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nest-open-source / nest-cam / 4320010 / boost / 62d1066a6d52d5ac4e10c106f0eab14c820be0ce / . / boost / libs / container / bench / detail / varray_util.hpp
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// Boost.Container
//
// varray details
//
// Copyright (c) 2012-2013 Adam Wulkiewicz, Lodz, Poland.
// Copyright (c) 2011-2013 Andrew Hundt.
//
// Use, modification and distribution is subject to the Boost Software License,
// Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONTAINER_DETAIL_VARRAY_UTIL_HPP
#define BOOST_CONTAINER_DETAIL_VARRAY_UTIL_HPP
#include <cstddef>
#include <cstring>
#include <memory>
#include <limits>
#include <boost/config.hpp>
#include <boost/core/no_exceptions_support.hpp>
#include <boost/container/detail/addressof.hpp>
#if defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#include <boost/move/detail/fwd_macros.hpp>
#endif
#include <boost/container/detail/iterator.hpp>
#include <boost/container/detail/mpl.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <boost/move/algorithm.hpp>
#include <boost/move/traits.hpp>
#include <boost/move/utility_core.hpp>
// TODO - move vectors iterators optimization to the other, optional file instead of checking defines?
#if defined(BOOST_CONTAINER_VARRAY_ENABLE_VECTORS_OPTIMIZATION) && !defined(BOOST_NO_EXCEPTIONS)
#include <vector>
#include <boost/container/vector.hpp>
#endif // BOOST_CONTAINER_VARRAY_ENABLE_ITERATORS_OPTIMIZATION && !BOOST_NO_EXCEPTIONS
namespace boost { namespace container { namespace varray_detail {
namespace bcd = ::boost::container::container_detail;
template <typename I>
struct are_elements_contiguous : boost::container::container_detail::is_pointer<I>
{};
#if defined(BOOST_CONTAINER_VARRAY_ENABLE_VECTORS_OPTIMIZATION) && !defined(BOOST_NO_EXCEPTIONS)
template <typename Pointer>
struct are_elements_contiguous<
bcd::vector_const_iterator<Pointer>
> : bcd::true_type
{};
template <typename Pointer>
struct are_elements_contiguous<
bcd::vector_iterator<Pointer>
> : bcd::true_type
{};
#if defined(BOOST_DINKUMWARE_STDLIB)
template <typename T>
struct are_elements_contiguous<
std::_Vector_const_iterator<T>
> : bcd::true_type
{};
template <typename T>
struct are_elements_contiguous<
std::_Vector_iterator<T>
> : bcd::true_type
{};
#elif defined(BOOST_GNU_STDLIB)
template <typename P, typename T, typename Allocator>
struct are_elements_contiguous<
__gnu_cxx::__normal_iterator<P, std::vector<T, Allocator> >
> : bcd::true_type
{};
#elif defined(_LIBCPP_VERSION)
// TODO - test it first
//template <typename P>
//struct are_elements_contiguous<
// __wrap_iter<P>
//> : bcd::true_type
//{};
#else // OTHER_STDLIB
// TODO - add other iterators implementations
#endif // STDLIB
#endif // BOOST_CONTAINER_VARRAY_ENABLE_VECTORS_OPTIMIZATION && !BOOST_NO_EXCEPTIONS
template <typename I, typename O>
struct are_corresponding :
bcd::bool_<
bcd::is_same<
bcd::remove_const<
typename ::boost::container::iterator_traits<I>::value_type
>,
bcd::remove_const<
typename ::boost::container::iterator_traits<O>::value_type
>
>::value &&
are_elements_contiguous<I>::value &&
are_elements_contiguous<O>::value
>
{};
template <typename I, typename V>
struct is_corresponding_value :
bcd::bool_<
bcd::is_same<
bcd::remove_const<typename ::boost::container::iterator_traits<I>::value_type>,
bcd::remove_const<V>
>::value
>
{};
// destroy(I, I)
template <typename I>
void destroy_dispatch(I /*first*/, I /*last*/, bcd::true_type const& /*is_trivially_destructible*/)
{}
template <typename I>
void destroy_dispatch(I first, I last, bcd::false_type const& /*is_trivially_destructible*/)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
