enum EDetectors {kPIPE=1,kITS,kTPC,kTRD,kTOF,kFRAME,kMAG,kACORDE,kHALL,kPHOS,kT0,kFMD,kABSO,kPMD,kDIPO,kEMCAL,kVZERO,kMUON,kZDC,kSHILD};
enum EProcesses {kDCAY=1,kPAIR,kCOMP,kPHOT,kPFIS,kDRAY,kANNI,kBREM,kMUNU,kCKOV,kHADR,kLOSS,kMULS,kRAYL,kALL};
- enum EBatchFlags{kAll=55,kHmp,kDdl,kDat,kRoo,kVtx,kTrk,kHlt,kPid,kAln};
+ enum EBatchFlags{kAll=55,kHmp,kDdl,kDat,kRoo,kVtx,kTrk,kHlt,kPid,kAln,kRecoPar};
enum EMagField {kFld0,kFld2,kFld4,kFld5,kFld_2,kFld_4,kFld_5};
Float_t Eta2Theta (Float_t arg) const{return (180./TMath::Pi())*2.*TMath::ATan(TMath::Exp(-arg));}
pHmpGF->AddFrame(fVerBG=new TGButtonGroup(pHmpGF,"")); fVerBG->Connect("Pressed(Int_t)" ,"HmpConfig",this,"HmpVerSlot(Int_t)");
new TGRadioButton(fVerBG, "No" ,kNo );
new TGRadioButton(fVerBG, "ver0" ,kVer0 );
- new TGRadioButton(fVerBG, "ver1" ,kVer1 ); fVerBG->SetButton(kVer1);
- new TGRadioButton(fVerBG, "ver2" ,kVer2 );
+ new TGRadioButton(fVerBG, "ver1" ,kVer1 );
+ new TGRadioButton(fVerBG, "ver2" ,kVer2 ); fVerBG->SetButton(kVer2);
pHmpGF->AddFrame(fOptBG=new TGButtonGroup(pHmpGF,"")); fOptBG->Connect("Pressed(Int_t)" ,"HmpConfig",this,"HmpVerSlot(Int_t)");
new TGCheckButton(fOptBG,"Test run position" ,kTest);
new TGCheckButton(fOptBG,"Unfold cluster " ,kDeclust); fOptBG->SetButton(kDeclust);
Float_t pmin=0.1*fGenPminCO->GetSelected(); //particle momentum, GeV
Float_t pmax=0.1*fGenPmaxCO->GetSelected(); //particle momentum, GeV
- fprintf(pF," AliGenCocktail *pG=new AliGenCocktail();\n\n");
+ if(fGenBG->GetButton(kHijing)->GetState()==kButtonDown ||
+ fGenBG->GetButton(kHijingPara)->GetState()==kButtonDown ||
+ fGenBG->GetButton(kPythia)->GetState()==kButtonDown) {;}
+ else {fprintf(pF," AliGenCocktail *pG=new AliGenCocktail();\n\n");}
if(fGenBG->GetButton(kGunZ)->GetState()==kButtonDown)//1 particle along Z axis
fprintf(pF," AliGenFixed *pGz=new AliGenFixed(1); pGz->SetPart(%i); pGz->SetMomentum(%.1f); pGz->SetOrigin(0,0,-200); pG->AddGenerator(pGz,\"Gz\",1);\n",pid,pmin);
}
if(fGenBG->GetButton(kHijing)->GetState()==kButtonDown){//normal HIJING
- fprintf(pF," AliGenHijing *pH=new AliGenHijing(-1); pH->SetEnergyCMS(14000); pH->SetReferenceFrame(\"CMS\");\n");
- fprintf(pF," pH->SetProjectile(\"P\", 1, 1); pH->SetTarget(\"P\", 1, 1 ); pH->SetJetQuenching(0);\n");
+ fprintf(pF," AliGenHijing *pH=new AliGenHijing(-1); pH->SetEnergyCMS(5500); pH->SetReferenceFrame(\"CMS\");\n");
+ fprintf(pF," pH->SetProjectile(\"A\", 208, 82); pH->SetTarget(\"A\", 208, 82); pH->SetJetQuenching(0);\n");
fprintf(pF," pH->SetShadowing(0); pH->KeepFullEvent(); pH->SetSelectAll(0);\n");
fprintf(pF," pH->SetImpactParameterRange(0, 5); //fermi\n");
- fprintf(pF," pG->AddGenerator(pH,\"h\",1);\n\n");
+ fprintf(pF," AliGenerator *gener = (AliGenerator*)pH; \n");
+ fprintf(pF," gener->SetOrigin(0, 0, 0); // vertex position \n");
+ fprintf(pF," gener->SetSigma(0, 0, 5.3); // Sigma in (X,Y,Z) (cm) on IP position \n");
+ fprintf(pF," gener->SetCutVertexZ(1.); // Truncate at 1 sigma \n");
+ fprintf(pF," gener->SetVertexSmear(kPerEvent); \n");
+ fprintf(pF," gener->SetTrackingFlag(1); \n");
+ fprintf(pF," gener->Init(); \n\n");
}
if(fGenBG->GetButton(kHijingPara)->GetState()==kButtonDown){//parametrized HIJING
fprintf(pF," AliGenHIJINGpara *pHP=new AliGenHIJINGpara(%i);\n",(int)fGenNprimCO->GetSelected());
