anab::Calorimetry Class Reference

#include "Calorimetry.h"

Public Member Functions
	Calorimetry ()
	Calorimetry (float KinematicEnergy, std::vector< float > const &dEdx, std::vector< float > const &dQdx, std::vector< float > const &resRange, std::vector< float > const &deadwire, float Range, float TrkPitch, geo::PlaneID planeID)
	Calorimetry (float KineticEnergy, std::vector< float > const &dEdx, std::vector< float > const &dQdx, std::vector< float > const &resRange, std::vector< float > const &deadwire, float Range, std::vector< float > const &TrkPitch, geo::PlaneID planeID)
	Calorimetry (float KineticEnergy, std::vector< float > const &dEdx, std::vector< float > const &dQdx, std::vector< float > const &resRange, std::vector< float > const &deadwire, float Range, std::vector< float > const &TrkPitch, std::vector< Point_t > const &XYZ, geo::PlaneID planeID)
	Calorimetry (float KineticEnergy, std::vector< float > const &dEdx, std::vector< float > const &dQdx, std::vector< float > const &resRange, std::vector< float > const &deadwire, float Range, std::vector< float > const &TrkPitch, std::vector< Point_t > const &XYZ, std::vector< size_t > const &TpIndices, geo::PlaneID planeID)
const std::vector< float > &	dEdx () const
const std::vector< float > &	dQdx () const
const std::vector< float > &	ResidualRange () const
const std::vector< float > &	DeadWireResRC () const
const float &	KineticEnergy () const
const float &	Range () const
float	TrkPitchC () const
const std::vector< float > &	TrkPitchVec () const
const std::vector< Point_t > &	XYZ () const
const std::vector< size_t > &	TpIndices () const
const geo::PlaneID &	PlaneID () const

Public Attributes
float	fKineticEnergy
	determined kinetic energy More...
std::vector< float >	fdEdx
	dE/dx, should be same size as fResidualRange More...
std::vector< float >	fdQdx
	dQ/dx More...
std::vector< float >	fResidualRange
	range from end of track More...
std::vector< float >	fDeadWireResR
	dead wire residual range, collection plane More...
float	fRange
	total range of track More...
std::vector< float >	fTrkPitch
	track pitch on collection plane More...
std::vector< Point_t >	fXYZ
	coordinates of space points; for a discussion on the object type for coordinates see recob::tracking::Coord_t. More...
std::vector< size_t >	fTpIndices
	indices of original trajectory points on track More...

Private Attributes
geo::PlaneID	fPlaneID

Friends
std::ostream &	operator<< (std::ostream &o, Calorimetry const &a)

Detailed Description

Definition at line 25 of file Calorimetry.h.

Constructor & Destructor Documentation

anab::Calorimetry::Calorimetry

(

)

Definition at line 15 of file Calorimetry.cxx.

References fDeadWireResR, fdEdx, fdQdx, fResidualRange, fTpIndices, fTrkPitch, and fXYZ.

    : fKineticEnergy(0.)
    , fRange(0.)
  {
    fdEdx.clear();
    fdQdx.clear();
    fResidualRange.clear();
    fDeadWireResR.clear();
    fTrkPitch.clear();
    fXYZ.clear();
    fTpIndices.clear();
  }

anab::Calorimetry::Calorimetry	(	float	KinematicEnergy,
		std::vector< float > const &	dEdx,
		std::vector< float > const &	dQdx,
		std::vector< float > const &	resRange,
		std::vector< float > const &	deadwire,
		float	Range,
		float	TrkPitch,
		geo::PlaneID	planeID
	)

Definition at line 30 of file Calorimetry.cxx.

References fDeadWireResR, fdEdx, fdQdx, fKineticEnergy, fPlaneID, fRange, fResidualRange, fTrkPitch, fXYZ, KineticEnergy(), and Range().

  {
 
    fKineticEnergy = KineticEnergy;
    fRange = Range;
    for(size_t i=0; i!=dQdx.size(); ++i){
      fTrkPitch.push_back(TrkPitch);
      fXYZ.push_back({-999.,-999.,-999.});
    }
    if(dEdx.size() != resRange.size())
      throw cet::exception("anab::Calorimetry") << "dE/dx and residual range vectors "
                                                << "have different sizes, this is a problem.\n";
    fdEdx.resize(dEdx.size());
    fdQdx.resize(dQdx.size());
    fResidualRange.resize(resRange.size());
    for(size_t i = 0; i < dEdx.size(); ++i){
      fdEdx[i]          = dEdx[i];
      fdQdx[i]          = dQdx[i];
      fResidualRange[i] = resRange[i];
    }
    
    fDeadWireResR.resize(deadwire.size());
    for(size_t i = 0; i<deadwire.size(); ++i){
      fDeadWireResR[i] = deadwire[i];
    }

    fPlaneID = planeID;
  }

anab::Calorimetry::Calorimetry	(	float	KineticEnergy,
		std::vector< float > const &	dEdx,
		std::vector< float > const &	dQdx,
		std::vector< float > const &	resRange,
		std::vector< float > const &	deadwire,
		float	Range,
		std::vector< float > const &	TrkPitch,
		geo::PlaneID	planeID
	)

Definition at line 68 of file Calorimetry.cxx.

