(* Generate code to lift values of a certain type. This illustrates how to build fragments of Parsetree through Ast_helper and more local helper functions. *) module Main : sig end = struct open Location open Types open Asttypes open Ast_helper open Ast_helper.Convenience let selfcall ?(this = "this") m args = app (Exp.send (evar this) m) args (*************************************************************************) let env = Env.initial let clean s = let s = String.copy s in for i = 0 to String.length s - 1 do if s.[i] = '.' then s.[i] <- '_' done; s let print_fun s = "lift_" ^ clean s let printed = Hashtbl.create 16 let meths = ref [] let rec gen ty = if Hashtbl.mem printed ty then () else let tylid = Longident.parse ty in let (_, td) = try Env.lookup_type tylid env with Not_found -> Format.eprintf "** Cannot resolve type %s" ty; exit 2 in let prefix = let open Longident in match tylid with | Ldot (m, _) -> String.concat "." (Longident.flatten m) ^ "." | Lident _ -> "" | Lapply _ -> assert false in Hashtbl.add printed ty (); let params = List.mapi (fun i _ -> Printf.sprintf "f%i" i) td.type_params in let env = List.map2 (fun s t -> t.id, evar s) params td.type_params in let tyargs = List.map Typ.var params in let t = Typ.(arrow "" (constr (lid ty) tyargs) (var "res")) in let t = List.fold_right (fun s t -> Typ.(arrow "" (arrow "" (var s) (var "res")) t)) params t in let t = Typ.poly params t in let concrete e = let e = List.fold_right lam (List.map pvar params) e in let body = Exp.poly e (Some t) in meths := Cf.(method_ (mknoloc (print_fun ty)) Public (concrete Fresh body)) :: !meths in match td.type_kind, td.type_manifest with | Type_record (l, _), _ -> let field (s, _, t) = let s = Ident.name s in (lid (prefix ^ s), pvar s), tuple[str s; tyexpr env t (evar s)] in let l = List.map field l in concrete (lam (Pat.record (List.map fst l) Closed) (selfcall "record" [str ty; list (List.map snd l)])) | Type_variant l, _ -> let case (c, tyl, _) = let c = Ident.name c in let qc = prefix ^ c in let p, args = gentuple env tyl in pconstr qc p, selfcall "constr" [str ty; tuple[str c; list args]] in concrete (func (List.map case l)) | Type_abstract, Some t -> concrete (tyexpr_fun env t) | Type_abstract, None -> (* Generate an abstract method to lift abstract types *) meths := Cf.(method_ (mknoloc (print_fun ty)) Public (virtual_ t)) :: !meths and gentuple env tl = let arg i t = let x = Printf.sprintf "x%i" i in pvar x, tyexpr env t (evar x) in List.split (List.mapi arg tl) and tyexpr env ty x = match ty.desc with | Tvar _ -> let f = try List.assoc ty.id env with Not_found -> assert false in app f [x] | Ttuple tl -> let p, e = gentuple env tl in let_in [Pat.tuple p, x] (selfcall "tuple" [list e]) | Tconstr (path, [t], _) when Path.same path Predef.path_list -> selfcall "list" [app (evar "List.map") [tyexpr_fun env t; x]] | Tconstr (path, [t], _) when Path.same path Predef.path_array -> selfcall "array" [app (evar "Array.map") [tyexpr_fun env t; x]] | Tconstr (path, [], _) when Path.same path Predef.path_string -> selfcall "string" [x] | Tconstr (path, [], _) when Path.same path Predef.path_int -> selfcall "int" [x] | Tconstr (path, [], _) when Path.same path Predef.path_char -> selfcall "char" [x] | Tconstr (path, [], _) when Path.same path Predef.path_int32 -> selfcall "int32" [x] | Tconstr (path, [], _) when Path.same path Predef.path_int64 -> selfcall "int64" [x] | Tconstr (path, [], _) when Path.same path Predef.path_nativeint -> selfcall "nativeint" [x] | Tconstr (path, tl, _) -> let ty = Path.name path in gen ty; selfcall (print_fun ty) (List.map (tyexpr_fun env) tl @ [x]) | _ -> Format.eprintf "** Cannot deal with type %a@." Printtyp.type_expr ty; exit 2 and tyexpr_fun env ty = lam (pvar "x") (tyexpr env ty (evar "x")) let simplify = object inherit Ast_mapper.mapper as super method! expr e = let e = super # expr e in let open Longident in let open Parsetree in match e.pexp_desc with | Pexp_function ("", None, [{ppat_desc = Ppat_var{txt=id;_};_}, {pexp_desc = Pexp_apply (f, ["",{pexp_desc= Pexp_ident{txt=Lident id2;_};_}]);_}]) when id = id2 -> f | _ -> e end let args = let open Arg in [ "-I", String (fun s -> Config.load_path := s :: !Config.load_path), "