// and stores both reference data and spline fits results //
// in the CDB //
// //
-// Author: //
+// Authors: //
// R. Bailhache (R.Bailhache@gsi.de) //
+// J. Book (jbook@ikf.uni-frankfurt.de) //
// W. Monange (w.monange@gsi.de) //
+// F. Kramer (kramer@ikf.uni-frankfurt.de) //
// //
////////////////////////////////////////////////////////////////////////////
-#include "AliTRDPreprocessor.h"
+#include <fstream>
#include <TFile.h>
#include <TProfile2D.h>
-#include <TStopwatch.h>
#include <TObjString.h>
#include <TString.h>
#include <TList.h>
-#include <TCollection.h>
+#include <TSAXParser.h>
#include "AliCDBMetaData.h"
#include "AliLog.h"
+#include "AliTRDPreprocessor.h"
#include "AliTRDSensorArray.h"
#include "AliTRDCalibraFit.h"
#include "AliTRDCalibraMode.h"
#include "AliTRDCalibPadStatus.h"
-#include "Cal/AliTRDCalDet.h"
+#include "AliTRDSaxHandler.h"
+#include "AliTRDgeometry.h"
+#include "AliTRDCalibChamberStatus.h"
+#include "Cal/AliTRDCalPad.h"
#include "Cal/AliTRDCalPadStatus.h"
+#include "Cal/AliTRDCalDCSv2.h"
+#include "Cal/AliTRDCalSingleChamberStatus.h"
+#include "Cal/AliTRDCalChamberStatus.h"
+#include "Cal/AliTRDCalROC.h"
ClassImp(AliTRDPreprocessor)
//______________________________________________________________________________________________
AliTRDPreprocessor::AliTRDPreprocessor(AliShuttleInterface *shuttle)
- :AliPreprocessor("TRD", shuttle),
- fResult(0),
- fVdriftHLT(0)
+ :AliPreprocessor("TRD", shuttle)
+ ,fCalDCSObjSOR(0)
+ ,fCalDCSObjEOR(0)
+ ,fVdriftHLT(0)
{
//
// Constructor
//
-}
+ AddRunType("PHYSICS");
+ AddRunType("STANDALONE");
+ AddRunType("PEDESTAL");
+ AddRunType("DAQ");
+
+
+}
+//______________________________________________________________________________________________
+ AliTRDPreprocessor::AliTRDPreprocessor(const AliTRDPreprocessor& ) :
+ AliPreprocessor("TRD",0),
+ fCalDCSObjSOR(0),
+ fCalDCSObjEOR(0),
+ fVdriftHLT(0)
+{
+
+ Fatal("AliTRDPreprocessor", "copy constructor not implemented");
+
+}
//______________________________________________________________________________________________
AliTRDPreprocessor::~AliTRDPreprocessor()
{
// Destructor
//
-}
+ if (fCalDCSObjSOR != NULL) {
+ delete fCalDCSObjSOR;
+ fCalDCSObjSOR =0;
+ }
+ if (fCalDCSObjEOR != NULL) {
+ delete fCalDCSObjEOR;
+ fCalDCSObjEOR =0;
+ }
+}
+//______________________________________________________________________________________________
+AliTRDPreprocessor& AliTRDPreprocessor::operator = (const AliTRDPreprocessor& )
+{
+ Fatal("operator =", "assignment operator not implemented");
+ return *this;
+}
//______________________________________________________________________________________________
void AliTRDPreprocessor::Initialize(Int_t run, UInt_t startTime, UInt_t endTime)
{
//
AliPreprocessor::Initialize(run,startTime,endTime);
-
+
}
//______________________________________________________________________________________________
// Process DCS and calibration part for HLT
//
- fResult = 0;
-
- //
- // DCS
- //
-
- ProcessDCS(dcsAliasMap);
-
- //
- // Process the calibration data for the HLT and DAQ part
- //
-
TString runType = GetRunType();
- printf("runtype %s\n",(const char*)runType);
+ Log(Form("runtype %s\n",runType.Data()));
+
+ // always process the configuration data
+ Int_t DCSConfigReturn = ProcessDCSConfigData();
+ if(DCSConfigReturn) return DCSConfigReturn;
+ if (runType=="PEDESTAL"){
+ if(ExtractPedestals()) return 1;
+ return 0;
+ }
- if (strcmp(runType, "PEDESTAL") == 0){
- ExtractPedestals();
+ if ((runType=="PHYSICS") || (runType=="STANDALONE") || (runType=="DAQ")){
+ // DCS
+ if(ProcessDCS(dcsAliasMap)) return 1;
+ if(runType=="PHYSICS"){
+ // HLT if On
+ //TString runPar = GetRunParameter("HLTStatus");
+ //if(runPar=="1") {
+ if(GetHLTStatus()) {
+ //if(ExtractHLT()) return 1; // for testing!
+ ExtractHLT();
+ }
+ // DAQ if HLT failed
+ if(!fVdriftHLT) {
+ //if(ExtractDriftVelocityDAQ()) return 1;
+ ExtractDriftVelocityDAQ(); // for testing!
+ }
+ }
+ //if((runType=="PHYSICS") || (runType=="STANDALONE")) {
+ // if(ExtractHalfChamberStatusDAQ()) return 1;
+ //}
}
- if (strcmp(runType, "PHYSICS") == 0){
- printf("test\n");
- //if(GetRunParameter("HLTStatus")==1) ExtractHLT();
- ExtractHLT();
- ExtractDriftVelocityDAQ();
- }
- printf("result is %d\n",fResult);
- return fResult;
+ return 0;
}
+//______________________________________________________________________________
+Bool_t AliTRDPreprocessor::ProcessDCS()
+{
+ //
+ // Default process DCS method
+ //
+ TString runType = GetRunType();
+ if ((runType == "PHYSICS") || (runType == "STANDALONE")) {
+ return kTRUE;
+ }
+ return kFALSE;
+
+}
//______________________________________________________________________________
-void AliTRDPreprocessor::ProcessDCS(TMap * dcsAliasMap)
+Bool_t AliTRDPreprocessor::ProcessDCS(TMap *dcsAliasMap)
{
+ //
+ // Process DCS method
+ //
+
+ Bool_t error = kFALSE;
AliCDBMetaData metaData;
metaData.SetBeamPeriod(0);
metaData.SetResponsible("Wilfried Monange/Raphaelle Bailhache");
metaData.SetComment("TRD calib test");
+
+ Log("****** DCS ******\n");
-
- Log ("****** DCS ******\n");
-
- TObjArray * list = AliTRDSensorArray::GetList ();
+ TObjArray * list=AliTRDSensorArray::GetList();
if (list == 0x0) {
Log ("Error during AliTRDSensorArray::GetList");
Log ("DCS will not be processing");
- return;
+ return kTRUE;
}
Int_t nEntries = list->GetEntries ();
oneTRDDCS->SetStartTime (TTimeStamp (fStartTime));
oneTRDDCS->SetEndTime (TTimeStamp (fEndTime));
- Log (Form("Processing DCS : \"%s\"", oneTRDDCS->GetStoreName ().Data ()));
+ Log(Form("Processing DCS : \"%s\"", oneTRDDCS->GetStoreName ().Data ()));
TMap * map;
if (nGraph [iAlias] == 0) {
Log("No TGraph for this dcsDatapointAlias : not stored");
results [iAlias] = kFALSE;
+ //error = kTRUE;
continue;
}
oneTRDDCS->SetGraph(map);
- results[iAlias]=Store("Calib", oneTRDDCS->GetStoreName().Data(), oneTRDDCS, &metaData, 0, kTRUE);
+ results[iAlias]=Store("Calib", oneTRDDCS->GetStoreName().Data(), oneTRDDCS, &metaData, 0, kFALSE);
delete map;
//results [iAlias] = StoreReferenceData("Calib", oneTRDDCS->GetStoreName ().Data (), oneTRDDCS, &metaData);
-
if (!results[iAlias]) {
- AliError("Problem during StoreRef DCS");
- fResult|=kEStore;
+ AliError("Problem during StoreRef DCS");
+ //error=kTRUE;
}
-
//BEGIN TEST (should not be removed ...)
