ClassImp(AliLHCData)\r
\r
const Char_t* AliLHCData::fgkDCSNames[] = {\r
- "LHC_IntensityBeam%d_totalIntensity",\r
- "LHC_BeamIntensityPerBunchBeam%d_averageBeamIntensity",\r
- "LHC_BeamIntensityPerBunchBeam%d_Average_BunchIntensities",\r
+ "LHC_IntensityBeam%1d_totalIntensity",\r
+ "LHC_BeamIntensityPerBunchBeam%1d_averageBeamIntensity",\r
+ "LHC_BeamIntensityPerBunchBeam%1d_Average_BunchIntensities",\r
//\r
"LHC_LumAverageBRANB_4%c2_acqMode",\r
"LHC_LumAverageBRANB_4%c2_meanLuminosity",\r
"LHC_CirculatingBunchConfig_Beam%d",\r
"LHC_FillNumber",\r
//\r
- "LHC_BunchLengthBeam%d_nBunches",\r
- "LHC_BunchLengthBeam%d_bunchesLenghts",\r
- "LHC_BunchLengthBeam%d_filledBuckets",\r
+ "LHC_BunchLengthBeam%1d_nBunches",\r
+ "LHC_BunchLengthBeam%1d_bunchesLenghts",\r
+ "LHC_BunchLengthBeam%1d_filledBuckets",\r
//\r
"LHC_RunControl_ActiveInjectionScheme",\r
"LHC_RunControl_BetaStar",\r
"LHC_RunControl_IP2_Xing_Murad",\r
"LHC_RunControl_IP2_ALICE_Murad",\r
\r
- "LHC_BeamSizeBeam%d_acqMode",\r
- "LHC_BeamSizeBeam%d_sigmaH",\r
- "LHC_BeamSizeBeam%d_sigmaV",\r
- "LHC_BeamSizeBeam%d_emittanceH",\r
- "LHC_BeamSizeBeam%d_emittanceV",\r
- "LHC_BeamSizeBeam%d_errorSigmaH",\r
- "LHC_BeamSizeBeam%d_errorSigmaV",\r
+ "LHC_BeamSizeBeam%1d_acqMode",\r
+ "LHC_BeamSizeBeam%1d_sigmaH",\r
+ "LHC_BeamSizeBeam%1d_sigmaV",\r
+ "LHC_BeamSizeBeam%1d_emittanceH",\r
+ "LHC_BeamSizeBeam%1d_emittanceV",\r
+ "LHC_BeamSizeBeam%1d_errorSigmaH",\r
+ "LHC_BeamSizeBeam%1d_errorSigmaV",\r
//\r
"LHC_CollimatorPos_%s_lvdt_%s"\r
};\r
SetTMax(tmax);\r
//\r
// -------------------------- extract Fill Number\r
- int iEntry;\r
- TObjArray* arr = GetDCSEntry(fgkDCSNames[kFillNum],iEntry,fTMin,fTMax);\r
- if (arr) SetFillNumber( ExtractInt( (AliDCSArray*)arr->At(iEntry), 0) );\r
+ int iFirst=0,iLast=0;\r
+ TObjArray* arr = GetDCSEntry(fgkDCSNames[kFillNum],iFirst,iLast,fTMin,fTMax);\r
+ if (arr) SetFillNumber( ExtractInt( (AliDCSArray*)arr->At(iFirst), 0) );\r
if (fFile2Process) delete arr; // array was created on demand\r
//\r
for (int ibm=0;ibm<2;ibm++) {\r
//\r
- sprintf(buff,fgkDCSNames[kBunchConf],ibm+1); // ----- declared bunch configuration\r
+ snprintf(buff,99,fgkDCSNames[kBunchConf],ibm+1); // ----- declared bunch configuration\r
FillBunchConfig(fBunchConfDecl[ibm], buff);\r
//\r
- sprintf(buff,fgkDCSNames[kBunchLgtFillB],ibm+1); // ----- measured bunch configuration\r
+ snprintf(buff,99,fgkDCSNames[kBunchLgtFillB],ibm+1); // ----- measured bunch configuration\r
FillBunchConfig(fBunchConfMeas[ibm], buff);\r
//\r
- sprintf(buff,fgkDCSNames[kBunchLgt],ibm+1); // ----- measured bunch lenghts\r
+ snprintf(buff,99,fgkDCSNames[kBunchLgt],ibm+1); // ----- measured bunch lenghts\r
FillBunchInfo(fBunchLengths[ibm],buff,ibm,kFALSE); \r
//\r
- sprintf(buff,fgkDCSNames[kIntBunchAv],ibm+1); // ----- B-by-B intensities\r
+ snprintf(buff,99,fgkDCSNames[kIntBunchAv],ibm+1); // ----- B-by-B intensities\r
