// @(#)root/smatrix:$Id$ // Author: T. Glebe, L. Moneta, J. Palacios 2005 #ifndef ROOT_Math_SVector #define ROOT_Math_SVector /******************************************************************** // // source: // // type: source code // // created: 16. Mar 2001 // // author: Thorsten Glebe // HERA-B Collaboration // Max-Planck-Institut fuer Kernphysik // Saupfercheckweg 1 // 69117 Heidelberg // Germany // E-mail: T.Glebe@mpi-hd.mpg.de // // Description: A fixed size Vector class // // changes: // 16 Mar 2001 (TG) creation // 21 Mar 2001 (TG) SVector::value_type added // 21 Mar 2001 (TG) added operators +=, -=, *=, /= // 26 Mar 2001 (TG) added place_at() // 03 Apr 2001 (TG) Array() added // 06 Apr 2001 (TG) CTORS added // 07 Apr 2001 (TG) CTORS added // 22 Aug 2001 (TG) CTOR(T*,len) added // 04 Sep 2001 (TG) moved inlined functions to .icc file // 14 Jan 2002 (TG) added operator==(), operator!=(), operator>(), operator<() // ********************************************************************/ #ifndef ROOT_Math_MnConfig #include "Math/MConfig.h" #endif #include // expression engine #ifndef ROOT_Math_Expression #include "Math/Expression.h" #endif namespace ROOT { namespace Math { // template class MatRepStd; // template > class Expr; //____________________________________________________________________________________________________________ /** SVector: a generic fixed size Vector class. The class is template on the scalar type and on the vector size D. See \ref SVectorDoc Original author is Thorsten Glebe HERA-B Collaboration, MPI Heidelberg (Germany) @ingroup SMatrixSVector @authors T. Glebe, L. Moneta and J. Palacios */ //============================================================================== // SVector //============================================================================== template class SVector { public: /** @name --- Typedefs --- */ /// contained scalar type typedef T value_type; /** STL iterator interface. */ typedef T* iterator; /** STL const_iterator interface. */ typedef const T* const_iterator; /** @name --- Constructors --- */ /** Default constructor: vector filled with zero values */ SVector(); /// contruct from a vector expression template SVector(const VecExpr& rhs); /// copy contructor SVector(const SVector& rhs); // new constructs using STL iterator interface // skip - need to solve the ambiguities #ifdef LATER /** Constructor with STL iterator interface. The data will be copied into the vector The iterator size must be equal to the vector size */ template explicit SVector(InputIterator begin, InputIterator end); /** Constructor with STL iterator interface. The data will be copied into the vector The size must be <= vector size */ template explicit SVector(InputIterator begin, unsigned int size); #else // if you use iterator this is not necessary /// fill from array with len must be equal to D! SVector( const T * a, unsigned int len); /** fill from a SVector iterator of type T* (for ambiguities iterator cannot be generic ) */ SVector(const_iterator begin, const_iterator end); #endif /// construct a vector of size 1 from a single scalar value explicit SVector(const T& a1); /// construct a vector of size 2 from 2 scalar values SVector(const T& a1, const T& a2); /// construct a vector of size 3 from 3 scalar values SVector(const T& a1, const T& a2, const T& a3); /// construct a vector of size 4 from 4 scalar values SVector(const T& a1, const T& a2, const T& a3, const T& a4); /// construct a vector of size 5 from 5 scalar values SVector(const T& a1, const T& a2, const T& a3, const T& a4, const T& a5); /// construct a vector of size 6 from 6 scalar values SVector(const T& a1, const T& a2, const T& a3, const T& a4, const T& a5, const T& a6); /// construct a vector of size 7 from 7 scalar values SVector(const T& a1, const T& a2, const T& a3, const T& a4, const T& a5, const T& a6, const T& a7); /// construct a vector of size 8 from 8 scalar values SVector(const T& a1, const T& a2, const T& a3, const T& a4, const T& a5, const T& a6, const T& a7, const T& a8); /// construct a vector of size 9 from 9 scalar values SVector(const T& a1, const T& a2, const T& a3, const T& a4, const T& a5, const T& a6, const T& a7, const T& a8, const T& a9); /// construct a vector of size 10 from 10 scalar values SVector(const T& a1, const T& a2, const T& a3, const T& a4, const T& a5, const T& a6, const T& a7, const T& a8, const T& a9, const T& a10); /// assignment from a scalar (only for size 1 vector) SVector& operator=(const T& a1); /// assignment from Vector Expression template SVector& operator=(const VecExpr& rhs); /** @name --- Access functions --- */ /** Enumeration defining the Vector size */ enum { /// return vector size kSize = D }; /// return dimension $D$ inline static unsigned int Dim() { return