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(**************************************************************************)
(*                                                                        *)
(*                         OCaml Migrate Parsetree                        *)
(*                                                                        *)
(*                             Frédéric Bour                              *)
(*            Jérémie Dimino and Leo White, Jane Street Europe            *)
(*            Xavier Leroy, projet Cristal, INRIA Rocquencourt            *)
(*                         Alain Frisch, LexiFi                           *)
(*       Daniel de Rauglaudre, projet Cristal, INRIA Rocquencourt         *)
(*                                                                        *)
(*   Copyright 2017 Institut National de Recherche en Informatique et     *)
(*     en Automatique (INRIA).                                            *)
(*                                                                        *)
(*   All rights reserved.  This file is distributed under the terms of    *)
(*   the GNU Lesser General Public License version 2.1, with the          *)
(*   special exception on linking described in the file LICENSE.          *)
(*                                                                        *)
(**************************************************************************)

module Location = Location
module Longident = Longident

module Asttypes = struct
  (** Auxiliary AST types used by parsetree and typedtree. *)

  type constant (*IF_CURRENT = Asttypes.constant *) =
      Const_int of int
    | Const_char of char
    | Const_string of string * string option
    | Const_float of string
    | Const_int32 of int32
    | Const_int64 of int64
    | Const_nativeint of nativeint

  type rec_flag (*IF_CURRENT = Asttypes.rec_flag *) = Nonrecursive | Recursive

  type direction_flag (*IF_CURRENT = Asttypes.direction_flag *) = Upto | Downto

  (* Order matters, used in polymorphic comparison *)
  type private_flag (*IF_CURRENT = Asttypes.private_flag *) = Private | Public

  type mutable_flag (*IF_CURRENT = Asttypes.mutable_flag *) = Immutable | Mutable

  type virtual_flag (*IF_CURRENT = Asttypes.virtual_flag *) = Virtual | Concrete

  type override_flag (*IF_CURRENT = Asttypes.override_flag *) = Override | Fresh

  type closed_flag (*IF_CURRENT = Asttypes.closed_flag *) = Closed | Open

  type label = string

  type arg_label (*IF_CURRENT = Asttypes.arg_label *) =
      Nolabel
    | Labelled of string (*  label:T -> ... *)
    | Optional of string (* ?label:T -> ... *)

  type 'a loc = 'a Location.loc = {
    txt : 'a;
    loc : Location.t;
  }


  type variance (*IF_CURRENT = Asttypes.variance *) =
    | Covariant
    | Contravariant
    | Invariant
end

module Parsetree = struct
  (** Abstract syntax tree produced by parsing *)

  open Asttypes

  type constant (*IF_CURRENT = Parsetree.constant *) =
      Pconst_integer of string * char option
    (* 3 3l 3L 3n

       Suffixes [g-z][G-Z] are accepted by the parser.
       Suffixes except 'l', 'L' and 'n' are rejected by the typechecker
    *)
    | Pconst_char of char
    (* 'c' *)
    | Pconst_string of string * string option
    (* "constant"
       {delim|other constant|delim}
    *)
    | Pconst_float of string * char option
    (* 3.4 2e5 1.4e-4

       Suffixes [g-z][G-Z] are accepted by the parser.
       Suffixes are rejected by the typechecker.
    *)

  (** {2 Extension points} *)

  type attribute = string loc * payload
         (* [@id ARG]
            [@@id ARG]

            Metadata containers passed around within the AST.
            The compiler ignores unknown attributes.
         *)

  and extension = string loc * payload
        (* [%id ARG]
           [%%id ARG]

           Sub-language placeholder -- rejected by the typechecker.
        *)

  and attributes = attribute list

  and payload (*IF_CURRENT = Parsetree.payload *) =
    | PStr of structure
    | PSig of signature (* : SIG *)
    | PTyp of core_type  (* : T *)
    | PPat of pattern * expression option  (* ? P  or  ? P when E *)

  (** {2 Core language} *)

  (* Type expressions *)

  and core_type (*IF_CURRENT = Parsetree.core_type *) =
      {
       ptyp_desc: core_type_desc;
       ptyp_loc: Location.t;
       ptyp_attributes: attributes; (* ... [@id1] [@id2] *)
      }

  and core_type_desc (*IF_CURRENT = Parsetree.core_type_desc *) =
    | Ptyp_any
          (*  _ *)
    | Ptyp_var of string
          (* 'a *)
    | Ptyp_arrow of arg_label * core_type * core_type
          (* T1 -> T2       Simple
             ~l:T1 -> T2    Labelled
             ?l:T1 -> T2    Otional
           *)
    | Ptyp_tuple of core_type list
          (* T1 * ... * Tn

             Invariant: n >= 2
          *)
    | Ptyp_constr of Longident.t loc * core_type list
          (* tconstr
             T tconstr
             (T1, ..., Tn) tconstr
           *)
    | Ptyp_object of (string loc * attributes * core_type) list * closed_flag
          (* < l1:T1; ...; ln:Tn >     (flag = Closed)
             < l1:T1; ...; ln:Tn; .. > (flag = Open)
           *)
    | Ptyp_class of Longident.t loc * core_type list
          (* #tconstr
             T #tconstr
             (T1, ..., Tn) #tconstr
           *)
    | Ptyp_alias of core_type * string
          (* T as 'a *)
    | Ptyp_variant of row_field list * closed_flag * label list option
          (* [ `A|`B ]         (flag = Closed; labels = None)
             [> `A|`B ]        (flag = Open;   labels = None)
             [< `A|`B ]        (flag = Closed; labels = Some [])
             [< `A|`B > `X `Y ](flag = Closed; labels = Some ["X";"Y"])
           *)
    | Ptyp_poly of string loc list * core_type
          (* 'a1 ... 'an. T

             Can only appear in the following context:

             - As the core_type of a Ppat_constraint node corresponding
               to a constraint on a let-binding: let x : 'a1 ... 'an. T
               = e ...

             - Under Cfk_virtual for methods (not values).

             - As the core_type of a Pctf_method node.

             - As the core_type of a Pexp_poly node.

             - As the pld_type field of a label_declaration.

             - As a core_type of a Ptyp_object node.
           *)

    | Ptyp_package of package_type
          (* (module S) *)
    | Ptyp_extension of extension
          (* [%id] *)

  and package_type = Longident.t loc * (Longident.t loc * core_type) list
        (*
          (module S)
          (module S with type t1 = T1 and ... and tn = Tn)
         *)

  and row_field (*IF_CURRENT = Parsetree.row_field *) =
    | Rtag of label * attributes * bool * core_type list
          (* [`A]                   ( true,  [] )
             [`A of T]              ( false, [T] )
             [`A of T1 & .. & Tn]   ( false, [T1;...Tn] )
             [`A of & T1 & .. & Tn] ( true,  [T1;...Tn] )

            - The 2nd field is true if the tag contains a
              constant (empty) constructor.
            - '&' occurs when several types are used for the same constructor
              (see 4.2 in the manual)

            - TODO: switch to a record representation, and keep location
          *)
    | Rinherit of core_type
          (* [ T ] *)

  (* Patterns *)

  and pattern (*IF_CURRENT = Parsetree.pattern *) =
      {
       ppat_desc: pattern_desc;
       ppat_loc: Location.t;
       ppat_attributes: attributes; (* ... [@id1] [@id2] *)
      }

  and pattern_desc (*IF_CURRENT = Parsetree.pattern_desc *) =
    | Ppat_any
          (* _ *)
    | Ppat_var of string loc
          (* x *)
    | Ppat_alias of pattern * string loc
          (* P as 'a *)
    | Ppat_constant of constant
          (* 1, 'a', "true", 1.0, 1l, 1L, 1n *)
    | Ppat_interval of constant * constant
          (* 'a'..'z'

             Other forms of interval are recognized by the parser
             but rejected by the type-checker. *)
    | Ppat_tuple of pattern list
          (* (P1, ..., Pn)

             Invariant: n >= 2
          *)
    | Ppat_construct of Longident.t loc * pattern option
          (* C                None
             C P              Some P
             C (P1, ..., Pn)  Some (Ppat_tuple [P1; ...; Pn])
           *)
    | Ppat_variant of label * pattern option
          (* `A             (None)
             `A P           (Some P)
           *)
    | Ppat_record of (Longident.t loc * pattern) list * closed_flag
          (* { l1=P1; ...; ln=Pn }     (flag = Closed)
             { l1=P1; ...; ln=Pn; _}   (flag = Open)

             Invariant: n > 0
           *)
    | Ppat_array of pattern list
          (* [| P1; ...; Pn |] *)
    | Ppat_or of pattern * pattern
          (* P1 | P2 *)
    | Ppat_constraint of pattern * core_type
          (* (P : T) *)
    | Ppat_type of Longident.t loc
          (* #tconst *)
    | Ppat_lazy of pattern
          (* lazy P *)
    | Ppat_unpack of string loc
          (* (module P)
             Note: (module P : S) is represented as
             Ppat_constraint(Ppat_unpack, Ptyp_package)
           *)
    | Ppat_exception of pattern
          (* exception P *)
    | Ppat_extension of extension
          (* [%id] *)
    | Ppat_open of Longident.t loc * pattern
          (* M.(P) *)

