kicad/include/boost/ptr_container/ptr_set_adapter.hpp

693 lines
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//
// Boost.Pointer Container
//
// Copyright Thorsten Ottosen 2003-2005. 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)
//
// For more information, see http://www.boost.org/libs/ptr_container/
//
#ifndef BOOST_PTR_CONTAINER_PTR_SET_ADAPTER_HPP
#define BOOST_PTR_CONTAINER_PTR_SET_ADAPTER_HPP
#if defined(_MSC_VER) && (_MSC_VER >= 1200)
# pragma once
#endif
#include <boost/ptr_container/detail/associative_ptr_container.hpp>
#include <boost/ptr_container/detail/meta_functions.hpp>
#include <boost/ptr_container/detail/void_ptr_iterator.hpp>
#include <boost/range/iterator_range.hpp>
namespace boost
{
namespace ptr_container_detail
{
template
<
class Key,
class VoidPtrSet,
bool Ordered
>
struct set_config
{
typedef VoidPtrSet
void_container_type;
typedef BOOST_DEDUCED_TYPENAME VoidPtrSet::allocator_type
allocator_type;
typedef Key value_type;
typedef value_type
key_type;
typedef BOOST_DEDUCED_TYPENAME
mpl::eval_if_c<Ordered,
select_value_compare<VoidPtrSet>,
mpl::identity<void> >::type
value_compare;
typedef value_compare
key_compare;
typedef BOOST_DEDUCED_TYPENAME
mpl::eval_if_c<Ordered,
mpl::identity<void>,
select_hasher<VoidPtrSet> >::type
hasher;
typedef BOOST_DEDUCED_TYPENAME
mpl::eval_if_c<Ordered,
mpl::identity<void>,
select_key_equal<VoidPtrSet> >::type
key_equal;
typedef BOOST_DEDUCED_TYPENAME
mpl::if_c<Ordered,
ordered_associative_container_tag,
unordered_associative_container_tag>::type
container_type;
typedef void_ptr_iterator<
BOOST_DEDUCED_TYPENAME VoidPtrSet::iterator, Key >
iterator;
typedef void_ptr_iterator<
BOOST_DEDUCED_TYPENAME VoidPtrSet::const_iterator, const Key >
const_iterator;
typedef void_ptr_iterator<
BOOST_DEDUCED_TYPENAME
mpl::eval_if_c<Ordered,
select_iterator<VoidPtrSet>,
select_local_iterator<VoidPtrSet> >::type,
Key >
local_iterator;
typedef void_ptr_iterator<
BOOST_DEDUCED_TYPENAME
mpl::eval_if_c<Ordered,
select_iterator<VoidPtrSet>,
select_const_local_iterator<VoidPtrSet> >::type,
const Key >
const_local_iterator;
template< class Iter >
static Key* get_pointer( Iter i )
{
return static_cast<Key*>( *i.base() );
}
template< class Iter >
static const Key* get_const_pointer( Iter i )
{
return static_cast<const Key*>( *i.base() );
}
BOOST_STATIC_CONSTANT(bool, allow_null = false );
};
template
<
class Key,
class VoidPtrSet,
class CloneAllocator = heap_clone_allocator,
bool Ordered = true
>
class ptr_set_adapter_base
: public ptr_container_detail::associative_ptr_container< set_config<Key,VoidPtrSet,Ordered>,
CloneAllocator >
{
typedef ptr_container_detail::associative_ptr_container< set_config<Key,VoidPtrSet,Ordered>,
CloneAllocator >
base_type;
public:
typedef BOOST_DEDUCED_TYPENAME base_type::iterator
iterator;
typedef BOOST_DEDUCED_TYPENAME base_type::const_iterator
const_iterator;
typedef Key key_type;
typedef BOOST_DEDUCED_TYPENAME base_type::size_type
size_type;
public:
ptr_set_adapter_base()
{ }
template< class SizeType >
ptr_set_adapter_base( SizeType n,
ptr_container_detail::unordered_associative_container_tag tag )
