#include <TFCSPhiModulationCorrection.h>

Inheritance diagram for TFCSPhiModulationCorrection:

Collaboration diagram for TFCSPhiModulationCorrection:

Public Types
enum	FCSStatusBits { kMatchAllPDGID }
	Status bit for FCS needs. More...
typedef std::map< TFCSParametrizationBase *, Duplicate_t >	FindDuplicates_t
typedef std::map< std::string, FindDuplicates_t >	FindDuplicateClasses_t

Public Member Functions
	TFCSPhiModulationCorrection (const char name=nullptr, const char title=nullptr)
virtual	~TFCSPhiModulationCorrection ()
void	load_phi_modulation (std::string filename, long unsigned int layer_index, float eta_min, float eta_max, float energy_shift=1.0)
void	clear ()
const std::vector< std::vector< std::vector< float > > > &	get_phi_modulation () const
const std::vector< std::vector< float > > &	get_min_eta () const
const std::vector< std::vector< float > > &	get_energy_shift () const
const std::vector< std::vector< std::vector< float > > > &	get_min_phi () const
void	set_phi_modulation_scale (float phi_modulation_scale)
float	get_phi_modulation_scale () const
float	add_phi_modulation (Hit &hit) const
float	add_phi_modulation (Hit &hit, long unsigned int layer_index) const
float	add_phi_modulation (float energy, float phi, float eta, long unsigned int layer_index) const
float	remove_phi_modulation (Hit &hit) const
float	remove_phi_modulation (Hit &hit, long unsigned int layer_index) const
float	remove_phi_modulation (float energy, float phi, float eta, long unsigned int layer_index) const
std::tuple< int, long unsigned int, long unsigned int >	get_eta_and_phi_index (float phi, float eta, long unsigned int layer_index) const
void	set_geometry (ICaloGeometry *geo) override
	Method to set the geometry access pointer.
ICaloGeometry *	get_geometry () const
virtual FCSReturnCode	simulate_hit (Hit &hit, TFCSSimulationState &simulstate, const TFCSTruthState truth, const TFCSExtrapolationState extrapol) override
	simulated one hit position with some energy.
virtual double	get_sigma2_fluctuation (TFCSSimulationState &simulstate, const TFCSTruthState truth, const TFCSExtrapolationState extrapol) const
	Give the effective size sigma^2 of the fluctuations that should be generated by the amount of generated hits.
virtual int	get_number_of_hits (TFCSSimulationState &simulstate, const TFCSTruthState truth, const TFCSExtrapolationState extrapol) const
	Call get_number_of_hits() only once per shower simulation, as it could be calculated with random numbers and give different results each time.
virtual float	get_E_hit (TFCSSimulationState &simulstate, const TFCSTruthState truth, const TFCSExtrapolationState extrapol) const
	Get hit energy from layer energy and number of hits.
virtual float	getMinWeight () const
	Get minimum and maximum value of weight for hit energy reweighting.
virtual float	getMaxWeight () const
bool	is_match_Ekin_bin (int bin) const override
bool	is_match_calosample (int calosample) const override
virtual bool	is_match_all_Ekin_bin () const override
virtual bool	is_match_all_calosample () const override
int	Ekin_bin () const
void	set_Ekin_bin (int bin)
int	calosample () const
void	set_calosample (int cs)
virtual void	set_pdgid_Ekin_eta_Ekin_bin_calosample (const TFCSLateralShapeParametrization &ref)
void	Print (Option_t *option="") const override
virtual bool	is_match_pdgid (int id) const override
virtual bool	is_match_Ekin (float Ekin) const override
virtual bool	is_match_eta (float eta) const override
virtual bool	is_match_all_Ekin () const override
virtual bool	is_match_all_eta () const override
const std::set< int > &	pdgid () const override
double	Ekin_nominal () const override
double	Ekin_min () const override
double	Ekin_max () const override
double	eta_nominal () const override
double	eta_min () const override
double	eta_max () const override
virtual void	set_pdgid (int id)
virtual void	set_pdgid (const std::set< int > &ids)
virtual void	add_pdgid (int id)
virtual void	clear_pdgid ()
virtual void	set_Ekin_nominal (double min)
virtual void	set_Ekin_min (double min)
virtual void	set_Ekin_max (double max)
virtual void	set_eta_nominal (double min)
virtual void	set_eta_min (double min)
virtual void	set_eta_max (double max)
virtual void	set_Ekin (const TFCSParametrizationBase &ref)
virtual void	set_eta (const TFCSParametrizationBase &ref)
virtual void	set_Ekin_eta (const TFCSParametrizationBase &ref)
virtual void	set_pdgid_Ekin_eta (const TFCSParametrizationBase &ref)
virtual bool	is_match_all_pdgid () const
virtual void	set_match_all_pdgid ()
virtual void	reset_match_all_pdgid ()
virtual unsigned int	size () const
	Some derived classes have daughter instances of TFCSParametrizationBase objects The size() and operator[] methods give general access to these daughters.
virtual const TFCSParametrizationBase *	operator[] (unsigned int) const
	Some derived classes have daughter instances of TFCSParametrizationBase objects The size() and operator[] methods give general access to these daughters.
virtual TFCSParametrizationBase *	operator[] (unsigned int)
	Some derived classes have daughter instances of TFCSParametrizationBase objects The size() and operator[] methods give general access to these daughters.
virtual void	set_daughter (unsigned int, TFCSParametrizationBase *)
	Some derived classes have daughter instances of TFCSParametrizationBase objects The set_daughter method allows to change these daughters - expert use only!
virtual bool	operator== (const TFCSParametrizationBase &ref) const
	The == operator compares the content of instances.
virtual FCSReturnCode	simulate (TFCSSimulationState &simulstate, const TFCSTruthState truth, const TFCSExtrapolationState extrapol) const
	Method in all derived classes to do some simulation.
virtual void	CleanAuxInfo (TFCSSimulationState &) const
	Method in all derived classes to delete objects stored in the simulstate AuxInfo.
void	FindDuplicates (FindDuplicateClasses_t &dup)
void	RemoveDuplicates ()
void	RemoveNameTitle ()
bool	msgLvl (const MSG::Level lvl) const
	Check whether the logging system is active at the provided verbosity level.
MsgStream &	msg () const
	Return a stream for sending messages directly (no decoration)
MsgStream &	msg (const MSG::Level lvl) const
	Return a decorated starting stream for sending messages.
MSG::Level	level () const
	Retrieve output level.
virtual void	setLevel (MSG::Level lvl)
	Update outputlevel.

Static Public Member Functions
static float	get_phi_cell_size (long unsigned int layer, float eta)
static std::string	startMsg (MSG::Level lvl, const std::string &file, int line)
	Make a message to decorate the start of logging.

Protected Member Functions
bool	compare (const TFCSParametrizationBase &ref) const

Protected Attributes
ICaloGeometry *	m_geo

Static Protected Attributes
static constexpr double	init_Ekin_nominal = 0
static constexpr double	init_Ekin_min = 0
	Do not persistify!
static constexpr double	init_Ekin_max = 14000000
	Do not persistify!
static constexpr double	init_eta_nominal = 0
	Do not persistify!
static constexpr double	init_eta_min = -100
	Do not persistify!
static constexpr double	init_eta_max = 100
	Do not persistify!

