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// -*- C++ -*-
/***************************************************************************
*
* valaray - Declarations for the Standard Library valarray
*
* $Id: valarray 172106 2011-11-02 17:04:12Z statham $
*
***************************************************************************
*
* Copyright (c) 1994-2001 Rogue Wave Software, Inc. All Rights Reserved.
*
* This computer software is owned by Rogue Wave Software, Inc. and is
* protected by U.S. copyright laws and other laws and by international
* treaties. This computer software is furnished by Rogue Wave Software,
* Inc. pursuant to a written license agreement and may be used, copied,
* transmitted, and stored only in accordance with the terms of such
* license and with the inclusion of the above copyright notice. This
* computer software or any other copies thereof may not be provided or
* otherwise made available to any other person.
*
* U.S. Government Restricted Rights. This computer software is provided
* with Restricted Rights. Use, duplication, or disclosure by the
* Government is subject to restrictions as set forth in subparagraph (c)
* (1) (ii) of The Rights in Technical Data and Computer Software clause
* at DFARS 252.227-7013 or subparagraphs (c) (1) and (2) of the
* Commercial Computer Software--Restricted Rights at 48 CFR 52.227-19,
* as applicable. Manufacturer is Rogue Wave Software, Inc., 5500
* Flatiron Parkway, Boulder, Colorado 80301 USA.
*
**************************************************************************/
#ifndef _RWSTD_VALARRAY_INCLUDED
#define _RWSTD_VALARRAY_INCLUDED
#include <algorithm>
#include <functional>
#include <numeric>
#include <rw/_math.h>
#include <rw/_array.h>
_RWSTD_NAMESPACE_BEGIN (std)
// forward declarations
class _RWSTD_EXPORT slice;
template <class _TypeT> class slice_array;
class _RWSTD_EXPORT gslice;
template <class _TypeT> class gslice_array;
template <class _TypeT> class mask_array;
template <class _TypeT> class indirect_array;
// 26.3.2
template <class _TypeT>
class valarray
{
public:
typedef _TypeT value_type;
// 26.3.2.1, p1
valarray () { }
// 26.3.2.1, p2
_EXPLICIT valarray (size_t __size)
: _C_array (value_type (), __size) { }
// 26.3.2.1, p3
valarray (const value_type& __val, size_t __size)
: _C_array (__val, __size) { }
// 26.3.2.1, p4
valarray (const value_type* __p, size_t __size)
: _C_array (__p, __size) { }
// 26.3.2.1, p5
valarray (const valarray& __rhs)
: _C_array (__rhs._C_array) { }
// 26.3.2.1, p6
valarray (const slice_array<value_type>&);
valarray (const gslice_array<value_type>&);
valarray (const mask_array<value_type>&);
valarray (const indirect_array<value_type>&);
// 26.3.2.2, p1 - assignment
valarray& operator= (const valarray &__rhs) {
if (this != &__rhs)
_C_array = __rhs._C_array;
return *this;
}
// 26.3.2.2, p2 - assignment
valarray& operator= (const value_type &__val) {
return _STD::fill (_C_array.begin (), _C_array.end (), __val), *this;
}
// 26.3.2.2, p3 - assignment
valarray& operator= (const slice_array<value_type>&);
valarray& operator= (const gslice_array<value_type>&);
valarray& operator= (const mask_array<value_type>&);
valarray& operator= (const indirect_array<value_type>&);
// 26.3.2.3 - element access
value_type operator[] (size_t __i) const {
_RWSTD_ASSERT (__i < size ());
return _C_array[__i];
}
value_type& operator[] (size_t __i) {
_RWSTD_ASSERT (__i < size ());
return _C_array[__i];
}
// 26.3.2.4 - subset operations
valarray operator[] (slice) const;
slice_array<value_type> operator[] (slice);
valarray operator[] (const gslice&) const;
gslice_array<value_type> operator[] (const gslice&);
valarray operator[] (const valarray<bool>&) const;
mask_array<value_type> operator[] (const valarray<bool>&);
valarray operator[] (const valarray<size_t>&) const;
indirect_array<value_type> operator[] (const valarray<size_t>&);
// 26.3.2.5 - unary operators
valarray operator+ () const;
valarray operator- () const;
valarray operator~ () const;
valarray<bool> operator! () const;
// 26.3.2.6, p1 - computed assignment
valarray& operator*= (const valarray&);
valarray& operator/= (const valarray&);
valarray& operator+= (const valarray&);
valarray& operator-= (const valarray&);
valarray& operator%= (const valarray&);
valarray& operator^= (const valarray&);
valarray& operator&= (const valarray&);
valarray& operator|= (const valarray&);
valarray& operator<<= (const valarray&);
valarray& operator>>= (const valarray&);
// 26.3.2.6, p5 - computed assignment
valarray& operator*= (const value_type&);
valarray& operator/= (const value_type&);
valarray& operator%= (const value_type&);
valarray& operator+= (const value_type&);
valarray& operator-= (const value_type&);
valarray& operator^= (const value_type&);
valarray& operator&= (const value_type&);
valarray& operator|= (const value_type&);
valarray& operator<<= (const value_type&);
valarray& operator>>= (const value_type&);
// 26.3.2.7, p1
size_t size () const {
return _C_array.size ();
}
// 26.3.2.7, p2
value_type sum () const {
return accumulate (_C_array.begin (), _C_array.end (), value_type ());
}
// 26.3.2.7, p3
value_type min () const {
_RWSTD_ASSERT (0 != size ());
return *min_element (_C_array.begin (), _C_array.end ());
}
// 26.3.2.7, p4
value_type max () const {
_RWSTD_ASSERT (0 != size ());
return *max_element (_C_array.begin (), _C_array.end ());
}
// 26.3.2.7, p5 - ordinary shift
valarray shift (int) const;
// 26.3.2.7, p7 - circular shift
valarray cshift (int) const;
// 26.3.2.7, p8
valarray apply (value_type func (value_type)) const;
valarray apply (value_type func (const value_type&)) const;
// 26.3.2.7, p9
void resize (size_t __size, value_type __val = value_type ()) {
_C_array.resize (__size, __val);
}
// implementation
valarray (_RW::__rw_array<value_type> &__rhs) {
_C_array.swap (__rhs);
}
_RW::__rw_array<value_type> _C_array;
};
_RWSTD_NAMESPACE_END // std
_RWSTD_NAMESPACE_BEGIN (__rw)
template<class _TypeT, class _UnaryFunction>
inline _STD::valarray<_TypeT>
__rw_unary_function (const _STD::valarray<_TypeT> &__val, _UnaryFunction __fun)
{
