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tempest/resources/3rdparty/stlsoft-1.9.116/include/stlsoft/containers/static_array.hpp

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/* /////////////////////////////////////////////////////////////////////////
* File: stlsoft/containers/static_array.hpp
*
* Purpose: Statically sized multidimensional class template.
*
* Created: 4th August 1998
* Updated: 10th August 2009
*
* Thanks to: Neal Becker for suggesting the uninitialised mode.
*
* Home: http://stlsoft.org/
*
* Copyright (c) 1998-2009, Matthew Wilson and Synesis Software
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* - Neither the name(s) of Matthew Wilson and Synesis Software nor the names of
* any contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
* ////////////////////////////////////////////////////////////////////// */
/** \file stlsoft/containers/static_array.hpp
*
* \brief [C++ only] Definition of the stlsoft::static_array_1d,
* stlsoft::static_array_2d, stlsoft::static_array_3d, and
* stlsoft::static_array_4d multidimensional array class templates
* (\ref group__library__containers "Containers" Library).
*/
#ifndef STLSOFT_INCL_STLSOFT_CONTAINERS_HPP_STATIC_ARRAY
#define STLSOFT_INCL_STLSOFT_CONTAINERS_HPP_STATIC_ARRAY
#ifndef STLSOFT_DOCUMENTATION_SKIP_SECTION
# define STLSOFT_VER_STLSOFT_CONTAINERS_HPP_STATIC_ARRAY_MAJOR 4
# define STLSOFT_VER_STLSOFT_CONTAINERS_HPP_STATIC_ARRAY_MINOR 4
# define STLSOFT_VER_STLSOFT_CONTAINERS_HPP_STATIC_ARRAY_REVISION 2
# define STLSOFT_VER_STLSOFT_CONTAINERS_HPP_STATIC_ARRAY_EDIT 188
#endif /* !STLSOFT_DOCUMENTATION_SKIP_SECTION */
/* /////////////////////////////////////////////////////////////////////////
* Compatibility
*/
/*
[Incompatibilies-start]
STLSOFT_COMPILER_IS_BORLAND: __BORLANDC__<0x0564
STLSOFT_COMPILER_IS_DMC: __DMC__<0x0844
STLSOFT_COMPILER_IS_GCC: __GNUC__<3
STLSOFT_COMPILER_IS_MSVC: _MSC_VER<1200
STLSOFT_COMPILER_IS_WATCOM:
[Incompatibilies-end]
*/
/* /////////////////////////////////////////////////////////////////////////
* Includes
*/
#ifndef STLSOFT_INCL_STLSOFT_H_STLSOFT
# include <stlsoft/stlsoft.h>
#endif /* !STLSOFT_INCL_STLSOFT_H_STLSOFT */
#if defined(STLSOFT_COMPILER_IS_BORLAND) && \
__BORLANDC__ < 0x0560
# error stlsoft/containers/static_array.hpp is not compatible with Borland C/C++ prior to 5.6
#elif defined(STLSOFT_COMPILER_IS_DMC) && \
__DMC__ < 0x0844
# error stlsoft/containers/static_array.hpp is not compatible with Digital Mars C/C++ 8.43 or earlier
#elif defined(STLSOFT_COMPILER_IS_GCC) && \
__GNUC__ < 3
# error stlsoft/containers/static_array.hpp is not compatible with GNU C/C++ prior to 3.0
#elif defined(STLSOFT_COMPILER_IS_MSVC) && \
_MSC_VER < 1200
# error stlsoft/containers/static_array.hpp is not compatible with Visual C++ 5.0 or earlier
#endif /* compiler */
#ifndef STLSOFT_INCL_STLSOFT_MEMORY_HPP_NULL_ALLOCATOR
# include <stlsoft/memory/null_allocator.hpp>
#endif /* !STLSOFT_INCL_STLSOFT_MEMORY_HPP_NULL_ALLOCATOR */
#ifndef STLSOFT_INCL_STLSOFT_UTIL_STD_HPP_ITERATOR_HELPER
# include <stlsoft/util/std/iterator_helper.hpp>
#endif /* !STLSOFT_INCL_STLSOFT_UTIL_STD_HPP_ITERATOR_HELPER */
#ifndef STLSOFT_INCL_STLSOFT_CONTAINERS_UTIL_HPP_ARRAY_POLICIES
# include <stlsoft/containers/util/array_policies.hpp> // for stlsoft::do_construction()
#endif /* !STLSOFT_INCL_STLSOFT_CONTAINERS_UTIL_HPP_ARRAY_POLICIES */
#ifndef STLSOFT_INCL_STLSOFT_META_HPP_IS_POINTER_TYPE
# include <stlsoft/meta/is_pointer_type.hpp>
#endif /* !STLSOFT_INCL_STLSOFT_META_HPP_IS_POINTER_TYPE */
#ifndef STLSOFT_INCL_STLSOFT_COLLECTIONS_UTIL_HPP_COLLECTIONS
# include <stlsoft/collections/util/collections.hpp>
#endif /* !STLSOFT_INCL_STLSOFT_COLLECTIONS_UTIL_HPP_COLLECTIONS */
#if defined(STLSOFT_COMPILER_IS_MSVC) && \
defined(STLSOFT_CF_STD_LIBRARY_IS_STLPORT)