/*
oneTRDDCS->ClearGraph();
*/
//END TEST
-
-
}
+
+ // Check errors
+ Int_t nbCount = 0;
+ for (Int_t iAlias = 0; iAlias < nEntries; iAlias++) {
+ if (results[iAlias]) {
+ nbCount++;
+ }
+ }
+ if(nbCount == 0) error = kTRUE;
+
Log (" Summury of DCS :\n");
Log (Form("%30s %10s %10s", "dcsDatapointAlias", "Stored ?", "# graph"));
}
Log ("*********** End of DCS **********");
- delete results;
- delete nGraph;
+ delete [] results;
+ delete [] nGraph;
+ return error;
}
+//______________________________________________________________________________________________
+Bool_t AliTRDPreprocessor::ExtractHalfChamberStatusDAQ()
+{
+ //
+ // Half chamber status algorithm running on DAQ
+ //
+
+ Bool_t error = kFALSE;
+ AliCDBMetaData metaData;
+ metaData.SetBeamPeriod(0);
+ metaData.SetResponsible("Raphaelle Bailhache");
+ metaData.SetComment("TRD calib test");
+
+ // Take the output of the DA on DAQ
+ TList * listpad = GetFileSources(kDAQ,"HALFCHAMBERSTATUS");
+ if (!listpad) {
+ Log("No list found for the HalfChamberStatus");
+ return kTRUE;
+ }
+
+ AliTRDCalibChamberStatus *calPed = 0x0;
+
+ // loop through all files (only one normally)
+ UInt_t index = 0;
+ while (listpad->At(index)!=NULL) {
+ TObjString* fileNameEntry = (TObjString*) listpad->At(index);
+ if (fileNameEntry != NULL)
+ {
+ TString fileName = GetFile(kDAQ, "HALFCHAMBERSTATUS",
+ fileNameEntry->GetString().Data());
+ if(fileName.Length() ==0){
+ Log(Form("Error by retrieving the file %d for the halfchamberstatus",(Int_t)index));
+ delete listpad;
+ return kTRUE;
+ }
+
+ TFile *f = TFile::Open(fileName);
+ f->GetObject("calibchamberstatus",calPed);
+
+ if(calPed) {
+
+ // store as reference data
+ TString name("HalfChamberStatus");
+ if(!StoreReferenceData("DAQData",(const char *)name,(TObject *) calPed,&metaData)){
+ Log(Form("Error storing AliTRDCalibPadStatus object %d as reference data",(Int_t)index));
+ error = kTRUE;
+ }
+ } // calPed
+ else Log(Form("Error getting AliTRDCalibChamberStatus onject from file"));
+
+ } // fileNameEntry
+ ++index;
+ }// while (list)
+
+ Log(Form("%d elements found in the list for the halfchamberstatus",(Int_t)index));
+ if(index!=1){
+ delete listpad;
+ return kTRUE;
+ }
+
+ //
+ // Produce the AliTRDCalChamberStatus name calHalfChamberStatus
+ //
+ AliTRDCalChamberStatus *calHalfChamberStatus = 0x0;
+ if(calPed) {
+ //calPed->AnalyseHisto(); // check number of events, create calHalfChamberStatus (done on DAQ)
+ if(fCalDCSObjEOR) {
+ calPed->CheckEORStatus((AliTRDCalDCSv2 *)fCalDCSObjEOR);
+ }
+ calHalfChamberStatus=(AliTRDCalChamberStatus *)calPed->GetCalChamberStatus();
+ }
+
+ //
+ // Store
+ //
+
+ AliCDBMetaData md3;
+ md3.SetObjectClassName("AliTRDCalChamberStatus");
+ md3.SetResponsible("Raphaelle Bailhache");
+ md3.SetBeamPeriod(1);
+ md3.SetComment("TRD calib test");
+ if(!Store("Calib","ChamberStatus" ,(TObject *)calHalfChamberStatus, &md3, 0, kTRUE)){
+ Log("Error storing the pedestal");
+ delete listpad;
+ return kTRUE;
+ }
+
+ delete listpad;
+ return error;
+
+}
//______________________________________________________________________________________________
-void AliTRDPreprocessor::ExtractPedestals()
+Bool_t AliTRDPreprocessor::ExtractPedestals()
{
//
// Pedestal running on LDCs at the DAQ
//
+ //
+ // The reference data are stored in:
+ // PadStatus1 for sm-00-01-02-09-10-11
+ // PadStatus2 for sm-03-04-05-12-13-14
+ // PadStatus3 for sm-06-07-08-15-16-17
+ // PadStatus0 if nothing found..means problems
+ //
+
+ Bool_t error = kFALSE;
+
// Init a AliTRDCalibPadStatus
AliTRDCalibPadStatus calPedSum = AliTRDCalibPadStatus();
// Sum the contributions of the LDCs
TList * listpad = GetFileSources(kDAQ,"PADSTATUS");
- if (listpad) {
-
- // loop through all files from LDCs
-
- UInt_t index = 0;
- while (listpad->At(index)!=NULL) {
- TObjString* fileNameEntry = (TObjString*) listpad->At(index);
- if (fileNameEntry != NULL) {
+ if (!listpad) {
+ Log("No list found for the PEDESTRAL Run");
+ return kTRUE;
+ }
+
+ // loop through all files from LDCs
+ UInt_t index = 0;
+ while (listpad->At(index)!=NULL) {
+ TObjString* fileNameEntry = (TObjString*) listpad->At(index);
+ if (fileNameEntry != NULL)
+ {
TString fileName = GetFile(kDAQ, "PADSTATUS",
fileNameEntry->GetString().Data());
- if(fileName.Length() !=0){
- TFile *f = TFile::Open(fileName);
- AliTRDCalibPadStatus *calPed;
- f->GetObject("calibpadstatus",calPed);
+ if(fileName.Length() ==0){
+ Log(Form("Error by retrieving the file %d for the pedestal",(Int_t)index));
+ delete listpad;
+ return kTRUE;
+ }
+
+ TFile *f = TFile::Open(fileName);
+ AliTRDCalibPadStatus *calPed;
+ f->GetObject("calibpadstatus",calPed);
+
+ if(calPed){
- if(calPed){
-
- // analyse
- calPed->AnalyseHisto();
-
- // store as reference data
- TString name("PadStatus");
- name += (Int_t)index;
- if(!StoreReferenceData("DAQData",(const char *)name,(TObject *) calPed,&metaData)){
- Log(Form("Error storing AliTRDCalibPadStatus object %d as reference data",(Int_t)index));
- fResult |= kEStore;
+ // analyse
+ //calPed->AnalyseHisto();
+