: base_type( n, tag )
{ }
template< class Compare, class Allocator >
ptr_set_adapter_base( const Compare& comp,
const Allocator& a )
: base_type( comp, a )
{ }
template< class Hash, class Pred, class Allocator >
ptr_set_adapter_base( const Hash& hash,
const Pred& pred,
const Allocator& a )
: base_type( hash, pred, a )
{ }
template< class InputIterator, class Compare, class Allocator >
ptr_set_adapter_base( InputIterator first, InputIterator last,
const Compare& comp,
const Allocator& a )
: base_type( first, last, comp, a )
{ }
template< class InputIterator, class Hash, class Pred, class Allocator >
ptr_set_adapter_base( InputIterator first, InputIterator last,
const Hash& hash,
const Pred& pred,
const Allocator& a )
: base_type( first, last, hash, pred, a )
{ }
template< class U, class Set, class CA, bool b >
ptr_set_adapter_base( const ptr_set_adapter_base<U,Set,CA,b>& r )
: base_type( r )
{ }
ptr_set_adapter_base( const ptr_set_adapter_base& r )
: base_type( r )
{ }
template< class PtrContainer >
explicit ptr_set_adapter_base( std::auto_ptr<PtrContainer> clone )
: base_type( clone )
{ }
ptr_set_adapter_base& operator=( ptr_set_adapter_base r )
{
this->swap( r );
return *this;
}
template< typename PtrContainer >
ptr_set_adapter_base& operator=( std::auto_ptr<PtrContainer> clone )
{
base_type::operator=( clone );
return *this;
}
using base_type::erase;
size_type erase( const key_type& x ) // nothrow
{
key_type* key = const_cast<key_type*>(&x);
iterator i( this->base().find( key ) );
if( i == this->end() ) // nothrow
return 0u; // nothrow
key = static_cast<key_type*>(*i.base()); // nothrow
size_type res = this->base().erase( key ); // nothrow
this->remove( key ); // nothrow
return res;
}
iterator find( const key_type& x )
{
return iterator( this->base().
find( const_cast<key_type*>(&x) ) );
}
const_iterator find( const key_type& x ) const
{
return const_iterator( this->base().
find( const_cast<key_type*>(&x) ) );
}
size_type count( const key_type& x ) const
{
return this->base().count( const_cast<key_type*>(&x) );
}
iterator lower_bound( const key_type& x )
{
return iterator( this->base().
lower_bound( const_cast<key_type*>(&x) ) );
}
const_iterator lower_bound( const key_type& x ) const
{
return const_iterator( this->base().
lower_bound( const_cast<key_type*>(&x) ) );
}
iterator upper_bound( const key_type& x )
{
return iterator( this->base().
upper_bound( const_cast<key_type*>(&x) ) );
}
const_iterator upper_bound( const key_type& x ) const
{
return const_iterator( this->base().
upper_bound( const_cast<key_type*>(&x) ) );
}
iterator_range<iterator> equal_range( const key_type& x )
{
std::pair<BOOST_DEDUCED_TYPENAME base_type::ptr_iterator,
BOOST_DEDUCED_TYPENAME base_type::ptr_iterator>
p = this->base().
equal_range( const_cast<key_type*>(&x) );
return make_iterator_range( iterator( p.first ),
iterator( p.second ) );
}
iterator_range<const_iterator> equal_range( const key_type& x ) const
{
std::pair<BOOST_DEDUCED_TYPENAME base_type::ptr_const_iterator,
BOOST_DEDUCED_TYPENAME base_type::ptr_const_iterator>
p = this->base().