D; } /// access the parse tree. Index starts from zero T apply(unsigned int i) const; /// return read-only pointer to internal array const T* Array() const; /// return non-const pointer to internal array T* Array(); /** @name --- STL-like interface --- */ /** STL iterator interface. */ iterator begin(); /** STL iterator interface. */ iterator end(); /** STL const_iterator interface. */ const_iterator begin() const; /** STL const_iterator interface. */ const_iterator end() const; /// set vector elements copying the values /// iterator size must match vector size template void SetElements(InputIterator begin, InputIterator end); /// set vector elements copying the values /// size must be <= vector size template void SetElements(InputIterator begin, unsigned int size); /** @name --- Operators --- */ /// element wise comparison bool operator==(const T& rhs) const; /// element wise comparison bool operator!=(const T& rhs) const; /// element wise comparison bool operator==(const SVector& rhs) const; /// element wise comparison bool operator!=(const SVector& rhs) const; /// element wise comparison template bool operator==(const VecExpr& rhs) const; /// element wise comparison template bool operator!=(const VecExpr& rhs) const; /// element wise comparison bool operator>(const T& rhs) const; /// element wise comparison bool operator<(const T& rhs) const; /// element wise comparison bool operator>(const SVector& rhs) const; /// element wise comparison bool operator<(const SVector& rhs) const; /// element wise comparison template bool operator>(const VecExpr& rhs) const; /// element wise comparison template bool operator<(const VecExpr& rhs) const; /// read-only access of vector elements. Index starts from 0. const T& operator[](unsigned int i) const; /// read-only access of vector elements. Index starts from 0. const T& operator()(unsigned int i) const; /// read-only access of vector elements with check on index. Index starts from 0. const T& At(unsigned int i) const; /// read/write access of vector elements. Index starts from 0. T& operator[](unsigned int i); /// read/write access of vector elements. Index starts from 0. T& operator()(unsigned int i); /// read/write access of vector elements with check on index. Index starts from 0. T& At(unsigned int i); /// self addition with a scalar SVector& operator+=(const T& rhs); /// self subtraction with a scalar SVector& operator-=(const T& rhs); /// self multiplication with a scalar SVector& operator*=(const T& rhs); /// self division with a scalar SVector& operator/=(const T& rhs); /// self addition with another vector SVector& operator+=(const SVector& rhs); /// self subtraction with another vector SVector& operator-=(const SVector& rhs); /// self addition with a vector expression template SVector& operator+=(const VecExpr& rhs); /// self subtraction with a vector expression template SVector& operator-=(const VecExpr& rhs); #ifdef OLD_IMPL #ifndef __CINT__ /// self element-wise multiplication with another vector SVector& operator*=(const SVector& rhs); /// self element-wise division with another vector SVector& operator/=(const SVector& rhs); /// self element-wise multiplication with a vector expression template SVector& operator*=(const VecExpr& rhs); /// self element-wise division with a vector expression template SVector& operator/=(const VecExpr& rhs); #endif #endif /** @name --- Expert functions --- */ /// transform vector into a vector of length 1 SVector& Unit(); /// place a sub-vector starting from the given position template SVector& Place_at(const SVector& rhs, unsigned int row); /// place a sub-vector expression starting from the given position template SVector& Place_at(const VecExpr& rhs, unsigned int row); /** return a subvector of size N starting at the value row where N is the size of the returned vector (SubVector::kSize) Condition row+N <= D */ template SubVector Sub(unsigned int row) const; /// used by operator<<() std::ostream& Print(std::ostream& os) const; private: /** @name --- Data member --- */ /// SVector data T fArray[D]; }; // end of class SVector //============================================================================== // operator<< //============================================================================== template std::ostream& operator<<(std::ostream& os, const ROOT::Math::SVector& rhs); } // namespace Math } // namespace ROOT #ifndef __CINT__ // include implementation file #ifndef ROOT_Math_SVector_icc #include "Math/SVector.icc" #endif // include operators and functions #ifndef ROOT_Math_UnaryOperators #include "Math/UnaryOperators.h" #endif #ifndef ROOT_Math_BinaryOperators #include "Math/BinaryOperators.h" #endif #ifndef ROOT_Math_MatrixFunctions #include "Math/Functions.h" #endif #endif // __CINT__ #endif /* ROOT_Math_SVector */