+ // Add to the calPedSum
+ for (Int_t idet=0; idet<540; idet++) {
+ AliTRDCalROC *rocMean = calPed->GetCalRocMean(idet, kFALSE);
+ if ( rocMean ) {
+ calPedSum.SetCalRocMean(rocMean,idet);
}
-
-
- // Add to the calPedSum
- for (Int_t idet=0; idet<540; idet++) {
- AliTRDCalROC *rocMean = calPed->GetCalRocMean(idet, kFALSE);
- if ( rocMean ) calPedSum.SetCalRocMean(rocMean,idet);
- AliTRDCalROC *rocRMS = calPed->GetCalRocRMS(idet, kFALSE);
- if ( rocRMS ) calPedSum.SetCalRocRMS(rocRMS,idet);
- }// det loop
-
- } // calPed
+ AliTRDCalROC *rocRMS = calPed->GetCalRocRMS(idet, kFALSE);
+ if ( rocRMS ) {
+ calPedSum.SetCalRocRMS(rocRMS,idet);
+ }
+ AliTRDCalROC *rocMeand = calPed->GetCalRocMeand(idet, kFALSE);
+ if ( rocMeand ) {
+ calPedSum.SetCalRocMeand(rocMeand,idet);
+ }
+ AliTRDCalROC *rocRMSd = calPed->GetCalRocRMSd(idet, kFALSE);
+ if ( rocRMSd ) {
+ calPedSum.SetCalRocRMSd(rocRMSd,idet);
+ }
+ }// det loop
+
+ // store as reference data
+ TString name("PadStatus");
+ name += index;
+ if(!StoreReferenceData("DAQData",(const char *)name,(TObject *) calPed,&metaData)){
+ Log(Form("Error storing AliTRDCalibPadStatus object %d as reference data",(Int_t)index));
+ error = kTRUE;
+ }
+
+ } // calPed
+ } // fileNameEntry
+ ++index;
+ }// while (list)
+
+ Log(Form("%d elements found in the list for the pedestal",(Int_t)index));
+ if(index==0){
+ delete listpad;
+ return kTRUE;
+ }
+
+ //
+ // Create pedestal
+ //
+
+ // Create Pad Status
+ AliTRDCalPadStatus *calPadStatus = calPedSum.CreateCalPadStatus();
+ // Create Noise
+ //Make the AliTRDCalPad
+ AliTRDCalPad *calPad2 = calPedSum.CreateCalPad();
+ //Make the AliTRDCalDet correspondant
+ AliTRDCalDet *calDet = calPedSum.CreateCalDet();
+
+ //
+ // Take the noise and Pad status from the previous OCDB
+ //
+
+ AliTRDCalPad *calPadPrevious=0;
+ AliCDBEntry* entry = GetFromOCDB("Calib", "PadNoise");
+ if (entry) calPadPrevious = (AliTRDCalPad*)entry->GetObject();
+ if ( calPadPrevious==NULL ) {
+ Log("AliTRDPreprocsessor: No previous TRD pad noise entry available.\n");
+ calPadPrevious = new AliTRDCalPad("PadNoise", "PadNoise");
+ }
+
+ AliTRDCalPadStatus *calPadStatusPrevious=0;
+ entry = GetFromOCDB("Calib", "PadStatus");
+ if (entry) calPadStatusPrevious = (AliTRDCalPadStatus*)entry->GetObject();
+ if ( calPadStatusPrevious==NULL ) {
+ Log("AliTRDPreprocsessor: No previous TRD pad status entry available.\n");
+ calPadStatusPrevious = new AliTRDCalPadStatus("padstatus", "padstatus");
+ for (Int_t idet=0; idet<540; ++idet)
+ {
+ AliTRDCalSingleChamberStatus *calROC = calPadStatusPrevious->GetCalROC(idet);
+ for(Int_t k = 0; k < calROC->GetNchannels(); k++){
+ calROC->SetStatus(k,AliTRDCalPadStatus::kMasked);
+ }
+ }
+ }
+
+
+ // Loop over detectors for check
+ for (Int_t det=0; det<AliTRDgeometry::kNdet; ++det) {
+
+ // noise
+ AliTRDCalROC *calROCPreviousNoise = calPadPrevious->GetCalROC(det);
+ AliTRDCalROC *calROCNoise = calPad2->GetCalROC(det);
+
+ // padstatus
+ AliTRDCalSingleChamberStatus *calROCPreviousStatus = calPadStatusPrevious->GetCalROC(det);
+ AliTRDCalSingleChamberStatus *calROCStatus = calPadStatus->GetCalROC(det);
+
+
+ // loop over first half and second half chamber
+ for(Int_t half = 0; half < 2; half++){
+
+ Bool_t data = AreThereDataPedestal(calROCStatus,(Bool_t)half);
+ //printf("There are data for the detector %d the half %d: %d\n",det,half,data);
+ if(!data){
+ // look if data in the OCDB
+ Bool_t dataPrevious = AreThereDataPedestal(calROCPreviousStatus,(Bool_t)half);
+ // if no data at all, set to default value
+ if(!dataPrevious){
+ SetDefaultStatus(*calROCStatus,(Bool_t)half);
+ SetDefaultNoise(*calROCNoise,(Bool_t)half);
}
else{
- Log(Form("Error by retrieving the file %d for the pedestal",(Int_t)index));
- fResult |= kEGetFileDAQ;
+ // if data, set to previous value
+ SetStatus(*calROCStatus,calROCPreviousStatus,(Bool_t)half);
+ SetNoise(*calROCNoise,calROCPreviousNoise,(Bool_t)half);
}
- }// fileNameEntry length
- ++index;
- }// while (list)
- Log(Form("%d elements found in the list for the pedestal",(Int_t)index));
- if(index==0){
- fResult |= kEEmptyListDAQ;
- }
- //
- // Store pedestal entry to OCDB
- //
-
-
- // Create Pad Status
- AliTRDCalPadStatus *calPadStatus = calPedSum.CreateCalPadStatus();
- AliCDBMetaData md3;
- md3.SetObjectClassName("AliTRDCalPadStatus");
- md3.SetResponsible("Raphaelle Bailhache");
- md3.SetBeamPeriod(1);
- md3.SetComment("TRD calib test");
- if(!Store("Calib","PadStatus" ,(TObject *)calPadStatus, &md3, 0, kTRUE)){
- Log("Error storing the pedestal");
- fResult |= kEStore;
+ }
}
+ }
+
+ //
+ // Store
+ //
+
+ AliCDBMetaData md3;
+ md3.SetObjectClassName("AliTRDCalPadStatus");
+ md3.SetResponsible("Raphaelle Bailhache");
+ md3.SetBeamPeriod(1);
+ md3.SetComment("TRD calib test");
+ if(!Store("Calib","PadStatus" ,(TObject *)calPadStatus, &md3, 0, kTRUE)){
+ Log("Error storing the pedestal");
delete listpad;
+ return kTRUE;
}
- else {
- Log("No list found for the PEDESTRAL Run");
- fResult |= kEGetFileDAQ;
+
+ AliCDBMetaData md4;
+ md4.SetObjectClassName("AliTRDCalPad");