// allocate but do not initialize
__rw_array<_TypeT> __tmp (__val.size ());
typedef _STD::raw_storage_iterator<_TypeT*, _TypeT> _Iter;
// apply `fun' to each element of `a' and initialize `tmp'
_STD::transform (__val._C_array.begin (), __val._C_array.end (),
_Iter (__tmp.begin ()), __fun);
return _STD::valarray<_TypeT>(__tmp);
}
// implements symmetric non-member valarray binary operators
template<class _TypeT, class _BinaryFunction>
inline _STD::valarray<_TYPENAME _BinaryFunction::result_type>
__rw_binary_function (const _STD::valarray<_TypeT> &__lhs,
const _STD::valarray<_TypeT> &__rhs,
_BinaryFunction __fun)
{
typedef _TYPENAME _BinaryFunction::result_type result_type;
typedef _STD::raw_storage_iterator<result_type*, result_type> _Iter;
// allocate but do not initialize
__rw_array<result_type> __tmp =
__rw_array<result_type>(_STD::min (__lhs.size (), __rhs.size ()));
// apply `fun' to each pair of elements of `lhs' and `rhs'
_STD::transform (__lhs._C_array.begin (),
__lhs._C_array.begin () + __tmp.size (),
__rhs._C_array.begin (), _Iter (__tmp.begin ()), __fun);
return _STD::valarray<result_type>(__tmp);
}
// implements asymmetric non-member valarray binary operators
template<class _TypeT, class _BinaryFunction>
inline _STD::valarray<_TYPENAME _BinaryFunction::result_type>
__rw_binary_function (const _STD::valarray<_TypeT> &__val,
_BinaryFunction __fun)
{
typedef _TYPENAME _BinaryFunction::result_type result_type;
typedef _STD::raw_storage_iterator<result_type*, result_type> _Iter;
// allocate but do not initialize
__rw_array<result_type> __tmp = __rw_array<result_type>(__val.size ());
// apply `fun' to each element of `a' and initialize `tmp'
_STD::transform (__val._C_array.begin (), __val._C_array.end (),
_Iter (__tmp.begin ()), __fun);
return _STD::valarray<result_type>(__tmp);
}
template <class _TypeT, class _UnaryFunction>
inline void
__rw_unary_function (const _STD::slice_array<_TypeT>&,
const _STD::valarray<_TypeT>&,
_UnaryFunction);
template <class _TypeT, class _BinaryFunction>
inline void
__rw_binary_function (const _STD::slice_array<_TypeT>&,
const _STD::valarray<_TypeT>&,
_BinaryFunction);
template <class _TypeT, class _UnaryFunction>
inline void
__rw_unary_function (const _STD::mask_array<_TypeT>&,
const _STD::valarray<_TypeT>&,
_UnaryFunction);
template <class _TypeT, class _BinaryFunction>
inline void
__rw_binary_function (const _STD::mask_array<_TypeT>&,
const _STD::valarray<_TypeT>&,
_BinaryFunction);
template <class _TypeT, class _UnaryFunction>
inline void
__rw_unary_function (const _STD::indirect_array<_TypeT>&,
const _STD::valarray<_TypeT>&,
_UnaryFunction);
template <class _TypeT, class _BinaryFunction>
inline void
__rw_binary_function (const _STD::indirect_array<_TypeT>&,
const _STD::valarray<_TypeT>&,
_BinaryFunction);
_RWSTD_NAMESPACE_END // __rw
_RWSTD_NAMESPACE_BEGIN (std)
template<class _TypeT>
inline valarray<_TypeT>
valarray<_TypeT>::operator+ () const
{
return _RW::__rw_unary_function (*this, _RW::unary_plus<_TypeT>());
}
template <class _TypeT>
inline valarray<_TypeT>
valarray<_TypeT>::operator- () const
{
return _RW::__rw_unary_function (*this, negate<_TypeT>());
}
template <class _TypeT>
inline valarray<_TypeT>
valarray<_TypeT>::operator~ () const
{
return _RW::__rw_unary_function (*this, _RW::bitwise_complement<_TypeT>());
}
template <class _TypeT>
inline valarray<bool> valarray<_TypeT>::operator! () const
{
_RW::__rw_array<bool> __tmp = _RW::__rw_array<bool>(size ());
transform (_C_array.begin (), _C_array.end (), __tmp.begin (),
logical_not<_TypeT>());
return valarray<bool>(__tmp);
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator*= (const valarray<_TypeT>& __rhs)
{
transform (_C_array.begin (),
_C_array.begin () + _STD::min (size (), __rhs.size ()),
__rhs._C_array.begin (), _C_array.begin (),
multiplies<_TypeT>());
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator/= (const valarray<_TypeT>& __rhs)
{
transform (_C_array.begin (),
_C_array.begin () + _STD::min (size (), __rhs.size ()),
__rhs._C_array.begin (), _C_array.begin (),
divides<_TypeT>());
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator+= (const valarray<_TypeT>& __rhs)
{
transform (_C_array.begin (),
_C_array.begin () + _STD::min (size (), __rhs.size ()),
__rhs._C_array.begin (), _C_array.begin (),
plus<_TypeT>());
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator-= (const valarray<_TypeT>& __rhs)
{
transform (_C_array.begin (),
_C_array.begin () + _STD::min (size (), __rhs.size ()),
__rhs._C_array.begin (), _C_array.begin (),
minus<_TypeT>());
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator%= (const valarray<_TypeT>& __rhs)
{
transform (_C_array.begin (),
_C_array.begin () + _STD::min (size (), __rhs.size ()),
__rhs._C_array.begin (), _C_array.begin (),
modulus<_TypeT>());
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator^= (const valarray<_TypeT>& __rhs)
{
transform (_C_array.begin (),
_C_array.begin () + _STD::min (size (), __rhs.size ()),
__rhs._C_array.begin (), _C_array.begin (),
_RW::exclusive_or<_TypeT>());
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator&= (const valarray<_TypeT>& __rhs)
{
transform (_C_array.begin (),
_C_array.begin () + _STD::min (size (), __rhs.size ()),
__rhs._C_array.begin (), _C_array.begin (),
_RW::bitwise_and<_TypeT>());
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator|= (const valarray<_TypeT>& __rhs)
{
transform (_C_array.begin (),
_C_array.begin () + _STD::min (size (), __rhs.size ()),
__rhs._C_array.begin (), _C_array.begin (),
_RW::bitwise_or<_TypeT>());
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator<<= (const valarray<_TypeT>& __rhs)
{
transform (_C_array.begin (),
_C_array.begin () + _STD::min (size (), __rhs.size ()),
__rhs._C_array.begin (), _C_array.begin (),
_RW::shift_left<_TypeT>());
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator>>= (const valarray<_TypeT>& __rhs)
{
transform (_C_array.begin (),
_C_array.begin () + _STD::min (size (), __rhs.size ()),