Private Attributes
float	m_modulation_scale = 1.0
	do not persistify
std::vector< std::vector< std::vector< float > > >	m_modulation
std::vector< std::vector< std::vector< float > > >	m_min_phi
std::vector< std::vector< float > >	m_min_eta
std::vector< std::vector< float > >	m_energy_shift
int	m_Ekin_bin
int	m_calosample
std::set< int >	m_pdgid
double	m_Ekin_nominal
double	m_Ekin_min
double	m_Ekin_max
double	m_eta_nominal
double	m_eta_min
double	m_eta_max
std::string	m_nm
	Message source name.

Static Private Attributes
static boost::thread_specific_ptr< MsgStream > m_msg_tls	ATLAS_THREAD_SAFE
	Do not persistify!

Detailed Description

Definition at line 21 of file TFCSPhiModulationCorrection.h.

Member Typedef Documentation

◆ FindDuplicateClasses_t

typedef std::map<std::string, FindDuplicates_t> TFCSParametrizationBase::FindDuplicateClasses_t

inherited

Definition at line 142 of file TFCSParametrizationBase.h.

◆ FindDuplicates_t

typedef std::map<TFCSParametrizationBase *, Duplicate_t> TFCSParametrizationBase::FindDuplicates_t

inherited

Definition at line 141 of file TFCSParametrizationBase.h.

Member Enumeration Documentation

◆ FCSStatusBits

enum TFCSParametrizationBase::FCSStatusBits

inherited

Status bit for FCS needs.

Enumerator
kMatchAllPDGID	Set this bit in the TObject bit field if valid for all PDGID.

Definition at line 52 of file TFCSParametrizationBase.h.

                     {
    kMatchAllPDGID = BIT(
        14) 
  };

Constructor & Destructor Documentation

◆ TFCSPhiModulationCorrection()

TFCSPhiModulationCorrection::TFCSPhiModulationCorrection	(	const char *	name = nullptr,
		const char *	title = nullptr )

Definition at line 29 of file TFCSPhiModulationCorrection.cxx.

31 : TFCSLateralShapeParametrizationHitBase(name, title), m_geo{} { }

TFCSLateralShapeParametrizationHitBase::TFCSLateralShapeParametrizationHitBase

TFCSLateralShapeParametrizationHitBase(const char *name=nullptr, const char *title=nullptr)

Definition TFCSLateralShapeParametrizationHitBase.cxx:15

TFCSPhiModulationCorrection::m_geo

ICaloGeometry * m_geo

Definition TFCSPhiModulationCorrection.h:105

◆ ~TFCSPhiModulationCorrection()

TFCSPhiModulationCorrection::~TFCSPhiModulationCorrection ( )

virtual

Definition at line 33 of file TFCSPhiModulationCorrection.cxx.

33{}

Member Function Documentation

◆ add_pdgid()

void TFCSParametrization::add_pdgid ( int id )

virtualinherited

Reimplemented in TFCSEnergyBinParametrization.

Definition at line 35 of file TFCSParametrization.cxx.

35{ m_pdgid.insert(id); }

TFCSParametrization::m_pdgid

std::set< int > m_pdgid

Definition TFCSParametrization.h:63

◆ add_phi_modulation() [1/3]

float TFCSPhiModulationCorrection::add_phi_modulation	(	float	energy,
		float	phi,
		float	eta,
		long unsigned int	layer_index ) const

Definition at line 258 of file TFCSPhiModulationCorrection.cxx.

                                                                             {
 
  if (layer_index >= m_min_eta.size()) {
    return energy;
  }
 
  if (m_min_eta.at(layer_index).size() == 0) {
    return energy;
  }
 
  if (m_modulation_scale < std::numeric_limits<float>::epsilon()) {
    return energy;
  }
 
  long unsigned int eta_index;
  long unsigned int phi_index;
  int error_code;
  std::tie(error_code, eta_index, phi_index) =
      get_eta_and_phi_index(phi, eta, layer_index);
 
  if (error_code != 0) {
    return energy;  // Return original energy in case of error --- no modulation
                    // applied
  }
 
  const std::vector<float> &modulation =
      m_modulation.at(layer_index).at(eta_index);
 
  energy *= ((modulation.at(phi_index) - 1) * m_modulation_scale + 1);
  energy *= m_energy_shift.at(layer_index).at(eta_index);
 
  return energy;
}

◆ add_phi_modulation() [2/3]

float TFCSPhiModulationCorrection::add_phi_modulation ( TFCSLateralShapeParametrizationHitBase::Hit & hit ) const

Definition at line 228 of file TFCSPhiModulationCorrection.cxx.

                                                          {
  return add_phi_modulation(hit, calosample());
}

◆ add_phi_modulation() [3/3]

float TFCSPhiModulationCorrection::add_phi_modulation	(	TFCSLateralShapeParametrizationHitBase::Hit &	hit,
		long unsigned int	layer_index ) const

Definition at line 233 of file TFCSPhiModulationCorrection.cxx.

                                         {
  if (layer_index >= m_min_eta.size()) {
    return hit.E();
  }
 
  if (m_min_eta.at(layer_index).size() == 0) {
    return hit.E();
  }
 
  if (m_modulation_scale < std::numeric_limits<float>::epsilon()) {
    return hit.E();
  }
 
  float energy = hit.E();
  float phi = hit.phi();
  float eta = hit.eta();
 
  float reweighted_energy = add_phi_modulation(energy, phi, eta, layer_index);
  hit.E() = reweighted_energy;
 
  return reweighted_energy;
}

◆ calosample()

int TFCSLateralShapeParametrization::calosample ( ) const

inlineinherited

Definition at line 34 of file TFCSLateralShapeParametrization.h.

34{ return m_calosample; };

TFCSLateralShapeParametrization::m_calosample

int m_calosample

Definition TFCSLateralShapeParametrization.h:47

◆ CleanAuxInfo()

virtual void TFCSParametrizationBase::CleanAuxInfo ( TFCSSimulationState & ) const

inlinevirtualinherited

Method in all derived classes to delete objects stored in the simulstate AuxInfo.

Definition at line 130 of file TFCSParametrizationBase.h.

130{};

◆ clear()

void TFCSPhiModulationCorrection::clear ( )

inline

Definition at line 33 of file TFCSPhiModulationCorrection.h.

               {
    m_modulation.clear();
    m_min_phi.clear();
    m_min_eta.clear();
    m_energy_shift.clear();
  };

◆ clear_pdgid()

void TFCSParametrization::clear_pdgid ( )

virtualinherited

Reimplemented in TFCSEnergyBinParametrization.

Definition at line 37 of file TFCSParametrization.cxx.

37{ m_pdgid.clear(); }

◆ compare()

bool TFCSLateralShapeParametrization::compare ( const TFCSParametrizationBase & ref ) const

protectedinherited

Definition at line 32 of file TFCSLateralShapeParametrization.cxx.

                                              {
  if (IsA() != ref.IsA()) {
    ATH_MSG_DEBUG("compare(): different class types "
                  << IsA()->GetName() << " != " << ref.IsA()->GetName());
    return false;
  }
  const TFCSLateralShapeParametrization &ref_typed =
      static_cast<const TFCSLateralShapeParametrization &>(ref);
  if (Ekin_bin() != ref_typed.Ekin_bin()) {
    ATH_MSG_DEBUG("compare(): different Ekin bin");
    return false;
  }
  if (calosample() != ref_typed.calosample()) {
    ATH_MSG_DEBUG("compare(): different calosample");
    return false;
  }
 
  return true;
}

◆ Ekin_bin()

int TFCSLateralShapeParametrization::Ekin_bin ( ) const

inlineinherited

Definition at line 31 of file TFCSLateralShapeParametrization.h.

