vectorfunctions.h

关于矩阵运算的很强的一个工具包

/*
 * Tiny Vector Matrix Library
 * Dense Vector Matrix Libary of Tiny size using Expression Templates
 *
 * Copyright (C) 2001 - 2007 Olaf Petzold <opetzold@users.sourceforge.net>
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * This library 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
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *
 * $Id: VectorFunctions.h,v 1.21 2007-06-23 15:59:00 opetzold Exp $
 */

#ifndef TVMET_XPR_VECTOR_FUNCTIONS_H
#define TVMET_XPR_VECTOR_FUNCTIONS_H

namespace tvmet {


/* forwards */
template<class T, std::size_t Sz> class Vector;


/*********************************************************
 * PART I: DECLARATION
 *********************************************************/


/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++
 * Vector arithmetic functions add, sub, mul and div
 *+++++++++++++++++++++++++++++++++++++++++++++++++++++++*/


/*
 * function(XprVector<E1, Sz>, XprVector<E2, Sz>)
 */
#define TVMET_DECLARE_MACRO(NAME)					\
template<class E1, class E2, std::size_t Sz>				\
XprVector<								\
  XprBinOp<								\
    Fcnl_##NAME<typename E1::value_type, typename E2::value_type>,	\
    XprVector<E1, Sz>,							\
    XprVector<E2, Sz>							\
  >,									\
  Sz									\
>									\
NAME (const XprVector<E1, Sz>& lhs,					\
      const XprVector<E2, Sz>& rhs) TVMET_CXX_ALWAYS_INLINE;

TVMET_DECLARE_MACRO(add)		// per se element wise
TVMET_DECLARE_MACRO(sub)		// per se element wise
TVMET_DECLARE_MACRO(mul)		// per se element wise
namespace element_wise {
  TVMET_DECLARE_MACRO(div)		// not defined for vectors
}

#undef TVMET_DECLARE_MACRO


/*
 * function(XprVector<E, Sz>, POD)
 * function(POD, XprVector<E, Sz>)
 * Note: - operations +,-,*,/ are per se element wise
 */
#define TVMET_DECLARE_MACRO(NAME, POD)				\
template<class E, std::size_t Sz>				\
XprVector<							\
  XprBinOp<							\
    Fcnl_##NAME< typename E::value_type, POD >,			\
    XprVector<E, Sz>,						\
    XprLiteral< POD >						\
  >,								\
  Sz								\
>								\
NAME (const XprVector<E, Sz>& lhs, 				\
      POD rhs) TVMET_CXX_ALWAYS_INLINE;				\
								\
template<class E, std::size_t Sz>				\
XprVector<							\
  XprBinOp<							\
    Fcnl_##NAME< POD, typename E::value_type>,			\
    XprLiteral< POD >,						\
    XprVector<E, Sz>						\
  >,								\
  Sz								\
>								\
NAME (POD lhs, 							\
      const XprVector<E, Sz>& rhs) TVMET_CXX_ALWAYS_INLINE;

TVMET_DECLARE_MACRO(add, int)
TVMET_DECLARE_MACRO(sub, int)
TVMET_DECLARE_MACRO(mul, int)
TVMET_DECLARE_MACRO(div, int)

#if defined(TVMET_HAVE_LONG_LONG)
TVMET_DECLARE_MACRO(add, long long int)
TVMET_DECLARE_MACRO(sub, long long int)
TVMET_DECLARE_MACRO(mul, long long int)
TVMET_DECLARE_MACRO(div, long long int)
#endif

TVMET_DECLARE_MACRO(add, float)
TVMET_DECLARE_MACRO(sub, float)
TVMET_DECLARE_MACRO(mul, float)
TVMET_DECLARE_MACRO(div, float)

TVMET_DECLARE_MACRO(add, double)
TVMET_DECLARE_MACRO(sub, double)
TVMET_DECLARE_MACRO(mul, double)
TVMET_DECLARE_MACRO(div, double)

