#include #include #include #include #include #include #include "TH1D.h" #include "TH2D.h" #include "THStack.h" #include "TGraph.h" #include "TTree.h" #include "TChain.h" #include "TFile.h" #include "TCanvas.h" #include "TROOT.h" #include "TStyle.h" #include "TColor.h" #include "TLorentzVector.h" #include "TRandom3.h" #include "TLegend.h" #include "RooDataHist.h" #include "RooRealVar.h" #include "RooPlot.h" #include "RooGaussian.h" #include "RooExponential.h" #include "RooRealConstant.h" #include "RooAddPdf.h" #include "RooFitResult.h" #include "RooProduct.h" #include "RooCrystalBall.h" #include "RooBreitWigner.h" #include "RooArgSet.h" #include "RooFFTConvPdf.h" #include "RooNovosibirsk.h" #include "constants.h" #include "basic_analysis.h" int mapmc_b02hphmmumu() { const char *sim_tree_name = "B0ToHpHmMuMu_noPID"; TChain *sim_chain = new TChain(TString::Format("%s/DecayTree", sim_tree_name)); sim_chain->Add("/auto/data/pfeiffer/inclusive_detached_dilepton/MC/rd_btoxll_simulation_fullstream_v0r0p6671378_B0ToKpPimMuMu_11144002_magdown.root"); FourVect *l14v_sim = FourVect::Init(sim_chain, "L1"); FourVect *l24v_sim = FourVect::Init(sim_chain, "L2"); FourVect *hp4v_sim = FourVect::Init(sim_chain, "Hp"); FourVect *hm4v_sim = FourVect::Init(sim_chain, "Hm"); Int_t B_BKGCAT, L1_TRUEID, L2_TRUEID, Hp_TRUEID, Hm_TRUEID; sim_chain->SetBranchAddress("L1_TRUEID", &L1_TRUEID); sim_chain->SetBranchAddress("L2_TRUEID", &L2_TRUEID); sim_chain->SetBranchAddress("Hp_TRUEID", &Hp_TRUEID); sim_chain->SetBranchAddress("Hm_TRUEID", &Hm_TRUEID); sim_chain->SetBranchAddress("B0_BKGCAT", &B_BKGCAT); Float_t B0_PT_in, B0_BPVFDCHI2_in, B0_BPVDIRA_in, Jpsi_BPVIPCHI2_in, Jpsi_PT_in, Hp_BPVIPCHI2_in, Hp_PT_in, Hm_BPVIPCHI2_in, Hm_PT_in, L1_BPVIPCHI2_in, L2_BPVIPCHI2_in; Double_t Hp_PROBNN_K_in, Hm_PROBNN_K_in; sim_chain->SetBranchAddress("B0_PT", &B0_PT_in); sim_chain->SetBranchAddress("B0_BPVFDCHI2", &B0_BPVFDCHI2_in); sim_chain->SetBranchAddress("B0_BPVDIRA", &B0_BPVDIRA_in); sim_chain->SetBranchAddress("Jpsi_BPVIPCHI2", &Jpsi_BPVIPCHI2_in); sim_chain->SetBranchAddress("Jpsi_PT", &Jpsi_PT_in); sim_chain->SetBranchAddress("Hp_BPVIPCHI2", &Hp_BPVIPCHI2_in); sim_chain->SetBranchAddress("Hp_PT", &Hp_PT_in); sim_chain->SetBranchAddress("Hm_BPVIPCHI2", &Hm_BPVIPCHI2_in); sim_chain->SetBranchAddress("Hm_PT", &Hm_PT_in); sim_chain->SetBranchAddress("L1_BPVIPCHI2", &L1_BPVIPCHI2_in); sim_chain->SetBranchAddress("L2_BPVIPCHI2", &L2_BPVIPCHI2_in); sim_chain->SetBranchAddress("Hp_PROBNN_K", &Hp_PROBNN_K_in); sim_chain->SetBranchAddress("Hm_PROBNN_K", &Hm_PROBNN_K_in); TTree *output_tree = new TTree("DecayTree", "DecayTree"); Float_t B0_PT_out, B0_BPVFDCHI2_out, B0_BPVDIRA_out, Jpsi_BPVIPCHI2_out, Jpsi_PT_out, Kplus_BPVIPCHI2_out, Kplus_PT_out, piminus_BPVIPCHI2_out, piminus_PT_out, muplus_BPVIPCHI2_out, muminus_BPVIPCHI2_out, B0_PX_out, B0_PY_out, B0_PZ_out, B0_ENERGY_out, muplus_PX_out, muplus_PY_out, muplus_PZ_out, muplus_ENERGY_out, muminus_PX_out, muminus_PY_out, muminus_PZ_out, muminus_ENERGY_out, Kplus_PX_out, Kplus_PY_out, Kplus_PZ_out, Kplus_ENERGY_out, piminus_PX_out, piminus_PY_out, piminus_PZ_out, piminus_ENERGY_out; Double_t