31{ return m_Ekin_bin; };

TFCSLateralShapeParametrization::m_Ekin_bin

int m_Ekin_bin

Definition TFCSLateralShapeParametrization.h:46

◆ Ekin_max()

double TFCSParametrization::Ekin_max ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 37 of file TFCSParametrization.h.

37{ return m_Ekin_max; };

TFCSParametrization::m_Ekin_max

double m_Ekin_max

Definition TFCSParametrization.h:64

◆ Ekin_min()

double TFCSParametrization::Ekin_min ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 36 of file TFCSParametrization.h.

36{ return m_Ekin_min; };

TFCSParametrization::m_Ekin_min

double m_Ekin_min

Definition TFCSParametrization.h:64

◆ Ekin_nominal()

double TFCSParametrization::Ekin_nominal ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 35 of file TFCSParametrization.h.

35{ return m_Ekin_nominal; };

TFCSParametrization::m_Ekin_nominal

double m_Ekin_nominal

Definition TFCSParametrization.h:64

◆ eta_max()

double TFCSParametrization::eta_max ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 40 of file TFCSParametrization.h.

40{ return m_eta_max; };

TFCSParametrization::m_eta_max

double m_eta_max

Definition TFCSParametrization.h:65

◆ eta_min()

double TFCSParametrization::eta_min ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 39 of file TFCSParametrization.h.

39{ return m_eta_min; };

TFCSParametrization::m_eta_min

double m_eta_min

Definition TFCSParametrization.h:65

◆ eta_nominal()

double TFCSParametrization::eta_nominal ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 38 of file TFCSParametrization.h.

38{ return m_eta_nominal; };

TFCSParametrization::m_eta_nominal

double m_eta_nominal

Definition TFCSParametrization.h:65

◆ FindDuplicates()

void TFCSParametrizationBase::FindDuplicates ( FindDuplicateClasses_t & dup )

inherited

Definition at line 90 of file TFCSParametrizationBase.cxx.

                                        {
 
  for (unsigned int i = 0; i < size(); ++i)
    if ((*this)[i]) {
      TFCSParametrizationBase *param = (*this)[i];
      FindDuplicates_t &dup = dupclasses[param->GetName()];
      // If param is already in the duplication list, skip over
      auto checkexist = dup.find(param);
      if (checkexist != dup.end()) {
        ATH_MSG_WARNING(" [TFCSParametrizationBase::FindDuplicates] "
                        "DUPLICATE POINTER DETECTED");
 
        ATH_MSG_WARNING(" - Pointer           : " << param);
        ATH_MSG_WARNING(" - Name              : " << param->GetName());
        ATH_MSG_WARNING(" - Class             : " << param->ClassName());
        ATH_MSG_WARNING(" - Occurs in parent  : " << this
                          << " (" << this->ClassName() << ")"
                          << " index=" << i);
 
        if (checkexist->second.replace) {
          TFCSParametrizationBase *refparam = checkexist->second.replace;
          ATH_MSG_DEBUG("Found duplicate pointer: "
                        << refparam << "=" << refparam->GetName()
                        << ", duplicate is " << param << "=" << param->GetName()
                        << " index " << i << " of " << this);
          dup[refparam].mother.push_back(this);
          dup[refparam].index.push_back(i);
        }
        continue;
      }
      // Add param to duplication list
      dup[param] = Duplicate_t();
      for (auto &ref : dup) {
        TFCSParametrizationBase *refparam = ref.first;
        // skip itself, as this just added above
        if (param == refparam)
          continue;
        // skip nullptr reference
        if (refparam == nullptr)
          continue;
        // skip reference that is itself going to get replaced
        if (ref.second.replace)
          continue;
        // Check for objects with identical content
        if (*param == *refparam) {
          ATH_MSG_DEBUG("Found duplicate: "
                       << refparam << "=" << refparam->GetName()
                        << ", duplicate is " << param << "=" << param->GetName()
                        << " index " << i << " of " << this);
 
          dup[param].replace = refparam;
          dup[refparam].mother.push_back(this);
          dup[refparam].index.push_back(i);
          break;
        }
      }
      // Continue for child objects in param
      param->FindDuplicates(dupclasses);
    }
}

◆ get_E_hit()

float TFCSLateralShapeParametrizationHitBase::get_E_hit	(	TFCSSimulationState &	simulstate,
		const TFCSTruthState *	truth,
		const TFCSExtrapolationState *	extrapol ) const

virtualinherited

Get hit energy from layer energy and number of hits.

Definition at line 31 of file TFCSLateralShapeParametrizationHitBase.cxx.

                                                  {
  const int nhits = get_number_of_hits(simulstate, truth, extrapol);
  const int sample = calosample();
  if (nhits <= 0 || sample < 0)
    return -1.;
  else
    return simulstate.E(sample) / nhits;
}

◆ get_energy_shift()

const std::vector< std::vector< float > > & TFCSPhiModulationCorrection::get_energy_shift ( ) const

inline

Definition at line 44 of file TFCSPhiModulationCorrection.h.

                                                              {
    return m_energy_shift;
  };

◆ get_eta_and_phi_index()

std::tuple< int, long unsigned int, long unsigned int > TFCSPhiModulationCorrection::get_eta_and_phi_index	(	float	phi,
		float	eta,
		long unsigned int	layer_index ) const

Definition at line 144 of file TFCSPhiModulationCorrection.cxx.

                                                               {
 
  float eta_abs = TMath::Abs(eta);
 
  auto eta_it = std::upper_bound(m_min_eta.at(layer_index).begin(),
                                 m_min_eta.at(layer_index).end(), eta_abs);
  long unsigned int eta_index =
      std::distance(m_min_eta.at(layer_index).begin(), eta_it) - 1;
 
  if (eta_index >= m_min_eta.at(layer_index).size() - 1) {
    ATH_MSG_ERROR("Found invalid eta index for phi modulation");
    ATH_MSG_ERROR("Layer: " << layer_index);
    ATH_MSG_ERROR("Eta: " << eta);
    ATH_MSG_ERROR("Min eta:" << m_min_eta.at(layer_index).at(0) << " Max eta: "
                             << m_min_eta.at(layer_index).back());
    ATH_MSG_ERROR("Eta index: " << eta_index);
    ATH_MSG_ERROR("Number of eta bins: " << m_min_eta.at(layer_index).size());
    ATH_MSG_ERROR("Eta bin boundaries: ");
    for (const auto &eta_min : m_min_eta.at(layer_index)) {
      ATH_MSG_ERROR("  " << eta_min);
    }
    return std::make_tuple(1, 0, 0);  // Error code 1: Invalid eta index
  }
 
  if (m_min_eta.at(layer_index).at(eta_index) > eta_abs ||
      m_min_eta.at(layer_index).at(eta_index + 1) < eta_abs) {
    ATH_MSG_ERROR(
        "Found eta outside of the specified eta range for the phi modulation");
    ATH_MSG_ERROR("Layer: " << layer_index);
    ATH_MSG_ERROR("Eta: " << eta);
    ATH_MSG_ERROR("Phi: " << phi);
    ATH_MSG_ERROR("Eta min of bin: "
                  << m_min_eta.at(layer_index).at(eta_index)
                  << " Eta max of bin: "
                  << m_min_eta.at(layer_index).at(eta_index + 1));
    return std::make_tuple(2, 0, 0);  // Error code 2: Eta outside of range
  }
 
  const CaloDetDescrElement *cellele = m_geo->getDDE(layer_index, eta, phi);
 
  float cell_phi = cellele->phi();
 
  float phi_within_cell = phi - cell_phi;
 
  float phi_cell_size = get_phi_cell_size(layer_index, eta);
 
  phi_within_cell = fmod(phi_within_cell, phi_cell_size);
 
  if (phi_within_cell < 0)
    phi_within_cell += phi_cell_size;
 
  const std::vector<float> &phi_mins = m_min_phi.at(layer_index).at(eta_index);
  const std::vector<float> &modulation =
      m_modulation.at(layer_index).at(eta_index);
 
  if (phi_mins.size() == 0) {
    return std::make_tuple(-1, 0, 0);  // Empty phi boundaries -> nothing to do
  }
 