+ md4.SetResponsible("Raphaelle Bailhache");
+ md4.SetBeamPeriod(1);
+ md4.SetComment("TRD calib test");
+ if(!Store("Calib","PadNoise" ,(TObject *)calPad2, &md4, 0, kTRUE)){
+ Log("Error storing the pedestal");
+ delete listpad;
+ return kTRUE;
+ }
+
+ AliCDBMetaData md5;
+ md5.SetObjectClassName("AliTRDCalDet");
+ md5.SetResponsible("Raphaelle Bailhache");
+ md5.SetBeamPeriod(1);
+ md5.SetComment("TRD calib test");
+ if(!Store("Calib","DetNoise" ,(TObject *)calDet, &md5, 0, kTRUE)){
+ Log("Error storing the pedestal");
+ delete listpad;
+ return kTRUE;
+ }
+
+ delete listpad;
+ return error;
+
+}
+
+//__________________________________________________________________
+Bool_t AliTRDPreprocessor::AreThereDataPedestal(AliTRDCalSingleChamberStatus * const calROCStatus
+ , Bool_t second)
+{
+
+ //
+ // Data for this half chamber
+ //
+
+ Bool_t data = kFALSE;
+ Int_t nCols = calROCStatus->GetNcols();
+ Int_t nCol0 = 0;
+ Int_t nColE = (Int_t) nCols/2 - 2;
+ if(second) {
+ nCol0 = nColE + 4;
+ nColE = nCols;
+ }
+
+ Int_t totalnumberofpads = 0;
+ Int_t totalnumberofdata = 0;
+
+ for(Int_t col = nCol0; col < nColE; col++){
+ for(Int_t row = 0; row < calROCStatus->GetNrows(); row++){
+ totalnumberofpads++;
+ //printf("ismasked %d\n",(Int_t)calROCStatus->IsMasked(col,row));
+ if(!calROCStatus->GetStatus(col,row)) {
+ data = kTRUE;
+ totalnumberofdata++;
+ }
+ }
}
+ if(totalnumberofdata < (Int_t)(totalnumberofpads/2)) data = kFALSE;
+
+ return data;
+}
+//__________________________________________________________________
+void AliTRDPreprocessor::SetDefaultStatus(AliTRDCalSingleChamberStatus &calROCStatus, Bool_t second){
+
+ //
+ // default status for this half chamber
+ //
+
+ Int_t nCols = calROCStatus.GetNcols();
+ Int_t nCol0 = 0;
+ Int_t nColE = (Int_t) nCols/2;
+ if(second) {
+ nCol0 = nColE;
+ nColE = nCols;
+ }
+ for(Int_t col = nCol0; col < nColE; col++){
+ for(Int_t row = 0; row < calROCStatus.GetNrows(); row++){
+ calROCStatus.SetStatus(col,row,0);
+ }
+ }
+}
+//__________________________________________________________________
+void AliTRDPreprocessor::SetStatus(AliTRDCalSingleChamberStatus &calROCStatus, AliTRDCalSingleChamberStatus *calROCStatusPrevious,Bool_t second){
+
+ //
+ // previous status for this half chamber
+ //
+ Int_t nCols = calROCStatus.GetNcols();
+ Int_t nCol0 = 0;
+ Int_t nColE = (Int_t) nCols/2;
+ if(second) {
+ nCol0 = nColE;
+ nColE = nCols;
+ }
+ for(Int_t col = nCol0; col < nColE; col++){
+ for(Int_t row = 0; row < calROCStatus.GetNrows(); row++){
+ calROCStatus.SetStatus(col,row,calROCStatusPrevious->GetStatus(col,row));
+ }
+ }
+}
+//__________________________________________________________________
+void AliTRDPreprocessor::SetDefaultNoise(AliTRDCalROC &calROCNoise, Bool_t second){
+
+ //
+ // default noise for this half chamber
+ //
+
+ Int_t nCols = calROCNoise.GetNcols();
+ Int_t nCol0 = 0;
+ Int_t nColE = (Int_t) nCols/2;
+ if(second) {
+ nCol0 = nColE;
+ nColE = nCols;
+ }
+ for(Int_t col = nCol0; col < nColE; col++){
+ for(Int_t row = 0; row < calROCNoise.GetNrows(); row++){
+ calROCNoise.SetValue(col,row,0.12);
+ }
+ }
+}
+//__________________________________________________________________
+void AliTRDPreprocessor::SetNoise(AliTRDCalROC &calROCNoise, AliTRDCalROC *calROCNoisePrevious, Bool_t second){
+
+ //
+ // previous noise for this half chamber
+ //
+
+ Int_t nCols = calROCNoise.GetNcols();
+ Int_t nCol0 = 0;
+ Int_t nColE = (Int_t) nCols/2;
+ if(second) {
+ nCol0 = nColE;
+ nColE = nCols;
+ }
+ for(Int_t col = nCol0; col < nColE; col++){
+ for(Int_t row = 0; row < calROCNoise.GetNrows(); row++){
+ calROCNoise.SetValue(col,row,calROCNoisePrevious->GetValue(col,row));
+ }
+ }
}
//______________________________________________________________________________________________
-void AliTRDPreprocessor::ExtractDriftVelocityDAQ()
+Bool_t AliTRDPreprocessor::ExtractDriftVelocityDAQ()
{
//
// Drift velocity DA running on monitoring servers at the DAQ
//
+ Bool_t error = kFALSE;
// Objects for HLT and DAQ zusammen
AliTRDCalibraFit *calibra = AliTRDCalibraFit::Instance();
md2.SetBeamPeriod(0);
md2.SetComment("TRD calib test");
-
-
-
// Take the file from the DAQ file exchange server
TList *listdaq = GetFileSources(kDAQ,"VDRIFT");
- if (listdaq) {
- if(listdaq->GetSize() ==1){
- TObjString* fileNameEntry = (TObjString*) listdaq->At(0);
- if(fileNameEntry != NULL){
- TString fileName = GetFile(kDAQ, "VDRIFT",
- fileNameEntry->GetString().Data());
- if(fileName.Length() !=0){
- TFile *filedaq = TFile::Open(fileName);
- TProfile2D *histodriftvelocity = (TProfile2D *) filedaq->Get("PH2d");
- if (histodriftvelocity) {
-
- // store as reference data
- if(!StoreReferenceData("DAQData","VdriftT0",(TObject *) histodriftvelocity,&metaData)){
- Log("Error storing 2D Profile for vdrift from the DAQ");
- fResult |= kEStore;
- }
-
- // analyse
- if(!fVdriftHLT){
- Log("Take the PH reference data. Now we will try to fit\n");
- calibra->SetMinEntries(2000); // If there is less than 2000
- calibra->AnalysePH(histodriftvelocity);
-
