = dcsSensorArray->GetSensor(fgkDCSDataPoints[indexDP]); graph = sensorP2->GetGraph(); AliDebug(3,Form("index = %d",indexDP)); AliDebug(3,Form("name = %s",fgkDCSDataPoints[indexDP])); AliDebug(2,Form("graph = %p",graph)); AliDebug(3,Form("sensorP2 = %p", sensorP2)); if(sensorP2->GetFit() || graph) { if (sensorP2->GetFit()){ Log(Form("Fit for sensor %s found",fgkDCSDataPoints[indexDP])); } else { Log(Form("Fit for sensor %s not found, but the graph is there - NOT going into error",fgkDCSDataPoints[indexDP])); } grpObj->SetSurfaceAtmosPressure(sensorP2); ffailedDPs->RemoveAt(indexDP); nEnvEntries++; } //if (sensorP2) delete sensorP2; else { Log(Form("ERROR!!! Neither graph nor fit found for sensor %s - this will not increase the number of found DCS DPs and will cause an error", fgkDCSDataPoints[indexDP] )); } AliInfo(Form("==========CavernAtmosPressure2===========")); indexDP = kCavernAtmosPressure2; AliDCSSensor* sensorCavernP22 = dcsSensorArray->GetSensor(fgkDCSDataPoints[indexDP]); graph = sensorCavernP22->GetGraph(); AliDebug(3,Form("index = %d",indexDP)); AliDebug(3,Form("name = %s",fgkDCSDataPoints[indexDP])); AliDebug(2,Form("graph = %p",graph)); AliDebug(3,Form("sensorCavernP2_2 = %p", sensorCavernP22)); if(sensorCavernP22->GetFit() || graph) { if (sensorCavernP22->GetFit()){ Log(Form("Fit for sensor %s found",fgkDCSDataPoints[indexDP])); } else { Log(Form("Fit for sensor %s not found, but the graph is there - NOT going into error",fgkDCSDataPoints[indexDP])); } grpObj->SetCavernAtmosPressure2(sensorCavernP22); ffailedDPs->RemoveAt(indexDP); nEnvEntries++; } //if (sensorP2) delete sensorP2; else { Log(Form("ERROR!!! Neither graph nor fit found for sensor %s - this will not increase the number of found DCS DPs and will cause an error", fgkDCSDataPoints[indexDP] )); } return nEnvEntries; } //_______________________________________________________________ Int_t AliGRPPreprocessor::ProcessHPDPs(const TMap* valueMap, AliGRPObject* grpObj) { // processing DPs // related to // Hall Probes info Int_t nHPEntries = 0; TObjArray *array = 0x0; Int_t indexDP = -1; Bool_t outOfRange; // flag to monitor if any value collected by DCS is out of range if (fgknDCSDPHallProbes != AliGRPObject::GetNumberOfHP()){ AliError(Form("Number of Hall probes expected in GRP Preprocessor (i.e. %d) different from number of Hall Probes foreseen in GRP object (i.e. %d). Looping on entries from GRP object anyway.", fgknDCSDPHallProbes, AliGRPObject::GetNumberOfHP())); } for (indexDP = 0; indexDP < AliGRPObject::GetNumberOfHP(); indexDP++){ outOfRange = kFALSE; // resetting outOfRange flag at each HP AliInfo(Form("==========%s===========",AliGRPObject::GetHPDP(indexDP))); array = (TObjArray *)valueMap->GetValue(AliGRPObject::GetHPDP(indexDP)); if(!array) { Log(Form("%s not found in the map!!!",AliGRPObject::GetHPDP(indexDP))); } else { if (array->GetEntries() == 0){ AliError(Form("No entries found in array! setting %s to invalid...",AliGRPObject::GetHPDP(indexDP))); } else { Float_t *floatDCS = ProcessFloatAll(array); if (floatDCS != NULL){ AliDebug(2,Form("value[0] = %f, value[1] = %f, value[2] = %f, value[3] = %f, value[4] = %f",floatDCS[0],floatDCS[1],floatDCS[2],floatDCS[3],floatDCS[4])); grpObj->SetHallProbes((AliGRPObject::DP_HallProbes)indexDP,floatDCS); for (Int_t kk = 0 ; kk< 5; kk++){ AliDebug(2,Form("HallProbe[%d][%d]=%f",indexDP,kk,grpObj->GetHallProbes((AliGRPObject::DP_HallProbes)indexDP,(AliGRPObject::Stats)kk))); } } else{ outOfRange = kTRUE; } if (floatDCS){ delete[] floatDCS; floatDCS = 0x0; } } if (!outOfRange) { ffailedDPs->RemoveAt(indexDP + 7); // 7 = shift in the complete list of DPs to get to the Hall Probes nHPEntries++; } } } Log(Form("Hall Probes = %d ", nHPEntries)); return nHPEntries; } //_______________________________________________________________ Int_t AliGRPPreprocessor::ProcessLHCDPs(const TMap* valueMap, AliGRPObject* grpObj) { // // processing of LHC related DCS DPs, i.e.: // LHCState // LHCLuminosity // BeamIntensity // Int_t nLHCEntries = 0; TObjArray *array = 0x0; Int_t indexDP = -1; AliInfo(Form("==========LHCState===========")); indexDP = kLHCState; array = (TObjArray *)valueMap->GetValue(fgkDCSDataPoints[indexDP]); if(!array) { Log(Form("%s not found in the map!!!",fgkDCSDataPoints[indexDP])); } else { if (array->GetEntries() == 0){ AliError(Form("No entries found in array! setting %s to invalid...",fgkDCSDataPoints[indexDP])); } else { TString stringDCS = ProcessChar(array); if (stringDCS.Length()!