# include <string> // for std::string - sigh!
#endif /* compiler */
#ifndef STLSOFT_INCL_STDEXCEPT
# define STLSOFT_INCL_STDEXCEPT
# include <stdexcept> // for std::out_of_range
#endif /* !STLSOFT_INCL_STDEXCEPT */
#ifdef STLSOFT_UNITTEST
# include <algorithm>
# include <numeric>
#endif /* !STLSOFT_UNITTEST */
/* /////////////////////////////////////////////////////////////////////////
* Namespace
*/
#ifndef _STLSOFT_NO_NAMESPACE
namespace stlsoft
{
#endif /* _STLSOFT_NO_NAMESPACE */
/* /////////////////////////////////////////////////////////////////////////
* Forward declarations
*/
#ifndef STLSOFT_DOCUMENTATION_SKIP_SECTION
template< ss_typename_param_k T
, ss_size_t N0
, ss_typename_param_k P
, ss_typename_param_k M
>
class static_array_1d;
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
, ss_typename_param_k P
, ss_typename_param_k M
>
class static_array_2d;
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
, ss_size_t N2
, ss_typename_param_k P
, ss_typename_param_k M
>
class static_array_3d;
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
, ss_size_t N2
, ss_size_t N3
, ss_typename_param_k P
, ss_typename_param_k M
>
class static_array_4d;
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
, ss_size_t N2
, ss_size_t N3
, ss_size_t N4
, ss_typename_param_k P
, ss_typename_param_k M
>
class static_array_5d;
#endif /* !STLSOFT_DOCUMENTATION_SKIP_SECTION */
////////////////////////////////////////////////////////////////////////////
// Classes
// class static_array_1d
/** \brief 1 dimensional static array
*
* \ingroup group__library__containers
*
* \param T The value type
* \param N0 The first dimension extent
* \param P The construction policy type
*/
template< ss_typename_param_k T
, ss_size_t N0
#ifdef STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT
, ss_typename_param_k P = do_construction<T>
, ss_typename_param_k M = T[N0]
#else /* ? STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT */
, ss_typename_param_k P
, ss_typename_param_k M
#endif /* STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT */
>
class static_array_1d
: public null_allocator<T>
, public stl_collection_tag
{
public:
typedef static_array_1d<T, N0, P, M> class_type;
typedef T dimension_type;
typedef null_allocator<T> allocator_type;
typedef P policy_type;
typedef T value_type;
typedef value_type& reference;
typedef value_type const& const_reference;
typedef value_type* pointer;
typedef value_type const* const_pointer;
typedef ss_size_t size_type;
typedef ss_size_t index_type;
typedef ss_ptrdiff_t difference_type;
typedef
#if !defined(STLSOFT_COMPILER_IS_BORLAND)
ss_typename_type_k
#endif /* compiler */
pointer_iterator < value_type
, pointer
, reference
>::type iterator;
typedef
#if !defined(STLSOFT_COMPILER_IS_BORLAND)
ss_typename_type_k
#endif /* compiler */
pointer_iterator < value_type const
, const_pointer
, const_reference
>::type const_iterator;
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
typedef reverse_iterator_base < iterator
, value_type
, reference
, pointer
, difference_type
> reverse_iterator;
typedef const_reverse_iterator_base < const_iterator
, value_type const
, const_reference
, const_pointer
, difference_type
> const_reverse_iterator;
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
// Construction
//protected:
static_array_1d(T *data/* [N0] */);
public:
static_array_1d();
static_array_1d(value_type const& t);
static_array_1d(class_type const& rhs);
~static_array_1d() stlsoft_throw_0();
// Access
public:
reference at(index_type i0);
const_reference at(index_type i0) const;
reference at_unchecked(index_type i0);
const_reference at_unchecked(index_type i0) const;
reference operator [](index_type i0);
const_reference operator [](index_type i0) const;
reference front();
reference back();
const_reference front() const;
const_reference back() const;
// State
public:
static index_type dimension0();
static index_type size();
static ss_bool_t empty();
static size_type max_size();
// Iteration
public:
iterator begin();
iterator end();
const_iterator begin() const;
const_iterator end() const;
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
reverse_iterator rbegin();
reverse_iterator rend();
const_reverse_iterator rbegin() const;
const_reverse_iterator rend() const;
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
// Access
public:
value_type const *data() const;
// Implementation
protected:
pointer data_();
index_type calc_index_(index_type i0) const;
void range_check_(index_type i0) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) );
// Members
private:
M m_data;
// Not to be implemented
private:
class_type const& operator =(class_type const& rhs);
};
// class static_array_2d
/** \brief 2 dimensional static array
*
* \ingroup group__library__containers
*
* \param T The value type
* \param N0 The first dimension extent
* \param N1 The second dimension extent
* \param P The construction policy type
*/
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
#ifdef STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT
, ss_typename_param_k P = do_construction<T>
, ss_typename_param_k M = T[N0 * N1]
#else /* ? STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT */
, ss_typename_param_k P
, ss_typename_param_k M
#endif /* STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT */
>
class static_array_2d
: public null_allocator<T>
, public stl_collection_tag
{
public:
typedef static_array_2d<T, N0, N1, P, M> class_type;
typedef static_array_1d<T, N1, P, T*> dimension_type;
typedef null_allocator<T> allocator_type;
typedef P policy_type;
typedef T value_type;
typedef value_type& reference;
typedef value_type const& const_reference;
typedef value_type* pointer;
typedef value_type const* const_pointer;
typedef ss_size_t size_type;
typedef ss_size_t index_type;
typedef ss_ptrdiff_t difference_type;
typedef
#if !defined(STLSOFT_COMPILER_IS_BORLAND)
ss_typename_type_k
#endif /* compiler */
pointer_iterator < value_type
, pointer
, reference
>::type iterator;
typedef
#if !defined(STLSOFT_COMPILER_IS_BORLAND)
ss_typename_type_k
#endif /* compiler */
pointer_iterator < value_type const
, const_pointer
, const_reference
>::type const_iterator;
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
typedef reverse_iterator_base < iterator
, value_type
, reference
, pointer
, difference_type
> reverse_iterator;
typedef const_reverse_iterator_base < const_iterator
, value_type const
, const_reference
, const_pointer
, difference_type
> const_reverse_iterator;
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
// Construction
//protected:
// static_array_2d(T data[N0][N1]);
static_array_2d(T *data);
public:
static_array_2d();
static_array_2d(value_type const& t);
static_array_2d(class_type const& rhs);
~static_array_2d() stlsoft_throw_0();
// Operations
public:
reference at(index_type i0, index_type i1);
const_reference at(index_type i0, index_type i1) const;
reference at_unchecked(index_type i0, index_type i1);
const_reference at_unchecked(index_type i0, index_type i1) const;
dimension_type at(index_type i0);
