/* This file is part of MAUS: http:// micewww.pp.rl.ac.uk:8080/projects/maus * * MAUS 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. * * MAUS 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 MAUS. If not, see . */ #include #include #include "Recon/Global/PIDVarI.hh" #include "Utils/Exception.hh" namespace MAUS { namespace recon { namespace global { const std::string PIDVarI::VARIABLE = "CkovAvsUSTrackerMom"; PIDVarI::PIDVarI(std::string hypothesis, std::string unique_identifier) : PIDBase2D(VARIABLE, hypothesis, unique_identifier, XminBinI, XmaxBinI, XnumBins, YminBinI, YmaxBinI, YnumBins) { _nonZeroHistEntries = true; } PIDVarI::PIDVarI(TFile* file, std::string hypothesis, int XminI, int XmaxI, int YminI, int YmaxI) : PIDBase2D(file, VARIABLE, hypothesis, XminI, XmaxI, YminI, YmaxI, XminBinI, XmaxBinI, YminBinI, YmaxBinI) { } PIDVarI::~PIDVarI() {} std::pair PIDVarI::Calc_Var(MAUS::DataStructure::Global::Track* track) { CkovA_pes = 0; MAUS::DataStructure::Global::DetectorPoint CKOVA_DP = MAUS::DataStructure::Global::kCherenkovA; // Get trackpoint array from track global_track_points = track->GetTrackPoints(); std::vector ::iterator eachTP; for (eachTP = global_track_points.begin(); eachTP != global_track_points.end(); ++eachTP) { if (!(*eachTP)) continue; if ((*eachTP)->get_detector() == CKOVA_DP) { CkovA_pes = (*eachTP)->get_num_photoelectrons(); } else if ((*eachTP)->get_detector() >= MAUS::DataStructure::Global::kTracker0_1 && (*eachTP)->get_detector() <= MAUS::DataStructure::Global::kTracker0_5) { tracker0_track_points.push_back(*eachTP); } else { continue; } } if (CkovA_pes == 0) { Squeak::mout(Squeak::debug) << "Global track was passed an Ckov event " << " with no PES in CkovA, " << "Recon::Global::PIDVarI::Calc_Var()" << std::endl; return std::make_pair(0, -1); } else if ( YminBinI > CkovA_pes || CkovA_pes > YmaxBinI ) { Squeak::mout(Squeak::debug) << "# of PES in CkovA " << "outside of PDF range, Recon::Global::PIDVarI::Calc_Var()" << std::endl; return std::make_pair(0, -1); } if (tracker0_track_points.size() < 1) { Squeak::mout(Squeak::debug) << "Global track contained no downstream" << " tracker trackpoints, Recon::Global::PIDVarI::Calc_Var()" << std::endl; tracker0_track_points.clear(); return std::make_pair(-1, 0); } else { double tracker0_trackpoint_mom = 0; int tracker0_tp_count = 0; double tracker0_momentum = 0; const MAUS::DataStructure::Global::TrackPoint* tracker0_trackpoint; for (size_t i = 0; i < tracker0_track_points.size(); i++) { tracker0_trackpoint = tracker0_track_points[i]; if (tracker0_trackpoint) { TLorentzVector trackpoint_4mom = tracker0_trackpoint->get_momentum(); tracker0_trackpoint_mom += sqrt(trackpoint_4mom.Px()*trackpoint_4mom.Px() + trackpoint_4mom.Py()*trackpoint_4mom.Py() + trackpoint_4mom.Pz()*trackpoint_4mom.Pz()); tracker0_tp_count++; } else { continue; } } tracker0_track_points.clear(); tracker0_momentum = tracker0_trackpoint_mom/tracker0_tp_count; if ( XminBinI > tracker0_momentum || tracker0_momentum > XmaxBinI ) { Squeak::mout(Squeak::debug) << "Momentum for tracker 0 is outside " << "of range, Recon::Global::PIDVarI::Calc_Var()" << std::endl; return std::make_pair(0, -1); } else { return std::make_pair(tracker0_momentum, CkovA_pes); } } } } } }