FillBunchInfo(fIntensPerBunch[ibm],buff,ibm,kTRUE);\r
//\r
//\r
- sprintf(buff,fgkDCSNames[kIntTot],ibm+1); // ----- total intensities for beam 1 and 2\r
+ snprintf(buff,99,fgkDCSNames[kIntTot],ibm+1); // ----- total intensities for beam 1 and 2\r
FillScalarRecord(fIntensTotal[ibm], buff);\r
//\r
- sprintf(buff,fgkDCSNames[kIntTotAv],ibm+1); // ----- total intensities for beam 1 and 2 from B-by-B average\r
+ snprintf(buff,99,fgkDCSNames[kIntTotAv],ibm+1); // ----- total intensities for beam 1 and 2 from B-by-B average\r
FillScalarRecord(fIntensTotalAv[ibm], buff);\r
//\r
- sprintf(buff,fgkDCSNames[kBeamSzEmittH],ibm+1); // ----- H emittance for beam 1 and 2 \r
+ snprintf(buff,99,fgkDCSNames[kBeamSzEmittH],ibm+1); // ----- H emittance for beam 1 and 2 \r
FillScalarRecord(fEmittanceH[ibm], buff);\r
//\r
- sprintf(buff,fgkDCSNames[kBeamSzEmittV],ibm+1); // ----- V emittance for beam 1 and 2 \r
+ snprintf(buff,99,fgkDCSNames[kBeamSzEmittV],ibm+1); // ----- V emittance for beam 1 and 2 \r
FillScalarRecord(fEmittanceV[ibm], buff);\r
//\r
- sprintf(buff ,fgkDCSNames[kBeamSzSigH], ibm+1); // ----- H sigmas and errors for beam 1 and 2 \r
- sprintf(buff1,fgkDCSNames[kBeamSzSigHErr],ibm+1);\r
+ snprintf(buff,99 ,fgkDCSNames[kBeamSzSigH], ibm+1); // ----- H sigmas and errors for beam 1 and 2 \r
+ snprintf(buff1,99,fgkDCSNames[kBeamSzSigHErr],ibm+1);\r
FillScalarRecord(fBeamSigmaH[ibm], buff, buff1);\r
//\r
- sprintf(buff ,fgkDCSNames[kBeamSzSigV], ibm+1); // ----- V sigmas and errors for beam 1 and 2 \r
- sprintf(buff1,fgkDCSNames[kBeamSzSigVErr],ibm+1);\r
+ snprintf(buff,99 ,fgkDCSNames[kBeamSzSigV], ibm+1); // ----- V sigmas and errors for beam 1 and 2 \r
+ snprintf(buff1,99,fgkDCSNames[kBeamSzSigVErr],ibm+1);\r
FillScalarRecord(fBeamSigmaV[ibm], buff, buff1);\r
//\r
}\r
//\r
for (int ilr=0;ilr<2;ilr++) {\r
//\r
- sprintf(buff ,fgkDCSNames[kLumBunch], ilr ? 'R':'L'); // ---- BC-by-BC luminosity at IP2 and its error\r
- sprintf(buff1,fgkDCSNames[kLumBunchErr], ilr ? 'R':'L');\r
+ snprintf(buff,99 ,fgkDCSNames[kLumBunch], ilr ? 'R':'L'); // ---- BC-by-BC luminosity at IP2 and its error\r
+ snprintf(buff1,99,fgkDCSNames[kLumBunchErr], ilr ? 'R':'L');\r
FillBCLuminosities(fLuminPerBC[ilr], buff, buff1, 0); // BRAN L uses beam2 as a reference, BRAN R - beam1\r
//\r
- sprintf(buff ,fgkDCSNames[kLumTot] , ilr ? 'R':'L'); // ---- total luminosity at IP2 and its error\r
- sprintf(buff1,fgkDCSNames[kLumTotErr], ilr ? 'R':'L');\r
+ snprintf(buff,99 ,fgkDCSNames[kLumTot] , ilr ? 'R':'L'); // ---- total luminosity at IP2 and its error\r
+ snprintf(buff1,99,fgkDCSNames[kLumTotErr], ilr ? 'R':'L');\r
FillScalarRecord(fLuminTotal[ilr], buff, buff1);\r
//\r
- sprintf(buff ,fgkDCSNames[kLumAcqMode], ilr ? 'R':'L'); // ---- luminosity acquisition mode\r
+ snprintf(buff,99 ,fgkDCSNames[kLumAcqMode], ilr ? 'R':'L'); // ---- luminosity acquisition mode\r
