cduce.ml 6.44 KB
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open Location
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open Ident
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let quiet = ref false

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let typing_env = State.ref "Cduce.typing_env" Typer.Env.empty

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let print_norm ppf d = 
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  Location.protect ppf 
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    (fun ppf -> Types.Print.print_descr ppf ((*Types.normalize*) d))
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let print_value ppf v =
  Location.protect ppf (fun ppf -> Value.print ppf v)
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let dump_env ppf =
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  Format.fprintf ppf "Global types:";
  Typer.dump_global_types ppf;
  Format.fprintf ppf ".@\n";
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  Eval.Env.iter 
    (fun x v ->
       let t = Typer.Env.find x !typing_env in
       Format.fprintf ppf "@[|- %s : %a@ => %a@]@\n"
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	 (Id.value x)
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	 print_norm t
	 print_value v
    )
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    !Eval.global_env
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let rec print_exn ppf = function
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  | Location (loc, exn) ->
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      Format.fprintf ppf "Error %a:@\n" Location.print_loc loc;
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      Format.fprintf ppf "%a" Location.html_hilight loc;
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      print_exn ppf exn
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  | Value.CDuceExn v ->
      Format.fprintf ppf "Uncaught CDuce exception: @[%a@]@\n"
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        print_value v
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  | Typer.WrongLabel (t,l) ->
      Format.fprintf ppf "Wrong record selection: the label %s@\n" 
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        (LabelPool.value l);
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      Format.fprintf ppf "applied to an expression of type %a@\n"
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        print_norm t
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  | Typer.ShouldHave (t,msg) ->
      Format.fprintf ppf "This expression should have type %a@\n%s@\n" 
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        print_norm t
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        msg
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  | Typer.Constraint (s,t,msg) ->
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      Format.fprintf ppf "This expression should have type %a@\n" 
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        print_norm t;
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      Format.fprintf ppf "but its infered type is: %a@\n" 
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        print_norm s;
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      Format.fprintf ppf "which is not a subtype, as shown by the value " ;
      Location.protect ppf
	(fun ppf ->
	   Types.Sample.print ppf (Types.Sample.get (Types.diff s t)));
      Format.fprintf ppf "@\n%s@\n" msg
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  | Typer.NonExhaustive t ->
      Format.fprintf ppf "This pattern matching is not exhaustive@\n";
      Format.fprintf ppf "Residual type: %a@\n"
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	print_norm t;
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      Format.fprintf ppf "Sample value: %a@\n" 
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	Types.Sample.print (Types.Sample.get t)
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  | Typer.UnboundId x ->
      Format.fprintf ppf "Unbound identifier %s@\n" x
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  | Wlexer.Illegal_character c ->
      Format.fprintf ppf "Illegal character (%s)@\n" (Char.escaped c)
  | Wlexer.Unterminated_comment ->
      Format.fprintf ppf "Comment not terminated@\n"
  | Wlexer.Unterminated_string ->
      Format.fprintf ppf "String literal not terminated@\n"
  | Wlexer.Unterminated_string_in_comment ->
      Format.fprintf ppf "This comment contains an unterminated string literal@\n"
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  | Parser.Error s | Stream.Error s -> 
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      Format.fprintf ppf "Parsing error: %s@\n" s
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  | Location.Generic s ->
      Format.fprintf ppf "%s@\n" s
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  | exn ->
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      raise exn
(*
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      Format.fprintf ppf "%s@\n" (Printexc.to_string exn)
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*)
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let debug ppf = function
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  | `Subtype (t1,t2) ->
      Format.fprintf ppf "[DEBUG:subtype]@\n";
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      let t1 = Types.descr (Typer.typ t1)
      and t2 = Types.descr (Typer.typ t2) in
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      Format.fprintf ppf "%a <= %a : %b@\n" print_norm t1 print_norm t2
	(Types.subtype t1 t2)
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  | `Filter (t,p) -> 
      Format.fprintf ppf "[DEBUG:filter]@\n";
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      let t = Typer.typ t
      and p = Typer.pat p in
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      let f = Patterns.filter (Types.descr t) p in
      List.iter (fun (x,t) ->
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		   Format.fprintf ppf " %s:%a@\n" (Id.value x)
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		     print_norm (Types.descr t)) f
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  | `Compile2 (t,pl) -> 
      Format.fprintf ppf "[DEBUG:compile2]@\n";
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(*      let t = Types.descr (Typer.typ t) in
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      let pl = List.map (fun p -> 
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			   let p = Typer.pat p in
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			   let a = Types.descr (Patterns.accept p) in
			   (Some p, Types.cap a t)) pl in
      let d = Patterns.Compiler.make_dispatcher t pl in
      Patterns.Compiler.print_disp ppf d *)
      ()
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  | `Accept p ->
      Format.fprintf ppf "[DEBUG:accept]@\n";
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      let p = Typer.pat p in
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      let t = Patterns.accept p in
      Format.fprintf ppf " %a@\n" Types.Print.print t
  | `Compile (t,pl) ->
      Format.fprintf ppf "[DEBUG:compile]@\n";
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      let t = Typer.typ t
      and pl = List.map Typer.pat pl in
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      Patterns.Compile.debug_compile ppf t pl
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  | `Normal_record p -> assert false
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let mk_builtin () =
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  let bi = List.map (fun (n,t) -> [n, mknoloc (Ast.Internal t)]) 
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	     Builtin.types in
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  List.iter Typer.register_global_types bi
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let () = mk_builtin ()


