I recently have got excited by functors and been using them all over the place. Then the situation arose where I needed my functor to perform two different operations and I thought about adding another method to my functor (not overloading the () operator). Whether this is bad practice or not I am not sure (perhaps you could tell me), but it got me thinking about why I am using functors in the first place and not just objects. So my question is:

**Is there anything special about overloading the () operator or is it just very slightly more syntactically appealing than using normal named methods?**

**Update:**

Firstly, I know why functors may be preferable to function pointers as explained in other questions. I want to know why they can be preferable to objects with named methods.

Secondly, as for an example of when I wanted to use another possibly named method of my functor: Basically I have two functions, one which calculates something called the modularity of a graph partition - `compute_modularity()`

, and another which computes the gain in modularity after some change of the partition`compute_modularity_gain()`

. I thought I could pass these functions as part of the same functor into an optimisation algorithm, with the gain as a named function. The reason I don't just pass two functors into the algorithm, is that I want to enforce that `compute_modularity_gain()`

is used only in conjuction with `compute_modularity()`

and not another functor e.g. `compute_stability()`

(which should only be used with `compute_stability_gain()`

. In other words, the gain function must be tightly coupled with its sibling function. If there is another way I can enforce this constraint then please let me know.

exactduplicates. This question is similar, but has a qualitatively different aspect: why can't functors be implemented using normal named methods and why can they only implement the one method? – Marcelo Cantos Apr 5 '11 at 0:52