I am going to go against the current here.
In C, function pointers are the only way to implement customization, because there is no OO.
In C++, you can use either function pointers or functors (function objects) for the same result.
The functors have a number of advantages over raw function pointers, due to their object nature, notably:
- They may present several overloads of the
- They can have state / reference to existing variables
- They can be built on the spot (
I personally prefer functors to function pointers (despite the boilerplate code), mostly because the syntax for function pointers can easily get hairy (from the Function Pointer Tutorial):
typedef float(*pt2Func)(float, float);
// defines a symbol pt2Func, pointer to a (float, float) -> float function
typedef int (TMyClass::*pt2Member)(float, char, char);
// defines a symbol pt2Member, pointer to a (float, char, char) -> int function
// belonging to the class TMyClass
The only time I have ever seen function pointers used where functors could not was in Boost.Spirit. They have utterly abused the syntax to pass an arbitrary number of parameters as a single template parameter.
typedef SpecialClass<float(float,float)> class_type;
But since variadic templates and lambdas are around the corner, I am not sure we will use function pointers in pure C++ code for long now.