FillAcqMode(fLuminAcqMode[ilr], buff);\r
//\r
- sprintf(buff, fgkDCSNames[kLumCrossAng] , ilr ? 'R':'L'); //----- crossing angle at IP2 and its error\r
- sprintf(buff1,fgkDCSNames[kLumCrossAngErr], ilr ? 'R':'L');\r
+ snprintf(buff,99, fgkDCSNames[kLumCrossAng] , ilr ? 'R':'L'); //----- crossing angle at IP2 and its error\r
+ snprintf(buff1,99,fgkDCSNames[kLumCrossAngErr], ilr ? 'R':'L');\r
FillScalarRecord(fCrossAngle[ilr], buff, buff1);\r
// \r
}\r
//\r
for (int icl=0;icl<kNCollimators;icl++) { // ----- collimators positions\r
for (int jaw=0;jaw<kNJaws;jaw++) {\r
- sprintf(buff,fgkDCSNames[kCollPos], fgkDCSColNames[icl],fgkDCSColJaws[jaw]); \r
+ snprintf(buff,99,fgkDCSNames[kCollPos], fgkDCSColNames[icl],fgkDCSColJaws[jaw]); \r
FillScalarRecord(fCollimators[icl][jaw], buff);\r
} // jaws\r
} // collimators\r
}\r
\r
//___________________________________________________________________\r
-TObjArray* AliLHCData::GetDCSEntry(const char* key,int &entry,double tmin,double tmax) const\r
+TObjArray* AliLHCData::GetDCSEntry(const char* key,int &entry,int &last,double tmin,double tmax) const\r
{\r
// extract array from the DCS map or file and find the first entry within the time limits\r
entry = -1;\r
+ last = -2;\r
TObjArray* arr;\r
if (fMap2Process) arr = (TObjArray*)fMap2Process->GetValue(key);\r
else if (fFile2Process) {\r
return 0;\r
}\r
int ntot = arr->GetEntriesFast();\r
+ //\r
+ // search 1st entry before or at tmin\r
+ AliDCSArray* ent = 0;\r
+ Bool_t found = kFALSE;\r
for (entry=0;entry<ntot;entry++) {\r
- AliDCSArray* ent = (AliDCSArray*)arr->At(entry);\r
- if (ent->GetTimeStamp()>=tmin && ent->GetTimeStamp()<=tmax) break;\r
+ ent = (AliDCSArray*)arr->At(entry);\r
+ if (ent->GetTimeStamp()>=tmin-kMarginSOR && ent->GetTimeStamp()<=tmax+kMarginEOR) {\r
+ found = kTRUE;\r
+ if (ent->GetTimeStamp()>tmin) break;\r
+ }\r
}\r
- if (entry==ntot) {\r
+ if (!found) {\r
entry = -1;\r
TString str;\r
str += AliLHCDipValD::TimeAsString(tmin);\r
if (fMap2Process) delete arr; // created on demand\r
return 0;\r
}\r
+ if (entry>0) entry--;\r
+ //\r
+ // search last entry at or after tmin\r
+ ent = 0;\r
+ for (last=entry;last<ntot;last++) {\r
+ ent = (AliDCSArray*)arr->At(last);\r
+ if (ent->GetTimeStamp()>tmax) break;\r
+ }\r
+ if (last == ntot) last--;\r
+ else if (ent->GetTimeStamp()>tmax+kMarginEOR) last--;\r
+ //\r
return arr;\r
}\r
\r
AliInfo(Form("Acquiring record: %s",rec));\r
//\r
TObjArray *arr=0,*arrE=0;\r
- Int_t nEntries=0,nEntriesE=0,iEntry=0,iEntryE=0;\r
+ Int_t iLast=0,iLastE=0,iFirst=0,iFirstE=0;\r
//\r
refs[kStart] = fData.GetEntriesFast();\r
refs[kNStor] = 0;\r
//\r
- if ( !(arr=GetDCSEntry(rec,iEntry,fTMin,fTMax)) ) return -1;\r
- nEntries = arr->GetEntriesFast();\r
+ if ( !(arr=GetDCSEntry(rec,iFirst,iLast,fTMin,fTMax)) ) return -1;\r
//\r
int dim = 1;\r
if (recErr) {\r
- if ( !(arrE=GetDCSEntry(recErr,iEntryE,fTMin,fTMax)) ) nEntriesE = -999;\r
