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// Copyright (c) Microsoft Corporation. All rights reserved.
#ifndef _CLI_QUEUE_
#define _CLI_QUEUE_
#include <cliext/algorithm> // for push/pop heap
#include <cliext/deque> // for default queue container
#include <cliext/functional> // for BinaryDelegate
#include <cliext/iterator>
#include <cliext/vector> // for default priority_queue container
namespace cliext {
namespace impl {
//
// TEMPLATE CLASS queue_base
//
template<typename _Value_t,
typename _Cont_t>
ref class queue_base
: public _STLCLR IQueue<_Value_t,
typename _Container_traits<_Cont_t>::generic_container_handle>
{ // FIFO queue of elements
public:
// types
typedef queue_base<_Value_t, _Cont_t> _Mytype_t;
typedef _STLCLR IQueue<_Value_t,
typename _Container_traits<_Cont_t>::generic_container_handle>
_Mycont_it;
typedef cli::array<_Value_t> _Myarray_t;
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 typename _Dehandle<_Cont_t>::type container_type;
// basics
queue_base()
: c(gcnew container_type)
{ // default constructor
}
queue_base% operator=(queue_base% _Right)
{ // assign
assign(_Right);
return (*this);
}
operator _Mycont_it^()
{ // convert to interface
return (this);
}
// constructors
explicit queue_base(container_type% _Cont)
: c(gcnew container_type(_Cont))
{ // construct from container
}
// destructor
~queue_base()
{ // destroy the object
delete c;
}
// accessors
property value_type front_item
{ // get or set front element
value_type get()
{ // get first element
return (front());
}
void set(value_type _Val)
{ // set first element
front() = _Val;
}
};
property value_type back_item
{ // get or set back element
value_type get()
{ // get last element
return (back());
}
void set(value_type _Val)
{ // set last element
back() = _Val;
}
};
virtual reference front()
{ // get oldest element
return (((typename container_type::generic_container^)c)->front());
}
virtual reference back()
{ // get newest element
return (((typename container_type::generic_container^)c)->back());
}
virtual container_type^ get_container()
{ // return container
return (c);
}
// converters
virtual System::Object^ Clone()
{ // clone the queue
return (gcnew queue_base(*c));
}
_Myarray_t^ to_array()
{ // convert to array
return (c->to_array());
}
// size controllers
virtual size_type size()
{ // return length of sequence
return (c->size());
}
virtual bool empty()
{ // test if sequence is empty
return (size() == 0);
}
// mutators
virtual void push(value_type _Val)
{ // insert element at back end
c->push_back(_Val);
}
virtual void pop()
{ // erase element at front end
c->pop_front();
}
virtual void assign(_Mytype_t% _Right)
{ // assign
*c = *_Right.get_container();
}
_STLCLR_FIELD_ACCESS:
// data members
container_type^ c; // the underlying container
private:
virtual reference front_virtual() sealed
= _Mycont_it::front
{ // get oldest element
return (front());
}
virtual reference back_virtual() sealed
= _Mycont_it::back
{ // get newest element
return (back());
}
virtual typename _Container_traits<_Cont_t>::generic_container_handle
get_container_virtual() sealed
= _Mycont_it::get_container
{ // return container
return (get_container());
}
// size controllers
virtual size_type size_virtual() sealed
= _Mycont_it::size
{ // return length of sequence
return (size());
}
virtual bool empty_virtual() sealed
= _Mycont_it::empty
{ // test if sequence is empty
return (empty());
}
// mutators
virtual void push_virtual(value_type _Val) sealed
= _Mycont_it::push
{ // insert element at end
push(_Val);
}
virtual void pop_virtual() sealed
= _Mycont_it::pop
{ // erase element at end
pop();
}
virtual void assign_virtual(_Mycont_it^ _Right) sealed
= _Mycont_it::assign
{ // assign
assign(*(_Mytype_t^)_Right);
}
};
//
// TEMPLATE CLASS queue_select
//
template<typename _Value_t,
typename _Cont_t,
bool _Is_ref>
ref class queue_select
: public queue_base<_Value_t, _Cont_t^>
{ // FIFO queue of elements
public:
// types
typedef queue_select<_Value_t, _Cont_t, _Is_ref> _Mytype_t;
typedef queue_base<_Value_t, _Cont_t^> _Mybase_t;
typedef typename _Mybase_t::container_type container_type;
typedef _Value_t value_type;
typedef value_type% reference;
typedef value_type% const_reference;
// basics
queue_select()
{ // construct with empty container
}
queue_select% operator=(queue_select% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
// constructors
explicit queue_select(container_type% _Cont)