for ( ; first != last ; ++first )
first->~value_type();
}
template <typename I>
void destroy(I first, I last)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
destroy_dispatch(first, last, bcd::bool_<bcd::is_trivially_destructible<value_type>::value>());
}
// destroy(I)
template <typename I>
void destroy_dispatch(I /*pos*/,
bcd::true_type const& /*is_trivially_destructible*/)
{}
template <typename I>
void destroy_dispatch(I pos,
bcd::false_type const& /*is_trivially_destructible*/)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
pos->~value_type();
}
template <typename I>
void destroy(I pos)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
destroy_dispatch(pos, bcd::bool_<bcd::is_trivially_destructible<value_type>::value>());
}
// copy(I, I, O)
template <typename I, typename O>
inline O copy_dispatch(I first, I last, O dst, bcd::true_type const& /*use_memmove*/)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
const std::size_t d = boost::container::iterator_distance(first, last);
::memmove(boost::container::container_detail::addressof(*dst), boost::container::container_detail::addressof(*first), sizeof(value_type) * d);
return dst + d;
}
template <typename I, typename O>
inline O copy_dispatch(I first, I last, O dst, bcd::false_type const& /*use_memmove*/)
{
return std::copy(first, last, dst); // may throw
}
template <typename I, typename O>
inline O copy(I first, I last, O dst)
{
typedef bcd::bool_
< are_corresponding<I, O>::value &&
bcd::is_trivially_copy_assignable<typename ::boost::container::iterator_traits<O>::value_type>::value
> use_memmove;
return copy_dispatch(first, last, dst, use_memmove()); // may throw
}
// uninitialized_copy(I, I, O)
template <typename I, typename O>
inline
O uninitialized_copy_dispatch(I first, I last, O dst,
bcd::true_type const& /*use_memcpy*/)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
const std::size_t d = boost::container::iterator_distance(first, last);
::memcpy(boost::container::container_detail::addressof(*dst), boost::container::container_detail::addressof(*first), sizeof(value_type) * d);
return dst + d;
}
template <typename I, typename F>
inline
F uninitialized_copy_dispatch(I first, I last, F dst,
bcd::false_type const& /*use_memcpy*/)
{
return std::uninitialized_copy(first, last, dst); // may throw
}
template <typename I, typename F>
inline
F uninitialized_copy(I first, I last, F dst)
{
typedef bcd::bool_
< are_corresponding<I, F>::value &&
bcd::is_trivially_copy_constructible<typename ::boost::container::iterator_traits<F>::value_type>::value
> use_memcpy;
return uninitialized_copy_dispatch(first, last, dst, use_memcpy()); // may throw
}
// uninitialized_move(I, I, O)
template <typename I, typename O>
inline
O uninitialized_move_dispatch(I first, I last, O dst,
bcd::true_type const& /*use_memcpy*/)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
const std::size_t d = boost::container::iterator_distance(first, last);
::memcpy(boost::container::container_detail::addressof(*dst), boost::container::container_detail::addressof(*first), sizeof(value_type) * d);
return dst + d;
}
template <typename I, typename O>
inline
O uninitialized_move_dispatch(I first, I last, O dst,
bcd::false_type const& /*use_memcpy*/)
{
//return boost::uninitialized_move(first, last, dst); // may throw
O o = dst;
BOOST_TRY
{
typedef typename boost::container::iterator_traits<O>::value_type value_type;
for (; first != last; ++first, ++o )
new (boost::container::container_detail::addressof(*o)) value_type(boost::move(*first));
}
BOOST_CATCH(...)
