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Why can't the compiler figure out these template parameters? Is there a way to make it do so?

(I'm using Visual Studio 2010.)

template<typename T, typename TFunc>
void call(TFunc func) { func(T()); }

void myfunc(void *) { }

int main() { call(myfunc); }
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What do you expect the compiler to "figure out" the template parameters to be? – James McNellis Aug 25 '11 at 2:55
@James: void * and void (*)(void *) maybe? – Mehrdad Aug 25 '11 at 2:56
"Why"? How could anyone possibly expect the compiler to figure out T in this case? What logic can the compiler possibly follow for deducing T??? – AnT Aug 25 '11 at 3:03
It doesn't even match; myfunc accepts a void*, and you're trying to call it with no arguments. – Karl Knechtel Aug 25 '11 at 3:08
@AndreyT- A very reasonable idea would be that it could look at the fact that the argument is a function type taking some type, then assign T to that. It's not a correct idea, but for someone who isn't a wizard at templates it seems like a natural thought. – templatetypedef Aug 25 '11 at 3:09
up vote 11 down vote accepted

T appears nowhere in the parameter list so T cannot be deduced from the function arguments. All types to be deduced must appear in deduced contexts in the parameter list. For example,

template <typename TReturn, typename TParameter>
void call(TReturn (*f)(TParameter))
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-1: no one said it has to be a function... (it could be a functor -- that's why I actually templated it in the first place) – Mehrdad Aug 25 '11 at 2:59
@Mehrdad: It's a good thing you said that in your question. Oh wait, you didn't. You asked "Why can't the compiler figure out these template parameters? Is there a way to make it do so?" and I answered that very question. If you aren't happy with the answer to your question, perhaps you asked the wrong question. – James McNellis Aug 25 '11 at 3:02
@Kerrek: Oops; no, either the return needs to go or the return type of call should be TReturn; I've removed the return, thank you. – James McNellis Aug 25 '11 at 3:08
@James: Changing my -1 to +1 because I misread your answer: I didn't realize that the code was an example for your explanation, rather than a solution for my own code in the question. Sorry about that! :( – Mehrdad Aug 25 '11 at 3:09
Besides - TFunc can't be a functor. Unlike functions, functors can have more than one operator() which in turn means that T is ambiguous. (You've got similar but different issues with overloaded functions; in that case &myfunc already is ambiguous) – MSalters Aug 25 '11 at 9:12

Template parameter deduction for function templates only works based on function arguments, nothing else. The function definition is never looked at for the purpose of determining the template parameters, so your parameter T cannot possibly be deduced.

You could remedy your situation by incorporating the type into the function signature: Since you expect the outer function to be called with a function itself, make that explicit:

template <typename T> void foo(void(*f)(T))
  T x;
  // ...
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Which function are you talkin about when you say "only works based on function arguments" – Seth Carnegie Aug 25 '11 at 2:59
@Seth: I'm referring to the arguments of the function template. – Kerrek SB Aug 25 '11 at 3:00
"You could remedy your situation by making the function signature a std::function<void(T)>" How would this help the compiler deduce T when a function pointer is passed as the argument? – ildjarn Aug 25 '11 at 3:02
@Ildjarn: template <typename T> void foo(std::function<void(T)> f);. Just like James's answer, just with fewer asterisks. – Kerrek SB Aug 25 '11 at 3:03
@Kerrek : It wouldn't work for functors either, or for anything other than an actual std::function<> for that matter. I.e., std::function<> is not capable of helping template argument deduction in this scenario. – ildjarn Aug 25 '11 at 3:13

Combine function overloading with functors, and it becomes impossible in the general case to determine what arguments can be passed to a callable entity.

Consider, for example

struct FunctorExample {
    void operator()(int x) {...}
    std::string operator()(const std::string& ) {...}

If there were some way to coax the compiler to pattern match on arguments, it would have to have undefined or error behavior when applied to FunctorExample.

Instead, the trend seems to be that when you want to template metaprogram with functors, you specify the functor and argument list. Examples (off the top of my head) being boost::result_of and boost::fusion.

Edit: That said, if you're willing to restrict your attention somewhat, and you can use some C++11 syntax (decltype), you can arrange to introspect a bit more:

// Support functors with a very simple operator():
template <typename T> struct argument :
    public argument<decltype(&T::operator())> {};

// Pointers to member functions
template <typename C, typename R, typename A> struct argument<R(C::*)(A)>
    {typedef A type;};

// Function types
template <typename R, typename A> struct argument<R(A)> {typedef A type;};

// Function pointer types.
template <typename R, typename A> struct argument<R(*)(A)> {typedef A type;};

// Now for call:
template <typename FuncType>
void call(FuncType func) { 
    typedef typename argument<FuncType>::type Arg;

// example:
class FunctorInt {public: int operator()(int ) {return 0;};};
void myfunc(void *) {}

int main() {

Variadic templates could be used to expand this stuff to support more than one argument.

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Forgot to mention: VC++10 supports this use of decltype(), as does gcc 4.5 (with --std=c++0x). Oddly, VC++10 threw fits when I tried to use a typedef in the main definition of argument instead of using inheritance... – Managu Aug 25 '11 at 4:30

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