: _Mybase_t(_Cont)
{ // construct with specified container
}
};
//
// TEMPLATE CLASS queue_select: _Value_t REF SPECIALIZATION
//
template<typename _Value_t,
typename _Cont_t>
ref class queue_select<_Value_t, _Cont_t, true>
: public queue_base<_Value_t^, _Cont_t^>
{ // FIFO queue of elements
public:
// types
typedef queue_select<_Value_t, _Cont_t, true> _Mytype_t;
typedef queue_base<_Value_t^, _Cont_t^> _Mybase_t;
typedef typename _Mybase_t::container_type container_type;
typedef _Value_t value_type;
typedef value_type% reference;
typedef value_type% const_reference;
// basics
queue_select()
{ // construct with empty container
}
queue_select% operator=(queue_select% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
// constructors
explicit queue_select(container_type% _Cont)
: _Mybase_t(_Cont)
{ // construct with specified container
}
// accessors
property value_type front_item
{ // get or set front element
value_type get()
{ // get last element
return (front());
}
void set(value_type _Val)
{ // set last element
front() = _Val;
}
};
property value_type back_item
{ // get or set back element
value_type get()
{ // get last element
return (back());
}
void set(value_type _Val)
{ // set last element
back() = _Val;
}
};
virtual reference front() new
{ // get top element
return (this->c->front());
}
virtual reference back() new
{ // get top element
return (this->c->back());
}
// mutators
void push(value_type _Val)
{ // insert element at end
this->c->push_back(_Val);
}
};
} // namespace cliext::impl
//
// TEMPLATE CLASS queue
//
template<typename _Value_t,
typename _Cont_t = cliext::deque<_Value_t>^>
ref class queue
: public impl::queue_select<
_Value_t,
typename _Dehandle<_Cont_t>::type,
__is_ref_class(typename _Dehandle<_Value_t>::type)
&& !is_handle<_Value_t>::value>
{ // FIFO queue of elements
public:
// types
typedef queue<_Value_t, _Cont_t> _Mytype_t;
typedef impl::queue_select<
_Value_t,
typename _Dehandle<_Cont_t>::type,
__is_ref_class(typename _Dehandle<_Value_t>::type)
&& !is_handle<_Value_t>::value> _Mybase_t;
typedef typename _Mybase_t::container_type container_type;
// basics
queue()
{ // construct with empty container
}
queue(queue% _Right)
: _Mybase_t(*_Right.get_container())
{ // construct by copying a queue
}
queue(queue^ _Right)
: _Mybase_t(*_Right->get_container())
{ // construct by copying a queue
}
queue% operator=(queue% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
queue% operator=(queue^ _Right)
{ // assign
_Mybase_t::operator=(*_Right);
return (*this);
}
// constructors
explicit queue(container_type% _Cont)
: _Mybase_t(_Cont)
{ // construct with specified container
}
// interfaces
virtual System::Object^ Clone() override
{ // clone the vector
return (gcnew _Mytype_t(*this));
}
};
//
// TEMPLATE COMPARISONS
//
template<typename _Value_t,
typename _Cont_t> inline
bool operator==(queue<_Value_t, _Cont_t>% _Left,
queue<_Value_t, _Cont_t>% _Right)
{ // test if _Left == _Right
return (*_Left.get_container() == *_Right.get_container());
}
template<typename _Value_t,
typename _Cont_t> inline
bool operator!=(queue<_Value_t, _Cont_t>% _Left,
queue<_Value_t, _Cont_t>% _Right)
{ // test if _Left != _Right
return (!(_Left == _Right));
}
template<typename _Value_t,
typename _Cont_t> inline
bool operator<(queue<_Value_t, _Cont_t>% _Left,
queue<_Value_t, _Cont_t>% _Right)
{ // test if _Left < _Right
return (*_Left.get_container() < *_Right.get_container());
}
template<typename _Value_t,
typename _Cont_t> inline
bool operator>=(queue<_Value_t, _Cont_t>% _Left,
queue<_Value_t, _Cont_t>% _Right)
{ // test if _Left >= _Right
return (!(_Left < _Right));
}
template<typename _Value_t,
typename _Cont_t> inline
bool operator>(queue<_Value_t, _Cont_t>% _Left,
queue<_Value_t, _Cont_t>% _Right)
{ // test if _Left > _Right
return (_Right < _Left);
}
template<typename _Value_t,
typename _Cont_t> inline
bool operator<=(queue<_Value_t, _Cont_t>% _Left,
queue<_Value_t, _Cont_t>% _Right)
{ // test if _Left <= _Right
return (!(_Right < _Left));
}
//
// TEMPLATE FUNCTION _Queue_compare
//
template<typename _Key_t> inline
bool _Queue_compare(_Key_t _Left, _Key_t _Right)
{ // test if _Left < _Right
return (_Left < _Right);
}
inline bool _Queue_compare(System::String^ _Left, System::String^ _Right)
{ // test if _Left < _Right for String
return (_Left->CompareTo(_Right) < 0);
}
namespace impl {
//
// TEMPLATE CLASS priority_queue_base
//
template<typename _Value_t,
typename _Cont_t>
