diff --git a/data/T2K/CC0pi/JointC-O/Binning.txt b/data/T2K/CC0pi/JointO-C/Binning.txt similarity index 100% rename from data/T2K/CC0pi/JointC-O/Binning.txt rename to data/T2K/CC0pi/JointO-C/Binning.txt diff --git a/data/T2K/CC0pi/JointC-O/cc0pi_xsec_O-C-ratio_noreg.txt b/data/T2K/CC0pi/JointO-C/cc0pi_xsec_O-C-ratio_noreg.txt similarity index 100% rename from data/T2K/CC0pi/JointC-O/cc0pi_xsec_O-C-ratio_noreg.txt rename to data/T2K/CC0pi/JointO-C/cc0pi_xsec_O-C-ratio_noreg.txt diff --git a/data/T2K/CC0pi/JointC-O/cc0pi_xsec_O-C-ratio_reg.txt b/data/T2K/CC0pi/JointO-C/cc0pi_xsec_O-C-ratio_reg.txt similarity index 100% rename from data/T2K/CC0pi/JointC-O/cc0pi_xsec_O-C-ratio_reg.txt rename to data/T2K/CC0pi/JointO-C/cc0pi_xsec_O-C-ratio_reg.txt diff --git a/data/T2K/CC0pi/JointC-O/covmatrix_noreg.root b/data/T2K/CC0pi/JointO-C/covmatrix_noreg.root similarity index 100% rename from data/T2K/CC0pi/JointC-O/covmatrix_noreg.root rename to data/T2K/CC0pi/JointO-C/covmatrix_noreg.root diff --git a/data/T2K/CC0pi/JointC-O/covmatrix_reg.root b/data/T2K/CC0pi/JointO-C/covmatrix_reg.root similarity index 100% rename from data/T2K/CC0pi/JointC-O/covmatrix_reg.root rename to data/T2K/CC0pi/JointO-C/covmatrix_reg.root diff --git a/data/T2K/CC0pi/JointC-O/linear_reg_results_C_nuisance.root b/data/T2K/CC0pi/JointO-C/linear_reg_results_C_nuisance.root similarity index 100% rename from data/T2K/CC0pi/JointC-O/linear_reg_results_C_nuisance.root rename to data/T2K/CC0pi/JointO-C/linear_reg_results_C_nuisance.root diff --git a/data/T2K/CC0pi/JointC-O/linear_reg_results_O_nuisance.root b/data/T2K/CC0pi/JointO-C/linear_reg_results_O_nuisance.root similarity index 100% rename from data/T2K/CC0pi/JointC-O/linear_reg_results_O_nuisance.root rename to data/T2K/CC0pi/JointO-C/linear_reg_results_O_nuisance.root diff --git a/data/T2K/CC0pi/JointC-O/linear_unreg_results_C_nuisance.root b/data/T2K/CC0pi/JointO-C/linear_unreg_results_C_nuisance.root similarity index 100% rename from data/T2K/CC0pi/JointC-O/linear_unreg_results_C_nuisance.root rename to data/T2K/CC0pi/JointO-C/linear_unreg_results_C_nuisance.root diff --git a/data/T2K/CC0pi/JointC-O/linear_unreg_results_O_nuisance.root b/data/T2K/CC0pi/JointO-C/linear_unreg_results_O_nuisance.root similarity index 100% rename from data/T2K/CC0pi/JointC-O/linear_unreg_results_O_nuisance.root rename to data/T2K/CC0pi/JointO-C/linear_unreg_results_O_nuisance.root diff --git a/src/FCN/SampleList.cxx b/src/FCN/SampleList.cxx index 25ab03b..7bd0d68 100644 --- a/src/FCN/SampleList.cxx +++ b/src/FCN/SampleList.cxx @@ -1,1459 +1,1466 @@ #include "SampleList.h" #ifndef __NO_ANL__ #include "ANL_CCQE_Evt_1DQ2_nu.h" #include "ANL_CCQE_XSec_1DEnu_nu.h" // ANL CC1ppip #include "ANL_CC1ppip_Evt_1DQ2_nu.h" #include "ANL_CC1ppip_Evt_1DcosmuStar_nu.h" #include "ANL_CC1ppip_Evt_1DcosthAdler_nu.h" #include "ANL_CC1ppip_Evt_1Dphi_nu.h" #include "ANL_CC1ppip_Evt_1Dppi_nu.h" #include "ANL_CC1ppip_Evt_1Dthpr_nu.h" #include "ANL_CC1ppip_XSec_1DEnu_nu.h" #include "ANL_CC1ppip_XSec_1DQ2_nu.h" // ANL CC1npip #include "ANL_CC1npip_Evt_1DQ2_nu.h" #include "ANL_CC1npip_Evt_1DcosmuStar_nu.h" #include "ANL_CC1npip_Evt_1Dppi_nu.h" #include "ANL_CC1npip_XSec_1DEnu_nu.h" // ANL CC1pi0 #include "ANL_CC1pi0_Evt_1DQ2_nu.h" #include "ANL_CC1pi0_Evt_1DcosmuStar_nu.h" #include "ANL_CC1pi0_XSec_1DEnu_nu.h" // ANL NC1npip (mm, exotic!) #include "ANL_NC1npip_Evt_1Dppi_nu.h" // ANL NC1ppim (mm, exotic!) #include "ANL_NC1ppim_Evt_1DcosmuStar_nu.h" #include "ANL_NC1ppim_XSec_1DEnu_nu.h" // ANL CC2pi 1pim1pip (mm, even more exotic!) #include "ANL_CC2pi_1pim1pip_Evt_1Dpmu_nu.h" #include "ANL_CC2pi_1pim1pip_Evt_1Dppim_nu.h" #include "ANL_CC2pi_1pim1pip_Evt_1Dppip_nu.h" #include "ANL_CC2pi_1pim1pip_Evt_1Dpprot_nu.h" #include "ANL_CC2pi_1pim1pip_XSec_1DEnu_nu.h" // ANL CC2pi 1pip1pip (mm, even more exotic!) #include "ANL_CC2pi_1pip1pip_Evt_1Dpmu_nu.h" #include "ANL_CC2pi_1pip1pip_Evt_1Dpneut_nu.h" #include "ANL_CC2pi_1pip1pip_Evt_1DppipHigh_nu.h" #include "ANL_CC2pi_1pip1pip_Evt_1DppipLow_nu.h" #include "ANL_CC2pi_1pip1pip_XSec_1DEnu_nu.h" // ANL CC2pi 1pip1pi0 (mm, even more exotic!) #include "ANL_CC2pi_1pip1pi0_Evt_1Dpmu_nu.h" #include "ANL_CC2pi_1pip1pi0_Evt_1Dppi0_nu.h" #include "ANL_CC2pi_1pip1pi0_Evt_1Dppip_nu.h" #include "ANL_CC2pi_1pip1pi0_Evt_1Dpprot_nu.h" #include "ANL_CC2pi_1pip1pi0_XSec_1DEnu_nu.h" #endif #ifndef __NO_ArgoNeuT__ // ArgoNeuT CC1Pi #include "ArgoNeuT_CC1Pi_XSec_1Dpmu_antinu.h" #include "ArgoNeuT_CC1Pi_XSec_1Dpmu_nu.h" #include "ArgoNeuT_CC1Pi_XSec_1Dthetamu_antinu.h" #include "ArgoNeuT_CC1Pi_XSec_1Dthetamu_nu.h" #include "ArgoNeuT_CC1Pi_XSec_1Dthetamupi_antinu.h" #include "ArgoNeuT_CC1Pi_XSec_1Dthetamupi_nu.h" #include "ArgoNeuT_CC1Pi_XSec_1Dthetapi_antinu.h" #include "ArgoNeuT_CC1Pi_XSec_1Dthetapi_nu.h" // ArgoNeuT CC-inclusive #include "ArgoNeuT_CCInc_XSec_1Dpmu_antinu.h" #include "ArgoNeuT_CCInc_XSec_1Dpmu_nu.h" #include "ArgoNeuT_CCInc_XSec_1Dthetamu_antinu.h" #include "ArgoNeuT_CCInc_XSec_1Dthetamu_nu.h" #endif #ifndef __NO_BNL__ // BNL CCQE #include "BNL_CCQE_Evt_1DQ2_nu.h" #include "BNL_CCQE_XSec_1DEnu_nu.h" // BNL CC1ppip #include "BNL_CC1ppip_Evt_1DQ2_nu.h" #include "BNL_CC1ppip_Evt_1DcosthAdler_nu.h" #include "BNL_CC1ppip_Evt_1Dphi_nu.h" #include "BNL_CC1ppip_XSec_1DEnu_nu.h" // BNL CC1npip #include "BNL_CC1npip_Evt_1DQ2_nu.h" #include "BNL_CC1npip_XSec_1DEnu_nu.h" // BNL CC1pi0 #include "BNL_CC1pi0_Evt_1DQ2_nu.h" #include "BNL_CC1pi0_XSec_1DEnu_nu.h" #endif #ifndef __NO_FNAL__ // FNAL CCQE #include "FNAL_CCQE_Evt_1DQ2_nu.h" // FNAL CC1ppip #include "FNAL_CC1ppip_Evt_1DQ2_nu.h" #include "FNAL_CC1ppip_XSec_1DEnu_nu.h" #include "FNAL_CC1ppip_XSec_1DQ2_nu.h" // FNAL CC1ppim #include "FNAL_CC1ppim_XSec_1DEnu_antinu.h" #endif #ifndef __NO_BEBC__ // BEBC CCQE #include "BEBC_CCQE_XSec_1DQ2_nu.h" // BEBC CC1ppip #include "BEBC_CC1ppip_XSec_1DEnu_nu.h" #include "BEBC_CC1ppip_XSec_1DQ2_nu.h" // BEBC CC1npip #include "BEBC_CC1npip_XSec_1DEnu_nu.h" #include "BEBC_CC1npip_XSec_1DQ2_nu.h" // BEBC CC1pi0 #include "BEBC_CC1pi0_XSec_1DEnu_nu.h" #include "BEBC_CC1pi0_XSec_1DQ2_nu.h" // BEBC CC1npim #include "BEBC_CC1npim_XSec_1DEnu_antinu.h" #include "BEBC_CC1npim_XSec_1DQ2_antinu.h" // BEBC CC1ppim #include "BEBC_CC1ppim_XSec_1DEnu_antinu.h" #include "BEBC_CC1ppim_XSec_1DQ2_antinu.h" #endif #ifndef __NO_GGM__ // GGM CC1ppip #include "GGM_CC1ppip_Evt_1DQ2_nu.h" #include "GGM_CC1ppip_XSec_1DEnu_nu.h" #endif #ifndef __NO_MiniBooNE__ // MiniBooNE CCQE #include "MiniBooNE_CCQE_XSec_1DEnu_nu.h" #include "MiniBooNE_CCQE_XSec_1DQ2_antinu.h" #include "MiniBooNE_CCQE_XSec_1DQ2_nu.h" #include "MiniBooNE_CCQE_XSec_2DTcos_antinu.h" #include "MiniBooNE_CCQE_XSec_2DTcos_nu.h" // MiniBooNE CC1pi+ 1D #include "MiniBooNE_CC1pip_XSec_1DEnu_nu.h" #include "MiniBooNE_CC1pip_XSec_1DQ2_nu.h" #include "MiniBooNE_CC1pip_XSec_1DTpi_nu.h" #include "MiniBooNE_CC1pip_XSec_1DTu_nu.h" // MiniBooNE CC1pi+ 2D #include "MiniBooNE_CC1pip_XSec_2DQ2Enu_nu.h" #include "MiniBooNE_CC1pip_XSec_2DTpiCospi_nu.h" #include "MiniBooNE_CC1pip_XSec_2DTpiEnu_nu.h" #include "MiniBooNE_CC1pip_XSec_2DTuCosmu_nu.h" #include "MiniBooNE_CC1pip_XSec_2DTuEnu_nu.h" // MiniBooNE CC1pi0 #include "MiniBooNE_CC1pi0_XSec_1DEnu_nu.h" #include "MiniBooNE_CC1pi0_XSec_1DQ2_nu.h" #include "MiniBooNE_CC1pi0_XSec_1DTu_nu.h" #include "MiniBooNE_CC1pi0_XSec_1Dcosmu_nu.h" #include "MiniBooNE_CC1pi0_XSec_1Dcospi0_nu.h" #include "MiniBooNE_CC1pi0_XSec_1Dppi0_nu.h" #include "MiniBooNE_NC1pi0_XSec_1Dcospi0_antinu.h" #include "MiniBooNE_NC1pi0_XSec_1Dcospi0_nu.h" #include "MiniBooNE_NC1pi0_XSec_1Dppi0_antinu.h" #include "MiniBooNE_NC1pi0_XSec_1Dppi0_nu.h" // MiniBooNE NC1pi0 //#include "MiniBooNE_NCpi0_XSec_1Dppi0_nu.h" // MiniBooNE NCEL #include "MiniBooNE_NCEL_XSec_Treco_nu.h" #endif #ifndef __NO_MicroBooNE__ #include "MicroBooNE_CCInc_XSec_2DPcos_nu.h" #endif #ifndef __NO_MINERvA__ // MINERvA CCQE #include "MINERvA_CCQE_XSec_1DQ2_antinu.h" #include "MINERvA_CCQE_XSec_1DQ2_joint.h" #include "MINERvA_CCQE_XSec_1DQ2_nu.h" // MINERvA CC0pi #include "MINERvA_CC0pi_XSec_1DEe_nue.h" #include "MINERvA_CC0pi_XSec_1DQ2_nu_proton.h" #include "MINERvA_CC0pi_XSec_1DQ2_nue.h" #include "MINERvA_CC0pi_XSec_1DThetae_nue.h" // 2018 MINERvA CC0pi STV #include "MINERvA_CC0pinp_STV_XSec_1D_nu.h" // 2018 MINERvA CC0pi 2D #include "MINERvA_CC0pi_XSec_1D_2018_nu.h" #include "MINERvA_CC0pi_XSec_2D_nu.h" // #include "MINERvA_CC0pi_XSec_3DptpzTp_nu.h" // 2018 MINERvA CC0pi 2D antinu #include "MINERvA_CC0pi_XSec_2D_antinu.h" // MINERvA CC1pi+ #include "MINERvA_CC1pip_XSec_1DTpi_20deg_nu.h" #include "MINERvA_CC1pip_XSec_1DTpi_nu.h" #include "MINERvA_CC1pip_XSec_1Dth_20deg_nu.h" #include "MINERvA_CC1pip_XSec_1Dth_nu.h" // 2017 data update #include "MINERvA_CC1pip_XSec_1D_2017Update.h" // MINERvA CCNpi+ #include "MINERvA_CCNpip_XSec_1DEnu_nu.h" #include "MINERvA_CCNpip_XSec_1DQ2_nu.h" #include "MINERvA_CCNpip_XSec_1DTpi_nu.h" #include "MINERvA_CCNpip_XSec_1Dpmu_nu.h" #include "MINERvA_CCNpip_XSec_1Dth_nu.h" #include "MINERvA_CCNpip_XSec_1Dthmu_nu.h" // MINERvA CC1pi0 #include "MINERvA_CC1pi0_XSec_1DEnu_antinu.h" #include "MINERvA_CC1pi0_XSec_1DQ2_antinu.h" #include "MINERvA_CC1pi0_XSec_1DTpi0_antinu.h" #include "MINERvA_CC1pi0_XSec_1Dpmu_antinu.h" #include "MINERvA_CC1pi0_XSec_1Dppi0_antinu.h" #include "MINERvA_CC1pi0_XSec_1Dth_antinu.h" #include "MINERvA_CC1pi0_XSec_1Dthmu_antinu.h" // MINERvA CC1pi0 neutrino #include "MINERvA_CC1pi0_XSec_1D_nu.h" // MINERvA CCINC #include "MINERvA_CCinc_XSec_1DEnu_ratio.h" #include "MINERvA_CCinc_XSec_1Dx_ratio.h" #include "MINERvA_CCinc_XSec_2DEavq3_nu.h" // MINERvA CCDIS #include "MINERvA_CCDIS_XSec_1DEnu_ratio.h" #include "MINERvA_CCDIS_XSec_1Dx_ratio.h" // MINERvA CCCOH pion #include "MINERvA_CCCOHPI_XSec_1DEnu_antinu.h" #include "MINERvA_CCCOHPI_XSec_1DEpi_antinu.h" #include "MINERvA_CCCOHPI_XSec_1DQ2_antinu.h" #include "MINERvA_CCCOHPI_XSec_1DEpi_nu.h" #include "MINERvA_CCCOHPI_XSec_1DQ2_nu.h" #include "MINERvA_CCCOHPI_XSec_1Dth_nu.h" #include "MINERvA_CCCOHPI_XSec_joint.h" #include "MINERvA_CC0pi_XSec_1DQ2_TgtRatio_nu.h" #include "MINERvA_CC0pi_XSec_1DQ2_Tgt_nu.h" #endif #ifndef __NO_T2K__ // T2K CC0pi 2016 #include "T2K_CC0pi_XSec_2DPcos_nu_I.h" #include "T2K_CC0pi_XSec_2DPcos_nu_II.h" +// T2K CC0pi 2020 arXiv:2004.05434 +#include "T2K_NuMu_CC0pi_OC_XSec_2DPcos.h" + // T2K CC0pi 2020 arXiv:2002.09323 #include "T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h" #include "T2K_NuMuAntiNuMu_CC0pi_XSec_joint.h" // T2K CC-inclusive with full acceptance 2018 #include "T2K_CCinc_XSec_2DPcos_nu_nonuniform.h" // T2K nue CC-inclusive 2019 #include "T2K_nueCCinc_XSec_1Dpe.h" #include "T2K_nueCCinc_XSec_joint.h" // T2K STV CC0pi 2018 #include "T2K_CC0pi1p_XSec_3DPcoscos_nu_nonuniform.h" #include "T2K_CC0pinp_STV_XSec_1Ddat_nu.h" #include "T2K_CC0pinp_STV_XSec_1Ddphit_nu.h" #include "T2K_CC0pinp_STV_XSec_1Ddpt_nu.h" #include "T2K_CC0pinp_ifk_XSec_3Dinfa_nu.h" #include "T2K_CC0pinp_ifk_XSec_3Dinfip_nu.h" #include "T2K_CC0pinp_ifk_XSec_3Dinfp_nu.h" // T2K CC1pi+ on CH #include "T2K_CC1pip_CH_XSec_1DAdlerPhi_nu.h" #include "T2K_CC1pip_CH_XSec_1DCosThAdler_nu.h" #include "T2K_CC1pip_CH_XSec_1DQ2_nu.h" #include "T2K_CC1pip_CH_XSec_1Dppi_nu.h" #include "T2K_CC1pip_CH_XSec_1Dthmupi_nu.h" #include "T2K_CC1pip_CH_XSec_1Dthpi_nu.h" #include "T2K_CC1pip_CH_XSec_2Dpmucosmu_nu.h" //#include "T2K_CC1pip_CH_XSec_1Dthq3pi_nu.h" //#include "T2K_CC1pip_CH_XSec_1DWrec_nu.h" //#include "T2K_CC1pip_CH_XSec_1Dq3_nu.h" // T2K CC1pi+ on H2O #include "T2K_CC1pip_H2O_XSec_1DEnuDelta_nu.h" #include "T2K_CC1pip_H2O_XSec_1DEnuMB_nu.h" #include "T2K_CC1pip_H2O_XSec_1Dcosmu_nu.h" #include "T2K_CC1pip_H2O_XSec_1Dcosmupi_nu.h" #include "T2K_CC1pip_H2O_XSec_1Dcospi_nu.h" #include "T2K_CC1pip_H2O_XSec_1Dpmu_nu.h" #include "T2K_CC1pip_H2O_XSec_1Dppi_nu.h" #endif #ifndef __NO_SciBooNE__ // SciBooNE COH studies #include "SciBooNE_CCCOH_1TRK_1DQ2_nu.h" #include "SciBooNE_CCCOH_1TRK_1Dpmu_nu.h" #include "SciBooNE_CCCOH_1TRK_1Dthetamu_nu.h" #include "SciBooNE_CCCOH_MuPiNoVA_1DQ2_nu.h" #include "SciBooNE_CCCOH_MuPiNoVA_1Dpmu_nu.h" #include "SciBooNE_CCCOH_MuPiNoVA_1Dthetamu_nu.h" #include "SciBooNE_CCCOH_MuPiNoVA_1Dthetapi_nu.h" #include "SciBooNE_CCCOH_MuPiNoVA_1Dthetapr_nu.h" #include "SciBooNE_CCCOH_MuPiVA_1DQ2_nu.h" #include "SciBooNE_CCCOH_MuPiVA_1Dpmu_nu.h" #include "SciBooNE_CCCOH_MuPiVA_1Dthetamu_nu.h" #include "SciBooNE_CCCOH_MuPr_1DQ2_nu.h" #include "SciBooNE_CCCOH_MuPr_1Dpmu_nu.h" #include "SciBooNE_CCCOH_MuPr_1Dthetamu_nu.h" #include "SciBooNE_CCCOH_STOPFINAL_1DQ2_nu.h" #include "SciBooNE_CCCOH_STOP_NTrks_nu.h" #include "SciBooNE_CCInc_XSec_1DEnu_nu.h" #endif #ifndef __NO_K2K__ // K2K NC1pi0 #include "K2K_NC1pi0_Evt_1Dppi0_nu.h" #endif // MC Studies #include "ExpMultDist_CCQE_XSec_1DVar_FakeStudy.h" #include "ExpMultDist_CCQE_XSec_2DVar_FakeStudy.h" #include "MCStudy_CCQEHistograms.h" #include "GenericFlux_Tester.h" #include "GenericFlux_Vectors.h" #include "ElectronFlux_FlatTree.h" #include "ElectronScattering_DurhamData.h" #include "MCStudy_KaonPreSelection.h" #include "MCStudy_MuonValidation.h" #include "OfficialNIWGPlots.h" #include "T2K2017_FakeData.h" #include "SigmaEnuHists.h" #include "Simple_Osc.h" #include "Smear_SVDUnfold_Propagation_Osc.h" #include "FitWeight.h" #include "NuisConfig.h" #include "NuisKey.h" #ifdef __USE_DYNSAMPLES__ #include "TRegexp.h" #include // linux #include DynamicSampleFactory::DynamicSampleFactory() : NSamples(0), NManifests(0) { LoadPlugins(); NUIS_LOG(FIT, "Loaded " << NSamples << " from " << NManifests << " shared object libraries."); } DynamicSampleFactory *DynamicSampleFactory::glblDSF = NULL; DynamicSampleFactory::PluginManifest::~PluginManifest() { for (size_t i_it = 0; i_it < Instances.size(); ++i_it) { (*(DSF_DestroySample))(Instances[i_it]); } } std::string EnsureTrailingSlash(std::string const &inp) { if (!inp.length()) { return "/"; } if (inp[inp.length() - 1] == '/') { return inp; } return inp + "/"; } void DynamicSampleFactory::LoadPlugins() { std::vector SearchDirectories; if (Config::HasPar("dynamic_sample.path")) { SearchDirectories = GeneralUtils::ParseToStr(Config::GetParS("dynamic_sample.path"), ":"); } char const *envPath = getenv("NUISANCE_DS_PATH"); if (envPath) { std::vector envPaths = GeneralUtils::ParseToStr(envPath, ":"); for (size_t ep_it = 0; ep_it < envPaths.size(); ++ep_it) { SearchDirectories.push_back(envPaths[ep_it]); } } if (!SearchDirectories.size()) { char const *pwdPath = getenv("PWD"); if (pwdPath) { SearchDirectories.push_back(pwdPath); } } for (size_t sp_it = 0; sp_it < SearchDirectories.size(); ++sp_it) { std::string dirpath = EnsureTrailingSlash(SearchDirectories[sp_it]); NUIS_LOG(FIT, "Searching for dynamic sample manifests in: " << dirpath); Ssiz_t len = 0; DIR *dir; struct dirent *ent; dir = opendir(dirpath.c_str()); if (dir != NULL) { TRegexp matchExp("*.so", true); while ((ent = readdir(dir)) != NULL) { if (matchExp.Index(TString(ent->d_name), &len) != Ssiz_t(-1)) { NUIS_LOG(FIT, "\tFound shared object: " << ent->d_name << " checking for relevant methods..."); void *dlobj = dlopen((dirpath + ent->d_name).c_str(), RTLD_NOW | RTLD_GLOBAL); char const *dlerr_cstr = dlerror(); std::string dlerr; if (dlerr_cstr) { dlerr = dlerr_cstr; } if (dlerr.length()) { NUIS_ERR(WRN, "\tDL Load Error: " << dlerr); continue; } PluginManifest plgManif; plgManif.dllib = dlobj; plgManif.soloc = (dirpath + ent->d_name); plgManif.DSF_NSamples = reinterpret_cast(dlsym(dlobj, "DSF_NSamples")); dlerr = ""; dlerr_cstr = dlerror(); if (dlerr_cstr) { dlerr = dlerr_cstr; } if (dlerr.length()) { NUIS_ERR(WRN, "\tFailed to load symbol \"DSF_NSamples\" from " << (dirpath + ent->d_name) << ": " << dlerr); dlclose(dlobj); continue; } plgManif.DSF_GetSampleName = reinterpret_cast( dlsym(dlobj, "DSF_GetSampleName")); dlerr = ""; dlerr_cstr = dlerror(); if (dlerr_cstr) { dlerr = dlerr_cstr; } if (dlerr.length()) { NUIS_ERR(WRN, "\tFailed to load symbol \"DSF_GetSampleName\" from " << (dirpath + ent->d_name) << ": " << dlerr); dlclose(dlobj); continue; } plgManif.DSF_GetSample = reinterpret_cast( dlsym(dlobj, "DSF_GetSample")); dlerr = ""; dlerr_cstr = dlerror(); if (dlerr_cstr) { dlerr = dlerr_cstr; } if (dlerr.length()) { NUIS_ERR(WRN, "\tFailed to load symbol \"DSF_GetSample\" from " << (dirpath + ent->d_name) << ": " << dlerr); dlclose(dlobj); continue; } plgManif.DSF_DestroySample = reinterpret_cast( dlsym(dlobj, "DSF_DestroySample")); dlerr = ""; dlerr_cstr = dlerror(); if (dlerr_cstr) { dlerr = dlerr_cstr; } if (dlerr.length()) { NUIS_ERR(WRN, "Failed to load symbol \"DSF_DestroySample\" from " << (dirpath + ent->d_name) << ": " << dlerr); dlclose(dlobj); continue; } plgManif.NSamples = (*(plgManif.DSF_NSamples))(); NUIS_LOG(FIT, "\tSuccessfully loaded dynamic sample manifest: " << plgManif.soloc << ". Contains " << plgManif.NSamples << " samples."); for (size_t smp_it = 0; smp_it < plgManif.NSamples; ++smp_it) { char const *smp_name = (*(plgManif.DSF_GetSampleName))(smp_it); if (!smp_name) { NUIS_ABORT("Could not load sample " << smp_it << " / " << plgManif.NSamples << " from " << plgManif.soloc); } if (Samples.count(smp_name)) { NUIS_ERR(WRN, "Already loaded a sample named: \"" << smp_name << "\". cannot load duplciates. This " "sample will be skipped."); continue; } plgManif.SamplesProvided.push_back(smp_name); Samples[smp_name] = std::make_pair(plgManif.soloc, smp_it); NUIS_LOG(FIT, "\t\t" << smp_name); } if (plgManif.SamplesProvided.size()) { Manifests[plgManif.soloc] = plgManif; NSamples += plgManif.SamplesProvided.size(); NManifests++; } else { dlclose(dlobj); } } } closedir(dir); } else { NUIS_ERR(WRN, "Tried to open non-existant directory."); } } } DynamicSampleFactory &DynamicSampleFactory::Get() { if (!glblDSF) { glblDSF = new DynamicSampleFactory(); } return *glblDSF; } void DynamicSampleFactory::Print() { std::map > ManifestSamples; for (std::map >::iterator smp_it = Samples.begin(); smp_it != Samples.end(); ++smp_it) { if (!ManifestSamples.count(smp_it->second.first)) { ManifestSamples[smp_it->second.first] = std::vector(); } ManifestSamples[smp_it->second.first].push_back(smp_it->first); } NUIS_LOG(FIT, "Dynamic sample manifest: "); for (std::map >::iterator m_it = ManifestSamples.begin(); m_it != ManifestSamples.end(); ++m_it) { NUIS_LOG(FIT, "\tLibrary " << m_it->first << " contains: "); for (size_t s_it = 0; s_it < m_it->second.size(); ++s_it) { NUIS_LOG(FIT, "\t\t" << m_it->second[s_it]); } } } bool DynamicSampleFactory::HasSample(std::string const &name) { return Samples.count(name); } bool DynamicSampleFactory::HasSample(nuiskey &samplekey) { return HasSample(samplekey.GetS("name")); } MeasurementBase *DynamicSampleFactory::CreateSample(nuiskey &samplekey) { if (!HasSample(samplekey)) { NUIS_ERR(WRN, "Asked to load unknown sample: \"" << samplekey.GetS("name") << "\"."); return NULL; } std::pair sample = Samples[samplekey.GetS("name")]; NUIS_LOG(SAM, "\tLoading sample " << sample.second << " from " << sample.first); return (*(Manifests[sample.first].DSF_GetSample))(sample.second, &samplekey); } DynamicSampleFactory::~DynamicSampleFactory() { Manifests.clear(); } #endif //! Functions to make it easier for samples to be created and handled. namespace SampleUtils { //! Create a given sample given its name, file, type, fakdata(fkdt) file and the //! current rw engine and push it back into the list fChain. MeasurementBase *CreateSample(std::string name, std::string file, std::string type, std::string fkdt, FitWeight *rw) { nuiskey samplekey = Config::CreateKey("sample"); samplekey.Set("name", name); samplekey.Set("input", file); samplekey.Set("type", type); return CreateSample(samplekey); } MeasurementBase *CreateSample(nuiskey samplekey) { #ifdef __USE_DYNSAMPLES__ if (DynamicSampleFactory::Get().HasSample(samplekey)) { NUIS_LOG(SAM, "Instantiating dynamic sample..."); MeasurementBase *ds = DynamicSampleFactory::Get().CreateSample(samplekey); if (ds) { NUIS_LOG(SAM, "Done."); return ds; } NUIS_ABORT("Failed to instantiate dynamic sample."); } #endif FitWeight *rw = FitBase::GetRW(); std::string name = samplekey.GetS("name"); std::string file = samplekey.GetS("input"); std::string type = samplekey.GetS("type"); std::string fkdt = ""; /* ANL CCQE Samples */ #ifndef __NO_ANL__ if (!name.compare("ANL_CCQE_XSec_1DEnu_nu") || !name.compare("ANL_CCQE_XSec_1DEnu_nu_PRD26") || !name.compare("ANL_CCQE_XSec_1DEnu_nu_PRL31") || !name.compare("ANL_CCQE_XSec_1DEnu_nu_PRD16")) { return (new ANL_CCQE_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("ANL_CCQE_Evt_1DQ2_nu") || !name.compare("ANL_CCQE_Evt_1DQ2_nu_PRL31") || !name.compare("ANL_CCQE_Evt_1DQ2_nu_PRD26") || !name.compare("ANL_CCQE_Evt_1DQ2_nu_PRD16")) { return (new ANL_CCQE_Evt_1DQ2_nu(samplekey)); /* ANL CC1ppip samples */ } else if (!name.compare("ANL_CC1ppip_XSec_1DEnu_nu") || !name.compare("ANL_CC1ppip_XSec_1DEnu_nu_W14Cut") || !name.compare("ANL_CC1ppip_XSec_1DEnu_nu_Uncorr") || !name.compare("ANL_CC1ppip_XSec_1DEnu_nu_W14Cut_Uncorr") || !name.compare("ANL_CC1ppip_XSec_1DEnu_nu_W16Cut_Uncorr")) { return (new ANL_CC1ppip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("ANL_CC1ppip_XSec_1DQ2_nu")) { return (new ANL_CC1ppip_XSec_1DQ2_nu(samplekey)); } else if (!name.compare("ANL_CC1ppip_Evt_1DQ2_nu") || !name.compare("ANL_CC1ppip_Evt_1DQ2_nu_W14Cut")) { return (new ANL_CC1ppip_Evt_1DQ2_nu(samplekey)); } else if (!name.compare("ANL_CC1ppip_Evt_1Dppi_nu")) { return (new ANL_CC1ppip_Evt_1Dppi_nu(samplekey)); } else if (!name.compare("ANL_CC1ppip_Evt_1Dthpr_nu")) { return (new ANL_CC1ppip_Evt_1Dthpr_nu(samplekey)); } else if (!name.compare("ANL_CC1ppip_Evt_1DcosmuStar_nu")) { return (new ANL_CC1ppip_Evt_1DcosmuStar_nu(samplekey)); } else if (!name.compare("ANL_CC1ppip_Evt_1DcosthAdler_nu")) { return (new ANL_CC1ppip_Evt_1DcosthAdler_nu(samplekey)); } else if (!name.compare("ANL_CC1ppip_Evt_1Dphi_nu")) { return (new ANL_CC1ppip_Evt_1Dphi_nu(samplekey)); /* ANL CC1npip sample */ } else if (!name.compare("ANL_CC1npip_XSec_1DEnu_nu") || !name.compare("ANL_CC1npip_XSec_1DEnu_nu_W14Cut") || !name.compare("ANL_CC1npip_XSec_1DEnu_nu_Uncorr") || !name.compare("ANL_CC1npip_XSec_1DEnu_nu_W14Cut_Uncorr") || !name.compare("ANL_CC1npip_XSec_1DEnu_nu_W16Cut_Uncorr")) { return (new ANL_CC1npip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("ANL_CC1npip_Evt_1DQ2_nu") || !name.compare("ANL_CC1npip_Evt_1DQ2_nu_W14Cut")) { return (new ANL_CC1npip_Evt_1DQ2_nu(samplekey)); } else if (!name.compare("ANL_CC1npip_Evt_1Dppi_nu")) { return (new ANL_CC1npip_Evt_1Dppi_nu(samplekey)); } else if (!name.compare("ANL_CC1npip_Evt_1DcosmuStar_nu")) { return (new ANL_CC1npip_Evt_1DcosmuStar_nu(samplekey)); /* ANL CC1pi0 sample */ } else if (!name.compare("ANL_CC1pi0_XSec_1DEnu_nu") || !name.compare("ANL_CC1pi0_XSec_1DEnu_nu_W14Cut") || !name.compare("ANL_CC1pi0_XSec_1DEnu_nu_Uncorr") || !name.compare("ANL_CC1pi0_XSec_1DEnu_nu_W14Cut_Uncorr") || !name.compare("ANL_CC1pi0_XSec_1DEnu_nu_W16Cut_Uncorr")) { return (new ANL_CC1pi0_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("ANL_CC1pi0_Evt_1DQ2_nu") || !name.compare("ANL_CC1pi0_Evt_1DQ2_nu_W14Cut")) { return (new ANL_CC1pi0_Evt_1DQ2_nu(samplekey)); } else if (!name.compare("ANL_CC1pi0_Evt_1DcosmuStar_nu")) { return (new ANL_CC1pi0_Evt_1DcosmuStar_nu(samplekey)); /* ANL NC1npip sample */ } else if (!name.compare("ANL_NC1npip_Evt_1Dppi_nu")) { return (new ANL_NC1npip_Evt_1Dppi_nu(samplekey)); /* ANL NC1ppim sample */ } else if (!name.compare("ANL_NC1ppim_XSec_1DEnu_nu")) { return (new ANL_NC1ppim_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("ANL_NC1ppim_Evt_1DcosmuStar_nu")) { return (new ANL_NC1ppim_Evt_1DcosmuStar_nu(samplekey)); /* ANL CC2pi sample */ } else if (!name.compare("ANL_CC2pi_1pim1pip_XSec_1DEnu_nu")) { return (new ANL_CC2pi_1pim1pip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pim1pip_Evt_1Dpmu_nu")) { return (new ANL_CC2pi_1pim1pip_Evt_1Dpmu_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pim1pip_Evt_1Dppip_nu")) { return (new ANL_CC2pi_1pim1pip_Evt_1Dppip_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pim1pip_Evt_1Dppim_nu")) { return (new ANL_CC2pi_1pim1pip_Evt_1Dppim_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pim1pip_Evt_1Dpprot_nu")) { return (new ANL_CC2pi_1pim1pip_Evt_1Dpprot_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pip1pip_XSec_1DEnu_nu")) { return (new ANL_CC2pi_1pip1pip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pip1pip_Evt_1Dpmu_nu")) { return (new ANL_CC2pi_1pip1pip_Evt_1Dpmu_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pip1pip_Evt_1Dpneut_nu")) { return (new ANL_CC2pi_1pip1pip_Evt_1Dpneut_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pip1pip_Evt_1DppipHigh_nu")) { return (new ANL_CC2pi_1pip1pip_Evt_1DppipHigh_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pip1pip_Evt_1DppipLow_nu")) { return (new ANL_CC2pi_1pip1pip_Evt_1DppipLow_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pip1pi0_XSec_1DEnu_nu")) { return (new ANL_CC2pi_1pip1pi0_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pip1pi0_Evt_1Dpmu_nu")) { return (new ANL_CC2pi_1pip1pi0_Evt_1Dpmu_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pip1pi0_Evt_1Dppip_nu")) { return (new ANL_CC2pi_1pip1pi0_Evt_1Dppip_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pip1pi0_Evt_1Dppi0_nu")) { return (new ANL_CC2pi_1pip1pi0_Evt_1Dppi0_nu(samplekey)); } else if (!name.compare("ANL_CC2pi_1pip1pi0_Evt_1Dpprot_nu")) { return (new ANL_CC2pi_1pip1pi0_Evt_1Dpprot_nu(samplekey)); /* ArgoNeut Samples */ } else #endif #ifndef __NO_ArgoNeuT__ if (!name.compare("ArgoNeuT_CCInc_XSec_1Dpmu_antinu")) { return (new ArgoNeuT_CCInc_XSec_1Dpmu_antinu(samplekey)); } else if (!name.compare("ArgoNeuT_CCInc_XSec_1Dpmu_nu")) { return (new ArgoNeuT_CCInc_XSec_1Dpmu_nu(samplekey)); } else if (!name.compare("ArgoNeuT_CCInc_XSec_1Dthetamu_antinu")) { return (new ArgoNeuT_CCInc_XSec_1Dthetamu_antinu(samplekey)); } else if (!name.compare("ArgoNeuT_CCInc_XSec_1Dthetamu_nu")) { return (new ArgoNeuT_CCInc_XSec_1Dthetamu_nu(samplekey)); } else if (!name.compare("ArgoNeuT_CC1Pi_XSec_1Dpmu_nu")) { return (new ArgoNeuT_CC1Pi_XSec_1Dpmu_nu(samplekey)); } else if (!name.compare("ArgoNeuT_CC1Pi_XSec_1Dthetamu_nu")) { return (new ArgoNeuT_CC1Pi_XSec_1Dthetamu_nu(samplekey)); } else if (!name.compare("ArgoNeuT_CC1Pi_XSec_1Dthetapi_nu")) { return (new ArgoNeuT_CC1Pi_XSec_1Dthetapi_nu(samplekey)); } else if (!name.compare("ArgoNeuT_CC1Pi_XSec_1Dthetamupi_nu")) { return (new ArgoNeuT_CC1Pi_XSec_1Dthetamupi_nu(samplekey)); } else if (!name.compare("ArgoNeuT_CC1Pi_XSec_1Dpmu_antinu")) { return (new ArgoNeuT_CC1Pi_XSec_1Dpmu_antinu(samplekey)); } else if (!name.compare("ArgoNeuT_CC1Pi_XSec_1Dthetamu_antinu")) { return (new ArgoNeuT_CC1Pi_XSec_1Dthetamu_antinu(samplekey)); } else if (!name.compare("ArgoNeuT_CC1Pi_XSec_1Dthetapi_antinu")) { return (new ArgoNeuT_CC1Pi_XSec_1Dthetapi_antinu(samplekey)); } else if (!name.compare("ArgoNeuT_CC1Pi_XSec_1Dthetamupi_antinu")) { return (new ArgoNeuT_CC1Pi_XSec_1Dthetamupi_antinu(samplekey)); /* BNL Samples */ } else #endif #ifndef __NO_BNL__ if (!name.compare("BNL_CCQE_XSec_1DEnu_nu")) { return (new BNL_CCQE_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("BNL_CCQE_Evt_1DQ2_nu")) { return (new BNL_CCQE_Evt_1DQ2_nu(samplekey)); /* BNL CC1ppip samples */ } else if (!name.compare("BNL_CC1ppip_XSec_1DEnu_nu") || !name.compare("BNL_CC1ppip_XSec_1DEnu_nu_Uncorr") || !name.compare("BNL_CC1ppip_XSec_1DEnu_nu_W14Cut") || !name.compare("BNL_CC1ppip_XSec_1DEnu_nu_W14Cut_Uncorr")) { return (new BNL_CC1ppip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("BNL_CC1ppip_Evt_1DQ2_nu") || !name.compare("BNL_CC1ppip_Evt_1DQ2_nu_W14Cut")) { return (new BNL_CC1ppip_Evt_1DQ2_nu(samplekey)); } else if (!name.compare("BNL_CC1ppip_Evt_1DcosthAdler_nu")) { return (new BNL_CC1ppip_Evt_1DcosthAdler_nu(samplekey)); } else if (!name.compare("BNL_CC1ppip_Evt_1Dphi_nu")) { return (new BNL_CC1ppip_Evt_1Dphi_nu(samplekey)); /* BNL CC1npip samples */ } else if (!name.compare("BNL_CC1npip_XSec_1DEnu_nu") || !name.compare("BNL_CC1npip_XSec_1DEnu_nu_Uncorr")) { return (new BNL_CC1npip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("BNL_CC1npip_Evt_1DQ2_nu")) { return (new BNL_CC1npip_Evt_1DQ2_nu(samplekey)); /* BNL CC1pi0 samples */ } else if (!name.compare("BNL_CC1pi0_XSec_1DEnu_nu")) { return (new BNL_CC1pi0_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("BNL_CC1pi0_Evt_1DQ2_nu")) { return (new BNL_CC1pi0_Evt_1DQ2_nu(samplekey)); /* FNAL Samples */ } else #endif #ifndef __NO_FNAL__ if (!name.compare("FNAL_CCQE_Evt_1DQ2_nu")) { return (new FNAL_CCQE_Evt_1DQ2_nu(samplekey)); /* FNAL CC1ppip */ } else if (!name.compare("FNAL_CC1ppip_XSec_1DEnu_nu")) { return (new FNAL_CC1ppip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("FNAL_CC1ppip_XSec_1DQ2_nu")) { return (new FNAL_CC1ppip_XSec_1DQ2_nu(samplekey)); } else if (!name.compare("FNAL_CC1ppip_Evt_1DQ2_nu")) { return (new FNAL_CC1ppip_Evt_1DQ2_nu(samplekey)); /* FNAL CC1ppim */ } else if (!name.compare("FNAL_CC1ppim_XSec_1DEnu_antinu")) { return (new FNAL_CC1ppim_XSec_1DEnu_antinu(samplekey)); /* BEBC Samples */ } else #endif #ifndef __NO_BEBC__ if (!name.compare("BEBC_CCQE_XSec_1DQ2_nu")) { return (new BEBC_CCQE_XSec_1DQ2_nu(samplekey)); /* BEBC CC1ppip samples */ } else if (!name.compare("BEBC_CC1ppip_XSec_1DEnu_nu")) { return (new BEBC_CC1ppip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("BEBC_CC1ppip_XSec_1DQ2_nu")) { return (new BEBC_CC1ppip_XSec_1DQ2_nu(samplekey)); /* BEBC CC1npip samples */ } else if (!name.compare("BEBC_CC1npip_XSec_1DEnu_nu")) { return (new BEBC_CC1npip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("BEBC_CC1npip_XSec_1DQ2_nu")) { return (new BEBC_CC1npip_XSec_1DQ2_nu(samplekey)); /* BEBC CC1pi0 samples */ } else if (!name.compare("BEBC_CC1pi0_XSec_1DEnu_nu")) { return (new BEBC_CC1pi0_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("BEBC_CC1pi0_XSec_1DQ2_nu")) { return (new BEBC_CC1pi0_XSec_1DQ2_nu(samplekey)); /* BEBC CC1npim samples */ } else if (!name.compare("BEBC_CC1npim_XSec_1DEnu_antinu")) { return (new BEBC_CC1npim_XSec_1DEnu_antinu(samplekey)); } else if (!name.compare("BEBC_CC1npim_XSec_1DQ2_antinu")) { return (new BEBC_CC1npim_XSec_1DQ2_antinu(samplekey)); /* BEBC CC1ppim samples */ } else if (!name.compare("BEBC_CC1ppim_XSec_1DEnu_antinu")) { return (new BEBC_CC1ppim_XSec_1DEnu_antinu(samplekey)); } else if (!name.compare("BEBC_CC1ppim_XSec_1DQ2_antinu")) { return (new BEBC_CC1ppim_XSec_1DQ2_antinu(samplekey)); /* GGM CC1ppip samples */ } else #endif #ifndef __NO_GGM__ if (!name.compare("GGM_CC1ppip_XSec_1DEnu_nu")) { return (new GGM_CC1ppip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("GGM_CC1ppip_Evt_1DQ2_nu")) { return (new GGM_CC1ppip_Evt_1DQ2_nu(samplekey)); /* MiniBooNE Samples */ /* CCQE */ } else #endif #ifndef __NO_MiniBooNE__ if (!name.compare("MiniBooNE_CCQE_XSec_1DQ2_nu") || !name.compare("MiniBooNE_CCQELike_XSec_1DQ2_nu")) { return (new MiniBooNE_CCQE_XSec_1DQ2_nu(samplekey)); } else if (!name.compare("MiniBooNE_CCQE_XSec_1DEnu_nu") || !name.compare("MiniBooNE_CCQELike_XSec_1DEnu_nu")) { return (new MiniBooNE_CCQE_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("MiniBooNE_CCQE_XSec_1DQ2_antinu") || !name.compare("MiniBooNE_CCQELike_XSec_1DQ2_antinu") || !name.compare("MiniBooNE_CCQE_CTarg_XSec_1DQ2_antinu")) { return (new MiniBooNE_CCQE_XSec_1DQ2_antinu(samplekey)); } else if (!name.compare("MiniBooNE_CCQE_XSec_2DTcos_nu") || !name.compare("MiniBooNE_CCQELike_XSec_2DTcos_nu")) { return (new MiniBooNE_CCQE_XSec_2DTcos_nu(samplekey)); } else if (!name.compare("MiniBooNE_CCQE_XSec_2DTcos_antinu") || !name.compare("MiniBooNE_CCQELike_XSec_2DTcos_antinu")) { return (new MiniBooNE_CCQE_XSec_2DTcos_antinu(samplekey)); /* MiniBooNE CC1pi+ */ // 1D } else if (!name.compare("MiniBooNE_CC1pip_XSec_1DEnu_nu")) { return (new MiniBooNE_CC1pip_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pip_XSec_1DQ2_nu")) { return (new MiniBooNE_CC1pip_XSec_1DQ2_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pip_XSec_1DTpi_nu")) { return (new MiniBooNE_CC1pip_XSec_1DTpi_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pip_XSec_1DTu_nu")) { return (new MiniBooNE_CC1pip_XSec_1DTu_nu(samplekey)); // 2D } else if (!name.compare("MiniBooNE_CC1pip_XSec_2DQ2Enu_nu")) { return (new MiniBooNE_CC1pip_XSec_2DQ2Enu_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pip_XSec_2DTpiCospi_nu")) { return (new MiniBooNE_CC1pip_XSec_2DTpiCospi_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pip_XSec_2DTpiEnu_nu")) { return (new MiniBooNE_CC1pip_XSec_2DTpiEnu_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pip_XSec_2DTuCosmu_nu")) { return (new MiniBooNE_CC1pip_XSec_2DTuCosmu_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pip_XSec_2DTuEnu_nu")) { return (new MiniBooNE_CC1pip_XSec_2DTuEnu_nu(samplekey)); /* MiniBooNE CC1pi0 */ } else if (!name.compare("MiniBooNE_CC1pi0_XSec_1DEnu_nu")) { return (new MiniBooNE_CC1pi0_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pi0_XSec_1DQ2_nu")) { return (new MiniBooNE_CC1pi0_XSec_1DQ2_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pi0_XSec_1DTu_nu")) { return (new MiniBooNE_CC1pi0_XSec_1DTu_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pi0_XSec_1Dcosmu_nu")) { return (new MiniBooNE_CC1pi0_XSec_1Dcosmu_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pi0_XSec_1Dcospi0_nu")) { return (new MiniBooNE_CC1pi0_XSec_1Dcospi0_nu(samplekey)); } else if (!name.compare("MiniBooNE_CC1pi0_XSec_1Dppi0_nu")) { return (new MiniBooNE_CC1pi0_XSec_1Dppi0_nu(samplekey)); } else if (!name.compare("MiniBooNE_NC1pi0_XSec_1Dcospi0_antinu") || !name.compare("MiniBooNE_NC1pi0_XSec_1Dcospi0_rhc")) { return (new MiniBooNE_NC1pi0_XSec_1Dcospi0_antinu(samplekey)); } else if (!name.compare("MiniBooNE_NC1pi0_XSec_1Dcospi0_nu") || !name.compare("MiniBooNE_NC1pi0_XSec_1Dcospi0_fhc")) { return (new MiniBooNE_NC1pi0_XSec_1Dcospi0_nu(samplekey)); } else if (!name.compare("MiniBooNE_NC1pi0_XSec_1Dppi0_antinu") || !name.compare("MiniBooNE_NC1pi0_XSec_1Dppi0_rhc")) { return (new MiniBooNE_NC1pi0_XSec_1Dppi0_antinu(samplekey)); } else if (!name.compare("MiniBooNE_NC1pi0_XSec_1Dppi0_nu") || !name.compare("MiniBooNE_NC1pi0_XSec_1Dppi0_fhc")) { return (new MiniBooNE_NC1pi0_XSec_1Dppi0_nu(samplekey)); /* MiniBooNE NCEL */ } else if (!name.compare("MiniBooNE_NCEL_XSec_Treco_nu")) { return (new MiniBooNE_NCEL_XSec_Treco_nu(samplekey)); } else #endif #ifndef __NO_MicroBooNE__ /* MicroBooNE Samples */ /* MicroBooNE CCinclusive */ if (!name.compare("MicroBooNE_CCInc_XSec_2DPcos_nu")) { return (new MicroBooNE_CCInc_XSec_2DPcos_nu(samplekey)); } else #endif #ifndef __NO_MINERvA__ /* MINERvA Samples */ if (!name.compare("MINERvA_CCQE_XSec_1DQ2_nu") || !name.compare("MINERvA_CCQE_XSec_1DQ2_nu_20deg") || !name.compare("MINERvA_CCQE_XSec_1DQ2_nu_oldflux") || !name.compare("MINERvA_CCQE_XSec_1DQ2_nu_20deg_oldflux")) { return (new MINERvA_CCQE_XSec_1DQ2_nu(samplekey)); } else if (!name.compare("MINERvA_CCQE_XSec_1DQ2_antinu") || !name.compare("MINERvA_CCQE_XSec_1DQ2_antinu_20deg") || !name.compare("MINERvA_CCQE_XSec_1DQ2_antinu_oldflux") || !name.compare("MINERvA_CCQE_XSec_1DQ2_antinu_20deg_oldflux")) { return (new MINERvA_CCQE_XSec_1DQ2_antinu(samplekey)); } else if (!name.compare("MINERvA_CCQE_XSec_1DQ2_joint_oldflux") || !name.compare("MINERvA_CCQE_XSec_1DQ2_joint_20deg_oldflux") || !name.compare("MINERvA_CCQE_XSec_1DQ2_joint") || !name.compare("MINERvA_CCQE_XSec_1DQ2_joint_20deg")) { return (new MINERvA_CCQE_XSec_1DQ2_joint(samplekey)); } else if (!name.compare("MINERvA_CC0pi_XSec_1DEe_nue")) { return (new MINERvA_CC0pi_XSec_1DEe_nue(samplekey)); } else if (!name.compare("MINERvA_CC0pi_XSec_1DQ2_nue")) { return (new MINERvA_CC0pi_XSec_1DQ2_nue(samplekey)); } else if (!name.compare("MINERvA_CC0pi_XSec_1DThetae_nue")) { return (new MINERvA_CC0pi_XSec_1DThetae_nue(samplekey)); } else if (!name.compare("MINERvA_CC0pinp_STV_XSec_1Dpmu_nu") || !name.compare("MINERvA_CC0pinp_STV_XSec_1Dthmu_nu") || !name.compare("MINERvA_CC0pinp_STV_XSec_1Dpprot_nu") || !name.compare("MINERvA_CC0pinp_STV_XSec_1Dthprot_nu") || !name.compare("MINERvA_CC0pinp_STV_XSec_1Dpnreco_nu") || !name.compare("MINERvA_CC0pinp_STV_XSec_1Ddalphat_nu") || !name.compare("MINERvA_CC0pinp_STV_XSec_1Ddpt_nu") || !name.compare("MINERvA_CC0pinp_STV_XSec_1Ddphit_nu")) { return (new MINERvA_CC0pinp_STV_XSec_1D_nu(samplekey)); } else if (!name.compare("MINERvA_CC0pi_XSec_1DQ2_nu_proton")) { return (new MINERvA_CC0pi_XSec_1DQ2_nu_proton(samplekey)); } else if (!name.compare("MINERvA_CC0pi_XSec_1DQ2_TgtC_nu") || !name.compare("MINERvA_CC0pi_XSec_1DQ2_TgtCH_nu") || !name.compare("MINERvA_CC0pi_XSec_1DQ2_TgtFe_nu") || !name.compare("MINERvA_CC0pi_XSec_1DQ2_TgtPb_nu")) { return (new MINERvA_CC0pi_XSec_1DQ2_Tgt_nu(samplekey)); } else if (!name.compare("MINERvA_CC0pi_XSec_1DQ2_TgtRatioC_nu") || !name.compare("MINERvA_CC0pi_XSec_1DQ2_TgtRatioFe_nu") || !name.compare("MINERvA_CC0pi_XSec_1DQ2_TgtRatioPb_nu")) { return (new MINERvA_CC0pi_XSec_1DQ2_TgtRatio_nu(samplekey)); // Dan Ruterbories measurements of late 2018 } else if (!name.compare("MINERvA_CC0pi_XSec_2Dptpz_nu")) { return (new MINERvA_CC0pi_XSec_2D_nu(samplekey)); // } else if (!name.compare("MINERvA_CC0pi_XSec_3DptpzTp_nu")) { // return (new MINERvA_CC0pi_XSec_3DptpzTp_nu(samplekey)); } else if (!name.compare("MINERvA_CC0pi_XSec_1Dpt_nu") || !name.compare("MINERvA_CC0pi_XSec_1Dpz_nu") || !name.compare("MINERvA_CC0pi_XSec_1DQ2QE_nu") || !name.compare("MINERvA_CC0pi_XSec_1DEnuQE_nu")) { return (new MINERvA_CC0pi_XSec_1D_2018_nu(samplekey)); // C. Patrick's early 2018 measurements } else if (!name.compare("MINERvA_CC0pi_XSec_2Dptpz_antinu") || !name.compare("MINERvA_CC0pi_XSec_2DQ2QEEnuQE_antinu") || !name.compare("MINERvA_CC0pi_XSec_2DQ2QEEnuTrue_antinu")) { return (new MINERvA_CC0pi_XSec_2D_antinu(samplekey)); /* CC1pi+ */ // DONE } else if (!name.compare("MINERvA_CC1pip_XSec_1DTpi_nu") || !name.compare("MINERvA_CC1pip_XSec_1DTpi_nu_20deg") || !name.compare("MINERvA_CC1pip_XSec_1DTpi_nu_fluxcorr") || !name.compare("MINERvA_CC1pip_XSec_1DTpi_nu_20deg_fluxcorr")) { return (new MINERvA_CC1pip_XSec_1DTpi_nu(samplekey)); // DONE } else if (!name.compare("MINERvA_CC1pip_XSec_1Dth_nu") || !name.compare("MINERvA_CC1pip_XSec_1Dth_nu_20deg") || !name.compare("MINERvA_CC1pip_XSec_1Dth_nu_fluxcorr") || !name.compare("MINERvA_CC1pip_XSec_1Dth_nu_20deg_fluxcorr")) { return (new MINERvA_CC1pip_XSec_1Dth_nu(samplekey)); } else if (!name.compare("MINERvA_CC1pip_XSec_1DTpi_nu_2017") || !name.compare("MINERvA_CC1pip_XSec_1Dth_nu_2017") || !name.compare("MINERvA_CC1pip_XSec_1Dpmu_nu_2017") || !name.compare("MINERvA_CC1pip_XSec_1Dthmu_nu_2017") || !name.compare("MINERvA_CC1pip_XSec_1DQ2_nu_2017") || !name.compare("MINERvA_CC1pip_XSec_1DEnu_nu_2017")) { return (new MINERvA_CC1pip_XSec_1D_2017Update(samplekey)); /* CCNpi+ */ } else if (!name.compare("MINERvA_CCNpip_XSec_1Dth_nu") || !name.compare("MINERvA_CCNpip_XSec_1Dth_nu_2015") || !name.compare("MINERvA_CCNpip_XSec_1Dth_nu_2016") || !name.compare("MINERvA_CCNpip_XSec_1Dth_nu_2015_20deg") || !name.compare("MINERvA_CCNpip_XSec_1Dth_nu_2015_fluxcorr") || !name.compare("MINERvA_CCNpip_XSec_1Dth_nu_2015_20deg_fluxcorr")) { return (new MINERvA_CCNpip_XSec_1Dth_nu(samplekey)); } else if (!name.compare("MINERvA_CCNpip_XSec_1DTpi_nu") || !name.compare("MINERvA_CCNpip_XSec_1DTpi_nu_2015") || !name.compare("MINERvA_CCNpip_XSec_1DTpi_nu_2016") || !name.compare("MINERvA_CCNpip_XSec_1DTpi_nu_2015_20deg") || !name.compare("MINERvA_CCNpip_XSec_1DTpi_nu_2015_fluxcorr") || !name.compare( "MINERvA_CCNpip_XSec_1DTpi_nu_2015_20deg_fluxcorr")) { return (new MINERvA_CCNpip_XSec_1DTpi_nu(samplekey)); } else if (!name.compare("MINERvA_CCNpip_XSec_1Dthmu_nu")) { return (new MINERvA_CCNpip_XSec_1Dthmu_nu(samplekey)); } else if (!name.compare("MINERvA_CCNpip_XSec_1Dpmu_nu")) { return (new MINERvA_CCNpip_XSec_1Dpmu_nu(samplekey)); } else if (!name.compare("MINERvA_CCNpip_XSec_1DQ2_nu")) { return (new MINERvA_CCNpip_XSec_1DQ2_nu(samplekey)); } else if (!name.compare("MINERvA_CCNpip_XSec_1DEnu_nu")) { return (new MINERvA_CCNpip_XSec_1DEnu_nu(samplekey)); /* MINERvA CC1pi0 anti-nu */ // Done } else if (!name.compare("MINERvA_CC1pi0_XSec_1Dth_antinu") || !name.compare("MINERvA_CC1pi0_XSec_1Dth_antinu_2015") || !name.compare("MINERvA_CC1pi0_XSec_1Dth_antinu_2016") || !name.compare("MINERvA_CC1pi0_XSec_1Dth_antinu_fluxcorr") || !name.compare("MINERvA_CC1pi0_XSec_1Dth_antinu_2015_fluxcorr") || !name.compare("MINERvA_CC1pi0_XSec_1Dth_antinu_2016_fluxcorr")) { return (new MINERvA_CC1pi0_XSec_1Dth_antinu(samplekey)); } else if (!name.compare("MINERvA_CC1pi0_XSec_1Dppi0_antinu") || !name.compare("MINERvA_CC1pi0_XSec_1Dppi0_antinu_fluxcorr")) { return (new MINERvA_CC1pi0_XSec_1Dppi0_antinu(samplekey)); } else if (!name.compare("MINERvA_CC1pi0_XSec_1DTpi0_antinu")) { return (new MINERvA_CC1pi0_XSec_1DTpi0_antinu(samplekey)); // Done } else if (!name.compare("MINERvA_CC1pi0_XSec_1DQ2_antinu")) { return (new MINERvA_CC1pi0_XSec_1DQ2_antinu(samplekey)); // Done } else if (!name.compare("MINERvA_CC1pi0_XSec_1Dthmu_antinu")) { return (new MINERvA_CC1pi0_XSec_1Dthmu_antinu(samplekey)); // Done } else if (!name.compare("MINERvA_CC1pi0_XSec_1Dpmu_antinu")) { return (new MINERvA_CC1pi0_XSec_1Dpmu_antinu(samplekey)); // Done } else if (!name.compare("MINERvA_CC1pi0_XSec_1DEnu_antinu")) { return (new MINERvA_CC1pi0_XSec_1DEnu_antinu(samplekey)); // MINERvA CC1pi0 nu } else if (!name.compare("MINERvA_CC1pi0_XSec_1DTpi_nu") || !name.compare("MINERvA_CC1pi0_XSec_1Dth_nu") || !name.compare("MINERvA_CC1pi0_XSec_1Dpmu_nu") || !name.compare("MINERvA_CC1pi0_XSec_1Dthmu_nu") || !name.compare("MINERvA_CC1pi0_XSec_1DQ2_nu") || !name.compare("MINERvA_CC1pi0_XSec_1DEnu_nu") || !name.compare("MINERvA_CC1pi0_XSec_1DWexp_nu") || !name.compare("MINERvA_CC1pi0_XSec_1DPPi0Mass_nu") || !name.compare("MINERvA_CC1pi0_XSec_1DPPi0MassDelta_nu") || !name.compare("MINERvA_CC1pi0_XSec_1DCosAdler_nu") || !name.compare("MINERvA_CC1pi0_XSec_1DPhiAdler_nu")) { return (new MINERvA_CC1pi0_XSec_1D_nu(samplekey)); /* CCINC */ } else if (!name.compare("MINERvA_CCinc_XSec_2DEavq3_nu")) { return (new MINERvA_CCinc_XSec_2DEavq3_nu(samplekey)); } else if (!name.compare("MINERvA_CCinc_XSec_1Dx_ratio_C12_CH") || !name.compare("MINERvA_CCinc_XSec_1Dx_ratio_Fe56_CH") || !name.compare("MINERvA_CCinc_XSec_1Dx_ratio_Pb208_CH")) { return (new MINERvA_CCinc_XSec_1Dx_ratio(samplekey)); } else if (!name.compare("MINERvA_CCinc_XSec_1DEnu_ratio_C12_CH") || !name.compare("MINERvA_CCinc_XSec_1DEnu_ratio_Fe56_CH") || !name.compare("MINERvA_CCinc_XSec_1DEnu_ratio_Pb208_CH")) { return (new MINERvA_CCinc_XSec_1DEnu_ratio(samplekey)); /* CCDIS */ } else if (!name.compare("MINERvA_CCDIS_XSec_1Dx_ratio_C12_CH") || !name.compare("MINERvA_CCDIS_XSec_1Dx_ratio_Fe56_CH") || !name.compare("MINERvA_CCDIS_XSec_1Dx_ratio_Pb208_CH")) { return (new MINERvA_CCDIS_XSec_1Dx_ratio(samplekey)); } else if (!name.compare("MINERvA_CCDIS_XSec_1DEnu_ratio_C12_CH") || !name.compare("MINERvA_CCDIS_XSec_1DEnu_ratio_Fe56_CH") || !name.compare("MINERvA_CCDIS_XSec_1DEnu_ratio_Pb208_CH")) { return (new MINERvA_CCDIS_XSec_1DEnu_ratio(samplekey)); /* CC-COH */ } else if (!name.compare("MINERvA_CCCOHPI_XSec_1DEnu_nu")) { return (new MINERvA_CCCOHPI_XSec_1DEnu_nu(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1DEpi_nu")) { return (new MINERvA_CCCOHPI_XSec_1DEpi_nu(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1Dth_nu")) { return (new MINERvA_CCCOHPI_XSec_1Dth_nu(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1DQ2_nu")) { return (new MINERvA_CCCOHPI_XSec_1DQ2_nu(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1DEnu_antinu")) { return (new MINERvA_CCCOHPI_XSec_1DEnu_antinu(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1DEpi_antinu")) { return (new MINERvA_CCCOHPI_XSec_1DEpi_antinu(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1Dth_antinu")) { return (new MINERvA_CCCOHPI_XSec_1Dth_antinu(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1DQ2_antinu")) { return (new MINERvA_CCCOHPI_XSec_1DQ2_antinu(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1DEnu_joint")) { return (new MINERvA_CCCOHPI_XSec_joint(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1DEpi_joint")) { return (new MINERvA_CCCOHPI_XSec_joint(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1Dth_joint")) { return (new MINERvA_CCCOHPI_XSec_joint(samplekey)); } else if (!name.compare("MINERvA_CCCOHPI_XSec_1DQ2_joint")) { return (new MINERvA_CCCOHPI_XSec_joint(samplekey)); /* T2K Samples */ } else #endif #ifndef __NO_T2K__ if (!name.compare("T2K_CC0pi_XSec_2DPcos_nu_I")) { return (new T2K_CC0pi_XSec_2DPcos_nu_I(samplekey)); } else if (!name.compare("T2K_CC0pi_XSec_2DPcos_nu_II")) { return (new T2K_CC0pi_XSec_2DPcos_nu_II(samplekey)); } else if (!name.compare("T2K_CCinc_XSec_2DPcos_nu_nonuniform")) { return (new T2K_CCinc_XSec_2DPcos_nu_nonuniform(samplekey)); + } else if (!name.compare("T2K_NuMu_CC0pi_O_XSec_2DPcos") || + !name.compare("T2K_NuMu_CC0pi_C_XSec_2DPcos")) { + return (new T2K_NuMu_CC0pi_OC_XSec_2DPcos(samplekey)); + } else if (!name.compare("T2K_NuMu_CC0pi_CH_XSec_2DPcos") || !name.compare("T2K_AntiNuMu_CC0pi_CH_XSec_2DPcos")) { return (new T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos(samplekey)); } else if (!name.compare("T2K_NuMuAntiNuMu_CC0pi_XSec_joint")) { return (new T2K_NuMuAntiNuMu_CC0pi_XSec_joint(samplekey)); } else if (!name.compare("T2K_nueCCinc_XSec_1Dpe_FHC") || !name.compare("T2K_nueCCinc_XSec_1Dpe_RHC") || !name.compare("T2K_nuebarCCinc_XSec_1Dpe_RHC")) { return (new T2K_nueCCinc_XSec_1Dpe(samplekey)); } else if (!name.compare("T2K_nueCCinc_XSec_joint")) { return (new T2K_nueCCinc_XSec_joint(samplekey)); /* T2K CC1pi+ CH samples */ // Comment these out for now because we don't have the proper data } else if (!name.compare("T2K_CC1pip_CH_XSec_2Dpmucosmu_nu")) { return (new T2K_CC1pip_CH_XSec_2Dpmucosmu_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_CH_XSec_1Dppi_nu")) { return (new T2K_CC1pip_CH_XSec_1Dppi_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_CH_XSec_1Dthpi_nu")) { return (new T2K_CC1pip_CH_XSec_1Dthpi_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_CH_XSec_1Dthmupi_nu")) { return (new T2K_CC1pip_CH_XSec_1Dthmupi_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_CH_XSec_1DQ2_nu")) { return (new T2K_CC1pip_CH_XSec_1DQ2_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_CH_XSec_1DAdlerPhi_nu")) { return (new T2K_CC1pip_CH_XSec_1DAdlerPhi_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_CH_XSec_1DCosThAdler_nu")) { return (new T2K_CC1pip_CH_XSec_1DCosThAdler_nu(samplekey)); // Maybe something for the future: were in Raquel's thesis //} else if (!name.compare("T2K_CC1pip_CH_XSec_1Dq3_nu")) { // return (new T2K_CC1pip_CH_XSec_1Dq3_nu(file, rw, type, fkdt)); //} else if (!name.compare("T2K_CC1pip_CH_XSec_1Dthq3pi_nu")) { // return (new T2K_CC1pip_CH_XSec_1Dthq3pi_nu(file, rw, type, fkdt)); //} else if (!name.compare("T2K_CC1pip_CH_XSec_1DWrec_nu")) { // return (new T2K_CC1pip_CH_XSec_1DWrec_nu(file, rw, type, fkdt)); /* T2K CC1pi+ H2O samples */ } else if (!name.compare("T2K_CC1pip_H2O_XSec_1DEnuDelta_nu")) { return (new T2K_CC1pip_H2O_XSec_1DEnuDelta_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_H2O_XSec_1DEnuMB_nu")) { return (new T2K_CC1pip_H2O_XSec_1DEnuMB_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_H2O_XSec_1Dcosmu_nu")) { return (new T2K_CC1pip_H2O_XSec_1Dcosmu_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_H2O_XSec_1Dcosmupi_nu")) { return (new T2K_CC1pip_H2O_XSec_1Dcosmupi_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_H2O_XSec_1Dcospi_nu")) { return (new T2K_CC1pip_H2O_XSec_1Dcospi_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_H2O_XSec_1Dpmu_nu")) { return (new T2K_CC1pip_H2O_XSec_1Dpmu_nu(samplekey)); } else if (!name.compare("T2K_CC1pip_H2O_XSec_1Dppi_nu")) { return (new T2K_CC1pip_H2O_XSec_1Dppi_nu(samplekey)); /* T2K CC0pi + np CH samples */ } else if (!name.compare("T2K_CC0pinp_STV_XSec_1Ddpt_nu")) { return (new T2K_CC0pinp_STV_XSec_1Ddpt_nu(samplekey)); } else if (!name.compare("T2K_CC0pinp_STV_XSec_1Ddphit_nu")) { return (new T2K_CC0pinp_STV_XSec_1Ddphit_nu(samplekey)); } else if (!name.compare("T2K_CC0pinp_STV_XSec_1Ddat_nu")) { return (new T2K_CC0pinp_STV_XSec_1Ddat_nu(samplekey)); } else if (!name.compare("T2K_CC0pi1p_XSec_3DPcoscos_nu_nonuniform")) { return (new T2K_CC0pi1p_XSec_3DPcoscos_nu_nonuniform(samplekey)); } else if (!name.compare("T2K_CC0pinp_ifk_XSec_3Dinfp_nu")) { return (new T2K_CC0pinp_ifk_XSec_3Dinfp_nu(samplekey)); } else if (!name.compare("T2K_CC0pinp_ifk_XSec_3Dinfa_nu")) { return (new T2K_CC0pinp_ifk_XSec_3Dinfa_nu(samplekey)); } else if (!name.compare("T2K_CC0pinp_ifk_XSec_3Dinfip_nu")) { return (new T2K_CC0pinp_ifk_XSec_3Dinfip_nu(samplekey)); // SciBooNE COH studies } else #endif #ifndef __NO_SciBooNE__ if (!name.compare("SciBooNE_CCCOH_STOP_NTrks_nu")) { return (new SciBooNE_CCCOH_STOP_NTrks_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_1TRK_1DQ2_nu")) { return (new SciBooNE_CCCOH_1TRK_1DQ2_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_1TRK_1Dpmu_nu")) { return (new SciBooNE_CCCOH_1TRK_1Dpmu_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_1TRK_1Dthetamu_nu")) { return (new SciBooNE_CCCOH_1TRK_1Dthetamu_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPr_1DQ2_nu")) { return (new SciBooNE_CCCOH_MuPr_1DQ2_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPr_1Dpmu_nu")) { return (new SciBooNE_CCCOH_MuPr_1Dpmu_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPr_1Dthetamu_nu")) { return (new SciBooNE_CCCOH_MuPr_1Dthetamu_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPiVA_1DQ2_nu")) { return (new SciBooNE_CCCOH_MuPiVA_1DQ2_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPiVA_1Dpmu_nu")) { return (new SciBooNE_CCCOH_MuPiVA_1Dpmu_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPiVA_1Dthetamu_nu")) { return (new SciBooNE_CCCOH_MuPiVA_1Dthetamu_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPiNoVA_1DQ2_nu")) { return (new SciBooNE_CCCOH_MuPiNoVA_1DQ2_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPiNoVA_1Dthetapr_nu")) { return (new SciBooNE_CCCOH_MuPiNoVA_1Dthetapr_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPiNoVA_1Dthetapi_nu")) { return (new SciBooNE_CCCOH_MuPiNoVA_1Dthetapi_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPiNoVA_1Dthetamu_nu")) { return (new SciBooNE_CCCOH_MuPiNoVA_1Dthetamu_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_MuPiNoVA_1Dpmu_nu")) { return (new SciBooNE_CCCOH_MuPiNoVA_1Dpmu_nu(samplekey)); } else if (!name.compare("SciBooNE_CCCOH_STOPFINAL_1DQ2_nu")) { return (new SciBooNE_CCCOH_STOPFINAL_1DQ2_nu(samplekey)); } else if (!name.compare("SciBooNE_CCInc_XSec_1DEnu_nu") || !name.compare("SciBooNE_CCInc_XSec_1DEnu_nu_NEUT") || !name.compare("SciBooNE_CCInc_XSec_1DEnu_nu_NUANCE")) { return (new SciBooNE_CCInc_XSec_1DEnu_nu(samplekey)); /* K2K Samples */ /* NC1pi0 */ } else #endif #ifndef __NO_K2K__ if (!name.compare("K2K_NC1pi0_Evt_1Dppi0_nu")) { return (new K2K_NC1pi0_Evt_1Dppi0_nu(samplekey)); /* Fake Studies */ } else #endif if (name.find("ExpMultDist_CCQE_XSec_1D") != std::string::npos && name.find("_FakeStudy") != std::string::npos) { return ( new ExpMultDist_CCQE_XSec_1DVar_FakeStudy(name, file, rw, type, fkdt)); } else if (name.find("ExpMultDist_CCQE_XSec_2D") != std::string::npos && name.find("_FakeStudy") != std::string::npos) { return ( new ExpMultDist_CCQE_XSec_2DVar_FakeStudy(name, file, rw, type, fkdt)); } else if (name.find("GenericFlux_") != std::string::npos) { return (new GenericFlux_Tester(name, file, rw, type, fkdt)); } else if (name.find("GenericVectors_") != std::string::npos) { return (new GenericFlux_Vectors(name, file, rw, type, fkdt)); } else if (!name.compare("T2K2017_FakeData")) { return (new T2K2017_FakeData(samplekey)); } else if (!name.compare("MCStudy_CCQE")) { return (new MCStudy_CCQEHistograms(name, file, rw, type, fkdt)); } else if (!name.compare("ElectronFlux_FlatTree")) { return (new ElectronFlux_FlatTree(name, file, rw, type, fkdt)); } else if (name.find("ElectronData_") != std::string::npos) { return new ElectronScattering_DurhamData(samplekey); } else if (name.find("MuonValidation_") != std::string::npos) { return (new MCStudy_MuonValidation(name, file, rw, type, fkdt)); } else if (!name.compare("NIWGOfficialPlots")) { return (new OfficialNIWGPlots(samplekey)); } else if ((name.find("SigmaEnuHists") != std::string::npos) || (name.find("SigmaEnuPerEHists") != std::string::npos)) { return (new SigmaEnuHists(name, file, rw, type, fkdt)); } else if (!name.compare("Simple_Osc")) { return (new Simple_Osc(samplekey)); } else if (!name.compare("Smear_SVDUnfold_Propagation_Osc")) { return (new Smear_SVDUnfold_Propagation_Osc(samplekey)); } else { NUIS_ABORT("Error: No such sample: " << name << std::endl); } // Return NULL if no sample loaded. return NULL; } // namespace SampleUtils } // namespace SampleUtils diff --git a/src/T2K/CMakeLists.txt b/src/T2K/CMakeLists.txt index 744e3a5..a075662 100644 --- a/src/T2K/CMakeLists.txt +++ b/src/T2K/CMakeLists.txt @@ -1,110 +1,112 @@ # Copyright 2016 L. Pickering, P Stowell, R. Terri, C. Wilkinson, C. Wret ################################################################################ # This file is part of NUISANCE. # # NUISANCE is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # NUISANCE is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with NUISANCE. If not, see . ################################################################################ set(IMPLFILES +T2K_NuMu_CC0pi_OC_XSec_2DPcos.cxx T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.cxx T2K_NuMuAntiNuMu_CC0pi_XSec_joint.cxx T2K_CC0pi_XSec_2DPcos_nu_I.cxx T2K_CC0pi_XSec_2DPcos_nu_II.cxx T2K_CCinc_XSec_2DPcos_nu_nonuniform.cxx T2K_nueCCinc_XSec_1Dpe.cxx T2K_nueCCinc_XSec_joint.cxx T2K_CC1pip_CH_XSec_2Dpmucosmu_nu.cxx T2K_CC1pip_CH_XSec_1Dppi_nu.cxx T2K_CC1pip_CH_XSec_1Dthpi_nu.cxx T2K_CC1pip_CH_XSec_1Dthmupi_nu.cxx T2K_CC1pip_CH_XSec_1DQ2_nu.cxx T2K_CC1pip_CH_XSec_1DAdlerPhi_nu.cxx T2K_CC1pip_CH_XSec_1DCosThAdler_nu.cxx T2K_CC1pip_H2O_XSec_1DEnuDelta_nu.cxx T2K_CC1pip_H2O_XSec_1DEnuMB_nu.cxx T2K_CC1pip_H2O_XSec_1Dcosmu_nu.cxx T2K_CC1pip_H2O_XSec_1Dcosmupi_nu.cxx T2K_CC1pip_H2O_XSec_1Dcospi_nu.cxx T2K_CC1pip_H2O_XSec_1Dpmu_nu.cxx T2K_CC1pip_H2O_XSec_1Dppi_nu.cxx T2K_CC0pinp_STV_XSec_1Ddpt_nu.cxx T2K_CC0pinp_STV_XSec_1Ddphit_nu.cxx T2K_CC0pinp_STV_XSec_1Ddat_nu.cxx T2K_CC0pi1p_XSec_3DPcoscos_nu_nonuniform.cxx T2K_CC0pinp_ifk_XSec_3Dinfp_nu.cxx T2K_CC0pinp_ifk_XSec_3Dinfa_nu.cxx T2K_CC0pinp_ifk_XSec_3Dinfip_nu.cxx T2K_SignalDef.cxx ) set(HEADERFILES +T2K_NuMu_CC0pi_OC_XSec_2DPcos.h T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h T2K_NuMuAntiNuMu_CC0pi_XSec_joint.h T2K_CC0pi_XSec_2DPcos_nu_I.h T2K_CC0pi_XSec_2DPcos_nu_II.h T2K_CCinc_XSec_2DPcos_nu_nonuniform.h T2K_nueCCinc_XSec_1Dpe.h T2K_nueCCinc_XSec_joint.h T2K_CC1pip_CH_XSec_2Dpmucosmu_nu.h T2K_CC1pip_CH_XSec_1Dppi_nu.h T2K_CC1pip_CH_XSec_1Dthpi_nu.h T2K_CC1pip_CH_XSec_1Dthmupi_nu.h T2K_CC1pip_CH_XSec_1DQ2_nu.h T2K_CC1pip_CH_XSec_1DAdlerPhi_nu.h T2K_CC1pip_CH_XSec_1DCosThAdler_nu.h T2K_CC1pip_H2O_XSec_1DEnuDelta_nu.h T2K_CC1pip_H2O_XSec_1DEnuMB_nu.h T2K_CC1pip_H2O_XSec_1Dcosmu_nu.h T2K_CC1pip_H2O_XSec_1Dcosmupi_nu.h T2K_CC1pip_H2O_XSec_1Dcospi_nu.h T2K_CC1pip_H2O_XSec_1Dpmu_nu.h T2K_CC1pip_H2O_XSec_1Dppi_nu.h T2K_CC0pinp_STV_XSec_1Ddpt_nu.h T2K_CC0pinp_STV_XSec_1Ddphit_nu.h T2K_CC0pinp_STV_XSec_1Ddat_nu.h T2K_CC0pi1p_XSec_3DPcoscos_nu_nonuniform.h T2K_CC0pinp_ifk_XSec_3Dinfp_nu.h T2K_CC0pinp_ifk_XSec_3Dinfa_nu.h T2K_CC0pinp_ifk_XSec_3Dinfip_nu.h T2K_SignalDef.h ) set(LIBNAME expT2K) if(CMAKE_BUILD_TYPE MATCHES DEBUG) add_library(${LIBNAME} STATIC ${IMPLFILES}) else(CMAKE_BUILD_TYPE MATCHES RELEASE) add_library(${LIBNAME} SHARED ${IMPLFILES}) endif() include_directories(${MINIMUM_INCLUDE_DIRECTORIES}) set_target_properties(${LIBNAME} PROPERTIES VERSION "${NUISANCE_VERSION_MAJOR}.