(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* Idset.add (id_of_string s)) [ "define"; "let"; "lambda"; "lambdas"; "match"; "apply"; "car"; "cdr"; "error"; "delay"; "force"; "_"; "__"] Idset.empty let preamble _ _ usf = str ";; This extracted scheme code relies on some additional macros\n" ++ str ";; available at http://www.pps.jussieu.fr/~letouzey/scheme\n" ++ str "(load \"macros_extr.scm\")\n\n" ++ (if usf.mldummy then str "(define __ (lambda (_) __))\n\n" else mt ()) let pr_id id = let s = string_of_id id in for i = 0 to String.length s - 1 do if s.[i] = '\'' then s.[i] <- '~' done; str s let paren = pp_par true let pp_abst st = function | [] -> assert false | [id] -> paren (str "lambda " ++ paren (pr_id id) ++ spc () ++ st) | l -> paren (str "lambdas " ++ paren (prlist_with_sep spc pr_id l) ++ spc () ++ st) let pp_apply st _ = function | [] -> st | [a] -> hov 2 (paren (st ++ spc () ++ a)) | args -> hov 2 (paren (str "@ " ++ st ++ (prlist_strict (fun x -> spc () ++ x) args))) (*s The pretty-printer for Scheme syntax *) let pp_global k r = str (Common.pp_global k r) (*s Pretty-printing of expressions. *) let rec pp_expr env args = let apply st = pp_apply st true args in function | MLrel n -> let id = get_db_name n env in apply (pr_id id) | MLapp (f,args') -> let stl = List.map (pp_expr env []) args' in pp_expr env (stl @ args) f | MLlam _ as a -> let fl,a' = collect_lams a in let fl,env' = push_vars (List.map id_of_mlid fl) env in apply (pp_abst (pp_expr env' [] a') (List.rev fl)) | MLletin (id,a1,a2) -> let i,env' = push_vars [id_of_mlid id] env in apply (hv 0 (hov 2 (paren (str "let " ++ paren (paren (pr_id (List.hd i) ++ spc () ++ pp_expr env [] a1)) ++ spc () ++ hov 0 (pp_expr env' [] a2))))) | MLglob r -> apply (pp_global Term r) | MLcons (i,r,args') -> assert (args=[]); let st = str "`" ++ paren (pp_global Cons r ++ (if args' = [] then mt () else spc ()) ++ prlist_with_sep spc (pp_cons_args env) args') in if i = Coinductive then paren (str "delay " ++ st) else st | MLcase ((i,_),t, pv) -> let e = if i <> Coinductive then pp_expr env [] t else paren (str "force" ++ spc () ++ pp_expr env [] t) in apply (v 3 (paren (str "match " ++ e ++ fnl () ++ pp_pat env pv))) | MLfix (i,ids,defs) -> let ids',env' = push_vars (List.rev (Array.to_list ids)) env in pp_fix env' i (Array.of_list (List.rev ids'),defs) args | MLexn s -> (* An [MLexn] may be applied, but I don't really care. *) paren (str "error" ++ spc () ++ qs s) | MLdummy -> str "__" (* An [MLdummy] may be applied, but I don't really care. *) | MLmagic a -> pp_expr env args a | MLaxiom -> paren (str "error \"AXIOM TO BE REALIZED\"") and pp_cons_args env = function | MLcons (i,r,args) when i<>Coinductive -> paren (pp_global Cons r ++ (if args = [] then mt () else spc ()) ++ prlist_with_sep spc (pp_cons_args env) args) | e -> str "," ++ pp_expr env [] e and pp_one_pat env (r,ids,t) = let ids,env' = push_vars (List.rev_map id_of_mlid ids) env in let args = if ids = [] then mt () else (str " " ++ prlist_with_sep spc pr_id (List.rev ids)) in (pp_global Cons r ++ args), (pp_expr env' [] t) and pp_pat env pv = prvect_with_sep fnl (fun x -> let s1,s2 = pp_one_pat env x in hov 2 (str "((" ++ s1 ++ str ")" ++ spc () ++ s2 ++ str ")")) pv (*s names of the functions ([ids]) are already pushed in [env], and passed here just for convenience. *) and pp_fix env j (ids,bl) args = paren (str "letrec " ++ (v 0 (paren (prvect_with_sep fnl (fun (fi,ti) -> paren ((pr_id fi) ++ spc () ++ (pp_expr env [] ti))) (array_map2 (fun id b -> (id,b)) ids bl)) ++ fnl () ++ hov 2 (pp_apply (pr_id (ids.(j))) true args)))) (*s Pretty-printing of a declaration. *) let pp_decl = function | Dind _ -> mt () | Dtype _ -> mt () | Dfix (rv, defs,_) -> let ppv = Array.map (pp_global Term) rv in prvect_with_sep fnl (fun (pi,ti) -> hov 2 (paren (str "define " ++ pi ++ spc () ++ (pp_expr (empty_env ()) [] ti)) ++ fnl ())) (array_map2 (fun p b -> (p,b)) ppv defs) ++ fnl () | Dterm (r, a, _) -> if is_inline_custom r then mt () else if is_custom r then hov 2 (paren (str "define " ++ pp_global Term r ++ spc () ++ str (find_custom r))) ++ fnl () ++ fnl () else hov 2 (paren (str "define " ++ pp_global Term r ++ spc () ++ pp_expr (empty_env ()) [] a)) ++ fnl () ++ fnl () let pp_structure_elem = function | (l,SEdecl d) -> pp_decl d | (l,SEmodule m) -> failwith "TODO: Scheme extraction of modules not implemented yet" | (l,SEmodtype m) -> failwith "TODO: Scheme extraction of modules not implemented yet" let pp_struct = let pp_sel (mp,sel) = push_visible mp None; let p = prlist_strict pp_structure_elem sel in pop_visible (); p in prlist_strict pp_sel let scheme_descr = { keywords = keywords; file_suffix = ".scm"; capital_file = false; preamble = preamble; pp_struct = pp_struct; sig_suffix = None; sig_preamble = (fun _ _ _ -> mt ()); pp_sig = (fun _ -> mt ()); pp_decl = pp_decl; }