assert false (* algorithm failed *)
let rec set_arity arity = function
+(* FIXME because onlt variables should be in branches of matches, one day *)
| `Var(n,_) -> `Var(n,arity)
| `N _ as t -> t
| `Lam(false, t) -> `Lam(false, set_arity arity t)
aux 0 where
;;
-(************ Parsing ************************************)
-
-let parse' strs =
- let fix_arity = function
- | `I((n,_),args) -> `I((n,1+Listx.length args),args)
- | _ -> assert false in
- let rec aux = function
- | Parser.Lam t -> `Lam (true, aux t)
- | Parser.App (t1, t2) -> fix_arity (mk_app (aux t1) (aux t2))
- | Parser.Var v -> `Var(v,1) in
- let (tms, free) = Parser.parse_many strs in
- List.map aux tms, free
-;;
-
(************** Algorithm(s) ************************)
let eta_compare x y =
| `Match(u,ar,liftno,bs,args) ->
eta_subterm sub (u :> nf)
|| List.exists (fun (_, t) -> eta_subterm sub (lift liftno t)) !bs
- || List.exists (eta_subterm sub) args
- | `I(v, args) -> List.exists (eta_subterm sub) (Listx.to_list args) || (match sub with
- | `Var v' -> v = v'
- | `I(v', args') -> v = v'
+ || List.exists (eta_subterm sub) (args :> nf list)
+ | `I((v,_), args) -> List.exists (eta_subterm sub) ((Listx.to_list args) :> nf list) || (match sub with
+ | `Var(v',_) -> v = v'
+ | `I((v',_), args') -> v = v'
&& Listx.length args' < Listx.length args
&& List.for_all (fun (x,y) -> eta_eq x y) (List.combine (Util.take (Listx.length args') (Listx.to_list args)) (Listx.to_list args'))
| _ -> false
| `Match(u,_,_,bs,args) -> max (max (aux l (u :> nf)) (aux_tms l args)) (aux_tms l (List.map snd !bs))
| `N _ -> None
and aux_tms l =
- List.fold_left (fun acc t -> Pervasives.max acc (aux l t)) None in
+ List.fold_left (fun acc t -> max acc (aux l t)) None in
fun tms -> aux_tms 0 (tms :> nf list)
;;