////////////////////////////////////////////////////////////////////////////
#include <TGeoGlobalMagField.h>
-#include <TPRegexp.h>
#include "AliGRPManager.h"
#include "AliLog.h"
// Set the global mag field instance
if ( TGeoGlobalMagField::Instance()->IsLocked() ) {
- AliInfo("Running with the externally locked B field !");
- }
- else {
- // Construct the field map out of the information retrieved from GRP.
- Bool_t ok = kTRUE;
- // L3
- Float_t l3Current = fGRPData->GetL3Current((AliGRPObject::Stats)0);
- if (l3Current == AliGRPObject::GetInvalidFloat()) {
- AliError("GRP/GRP/Data entry: missing value for the L3 current !");
- ok = kFALSE;
- }
-
- Char_t l3Polarity = fGRPData->GetL3Polarity();
- if (l3Polarity == AliGRPObject::GetInvalidChar()) {
- AliError("GRP/GRP/Data entry: missing value for the L3 polarity !");
- ok = kFALSE;
+ if (TGeoGlobalMagField::Instance()->GetField()->TestBit(AliMagF::kOverrideGRP)) {
+ AliInfo("ExpertMode!!! GRP information will be ignored !");
+ AliInfo("ExpertMode!!! Running with the externally locked B field !");
+ return kTRUE;
}
-
- // Dipole
- Float_t diCurrent = fGRPData->GetDipoleCurrent((AliGRPObject::Stats)0);
- if (diCurrent == AliGRPObject::GetInvalidFloat()) {
- AliError("GRP/GRP/Data entry: missing value for the dipole current !");
- ok = kFALSE;
- }
-
- Char_t diPolarity = fGRPData->GetDipolePolarity();
- if (diPolarity == AliGRPObject::GetInvalidChar()) {
- AliError("GRP/GRP/Data entry: missing value for the dipole polarity !");
- ok = kFALSE;
- }
-
- TString beamType = fGRPData->GetBeamType();
- if (beamType==AliGRPObject::GetInvalidString()) {
- AliError("GRP/GRP/Data entry: missing value for the beam type ! Using UNKNOWN");
- beamType = "UNKNOWN";
- //ok = kFALSE; // temprorary suppressed to make read cosmics data
- }
-
- Float_t beamEnergy = fGRPData->GetBeamEnergy();
- if (beamEnergy==AliGRPObject::GetInvalidFloat()) {
- AliError("GRP/GRP/Data entry: missing value for the beam energy ! Using 0");
- beamEnergy = 0;
- //ok = kFALSE; // temprorary suppressed to make read cosmics data
+ else {
+ AliInfo("Destroying existing B field instance!");
+ delete TGeoGlobalMagField::Instance();
}
- // LHC: "multiply by 120 to get the energy in MeV"
- beamEnergy *= 0.120;
+ }
+ //
+ if (!fGRPData) {
+ AliError("GRP Data is not loaded");
+ return kFALSE;
+ }
+ //
+ // Construct the field map out of the information retrieved from GRP.
+ Bool_t ok = kTRUE;
+ // L3
+ Float_t l3Current = fGRPData->GetL3Current((AliGRPObject::Stats)0);
+ if (l3Current == AliGRPObject::GetInvalidFloat()) {
+ AliError("GRP/GRP/Data entry: missing value for the L3 current !");
+ ok = kFALSE;
+ }
- // read special bits for the polarity convention and map type
- Int_t polConvention = fGRPData->IsPolarityConventionLHC() ? AliMagF::kConvLHC : AliMagF::kConvDCS2008;
- Bool_t uniformB = fGRPData->IsUniformBMap();
-
- if (ok) {
- if ( !SetFieldMap(l3Current, diCurrent, l3Polarity ? -1:1, diPolarity ? -1:1,
- polConvention,uniformB,beamEnergy, beamType.Data())) {
- AliError("Failed to create a B field map !");
- ok = kFALSE;
- }
+ Char_t l3Polarity = fGRPData->GetL3Polarity();
+ if (l3Polarity == AliGRPObject::GetInvalidChar()) {
+ AliError("GRP/GRP/Data entry: missing value for the L3 polarity !");
+ ok = kFALSE;
+ }
+
+ // Dipole
+ Float_t diCurrent = fGRPData->GetDipoleCurrent((AliGRPObject::Stats)0);
+ if (diCurrent == AliGRPObject::GetInvalidFloat()) {
+ AliError("GRP/GRP/Data entry: missing value for the dipole current !");
+ ok = kFALSE;
+ }
+
+ Char_t diPolarity = fGRPData->GetDipolePolarity();
+ if (diPolarity == AliGRPObject::GetInvalidChar()) {
+ AliError("GRP/GRP/Data entry: missing value for the dipole polarity !");
+ ok = kFALSE;
+ }
+
+ TString beamType = fGRPData->GetBeamType();
+ if (beamType==AliGRPObject::GetInvalidString()) {
+ AliError("GRP/GRP/Data entry: missing value for the beam type ! Using UNKNOWN");
+ beamType = "UNKNOWN";
+ //ok = kFALSE; // temprorary suppressed to make read cosmics data
+ }
+
+ Float_t beamEnergy = fGRPData->GetBeamEnergy();
+ if (beamEnergy==AliGRPObject::GetInvalidFloat()) {
+ AliError("GRP/GRP/Data entry: missing value for the beam energy ! Using 0");
+ beamEnergy = 0;
+ //ok = kFALSE; // temprorary suppressed to make read cosmics data
+ }
+ // LHC: "multiply by 120 to get the energy in MeV"
+ beamEnergy *= 0.120;
+
+ // read special bits for the polarity convention and map type
+ Int_t polConvention = fGRPData->IsPolarityConventionLHC() ? AliMagF::kConvLHC : AliMagF::kConvDCS2008;
+ Bool_t uniformB = fGRPData->IsUniformBMap();
+
+ if (ok) {
+ AliMagF* fld = AliMagF::CreateFieldMap(TMath::Abs(l3Current) * (l3Polarity ? -1:1),
+ TMath::Abs(diCurrent) * (diPolarity ? -1:1),
+ polConvention,uniformB,beamEnergy, beamType.Data());
+ if (fld) {
+ TGeoGlobalMagField::Instance()->SetField( fld );
+ TGeoGlobalMagField::Instance()->Lock();
AliInfo("Running with the B field constructed out of GRP !");
}
else {
- AliError("B field is neither set nor constructed from GRP ! Exitig...");
+ AliError("Failed to create a B field map !");
+ ok = kFALSE;
}
- return ok;
}
-
- return kTRUE;
+ else {
+ AliError("B field is neither set nor constructed from GRP ! Exitig...");
+ }
+
+ return ok;
}
//_____________________________________________________________________________
}
//_____________________________________________________________________________
-Bool_t AliGRPManager::SetFieldMap(Float_t l3Cur, Float_t diCur, Float_t l3Pol,
- Float_t diPol, Int_t convention, Bool_t uniform,
- Float_t beamenergy, const Char_t *beamtype, const Char_t *path)
+void AliGRPManager::SetGRPEntry(AliGRPObject* source)
{
- //------------------------------------------------
- // The magnetic field map, defined externally...