- Int_t nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(1))
- + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(1));
- Int_t nbfit = calibra->GetNumberFit();
- Int_t nbE = calibra->GetNumberEnt();
-
- // if enough statistics store the results
- if ((nbtg > 0) &&
- (nbfit >= 0.95*nbE)) {
- // create the cal objects
- TObjArray object = calibra->GetVectorFit();
- AliTRDCalDet *objdriftvelocitydet = calibra->CreateDetObjectVdrift(&object,kTRUE);
- TObject *objdriftvelocitypad = calibra->CreatePadObjectVdrift();
- object = calibra->GetVectorFit2();
- AliTRDCalDet *objtime0det = calibra->CreateDetObjectT0(&object,kTRUE);
- TObject *objtime0pad = calibra->CreatePadObjectT0();
- calibra->ResetVectorFit();
- // store
- if(!Store("Calib","ChamberVdrift" ,(TObject *) objdriftvelocitydet,&md1,0,kTRUE)){
- Log("Error storing the calibration object for the chamber vdrift (DAQ)");
- fResult |= kEStore;
- }
- if(!Store("Calib","ChamberT0" ,(TObject *) objtime0det ,&md1,0,kTRUE)){
- Log("Error storing the calibration object for the chamber t0 (DAQ)");
- fResult |= kEStore;
- }
- if(!Store("Calib","LocalVdrift" ,(TObject *) objdriftvelocitypad,&md2,0,kTRUE)){
- Log("Error storing the calibration object for the local drift velocity (DAQ)");
- fResult |= kEStore;
- }
- if(!Store("Calib","LocalT0" ,(TObject *) objtime0pad ,&md2,0,kTRUE)){
- Log("Error storing the calibration object for the local time0 (DAQ)");
- fResult |= kEStore;
- }
- }
- else{
- Log("Not enough statistics for the average pulse height (DAQ)");
- }
- } // analyse
- } // histo here
- }
- else{
- Log("Error retrieving the file vdrift (DAQ)");
- if(!fVdriftHLT) fResult |= kEGetFileDAQ;
- }
- }// if fileNameEntry
- } // size DAQ list
- else{
- Log(Form("Problem on the size of the list: %d (DAQ)",listdaq->GetSize()));
- if(!fVdriftHLT) fResult |= kEEmptyListDAQ;
- }
- delete listdaq;
- }
- else{
+ if (!listdaq) {
Log("No list found for vdrift (DAQ)");
- if(!fVdriftHLT){
- fResult |= kEGetFileDAQ;
- }
+ return kTRUE;
+ }
+
+ if(listdaq->GetSize() !=1){
+ Log(Form("Problem on the size of the list: %d (DAQ)",listdaq->GetSize()));
+ delete listdaq;
+ return kTRUE;
}
-
+
+ TObjString* fileNameEntry = (TObjString*) listdaq->At(0);
+ if(fileNameEntry != NULL){
+ TString fileName = GetFile(kDAQ, "VDRIFT",
+ fileNameEntry->GetString().Data());
+ if(fileName.Length() ==0){
+ Log("Error retrieving the file vdrift (DAQ)");
+ delete listdaq;
+ return kTRUE;
+ }
+ TFile *filedaq = TFile::Open(fileName);
+ TProfile2D *histodriftvelocity = (TProfile2D *) filedaq->Get("PH2d");
+ if (histodriftvelocity) {
+
+ // store as reference data
+ if(!StoreReferenceData("DAQData","VdriftT0",(TObject *) histodriftvelocity,&metaData)){
+ Log("Error storing 2D Profile for vdrift from the DAQ");
+ error = kTRUE;
+ }
+
+ // analyse
+
+ Log("Take the PH reference data. Now we will try to fit\n");
+ calibra->SetMinEntries(2000); // If there is less than 2000
+ calibra->AnalysePH(histodriftvelocity);
+
+ Int_t nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(1))
+ + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(1));
+ Int_t nbfit = calibra->GetNumberFit();
+ Int_t nbfitSuccess = calibra->GetNumberFitSuccess();
+ Int_t nbE = calibra->GetNumberEnt();
+
+ // if enough statistics store the results
+ if ((nbtg > 0) &&
+ (nbfit >= 0.5*nbE) && (nbE > 30) && (nbfitSuccess > 30)) {
+ // create the cal objects
+ calibra->RemoveOutliers(1,kTRUE);
+ calibra->PutMeanValueOtherVectorFit(1,kTRUE);
+ calibra->RemoveOutliers2(kTRUE);
+ calibra->PutMeanValueOtherVectorFit2(1,kTRUE);
+ TObjArray object = calibra->GetVectorFit();
+ AliTRDCalDet *objdriftvelocitydet = calibra->CreateDetObjectVdrift(&object,kTRUE);
+ // TObject *objdriftvelocitypad = calibra->CreatePadObjectVdrift();
+ object = calibra->GetVectorFit2();
+ AliTRDCalDet *objtime0det = calibra->CreateDetObjectT0(&object,kTRUE);
+ // TObject *objtime0pad = calibra->CreatePadObjectT0();
+ calibra->ResetVectorFit();
+ // store
+ if(!Store("Calib","ChamberVdrift" ,(TObject *) objdriftvelocitydet,&md1,0,kTRUE)){
+ Log("Error storing the calibration object for the chamber vdrift (DAQ)");
+ error = kTRUE;
+ }
+ if(!Store("Calib","ChamberT0" ,(TObject *) objtime0det ,&md1,0,kTRUE)){
+ Log("Error storing the calibration object for the chamber t0 (DAQ)");
+ error = kTRUE;
+ }
+ // if(!Store("Calib","LocalVdrift" ,(TObject *) objdriftvelocitypad,&md2,0,kTRUE)){
+ // Log("Error storing the calibration object for the local drift velocity (DAQ)");
+ // error = kTRUE;
+ // }
+ // if(!Store("Calib","LocalT0" ,(TObject *) objtime0pad ,&md2,0,kTRUE)){
+ // Log("Error storing the calibration object for the local time0 (DAQ)");
+ // error = kTRUE;
+ // }
+ }
+ else{
+ Log("Not enough statistics for the average pulse height (DAQ)");
+ }
+ } // histo here
+ }// if fileNameEntry
+
+ delete listdaq;
+ return error;
+
}
+
//______________________________________________________________________________________________
-void AliTRDPreprocessor::ExtractHLT()
+Bool_t AliTRDPreprocessor::ExtractHLT()
{
//
