YouCompleteMe/cpp/BoostParts/boost/intrusive/options.hpp

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/////////////////////////////////////////////////////////////////////////////
//
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// (C) Copyright Ion Gaztanaga 2007-2013
//
// Distributed under 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)
//
// See http://www.boost.org/libs/intrusive for documentation.
//
/////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_INTRUSIVE_OPTIONS_HPP
#define BOOST_INTRUSIVE_OPTIONS_HPP
#include <boost/intrusive/detail/config_begin.hpp>
#include <boost/intrusive/intrusive_fwd.hpp>
#include <boost/intrusive/link_mode.hpp>
#include <boost/intrusive/detail/mpl.hpp>
#include <boost/intrusive/detail/utilities.hpp>
#include <boost/static_assert.hpp>
namespace boost {
namespace intrusive {
/// @cond
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//typedef void default_tag;
struct default_tag;
struct member_tag;
namespace detail{
struct default_hook_tag{};
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#ifndef BOOST_INTRUSIVE_DOXYGEN_INVOKED
#define BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION(BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER) \
struct BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER : public default_hook_tag\
{\
template <class T>\
struct apply\
{ typedef typename T::BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER type; };\
}\
BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION(default_list_hook);
BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION(default_slist_hook);
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BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION(default_rbtree_hook);
BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION(default_hashtable_hook);
BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION(default_avltree_hook);
BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION(default_bstree_hook);
//BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION(default_splaytree_hook);
//BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION(default_sgtree_hook);
//BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION(default_treap_hook);
#undef BOOST_INTRUSIVE_DEFAULT_HOOK_MARKER_DEFINITION
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#endif //BOOST_INTRUSIVE_DOXYGEN_INVOKED
template <class ValueTraits>
struct eval_value_traits
{
typedef typename ValueTraits::value_traits type;
};
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template<class ValueTraits>
struct get_real_value_traits
: public eval_if_c
< external_value_traits_bool_is_true<ValueTraits>::value
, eval_value_traits<ValueTraits>
, identity<ValueTraits>
>
{};
template <class BucketTraits>
struct eval_bucket_traits
{
typedef typename BucketTraits::bucket_traits type;
};
template <class T, class BaseHook>
struct concrete_hook_base_value_traits
{
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typedef typename BaseHook::hooktags tags;
typedef bhtraits
< T
, typename tags::node_traits
, tags::link_mode
, typename tags::tag
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, tags::type> type;
};
template <class BaseHook>
struct concrete_hook_base_node_traits
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{ typedef typename BaseHook::hooktags::node_traits type; };
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template <class T, class AnyToSomeHook_ProtoValueTraits>
struct any_hook_base_value_traits
{
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//AnyToSomeHook value_traits derive from a generic_hook
//The generic_hook is configured with any_node_traits
//and AnyToSomeHook::value_traits with the correct
//node traits for the container, so use node_traits
//from AnyToSomeHook_ProtoValueTraits and the rest of
//elements from the hooktags member of the generic_hook
typedef AnyToSomeHook_ProtoValueTraits proto_value_traits;
typedef bhtraits
< T
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, typename proto_value_traits::node_traits
, proto_value_traits::hooktags::link_mode
, typename proto_value_traits::hooktags::tag
, proto_value_traits::hooktags::type
> type;
};
template <class BaseHook>
struct any_hook_base_node_traits
{ typedef typename BaseHook::node_traits type; };
template<class T, class BaseHook>
struct get_base_value_traits
{
typedef typename detail::eval_if_c
< internal_any_hook_bool_is_true<BaseHook>::value
, any_hook_base_value_traits<T, BaseHook>
, concrete_hook_base_value_traits<T, BaseHook>
>::type type;
};
template<class BaseHook>
struct get_base_node_traits
{
typedef typename detail::eval_if_c
< internal_any_hook_bool_is_true<BaseHook>::value
, any_hook_base_node_traits<BaseHook>
, concrete_hook_base_node_traits<BaseHook>
>::type type;
};
template<class T, class MemberHook>
struct get_member_value_traits
{
typedef typename MemberHook::member_value_traits type;
};
template<class MemberHook>
struct get_member_node_traits
{
typedef typename MemberHook::member_value_traits::node_traits type;
};
template<class T, class SupposedValueTraits>
struct get_value_traits
{
typedef typename detail::eval_if_c
<detail::is_convertible<SupposedValueTraits*, detail::default_hook_tag*>::value
,detail::apply<SupposedValueTraits, T>
,detail::identity<SupposedValueTraits>
>::type supposed_value_traits;
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//...if it's a default hook
typedef typename detail::eval_if_c
< internal_base_hook_bool_is_true<supposed_value_traits>::value
//...get it's internal value traits using
//the provided T value type.