  (* Value expressions *)

  and expression (*IF_CURRENT = Parsetree.expression *) =
      {
       pexp_desc: expression_desc;
       pexp_loc: Location.t;
       pexp_attributes: attributes; (* ... [@id1] [@id2] *)
      }

  and expression_desc (*IF_CURRENT = Parsetree.expression_desc *) =
    | Pexp_ident of Longident.t loc
          (* x
             M.x
           *)
    | Pexp_constant of constant
          (* 1, 'a', "true", 1.0, 1l, 1L, 1n *)
    | Pexp_let of rec_flag * value_binding list * expression
          (* let P1 = E1 and ... and Pn = EN in E       (flag = Nonrecursive)
             let rec P1 = E1 and ... and Pn = EN in E   (flag = Recursive)
           *)
    | Pexp_function of case list
          (* function P1 -> E1 | ... | Pn -> En *)
    | Pexp_fun of arg_label * expression option * pattern * expression
          (* fun P -> E1                          (Simple, None)
             fun ~l:P -> E1                       (Labelled l, None)
             fun ?l:P -> E1                       (Optional l, None)
             fun ?l:(P = E0) -> E1                (Optional l, Some E0)

             Notes:
             - If E0 is provided, only Optional is allowed.
             - "fun P1 P2 .. Pn -> E1" is represented as nested Pexp_fun.
             - "let f P = E" is represented using Pexp_fun.
           *)
    | Pexp_apply of expression * (arg_label * expression) list
          (* E0 ~l1:E1 ... ~ln:En
             li can be empty (non labeled argument) or start with '?'
             (optional argument).

             Invariant: n > 0
           *)
    | Pexp_match of expression * case list
          (* match E0 with P1 -> E1 | ... | Pn -> En *)
    | Pexp_try of expression * case list
          (* try E0 with P1 -> E1 | ... | Pn -> En *)
    | Pexp_tuple of expression list
          (* (E1, ..., En)

             Invariant: n >= 2
          *)
    | Pexp_construct of Longident.t loc * expression option
          (* C                None
             C E              Some E
             C (E1, ..., En)  Some (Pexp_tuple[E1;...;En])
          *)
    | Pexp_variant of label * expression option
          (* `A             (None)
             `A E           (Some E)
           *)
    | Pexp_record of (Longident.t loc * expression) list * expression option
          (* { l1=P1; ...; ln=Pn }     (None)
             { E0 with l1=P1; ...; ln=Pn }   (Some E0)

             Invariant: n > 0
           *)
    | Pexp_field of expression * Longident.t loc
          (* E.l *)
    | Pexp_setfield of expression * Longident.t loc * expression
          (* E1.l <- E2 *)
    | Pexp_array of expression list
          (* [| E1; ...; En |] *)
    | Pexp_ifthenelse of expression * expression * expression option
          (* if E1 then E2 else E3 *)
    | Pexp_sequence of expression * expression
          (* E1; E2 *)
    | Pexp_while of expression * expression
          (* while E1 do E2 done *)
    | Pexp_for of
        pattern *  expression * expression * direction_flag * expression
          (* for i = E1 to E2 do E3 done      (flag = Upto)
             for i = E1 downto E2 do E3 done  (flag = Downto)
           *)
    | Pexp_constraint of expression * core_type
          (* (E : T) *)
    | Pexp_coerce of expression * core_type option * core_type
          (* (E :> T)        (None, T)
             (E : T0 :> T)   (Some T0, T)
           *)
    | Pexp_send of expression * string loc
          (*  E # m *)
    | Pexp_new of Longident.t loc
          (* new M.c *)
    | Pexp_setinstvar of string loc * expression
          (* x <- 2 *)
    | Pexp_override of (string loc * expression) list
          (* {< x1 = E1; ...; Xn = En >} *)
    | Pexp_letmodule of string loc * module_expr * expression
          (* let module M = ME in E *)
    | Pexp_letexception of extension_constructor * expression
          (* let exception C in E *)
    | Pexp_assert of expression
          (* assert E
             Note: "assert false" is treated in a special way by the
             type-checker. *)
    | Pexp_lazy of expression
          (* lazy E *)
    | Pexp_poly of expression * core_type option
          (* Used for method bodies.

             Can only be used as the expression under Cfk_concrete
             for methods (not values). *)
    | Pexp_object of class_structure
          (* object ... end *)
    | Pexp_newtype of string loc * expression
          (* fun (type t) -> E *)
    | Pexp_pack of module_expr
          (* (module ME)

             (module ME : S) is represented as
             Pexp_constraint(Pexp_pack, Ptyp_package S) *)
    | Pexp_open of override_flag * Longident.t loc * expression
          (* M.(E)
             let open M in E
             let! open M in E *)
    | Pexp_extension of extension
          (* [%id] *)
    | Pexp_unreachable
          (* . *)

  and case (*IF_CURRENT = Parsetree.case *) =   (* (P -> E) or (P when E0 -> E) *)
      {
       pc_lhs: pattern;
       pc_guard: expression option;
       pc_rhs: expression;
      }

  (* Value descriptions *)

  and value_description (*IF_CURRENT = Parsetree.value_description *) =
      {
       pval_name: string loc;
       pval_type: core_type;
       pval_prim: string list;
       pval_attributes: attributes;  (* ... [@@id1] [@@id2] *)
       pval_loc: Location.t;
      }

  (*
    val x: T                            (prim = [])
    external x: T = "s1" ... "sn"       (prim = ["s1";..."sn"])
  *)

  (* Type declarations *)

  and type_declaration (*IF_CURRENT = Parsetree.type_declaration *) =
      {
       ptype_name: string loc;
       ptype_params: (core_type * variance) list;
             (* ('a1,...'an) t; None represents  _*)
       ptype_cstrs: (core_type * core_type * Location.t) list;
             (* ... constraint T1=T1'  ... constraint Tn=Tn' *)
       ptype_kind: type_kind;
       ptype_private: private_flag;   (* = private ... *)
       ptype_manifest: core_type option;  (* = T *)
       ptype_attributes: attributes;   (* ... [@@id1] [@@id2] *)
       ptype_loc: Location.t;
      }

  (*
    type t                     (abstract, no manifest)
    type t = T0                (abstract, manifest=T0)
    type t = C of T | ...      (variant,  no manifest)
    type t = T0 = C of T | ... (variant,  manifest=T0)
    type t = {l: T; ...}       (record,   no manifest)
    type t = T0 = {l : T; ...} (record,   manifest=T0)
    type t = ..                (open,     no manifest)
  *)

  and type_kind (*IF_CURRENT = Parsetree.type_kind *) =
    | Ptype_abstract
    | Ptype_variant of constructor_declaration list
          (* Invariant: non-empty list *)
    | Ptype_record of label_declaration list
          (* Invariant: non-empty list *)
    | Ptype_open

  and label_declaration (*IF_CURRENT = Parsetree.label_declaration *) =
      {
       pld_name: string loc;
       pld_mutable: mutable_flag;
       pld_type: core_type;
       pld_loc: Location.t;
       pld_attributes: attributes; (* l [@id1] [@id2] : T *)
      }

  (*  { ...; l: T; ... }            (mutable=Immutable)
      { ...; mutable l: T; ... }    (mutable=Mutable)

      Note: T can be a Ptyp_poly.
  *)

  and constructor_declaration (*IF_CURRENT = Parsetree.constructor_declaration *) =
      {
       pcd_name: string loc;
       pcd_args: constructor_arguments;
       pcd_res: core_type option;
       pcd_loc: Location.t;
       pcd_attributes: attributes; (* C [@id1] [@id2] of ... *)
      }

  and constructor_arguments (*IF_CURRENT = Parsetree.constructor_arguments *) =
    | Pcstr_tuple of core_type list
    | Pcstr_record of label_declaration list

  (*
    | C of T1 * ... * Tn     (res = None,    args = Pcstr_tuple [])
    | C: T0                  (res = Some T0, args = [])
    | C: T1 * ... * Tn -> T0 (res = Some T0, args = Pcstr_tuple)
    | C of {...}             (res = None,    args = Pcstr_record)
    | C: {...} -> T0         (res = Some T0, args = Pcstr_record)
    | C of {...} as t        (res = None,    args = Pcstr_record)
  *)

  and type_extension (*IF_CURRENT = Parsetree.type_extension *) =
      {
       ptyext_path: Longident.t loc;
       ptyext_params: (core_type * variance) list;
       ptyext_constructors: extension_constructor list;
       ptyext_private: private_flag;
       ptyext_attributes: attributes;   (* ... [@@id1] [@@id2] *)
      }
  (*
    type t += ...
  *)

  and extension_constructor (*IF_CURRENT = Parsetree.extension_constructor *) =
      {
       pext_name: string loc;
       pext_kind : extension_constructor_kind;
       pext_loc : Location.t;
       pext_attributes: attributes; (* C [@id1] [@id2] of ... *)
      }

  and extension_constructor_kind (*IF_CURRENT = Parsetree.extension_constructor_kind *) =
      Pext_decl of constructor_arguments * core_type option
        (*
           | C of T1 * ... * Tn     ([T1; ...; Tn], None)
           | C: T0                  ([], Some T0)
           | C: T1 * ... * Tn -> T0 ([T1; ...; Tn], Some T0)
         *)
    | Pext_rebind of Longident.t loc
        (*
           | C = D
         *)

