📄 map
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// accessors
// property mapped_type default[key_type];
// converters
static value_type make_value(key_type _Key, mapped_type _Mapped)
{ // make a value_type
return (gcnew _Object_t(_Key, gcnew _Mapped_t(_Mapped)));
}
// mutators
// virtual size_type erase(key_type _Keyval);
pair_iter_bool insert(cliext::pair<key_type, mapped_type> _Val) new
{ // try to insert node with value _Val, return iterator
_Pairnb _Ans = insert_node(make_value(_Val.first, _Val.second));
return (pair_iter_bool(iterator(_Ans.first),
_Ans.second));
}
iterator insert(iterator _Where,
cliext::pair<key_type, mapped_type> _Val) new
{ // insert a key value, with hint
return (_Mybase_t::insert(_Where,
make_value(_Val.first, _Val.second)));
}
// searches
// virtual iterator find(key_type _Keyval);
// virtual size_type count(key_type _Keyval);
// virtual iterator lower_bound(key_type _Keyval);
// virtual iterator upper_bound(key_type _Keyval);
// virtual pair_iter_iter equal_range(key_type _Keyval);
};
//
// TEMPLATE CLASS multimap_select: _Key1_t REF SPECIALIZATION
//
template<typename _Key1_t,
typename _Mapped_t>
ref class multimap_select<_Key1_t, _Mapped_t, true, false>
: public multimap_base<_Key1_t^, _Mapped_t, true, false>
{ // ordered red-black tree of non-unique keys + values
public:
// types
typedef _Key1_t^ _Gkey_t;
typedef _Mapped_t _Gmapped_t;
typedef multimap_select<_Key1_t, _Mapped_t, true, false> _Mytype_t;
typedef multimap_base<_Gkey_t, _Gmapped_t, true, false>
_Mybase_t;
// typedef System::Collections::Generic::IEnumerable<_Value_t> _Myenum_it;
// typedef _STLCLR GenericPair<_Gkey_t, _Gmapped_t> _Object_t;
typedef _Key1_t key_type;
typedef _Mapped_t mapped_type;
// typedef typename _Traits_t::value_type value_type;
// typedef typename _Traits_t::key_compare key_compare;
// typedef typename _Traits_t::value_compare value_compare;
// typedef int size_type;
// typedef int difference_type;
// typedef _Value_t value_type;
// typedef value_type% reference;
// typedef value_type% const_reference;
// typedef _Mycont_it generic_container;
// typedef value_type generic_value;
// typedef _STLCLR GenericPair<iterator^, bool> pair_iter_bool;
// typedef _STLCLR GenericPair<iterator^, iterator^> pair_iter_iter;
// basics
multimap_select()
: _Mybase_t()
{ // construct empty map from defaults
}
multimap_select(multimap_select% _Right)
: _Mybase_t((_Mybase_t%)_Right)
{ // construct by copying a list
}
multimap_select% operator=(multimap_select% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
// constructors
explicit multimap_select(key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct empty map from comparator
}
template<typename _Iter_t>
multimap_select(_Iter_t _First, _Iter_t _Last)
: _Mybase_t()
{ // construct map from [_First, _Last), default comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
template<typename _Iter_t>
multimap_select(_Iter_t _First, _Iter_t _Last, key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct map from [_First, _Last), comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
// accessors
// property mapped_type default[key_type];
// converters
static value_type make_value(key_type _Key, mapped_type _Mapped)
{ // make a value_type
return (gcnew _Object_t(gcnew _Key1_t(_Key), _Mapped));
}
// mutators
size_type erase(key_type _Keyval)
{ // erase element at _Where
return (_Mybase_t::erase(%_Keyval));
}
pair_iter_bool insert(cliext::pair<key_type, mapped_type> _Val)
{ // try to insert node with value _Val, return iterator
_Pairnb _Ans = insert_node(make_value(_Val.first, _Val.second));
return (pair_iter_bool(iterator(_Ans.first),
_Ans.second));
}
iterator insert(iterator _Where,
cliext::pair<key_type, mapped_type> _Val)
