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diff --git a/src/FCN/SampleList.cxx b/src/FCN/SampleList.cxx
index ad93511..0276e73 100644
--- a/src/FCN/SampleList.cxx
+++ b/src/FCN/SampleList.cxx
@@ -1,1476 +1,1476 @@
#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:1908.10249
-#include "T2K_NuMu_CC0pi_OC_XSec_2DPcos.h"
+#include "T2K_CC0pi_XSec_H2O_2DPcos_anu.h"
// T2K CC0pi 2020 arXiv:2004.05434
#include "T2K_NuMu_CC0pi_OC_XSec_2DPcos.h"
#include "T2K_NuMu_CC0pi_OC_XSec_2DPcos_joint.h"
// T2K CC0pi 2020 arXiv:2002.09323
#include "T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos.h"
#include "T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos_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 <dirent.h>
// linux
#include <dlfcn.h>
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<std::string> 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<std::string> 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<DSF_NSamples_ptr>(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<DSF_GetSampleName_ptr>(
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<DSF_GetSample_ptr>(
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<DSF_DestroySample_ptr>(
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<std::string, std::vector<std::string> > ManifestSamples;
for (std::map<std::string, std::pair<std::string, int> >::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<std::string>();
}
ManifestSamples[smp_it->second.first].push_back(smp_it->first);
}
NUIS_LOG(FIT, "Dynamic sample manifest: ");
for (std::map<std::string, std::vector<std::string> >::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<std::string, int> 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_CC0pi_XSec_H2O_2DPcos_anu")) {
return (new T2K_CC0pi_XSec_H2O_2DPcos_anu(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_OC_XSec_2DPcos_joint")) {
return (new T2K_NuMu_CC0pi_OC_XSec_2DPcos_joint(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_CH_XSec_2DPcos_joint")) {
return (new T2K_NuMuAntiNuMu_CC0pi_CH_XSec_2DPcos_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/T2K_CC0pi_XSec_H2O_2DPcos_anu.cxx b/src/T2K/T2K_CC0pi_XSec_H2O_2DPcos_anu.cxx
index 0dfe81d..eede2b4 100755
--- a/src/T2K/T2K_CC0pi_XSec_H2O_2DPcos_anu.cxx
+++ b/src/T2K/T2K_CC0pi_XSec_H2O_2DPcos_anu.cxx
@@ -1,189 +1,189 @@
// 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 <http://www.gnu.org/licenses/>.
*******************************************************************************/
#include "T2K_SignalDef.h"
#include "T2K_CC0pi_XSec_H2O_2DPcos_anu.h"
-static int nmombins = 8;
+static int nmombins = 7;
static double mom_binning[] = { 400., 530., 670., 800., 1000., 1380., 2010., 3410. };
static int ncosbins[] = { 2, 3, 3, 3, 3, 3, 3, 2 };
-static double costheta_binning[nmombins][ncosbins] = { { 0.84, 0.94, 1. },
- { 0.85, 0.92, 0.96, 1. },
- { 0.88, 0.93, 0.97, 1. },
- { 0.90, 0.94, 0.97, 1. },
- { 0.91, 0.95, 0.97, 1. },
- { 0.92, 0.96, 0.98, 1. },
- { 0.95, 0.98, 1. } };
+static double costheta_binning[][7] = { { 0.84, 0.94, 1. },
+ { 0.85, 0.92, 0.96, 1. },
+ { 0.88, 0.93, 0.97, 1. },
+ { 0.90, 0.94, 0.97, 1. },
+ { 0.91, 0.95, 0.97, 1. },
+ { 0.92, 0.96, 0.98, 1. },
+ { 0.95, 0.98, 1. } };
//********************************************************************
T2K_CC0pi_XSec_H2O_2DPcos_anu::T2K_CC0pi_XSec_H2O_2DPcos_anu(nuiskey samplekey) {
//********************************************************************
// Sample overview ---------------------------------------------------
std::string descrip = "T2K_CC0pi_XSec_H2O_2DPcos_anu. \n"
"Target: H2O \n"
"Flux: T2K 2.5 degree off-axis (ND280-P0D) \n"
"Signal: CC0pi\n"
"arXiv:1908.10249";
// Setup common settings
fSettings = LoadSampleSettings(samplekey);
fSettings.SetDescription(descrip);
fSettings.SetXTitle("p_{#mu} (GeV)");
fSettings.SetYTitle("cos#theta_{#mu}");
fSettings.SetZTitle("d^{2}#sigma/dp_{#mu}dcos#theta_{#mu} (cm^{2}/GeV)");
fSettings.SetAllowedTypes("FULL,DIAG/FREE,SHAPE,FIX/SYSTCOV/STATCOV","FIX/FULL");
fSettings.SetEnuRange(0.0, 10.0);
fSettings.DefineAllowedTargets("H,O");
// CCQELike plot information
fSettings.SetTitle("T2K_CC0pi_XSec_H2O_2DPcos_anu");
fSettings.DefineAllowedSpecies("numub");
FinaliseSampleSettings();
// Scaling Setup ---------------------------------------------------
// ScaleFactor automatically setup for DiffXSec/cm2/Nucleon
fScaleFactor = ((GetEventHistogram()->Integral("weight")/(fNEvents+0.)) * 18E-38 / (TotalIntegratedFlux("")));
// Setup Histograms
SetHistograms();
// Final setup
FinaliseMeasurement();
};
bool T2K_CC0pi_XSec_H2O_2DPcos_anu::isSignal(FitEvent *event){
return SignalDef::isT2K_CC0piAnuP0D(event, EnuMin, EnuMax);
};
void T2K_CC0pi_XSec_H2O_2DPcos_anu::FillEventVariables(FitEvent* event){
if (event->NumFSParticle(-13) == 0)
return;
TLorentzVector Pnu = event->GetNeutrinoIn()->fP;
TLorentzVector Pmu = event->GetHMFSParticle(-13)->fP;
double pmu = Pmu.Vect().Mag();
double CosThetaMu = cos(Pnu.Vect().Angle(Pmu.Vect()));
fXVar = pmu;
fYVar = CosThetaMu;
return;
};
void T2K_CC0pi_XSec_H2O_2DPcos_anu::FillHistograms(){
Measurement1D::FillHistograms();
if (Signal){
FillMCSlice( fXVar, fYVar, Weight );
}
}
// Modification is needed after the full reconfigure to move bins around
// Otherwise this would need to be replaced by a TH2Poly which is too awkward.