  (** {2 Class language} *)

  (* Type expressions for the class language *)

  and class_type (*IF_CURRENT = Parsetree.class_type *) =
      {
       pcty_desc: class_type_desc;
       pcty_loc: Location.t;
       pcty_attributes: attributes; (* ... [@id1] [@id2] *)
      }

  and class_type_desc (*IF_CURRENT = Parsetree.class_type_desc *) =
    | Pcty_constr of Longident.t loc * core_type list
          (* c
             ['a1, ..., 'an] c *)
    | Pcty_signature of class_signature
          (* object ... end *)
    | Pcty_arrow of arg_label * core_type * class_type
          (* T -> CT       Simple
             ~l:T -> CT    Labelled l
             ?l:T -> CT    Optional l
           *)
    | Pcty_extension of extension
          (* [%id] *)

  and class_signature (*IF_CURRENT = Parsetree.class_signature *) =
      {
       pcsig_self: core_type;
       pcsig_fields: class_type_field list;
      }
  (* object('selfpat) ... end
     object ... end             (self = Ptyp_any)
   *)

  and class_type_field (*IF_CURRENT = Parsetree.class_type_field *) =
      {
       pctf_desc: class_type_field_desc;
       pctf_loc: Location.t;
       pctf_attributes: attributes; (* ... [@@id1] [@@id2] *)
      }

  and class_type_field_desc (*IF_CURRENT = Parsetree.class_type_field_desc *) =
    | Pctf_inherit of class_type
          (* inherit CT *)
    | Pctf_val of (string loc * mutable_flag * virtual_flag * core_type)
          (* val x: T *)
    | Pctf_method  of (string loc * private_flag * virtual_flag * core_type)
          (* method x: T

             Note: T can be a Ptyp_poly.
           *)
    | Pctf_constraint  of (core_type * core_type)
          (* constraint T1 = T2 *)
    | Pctf_attribute of attribute
          (* [@@@id] *)
    | Pctf_extension of extension
          (* [%%id] *)

  and 'a class_infos (*IF_CURRENT = 'a Parsetree.class_infos *) =
      {
       pci_virt: virtual_flag;
       pci_params: (core_type * variance) list;
       pci_name: string loc;
       pci_expr: 'a;
       pci_loc: Location.t;
       pci_attributes: attributes;  (* ... [@@id1] [@@id2] *)
      }
  (* class c = ...
     class ['a1,...,'an] c = ...
     class virtual c = ...

     Also used for "class type" declaration.
  *)

  and class_description = class_type class_infos

  and class_type_declaration = class_type class_infos

  (* Value expressions for the class language *)

  and class_expr (*IF_CURRENT = Parsetree.class_expr *) =
      {
       pcl_desc: class_expr_desc;
       pcl_loc: Location.t;
       pcl_attributes: attributes; (* ... [@id1] [@id2] *)
      }

  and class_expr_desc (*IF_CURRENT = Parsetree.class_expr_desc *) =
    | Pcl_constr of Longident.t loc * core_type list
          (* c
             ['a1, ..., 'an] c *)
    | Pcl_structure of class_structure
          (* object ... end *)
    | Pcl_fun of arg_label * expression option * pattern * class_expr
          (* fun P -> CE                          (Simple, None)
             fun ~l:P -> CE                       (Labelled l, None)
             fun ?l:P -> CE                       (Optional l, None)
             fun ?l:(P = E0) -> CE                (Optional l, Some E0)
           *)
    | Pcl_apply of class_expr * (arg_label * expression) list
          (* CE ~l1:E1 ... ~ln:En
             li can be empty (non labeled argument) or start with '?'
             (optional argument).

             Invariant: n > 0
           *)
    | Pcl_let of rec_flag * value_binding list * class_expr
          (* let P1 = E1 and ... and Pn = EN in CE      (flag = Nonrecursive)
             let rec P1 = E1 and ... and Pn = EN in CE  (flag = Recursive)
           *)
    | Pcl_constraint of class_expr * class_type
          (* (CE : CT) *)
    | Pcl_extension of extension
          (* [%id] *)

  and class_structure (*IF_CURRENT = Parsetree.class_structure *) =
      {
       pcstr_self: pattern;
       pcstr_fields: class_field list;
      }
  (* object(selfpat) ... end
     object ... end           (self = Ppat_any)
   *)

  and class_field (*IF_CURRENT = Parsetree.class_field *) =
      {
       pcf_desc: class_field_desc;
       pcf_loc: Location.t;
       pcf_attributes: attributes; (* ... [@@id1] [@@id2] *)
      }

  and class_field_desc (*IF_CURRENT = Parsetree.class_field_desc *) =
    | Pcf_inherit of override_flag * class_expr * string loc option
          (* inherit CE
             inherit CE as x
             inherit! CE
             inherit! CE as x
           *)
    | Pcf_val of (string loc * mutable_flag * class_field_kind)
          (* val x = E
             val virtual x: T
           *)
    | Pcf_method of (string loc * private_flag * class_field_kind)
          (* method x = E            (E can be a Pexp_poly)
             method virtual x: T     (T can be a Ptyp_poly)
           *)
    | Pcf_constraint of (core_type * core_type)
          (* constraint T1 = T2 *)
    | Pcf_initializer of expression
          (* initializer E *)
    | Pcf_attribute of attribute
          (* [@@@id] *)
    | Pcf_extension of extension
          (* [%%id] *)

  and class_field_kind (*IF_CURRENT = Parsetree.class_field_kind *) =
    | Cfk_virtual of core_type
    | Cfk_concrete of override_flag * expression

  and class_declaration = class_expr class_infos

  (** {2 Module language} *)

  (* Type expressions for the module language *)

  and module_type (*IF_CURRENT = Parsetree.module_type *) =
      {
       pmty_desc: module_type_desc;
       pmty_loc: Location.t;
       pmty_attributes: attributes; (* ... [@id1] [@id2] *)
      }

  and module_type_desc (*IF_CURRENT = Parsetree.module_type_desc *) =
    | Pmty_ident of Longident.t loc
          (* S *)
    | Pmty_signature of signature
          (* sig ... end *)
    | Pmty_functor of string loc * module_type option * module_type
          (* functor(X : MT1) -> MT2 *)
    | Pmty_with of module_type * with_constraint list
          (* MT with ... *)
    | Pmty_typeof of module_expr
          (* module type of ME *)
    | Pmty_extension of extension
          (* [%id] *)
    | Pmty_alias of Longident.t loc
          (* (module M) *)

  and signature = signature_item list

  and signature_item (*IF_CURRENT = Parsetree.signature_item *) =
      {
       psig_desc: signature_item_desc;
       psig_loc: Location.t;
      }

  and signature_item_desc (*IF_CURRENT = Parsetree.signature_item_desc *) =
    | Psig_value of value_description
          (*
            val x: T
            external x: T = "s1" ... "sn"
           *)
    | Psig_type of rec_flag * type_declaration list
          (* type t1 = ... and ... and tn = ... *)
    | Psig_typext of type_extension
          (* type t1 += ... *)
    | Psig_exception of extension_constructor
          (* exception C of T *)
    | Psig_module of module_declaration
          (* module X : MT *)
    | Psig_recmodule of module_declaration list
          (* module rec X1 : MT1 and ... and Xn : MTn *)
    | Psig_modtype of module_type_declaration
          (* module type S = MT
             module type S *)
    | Psig_open of open_description
          (* open X *)
    | Psig_include of include_description
          (* include MT *)
    | Psig_class of class_description list
          (* class c1 : ... and ... and cn : ... *)
    | Psig_class_type of class_type_declaration list
          (* class type ct1 = ... and ... and ctn = ... *)
    | Psig_attribute of attribute
          (* [@@@id] *)
    | Psig_extension of extension * attributes
          (* [%%id] *)

  and module_declaration (*IF_CURRENT = Parsetree.module_declaration *) =
      {
       pmd_name: string loc;
       pmd_type: module_type;
       pmd_attributes: attributes; (* ... [@@id1] [@@id2] *)
       pmd_loc: Location.t;
      }
  (* S : MT *)

  and module_type_declaration (*IF_CURRENT = Parsetree.module_type_declaration *) =
      {
       pmtd_name: string loc;
       pmtd_type: module_type option;
       pmtd_attributes: attributes; (* ... [@@id1] [@@id2] *)
       pmtd_loc: Location.t;
      }
  (* S = MT
     S       (abstract module type declaration, pmtd_type = None)
  *)

  and open_description (*IF_CURRENT = Parsetree.open_description *) =
      {
       popen_lid: Longident.t loc;
       popen_override: override_flag;
       popen_loc: Location.t;
       popen_attributes: attributes;
      }
  (* open! X - popen_override = Override (silences the 'used identifier
                                shadowing' warning)
     open  X - popen_override = Fresh
   *)

  and 'a include_infos (*IF_CURRENT = 'a Parsetree.include_infos *) =
      {
       pincl_mod: 'a;
       pincl_loc: Location.t;
       pincl_attributes: attributes;
      }

  and include_description = module_type include_infos
  (* include MT *)

  and include_declaration = module_expr include_infos
  (* include ME *)

  and with_constraint (*IF_CURRENT = Parsetree.with_constraint *) =
    | Pwith_type of Longident.t loc * type_declaration
          (* with type X.t = ...