  // Find the phi bin of the hit
  auto phi_it =
      std::upper_bound(phi_mins.begin(), phi_mins.end(), phi_within_cell);
  long unsigned int phi_index = std::distance(phi_mins.begin(), phi_it) - 1;
 
  if (phi_index >= modulation.size()) {
    ATH_MSG_ERROR("Found bin "
                  << phi_index
                  << " outside of the modulation correction vector");
    ATH_MSG_ERROR("Phi: " << phi << " Cell phi: " << cell_phi
                          << " Phi within cell: " << phi_within_cell);
    ATH_MSG_ERROR("Eta: " << eta);
    ATH_MSG_ERROR("Phi cell size: " << phi_cell_size);
    ATH_MSG_ERROR("Modulation correction size: " << modulation.size());
    ATH_MSG_ERROR("Phi bin boundaries size: " << phi_mins.size());
    ATH_MSG_ERROR("Last Phi bin boundary: " << phi_mins.back());
 
    return std::make_tuple(
        3, 0, 0);  // Error code 3: Phi index outside of modulation vector
  }
 
  return std::make_tuple(0, eta_index, phi_index);  // No error
}

◆ get_geometry()

ICaloGeometry * TFCSPhiModulationCorrection::get_geometry ( ) const

inline

Definition at line 98 of file TFCSPhiModulationCorrection.h.

98{ return m_geo; };

◆ get_min_eta()

const std::vector< std::vector< float > > & TFCSPhiModulationCorrection::get_min_eta ( ) const

inline

Definition at line 43 of file TFCSPhiModulationCorrection.h.

43{ return m_min_eta; };

◆ get_min_phi()

const std::vector< std::vector< std::vector< float > > > & TFCSPhiModulationCorrection::get_min_phi ( ) const

inline

Definition at line 47 of file TFCSPhiModulationCorrection.h.

                                                                    {
    return m_min_phi;
  };

◆ get_number_of_hits()

int TFCSLateralShapeParametrizationHitBase::get_number_of_hits	(	TFCSSimulationState &	simulstate,
		const TFCSTruthState *	truth,
		const TFCSExtrapolationState *	extrapol ) const

virtualinherited

Call get_number_of_hits() only once per shower simulation, as it could be calculated with random numbers and give different results each time.

Return a value of -1 if this instance can't determine

Reimplemented in TFCS2DFunctionLateralShapeParametrization, TFCSBinnedShowerBase, TFCSFlatLateralShapeParametrization, TFCSHistoLateralShapeParametrization, and TFCSLateralShapeParametrizationHitNumberFromE.

Definition at line 25 of file TFCSLateralShapeParametrizationHitBase.cxx.

                                            {
  return -1;
}

◆ get_phi_cell_size()

float TFCSPhiModulationCorrection::get_phi_cell_size	(	long unsigned int	layer,
		float	eta )

inlinestatic

Definition at line 57 of file TFCSPhiModulationCorrection.h.

                                                                     {
    if (layer <= 3) {
      return 2 * TMath::Pi() / 1024;
    } else if (eta < 2.5) {
      return 2 * TMath::Pi() / 768;
    } else {
      return 2 * TMath::Pi() / 256;
    }
  }

◆ get_phi_modulation()

const std::vector< std::vector< std::vector< float > > > & TFCSPhiModulationCorrection::get_phi_modulation ( ) const

inline

Definition at line 40 of file TFCSPhiModulationCorrection.h.

                                                                           {
    return m_modulation;
  };

◆ get_phi_modulation_scale()

float TFCSPhiModulationCorrection::get_phi_modulation_scale ( ) const

inline

Definition at line 55 of file TFCSPhiModulationCorrection.h.

55{ return m_modulation_scale; };

◆ get_sigma2_fluctuation()

double TFCSLateralShapeParametrizationHitBase::get_sigma2_fluctuation	(	TFCSSimulationState &	simulstate,
		const TFCSTruthState *	truth,
		const TFCSExtrapolationState *	extrapol ) const

virtualinherited

Give the effective size sigma^2 of the fluctuations that should be generated by the amount of generated hits.

Return a value <0 if this instance can't determine

Reimplemented in TFCS2DFunctionLateralShapeParametrization, TFCSHistoLateralShapeParametrization, and TFCSLateralShapeParametrizationHitNumberFromE.

Definition at line 19 of file TFCSLateralShapeParametrizationHitBase.cxx.

                                            {
  return -1;
}

◆ getMaxWeight()

float TFCSLateralShapeParametrizationHitBase::getMaxWeight ( ) const

virtualinherited

Reimplemented in TFCSHistoLateralShapeWeight.

Definition at line 46 of file TFCSLateralShapeParametrizationHitBase.cxx.

                                                                 {
  return -1.;
}

◆ getMinWeight()

float TFCSLateralShapeParametrizationHitBase::getMinWeight ( ) const

virtualinherited

Get minimum and maximum value of weight for hit energy reweighting.

Reimplemented in TFCSHistoLateralShapeWeight.

Definition at line 42 of file TFCSLateralShapeParametrizationHitBase.cxx.

                                                                 {
  return -1.;
}

◆ is_match_all_calosample()

virtual bool TFCSLateralShapeParametrization::is_match_all_calosample ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrization.

Definition at line 29 of file TFCSLateralShapeParametrization.h.

29{ return false; };

◆ is_match_all_Ekin()

virtual bool TFCSParametrization::is_match_all_Ekin ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 25 of file TFCSParametrization.h.

                                                  {
    return Ekin_min() == init_Ekin_min && Ekin_max() == init_Ekin_max;
  };

◆ is_match_all_Ekin_bin()

virtual bool TFCSLateralShapeParametrization::is_match_all_Ekin_bin ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrization.

Definition at line 24 of file TFCSLateralShapeParametrization.h.

                                                      {
    if (Ekin_bin() == -1)
      return true;
    return false;
  };

◆ is_match_all_eta()

virtual bool TFCSParametrization::is_match_all_eta ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 28 of file TFCSParametrization.h.

                                                 {
    return eta_min() == init_eta_min && eta_max() == init_eta_max;
  };

◆ is_match_all_pdgid()

virtual bool TFCSParametrizationBase::is_match_all_pdgid ( ) const

inlinevirtualinherited

Definition at line 66 of file TFCSParametrizationBase.h.

66{ return TestBit(kMatchAllPDGID); };

◆ is_match_calosample()

bool TFCSLateralShapeParametrization::is_match_calosample ( int calosample ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 20 of file TFCSLateralShapeParametrization.h.

                                                          {
    return calosample == m_calosample;
  };

◆ is_match_Ekin()

virtual bool TFCSParametrization::is_match_Ekin ( float Ekin ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 18 of file TFCSParametrization.h.