const dimension_type at(index_type i0) const;
dimension_type at_unchecked(index_type i0);
const dimension_type at_unchecked(index_type i0) const;
dimension_type operator [](index_type i0);
const dimension_type operator [](index_type i0) const;
reference front();
reference back();
const_reference front() const;
const_reference back() const;
// State
public:
static index_type dimension0();
static index_type dimension1();
static index_type size();
static ss_bool_t empty();
static size_type max_size();
// Iteration
public:
iterator begin();
iterator end();
const_iterator begin() const;
const_iterator end() const;
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
reverse_iterator rbegin();
reverse_iterator rend();
const_reverse_iterator rbegin() const;
const_reverse_iterator rend() const;
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
// Access
public:
value_type const *data() const;
// Implementation
protected:
pointer data_();
index_type calc_index_(index_type i0, index_type i1) const;
void range_check_(index_type i0, index_type i1) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) );
void range_check_(index_type i0) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) );
// Members
private:
M m_data;
// Not to be implemented
private:
class_type const& operator =(class_type const& rhs);
};
// class static_array_3d
/** \brief 3 dimensional static array
*
* \ingroup group__library__containers
*
* \param T The value type
* \param N0 The first dimension extent
* \param N1 The second dimension extent
* \param N2 The third dimension extent
* \param P The construction policy type
*/
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
, ss_size_t N2
#ifdef STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT
, ss_typename_param_k P = do_construction<T>
, ss_typename_param_k M = T[N0 * N1 * N2]
#else /* ? STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT */
, ss_typename_param_k P
, ss_typename_param_k M
#endif /* STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT */
>
class static_array_3d
: public null_allocator<T>
, public stl_collection_tag
{
public:
typedef static_array_3d<T, N0, N1, N2, P, M> class_type;
typedef static_array_2d<T, N1, N2, P, T*> dimension_type;
typedef null_allocator<T> allocator_type;
typedef P policy_type;
typedef T value_type;
typedef value_type& reference;
typedef value_type const& const_reference;
typedef value_type* pointer;
typedef value_type const* const_pointer;
typedef ss_size_t size_type;
typedef ss_size_t index_type;
typedef ss_ptrdiff_t difference_type;
typedef
#if !defined(STLSOFT_COMPILER_IS_BORLAND)
ss_typename_type_k
#endif /* compiler */
pointer_iterator < value_type
, pointer
, reference
>::type iterator;
typedef
#if !defined(STLSOFT_COMPILER_IS_BORLAND)
ss_typename_type_k
#endif /* compiler */
pointer_iterator < value_type const
, const_pointer
, const_reference
>::type const_iterator;
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
typedef reverse_iterator_base < iterator
, value_type
, reference
, pointer
, difference_type
> reverse_iterator;
typedef const_reverse_iterator_base < const_iterator
, value_type const
, const_reference
, const_pointer
, difference_type
> const_reverse_iterator;
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
// Construction
//protected:
// static_array_3d(T data[N0][N1][N2]);
static_array_3d(T *data);
public:
static_array_3d();
static_array_3d(value_type const& t);
static_array_3d(class_type const& rhs);
~static_array_3d() stlsoft_throw_0();
// Operations
public:
reference at(index_type i0, index_type i1, index_type i2);
const_reference at(index_type i0, index_type i1, index_type i2) const;
reference at_unchecked(index_type i0, index_type i1, index_type i2);
const_reference at_unchecked(index_type i0, index_type i1, index_type i2) const;
dimension_type at(index_type i0);
const dimension_type at(index_type i0) const;
dimension_type at_unchecked(index_type i0);
const dimension_type at_unchecked(index_type i0) const;
dimension_type operator [](index_type i0);
const dimension_type operator [](index_type i0) const;
reference front();
reference back();
const_reference front() const;
const_reference back() const;
// State
public:
static index_type dimension0();
static index_type dimension1();
static index_type dimension2();
static index_type size();
static ss_bool_t empty();
static size_type max_size();
// Iteration
public:
iterator begin();
iterator end();
const_iterator begin() const;
const_iterator end() const;
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
reverse_iterator rbegin();
reverse_iterator rend();
const_reverse_iterator rbegin() const;
const_reverse_iterator rend() const;
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
// Access
public:
value_type const *data() const;
// Implementation
protected:
pointer data_();
index_type calc_index_(index_type i0, index_type i1, index_type i2) const;
void range_check_(index_type i0, index_type i1, index_type i2) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) );
void range_check_(index_type i0) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) );
// Members
private:
M m_data;
// Not to be implemented
private:
class_type const& operator =(class_type const& rhs);
};
// class static_array_4d
/** \brief 4 dimensional static array
*
* \ingroup group__library__containers
*
* \param T The value type
* \param N0 The first dimension extent
* \param N1 The second dimension extent
* \param N2 The third dimension extent
* \param P The construction policy type
*/
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
, ss_size_t N2
, ss_size_t N3
#ifdef STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT
, ss_typename_param_k P = do_construction<T>
, ss_typename_param_k M = T[N0 * N1 * N2 * N3]
#else /* ? STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT */
, ss_typename_param_k P
, ss_typename_param_k M
#endif /* STLSOFT_CF_TEMPLATE_CLASS_DEFAULT_CLASS_ARGUMENT_SUPPORT */
>
class static_array_4d
: public null_allocator<T>
, public stl_collection_tag
{
public:
typedef static_array_4d<T, N0, N1, N2, N3, P, M> class_type;
typedef static_array_3d<T, N1, N2, N3, P, T*> dimension_type;
typedef null_allocator<T> allocator_type;
typedef P policy_type;
typedef T value_type;
typedef value_type& reference;
typedef value_type const& const_reference;
typedef value_type* pointer;
typedef value_type const* const_pointer;
typedef ss_size_t size_type;
typedef ss_size_t index_type;
typedef ss_ptrdiff_t difference_type;
typedef
#if !defined(STLSOFT_COMPILER_IS_BORLAND)
ss_typename_type_k
#endif /* compiler */
pointer_iterator < value_type
, pointer
, reference
>::type iterator;
typedef
#if !defined(STLSOFT_COMPILER_IS_BORLAND)
ss_typename_type_k
#endif /* compiler */
pointer_iterator < value_type const
, const_pointer
, const_reference
>::type const_iterator;
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
typedef reverse_iterator_base < iterator
, value_type
, reference
, pointer
, difference_type
> reverse_iterator;
typedef const_reverse_iterator_base < const_iterator
, value_type const
, const_reference