Kplus_PROBNN_K_out, piminus_PROBNN_K_out, B0_M_out, muplus_M_out, muminus_M_out, Kplus_M_out, piminus_M_out; Int_t muplus_ID_out, muminus_ID_out, Kplus_ID_out, piminus_ID_out; output_tree->Branch("B0_PT", &B0_PT_out, "B0_PT/F"); output_tree->Branch("B0_BPVFDCHI2", &B0_BPVFDCHI2_out, "B0_BPVFDCHI2/F"); output_tree->Branch("B0_BPVDIRA", &B0_BPVDIRA_out, "B0_BPVDIRA/F"); output_tree->Branch("B0_PX", &B0_PX_out, "0_PX/F"); output_tree->Branch("B0_PY", &B0_PY_out, "0_PY/F"); output_tree->Branch("B0_PZ", &B0_PZ_out, "0_PZ/F"); output_tree->Branch("B0_ENERGY", &B0_ENERGY_out, "B0_ENERGY/F"); output_tree->Branch("B0_M", &B0_M_out, "B0_M/D"); output_tree->Branch("Jpsi_BPVIPCHI2", &Jpsi_BPVIPCHI2_out, "Jpsi_BPVIPCHI2/F"); output_tree->Branch("Jpsi_PT", &Jpsi_PT_out, "Jpsi_PT/F"); output_tree->Branch("Kplus_BPVIPCHI2", &Kplus_BPVIPCHI2_out, "Kplus_BPVIPCHI2/F"); output_tree->Branch("Kplus_PROBNN_K", &Kplus_PROBNN_K_out, "Kplus_PROBNN_K/D"); output_tree->Branch("Kplus_PT", &Kplus_PT_out, "Kplus_PT/F"); output_tree->Branch("Kplus_PX", &Kplus_PX_out, "Kplus_PX/F"); output_tree->Branch("Kplus_PY", &Kplus_PY_out, "Kplus_PY/F"); output_tree->Branch("Kplus_PZ", &Kplus_PZ_out, "Kplus_PZ/F"); output_tree->Branch("Kplus_ENERGY", &Kplus_ENERGY_out, "Kplus_ENERGY/F"); output_tree->Branch("Kplus_M", &Kplus_M_out, "Kplus_M/D"); output_tree->Branch("Kplus_ID", &Kplus_ID_out, "Kplus_ID/I"); output_tree->Branch("piminus_BPVIPCHI2", &piminus_BPVIPCHI2_out, "piminus_BPVIPCHI2/F"); output_tree->Branch("piminus_PROBNN_K", &piminus_PROBNN_K_out, "piminus_PROBNN_K/D"); output_tree->Branch("piminus_PT", &piminus_PT_out, "piminus_PT/F"); output_tree->Branch("piminus_PX", &piminus_PX_out, "piminus_PX/F"); output_tree->Branch("piminus_PY", &piminus_PY_out, "piminus_PY/F"); output_tree->Branch("piminus_PZ", &piminus_PZ_out, "piminus_PZ/F"); output_tree->Branch("piminus_ENERGY", &piminus_ENERGY_out, "piminus_ENERGY/F"); output_tree->Branch("piminus_M", &piminus_M_out, "piminus_M/D"); output_tree->Branch("piminus_ID", &piminus_ID_out, "piminus_ID/I"); output_tree->Branch("muminus_BPVIPCHI2", &muminus_BPVIPCHI2_out, "muminus_BPVIPCHI2/F"); output_tree->Branch("muminus_PX", &muminus_PX_out, "muminus_PX/F"); output_tree->Branch("muminus_PY", &muminus_PY_out, "muminus_PY/F"); output_tree->Branch("muminus_PZ", &muminus_PZ_out, "muminus_PZ/F"); output_tree->Branch("muminus_ENERGY", &muminus_ENERGY_out, "muminus_ENERGY/F"); output_tree->Branch("muminus_M", &muminus_M_out, "muminus_M/D"); output_tree->Branch("muminus_ID", &muminus_ID_out, "muminus_ID/I"); output_tree->Branch("muplus_BPVIPCHI2", &muplus_BPVIPCHI2_out, "muplus_BPVIPCHI2/F"); output_tree->Branch("muplus_PX", &muplus_PX_out, "muplus_PX/F"); output_tree->Branch("muplus_PY", &muplus_PY_out, "muplus_PY/F"); output_tree->Branch("muplus_PZ", &muplus_PZ_out, "muplus_PZ/F"); output_tree->Branch("muplus_ENERGY", &muplus_ENERGY_out, "muplus_ENERGY/F"); output_tree->Branch("muplus_M", &muplus_M_out, "muplus_M/D"); output_tree->Branch("muplus_ID", &muplus_ID_out, "muplus_ID/I"); unsigned int sim_entries = sim_chain->GetEntries(); for (unsigned int i = 0; i < sim_entries; i++) { sim_chain->GetEntry(i); if (B_BKGCAT == 30 && TMath::Abs(L1_TRUEID) == PID_MUON && L2_TRUEID == -L1_TRUEID && ((TMath::Abs(Hp_TRUEID) == PID_KAON && TMath::Abs(Hm_TRUEID) == PID_PION) || (TMath::Abs(Hp_TRUEID) == PID_PION && TMath::Abs(Hm_TRUEID) == PID_KAON))) { B0_PT_out = B0_PT_in; B0_BPVFDCHI2_out = B0_BPVFDCHI2_in; B0_BPVDIRA_out = B0_BPVDIRA_in; Jpsi_BPVIPCHI2_out = Jpsi_BPVIPCHI2_in; Jpsi_PT_out = Jpsi_PT_in; muminus_BPVIPCHI2_out = L1_BPVIPCHI2_in; muminus_ID_out = L1_TRUEID; auto muminus_lv = l14v_sim->LorentzVector(); muminus_PX_out = muminus_lv.Px(); muminus_PY_out = muminus_lv.Py(); muminus_PZ_out = muminus_lv.Pz(); muminus_ENERGY_out = muminus_lv.E(); muminus_M_out = muminus_lv.M(); muplus_BPVIPCHI2_out = L2_BPVIPCHI2_in; muplus_ID_out = L2_TRUEID; auto muplus_lv = l24v_sim->LorentzVector(); muplus_PX_out = muplus_lv.Px(); muplus_PY_out = muplus_lv.Py(); muplus_PZ_out = muplus_lv.Pz(); muplus_ENERGY_out = muplus_lv.E(); muplus_M_out = muplus_lv.M(); if (TMath::Abs(Hp_TRUEID) == PID_KAON && TMath::Abs(Hm_TRUEID) == PID_PION) { Kplus_BPVIPCHI2_out = Hp_BPVIPCHI2_in; Kplus_PT_out = Hp_PT_in; Kplus_PROBNN_K_out = Hp_PROBNN_K_in; Kplus_ID_out = Hp_TRUEID; piminus_BPVIPCHI2_out = Hm_BPVIPCHI2_in; piminus_PT_out = Hm_PT_in; piminus_PROBNN_K_out = Hm_PROBNN_K_in; piminus_ID_out = Hm_TRUEID; auto Kplus_lv = hp4v_sim->LorentzVector(K_MASS); auto piminus_lv = hm4v_sim->LorentzVector(); Kplus_PX_out = Kplus_lv.Px(); Kplus_PY_out = Kplus_lv.Py(); Kplus_PZ_out = Kplus_lv.Pz(); Kplus_ENERGY_out = Kplus_lv.E(); Kplus_M_out = Kplus_lv.M(); piminus_PX_out = piminus_lv.Px(); piminus_PY_out = piminus_lv.Py(); piminus_PZ_out = piminus_lv.Pz(); piminus_ENERGY_out = piminus_lv.E(); piminus_M_out = piminus_lv.M(); auto B0_lv = muminus_lv + muplus_lv + Kplus_lv + piminus_lv; B0_PX_out = B0_lv.Px(); B0_PY_out = B0_lv.Py(); B0_PZ_out = B0_lv.Pz(); B0_ENERGY_out = B0_lv.E(); B0_M_out = B0_lv.M(); } else if (TMath::Abs(Hp_TRUEID) == PID_PION && TMath::Abs(Hm_TRUEID) == PID_KAON) { Kplus_BPVIPCHI2_out = Hm_BPVIPCHI2_in; Kplus_PT_out = Hm_PROBNN_K_in; Kplus_PROBNN_K_out = Hm_PROBNN_K_in; Kplus_ID_out = Hm_TRUEID; piminus_BPVIPCHI2_out = Hp_BPVIPCHI2_in; piminus_PT_out = Hp_PT_in; piminus_PROBNN_K_out = Hp_PROBNN_K_in; piminus_ID_out = Hp_TRUEID; auto Kplus_lv = hm4v_sim->LorentzVector(K_MASS); auto piminus_lv = hp4v_sim->LorentzVector(); Kplus_PX_out = Kplus_lv.Px(); Kplus_PY_out = Kplus_lv.Py(); Kplus_PZ_out = Kplus_lv.Pz(); Kplus_ENERGY_out = Kplus_lv.E(); Kplus_M_out = Kplus_lv.M(); piminus_PX_out = piminus_lv.Px(); piminus_PY_out = piminus_lv.Py(); piminus_PZ_out = piminus_lv.Pz(); piminus_ENERGY_out = piminus_lv.E(); piminus_M_out = piminus_lv.M(); auto B0_lv = muminus_lv + muplus_lv + Kplus_lv + piminus_lv; B0_PX_out = B0_lv.Px(); B0_PY_out = B0_lv.Py(); B0_PZ_out = B0_lv.Pz(); B0_ENERGY_out = B0_lv.E(); B0_M_out = B0_lv.M(); } output_tree->Fill(); } PrintProgress(TString::Format("%s Mapping", sim_tree_name), sim_entries, 10000, i); } TFile* output_file = TFile::Open("/auto/data/pfeiffer/inclusive_detached_dilepton/MC/B0ToHpHmMuMu_mapped_mc.root", "RECREATE"); output_file->cd(); output_file->mkdir("B0ToHpHmMuMu_noPID_mapped/"); output_file->cd("B0ToHpHmMuMu_noPID_mapped/"); output_tree->SetDirectory(gDirectory); output_tree->Write(); output_file->Close(); return 0; }