, get_base_value_traits<T, supposed_value_traits>
//...else use it's internal value traits tag
//(member hooks and custom value traits are in this group)
, detail::eval_if_c
< internal_member_value_traits<supposed_value_traits>::value
, get_member_value_traits<T, supposed_value_traits>
, detail::identity<supposed_value_traits>
>
>::type type;
};
template<class ValueTraits>
struct get_explicit_node_traits
{
typedef typename ValueTraits::node_traits type;
};
template<class SupposedValueTraits>
struct get_node_traits
{
typedef SupposedValueTraits supposed_value_traits;
//...if it's a base hook
typedef typename detail::eval_if_c
< internal_base_hook_bool_is_true<supposed_value_traits>::value
//...get it's internal value traits using
//the provided T value type.
, get_base_node_traits<supposed_value_traits>
//...else use it's internal value traits tag
//(member hooks and custom value traits are in this group)
, detail::eval_if_c
< internal_member_value_traits<supposed_value_traits>::value
, get_member_node_traits<supposed_value_traits>
, get_explicit_node_traits<supposed_value_traits>
>
>::type type;
};
} //namespace detail{
/// @endcond
//!This option setter specifies if the intrusive
//!container stores its size as a member to
//!obtain constant-time size() member.
template<bool Enabled>
struct constant_time_size
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool constant_time_size = Enabled;
};
/// @endcond
};
//!This option setter specifies the type that
//!the container will use to store its size.
template<class SizeType>
struct size_type
{
/// @cond
template<class Base>
struct pack : Base
{
typedef SizeType size_type;
};
/// @endcond
};
//!This option setter specifies the strict weak ordering
//!comparison functor for the value type
template<class Compare>
struct compare
{
/// @cond
template<class Base>
struct pack : Base
{
typedef Compare compare;
};
/// @endcond
};
//!This option setter for scapegoat containers specifies if
//!the intrusive scapegoat container should use a non-variable
//!alpha value that does not need floating-point operations.
//!
//!If activated, the fixed alpha value is 1/sqrt(2). This
//!option also saves some space in the container since
//!the alpha value and some additional data does not need
//!to be stored in the container.
//!
//!If the user only needs an alpha value near 1/sqrt(2), this
//!option also improves performance since avoids logarithm
//!and division operations when rebalancing the tree.
template<bool Enabled>
struct floating_point
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool floating_point = Enabled;
};
/// @endcond
};
//!This option setter specifies the equality
//!functor for the value type
template<class Equal>
struct equal
{
/// @cond
template<class Base>
struct pack : Base
{
typedef Equal equal;
};
/// @endcond
};
//!This option setter specifies the equality
//!functor for the value type
template<class Priority>
struct priority
{
/// @cond
template<class Base>
struct pack : Base
{
typedef Priority priority;
};
/// @endcond
};
//!This option setter specifies the hash
//!functor for the value type
template<class Hash>
struct hash
{
/// @cond
template<class Base>
struct pack : Base
{
typedef Hash hash;
};
/// @endcond
};
//!This option setter specifies the relationship between the type
//!to be managed by the container (the value type) and the node to be
//!used in the node algorithms. It also specifies the linking policy.
template<typename ValueTraits>
struct value_traits
{
/// @cond
template<class Base>
struct pack : Base
{
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typedef ValueTraits proto_value_traits;
};
/// @endcond
};
//!This option setter specifies the member hook the
//!container must use.
template< typename Parent
, typename MemberHook
, MemberHook Parent::* PtrToMember>
struct member_hook
{
/// @cond
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/*
typedef typename MemberHook::hooktags::node_traits node_traits;
typedef typename node_traits::node node_type;
typedef node_type Parent::* Ptr2MemNode;
typedef mhtraits
< Parent
, node_traits
//This cast is really ugly but necessary to reduce template bloat.
//Since we control the layout between the hook and the node, and there is
//always single inheritance, the offset of the node is exactly the offset of
//the hook. Since the node type is shared between all member hooks, this saves
//quite a lot of symbol stuff.