, const_pointer
, difference_type
> const_reverse_iterator;
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
// Construction
//protected:
// static_array_4d(T data[N0][N1][N2][N3]);
static_array_4d(T *data);
public:
static_array_4d();
static_array_4d(value_type const& t);
static_array_4d(class_type const& rhs);
~static_array_4d() stlsoft_throw_0();
// Operations
public:
reference at(index_type i0, index_type i1, index_type i2, index_type i3);
const_reference at(index_type i0, index_type i1, index_type i2, index_type i3) const;
reference at_unchecked(index_type i0, index_type i1, index_type i2, index_type i3);
const_reference at_unchecked(index_type i0, index_type i1, index_type i2, index_type i3) const;
dimension_type at(index_type i0);
const dimension_type at(index_type i0) const;
dimension_type at_unchecked(index_type i0);
const dimension_type at_unchecked(index_type i0) const;
dimension_type operator [](index_type i0);
const dimension_type operator [](index_type i0) const;
reference front();
reference back();
const_reference front() const;
const_reference back() const;
// State
public:
static index_type dimension0();
static index_type dimension1();
static index_type dimension2();
static index_type dimension3();
static index_type size();
static ss_bool_t empty();
static size_type max_size();
// Iteration
public:
iterator begin();
iterator end();
const_iterator begin() const;
const_iterator end() const;
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
reverse_iterator rbegin();
reverse_iterator rend();
const_reverse_iterator rbegin() const;
const_reverse_iterator rend() const;
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
// Access
public:
value_type const *data() const;
// Implementation
protected:
pointer data_();
index_type calc_index_(index_type i0, index_type i1, index_type i2, index_type i3) const;
void range_check_(index_type i0, index_type i1, index_type i2, index_type i3) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) );
void range_check_(index_type i0, index_type i1, index_type i2) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) );
void range_check_(index_type i0) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) );
// Members
private:
M m_data;
// Not to be implemented
private:
class_type const& operator =(class_type const& rhs);
};
/* /////////////////////////////////////////////////////////////////////////
* Implementation
*/
#ifndef STLSOFT_DOCUMENTATION_SKIP_SECTION
// static_array_1d
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::pointer static_array_1d<T, N0, P, M>::data_()
{
return &m_data[0];
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::index_type static_array_1d<T, N0, P, M>::calc_index_(ss_typename_type_k static_array_1d<T, N0, P, M>::index_type i0) const
{
return i0;
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline void static_array_1d<T, N0, P, M>::range_check_(ss_typename_type_k static_array_1d<T, N0, P, M>::index_type i0) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) )
{
STLSOFT_SUPPRESS_UNUSED(i0);
#ifdef STLSOFT_CF_EXCEPTION_SUPPORT
if(!(i0 < N0))
{
STLSOFT_THROW_X(stlsoft_ns_qual_std(out_of_range)("static array index out of range"));
}
#else
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
#endif /* STLSOFT_CF_EXCEPTION_SUPPORT */
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_1d<T, N0, P, M>::static_array_1d(T *data/* [N0] */)
: m_data(data)
{}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_1d<T, N0, P, M>::static_array_1d()
{
array_range_initialiser<T, allocator_type, P>::construct(*this, data_(), size());
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_1d<T, N0, P, M>::static_array_1d(value_type const& t)
{
array_range_initialiser<T, allocator_type, P>::construct(*this, data_(), size(), t);
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_1d<T, N0, P, M>::static_array_1d(static_array_1d<T, N0, P, M> const& rhs)
{
array_range_initialiser<T, allocator_type, P>::copy_construct(*this, data_(), rhs.data(), size());
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_1d<T, N0, P, M>::~static_array_1d() stlsoft_throw_0()
{
if(!is_pointer_type<M>::value)
{
array_range_initialiser<T, allocator_type, P>::destroy(*this, data_(), size());
}
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::value_type &static_array_1d<T, N0, P, M>::at(ss_typename_type_k static_array_1d<T, N0, P, M>::index_type i0)
{
range_check_(i0);
return m_data[i0];
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::value_type const& static_array_1d<T, N0, P, M>::at(ss_typename_type_k static_array_1d<T, N0, P, M>::index_type i0) const
{
range_check_(i0);
return m_data[i0];
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::value_type &static_array_1d<T, N0, P, M>::at_unchecked(ss_typename_type_k static_array_1d<T, N0, P, M>::index_type i0)
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
return m_data[i0];
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::value_type const& static_array_1d<T, N0, P, M>::at_unchecked(ss_typename_type_k static_array_1d<T, N0, P, M>::index_type i0) const
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
return m_data[i0];
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::value_type &static_array_1d<T, N0, P, M>::operator [](ss_typename_type_k static_array_1d<T, N0, P, M>::index_type i0)
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
return m_data[i0];
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::value_type const& static_array_1d<T, N0, P, M>::operator [](ss_typename_type_k static_array_1d<T, N0, P, M>::index_type i0) const
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
return m_data[i0];
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::reference static_array_1d<T, N0, P, M>::front()
{
return at(0);
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::reference static_array_1d<T, N0, P, M>::back()
{
return at(N0 - 1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::const_reference static_array_1d<T, N0, P, M>::front() const
{
return at(0);
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::const_reference static_array_1d<T, N0, P, M>::back() const
{
return at(N0 - 1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_1d<T, N0, P, M>::index_type static_array_1d<T, N0, P, M>::dimension0()
{
return N0;
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_1d<T, N0, P, M>::index_type static_array_1d<T, N0, P, M>::size()
{
return N0;
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_bool_t static_array_1d<T, N0, P, M>::empty()
{
return false;
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_1d<T, N0, P, M>::index_type static_array_1d<T, N0, P, M>::max_size()
{
return size();
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::iterator static_array_1d<T, N0, P, M>::begin()
{
return m_data;
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::iterator static_array_1d<T, N0, P, M>::end()
{
return m_data + size();
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::const_iterator static_array_1d<T, N0, P, M>::begin() const
{
return m_data;