{
destroy(dst, o);
BOOST_RETHROW;
}
BOOST_CATCH_END
return dst;
}
template <typename I, typename O>
inline
O uninitialized_move(I first, I last, O dst)
{
typedef bcd::bool_
< are_corresponding<I, O>::value &&
bcd::is_trivially_copy_constructible<typename ::boost::container::iterator_traits<O>::value_type>::value
> use_memcpy;
return uninitialized_move_dispatch(first, last, dst, use_memcpy()); // may throw
}
// TODO - move uses memmove - implement 2nd version using memcpy?
// move(I, I, O)
template <typename I, typename O>
inline
O move_dispatch(I first, I last, O dst,
bcd::true_type const& /*use_memmove*/)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
const std::size_t d = boost::container::iterator_distance(first, last);
::memmove(boost::container::container_detail::addressof(*dst), boost::container::container_detail::addressof(*first), sizeof(value_type)*d );
return dst + d;
}
template <typename I, typename O>
inline
O move_dispatch(I first, I last, O dst,
bcd::false_type const& /*use_memmove*/)
{
return boost::move(first, last, dst); // may throw
}
template <typename I, typename O>
inline
O move(I first, I last, O dst)
{
typedef bcd::bool_
< are_corresponding<I, O>::value &&
bcd::is_trivially_copy_constructible<typename ::boost::container::iterator_traits<O>::value_type>::value
> use_memmove;
return move_dispatch(first, last, dst, use_memmove()); // may throw
}
// move_backward(BDI, BDI, BDO)
template <typename BDI, typename BDO>
inline
BDO move_backward_dispatch(BDI first, BDI last, BDO dst,
bcd::true_type const& /*use_memmove*/)
{
typedef typename ::boost::container::iterator_traits<BDI>::value_type value_type;
const std::size_t d = boost::container::iterator_distance(first, last);
BDO foo(dst - d);
::memmove(boost::container::container_detail::addressof(*foo), boost::container::container_detail::addressof(*first), sizeof(value_type) * d);
return foo;
}
template <typename BDI, typename BDO>
inline
BDO move_backward_dispatch(BDI first, BDI last, BDO dst,
bcd::false_type const& /*use_memmove*/)
{
return boost::move_backward(first, last, dst); // may throw
}
template <typename BDI, typename BDO>
inline
BDO move_backward(BDI first, BDI last, BDO dst)
{
typedef bcd::bool_
< are_corresponding<BDI, BDO>::value &&
bcd::is_trivially_copy_constructible<typename ::boost::container::iterator_traits<BDO>::value_type>::value
> use_memmove;
return move_backward_dispatch(first, last, dst, use_memmove()); // may throw
}
template <typename T>
struct has_nothrow_move : public
bcd::bool_<
::boost::has_nothrow_move<
typename bcd::remove_const<T>::type
>::value
||
::boost::has_nothrow_move<T>::value
>
{};
// uninitialized_move_if_noexcept(I, I, O)
template <typename I, typename O>
inline
O uninitialized_move_if_noexcept_dispatch(I first, I last, O dst, bcd::true_type const& /*use_move*/)
{ return uninitialized_move(first, last, dst); }
template <typename I, typename O>
inline
O uninitialized_move_if_noexcept_dispatch(I first, I last, O dst, bcd::false_type const& /*use_move*/)
{ return uninitialized_copy(first, last, dst); }
template <typename I, typename O>
inline
O uninitialized_move_if_noexcept(I first, I last, O dst)
{
typedef has_nothrow_move<
typename ::boost::container::iterator_traits<O>::value_type
> use_move;
return uninitialized_move_if_noexcept_dispatch(first, last, dst, use_move()); // may throw
}
// move_if_noexcept(I, I, O)
template <typename I, typename O>
inline