__rhs._C_array.begin (), _C_array.begin (),
_RW::shift_right<_TypeT>());
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator*= (const _TypeT& __rhs)
{
transform (_C_array.begin (), _C_array.end (), _C_array.begin (),
bind2nd (multiplies<_TypeT>(), __rhs));
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>& valarray<_TypeT>::operator/= (const _TypeT& __rhs)
{
transform (_C_array.begin (), _C_array.end (), _C_array.begin (),
bind2nd (divides<_TypeT>(), __rhs));
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>& valarray<_TypeT>::operator+= (const _TypeT& __rhs)
{
transform (_C_array.begin (), _C_array.end (), _C_array.begin (),
bind2nd (plus<_TypeT>(), __rhs));
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>& valarray<_TypeT>::operator-= (const _TypeT& __rhs)
{
transform (_C_array.begin (), _C_array.end (), _C_array.begin (),
bind2nd (minus<_TypeT>(), __rhs));
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>& valarray<_TypeT>::operator%= (const _TypeT& __rhs)
{
transform (_C_array.begin (), _C_array.end (), _C_array.begin (),
bind2nd (modulus<_TypeT>(), __rhs));
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>& valarray<_TypeT>::operator^= (const _TypeT& __rhs)
{
transform (_C_array.begin (), _C_array.end (), _C_array.begin (),
bind2nd (_RW::exclusive_or<_TypeT>(), __rhs));
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>& valarray<_TypeT>::operator&= (const _TypeT& __rhs)
{
transform (_C_array.begin (), _C_array.end (), _C_array.begin (),
bind2nd (_RW::bitwise_and<_TypeT>(), __rhs));
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>& valarray<_TypeT>::operator|= (const _TypeT& __rhs)
{
transform (_C_array.begin (), _C_array.end (), _C_array.begin (),
bind2nd (_RW::bitwise_or<_TypeT>(), __rhs));
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>& valarray<_TypeT>::operator<<= (const _TypeT& __rhs)
{
transform (_C_array.begin (), _C_array.end (), _C_array.begin (),
bind2nd (_RW::shift_left<_TypeT>(), __rhs));
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>& valarray<_TypeT>::operator>>= (const _TypeT& __rhs)
{
transform (_C_array.begin (), _C_array.end (), _C_array.begin (),
bind2nd (_RW::shift_right<_TypeT>(), __rhs));
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>
valarray<_TypeT>::apply (value_type __fun (value_type)) const
{
return _RW::__rw_unary_function (*this, __fun);
}
template <class _TypeT>
inline valarray<_TypeT>
valarray<_TypeT>::apply (value_type __fun (const value_type&)) const
{
return _RW::__rw_unary_function (*this, __fun);
}
// 26.3.3 - valarray non-members
// 26.3.3.1 - valarray binary operators
template<class _TypeT>
inline valarray<_TypeT>
operator* (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return valarray<_TypeT>(__lhs) *= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator/ (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return valarray<_TypeT>(__lhs) /= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator% (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return valarray<_TypeT>(__lhs) %= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator+ (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return valarray<_TypeT>(__lhs) += __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator- (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return valarray<_TypeT>(__lhs) -= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator^ (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return valarray<_TypeT>(__lhs) ^= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator& (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return valarray<_TypeT>(__lhs) &= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator| (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return valarray<_TypeT>(__lhs) |= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator<< (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return valarray<_TypeT>(__lhs) <<= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator>>(const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return valarray<_TypeT>(__lhs) >>= __rhs;
}
template<class _TypeT>
inline valarray<bool>
operator&& (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__lhs, __rhs, logical_and<_TypeT>());
}
template<class _TypeT>
inline valarray<bool>
operator|| (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__lhs, __rhs, logical_or<_TypeT>());
}
template<class _TypeT>
inline valarray<_TypeT>
operator* (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return valarray<_TypeT>(__lhs) *= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator/ (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return valarray<_TypeT>(__lhs) /= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator% (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return valarray<_TypeT>(__lhs) %= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator+ (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return valarray<_TypeT>(__lhs) += __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator- (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return valarray<_TypeT>(__lhs) -= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator^ (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return valarray<_TypeT>(__lhs) ^= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator& (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return valarray<_TypeT>(__lhs) &= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator| (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return valarray<_TypeT>(__lhs) |= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator<< (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return valarray<_TypeT>(__lhs) <<= __rhs;
}
template<class _TypeT>
inline valarray<_TypeT>
operator>>(const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return valarray<_TypeT>(__lhs) >>= __rhs;
}
// 26.3.3.2 - valarray logical operators
template<class _TypeT>
inline valarray<bool>
operator&& (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return _RW::__rw_binary_function (__lhs,