             Note: the last component of the longident must match
             the name of the type_declaration. *)
    | Pwith_module of Longident.t loc * Longident.t loc
          (* with module X.Y = Z *)
    | Pwith_typesubst of type_declaration
          (* with type t := ... *)
    | Pwith_modsubst of string loc * Longident.t loc
          (* with module X := Z *)

  (* Value expressions for the module language *)

  and module_expr (*IF_CURRENT = Parsetree.module_expr *) =
      {
       pmod_desc: module_expr_desc;
       pmod_loc: Location.t;
       pmod_attributes: attributes; (* ... [@id1] [@id2] *)
      }

  and module_expr_desc (*IF_CURRENT = Parsetree.module_expr_desc *) =
    | Pmod_ident of Longident.t loc
          (* X *)
    | Pmod_structure of structure
          (* struct ... end *)
    | Pmod_functor of string loc * module_type option * module_expr
          (* functor(X : MT1) -> ME *)
    | Pmod_apply of module_expr * module_expr
          (* ME1(ME2) *)
    | Pmod_constraint of module_expr * module_type
          (* (ME : MT) *)
    | Pmod_unpack of expression
          (* (val E) *)
    | Pmod_extension of extension
          (* [%id] *)

  and structure = structure_item list

  and structure_item (*IF_CURRENT = Parsetree.structure_item *) =
      {
       pstr_desc: structure_item_desc;
       pstr_loc: Location.t;
      }

  and structure_item_desc (*IF_CURRENT = Parsetree.structure_item_desc *) =
    | Pstr_eval of expression * attributes
          (* E *)
    | Pstr_value of rec_flag * value_binding list
          (* let P1 = E1 and ... and Pn = EN       (flag = Nonrecursive)
             let rec P1 = E1 and ... and Pn = EN   (flag = Recursive)
           *)
    | Pstr_primitive of value_description
          (*  val x: T
              external x: T = "s1" ... "sn" *)
    | Pstr_type of rec_flag * type_declaration list
          (* type t1 = ... and ... and tn = ... *)
    | Pstr_typext of type_extension
          (* type t1 += ... *)
    | Pstr_exception of extension_constructor
          (* exception C of T
             exception C = M.X *)
    | Pstr_module of module_binding
          (* module X = ME *)
    | Pstr_recmodule of module_binding list
          (* module rec X1 = ME1 and ... and Xn = MEn *)
    | Pstr_modtype of module_type_declaration
          (* module type S = MT *)
    | Pstr_open of open_description
          (* open X *)
    | Pstr_class of class_declaration list
          (* class c1 = ... and ... and cn = ... *)
    | Pstr_class_type of class_type_declaration list
          (* class type ct1 = ... and ... and ctn = ... *)
    | Pstr_include of include_declaration
          (* include ME *)
    | Pstr_attribute of attribute
          (* [@@@id] *)
    | Pstr_extension of extension * attributes
          (* [%%id] *)

  and value_binding (*IF_CURRENT = Parsetree.value_binding *) =
    {
      pvb_pat: pattern;
      pvb_expr: expression;
      pvb_attributes: attributes;
      pvb_loc: Location.t;
    }

  and module_binding (*IF_CURRENT = Parsetree.module_binding *) =
      {
       pmb_name: string loc;
       pmb_expr: module_expr;
       pmb_attributes: attributes;
       pmb_loc: Location.t;
      }
  (* X = ME *)

  (** {2 Toplevel} *)

  (* Toplevel phrases *)

  type toplevel_phrase (*IF_CURRENT = Parsetree.toplevel_phrase *) =
    | Ptop_def of structure
    | Ptop_dir of string * directive_argument
       (* #use, #load ... *)

  and directive_argument (*IF_CURRENT = Parsetree.directive_argument *) =
    | Pdir_none
    | Pdir_string of string
    | Pdir_int of string * char option
    | Pdir_ident of Longident.t
    | Pdir_bool of bool

end

module Docstrings : sig
  (** {3 Docstrings} *)

  (** Documentation comments *)
  type docstring

  (** Create a docstring *)
  val docstring : string -> Location.t -> docstring

  (** Get the text of a docstring *)
  val docstring_body : docstring -> string

  (** Get the location of a docstring *)
  val docstring_loc : docstring -> Location.t

  (** {3 Items}

      The {!docs} type represents documentation attached to an item. *)

  type docs =
    { docs_pre: docstring option;
      docs_post: docstring option; }

  val empty_docs : docs

  val docs_attr : docstring -> Parsetree.attribute

  (** Convert item documentation to attributes and add them to an
      attribute list *)
  val add_docs_attrs : docs -> Parsetree.attributes -> Parsetree.attributes

  (** {3 Fields and constructors}

      The {!info} type represents documentation attached to a field or
      constructor. *)

  type info = docstring option

  val empty_info : info

  val info_attr : docstring -> Parsetree.attribute

  (** Convert field info to attributes and add them to an
      attribute list *)
  val add_info_attrs : info -> Parsetree.attributes -> Parsetree.attributes

  (** {3 Unattached comments}

      The {!text} type represents documentation which is not attached to
      anything. *)

  type text = docstring list

  val empty_text : text

  val text_attr : docstring -> Parsetree.attribute

  (** Convert text to attributes and add them to an attribute list *)
  val add_text_attrs : text -> Parsetree.attributes -> Parsetree.attributes

end = struct
  open Location

  (* Docstrings *)

  type docstring =
    { ds_body: string;
      ds_loc: Location.t;
    }

  (* Docstring constructors and destructors *)

  let docstring body loc =
    let ds =
      { ds_body = body;
        ds_loc = loc;
      }
    in
    ds

  let docstring_body ds = ds.ds_body

  let docstring_loc ds = ds.ds_loc

  (* Docstrings attached to items *)

  type docs =
    { docs_pre: docstring option;
      docs_post: docstring option; }

  let empty_docs = { docs_pre = None; docs_post = None }

  let doc_loc = {txt = "ocaml.doc"; loc = Location.none}

  let docs_attr ds =
    let open Parsetree in
    let exp =
      { pexp_desc = Pexp_constant (Pconst_string(ds.ds_body, None));
        pexp_loc = ds.ds_loc;
        pexp_attributes = []; }
    in
    let item =
      { pstr_desc = Pstr_eval (exp, []); pstr_loc = exp.pexp_loc }
    in
      (doc_loc, PStr [item])

  let add_docs_attrs docs attrs =
    let attrs =
      match docs.docs_pre with
      | None | Some { ds_body=""; _ } -> attrs
      | Some ds -> docs_attr ds :: attrs
    in
    let attrs =
      match docs.docs_post with
      | None | Some { ds_body=""; _ } -> attrs
      | Some ds -> attrs @ [docs_attr ds]
    in
    attrs

  (* Docstrings attached to constructors or fields *)

  type info = docstring option

  let empty_info = None

  let info_attr = docs_attr

  let add_info_attrs info attrs =
    match info with
    | None | Some {ds_body=""; _} -> attrs
    | Some ds -> attrs @ [info_attr ds]

  (* Docstrings not attached to a specific item *)

  type text = docstring list

  let empty_text = []

  let text_loc = {txt = "ocaml.text"; loc = Location.none}

  let text_attr ds =
    let open Parsetree in
    let exp =
      { pexp_desc = Pexp_constant (Pconst_string(ds.ds_body, None));
        pexp_loc = ds.ds_loc;
        pexp_attributes = []; }
    in
    let item =
      { pstr_desc = Pstr_eval (exp, []); pstr_loc = exp.pexp_loc }
    in
      (text_loc, PStr [item])

  let add_text_attrs dsl attrs =
    let fdsl = List.filter (function {ds_body=""; _} -> false| _ ->true) dsl in
    (List.map text_attr fdsl) @ attrs

end

module Ast_helper : sig

  (** Helpers to produce Parsetree fragments *)

  open Asttypes
  open Docstrings
  open Parsetree

  type lid = Longident.t loc
  type str = string loc
  type loc = Location.t
  type attrs = attribute list

  (** {2 Default locations} *)

  val default_loc: loc ref
      (** Default value for all optional location arguments. *)

  val with_default_loc: loc -> (unit -> 'a) -> 'a
      (** Set the [default_loc] within the scope of the execution
          of the provided function. *)