O move_if_noexcept_dispatch(I first, I last, O dst, bcd::true_type const& /*use_move*/)
{ return move(first, last, dst); }
template <typename I, typename O>
inline
O move_if_noexcept_dispatch(I first, I last, O dst, bcd::false_type const& /*use_move*/)
{ return copy(first, last, dst); }
template <typename I, typename O>
inline
O move_if_noexcept(I first, I last, O dst)
{
typedef has_nothrow_move<
typename ::boost::container::iterator_traits<O>::value_type
> use_move;
return move_if_noexcept_dispatch(first, last, dst, use_move()); // may throw
}
// uninitialized_fill(I, I)
template <typename I>
inline
void uninitialized_fill_dispatch(I first, I last,
bcd::true_type const& /*is_trivially_default_constructible*/,
bcd::true_type const& /*disable_trivial_init*/)
{}
template <typename I>
inline
void uninitialized_fill_dispatch(I first, I last,
bcd::true_type const& /*is_trivially_default_constructible*/,
bcd::false_type const& /*disable_trivial_init*/)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
for ( ; first != last ; ++first )
new (boost::container::container_detail::addressof(*first)) value_type();
}
template <typename I, typename DisableTrivialInit>
inline
void uninitialized_fill_dispatch(I first, I last,
bcd::false_type const& /*is_trivially_default_constructible*/,
DisableTrivialInit const& /*not_used*/)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
I it = first;
BOOST_TRY
{
for ( ; it != last ; ++it )
new (boost::container::container_detail::addressof(*it)) value_type(); // may throw
}
BOOST_CATCH(...)
{
destroy(first, it);
BOOST_RETHROW;
}
BOOST_CATCH_END
}
template <typename I, typename DisableTrivialInit>
inline
void uninitialized_fill(I first, I last, DisableTrivialInit const& disable_trivial_init)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
uninitialized_fill_dispatch(first, last
, bcd::bool_<bcd::is_trivially_default_constructible<value_type>::value>()
, disable_trivial_init); // may throw
}
// construct(I)
template <typename I>
inline
void construct_dispatch(bcd::true_type const& /*dont_init*/, I pos)
{}
template <typename I>
inline
void construct_dispatch(bcd::false_type const& /*dont_init*/, I pos)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
new (static_cast<void*>(::boost::container::container_detail::addressof(*pos))) value_type(); // may throw
}
template <typename DisableTrivialInit, typename I>
inline
void construct(DisableTrivialInit const&, I pos)
{
typedef typename ::boost::container::iterator_traits<I>::value_type value_type;
bcd::bool_<
bcd::is_trivially_default_constructible<value_type>::value &&
DisableTrivialInit::value
> dont_init;
construct_dispatch(dont_init(), pos); // may throw
}
// construct(I, V)
template <typename I, typename V>
inline
void construct_dispatch(I pos, V const& v, bcd::true_type const& /*use_memcpy*/)
{
::memcpy(boost::container::container_detail::addressof(*pos), boost::container::container_detail::addressof(v), sizeof(V));
}
template <typename I, typename P>
inline
void construct_dispatch(I pos, P const& p,
bcd::false_type const& /*use_memcpy*/)
{
typedef typename ::boost::container::iterator_traits<I>::value_type V;
new (static_cast<void*>(boost::container::container_detail::addressof(*pos))) V(p); // may throw
}
template <typename DisableTrivialInit, typename I, typename P>
inline
void construct(DisableTrivialInit const&, I pos, P const& p)
{
typedef bcd::bool_
< is_corresponding_value<I, P>::value &&