=0) { Bool_t found = kFALSE; for( Int_t i=0; i<20; i+=2 ) { if( stringDCS.CompareTo(fgkLHCState[i]) == 0 ) { stringDCS = fgkLHCState[i+1]; found = kTRUE; break; } } if (found){ Log(Form("<%s> for run %d: %s",fgkDCSDataPoints[indexDP],fRun, stringDCS.Data())); grpObj->SetLHCState(stringDCS); } else{ Log(Form("%s values found not valid!",fgkDCSDataPoints[indexDP])); grpObj->SetLHCState(AliGRPObject::GetInvalidString()); } } else { Log(Form("%s not valid (null length), string set as invalid!",fgkDCSDataPoints[indexDP])); grpObj->SetLHCState(AliGRPObject::GetInvalidString()); } } ffailedDPs->RemoveAt(indexDP); nLHCEntries++; } if (array) array = 0x0; AliInfo(Form("==========LHCLuminosity===========")); Bool_t outOfRange = kFALSE; // flag to monitor if any value collected by DCS is out of range indexDP = kLHCLuminosity; array = (TObjArray *)valueMap->GetValue(fgkDCSDataPoints[indexDP]); if(!array) { Log(Form("%s not found in the map!!!",fgkDCSDataPoints[indexDP])); } else { if (array->GetEntries() == 0){ AliError(Form("No entries found in array! setting %s and its Spline Fit to invalid...",fgkDCSDataPoints[indexDP])); } else { Float_t *floatDCS = ProcessFloatAll(array); if (floatDCS != NULL){ grpObj->SetLHCLuminosity(floatDCS); AliSplineFit* splfit = GetSplineFit(array,fgkDCSDataPoints[indexDP]); grpObj->SetLHCLuminositySplineFit(splfit); // delete splfit; } else { outOfRange = kTRUE; } if (floatDCS){ delete[] floatDCS; floatDCS = 0x0; } } if (!outOfRange) { ffailedDPs->RemoveAt(indexDP); nLHCEntries++; } } if (array) array = 0x0; AliInfo(Form("==========BeamIntensity===========")); if (outOfRange) outOfRange = kFALSE; // resetting outOfRange if needed indexDP = kBeamIntensity; array = (TObjArray *)valueMap->GetValue(fgkDCSDataPoints[indexDP]); if(!array) { Log(Form("%s not found in the map!!!",fgkDCSDataPoints[indexDP])); } else { if (array->GetEntries() == 0){ AliError(Form("No entries found in array! setting %s and its Spline Fit to invalid...",fgkDCSDataPoints[indexDP])); } else { Float_t *floatDCS = ProcessFloatAll(array); if (floatDCS != NULL){ grpObj->SetBeamIntensity(floatDCS); AliSplineFit* splfit1 = GetSplineFit(array,fgkDCSDataPoints[indexDP]); grpObj->SetBeamIntensitySplineFit(splfit1); //delete splfit; } else{ outOfRange = kTRUE; } if (floatDCS){ delete[] floatDCS; floatDCS = 0x0; } } if (!outOfRange) { nLHCEntries++; ffailedDPs->RemoveAt(indexDP); } } return nLHCEntries; } //_________________________________________________________________________ AliSplineFit* AliGRPPreprocessor::GetSplineFit(const TObjArray *array, const TString& stringID){ // // returning Spline Fit // Int_t entriesarray = array->GetEntries(); Float_t* value = new Float_t[entriesarray]; Float_t* time = new Float_t[entriesarray]; AliDCSValue* v = 0x0; for (Int_t iarray = 0; iarray < entriesarray; iarray++){ v = (AliDCSValue*)array->At(iarray); value[iarray] = v->GetFloat(); time[iarray] = v->GetTimeStamp(); AliDebug(2,Form("iarray = %d, value = %f, time = %f",iarray,value[iarray],time[iarray])); } TGraph* gr = new TGraph(entriesarray,value,time); if (!gr ) { AliWarning(Form("%s: no input graph to compute SplineFit",stringID.Data())); return NULL; } AliSplineFit *fit = new AliSplineFit(); fit->SetMinPoints(10); fit->InitKnots(gr,10,10,0.0); fit->SplineFit(2); fit->Cleanup(); if (!fit) { AliWarning(Form("%s: no fit performed",stringID.Data())); return NULL; } return fit; } //_________________________________________________________________________ TString AliGRPPreprocessor::ProcessChar(const TObjArray *array) { // // processing char // TString aDCSString=""; AliDCSValue *v = 0x0; for(Int_t iCount = 0; iCount < array->GetEntries(); iCount++) { v = (AliDCSValue *)array->At(iCount); if (((Int_t)(v->GetTimeStamp()) < (Int_t)GetStartTimeDCSQuery()) || ((Int_t)(v->GetTimeStamp()) > (Int_t)GetEndTimeDCSQuery())) { AliError(Form("DCS values for the parameter outside the queried interval")); continue; } if (iCount > 0) { if (aDCSString != v->GetChar()) AliError(Form("DCS values for the parameter changed from %s to %c within the queried interval", aDCSString.Data(), (Char_t)v->GetChar())); } aDCSString = (TString)v->GetChar(); // keeping always last value in the array } return aDCSString; } //__________________________________________________________________________________________________________________ Float_t* AliGRPPreprocessor::ProcessFloatAll(const TObjArray* array) { // // processing Float values using Mean, Median, Standard Deviation wrt Mean, Standar Deviation wrt Median // // parameters[0] = mean // parameters[1] = truncated mean (calculated excluding points outside +/- 3RMS from mean // parameters[2] = median // parameters[3] = standard deviation wrt mean // parameters[4] = standard deviation wrt median // TString timeStartString = (TString)GetRunParameter("DAQ_time_start"); TString timeEndString = (TString)GetRunParameter("DAQ_time_end"); if (timeStartString.IsNull() || timeStartString.IsNull()){ if (timeStartString.IsNull()){ AliError("DAQ_time_start not set in logbook! Setting statistical values for current DP to invalid"); } else if (timeStartString.IsNull()){ AliError("DAQ_time_end not set in logbook! Setting statistical values for current DP to invalid"); } fdaqStartEndTimeOk = kFALSE; return 0; } Int_t timeStart = (Int_t)(timeStartString.Atoi()); Int_t timeEnd = (Int_t)(timeEndString.Atoi()); Float_t* parameters = new Float_t[5]; Int_t iCounts = 0; Int_t iCountsRun = 0; Int_t nCounts = array->GetEntries(); Float_t valueBeforeSOR = 0; Float_t valueAfterEOR = 0; Int_t timestampBeforeSOR = -1; Int_t timestampAfterEOR = -1; Int_t ientrySOR = -1; Int_t ientryEOR = -1; Float_t* arrayValues = 0x0; Double_t* arrayWeights = 0x0; Bool_t truncMeanFlag = kTRUE; // flag to indicate whether Truncated Mean should be calculated or not Bool_t sdFlag = kTRUE; // flag to indicate whether SD (wrt Mean/Median) should be calculated or not for(Int_t i = 0; i < nCounts; i++) { AliDCSValue *v = (AliDCSValue *)array->At(i); if ((v->GetFloat() <= fminFloat) || (v->GetFloat() >= fmaxFloat)) { AliError(Form("Error! Float value found in DCS map at %d-th entry is OUT OF RANGE: value = %6.5e",i,v->GetFloat())); if (v->GetFloat() < fminFloat) AliInfo(Form("The value is smaller than %6.5e",fminFloat)); if (v->GetFloat() > fmaxFloat) AliInfo(Form("The value is greater than %6.5e",fmaxFloat)); return NULL; } if(((Int_t)(v->GetTimeStamp()) >= (Int_t)GetStartTimeDCSQuery()) &&((Int_t)(v->GetTimeStamp()) <= (Int_t)GetEndTimeDCSQuery())) { AliDebug(2,Form("%d-th entry = %f at timestamp %i",i,v->GetFloat(),v->GetTimeStamp())); iCounts += 1; // look for the last value before SOR and the first value before EOR if (((Int_t)(v->GetTimeStamp()) >= (Int_t)GetStartTimeDCSQuery()) && (Int_t)(v->GetTimeStamp()) < timeStart) { timestampBeforeSOR = (Int_t)(v->GetTimeStamp()); AliDebug(2,Form("timestamp of last value before SOR = %d, with DAQ_time_start = %d",timestampBeforeSOR,timeStart)); valueBeforeSOR = v->GetFloat(); } else if ((Int_t)(v->GetTimeStamp()) <= (Int_t)GetEndTimeDCSQuery() && (Int_t)(v->GetTimeStamp()) > timeEnd && timestampAfterEOR == -1){ timestampAfterEOR = (Int_t)(v->GetTimeStamp()); valueAfterEOR = v->GetFloat(); AliDebug(2,Form("timestamp of first value after EOR = %d, with DAQ_time_end = %d",timestampAfterEOR,timeEnd)); } // check if there are DPs between DAQ_time_start and DAQ_time_end if(((Int_t)(v->GetTimeStamp()) >= timeStart) &&((Int_t)(v->GetTimeStamp()) <= timeEnd)) { if (ientrySOR == -1) ientrySOR = i; // first entry after SOR if (ientryEOR < i) ientryEOR = i; // last entry before EOR AliDebug(2,Form("entry between SOR and EOR")); iCountsRun += 1; } } else { AliError(Form("DCS values for the parameter outside the queried interval: timestamp = %d",v->GetTimeStamp())); } } if (timestampBeforeSOR == -1){ AliWarning("No value found before SOR"); } if (timestampAfterEOR == -1){ AliWarning("No value found after EOR"); } AliDebug(2,Form("Number of valid entries (within DCS query interval) = %i, from a total amount of %i entries",iCounts,nCounts)); AliDebug(2,Form("Last value before DAQ_time_start (SOR) = %f at timestamp = %d",valueBeforeSOR,timestampBeforeSOR)); AliDebug(2,Form("First value after DAQ_time_end (EOR) = %f at timestamp = %d",valueAfterEOR,timestampAfterEOR)); AliInfo(Form("Found %d entries between DAQ_time_start (SOR) and DAQ_time_end (EOR)",iCountsRun)); AliDebug(2,Form("Index of first entry after DAQ_time_start (SOR) = %d ",ientrySOR)); AliDebug(2,Form("Index of first entry before DAQ_time_end (EOR) = %d ",ientryEOR)); Int_t nentriesUsed = 0; if (iCountsRun > 1){ AliInfo("Using entries between DAQ_time_start (SOR) and DAQ_time_end (EOR)"); AliDebug(2,"Calculating (weighted) Mean and Median"); arrayValues = new Float_t[iCountsRun]; arrayWeights = new Double_t[iCountsRun]; nentriesUsed = iCountsRun; for (Int_t i = ientrySOR; i <= ientryEOR; i++){ AliDCSValue *v = (AliDCSValue *)array->At(i); Int_t timestamp2 = 0; if (i < ientryEOR){ AliDCSValue *v1 = (AliDCSValue *)array->At(i+1); timestamp2 = (Int_t)v1->GetTimeStamp(); } else { timestamp2 = timeEnd+1; } arrayWeights[i-ientrySOR] = (Double_t)(timestamp2 - (Int_t)v->GetTimeStamp()); arrayValues[i-ientrySOR] = v->GetFloat(); } parameters[0] = TMath::Mean(iCountsRun,arrayValues,arrayWeights); parameters[2] = TMath::Median(iCountsRun,arrayValues,arrayWeights); } else if (iCountsRun == 1){ AliDCSValue* v = (AliDCSValue *)array->At(ientrySOR); nentriesUsed = 2; if (timestampBeforeSOR != -1 && timestampBeforeSOR != (Int_t)v->GetTimeStamp()){ AliWarning("Using single entry between DAQ_time_start (SOR) and DAQ_time_end (EOR) and last entry before SOR. Truncated mean won't be calculated."); arrayValues = new Float_t[2]; arrayWeights = new Double_t[2]; arrayValues[0] = valueBeforeSOR; arrayWeights[0] = (Double_t)((Int_t)v->GetTimeStamp()-timestampBeforeSOR); arrayValues[1] = v->GetFloat(); arrayWeights[1] = (Double_t)(timeEnd+1-(Int_t)v->GetTimeStamp()); AliDebug(2, Form("value0 = %f, with weight = %f",arrayValues[0],arrayWeights[0])); AliDebug(2, Form("value1 = %f, with weight = %f",arrayValues[1],arrayWeights[1])); parameters[0] = TMath::Mean(2,arrayValues,arrayWeights); parameters[2] = TMath::Median(2,arrayValues,arrayWeights); truncMeanFlag = kFALSE; } else{ AliError("Cannot calculate mean, truncated mean, median, SD wrt mean, SD wrt median for current DP - only one value collected during the run, but no value before with which to calculate the statistical quantities"); parameters[0] = AliGRPObject::GetInvalidFloat(); parameters[1] = AliGRPObject::GetInvalidFloat(); parameters[2] = AliGRPObject::GetInvalidFloat(); parameters[3] = AliGRPObject::GetInvalidFloat(); parameters[4] = AliGRPObject::GetInvalidFloat(); return parameters; } } else { // iCountsRun == 0, using only the point immediately before SOR if (timestampBeforeSOR == -1){ AliError("Cannot set mean, truncated mean, median, SD wrt mean, SD wrt median for current DP - no points during the run collected, and