                                                        {
    return (Ekin >= m_Ekin_min) && (Ekin < m_Ekin_max);
  };

◆ is_match_Ekin_bin()

bool TFCSLateralShapeParametrization::is_match_Ekin_bin ( int bin ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 15 of file TFCSLateralShapeParametrization.h.

                                                 {
    if (Ekin_bin() == -1)
      return true;
    return bin == Ekin_bin();
  };

◆ is_match_eta()

virtual bool TFCSParametrization::is_match_eta ( float eta ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 21 of file TFCSParametrization.h.

                                                      {
    return (eta >= m_eta_min) && (eta < m_eta_max);
  };

◆ is_match_pdgid()

virtual bool TFCSParametrization::is_match_pdgid ( int id ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 15 of file TFCSParametrization.h.

                                                     {
    return TestBit(kMatchAllPDGID) || m_pdgid.find(id) != m_pdgid.end();
  };

◆ level()

MSG::Level ISF_FCS::MLogging::level ( ) const

inlineinherited

Retrieve output level.

Definition at line 201 of file MLogging.h.

201{ return msg().level(); }

ISF_FCS::MLogging::msg

MsgStream & msg() const

Return a stream for sending messages directly (no decoration)

Definition MLogging.h:231

◆ load_phi_modulation()

void TFCSPhiModulationCorrection::load_phi_modulation	(	std::string	filename,
		long unsigned int	layer_index,
		float	eta_min,
		float	eta_max,
		float	energy_shift = 1.0 )

Definition at line 35 of file TFCSPhiModulationCorrection.cxx.

                                       {
  if (m_min_eta.size() <= layer_index) {
    m_min_eta.resize(layer_index + 1);
  }
  if (m_min_phi.size() <= layer_index) {
    m_min_phi.resize(layer_index + 1);
  }
  if (m_modulation.size() <= layer_index) {
    m_modulation.resize(layer_index + 1);
  }
  if (m_energy_shift.size() <= layer_index) {
    m_energy_shift.resize(layer_index + 1);
  }
  std::vector<float> &eta_mins = m_min_eta.at(layer_index);
  std::vector<std::vector<float>> &phi_mins = m_min_phi.at(layer_index);
  std::vector<std::vector<float>> &modulation = m_modulation.at(layer_index);
  std::vector<float> &energy_shifts = m_energy_shift.at(layer_index);
 
  if (eta_mins.empty()) {
    eta_mins.push_back(eta_min);
    eta_mins.push_back(eta_max);
    phi_mins.resize(2);
    modulation.resize(2);
    energy_shifts.push_back(-1.0);
    energy_shifts.push_back(-1.0);
  }
 
  if (eta_mins.at(0) > eta_min) {
    eta_mins.insert(eta_mins.begin(), eta_min);
    phi_mins.insert(phi_mins.begin(), std::vector<float>());
    modulation.insert(modulation.begin(), std::vector<float>());
    energy_shifts.insert(energy_shifts.begin(), -1.0);
  }
 
  // Find the matching eta index
  auto eta_it = std::upper_bound(m_min_eta.at(layer_index).begin(),
                                 m_min_eta.at(layer_index).end(), eta_min);
  long unsigned int eta_index =
      std::distance(m_min_eta.at(layer_index).begin(), eta_it) - 1;
 
  // Check if we have to append further boundaries
  if (eta_index >= eta_mins.size() - 1) {
    if (eta_min > eta_mins.at(eta_mins.size() - 1)) {
      eta_mins.push_back(eta_min);
      phi_mins.push_back(std::vector<float>());
      modulation.push_back(std::vector<float>());
      energy_shifts.push_back(-1.0);
      eta_index++;
    }
    eta_mins.push_back(eta_max);
    phi_mins.push_back(std::vector<float>());
    modulation.push_back(std::vector<float>());
    energy_shifts.push_back(-1.0);
  } else {
    // Check if we need to insert a new eta_min
    if (eta_mins.at(eta_index) < eta_min) {
      eta_mins.insert(eta_mins.begin() + eta_index + 1, eta_min);
      phi_mins.insert(phi_mins.begin() + eta_index + 1, std::vector<float>());
      modulation.insert(modulation.begin() + eta_index + 1,
                        std::vector<float>());
      energy_shifts.insert(energy_shifts.begin() + eta_index + 1, -1.0);
      eta_index++;
    }
    // Check if we need to insert a new eta_max
    if (eta_mins.at(eta_index + 1) > eta_max) {
      eta_mins.insert(eta_mins.begin() + eta_index + 1, eta_max);
      phi_mins.insert(phi_mins.begin() + eta_index + 1, std::vector<float>());
      modulation.insert(modulation.begin() + eta_index + 1,
                        std::vector<float>());
      energy_shifts.insert(energy_shifts.begin() + eta_index + 1, -1.0);
    }
  }
 
  energy_shifts.at(eta_index) = energy_shift;
 
  ATH_MSG_DEBUG("Loading phi modulation correction from " << filename);
 
  TFile *muon_corr = TFile::Open(filename.c_str());
  TH2F *muon_corr_hist = (TH2F *)muon_corr->Get("hWt_Layer0");
 
  int n_bins = muon_corr_hist->GetNbinsX();
 
  for (int i = 1; i <= n_bins; i++) {
    phi_mins.at(eta_index).push_back(
        muon_corr_hist->GetXaxis()->GetBinLowEdge(i));
  }
  phi_mins.at(eta_index).push_back(
      muon_corr_hist->GetXaxis()->GetBinUpEdge(n_bins));
 
  for (int i = 1; i <= n_bins; i++) {
    modulation.at(eta_index).push_back(muon_corr_hist->GetBinContent(i));
  }
 
  TParameter<double> *param =
      (TParameter<double> *)muon_corr->Get("energy_shift");
  if (param) {
    energy_shifts.at(eta_index) = param->GetVal();
    std::cout << "Energy shift: " << energy_shifts.at(eta_index) << std::endl;
  }
 
  muon_corr->Close();
 
  return;
}

◆ msg() [1/2]

MsgStream & ISF_FCS::MLogging::msg ( ) const

inlineinherited

Return a stream for sending messages directly (no decoration)

Definition at line 231 of file MLogging.h.

                                      {
  MsgStream *ms = m_msg_tls.get();
  if (!ms) {
    ms = new MsgStream(Athena::getMessageSvc(), m_nm);
    m_msg_tls.reset(ms);
  }
  return *ms;
}

◆ msg() [2/2]

MsgStream & ISF_FCS::MLogging::msg ( const MSG::Level lvl ) const

inlineinherited

Return a decorated starting stream for sending messages.

Definition at line 240 of file MLogging.h.

                                                        {
  return msg() << lvl;
}

◆ msgLvl()

bool ISF_FCS::MLogging::msgLvl ( const MSG::Level lvl ) const

inlineinherited

Check whether the logging system is active at the provided verbosity level.

Definition at line 222 of file MLogging.h.

                                                     {
  if (msg().level() <= lvl) {
    msg() << lvl;
    return true;
  } else {
    return false;
  }
}

◆ operator==()

virtual bool TFCSParametrizationBase::operator== ( const TFCSParametrizationBase & ref ) const

inlinevirtualinherited

The == operator compares the content of instances.

The implementation in the base class only returns true for a comparison with itself

Reimplemented in TFCSHitCellMapping, TFCSHitCellMappingWiggle, TFCSLateralShapeParametrizationHitNumberFromE, and TFCSPredictExtrapWeights.

