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// set stl/clr header
#ifndef _CLI_SET_
#define _CLI_SET_
#include <cliext/xtree>
namespace cliext {
namespace impl {
//
// TEMPLATE CLASS set_traits
//
template<typename _Key_t, // key type
bool _Mflag, // true if multiple equivalent keys are permitted
bool _Is_ref_key> // true if key field is allocated
ref class set_traits
{ // traits required to make tree behave like a set
public:
typedef set_traits<_Key_t, _Mflag, _Is_ref_key> _Mytype_t;
typedef _Key_t key_type;
typedef _Key_t value_type;
typedef _STLCLR BinaryDelegate<key_type, key_type, bool>
key_compare;
typedef key_compare value_compare;
typedef _Key_t generic_key;
set_traits()
: comp(gcnew key_compare(&_Key_compare)),
_Multi(_Mflag)
{ // construct with default comparator
}
set_traits(key_compare^ _Pred)
: comp(_Pred),
_Multi(_Mflag)
{ // construct with specified comparator
}
key_compare^ key_comp()
{ // return object for comparing keys
return (comp);
}
value_compare^ value_comp()
{ // return object for comparing keys
return (comp);
}
static key_type get_key(value_type% _Val)
{ // extract key from element value
return (_Val);
}
static void unmake_value(value_type% _Val)
{ // free allocated fields as needed
_Cont_make_value<key_type, _Is_ref_key>::unmake_value(_Val);
}
_STLCLR_FIELD_ACCESS:
// data members
key_compare^ comp; // the comparator predicate for keys: < or >
bool _Multi; // true if multiple equivalents keys are permitted
};
//
// TEMPLATE CLASS set_base
//
template<typename _Key_t,
bool _Is_ref_key>
ref class set_base
: public tree<
set_traits<_Key_t, false, _Is_ref_key> >,
System::Collections::Generic::ICollection<_Key_t>,
System::Collections::Generic::IEnumerable<_Key_t>
{ // ordered red-black tree of unique keys
public:
// types
typedef set_base<_Key_t, _Is_ref_key> _Mytype_t;
typedef _Key_t _Value_t;
typedef tree<
set_traits<_Key_t, false, _Is_ref_key> > _Mybase_t;
// typedef _Key_t key_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 key_type generic_value;
// typedef _STLCLR GenericPair<iterator^, bool> pair_iter_bool;
// typedef _STLCLR GenericPair<iterator^, iterator^> pair_iter_iter;
// basics
set_base()
: _Mybase_t()
{ // construct empty set from defaults
}
set_base(set_base% _Right)
: _Mybase_t((_Mybase_t%)_Right)
{ // construct by copying a list
}
set_base% operator=(set_base% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
// constructors
explicit set_base(key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct empty set from comparator
}
template<typename _Iter_t>
set_base(_Iter_t _First, _Iter_t _Last)
: _Mybase_t()
{ // construct set from [_First, _Last), default comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
template<typename _Iter_t>
set_base(_Iter_t _First, _Iter_t _Last, key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct set from [_First, _Last), comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
// interfaces
private:
property size_type Count_generic
{ // element count
virtual size_type get() sealed
= System::Collections::Generic::ICollection<_Value_t>::Count::get
{ // get element count
return (size());
}
};
property bool IsReadOnly
{ // test if read only
virtual bool get() sealed
= System::Collections::Generic::ICollection<_Value_t>
::IsReadOnly::get
{ // test if read only
return (false);
}
};
virtual void CopyTo(_Myarray_t^ _Dest, int _First) sealed
= System::Collections::Generic::ICollection<_Value_t>::CopyTo
{ // copy to _Dest, beginning at _First
node_type^ _Node = head_node();
for (int _Idx = size(); 0 <= --_Idx; )
{ // copy back to front
_Node = _Node->prev_node();
_Dest[_First + _Idx] = _Node->_Value;
}
}
virtual System::Collections::Generic::IEnumerator<_Value_t>^
GetEnumerator() sealed
= System::Collections::Generic::IEnumerable<_Value_t>::GetEnumerator
{ // get enumerator for the container
return (gcnew _STLCLR TreeEnumerator<_Key_t, _Value_t>(
front_node()));
}
virtual void Add(value_type _Val) sealed
= System::Collections::Generic::ICollection<_Value_t>::Add
{ // add element with value _Val
insert_node(_Val);
}
virtual void Clear() sealed
= System::Collections::Generic::ICollection<_Value_t>::Clear
{ // erase all elements
clear();
}
virtual bool Contains(value_type _Val) sealed
= System::Collections::Generic::ICollection<_Value_t>::Contains
{ // search for element matching value _Val
for (node_type^ _Node = front_node(); _Node != head_node();
_Node = _Node->next_node())
if (((System::Object^)_Val)->Equals(
(System::Object^)_Node->_Value))
return (true);
return (false);
}
virtual bool Remove(value_type _Val) sealed
= System::Collections::Generic::ICollection<_Value_t>::Remove
{ // remove first element matching value _Val
for (node_type^ _Node = front_node(); _Node != head_node();
_Node = _Node->next_node())
if (((System::Object^)_Val)->Equals(
(System::Object^)_Node->_Value))
{ // found a match, remove it
erase_node(_Node);
return (true);
}
return (false);
}
};
//
// TEMPLATE CLASS set_select
//
template<typename _Key1_t,
bool _Is_ref_key>
ref class set_select
: public set_base<_Key1_t, _Is_ref_key>
{ // ordered red-black tree of unique keys
public:
// types
typedef _Key1_t _Gkey_t;
typedef set_select<_Key1_t, _Is_ref_key> _Mytype_t;
typedef set_base<_Gkey_t, _Is_ref_key> _Mybase_t;
// typedef System::Collections::Generic::IEnumerable<_Value_t> _Myenum_it;