- else nEntriesE = arrE->GetEntriesFast();\r
+ arrE = GetDCSEntry(recErr,iFirstE,iLastE,fTMin,fTMax);\r
dim += 1;\r
}\r
//\r
- while (iEntry<nEntries) {\r
- AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iEntry++);\r
+ // Bool_t last = kFALSE;\r
+ while (iFirst<=iLast) {\r
+ AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iFirst++);\r
double tstamp = dcsVal->GetTimeStamp();\r
- if (tstamp>fTMax) break;\r
//\r
AliLHCDipValF* curValF = new AliLHCDipValF(dim,tstamp); // start new period\r
(*curValF)[0] = ExtractDouble(dcsVal,0); // value\r
//\r
if (recErr) {\r
double errVal = -1;\r
- while (iEntryE<nEntriesE) { // try to find corresponding error\r
- AliDCSArray *dcsValE = (AliDCSArray*) arrE->At(iEntryE);\r
+ while (iFirstE<=iLastE) { // try to find corresponding error\r
+ AliDCSArray *dcsValE = (AliDCSArray*) arrE->At(iFirstE);\r
double tstampE = dcsValE->GetTimeStamp();\r
- if (tstampE>fTMax) break;\r
int tdif = TimeDifference(tstamp,tstampE);\r
if (!tdif) { // error matches to value\r
errVal = ExtractDouble(dcsValE,0);\r
- iEntryE++; \r
+ iFirstE++; \r
break;\r
}\r
- else if (tdif>0) iEntryE++; // error time lags behind, read the next one\r
+ else if (tdif>0) iFirstE++; // error time lags behind, read the next one\r
else break; // error time is ahead of value, no error associated\r
}\r
(*curValF)[dim-1] = errVal; // error\r
//\r
fData.Add(curValF);\r
refs[kNStor]++;\r
+ // if (last) break;\r
}\r
//\r
if (fFile2Process) {\r
//\r
AliInfo(Form("Acquiring record: %s",rec));\r
TObjArray *arr;\r
- Int_t nEntries,iEntry;\r
+ Int_t iLast,iFirst;\r
//\r
refs[kStart] = fData.GetEntriesFast();\r
refs[kNStor] = 0;\r
//\r
- if ( !(arr=GetDCSEntry(rec,iEntry,fTMin,fTMax)) ) return -1;\r
- nEntries = arr->GetEntriesFast();\r
+ if ( !(arr=GetDCSEntry(rec,iFirst,iLast,fTMin,fTMax)) ) return -1;\r
//\r
AliLHCDipValI* prevRecI=0;\r
- while (iEntry<nEntries) {\r
- AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iEntry++);\r
+ // \r
+ while (iFirst<=iLast) {\r
+ AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iFirst++);\r
double tstamp = dcsVal->GetTimeStamp();\r
- if (tstamp>fTMax) break;\r
//\r
int bucket=0, nbunch=0, ndiff=0;\r
int nSlots = dcsVal->GetNEntries(); // count number of actual bunches (non-zeros)\r
//\r
AliInfo(Form("Acquiring record: %s",rec));\r
TObjArray *arr;\r
- Int_t nEntries,iEntry;\r
+ Int_t iLast,iFirst;\r
//\r
refs[kStart] = fData.GetEntriesFast();\r
refs[kNStor] = 0;\r
//\r
- if ( !(arr=GetDCSEntry(rec,iEntry,fTMin,fTMax)) ) return -1;\r
- nEntries = arr->GetEntriesFast();\r
+ if ( !(arr=GetDCSEntry(rec,iFirst,iLast,fTMin,fTMax)) ) return -1;\r
//\r
AliLHCDipValI* prevRecI=0;\r
- while (iEntry<nEntries) {\r
- AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iEntry++);\r
+ while (iFirst<=iLast) {\r
+ AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iFirst++);\r