equal_range( const_cast<key_type*>(&x) );
return make_iterator_range( const_iterator( p.first ),
const_iterator( p.second ) );
}
protected:
size_type bucket( const key_type& key ) const
{
return this->base().bucket( const_cast<key_type*>(&key) );
}
};
} // ptr_container_detail
/////////////////////////////////////////////////////////////////////////
// ptr_set_adapter
/////////////////////////////////////////////////////////////////////////
template
<
class Key,
class VoidPtrSet,
class CloneAllocator = heap_clone_allocator,
bool Ordered = true
>
class ptr_set_adapter :
public ptr_container_detail::ptr_set_adapter_base<Key,VoidPtrSet,CloneAllocator,Ordered>
{
typedef ptr_container_detail::ptr_set_adapter_base<Key,VoidPtrSet,CloneAllocator,Ordered>
base_type;
public: // typedefs
typedef BOOST_DEDUCED_TYPENAME base_type::iterator
iterator;
typedef BOOST_DEDUCED_TYPENAME base_type::const_iterator
const_iterator;
typedef BOOST_DEDUCED_TYPENAME base_type::size_type
size_type;
typedef Key key_type;
typedef BOOST_DEDUCED_TYPENAME base_type::auto_type
auto_type;
typedef BOOST_DEDUCED_TYPENAME VoidPtrSet::allocator_type
allocator_type;
private:
template< typename II >
void set_basic_clone_and_insert( II first, II last ) // basic
{
while( first != last )
{
if( this->find( *first ) == this->end() )
insert( CloneAllocator::allocate_clone( *first ) ); // strong, commit
++first;
}
}
public:
ptr_set_adapter()
{ }
template< class SizeType >
ptr_set_adapter( SizeType n,
ptr_container_detail::unordered_associative_container_tag tag )
: base_type( n, tag )
{ }
template< class Comp >
explicit ptr_set_adapter( const Comp& comp,
const allocator_type& a )
: base_type( comp, a )
{
BOOST_ASSERT( this->empty() );
}
template< class Hash, class Pred, class Allocator >
ptr_set_adapter( const Hash& hash,
const Pred& pred,
const Allocator& a )
: base_type( hash, pred, a )
{ }
template< class InputIterator >
ptr_set_adapter( InputIterator first, InputIterator last )
: base_type( first, last )
{ }
template< class InputIterator, class Compare, class Allocator >
ptr_set_adapter( InputIterator first, InputIterator last,
const Compare& comp,
const Allocator a = Allocator() )
: base_type( comp, a )
{
BOOST_ASSERT( this->empty() );
set_basic_clone_and_insert( first, last );
}
template< class InputIterator, class Hash, class Pred, class Allocator >
ptr_set_adapter( InputIterator first, InputIterator last,
const Hash& hash,
const Pred& pred,
const Allocator& a )
: base_type( first, last, hash, pred, a )
{ }
explicit ptr_set_adapter( const ptr_set_adapter& r )
: base_type( r )
{ }
template< class U, class Set, class CA, bool b >
explicit ptr_set_adapter( const ptr_set_adapter<U,Set,CA,b>& r )
: base_type( r )
{ }
template< class PtrContainer >
explicit ptr_set_adapter( std::auto_ptr<PtrContainer> clone )
: base_type( clone )
{ }
template< class U, class Set, class CA, bool b >
ptr_set_adapter& operator=( const ptr_set_adapter<U,Set,CA,b>& r )
{
base_type::operator=( r );
return *this;
}
template< class T >
void operator=( std::auto_ptr<T> r )
{
base_type::operator=( r );
}
std::pair<iterator,bool> insert( key_type* x ) // strong
{
this->enforce_null_policy( x, "Null pointer in 'ptr_set::insert()'" );
auto_type ptr( x );
std::pair<BOOST_DEDUCED_TYPENAME base_type::ptr_iterator,bool>
res = this->base().insert( x );