${NUISANCE_VERSION_MINOR}.${NUISANCE_VERSION_REVISION}") #set_target_properties(${LIBNAME} PROPERTIES LINK_FLAGS ${ROOT_LD_FLAGS}) if(DEFINED PROJECTWIDE_EXTRA_DEPENDENCIES) add_dependencies(${LIBNAME} ${PROJECTWIDE_EXTRA_DEPENDENCIES}) endif() install(TARGETS ${LIBNAME} DESTINATION lib) #Can uncomment this to install the headers... but is it really neccessary? install(FILES ${HEADERFILES} DESTINATION include/T2K) set(MODULETargets ${MODULETargets} ${LIBNAME} PARENT_SCOPE) diff --git a/src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.cxx b/src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.cxx index 3b7c686..dc17709 100644 --- a/src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.cxx +++ b/src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.cxx @@ -1,250 +1,250 @@ // Copyright 2016 L. Pickering, P Stowell, R. Terri, C. Wilkinson, C. Wret /******************************************************************************* * This file is part of NUISANCE. * * NUISANCE is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * NUISANCE is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with NUISANCE. If not, see . *******************************************************************************/ #include "T2K_SignalDef.h" #include "T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h" static size_t nangbins = 9; static double angular_binning_costheta[] = {-1, 0.2, 0.6, 0.7, 0.8, 0.85, 0.9, 0.94, 0.98, 1 }; //******************************************************************** T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos::T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos(nuiskey samplekey) { //******************************************************************** // Samples overview --------------------------------------------------- fSettings = LoadSampleSettings(samplekey); std::string name = fSettings.GetS("name"); std::string descrip = ""; // This has to deal with NuMu FHC, and AntiNuMu RHC if (!name.compare("T2K_NuMu_CC0pi_CH_XSec_2DPcos")){ descrip = name +". \n" "Target: CH \n" "Flux: T2K 2.5 degree off-axis (ND280) \n" "Signal: CC0pi\n" "arXiv:2002.09323"; fSettings.SetTitle("T2K_NuMu_CC0pi_CH_XSec_2DPcos"); fSettings.DefineAllowedSpecies("numu"); NuPDG = 14; LepPDG = 13; } else if (!name.compare("T2K_AntiNuMu_CC0pi_CH_XSec_2DPcos")){ descrip = name +". \n" "Target: CH \n" "Flux: T2K 2.5 degree off-axis (ND280) \n" "Signal: CC0pi\n" "arXiv:2002.09323"; fSettings.SetTitle("T2K_AntiNuMu_CC0pi_CH_XSec_2DPcos"); fSettings.DefineAllowedSpecies("numub"); NuPDG = -14; LepPDG = -13; } // Setup common settings fSettings.SetDescription(descrip); fSettings.SetXTitle("p_{#mu}-cos#theta_{#mu}"); fSettings.SetYTitle("d^{2}#sigma/dP_{#mu}dcos#theta_{#mu} (cm^{2}/GeV)"); fSettings.SetAllowedTypes("DIAG,FULL/FREE,SHAPE,FIX/SYSTCOV/STATCOV","FIX"); fSettings.SetEnuRangeFromFlux(fFluxHist); fSettings.DefineAllowedTargets("C,H"); FinaliseSampleSettings(); // Scaling Setup --------------------------------------------------- // ScaleFactor automatically setup for DiffXSec/cm2/Nucleon fScaleFactor = ((GetEventHistogram()->Integral("width")/(fNEvents+0.)) * 1E-38 / (TotalIntegratedFlux())); // Setup Histograms SetHistograms(); // Final setup --------------------------------------------------- FinaliseMeasurement(); }; bool T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos::isSignal(FitEvent *event){ return SignalDef::isCC0pi(event, NuPDG, EnuMin, EnuMax); }; void T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos::FillEventVariables(FitEvent* event){ if (event->NumFSParticle(LepPDG) == 0) return; TLorentzVector Pnu = event->GetNeutrinoIn()->fP; TLorentzVector Pmu = event->GetHMFSParticle(LepPDG)->fP; double pmu = Pmu.Vect().Mag()/1000.; double CosThetaMu = cos(Pnu.Vect().Angle(Pmu.Vect())); fXVar = pmu; fYVar = CosThetaMu; return; }; void T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos::FillHistograms(){ Measurement1D::FillHistograms(); if (Signal){ FillMCSlice( fXVar, fYVar, Weight ); } } void T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos::ConvertEventRates(){ for (int i = 0; i < nangbins; i++){ - if(NuPDG==14) fMCNuMuHist_Slices[i]->GetSumw2(); - else if(NuPDG==-14) fMCAntiNuMuHist_Slices[i]->GetSumw2(); + if(NuPDG==14) fMCHistNuMu_Slices[i]->GetSumw2(); + else if(NuPDG==-14) fMCHistAntiNuMu_Slices[i]->GetSumw2(); } // Do standard conversion. Measurement1D::ConvertEventRates(); // Scale MC slices by their bin area for (size_t i = 0; i < nangbins; ++i) { - if(NuPDG==14) fMCNuMuHist_Slices[i]->Scale(1. / (angular_binning_costheta[i + 1] - angular_binning_costheta[i])); - else if(NuPDG==-14) fMCAntiNuMuHist_Slices[i]->Scale(1. / (angular_binning_costheta[i + 1] - angular_binning_costheta[i])); + if(NuPDG==14) fMCHistNuMu_Slices[i]->Scale(1. / (angular_binning_costheta[i + 1] - angular_binning_costheta[i])); + else if(NuPDG==-14) fMCHistAntiNuMu_Slices[i]->Scale(1. / (angular_binning_costheta[i + 1] - angular_binning_costheta[i])); } // Now Convert into 1D lists fMCHist->Reset(); int bincount = 0; for (int i = 0; i < nangbins; i++){ if(NuPDG==14){ for (int j = 0; j < fDataNuMuHist_Slices[i]->GetNbinsX(); j++){ - fMCHist->SetBinContent(bincount+1, fMCNuMuHist_Slices[i]->GetBinContent(j+1)); + fMCHist->SetBinContent(bincount+1, fMCHistNuMu_Slices[i]->GetBinContent(j+1)); bincount++; } } else if(NuPDG==-14){ - for (int j = 0; j < fMCAntiNuMuHist_Slices[i]->GetNbinsX(); j++){ - fMCHist->SetBinContent(bincount+1, fMCAntiNuMuHist_Slices[i]->GetBinContent(j+1)); + for (int j = 0; j < fMCHistAntiNuMu_Slices[i]->GetNbinsX(); j++){ + fMCHist->SetBinContent(bincount+1, fMCHistAntiNuMu_Slices[i]->GetBinContent(j+1)); bincount++; } } } return; } void T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos::FillMCSlice(double x, double y, double w){ for (size_t i = 0; i < nangbins; ++i) { if ((y > angular_binning_costheta[i]) && (y <= angular_binning_costheta[i + 1])) { - if(NuPDG==14) fMCNuMuHist_Slices[i]->Fill(x, w); - else if(NuPDG==-14) fMCAntiNuMuHist_Slices[i]->Fill(x, w); + if(NuPDG==14) fMCHistNuMu_Slices[i]->Fill(x, w); + else if(NuPDG==-14) fMCHistAntiNuMu_Slices[i]->Fill(x, w); } } } void T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos::SetHistograms(){ // Read in 1D Data Histograms fInputFile = new TFile( (FitPar::GetDataBase() + "/T2K/CC0pi/JointNuMu-AntiNuMu/JointNuMuAntiNuMuCC0piXsecDataRelease.root").c_str(),"READ"); TH1D* hLinearResult; if(NuPDG==14) hLinearResult = (TH1D*) fInputFile->Get("hNuMuCC0piXsecLinearResult"); else if(NuPDG==-14) hLinearResult = (TH1D*) fInputFile->Get("hAntiNuMuCC0piXsecLinearResult"); int Nbins = hLinearResult->GetNbinsX(); std::string histoLinearNuType; if(NuPDG==14) histoLinearNuType = "NuMuCC0pi"; else if(NuPDG==-14) histoLinearNuType = "AntiNuMuCC0pi"; // Now Convert into 1D list fDataHist = new TH1D(("LinarResult" + histoLinearNuType).c_str(),("LinarResult" + histoLinearNuType).c_str(),Nbins,0,Nbins); for (int bin = 0; bin < Nbins; bin++){ fDataHist->SetBinContent(bin+1, hLinearResult->GetBinContent(bin+1)); } fFullCovar = new TMatrixDSym(Nbins); TMatrixDSym* tmpcovstat = (TMatrixDSym*) fInputFile->Get("JointNuMuAntiNuMuCC0piXsecCovMatrixStat"); TMatrixDSym* tmpcovsyst = (TMatrixDSym*) fInputFile->Get("JointNuMuAntiNuMuCC0piXsecCovMatrixSyst"); for(int ibin=0; ibinReset(); - // Read in 1D Data Slices and Make MC Slices NuMu CC0pi Xsec + // Read in 1D Data Slices and Make MC Slices int bincount = 0; for (int i = 0; i < nangbins; i++){ if(NuPDG==14){ // Get Data Histogram fDataNuMuHist_Slices.push_back((TH1D*)fInputFile->Get(Form("hXsecNuMuCC0piDataSlice_%i",i))->Clone()); fDataNuMuHist_Slices[i]->SetNameTitle(Form("T2K_NuMu_CC0pi_2DPcos_data_Slice%i",i), (Form("T2K_NuMu_CC0pi_2DPcos_data_Slice%i",i))); // Loop over nbins and set errors from covar for (int j = 0; j < fDataNuMuHist_Slices[i]->GetNbinsX(); j++){ fDataNuMuHist_Slices[i]->SetBinError(j+1, sqrt((*fFullCovar)(bincount,bincount))*1E-38); fDataHist->SetBinContent(bincount+1, fDataNuMuHist_Slices[i]->GetBinContent(j+1)); fDataHist->SetBinError(bincount+1, fDataNuMuHist_Slices[i]->GetBinError(j+1)); bincount++; } // Make MC Clones - fMCNuMuHist_Slices.push_back((TH1D*) fDataNuMuHist_Slices[i]->Clone()); - fMCNuMuHist_Slices[i]->SetNameTitle(Form("T2K_NuMu_CC0pi_2DPcos_MC_Slice%i",i), (Form("T2K_NuMu_CC0pi_2DPcos_MC_Slice%i",i))); + fMCHistNuMu_Slices.push_back((TH1D*) fDataNuMuHist_Slices[i]->Clone()); + fMCHistNuMu_Slices[i]->SetNameTitle(Form("T2K_NuMu_CC0pi_2DPcos_MC_Slice%i",i), (Form("T2K_NuMu_CC0pi_2DPcos_MC_Slice%i",i))); SetAutoProcessTH1(fDataNuMuHist_Slices[i],kCMD_Write); - SetAutoProcessTH1(fMCNuMuHist_Slices[i]); + SetAutoProcessTH1(fMCHistNuMu_Slices[i]); } else if(NuPDG==-14) { //Get Data Histogram fDataAntiNuMuHist_Slices.push_back((TH1D*)fInputFile->Get(Form("hXsecAntiNuMuCC0piDataSlice_%i",i))->Clone()); fDataAntiNuMuHist_Slices[i]->SetNameTitle(Form("T2K_AntiNuMu_CC0pi_2DPcos_data_Slice%i",i), (Form("T2K_AntiNuMu_CC0pi_2DPcos_data_Slice%i",i))); //Loop over nbins and set errors from covar for (int j = 0; j < fDataAntiNuMuHist_Slices[i]->GetNbinsX(); j++){ fDataAntiNuMuHist_Slices[i]->SetBinError(j+1, sqrt((*fFullCovar)(bincount,bincount))*1E-38); fDataHist->SetBinContent(bincount+1, fDataAntiNuMuHist_Slices[i]->GetBinContent(j+1)); fDataHist->SetBinError(bincount+1, fDataAntiNuMuHist_Slices[i]->GetBinError(j+1)); bincount++; } //Make MC Clones - fMCAntiNuMuHist_Slices.push_back((TH1D*) fDataAntiNuMuHist_Slices[i]->Clone()); - fMCAntiNuMuHist_Slices[i]->SetNameTitle(Form("T2K_AntiNuMu_CC0pi_2DPcos_MC_Slice%i",i), (Form("T2K_AntiNuMu_CC0pi_2DPcos_MC_Slice%i",i))); + fMCHistAntiNuMu_Slices.push_back((TH1D*) fDataAntiNuMuHist_Slices[i]->Clone()); + fMCHistAntiNuMu_Slices[i]->SetNameTitle(Form("T2K_AntiNuMu_CC0pi_2DPcos_MC_Slice%i",i), (Form("T2K_AntiNuMu_CC0pi_2DPcos_MC_Slice%i",i))); SetAutoProcessTH1(fDataAntiNuMuHist_Slices[i],kCMD_Write); - SetAutoProcessTH1(fMCAntiNuMuHist_Slices[i]); + SetAutoProcessTH1(fMCHistAntiNuMu_Slices[i]); } } return; }; diff --git a/src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h b/src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h index 422f85b..ad9ee27 100644 --- a/src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h +++ b/src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h @@ -1,68 +1,68 @@ // Copyright 2016 L. Pickering, P Stowell, R. Terri, C. Wilkinson, C. Wret /******************************************************************************* * This file is part of NUISANCE. * * NUISANCE is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * NUISANCE is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with NUISANCE. If not, see . *******************************************************************************/ #ifndef T2K_NUMUANTINUMU_CC0PI_CH_XSEC_2DPCOS_H_SEEN #define T2K_NUMUANTINUMU_CC0PI_CH_XSEC_2DPCOS_H_SEEN #include "Measurement1D.h" #include "TH2Poly.h" class T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos : public Measurement1D { public: /// Basic Constructor. /// /brief Parses two different measurements. /// T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos(nuiskey samplekey); /// Virtual Destructor ~T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos() {}; /// Signal definition bool isSignal(FitEvent *nvect); /// Read histograms void SetHistograms(); /// Bin Tmu CosThetaMu void FillEventVariables(FitEvent* customEvent); // Fill Histograms void FillHistograms(); /// Event scaling void ConvertEventRates(); private: TFile* fInputFile; - std::vector fMCNuMuHist_Slices; - std::vector fDataNuMuHist_Slices; - std::vector fMCAntiNuMuHist_Slices; - std::vector fDataAntiNuMuHist_Slices; + std::vector fMCHistNuMu_Slices; + std::vector fDataHistNuMu_Slices; + std::vector fMCHistAntiNuMu_Slices; + std::vector fDataHistAntiNuMu_Slices; double pmu, CosThetaMu; int NuPDG; int LepPDG; void FillMCSlice(double x, double y, double w); }; #endif diff --git a/src/T2K/T2K_NuMu_CC0pi_OC_XSec_2DPcos.cxx b/src/T2K/T2K_NuMu_CC0pi_OC_XSec_2DPcos.cxx new file mode 100644 index 0000000..24f10aa --- /dev/null +++ b/src/T2K/T2K_NuMu_CC0pi_OC_XSec_2DPcos.cxx @@ -0,0 +1,248 @@ +// Copyright 2016 L. Pickering, P Stowell, R. Terri, C. Wilkinson, C. Wret + +/******************************************************************************* +* This file is part of NUISANCE. +* +* NUISANCE is free software: you can redistribute it and/or modify +* it under the terms of the GNU General Public License as published by +* the Free Software Foundation, either version 3 of the License, or +* (at your option) any later version. +* +* NUISANCE is distributed in the hope that it will be useful, +* but WITHOUT ANY WARRANTY; without even the implied warranty of +* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +* GNU General Public License for more details. +* +* You should have received a copy of the GNU General Public License +* along with NUISANCE. If not, see . +*******************************************************************************/ + +#include "T2K_NuMu_CC0pi_OC_XSec_2DPcos.h" + +static size_t nangbins = 7; +static double angular_binning_costheta[] = {-1, 0., 0.6, 0.75, 0.86, 0.93, 1.}; + +//******************************************************************** +T2K_NuMu_CC0pi_OC_XSec_2DPcos::T2K_NuMu_CC0pi_OC_XSec_2DPcos(nuiskey samplekey) { +//******************************************************************** + + // Samples overview --------------------------------------------------- + fSettings = LoadSampleSettings(samplekey); + std::string name = fSettings.GetS("name"); + std::string descrip = ""; + + // This has to deal with NuMu FHC, and AntiNuMu RHC + if (!name.compare("T2K_NuMu_CC0pi_O_XSec_2DPcos")){ + descrip = name +". \n" + "Target: Oxygen \n" + "Flux: T2K 2.5 degree off-axis (ND280) \n" + "Signal: CC0pi\n" + "arXiv:2004.05434"; + fSettings.SetTitle("T2K_NuMu_CC0pi_O_XSec_2DPcos"); + fSettings.DefineAllowedTargets("O"); + Target = "O"; + } + else if (!name.compare("T2K_NuMu_CC0pi_C_XSec_2DPcos")){ + descrip = name +". \n" + "Target: Carbon \n" + "Flux: T2K 2.5 degree off-axis (ND280) \n" + "Signal: CC0pi\n" + "arXiv:2004.05434"; + fSettings.SetTitle("T2K_NuMu_CC0pi_C_XSec_2DPcos"); + fSettings.DefineAllowedTargets("C"); + Target = "C"; + } + // Setup common settings + fSettings.SetDescription(descrip); + fSettings.SetXTitle("p_{#mu}-cos#theta_{#mu}"); + fSettings.SetYTitle("d^{2}#sigma/dP_{#mu}dcos#theta_{#mu} (cm^{2}/GeV)"); + fSettings.SetAllowedTypes("DIAG,FULL/FREE,SHAPE,FIX/SYSTCOV/STATCOV","FIX"); + fSettings.SetEnuRangeFromFlux(fFluxHist); + fSettings.DefineAllowedSpecies("numu"); + + FinaliseSampleSettings(); + + // Scaling Setup --------------------------------------------------- + // ScaleFactor automatically setup for DiffXSec/cm2/Nucleon + fScaleFactor = ((GetEventHistogram()->Integral("width")/(fNEvents+0.)) * 1E-38 / (TotalIntegratedFlux())); + + // Setup Histograms + SetHistograms(); + + // Final setup --------------------------------------------------- + FinaliseMeasurement(); + +}; + + +bool T2K_NuMu_CC0pi_OC_XSec_2DPcos::isSignal(FitEvent *event){ + return SignalDef::isCC0pi(event, 14, EnuMin, EnuMax); +}; + +void T2K_NuMu_CC0pi_OC_XSec_2DPcos::FillEventVariables(FitEvent* event){ + + if (event->NumFSParticle(LepPDG) == 0) + return; + + TLorentzVector Pnu = event->GetNeutrinoIn()->fP; + TLorentzVector Pmu = event->GetHMFSParticle(LepPDG)->fP; + + double pmu = Pmu.Vect().Mag()/1000.; + double CosThetaMu = cos(Pnu.Vect().Angle(Pmu.Vect())); + + fXVar = pmu; + fYVar = CosThetaMu; + return; +}; + +void T2K_NuMu_CC0pi_OC_XSec_2DPcos::FillHistograms(){ + + Measurement1D::FillHistograms(); + if (Signal){ + FillMCSlice( fXVar, fYVar, Weight ); + } + +} + +void T2K_NuMu_CC0pi_OC_XSec_2DPcos::ConvertEventRates(){ + + for (int i = 0; i < nangbins; i++){ + if(Target=="O") fMCHistNuMuO_Slices[i]->GetSumw2(); + else if(Target=="C") fMCHistNuMuC_Slices[i]->GetSumw2(); + } + + // Do standard conversion. + Measurement1D::ConvertEventRates(); + + // Scale MC slices by their bin area + for (size_t i = 0; i < nangbins; ++i) { + if(Target=="O") fMCHistNuMuO_Slices[i]->Scale(1. / (angular_binning_costheta[i + 1] - angular_binning_costheta[i])); + else if(Target=="C") fMCHistNuMuC_Slices[i]->Scale(1. / (angular_binning_costheta[i + 1] - angular_binning_costheta[i])); + } + + // Now Convert into 1D lists + fMCHist->Reset(); + int bincount = 0; + for (int i = 0; i < nangbins; i++){ + if(Target=="O"){ + for (int j = 0; j < fMCHistNuMuO_Slices[i]->GetNbinsX(); j++){ + fMCHist->SetBinContent(bincount+1, fMCHistNuMuO_Slices[i]->GetBinContent(j+1)); + bincount++; + } + } + else if(Target=="C"){ + for (int j = 0; j < fMCHistNuMuC_Slices[i]->GetNbinsX(); j++){ + fMCHist->SetBinContent(bincount+1, fMCHistNuMuC_Slices[i]->GetBinContent(j+1)); + bincount++; + } + } + } + + return; +} + +void T2K_NuMu_CC0pi_OC_XSec_2DPcos::FillMCSlice(double x, double y, double w){ + + for (size_t i = 0; i < nangbins; ++i) { + if ((y > angular_binning_costheta[i]) && (y <= angular_binning_costheta[i + 1])) { + if(Target=="O") fMCHistNuMuC_Slices[i]->Fill(x, w); + else if(Target=="C") fMCHistNuMuC_Slices[i]->Fill(x, w); + } + } +} + +void T2K_NuMu_CC0pi_OC_XSec_2DPcos::SetHistograms(){ + + // Read in 1D Data Histograms + fInputFile = new TFile( (FitPar::GetDataBase() + "/T2K/CC0pi/JointO-C/linear_unreg_results_C_nuisance.root").c_str(),"READ"); + + // Read covariance matrix + fInputFileCov = new TFile( (FitPar::GetDataBase() + "/T2K/CC0pi/JointO-C/covmatrix_noreg.root").c_str(),"READ"); + + TH1D* hLinearResult; + std::string histoLinearTargetType; + + if(Target=="O"){ + fInputFile = new TFile( (FitPar::GetDataBase() + "/T2K/CC0pi/JointO-C/linear_unreg_results_O_nuisance.root").c_str(),"READ"); + hLinearResult = (TH1D*) fInputFile->Get("LinResult"); + histoLinearTargetType = "Oxygen"; + + fFullCovar = (TMatrixDSym*) fInputFileCov->Get("covmatrixObin"); + covar = StatUtils::GetInvert(fFullCovar); + fDecomp = StatUtils::GetDecomp(fFullCovar); + } + else if(Target=="C"){ + fInputFile = new TFile( (FitPar::GetDataBase() + "/T2K/CC0pi/JointO-C/linear_unreg_results_C_nuisance.root").c_str(),"READ"); + hLinearResult = (TH1D*) fInputFile->Get("LinResult"); + histoLinearTargetType = "Carbon"; + + fFullCovar = (TMatrixDSym*) fInputFileCov->Get("covmatrixCbin"); + covar = StatUtils::GetInvert(fFullCovar); + fDecomp = StatUtils::GetDecomp(fFullCovar); + } + + int Nbins = hLinearResult->GetNbinsX(); + + // Now Convert into 1D list + fDataHist = new TH1D(("LinarResult" + histoLinearTargetType).c_str(),("LinarResult" + histoLinearTargetType).c_str(),Nbins,0,Nbins); + for (int bin = 0; bin < Nbins; bin++){ + fDataHist->SetBinContent(bin+1, hLinearResult->GetBinContent(bin+1)); + } + + + fDataHist->Reset(); + + // Read in 1D Data Slices and Make MC Slices NuMu CC0pi Xsec + int bincount = 0; + for (int i = 0; i < nangbins; i++){ + if(Target=="O"){ + // Get Data Histogram + fDataHistNuMuO_Slices.push_back((TH1D*)fInputFile->Get(Form("dataslice_%i",i))->Clone()); + fDataHistNuMuO_Slices[i]->SetNameTitle(Form("T2K_NuMu_CC0pi_O_2DPcos_data_Slice%i",i), + (Form("T2K_NuMu_CC0pi_O_2DPcos_data_Slice%i",i))); + + // Loop over nbins and set errors from covar + for (int j = 0; j < fDataHistNuMuO_Slices[i]->GetNbinsX(); j++){ + fDataHistNuMuO_Slices[i]->SetBinError(j+1, sqrt((*fFullCovar)(bincount,bincount))*1E-38); + fDataHist->SetBinContent(bincount+1, fDataHistNuMuO_Slices[i]->GetBinContent(j+1)); + fDataHist->SetBinError(bincount+1, fDataHistNuMuO_Slices[i]->GetBinError(j+1)); + bincount++; + } + + // Make MC Clones + fMCHistNuMuO_Slices.push_back((TH1D*) fDataHistNuMuO_Slices[i]->Clone()); + fMCHistNuMuO_Slices[i]->SetNameTitle(Form("T2K_NuMu_CC0pi_O_2DPcos_MC_Slice%i",i), (Form("T2K_NuMu_CC0pi_O_2DPcos_MC_Slice%i",i))); + + SetAutoProcessTH1(fDataHistNuMuO_Slices[i],kCMD_Write); + SetAutoProcessTH1(fMCHistNuMuO_Slices[i]); + + } + else if(Target=="C") { + //Get Data Histogram + fDataHistNuMuC_Slices.push_back((TH1D*)fInputFile->Get(Form("dataslice_%i",i))->Clone()); + fDataHistNuMuC_Slices[i]->SetNameTitle(Form("T2K_NuMu_CC0pi_C_2DPcos_data_Slice%i",i), + (Form("T2K_NuMu_CC0pi_C_2DPcos_data_Slice%i",i))); + + //Loop over nbins and set errors from covar + for (int j = 0; j < fDataHistNuMuC_Slices[i]->GetNbinsX(); j++){ + fDataHistNuMuC_Slices[i]->SetBinError(j+1, sqrt((*fFullCovar)(bincount,bincount))*1E-38); + fDataHist->SetBinContent(bincount+1, fDataHistNuMuC_Slices[i]->GetBinContent(j+1)); + fDataHist->SetBinError(bincount+1, fDataHistNuMuC_Slices[i]->GetBinError(j+1)); + bincount++; + } + + //Save MC slices + fMCHistNuMuC_Slices.push_back((TH1D*) fDataAntiNuMuHist_Slices[i]->Clone()); + fMCHistNuMuC_Slices[i]->SetNameTitle(Form("T2K_NuMu_CC0pi_C_2DPcos_MC_Slice%i",i), (Form("T2K_NuMu_CC0pi_C_2DPcos_MC_Slice%i",i))); + + SetAutoProcessTH1(fDataHistNuMuC_Slices[i],kCMD_Write); + SetAutoProcessTH1(fMCHistNuMuC_Slices[i]); + + } + } + + return; + +}; + + diff --git a/src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h b/src/T2K/T2K_NuMu_CC0pi_OC_XSec_2DPcos.h similarity index 75% copy from src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h copy to src/T2K/T2K_NuMu_CC0pi_OC_XSec_2DPcos.h index 422f85b..64dbed6 100644 --- a/src/T2K/T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h +++ b/src/T2K/T2K_NuMu_CC0pi_OC_XSec_2DPcos.h @@ -1,68 +1,68 @@ // Copyright 2016 L. Pickering, P Stowell, R. Terri, C. Wilkinson, C. Wret /******************************************************************************* * This file is part of NUISANCE. * * NUISANCE is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * NUISANCE is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with NUISANCE. If not, see . *******************************************************************************/ -#ifndef T2K_NUMUANTINUMU_CC0PI_CH_XSEC_2DPCOS_H_SEEN -#define T2K_NUMUANTINUMU_CC0PI_CH_XSEC_2DPCOS_H_SEEN +#ifndef T2K_NUMU_CC0PI_OC_XSEC_2DPCOS_H_SEEN +#define T2K_NUMU_CC0PI_OC_XSEC_2DPCOS_H_SEEN #include "Measurement1D.h" #include "TH2Poly.h" -class T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos : public Measurement1D { +class T2K_NuMu_CC0pi_OC_XSec_2DPcos : public Measurement1D { public: /// Basic Constructor. /// /brief Parses two different measurements. /// - T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos(nuiskey samplekey); + T2K_NuMu_CC0pi_OC_XSec_2DPcos(nuiskey samplekey); /// Virtual Destructor - ~T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos() {}; + ~T2K_NuMu_CC0pi_OC_XSec_2DPcos() {}; /// Signal definition bool isSignal(FitEvent *nvect); /// Read histograms void SetHistograms(); /// Bin Tmu CosThetaMu void FillEventVariables(FitEvent* customEvent); // Fill Histograms void FillHistograms(); /// Event scaling void ConvertEventRates(); private: TFile* fInputFile; - std::vector fMCNuMuHist_Slices; - std::vector fDataNuMuHist_Slices; - std::vector fMCAntiNuMuHist_Slices; - std::vector fDataAntiNuMuHist_Slices; + TFile* fInputFileCov; + std::vector fMCHistNuMuO_Slices; + std::vector fDataHistNuMuO_Slices; + std::vector fMCHistNuMuC_Slices; + std::vector fDataHistNuMuC_Slices; double pmu, CosThetaMu; - int NuPDG; - int LepPDG; + string Target; void FillMCSlice(double x, double y, double w); }; #endif diff --git a/src/T2K/T2K_SignalDef.cxx b/src/T2K/T2K_SignalDef.cxx index f48e18c..1a463fe 100644 --- a/src/T2K/T2K_SignalDef.cxx +++ b/src/T2K/T2K_SignalDef.cxx @@ -1,348 +1,342 @@ // Copyright 2016 L. Pickering, P Stowell, R. Terri, C. Wilkinson, C. Wret /******************************************************************************* * This file is part of NUISANCE. * * NUISANCE is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * NUISANCE is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with NUISANCE. If not, see . *******************************************************************************/ #include "T2K_SignalDef.h" #include "FitUtils.h" namespace SignalDef { // T2K H2O signal definition // https://doi.org/10.1103/PhysRevD.97.012001 bool isCC1pip_T2K_PRD97_012001(FitEvent *event, double EnuMin, double EnuMax) { if (!isCC1pi(event, 14, 211, EnuMin, EnuMax)) return false; TLorentzVector Pnu = event->GetHMISParticle(14)->fP; TLorentzVector Pmu = event->GetHMFSParticle(13)->fP; TLorentzVector Ppip = event->GetHMFSParticle(211)->fP; double p_mu = FitUtils::p(Pmu) * 1000; double p_pi = FitUtils::p(Ppip) * 1000; double cos_th_mu = cos(FitUtils::th(Pnu, Pmu)); double cos_th_pi = cos(FitUtils::th(Pnu, Ppip)); if (p_mu <= 200 || p_pi <= 200 || cos_th_mu <= 0.3 || cos_th_pi <= 0.3) { return false; } return true; }; // ****************************************************** // T2K CC1pi+ CH analysis (Raquel's thesis) // Has different phase space cuts depending on if using Michel tag or not // // Essentially consists of two samples: one sample which has Michel e (which we // can't get pion direction from); this covers backwards angles quite well. // Measurements including this sample does not have include pion kinematics cuts // one sample which has PID in FGD and TPC // and no Michel e. These are mostly // forward-going so require a pion // kinematics cut // // Essentially, cuts are: // 1 negative muon // 1 positive pion // Any number of nucleons // No other particles in the final state // // https://arxiv.org/abs/1909.03936 bool isCC1pip_T2K_arxiv1909_03936(FitEvent *event, double EnuMin, double EnuMax, int pscuts) { // ****************************************************** if (!isCC1pi(event, 14, 211, EnuMin, EnuMax)) { return false; } TLorentzVector Pnu = event->GetHMISParticle(14)->fP; TLorentzVector Pmu = event->GetHMFSParticle(13)->fP; double cos_th_mu = cos(FitUtils::th(Pnu, Pmu)); if (pscuts == kMuonFwd) { return (cos_th_mu > 0); } double p_mu = FitUtils::p(Pmu) * 1000; if (pscuts & kMuonHighEff) { if ((cos_th_mu <= 0.2) || (p_mu <= 200)) { return false; } } int npicuts = 0; npicuts += bool(pscuts & kPionFwdHighMom); npicuts += bool(pscuts & kPionHighMom); npicuts += bool(pscuts & kPionHighEff); if (npicuts != 1) { NUIS_ABORT( "isCC1pip_T2K_arxiv1909_03936 signal definition passed incompatible " "pion phase space cuts. Should be either kMuonHighEff, or one of " "kPionFwdHighMom,kPionHighMom, or kPionHighEff"); } TLorentzVector Ppip = event->GetHMFSParticle(211)->fP; double cos_th_pi = cos(FitUtils::th(Pnu, Ppip)); double p_pi = FitUtils::p(Ppip) * 1000; if (pscuts & kPionFwdHighMom) { return ((cos_th_pi > 0) && (p_pi > 200)); } if (pscuts & kPionHighMom) { return (p_pi > 200); } if (pscuts & kMuonHighEff) { return ((cos_th_pi > 0.0) && (p_pi > 200)); } return false; }; bool isT2K_CC0pi(FitEvent *event, double EnuMin, double EnuMax, int ana) { - int NuPDG = event->PDGnu(); - // Require a numu (or antinumu) CC0pi event - if (!isCC0pi(event, NuPDG, EnuMin, EnuMax)) + // Require a numu CC0pi event + if (!isCC0pi(event, 14, EnuMin, EnuMax)) return false; - TLorentzVector Pnu = event->GetHMISParticle(NuPDG)->fP; - - int MuonPDG; - if(NuPDG==14) MuonPDG=13; - else MuonPDG=-13; - - TLorentzVector Pmu = event->GetHMFSParticle(MuonPDG)->fP; + TLorentzVector Pnu = event->GetHMISParticle(14)->fP; + TLorentzVector Pmu = event->GetHMFSParticle(13)->fP; double CosThetaMu = cos(Pnu.Vect().Angle(Pmu.Vect())); double p_mu = Pmu.Vect().Mag(); // If we're doing a restricted phase space, Analysis II asks for: // Cos(theta_mu) > 0.0 and p_mu > 200 MeV if (ana == kAnalysis_II) { if ((CosThetaMu < 0.0) || (p_mu < 200)) { return false; } } return true; } bool isT2K_CC0pi1p(FitEvent *event, double EnuMin, double EnuMax) { // Require a numu CC0pi event if (!isCC0pi(event, 14, EnuMin, EnuMax)) return false; // Require at least one FS proton if (event->NumFSParticle(2212) == 0) return false; TLorentzVector pnu = event->GetHMISParticle(14)->fP; TLorentzVector pmu = event->GetHMFSParticle(13)->fP; TLorentzVector pp = event->GetHMFSParticle(2212)->fP; // Proton phase space if (pp.Vect().Mag() < 500) { return false; } // Need exactly one proton with 500 MeV or more momentum std::vector protons = event->GetAllFSProton(); int nProtonsAboveThresh = 0; for (size_t i = 0; i < protons.size(); i++) { if (protons[i]->p() > 500) nProtonsAboveThresh++; } if (nProtonsAboveThresh != 1) return false; return true; } // CC0pi antinu in the P0D https://arxiv.org/abs/1908.10249 bool isT2K_CC0piAnuP0D(FitEvent *event, double EnuMin, double EnuMax) { // Require a anumu CC0pi event if (!isCC0pi(event, -14, EnuMin, EnuMax)) return false; TLorentzVector pnu = event->GetHMISParticle(-14)->fP; TLorentzVector pmu = event->GetHMFSParticle(-13)->fP; double Pmu = pmu.Vect().Mag(); double CosThetaMu = cos(pnu.Vect().Angle(pmu.Vect())); // Muon phase space if (Pmu < 400 || Pmu > 3410) return false; if (Pmu < 530 && CosThetaMu < 0.85) return false; if (Pmu < 670 && CosThetaMu < 0.88) return false; if (Pmu < 800 && CosThetaMu < 0.9) return false; if (Pmu < 1000 && CosThetaMu < 0.91) return false; if (Pmu < 1380 && CosThetaMu < 0.92) return false; if (Pmu < 2010 && CosThetaMu < 0.95) return false; return true; } bool isT2K_CC0piNp(FitEvent *event, double EnuMin, double EnuMax) { // Require a numu CC0pi event if (!isCC0pi(event, 14, EnuMin, EnuMax)) return false; // Require at least one FS proton if (event->NumFSParticle(2212) == 0) return false; TLorentzVector pnu = event->GetHMISParticle(14)->fP; TLorentzVector pmu = event->GetHMFSParticle(13)->fP; TLorentzVector pp = event->GetHMFSParticle(2212)->fP; // Proton phase space if (pp.Vect().Mag() < 500) { return false; } // Need exactly one proton with 500 MeV or more momentum std::vector protons = event->GetAllFSProton(); int nProtonsAboveThresh = 0; for (size_t i = 0; i < protons.size(); i++) { if (protons[i]->p() > 500) nProtonsAboveThresh++; } if (nProtonsAboveThresh < 2) return false; return true; } bool isT2K_CC0pi0p(FitEvent *event, double EnuMin, double EnuMax) { // Require a numu CC0pi event if (!isCC0pi(event, 14, EnuMin, EnuMax)) return false; // Require at least one FS proton if (event->NumFSParticle(2212) == 0) return false; TLorentzVector pnu = event->GetHMISParticle(14)->fP; TLorentzVector pmu = event->GetHMFSParticle(13)->fP; TLorentzVector pp = event->GetHMFSParticle(2212)->fP; // Proton phase space if (pp.Vect().Mag() > 500) { return false; } return true; } bool isT2K_CC0pi_STV(FitEvent *event, double EnuMin, double EnuMax) { // Require a numu CC0pi event if (!isCC0pi(event, 14, EnuMin, EnuMax)) return false; // Require at least one FS proton if (event->NumFSParticle(2212) == 0) return false; TLorentzVector pnu = event->GetHMISParticle(14)->fP; TLorentzVector pmu = event->GetHMFSParticle(13)->fP; TLorentzVector pp = event->GetHMFSParticle(2212)->fP; // Muon phase space // Pmu > 250 MeV, cos(theta_mu) > -0.6 (Sweet phase space!) if ((pmu.Vect().Mag() < 250) || cos(pnu.Vect().Angle(pmu.Vect())) < -0.6) { return false; } // Proton phase space // Pprot > 450 MeV, cos(theta_proton) > 0.4 if ((pp.Vect().Mag() < 450) || (pp.Vect().Mag() > 1E3) || (cos(pnu.Vect().Angle(pp.Vect())) < 0.4)) { return false; } return true; } bool isT2K_CC0pi_ifk(FitEvent *event, double EnuMin, double EnuMax) { // Require a numu CC0pi event if (!isCC0pi(event, 14, EnuMin, EnuMax)) return false; // Require at least one FS proton if (event->NumFSParticle(2212) == 0) return false; TLorentzVector pnu = event->GetHMISParticle(14)->fP; TLorentzVector pmu = event->GetHMFSParticle(13)->fP; TLorentzVector pp = event->GetHMFSParticle(2212)->fP; // Proton phase space // Pprot > 450 MeV, cos(theta_proton) > 0.4 if ((pp.Vect().Mag() < 450) || (cos(pnu.Vect().Angle(pp.Vect())) < 0.4)) { return false; } return true; } bool isT2K_CC0pi_1bin(FitEvent *event, double EnuMin, double EnuMax) { // Require a numu CC0pi event if (!isCC0pi(event, 14, EnuMin, EnuMax)) return false; // Require at least one FS proton if (event->NumFSParticle(2212) == 0) return false; TLorentzVector pnu = event->GetHMISParticle(14)->fP; TLorentzVector pmu = event->GetHMFSParticle(13)->fP; TLorentzVector pp = event->GetHMFSParticle(2212)->fP; // Muon phase space // if ((pmu.Vect().Mag() < 250) || cos(pnu.Vect().Angle(pmu.Vect())) < -0.6) { // return false; //} // Proton phase space if ((pp.Vect().Mag() < 450) || (cos(pnu.Vect().Angle(pp.Vect())) < 0.4)) { return false; } return true; } } // namespace SignalDef