{ // insert a key value, with hint
return (_Mybase_t::insert(_Where,
make_value(_Val.first, _Val.second)));
}
// searches
iterator find(key_type _Keyval)
{ // find an element that matches _Keyval, return iterator
return (_Mybase_t::find(%_Keyval));
}
size_type count(key_type _Keyval)
{ // count all elements that match _Keyval
return (_Mybase_t::count(%_Keyval));
}
iterator lower_bound(key_type _Keyval)
{ // find leftmost node not less than _Keyval
return (_Mybase_t::lower_bound(%_Keyval));
}
iterator upper_bound(key_type _Keyval)
{ // find leftmost node not less than _Keyval
return (_Mybase_t::upper_bound(%_Keyval));
}
pair_iter_iter equal_range(key_type _Keyval)
{ // find range equivalent to _Keyval
return (_Mybase_t::equal_range(%_Keyval));
}
};
//
// TEMPLATE CLASS multimap_select: _Key1_t, _Mapped_t REF SPECIALIZATION
//
template<typename _Key1_t,
typename _Mapped_t>
ref class multimap_select<_Key1_t, _Mapped_t, true, true>
: public multimap_base<_Key1_t^, _Mapped_t^, true, true>
{ // ordered red-black tree of non-unique keys + values
public:
// types
typedef _Key1_t^ _Gkey_t;
typedef _Mapped_t^ _Gmapped_t;
typedef multimap_select<_Key1_t, _Mapped_t, true, true> _Mytype_t;
typedef multimap_base<_Gkey_t, _Gmapped_t, true, true>
_Mybase_t;
// typedef System::Collections::Generic::IEnumerable<_Value_t> _Myenum_it;
// typedef _STLCLR GenericPair<_Gkey_t, _Gmapped_t> _Object_t;
typedef _Key1_t key_type;
typedef _Mapped_t mapped_type;
// typedef typename _Traits_t::value_type value_type;
// typedef typename _Traits_t::key_compare key_compare;
// typedef typename _Traits_t::value_compare value_compare;
// typedef int size_type;
// typedef int difference_type;
// typedef _Value_t value_type;
// typedef value_type% reference;
// typedef value_type% const_reference;
// typedef _Mycont_it generic_container;
// typedef value_type generic_value;
// typedef _STLCLR GenericPair<iterator^, bool> pair_iter_bool;
// typedef _STLCLR GenericPair<iterator^, iterator^> pair_iter_iter;
// basics
multimap_select()
: _Mybase_t()
{ // construct empty map from defaults
}
multimap_select(multimap_select% _Right)
: _Mybase_t((_Mybase_t%)_Right)
{ // construct by copying a list
}
multimap_select% operator=(multimap_select% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
// constructors
explicit multimap_select(key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct empty map from comparator
}
template<typename _Iter_t>
multimap_select(_Iter_t _First, _Iter_t _Last)
: _Mybase_t()
{ // construct map from [_First, _Last), default comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
template<typename _Iter_t>
multimap_select(_Iter_t _First, _Iter_t _Last, key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct map from [_First, _Last), comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
// accessors
// property mapped_type default[key_type];
// converters
static value_type make_value(key_type _Key, mapped_type _Mapped)
{ // make a value_type
return (gcnew _Object_t(gcnew _Key1_t(_Key),
gcnew _Mapped_t(_Mapped)));
}
// mutators
size_type erase(key_type _Keyval) new
{ // erase element at _Where
return (_Mybase_t::erase(%_Keyval));
}
pair_iter_bool insert(cliext::pair<key_type, mapped_type> _Val) new
{ // try to insert node with value _Val, return iterator
_Pairnb _Ans = insert_node(make_value(_Val.first, _Val.second));
return (pair_iter_bool(iterator(_Ans.first),
_Ans.second));
}
iterator insert(iterator _Where,
cliext::pair<key_type, mapped_type> _Val) new
{ // insert a key value, with hint
return (_Mybase_t::insert(_Where,
make_value(_Val.first, _Val.second)));
}
// searches
iterator find(key_type _Keyval)
{ // find an element that matches _Keyval, return iterator
return (_Mybase_t::find(%_Keyval));
}