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::const_iterator static_array_1d<T, N0, P, M>::end() const
{
return m_data + size();
}
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::reverse_iterator static_array_1d<T, N0, P, M>::rbegin()
{
return reverse_iterator(end());
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::reverse_iterator static_array_1d<T, N0, P, M>::rend()
{
return reverse_iterator(begin());
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::const_reverse_iterator static_array_1d<T, N0, P, M>::rbegin() const
{
return const_reverse_iterator(end());
}
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::const_reverse_iterator static_array_1d<T, N0, P, M>::rend() const
{
return const_reverse_iterator(begin());
}
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
template <ss_typename_param_k T, ss_size_t N0, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_1d<T, N0, P, M>::value_type const* static_array_1d<T, N0, P, M>::data() const
{
return m_data;
}
// static_array_2d
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::pointer static_array_2d<T, N0, N1, P, M>::data_()
{
return &m_data[0];
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::index_type static_array_2d<T, N0, N1, P, M>::calc_index_(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0, ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i1) const
{
return (i0 * N1) + i1;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline void static_array_2d<T, N0, N1, P, M>::range_check_(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0, ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i1) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) )
{
STLSOFT_SUPPRESS_UNUSED(i0); STLSOFT_SUPPRESS_UNUSED(i1);
#ifdef STLSOFT_CF_EXCEPTION_SUPPORT
if( !(i0 < N0) ||
!(i1 < N1))
{
STLSOFT_THROW_X(stlsoft_ns_qual_std(out_of_range)("static array index out of range"));
}
#else /* ? STLSOFT_CF_EXCEPTION_SUPPORT */
STLSOFT_MESSAGE_ASSERT("static array index out of range", (i0 < N0 && i1 < N1));
#endif /* STLSOFT_CF_EXCEPTION_SUPPORT */
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline void static_array_2d<T, N0, N1, P, M>::range_check_(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) )
{
STLSOFT_SUPPRESS_UNUSED(i0);
#ifdef STLSOFT_CF_EXCEPTION_SUPPORT
if(!(i0 < N0))
{
STLSOFT_THROW_X(stlsoft_ns_qual_std(out_of_range)("static array index out of range"));
}
#else
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
#endif /* STLSOFT_CF_EXCEPTION_SUPPORT */
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_2d<T, N0, N1, P, M>::static_array_2d(T *data)
: m_data(data)
{}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_2d<T, N0, N1, P, M>::static_array_2d()
{
array_range_initialiser<T, allocator_type, P>::construct(*this, data_(), size());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_2d<T, N0, N1, P, M>::static_array_2d(value_type const& t)
{
array_range_initialiser<T, allocator_type, P>::construct(*this, data_(), size(), t);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_2d<T, N0, N1, P, M>::static_array_2d(static_array_2d<T, N0, N1, P, M> const& rhs)
{
array_range_initialiser<T, allocator_type, P>::copy_construct(*this, data_(), rhs.data(), size());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_2d<T, N0, N1, P, M>::~static_array_2d() stlsoft_throw_0()
{
if(!is_pointer_type<M>::value)
{
array_range_initialiser<T, allocator_type, P>::destroy(*this, data_(), size());
}
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::reference static_array_2d<T, N0, N1, P, M>::at(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0, ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i1)
{
range_check_(i0, i1);
return *(m_data + calc_index_(i0, i1));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::const_reference static_array_2d<T, N0, N1, P, M>::at(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0, ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i1) const
{
range_check_(i0, i1);
return *(m_data + calc_index_(i0, i1));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::reference static_array_2d<T, N0, N1, P, M>::at_unchecked(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0, ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i1)
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", (i0 < N0 && i1 < N1));
return *(m_data + calc_index_(i0, i1));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::const_reference static_array_2d<T, N0, N1, P, M>::at_unchecked(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0, ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i1) const
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", (i0 < N0 && i1 < N1));
return *(m_data + calc_index_(i0, i1));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::dimension_type static_array_2d<T, N0, N1, P, M>::at(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0)
{
range_check_(i0);
return dimension_type(m_data + i0 * N1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::dimension_type const static_array_2d<T, N0, N1, P, M>::at(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0) const
{
range_check_(i0);
return dimension_type(m_data + i0 * N1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::dimension_type static_array_2d<T, N0, N1, P, M>::at_unchecked(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0)
{
return dimension_type(m_data + i0 * N1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::dimension_type const static_array_2d<T, N0, N1, P, M>::at_unchecked(ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0) const
{
return dimension_type(m_data + i0 * N1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::dimension_type static_array_2d<T, N0, N1, P, M>::operator [](ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0)
{
return dimension_type(m_data + i0 * N1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline const ss_typename_type_k static_array_2d<T, N0, N1, P, M>::dimension_type static_array_2d<T, N0, N1, P, M>::operator [](ss_typename_type_k static_array_2d<T, N0, N1, P, M>::index_type i0) const
{
return dimension_type(m_data + i0 * N1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::reference static_array_2d<T, N0, N1, P, M>::front()
{
return at(0, 0);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::reference static_array_2d<T, N0, N1, P, M>::back()
{
return at(N0 - 1, N1 - 1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::const_reference static_array_2d<T, N0, N1, P, M>::front() const
{
return at(0, 0);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::const_reference static_array_2d<T, N0, N1, P, M>::back() const
{
return at(N0 - 1, N1 - 1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::index_type static_array_2d<T, N0, N1, P, M>::dimension0()
{
return N0;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::index_type static_array_2d<T, N0, N1, P, M>::dimension1()
{
return N1;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::index_type static_array_2d<T, N0, N1, P, M>::size()
{
return N0 * N1;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_bool_t static_array_2d<T, N0, N1, P, M>::empty()
