fixed_array.hpp

新版本TR1的stl

{
    range_check_(i0);

    return dimension_element_type(m_data + i0 * m_d1, m_d1);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::dimension_element_type const fixed_array_2d<T, A, P, R>::at(ss_typename_type_k fixed_array_2d<T, A, P, R>::index_type i0) const
{
    range_check_(i0);

    return dimension_element_type(m_data + i0 * m_d1, m_d1);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::dimension_element_type fixed_array_2d<T, A, P, R>::at_unchecked(ss_typename_type_k fixed_array_2d<T, A, P, R>::index_type i0)
{
    STLSOFT_MESSAGE_ASSERT("fixed array index out of range", i0 < m_d0);

    return dimension_element_type(m_data + i0 * m_d1, m_d1);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::dimension_element_type const fixed_array_2d<T, A, P, R>::at_unchecked(ss_typename_type_k fixed_array_2d<T, A, P, R>::index_type i0) const
{
    STLSOFT_MESSAGE_ASSERT("fixed array index out of range", i0 < m_d0);

    return dimension_element_type(m_data + i0 * m_d1, m_d1);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::dimension_element_type fixed_array_2d<T, A, P, R>::operator [](ss_typename_type_k fixed_array_2d<T, A, P, R>::index_type i0)
{
    STLSOFT_MESSAGE_ASSERT("fixed array index out of range", i0 < m_d0);

    return dimension_element_type(m_data + i0 * m_d1, m_d1);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::dimension_element_type const fixed_array_2d<T, A, P, R>::operator [](ss_typename_type_k fixed_array_2d<T, A, P, R>::index_type i0) const
{
    STLSOFT_MESSAGE_ASSERT("fixed array index out of range", i0 < m_d0);

    return dimension_element_type(m_data + i0 * m_d1, m_d1);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::reference fixed_array_2d<T, A, P, R>::front()
{
    return at(0, 0);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::reference fixed_array_2d<T, A, P, R>::back()
{
    return at(m_d0 - 1, m_d1 - 1);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::const_reference fixed_array_2d<T, A, P, R>::front() const
{
    return at(0, 0);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::const_reference fixed_array_2d<T, A, P, R>::back() const
{
    return at(m_d0 - 1, m_d1 - 1);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::index_type fixed_array_2d<T, A, P, R>::dimension0() const
{
    return m_d0;
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::index_type fixed_array_2d<T, A, P, R>::dimension1() const
{
    return m_d1;
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::index_type fixed_array_2d<T, A, P, R>::size() const
{
    STLSOFT_ASSERT(m_size == m_d0 * m_d1);

    return m_size;
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_bool_t fixed_array_2d<T, A, P, R>::empty() const
{
    return false;
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline /* static */ ss_typename_type_k fixed_array_2d<T, A, P, R>::size_type fixed_array_2d<T, A, P, R>::max_size()
{
    return static_cast<size_type>(-1) / sizeof(T);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::iterator fixed_array_2d<T, A, P, R>::begin()
{
    return m_data;
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::iterator fixed_array_2d<T, A, P, R>::end()
{
    return m_data + size();
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::const_iterator fixed_array_2d<T, A, P, R>::begin() const
{
    return m_data;
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::const_iterator fixed_array_2d<T, A, P, R>::end() const
{
    return m_data + size();
}

#if defined(STLSOFT_CF_BIDIRECTIONAL_ITERATOR_SUPPORT)

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::reverse_iterator fixed_array_2d<T, A, P, R>::rbegin()
{
    return reverse_iterator(end());
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::reverse_iterator fixed_array_2d<T, A, P, R>::rend()
{
    return reverse_iterator(begin());
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::const_reverse_iterator fixed_array_2d<T, A, P, R>::rbegin() const
{
    return const_reverse_iterator(end());
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::const_reverse_iterator fixed_array_2d<T, A, P, R>::rend() const
{
    return const_reverse_iterator(begin());
}

#endif /* STLSOFT_CF_BIDIRECTIONAL_ITERATOR_SUPPORT */

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_2d<T, A, P, R>::value_type const* fixed_array_2d<T, A, P, R>::data() const
{
    return m_data;
}

// fixed_array_3d

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_3d<T, A, P, R>::pointer fixed_array_3d<T, A, P, R>::allocate_(ss_typename_type_k fixed_array_3d<T, A, P, R>::size_type n)
{
    allocator_type  &ator = *this;

    return ator.allocate(n, NULL);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline void fixed_array_3d<T, A, P, R>::deallocate_(ss_typename_type_k fixed_array_3d<T, A, P, R>::pointer p, ss_typename_type_k fixed_array_3d<T, A, P, R>::size_type n)
{
    allocator_type  &ator = *this;