bind2nd (equal_to<_TypeT>(), __rhs));
}
template<class _TypeT>
inline valarray<bool>
operator|| (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return _RW::__rw_binary_function (__lhs,
bind2nd (logical_or<_TypeT>(), __rhs));
}
template<class _TypeT>
inline valarray<_TypeT>
operator* (const _TypeT& __lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (multiplies<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<_TypeT>
operator/ (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (divides<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<_TypeT>
operator% (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (modulus<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<_TypeT>
operator+ (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs, bind1st (plus<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<_TypeT>
operator- (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs, bind1st (minus<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<_TypeT>
operator^ (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (_RW::exclusive_or<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<_TypeT>
operator& (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (_RW::bitwise_and<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<_TypeT>
operator| (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (_RW::bitwise_or<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<_TypeT>
operator<< (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (_RW::shift_left<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<_TypeT>
operator>>(const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (_RW::shift_right<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<bool>
operator&& (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (logical_and<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<bool>
operator|| (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (logical_or<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<bool>
operator== (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__lhs, __rhs, equal_to<_TypeT>());
}
template<class _TypeT>
inline valarray<bool>
operator!= (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__lhs, __rhs, not_equal_to<_TypeT>());
}
template<class _TypeT>
inline valarray<bool>
operator< (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__lhs, __rhs, less<_TypeT>());
}
template<class _TypeT>
inline valarray<bool>
operator>(const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__lhs, __rhs, greater<_TypeT>());
}
template<class _TypeT>
inline valarray<bool>
operator<= (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__lhs, __rhs, less_equal<_TypeT>());
}
template<class _TypeT>
valarray<bool>
operator>= (const valarray<_TypeT> &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__lhs, __rhs, greater_equal<_TypeT>());
}
template<class _TypeT>
inline valarray<bool>
operator== (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return _RW::__rw_binary_function (__lhs,
bind2nd (equal_to<_TypeT>(), __rhs));
}
template<class _TypeT>
inline valarray<bool>
operator!= (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return _RW::__rw_binary_function (__lhs,
bind2nd (not_equal_to<_TypeT>(), __rhs));
}
template<class _TypeT>
inline valarray<bool>
operator< (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return _RW::__rw_binary_function (__lhs, bind2nd (less<_TypeT>(), __rhs));
}
template<class _TypeT>
inline valarray<bool>
operator>(const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return _RW::__rw_binary_function (__lhs,
bind2nd (greater<_TypeT>(), __rhs));
}
template<class _TypeT>
inline valarray<bool>
operator<= (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return _RW::__rw_binary_function (__lhs,
bind2nd (less_equal<_TypeT>(), __rhs));
}
template<class _TypeT>
inline valarray<bool>
operator>= (const valarray<_TypeT> &__lhs, const _TypeT &__rhs)
{
return _RW::__rw_binary_function (__lhs,
bind2nd (greater_equal<_TypeT>(), __rhs));
}
template<class _TypeT>
inline valarray<bool>
operator== (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (equal_to<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<bool>
operator!= (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (not_equal_to<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<bool>
operator< (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs, bind1st (less<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<bool>
operator>(const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (greater<_TypeT>(), __lhs));
}
template<class _TypeT>
inline valarray<bool>
operator<= (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (less_equal<_TypeT>(), __lhs));
}
template<class _TypeT>
valarray<bool> operator>= (const _TypeT &__lhs, const valarray<_TypeT> &__rhs)
{
return _RW::__rw_binary_function (__rhs,
bind1st (greater_equal<_TypeT>(), __lhs));
}
// 26.3.3.3 - valarray transcendentals
// can't use function objects in definitions below due to different linkage
// of the math functions' overloads (e.g., extern "C" double cos (double)
// and extern "C++" float cos (float), etc...)
template<class _TypeT>
inline valarray<_TypeT> abs (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = abs (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> acos (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = acos (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> asin (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = asin (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
