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I wonder which of the two strategies below is the most efficient for overloading a function (here the function teX in my example).

  1. Using data and pattern matching:

    data TeX
      = TeXt String
      | TeXmath String
      deriving (Show,Read,Eq)
    teX (TeXt t)    = t
    teX (TeXmath t) = "$$" ++ t ++ "$$"
    
  2. Or using a bit of abstraction:

    class TeX t where
      teX :: t -> String
    
    newtype TeXt = TeXt String
      deriving (Show,Read,Eq)
    instance TeX TeXt where
      teX (TeXt t) = t
    
    newtype TeXmath = TeXmath String
      deriving (Show,Read,Eq)
    instance TeX TeXmath where
      teX (TeXmath t) = "$$" ++ t ++ "$$"
    

Surely the first is easier to use and the second easier to enrich; but I wonder if one will run faster than the other, or if Haskell will implement them in the exact same way.

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2  
the second is not really what typeclasses are about, looks like you are trying to replicate classes in OOP –  Arjan Apr 27 '13 at 22:53
2  
You shouldn't be concerned with performance in that way, not for something like rendering to Strings: those are intrinsically so slow that any overhead that may be imposed by the class dictionary is neglectable. In fact, you really shouldn't render to String here, rather to Text (or LaTeX, duh). –  leftaroundabout Apr 28 '13 at 10:17
    
I am with Arjan, the second seems like a really bad idea. See for example the way a type like this one (githubpandoc repo) is rendered by something like your teX function here –  applicative Apr 28 '13 at 18:41
    
The latter module is a bit complicated because it covers so much, but note that that the approach has an extensibility the classes you envisage don't: how would you introduce a function html :: t -> String' and markdown :: t -> String` and like functions such as are defined elsewhere in that package? –  applicative Apr 28 '13 at 18:42

1 Answer 1

The first one is more space-efficient. Calling a function defined in a type class is equivalent to invoking a method in an object-oriented language: any functions which are polymorphic on the type TeX t (i.e., has TeX t => in the type signature) will have to carry around an extra, implicit parameter, namely a dictionary storing the particular methods for a given instance of TeX.

Now, about faster? I'd imagine that for programs with a small memory footprint, the first way is marginally faster due to less memory allocation and one less indirection to actually calling the teX function. For allocation-heavy programs, the same would hold until the program hits some memory allocation threshold—which the first version would hit later, and would therefore be somewhat faster once the 2nd one hits that point.

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7  
I think this answer is over-simplified. Due to inlining and type-specialization, it's quite possible that the TeX dictionary will be resolved entirely at compile-time. As to performance, I would guess that the extra indirection has a much larger impact than allocation. But I wouldn't rely on my intuition for this. –  John L Apr 28 '13 at 5:43
1  
That is true, but not fundamentally true; One could (should) work hard to suit the the fancy of the optimizer, but I don't count that as overcoming the fundamental overhead of using type classes, because it couldn't be reliably ensured. –  jpaugh Apr 28 '13 at 5:49

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