if( res.second )
ptr.release();
return std::make_pair( iterator( res.first ), res.second );
}
template< class U >
std::pair<iterator,bool> insert( std::auto_ptr<U> x )
{
return insert( x.release() );
}
iterator insert( iterator where, key_type* x ) // strong
{
this->enforce_null_policy( x, "Null pointer in 'ptr_set::insert()'" );
auto_type ptr( x );
BOOST_DEDUCED_TYPENAME base_type::ptr_iterator
res = this->base().insert( where.base(), x );
if( *res == x )
ptr.release();
return iterator( res);
}
template< class U >
iterator insert( iterator where, std::auto_ptr<U> x )
{
return insert( where, x.release() );
}
template< typename InputIterator >
void insert( InputIterator first, InputIterator last ) // basic
{
set_basic_clone_and_insert( first, last );
}
#if defined(BOOST_NO_SFINAE) || defined(BOOST_NO_FUNCTION_TEMPLATE_ORDERING)
#else
template< class Range >
BOOST_DEDUCED_TYPENAME
boost::disable_if< ptr_container_detail::is_pointer_or_integral<Range> >::type
insert( const Range& r )
{
insert( boost::begin(r), boost::end(r) );
}
#endif
template< class PtrSetAdapter >
bool transfer( BOOST_DEDUCED_TYPENAME PtrSetAdapter::iterator object,
PtrSetAdapter& from ) // strong
{
return this->single_transfer( object, from );
}
template< class PtrSetAdapter >
size_type
transfer( BOOST_DEDUCED_TYPENAME PtrSetAdapter::iterator first,
BOOST_DEDUCED_TYPENAME PtrSetAdapter::iterator last,
PtrSetAdapter& from ) // basic
{
return this->single_transfer( first, last, from );
}
#if defined(BOOST_NO_SFINAE) || defined(BOOST_NO_FUNCTION_TEMPLATE_ORDERING)
#else
template< class PtrSetAdapter, class Range >
BOOST_DEDUCED_TYPENAME boost::disable_if< boost::is_same< Range,
BOOST_DEDUCED_TYPENAME PtrSetAdapter::iterator >,
size_type >::type
transfer( const Range& r, PtrSetAdapter& from ) // basic
{
return transfer( boost::begin(r), boost::end(r), from );
}
#endif
template< class PtrSetAdapter >
size_type transfer( PtrSetAdapter& from ) // basic
{
return transfer( from.begin(), from.end(), from );
}
};
/////////////////////////////////////////////////////////////////////////
// ptr_multiset_adapter
/////////////////////////////////////////////////////////////////////////
template
<
class Key,
class VoidPtrMultiSet,
class CloneAllocator = heap_clone_allocator,
bool Ordered = true
>
class ptr_multiset_adapter :
public ptr_container_detail::ptr_set_adapter_base<Key,VoidPtrMultiSet,CloneAllocator,Ordered>
{
typedef ptr_container_detail::ptr_set_adapter_base<Key,VoidPtrMultiSet,CloneAllocator,Ordered> base_type;
public: // typedefs
typedef BOOST_DEDUCED_TYPENAME base_type::iterator
iterator;
typedef BOOST_DEDUCED_TYPENAME base_type::size_type
size_type;
typedef Key key_type;
typedef BOOST_DEDUCED_TYPENAME base_type::auto_type
auto_type;
typedef BOOST_DEDUCED_TYPENAME VoidPtrMultiSet::allocator_type
allocator_type;
private:
template< typename II >
void set_basic_clone_and_insert( II first, II last ) // basic
{
while( first != last )
{
insert( CloneAllocator::allocate_clone( *first ) ); // strong, commit
++first;
}
}
public:
ptr_multiset_adapter()
{ }
template< class SizeType >
ptr_multiset_adapter( SizeType n,
ptr_container_detail::unordered_associative_container_tag tag )
: base_type( n, tag )
{ }
template< class Comp >
explicit ptr_multiset_adapter( const Comp& comp,
const allocator_type& a )
