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I am maintaining a set of unique_ptr instances in a priority_queue. At some point, I want to get the first element and remove it from the queue. However, this always produces a compiler error. See sample code below.

int main ()
{
  std::priority_queue<std::unique_ptr<int>> queue;
  queue.push(std::unique_ptr<int>(new int(42)));

  std::unique_ptr<int> myInt = std::move(queue.top());
  return 1;
}

This produces the following compiler error (gcc 4.8.0):

uptrtest.cpp: In function ‘int main()’: uptrtest.cpp:6:53: error: use of deleted function ‘std::unique_ptr<_Tp, _Dp>::unique_ptr(const std::unique_ptr<_Tp, _Dp>&) [with _Tp = int; _Dp = std::default_delete<int>]’    std::unique_ptr<int> myInt = std::move(queue.top());
                                                     ^ In file included from /usr/include/c++/4.8/memory:81:0,
                 from uptrtest.cpp:1: /usr/include/c++/4.8/bits/unique_ptr.h:273:7: error: declared here
       unique_ptr(const unique_ptr&) = delete;
       ^

Changing the code to use queue like in this question fixes the issue and the code compiles just fine.

Is there no way to keep unique_ptrs in a priority_queue or am I missing something?

share|improve this question
    
Have you tried std::unique_ptr<int> myInt{std::move(queue.top())}? – 0x499602D2 May 21 '13 at 2:11
    
Yup, gives the same error message. – Chris May 21 '13 at 2:12
up vote 5 down vote accepted

std::priority_queue::top() returns a const reference so you can't move it. Looking at the public interface of priority_queue there is no method to get a non-const reference that you can move (which is mandatory for unique_ptr, it has no copy constructor).

Solution: replace unique_ptr with shared_ptr to be able to copy them (and not just move them).

Or, of course, use another kind of container altogether (but if you chose priority_queue in the first place, this is probably not acceptable for you).

You could also maybe use a "protected member hack" to access the protected member c (the underlying container) but I wouldn't recommend it, this is quite dirty and quite probably UB.

share|improve this answer
2  
The practical reason has to do with the difficulty of creating an exception-safe "extract element and modify container" method. So C++ std container-editing functions do not extract elements, and element extractors do not modify the container, as a general rule. – Yakk May 21 '13 at 2:59
    
@Yakk Thanks. Can you also explain why std::queue implements a non-const front() method? – Chris May 21 '13 at 3:15
2  
@Chris: I think priority_queue only provides const access to its elements because otherwise one would be able to break invariants (namely, the elements ordering according to the comparison function). queue doesn't have such invariants so it's fine to allow you to modify its elements. – syam May 21 '13 at 3:20
1  
Yep. If you changed the front element of the priority_queue, you'd break the ordering requirements of the container. And most std containers with such invariants break hard if you violate the invariants: the code tends to be written and use those assumptions to run faster than it could otherwise... – Yakk May 21 '13 at 3:28

I agree, this is incredibly annoying. Why does it let me std::move elements into the queue, then give me no way of moving them out? We no longer have a copy of the original, so I need a non-const object when I do a top() and pop().

Solution: extend std::priority_queue, adding a method pop_top() that does both at once. This should preserve any ordering of the queue. It does depend on c++11 though. The following implementation only works for gcc compilers.

template<typename _Tp, typename _Sequence = std::vector<_Tp>,
    typename _Compare = std::less<typename _Sequence::value_type> >
class priority_queue: std::priority_queue<_Tp, _Sequence, _Compare> {
public:
    typedef typename _Sequence::value_type value_type;
public:

#if __cplusplus < 201103L
explicit
priority_queue(const _Compare& __x = _Compare(),
        const _Sequence& __s = _Sequence()) : 
        std::priority_queue(__x, __s) {}
#else
explicit 
priority_queue(const _Compare& __x, const _Sequence& __s) :
        std::priority_queue<_Tp, _Sequence, _Compare>(__x, __s) {}

explicit 
priority_queue(const _Compare& __x = _Compare(), _Sequence&& __s =
        _Sequence()) :
        std::priority_queue<_Tp, _Sequence, _Compare>(__x, std::move(__s)) {}
#endif

using std::priority_queue<_Tp, _Sequence, _Compare>::empty;
using std::priority_queue<_Tp, _Sequence, _Compare>::size;
using std::priority_queue<_Tp, _Sequence, _Compare>::top;
using std::priority_queue<_Tp, _Sequence, _Compare>::push;
using std::priority_queue<_Tp, _Sequence, _Compare>::pop;

#if __cplusplus >= 201103L

using std::priority_queue<_Tp, _Sequence, _Compare>::emplace;
using std::priority_queue<_Tp, _Sequence, _Compare>::swap;

/**
 *  @brief  Removes and returns the first element.
 */
value_type pop_top() {
    __glibcxx_requires_nonempty();

    // arrange so that back contains desired
    std::pop_heap(this->c.begin(), this->c.end(), this->comp);
    value_type top = std::move(this->c.back());
    this->c.pop_back();
    return top;
}

#endif

};
share|improve this answer
    
Thank you very much for this. – Kyle Strand May 25 '15 at 21:36
    
Shouldn't you also be std:moveing for the return top line? – Zulan Dec 1 '15 at 9:59

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