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let run ppf ppf_err input =
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  let insert_type_bindings = 
    List.iter (fun (x,t) ->
		 typing_env := Typer.Env.add x t !typing_env;
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		 if not !quiet then
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		   Format.fprintf ppf "|- %s : %a@\n@." (Id.value x) print_norm t) 
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  in
  
  let type_decl decl =
    insert_type_bindings (Typer.type_let_decl !typing_env decl)
  in

  let eval_decl decl =
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    let bindings = Eval.eval_let_decl Eval.Env.empty decl in
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    List.iter 
      (fun (x,v) ->
	 Eval.enter_global x v;
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	 if not !quiet then
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	   Format.fprintf ppf "=> %s : @[%a@]@\n@." (Id.value x) print_value v
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      ) bindings
  in

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  let phrase ph = 
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    match ph.descr with
      | Ast.EvalStatement e ->
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	  let (fv,e) = Typer.expr e in
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	  let t = Typer.type_check !typing_env e Types.any true in
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	  Location.dump_loc ppf e.Typed.exp_loc;
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	  if not !quiet then
	    Format.fprintf ppf "|- %a@\n@." print_norm t;
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	  let v = Eval.eval Eval.Env.empty e in
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	  if not !quiet then
	    Format.fprintf ppf "=> @[%a@]@\n@." print_value v
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      | Ast.LetDecl (p,{descr=Ast.Abstraction _}) -> ()
      | Ast.LetDecl (p,e) ->
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	  let decl = Typer.let_decl p e in
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	  type_decl decl;
	  eval_decl decl
      | Ast.TypeDecl _ -> ()
      | Ast.Debug l -> debug ppf l
      | _ -> assert false
  in

  let do_fun_decls decls =
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    let decls = List.map (fun (p,e) -> Typer.let_decl p e) decls in
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    insert_type_bindings (Typer.type_rec_funs !typing_env decls);
    List.iter eval_decl decls
  in
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  let rec phrases funs = function
    | { descr = Ast.LetDecl (p,({descr=Ast.Abstraction _} as e))} :: phs -> 
	phrases ((p,e)::funs) phs
    | ph :: phs ->
	do_fun_decls funs;
	phrase ph;
	phrases [] phs
    | _ ->
	do_fun_decls funs
  in
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  try 
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    let p = 
      try Parser.prog input
      with
	| Stdpp.Exc_located (_, (Location _ as e)) -> raise e
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	| Stdpp.Exc_located ((i,j), e) -> raise_loc i j e
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    in
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    let (type_decls,fun_decls) = 
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      List.fold_left
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	(fun ((typs,funs) as accu) ph -> match ph.descr with
	   | Ast.TypeDecl (x,t) -> ((x,t) :: typs,funs)
	   | Ast.LetDecl (p,({descr=Ast.Abstraction _} as e)) -> 
	       (typs, (p,e)::funs)
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	   | _ -> accu
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	) ([],[]) p in
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    Typer.register_global_types type_decls;
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    phrases [] p;
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    true
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  with 
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    | (Failure _ | Not_found | Invalid_argument _) as e -> 
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	raise e  (* To get ocamlrun stack trace *)
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    | exn -> print_exn ppf_err exn; false
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