double tstamp = dcsVal->GetTimeStamp();\r
- if (tstamp>fTMax) break;\r
//\r
int nSlots = dcsVal->GetNEntries();\r
if (nSlots<1) continue;\r
AliInfo(Form("Acquiring record: %s",rec));\r
TString prevRec;\r
TObjArray *arr;\r
- Int_t nEntries,iEntry;\r
+ Int_t iLast,iFirst;\r
//\r
refs[kStart] = fData.GetEntriesFast();\r
refs[kNStor] = 0;\r
//\r
- if ( !(arr=GetDCSEntry(rec,iEntry,fTMin,fTMax)) ) return -1;\r
- nEntries = arr->GetEntriesFast();\r
+ if ( !(arr=GetDCSEntry(rec,iFirst,iLast,fTMin,fTMax)) ) return -1;\r
//\r
- while (iEntry<nEntries) {\r
- AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iEntry++);\r
+ while (iFirst<=iLast) {\r
+ AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iFirst++);\r
double tstamp = dcsVal->GetTimeStamp();\r
- if (tstamp>fTMax) break;\r
//\r
TString &str = ExtractString(dcsVal);\r
if (!prevRec.IsNull()) {if (str == prevRec) continue;} // skip similar record\r
//\r
AliInfo(Form("Acquiring record: %s",rec));\r
TObjArray *arr;\r
- Int_t nEntries,iEntry;\r
+ Int_t iLast,iFirst;\r
//\r
refs[kStart] = fData.GetEntriesFast();\r
refs[kNStor] = 0;\r
//\r
- if ( !(arr=GetDCSEntry(rec,iEntry,fTMin,fTMax)) ) return -1;\r
- nEntries = arr->GetEntriesFast();\r
+ if ( !(arr=GetDCSEntry(rec,iFirst,iLast,fTMin,fTMax)) ) return -1;\r
//\r
- while (iEntry<nEntries) {\r
- AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iEntry++);\r
+ while (iFirst<=iLast) {\r
+ AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iFirst++);\r
double tstamp = dcsVal->GetTimeStamp();\r
- if (tstamp>fTMax) break;\r
//\r
AliLHCDipValI *bconf = GetBunchConfigMeasured(ibm,tstamp);\r
if (!bconf) {\r
//\r
AliInfo(Form("Acquiring record: %s",rec));\r
TObjArray *arr,*arrE=0;\r
- Int_t nEntries=0,nEntriesE=0,iEntry=0,iEntryE=0;\r
+ Int_t iLast=0,iLastE=0,iFirst=0,iFirstE=0;\r
//\r
refs[kStart] = fData.GetEntriesFast();\r
refs[kNStor] = 0;\r
//\r
- if ( !(arr=GetDCSEntry(rec,iEntry,fTMin,fTMax)) ) return -1;\r
- nEntries = arr->GetEntriesFast();\r
+ if ( !(arr=GetDCSEntry(rec,iFirst,iLast,fTMin,fTMax)) ) return -1;\r
//\r
- while (iEntry<nEntries) {\r
- AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iEntry++);\r
+ while (iFirst<=iLast) {\r
+ AliDCSArray *dcsVal = (AliDCSArray*) arr->At(iFirst++);\r
double tstamp = dcsVal->GetTimeStamp();\r
- if (tstamp>fTMax) break;\r
//\r
AliLHCDipValI *bconf;\r
bconf = GetBunchConfigMeasured(useBeam,tstamp); // luminosities are stored according to beam bunches\r
}\r
//\r
if (recErr) {\r
- if ( !(arrE=GetDCSEntry(recErr,iEntryE,fTMin,fTMax)) || iEntryE<0 ) nEntriesE = -999;\r
- else nEntriesE = arrE->GetEntriesFast();\r
+ arrE=GetDCSEntry(recErr,iFirstE,iLastE,fTMin,fTMax);\r
dim += 1;\r
}\r
AliLHCDipValF* curValF = new AliLHCDipValF(dim,tstamp);\r
//\r
if (recErr) {\r
double errVal = -1;\r
- while (iEntryE<nEntriesE) { // try to find corresponding error\r