References fDeadWireResR, fdEdx, fdQdx, fKineticEnergy, fPlaneID, fRange, fResidualRange, fTrkPitch, fXYZ, KineticEnergy(), and Range().

  {
    
    fPlaneID = planeID;
    fKineticEnergy = KineticEnergy;
    fRange = Range;
    fTrkPitch = TrkPitch;
    if(dEdx.size() != resRange.size())
      throw cet::exception("anab::Calorimetry") << "dE/dx and residual range vectors "
                                                << "have different sizes, this is a problem.\n";
    for(size_t i=0; i!=dQdx.size(); ++i){
      fXYZ.push_back({-999.,-999.,-999.});
    }
    fdEdx.resize(dEdx.size());
    fdQdx.resize(dQdx.size());
    fResidualRange.resize(resRange.size());
    for(size_t i = 0; i < dEdx.size(); ++i){
      fdEdx[i]          = dEdx[i];
      fdQdx[i]          = dQdx[i];
      fResidualRange[i] = resRange[i];
    }
    
    fDeadWireResR.resize(deadwire.size());
    for(size_t i = 0; i<deadwire.size(); ++i){
      fDeadWireResR[i] = deadwire[i];
    }

  }

anab::Calorimetry::Calorimetry	(	float	KineticEnergy,
		std::vector< float > const &	dEdx,
		std::vector< float > const &	dQdx,
		std::vector< float > const &	resRange,
		std::vector< float > const &	deadwire,
		float	Range,
		std::vector< float > const &	TrkPitch,
		std::vector< Point_t > const &	XYZ,
		geo::PlaneID	planeID
	)

Definition at line 105 of file Calorimetry.cxx.

    : Calorimetry(KineticEnergy, dEdx, dQdx, resRange, deadwire, Range, TrkPitch, XYZ, std::vector<size_t>(),planeID) { }

anab::Calorimetry::Calorimetry	(	float	KineticEnergy,
		std::vector< float > const &	dEdx,
		std::vector< float > const &	dQdx,
		std::vector< float > const &	resRange,
		std::vector< float > const &	deadwire,
		float	Range,
		std::vector< float > const &	TrkPitch,
		std::vector< Point_t > const &	XYZ,
		std::vector< size_t > const &	TpIndices,
		geo::PlaneID	planeID
	)

Definition at line 116 of file Calorimetry.cxx.

References dEdx(), dQdx(), fDeadWireResR, fdEdx, fdQdx, fKineticEnergy, fPlaneID, fRange, fResidualRange, fTpIndices, fTrkPitch, fXYZ, KineticEnergy(), Range(), TpIndices(), and XYZ().

  {
    
    if( dEdx.size() != resRange.size() ||
        dEdx.size() != dQdx.size()     ||
        dEdx.size() != TrkPitch.size() ||
        dEdx.size() != XYZ.size()      ||
        (TpIndices.size()>0 && dEdx.size() != TpIndices.size()) )
      throw cet::exception("anab::Calorimetry") << "Input vectors "
                                                << "have different sizes, this is a problem.\n";
    fPlaneID = planeID;
    fKineticEnergy = KineticEnergy;
    fRange = Range;
    fTrkPitch = TrkPitch;
    fdEdx = dEdx;
    fdQdx = dQdx;
    fResidualRange = resRange;
    fXYZ = XYZ;
    fTpIndices = TpIndices;
    fDeadWireResR = deadwire;
  }

Member Function Documentation

const std::vector< float > & anab::Calorimetry::DeadWireResRC ( ) const

inline

Definition at line 107 of file Calorimetry.h.

References fDeadWireResR.

Referenced by pid::Chi2PIDAlg::DoParticleID().

{ return fDeadWireResR;  }

const std::vector< float > & anab::Calorimetry::dEdx ( ) const

inline

Definition at line 104 of file Calorimetry.h.

References fdEdx.

Referenced by Calorimetry(), evd::AnalysisBaseDrawer::CalorInteractive(), pid::Chi2PIDAlg::DoParticleID(), and pid::PIDAAlg::RunPIDAAlg().

{ return fdEdx;          }

const std::vector< float > & anab::Calorimetry::dQdx ( ) const

inline

Definition at line 105 of file Calorimetry.h.

References fdQdx.

Referenced by Calorimetry().

{ return fdQdx;          }

const float & anab::Calorimetry::KineticEnergy ( ) const

inline

Definition at line 108 of file Calorimetry.h.

References fKineticEnergy.

Referenced by Calorimetry(), pid::PIDAAlg::FillPIDAProperties(), and evd::HitSelector::SaveSeedLines().

{ return fKineticEnergy; }

const geo::PlaneID & anab::Calorimetry::PlaneID ( ) const

inline

Definition at line 119 of file Calorimetry.h.

References fPlaneID.

Referenced by pid::Chi2PIDAlg::DoParticleID(), and pid::PIDAAlg::FillPIDAProperties().