, (Ptr2MemNode)PtrToMember
, MemberHook::hooktags::link_mode> member_value_traits;
*/
typedef mhtraits
< Parent
, MemberHook
, PtrToMember
> member_value_traits;
template<class Base>
struct pack : Base
{
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typedef member_value_traits proto_value_traits;
};
/// @endcond
};
//!This option setter specifies the function object that will
//!be used to convert between values to be inserted in a container
//!and the hook to be used for that purpose.
template< typename Functor>
struct function_hook
{
/// @cond
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typedef fhtraits
<Functor> function_value_traits;
template<class Base>
struct pack : Base
{
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typedef function_value_traits proto_value_traits;
};
/// @endcond
};
//!This option setter specifies that the container
//!must use the specified base hook
template<typename BaseHook>
struct base_hook
{
/// @cond
template<class Base>
struct pack : Base
{
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typedef BaseHook proto_value_traits;
};
/// @endcond
};
//!This option setter specifies the type of
//!a void pointer. This will instruct the hook
//!to use this type of pointer instead of the
//!default one
template<class VoidPointer>
struct void_pointer
{
/// @cond
template<class Base>
struct pack : Base
{
typedef VoidPointer void_pointer;
};
/// @endcond
};
//!This option setter specifies the type of
//!the tag of a base hook. A type cannot have two
//!base hooks of the same type, so a tag can be used
//!to differentiate two base hooks with otherwise same type
template<class Tag>
struct tag
{
/// @cond
template<class Base>
struct pack : Base
{
typedef Tag tag;
};
/// @endcond
};
//!This option setter specifies the link mode
//!(normal_link, safe_link or auto_unlink)
template<link_mode_type LinkType>
struct link_mode
{
/// @cond
template<class Base>
struct pack : Base
{
static const link_mode_type link_mode = LinkType;
};
/// @endcond
};
//!This option setter specifies if the hook
//!should be optimized for size instead of for speed.
template<bool Enabled>
struct optimize_size
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool optimize_size = Enabled;
};
/// @endcond
};
//!This option setter specifies if the list container should
//!use a linear implementation instead of a circular one.
template<bool Enabled>
struct linear
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool linear = Enabled;
};
/// @endcond
};
//!This option setter specifies if the list container should
//!use a linear implementation instead of a circular one.
template<bool Enabled>
struct cache_last
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool cache_last = Enabled;
};
/// @endcond
};
//!This option setter specifies the bucket traits
//!class for unordered associative containers. When this option is specified,
//!instead of using the default bucket traits, a user defined holder will be defined
template<class BucketTraits>
struct bucket_traits
{
/// @cond
template<class Base>
struct pack : Base
{
typedef BucketTraits bucket_traits;
};
/// @endcond
};
//!This option setter specifies if the unordered hook
//!should offer room to store the hash value.
//!Storing the hash in the hook will speed up rehashing
//!processes in applications where rehashing is frequent,
//!rehashing might throw or the value is heavy to hash.
template<bool Enabled>
struct store_hash
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool store_hash = Enabled;
};
/// @endcond
};
//!This option setter specifies if the unordered hook
//!should offer room to store another link to another node
//!with the same key.
//!Storing this link will speed up lookups and insertions on
//!unordered_multiset containers with a great number of elements
//!with the same key.
template<bool Enabled>
struct optimize_multikey
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool optimize_multikey = Enabled;
};
/// @endcond
};
//!This option setter specifies if the bucket array will be always power of two.
//!This allows using masks instead of the default modulo operation to determine
//!the bucket number from the hash value, leading to better performance.
//!In debug mode, if power of two buckets mode is activated, the bucket length
//!will be checked to through assertions to assure the bucket length is power of two.
template<bool Enabled>
struct power_2_buckets
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool power_2_buckets = Enabled;
};
/// @endcond
};
//!This option setter specifies if the container will cache a pointer to the first
//!non-empty bucket so that begin() is always constant-time.
//!This is specially helpful when we can have containers with a few elements
//!but with big bucket arrays (that is, hashtables with low load factors).
template<bool Enabled>
struct cache_begin
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool cache_begin = Enabled;
};
/// @endcond
};
//!This option setter specifies if the container will compare the hash value
//!before comparing objects. This option can't be specified if store_hash<>
//!is not true.
//!This is specially helpful when we have containers with a high load factor.
//!and the comparison function is much more expensive that comparing already
//!stored hash values.
template<bool Enabled>
struct compare_hash
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool compare_hash = Enabled;
};
/// @endcond
};
//!This option setter specifies if the hash container will use incremental
//!hashing. With incremental hashing the cost of hash table expansion is spread
//!out across each hash table insertion operation, as opposed to be incurred all at once.
//!Therefore linear hashing is well suited for interactive applications or real-time
//!appplications where the worst-case insertion time of non-incremental hash containers
//!(rehashing the whole bucket array) is not admisible.
