📄 deques.h
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template <class T>
void BI_IDequeAsVector<T>::flush( TShouldDelete::DeleteType dt )
{
if( delObj(dt) != 0 )
{
if( left <= right )
data.flush( 1, right, left );
else
{
data.flush( 1, data.limit(), left + 1 );
data.flush( 1, right, 0 );
}
}
BI_DequeAsVectorImp<BI_IVectorImp<T>,T _FAR *>::flush();
}
/*------------------------------------------------------------------------*/
/* */
/* template <class T> class BI_IDequeAsVectorIterator */
/* */
/* Implements an iterator for the family of IDeques as Vectors. */
/* */
/*------------------------------------------------------------------------*/
template <class T> class _CLASSTYPE BI_IDequeAsVectorIterator :
public BI_DequeAsVectorIteratorImp<BI_IVectorIteratorImp<T>,BI_IVectorImp<T>,T _FAR *>
{
public:
BI_IDequeAsVectorIterator( const BI_IDequeAsVector<T> _FAR &d ) :
BI_DequeAsVectorIteratorImp<BI_IVectorIteratorImp<T>,BI_IVectorImp<T>,T _FAR *>(d.data,d.left,d.right) {}
};
/*------------------------------------------------------------------------*/
/* */
/* class BI_ODequeAsVector */
/* */
/* Implements a dequeue of pointers to Object, */
/* using a vector as the underlying implementation. */
/* */
/*------------------------------------------------------------------------*/
class _CLASSTYPE BI_ODequeAsVector
{
public:
friend class _CLASSTYPE BI_ODequeAsVectorIterator;
BI_ODequeAsVector( unsigned sz = DEFAULT_DEQUE_SIZE ) :
odeque( sz )
{
}
Object _FAR *peekLeft() const
{
return odeque.peekLeft();
}
Object _FAR *peekRight() const
{
return odeque.peekRight();
}
Object _FAR *getLeft()
{
return odeque.getLeft();
}
Object _FAR *getRight()
{
return odeque.getRight();
}
void putLeft( Object _FAR *o )
{
odeque.putLeft( o );
}
void putRight( Object _FAR *o )
{
odeque.putRight( o );
}
void flush( TShouldDelete::DeleteType dt = TShouldDelete::DefDelete )
{
odeque.flush( dt );
}
int isFull() const
{
return odeque.isFull();
}
int isEmpty() const
{
return odeque.isEmpty();
}
void forEach( void (_FAR*f)(Object _FAR &, void _FAR*), void _FAR*args )
{
odeque.forEach( f, args );
}
Object _FAR *firstThat( int (_FAR *f)(const Object _FAR &, void _FAR *),
void _FAR *args
) const
{
return odeque.firstThat( f, args );
}
Object _FAR *lastThat( int (_FAR *f)(const Object _FAR &, void _FAR *),
void _FAR *args
) const
{
return odeque.lastThat( f, args );
}
int getItemsInContainer() const
{
return odeque.getItemsInContainer();
}
protected:
BI_IDequeAsVector<Object> odeque;
};
class _CLASSTYPE BI_ODequeAsVectorIterator :
public BI_IDequeAsVectorIterator<Object>
{
public:
BI_ODequeAsVectorIterator( const BI_ODequeAsVector _FAR &d ) :
BI_IDequeAsVectorIterator<Object>(d.odeque)
{
}
};
/*------------------------------------------------------------------------*/
/* */
/* class BI_TCDequeAsVector */
/* */
/* Implements an Object dequeue, with the full semantics of */
/* the BC 2.0 style deque, using a vector as the underlying */
/* implementation. */
/* */
/*------------------------------------------------------------------------*/
class _CLASSTYPE BI_TCDequeAsVector : public Container
{
public:
friend class _CLASSTYPE BI_TCDequeAsVectorIterator;
BI_TCDequeAsVector( int sz = DEFAULT_DEQUE_SIZE ) :
deque(sz)
{
}
Object _FAR & peekLeft() const
{
return ptrToRef(deque.peekLeft());
}
Object _FAR & peekRight() const
{
return ptrToRef(deque.peekRight());
}
Object _FAR & getLeft()
{
return ptrToRef(deque.getLeft());
}