bcd::is_trivially_copy_constructible<P>::value
> use_memcpy;
construct_dispatch(pos, p, use_memcpy()); // may throw
}
// Needed by push_back(V &&)
template <typename DisableTrivialInit, typename I, typename P>
inline
void construct(DisableTrivialInit const&, I pos, BOOST_RV_REF(P) p)
{
typedef typename ::boost::container::iterator_traits<I>::value_type V;
new (static_cast<void*>(boost::container::container_detail::addressof(*pos))) V(::boost::move(p)); // may throw
}
// Needed by emplace_back() and emplace()
#if !defined(BOOST_CONTAINER_VARRAY_DISABLE_EMPLACE)
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template <typename DisableTrivialInit, typename I, class ...Args>
inline
void construct(DisableTrivialInit const&,
I pos,
BOOST_FWD_REF(Args) ...args)
{
typedef typename ::boost::container::iterator_traits<I>::value_type V;
new (static_cast<void*>(boost::container::container_detail::addressof(*pos))) V(::boost::forward<Args>(args)...); // may throw
}
#else // !BOOST_NO_CXX11_VARIADIC_TEMPLATES
// BOOST_NO_RVALUE_REFERENCES -> P0 const& p0
// !BOOST_NO_RVALUE_REFERENCES -> P0 && p0
// which means that version with one parameter may take V const& v
#define BOOST_CONTAINER_VARRAY_UTIL_CONSTRUCT_CODE(N) \
template <typename DisableTrivialInit, typename I, typename P BOOST_MOVE_I##N BOOST_MOVE_CLASS##N >\
inline void construct(DisableTrivialInit const&, I pos, BOOST_FWD_REF(P) p BOOST_MOVE_I##N BOOST_MOVE_UREF##N )\
{\
typedef typename ::boost::container::iterator_traits<I>::value_type V;\
new (static_cast<void*>(boost::container::container_detail::addressof(*pos)))\
V(::boost::forward<P>(p) BOOST_MOVE_I##N BOOST_MOVE_FWD##N); /*may throw*/\
}
BOOST_MOVE_ITERATE_1TO9(BOOST_CONTAINER_VARRAY_UTIL_CONSTRUCT_CODE)
#undef BOOST_CONTAINER_VARRAY_UTIL_CONSTRUCT_CODE
#endif // !BOOST_NO_CXX11_VARIADIC_TEMPLATES
#endif // !BOOST_CONTAINER_VARRAY_DISABLE_EMPLACE
// assign(I, V)
template <typename I, typename V>
inline
void assign_dispatch(I pos, V const& v,
bcd::true_type const& /*use_memcpy*/)
{
::memcpy(boost::container::container_detail::addressof(*pos), boost::container::container_detail::addressof(v), sizeof(V));
}
template <typename I, typename V>
inline
void assign_dispatch(I pos, V const& v,
bcd::false_type const& /*use_memcpy*/)
{
*pos = v; // may throw
}
template <typename I, typename V>
inline
void assign(I pos, V const& v)
{
typedef bcd::bool_
< is_corresponding_value<I, V>::value &&
bcd::is_trivially_copy_assignable<V>::value
> use_memcpy;
assign_dispatch(pos, v, use_memcpy()); // may throw
}
template <typename I, typename V>
inline
void assign(I pos, BOOST_RV_REF(V) v)
{
*pos = boost::move(v); // may throw
}
// uninitialized_copy_s
template <typename I, typename F>
inline std::size_t uninitialized_copy_s(I first, I last, F dest, std::size_t max_count)
{
std::size_t count = 0;
F it = dest;
BOOST_TRY
{
for ( ; first != last ; ++it, ++first, ++count )
{
if ( max_count <= count )
return (std::numeric_limits<std::size_t>::max)();
// dummy 0 as DisableTrivialInit
construct(0, it, *first); // may throw
}
}
BOOST_CATCH(...)
{
destroy(dest, it);
BOOST_RETHROW;
}
BOOST_CATCH_END
return count;
}
// scoped_destructor
template<class T>
class scoped_destructor
{
public:
scoped_destructor(T * ptr) : m_ptr(ptr) {}
~scoped_destructor()
{
if(m_ptr)
destroy(m_ptr);
}
void release() { m_ptr = 0; }
private:
T * m_ptr;
};
}}} // namespace boost::container::varray_detail
#endif // BOOST_CONTAINER_DETAIL_VARRAY_UTIL_HPP