point before SOR missing"); parameters[0] = AliGRPObject::GetInvalidFloat(); parameters[1] = AliGRPObject::GetInvalidFloat(); parameters[2] = AliGRPObject::GetInvalidFloat(); parameters[3] = AliGRPObject::GetInvalidFloat(); parameters[4] = AliGRPObject::GetInvalidFloat(); return parameters; } else { AliWarning("Using only last entry before SOR. Truncated mean and Standard deviations (wrt mean/median) won't be calculated."); AliDebug(2,Form("value = %f",valueBeforeSOR)); parameters[0] = valueBeforeSOR; parameters[2] = valueBeforeSOR; truncMeanFlag = kFALSE; sdFlag = kFALSE; } } Float_t temp = 0; Float_t temp1 = 0; Float_t sumweights = 0; Int_t entriesTruncMean = 0; Float_t* arrayValuesTruncMean = new Float_t[nentriesUsed]; Double_t* arrayWeightsTruncMean = new Double_t[nentriesUsed]; // calculating SD wrt Mean and Median AliDebug(2,"Calculating SD wrt Mean and SD wrt Median"); if (sdFlag){ for (Int_t i =0; i< nentriesUsed; i++){ AliDebug(2,Form("Entry %d: value = %f, weight = %f",i,arrayValues[i],arrayWeights[i])); temp += (arrayValues[i]-parameters[2])*(arrayValues[i]-parameters[2]); temp1 += arrayWeights[i]*(arrayValues[i]-parameters[0])*(arrayValues[i]-parameters[0]); sumweights += arrayWeights[i]; } // setting SD wrt Mean if (sumweights != 0 ){ parameters[3] = TMath::Sqrt(temp1/sumweights); } else { AliError("Sum of weights to calculate Standard Deviation (wrt mean) <= 0, setting the SD to invalid"); parameters[3] = AliGRPObject::GetInvalidFloat(); } // setting SD wrt Median if (nentriesUsed != 0){ parameters[4] = TMath::Sqrt(temp/nentriesUsed); } else{ AliError("Number of entries used to calculate Standard Deviation (wrt median) <= 0, setting the SD to invalid"); parameters[4] = AliGRPObject::GetInvalidFloat(); } } else { parameters[3] = AliGRPObject::GetInvalidFloat(); parameters[4] = AliGRPObject::GetInvalidFloat(); } // calculating truncated mean (this comes afterwards since you need the SD wrt Mean) if (truncMeanFlag){ AliDebug(2,"Calculating Truncated Mean"); for (Int_t i =0; i< nentriesUsed; i++){ AliDebug(2,Form("Entry %d: value = %f, weight = %f",i,arrayValues[i],arrayWeights[i])); if ((arrayValues[i]<=parameters[0]+3*parameters[3]) && (arrayValues[i]>=parameters[0]-3*parameters[3])){ arrayValuesTruncMean[entriesTruncMean]=arrayValues[i]; arrayWeightsTruncMean[entriesTruncMean]=arrayWeights[i]; AliDebug(2,Form("For Truncated Mean: Entry %d: value = %f, weight = %f",entriesTruncMean,arrayValuesTruncMean[entriesTruncMean],arrayWeightsTruncMean[entriesTruncMean])); entriesTruncMean++; } else{ AliDebug(2,"Discarding entry"); } } // setting truncated mean if (entriesTruncMean >1){ AliDebug(2,Form("%d entries used for truncated mean",entriesTruncMean)); parameters[1] = TMath::Mean(entriesTruncMean,arrayValuesTruncMean,arrayWeightsTruncMean); } else{ AliDebug(2,Form("Too few entries (%d) to calculate truncated mean",entriesTruncMean)); parameters[1] = AliGRPObject::GetInvalidFloat(); } } else{ parameters[1] = AliGRPObject::GetInvalidFloat(); } AliInfo(Form("(weighted) mean = %f ",parameters[0])); AliInfo(Form("(weighted) truncated mean = %f ",parameters[1])); AliInfo(Form("median = %f ",parameters[2])); AliInfo(Form("(weighted) standard deviation with (weighted) mean = %f ",parameters[3])); AliInfo(Form("standard deviation with median = %f ",parameters[4])); return parameters; } //__________________________________________________________________________________________________________________ Float_t* AliGRPPreprocessor::ProcessFloatAllMagnet(const TObjArray* array, Int_t indexDP, Bool_t &isZero) { // // processing Float values using Mean, Median, Standard Deviation wrt Mean, Standar Deviation wrt Median // used for L3 and Dipole magnets, using isZero flag to decide whther the magnet was OFF/ON // the flag is set according to the L3/Dipole current value // current threshold for L3 = 350 A (value provided by DCS) // current threshold for Dipole = 450 A (value provided by DCS) // // parameters[0] = mean // parameters[1] = truncated mean (calculated excluding points outside +/- 3RMS from mean // parameters[2] = median // parameters[3] = standard deviation wrt mean // parameters[4] = standard deviation wrt median // AliInfo(Form("indexDP = %d",indexDP)); Int_t nCounts = array->GetEntries(); for(Int_t i = 0; i < nCounts; i++) { AliDCSValue *v = (AliDCSValue *)array->At(i); if ((v->GetFloat() <= fminFloat) || (v->GetFloat() >= fmaxFloat)) { AliError(Form("Error! Float value found in DCS map at %d-th entry is OUT OF RANGE: value = %6.5e",i,v->GetFloat())); if (v->GetFloat() < fminFloat) AliInfo(Form("The value is smaller than %6.5e",fminFloat)); if (v->GetFloat() > fmaxFloat) AliInfo(Form("The value is greater than %6.5e",fmaxFloat)); return NULL; } if(((Int_t)(v->GetTimeStamp()) >= (Int_t)GetStartTimeDCSQuery()) &&((Int_t)(v->GetTimeStamp()) <= (Int_t)GetEndTimeDCSQuery())) { AliDebug(2,Form("%d-th entry = %f",i,v->GetFloat())); if (indexDP == kL3Current && v->GetFloat() > 350 && isZero == kTRUE) isZero=kFALSE; if (indexDP == kDipoleCurrent && v->GetFloat() > 450 && isZero == kTRUE) isZero=kFALSE; } else { AliError(Form("DCS values for the parameter outside the queried