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Reading some old posts on caml-list I came across the following post by Jacques Garrigues: http://caml.inria.fr/pub/ml-archives/caml-list/2007/11/24e8215c8d844b05db58ed3f79c9645f.en.html

The quote that I care about is the following:

Method calls on arbitrary objects can be slow. This is because, due to subtyping, in some situations there is no way to know where the method will be in the table, and a binary search has to be done.

Can anybody explain why this is the case? Why exactly subtyping (inheritance I'm assuming in this case) is affecting this? Is this the case for OCaml's implementation or do other languages suffer from this as well?

Please point me towards further resources regarding this, google has failed me.

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3  
Subtyping != inheritance. –  delnan Dec 9 '12 at 0:13
    
Hmm, looks like I have some reading to do... –  rgrinberg Dec 9 '12 at 17:21

2 Answers 2

up vote 3 down vote accepted

Can anybody explain why this is the case?

With nominal typing each method can be assigned a unique integer at compile time so a virtual function can be found by indexing into an array. With structural typing (as in OCaml) this cannot be done so a hash of the structure (i.e. method name) is used to search for virtual method's function pointer in a dictionary.

Why exactly subtyping (inheritance I'm assuming in this case) is affecting this?

Subtypes are a prerequisite for virtual dispatch.

Is this the case for OCaml's implementation or do other languages suffer from this as well?

Just OCaml's implementation. In F#, I have used reflection and run-time code generation to achieve the same effect with no such invoke-time performance hit.

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This is a good answer but I'm still not clear where the binary search comes in exactly. –  rgrinberg Feb 7 '13 at 19:40

I think that delnan's comment that, in OCaml, “Subtyping != inheritance” holds the insight to the explanation.

$ rlwrap ocaml
        OCaml version 4.00.1

# let f o = o#x + o#y ;;
val f : < x : int; y : int; .. > -> int = <fun>
# 

Function f above accepts any object o that has methods x : int and y : int. Not objects that inherit from some class c in which an offset for these methods could have been fixed in advance, mind you. Any object with these methods. I guess this is difficult to implement, and may be one of the cases Jacques is referring to in his message.

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Thanks Pascal. I still don't understand why the lookup should be anything more than a hash table look up in an appropriate vtable. Perhaps I should take a look at the OCaml sour code. In any case I will accept your answer if nobody else has an explanation... –  rgrinberg Dec 9 '12 at 17:34
4  
@rgrinberg You say "hash table lookup" as if it's the cheapest possible implementation, but that's not true. Both hash table lookups and binary search (which is apparently actually used) are significantly (for this level of abstraction) slower compared to an array lookup with a compile-time constant index. –  delnan Dec 9 '12 at 17:43
1  
@delnan I think he's assuming that a hash table lookup would be faster than a binary search and wondering why a hash table isn't used instead. –  Andrew Myers Dec 10 '12 at 14:01

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