I have seen this definition of a function that receives a function pointer as parameter:
double fin_diff(double f(double), double x, double h = 0.01) {
return (f(x+h)-f(x)) / h;
}
I am used to see this definition with an asterisk, i.e.:
double fin_diff(double (*f)(double), double x, double h = 0.01);
Do you know why the first definition is also valid?
Standard says that these two functions are equivalent as function arguments are adjusted to be a pointer to function arguments:
16.1 Overloadable declarations [over.load]
(3.3) Parameter declarations that differ only in that one is a function type and the other is a pointer to the same function type are equivalent. That is, the function type is adjusted to become a pointer to function type (11.3.5).
same in C:
6.7.5.3 Function declarators (including prototypes)
8 A declaration of a parameter as ‘‘function returning type’’ shall be adjusted to ‘‘pointer to function returning type’’, as in 6.3.2.1.
Pointers to functions are peculiar. Given a function void f();, you can do
void (*fptr)() = f;
void (*fptr)() = &f;
void (*fptr)() = &&f;
void (*fptr)() = &&&f;
ad infinitum.
Similarly, when you call a function through a pointer to function you can do
fptr();
(*fptr)();
(**fptr)();
(***fptr)();
ad infinitum.
Everything collapses.
If a function parameter is specified as a function declaration then the compiler itself implicitly adjusts the parameter as a function pointer.
It is similar to when a function name is passed as an argument of some other function as for example
fin_diff( func_name, 10.0 );
the compiler again implicitly converts the function designator to a pointer to the function.
std::function. Using templates orstd::functionincreases the flexibility by allowing you to pass any kind of callable object with the right signature, like a lambda, functor object, actual function pointer, etc.candc++are two different languages. Please choose one and remove the othertagas the answer is different depending on the language