  (** {2 Constants} *)

  module Const : sig
    val char : char -> constant
    val string : ?quotation_delimiter:string -> string -> constant
    val integer : ?suffix:char -> string -> constant
    val int : ?suffix:char -> int -> constant
    val int32 : ?suffix:char -> int32 -> constant
    val int64 : ?suffix:char -> int64 -> constant
    val nativeint : ?suffix:char -> nativeint -> constant
    val float : ?suffix:char -> string -> constant
  end

  (** {2 Core language} *)

  (** Type expressions *)
  module Typ :
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> core_type_desc -> core_type
      val attr: core_type -> attribute -> core_type

      val any: ?loc:loc -> ?attrs:attrs -> unit -> core_type
      val var: ?loc:loc -> ?attrs:attrs -> string -> core_type
      val arrow: ?loc:loc -> ?attrs:attrs -> arg_label -> core_type -> core_type
                 -> core_type
      val tuple: ?loc:loc -> ?attrs:attrs -> core_type list -> core_type
      val constr: ?loc:loc -> ?attrs:attrs -> lid -> core_type list -> core_type
      val object_: ?loc:loc -> ?attrs:attrs ->
                    (str * attributes * core_type) list -> closed_flag ->
                    core_type
      val class_: ?loc:loc -> ?attrs:attrs -> lid -> core_type list -> core_type
      val alias: ?loc:loc -> ?attrs:attrs -> core_type -> string -> core_type
      val variant: ?loc:loc -> ?attrs:attrs -> row_field list -> closed_flag
                   -> label list option -> core_type
      val poly: ?loc:loc -> ?attrs:attrs -> str list -> core_type -> core_type
      val package: ?loc:loc -> ?attrs:attrs -> lid -> (lid * core_type) list
                   -> core_type
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> core_type

      val force_poly: core_type -> core_type

      val varify_constructors: str list -> core_type -> core_type
      (** [varify_constructors newtypes te] is type expression [te], of which
          any of nullary type constructor [tc] is replaced by type variable of
          the same name, if [tc]'s name appears in [newtypes].
          Raise [Syntaxerr.Variable_in_scope] if any type variable inside [te]
          appears in [newtypes].
          @since 4.05
       *)
    end

  (** Patterns *)
  module Pat:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> pattern_desc -> pattern
      val attr:pattern -> attribute -> pattern

      val any: ?loc:loc -> ?attrs:attrs -> unit -> pattern
      val var: ?loc:loc -> ?attrs:attrs -> str -> pattern
      val alias: ?loc:loc -> ?attrs:attrs -> pattern -> str -> pattern
      val constant: ?loc:loc -> ?attrs:attrs -> constant -> pattern
      val interval: ?loc:loc -> ?attrs:attrs -> constant -> constant -> pattern
      val tuple: ?loc:loc -> ?attrs:attrs -> pattern list -> pattern
      val construct: ?loc:loc -> ?attrs:attrs -> lid -> pattern option -> pattern
      val variant: ?loc:loc -> ?attrs:attrs -> label -> pattern option -> pattern
      val record: ?loc:loc -> ?attrs:attrs -> (lid * pattern) list -> closed_flag
                  -> pattern
      val array: ?loc:loc -> ?attrs:attrs -> pattern list -> pattern
      val or_: ?loc:loc -> ?attrs:attrs -> pattern -> pattern -> pattern
      val constraint_: ?loc:loc -> ?attrs:attrs -> pattern -> core_type -> pattern
      val type_: ?loc:loc -> ?attrs:attrs -> lid -> pattern
      val lazy_: ?loc:loc -> ?attrs:attrs -> pattern -> pattern
      val unpack: ?loc:loc -> ?attrs:attrs -> str -> pattern
      val open_: ?loc:loc -> ?attrs:attrs  -> lid -> pattern -> pattern
      val exception_: ?loc:loc -> ?attrs:attrs -> pattern -> pattern
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> pattern
    end

  (** Expressions *)
  module Exp:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> expression_desc -> expression
      val attr: expression -> attribute -> expression

      val ident: ?loc:loc -> ?attrs:attrs -> lid -> expression
      val constant: ?loc:loc -> ?attrs:attrs -> constant -> expression
      val let_: ?loc:loc -> ?attrs:attrs -> rec_flag -> value_binding list
                -> expression -> expression
      val fun_: ?loc:loc -> ?attrs:attrs -> arg_label -> expression option
                -> pattern -> expression -> expression
      val function_: ?loc:loc -> ?attrs:attrs -> case list -> expression
      val apply: ?loc:loc -> ?attrs:attrs -> expression
                 -> (arg_label * expression) list -> expression
      val match_: ?loc:loc -> ?attrs:attrs -> expression -> case list
                  -> expression
      val try_: ?loc:loc -> ?attrs:attrs -> expression -> case list -> expression
      val tuple: ?loc:loc -> ?attrs:attrs -> expression list -> expression
      val construct: ?loc:loc -> ?attrs:attrs -> lid -> expression option
                     -> expression
      val variant: ?loc:loc -> ?attrs:attrs -> label -> expression option
                   -> expression
      val record: ?loc:loc -> ?attrs:attrs -> (lid * expression) list
                  -> expression option -> expression
      val field: ?loc:loc -> ?attrs:attrs -> expression -> lid -> expression
      val setfield: ?loc:loc -> ?attrs:attrs -> expression -> lid -> expression
                    -> expression
      val array: ?loc:loc -> ?attrs:attrs -> expression list -> expression
      val ifthenelse: ?loc:loc -> ?attrs:attrs -> expression -> expression
                      -> expression option -> expression
      val sequence: ?loc:loc -> ?attrs:attrs -> expression -> expression
                    -> expression
      val while_: ?loc:loc -> ?attrs:attrs -> expression -> expression
                  -> expression
      val for_: ?loc:loc -> ?attrs:attrs -> pattern -> expression -> expression
                -> direction_flag -> expression -> expression
      val coerce: ?loc:loc -> ?attrs:attrs -> expression -> core_type option
                  -> core_type -> expression
      val constraint_: ?loc:loc -> ?attrs:attrs -> expression -> core_type
                       -> expression
      val send: ?loc:loc -> ?attrs:attrs -> expression -> str -> expression
      val new_: ?loc:loc -> ?attrs:attrs -> lid -> expression
      val setinstvar: ?loc:loc -> ?attrs:attrs -> str -> expression -> expression
      val override: ?loc:loc -> ?attrs:attrs -> (str * expression) list
                    -> expression
      val letmodule: ?loc:loc -> ?attrs:attrs -> str -> module_expr -> expression
                     -> expression
      val letexception:
        ?loc:loc -> ?attrs:attrs -> extension_constructor -> expression
        -> expression
      val assert_: ?loc:loc -> ?attrs:attrs -> expression -> expression
      val lazy_: ?loc:loc -> ?attrs:attrs -> expression -> expression
      val poly: ?loc:loc -> ?attrs:attrs -> expression -> core_type option
                -> expression
      val object_: ?loc:loc -> ?attrs:attrs -> class_structure -> expression
      val newtype: ?loc:loc -> ?attrs:attrs -> str -> expression -> expression
      val pack: ?loc:loc -> ?attrs:attrs -> module_expr -> expression
      val open_: ?loc:loc -> ?attrs:attrs -> override_flag -> lid -> expression
                 -> expression
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> expression
      val unreachable: ?loc:loc -> ?attrs:attrs -> unit -> expression

      val case: pattern -> ?guard:expression -> expression -> case
    end

  (** Value declarations *)
  module Val:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> ?docs:docs ->
        ?prim:string list -> str -> core_type -> value_description
    end

  (** Type declarations *)
  module Type:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> ?docs:docs -> ?text:text ->
        ?params:(core_type * variance) list ->
        ?cstrs:(core_type * core_type * loc) list ->
        ?kind:type_kind -> ?priv:private_flag -> ?manifest:core_type -> str ->
        type_declaration

      val constructor: ?loc:loc -> ?attrs:attrs -> ?info:info ->
        ?args:constructor_arguments -> ?res:core_type -> str ->
        constructor_declaration
      val field: ?loc:loc -> ?attrs:attrs -> ?info:info ->
        ?mut:mutable_flag -> str -> core_type -> label_declaration
    end

  (** Type extensions *)
  module Te:
    sig
      val mk: ?attrs:attrs -> ?docs:docs ->
        ?params:(core_type * variance) list -> ?priv:private_flag ->
        lid -> extension_constructor list -> type_extension

      val constructor: ?loc:loc -> ?attrs:attrs -> ?docs:docs -> ?info:info ->
        str -> extension_constructor_kind -> extension_constructor

      val decl: ?loc:loc -> ?attrs:attrs -> ?docs:docs -> ?info:info ->
        ?args:constructor_arguments -> ?res:core_type -> str ->
        extension_constructor
      val rebind: ?loc:loc -> ?attrs:attrs -> ?docs:docs -> ?info:info ->
        str -> lid -> extension_constructor
    end

  (** {2 Module language} *)

