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I recently discovered that in C++ you can overload the "function call" operator, in a strange way in which you have to write two pair of parenthesis to do so:

class A { 
  int n;
  void operator ()() const; 

And then use it this way:

A a;

When is this useful?

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Read about function objects. – AnT Feb 28 '10 at 3:00
up vote 21 down vote accepted

This can be used to create "functors", objects that act like functions:

class Multiplier {
    Multiplier(int m): multiplier(m) {}
    int operator()(int x) { return multiplier * x; }
    int multiplier;

Multiplier m(5);
cout << m(4) << endl;

The above prints 20. The Wikipedia article linked above gives more substantial examples.

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And the main reason you'd want functors is to have higher-order functions in C++. – Harold L Feb 28 '10 at 3:01
You could expand this to, for example, multiply by m the first time you call it, multiply by m+1 the second time, etc. Normal functions can't save any state information in between calls, but functors can. – MatrixFrog Feb 28 '10 at 3:05
Well you can always use static variables in a function to give it state (or globals - shudder). But both are very ugly and error prone. (I'd use a functor instead .. but it is possible) – Michael Anderson Feb 28 '10 at 3:11

If you're making a class that encapsulates a function pointer, this might make the usage more obvious.

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A algorithm implemented using a template doesn't care whether the thing being called is a function or a functor, it cares about the syntax. Either standard ones (e.g. for_each()) or your own. And functors can have state, and do all kinds of things when they are called. Functions can only have state with a static local variable, or global variables.

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There's little more than a syntactic gain in using operator() until you start using templates. But when using templates you can treat real functions and functors (classes acting as functions) the same way.

class scaled_sine
    explicit my_sine( float _m ) : m(_m) {}
    float operator()(float x) const { return sin(m*x); }
    float m;

template<typename T>
float evaluate_at( float x, const T& fn )
   return fn(x);

evaluate_at( 1.0, cos );
evaluate_at( 1.0, scaled_sine(3.0) );
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Yep; function-like objects really are most useful when you have sufficiently weak typing. C++ hasn't got that, but templates do. – Adrian Ratnapala Sep 1 '12 at 14:21

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