fprintf(pF," pHP->SetMomentumRange(0,999); pHP->SetThetaRange(%f,%f); pHP->SetPhiRange(0,360);\n",Eta2Theta(8),Eta2Theta(-8));
- fprintf(pF," pG->AddGenerator(pHP,\"hp\",1);\n\n");
+ fprintf(pF," AliGenerator *gener = (AliGenerator*)pHP; \n");
+ fprintf(pF," gener->SetOrigin(0, 0, 0); // vertex position \n");
+ fprintf(pF," gener->SetSigma(0, 0, 5.3); // Sigma in (X,Y,Z) (cm) on IP position \n");
+ fprintf(pF," gener->SetCutVertexZ(1.); // Truncate at 1 sigma \n");
+ fprintf(pF," gener->SetVertexSmear(kPerEvent); \n");
+ fprintf(pF," gener->SetTrackingFlag(1); \n");
+ fprintf(pF," gener->Init(); \n\n");
}
if(fGenBG->GetButton(kPythia)->GetState()==kButtonDown){//Pythia
fprintf(pF," AliGenPythia *pP=new AliGenPythia(-1);\n");
- fprintf(pF," pP->SetMomentumRange(0,999); pP->SetPhiRange(20,80); pP->SetThetaRange(75,115);\n");
+ fprintf(pF," pP->SetMomentumRange(0,999);\n");
fprintf(pF," pP->SetYRange(-12,12); pP->SetPtRange(0,1000); pP->SetStrucFunc(kCTEQ4L);\n");
fprintf(pF," pP->SetProcess(kPyMb); pP->SetEnergyCMS(14000);\n");
- fprintf(pF," pG->AddGenerator(pP,\"p\",1);\n\n");
+ fprintf(pF," AliGenerator *gener = (AliGenerator*)pP; \n");
+ fprintf(pF," gener->SetOrigin(0, 0, 0); // vertex position \n");
+ fprintf(pF," gener->SetSigma(0, 0, 5.3); // Sigma in (X,Y,Z) (cm) on IP position \n");
+ fprintf(pF," gener->SetCutVertexZ(1.); // Truncate at 1 sigma \n");
+ fprintf(pF," gener->SetVertexSmear(kPerEvent); \n");
+ fprintf(pF," gener->SetTrackingFlag(1); \n");
+ fprintf(pF," gener->Init(); \n\n");
}
- fprintf(pF," pG->Init();\n\n");
+ if(fGenBG->GetButton(kHijing)->GetState()==kButtonDown ||
+ fGenBG->GetButton(kHijingPara)->GetState()==kButtonDown ||
+ fGenBG->GetButton(kPythia)->GetState()==kButtonDown) continue;
+ else fprintf(pF," pG->Init();\n\n");
}//WriteGenerator()
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
void HmpConfig::GuiDet(TGHorizontalFrame *pMainHF)
new TGRadioButton(fCluBG, "No Clusters" ,kNo );
new TGRadioButton(fCluBG, "Clusters CORE" ,kAll );
new TGRadioButton(fCluBG, "Clusters HMPID" ,kHmp );
+
+ new TGCheckButton(fTrkBG, "Apply RecoParam" ,kRecoPar);
+
new TGCheckButton(fTrkBG, "Load Align data" ,kAln );
new TGCheckButton(fTrkBG, "Prim vertex" ,kVtx );
new TGCheckButton(fTrkBG, "ESD tracks" ,kTrk );
fCluBG->GetButton(kAll)->SetState(kButtonEngaged);
fCluBG->GetButton(kHmp)->SetState(kButtonDown);
+ fTrkBG->GetButton(kRecoPar)->SetState(kButtonEngaged);
fTrkBG->GetButton(kAln)->SetState(kButtonEngaged);
fTrkBG->GetButton(kVtx)->SetState(kButtonEngaged);
fTrkBG->GetButton(kTrk)->SetState(kButtonEngaged);
fCluBG->GetButton(kAll)->SetState(kButtonDisabled);
fCluBG->GetButton(kHmp)->SetState(kButtonDisabled);
+ fTrkBG->GetButton(kRecoPar)->SetState(kButtonDisabled);
fTrkBG->GetButton(kAln)->SetState(kButtonDisabled);
fTrkBG->GetButton(kVtx)->SetState(kButtonDisabled);
fTrkBG->GetButton(kTrk)->SetState(kButtonDisabled);
FILE *fp=fopen(Form("%s.C",sBatchName),"w"); if(!fp){Info("CreateBatch","Cannot open output file: %s.C",sBatchName);return;}
fprintf(fp,"void %s(Int_t iNevt,Bool_t isDbg,char *sCfg)\n{\n",sBatchName);
- fprintf(fp," gSystem->Exec(\"rm -rf hlt hough gphysi* fort* ZZZ*\"); //remove garbage\n");
+ fprintf(fp," gSystem->Exec(\"rm -rf hlt hough gphysi* fort* ZZZ* raw*\"); //remove garbage\n");
fprintf(fp," gBenchmark->Start(\"ALICE\"); TDatime time; //start benchmarking\n\n");