  (** Module type expressions *)
  module Mty:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> module_type_desc -> module_type
      val attr: module_type -> attribute -> module_type

      val ident: ?loc:loc -> ?attrs:attrs -> lid -> module_type
      val alias: ?loc:loc -> ?attrs:attrs -> lid -> module_type
      val signature: ?loc:loc -> ?attrs:attrs -> signature -> module_type
      val functor_: ?loc:loc -> ?attrs:attrs ->
        str -> module_type option -> module_type -> module_type
      val with_: ?loc:loc -> ?attrs:attrs -> module_type ->
        with_constraint list -> module_type
      val typeof_: ?loc:loc -> ?attrs:attrs -> module_expr -> module_type
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> module_type
    end

  (** Module expressions *)
  module Mod:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> module_expr_desc -> module_expr
      val attr: module_expr -> attribute -> module_expr

      val ident: ?loc:loc -> ?attrs:attrs -> lid -> module_expr
      val structure: ?loc:loc -> ?attrs:attrs -> structure -> module_expr
      val functor_: ?loc:loc -> ?attrs:attrs ->
        str -> module_type option -> module_expr -> module_expr
      val apply: ?loc:loc -> ?attrs:attrs -> module_expr -> module_expr ->
        module_expr
      val constraint_: ?loc:loc -> ?attrs:attrs -> module_expr -> module_type ->
        module_expr
      val unpack: ?loc:loc -> ?attrs:attrs -> expression -> module_expr
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> module_expr
    end

  (** Signature items *)
  module Sig:
    sig
      val mk: ?loc:loc -> signature_item_desc -> signature_item

      val value: ?loc:loc -> value_description -> signature_item
      val type_: ?loc:loc -> rec_flag -> type_declaration list -> signature_item
      val type_extension: ?loc:loc -> type_extension -> signature_item
      val exception_: ?loc:loc -> extension_constructor -> signature_item
      val module_: ?loc:loc -> module_declaration -> signature_item
      val rec_module: ?loc:loc -> module_declaration list -> signature_item
      val modtype: ?loc:loc -> module_type_declaration -> signature_item
      val open_: ?loc:loc -> open_description -> signature_item
      val include_: ?loc:loc -> include_description -> signature_item
      val class_: ?loc:loc -> class_description list -> signature_item
      val class_type: ?loc:loc -> class_type_declaration list -> signature_item
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> signature_item
      val attribute: ?loc:loc -> attribute -> signature_item
      val text: text -> signature_item list
    end

  (** Structure items *)
  module Str:
    sig
      val mk: ?loc:loc -> structure_item_desc -> structure_item

      val eval: ?loc:loc -> ?attrs:attributes -> expression -> structure_item
      val value: ?loc:loc -> rec_flag -> value_binding list -> structure_item
      val primitive: ?loc:loc -> value_description -> structure_item
      val type_: ?loc:loc -> rec_flag -> type_declaration list -> structure_item
      val type_extension: ?loc:loc -> type_extension -> structure_item
      val exception_: ?loc:loc -> extension_constructor -> structure_item
      val module_: ?loc:loc -> module_binding -> structure_item
      val rec_module: ?loc:loc -> module_binding list -> structure_item
      val modtype: ?loc:loc -> module_type_declaration -> structure_item
      val open_: ?loc:loc -> open_description -> structure_item
      val class_: ?loc:loc -> class_declaration list -> structure_item
      val class_type: ?loc:loc -> class_type_declaration list -> structure_item
      val include_: ?loc:loc -> include_declaration -> structure_item
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> structure_item
      val attribute: ?loc:loc -> attribute -> structure_item
      val text: text -> structure_item list
    end

  (** Module declarations *)
  module Md:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> ?docs:docs -> ?text:text ->
        str -> module_type -> module_declaration
    end

  (** Module type declarations *)
  module Mtd:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> ?docs:docs -> ?text:text ->
        ?typ:module_type -> str -> module_type_declaration
    end

  (** Module bindings *)
  module Mb:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> ?docs:docs -> ?text:text ->
        str -> module_expr -> module_binding
    end

  (** Opens *)
  module Opn:
    sig
      val mk: ?loc: loc -> ?attrs:attrs -> ?docs:docs ->
        ?override:override_flag -> lid -> open_description
    end

  (** Includes *)
  module Incl:
    sig
      val mk: ?loc: loc -> ?attrs:attrs -> ?docs:docs -> 'a -> 'a include_infos
    end

  (** Value bindings *)
  module Vb:
    sig
      val mk: ?loc: loc -> ?attrs:attrs -> ?docs:docs -> ?text:text ->
        pattern -> expression -> value_binding
    end


  (** {2 Class language} *)

  (** Class type expressions *)
  module Cty:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> class_type_desc -> class_type
      val attr: class_type -> attribute -> class_type

      val constr: ?loc:loc -> ?attrs:attrs -> lid -> core_type list -> class_type
      val signature: ?loc:loc -> ?attrs:attrs -> class_signature -> class_type
      val arrow: ?loc:loc -> ?attrs:attrs -> arg_label -> core_type ->
        class_type -> class_type
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> class_type
    end

  (** Class type fields *)
  module Ctf:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> ?docs:docs ->
        class_type_field_desc -> class_type_field
      val attr: class_type_field -> attribute -> class_type_field

      val inherit_: ?loc:loc -> ?attrs:attrs -> class_type -> class_type_field
      val val_: ?loc:loc -> ?attrs:attrs -> str -> mutable_flag ->
        virtual_flag -> core_type -> class_type_field
      val method_: ?loc:loc -> ?attrs:attrs -> str -> private_flag ->
        virtual_flag -> core_type -> class_type_field
      val constraint_: ?loc:loc -> ?attrs:attrs -> core_type -> core_type ->
        class_type_field
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> class_type_field
      val attribute: ?loc:loc -> attribute -> class_type_field
      val text: text -> class_type_field list
    end

  (** Class expressions *)
  module Cl:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> class_expr_desc -> class_expr
      val attr: class_expr -> attribute -> class_expr

      val constr: ?loc:loc -> ?attrs:attrs -> lid -> core_type list -> class_expr
      val structure: ?loc:loc -> ?attrs:attrs -> class_structure -> class_expr
      val fun_: ?loc:loc -> ?attrs:attrs -> arg_label -> expression option ->
        pattern -> class_expr -> class_expr
      val apply: ?loc:loc -> ?attrs:attrs -> class_expr ->
        (arg_label * expression) list -> class_expr
      val let_: ?loc:loc -> ?attrs:attrs -> rec_flag -> value_binding list ->
        class_expr -> class_expr
      val constraint_: ?loc:loc -> ?attrs:attrs -> class_expr -> class_type ->
        class_expr
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> class_expr
    end

  (** Class fields *)
  module Cf:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> ?docs:docs -> class_field_desc ->
        class_field
      val attr: class_field -> attribute -> class_field

      val inherit_: ?loc:loc -> ?attrs:attrs -> override_flag -> class_expr ->
        str option -> class_field
      val val_: ?loc:loc -> ?attrs:attrs -> str -> mutable_flag ->
        class_field_kind -> class_field
      val method_: ?loc:loc -> ?attrs:attrs -> str -> private_flag ->
        class_field_kind -> class_field
      val constraint_: ?loc:loc -> ?attrs:attrs -> core_type -> core_type ->
        class_field
      val initializer_: ?loc:loc -> ?attrs:attrs -> expression -> class_field
      val extension: ?loc:loc -> ?attrs:attrs -> extension -> class_field
      val attribute: ?loc:loc -> attribute -> class_field
      val text: text -> class_field list

      val virtual_: core_type -> class_field_kind
      val concrete: override_flag -> expression -> class_field_kind

    end

  (** Classes *)
  module Ci:
    sig
      val mk: ?loc:loc -> ?attrs:attrs -> ?docs:docs -> ?text:text ->
        ?virt:virtual_flag -> ?params:(core_type * variance) list ->
        str -> 'a -> 'a class_infos
    end

  (** Class signatures *)
  module Csig:
    sig
      val mk: core_type -> class_type_field list -> class_signature
    end

