X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=ocaml%2Fnumx.ml;fp=ocaml%2Fnumx.ml;h=b958ed5ad52b65cc955caf2cf4b1a90c6edb4795;hb=e4aa4a66dd0a4946607245a0f43eab803f2770c4;hp=0000000000000000000000000000000000000000;hpb=224041e8fb94c0e8a1d3616e6dd91ec6a21cf49b;p=fireball-separation.git diff --git a/ocaml/numx.ml b/ocaml/numx.ml new file mode 100644 index 0000000..b958ed5 --- /dev/null +++ b/ocaml/numx.ml @@ -0,0 +1,294 @@ +open Util +open Util.Vars +open Pure + +(************ Syntax ************************************) + +(* Normal forms*) + +(* Var n = n-th De Bruijn index, 0-based *) + +(*type nf = + | Lam of nf + | Var of int + | i +and i = + | I of int * nf listx +;;*) +type 'nf i_var_ = [ `I of int * 'nf Listx.listx | `Var of int ] +type 'nf i_n_var_ = [ `N of int | 'nf i_var_ ] +type 'nf i_num_var_ = [ + | 'nf i_n_var_ + | `Match of 'nf i_num_var_ * (*lift*) int * (*branches*)(int * 'nf) list ref * (*args*)'nf list +] +type 'nf nf_ = [ `Lam of (* was_unpacked *) bool * 'nf nf_ | `Bomb | `Pacman | 'nf i_num_var_ ] +type nf = nf nf_ +type i_var = nf i_var_;; +type i_n_var = nf i_n_var_;; +type i_num_var = nf i_num_var_;; + +let hd_of_i_var = + function + `I (v,_) + | `Var v -> v + +let hd_of = + function + `I (v,_) + | `Var v -> Some v + | `N _ -> None + | `Match _ | `Bomb -> assert false + +let lift m (t : nf) = + let rec aux_i_num_var l = + function + `I(n,args) -> (`I((if n < l then n else n+m),Listx.map (aux l) args) : i_num_var) + | `Var n -> `Var (if n < l then n else n+m) + | `N _ as x -> x + | `Match(t,lift,bs,args) -> + `Match(aux_i_num_var l t, lift + m, bs, List.map (aux l) args) + and aux l = + function + #i_num_var as x -> (aux_i_num_var l x :> nf) + | `Lam(b,nf) -> `Lam (b,aux (l+1) nf) + | `Bomb -> `Bomb + | `Pacman -> `Pacman + in + (aux 0 t : nf) +;; + +(* put t under n lambdas, lifting t accordingtly *) +let rec make_lams t = + function + 0 -> t + | n when n > 0 -> `Lam (false,lift 1 (make_lams t (n-1))) + | _ -> assert false + +let free_vars = + let rec aux n = function + `N _ -> [] + | `Var x -> if x < n then [] else [x-n] + | `I(x,args) -> + (if x < n then [] else [x-n]) @ + List.concat (List.map (aux n) (Listx.to_list args)) + | `Lam(_,t) -> aux (n+1) t + | `Match(t,liftno,bs,args) -> + aux n (t :> nf) @ + List.concat (List.map (fun (_,t) -> aux (n-liftno) t) !bs) @ + List.concat (List.map (aux n) args) + | `Bomb | `Pacman -> [] + in aux 0 +;; + +module ToScott = +struct + +let rec t_of_i_num_var = + function + | `N n -> Scott.mk_n n + | `Var v -> Pure.V v + | `Match(t,liftno,bs,args) -> + let bs = List.map (fun (n,t) -> n, t_of_nf (lift liftno t)) !bs in + let t = t_of_i_num_var t in + let m = Scott.mk_match t bs in + List.fold_left (fun acc t -> Pure.A(acc,t_of_nf t)) m args + | `I(v, args) -> Listx.fold_left (fun acc t -> Pure.A(acc,t_of_nf t)) (Pure.V v) args +and t_of_nf = + function + | #i_num_var as x -> t_of_i_num_var x + | `Lam(b,f) -> Pure.L (t_of_nf f) + | `Bomb -> let f x = Pure.A (x,x) in f (Pure.L (f (Pure.V 0))) + | `Pacman -> let f x = Pure.A (x,x) in f (Pure.L (Pure.L (f (Pure.V 0)))) + +end + + +(************ Pretty-printing ************************************) + +(* let rec print ?