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I have these two test functions:

int apply_a(int (*fun)(int, int), int m, int n) {
    return (*fun)(m,n);

int apply_b(int (*fun)(int, int), int m, int n) {
    return fun(m,n);

they appear to return something different, so why do both of them yield the same result?

int add(int a, int b) {return a + b;}

int res_a = apply_a(add, 2, 3); // returns 5
int res_b = apply_b(add, 2, 3); // returns 5

I would've assumed that one of them would return the pointer address or the pointer itself; rather than the value stored on the pointer...

So why is it doing this?

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Because either syntax (with or without the asterisk) is valid for calling a function through a pointer. The second case is a call (you can tell by the parentheses and passed parameters). –  StoryTeller Oct 27 '13 at 11:23
Neither is good. You should use (***fun)(m, n) to qualify as a three-star programmer. –  Kerrek SB Oct 27 '13 at 11:38

4 Answers 4

up vote 7 down vote accepted

Because C++ offers syntactic sugar when it comes to handling the address of non-member functions and using pointers to them.

One can get address of such function:

int someFunc(int);

with either:

int (* someFuncPtr)(int) = someFunc;


int (* someFuncPtr)(int) = &someFunc;

There is also syntactic sugar for using such pointer, either call pointed-to function with:


or with simplified syntax:

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Remember that the same applies also to static class methods (at least on Visual C++ 2012 where I've checked ;)) –  altariste Oct 27 '13 at 11:36
does this apply in C too? or is the sugar rule only for C++? –  Electric Coffee Oct 27 '13 at 11:52
C++ introduces another notation for "function" type: int(int) which is convertible to int(*)(int). someFunc has type int(int) whereas &someFunc has type int(*)(int). –  Matthieu M. Oct 27 '13 at 12:06
@ElectricCoffee, it applies to C too. –  Jonathan Wakely Oct 27 '13 at 12:20

(*fun)(m,n) is the same as fun(m,n) due to rules in C and C++ that convert functions to pointers to functions.

In C 2011, the rule is clause 4: “A function designator is an expression that has function type. Except when it is the operand of the sizeof operator, the _Alignof operator, or the unary & operator, a function designator with type “function returning type” is converted to an expression that has type “pointer to function returning type”. In C++, the rule is clause 4.3.

Note that a function designator is not merely an identifier that names a function. It could be an identifier, or it could be another expression. For example, if foo is the name of a function, it is automatically converted to a pointer to a function by the above. Then, since foo is a pointer to the function, *foo is the function. This means you can write:


The result is that fun is automatically converted to a pointer, then * evaluates to the function, then *fun is converted back to a pointer, then the function is called. You can continue this and write:


This is the same as fun(m,n). Each * produces the function again, but the compiler automatically converts it back to a pointer. You can continue this battle forever, but the compiler will always win.

In fact, these all have the same effect:

( fun)(m,n)
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It is because you are not returning memory addresses of these values. Calling a function with pointer does not change it's value it's still calling the function. What you can do is return a value to a variable and then get it's memory address such as:

int result = fun(m,n);
cout << "the result " << result << " pointing at " << &result << endl;
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In C and C++ name of functions are also the pointers to the function code. As any pointer you can dereference them using *, which in case of function pointers mean invocation of the function when in addition to dereferencing you use also paranthesis after them, like in your apply_a case. But also valid invocation of C and C++ function is calling them simply by their name, which is apply_b case.

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It is not the name. Any expression that is a function, not just a function name, will be converted to a pointer to the function. –  Eric Postpischil Oct 27 '13 at 11:57

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