{ return fPlaneID; }

const float & anab::Calorimetry::Range ( ) const

inline

Definition at line 109 of file Calorimetry.h.

References fRange.

Referenced by Calorimetry(), and pid::PIDAAlg::FillPIDAProperties().

{ return fRange;         }

const std::vector< float > & anab::Calorimetry::ResidualRange ( ) const

inline

Definition at line 106 of file Calorimetry.h.

References fResidualRange.

Referenced by evd::AnalysisBaseDrawer::CalorInteractive(), pid::Chi2PIDAlg::DoParticleID(), and pid::PIDAAlg::RunPIDAAlg().

{ return fResidualRange; }

const std::vector< size_t > & anab::Calorimetry::TpIndices ( ) const

inline

Definition at line 118 of file Calorimetry.h.

References fTpIndices.

Referenced by Calorimetry().

{ return fTpIndices;}

float anab::Calorimetry::TrkPitchC ( ) const

inline

Definition at line 111 of file Calorimetry.h.

References fTrkPitch.

Referenced by pid::Chi2PIDAlg::DoParticleID().

{
  if (fTrkPitch.size())
    return fTrkPitch[0];
  else return 0;
}

const std::vector< float > & anab::Calorimetry::TrkPitchVec ( ) const

inline

Definition at line 110 of file Calorimetry.h.

References fTrkPitch.

{ return fTrkPitch;      }

const std::vector< anab::Point_t > & anab::Calorimetry::XYZ ( ) const

inline

Definition at line 117 of file Calorimetry.h.

References fXYZ.

Referenced by Calorimetry().

{ return fXYZ;      }

Friends And Related Function Documentation

std::ostream& operator<< ( std::ostream &  o, Calorimetry const &  a  )

friend

Definition at line 150 of file Calorimetry.cxx.

  {
    o << "Kinetic Energy: " << a.fKineticEnergy 
      << "\n Range: "         << a.fRange << std::endl;
    
    for(size_t n = 0; n < a.fdEdx.size(); ++n)
      o << "dE/dx="           << a.fdEdx[n]
        << " Residual range=" << a.fResidualRange[n] 
        << " dQ/dx=" << a.fdQdx[n]
        << " (x,y,z)=(" << a.fXYZ[n].X() << "," << a.fXYZ[n].Y() << "," << a.fXYZ[n].Z() << ")"
        << " pitch=" << a.fTrkPitch[n]
        << " planeID=(" << a.fPlaneID.Cryostat << "," << a.fPlaneID.TPC << "," << a.fPlaneID.Plane << ")"
        << std::endl;

    return o;
  }

Member Data Documentation

std::vector<float> anab::Calorimetry::fDeadWireResR

dead wire residual range, collection plane

Definition at line 34 of file Calorimetry.h.

Referenced by Calorimetry(), and DeadWireResRC().

std::vector<float> anab::Calorimetry::fdEdx

dE/dx, should be same size as fResidualRange

Definition at line 31 of file Calorimetry.h.

Referenced by Calorimetry(), dEdx(), and anab::operator<<().

std::vector<float> anab::Calorimetry::fdQdx

dQ/dx

Definition at line 32 of file Calorimetry.h.

Referenced by Calorimetry(), dQdx(), and anab::operator<<().

float anab::Calorimetry::fKineticEnergy

determined kinetic energy

Definition at line 30 of file Calorimetry.h.

Referenced by Calorimetry(), KineticEnergy(), and anab::operator<<().

geo::PlaneID anab::Calorimetry::fPlaneID

private

Definition at line 41 of file Calorimetry.h.

Referenced by Calorimetry(), anab::operator<<(), and PlaneID().

float anab::Calorimetry::fRange

total range of track

Definition at line 35 of file Calorimetry.h.

Referenced by Calorimetry(), anab::operator<<(), and Range().

std::vector<float> anab::Calorimetry::fResidualRange

range from end of track

Definition at line 33 of file Calorimetry.h.

Referenced by Calorimetry(), anab::operator<<(), and ResidualRange().

std::vector<size_t> anab::Calorimetry::fTpIndices

indices of original trajectory points on track

Definition at line 38 of file Calorimetry.h.

Referenced by Calorimetry(), and TpIndices().

std::vector<float> anab::Calorimetry::fTrkPitch

track pitch on collection plane

Definition at line 36 of file Calorimetry.h.

Referenced by Calorimetry(), anab::operator<<(), TrkPitchC(), and TrkPitchVec().

std::vector<Point_t> anab::Calorimetry::fXYZ

coordinates of space points; for a discussion on the object type for coordinates see recob::tracking::Coord_t.

Definition at line 37 of file Calorimetry.h.

Referenced by Calorimetry(), anab::operator<<(), and XYZ().

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

• /cvmfs/larsoft.opensciencegrid.org/products/lardataobj/v07_06_00/source/lardataobj/AnalysisBase/Calorimetry.h
• /cvmfs/larsoft.opensciencegrid.org/products/lardataobj/v07_06_00/source/lardataobj/AnalysisBase/Calorimetry.cxx