valarray<_TypeT> atan (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = atan (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> cos (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = cos (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> cosh (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = cosh (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> exp (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = exp (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> log (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = log (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> log10 (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = log10 (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> sinh (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = sinh (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> sin (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = sin (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> sqrt (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = sqrt (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> tan (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = tan (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> tanh (const valarray<_TypeT> &__val)
{
_RW::__rw_array<_TypeT> __tmp (__val.size ());
for (size_t __i = 0; __i != __val.size (); ++__i)
__tmp [__i] = tanh (__val [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT>
atan2 (const valarray<_TypeT> &__x, const valarray<_TypeT> &__y)
{
_RWSTD_ASSERT (__x.size () == __y.size ());
_RW::__rw_array<_TypeT> __tmp (__x.size ());
for (size_t __i = 0; __i != __tmp.size (); ++__i)
__tmp [__i] = atan2 (__x [__i], __y [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> atan2 (const valarray<_TypeT> &__x, const _TypeT &__y)
{
_RW::__rw_array<_TypeT> __tmp (__x.size ());
for (size_t __i = 0; __i != __tmp.size (); ++__i)
__tmp [__i] = atan2 (__x [__i], __y);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> atan2 (const _TypeT &__x, const valarray<_TypeT> &__y)
{
_RW::__rw_array<_TypeT> __tmp (__y.size ());
for (size_t __i = 0; __i != __tmp.size (); ++__i)
__tmp [__i] = atan2 (__x, __y [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT>
pow (const valarray<_TypeT> &__x, const valarray<_TypeT> &__y)
{
_RWSTD_ASSERT (__x.size () == __y.size ());
_RW::__rw_array<_TypeT> __tmp (__x.size ());
for (size_t __i = 0; __i != __tmp.size (); ++__i)
__tmp [__i] = pow (__x [__i], __y [__i]);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> pow (const valarray<_TypeT> &__x, const _TypeT &__y)
{
_RW::__rw_array<_TypeT> __tmp (__x.size ());
for (size_t __i = 0; __i != __tmp.size (); ++__i)
__tmp [__i] = pow (__x [__i], __y);
return valarray<_TypeT>(__tmp);
}
template<class _TypeT>
inline valarray<_TypeT> pow (const _TypeT &__x, const valarray<_TypeT> &__y)
{
_RW::__rw_array<_TypeT> __tmp (__y.size ());
for (size_t __i = 0; __i != __tmp.size (); ++__i)
__tmp [__i] = pow (__x, __y [__i]);
return valarray<_TypeT>(__tmp);
}
// 26.3.4
class _RWSTD_EXPORT slice
{
public:
slice (): _C_start (0), _C_length (0), _C_stride (0) { }
slice (size_t __start, size_t __length, size_t __stride)
: _C_start (__start)
, _C_length (__length)
, _C_stride (__stride)
{ }
// 26.3.4.2 - slice access functions
size_t start () const {
return _C_start;
}
size_t size () const {
return _C_length;
}
size_t stride () const {
return _C_stride;
}
private:
size_t _C_start; // starting offset
size_t _C_length; // length of this slice
size_t _C_stride; // offset between elements
};
// 26.3.5 - helper class not to be directly used
template <class _TypeT>
class slice_array
{
friend class valarray<_TypeT>;
public:
typedef _TypeT value_type;
slice_array (const slice_array &__rhs)
: _C_array(__rhs.get_ref_mem_array()),
_C_slice(__rhs.get_slice())
{ }
// implementation
slice_array (_RW::__rw_array<value_type>* __a, const slice &__s)
: _C_array (__a),
_C_slice (__s)
{ }
_RW::__rw_array<value_type>* get_ref_mem_array () const {
return _C_array;
}
slice get_slice () const {
return _C_slice;
}
// 26.3.5.4 - fill function
void operator= (const value_type&) const;
// 26.3.5.2 - assignment
void operator= (const valarray<value_type> &__rhs) const {
_RW::__rw_unary_function (*this, __rhs, _RW::identity<value_type>());
}
// 26.3.5.3 - slice_array computed assignment
void operator*= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, multiplies<value_type>());
}
void operator/= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, divides<value_type>());
}
void operator+= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, plus<value_type>());
}
void operator-= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, minus<value_type>());
}
void operator%= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, modulus<value_type>());
}
void operator^= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::exclusive_or<value_type>());
}
void operator&= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::bitwise_and<value_type>());
}
void operator|= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, _RW::bitwise_or<value_type>());
}
void operator<<= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, _RW::shift_left<value_type>());
}
void operator>>= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::shift_right<value_type>());
}
private:
slice_array ();
slice_array& operator= (const slice_array&);
_RW::__rw_array<value_type> *_C_array; // the referenced valarray
slice _C_slice; // slice of referenced valarray
};
template <class _TypeT>
inline void slice_array<_TypeT>::operator= (const value_type &__rhs) const
{
// assign the value `__rhs' to the given slice of valarray
for (size_t __i = _C_slice.start(), __j = 0;
__i < _C_array->size () && __j != _C_slice.size ();
__i += _C_slice.stride (), ++__j)
(*_C_array)[__i] = __rhs;
}
// 26.3.6 - generalized slice of a valarray
class _RWSTD_EXPORT gslice
{
public:
// 26.3.6.1
gslice ()
: _C_start (0),
_C_reset (true)
{ }
gslice (size_t __start,
const valarray<size_t>& __length,
const valarray<size_t>& __stride)
: _C_start (__start),
_C_length (__length),
_C_stride (__stride),
_C_reset (true),
_C_r_length (size_t (), __length.size ()) {
_RWSTD_ASSERT (_C_length.size () == _C_stride.size ());
}
gslice (const gslice &__rhs)
: _C_start (__rhs._C_start),
_C_length (__rhs._C_length),
_C_stride (__rhs._C_stride),
_C_reset (true),
_C_r_length (size_t (), __rhs._C_length.size ()) {
_RWSTD_ASSERT (_C_length.size () == _C_stride.size ());
}
// 26.3.6.2
size_t start () const {
return _C_start;
}
valarray<size_t> size () const {
return _C_length;
}