// Gain, vdrift and PRF calibration running on HLT
- // return kFALSE if NULL pointer to the list
+ // return kTRUE if NULL pointer to the list
//
-
+ Bool_t error = kFALSE;
+
// Objects for HLT and DAQ zusammen
AliTRDCalibraFit *calibra = AliTRDCalibraFit::Instance();
AliCDBMetaData metaData;
md2.SetResponsible("Raphaelle Bailhache");
md2.SetBeamPeriod(0);
md2.SetComment("TRD calib test");
-
// Take the file from the HLT file exchange server
TList *listhlt = GetFileSources(kHLT,"GAINDRIFTPRF");
- if (listhlt) {
- if (listhlt->GetSize() == 1) {
- TObjString* fileNameEntry = (TObjString*) listhlt->At(0);
- if(fileNameEntry != NULL){
- TString fileName = GetFile(kHLT, "GAINDRIFTPRF",
- fileNameEntry->GetString().Data());
- if(fileName.Length() !=0){
- // Take the file
- TFile *filehlt = TFile::Open(fileName);
-
-
- // gain
- TH2I *histogain = (TH2I *) filehlt->Get("CH2d");
- histogain->SetDirectory(0);
- if (histogain) {
- // store the reference data
- if(!StoreReferenceData("HLTData","Gain",(TObject *) histogain,&metaData)){
- Log("Error storing 2D histos for gain");
- fResult |= kEStore;
- }
- // analyse
- Log("Take the CH reference data. Now we will try to fit\n");
- calibra->SetMinEntries(1000); // If there is less than 1000 entries in the histo: no fit
- calibra->AnalyseCH(histogain);
- Int_t nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(0))
- + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(0));
- Int_t nbfit = calibra->GetNumberFit();
- Int_t nbE = calibra->GetNumberEnt();
- // enough statistics
- if ((nbtg > 0) &&
- (nbfit >= 0.95*nbE)) {
- // create the cal objects
- TObjArray object = calibra->GetVectorFit();
- AliTRDCalDet *objgaindet = calibra->CreateDetObjectGain(&object,calibra->GetScaleFitFactor(),kTRUE);
- TObject *objgainpad = calibra->CreatePadObjectGain();
- // store them
- if(!Store("Calib","ChamberGainFactor",(TObject *) objgaindet ,&md1,0,kTRUE)){
- Log("Error storing the calibration object for the chamber gain");
- fResult |= kEStore;
- }
- if(!Store("Calib","LocalGainFactor" ,(TObject *) objgainpad ,&md2,0,kTRUE)){
- Log("Error storing the calibration object for the local gain factor");
- fResult |= kEStore;
- }
- }
- calibra->ResetVectorFit();
- }// if histogain
-
-
-
- // vdrift
- fVdriftHLT = kFALSE;
- TProfile2D *histodriftvelocity = (TProfile2D *) filehlt->Get("PH2d");
- histodriftvelocity->SetDirectory(0);
- if (histodriftvelocity) {
- // store the reference data
- if(!StoreReferenceData("HLTData","VdriftT0",(TObject *) histodriftvelocity,&metaData)){
- Log("Error storing 2D Profile for average pulse height (HLT)");
- fResult |= kEStore;
- }
- // analyse
- Log("Take the PH reference data. Now we will try to fit\n");
- calibra->SetMinEntries(1000*20); // If there is less than 20000
- calibra->AnalysePH(histodriftvelocity);
- Int_t nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(1))
- + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(1));
- Int_t nbfit = calibra->GetNumberFit();
- Int_t nbE = calibra->GetNumberEnt();
- // enough statistics
- if ((nbtg > 0) &&
- (nbfit >= 0.95*nbE)) {
- // create the cal objects
- TObjArray object = calibra->GetVectorFit();
- AliTRDCalDet *objdriftvelocitydet = calibra->CreateDetObjectVdrift(&object,kTRUE);
- TObject *objdriftvelocitypad = calibra->CreatePadObjectVdrift();
- object = calibra->GetVectorFit2();
- AliTRDCalDet *objtime0det = calibra->CreateDetObjectT0(&object,kTRUE);
- TObject *objtime0pad = calibra->CreatePadObjectT0();
- // store them
- if(!Store("Calib","ChamberVdrift" ,(TObject *) objdriftvelocitydet,&md1,0,kTRUE)){
- Log("Error storing the calibration object for the chamber vdrift (HLT)");
- fResult |= kEStore;
- }
- if(!Store("Calib","ChamberT0" ,(TObject *) objtime0det ,&md1,0,kTRUE)){
- Log("Error storing the calibration object for the chamber t0 (HLT)");
- fResult |= kEStore;
- }
- if(!Store("Calib","LocalVdrift" ,(TObject *) objdriftvelocitypad,&md2,0,kTRUE)){
- Log("Error storing the calibration object for the local drift velocity (HLT)");
- fResult |= kEStore;
- }
- if(!Store("Calib","LocalT0" ,(TObject *) objtime0pad ,&md2,0,kTRUE)){
- Log("Error storing the calibration object for the local time0 (HLT)");
- fResult |= kEStore;
- }
- fVdriftHLT = kTRUE;
- }
- calibra->ResetVectorFit();
- }// if TProfile2D
-
-
- // prf
- TProfile2D *histoprf = (TProfile2D *) filehlt->Get("PRF2d");
- histoprf->SetDirectory(0);
- if (histoprf) {
- // store reference data
- if(!StoreReferenceData("HLTData","PRF",(TObject *) histoprf,&metaData)){
- Log("Error storing the 2D Profile for Pad Response Function");
- fResult |= kEStore;
- }
- // analyse
- Log("Take the PRF reference data. Now we will try to fit\n");
- calibra->SetMinEntries(600); // If there is less than 20000
- calibra->AnalysePRFMarianFit(histoprf);
- Int_t nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(2))
- + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(2));
- Int_t nbfit = calibra->GetNumberFit();
- Int_t nbE = calibra->GetNumberEnt();
- // enough statistics
- if ((nbtg > 0) &&
- (nbfit >= 0.95*nbE)) {
