X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;ds=inline;f=ocaml%2Fnum.ml;h=2cb9b731a1dda17d50f9211a694548e7153b89bf;hb=08d2b663e5089ed046ef771bfb2555a31e525f1c;hp=81bb1dafe0bb1dbfb1f0a05ad896edae95a594a2;hpb=edc8a9dacfdf59bc23570756f7d346f9cd28ae6b;p=fireball-separation.git diff --git a/ocaml/num.ml b/ocaml/num.ml index 81bb1da..2cb9b73 100644 --- a/ocaml/num.ml +++ b/ocaml/num.ml @@ -161,15 +161,17 @@ let set_arity arity = function | `Var(n,_) -> `Var(n,arity) | `Lam(false, `N _) | `Lam(false, `Lam _) as t -> t -| `Lam(false, `Match(t,(n,ar),bs_lift,bs,args)) -> `Lam(false, `Match(t,(n,arity),bs_lift,bs,args)) +| `Lam(false, `Match(t,(n,_),bs_lift,bs,args)) -> `Lam(false, `Match(t,(n,arity),bs_lift,bs,args)) | _ -> assert false +let minus1 n = if n = min_int then n else n - 1;; + let rec mk_app (h : nf) (arg : nf) = (*let res =*) match h with `I(v,args) -> `I(v,Listx.append (Listx.Nil arg) args) | `Var v -> `I(v, Listx.Nil arg) - | `Lam(_,nf) -> subst true 0 arg (nf : nf) (* AC FIXME sanity check on arity *) + | `Lam(truelam,nf) -> subst truelam true 0 arg (nf : nf) (* AC FIXME sanity check on arity *) | `Match(t,v,lift,bs,args) -> `Match(t,v,lift,bs,List.append args [arg]) | `N _ -> assert false (* Numbers cannot be applied *) (*in let l = ["v0";"v1";"v2"] in @@ -187,17 +189,18 @@ and mk_match t (n,ar) bs_lift bs args = `N m -> (try let h = List.assoc m !bs in - let h = set_arity (ar-1) h in + let h = set_arity (minus1 ar) h in let h = lift bs_lift h in mk_appl h args with Not_found -> `Match (t,(n,ar),bs_lift,bs,args)) | `I _ | `Var _ | `Match _ -> `Match(t,(n,ar),bs_lift,bs,args) -and subst delift_by_one what (with_what : nf) (where : nf) = +and subst truelam delift_by_one what (with_what : nf) (where : nf) = let aux_propagate_arity ar = function - | `Lam(false,`Match(`I(v,args),(x,_),liftno,bs,args')) -> + | `Lam(false,`Match(`I(v,args),(x,_),liftno,bs,args')) when not delift_by_one -> `Lam(false,`Match(`I(v,args),(x,ar),liftno,bs,args')) + | `Var(i,oldar) -> `Var(i, if truelam && oldar = min_int then ar else oldar) | _ as t -> t in let rec aux_i_num_var l = function @@ -218,7 +221,7 @@ and subst delift_by_one what (with_what : nf) (where : nf) = let with_what' = lift l' with_what in (* The following line should be the identity when delift_by_one = true because we are assuming the ts to not contain lambda-bound variables. *) - bs := List.map (fun (n,t) -> n,subst false what with_what' t) !bs ; + bs := List.map (fun (n,t) -> n,subst truelam false what with_what' t) !bs ; mk_match (cast_to_i_num_var (aux_i_num_var l t)) v bs_lift bs (List.map (aux l) args) and aux l(*lift*) = (*function iii -> let res = match iii with*) @@ -235,12 +238,12 @@ prerr_endline ("subst l:" ^ string_of_int l ^ " delift_by_one:" ^ string_of_bool let parse' strs = let fix_arity = function - | `I((n,_),args) -> `I((n,Listx.length args),args) + | `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,0) in + | Parser.Var v -> `Var(v,1) in let (tms, free) = Parser.parse_many strs in List.map aux tms, free ;; @@ -304,15 +307,20 @@ let eta_subterm (#nf as x) (#nf as y) = eta_subterm x y;; let max_arity_tms n = - let aux_var l (m,a) = if n + l = m then a else -1 in + let max a b = match a, b with + | None, None -> None + | None, Some x + | Some x, None -> Some x + | Some x, Some y -> Some (Pervasives.max x y) in + let aux_var l (m,a) = if n + l = m then Some a else None in let rec aux l = function | `Var v -> aux_var l v | `I(v,tms) -> max (aux_var l v) (aux_tms l (Listx.to_list tms)) | `Lam(_,t) -> aux (l+1) t | `Match(u,_,_,bs,args) -> max (max (aux l (u :> nf)) (aux_tms l args)) (aux_tms l (List.map snd !bs)) - | `N _ -> -1 + | `N _ -> None and aux_tms l = - List.fold_left (fun acc t -> Pervasives.max acc (aux l t)) ~-1 in + List.fold_left (fun acc t -> Pervasives.max acc (aux l t)) None in fun tms -> aux_tms 0 (tms :> nf list) ;; @@ -332,7 +340,7 @@ let compute_arities m = then [] else let tms = Util.filter_map (function `Lam(_,t) -> Some t | _ -> None ) tms in - let arity = max 0 (max_arity_tms (m-n) tms) in (* FIXME: 0 or -1 ??? *) + let arity = match max_arity_tms (m-n) tms with None -> -666 | Some x -> x in arity :: (aux (n-1) tms) in fun tms -> List.rev (aux m tms) ;;