  (** Class structures *)
  module Cstr:
    sig
      val mk: pattern -> class_field list -> class_structure
    end

end = struct
  (** Helpers to produce Parsetree fragments *)

  open Asttypes
  open Parsetree
  open Docstrings

  type lid = Longident.t loc
  type str = string loc
  type loc = Location.t
  type attrs = attribute list

  let default_loc = ref Location.none

  let with_default_loc l f =
    let old = !default_loc in
    default_loc := l;
    try let r = f () in default_loc := old; r
    with exn -> default_loc := old; raise exn

  module Const = struct
    let integer ?suffix i = Pconst_integer (i, suffix)
    let int ?suffix i = integer ?suffix (string_of_int i)
    let int32 ?(suffix='l') i = integer ~suffix (Int32.to_string i)
    let int64 ?(suffix='L') i = integer ~suffix (Int64.to_string i)
    let nativeint ?(suffix='n') i = integer ~suffix (Nativeint.to_string i)
    let float ?suffix f = Pconst_float (f, suffix)
    let char c = Pconst_char c
    let string ?quotation_delimiter s = Pconst_string (s, quotation_delimiter)
  end

  module Typ = struct
    let mk ?(loc = !default_loc) ?(attrs = []) d =
      {ptyp_desc = d; ptyp_loc = loc; ptyp_attributes = attrs}
    let attr d a = {d with ptyp_attributes = d.ptyp_attributes @ [a]}

    let any ?loc ?attrs () = mk ?loc ?attrs Ptyp_any
    let var ?loc ?attrs a = mk ?loc ?attrs (Ptyp_var a)
    let arrow ?loc ?attrs a b c = mk ?loc ?attrs (Ptyp_arrow (a, b, c))
    let tuple ?loc ?attrs a = mk ?loc ?attrs (Ptyp_tuple a)
    let constr ?loc ?attrs a b = mk ?loc ?attrs (Ptyp_constr (a, b))
    let object_ ?loc ?attrs a b = mk ?loc ?attrs (Ptyp_object (a, b))
    let class_ ?loc ?attrs a b = mk ?loc ?attrs (Ptyp_class (a, b))
    let alias ?loc ?attrs a b = mk ?loc ?attrs (Ptyp_alias (a, b))
    let variant ?loc ?attrs a b c = mk ?loc ?attrs (Ptyp_variant (a, b, c))
    let poly ?loc ?attrs a b = mk ?loc ?attrs (Ptyp_poly (a, b))
    let package ?loc ?attrs a b = mk ?loc ?attrs (Ptyp_package (a, b))
    let extension ?loc ?attrs a = mk ?loc ?attrs (Ptyp_extension a)

    let force_poly t =
      match t.ptyp_desc with
      | Ptyp_poly _ -> t
      | _ -> poly ~loc:t.ptyp_loc [] t (* -> ghost? *)

    let varify_constructors var_names t =
      let check_variable vl loc v =
        if List.mem v vl then
          raise Syntaxerr.(Error(Variable_in_scope(loc,v))) in
      let var_names = List.map (fun v -> v.txt) var_names in
      let rec loop t =
        let desc =
          match t.ptyp_desc with
          | Ptyp_any -> Ptyp_any
          | Ptyp_var x ->
              check_variable var_names t.ptyp_loc x;
              Ptyp_var x
          | Ptyp_arrow (label,core_type,core_type') ->
              Ptyp_arrow(label, loop core_type, loop core_type')
          | Ptyp_tuple lst -> Ptyp_tuple (List.map loop lst)
          | Ptyp_constr( { txt = Longident.Lident s; _ }, [])
            when List.mem s var_names ->
              Ptyp_var s
          | Ptyp_constr(longident, lst) ->
              Ptyp_constr(longident, List.map loop lst)
          | Ptyp_object (lst, o) ->
              Ptyp_object
                (List.map (fun (s, attrs, t) -> (s, attrs, loop t)) lst, o)
          | Ptyp_class (longident, lst) ->
              Ptyp_class (longident, List.map loop lst)
          | Ptyp_alias(core_type, string) ->
              check_variable var_names t.ptyp_loc string;
              Ptyp_alias(loop core_type, string)
          | Ptyp_variant(row_field_list, flag, lbl_lst_option) ->
              Ptyp_variant(List.map loop_row_field row_field_list,
                           flag, lbl_lst_option)
          | Ptyp_poly(string_lst, core_type) ->
            List.iter (fun v ->
              check_variable var_names t.ptyp_loc v.txt) string_lst;
              Ptyp_poly(string_lst, loop core_type)
          | Ptyp_package(longident,lst) ->
              Ptyp_package(longident,List.map (fun (n,typ) -> (n,loop typ) ) lst)
          | Ptyp_extension (s, arg) ->
              Ptyp_extension (s, arg)
        in
        {t with ptyp_desc = desc}
      and loop_row_field  =
        function
          | Rtag(label,attrs,flag,lst) ->
              Rtag(label,attrs,flag,List.map loop lst)
          | Rinherit t ->
              Rinherit (loop t)
      in
      loop t

  end

  module Pat = struct
    let mk ?(loc = !default_loc) ?(attrs = []) d =
      {ppat_desc = d; ppat_loc = loc; ppat_attributes = attrs}
    let attr d a = {d with ppat_attributes = d.ppat_attributes @ [a]}

    let any ?loc ?attrs () = mk ?loc ?attrs Ppat_any
    let var ?loc ?attrs a = mk ?loc ?attrs (Ppat_var a)
    let alias ?loc ?attrs a b = mk ?loc ?attrs (Ppat_alias (a, b))
    let constant ?loc ?attrs a = mk ?loc ?attrs (Ppat_constant a)
    let interval ?loc ?attrs a b = mk ?loc ?attrs (Ppat_interval (a, b))
    let tuple ?loc ?attrs a = mk ?loc ?attrs (Ppat_tuple a)
    let construct ?loc ?attrs a b = mk ?loc ?attrs (Ppat_construct (a, b))
    let variant ?loc ?attrs a b = mk ?loc ?attrs (Ppat_variant (a, b))
    let record ?loc ?attrs a b = mk ?loc ?attrs (Ppat_record (a, b))
    let array ?loc ?attrs a = mk ?loc ?attrs (Ppat_array a)
    let or_ ?loc ?attrs a b = mk ?loc ?attrs (Ppat_or (a, b))
    let constraint_ ?loc ?attrs a b = mk ?loc ?attrs (Ppat_constraint (a, b))
    let type_ ?loc ?attrs a = mk ?loc ?attrs (Ppat_type a)
    let lazy_ ?loc ?attrs a = mk ?loc ?attrs (Ppat_lazy a)
    let unpack ?loc ?attrs a = mk ?loc ?attrs (Ppat_unpack a)
    let open_ ?loc ?attrs a b = mk ?loc ?attrs (Ppat_open (a, b))
    let exception_ ?loc ?attrs a = mk ?loc ?attrs (Ppat_exception a)
    let extension ?loc ?attrs a = mk ?loc ?attrs (Ppat_extension a)
  end

  module Exp = struct
    let mk ?(loc = !default_loc) ?(attrs = []) d =
      {pexp_desc = d; pexp_loc = loc; pexp_attributes = attrs}
    let attr d a = {d with pexp_attributes = d.pexp_attributes @ [a]}

    let ident ?loc ?attrs a = mk ?loc ?attrs (Pexp_ident a)
    let constant ?loc ?attrs a = mk ?loc ?attrs (Pexp_constant a)
    let let_ ?loc ?attrs a b c = mk ?loc ?attrs (Pexp_let (a, b, c))
    let fun_ ?loc ?attrs a b c d = mk ?loc ?attrs (Pexp_fun (a, b, c, d))
    let function_ ?loc ?attrs a = mk ?loc ?attrs (Pexp_function a)
    let apply ?loc ?attrs a b = mk ?loc ?attrs (Pexp_apply (a, b))
    let match_ ?loc ?attrs a b = mk ?loc ?attrs (Pexp_match (a, b))
    let try_ ?loc ?attrs a b = mk ?loc ?attrs (Pexp_try (a, b))
    let tuple ?loc ?attrs a = mk ?loc ?attrs (Pexp_tuple a)
    let construct ?loc ?attrs a b = mk ?loc ?attrs (Pexp_construct (a, b))
    let variant ?loc ?attrs a b = mk ?loc ?attrs (Pexp_variant (a, b))
    let record ?loc ?attrs a b = mk ?loc ?attrs (Pexp_record (a, b))
    let field ?loc ?attrs a b = mk ?loc ?attrs (Pexp_field (a, b))
    let setfield ?loc ?attrs a b c = mk ?loc ?attrs (Pexp_setfield (a, b, c))
    let array ?loc ?attrs a = mk ?loc ?attrs (Pexp_array a)
    let ifthenelse ?loc ?attrs a b c = mk ?loc ?attrs (Pexp_ifthenelse (a, b, c))
    let sequence ?loc ?attrs a b = mk ?loc ?attrs (Pexp_sequence (a, b))
    let while_ ?loc ?attrs a b = mk ?loc ?attrs (Pexp_while (a, b))
    let for_ ?loc ?attrs a b c d e = mk ?loc ?attrs (Pexp_for (a, b, c, d, e))
    let constraint_ ?loc ?attrs a b = mk ?loc ?attrs (Pexp_constraint (a, b))
    let coerce ?loc ?attrs a b c = mk ?loc ?attrs (Pexp_coerce (a, b, c))
    let send ?loc ?attrs a b = mk ?loc ?attrs (Pexp_send (a, b))
    let new_ ?loc ?attrs a = mk ?loc ?attrs (Pexp_new a)
    let setinstvar ?loc ?attrs a b = mk ?loc ?attrs (Pexp_setinstvar (a, b))
    let override ?loc ?attrs a = mk ?loc ?attrs (Pexp_override a)
    let letmodule ?loc ?attrs a b c= mk ?loc ?attrs (Pexp_letmodule (a, b, c))
    let letexception ?loc ?attrs a b = mk ?loc ?attrs (Pexp_letexception (a, b))
    let assert_ ?loc ?attrs a = mk ?loc ?attrs (Pexp_assert a)
    let lazy_ ?loc ?attrs a = mk ?loc ?attrs (Pexp_lazy a)
    let poly ?loc ?attrs a b = mk ?loc ?attrs (Pexp_poly (a, b))
    let object_ ?loc ?attrs a = mk ?loc ?attrs (Pexp_object a)
    let newtype ?loc ?attrs a b = mk ?loc ?attrs (Pexp_newtype (a, b))
    let pack ?loc ?attrs a = mk ?loc ?attrs (Pexp_pack a)
    let open_ ?loc ?attrs a b c = mk ?loc ?attrs (Pexp_open (a, b, c))
    let extension ?loc ?attrs a = mk ?loc ?attrs (Pexp_extension a)
    let unreachable ?loc ?attrs () = mk ?loc ?attrs Pexp_unreachable

