Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Possible Duplicate:
std::bind a bound function

void foo0(int val) { std::cout << "val " << val << "\n"; }
void foo1(int val, std::function<void (int)> ftor) { ftor(val); }
void foo2(int val, std::function<void (int)> ftor) { ftor(val); }

int main(int argc, char* argv[]) {
    auto                applyWithFoo0       ( std::bind(foo0,     std::placeholders::_1) );
    //std::function<void (int)> applyWithFoo0       ( std::bind(foo0,     std::placeholders::_1) ); // use this instead to make compile
    auto                applyFoo1       (     std::bind(foo1, std::placeholders::_1, applyWithFoo0) );
    foo2(123, applyFoo1);

The sample above does not compile giving multiple errors like: Error 1 error C2780: '_Ret std::tr1::_Callable_fun<_Ty,_Indirect>::_ApplyX(_Arg0 &&,_Arg1 &&,_Arg2 &&,_Arg3 &&,_Arg4 &&,_Arg5 &&,_Arg6 &&,_Arg7 &&,_Arg8 &&,_Arg9 &&) const' : expects 10 arguments - 2 provided.
Using the commented line with explicit type does compile. It seems that the type inferred by auto is not correct. What is the problem with auto in this case?
Platform: MSVC 10 SP 1, GCC 4.6.1

share|improve this question

marked as duplicate by Jonathan Wakely, Fraser, j0k, Jason Sturges, Graviton Jul 27 '12 at 4:12

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

What's wrong with just using &foo0 instead of bind(foo0, _1) ? It's already a unary callable object – Jonathan Wakely Jul 24 '12 at 18:52
@MSalters: It seems a dupe indeed. Using std::function seems to enable a magic conversion which does what the OP want. Otherwise the right hand side does not have the semantics one would expect naively. – Alexandre C. Jul 24 '12 at 20:51
@Jonathan: Actually it's about currying. I omitted further parameters for simplicity. Yes, I could use lambdas as well. – Simon1X Jul 25 '12 at 7:28
@MSalters: Thanx for the reference. I think you are right. Feel free to mark it as a dublicate. – Simon1X Jul 25 '12 at 8:26
@MSalters: I think you're right. I wish I had followed your link before answering this one. – sellibitze Jul 25 '12 at 8:56

2 Answers 2

up vote 1 down vote accepted

The issue is that std::bind treats "bind expression" (like your applyWithFoo0) differently from other types. Instead of calling foo1 with applyWithFoo0 as parameter it tries to invoke applyWithFoo0 and pass its return value to foo1. But applyWithFoo0 doesn't return anything that is convertible to std::function<void(int)>. The intention of handling "bind expressions" like this is to make them easily composable. In most cases you probably don't want bind expression to be passed as function parameters but only their results. If you explicitly wrap the bind expression into a function<> object, the function<> object will simply be passed to foo1 directly since it is not a "bind expression" and therefore not handled specially by std::bind.

Consider the following example:

#include <iostream>
#include <functional>

int twice(int x) { return x*2; }

int main()
  using namespace std;
  using namespace std::placeholders;
  auto mul_by_2 = bind(twice,_1);
  auto mul_by_4 = bind(twice,mul_by_2); // #2
  auto mul_by_8 = bind(twice,mul_by_4); // #3
  cout << mul_by_8(1) << endl;

This actually compiles and works because instead of passing a functor to twice like you might expect from the bind expressions #2 and #3, bind actually evaluates the passed bind expressions and uses its result as function parameter for twice. Here, it is intentional. But in your case, you tripped over this behaviour by accident because you actually want bind to pass the functor itself to the function instead of its evaluated value. Wrapping the functor into a function<> object is obviously a work-around for that.

In my opinion this design decision is a bit awkward because it introduces an irregularity people have to know about to be able to use bind correctly. Maybe, we'll get another more satisfying work around in the future like

auto applyFoo1 = bind( foo1, _1, noeval(applyWithFoo0) );

where noeval tells bind not to evaluate the expression but to pass it directoy to the function. But maybe the other way around -- explicitly telling bind to pass the result of a functor to the function -- would have been a better design:

auto mul_by_8 = bind( twice, eval(mul_by_4) );

But I guess, now it's too late for that ...

share|improve this answer
Boost.Bind provides protect(bind-expr) equivalent to your noeval(bind-expr). Requiring eval(bind-expr) would make it harder to write nested expressions where you do want them to to be treated as a single expression e.g. bind(&Y::f, bind(&getY, bind(&getX, _1)). – Jonathan Wakely Jul 25 '12 at 9:06
@JonathanWakely: Interesting! I didn't know about protect. Thanks. – sellibitze Jul 25 '12 at 9:09

My guess is the parentheses around the std::bind make the parser think you're declaring functions named applyWithFoo0 and applyFoo1.

std::bind returns a functor the type of which auto should be able to detect.

Try this:

 int main(int argc, char* argv[]) {
    auto                applyWithFoo0  =     std::bind(foo0,     std::placeholders::_1);
    //std::function<void (int)> applyWithFoo0        std::bind(foo0,     std::placeholders::_1) ); // use this instead to make compile
    auto                applyFoo1   =    std::bind(foo1, std::placeholders::_1, applyWithFoo0);
    foo2(123, applyFoo1);
share|improve this answer
The most vexing parse error? Did not help. – Simon1X Jul 24 '12 at 15:18

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