- // L3 current 30000 A -> 0.5 T
- // L3 current 12000 A -> 0.2 T
- // dipole current 6000 A
- // The polarities must match the convention (LHC or DCS2008)
- // unless the special uniform map was used for MC
- //------------------------------------------------
- const Float_t l3NominalCurrent1=30000.; // (A)
- const Float_t l3NominalCurrent2=12000.; // (A)
- const Float_t diNominalCurrent =6000. ; // (A)
-
- const Float_t tolerance=0.03; // relative current tolerance
- const Float_t zero=77.; // "zero" current (A)
- //
- AliMagF::BMap_t map;
- double sclL3,sclDip;
- //
- l3Cur = TMath::Abs(l3Cur);
- diCur = TMath::Abs(diCur);
- //
- if (TMath::Abs((sclDip=diCur/diNominalCurrent)-1.) > tolerance && !uniform) {
- if (diCur <= zero) sclDip = 0.; // some small current.. -> Dipole OFF
- else {
- AliError(Form("Wrong dipole current (%f A)!",diCur));
- return kFALSE;
- }
- }
- //
- if (uniform) {
- // special treatment of special MC with uniform mag field (normalized to 0.5 T)
- // no check for scaling/polarities are done
- map = AliMagF::k5kGUniform;
- sclL3 = l3Cur/l3NominalCurrent1;
- }
- else {
- if (TMath::Abs((sclL3=l3Cur/l3NominalCurrent1)-1.) < tolerance) map = AliMagF::k5kG;
- else if (TMath::Abs((sclL3=l3Cur/l3NominalCurrent2)-1.) < tolerance) map = AliMagF::k2kG;
- else if (l3Cur <= zero) { sclL3 = 0; map = AliMagF::k5kGUniform;}
- else {
- AliError(Form("Wrong L3 current (%f A)!",l3Cur));
- return kFALSE;
- }
- }
- //
- if (sclDip!=0 && (map==AliMagF::k5kG || map==AliMagF::k2kG) &&
- ((convention==AliMagF::kConvLHC && l3Pol!=diPol) ||
- (convention==AliMagF::kConvDCS2008 && l3Pol==diPol)) ) {
- AliError(Form("Wrong combination for L3/Dipole polarities (%c/%c) for convention %d",
- l3Pol>0?'+':'-',diPol>0?'+':'-',AliMagF::GetPolarityConvention()));
- return kFALSE;
- }
- //
- if (l3Pol<0) sclL3 = -sclL3;
- if (diPol<0) sclDip = -sclDip;
- //
- AliMagF::BeamType_t btype = AliMagF::kNoBeamField;
- TString btypestr = beamtype;
- btypestr.ToLower();
- TPRegexp protonBeam("(proton|p)\\s*-?\\s*\\1");
- TPRegexp ionBeam("(lead|pb|ion|a)\\s*-?\\s*\\1");
- if (btypestr.Contains(ionBeam)) btype = AliMagF::kBeamTypeAA;
- else if (btypestr.Contains(protonBeam)) btype = AliMagF::kBeamTypepp;
- else AliInfo(Form("Assume no LHC magnet field for the beam type %s, ",beamtype));
- char ttl[80];
- sprintf(ttl,"L3: %+5d Dip: %+4d kA; %s | Polarities in %s convention",(int)TMath::Sign(l3Cur,float(sclL3)),
- (int)TMath::Sign(diCur,float(sclDip)),uniform ? " Constant":"",
- convention==AliMagF::kConvLHC ? "LHC":"DCS2008");
- // LHC and DCS08 conventions have opposite dipole polarities
- if ( AliMagF::GetPolarityConvention() != convention) sclDip = -sclDip;
- AliMagF* fld = new AliMagF("MagneticFieldMap", ttl, 2, sclL3, sclDip, 10., map, path,
- btype,beamenergy);
- TGeoGlobalMagField::Instance()->SetField( fld );
- TGeoGlobalMagField::Instance()->Lock();
+ // Create a GRP entry from the extrnaly provide GRP object
+ // To be used by HLT to create an online GRP instance
+ if (!source) return;
+ if (fGRPData) delete fGRPData;
+ fGRPData = new AliGRPObject(*source);
+ AliInfo("Created GRP Data from external object");
//
- return kTRUE;
}
+