Definition at line 119 of file TFCSParametrizationBase.h.

                                                                    {
    return compare(ref);
  };

◆ operator[]() [1/2]

virtual TFCSParametrizationBase * TFCSParametrizationBase::operator[] ( unsigned int )

inlinevirtualinherited

Some derived classes have daughter instances of TFCSParametrizationBase objects The size() and operator[] methods give general access to these daughters.

Reimplemented in TFCSLateralShapeParametrizationHitChain, and TFCSParametrizationChain.

Definition at line 106 of file TFCSParametrizationBase.h.

                                                              {
    return nullptr;
  };

◆ operator[]() [2/2]

virtual const TFCSParametrizationBase * TFCSParametrizationBase::operator[] ( unsigned int ) const

inlinevirtualinherited

Some derived classes have daughter instances of TFCSParametrizationBase objects The size() and operator[] methods give general access to these daughters.

Reimplemented in TFCSLateralShapeParametrizationHitChain, and TFCSParametrizationChain.

Definition at line 99 of file TFCSParametrizationBase.h.

                                   {
    return nullptr;
  };

◆ pdgid()

const std::set< int > & TFCSParametrization::pdgid ( ) const

inlineoverridevirtualinherited

Reimplemented from TFCSParametrizationBase.

Definition at line 34 of file TFCSParametrization.h.

34{ return m_pdgid; };

◆ Print()

void TFCSLateralShapeParametrization::Print ( Option_t * option = "" ) const

overrideinherited

Definition at line 53 of file TFCSLateralShapeParametrization.cxx.

                                                                  {
  TString opt(option);
  bool shortprint = opt.Index("short") >= 0;
  bool longprint = msgLvl(MSG::DEBUG) || (msgLvl(MSG::INFO) && !shortprint);
  TString optprint = opt;
  optprint.ReplaceAll("short", "");
  TFCSParametrization::Print(option);
  if (longprint) {
    if (Ekin_bin() == -1)
      ATH_MSG_INFO(optprint << "  Ekin_bin=all ; calosample=" << calosample());
    else
      ATH_MSG_INFO(optprint << "  Ekin_bin=" << Ekin_bin()
                            << " ; calosample=" << calosample());
  }
}

◆ remove_phi_modulation() [1/3]

float TFCSPhiModulationCorrection::remove_phi_modulation	(	float	energy,
		float	phi,
		float	eta,
		long unsigned int	layer_index ) const

Definition at line 324 of file TFCSPhiModulationCorrection.cxx.

                                                                             {
 
  if (layer_index >= m_min_eta.size()) {
    return energy;
  }
 
  if (m_min_eta.at(layer_index).size() == 0) {
    return energy;
  }
 
  if (m_modulation_scale < std::numeric_limits<float>::epsilon()) {
    return energy;
  }
 
  long unsigned int eta_index;
  long unsigned int phi_index;
  int error_code;
  std::tie(error_code, eta_index, phi_index) =
      get_eta_and_phi_index(phi, eta, layer_index);
 
  if (error_code != 0) {
    return energy;  // Return original energy in case of error --- no modulation
                    // removed
  }
 
  const std::vector<float> &modulation =
      m_modulation.at(layer_index).at(eta_index);
 
  energy /= ((modulation.at(phi_index) - 1) * m_modulation_scale + 1);
 
  return energy;
}

◆ remove_phi_modulation() [2/3]

float TFCSPhiModulationCorrection::remove_phi_modulation ( TFCSLateralShapeParametrizationHitBase::Hit & hit ) const

Definition at line 293 of file TFCSPhiModulationCorrection.cxx.

                                                          {
  return remove_phi_modulation(hit, calosample());
}

◆ remove_phi_modulation() [3/3]

float TFCSPhiModulationCorrection::remove_phi_modulation	(	TFCSLateralShapeParametrizationHitBase::Hit &	hit,
		long unsigned int	layer_index ) const

Definition at line 298 of file TFCSPhiModulationCorrection.cxx.

                                         {
  if (layer_index >= m_min_eta.size()) {
    return hit.E();
  }
 
  if (m_min_eta.at(layer_index).size() == 0) {
    return hit.E();
  }
 
  if (m_modulation_scale < std::numeric_limits<float>::epsilon()) {
    return hit.E();
  }
 
  float energy = hit.E();
  float phi = hit.phi();
  float eta = hit.eta();
 
  float reweighted_energy =
      remove_phi_modulation(energy, phi, eta, layer_index);
  hit.E() = reweighted_energy;
 
  return reweighted_energy;
}

◆ RemoveDuplicates()

void TFCSParametrizationBase::RemoveDuplicates ( )

inherited

Definition at line 152 of file TFCSParametrizationBase.cxx.

                                               {
  FindDuplicateClasses_t dupclasses;
  FindDuplicates(dupclasses);
 
  std::set<TFCSParametrizationBase *> dellist;
  for (auto &dupiter : dupclasses) {
    FindDuplicates_t &dup = dupiter.second;
    for (auto onedup : dup) {
      if (onedup.second.mother.empty())
        continue;
      TFCSParametrizationBase *ref = onedup.first;
      ATH_MSG_DEBUG("Main object " << ref << "=" << ref->GetName());
      for (unsigned int i = 0; i < onedup.second.mother.size(); ++i) {
        int index = onedup.second.index[i];
        TFCSParametrizationBase *mother = onedup.second.mother[i];
        TFCSParametrizationBase *delparam = mother->operator[](index);
        unsigned int delcount = dup[delparam].mother.size();
        if (delcount == 0) {
          ATH_MSG_DEBUG("  - Delete object "
                        << delparam << "=" << delparam->GetName() << " index "
                        << index << " of " << mother << ", has " << delcount
                        << " other replacements attached. Deleting");
          mother->set_daughter(index, ref);
          dellist.insert(delparam);
        } else {
          ATH_MSG_WARNING("  - Delete object "
                          << delparam << "=" << delparam->GetName() << " index "
                          << index << " of " << mother << ", has " << delcount
                          << " other replacements attached. Skipping");
        }
      }
    }
  }
 
  ATH_MSG_INFO("RERUNNING DUPLICATE FINDING");
  FindDuplicateClasses_t dupclasses2;
  FindDuplicates(dupclasses2);
 
  std::map<std::string, int> ndel;
  for (auto *delparam : dellist) {
    FindDuplicates_t &dup2 = dupclasses2[delparam->GetName()];
    bool present = dup2.find(delparam) != dup2.end();
    if (present) {
      ATH_MSG_WARNING("- Delete object " << delparam << "="
                                         << delparam->GetName()
                                         << " still referenced somewhere!");
    } else {
      ATH_MSG_DEBUG("- Delete object " << delparam << "="
                                       << delparam->GetName());
      ++ndel[delparam->ClassName()];
      delete delparam;
    }
  }
  for (auto &del : ndel)
    ATH_MSG_INFO("Deleted " << del.second << " duplicate objects of class "
                            << del.first);
}

◆ RemoveNameTitle()

void TFCSParametrizationBase::RemoveNameTitle ( )

inherited

Definition at line 210 of file TFCSParametrizationBase.cxx.

                                              {
  for (unsigned int i = 0; i < size(); ++i)
    if ((*this)[i]) {
      TFCSParametrizationBase *param = (*this)[i];
      param->SetName("");
      param->SetTitle("");
 
      // Continue for child objects in param
      param->RemoveNameTitle();
    }
}

◆ reset_match_all_pdgid()

virtual void TFCSParametrizationBase::reset_match_all_pdgid ( )

inlinevirtualinherited

Definition at line 84 of file TFCSParametrizationBase.h.