typedef _Key1_t key_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 key_type generic_value;
// typedef _STLCLR GenericPair<iterator^, bool> pair_iter_bool;
// typedef _STLCLR GenericPair<iterator^, iterator^> pair_iter_iter;
// basics
set_select()
: _Mybase_t()
{ // construct empty set from defaults
}
set_select(set_select% _Right)
: _Mybase_t((_Mybase_t%)_Right)
{ // construct by copying a list
}
set_select% operator=(set_select% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
// constructors
explicit set_select(key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct empty set from comparator
}
template<typename _Iter_t>
set_select(_Iter_t _First, _Iter_t _Last)
: _Mybase_t()
{ // construct set from [_First, _Last), default comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
template<typename _Iter_t>
set_select(_Iter_t _First, _Iter_t _Last, key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct set from [_First, _Last), comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
// converters
static generic_value make_value(key_type _Key)
{ // make a generic_value
return (_Key);
}
// mutators
// virtual size_type erase(key_type _Keyval);
// 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 set_select: _Key1_t REF SPECIALIZATION
//
template<typename _Key1_t>
ref class set_select<_Key1_t, true>
: public set_base<_Key1_t^, true>
{ // ordered red-black tree of unique keys
public:
// types
typedef _Key1_t^ _Gkey_t;
typedef set_select<_Key1_t, true> _Mytype_t;
typedef set_base<_Gkey_t, true> _Mybase_t;
// typedef System::Collections::Generic::IEnumerable<_Value_t> _Myenum_it;
typedef _Key1_t key_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 key_type generic_value;
// typedef _STLCLR GenericPair<iterator^, bool> pair_iter_bool;
// typedef _STLCLR GenericPair<iterator^, iterator^> pair_iter_iter;
// basics
set_select()
: _Mybase_t()
{ // construct empty set from defaults
}
set_select(set_select% _Right)
: _Mybase_t((_Mybase_t%)_Right)
{ // construct by copying a list
}
set_select% operator=(set_select% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
// constructors
explicit set_select(key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct empty set from comparator
}
template<typename _Iter_t>
set_select(_Iter_t _First, _Iter_t _Last)
: _Mybase_t()
{ // construct set from [_First, _Last), default comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
template<typename _Iter_t>
set_select(_Iter_t _First, _Iter_t _Last, key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct set from [_First, _Last), comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
// converters
static generic_value make_value(key_type _Key)
{ // make a generic_value
return (gcnew key_type(_Key));
}
// mutators
pair_iter_bool insert(key_type _Val)
{ // try to insert node with value _Val, return iterator
_Pairnb _Ans = insert_node(%_Val);
return (pair_iter_bool(iterator(_Ans.first),
_Ans.second));
}
iterator insert(iterator _Where, key_type _Val)
{ // insert a key value, with hint
return (_Mybase_t::insert(_Where, %_Val));
}
template<typename _Iter_t>
void insert(_Iter_t _First, _Iter_t _Last)
{ // insert [_First, _Last) one at a time
_Mybase_t::insert(_First, _Last);
}
void insert(_Myenum_it^ _Right) new
{ // insert enumerable
_Mybase_t::insert(_Right);
}
size_type erase(key_type _Keyval)
{ // erase element at _Where
return (_Mybase_t::erase(%_Keyval));
}
// 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 set
//
template<typename _Key1_t>
ref class set
: public impl::set_select<
_Key1_t,
__is_ref_class(typename _Dehandle<_Key1_t>::type)
&& !is_handle<_Key1_t>::value>
{ // ordered red-black tree of unique keys
public:
// types
typedef set<_Key1_t> _Mytype_t;
typedef impl::set_select<
_Key1_t,
__is_ref_class(typename _Dehandle<_Key1_t>::type)
&& !is_handle<_Key1_t>::value> _Mybase_t;
// typedef _Key1_t key_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
set()
: _Mybase_t()
{ // construct default
}
set(set% _Right)
: _Mybase_t((_Mybase_t%)_Right)
{ // construct by copying a list
}
set(set^ _Right)
: _Mybase_t((_Mybase_t%)*_Right)
{ // construct by copying a list
}
set% operator=(set% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
set% operator=(set^ _Right)
{ // assign
_Mybase_t::operator=(*_Right);
return (*this);
}
// constructors
explicit set(key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct empty set from comparator
}
template<typename _Iter_t>
set(_Iter_t _First, _Iter_t _Last)
: _Mybase_t()
{ // construct set from [_First, _Last), default comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
template<typename _Iter_t>
set(_Iter_t _First, _Iter_t _Last, key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct set from [_First, _Last), comparator
for (; _First != _Last; ++_First)
insert((value_type)*_First);
}
set(_Myenum_it^ _Right)
: _Mybase_t()
{ // construct set from enumeration, default comparator
for each (value_type _Val in _Right)
insert(_Val);
}
set(_Myenum_it^ _Right,
key_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct set from enumeration, comparator
for each (value_type _Val in _Right)
insert(_Val);
}
// mutators
void swap(set% _Right)
{ // exchange contents with _Right
_Mybase_t::swap(_Right);
}
// interfaces
public:
virtual System::Object^ Clone() override
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