- // create cal pad objects
- TObjArray object = calibra->GetVectorFit();
- TObject *objPRFpad = calibra->CreatePadObjectPRF(&object);
- // store them
- if(!Store("Calib","PRFWidth" ,(TObject *) objPRFpad ,&md2,0,kTRUE)){
- Log("Error storing the calibration object for the Pad Response Function");
- fResult |= kEStore;
- }
- }
- calibra->ResetVectorFit();
- }// if PRF
- }
- else{
- Log("Error retrieving the file (HLT)");
- fResult |= kEGetFileHLT;
- }
- } // fileNameEntry
- } // if HLT size of tlist
- else{
- Log(Form("Problem on the size of the list: %d (HLT)",listhlt->GetSize()));
- fResult |= kEEmptyListHLT;
- }
- delete listhlt;
- } //if HLT tlist
- else{
+ if (!listhlt) {
Log("No list found for the HLT");
- fResult |= kEGetFileHLT;
+ return kTRUE;
+ }
+
+ if(listhlt->GetSize() != 1) {
+ Log(Form("Problem on the size of the list: %d (HLT)",listhlt->GetSize()));
+ delete listhlt;
+ return kTRUE;
}
+ TObjString* fileNameEntry = (TObjString*) listhlt->At(0);
+ if(fileNameEntry != NULL){
+ TString fileName = GetFile(kHLT, "GAINDRIFTPRF",
+ fileNameEntry->GetString().Data());
+ if(fileName.Length() ==0){
+ Log("Error retrieving the file (HLT)");
+ delete listhlt;
+ return kTRUE;
+ }
+ // Take the file
+ TFile *filehlt = TFile::Open(fileName);
+
+ // gain
+ TH2I *histogain = (TH2I *) filehlt->Get("CH2d");
+ if (histogain) {
+ histogain->SetDirectory(0);
+ // store the reference data
+ if(!StoreReferenceData("HLTData","Gain",(TObject *) histogain,&metaData)){
+ Log("Error storing 2D histos for gain");
+ error = kTRUE;
+ }
+ // analyse
+ Log("Take the CH reference data. Now we will try to fit\n");
+ calibra->SetMinEntries(800); // If there is less than 1000 entries in the histo: no fit
+ calibra->AnalyseCH(histogain);
+ Int_t nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(0))
+ + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(0));
+ Int_t nbfit = calibra->GetNumberFit();
+ Int_t nbE = calibra->GetNumberEnt();
+ // enough statistics
+ if ((nbtg > 0) &&
+ (nbfit >= 0.5*nbE) && (nbE > 30)) {
+ // create the cal objects
+ calibra->PutMeanValueOtherVectorFit(1,kTRUE);
+ TObjArray object = calibra->GetVectorFit();
+ AliTRDCalDet *objgaindet = calibra->CreateDetObjectGain(&object);
+ // TObject *objgainpad = calibra->CreatePadObjectGain();
+ // store them
+ if(!Store("Calib","ChamberGainFactor",(TObject *) objgaindet ,&md1,0,kTRUE)){
+ Log("Error storing the calibration object for the chamber gain");
+ error = kTRUE;
+ }
+ // if(!Store("Calib","LocalGainFactor" ,(TObject *) objgainpad ,&md2,0,kTRUE)){
+ // Log("Error storing the calibration object for the local gain factor");
+ // error = kTRUE;
+ // }
+ }
+ calibra->ResetVectorFit();
+ }// if histogain
+
+ // vdrift
+ fVdriftHLT = kFALSE;
+ TProfile2D *histodriftvelocity = (TProfile2D *) filehlt->Get("PH2d");
+ if (histodriftvelocity) {
+ histodriftvelocity->SetDirectory(0);
+ // store the reference data
+ if(!StoreReferenceData("HLTData","VdriftT0",(TObject *) histodriftvelocity,&metaData)){
+ Log("Error storing 2D Profile for average pulse height (HLT)");
+ error = kTRUE;
+ }
+ // analyse
+ Log("Take the PH reference data. Now we will try to fit\n");
+ calibra->SetMinEntries(800*20); // If there is less than 20000
+ calibra->AnalysePH(histodriftvelocity);
+ Int_t nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(1))
+ + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(1));
+ Int_t nbfit = calibra->GetNumberFit();
+ Int_t nbfitSuccess = calibra->GetNumberFitSuccess();
+ Int_t nbE = calibra->GetNumberEnt();
+ // enough statistics
+ if ((nbtg > 0) &&
+ (nbfit >= 0.5*nbE) && (nbE > 30) && (nbfitSuccess > 30)) {
+ // create the cal objects
+ calibra->RemoveOutliers(1,kTRUE);
+ calibra->PutMeanValueOtherVectorFit(1,kTRUE);
+ calibra->RemoveOutliers2(kTRUE);
+ calibra->PutMeanValueOtherVectorFit2(1,kTRUE);
+ TObjArray object = calibra->GetVectorFit();
+ AliTRDCalDet *objdriftvelocitydet = calibra->CreateDetObjectVdrift(&object,kTRUE);
+ // TObject *objdriftvelocitypad = calibra->CreatePadObjectVdrift();
+ object = calibra->GetVectorFit2();
+ AliTRDCalDet *objtime0det = calibra->CreateDetObjectT0(&object,kTRUE);
+ //TObject *objtime0pad = calibra->CreatePadObjectT0();
+ // store them
+ if(!Store("Calib","ChamberVdrift" ,(TObject *) objdriftvelocitydet,&md1,0,kTRUE)){
+ Log("Error storing the calibration object for the chamber vdrift (HLT)");
+ error = kTRUE;
+ }
+ if(!Store("Calib","ChamberT0" ,(TObject *) objtime0det ,&md1,0,kTRUE)){
+ Log("Error storing the calibration object for the chamber t0 (HLT)");
+ error = kTRUE;
+ }
+ // if(!Store("Calib","LocalVdrift" ,(TObject *) objdriftvelocitypad,&md2,0,kTRUE)){
+ // Log("Error storing the calibration object for the local drift velocity (HLT)");
+ // error = kTRUE;
+ // }
+ // if(!Store("Calib","LocalT0" ,(TObject *) objtime0pad ,&md2,0,kTRUE)){
+ // Log("Error storing the calibration object for the local time0 (HLT)");
+ // error = kTRUE;
+ // }
+ fVdriftHLT = kTRUE;
+ }
+ calibra->ResetVectorFit();
+ }// if TProfile2D
+
+ // prf
+ /*
