/* 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 .
*
*/
/** @class MapCppTrackerMCDigitization
* Digitize events by running Tracker electronics simulation.
*
*/
#ifndef _COMPONENTS_MAP_MapCppTrackerMCDigitization_H_
#define _COMPONENTS_MAP_MapCppTrackerMCDigitization_H_
// C headers
#include
#include
#include
// C++ headers
#include
#include
#include
#include "Config/MiceModule.hh"
#include "Utils/Squeak.hh"
#include "src/common_cpp/DataStructure/Data.hh"
#include "src/common_cpp/DataStructure/Hit.hh"
#include "src/common_cpp/DataStructure/MCEvent.hh"
#include "src/common_cpp/DataStructure/Spill.hh"
#include "src/common_cpp/DataStructure/ThreeVector.hh"
#include "src/common_cpp/Utils/CppErrorHandler.hh"
#include "src/common_cpp/Utils/Globals.hh"
#include "src/common_cpp/Globals/GlobalsManager.hh"
#include "src/common_cpp/JsonCppProcessors/SpillProcessor.hh"
#include "src/common_cpp/API/MapBase.hh"
namespace MAUS {
class MapCppTrackerMCDigitization : public MapBase {
public:
typedef std::vector IntChannelArray;
/** Constructor - initialises pointers to NULL */
MapCppTrackerMCDigitization();
/** Constructor - deletes any allocated memory */
~MapCppTrackerMCDigitization();
private:
/** Sets up the worker
*
* \param argJsonConfigDocument a JSON document with
* the configuration.
*/
void _birth(const std::string& argJsonConfigDocument);
/** @brief Shutdowns the worker
*
* This takes no arguments and does nothing
*/
void _death();
/** @brief process MAUS Data object
*
* Receive a object with MC hits and return
* a object with digits
*/
void _process(MAUS::Data * data) const;
/** @brief builds digits
*/
void construct_digits(MAUS::SciFiHitArray *hits,
int spill_num,
int event_num,
MAUS::SciFiDigitPArray &digits) const;
void add_noise(MAUS::SciFiNoiseHitArray *noises,
MAUS::SciFiDigitPArray &digits) const;
/** @brief computes scifi chan numb from GEANT fibre copy numb
*/
int compute_chan_no(MAUS::SciFiHit *ahit) const;
/** @brief computes tdc from time.
*/
int compute_tdc_counts(double time) const;
/** @brief computes adc from npe.
*/
double compute_adc_counts(MAUS::SciFiDigit *digit_j) const;
/** @brief checks if hits belong to the same scifi channel.
*/
bool check_param(MAUS::SciFiHit *hit1, MAUS::SciFiHit *hit2) const;
// void discriminator(SciFiDigitPArray &digits) const;
/** @brief load calibration data
*
* Used to determine calibrated values
* for pe from simulated adc.
* Identical to data digitization for completeness
*/
bool load_mapping(std::string file);
bool load_calibration(std::string file);
bool load_bad_channels(std::string file);
private:
/// The ratio of deposited eV to NPE
double _eV_to_phe;
double _SciFiNPECut;
double _SciFivlpcRes;
double _SciFitdcBits;
double _SciFivlpcTimeRes;
double _SciFitdcFactor;
double _SciFiFiberConvFactor;
double _SciFiFiberTrappingEff;
double _SciFiFiberMirrorEff;
double _SciFivlpcQE;
double _SciFiFiberTransmissionEff;
double _SciFiMUXTransmissionEff;
double _SciFiadcBits;
// double _SciFiDisCut;
// int _disc_sim_on;
bool _SciFiCalibrateMC;
static const int _number_channels = 128;
static const int _number_banks = 64;
static const int _number_boards = 16;
static const int _total_number_channels = 6403;
IntChannelArray _board;
IntChannelArray _bank;
IntChannelArray _chan_ro;
IntChannelArray _tracker;
IntChannelArray _station;
IntChannelArray _view;
IntChannelArray _fibre;
IntChannelArray _extWG;
IntChannelArray _inWG;
IntChannelArray _WGfib;
std::string _mapping_file;
std::string _calibration_file;
std::string _bad_chan_file;
Json::Value _calibration[_number_banks][_number_channels];
bool _good_chan[_number_banks][_number_channels];
/// an array contaning all MiceModules
std::vector modules;
}; // Don't forget this trailing colon!!!!
} // ~namespace MAUS
#endif