I went through this page but I am not able to get the reason for the same . There it is mentioned that

"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"

But inspecting an element from front() also required that element to be copied in lvalue. For example in this code segment

std::queue<int> myqueue;
int myint;
int result;
std::cin >> myint;
myqueue.push (myint);

/* here temporary will be created on RHS which will be assigned to result, and in case if returns by reference then result will be rendered invalid after pop operation */

result = myqueue.front();  //result.
std::cout << ' ' << result;

on fifth line cout object first creates a copy of myqueue.front() then assigns that to result. So, whats the difference, pop function could have done the same thing.

  • Because is implemented this way (i.e., void std::queue::pop();).
    – 101010
    Jul 30 '14 at 11:37
  • The question has been answered, but as a sidenote: if you really want a pop that returns, it can be easily implemented with a free function: ideone.com/lnUzf6
    – eerorika
    Jul 30 '14 at 11:52
  • 1
    Your link is to the STL documentation. But you are asking about the C++ standard library. Different things. Jul 30 '14 at 11:55
  • 6
    "But inspecting an element from front() also required that element to be copied in lvalue" - no it doesn't. front returns a reference, not a value. You can inspect the value it refers to without copying it. Jul 30 '14 at 12:10
  • 1
    @KeminZhou the model you describe requires a copy. Maybe. If you want to multiplex consumption of the queue then yes, you must make a copy before releasing the lock on the queue. However, if you only care about separating input and output, then you don't need a lock to inspect the front. You could wait to lock until you are done consuming it and need to call pop(). If you use std::queue<T, std::list<T>> then there is no concern about the reference provided from front() being invalidated by a push(). But you must know your usage pattern and should document your constraints.
    – jwm
    Sep 14 '18 at 20:23

So, whats the difference, pop function could have done the same thing.

It could indeed have done the same thing. The reason it didn't, is because a pop that returned the popped element is unsafe in the presence of exceptions (having to return by value and thus creating a copy).

Consider this scenario (with a naive/made up pop implementation, to ilustrate my point):

template<class T>
class queue {
    T* elements;
    std::size_t top_position;
    // stuff here
    T pop()
        auto x = elements[top_position];
        // TODO: call destructor for elements[top_position] here
        --top_position;  // alter queue state here
        return x;        // calls T(const T&) which may throw

If the copy constructor of T throws on return, you have already altered the state of the queue (top_position in my naive implementation) and the element is removed from the queue (and not returned). For all intents and purposes (no matter how you catch the exception in client code) the element at the top of the queue is lost.

This implementation is also inefficient in the case when you do not need the popped value (i.e. it creates a copy of the element that nobody will use).

This can be implemented safely and efficiently, with two separate operations (void pop and const T& front()).

  • hmmm...that makes sense
    – cbinder
    Jul 30 '14 at 12:01
  • 40
    C++11 note: if T has a cheap noexcept move-constructor (which is often the case for the kind of objects put in stacks) then returning by value is efficient and exception-safe.
    – Roman L
    Dec 12 '14 at 22:08
  • 10
    @DavidRodríguez-dribeas: I'm not suggesting any changes, my point was that some of the mentioned drawbacks become less of an issue with C++11.
    – Roman L
    Jun 13 '15 at 15:36
  • 18
    But why is it called pop? that is quite counter-intuitive. It could be named drop, and then it's clear for everyone that it doesn't pop the element, but drops it instead... Dec 18 '17 at 8:59
  • 18
    @utnapistim: the de-facto "pop" operation has always been to take the top element from a stack and return it. When I first came across STL stacks I was surprised, to say the least, about pop not returning anything. See for example on wikipedia. Jan 20 '18 at 19:50

The page you have linked to answers your question.

To quote the whole section relevant:

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.

C++ is designed with efficiency in mind, over the number of lines of code the programmer has to write.

  • 17
    Perhaps, but the real reason is that it is impossible to implement an exception safe version (with the strong guarantee) for a version of pop which returns a value. Jul 30 '14 at 12:35

pop cannot return a reference to the value that is removed, as it is being removed from the data structure, so what should the reference refer to? It could return by value, but what if the result of pop is not stored anywhere? Then time is wasted copying the value unnecessarily.

  • 4
    The real reason is exception safety. There is no safe way to have a "transaction" with the stack (either the element stays on the stack, or it's returned to you) if pop returns and the act of returning can result in an exception. It would obviously have to remove the element before it returns it, and then if something throws the element might be irrevocably lost.
    – Jon
    Jul 30 '14 at 11:45
  • 1
    Does this concern still apply with f.i. a noexcept move constructor? (Of course 0 copies are more efficient that two moves, but that could open the door for an exception safe, efficent combined front+pop)
    – peppe
    Jul 30 '14 at 11:45
  • 1
    @peppe, you could return by value if you know the value_type has a nothrow move constructor, but the queue interface would then be different depending on what type of object you store in it, which would not be helpful. Jul 30 '14 at 11:47
  • 1
    @peppe: That would be safe, but stack is a generic library class and therefore the more it has to assume about the element type the less useful it is.
    – Jon
    Jul 30 '14 at 11:48
  • I know the STL wouldn't allow for that, but that means one can build his own queue class with blackjack and ^W^W^W with this feature :)
    – peppe
    Jul 30 '14 at 11:52

With the current implementation, this is valid:

int &result = myqueue.front();
std::cout << result;

If pop would return a reference, like this:

value_type& pop();

Then the following code could crash, since the reference is not valid anymore:

int &result = myqueue.pop();
std::cout << result;

On the other hand, if it would return a value directly:

value_type pop();

Then you would need to do a copy for this code to work, which is less efficient:

int result = myqueue.pop();
std::cout << result;

Starting from C++11 it would possible to archive desired behavior using move semantics. Like pop_and_move. So copy constructor will not be called, and performance will depend on move constructor only.

  • 3
    No, move semantics does not magically make pop exception safe.
    – L. F.
    May 25 '19 at 1:43

You can totally do this:

std::cout << ' ' << myqueue.front();

Or, if you want the value in a variable, use a reference:

const auto &result = myqueue.front();
if (result > whatever) do_whatever();
std::cout << ' ' << result;

Next to that: the wording 'more sensible' is a subjective form of 'we looked into usage patterns and found more need for a split'. (Rest assured: the C++ language is not evolving lightly...)


I think the best solution would be to add something like

std::queue::pop_and_store(value_type& value);

where value will receive the popped value.

The advantage is that it could be implemented using a move assignment operator, while using front + pop will make a copy.

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