interval")); } } return ProcessFloatAll(array); } //_______________________________________________________________ Char_t AliGRPPreprocessor::ProcessBool(const TObjArray* array, Bool_t &change) { // // processing Boolean values // Bool_t aDCSBool = kTRUE; AliDCSValue *v = 0x0; for(Int_t iCount = 0; iCount < array->GetEntries(); iCount++) { v = (AliDCSValue *)array->At(iCount); if (((Int_t)(v->GetTimeStamp()) < (Int_t)GetStartTimeDCSQuery()) || ((Int_t)(v->GetTimeStamp()) > (Int_t)GetEndTimeDCSQuery())) { AliError(Form("DCS values for the parameter outside the queried interval")); continue; } if (iCount > 0) { if (aDCSBool != v->GetBool()) { AliError(Form("DCS values for the parameter changed from %d to %d within the queried interval", (UInt_t)aDCSBool, (UInt_t)v->GetBool())); change = kTRUE; } } aDCSBool = v->GetBool(); // always keeping last value AliDebug(2,Form("Bool = %d",(Int_t)aDCSBool)); } Char_t caDCSBool = (Char_t) aDCSBool; return caDCSBool; } //_______________________________________________________________ Float_t AliGRPPreprocessor::ProcessInt(const TObjArray* array) { // // processing Int values, returning mean // AliGRPObject::GetInvalidFloat() is returned if any of the DCS values // are outside the queried time interval or their value is out of range // TString timeStartString = (TString)GetRunParameter("DAQ_time_start"); TString timeEndString = (TString)GetRunParameter("DAQ_time_end"); if (timeStartString.IsNull() || timeStartString.IsNull()){ if (timeStartString.IsNull()){ AliError("DAQ_time_start not set in logbook! Setting statistical values for current DP to invalid"); } else if (timeStartString.IsNull()){ AliError("DAQ_time_end not set in logbook! Setting statistical values for current DP to invalid"); } return 0; } Int_t timeStart = (Int_t)(timeStartString.Atoi()); Int_t timeEnd = (Int_t)(timeEndString.Atoi()); Float_t aDCSArrayMean = 0.0; Int_t iCounts = 0; Float_t valueBeforeSOR = 0; Float_t valueAfterEOR = 0; Int_t timestampBeforeSOR = -1; Int_t timestampAfterEOR = -1; Int_t ientrySOR = -1; Int_t ientryEOR = -1; Float_t* arrayValues = 0x0; Double_t* arrayWeights = 0x0; Int_t iCountsRun = 0; Int_t nCounts = array->GetEntries(); for(Int_t i = 0; i < nCounts; i++) { AliDCSValue* v = (AliDCSValue *)array->At(i); if ((v->GetInt() < fminInt) || (v->GetInt() > fmaxInt)) { AliError(Form("Error! Int value found in DCS map at %d-th entry is OUT OF RANGE: value = %d",i, v->GetInt())); return AliGRPObject::GetInvalidFloat(); } if(((Int_t)(v->GetTimeStamp()) >= (Int_t)GetStartTimeDCSQuery()) &&((Int_t)(v->GetTimeStamp()) <= (Int_t)GetEndTimeDCSQuery())) { AliDebug(2,Form("%d-th entry = %d at timestamp %i",i,v->GetInt(),v->GetTimeStamp())); iCounts += 1; // look for the last value before SOR and the first value before EOR if (((Int_t)(v->GetTimeStamp()) >= (Int_t)GetStartTimeDCSQuery()) && (Int_t)(v->GetTimeStamp()) < timeStart) { timestampBeforeSOR = (Int_t)(v->GetTimeStamp()); AliDebug(2,Form("timestamp of last entry before SOR = %d, with DAQ_time_start = %d",timestampBeforeSOR,timeStart)); valueBeforeSOR = (Float_t) v->GetInt(); } else if ((Int_t)(v->GetTimeStamp()) <= (Int_t)GetEndTimeDCSQuery() && (Int_t)(v->GetTimeStamp()) > timeEnd && timestampAfterEOR == -1){ timestampAfterEOR = (Int_t)(v->GetTimeStamp()); valueAfterEOR = (Float_t) v->GetInt(); AliDebug(2,Form("timestamp of first entry after EOR = %d, with DAQ_time_end = %d",timestampAfterEOR,timeEnd)); } // check if there are DPs between DAQ_time_start and DAQ_time_end if(((Int_t)(v->GetTimeStamp()) >= timeStart) &&((Int_t)(v->GetTimeStamp()) <= timeEnd)) { if (ientrySOR == -1) ientrySOR = i; // first entry after SOR if (ientryEOR < i) ientryEOR = i; // last entry before EOR AliDebug(2,Form("entry between SOR and EOR")); iCountsRun += 1; } } else { AliError(Form("DCS values for the parameter outside the queried interval: timestamp = %d",v->GetTimeStamp())); } } if (timestampBeforeSOR == -1){ AliWarning("No value found before SOR!"); } if (timestampAfterEOR == -1){ AliWarning("No value found after EOR!"); } AliDebug(2,Form("Number of valid entries (within query interval) = %i, starting from %i entries",iCounts,nCounts)); AliDebug(2,Form("Last value before DAQ_time_start (SOR) = %f at timestamp = %d",valueBeforeSOR,timestampBeforeSOR)); AliDebug(2,Form("First value after DAQ_time_end (EOR) = %f at timestamp = %d",valueAfterEOR,timestampAfterEOR)); AliInfo(Form("Found %d entries between DAQ_time_start (SOR) and DAQ_time_end (EOR)",iCountsRun)); AliDebug(2,Form("Index of first entry after DAQ_time_start (SOR) = %d ",ientrySOR)); AliDebug(2,Form("Index of first entry before DAQ_time_end (EOR) = %d ",ientryEOR)); Int_t nentriesUsed = 0; if (iCountsRun > 1){ AliInfo("Using entries between DAQ_time_start (SOR) and DAQ_time_end (EOR)"); AliDebug(2,"Calculating (weighted) Mean"); arrayValues = new Float_t[iCountsRun]; arrayWeights = new Double_t[iCountsRun]; nentriesUsed = iCountsRun; for (Int_t i = ientrySOR; i <= ientryEOR; i++){ AliDCSValue *v = (AliDCSValue *)array->At(i); Int_t timestamp2 = 0; if (i < ientryEOR){ AliDCSValue *v1 = (AliDCSValue *)array->At(i+1); timestamp2 = (Int_t)v1->GetTimeStamp(); } else { timestamp2 = timeEnd+1; } arrayWeights[i-ientrySOR] = (Double_t)(timestamp2 - (Int_t)v->GetTimeStamp()); arrayValues[i-ientrySOR] = (Float_t)v->GetInt(); } aDCSArrayMean = TMath::Mean(iCountsRun,arrayValues,arrayWeights); } else if (iCountsRun == 1){ AliDCSValue* v = (AliDCSValue *)array->At(ientrySOR); nentriesUsed = 2; if (timestampBeforeSOR != -1 && timestampBeforeSOR != (Int_t)v->GetTimeStamp()){ AliWarning("Using single entry between DAQ_time_start (SOR) and DAQ_time_end (EOR) and last entry before SOR."); arrayValues = new Float_t[2]; arrayWeights = new Double_t[2]; arrayValues[0] = valueBeforeSOR; arrayWeights[0] = (Double_t)((Int_t)v->GetTimeStamp()-timestampBeforeSOR); arrayValues[1] = (Float_t)v->GetInt(); arrayWeights[1] = (Double_t)(timeEnd+1-(Int_t)v->GetTimeStamp()); AliDebug(2,Form("value0 = %f, with weight = %f",arrayValues[0],arrayWeights[0])); AliDebug(2,Form("value1 = %f, with weight = %f",arrayValues[1],arrayWeights[1])); aDCSArrayMean = TMath::Mean(2,arrayValues,arrayWeights); } else{ AliError("Cannot calculate mean - only one value collected during the run, but no value before with which to calculate the statistical quantities"); return AliGRPObject::GetInvalidFloat(); } } else { // iCountsRun == 0, using the point immediately before SOR and the one immediately after EOR if (timestampBeforeSOR == -1 || timestampAfterEOR == -1){ if (timestampBeforeSOR == -1){ AliError("Cannot calculate mean - no points during the run collected, and point before SOR missing"); } if (timestampAfterEOR == -1){ AliError("Cannot calculate maen - no points during the run collected, and point after EOR missing"); } return AliGRPObject::GetInvalidFloat(); } else { AliWarning("Using last entry before SOR and first entry after EOR."); nentriesUsed = 2; arrayValues = new Float_t[2]; arrayWeights = new Double_t[2]; arrayValues[0] = valueBeforeSOR; arrayWeights[0] = (Double_t)(timestampAfterEOR - timestampBeforeSOR); arrayValues[1] = valueAfterEOR; arrayWeights[1] = 1.; AliDebug(2,Form("value0 = %f, with weight = %f",arrayValues[0],arrayWeights[0])); AliDebug(2,Form("value1 = %f, with weight = %f",arrayValues[1],arrayWeights[1])); aDCSArrayMean = TMath::Mean(1,arrayValues,arrayWeights); } } AliInfo(Form("mean = %f ", aDCSArrayMean)); return aDCSArrayMean; } //_______________________________________________________________ Float_t AliGRPPreprocessor::ProcessUInt(const TObjArray* array) { // // processing Int values, returning mean // AliGRPObject::GetInvalidFloat() is returned if any of the DCS values // are outside the queried time interval or their value is out of range // TString timeStartString = (TString)GetRunParameter("DAQ_time_start"); TString timeEndString = (TString)GetRunParameter("DAQ_time_end"); if (timeStartString.IsNull() || timeStartString.IsNull()){ if (timeStartString.IsNull()){ AliError("DAQ_time_start not set in logbook! Setting statistical values for current DP to invalid"); } else if (timeStartString.IsNull()){ AliError("DAQ_time_end not set in logbook! Setting statistical values for current DP to invalid"); } return 0; } Int_t timeStart = (Int_t)(timeStartString.Atoi()); Int_t timeEnd = (Int_t)(timeEndString.Atoi()); Float_t aDCSArrayMean = 0.0; Int_t iCounts = 0; Float_t valueBeforeSOR = 0; Float_t valueAfterEOR = 0; Int_t timestampBeforeSOR = -1; Int_t timestampAfterEOR = -1; Int_t ientrySOR = -1; Int_t ientryEOR = -1; Float_t* arrayValues = 0x0; Double_t* arrayWeights = 0x0; Int_t iCountsRun = 0; Int_t nCounts = array->GetEntries(); for(Int_t i = 0; i < nCounts; i++) { AliDCSValue* v = (AliDCSValue *)array->At(i); if ((v->GetUInt() < fminUInt) || (v->GetUInt() > fmaxUInt)) { AliError(Form("Error! UInt value found in DCS map at %d-th entry is OUT OF RANGE: value = %u",i,v->GetUInt())); return AliGRPObject::GetInvalidFloat(); } if(((Int_t)(v->GetTimeStamp()) >= (Int_t)GetStartTimeDCSQuery()) &&((Int_t)(v->GetTimeStamp()) <= (Int_t)GetEndTimeDCSQuery())) { AliDebug(2,Form("%d-th entry = %d at timestamp %i",i,v->GetUInt(),v->GetTimeStamp())); iCounts += 1; // look for the last value before SOR and the first value before EOR if (((Int_t)(v->GetTimeStamp()) >= (Int_t)GetStartTimeDCSQuery()) && (Int_t)(v->GetTimeStamp()) < timeStart) { timestampBeforeSOR = (Int_t)(v->GetTimeStamp()); AliDebug(2,Form("timestamp of last entry before SOR = %d, with DAQ_time_start = %d",timestampBeforeSOR,timeStart)); valueBeforeSOR = (Float_t)v->GetUInt(); } else if ((Int_t)(v->GetTimeStamp()) <= (Int_t)GetEndTimeDCSQuery() && (Int_t)(v->GetTimeStamp()) > timeEnd && timestampAfterEOR == -1){ timestampAfterEOR = (Int_t)(v->GetTimeStamp()); valueAfterEOR = (Float_t)v->GetUInt(); AliDebug(2,Form("timestamp of first entry after EOR = %d, with DAQ_time_end = %d",timestampAfterEOR,timeEnd)); } // check if there are DPs between DAQ_time_start and DAQ_time_end if(((Int_t)(v->GetTimeStamp()) >= timeStart) &&((Int_t)(v->GetTimeStamp()) <= timeEnd)) { if (ientrySOR == -1) ientrySOR = i; // first entry after SOR if (ientryEOR < i) ientryEOR = i; // last entry before EOR AliDebug(2,Form("entry between SOR and EOR")); iCountsRun += 1; } } else { AliError(Form("DCS values for the