{
return false;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::index_type static_array_2d<T, N0, N1, P, M>::max_size()
{
return size();
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::iterator static_array_2d<T, N0, N1, P, M>::begin()
{
return m_data;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::iterator static_array_2d<T, N0, N1, P, M>::end()
{
return m_data + size();
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::const_iterator static_array_2d<T, N0, N1, P, M>::begin() const
{
return m_data;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::const_iterator static_array_2d<T, N0, N1, P, M>::end() const
{
return m_data + size();
}
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::reverse_iterator static_array_2d<T, N0, N1, P, M>::rbegin()
{
return reverse_iterator(end());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::reverse_iterator static_array_2d<T, N0, N1, P, M>::rend()
{
return reverse_iterator(begin());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::const_reverse_iterator static_array_2d<T, N0, N1, P, M>::rbegin() const
{
return const_reverse_iterator(end());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::const_reverse_iterator static_array_2d<T, N0, N1, P, M>::rend() const
{
return const_reverse_iterator(begin());
}
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_2d<T, N0, N1, P, M>::value_type const* static_array_2d<T, N0, N1, P, M>::data() const
{
return m_data;
}
// static_array_3d
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::pointer static_array_3d<T, N0, N1, N2, P, M>::data_()
{
return &m_data[0];
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::index_type static_array_3d<T, N0, N1, N2, P, M>::calc_index_(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i1, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i2) const
{
return ((i0 * N1) + i1) * N2 + i2;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline void static_array_3d<T, N0, N1, N2, P, M>::range_check_(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i1, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i2) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) )
{
STLSOFT_SUPPRESS_UNUSED(i0); STLSOFT_SUPPRESS_UNUSED(i1); STLSOFT_SUPPRESS_UNUSED(i2);
#ifdef STLSOFT_CF_EXCEPTION_SUPPORT
if( !(i0 < N0) ||
!(i1 < N1) ||
!(i2 < N2))
{
STLSOFT_THROW_X(stlsoft_ns_qual_std(out_of_range)("static array index out of range"));
}
#else /* ? STLSOFT_CF_EXCEPTION_SUPPORT */
STLSOFT_MESSAGE_ASSERT("static array index out of range", (i0 < N0 && i1 < N1 && i2 < N2));
#endif /* STLSOFT_CF_EXCEPTION_SUPPORT */
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline void static_array_3d<T, N0, N1, N2, P, M>::range_check_(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) )
{
STLSOFT_SUPPRESS_UNUSED(i0);
#ifdef STLSOFT_CF_EXCEPTION_SUPPORT
if(!(i0 < N0))
{
STLSOFT_THROW_X(stlsoft_ns_qual_std(out_of_range)("static array index out of range"));
}
#else
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
#endif /* STLSOFT_CF_EXCEPTION_SUPPORT */
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_3d<T, N0, N1, N2, P, M>::static_array_3d(T *data)
: m_data(data)
{}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_3d<T, N0, N1, N2, P, M>::static_array_3d()
{
array_range_initialiser<T, allocator_type, P>::construct(*this, data_(), size());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_3d<T, N0, N1, N2, P, M>::static_array_3d(value_type const& t)
{
array_range_initialiser<T, allocator_type, P>::construct(*this, data_(), size(), t);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_3d<T, N0, N1, N2, P, M>::static_array_3d(static_array_3d<T, N0, N1, N2, P, M> const& rhs)
{
array_range_initialiser<T, allocator_type, P>::copy_construct(*this, data_(), rhs.data(), size());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_3d<T, N0, N1, N2, P, M>::~static_array_3d() stlsoft_throw_0()
{
if(!is_pointer_type<M>::value)
{
array_range_initialiser<T, allocator_type, P>::destroy(*this, data_(), size());
}
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::value_type &static_array_3d<T, N0, N1, N2, P, M>::at(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i1, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i2)
{
range_check_(i0, i1, i2);
return *(m_data + calc_index_(i0, i1, i2));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::value_type const& static_array_3d<T, N0, N1, N2, P, M>::at(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i1, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i2) const
{
range_check_(i0, i1, i2);
return *(m_data + calc_index_(i0, i1, i2));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::value_type &static_array_3d<T, N0, N1, N2, P, M>::at_unchecked(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i1, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i2)
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", (i0 < N0 && i1 < N1 && i2 < N2));
return *(m_data + calc_index_(i0, i1, i2));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::value_type const& static_array_3d<T, N0, N1, N2, P, M>::at_unchecked(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i1, ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i2) const
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", (i0 < N0 && i1 < N1 && i2 < N2));
return *(m_data + calc_index_(i0, i1, i2));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::dimension_type static_array_3d<T, N0, N1, N2, P, M>::at(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0)
{
range_check_(i0);
return dimension_type(m_data + i0 * N1 * N2);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline const ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::dimension_type static_array_3d<T, N0, N1, N2, P, M>::at(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0) const
{
range_check_(i0);
return dimension_type(m_data + i0 * N1 * N2);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::dimension_type static_array_3d<T, N0, N1, N2, P, M>::at_unchecked(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0)
{
return dimension_type(m_data + i0 * N1 * N2);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline const ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::dimension_type static_array_3d<T, N0, N1, N2, P, M>::at_unchecked(ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0) const
{
return dimension_type(m_data + i0 * N1 * N2);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::dimension_type static_array_3d<T, N0, N1, N2, P, M>::operator [](ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0)
{
return dimension_type(m_data + i0 * N1 * N2);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline const ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::dimension_type static_array_3d<T, N0, N1, N2, P, M>::operator [](ss_typename_type_k static_array_3d<T, N0, N1, N2, P, M>::index_type i0) const
{
return dimension_type(m_data + i0 * N1 * N2);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::reference static_array_3d<T, N0, N1, N2, P, M>::front()