ref class priority_queue_base
: public _STLCLR IPriorityQueue<_Value_t,
typename _Container_traits<_Cont_t>::generic_container_handle>
{ // priority queue of elements
public:
// types
typedef priority_queue_base<_Value_t, _Cont_t> _Mytype_t;
typedef _STLCLR IPriorityQueue<_Value_t,
typename _Container_traits<_Cont_t>::generic_container_handle>
_Mycont_it;
typedef cli::array<_Value_t> _Myarray_t;
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 typename _Dehandle<_Cont_t>::type container_type;
typedef _STLCLR BinaryDelegate<_Value_t, _Value_t, bool>
value_compare;
// basics
priority_queue_base()
: comp(gcnew value_compare(&_Queue_compare)),
c(gcnew container_type)
{ // default constructor
}
priority_queue_base% operator=(priority_queue_base% _Right)
{ // assign
assign(_Right);
return (*this);
}
operator _Mycont_it^()
{ // convert to interface
return (this);
}
// constructors
explicit priority_queue_base(value_compare^ _Pred)
: comp(_Pred),
c(gcnew container_type)
{ // construct with empty container, specified predicate
}
priority_queue_base(value_compare^ _Pred, container_type% _Cont)
: comp(_Pred),
c(gcnew container_type(_Cont))
{ // construct with specified predicate and container
}
// destructor
~priority_queue_base()
{ // destroy the object
delete c;
}
// accessors
property value_type top_item
{ // get or set top element
virtual value_type get()
{ // get highest priority element
return (top());
}
virtual void set(value_type _Val)
{ // set highest priority element ???
top() = _Val;
}
};
reference top()
{ // get highest priority element
return (((typename container_type::generic_container^)c)->front());
}
container_type^ get_container()
{ // return container
return (c);
}
value_compare^ value_comp()
{ // return object for comparing values
return (comp);
}
// converters
virtual System::Object^ Clone()
{ // clone the priority_queue
return (gcnew priority_queue_base(comp, *c));
}
_Myarray_t^ to_array()
{ // convert to array
return (c->to_array());
}
// size controllers
size_type size()
{ // return length of sequence
return (c->size());
}
bool empty()
{ // test if sequence is empty
return (size() == 0);
}
// mutators
void push(value_type _Val)
{ // insert element at back end
c->push_back(_Val);
cliext::push_heap(c->begin(), c->end(), comp);
}
void pop()
{ // erase element at front end
cliext::pop_heap(c->begin(), c->end(), comp);
c->pop_back();
}
void assign(_Mytype_t% _Right)
{ // assign
*c = *_Right.get_container();
}
_STLCLR_FIELD_ACCESS:
// data members
value_compare^ comp; // the comparator predicate for values, < or >
container_type^ c; // the underlying container
private:
virtual reference top_virtual() sealed
= _Mycont_it::top
{ // get top element
return (top());
}
virtual typename _Container_traits<_Cont_t>::generic_container_handle
get_container_virtual() sealed
= _Mycont_it::get_container
{ // return container
return (get_container());
}
virtual value_compare^ value_comp_virtual() sealed
= _Mycont_it::value_comp
{ // return object for comparing values
return (value_comp());
}
// size controllers
virtual size_type size_virtual() sealed
= _Mycont_it::size
{ // return length of sequence
return (size());
}
virtual bool empty_virtual() sealed
= _Mycont_it::empty
{ // test if sequence is empty
return (empty());
}
// mutators
virtual void push_virtual(value_type _Val) sealed
= _Mycont_it::push
{ // insert element at end
push(_Val);
}
virtual void pop_virtual() sealed
= _Mycont_it::pop
{ // erase element at end
pop();
}
virtual void assign_virtual(_Mycont_it^ _Right) sealed
= _Mycont_it::assign
{ // assign
assign(*(_Mytype_t^)_Right);
}
};
//
// TEMPLATE CLASS priority_queue_select
//
template<typename _Value_t,
typename _Cont_t,
bool _Is_ref>
ref class priority_queue_select
: public priority_queue_base<_Value_t, _Cont_t^>
{ // priority queue of elements
public:
// types
typedef priority_queue_select<_Value_t, _Cont_t, _Is_ref> _Mytype_t;
typedef priority_queue_base<_Value_t, _Cont_t^> _Mybase_t;
typedef typename _Mybase_t::container_type container_type;
typedef typename _Mybase_t::value_compare value_compare;
typedef _Value_t value_type;
typedef value_type% reference;
typedef value_type% const_reference;
// basics
priority_queue_select()
{ // construct with empty container
}
priority_queue_select% operator=(priority_queue_select% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
// constructors
