// @(#)root/mathcore:$Id$ // Authors: W. Brown, M. Fischler, L. Moneta 2005 /********************************************************************** * * * Copyright (c) 2005 , LCG ROOT MathLib Team and * * FNAL LCG ROOT MathLib Team * * * * * **********************************************************************/ // Header file for class Polar2D // // Created by: Lorenzo Moneta at Mon May 30 11:40:03 2005 // Major revamp: M. Fischler at Wed Jun 8 2005 // // Last update: $Id$ // #ifndef ROOT_Math_GenVector_Polar2D #define ROOT_Math_GenVector_Polar2D 1 #ifndef ROOT_Math_Math #include "Math/Math.h" #endif #ifndef ROOT_Math_GenVector_etaMax #include "Math/GenVector/etaMax.h" #endif namespace ROOT { namespace Math { //__________________________________________________________________________________________ /** Class describing a polar 2D coordinate system based on r and phi Phi is restricted to be in the range [-PI,PI) @ingroup GenVector */ template class Polar2D { public : typedef T Scalar; /** Default constructor with r=1,phi=0 */ Polar2D() : fR(1.), fPhi(0) { } /** Construct from the polar coordinates: r and phi */ Polar2D(T r,T phi) : fR(r), fPhi(phi) { Restrict(); } /** Construct from any Vector or coordinate system implementing R() and Phi() */ template explicit Polar2D( const CoordSystem & v ) : fR(v.R() ), fPhi(v.Phi() ) { Restrict(); } // for g++ 3.2 and 3.4 on 32 bits found that the compiler generated copy ctor and assignment are much slower // re-implement them ( there is no no need to have them with g++4) /** copy constructor */ Polar2D(const Polar2D & v) : fR(v.R() ), fPhi(v.Phi() ) { } /** assignment operator */ Polar2D & operator= (const Polar2D & v) { fR = v.R(); fPhi = v.Phi(); return *this; } /** Set internal data based on 2 Scalar numbers */ void SetCoordinates(Scalar r, Scalar phi) { fR=r; fPhi=phi; Restrict(); } /** get internal data into 2 Scalar numbers */ void GetCoordinates(Scalar& r, Scalar& phi) const {r=fR; phi=fPhi;} Scalar R() const { return fR;} Scalar Phi() const { return fPhi; } Scalar X() const { return fR*std::cos(fPhi);} Scalar Y() const { return fR*std::sin(fPhi);} Scalar Mag2() const { return fR*fR;} // setters (only for data members) /** set the r coordinate value keeping phi constant */ void SetR(const T & r) { fR = r; } /** set the phi coordinate value keeping r constant */ void SetPhi(const T & phi) { fPhi = phi; Restrict(); } /** set all values using cartesian coordinates */ void SetXY(Scalar a, Scalar b); private: inline static double pi() { return M_PI; } /** restrict abgle hi to be between -PI and PI */ inline void Restrict() { if ( fPhi <= -pi() || fPhi > pi() ) fPhi = fPhi - std::floor( fPhi/(2*pi()) +.5 ) * 2*pi(); return; } public: /** scale by a scalar quantity - for polar coordinates r changes */ void Scale (T a) { if (a < 0) { Negate(); a = -a; } // angles do not change when scaling by a positive quantity fR *= a; } /** negate the vector */ void Negate ( ) { fPhi = ( fPhi > 0 ? fPhi - pi() : fPhi + pi() ); } /** rotate the vector */ void Rotate(T angle) { fPhi += angle; Restrict(); } // assignment operators /** generic assignment operator from any coordinate system */ template Polar2D & operator= ( const CoordSystem & c ) { fR = c.R(); fPhi = c.Phi(); return *this; } /** Exact equality */ bool operator==(const Polar2D & rhs) const { return fR == rhs.fR && fPhi == rhs.fPhi; } bool operator!= (const Polar2D & rhs) const {return !(operator==(rhs));} // ============= Compatibility section ================== // The following make this coordinate system look enough like a CLHEP // vector that an assignment member template can work with either T x() const { return X();} T y() const { return Y();} // ============= Specializations for improved speed ================== // (none) #if defined(__MAKECINT__) || defined(G__DICTIONARY) // ====== Set member functions for coordinates in other systems ======= void SetX(Scalar a); void SetY(Scalar a); #endif private: T fR; T fPhi; }; } // end namespace Math } // end namespace ROOT // move implementations here to avoid circle dependencies #ifndef ROOT_Math_GenVector_Cartesian2D #include "Math/GenVector/Cartesian2D.h" #endif #if defined(__MAKECINT__) || defined(G__DICTIONARY) #ifndef ROOT_Math_GenVector_GenVector_exception #include "Math/GenVector/GenVector_exception.h" #endif #endif namespace ROOT { namespace Math { template void Polar2D::SetXY(Scalar a, Scalar b) { *this = Cartesian2D(a, b); } #if defined(__MAKECINT__) || defined(G__DICTIONARY) // ====== Set member functions for coordinates in other systems ======= template void Polar2D::SetX(Scalar a) { GenVector_exception e("Polar2D::SetX() is not supposed to be called"); throw e; Cartesian2D v(*this); v.SetX(a); *this = Polar2D(v); } template void Polar2D::SetY(Scalar a) { GenVector_exception e("Polar2D::SetY() is not supposed to be called"); throw e; Cartesian2D v(*this); v.SetY(a); *this = Polar2D(v); } #endif } // end namespace Math } // end namespace ROOT #endif /* ROOT_Math_GenVector_Polar2D */