valarray<size_t> stride () const {
return _C_stride;
}
// convenience functions
size_t next_ind ();
bool is_reseted () const {
return _C_reset;
}
size_t ind_numb () const;
private:
size_t _C_start; // starting offset
valarray<size_t> _C_length; // set of lengths (sizes equal)
valarray<size_t> _C_stride; // set of strides (sizes equal)
bool _C_reset;
valarray<size_t> _C_r_length;
};
template <class _TypeT>
class gslice_array
{
friend class valarray<_TypeT>;
public:
typedef _TypeT value_type;
gslice_array (const gslice_array<value_type>& __rhs)
: _C_array (__rhs.get_ref_mem_array ()),
_C_slice (__rhs.get_slice ())
{ }
gslice_array (_RW::__rw_array<value_type>* __a, const gslice & __s)
: _C_array (__a),
_C_slice (__s)
{ }
_RW::__rw_array<value_type>* get_ref_mem_array () const {
return _C_array;
}
gslice get_slice () const {
return _C_slice;
}
void operator= (const valarray<value_type> &__rhs) const;
void operator= (const value_type &__rhs) const;
void operator*= (const valarray<value_type> &__rhs) const;
void operator/= (const valarray<value_type> &__rhs) const;
void operator+= (const valarray<value_type> &__rhs) const;
void operator-= (const valarray<value_type> &__rhs) const;
void operator%= (const valarray<value_type> &__rhs) const;
void operator^= (const valarray<value_type> &__rhs) const;
void operator&= (const valarray<value_type> &__rhs) const;
void operator|= (const valarray<value_type> &__rhs) const;
void operator<<= (const valarray<value_type> &__rhs) const;
void operator>>= (const valarray<value_type> &__rhs) const;
private:
gslice_array ();
gslice_array<value_type>& operator= (const gslice_array<value_type>&);
_RW::__rw_array<value_type>* _C_array;
gslice _C_slice;
};
template <class _TypeT>
class mask_array
{
friend class valarray<_TypeT>;
public:
typedef _TypeT value_type;
mask_array (const mask_array<value_type> &__rhs)
: _C_array (__rhs.get_ref_mem_array ()),
_C_valarray (__rhs.get_array ())
{ }
mask_array (_RW::__rw_array<value_type> *__a, const valarray<bool>& __val)
: _C_array (__a),
_C_valarray (__val)
{ }
_RW::__rw_array<value_type>* get_ref_mem_array () const {
return _C_array;
}
valarray<bool> get_array () const {
return _C_valarray;
}
const valarray<bool>* get_array_pt () const {
return &_C_valarray;
}
void operator= (const value_type&) const;
void operator= (const valarray<value_type> &__rhs) const {
_RW::__rw_unary_function (*this, __rhs, _RW::identity<value_type>());
}
void operator*= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, multiplies<value_type>());
}
void operator/= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, divides<value_type>());
}
void operator+= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, plus<value_type>());
}
void operator-= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, minus<value_type>());
}
void operator%= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, modulus<value_type>());
}
void operator^= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::exclusive_or<value_type>());
}
void operator&= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::bitwise_and<value_type>());
}
void operator|= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, _RW::bitwise_or<value_type>());
}
void operator<<= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs, _RW::shift_left<value_type>());
}
void operator>>= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::shift_right<value_type>());
}
private:
mask_array ();
mask_array<value_type>& operator= (const mask_array<value_type>&);
_RW::__rw_array<value_type>* _C_array;
valarray<bool> _C_valarray;
};
template <class _TypeT>
void mask_array<_TypeT>::operator= (const value_type &__rhs) const
{
_RWSTD_ASSERT (0 != get_ref_mem_array ());
_RW::__rw_array<_TypeT> &__a = *get_ref_mem_array ();
for (size_t __i = 0; __i != _C_valarray.size (); ++__i) {
if (_C_valarray [__i])
__a [__i] = __rhs;
}
}
/****************************************************************
* INDIRECT_ARRAY *
****************************************************************/
template <class _TypeT>
class indirect_array
{
friend class valarray<_TypeT>;
public:
typedef _TypeT value_type;
indirect_array (const indirect_array<value_type>& __sl)
:_C_array (__sl.get_ref_mem_array ()),
_C_valarray (__sl.get_array ())
{ }
indirect_array (_RW::__rw_array<value_type> *__a,
const valarray<size_t> &__v)
:_C_array (__a),
_C_valarray (__v)
{ }
_RW::__rw_array<value_type>* get_ref_mem_array () const {
return _C_array;
}
valarray<size_t> get_array () const {
return _C_valarray;
}
const valarray<size_t>* get_array_pt () const {
return &_C_valarray;
}
void operator= (const value_type&) const;
void operator= (const valarray<value_type> &__rhs) const {
_RW::__rw_unary_function (*this, __rhs,
_RW::identity<value_type>());
}
void operator*= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
multiplies<value_type>());
}
void operator/= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
divides<value_type>());
}
void operator+= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
plus<value_type>());
}
void operator-= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
minus<value_type>());
}
void operator%= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
modulus<value_type>());
}
void operator^= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::exclusive_or<value_type>());
}
void operator&= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::bitwise_and<value_type>());
}
void operator|= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::bitwise_or<value_type>());
}
void operator<<= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::shift_left<value_type>());
}
void operator>>= (const valarray<value_type> &__rhs) const {
_RW::__rw_binary_function (*this, __rhs,
_RW::shift_right<value_type>());
}
private:
indirect_array ();
indirect_array& operator= (const indirect_array&);
_RW::__rw_array<value_type>* _C_array;
valarray<size_t> _C_valarray;
};
template <class _TypeT>
inline void indirect_array<_TypeT>::operator= (const _TypeT &__rhs) const
{
