#include <Containers_T.h>
Public Member Functions | |
ACE_Bounded_Stack (size_t size) | |
Initialize a new empty stack with the provided size.. | |
ACE_Bounded_Stack (const ACE_Bounded_Stack< T > &s) | |
Initialize the stack to be a copy of the stack provided. | |
void | operator= (const ACE_Bounded_Stack< T > &s) |
Assignment operator. | |
~ACE_Bounded_Stack (void) | |
Perform actions needed when stack goes out of scope. | |
int | push (const T &new_item) |
Add an element to the top of the stack. | |
int | pop (T &item) |
Remove an item from the top of stack. | |
int | top (T &item) const |
Examine the contents of the top of stack. | |
int | is_empty (void) const |
Returns 1 if the container is empty, otherwise returns 0. | |
int | is_full (void) const |
Returns 1 if the container is full, otherwise returns 0. | |
size_t | size (void) const |
The number of items in the stack. | |
void | dump (void) const |
Dump the state of an object. | |
Public Attributes | |
ACE_ALLOC_HOOK_DECLARE | |
Declare the dynamic allocation hooks. | |
Private Attributes | |
size_t | size_ |
Size of the dynamically allocated data. | |
size_t | top_ |
Keeps track of the current top of stack. | |
T * | stack_ |
Holds the stack's contents. |
This implementation of a Stack uses a bounded array that is allocated dynamically. The Stack interface provides the standard constant time push, pop, and top operations.
Requirements and Performance Characteristics
ACE_Bounded_Stack< T >::ACE_Bounded_Stack | ( | size_t | size | ) | [inline] |
Initialize a new empty stack with the provided size..
Initialize and allocate space for a new Bounded_Stack with the provided size.
ACE_Bounded_Stack< T >::ACE_Bounded_Stack | ( | const ACE_Bounded_Stack< T > & | s | ) | [inline] |
Initialize the stack to be a copy of the stack provided.
Initialize the stack to be an exact copy of the Bounded_Stack provided as a parameter.
ACE_Bounded_Stack< T >::~ACE_Bounded_Stack | ( | void | ) | [inline] |
Perform actions needed when stack goes out of scope.
Deallocate the memory used by the Bounded_Stack.
void ACE_Bounded_Stack< T >::dump | ( | void | ) | const [inline] |
Dump the state of an object.
int ACE_Bounded_Stack< T >::is_empty | ( | void | ) | const [inline] |
Returns 1 if the container is empty, otherwise returns 0.
Performs constant time check to determine if the stack is empty.
int ACE_Bounded_Stack< T >::is_full | ( | void | ) | const [inline] |
Returns 1 if the container is full, otherwise returns 0.
Performs constant time check to determine if the stack is at capacity.
void ACE_Bounded_Stack< T >::operator= | ( | const ACE_Bounded_Stack< T > & | s | ) | [inline] |
Assignment operator.
Perform a deep copy operation using the Bounded_Stack parameter. If the capacity of the lhs isn't sufficient for the rhs, then the underlying data structure will be reallocated to accomadate the larger number of elements.
int ACE_Bounded_Stack< T >::pop | ( | T & | item | ) | [inline] |
Remove an item from the top of stack.
Remove and return the top stack item. Returns -1 if the stack is already empty, 0 if the stack is not already empty, and -1 if failure occurs.
int ACE_Bounded_Stack< T >::push | ( | const T & | new_item | ) | [inline] |
Add an element to the top of the stack.
Place a new item on top of the stack. Returns -1 if the stack is already full, 0 if the stack is not already full, and -1 if failure occurs.
size_t ACE_Bounded_Stack< T >::size | ( | void | ) | const [inline] |
The number of items in the stack.
Return the number of items currently in the stack.
int ACE_Bounded_Stack< T >::top | ( | T & | item | ) | const [inline] |
Examine the contents of the top of stack.
Return top stack item without removing it. Returns -1 if the stack is already empty, 0 if the stack is not already empty, and -1 if failure occurs.
ACE_Bounded_Stack< T >::ACE_ALLOC_HOOK_DECLARE |
Declare the dynamic allocation hooks.
size_t ACE_Bounded_Stack< T >::size_ [private] |
Size of the dynamically allocated data.
T* ACE_Bounded_Stack< T >::stack_ [private] |
Holds the stack's contents.
size_t ACE_Bounded_Stack< T >::top_ [private] |
Keeps track of the current top of stack.