{
return at(0, 0, 0);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::reference static_array_3d<T, N0, N1, N2, P, M>::back()
{
return at(N0 - 1, N1 - 1, N2 - 1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::const_reference static_array_3d<T, N0, N1, N2, P, M>::front() const
{
return at(0, 0, 0);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::const_reference static_array_3d<T, N0, N1, N2, P, M>::back() const
{
return at(N0 - 1, N1 - 1, N2 - 1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::index_type static_array_3d<T, N0, N1, N2, P, M>::dimension0()
{
return N0;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::index_type static_array_3d<T, N0, N1, N2, P, M>::dimension1()
{
return N1;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::index_type static_array_3d<T, N0, N1, N2, P, M>::dimension2()
{
return N2;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::index_type static_array_3d<T, N0, N1, N2, P, M>::size()
{
return N0 * N1 * N2;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_bool_t static_array_3d<T, N0, N1, N2, P, M>::empty()
{
return false;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::index_type static_array_3d<T, N0, N1, N2, P, M>::max_size()
{
return size();
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::iterator static_array_3d<T, N0, N1, N2, P, M>::begin()
{
return m_data;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::iterator static_array_3d<T, N0, N1, N2, P, M>::end()
{
return m_data + size();
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::const_iterator static_array_3d<T, N0, N1, N2, P, M>::begin() const
{
return m_data;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::const_iterator static_array_3d<T, N0, N1, N2, P, M>::end() const
{
return m_data + size();
}
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::reverse_iterator static_array_3d<T, N0, N1, N2, P, M>::rbegin()
{
return reverse_iterator(end());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::reverse_iterator static_array_3d<T, N0, N1, N2, P, M>::rend()
{
return reverse_iterator(begin());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::const_reverse_iterator static_array_3d<T, N0, N1, N2, P, M>::rbegin() const
{
return const_reverse_iterator(end());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::const_reverse_iterator static_array_3d<T, N0, N1, N2, P, M>::rend() const
{
return const_reverse_iterator(begin());
}
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_3d<T, N0, N1, N2, P, M>::value_type const* static_array_3d<T, N0, N1, N2, P, M>::data() const
{
return m_data;
}
// static_array_4d
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::pointer static_array_4d<T, N0, N1, N2, N3, P, M>::data_()
{
return &m_data[0];
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type static_array_4d<T, N0, N1, N2, N3, P, M>::calc_index_(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i1, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i2, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i3) const
{
return (((i0 * N1) + i1) * N2 + i2) * N3 + i3;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline void static_array_4d<T, N0, N1, N2, N3, P, M>::range_check_(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i1, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i2, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i3) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) )
{
STLSOFT_SUPPRESS_UNUSED(i0); STLSOFT_SUPPRESS_UNUSED(i1); STLSOFT_SUPPRESS_UNUSED(i2); STLSOFT_SUPPRESS_UNUSED(i3);
#ifdef STLSOFT_CF_EXCEPTION_SUPPORT
if( !(i0 < N0) ||
!(i1 < N1) ||
!(i2 < N2) ||
!(i3 < N3))
{
STLSOFT_THROW_X(stlsoft_ns_qual_std(out_of_range)("static array index out of range"));
}
#else /* ? STLSOFT_CF_EXCEPTION_SUPPORT */
STLSOFT_MESSAGE_ASSERT("static array index out of range", (i0 < N0 && i1 < N1 && i2 < N2 && i3 < N3));
#endif /* STLSOFT_CF_EXCEPTION_SUPPORT */
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline void static_array_4d<T, N0, N1, N2, N3, P, M>::range_check_(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) )
{
STLSOFT_SUPPRESS_UNUSED(i0);
#ifdef STLSOFT_CF_EXCEPTION_SUPPORT
if(!(i0 < N0))
{
STLSOFT_THROW_X(stlsoft_ns_qual_std(out_of_range)("static array index out of range"));
}
#else /* ? STLSOFT_CF_EXCEPTION_SUPPORT */
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
#endif /* STLSOFT_CF_EXCEPTION_SUPPORT */
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_4d<T, N0, N1, N2, N3, P, M>::static_array_4d()
{
array_range_initialiser<T, allocator_type, P>::construct(*this, data_(), size());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_4d<T, N0, N1, N2, N3, P, M>::static_array_4d(value_type const& t)
{
array_range_initialiser<T, allocator_type, P>::construct(*this, data_(), size(), t);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_4d<T, N0, N1, N2, N3, P, M>::static_array_4d(static_array_4d<T, N0, N1, N2, N3, P, M> const& rhs)
{
array_range_initialiser<T, allocator_type, P>::copy_construct(*this, data_(), rhs.data(), size());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline static_array_4d<T, N0, N1, N2, N3, P, M>::~static_array_4d() stlsoft_throw_0()
{
if(!is_pointer_type<M>::value)
{
array_range_initialiser<T, allocator_type, P>::destroy(*this, data_(), size());
}
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::value_type &static_array_4d<T, N0, N1, N2, N3, P, M>::at(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i1, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i2, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i3)
{
range_check_(i0, i1, i2, i3);
return *(m_data + calc_index_(i0, i1, i2, i3));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::value_type const& static_array_4d<T, N0, N1, N2, N3, P, M>::at(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i1, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i2, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i3) const
{
range_check_(i0, i1, i2, i3);
return *(m_data + calc_index_(i0, i1, i2, i3));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::value_type &static_array_4d<T, N0, N1, N2, N3, P, M>::at_unchecked(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i1, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i2, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i3)
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", (i0 < N0 && i1 < N1 && i2 < N2 && i3 < N3));
return *(m_data + calc_index_(i0, i1, i2, i3));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::value_type const& static_array_4d<T, N0, N1, N2, N3, P, M>::at_unchecked(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i1, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i2, ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i3) const
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", (i0 < N0 && i1 < N1 && i2 < N2 && i3 < N3));
return *(m_data + calc_index_(i0, i1, i2, i3));
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::dimension_type static_array_4d<T, N0, N1, N2, N3, P, M>::at(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0)