- AliDCSArray *dcsValE = (AliDCSArray*) arrE->At(iEntryE);\r
+ while (iFirstE<=iLastE) { // try to find corresponding error\r
+ AliDCSArray *dcsValE = (AliDCSArray*) arrE->At(iFirstE);\r
double tstamp1 = dcsValE->GetTimeStamp();\r
- if (tstamp1>fTMax) break;\r
int tdif = TimeDifference(tstamp,tstamp1);\r
if (!tdif) { // error matches to value\r
errVal = dcsValE->GetDouble()[0];\r
- iEntryE++; \r
+ iFirstE++; \r
break;\r
}\r
- else if (tdif>0) iEntryE++; // error time lags behind, read the next one\r
+ else if (tdif>0) iFirstE++; // error time lags behind, read the next one\r
else break; // error time is ahead of value, no error associated\r
}\r
(*curValF)[dim-1] = errVal; // error\r
// print full info\r
TString opts = opt;\r
opts.ToLower();\r
+ Bool_t utcTime = opts.Contains("loc") ? kFALSE:kTRUE;\r
Bool_t full = kTRUE;\r
if (!opts.Contains("f")) {\r
printf("Use Print(\"f\") to print full info\n");\r
printf("Printing short info:\n<RecordType>(number of records): <TimeStamp, value> for 1st record only\n");\r
full = kFALSE;\r
}\r
- printf("Fill#%6d Validity: %s - %s\n",fFillNumber,\r
- AliLHCDipValI::TimeAsString(fTMin),AliLHCDipValI::TimeAsString(fTMax));\r
+ TString sdtmn = AliLHCDipValI::TimeAsString(fTMin,utcTime);\r
+ TString sdtmx = AliLHCDipValI::TimeAsString(fTMax,utcTime);\r
+ printf("Fill#%6d Validity: %s - %s (%s)\n",fFillNumber,sdtmn.Data(),sdtmx.Data(),utcTime ? "UTC":"LOC");\r
//\r
printf("********** SETTINGS FROM RUN CONTROL **********\n");\r
//\r
printf("* %-38s","Injection Scheme");\r
- PrintAux(full,fRCInjScheme);\r
+ PrintAux(full,fRCInjScheme,opts);\r
//\r
printf("* %-38s","Beta Star");\r
- PrintAux(full,fRCBeta);\r
+ PrintAux(full,fRCBeta,opts);\r
//\r
printf("* %-38s","Horisontal Crossing Angle");\r
- PrintAux(full,fRCAngH);\r
+ PrintAux(full,fRCAngH,opts);\r
//\r
printf("* %-38s","Vertical Crossing Angle");\r
- PrintAux(full,fRCAngV);\r
+ PrintAux(full,fRCAngV,opts);\r
//\r
for (int ib=0;ib<2;ib++) {\r
printf("* Beam%d filling [- interacts at IR2!] ",ib+1);\r
- PrintAux(full,fBunchConfDecl[ib]);\r
+ PrintAux(full,fBunchConfDecl[ib],opts);\r
}\r
//\r
printf("\n********** MEASURED DATA **********\n");\r
//\r
for (int ib=0;ib<2;ib++) {\r
printf("* Beam%d filling [- interacts at IR2!] ",ib+1);\r
- PrintAux(full,fBunchConfMeas[ib]);\r
+ PrintAux(full,fBunchConfMeas[ib],opts);\r
} \r
//\r
for (int ib=0;ib<2;ib++) {\r
printf("* Beam%d total intensity ",ib+1);\r
- PrintAux(full,fIntensTotal[ib]);\r
+ PrintAux(full,fIntensTotal[ib],opts);\r
} \r
//\r
for (int ib=0;ib<2;ib++) {\r
printf("* Beam%d total intensity (bunch average) ",ib+1);\r
- PrintAux(full,fIntensTotalAv[ib]);\r
+ PrintAux(full,fIntensTotalAv[ib],opts);\r
} \r
//\r
for (int ib=0;ib<2;ib++) {\r
printf("* Beam%d intensity per bunch ",ib+1);\r
- PrintAux(full,fIntensPerBunch[ib]);\r
+ PrintAux(full,fIntensPerBunch[ib],opts);\r
}\r
//\r
for (int ib=0;ib<2;ib++) {\r
