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I am using std::queue for implementing JobQueue class. ( Basically this class process each job in FIFO manner). In one scenario, I want to clear the queue in one shot( delete all jobs from the queue). I don't see any clear method available in std::queue class.

How do I efficiently implement the clear method for JobQueue class ?

I have one simple solution of popping in a loop but I am looking for better ways.

//Clears the job queue
void JobQueue ::clearJobs()
  // I want to avoid pop in a loop
    while (!m_Queue.empty())
share|improve this question
Note deque supports clear – bobobobo May 24 '13 at 0:37
up vote 134 down vote accepted

A common idiom for clearing standard containers is swapping with an empty version of the container:

void clear( std::queue<int> &q )
   std::queue<int> empty;
   std::swap( q, empty );

It is also the only way of actually clearing the memory held inside some containers (std::vector)

share|improve this answer
Better yet is std::queue<int>().swap(q). With copy and swap idiom, all this should be equivalent to q = std::queue<int>(). – Alexandre C. Nov 19 '10 at 16:42
While std::queue<int>().swap(q) is equivalent to the code above, q = std::queue<int>() need not be equivalent. Since there is no transfer of ownership in the assignment of the allocated memory some containers (like vector) might just call the destructors of the previously held elements and set the size (or equivalent operation with the stored pointers) without actually releasing the memory. – David Rodríguez - dribeas Nov 20 '10 at 19:44
In std::queue<int>().swap(q), isn't the temporary supposed to be const? – André Caron Aug 31 '11 at 19:40
queue doesn't have a swap(other) method, so queue<int>().swap(q) doesn't compile. I think you have to use the generic swap(a, b). – Dustin Boswell Oct 5 '11 at 7:59
@ThorbjørnLindeijer: From the perspective of the users of the original queue, those elements do not exist. You are correct in that they will be destroyed one after the other and the cost is linear, but they are not accessible by anyone else other than the local function. In a multithreaded environment, you would lock, swap a non-temporary queue with the original one, unlock (to allow for concurrent accesses) and let the swapped queue die. This way you can move the cost of destruction outside of the critical section. – David Rodríguez - dribeas Mar 27 '12 at 21:34

Yes - a bit of a misfeature of the queue class, IMHO. This is what I do:

#include <queue>
using namespace std;;

int main() {
    queue <int> q1;
    // stuff
    q1 = queue<int>();  
share|improve this answer
Good, but swap trick is more effective. – Naszta Apr 29 '13 at 20:14
@Naszta Please elaborate how swap is "more effective" – bobobobo May 24 '13 at 0:33
@bobobobo: q1.swap(queue<int>()); – Naszta May 24 '13 at 19:23
q1=queue<int>(); is both shorter, and clearer (you're not really trying to .swap, you're trying to .clear). – bobobobo May 24 '13 at 23:25
With the new C++, just q1 = {} is enough – Mykola Bogdiuk Feb 21 '15 at 17:28

'David Rodriguez', 'anon' Author of the topic asked how to clear the queue "efficiently", so I assume he wants better complexity than linear O(size of queue). Methods that you served have the same complexity: according to stl reference, operator = has complexity O(size of queue). IMHO it's because each element of queue is reserved separately and it isn't allocated in one big memory block, like in vector. So to clear all memory, we have to delete every element separately. So the straightest way to clear stl::queue is one line:

while(!Q.empty()) Q.pop();
share|improve this answer
You can't just look at the O complexity of the operation if you are operating on real data. I would take a O(n^2) algorithm over a O(n) algorithm if the constants on the linear operation make it slower than the quadratic for all n < 2^64, unless I had some strong reason to believe I had to search the IPv6 address space or some other specific problem. Performance in reality is more important to me than performance at the limit. – David Stone Apr 16 '12 at 6:26

Apparently, there are two most obvious ways to clear std::queue: swapping with empty object and assignment to empty object.

I would suggest using assignment because it simply faster, more readable, and unambiguous.

I measured performance using following simple code and I found that swapping in C++03 version works 70-80% slower than assignment to an empty object. In C++11 there is no difference in performance, however. Anyway, I would go with assignment.

#include <algorithm>
#include <ctime>
#include <iostream>
#include <queue>
#include <vector>

int main()
    std::cout << "Started" << std::endl;

    std::queue<int> q;

    for (int i = 0; i < 10000; ++i)

    std::vector<std::queue<int> > queues(10000, q);

    const std::clock_t begin = std::clock();

    for (std::vector<int>::size_type i = 0; i < queues.size(); ++i)
        // OK in all versions
        queues[i] = std::queue<int>();

        // OK since C++11
        // std::queue<int>().swap(queues[i]);

        // OK before C++11 but slow
        // std::queue<int> empty;
        // std::swap(empty, queues[i]);

    const double elapsed = double(clock() - begin) / CLOCKS_PER_SEC;

    std::cout << elapsed << std::endl;

    return 0;
share|improve this answer

You could create a class that inherits from queue and clear the underlying container directly. This is very efficient.

template<class T>
class queue_clearable : public std::queue<T>
    void clear()

Maybe your a implementation also allows your Queue object (here JobQueue) to inherit std::queue<Job> instead of having the queue as a member variable. This way you would have direct access to c.clear() in your member functions.

share|improve this answer
STL containers are not designed to be inherited from. In this case you're probably okay because you're not adding any additional member variables, but it's not a good thing to do in general. – bstamour Apr 29 '13 at 20:40

I'd rather not rely on swap() or setting the queue to a newly created queue object, because the queue elements are not properly destroyed. Calling pop()invokes the destructor for the respective element object. This might not be an issue in <int> queues but might very well have side effects on queues containing objects.

Therefore a loop with while(!queue.empty()) queue.pop();seems unfortunately to be the most efficient solution at least for queues containing objects if you want to prevent possible side effects.

share|improve this answer
swap() or assignment calls the destructor on the now-defunct queue, which calls the destructors of all objects on the queue. Now, if your queue has objects that are actually pointers, that's a different issue -- but a simple pop() won't help you there, either. – jhfrontz Jan 20 at 22:54

Using a unique_ptr might be OK.
You then reset it to obtain an empty queue and release the memory of the first queue. As to the complexity? I'm not sure - but guess it's O(1).

Possible code:

typedef queue<int> quint;

unique_ptr<quint> p(new quint);

// ...

p.reset(new quint);  // the old queue has been destroyed and you start afresh with an empty queue
share|improve this answer
If you choose to empty the queue by deleting it, that's OK, but that's not what the question is about, and I don't see why unique_ptr comes in. – manuell Jan 10 '15 at 17:48

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