: base_type( comp, a )
{ }
template< class Hash, class Pred, class Allocator >
ptr_multiset_adapter( const Hash& hash,
const Pred& pred,
const Allocator& a )
: base_type( hash, pred, a )
{ }
template< class InputIterator >
ptr_multiset_adapter( InputIterator first, InputIterator last )
: base_type( first, last )
{ }
template< class InputIterator, class Comp >
ptr_multiset_adapter( InputIterator first, InputIterator last,
const Comp& comp,
const allocator_type& a = allocator_type() )
: base_type( comp, a )
{
set_basic_clone_and_insert( first, last );
}
template< class InputIterator, class Hash, class Pred, class Allocator >
ptr_multiset_adapter( InputIterator first, InputIterator last,
const Hash& hash,
const Pred& pred,
const Allocator& a )
: base_type( first, last, hash, pred, a )
{ }
template< class U, class Set, class CA, bool b >
explicit ptr_multiset_adapter( const ptr_multiset_adapter<U,Set,CA,b>& r )
: base_type( r )
{ }
template< class PtrContainer >
explicit ptr_multiset_adapter( std::auto_ptr<PtrContainer> clone )
: base_type( clone )
{ }
template< class U, class Set, class CA, bool b >
ptr_multiset_adapter& operator=( const ptr_multiset_adapter<U,Set,CA,b>& r )
{
base_type::operator=( r );
return *this;
}
template< class T >
void operator=( std::auto_ptr<T> r )
{
base_type::operator=( r );
}
iterator insert( iterator before, key_type* x ) // strong
{
return base_type::insert( before, x );
}
template< class U >
iterator insert( iterator before, std::auto_ptr<U> x )
{
return insert( before, x.release() );
}
iterator insert( key_type* x ) // strong
{
this->enforce_null_policy( x, "Null pointer in 'ptr_multiset::insert()'" );
auto_type ptr( x );
BOOST_DEDUCED_TYPENAME base_type::ptr_iterator
res = this->base().insert( x );
ptr.release();
return iterator( res );
}
template< class U >
iterator insert( std::auto_ptr<U> x )
{
return insert( x.release() );
}
template< typename InputIterator >
void insert( InputIterator first, InputIterator last ) // basic
{
set_basic_clone_and_insert( first, last );
}
#if defined(BOOST_NO_SFINAE) || defined(BOOST_NO_FUNCTION_TEMPLATE_ORDERING)
#else
template< class Range >
BOOST_DEDUCED_TYPENAME
boost::disable_if< ptr_container_detail::is_pointer_or_integral<Range> >::type
insert( const Range& r )
{
insert( boost::begin(r), boost::end(r) );
}
#endif
template< class PtrSetAdapter >
void transfer( BOOST_DEDUCED_TYPENAME PtrSetAdapter::iterator object,
PtrSetAdapter& from ) // strong
{
this->multi_transfer( object, from );
}
template< class PtrSetAdapter >
size_type transfer( BOOST_DEDUCED_TYPENAME PtrSetAdapter::iterator first,
BOOST_DEDUCED_TYPENAME PtrSetAdapter::iterator last,
PtrSetAdapter& from ) // basic
{
return this->multi_transfer( first, last, from );
}
#if defined(BOOST_NO_SFINAE) || defined(BOOST_NO_FUNCTION_TEMPLATE_ORDERING)
#else
template< class PtrSetAdapter, class Range >
BOOST_DEDUCED_TYPENAME boost::disable_if< boost::is_same< Range,
BOOST_DEDUCED_TYPENAME PtrSetAdapter::iterator >, size_type >::type
transfer( const Range& r, PtrSetAdapter& from ) // basic
{
return transfer( boost::begin(r), boost::end(r), from );
}
#endif
template< class PtrSetAdapter >
void transfer( PtrSetAdapter& from ) // basic
{
transfer( from.begin(), from.end(), from );
BOOST_ASSERT( from.empty() );
}
};
} // namespace 'boost'
#endif