parameter outside the queried interval: timestamp = %d",v->GetTimeStamp())); } } if (timestampBeforeSOR == -1){ AliWarning("No value found before SOR!"); } if (timestampAfterEOR == -1){ AliWarning("No value found after EOR!"); } AliDebug(2,Form("Number of valid entries (within query interval) = %i, starting from %i entries",iCounts,nCounts)); AliDebug(2,Form("Last value before DAQ_time_start (SOR) = %f at timestamp = %d",valueBeforeSOR,timestampBeforeSOR)); AliDebug(2,Form("First value after DAQ_time_end (EOR) = %f at timestamp = %d",valueAfterEOR,timestampAfterEOR)); AliInfo(Form("Found %d entries between DAQ_time_start (SOR) and DAQ_time_end (EOR)",iCountsRun)); AliDebug(2,Form("Index of first entry after DAQ_time_start (SOR) = %d ",ientrySOR)); AliDebug(2,Form("Index of first entry before DAQ_time_end (EOR) = %d ",ientryEOR)); Int_t nentriesUsed = 0; if (iCountsRun > 1){ AliInfo("Using entries between DAQ_time_start (SOR) and DAQ_time_end (EOR)"); AliDebug(2,"Calculating (weighted) Mean"); arrayValues = new Float_t[iCountsRun]; arrayWeights = new Double_t[iCountsRun]; nentriesUsed = iCountsRun; for (Int_t i = ientrySOR; i <= ientryEOR; i++){ AliDCSValue *v = (AliDCSValue *)array->At(i); Int_t timestamp2 = 0; if (i < ientryEOR){ AliDCSValue *v1 = (AliDCSValue *)array->At(i+1); timestamp2 = (Int_t)v1->GetTimeStamp(); } else { timestamp2 = timeEnd+1; } arrayWeights[i-ientrySOR] = (Double_t)(timestamp2 - (Int_t)v->GetTimeStamp()); arrayValues[i-ientrySOR] = (Float_t)v->GetUInt(); } aDCSArrayMean = TMath::Mean(iCountsRun,arrayValues,arrayWeights); } else if (iCountsRun == 1){ AliDCSValue* v = (AliDCSValue *)array->At(ientrySOR); nentriesUsed = 2; if (timestampBeforeSOR != -1 && timestampBeforeSOR != (Int_t)v->GetTimeStamp()){ AliWarning("Using single entry between DAQ_time_start (SOR) and DAQ_time_end (EOR) and last entry before SOR."); arrayValues = new Float_t[2]; arrayWeights = new Double_t[2]; arrayValues[0] = valueBeforeSOR; arrayWeights[0] = (Double_t)((Int_t)v->GetTimeStamp()-timestampBeforeSOR); arrayValues[1] = (Float_t)v->GetUInt(); arrayWeights[1] = (Double_t)(timeEnd+1-(Int_t)v->GetTimeStamp()); AliDebug(2,Form("value0 = %f, with weight = %f",arrayValues[0],arrayWeights[0])); AliDebug(2,Form("value1 = %f, with weight = %f",arrayValues[1],arrayWeights[1])); aDCSArrayMean = TMath::Mean(2,arrayValues,arrayWeights); } else{ AliError("Cannot calculate mean - only one value collected during the run, but no value before with which to calculate the statistical quantities"); return AliGRPObject::GetInvalidFloat(); } } else { // iCountsRun == 0, using the point immediately before SOR and the one immediately after EOR if (timestampBeforeSOR == -1 || timestampAfterEOR == -1){ if (timestampBeforeSOR == -1){ AliError("Cannot calculate mean - no points during the run collected, and point before SOR missing"); } if (timestampAfterEOR == -1){ AliError("Cannot calculate maen - no points during the run collected, and point after EOR missing"); } return AliGRPObject::GetInvalidFloat(); } else { AliWarning("Using last entry before SOR and first entry after EOR."); nentriesUsed = 2; arrayValues = new Float_t[2]; arrayWeights = new Double_t[2]; arrayValues[0] = valueBeforeSOR; arrayWeights[0] = (Double_t)(timestampAfterEOR - timestampBeforeSOR); arrayValues[1] = valueAfterEOR; arrayWeights[1] = 1.; AliDebug(2,Form("value0 = %f, with weight = %f",arrayValues[0],arrayWeights[0])); AliDebug(2,Form("value1 = %f, with weight = %f",arrayValues[1],arrayWeights[1])); aDCSArrayMean = TMath::Mean(1,arrayValues,arrayWeights); } } AliInfo(Form("mean = %f ",aDCSArrayMean)); return aDCSArrayMean; } //_______________________________________________________________ AliDCSSensorArray *AliGRPPreprocessor::GetPressureMap(TMap* dcsAliasMap) { // extract DCS pressure maps. Perform fits to save space TMap *map = fPressure->ExtractDCS(dcsAliasMap); if (map) { AliDebug(2,Form("Map has %d entries",map->GetEntries())); fPressure->MakeSplineFit(map); Double_t fitFraction = fPressure->NumFits()/fPressure->NumSensors(); if (fitFraction > kFitFraction ) { AliInfo(Form("Pressure values extracted, %d fits performed for %d sensors.", fPressure->NumFits(),fPressure->NumSensors())); } else { AliInfo("Too few pressure maps fitted!!!"); } } else { AliInfo("no atmospheric pressure map extracted!!!"); } delete map; return fPressure; } //_______________________________________________________________ Int_t AliGRPPreprocessor::ReceivePromptRecoParameters(UInt_t run, const char* dbHost, Int_t dbPort, const char* dbName, const char* user, const char* password, const char *cdbRoot, TString &gdc) { // // Retrieves logbook and trigger information from the online logbook // This information is needed for prompt reconstruction // // Parameters are: // Run number // DAQ params: dbHost, dbPort, dbName, user, password, logbookTable, triggerTable // cdbRoot // // returns: // positive on success: the return code is the run number of last run processed of the same run type already processed by the SHUTTLE // 0 on success and no run was found // negative on error // // This function is NOT called during the preprocessor run in the