    ator.deallocate(p, n);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_3d<T, A, P, R>::pointer fixed_array_3d<T, A, P, R>::data_()
{
    return m_data;
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type fixed_array_3d<T, A, P, R>::calc_index_(ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i0, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i1, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i2) const
{
    return ((i0 * m_d1) + i1) * m_d2 + i2;
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline void fixed_array_3d<T, A, P, R>::range_check_(ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i0, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i1, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i2) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) )
{
#ifdef STLSOFT_CF_EXCEPTION_SUPPORT
    if( !(i0 < m_d0) ||
        !(i1 < m_d1) ||
        !(i2 < m_d2))
    {
        STLSOFT_THROW_X(stlsoft_ns_qual_std(out_of_range)("fixed array index out of range"));
    }
#else
    STLSOFT_MESSAGE_ASSERT("fixed array index out of range", i0 < m_d0 && i1 < m_d1 && i2 < m_d2);
#endif /* STLSOFT_CF_EXCEPTION_SUPPORT */
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline void fixed_array_3d<T, A, P, R>::range_check_(ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i0) const stlsoft_throw_1(stlsoft_ns_qual_std(out_of_range) )
{
#ifdef STLSOFT_CF_EXCEPTION_SUPPORT
    if(!(i0 < m_d0))
    {
        STLSOFT_THROW_X(stlsoft_ns_qual_std(out_of_range)("fixed array index out of range"));
    }
#else
    STLSOFT_MESSAGE_ASSERT("fixed array index out of range", i0 < m_d0);
#endif /* STLSOFT_CF_EXCEPTION_SUPPORT */
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline fixed_array_3d<T, A, P, R>::fixed_array_3d(ss_typename_type_k fixed_array_3d<T, A, P, R>::pointer src, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type d0, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type d1, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type d2)
    : m_data(src)
    , m_d0(d0)
    , m_d1(d1)
    , m_d2(d2)
{
    STLSOFT_STATIC_ASSERT(!R);
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline fixed_array_3d<T, A, P, R>::fixed_array_3d(ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type d0, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type d1, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type d2)
    : m_data(allocate_(d0 * d1 * d2))
    , m_d0(d0)
    , m_d1(d1)
    , m_d2(d2)
{
    STLSOFT_STATIC_ASSERT(R);
    array_range_initialiser<T, A, P>::construct(*this, data_(), size());
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline fixed_array_3d<T, A, P, R>::fixed_array_3d(ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type d0, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type d1, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type d2, ss_typename_type_k fixed_array_3d<T, A, P, R>::value_type const& t)
    : m_data(allocate_(d0 * d1 * d2))
    , m_d0(d0)
    , m_d1(d1)
    , m_d2(d2)
{
    STLSOFT_STATIC_ASSERT(R);
    array_range_initialiser<T, A, P>::construct(*this, data_(), size(), t);
}

#ifdef STLSOFT_MULTIDIM_ARRAY_FEATURE_REQUIRES_COPY_CTOR_WITH_RVO

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline fixed_array_3d<T, A, P, R>::fixed_array_3d(fixed_array_3d<T, A, P, R> const& rhs)
    : m_data(R ? allocate_(rhs.dimension0() * rhs.dimension1() * rhs.dimension2()) : rhs.m_data)
    , m_d0(rhs.dimension0())
    , m_d1(rhs.dimension1())
    , m_d2(rhs.dimension2())
{
    if(R)
    {
        array_range_initialiser<T, A, P>::copy_construct(*this, data_(), rhs.data(), size());
    }
}

#else /* ? STLSOFT_MULTIDIM_ARRAY_FEATURE_REQUIRES_COPY_CTOR_WITH_RVO */

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline fixed_array_3d<T, A, P, R>::fixed_array_3d(fixed_array_3d<T, A, P, R> const& rhs)
    : m_data(allocate_(rhs.dimension0() * rhs.dimension1() * rhs.dimension2()))
    , m_d0(rhs.dimension0())
    , m_d1(rhs.dimension1())
    , m_d2(rhs.dimension2())
{
    STLSOFT_STATIC_ASSERT(R);
    array_range_initialiser<T, A, P>::copy_construct(*this, data_(), rhs.data(), size());
}

#endif /* STLSOFT_MULTIDIM_ARRAY_FEATURE_REQUIRES_COPY_CTOR_WITH_RVO */

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline fixed_array_3d<T, A, P, R>::~fixed_array_3d() stlsoft_throw_0()
{
    if(R)
    {
        array_range_initialiser<T, A, P>::destroy(*this, data_(), size());
        deallocate_(m_data, size());
    }
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_3d<T, A, P, R>::reference fixed_array_3d<T, A, P, R>::at(ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i0, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i1, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i2)
{
    range_check_(i0, i1, i2);

    return *(m_data + calc_index_(i0, i1, i2));
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_3d<T, A, P, R>::const_reference fixed_array_3d<T, A, P, R>::at(ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i0, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i1, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i2) const
{
    range_check_(i0, i1, i2);

    return *(m_data + calc_index_(i0, i1, i2));
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_3d<T, A, P, R>::reference fixed_array_3d<T, A, P, R>::at_unchecked(ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i0, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i1, ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i2)
{
    STLSOFT_MESSAGE_ASSERT("fixed array index out of range", i0 < m_d0 && i1 < m_d1 && i2 < m_d2);

    return *(m_data + calc_index_(i0, i1, i2));
}

template <ss_typename_param_k T, ss_typename_param_k A, ss_typename_param_k P, ss_bool_t R>
inline ss_typename_type_k fixed_array_3d<T, A, P, R>::const_reference fixed_array_3d<T, A, P, R>::at_unchecked(ss_typename_type_k fixed_array_3d<T, A, P, R>::index_type i0, ss_typename_type_k fixed_array_3d<T, A