346 lines
13 KiB
OCaml
346 lines
13 KiB
OCaml
(***********************************************************************)
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(* *)
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(* Objective Caml *)
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(* *)
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(* Xavier Leroy and Jerome Vouillon, projet Cristal, INRIA Rocquencourt*)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* Automatique. Distributed only by permission. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(* To print values *)
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open Misc
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open Format
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open Longident
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open Path
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open Types
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module type Obj =
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sig
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type t
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val obj : t -> 'a
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val is_block : t -> bool
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val tag : t -> int
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val size : t -> int
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val field : t -> int -> t
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end
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module type S =
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sig
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type t
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val install_printer : Path.t -> Types.type_expr -> (t -> unit) -> unit
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val remove_printer : Path.t -> unit
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val print_exception : t -> unit
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val print_value :
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int -> int -> (int -> t -> Types.type_expr -> bool) ->
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Env.t -> t -> type_expr -> unit
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end
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module Make(Obj : Obj) = struct
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type t = Obj.t
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(* Given an exception value, we cannot recover its type,
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hence we cannot print its arguments in general.
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Here, we do a feeble attempt to print
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integer, string and float arguments... *)
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let print_exception obj =
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print_string (Obj.obj(Obj.field(Obj.field obj 0) 0) : string);
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if Obj.size obj > 1 then begin
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open_box 1;
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print_string "(";
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for i = 1 to Obj.size obj - 1 do
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if i > 1 then begin print_string ","; print_space() end;
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let arg = Obj.field obj i in
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if not (Obj.is_block arg) then
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print_int(Obj.obj arg : int) (* Note: this could be a char! *)
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else if Obj.tag arg = 252 then begin
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print_string "\"";
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print_string (String.escaped (Obj.obj arg : string));
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print_string "\""
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end else if Obj.tag arg = 253 then
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print_float (Obj.obj arg : float)
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else
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print_string "_"
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done;
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print_string ")";
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close_box()
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end
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(* Recover a constructor by its tag *)
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exception Constr_not_found
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let rec find_constr tag num_const num_nonconst = function
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[] ->
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raise Constr_not_found
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| (name, [] as cstr) :: rem ->
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if tag = Cstr_constant num_const
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then cstr
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else find_constr tag (num_const + 1) num_nonconst rem
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| (name, _ as cstr) :: rem ->
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if tag = Cstr_block num_nonconst
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then cstr
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else find_constr tag num_const (num_nonconst + 1) rem
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(* The user-defined printers. Also used for some builtin types. *)
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let printers = ref ([
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Pident(Ident.create "print_int"), Predef.type_int,
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(fun x -> print_int (Obj.obj x : int));
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Pident(Ident.create "print_float"), Predef.type_float,
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(fun x -> print_float(Obj.obj x : float));
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Pident(Ident.create "print_char"), Predef.type_char,
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(fun x -> print_string "'";
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print_string (Char.escaped (Obj.obj x : char));
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print_string "'");
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Pident(Ident.create "print_string"), Predef.type_string,
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(fun x -> print_string "\"";
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print_string (String.escaped (Obj.obj x : string));
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print_string "\"")
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] : (Path.t * type_expr * (Obj.t -> unit)) list)
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let install_printer path ty fn =
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let print_val obj =
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try fn obj with
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exn ->
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print_string "<printer ";
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Printtyp.path path;
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print_string " raised an exception>" in
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printers := (path, ty, print_val) :: !printers
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let remove_printer path =
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let rec remove = function
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[] -> raise Not_found
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| (p, ty, fn as printer) :: rem ->
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if Path.same p path then rem else printer :: remove rem in
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printers := remove !printers
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let find_printer env ty =
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let rec find = function
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[] -> raise Not_found
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| (name, sch, printer) :: remainder ->
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if Ctype.moregeneral env false sch ty
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then printer
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else find remainder
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in find !printers
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(* Print a constructor or label, giving it the same prefix as the type
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it comes from. Attempt to omit the prefix if the type comes from
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a module that has been opened. *)
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let print_qualified lookup_fun env ty_path name =
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match ty_path with
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Pident id ->
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print_string name
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| Pdot(p, s, pos) ->
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if try
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match (lookup_fun (Lident name) env).desc with
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Tconstr(ty_path', _, _) -> Path.same ty_path ty_path'
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| _ -> false
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with Not_found -> false
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then print_string name
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else (Printtyp.path p; print_string "."; print_string name)
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| Papply(p1, p2) ->
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Printtyp.path ty_path
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let print_constr =
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print_qualified
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(fun lid env -> (Env.lookup_constructor lid env).cstr_res)
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and print_label =
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print_qualified (fun lid env -> (Env.lookup_label lid env).lbl_res)
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(* An abstract type *)
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let abstract_type =
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Ctype.newty (Tconstr (Pident (Ident.create "abstract"), [], ref Mnil))
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(* The main printing function *)
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exception Ellipsis
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let cautious f arg = try f arg with Ellipsis -> print_string "..."