size_type count(key_type _Keyval)
{ // count all elements that match _Keyval
return (_Mybase_t::count(%_Keyval));
}
iterator lower_bound(key_type _Keyval)
{ // find leftmost node not less than _Keyval
return (_Mybase_t::lower_bound(%_Keyval));
}
iterator upper_bound(key_type _Keyval)
{ // find leftmost node not less than _Keyval
return (_Mybase_t::upper_bound(%_Keyval));
}
pair_iter_iter equal_range(key_type _Keyval)
{ // find range equivalent to _Keyval
return (_Mybase_t::equal_range(%_Keyval));
}
};
} // namespace cliext::impl
//
// TEMPLATE CLASS multimap
//
template<typename _Key1_t,
typename _Mapped_t>
ref class multimap
: public impl::multimap_select<
_Key1_t,
_Mapped_t,
__is_ref_class(typename _Dehandle<_Key1_t>::type)
&& !is_handle<_Key1_t>::value,
__is_ref_class(typename _Dehandle<_Mapped_t>::type)
&& !is_handle<_Mapped_t>::value>
{ // ordered red-black tree of non-unique keys + values
public:
// types
typedef multimap<_Key1_t, _Mapped_t> _Mytype_t;
typedef impl::multimap_select<
_Key1_t,
_Mapped_t,
__is_ref_class(typename _Dehandle<_Key1_t>::type)
&& !is_handle<_Key1_t>::value,
__is_ref_class(typename _Dehandle<_Mapped_t>::type)
&& !is_handle<_Mapped_t>::value> _Mybase_t;
// typedef _Key1_t key_type;
// typedef _Mapped_t mapped_type;
// typedef typename _Traits_t::value_type value_type;
// typedef typename _Traits_t::key_compare key_compare;
// typedef typename _Traits_t::value_compare value_compare;
// typedef int size_type;
// typedef int difference_type;
// typedef _Value_t value_type;
// typedef value_type% reference;
// typedef value_type% const_reference;
// typedef _Mycont_it generic_container;
// typedef value_type generic_value;
// typedef _STLCLR GenericPair<iterator^, bool> pair_iter_bool;
// typedef _STLCLR GenericPair<iterator^, iterator^> pair_iter_iter;
// basics
multimap()
: _Mybase_t()
{ // construct default
}
multimap(multimap% _Right)
: _Mybase_t((_Mybase_t%)_Right)
{ // construct by copying a list
}
multimap(multimap^ _Right)
: _Mybase_t((_Mybase_t%)*_Right)
{ // construct by copying a list
}
multimap% operator=(multimap% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
multimap% operator=(multimap^ _Right)
{ // assign
_Mybase_t::operator=(*_Right);
return (*this);
}
// constructors
explicit multimap(key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct empty map from comparator
}
template<typename _Iter_t>
multimap(_Iter_t _First, _Iter_t _Last)
: _Mybase_t()
{ // construct map from [_First, _Last), default comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
template<typename _Iter_t>
multimap(_Iter_t _First, _Iter_t _Last, key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct map from [_First, _Last), comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
multimap(_Myenum_it^ _Right)
: _Mybase_t()
{ // construct map from enumeration, default comparator
for each (value_type _Val in _Right)
insert(_Val);
}
multimap(_Myenum_it^ _Right,
key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct map from enumeration, comparator
for each (value_type _Val in _Right)
insert(_Val);
}
// mutators
void swap(multimap% _Right)
{ // exchange contents with _Right
_Mybase_t::swap(_Right);
}
// interfaces
public:
virtual System::Object^ Clone() override
{ // clone the vector
return (gcnew _Mytype_t(*this));
}
};
//
// TEMPLATE FUNCTION swap
//
template<typename _Key_t,
typename _Mapped_t> inline
void swap(multimap<_Key_t, _Mapped_t>% _Left,
multimap<_Key_t, _Mapped_t>% _Right)
{ // swap two multimaps
_Left.swap(_Right);
}
} // namespace cliext
#endif // _CLI_MAP_
/*
* Copyright (c) 2004-2007 by Dinkumware, Ltd. ALL RIGHTS RESERVED.
* Consult your license regarding permissions and restrictions.
V5.03:0009 */
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