(l=[]) = + function + `Var n -> print_name l n + | `N n -> string_of_int n + | `Match(t,bs_lift,bs,args) -> + "([" ^ print ~l (t :> nf) ^ + " ? " ^ String.concat " | " (List.map (fun (n,t) -> string_of_int n ^ " => " ^ print ~l (lift bs_lift t)) !bs) ^ "] " ^ + String.concat " " (List.map (print ~l) args) ^ ")" + | `I(n,args) -> "(" ^ print_name l n ^ " " ^ String.concat " " (Listx.to_list (Listx.map (print ~l) args)) ^ ")" + | `Lam(_,nf) -> + let name = string_of_var (List.length l) in + "λ" ^ name ^ "." ^ print ~l:(name::l) (nf : nf) +;; *) + +let rec string_of_term l = + let rec string_of_term_w_pars l = function + | `Var n -> print_name l n + | `N n -> string_of_int n + | `I _ as t -> "(" ^ string_of_term_no_pars_app l (t :> nf) ^ ")" + | `Lam _ as t -> "(" ^ string_of_term_no_pars_lam l t ^ ")" + | `Match(t,bs_lift,bs,args) -> + "(match " ^ string_of_term_no_pars l (t :> nf) ^ + " with " ^ String.concat " | " (List.map (fun (n,t) -> string_of_int n ^ " => " ^ string_of_term l (lift bs_lift t)) !bs) ^ "] " ^ + String.concat " " (List.map (string_of_term l) args) ^ ")" + | `Bomb -> "TNT" + | `Pacman -> "PAC" + and string_of_term_no_pars_app l = function + | `I(n, args) -> print_name l n ^ " " ^ String.concat " " (List.map (string_of_term_w_pars l) (Listx.to_list args)) + | #nf as t -> string_of_term_w_pars l t + and string_of_term_no_pars_lam l = function + | `Lam(_,t) -> let name = string_of_var (List.length l) in + "λ" ^ name ^ ". " ^ (string_of_term_no_pars_lam (name::l) t) + | _ as t -> string_of_term_no_pars l t + and string_of_term_no_pars l : nf -> string = function + | `Lam _ as t -> string_of_term_no_pars_lam l t + | #nf as t -> string_of_term_no_pars_app l t + in string_of_term_no_pars l +;; + +let rec print ?(l=[]) = string_of_term l;; + +(************ Hereditary substitutions ************************************) + +let cast_to_i_var = + function + #i_var as y -> (y : i_var) + | t -> + prerr_endline (print (t :> nf)); + assert false (* algorithm failed *) + +let cast_to_i_n_var = + function + #i_n_var as y -> (y : i_n_var) + | t -> + prerr_endline (print (t :> nf)); + assert false (* algorithm failed *) + +let cast_to_i_num_var = + function + #i_num_var as y -> (y : i_num_var) + | t -> + prerr_endline (print (t :> nf)); + assert false (* algorithm failed *) + +let rec mk_app (h : nf) (arg : nf) = +(*let res =*) + match h with + `I(n,args) -> `I(n,Listx.append (Listx.Nil arg) args) + | `Var n -> `I(n, Listx.Nil arg) + | `Lam(_,nf) -> subst true 0 arg (nf : nf) + | `Match(t,lift,bs,args) -> `Match(t,lift,bs,List.append args [arg]) + | `N _ -> assert false (* Numbers cannot be applied *) + | `Bomb | `Pacman -> failwith "mk_app su bomba o pacman" +(*in let l = ["v0";"v1";"v2"] in +prerr_endline ("mk_app h:" ^ print ~l h ^ " arg:" ^ print ~l:l arg ^ " res:" ^ print ~l:l res); res*) + +and mk_appl h args = + (*prerr_endline ("MK_APPL: " ^ print h ^ " " ^ String.concat " " (List.map print args));*) + List.fold_left mk_app h args + +and mk_appx h args = Listx.fold_left mk_app h args + +and mk_match t bs_lift bs args = + (*prerr_endline ("MK_MATCH: ([" ^ print t ^ "] " ^ String.concat " " (Listx.to_list (Listx.map (fun (n,t) -> string_of_int n ^ " => " ^ print t) bs)) ^ ") " ^ String.concat " " (List.map print args));*) + match t with + `N m -> + (try + let h = List.assoc m !bs in + let h = lift bs_lift h in + mk_appl h args + with Not_found -> + `Match (t,bs_lift,bs,args)) + | `I _ | `Var _ | `Match _ -> `Match(t,bs_lift,bs,args) + +and subst delift_by_one what (with_what : nf) (where : nf) = + let rec aux_i_num_var l = + function + `I(n,args) -> + if n = what + l then + mk_appx (lift l with_what) (Listx.map (aux l) args) + else + `I ((if delift_by_one && n >= l then n-1 else n), Listx.map (aux l) args) + | `Var n -> + if n = what + l then + lift l with_what + else + `Var (if delift_by_one && n >= l then n-1 else n) + | `N _ as x -> x + | `Match(t,bs_lift,bs,args) -> + let bs_lift = bs_lift + if delift_by_one then -1 else 0 in + let l' = l - bs_lift in + 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 ; + mk_match (cast_to_i_num_var (aux_i_num_var l t)) bs_lift bs (List.map (aux l) args) + and aux l(*lift*) = +(*function iii -> let res = match iii with*) + function + | #i_num_var as x -> aux_i_num_var l x + | `Lam(b,nf) -> `Lam(b,aux (l+1) nf) + | `Bomb -> `Bomb + | `Pacman -> `Pacman +(*in let ll = ["v0";"v1";"v2"] in +prerr_endline ("subst l:" ^ string_of_int l ^ " delift_by_one:" ^ string_of_bool delift_by_one ^ " what:" ^ (List.nth ll what) ^ " with_what:" ^ print ~l:ll with_what ^ " where:" ^ print ~l:ll iii ^ " res:" ^ print ~l:ll res); res*) + in + aux 0 where +;; + +(************ Parsing ************************************) + +let parse' strs = + let rec aux = function + | Parser.Lam t -> `Lam (true,aux t) + | Parser.App (t1, t2) -> mk_app (aux t1) (aux t2) + | Parser.Var v -> `Var v + in let (tms, free) = Parser.parse_many strs + in (List.map aux tms, free) +;; + +(************** Algorithm(s) ************************) + +let eta_eq x y = + let rec aux = function + | `Var n , `Var m -> n = m + | `I(n1, l1), `I(n2, l2) -> + n1 = n2 && Listx.length l1 = Listx.length l2 && + List.for_all aux (List.combine (Listx.to_list l1) (Listx.to_list l2)) + | `Lam(_,t1), `Lam(_,t2) -> aux (t1,t2) + | `Lam(_,t1), t2 + | t2, `Lam(_,t1) -> aux( t1, (mk_app (lift 1 t2) (`Var 0)) ) + | `N n1, `N n2 -> n1 = n2 + | `Match(u,bs_lift,bs,args), `Match(u',bs_lift',bs',args') -> + aux ((u :> nf), (u' :> nf)) && List.length !bs = List.length !bs' && + let bs = List.sort (fun (n,_) (m,_) -> compare n m) !bs in + let bs' = List.sort (fun (n,_) (m,_) -> compare n m) !bs' in + List.for_all (fun ((n,t),(n',t')) -> n = n' && aux (t, t')) (List.combine bs bs') && List.length args = List.length args' && + List.for_all aux (List.combine args args') + | _ -> false + in aux (x, y) +;; + +let eta_compare x y = + if eta_eq x y then 0 else compare x y +;; + +let eta_eq (#nf as x) (#nf as y) = eta_eq x y;; + +let rec eta_subterm sub t = + if eta_eq sub t then true else + match t with + | `Lam(_,t') -> eta_subterm (lift 1 sub) t' + | `Match(u,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' + && 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 + ) + | `N _ | `Var _ | `Bomb | `Pacman -> false +;; + +let eta_subterm (#nf as x) (#nf as y) = eta_subterm x y;;