Object _FAR & getRight()
{
return ptrToRef(deque.getRight());
}
void putLeft( Object _FAR & o )
{
deque.putLeft( &o );
}
void putRight( Object _FAR & o )
{
deque.putRight( &o );
}
virtual void flush( DeleteType dt = DefDelete )
{
deque.flush(dt);
}
virtual int isEmpty() const
{
return deque.isEmpty();
}
virtual countType getItemsInContainer() const
{
return deque.getItemsInContainer();
}
void forEach( void (_FAR*f)(Object _FAR &, void _FAR*), void _FAR*args )
{
deque.forEach( f, args );
}
Object _FAR & firstThat( int (_FAR *f)(const Object _FAR &, void _FAR *),
void _FAR *args
) const
{
return ptrToRef(deque.firstThat( f, args ));
}
Object _FAR & lastThat( int ( _FAR *f)(const Object _FAR &, void _FAR *),
void _FAR *args
) const
{
return ptrToRef(deque.lastThat( f, args ));
}
virtual ContainerIterator _FAR & initIterator() const;
virtual classType isA() const
{
return dequeClass;
}
virtual char _FAR *nameOf() const
{
return "BI_TCDequeAsVector";
}
protected:
BI_ODequeAsVector deque;
};
class _CLASSTYPE BI_TCDequeAsVectorIterator : public ContainerIterator
{
public:
BI_TCDequeAsVectorIterator( const BI_TCDequeAsVector _FAR &d ) :
iter(d.deque)
{
}
virtual operator int()
{
return int(iter);
}
virtual Object _FAR & current()
{
return Object::ptrToRef(iter.current());
}
virtual Object _FAR & operator ++ ( int )
{
return Object::ptrToRef(iter++);
}
virtual Object _FAR & operator ++ ()
{
return Object::ptrToRef(++iter);
}
virtual void restart()
{
iter.restart();
}
private:
BI_ODequeAsVectorIterator iter;
};
inline ContainerIterator _FAR & BI_TCDequeAsVector::initIterator() const
{
return *new BI_TCDequeAsVectorIterator( *this );
}
/*------------------------------------------------------------------------*/
/* */
/* template <class Lst, class T> class BI_DequeAsDoubleListImp */
/* */
/* Implements the fundamental dequeue operations, using a list */
/* as the underlying implementation. The type Lst specifies the */
/* form of the list, either a BI_DoubleListImp<T0> or a */
/* BI_IDoubleListImp<T0>. The type T specifies the type of the */
/* objects to be put in the deque. When using BI_ListImp<T0>, */
/* T should be the same as T0. When using BI_IListImp<T0>, T */
/* should be of type pointer to T0. See BI_DequeAsList and */
/* BI_IDequeAsList for examples. */
/* */
/*------------------------------------------------------------------------*/
template <class Lst, class T> class _CLASSTYPE BI_DequeAsDoubleListImp
{
public:
BI_DequeAsDoubleListImp() :
itemsInContainer( 0 )
{
}
T peekLeft() const
{
PRECONDITION( !isEmpty() );
return data.peekTail();
}
T peekRight() const
{
PRECONDITION( !isEmpty() );
return data.peekHead();
}
T getLeft()
{
PRECONDITION( !isEmpty() );
T t = peekLeft();
data.detach( t, 0 );
itemsInContainer--;
return t;
}
T getRight()
{
PRECONDITION( !isEmpty() );
T t = peekRight();
data.detach( t, 0 );
itemsInContainer--;
return t;
}
void putLeft( T t )
{
data.addAtTail( t );
itemsInContainer++;
}
void putRight( T t )
{
data.add( t );
itemsInContainer++;
}
void flush( int del )
{
data.flush( del );
itemsInContainer = 0;
}
int isFull() const
{
return 0;
}
int isEmpty() const
{
return itemsInContainer == 0;
}
int getItemsInContainer() const
{
return itemsInContainer;
}
protected:
Lst data;
int itemsInContainer;
};
/*------------------------------------------------------------------------*/
/* */
/* template <class T> class BI_DequeAsDoubleList */
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