#if defined(TVMET_HAVE_LONG_DOUBLE)
TVMET_DECLARE_MACRO(add, long double)
TVMET_DECLARE_MACRO(sub, long double)
TVMET_DECLARE_MACRO(mul, long double)
TVMET_DECLARE_MACRO(div, long double)
#endif

#undef TVMET_DECLARE_MACRO


#if defined(TVMET_HAVE_COMPLEX)
/*
 * function(XprMatrix<E, Rows, Cols>, complex<T>)
 * function(complex<T>, XprMatrix<E, Rows, Cols>)
 * Note: - operations +,-,*,/ are per se element wise
 * \todo type promotion
 */
#define TVMET_DECLARE_MACRO(NAME)				\
template<class E, std::size_t Sz, class T>			\
XprVector<							\
  XprBinOp<							\
    Fcnl_##NAME< typename E::value_type, std::complex<T> >,	\
    XprVector<E, Sz>,						\
    XprLiteral< std::complex<T> >				\
  >,								\
  Sz								\
>								\
NAME (const XprVector<E, Sz>& lhs,				\
      const std::complex<T>& rhs) TVMET_CXX_ALWAYS_INLINE;	\
								\
template<class E, std::size_t Sz, class T>			\
XprVector<							\
  XprBinOp<							\
    Fcnl_##NAME< std::complex<T>, typename E::value_type>,	\
    XprLiteral< std::complex<T> >,				\
    XprVector<E, Sz>						\
  >,								\
  Sz								\
>								\
NAME (const std::complex<T>& lhs, 				\
      const XprVector<E, Sz>& rhs) TVMET_CXX_ALWAYS_INLINE;

TVMET_DECLARE_MACRO(add)
TVMET_DECLARE_MACRO(sub)
TVMET_DECLARE_MACRO(mul)
TVMET_DECLARE_MACRO(div)

#undef TVMET_DECLARE_MACRO

#endif // defined(TVMET_HAVE_COMPLEX)


/*++++++++++++++++++++++++++++++++++++++++++++++++++++++++
 * vector specific functions
 *+++++++++++++++++++++++++++++++++++++++++++++++++++++++*/


template<class E, std::size_t Sz>
typename NumericTraits<typename E::value_type>::sum_type
sum(const XprVector<E, Sz>& v) TVMET_CXX_ALWAYS_INLINE;


template<class E, std::size_t Sz>
typename NumericTraits<typename E::value_type>::sum_type
product(const XprVector<E, Sz>& v) TVMET_CXX_ALWAYS_INLINE;


template<class E1, class E2, std::size_t Sz>
typename PromoteTraits<
  typename E1::value_type,
  typename E2::value_type
>::value_type
dot(const XprVector<E1, Sz>& lhs,
    const XprVector<E2, Sz>& rhs) TVMET_CXX_ALWAYS_INLINE;


template<class T, class E, std::size_t Sz>
typename PromoteTraits<T, typename E::value_type>::value_type
dot(const Vector<T, Sz>& lhs,
    const XprVector<E, Sz>& rhs) TVMET_CXX_ALWAYS_INLINE;


template<class E, class T, std::size_t Sz>
typename PromoteTraits<T, typename E::value_type>::value_type
dot(const XprVector<E, Sz>& lhs,
    const Vector<T, Sz>& rhs) TVMET_CXX_ALWAYS_INLINE;


template<class E1, class E2>
Vector<
  typename PromoteTraits<
    typename E1::value_type,
    typename E2::value_type
  >::value_type,
  3
>
cross(const XprVector<E1, 3>& lhs,
      const XprVector<E2, 3>& rhs) TVMET_CXX_ALWAYS_INLINE;


template<class T, class E>
Vector<
  typename PromoteTraits<T, typename E::value_type>::value_type, 3>
cross(const Vector<T, 3>& lhs,
      const XprVector<E, 3>& rhs) TVMET_CXX_ALWAYS_INLINE;


template<class E, class T>
Vector<
  typename PromoteTraits<T, typename E::value_type>::value_type, 3>
cross(const XprVector<E, 3>& lhs,
      const Vector<T, 3>& rhs) TVMET_CXX_ALWAYS_INLINE;