+ TProfile2D *histoprf = (TProfile2D *) filehlt->Get("PRF2d");
+ if (histoprf) {
+ histoprf->SetDirectory(0);
+ // store reference data
+ if(!StoreReferenceData("HLTData","PRF",(TObject *) histoprf,&metaData)){
+ Log("Error storing the 2D Profile for Pad Response Function");
+ error = kTRUE;
+ }
+ // analyse
+ Log("Take the PRF reference data. Now we will try to fit\n");
+ calibra->SetMinEntries(600); // If there is less than 20000
+ calibra->AnalysePRFMarianFit(histoprf);
+ Int_t nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(2))
+ + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(2));
+ Int_t nbfit = calibra->GetNumberFit();
+ Int_t nbE = calibra->GetNumberEnt();
+ // enough statistics
+ if ((nbtg > 0) &&
+ (nbfit >= 0.95*nbE) && (nbE > 30)) {
+ // create cal pad objects
+ TObjArray object = calibra->GetVectorFit();
+ TObject *objPRFpad = calibra->CreatePadObjectPRF(&object);
+ // store them
+ if(!Store("Calib","PRFWidth" ,(TObject *) objPRFpad ,&md2,0,kTRUE)){
+ Log("Error storing the calibration object for the Pad Response Function");
+ error = kTRUE;
+ }
+ }
+ calibra->ResetVectorFit();
+ }// if PRF
+ */
+ }// if fileNameEntry
+
+ delete listhlt;
+ return error;
+
+}
+
+//_____________________________________________________________________________
+UInt_t AliTRDPreprocessor::ProcessDCSConfigData()
+{
+ // process the configuration of FEE, PTR and GTU
+ // reteive XML filei(s) from the DCS FXS
+ // parse it/them and store TObjArrays in the CDB
+
+ Log("Processing the DCS config summary files.");
+
+ if(fCalDCSObjSOR) delete fCalDCSObjSOR;
+ if(fCalDCSObjEOR) delete fCalDCSObjEOR;
+
+ TString xmlFile[2];
+ TString esor[2] = {"SOR", "EOR"};
+ // get the XML files
+ xmlFile[0] = GetFile(kDCS,"CONFIGSUMMARYSOR","");
+ xmlFile[1] = GetFile(kDCS,"CONFIGSUMMARYEOR","");
+
+
+ // check both files
+ for (Int_t iFile=0; iFile<2; iFile++) {
+
+ // check if the file are there
+ if (xmlFile[iFile].IsNull()) {
+ Log(Form("Warning: %s file not found!", esor[iFile].Data()));
+ continue;
+ }
+ Log(Form("%s file found: %s", esor[iFile].Data(), xmlFile[iFile].Data()));
+
+ // test the file
+ std::ifstream fileTest;
+ fileTest.open(xmlFile[iFile].Data(), std::ios_base::binary | std::ios_base::in);
+ if (!fileTest.good() || fileTest.eof() || !fileTest.is_open()) {
+ Log(Form("Warning: %s file not valid!", esor[iFile].Data()));
+ continue;
+ }
+ // check if the file is empty
+ fileTest.seekg(0, std::ios_base::end);
+ if (static_cast<int>(fileTest.tellg()) < 2) {
+ Log(Form("Warning: %s file empty!", esor[iFile].Data()));
+ continue;
+ }
+ Log(Form("%s file is valid.", esor[iFile].Data()));
+
+ // make a robust XML validation
+ TSAXParser testParser;
+ if (testParser.ParseFile(xmlFile[iFile].Data()) < 0 ) {
+ Log(Form("Warning: %s XML content is not well-formed!", esor[iFile].Data()));
+ continue;
+ }
+ Log(Form("%s XML content is well-formed.", esor[iFile].Data()));
+
+ // create parser and parse
+ TSAXParser saxParser;
+ AliTRDSaxHandler saxHandler;
+ saxParser.ConnectToHandler("AliTRDSaxHandler", &saxHandler);
+ saxParser.ParseFile(xmlFile[iFile].Data());
+
+ // report errors of the parser if present
+ if (saxParser.GetParseCode() != 0) {
+ Log(Form("Warning: %s XML file validation failed! Parse code: %d", esor[iFile].Data(), saxParser.GetParseCode()));
+ continue;
+ }
+ Log(Form("%s XML validation OK.", esor[iFile].Data()));
+
+ // report errors of the handler if present
+ if (saxHandler.GetHandlerStatus() != 0) {
+ Log(Form("Warning: Creating %s calibration object failed! Error code: %d", esor[iFile].Data(), saxHandler.GetHandlerStatus()));
+ continue;
+ }
+ Log(Form("%s SAX handler reports no errors.", esor[iFile].Data()));
+
+ // get the calibration object storing the data from the handler
+ AliTRDCalDCSv2 *calDCSObj = (AliTRDCalDCSv2*)saxHandler.GetCalDCSObj()->Clone();
+ calDCSObj->EvaluateGlobalParameters();
+ calDCSObj->SetRunType(GetRunType());
+ calDCSObj->SetStartTime(GetStartTimeDCSQuery());
+ calDCSObj->SetEndTime(GetEndTimeDCSQuery());
+ if (iFile == 0) fCalDCSObjSOR = calDCSObj;
+ if (iFile == 1) fCalDCSObjEOR = calDCSObj;
+ }
+
+ if (!fCalDCSObjSOR && !fCalDCSObjEOR) { Log("ERROR: Failed reading both files!"); return 1; }
+
+ // put both objects in one TObjArray to store them
+ TObjArray* calObjArray = new TObjArray(2);
+ calObjArray->SetOwner();
+
+ if (fCalDCSObjSOR) {
+ calObjArray->AddAt(fCalDCSObjSOR,0);
+ Log("TRDCalDCS object for SOR created.");
+ }
+ if (fCalDCSObjEOR) {
+ calObjArray->AddAt(fCalDCSObjEOR,1);
+ Log("TRDCalDCS object for EOR created.");
+ }
+
+ // store the DCS calib data in the CDB
+ AliCDBMetaData metaData1;
+ metaData1.SetBeamPeriod(0);
+ metaData1.SetResponsible("Frederick Kramer");
+ metaData1.SetComment("DCS configuration data in two AliTRDCalDCSv2 objects in one TObjArray (0:SOR, 1:EOR).");
+ if (!Store("Calib", "DCS", calObjArray, &metaData1, 0, kTRUE)) { Log("ERROR: Storing DCS config data object failed!"); return 1; }
+
+ delete calObjArray;
+
+ Log("SUCCESS: Processing of the DCS config summary file DONE.");
+ return 0;
}
+