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Is there an implementation in C++, of Damas-Hindley-Milner style type inference, preferably using modern C++ techniques?

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Erm... what is Damas-Hindley-Milner style type inference? Any links would be nice. Also note that C++11 adds auto for type inference, and templates are by-nature inferencing types when used as function parameters. –  Xeo Jan 8 '12 at 2:13
Can you elaborate on what "Damas-Hindley-Milner style type inference" is? I don't feel like googling it. –  Benjamin Lindley Jan 8 '12 at 2:13
@BenjaminLindley: I imagine that this is a situation where if you have to look it up you probably won't have the answer, either... –  Kerrek SB Jan 8 '12 at 2:16
I think the question isn't {implementation of {type inference in C++}}, but rather, {implementation in C++ of {type inference}}. @Keveman: Check the other questions on SO (I added the right tag), maybe they're of some help... maybe the source code of a C++ compiler can be educational, since templates are sort of a functional programming language. –  Kerrek SB Jan 8 '12 at 2:17
Changed the description as per Kerrek's suggestion. –  keveman Jan 8 '12 at 2:28

4 Answers 4

Please consult this presentation or the accompanying paper. The conclusion: "For C++ it is questionable if something like the HM algorithm can be implemented since C++ is weakly typed."

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It can't be implement For C++; the OP wanted it implemented In C++. –  Nicholas Wilson Jan 10 '12 at 13:26

If you are asking for type inference given an expression, these things come to my mind:

  • As @Xeo commented, there is "auto" and "decltype" from C++11, which will go a long way on deducing the type of any given expression. It is the closer feeling you will get to Hindley-Milner type inference in C++.

  • The following boost libraries at some time or another covered part of that functionality: boost::typeof, boost::type_traits, boost::function_types, etc. You can find maybe some interesting functionality and hacks by looking to their source code.

  • With boost::phoenix you get a pure C++ implementation of quite type-polymorphic functions.

  • Almost all interesting boost libraries do some kind of interesting type inference that might be worth taking a look at.

Well, if you are in the neighborhood, you might want to take a look to http://bannalia.blogspot.com/2008/05/functional-characterization-of-c.html , where you will find a characterization of C++ templates as a functional language. If the types of your language form a functional language of their own, then a lot of things become possible ;-) .

My general feeling is that C++ is less serious on type-inference than most functional languages (e.g. Haskell), yet, it is more widely used and has a lot of mature libraries that do quite neat type manipulation, including type-inference and composition.

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I suspect you won't have much luck; the functional guys who write this stuff generally don't do it in C++! Most of the compilers you could go to are used to compile themselves (eg for OCaml, or GHC).

So, if someone did do Hindley-Milner as a toy project, it's probably not on the net; if it was part of compiler, then it's unlikely to be in C++.

Possible things that come to mind:

  • Hugs for Haskell is in C; there'll be some C sources in there somewhere that do what you want, and Haskell's a nice familiar sugar. Not the C++ you want though.
  • I don't know anything about F#, but I think that's HM, and if anyone has written a fat functional compiler in C++ with modern techniques, it could be probably MS. Obviously closed source though.
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Here's my implementation of Hindley-Milner type inference in C++11, based on the Python code by Robert Smallshire, the Scala code by Andrew Forrest, the Perl code by Nikita Borisov and the paper "Basic Polymorphic Typechecking" by Cardelli.

It makes heavy use of boost::variant and boost::apply_visitor.

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