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Why does the following code work?

class foo {
    template <typename F>
    int Map(F function) const {
       return function(2);
int Double(int n) {
    return 2*n;

int main(){
    foo f;
    int n = f.Map(Double);

My understanding is that the function accepting the function pointer must have format such as:

void foo(int (*ptf)(int))

So the Map function should look like

int Map(int (*ptf)(int)){
    return (*ptf)(2);

does the it somehow resolve the function at run-time or at compile-time through template? the above code was compiled and ran in vc++ 2010

share|improve this question
Not only can you pass function pointers, you can pass objects that implements a function call operator overload int operator()(int). Actually, any function that allows the expression return function(2); to compile is fair game. Because of this, the Map() function is highly general. – In silico Jun 23 '11 at 22:10
up vote 5 down vote accepted

Template are a compile-time concept, so of course it will be resolved during compile time (if what you mean is the template parameter substitution). Try passing something which you can't call like function(2), e.g., some int. This will yield a compile-time error. After substitution, your function will look like

int Map(int (*function)(int)){
    return function(2);

You don't explicitly need to dereference a function pointer, because both function(2) and (*function)(2) are immediatly converted to a so-called function designator. That itself is dereferenceable again and you can build an endless chain: (***********function)(2) will still work and is still the same as function(2) and (*function)(2).

share|improve this answer
Actually, (de)referencing function pointers is a no-op. &func == func == *func == ********func. – Chris Lutz Jun 23 '11 at 21:39
If you have an array of arrays of arrays of function pointers, then I guess the first few levels of dereferencing are important? Or will it automatically take array_of_array_of_arrays[0][0][0](2); – Aaron McDaid Jan 16 '12 at 21:34
@AaronMcDaid: Well, of course they would then be important, since they won't have anything to do with the function pointer... – Xeo Jan 16 '12 at 21:39

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