void T2K_CC0pi_XSec_H2O_2DPcos_anu::ConvertEventRates(){
for (int i = 0; i < 7; i++){
fMCHist_Slices[i]->GetSumw2();
}
// Do standard conversion.
Measurement1D::ConvertEventRates();
// Do we need this?? Maybe already normalized in Thomas data results
for (size_t i = 0; i < nmombins; ++i) {
fMCHist_Slices[i]->Scale(1. / (mom_binning[i + 1] - mom_binning[i]));
}
// Now Convert into 1D list
fMCHist->Reset();
int bincount = 0;
for (int i = 0; i < 7; i++){
for (int j = 0; j < fDataHist_Slices[i]->GetNbinsX(); j++){
fMCHist->SetBinContent(bincount+1, fMCHist_Slices[i]->GetBinContent(j+1));
bincount++;
}
}
return;
}
void T2K_CC0pi_XSec_H2O_2DPcos_anu::FillMCSlice(double x, double y, double w){
for (size_t i = 0; i < nmombins; ++i) {
if ((y > mom_binning[i]) && (y <= mom_binning[i + 1])) {
fMCHist_Slices[i]->Fill(x, w);
}
}
}
void T2K_CC0pi_XSec_H2O_2DPcos_anu::SetHistograms(){
// Read in 1D Data Histograms
fInputFile = new TFile( (FitPar::GetDataBase() + "/T2K/CC0pi/AntiNuMuH2O/AntiNuMuOnH2O_unreg.root").c_str(),"READ");
fDataHist = (TH1D*) fInputFile->Get("xsecDataRelease");
int Nbins = fDataHist->GetNbinsX();
/*TH2D* tempcorr = (TH2D*) fInputFile->Get("covDataRelease");
// Read in 1D Data
fFullCovar = new TMatrixDSym(fDataHist->GetNbinsX());
for (int i = 0; i < fDataHist->GetNbinsX(); i++){
for (int j = 0; j < fDataHist->GetNbinsX(); j++){
(*fFullCovar)(i,j) = tempcorr->GetBinContent(i+1, j+1)*fDataHist->GetBinError(i+1)*1e38*fDataHist->GetBinError(j+1)*1e38;
}
}*/
fFullCovar = (TMatrixDSym*) fInputFile->Get("covDataRelease");
covar = StatUtils::GetInvert(fFullCovar);
fDecomp = StatUtils::GetDecomp(fFullCovar);
// Read in 2D Data Slices and Make MC Slices
int bincount = 0;
for (int i = 0; i < nmombins; ++i)
{
// Get Data Histogram
fDataHist_Slices.push_back(new TH1D(Form("T2K_CC0pi_XSec_H2O_2DPcos_anu_data_Slice%i",i),Form("T2K_CC0pi_XSec_H2O_2DPcos_anu_data_Slice%i",i),ncosbins[i],costheta_binning[i]););
for (int j = 0; j < ncosbins[i]; ++j)
{
fDataHist_Slices[i]->SetBinContent(j+1, fDataHist->GetBinContent(bincount+1));
fDataHist_Slices[i]->SetBinError(j+1, sqrt((*fFullCovar)(bincount,bincount))*1e-38);
bincount++;
}
fMCHist_Slices.push_back((TH1D*) fDataHist_Slices[i]->Clone());
fMCHist_Slices[i]->SetNameTitle(Form("T2K_CC0pi_XSec_H2O_2DPcos_anu_MC_Slice%i",i),
(Form("T2K_CC0pi_XSec_H2O_2DPcos_anu_MC_Slice%i",i)));
SetAutoProcessTH1(fDataHist_Slices[i],kCMD_Write);
SetAutoProcessTH1(fMCHist_Slices[i]);
}
return;
};
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