I can easily do this:

auto f = []()->int { return 4; };
auto g = [f]()->int { return f(); });
int i = g();

Nevertheless, I cannot do this:

int (*f)() = []()->int { return 4; };
int (*g)() = [f]()->int { return f(); });
int i = g();

Why I got such message in MSVC?

error C2440: 'initializing' : cannot convert from 'ClassName::functionName::< lambda_b2eebcdf2b88a20d8b40b0a03c412089>' to 'int (__cdecl *)(void)'

This occurs on line:

int (*g)() = [f]()->int { return f(); });

How to do this properly?

  • If this is at namespace scope, you can just omit the f from the capture list. – Kerrek SB Sep 27 '16 at 20:40
up vote 10 down vote accepted
int (*f)() = []()->int { return 4; };

is still fine because lambdas with empty capture lists implicitly convert to matching function pointers.

This (crucial) condition is however not met in the second line:

int (*g)() = [f]()->int { return f(); });

Thus the conversion fails.

If you want to store a lambda that captures something, you either need an std::function, or deduce the type with auto as you did before; whatever fits your usecase. Function pointers simply cannot do that (in C++11, for the future, see Yakk's answer).

Well, you can wait for C++17.

template<auto F>
struct function_ptr;
template<class R, class...Args, R(*F)(Args...)>
struct function_ptr<F> {
  using signature = R(Args...);
  constexpr R operator()(Args...args)const {
    return F(std::forward<Args>(args)...);
  constexpr operator signature*() const { return F; }
  constexpr signature* operator+() const { return F; }


constexpr auto f_ = []()->int { return 4; };
function_ptr<+f_> f;

generates a function-pointer like f.

template<class T>struct tag_t {};

template<class F, class...Fs, class R, class...Args>
constexpr auto chain_functions(tag_t<R(Args...)>) {
  constexpr r = [](Args...args)->R{
    return F{}( Fs{}..., std::forward<Args>(args)... );
  return function_ptr<+r>{};

lets us chain function pointers.

constexpr auto f_ = []()->int { return 4; };
function_ptr<+f_> f0;
constexpr auto g_ = [](int(*f)())->int { return f(); });
function_ptr<+g_> g_raw;
auto g0 = chain_functions< function_ptr<+g_>, function_ptr<+f_> >( tag_t<int()>{} );

now g is a function_ptr.

int(*g)() = g0;

should hopefully compile and work. (Not tested, I don't have access to a sufficiently C++17 compiler).

Still a bit obtuse, and definitely not tested. Basically function_ptr is intended to create a type that carries a compile-time function pointer. C++17 provides us with constexpr lambdas, including the ability to get the function pointer out of them in a constexpr context.

We can then compose these function pointer types to generate a new function pointer type.

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