priority_queue_select(value_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct with specified predicate
}
priority_queue_select(value_compare^ _Pred, container_type% _Cont)
: _Mybase_t(_Pred, _Cont)
{ // construct with specified predicate and container
}
};
//
// TEMPLATE CLASS priority_queue_select: _Value_t REF SPECIALIZATION
//
template<typename _Value_t,
typename _Cont_t>
ref class priority_queue_select<_Value_t, _Cont_t, true>
: public priority_queue_base<_Value_t^, _Cont_t^>
{ // priority queue of elements
public:
// types
typedef priority_queue_select<_Value_t, _Cont_t, true> _Mytype_t;
typedef priority_queue_base<_Value_t^, _Cont_t^> _Mybase_t;
typedef typename _Mybase_t::container_type container_type;
typedef typename _Mybase_t::value_compare value_compare;
typedef _Value_t value_type;
typedef value_type% reference;
typedef value_type% const_reference;
// basics
priority_queue_select()
{ // construct with empty container
}
priority_queue_select% operator=(priority_queue_select% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
// constructors
priority_queue_select(value_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct with specified predicate
}
priority_queue_select(value_compare^ _Pred, container_type% _Cont)
: _Mybase_t(_Pred, _Cont)
{ // construct with specified predicate and container
}
// accessors
property value_type top_item
{ // get or set top element
value_type get()
{ // get last element
return (top());
}
void set(value_type _Val)
{ // set last element
top() = _Val;
}
};
virtual reference top() new
{ // get top element
return (this->c->front());
}
// mutators
void push(value_type _Val)
{ // insert element at end
this->c->push_back(_Val);
cliext::push_heap(this->c->begin(), this->c->end(), this->comp);
}
};
} // namespace cliext::impl
//
// TEMPLATE CLASS priority_queue
//
template<typename _Value_t,
typename _Cont_t = cliext::vector<_Value_t> >
ref class priority_queue
: public impl::priority_queue_select<
_Value_t,
typename _Dehandle<_Cont_t>::type,
__is_ref_class(typename _Dehandle<_Value_t>::type)
&& !is_handle<_Value_t>::value>
{ // priority queue of elements
public:
// types
typedef priority_queue<_Value_t, _Cont_t> _Mytype_t;
typedef impl::priority_queue_select<
_Value_t,
typename _Dehandle<_Cont_t>::type,
__is_ref_class(typename _Dehandle<_Value_t>::type)
&& !is_handle<_Value_t>::value> _Mybase_t;
typedef typename _Mybase_t::container_type container_type;
typedef typename _Mybase_t::value_compare value_compare;
// basics
priority_queue()
{ // construct with empty container
}
priority_queue(priority_queue% _Right)
: _Mybase_t(_Right.value_comp(), *_Right.get_container())
{ // construct by copying a priority_queue
}
priority_queue(priority_queue^ _Right)
: _Mybase_t(_Right->value_comp(), *_Right->get_container())
{ // construct by copying a priority_queue
}
priority_queue% operator=(priority_queue% _Right)
{ // assign
_Mybase_t::operator=(_Right);
return (*this);
}
priority_queue% operator=(priority_queue^ _Right)
{ // assign
_Mybase_t::operator=(*_Right);
return (*this);
}
// constructors
explicit priority_queue(value_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct with empty container, specified predicate
}
priority_queue(value_compare^ _Pred, container_type% _Cont)
: _Mybase_t(_Pred, _Cont)
{ // construct with specified predicate and container
cliext::make_heap(this->c->begin(), this->c->end(), this->comp);
}
template<typename _Iter>
priority_queue(_Iter _First, _Iter _Last)
{ // construct by copying [_First, _Last), default comparator
this->c->insert(this->c->end(), _First, _Last);
cliext::make_heap(this->c->begin(), this->c->end(), this->comp);
}
template<typename _Iter>
priority_queue(_Iter _First, _Iter _Last, value_compare^ _Pred)
: _Mybase_t(_Pred)
{ // construct by copying [_First, _Last), specified comparator
this->c->insert(this->c->end(), _First, _Last);
cliext::make_heap(this->c->begin(), this->c->end(), this->comp);
}
template<typename _Iter>
priority_queue(_Iter _First, _Iter _Last, value_compare^ _Pred,
container_type% _Cont)
: _Mybase_t(_Pred, _Cont)
{ // construct by copying [_First, _Last), container, and comparator
this->c->insert(this->c->end(), _First, _Last);
cliext::make_heap(this->c->begin(), this->c->end(), this->comp);
}
// interfaces
virtual System::Object^ Clone() override
{ // clone the vector
return (gcnew _Mytype_t(*this));
}
};
} // namespace cliext
#endif // _CLI_QUEUE_
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