Categories: containers, adaptors | Component type: type |
Queue is a container adaptor, meaning that it is implemented on top of some underlying container type. By default that underlying type is deque, but a different type may be selected explicitly.
int main() { queue<int> Q; Q.push(8); Q.push(7); Q.push(6); Q.push(2); assert(Q.size() == 4); assert(Q.back() == 2); assert(Q.front() == 8); Q.pop(); assert(Q.front() == 7); Q.pop(); assert(Q.front() == 6); Q.pop(); assert(Q.front() == 2); Q.pop(); assert(Q.empty()); }
Parameter | Description | Default |
---|---|---|
T | The type of object stored in the queue. | |
Sequence | The type of the underlying container used to implement the queue. | deque<T> |
Member | Where defined | Description |
---|---|---|
value_type | queue | See below. |
size_type | queue | See below. |
queue() | Default Constructible | The default constructor. Creates an empty queue. |
queue(const queue&) | Assignable | The copy constructor. |
queue& operator=(const queue&) | Assignable | The assignment operator. |
bool empty() const | queue | See below. |
size_type size() const | queue | See below. |
value_type& front() | queue | See below. |
const value_type& front() const | queue | See below. |
value_type& back() | queue | See below. |
const value_type& back() const | queue | See below. |
void push(const value_type&) | queue | See below. |
void pop() [3] | queue | See below. |
bool operator==(const queue&, const queue&) | queue | See below. |
bool operator<(const queue&, const queue&) | queue | See below. |
Member | Description |
---|---|
value_type | The type of object stored in the queue. This is the same as T and Sequence::value_type. |
size_type | An unsigned integral type. This is the same as Sequence::size_type. |
bool empty() const | Returns true if the queue contains no elements, and false otherwise. Q.empty() is equivalent to Q.size() == 0. |
size_type size() const | Returns the number of elements contained in the queue. |
value_type& front() | Returns a mutable reference to the element at the front of the queue, that is, the element least recently inserted. Precondition: empty() is false. |
const value_type& front() const | Returns a const reference to the element at the front of the queue, that is, the element least recently inserted. Precondition: empty() is false. |
value_type& back() | Returns a mutable reference to the element at the back of the queue, that is, the element most recently inserted. Precondition: empty() is false. |
const value_type& back() const | Returns a const reference to the element at the back of the queue, that is, the element most recently inserted. Precondition: empty() is false. |
void push(const value_type& x) | Inserts x at the back of the queue. Postconditions: size() will be incremented by 1, and back() will be equal to x. |
void pop() | Removes the element at the front of the queue. [3] Precondition: empty() is false. Postcondition: size() will be decremented by 1. |
bool operator==(const queue&, const queue&) | Compares two queues for equality. Two queues are equal if they contain the same number of elements and if they are equal element-by-element. This is a global function, not a member function. |
bool operator<(const queue&, const queue&) | Lexicographical ordering of two queues. This is a global function, not a member function. |
[1] Queues are a standard data structure, and are discussed in all algorithm books. See, for example, section 2.2.1 of Knuth. (D. E. Knuth, The Art of Computer Programming. Volume 1: Fundamental Algorithms, second edition. Addison-Wesley, 1973.)
[2] This restriction is the only reason for queue to exist at all. Any container that is both a front insertion sequence and a back insertion sequence can be used as a queue; deque, for example, has member functions front, back, push_front, push_back, pop_front, and pop_back The only reason to use the container adaptor queue instead of the container deque is to make it clear that you are performing only queue operations, and no other operations.
[3] One might wonder why pop() returns void, instead of value_type. That is, why must one use front() and pop() to examine and remove the element at the front of the queue, instead of combining the two in a single member function? In fact, there is a good reason for this design. If pop() returned the front element, it would have to return by value rather than by reference: return by reference would create a dangling pointer. Return by value, however, is inefficient: it involves at least one redundant copy constructor call. Since it is impossible for pop() to return a value in such a way as to be both efficient and correct, it is more sensible for it to return no value at all and to require clients to use front() to inspect the value at the front of the queue.
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