printf("* Beam%d bunch lengths ",ib+1);\r
- PrintAux(full,fBunchLengths[ib]);\r
+ PrintAux(full,fBunchLengths[ib],opts);\r
} \r
//\r
for (int ib=0;ib<2;ib++) {\r
printf("* Beam%d Horisontal emittance ",ib+1);\r
- PrintAux(full,fEmittanceH[ib]);\r
+ PrintAux(full,fEmittanceH[ib],opts);\r
}\r
//\r
for (int ib=0;ib<2;ib++) {\r
printf("* Beam%d Vertical emittance ",ib+1);\r
- PrintAux(full,fEmittanceV[ib]);\r
+ PrintAux(full,fEmittanceV[ib],opts);\r
}\r
//\r
for (int ib=0;ib<2;ib++) {\r
printf("* Beam%d Horisontal sigma ",ib+1);\r
- PrintAux(full,fBeamSigmaH[ib]);\r
+ PrintAux(full,fBeamSigmaH[ib],opts);\r
}\r
//\r
for (int ib=0;ib<2;ib++) {\r
printf("* Beam%d Vertical sigma ",ib+1);\r
- PrintAux(full,fBeamSigmaV[ib]);\r
+ PrintAux(full,fBeamSigmaV[ib],opts);\r
}\r
//\r
for (int lr=0;lr<2;lr++) {\r
printf("* Total luminosity from BRANB_4%c2 ",lr ? 'R':'L');\r
- PrintAux(full,fLuminTotal[lr]);\r
+ PrintAux(full,fLuminTotal[lr],opts);\r
} \r
//\r
for (int lr=0;lr<2;lr++) {\r
printf("* Luminosity acq.mode, BRANB_4%c2 ",lr ? 'R':'L');\r
- PrintAux(full,fLuminAcqMode[lr],"bit");\r
+ PrintAux(full,fLuminAcqMode[lr],opts+"bit");\r
} \r
//\r
for (int lr=0;lr<2;lr++) {\r
printf("* Luminosity per BC from BRANB_4%c2 ",lr ? 'R':'L');\r
- PrintAux(full,fLuminPerBC[lr]);\r
+ PrintAux(full,fLuminPerBC[lr],opts);\r
}\r
//\r
for (int lr=0;lr<2;lr++) {\r
printf("* Crossing angle, side %c ",lr ? 'R':'L');\r
- PrintAux(full,fCrossAngle[lr]);\r
+ PrintAux(full,fCrossAngle[lr],opts);\r
}\r
//\r
for (int coll=0;coll<kNCollimators;coll++)\r
for (int jaw=0;jaw<kNJaws;jaw++) {\r
printf("* Collimator %10s:%16s",fgkDCSColNames[coll],fgkDCSColJaws[jaw]);\r
- PrintAux(full,fCollimators[coll][jaw]);\r
+ PrintAux(full,fCollimators[coll][jaw],opts);\r
}\r
//\r
}\r
}\r
}\r
}\r
+\r
+//___________________________________________________________________\r
+Int_t AliLHCData::GetMeanIntensity(int beamID, Double_t &colliding, Double_t &noncolliding) const\r
+{\r
+ // get average intensity for all, colliding and non-colliding bunches\r
+ // on success returns number of intensity records used (1 per ~10 min)\r
+ colliding = noncolliding = -1.;\r
+ if (beamID<0||beamID>1) {\r
+ AliError(Form("BeamID must be either 0 or 1, %d requested",beamID));\r
+ return -10;\r
+ }\r
+ //\r
+ int nrec = GetNIntensityPerBunch(beamID);\r
+ if (nrec<1) return -1;\r
+ AliLHCDipValI *conf = GetBunchConfigMeasured(beamID);\r
+ if (!conf) conf = GetBunchConfigDeclared(beamID);\r
+ if (!conf) return -2;\r
+ int nb = conf->GetSize();\r
+ //\r
+ for (int irec=0;irec<nrec;irec++) {\r
+ AliLHCDipValF* rInt = GetIntensityPerBunch(beamID,irec);\r
+ for (int ib=0;ib<nb;ib++) {\r
+ double val = rInt->GetValue(ib);\r
+ if (val<0) continue;\r
+ int bID = conf->GetValue(ib);\r
+ if (bID<0) colliding += val;\r
+ else noncolliding += val;\r
+ }\r
+ }\r
+ colliding /= nrec;\r
+ noncolliding /= nrec;\r
+ return nrec;\r
+}\r