Let's say I have a function which takes an std::function:

void callFunction(std::function<void()> x)

Should I pass x by const-reference instead?:

void callFunction(const std::function<void()>& x)

Does the answer to this question change depending on what the function does with it? For example if it is a class member function or constructor which stores or initializes the std::function into a member variable.

  • 1
    Probably not. I don't know for sure, but I would expect sizeof(std::function) to be no more than 2 * sizeof(size_t), which is the least size that you'd ever consider for a const reference. Aug 21, 2013 at 19:01
  • 13
    @Mats: I don't think the size of the std::function wrapper is as important as the complexity of copying it. If deep copies are involved, it could be far more expensive than sizeof suggests.
    – Ben Voigt
    Aug 21, 2013 at 19:08
  • Should you move the function in? Aug 21, 2013 at 19:08
  • operator()() is const so a const reference should work. But I've never used std::function.
    – Neel Basu
    Aug 21, 2013 at 19:09
  • @Yakk I just pass a lambda directly to the function. Aug 21, 2013 at 19:16

3 Answers 3


If you want performance, pass by value if you are storing it.

Suppose you have a function called "run this in the UI thread".

std::future<void> run_in_ui_thread( std::function<void()> )

which runs some code in the "ui" thread, then signals the future when done. (Useful in UI frameworks where the UI thread is where you are supposed to mess with UI elements)

We have two signatures we are considering:

std::future<void> run_in_ui_thread( std::function<void()> ) // (A)
std::future<void> run_in_ui_thread( std::function<void()> const& ) // (B)

Now, we are likely to use these as follows:

run_in_ui_thread( [=]{
  // code goes here
} ).wait();

which will create an anonymous closure (a lambda), construct a std::function out of it, pass it to the run_in_ui_thread function, then wait for it to finish running in the main thread.

In case (A), the std::function is directly constructed from our lambda, which is then used within the run_in_ui_thread. The lambda is moved into the std::function, so any movable state is efficiently carried into it.

In the second case, a temporary std::function is created, the lambda is moved into it, then that temporary std::function is used by reference within the run_in_ui_thread.

So far, so good -- the two of them perform identically. Except the run_in_ui_thread is going to make a copy of its function argument to send to the ui thread to execute! (it will return before it is done with it, so it cannot just use a reference to it). For case (A), we simply move the std::function into its long-term storage. In case (B), we are forced to copy the std::function.

That store makes passing by value more optimal. If there is any possibility you are storing a copy of the std::function, pass by value. Otherwise, either way is roughly equivalent: the only downside to by-value is if you are taking the same bulky std::function and having one sub method after another use it. Barring that, a move will be as efficient as a const&.

Now, there are some other differences between the two that mostly kick in if we have persistent state within the std::function.

Assume that the std::function stores some object with a operator() const, but it also has some mutable data members which it modifies (how rude!).

In the std::function<> const& case, the mutable data members modified will propagate out of the function call. In the std::function<> case, they won't.

This is a relatively strange corner case.

You want to treat std::function like you would any other possibly heavy-weight, cheaply movable type. Moving is cheap, copying can be expensive.

  • The semantic advantage of "pass by value if you are storing it", as you say, is that by contract the function can't keep the address of the argument passed. But is it really true that "Barring that, a move will be as efficient as a const&"? I always see the cost of a copy operation plus the cost of the move operation. With passing by const& I only see the cost of the copy operation.
    – ceztko
    May 8, 2017 at 13:59
  • 2
    @ceztko In both (A) and (B) cases, the temporary std::function is created from the lambda. In (A), the temporary is elided into the argument to run_in_ui_thread. In (B) a reference to said temporary is passed to run_in_ui_thread. So long as your std::functions are created from lambdas as temporaries, that clause holds. The previous paragraph deals with the case where the std::function persists. If we are not storing, just creating from a lambda, function const& and function have the exact same overhead. May 8, 2017 at 14:04
  • Ah, I see! This of course depends of what happens outside of run_in_ui_thread(). Is there just a signature to say "Pass by reference, but I won't store the address"?
    – ceztko
    May 8, 2017 at 14:17
  • 2
    @Yakk-AdamNevraumont if would be more complete to cover another option to pass by rvalue ref: std::future<void> run_in_ui_thread( std::function<void()>&& )
    – Pavel P
    Aug 13, 2018 at 4:22
  • 1
    @passionateProgrammer Better late than never. stackoverflow.com/questions/18453145/… Feb 26 at 2:05

If you're worried about performance, and you aren't defining a virtual member function, then you most likely should not be using std::function at all.

Making the functor type a template parameter permits greater optimization than std::function, including inlining the functor logic. The effect of these optimizations is likely to greatly outweigh the copy-vs-indirection concerns about how to pass std::function.


template<typename Functor>
void callFunction(Functor&& x)
  • 1
    I'm not worried at all about performance actually. I just thought using const-references where they should be used is common practice (strings and vectors come to mind). Aug 21, 2013 at 19:14
  • 15
    @Ben: I think the most modern hippie-friendly way of implementing this is to use std::forward<Functor>(x)();, to preserve the value category of the functor, since it's a "universal" reference. Not going to make a difference in 99% of the cases, though.
    – GManNickG
    Aug 21, 2013 at 19:29
  • 1
    @Ben Voigt so for your case, would I call the function with a move? callFunction(std::move(myFunctor));
    – arias_JC
    Dec 14, 2017 at 15:22
  • 2
    @arias_JC: If the parameter is a lambda, it's already an rvalue. If you have a lvalue, you can either use std::move if you will no longer need it in any other way, or pass directly if you don't want to move out of the existing object. Reference-collapsing rules ensure that callFunction<T&>() has a parameter of type T&, not T&&.
    – Ben Voigt
    Dec 14, 2017 at 16:54
  • 1
    @BoltzmannBrain: I've chosen not to make that change because it's only valid for the simplest case, when the function is called only once. My answer is to the question of "how should I pass a function object?" and not limited to a function that does nothing besides unconditionally invoke that functor exactly once.
    – Ben Voigt
    Apr 24, 2018 at 19:47

As usual in C++11, passing by value/reference/const-reference depends on what you do with your argument. std::function is no different.

Passing by value allows you to move the argument into a variable (typically a member variable of a class):

struct Foo {
    Foo(Object o) : m_o(std::move(o)) {}

    Object m_o;

When you know your function will move its argument, this is the best solution, this way your users can control how they call your function:

Foo f1{Object()};               // move the temporary, followed by a move in the constructor
Foo f2{some_object};            // copy the object, followed by a move in the constructor
Foo f3{std::move(some_object)}; // move the object, followed by a move in the constructor

I believe you already know the semantics of (non)const-references so I won't belabor the point. If you need me to add more explanations about this, just ask and I'll update.

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