What is the right way to define a function that receives a int->int lambda parameter by reference?

void f(std::function< int(int) >& lambda);


void f(auto& lambda);

I'm not sure the last form is even legal syntax.

Are there other ways to define a lambda parameter?

  • 9
    Why would you need the lambda by reference? Do you mean const&? – deft_code Jun 23 '11 at 18:13

You cannot have an auto parameter. You basically have two options:

Option #1: Use std::function as you have shown.

Option #2: Use a template parameter:

template<typename F>
void f(F &lambda) { /* ... */}

Option #2 may, in some cases, be more efficient, as it can avoid a potential heap allocation for the embedded lambda function object, but is only possible if f can be placed in a header as a template function. It may also increase compile times and I-cache footprint, as can any template. Note that it may have no effect as well, as if the lambda function object is small enough it may be represented inline in the std::function object.

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  • 1
    Templates can also improve I-cache footprint, by eliminating jumps to general non-local code (in this case, execute your lambda directly, without having to jump through the general-purpose std::function wrapper first) – jalf Jun 23 '11 at 18:17
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    This quote, "if the lambda function object is small enough it may be represented inline in the std::function object" is misleading. Lambdas are always available for inline (the compiler can choose not to of course). std::function implementations generally uses small object optimization to avoid heap allocations. If a lambda has a small enough capture list it will be stored in std::function without using the heap. Other than that a lambda's size has no real meaning. – deft_code Jun 23 '11 at 18:20
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    @bdonlan: By the way, why is there & in void f(F & lambda)? – Nawaz Jun 23 '11 at 18:20
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    @bdonlan: But the const& assumes that the members of the lambda (the capture-by-values) cannot be changed. Which may not be what the user wants. – Nicol Bolas Jun 24 '11 at 1:57
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    @bdonlan It's been a while, but passing as non-const reference does not allow construction of a temporary lambda in the function call. An r-value reference would be best here. – zennehoy Sep 11 '13 at 8:42

I would use template as:

template<typename Functor>
void f(Functor functor)
   cout << functor(10) << endl;

int g(int x)
    return x * x;
int main() 
    auto lambda = [] (int x) { cout << x * 50 << endl; return x * 100; };
    f(lambda); //pass lambda
    f(g);      //pass function 



Demo : http://www.ideone.com/EayVq

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I know it's been 7 years, but here's a way nobody else mentioned:

void foo(void (*f)(int)){
    f(1); // calls lambda which takes an int and returns void
int main(){
    foo([](int a){std::cout<<"lambda "<<a<<std::endl;});

Which outputs:

lambda 1

No need for templates or std::function

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  • 7
    this is limited only to lambdas that can decay to function pointers (lambdas w/o captures), and also requires to specify exact signature (same as for std::function case though) while templated version doesn't have this limitation. – Andriy Tylychko Apr 27 '19 at 23:46
  • @AndriyTylychko thanks for the extra info. again, this is just another way. i don't mind specifying the signature. if it ever becomes an issue for something else, then i'd use templates. – Puddle Apr 28 '19 at 0:08

void f(auto& lambda);

That's close. What will actually compile is:

#include <cassert>

/*constexpr optional*/ const auto f = [](auto &&lambda)

int main()
  int counter = 0;
  f([&]{ ++counter; });
  assert(counter == 2);
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