template<class E, std::size_t Sz>
typename NumericTraits<typename E::value_type>::sum_type
norm1(const XprVector<E, Sz>& v) TVMET_CXX_ALWAYS_INLINE;


template<class E, std::size_t Sz>
typename NumericTraits<typename E::value_type>::sum_type
norm2(const XprVector<E, Sz>& v) TVMET_CXX_ALWAYS_INLINE;


template<class E, std::size_t Sz>
XprVector<
  XprBinOp<
    Fcnl_div<typename E::value_type, typename E::value_type>,
    XprVector<E, Sz>,
    XprLiteral<typename E::value_type>
  >,
  Sz
>
normalize(const XprVector<E, Sz>& v) TVMET_CXX_ALWAYS_INLINE;


/*********************************************************
 * PART II: IMPLEMENTATION
 *********************************************************/


/*
 * function(XprVector<E1, Sz>, XprVector<E2, Sz>)
 */
#define TVMET_IMPLEMENT_MACRO(NAME)					\
template<class E1, class E2, std::size_t Sz>				\
inline									\
XprVector<								\
  XprBinOp<								\
    Fcnl_##NAME<typename E1::value_type, typename E2::value_type>,	\
    XprVector<E1, Sz>,							\
    XprVector<E2, Sz>							\
  >,									\
  Sz									\
>									\
NAME (const XprVector<E1, Sz>& lhs, const XprVector<E2, Sz>& rhs) {	\
  typedef XprBinOp<							\
    Fcnl_##NAME<typename E1::value_type, typename E2::value_type>,	\
    XprVector<E1, Sz>,							\
    XprVector<E2, Sz>							\
  > 							 expr_type;	\
  return XprVector<expr_type, Sz>(expr_type(lhs, rhs));			\
}

TVMET_IMPLEMENT_MACRO(add)		// per se element wise
TVMET_IMPLEMENT_MACRO(sub)		// per se element wise
TVMET_IMPLEMENT_MACRO(mul)		// per se element wise
namespace element_wise {
  TVMET_IMPLEMENT_MACRO(div)		// not defined for vectors
}

#undef TVMET_IMPLEMENT_MACRO


/*
 * function(XprVector<E, Sz>, POD)
 * function(POD, XprVector<E, Sz>)
 * Note: - operations +,-,*,/ are per se element wise
 */
#define TVMET_IMPLEMENT_MACRO(NAME, POD)				\
template<class E, std::size_t Sz>					\
inline									\
XprVector<								\
  XprBinOp<								\
    Fcnl_##NAME< typename E::value_type, POD >,				\
    XprVector<E, Sz>,							\
    XprLiteral< POD >							\
  >,									\
  Sz									\
>									\
NAME (const XprVector<E, Sz>& lhs, POD rhs) {				\
  typedef XprBinOp<							\
    Fcnl_##NAME< typename E::value_type, POD >,				\
    XprVector<E, Sz>,							\
    XprLiteral< POD >							\
  >							expr_type;	\
  return XprVector<expr_type, Sz>(					\
    expr_type(lhs, XprLiteral< POD >(rhs)));				\
}									\
									\
template<class E, std::size_t Sz>					\
inline									\
XprVector<								\
  XprBinOp<								\
    Fcnl_##NAME< POD, typename E::value_type>,				\
    XprLiteral< POD >,							\
    XprVector<E, Sz>							\
  >,									\
  Sz									\
>									\
NAME (POD lhs, const XprVector<E, Sz>& rhs) {				\
  typedef XprBinOp<							\
    Fcnl_##NAME< POD, typename E::value_type>,				\
    XprLiteral< POD >,							\
    XprVector<E, Sz>							\
  >							expr_type;	\
  return XprVector<expr_type, Sz>(					\
    expr_type(XprLiteral< POD >(lhs), rhs));				\
}

TVMET_IMPLEMENT_MACRO(add, int)
TVMET_IMPLEMENT_MACRO(sub, int)