Seeking Unification Algorithm in F#

I am transforming ASTs and need more than simple pattern matching, thus the unification algorithm.

While this is for a .NET project and I know that I could just interoperate with a .NET PROLOG implementation, I only need to embed the unification algorithm; so PROLOG is overkill.

If I could get "Martelli, Montanari: An Efficient Unification Algorithm" written in F# that would be perfect, but I will settle for it any functional language including HASKELL and translate to F#.

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Care to share your attempts? –  John Palmer Mar 1 '12 at 22:26
It might be rough-going, but have you checked the F# source? Alternatively, you can buy the article you referenced. –  Daniel Mar 1 '12 at 22:49
@Daniel There is probably no need to buy the article from ACM as it is available for free online (e.g. nsl.com/misc/papers/martelli-montanari.pdf). But AFAIK, this is a standard unification algorithm and is well documented on WikiPedia: en.wikipedia.org/wiki/Unification_algorithm –  Tomas Petricek Mar 1 '12 at 23:48
@GuyCoder - if you have a problem just post a new question - the idea of Stack Overflow is that someone else can learn from what you are doing –  John Palmer Mar 14 '12 at 1:40
@TomasPetricek As far as I'm concerned what you can find on Wikipedia is an exponential Robinson algorithm. It's still used as it performs well in the real-world. The article however certainly describes something more sophisticated. There are linear time and almost linear time algorithms available: Baxter, Paterson-Wegman, etc. There's a good survey by Kevin Knight. –  julkiewicz Mar 24 '12 at 15:26

In general, it is a good practice to share your attempts when asking questions on SO. People will not generally give you a complete solution for your problems - just answers when you have specific question or hints how to approach the problem.

So, I'll share some hints about the general approach, but it is not a complete solution. First you need to represent your AST in some way. In F#, you can do that using discriminated unions. The following supports variables, values and function applications:

``````type Expr =
| Function of string * Expr list
| Variable of string
| Value of int
``````

Unification is a function that takes list of expressions to be unified of type `(Expr * Expr) list` and returns assignments to variables (assigning an expression `Expr` to a variable name `string`):

``````let rec unify exprs =
match exprs with
// Unify two variables - if they are equal, we continue unifying
// the rest of the constraints, otherwise the algorithm fails
| (Variable s1, Variable s2)::remaining ->
if s1 = s2 then unify remaining
else failwith "cannot unify variables"
// Unify variable with some other expression - unify the remaining
// constraints and add new assignment to the result
| (Variable s, expr)::remaining
| (expr, Variable s)::remaining  ->
let rest = unify remaining
// (s, expr) is a tuple meaning that we assign 'expr' to variable 's'
(s, expr)::rest

// TODO: Handle remaining cases here!
| _ -> failwith "cannot unify..."
``````

There are a few cases that you'll need to add. Most importantly, unifying `Function` with `Function` means that you need to check that the function names are the same (otherwise fail) and then add all argument expressions as new constraints to the `remaining` list...

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@GuyCoder No problem - that sounds like you're looking for existing implementation that you could use - I'm not aware of any (simple and extensible) code that you could re-use, but building on my sample, it shouldn't be too difficult to complete it. –  Tomas Petricek Mar 1 '12 at 23:44
@GuyCoder It is a bit unfortunate that you cannot use discriminated unions - wrapping the ANTLR CommonTree in active patterns so that you get nice pattern matching in F# sounds like a way to go! –  Tomas Petricek Mar 1 '12 at 23:45