Stacks are a type of container adaptor, specifically designed to operate in a LIFO context (last-in first-out), where elements are inserted and extracted only from the end of the container.
stacks are implemented as containers adaptors, which are classes that use an encapsulated object of a specific container class as its underlying container, providing a specific set of member functions to access its elements. Elements are pushed/popped from the "back" of the specific container, which is known as the top of the stack.
The underlying container may be any of the standard container class templates or some other specifically designed container class. The only requirement is that it supports the following operations:
Therefore, the standard container class templates vector, deque and list can be used. By default, if no container class is specified for a particular stack class, the standard container class template deque is used.
In their implementation in the C++ Standard Template Library, stacks take two template parameters:
template < class T, class Container = deque<T> > class stack;
Where the template parameters have the following meanings:
In the reference for the stack member functions, these same names are assumed for the template parameters.
- T: Type of the elements.
- Container: Type of the underlying container object used to store and access the elements.
|empty|| Test whether container is empty (public member function)|
|size|| Return size (public member function)|
|top|| Access next element (public member function)|
|push|| Add element (public member function)|
|pop|| Remove element (public member function)|