Creating Stack and Queue Collections
This article explains how to create other data structures, such as stacks and queues, from MFC list classes. The examples use classes derived from CList, but you can use CList directly unless you need to add functionality.
Stacks
Because the standard list collection has both a head and a tail, it is easy to create a derived list collection that mimics the behavior of a last-in-first-out stack. A stack is like a stack of trays in a cafeteria. As trays are added to the stack, they go on top of the stack. The last tray added is the first to be removed. The list collection member functions AddHead and RemoveHead can be used to add and remove elements specifically from the head of the list; thus, the most recently added element is the first to be removed.
To create a stack collection
Derive a new list class from one of the existing MFC list classes and add more member functions to support the functionality of stack operations.
The following example shows how to add member functions to push elements on to the stack, peek at the top element of the stack, and pop the top element from the stack:
class CTray : public CObject { }; class CStack : public CTypedPtrList< CObList, CTray* > { public: // Add element to top of stack void Push( CTray* newTray ) { AddHead( newTray ); } // Peek at top element of stack CTray* Peek() { return IsEmpty() ? NULL : GetHead(); } // Pop top element off stack CTray* Pop() { return RemoveHead(); } };
Note that this approach exposes the underlying CObList class. The user can call any CObList member function, whether it makes sense for a stack or not.
Queues
Because the standard list collection has both a head and a tail, it is also easy to create a derived list collection that mimics the behavior of a first-in-first-out queue. A queue is like a line of people in a cafeteria. The first person in line is the first to be served. As more people come, they go to the end of the line to wait their turn. The list collection member functions AddTail and RemoveHead can be used to add and remove elements specifically from the head or tail of the list; thus, the most recently added element is always the last to be removed.
To create a queue collection
Derive a new list class from one of the predefined list classes provided with the Microsoft Foundation Class Library and add more member functions to support the semantics of queue operations.
The following example shows how you can append member functions to add an element to the end of the queue and get the element from the front of the queue.
class CQueue : public CTypedPtrList< CObList, CPerson* > { public: // Go to the end of the line void AddToEnd( CPerson* newPerson ) { AddTail( newPerson ); } // End of the queue // Get first element in line CPerson* GetFromFront() { return IsEmpty() ? NULL : RemoveHead(); } };