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I have a problem when binding a function object created by bind as an argument to a function.

I have two functions fa and fb. fa takes a function as a parameter. I bind fa and the function (fb in that case) into a closure. I do it in two different ways, given below. The first one works, the second one does not compile.

(I know, I would not need to bind on the marked line since there are no parameters. But of course this is only the minimal example to show the behavior, in practice I will bind parameters to fb)

void fa(function<void()> f){

void fb(){


void test_which_compiles() {
    auto bb = fb; // *** QUESTIONABLE LINE ***
    auto aa = std::bind(fa, bb);

void test_which_fails() {
    auto bb = std::bind(fb); // *** QUESTIONABLE LINE ***
    auto aa = std::bind(fa, bb);

The compile error happens when invoking aa().

So it seems that the compiler does not accept when I bind a function object as an argument which was itself created by bind.

The compile error is a long list of stuff that I would not consider directly related to the line. I only give the first line:

/Applications/Xcode.app/Contents/Developer/Toolchains/XcodeDefault.xctoolchain/usr/bin/../include/c++/v1/type_traits:3476:13: error: no matching function for call to '__invoke' __invoke(_VSTD::declval<_Fp>(), _VSTD::declval<_Args>()...)

The compiler is an Apple LLVM version 6.1.0 (clang-602.0.53) (based on LLVM 3.6.0svn) with C++11 enabled.

marked as duplicate by PSIAlt, Jonathan Wakely c++ Sep 16 '15 at 14:22

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  • 2
    which compiler? is it std::bind? please provide minimal but complete example, with required includes and namespaces – Andriy Tylychko Sep 16 '15 at 14:06
  • I'm very sorry, I accidentally hit the submit button way to early... Still working on the question. Can I somehow unsubmit it? – Michael Sep 16 '15 at 14:08
  • @Michael Just continue to edit it. – Some programmer dude Sep 16 '15 at 14:09
  • Stop using std::bind. It does more than just binding. There are almost always better ways to do it today. – Yakk - Adam Nevraumont Sep 16 '15 at 14:30

std::bind returns some unspecified functor which has magical behaviour when nested in another bind expression. You can disable this magical behaviour by wrapping that return type, eg. by declaring bb as:

std::function<void()> bb = std::bind(fb);

and this works identically if bb really has parameters:

std::function<void()> bb = std::bind(fb, 42);

For an explanation, see the second bullet under Member function operator() here:

If std::is_bind_expression<T>::value == true (i.e. another bind subexpression was used as an argument in the initial call to bind), then that bind subexpression is invoked immediately and its result is passed to the invocable object. If the bind subexpression has any placeholder arguments, they are picked from u1, u2, ....

This example shows both the nested bind-expression behaviour and (I think) the behaviour you actually wanted. Edit - now also including Yakk's forwarding wrapper from the comment: more typing than using function or a lambda, but much more lightweight.

#include <iostream>
#include <functional>

void f(int n1, int n2, int n3) {
    std::cout << n1 << ' ' << n2 << ' ' << n3 << '\n'; }
void g(int n1, std::function<int()> fun, int n3) {
    std::cout << n1 << ' ' << fun() << ' ' << n3 << '\n'; }
int h(int n) { return n; }

namespace Yakk {
    template <class F> struct f_t {
        F f;
        template <class...Ts>
        std::result_of_t<F const&(Ts...)> operator()(Ts&&...ts) const& {
            return f(std::forward<Ts>(ts)...);
        } /* similar for &, &&, const&& */

    template <class F> f_t<std::decay_t<F>> f(F&& fin) {
        return {std::forward<F>(fin)};

int main() {
    using namespace std::placeholders;
    auto subexpr = std::bind(h, _2);
    auto magic = std::bind(f, _1, subexpr, 42);
    magic(7, 11);

    std::function<int()> nested = std::bind(h, 11);
    auto nomagic = std::bind(g, _1, nested, 42);

    auto yakkmagic = std::bind(g, _1, Yakk::f(std::bind(h, 11)), 42);
  • But the unspecified function is convertible to std::function<void()>, so it is reasonable to expect it to work, as any other functor type convertible to std::function<void()> would. It doesn't work because of a specific feature of std::bind, not just because the type is unspecified. – Jonathan Wakely Sep 16 '15 at 14:21
  • Yes, I just realized that when I examined bind more carefully - I hadn't noticed the subexpression stuff before – Useless Sep 16 '15 at 14:22
  • template<class F> struct f_t{F f; template<class...Ts> std::result_of_t<F const&(Ts...)> operator()(Ts&&...ts)const&{return f(std::forward<Ts>(ts)...);} /* similar for &, &&, const&& */ }; template<class F> f_t<std::decay_t<F>> f(F&& fin){return {std::forward<F>(fin)};} is a minimal, cost-free wrapper that hides the std::bind-ness of std::bind results. – Yakk - Adam Nevraumont Sep 16 '15 at 19:51

The problem is that std::bind is specified to invoke nested bind expressions, so when you call aa() it doesn't pass bb to fb. Instead it passes the argument list (which is empty) to bb, so it calls bb(), and then passes the result of that to fa , which expects a std::function<void()> so you get an error.

Boost.Bind provides the protect utility to wrap a nested bind expression to prevent it being recursively evaluated, but there is no std::protect. You can achieve a similar effect by wrapping it in a std::function:

void test_which_fails() {
    auto bb = std::bind(fb);
    auto aa = std::bind(fa, std::function<void()>(bb));

Or in a lambda:

void test_which_fails() {
    auto bb = std::bind(fb);
    auto aa = std::bind(fa, [=]{ bb(); });

but if you're going to use lambdas you might as well not bother with std::bind at all.

  • Is there a reason for this behavior? In my eyes, it's an extremely strange idea. Why should std::bind return different values depending from where it is called? That's completely in contrast to the behavior of functions in any programming language I know. Furthermore, one does definitely not expect it, it's more or less a hidden trap. – Michael Sep 16 '15 at 17:41
  • It doesn't return different values depending where it's called. Calling bb always returns void, and calling aa always returns void too. The reason it works like that is given at the link to the Boost docs in my answer, so you can compose multiple functions together and have one provide inputs to the next. – Jonathan Wakely Sep 16 '15 at 20:53

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