fprintf(fp," if(isDbg) AliLog::SetGlobalDebugLevel(AliLog::kDebug);\n");
//simulation section
- if(fSimB->GetState()){
- fprintf(fp," gSystem->Exec(\"rm -rf *.root \"); //remove previous simulation\n");
+ if(fSimB->GetState()){ fprintf(fp," gSystem->Exec(\"rm -rf *.root \"); //remove previous simulation\n");
+ fprintf(fp," gSystem->Exec(\"rm -rf *.date \"); //remove previous simulation\n");
fprintf(fp," AliSimulation *pSim=new AliSimulation(sCfg); //init simulation\n");
if(fTraB->GetState()) fprintf(fp," pSim->SetRunSimulation(kTRUE); //transport and hits creation\n");
if (fRawBG->GetButton(kDdl)->GetState()) fprintf(fp," pSim->SetWriteRawData(\"%s\"); //raw data as DDL\n",det.Data());
else if(fRawBG->GetButton(kDat)->GetState()) fprintf(fp," pSim->SetWriteRawData(\"%s\",\"raw.date\"); //raw data as DATE\n",det.Data());
else if(fRawBG->GetButton(kRoo)->GetState()) fprintf(fp," pSim->SetWriteRawData(\"%s\",\"raw.root\"); //raw data as ROOT\n",det.Data());
-
+
+ fprintf(fp," pSim->SetRunHLT(\"\"); //no HLT stuff\n");
fprintf(fp," pSim->Run(iNevt); //run iNevt events\n delete pSim;\n\n");
}//sim section
if(fRecB->GetState()){
fprintf(fp," AliReconstruction *pRec=new AliReconstruction;\n");
+ //---------------------------------------------
+ if (fTrkBG->GetButton(kRecoPar)->GetState())
+ {
+ fprintf(fp," AliHMPIDRecoParam * hmpidRecoParam = AliHMPIDRecoParam::GetUserModeParam(); //Get the HMPID reco param\n");
+ fprintf(fp," hmpidRecoParam->SetUserCutMode(kFALSE); //Switch to RecoParam from OCDB cuts\n");
+ fprintf(fp," hmpidRecoParam->SetUserCut(4,4,4,4,4,4,4); //eg cut for UserCutSigma (Values: ch0, ch1, ..,ch6)\n");
+ fprintf(fp," AliHMPIDReconstructor::SetRecoParam(hmpidRecoParam); //Pass the RecoPar to the Reconstructor\n");
+ }
+ //---------------------------------------------
+
if (fInpBG->GetButton(kNo )->GetState()) fprintf(fp," pRec->SetInput(\"\"); //from digits\n");
else if(fInpBG->GetButton(kDdl)->GetState()) fprintf(fp," pRec->SetInput(\"./\"); //from raw data in DDL format\n");
- else if(fInpBG->GetButton(kDat)->GetState()) fprintf(fp," pRec->SetInput(\"raw.root.date\"); //from raw data in DATE format\n");
+ else if(fInpBG->GetButton(kDat)->GetState()) fprintf(fp," pRec->SetInput(\"raw.date\"); //from raw data in DATE format\n");
else if(fInpBG->GetButton(kRoo)->GetState()) fprintf(fp," pRec->SetInput(\"raw.root\"); //from raw data in ROOT format\n");
if (fCluBG->GetButton(kAll) ->GetState()) fprintf(fp," pRec->SetRunLocalReconstruction(\"%s\"); //clusters for all detectors\n",det.Data());
else if(fCluBG->GetButton(kHmp) ->GetState()) fprintf(fp," pRec->SetRunLocalReconstruction(\"HMPID\"); //clusters for HMPID only\n");
else if(fCluBG->GetButton(kNo) ->GetState()) fprintf(fp," pRec->SetRunLocalReconstruction(\"\"); //no clusters\n");
+
+
if (fTrkBG->GetButton(kAln)->GetState()) fprintf(fp," pRec->SetLoadAlignData(\"%s\"); //with misalignment\n",det.Data());
else fprintf(fp," pRec->SetLoadAlignData(\"\"); //no misalignment\n");
fprintf(pF," gAlice->SetRunLoader(pAL);\n\n");
//Decayer
if(fDecayerB->GetState()==kButtonDown){
- fprintf(pF," TVirtualMCDecayer *pDecayer=new AliDecayerPythia();\n");
+ fprintf(pF," AliDecayer *pDecayer=new AliDecayerPythia();\n");
fprintf(pF," pDecayer->SetForceDecay(kAll);\n");
fprintf(pF," pDecayer->Init();\n");
fprintf(pF," gMC->SetExternalDecayer(pDecayer);\n\n");