84{ ResetBit(kMatchAllPDGID); };

◆ set_calosample()

void TFCSLateralShapeParametrization::set_calosample ( int cs )

inherited

Definition at line 21 of file TFCSLateralShapeParametrization.cxx.

                                                           {
  m_calosample = cs;
}

◆ set_daughter()

virtual void TFCSParametrizationBase::set_daughter	(	unsigned int	,
		TFCSParametrizationBase *	)

inlinevirtualinherited

Some derived classes have daughter instances of TFCSParametrizationBase objects The set_daughter method allows to change these daughters - expert use only!

The original element at this position is not deleted

Reimplemented in TFCSLateralShapeParametrizationHitChain, and TFCSParametrizationChain.

Definition at line 113 of file TFCSParametrizationBase.h.

114 {};

◆ set_Ekin()

void TFCSParametrization::set_Ekin ( const TFCSParametrizationBase & ref )

virtualinherited

Definition at line 55 of file TFCSParametrization.cxx.

                                                                     {
  set_Ekin_nominal(ref.Ekin_nominal());
  set_Ekin_min(ref.Ekin_min());
  set_Ekin_max(ref.Ekin_max());
}

◆ set_Ekin_bin()

void TFCSLateralShapeParametrization::set_Ekin_bin ( int bin )

inherited

Definition at line 17 of file TFCSLateralShapeParametrization.cxx.

                                                          {
  m_Ekin_bin = bin;
}

◆ set_Ekin_eta()

void TFCSParametrization::set_Ekin_eta ( const TFCSParametrizationBase & ref )

virtualinherited

Definition at line 67 of file TFCSParametrization.cxx.

                                                                         {
  set_Ekin(ref);
  set_eta(ref);
}

◆ set_Ekin_max()

void TFCSParametrization::set_Ekin_max ( double max )

virtualinherited

Definition at line 45 of file TFCSParametrization.cxx.

45{ m_Ekin_max = max; }

max

#define max(a, b)

Definition cfImp.cxx:41

◆ set_Ekin_min()

void TFCSParametrization::set_Ekin_min ( double min )

virtualinherited

Definition at line 43 of file TFCSParametrization.cxx.

43{ m_Ekin_min = min; }

min

#define min(a, b)

Definition cfImp.cxx:40

◆ set_Ekin_nominal()

void TFCSParametrization::set_Ekin_nominal ( double min )

virtualinherited

Definition at line 39 of file TFCSParametrization.cxx.

                                                         {
  m_Ekin_nominal = nominal;
}

◆ set_eta()

void TFCSParametrization::set_eta ( const TFCSParametrizationBase & ref )

virtualinherited

Definition at line 61 of file TFCSParametrization.cxx.

                                                                    {
  set_eta_nominal(ref.eta_nominal());
  set_eta_min(ref.eta_min());
  set_eta_max(ref.eta_max());
}

◆ set_eta_max()

void TFCSParametrization::set_eta_max ( double max )

virtualinherited

Definition at line 53 of file TFCSParametrization.cxx.

53{ m_eta_max = max; }

◆ set_eta_min()

void TFCSParametrization::set_eta_min ( double min )

virtualinherited

Definition at line 51 of file TFCSParametrization.cxx.

51{ m_eta_min = min; }

◆ set_eta_nominal()

void TFCSParametrization::set_eta_nominal ( double min )

virtualinherited

Definition at line 47 of file TFCSParametrization.cxx.

                                                        {
  m_eta_nominal = nominal;
}

◆ set_geometry()

void TFCSPhiModulationCorrection::set_geometry ( ICaloGeometry * geo )

inlineoverridevirtual

Method to set the geometry access pointer.

Loops over daughter objects if present

Reimplemented from TFCSParametrizationBase.

Definition at line 93 of file TFCSPhiModulationCorrection.h.

                                                 {
    m_geo = geo;
    TFCSParametrizationBase::set_geometry(geo);
  };

◆ set_match_all_pdgid()

virtual void TFCSParametrizationBase::set_match_all_pdgid ( )

inlinevirtualinherited

Definition at line 83 of file TFCSParametrizationBase.h.

83{ SetBit(kMatchAllPDGID); };

◆ set_pdgid() [1/2]

void TFCSParametrization::set_pdgid ( const std::set< int > & ids )

virtualinherited

Reimplemented in TFCSEnergyBinParametrization.

Definition at line 33 of file TFCSParametrization.cxx.

33{ m_pdgid = ids; }

python.subdetectors.mmg.ids

ids

Definition mmg.py:8

◆ set_pdgid() [2/2]

void TFCSParametrization::set_pdgid ( int id )

virtualinherited

Reimplemented in TFCSEnergyBinParametrization.

Definition at line 28 of file TFCSParametrization.cxx.

                                          {
  m_pdgid.clear();
  m_pdgid.insert(id);
}

◆ set_pdgid_Ekin_eta()

void TFCSParametrization::set_pdgid_Ekin_eta ( const TFCSParametrizationBase & ref )

virtualinherited

Definition at line 72 of file TFCSParametrization.cxx.

                                        {
  set_Ekin_eta(ref);
  set_pdgid(ref.pdgid());
}

◆ set_pdgid_Ekin_eta_Ekin_bin_calosample()

void TFCSLateralShapeParametrization::set_pdgid_Ekin_eta_Ekin_bin_calosample ( const TFCSLateralShapeParametrization & ref )

virtualinherited

Definition at line 25 of file TFCSLateralShapeParametrization.cxx.

                                                {
  set_calosample(ref.calosample());
  set_Ekin_bin(ref.Ekin_bin());
  set_pdgid_Ekin_eta(ref);
}

◆ set_phi_modulation_scale()

void TFCSPhiModulationCorrection::set_phi_modulation_scale ( float phi_modulation_scale )

inline

Definition at line 51 of file TFCSPhiModulationCorrection.h.

                                                            {
    m_modulation_scale = phi_modulation_scale;
  };

◆ setLevel()

void ISF_FCS::MLogging::setLevel ( MSG::Level lvl )

virtualinherited

Update outputlevel.

Definition at line 105 of file MLogging.cxx.

                                    {
  lvl = (lvl >= MSG::NUM_LEVELS) ? MSG::ALWAYS
        : (lvl < MSG::NIL)       ? MSG::NIL
                                 : lvl;
  msg().setLevel(lvl);
}

◆ simulate()

FCSReturnCode TFCSParametrizationBase::simulate	(	TFCSSimulationState &	simulstate,
		const TFCSTruthState *	truth,
		const TFCSExtrapolationState *	extrapol ) const

virtualinherited

Method in all derived classes to do some simulation.

Result should be returned in simulstate.

Simulate all energies in calo layers for energy parametrizations. Simulate cells for shape simulation.

Reimplemented in TFCSBinnedShowerBase, TFCSEnergyAndHitGAN, TFCSEnergyAndHitGANV2, TFCSEnergyBinParametrization, TFCSEnergyInterpolationHistogram, TFCSEnergyInterpolationLinear, TFCSEnergyInterpolationPiecewiseLinear, TFCSEnergyInterpolationSpline, TFCSEnergyRenormalization, TFCSInitWithEkin, TFCSInvisibleParametrization, TFCSLateralShapeParametrizationFluctChain, TFCSLateralShapeParametrizationHitChain, TFCSParametrizationBinnedChain, TFCSParametrizationChain, TFCSParametrizationPDGIDSelectChain, TFCSParametrizationPlaceholder, TFCSPCAEnergyParametrization, TFCSPredictExtrapWeights, and TFCSVoxelHistoLateralCovarianceFluctuations.

