void fastGen(Int_t nev = 1, char* filename = "gilc.root") { IlcPDG::AddParticlesToPdgDataBase(); TDatabasePDG::Instance(); // Run loader IlcRunLoader* rl = IlcRunLoader::Open("gilc.root","FASTRUN","recreate"); rl->SetCompressionLevel(2); rl->SetNumberOfEventsPerFile(nev); rl->LoadKinematics("RECREATE"); rl->MakeTree("E"); gIlc->SetRunLoader(rl); // Create stack rl->MakeStack(); IlcStack* stack = rl->Stack(); // Header IlcHeader* header = rl->GetHeader(); // Create and Initialize Generator // Example of charm generation taken from Config_PythiaHeavyFlavours.C IlcGenPythia *gener = new IlcGenPythia(-1); gener->SetEnergyCMS(14000.); gener->SetMomentumRange(0,999999); gener->SetPhiRange(0., 360.); gener->SetThetaRange(0.,180.); // gener->SetProcess(kPyCharmppMNR); // Correct Pt distribution, wrong mult gener->SetProcess(kPyMb); // Correct multiplicity, wrong Pt gener->SetStrucFunc(kCTEQ4L); gener->SetPtHard(2.1,-1.0); gener->SetFeedDownHigherFamily(kFALSE); gener->SetStack(stack); gener->Init(); // Go to gilc.root rl->CdGAFile(); // Forbid some decays. Do it after gener->Init(0, because // the initialization of the generator includes reading of the decay table. IlcPythia * py= IlcPythia::Instance(); py->SetMDME(737,1,0); //forbid D*+->D+ + pi0 py->SetMDME(738,1,0);//forbid D*+->D+ + gamma // Forbid all D0 decays except D0->K- pi+ for(Int_t d=747; d<=762; d++){ py->SetMDME(d,1,0); } // decay 763 is D0->K- pi+ for(Int_t d=764; d<=807; d++){ py->SetMDME(d,1,0); } // // Event Loop // TStopwatch timer; timer.Start(); for (Int_t iev = 0; iev < nev; iev++) { cout <<"Event number "<< iev << endl; // Initialize event header->Reset(0,iev); rl->SetEventNumber(iev); stack->Reset(); rl->MakeTree("K"); // Generate event Int_t nprim = 0; Int_t ntrial = 0; Int_t ndstar = 0; //------------------------------------------------------------------------------------- while(!ndstar) { // Selection of events with D* stack->Reset(); stack->ConnectTree(rl->TreeK()); gener->Generate(); ntrial++; nprim = stack->GetNprimary(); for(Int_t ipart =0; ipart < nprim; ipart++){ TParticle * part = stack->Particle(ipart); if(part) { if (TMath::Abs(part->GetPdgCode())== 413) { TArrayI daughtersId; GetFinalDecayProducts(ipart,*stack,daughtersId); Bool_t kineOK = kTRUE; Double_t thetaMin = TMath::Pi()/4; Double_t thetaMax = 3*TMath::Pi()/4; for (Int_t id=1; id<=daughtersId[0]; id++) { TParticle * daughter = stack->Particle(daughtersId[id]); if (!daughter) { kineOK = kFALSE; break; } Double_t theta = daughter->Theta(); if (theta<thetaMin || theta>thetaMax) { kineOK = kFALSE; break; } } if (!kineOK) continue; part->Print(); ndstar++; } } } } cout << "Number of particles " << nprim << endl; cout << "Number of trials " << ntrial << endl; // Finish event header->SetNprimary(stack->GetNprimary()); header->SetNtrack(stack->GetNtrack()); // I/O stack->FinishEvent(); header->SetStack(stack); rl->TreeE()->Fill(); rl->WriteKinematics("OVERWRITE"); } // event loop timer.Stop(); timer.Print(); // Termination // Generator gener->FinishRun(); // Write file rl->WriteHeader("OVERWRITE"); gener->Write(); rl->Write(); }
void fastGen(Int_t nev = 1, char* filename = "gilc.root") { // Run loader IlcRunLoader* rl = IlcRunLoader::Open("gilc.root","FASTRUN","recreate"); rl->SetCompressionLevel(2); rl->SetNumberOfEventsPerFile(nev); rl->LoadKinematics("RECREATE"); rl->MakeTree("E"); gIlc->SetRunLoader(rl); // Create stack rl->MakeStack(); IlcStack* stack = rl->Stack(); // Header IlcHeader* header = rl->GetHeader(); // Generator IlcGenPythia *gener = new IlcGenPythia(-1); gener->SetMomentumRange(0,999999); gener->SetProcess(kPyMb); gener->SetEnergyCMS(14000.); gener->SetThetaRange(45, 135); gener->SetPtRange(0., 1000.); gener->SetStack(stack); gener->Init(); rl->CdGAFile(); // // Event Loop // for (Int_t iev = 0; iev < nev; iev++) { // Initialize event header->Reset(0,iev); rl->SetEventNumber(iev); stack->Reset(); rl->MakeTree("K"); // Generate event Int_t nprim = 0; Int_t ntrial = 0; Int_t minmult = 1000; while(nprim<minmult) { // Selection of events with multiplicity // bigger than "minmult" stack->Reset(); gener->Generate(); ntrial++; nprim = stack->GetNprimary(); } cout << "Number of particles " << nprim << endl; cout << "Number of trials " << ntrial << endl; // Finish event header->SetNprimary(stack->GetNprimary()); header->SetNtrack(stack->GetNtrack()); // I/O stack->FinishEvent(); header->SetStack(stack); rl->TreeE()->Fill(); rl->WriteKinematics("OVERWRITE"); } // event loop // Termination // Generator gener->FinishRun(); // Stack stack->FinishRun(); // Write file rl->WriteHeader("OVERWRITE"); gener->Write(); rl->Write(); }