template<bool Enabled>
struct incremental
{
/// @cond
template<class Base>
struct pack : Base
{
static const bool incremental = Enabled;
};
/// @endcond
};
/// @cond
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struct none
{
template<class Base>
struct pack : Base
{};
};
//To-do: pass to variadic templates
#if !defined(BOOST_INTRUSIVE_VARIADIC_TEMPLATES)
template<class Prev, class Next>
struct do_pack
{
//Use "pack" member template to pack options
typedef typename Next::template pack<Prev> type;
};
template<class Prev>
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struct do_pack<Prev, void>
{
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//Avoid packing "void" to shorten template names
typedef Prev type;
};
template
< class DefaultOptions
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, class O1 = void
, class O2 = void
, class O3 = void
, class O4 = void
, class O5 = void
, class O6 = void
, class O7 = void
, class O8 = void
, class O9 = void
, class O10 = void
, class O11 = void
>
struct pack_options
{
// join options
typedef
typename do_pack
< typename do_pack
< typename do_pack
< typename do_pack
< typename do_pack
< typename do_pack
< typename do_pack
< typename do_pack
< typename do_pack
< typename do_pack
< typename do_pack
< DefaultOptions
, O1
>::type
, O2
>::type
, O3
>::type
, O4
>::type
, O5
>::type
, O6
>::type
, O7
>::type
, O8
>::type
, O9
>::type
, O10
>::type
, O11
>::type
type;
};
#else
//index_tuple
template<int... Indexes>
struct index_tuple{};
//build_number_seq
template<std::size_t Num, typename Tuple = index_tuple<> >
struct build_number_seq;
template<std::size_t Num, int... Indexes>
struct build_number_seq<Num, index_tuple<Indexes...> >
: build_number_seq<Num - 1, index_tuple<Indexes..., sizeof...(Indexes)> >
{};
template<int... Indexes>
struct build_number_seq<0, index_tuple<Indexes...> >
{ typedef index_tuple<Indexes...> type; };
template<class ...Types>
struct typelist
{};
//invert_typelist
template<class T>
struct invert_typelist;
template<int I, typename Tuple>
struct typelist_element;
template<int I, typename Head, typename... Tail>
struct typelist_element<I, typelist<Head, Tail...> >
{
typedef typename typelist_element<I-1, typelist<Tail...> >::type type;
};
template<typename Head, typename... Tail>
struct typelist_element<0, typelist<Head, Tail...> >
{
typedef Head type;
};
template<int ...Ints, class ...Types>
typelist<typename typelist_element<(sizeof...(Types) - 1) - Ints, typelist<Types...> >::type...>
inverted_typelist(index_tuple<Ints...>, typelist<Types...>)
{
return typelist<typename typelist_element<(sizeof...(Types) - 1) - Ints, typelist<Types...> >::type...>();
}
//sizeof_typelist
template<class Typelist>
struct sizeof_typelist;
template<class ...Types>
struct sizeof_typelist< typelist<Types...> >
{
static const std::size_t value = sizeof...(Types);
};
//invert_typelist_impl
template<class Typelist, class Indexes>
struct invert_typelist_impl;
template<class Typelist, int ...Ints>
struct invert_typelist_impl< Typelist, index_tuple<Ints...> >
{
static const std::size_t last_idx = sizeof_typelist<Typelist>::value - 1;
typedef typelist
<typename typelist_element<last_idx - Ints, Typelist>::type...> type;
};
template<class Typelist, int Int>
struct invert_typelist_impl< Typelist, index_tuple<Int> >
{
typedef Typelist type;
};
template<class Typelist>
struct invert_typelist_impl< Typelist, index_tuple<> >
{
typedef Typelist type;
};
//invert_typelist
template<class Typelist>
struct invert_typelist;
template<class ...Types>
struct invert_typelist< typelist<Types...> >
{
typedef typelist<Types...> typelist_t;
typedef typename build_number_seq<sizeof...(Types)>::type indexes_t;
typedef typename invert_typelist_impl<typelist_t, indexes_t>::type type;
};
//Do pack
template<class Typelist>
struct do_pack;
template<>
struct do_pack<typelist<> >;
template<class Prev>
struct do_pack<typelist<Prev> >
{
typedef Prev type;
};
template<class Prev, class Last>
struct do_pack<typelist<Prev, Last> >
{
typedef typename Prev::template pack<Last> type;
};
template<class Prev, class ...Others>
struct do_pack<typelist<Prev, Others...> >
{
typedef typename Prev::template pack
<typename do_pack<typelist<Others...> >::type> type;
};
template<class ...Options>
struct pack_options
{
typedef typelist<Options...> typelist_t;
typedef typename invert_typelist<typelist_t>::type inverted_typelist;
typedef typename do_pack<inverted_typelist>::type type;
};
#endif
struct hook_defaults
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{
typedef void* void_pointer;
static const link_mode_type link_mode = safe_link;
typedef default_tag tag;
static const bool optimize_size = false;
static const bool store_hash = false;
static const bool linear = false;
static const bool optimize_multikey = false;
};
/// @endcond
} //namespace intrusive {
} //namespace boost {
#include <boost/intrusive/detail/config_end.hpp>
#endif //#ifndef BOOST_INTRUSIVE_OPTIONS_HPP