Shuttle! // // defaults if (dbPort == 0) dbPort = 3306; // CDB connection AliCDBManager* cdb = AliCDBManager::Instance(); cdb->SetDefaultStorage(cdbRoot); // SQL connection TSQLServer* server = TSQLServer::Connect(Form("mysql://%s:%d/%s", dbHost, dbPort, dbName), user, password); if (!server) { Printf("ERROR: Could not connect to DAQ LB"); return -1; } // main logbook TString sqlQuery; sqlQuery.Form("SELECT DAQ_time_start, run_type, detectorMask, L3_magnetCurrent, Dipole_magnetCurrent FROM logbook WHERE run = %d", run); TSQLResult* result = server->Query(sqlQuery); if (!result) { Printf("ERROR: Can't execute query <%s>!", sqlQuery.Data()); return -2; } if (result->GetRowCount() == 0) { Printf("ERROR: Run %d not found", run); delete result; return -3; } TSQLRow* row = result->Next(); if (!row) { Printf("ERROR: Could not receive data from run %d", run); delete result; return -4; } TString timeStartString(row->GetField(0)); TString runType(row->GetField(1)); TString detectorMaskString(row->GetField(2)); TString l3CurrentString(row->GetField(3)); TString dipoleCurrentString(row->GetField(4)); time_t timeStart = (time_t)(timeStartString.Atoi()); UInt_t detectorMask = (UInt_t)(detectorMaskString.Atoi()); Float_t l3Current = (Float_t)(TMath::Abs(l3CurrentString.Atof())); Float_t dipoleCurrent = (Float_t)(TMath::Abs(dipoleCurrentString.Atof())); Char_t l3Polarity = (l3CurrentString.Atof() < 0) ? 1 : 0; Char_t dipolePolarity = (dipoleCurrentString.Atof() < 0) ? 1 : 0; AliGRPObject * grpObj = new AliGRPObject(); grpObj->SetTimeStart(timeStart); grpObj->SetRunType((TString)(row->GetField(1))); grpObj->SetDetectorMask(detectorMask); grpObj->SetL3Current(l3Current,(AliGRPObject::Stats)0); grpObj->SetDipoleCurrent(dipoleCurrent,(AliGRPObject::Stats)0); grpObj->SetL3Polarity(l3Polarity); grpObj->SetDipolePolarity(dipolePolarity); grpObj->SetPolarityConventionLHC(); // after the dipole cables swap we comply with LHC convention delete row; row = 0; delete result; result = 0; Printf("Storing GRP/GRP/Data object with the following content"); grpObj->Dump(); AliCDBMetaData metadata; metadata.SetResponsible("Jan Fiete Grosse-Oetringhaus & Chiara Zampolli"); metadata.SetComment("GRP Output parameters received during online running"); AliCDBId id("GRP/GRP/Data", run, run); Bool_t success = cdb->Put(grpObj, id, &metadata); delete grpObj; if (!success) { Printf("ERROR: Could not store GRP/GRP/Data into OCDB"); return -5; } // Receive trigger information sqlQuery.Form("SELECT configFile FROM logbook_trigger_config WHERE run = %d", run); result = server->Query(sqlQuery); if (!result) { Printf("ERROR: Can't execute query <%s>!", sqlQuery.Data()); return -11; } if (result->GetRowCount() == 0) { Printf("ERROR: Run %d not found in logbook_trigger_config", run); delete result; return -12; } row = result->Next(); if (!row) { Printf("ERROR: Could not receive logbook_trigger_config data from run %d", run); delete result; return -13; } TString triggerConfig(row->GetField(0)); delete row; row = 0; delete result; result = 0; Printf("Found trigger configuration: %s", triggerConfig.Data()); AliTriggerConfiguration *runcfg = AliTriggerConfiguration::LoadConfigurationFromString(triggerConfig); if (!runcfg) { Printf("ERROR: Could not create CTP configuration object"); return -14; } metadata.SetComment("CTP run configuration received during online running"); AliCDBId id2("GRP/CTP/Config", run, run); success = cdb->Put(runcfg, id2, &metadata); delete runcfg; runcfg = 0; if (!success) { Printf("ERROR: Could not store GRP/CTP/Config into OCDB"); return -15; } // Receive list of GDCs for this run sqlQuery.Form("SELECT GDC FROM logbook_stats_GDC WHERE run = %d", run); result = server->Query(sqlQuery); if (!result) { Printf("ERROR: Can't execute query <%s>!", sqlQuery.Data()); return -24; } if (result->GetRowCount() == 0) { Printf("ERROR: Run %d not found in logbook_stats_GDC", run); delete result; return -25; } gdc = ""; for (Int_t iGDC = 0; iGDC < result->GetRowCount(); iGDC++) { row = result->Next(); if (!row) { Printf("ERROR: Could not receive logbook_stats_GDC data from run %d", run); delete result; return -26; } gdc += row->GetField(0); gdc += " "; } delete row; row = 0; delete result; result = 0; Printf("Found GDC: %s", gdc.Data()); // get last run with same run type that was already processed by the SHUTTLE sqlQuery.Form("SELECT max(logbook.run) FROM logbook LEFT JOIN logbook_shuttle ON logbook_shuttle.run = logbook.run WHERE run_type = '%s' AND shuttle_done = 1", runType.Data()); result = server->Query(sqlQuery); if (!result) { Printf("ERROR: Can't execute query <%s>!", sqlQuery.Data()); return -21; } if (result->GetRowCount() == 0) { Printf("ERROR: No result with query <%s>", sqlQuery.Data()); delete result; return -22; } row = result->Next(); if (!row) { Printf("ERROR: Could not receive data for query <%s>", sqlQuery.Data()); delete result; return -23; } TString lastRunStr(row->GetField(0)); Int_t lastRun = lastRunStr.Atoi(); Printf("Last run with same run type %s is %d", runType.Data(), lastRun); delete row; row = 0; delete result; result = 0; server->Close(); delete server; server = 0; return lastRun; }