I was reading about closures on the net. I was wondering if C++ has a built-in facility for closures or if there is any way we can implement closures in C++?


The latest C++ standard, C++11, has closures.



  • 6
    No we don't. In C++, all closures are member functions of a hidden class that gets passed around. And because a class gets passed around, the function singnatures are incompatible. Yes, we kinda have closures, but they are NOT actual closures, they are NOT a function that has access to some other functions variables, that gets allocated and whose address can be passed around. Neither with bind, nor with lambda-expressions. And Visual Studio/VisualCPP doesn't support alloc_callback, which is used in C to do this. And you can't pass a member function to a function that expects a static function. – Stefan Steiger Mar 27 '19 at 9:27

If you understand closure as a reference to a function that has an embedded, persistent, hidden and unseparable context (memory, state), then yes:

class add_offset {
    int offset;
    add_offset(int _offset) : offset(_offset) {}
    int operator () (int x) { return x + offset; }

// make a closure
add_offset my_add_3_closure(3);

// use closure
int x = 4;
int y = my_add_3_closure(x);
std::cout << y << std::endl;

The next one modifies its state:

class summer
    int sum;
    summer() : sum(0) {}
    int operator () (int x) { return sum += x; }

// make a closure
summer adder;
// use closure
std::cout << adder(0) << std::endl;

The inner state can not be referenced (accessed) from outside.

Depending on how you define it, a closure can contain a reference to more than one function or, two closures can share the same context, i.e. two functions can share the same persistent state.

Closure means not containing free variables - it is comparable to a class with only private attributes and only public method(s).

  • 8
    The behavior is similar to a closure but I would not say it is a closure. – Setepenre Nov 11 '15 at 14:45
  • 1
    @Stepenre what would be the difference? – Zrin Nov 12 '15 at 7:15
  • 5
    This hardly looks like a closure, what you have here is just an object holding a state modified by a method, plus some syntactic sugar due to the fact it is "operator()" instead of any other method. Make it return a lambda that depends on the state, or on a parameter of the method, and then we are talking. – dividebyzero Mar 1 '17 at 10:21
  • 3
    @dividebyzero One thing is the abstract idea of a closure, another thing is how you use that idea in a programming language. In the examples above, both "my_add_3_closure" and "adder" are closures - they match the definition. The objects here is effectively a references to a function... I want to underline that the idea of closures was used in C++ programming long before C++11 and that the new lambda construct just makes it easier. – Zrin Mar 1 '17 at 11:53
  • 1
    @AnthonyMonterrosa, you're making a mistake in your argument. private: int sum means the member can be accessed only by member functions, but it still belongs to the instance, not to the class. static int sum would belong to the class. – Zrin May 23 '19 at 8:10

Yes, This shows how you could implement a function with a state without using a functor.

#include <iostream>
#include <functional>

std::function<int()> make_my_closure(int x){
    return [x]() mutable {   
        return x;   

int main()
    auto my_f = make_my_closure(10);

    std::cout << my_f() << std::endl; // 11
    std::cout << my_f() << std::endl; // 12
    std::cout << my_f() << std::endl; // 13

     auto my_f1 = make_my_closure(1);

    std::cout << my_f1() << std::endl; // 2
    std::cout << my_f1() << std::endl; // 3
    std::cout << my_f1() << std::endl; // 4

    std::cout << my_f() << std::endl; // 14

I forgot the mutable keyword which introduced an undefined behaviour (clang version was returning a garbage value). As implemented, the closure works fine (on GCC and clang)

  • 1
    To be really sure, it would be nice to see what happens if you run my_f() again after my_f1(), because it might still be the same variable that you have just directly assigned with the call to make_my_closure. – dividebyzero Mar 1 '17 at 10:28
  • 1
    x is a temporary value in make_my_closure. So IMO it would not make sense. I added the case you asked. Which behave as expected – Setepenre Mar 3 '17 at 16:21

I suspect that it depends on what you mean by closure. The meaning I've always used implies garbage collection of some sort (although I think it could be implemented using reference counting); unlike lambdas in other languages, which capture references and keep the referenced object alive, C++ lambdas either capture a value, or the object refered to is not kept alive (and the reference can easily dangle).


Yes, C++11 has closures named lambdas.

In C++03 there is no built-in support for lambdas, but there is Boost.Lambda implementation.


Strictly speaking. 'Closure' is LISP only. Use Let returns lambda as last commands. 'Let Over Lambda'. This is possible only for LISP because of infinite scope with lexical scoping. I don't know any other language support this natively until know.

(defun my-closure ()
   (let ((cnt 0))
      (lambda () 
         (format t "called : ~A times" (incf cnt)))))

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.