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I have a set of functors for calculating specific stuff on ranges on objects. Essentially, each functor implements operator():

template <typename Iterator1,
          typename Iterator2> double operator()( Iterator1 it1,
                                                 Iterator2 it2 ) const
  return( 0.0 );

I now have a set of objects that can be created with different functors. I solved this by templating the creator function:

template <class Functor> Foo createFoo( ... // some parameters for foo objects
                                        Functor f = Functor() )
  // calculate stuff for "foo" using functor "f"

I now want to delegate functor selection to the user of my program, so I decided to create a functor factory. Given a descriptive name of a functor, I want to create the appropriate functor so that it can be used in the creation of all Foo objects, as above.

This is where I get stuck, though: I cannot create a factory that returns a templated functor because I cannot call this function without coding the exact type of functor I want to create.

I thought about making operator() a virtual function of some base class, i.e. FunctorBase, but I don't want the performance overhead associated with virtual function calls. Avoiding said overhead was why I chose to use templates in the first place.

I am at an impasse here and would sure appreciate some comments.


What I intend to do (invalid code):

DistanceFunctor f = createFunctor( "Bar" ); // Create a functor from a client-supplied string

Foo createFoo( ..., // parameters for foo
               f );

In the comments, the use of virtual functions was suggested as well. The current functor design as described above would not work with virtual functions, though, because the compiler cannot make function templates virtual. Adjusting the functor class to take two Iterator types as template parameters would be possible, but very clunky.


The functors work similar to the ones used in FLANN. See the git repository for an example. I don't see how to specify these functors any differently.

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Can you show how you intend to use all these functions together? –  Joseph Mansfield Apr 8 '13 at 13:21
Is that "performance overhead" measurable? Do the virtual function calls hurt so much, i.e. did a profiler tell you that they are a crucial performance bottleneck? Or are you making your life just a little bit harder doing premature optimization? –  Arne Mertz Apr 8 '13 at 13:29
@ArneMertz: I have not yet implemented the other variant. I figured that if each functor is being applied to several million objects, virtual functions might slow me down. Thus: You may be right :-/ I will implement the other variant and report back with some results. –  Gnosophilon Apr 8 '13 at 14:14
@ArneMertz Stupid me: Since each functor contains a function template, I cannot use virtual. At least not in the way I described it here. –  Gnosophilon Apr 8 '13 at 14:29
What does DistanceFunctor do? The first signature you provided seems like it does somehow accumulate values from a range of objects or something similar. Maybe you don't need a functor iterating over the range, but a predicate that you can pass into createFoo and use it in some algorithm that iterates over the range (e.g. std::accumulate). –  Arne Mertz Apr 8 '13 at 15:26

1 Answer 1

up vote 1 down vote accepted

Having thought a bit about your requrements, this is the first thing that I came up with: Your different functors obviously cannot be derived from a common base class the way they are defined now, since you can't make the templated operator() virtual. But you can make that operator virtual if you push the template parameters away from the operator, up to the functor itself:

template <class Iterator>
struct Functor {
  virtual double operator()(Iterator it1, Iterator it2) const = 0;

How does that help? Having the template at the Functor level at first sight does not look good, since you now will have to know the parameter outside the call of createFunctor, in fact, you will have to explicitly specify the iterator type if you call it:

//some concrete functors
template <class It>
struct FuncImpl_Bar : Functor<It> { /* ... implement op()(It, It) ... */ }:

template <class It>
struct FuncImpl_Meow : Functor<It> { /* ... implement op()(It, It) ... */ }:

template <class Iterator>
std::shared_ptr<Functor<Iterator>> createFunctor(std::string const& str)
  if (str == "Bar") return std::make_shared<FuncImpl_Bar<Iterator>>(/* args *);
  else return return std::make_shared<FuncImpl_Meow<Iterator>>(/* args *);

auto MyFunctor = createFunctor<???>("Bar"); //what iterator type???

But AFAICS you don't nee to know the exact type of the functor outside createFoo - it's sufficient if createFoo knows that type:

Foo createFoo( ... // some parameters for foo objects
                                        std::string const& str ) //look mum, no templates!
  typedef whatever_the_container_i_use::iterator Iter;
  Functor<Iter> MyFunctor = createFunctor<Iter>(str);
  // calculate stuff for "foo" using functor "f"

auto myFoo = createFoo(args, "Bar");
auto myOtherFoo = createFoo(args, "Moo");

In short: pass the factory parameter down to the point where you know the Iterator type, i.e. the type you have to parametrize the functor factory with. Call the factory where you know every input needed, i.e. type and nontype arguments.

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Thanks, that's a nice solution. I am now thinking about rewriting this design, as your solution clearly demonstrated some shortcomings in my initial design. Thanks for your input :) –  Gnosophilon Apr 15 '13 at 6:36

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