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let print_value max_steps max_depth check_depth env obj ty =
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let printer_steps = ref max_steps in
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let rec print_val prio depth obj ty =
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decr printer_steps;
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if !printer_steps < 0 or depth < 0 then raise Ellipsis;
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try
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find_printer env ty obj; ()
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with Not_found ->
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match (Ctype.repr ty).desc with
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Tvar ->
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print_string "<poly>"
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| Tarrow(ty1, ty2) ->
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print_string "<fun>"
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| Ttuple(ty_list) ->
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if check_depth depth obj ty then begin
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if prio > 0
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then begin open_box 1; print_string "(" end
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else open_box 0;
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print_val_list 1 depth obj ty_list;
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if prio > 0 then print_string ")";
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close_box()
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end
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| Tconstr(path, [], _) when Path.same path Predef.path_exn ->
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if check_depth depth obj ty then begin
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if prio > 1
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then begin open_box 2; print_string "(" end
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else open_box 1;
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print_exception obj;
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if prio > 1 then print_string ")";
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close_box()
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end
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| Tconstr(path, [ty_arg], _) when Path.same path Predef.path_list ->
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if Obj.is_block obj then begin
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if check_depth depth obj ty then begin
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let rec print_conses cons =
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print_val 0 (depth - 1) (Obj.field cons 0) ty_arg;
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let next_obj = Obj.field cons 1 in
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if Obj.is_block next_obj then begin
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print_string ";"; print_space();
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print_conses next_obj
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end
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in
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open_box 1;
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print_string "[";
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cautious print_conses obj;
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print_string "]";
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close_box()
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end
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end else
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print_string "[]"
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| Tconstr(path, [ty_arg], _) when Path.same path Predef.path_array ->
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let length = Obj.size obj in
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if length = 0 then
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print_string "[||]"
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else if check_depth depth obj ty then begin
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let rec print_items i =
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if i < length then begin
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if i > 0 then begin print_string ";"; print_space() end;
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print_val 0 (depth - 1) (Obj.field obj i) ty_arg;
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print_items (i + 1)
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end in
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open_box 2;
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print_string "[|";
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cautious print_items 0;
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print_string "|]";
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close_box()
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end
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| Tconstr(path, ty_list, _) ->
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begin try
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let decl = Env.find_type path env in
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match decl with
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{type_kind = Type_abstract; type_manifest = None} ->
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print_string "<abstr>"
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| {type_kind = Type_abstract; type_manifest = Some body} ->
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print_val prio depth obj
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(try Ctype.apply env decl.type_params body ty_list with
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Ctype.Cannot_apply -> abstract_type)
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| {type_kind = Type_variant constr_list} ->
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let tag =
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if Obj.is_block obj
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then Cstr_block(Obj.tag obj)
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else Cstr_constant(Obj.obj obj) in
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let (constr_name, constr_args) =
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find_constr tag 0 0 constr_list in
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let ty_args =
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List.map
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(function ty ->
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try Ctype.apply env decl.type_params ty ty_list with
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Ctype.Cannot_apply -> abstract_type)
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constr_args in
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begin match ty_args with
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[] ->
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print_constr env path constr_name
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| [ty1] ->
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if check_depth depth obj ty then begin
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if prio > 1
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then begin open_box 2; print_string "(" end
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else open_box 1;
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print_constr env path constr_name;
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print_space();
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cautious (print_val 2 (depth - 1)
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(Obj.field obj 0)) ty1;
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if prio > 1 then print_string ")";
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close_box()
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end
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| tyl ->
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if check_depth depth obj ty then begin
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if prio > 1
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then begin open_box 2; print_string "(" end
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else open_box 1;
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print_constr env path constr_name;
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print_space();
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open_box 1;
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print_string "(";
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print_val_list 1 depth obj tyl;
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print_string ")";
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close_box();
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if prio > 1 then print_string ")";
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close_box()
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end
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end
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| {type_kind = Type_record lbl_list} ->
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if check_depth depth obj ty then begin
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let rec print_fields pos = function
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[] -> ()
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| (lbl_name, _, lbl_arg) :: remainder ->
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if pos > 0 then begin
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print_string ";"; print_space()
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end;
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open_box 1;
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print_label env path lbl_name;
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print_string "="; print_cut();
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let ty_arg =
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try
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Ctype.apply env decl.type_params lbl_arg ty_list
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with
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Ctype.Cannot_apply -> abstract_type
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in
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cautious (print_val 0 (depth - 1)
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(Obj.field obj pos)) ty_arg;
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close_box();
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print_fields (pos + 1) remainder in
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open_box 1;
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print_string "{";
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cautious (print_fields 0) lbl_list;
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print_string "}";
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close_box()
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end
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with
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Not_found -> (* raised by Env.find_type *)
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print_string "<abstr>"
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| Constr_not_found -> (* raised by find_constr *)
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print_string "<unknown constructor>"
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end
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| Tobject (_, _) ->
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print_string "<obj>"
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| Tfield(_, _, _, _) | Tnil | Tlink _ ->
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fatal_error "Printval.print_value"
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and print_val_list prio depth obj ty_list =
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let rec print_list i = function
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[] -> ()
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| ty :: ty_list ->
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if i > 0 then begin print_string ","; print_space() end;
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print_val prio (depth - 1) (Obj.field obj i) ty;
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print_list (i + 1) ty_list in
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cautious (print_list 0) ty_list
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in cautious (print_val 0 max_depth obj) ty
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end
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