Definition at line 32 of file TFCSParametrizationBase.cxx.

                                            {
  ATH_MSG_ERROR("now in TFCSParametrizationBase::simulate(). This should "
                "normally not happen");
  // Force one retry to issue a printout from the chain causing the call to this
  // method
  return (FCSReturnCode)(FCSRetry + 1);
}

◆ simulate_hit()

FCSReturnCode TFCSPhiModulationCorrection::simulate_hit	(	Hit &	hit,
		TFCSSimulationState &	simulstate,
		const TFCSTruthState *	truth,
		const TFCSExtrapolationState *	extrapol )

overridevirtual

simulated one hit position with some energy.

As last step in TFCSLateralShapeParametrizationHitChain::simulate, the hit should be mapped into a cell and this cell recorded in simulstate. All hits/cells should be resacled such that their final sum is simulstate->E(sample)

Reimplemented from TFCSLateralShapeParametrizationHitBase.

Definition at line 358 of file TFCSPhiModulationCorrection.cxx.

                                            {
 
  // Extrapol unused, but needed for the interface
  (void)extrapol;
 
  // Simulstate unused, but needed for the interface
  (void)simulstate;
 
  // truth unused, but needed for the interface
  (void)truth;
 
  add_phi_modulation(hit);
 
  return FCSSuccess;
}

◆ size()

virtual unsigned int TFCSParametrizationBase::size ( ) const

inlinevirtualinherited

Some derived classes have daughter instances of TFCSParametrizationBase objects The size() and operator[] methods give general access to these daughters.

Reimplemented in TFCSLateralShapeParametrizationHitChain, and TFCSParametrizationChain.

Definition at line 93 of file TFCSParametrizationBase.h.

93{ return 0; };

◆ startMsg()

std::string ISF_FCS::MLogging::startMsg	(	MSG::Level	lvl,
		const std::string &	file,
		int	line )

staticinherited

Make a message to decorate the start of logging.

Print a message for the start of logging.

Definition at line 116 of file MLogging.cxx.

                                                                          {
  int col1_len = 20;
  int col2_len = 5;
  int col3_len = 10;
  auto last_slash = file.find_last_of('/');
  int path_len = last_slash == std::string::npos ? 0 : last_slash;
  int trim_point = path_len;
  int total_len = file.length();
  if (total_len - path_len > col1_len)
    trim_point = total_len - col1_len;
  std::string trimmed_name = file.substr(trim_point);
  const char *LevelNames[MSG::NUM_LEVELS] = {
      "NIL", "VERBOSE", "DEBUG", "INFO", "WARNING", "ERROR", "FATAL", "ALWAYS"};
  std::string level = LevelNames[lvl];
  std::string level_string = std::string("(") + level + ") ";
  std::stringstream output;
  output << std::setw(col1_len) << std::right << trimmed_name << ":"
         << std::setw(col2_len) << std::left << line << std::setw(col3_len)
         << std::right << level_string;
  return output.str();
}

Member Data Documentation

◆ ATLAS_THREAD_SAFE

boost::thread_specific_ptr<MsgStream> m_msg_tls ISF_FCS::MLogging::ATLAS_THREAD_SAFE

inlinestaticprivateinherited

Do not persistify!

MsgStream instance (a std::cout like with print-out levels)

Definition at line 215 of file MLogging.h.

◆ init_Ekin_max

double TFCSParametrizationBase::init_Ekin_max = 14000000

staticconstexprprotectedinherited

Do not persistify!

Definition at line 155 of file TFCSParametrizationBase.h.

◆ init_Ekin_min

double TFCSParametrizationBase::init_Ekin_min = 0

staticconstexprprotectedinherited

Do not persistify!

Definition at line 154 of file TFCSParametrizationBase.h.

◆ init_Ekin_nominal

double TFCSParametrizationBase::init_Ekin_nominal = 0

staticconstexprprotectedinherited

Definition at line 153 of file TFCSParametrizationBase.h.

◆ init_eta_max

double TFCSParametrizationBase::init_eta_max = 100

staticconstexprprotectedinherited

Do not persistify!

Definition at line 158 of file TFCSParametrizationBase.h.

◆ init_eta_min

double TFCSParametrizationBase::init_eta_min = -100

staticconstexprprotectedinherited

Do not persistify!

Definition at line 157 of file TFCSParametrizationBase.h.

◆ init_eta_nominal

Definition at line 109 of file TFCSPhiModulationCorrection.h.

◆ m_nm

std::string ISF_FCS::MLogging::m_nm

privateinherited

Message source name.

Definition at line 211 of file MLogging.h.

◆ m_pdgid

std::set<int> TFCSParametrization::m_pdgid

privateinherited

Definition at line 63 of file TFCSParametrization.h.

The documentation for this class was generated from the following files:

Public Types

Public Member Functions

Static Public Member Functions

Protected Member Functions

Protected Attributes

Static Protected Attributes

Private Attributes

Static Private Attributes

Detailed Description

Member Typedef Documentation

◆ FindDuplicateClasses_t

◆ FindDuplicates_t

Member Enumeration Documentation

◆ FCSStatusBits

Constructor & Destructor Documentation

◆ TFCSPhiModulationCorrection()

◆ ~TFCSPhiModulationCorrection()

Member Function Documentation

◆ add_pdgid()

◆ add_phi_modulation() [1/3]

◆ add_phi_modulation() [2/3]

◆ add_phi_modulation() [3/3]

◆ calosample()

◆ CleanAuxInfo()

◆ clear()

◆ clear_pdgid()

◆ compare()

◆ Ekin_bin()

◆ Ekin_max()

◆ Ekin_min()

◆ Ekin_nominal()

◆ eta_max()

◆ eta_min()

◆ eta_nominal()

◆ FindDuplicates()

◆ get_E_hit()

◆ get_energy_shift()

◆ get_eta_and_phi_index()

◆ get_geometry()

◆ get_min_eta()

◆ get_min_phi()

◆ get_number_of_hits()

◆ get_phi_cell_size()

◆ get_phi_modulation()

◆ get_phi_modulation_scale()

◆ get_sigma2_fluctuation()

◆ getMaxWeight()

◆ getMinWeight()

◆ is_match_all_calosample()

◆ is_match_all_Ekin()

◆ is_match_all_Ekin_bin()

◆ is_match_all_eta()

◆ is_match_all_pdgid()

◆ is_match_calosample()

◆ is_match_Ekin()

◆ is_match_Ekin_bin()

◆ is_match_eta()

◆ is_match_pdgid()

◆ level()

◆ load_phi_modulation()

◆ msg() [1/2]

◆ msg() [2/2]

◆ msgLvl()

◆ operator==()

◆ operator[]() [1/2]

◆ operator[]() [2/2]

◆ pdgid()

◆ Print()

◆ remove_phi_modulation() [1/3]

◆ remove_phi_modulation() [2/3]

◆ remove_phi_modulation() [3/3]

◆ RemoveDuplicates()

◆ RemoveNameTitle()

◆ reset_match_all_pdgid()

◆ set_calosample()

◆ set_daughter()

◆ set_Ekin()

◆ set_Ekin_bin()

◆ set_Ekin_eta()

◆ set_Ekin_max()