for (size_t __i = 0; __i != _C_valarray.size (); ++__i)
(*_C_array)[_C_valarray [__i]] = __rhs;
}
_RWSTD_NAMESPACE_END // std
_RWSTD_NAMESPACE_BEGIN (__rw)
_USING (_RWSTD_C::size_t);
template <class _TypeT, class _UnaryFunction>
inline void
__rw_unary_function (const _STD::slice_array<_TypeT> &__lhs,
const _STD::valarray<_TypeT> &__rhs,
_UnaryFunction __fun)
{
_RWSTD_ASSERT (0 != __lhs.get_ref_mem_array ());
_STD::slice __slice = __lhs.get_slice ();
_RW::__rw_array<_TypeT> &__ar = *__lhs.get_ref_mem_array ();
for (size_t __i = __slice.start(), __j = 0; __j != __slice.size(); ++__j) {
if (__j < __rhs.size () && __i < __ar.size ())
__ar [__i] = __fun (__rhs [__j]);
__i += __slice.stride ();
}
}
template <class _TypeT, class _BinaryFunction>
inline void
__rw_binary_function (const _STD::slice_array<_TypeT> &__lhs,
const _STD::valarray<_TypeT> &__rhs,
_BinaryFunction __fun)
{
_RWSTD_ASSERT (0 != __lhs.get_ref_mem_array ());
_STD::slice __slice = __lhs.get_slice ();
_RW::__rw_array<_TypeT> &__ar = *__lhs.get_ref_mem_array ();
for (size_t __i = __slice.start(), __j = 0; __j != __slice.size(); ++__j) {
if (__j < __rhs.size () && __i < __ar.size ())
__ar [__i] = __fun (__ar [__i], __rhs [__j]);
__i += __slice.stride ();
}
}
template <class _TypeT, class _UnaryFunction>
inline void
__rw_unary_function (const _STD::mask_array<_TypeT> &__lhs,
const _STD::valarray<_TypeT> &__rhs,
_UnaryFunction __fun)
{
_RWSTD_ASSERT (0 != __lhs.get_ref_mem_array ());
_RW::__rw_array<_TypeT> &__ar = *__lhs.get_ref_mem_array ();
const _STD::valarray<bool> &__vlray = *__lhs.get_array_pt ();
for (size_t __i = 0, __j = 0; __i != __vlray.size (); ++__i)
if (__vlray [__i])
__ar [__i] = __fun (__rhs [__j++]);
}
template <class _TypeT, class _BinaryFunction>
inline void
__rw_binary_function (const _STD::mask_array<_TypeT> &__lhs,
const _STD::valarray<_TypeT> &__rhs,
_BinaryFunction __fun)
{
_RWSTD_ASSERT (0 != __lhs.get_ref_mem_array ());
_RW::__rw_array<_TypeT> &__ar = *__lhs.get_ref_mem_array ();
const _STD::valarray<bool> &__vlray = *__lhs.get_array_pt ();
for (size_t __i = 0, __j = 0; __i != __vlray.size (); ++__i)
if (__vlray [__i])
__ar [__i] = __fun (__ar [__i], __rhs [__j++]);
}
template <class _TypeT, class _UnaryFunction>
inline void
__rw_unary_function (const _STD::indirect_array<_TypeT> &__lhs,
const _STD::valarray<_TypeT> &__rhs,
_UnaryFunction __fun)
{
_RWSTD_ASSERT (0 != __lhs.get_ref_mem_array ());
_RW::__rw_array<_TypeT> &__ar = *__lhs.get_ref_mem_array ();
const _STD::valarray<size_t> &__vlray = *__lhs.get_array_pt ();
for (size_t __i = 0; __i != __vlray.size (); ++__i)
__ar [__vlray [__i]] = __fun (__rhs [__i]);
}
template <class _TypeT, class _BinaryFunction>
inline void
__rw_binary_function (const _STD::indirect_array<_TypeT> &__lhs,
const _STD::valarray<_TypeT> &__rhs,
_BinaryFunction __fun)
{
_RWSTD_ASSERT (0 != __lhs.get_ref_mem_array ());
_RW::__rw_array<_TypeT> &__ar = *__lhs.get_ref_mem_array ();
const _STD::valarray<size_t> &__vlray = *__lhs.get_array_pt ();
for (size_t __i = 0; __i != __vlray.size (); ++__i)
__ar [__vlray [__i]] = __fun (__ar [__vlray [__i]], __rhs [__i]);
}
_RWSTD_NAMESPACE_END // __rw
_RWSTD_NAMESPACE_BEGIN (std)
/*****************************************************************
* *
* GSLICE_ARRAY MEMBER FUNCTIONS *
* *
******************************************************************/
// gslice_array inline member functions
template <class _TypeT>
inline void
gslice_array<_TypeT>::operator= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] = __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
template <class _TypeT>
inline void gslice_array<_TypeT>::operator= (const _TypeT& value) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
while( !gsl->is_reseted() )
{
(*_C_array)[__i] = value;
__i= gsl->next_ind();
}
}
// computed assignment
template <class _TypeT>
inline void gslice_array<_TypeT>::operator*= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] *= __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
template <class _TypeT>
inline void gslice_array<_TypeT>::operator/= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] /= __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
template <class _TypeT>
inline void gslice_array<_TypeT>::operator+= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] += __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
template <class _TypeT>
inline void gslice_array<_TypeT>::operator-= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] -= __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
template <class _TypeT>
inline void gslice_array<_TypeT>::operator%= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] %= __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
template <class _TypeT>
inline void gslice_array<_TypeT>::operator^= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] ^= __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
template <class _TypeT>
inline void gslice_array<_TypeT>::operator&= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] &= __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
template <class _TypeT>
inline void gslice_array<_TypeT>::operator|= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] |= __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
template <class _TypeT>
inline void gslice_array<_TypeT>::operator<<= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] <<= __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
template <class _TypeT>
inline void gslice_array<_TypeT>::operator>>= (const valarray<_TypeT>& __rhs) const
{
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &_C_slice);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( (!gsl->is_reseted()) && (__cpt < __rhs.size()) )
{
(*_C_array)[__i] >>= __rhs[__cpt];
__i= gsl->next_ind();
__cpt++;
}
}
inline size_t gslice::ind_numb() const
{
size_t value = 1;
for(size_t __i=0; __i< _C_length.size(); __i++ )
value*= _C_length[__i];
return value;
}
template <class _TypeT>
inline valarray<_TypeT> valarray<_TypeT>::operator[] (slice __slice) const
{
_RW::__rw_array <_TypeT> __tmp =