{
range_check_(i0);
return dimension_type(m_data + i0 * N1 * N2 * N3);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline const ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::dimension_type static_array_4d<T, N0, N1, N2, N3, P, M>::at(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0) const
{
range_check_(i0);
return dimension_type(m_data + i0 * N1 * N2 * N3);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::dimension_type static_array_4d<T, N0, N1, N2, N3, P, M>::at_unchecked(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0)
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
return dimension_type(m_data + i0 * N1 * N2 * N3);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline const ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::dimension_type static_array_4d<T, N0, N1, N2, N3, P, M>::at_unchecked(ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0) const
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
return dimension_type(m_data + i0 * N1 * N2 * N3);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::dimension_type static_array_4d<T, N0, N1, N2, N3, P, M>::operator [](ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0)
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
return dimension_type(m_data + i0 * N1 * N2 * N3);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline const ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::dimension_type static_array_4d<T, N0, N1, N2, N3, P, M>::operator [](ss_typename_type_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type i0) const
{
STLSOFT_MESSAGE_ASSERT("static array index out of range", i0 < N0);
return dimension_type(m_data + i0 * N1 * N2 * N3);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::reference static_array_4d<T, N0, N1, N2, N3, P, M>::front()
{
return at(0, 0, 0, 0);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::reference static_array_4d<T, N0, N1, N2, N3, P, M>::back()
{
return at(N0 - 1, N1 - 1, N2 - 1, N3 - 1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::const_reference static_array_4d<T, N0, N1, N2, N3, P, M>::front() const
{
return at(0, 0, 0, 0);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::const_reference static_array_4d<T, N0, N1, N2, N3, P, M>::back() const
{
return at(N0 - 1, N1 - 1, N2 - 1, N3 - 1);
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type static_array_4d<T, N0, N1, N2, N3, P, M>::dimension0()
{
return N0;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type static_array_4d<T, N0, N1, N2, N3, P, M>::dimension1()
{
return N1;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type static_array_4d<T, N0, N1, N2, N3, P, M>::dimension2()
{
return N2;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type static_array_4d<T, N0, N1, N2, N3, P, M>::dimension3()
{
return N3;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type static_array_4d<T, N0, N1, N2, N3, P, M>::size()
{
return N0 * N1 * N2 * N3;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_bool_t static_array_4d<T, N0, N1, N2, N3, P, M>::empty()
{
return false;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline /* static */ ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::index_type static_array_4d<T, N0, N1, N2, N3, P, M>::max_size()
{
return size();
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::iterator static_array_4d<T, N0, N1, N2, N3, P, M>::begin()
{
return m_data;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::iterator static_array_4d<T, N0, N1, N2, N3, P, M>::end()
{
return m_data + size();
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::const_iterator static_array_4d<T, N0, N1, N2, N3, P, M>::begin() const
{
return m_data;
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::const_iterator static_array_4d<T, N0, N1, N2, N3, P, M>::end() const
{
return m_data + size();
}
#ifdef STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::reverse_iterator static_array_4d<T, N0, N1, N2, N3, P, M>::rbegin()
{
return reverse_iterator(end());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::reverse_iterator static_array_4d<T, N0, N1, N2, N3, P, M>::rend()
{
return reverse_iterator(begin());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::const_reverse_iterator static_array_4d<T, N0, N1, N2, N3, P, M>::rbegin() const
{
return const_reverse_iterator(end());
}
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::const_reverse_iterator static_array_4d<T, N0, N1, N2, N3, P, M>::rend() const
{
return const_reverse_iterator(begin());
}
#endif /* STLSOFT_LF_BIDIRECTIONAL_ITERATOR_SUPPORT */
template <ss_typename_param_k T, ss_size_t N0, ss_size_t N1, ss_size_t N2, ss_size_t N3, ss_typename_param_k P, ss_typename_param_k M>
inline ss_typename_type_ret_k static_array_4d<T, N0, N1, N2, N3, P, M>::value_type const* static_array_4d<T, N0, N1, N2, N3, P, M>::data() const
{
return m_data;
}
#endif /* !STLSOFT_DOCUMENTATION_SKIP_SECTION */
/* /////////////////////////////////////////////////////////////////////////
* Shims
*/
# if !defined(STLSOFT_COMPILER_IS_MSVC) || \
_MSC_VER >= 1200
template< ss_typename_param_k T
, ss_size_t N0
, ss_typename_param_k P
, ss_typename_param_k M
>
inline ss_size_t array_size(static_array_1d<T, N0, P, M> const& ar)
{
STLSOFT_SUPPRESS_UNUSED(ar); // Required by VC++ 7.1
return ar.size();
}
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
, ss_typename_param_k P
, ss_typename_param_k M
>
inline ss_size_t array_size(static_array_2d<T, N0, N1, P, M> const& ar)
{
STLSOFT_SUPPRESS_UNUSED(ar); // Required by VC++ 7.1
return ar.size();
}
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
, ss_size_t N2
, ss_typename_param_k P
, ss_typename_param_k M
>
inline ss_size_t array_size(static_array_3d<T, N0, N1, N2, P, M> const& ar)
{
STLSOFT_SUPPRESS_UNUSED(ar); // Required by VC++ 7.1
return ar.size();
}
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
, ss_size_t N2
, ss_size_t N3
, ss_typename_param_k P
, ss_typename_param_k M
>
inline ss_size_t array_size(static_array_4d<T, N0, N1, N2, N3, P, M> const& ar)
{
STLSOFT_SUPPRESS_UNUSED(ar); // Required by VC++ 7.1
return ar.size();
}
#if 0
template< ss_typename_param_k T
, ss_size_t N0
, ss_size_t N1
, ss_size_t N2
, ss_size_t N3
, ss_size_t N4
, ss_typename_param_k P
, ss_typename_param_k M
>
inline ss_size_t array_size(static_array_5d<T, N0, N1, N2, N3, N4, P, M> const& ar)
{
STLSOFT_SUPPRESS_UNUSED(ar); // Required by VC++ 7.1
return ar.size();
}
#endif /* 0 */
#endif /* compiler */
////////////////////////////////////////////////////////////////////////////
// Unit-testing
#ifdef STLSOFT_UNITTEST
# include "./unittest/static_array_unittest_.h"
#endif /* STLSOFT_UNITTEST */
/* ////////////////////////////////////////////////////////////////////// */
#ifndef _STLSOFT_NO_NAMESPACE
} // namespace stlsoft
#endif /* _STLSOFT_NO_NAMESPACE */
/* ////////////////////////////////////////////////////////////////////// */
#endif /* !STLSOFT_INCL_STLSOFT_CONTAINERS_HPP_STATIC_ARRAY */
/* ///////////////////////////// end of file //////////////////////////// */