_RW::__rw_array <_TypeT>(_TypeT (), size ());
for (size_t __i = __slice.start (), __j = 0; __j != __slice.size();
__i += __slice.stride (), ++__j)
__tmp [__j] = _C_array [__i];
return valarray<_TypeT>(__tmp);
}
template <class _TypeT>
inline valarray<_TypeT>::valarray (const slice_array<_TypeT>& sl_ar)
{
_RW::__rw_array <_TypeT> __tmp =
_RW::__rw_array <_TypeT>(_TypeT (), sl_ar.get_slice ().size());
size_t __i = sl_ar.get_slice().start();
size_t __cpt = 0;
while( __cpt < sl_ar.get_slice().size() )
{
__tmp[__cpt] = (*(sl_ar.get_ref_mem_array()))[__i];
__i+= sl_ar.get_slice().stride();
__cpt++;
}
_C_array.swap (__tmp);
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator= (const slice_array<_TypeT>& sl_ar)
{
_RW::__rw_array <_TypeT> __tmp =
_RW::__rw_array <_TypeT>(_TypeT (), sl_ar.get_slice ().size());
size_t __i = sl_ar.get_slice().start();
size_t __cpt = 0;
while( __cpt < sl_ar.get_slice().size() )
{
__tmp[__cpt] = (*(sl_ar.get_ref_mem_array()))[__i];
__i+= sl_ar.get_slice().stride();
__cpt++;
}
if ( &_C_array == sl_ar.get_ref_mem_array() )
_C_array.resize(0);
_C_array.swap (__tmp);
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>
valarray<_TypeT>::operator[](const gslice& sl) const
{
_RW::__rw_array <_TypeT> __tmp =
_RW::__rw_array <_TypeT>(_TypeT (), sl.ind_numb());
gslice *gsl = _RWSTD_CONST_CAST (gslice*, &sl);
size_t __i = gsl->next_ind();
size_t __cpt = 0;
while( !sl.is_reseted() )
{
__tmp[__cpt] = _C_array[__i];
__i= gsl->next_ind();
__cpt++;
}
return valarray<_TypeT>(__tmp);
}
template <class _TypeT>
inline valarray<_TypeT>::valarray(const gslice_array<_TypeT>& sl_ar)
{
gslice sl(sl_ar.get_slice());
_RW::__rw_array <_TypeT> __tmp =
_RW::__rw_array <_TypeT>(_TypeT (), sl.ind_numb());
size_t __i = sl.next_ind();
size_t __cpt = 0;
while( !sl.is_reseted() )
{
__tmp[__cpt] = (*(sl_ar.get_ref_mem_array()))[__i];
__i= sl.next_ind();
__cpt++;
}
_C_array.swap (__tmp);
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator= (const gslice_array<_TypeT>& sl_ar)
{
gslice sl(sl_ar.get_slice());
_RW::__rw_array <_TypeT> __tmp =
_RW::__rw_array <_TypeT>(_TypeT (), sl.ind_numb());
size_t __i = sl.next_ind();
size_t __cpt = 0;
while( !sl.is_reseted() )
{
__tmp[__cpt] = (*(sl_ar.get_ref_mem_array()))[__i];
__i= sl.next_ind();
__cpt++;
}
if ( &_C_array == sl_ar.get_ref_mem_array() )
_C_array.resize(0);
_C_array.swap (__tmp);
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>
valarray<_TypeT>::operator[](const valarray<bool>& __rhs) const
{
size_t __i, __n = 0;
for(__i=0; __i < __rhs.size(); __i++ )
if ( __rhs[__i]) __n++;
_RW::__rw_array <_TypeT> __tmp = _RW::__rw_array <_TypeT>(_TypeT (), __n);
size_t __cpt = 0;
for( __i=0; __i < __rhs.size(); __i++ )
if ( __rhs[__i]) __tmp[__cpt++] = _C_array[__i];
return valarray<_TypeT>(__tmp);
}
template <class _TypeT>
inline valarray<_TypeT>::valarray(const mask_array<_TypeT>& __rhs)
{
mask_array<_TypeT> *msk = _RWSTD_CONST_CAST (mask_array<_TypeT>*, &__rhs);
const valarray<bool>*sec = msk->get_array_pt();
size_t __i, __n = 0;
for(__i = 0; __i < sec->size(); __i++)
if ( (*sec)[__i]) __n++;
_RW::__rw_array <_TypeT> __tmp = _RW::__rw_array <_TypeT>(_TypeT (), __n);
size_t __cpt = 0;
for( __i=0; __i < sec->size(); __i++ )
if ( (*sec)[__i]) __tmp[__cpt++] = (*(__rhs.get_ref_mem_array()))[__i];
_C_array.swap (__tmp);
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator= (const mask_array<_TypeT>& __rhs)
{
mask_array<_TypeT> *msk = _RWSTD_CONST_CAST (mask_array<_TypeT>*, &__rhs);
const valarray<bool>*sec = msk->get_array_pt();
size_t __i, __n = 0;
for (__i = 0; __i < sec->size(); __i++)
if ((*sec)[__i])
__n++;
_RW::__rw_array <_TypeT> __tmp = _RW::__rw_array <_TypeT>(_TypeT (), __n);
size_t __cpt = 0;
for( __i=0; __i < sec->size(); __i++ )
if ( (*sec)[__i]) __tmp[__cpt++] = (*(__rhs.get_ref_mem_array()))[__i];
if ( &_C_array == __rhs.get_ref_mem_array() )
_C_array.resize(0);
_C_array.swap (__tmp);
return *this;
}
template <class _TypeT>
inline valarray<_TypeT>
valarray<_TypeT>::operator[](const valarray<size_t>& __rhs) const
{
_RW::__rw_array <_TypeT> __tmp = _RW::__rw_array <_TypeT>(__rhs.size ());
for (size_t __i = 0; __i != __rhs.size (); ++__i)
new (&__tmp [__i]) _TypeT ((*this)[__rhs [__i]]);
return valarray<_TypeT>(__tmp);
}
template <class _TypeT>
inline valarray<_TypeT>::valarray (const indirect_array<_TypeT>& __rhs)
{
indirect_array<_TypeT> *__ia =
_RWSTD_CONST_CAST (indirect_array<_TypeT>*, &__rhs);
const valarray<size_t> *__sec = __ia->get_array_pt();
_RW::__rw_array <_TypeT> __tmp =
_RW::__rw_array <_TypeT>(_TypeT (), __sec->size());
size_t __cpt = 0;
for(size_t __i=0; __i < __sec->size(); __i++ )
__tmp[__cpt++] = (*(__rhs.get_ref_mem_array()))[(*__sec)[__i]];
_C_array.swap (__tmp);
}
template <class _TypeT>
inline valarray<_TypeT>&
valarray<_TypeT>::operator= (const indirect_array<_TypeT>& __rhs)
{
indirect_array<_TypeT> *__ia =
_RWSTD_CONST_CAST (indirect_array<_TypeT>*, &__rhs);
const valarray<size_t> *__sec = __ia->get_array_pt();
_RW::__rw_array <_TypeT> __tmp =
_RW::__rw_array <_TypeT>(_TypeT (), __sec->size());
size_t __cpt = 0;
for(size_t __i=0; __i < __sec->size(); __i++ )
__tmp[__cpt++] = (*(__rhs.get_ref_mem_array()))[(*__sec)[__i]];
if (&_C_array == __rhs.get_ref_mem_array() )
_C_array.resize(0);
_C_array.swap (__tmp);
return *this;
}
template <class _TypeT>
inline slice_array<_TypeT>
valarray<_TypeT>::operator[] (slice __x)
{
return slice_array<value_type>(&_C_array, __x);
}
template <class _TypeT>
inline gslice_array<_TypeT>
valarray<_TypeT>::operator[] (const gslice &__x)
{
return gslice_array<value_type>(&_C_array, __x);
}
template <class _TypeT>
inline mask_array<_TypeT>
valarray<_TypeT>::operator[] (const valarray<bool> &__x)
{
return mask_array<value_type>(&_C_array, __x);
}
template <class _TypeT>
inline indirect_array<_TypeT>
valarray<_TypeT>::operator[] (const valarray<size_t> &__x)
{
return indirect_array<value_type>(&_C_array, __x);
}
_RWSTD_NAMESPACE_END // std
#ifdef _RWSTD_COMPILE_INSTANTIATE
# include <valarray.cc>
#endif
#endif // _RWSTD_VALARRAY_INCLUDED