    let case lhs ?guard rhs =
      {
       pc_lhs = lhs;
       pc_guard = guard;
       pc_rhs = rhs;
      }
  end

  module Mty = struct
    let mk ?(loc = !default_loc) ?(attrs = []) d =
      {pmty_desc = d; pmty_loc = loc; pmty_attributes = attrs}
    let attr d a = {d with pmty_attributes = d.pmty_attributes @ [a]}

    let ident ?loc ?attrs a = mk ?loc ?attrs (Pmty_ident a)
    let alias ?loc ?attrs a = mk ?loc ?attrs (Pmty_alias a)
    let signature ?loc ?attrs a = mk ?loc ?attrs (Pmty_signature a)
    let functor_ ?loc ?attrs a b c = mk ?loc ?attrs (Pmty_functor (a, b, c))
    let with_ ?loc ?attrs a b = mk ?loc ?attrs (Pmty_with (a, b))
    let typeof_ ?loc ?attrs a = mk ?loc ?attrs (Pmty_typeof a)
    let extension ?loc ?attrs a = mk ?loc ?attrs (Pmty_extension a)
  end

  module Mod = struct
  let mk ?(loc = !default_loc) ?(attrs = []) d =
    {pmod_desc = d; pmod_loc = loc; pmod_attributes = attrs}
    let attr d a = {d with pmod_attributes = d.pmod_attributes @ [a]}

    let ident ?loc ?attrs x = mk ?loc ?attrs (Pmod_ident x)
    let structure ?loc ?attrs x = mk ?loc ?attrs (Pmod_structure x)
    let functor_ ?loc ?attrs arg arg_ty body =
      mk ?loc ?attrs (Pmod_functor (arg, arg_ty, body))
    let apply ?loc ?attrs m1 m2 = mk ?loc ?attrs (Pmod_apply (m1, m2))
    let constraint_ ?loc ?attrs m mty = mk ?loc ?attrs (Pmod_constraint (m, mty))
    let unpack ?loc ?attrs e = mk ?loc ?attrs (Pmod_unpack e)
    let extension ?loc ?attrs a = mk ?loc ?attrs (Pmod_extension a)
  end

  module Sig = struct
    let mk ?(loc = !default_loc) d = {psig_desc = d; psig_loc = loc}

    let value ?loc a = mk ?loc (Psig_value a)
    let type_ ?loc rec_flag a = mk ?loc (Psig_type (rec_flag, a))
    let type_extension ?loc a = mk ?loc (Psig_typext a)
    let exception_ ?loc a = mk ?loc (Psig_exception a)
    let module_ ?loc a = mk ?loc (Psig_module a)
    let rec_module ?loc a = mk ?loc (Psig_recmodule a)
    let modtype ?loc a = mk ?loc (Psig_modtype a)
    let open_ ?loc a = mk ?loc (Psig_open a)
    let include_ ?loc a = mk ?loc (Psig_include a)
    let class_ ?loc a = mk ?loc (Psig_class a)
    let class_type ?loc a = mk ?loc (Psig_class_type a)
    let extension ?loc ?(attrs = []) a = mk ?loc (Psig_extension (a, attrs))
    let attribute ?loc a = mk ?loc (Psig_attribute a)
    let text txt =
      let f_txt = List.filter (fun ds -> docstring_body ds <> "") txt in
      List.map
        (fun ds -> attribute ~loc:(docstring_loc ds) (text_attr ds))
        f_txt
  end

  module Str = struct
    let mk ?(loc = !default_loc) d = {pstr_desc = d; pstr_loc = loc}

    let eval ?loc ?(attrs = []) a = mk ?loc (Pstr_eval (a, attrs))
    let value ?loc a b = mk ?loc (Pstr_value (a, b))
    let primitive ?loc a = mk ?loc (Pstr_primitive a)
    let type_ ?loc rec_flag a = mk ?loc (Pstr_type (rec_flag, a))
    let type_extension ?loc a = mk ?loc (Pstr_typext a)
    let exception_ ?loc a = mk ?loc (Pstr_exception a)
    let module_ ?loc a = mk ?loc (Pstr_module a)
    let rec_module ?loc a = mk ?loc (Pstr_recmodule a)
    let modtype ?loc a = mk ?loc (Pstr_modtype a)
    let open_ ?loc a = mk ?loc (Pstr_open a)
    let class_ ?loc a = mk ?loc (Pstr_class a)
    let class_type ?loc a = mk ?loc (Pstr_class_type a)
    let include_ ?loc a = mk ?loc (Pstr_include a)
    let extension ?loc ?(attrs = []) a = mk ?loc (Pstr_extension (a, attrs))
    let attribute ?loc a = mk ?loc (Pstr_attribute a)
    let text txt =
      let f_txt = List.filter (fun ds -> docstring_body ds <> "") txt in
      List.map
        (fun ds -> attribute ~loc:(docstring_loc ds) (text_attr ds))
        f_txt
  end

  module Cl = struct
    let mk ?(loc = !default_loc) ?(attrs = []) d =
      {
       pcl_desc = d;
       pcl_loc = loc;
       pcl_attributes = attrs;
      }
    let attr d a = {d with pcl_attributes = d.pcl_attributes @ [a]}

    let constr ?loc ?attrs a b = mk ?loc ?attrs (Pcl_constr (a, b))
    let structure ?loc ?attrs a = mk ?loc ?attrs (Pcl_structure a)
    let fun_ ?loc ?attrs a b c d = mk ?loc ?attrs (Pcl_fun (a, b, c, d))
    let apply ?loc ?attrs a b = mk ?loc ?attrs (Pcl_apply (a, b))
    let let_ ?loc ?attrs a b c = mk ?loc ?attrs (Pcl_let (a, b, c))
    let constraint_ ?loc ?attrs a b = mk ?loc ?attrs (Pcl_constraint (a, b))
    let extension ?loc ?attrs a = mk ?loc ?attrs (Pcl_extension a)
  end

  module Cty = struct
    let mk ?(loc = !default_loc) ?(attrs = []) d =
      {
       pcty_desc = d;
       pcty_loc = loc;
       pcty_attributes = attrs;
      }
    let attr d a = {d with pcty_attributes = d.pcty_attributes @ [a]}

    let constr ?loc ?attrs a b = mk ?loc ?attrs (Pcty_constr (a, b))
    let signature ?loc ?attrs a = mk ?loc ?attrs (Pcty_signature a)
    let arrow ?loc ?attrs a b c = mk ?loc ?attrs (Pcty_arrow (a, b, c))
    let extension ?loc ?attrs a = mk ?loc ?attrs (Pcty_extension a)
  end

  module Ctf = struct
    let mk ?(loc = !default_loc) ?(attrs = [])
             ?(docs = empty_docs) d =
      {
       pctf_desc = d;
       pctf_loc = loc;
       pctf_attributes = add_docs_attrs docs attrs;
      }

    let inherit_ ?loc ?attrs a = mk ?loc ?attrs (Pctf_inherit a)
    let val_ ?loc ?attrs a b c d = mk ?loc ?attrs (Pctf_val (a, b, c, d))
    let method_ ?loc ?attrs a b c d = mk ?loc ?attrs (Pctf_method (a, b, c, d))
    let constraint_ ?loc ?attrs a b = mk ?loc ?attrs (Pctf_constraint (a, b))
    let extension ?loc ?attrs a = mk ?loc ?attrs (Pctf_extension a)
    let attribute ?loc a = mk ?loc (Pctf_attribute a)
    let text txt =
     let f_txt = List.filter (fun ds -> docstring_body ds <> "") txt in
       List.map
        (fun ds -> attribute ~loc:(docstring_loc ds) (text_attr ds))
        f_txt

    let attr d a = {d with pctf_attributes = d.pctf_attributes @ [a]}

  end

  module Cf = struct
    let mk ?(loc = !default_loc) ?(attrs = [])
          ?(docs = empty_docs) d =
      {
       pcf_desc = d;
       pcf_loc = loc;
       pcf_attributes = add_docs_attrs docs attrs;
      }

    let inherit_ ?loc ?attrs a b c = mk ?loc ?attrs (Pcf_inherit (a, b, c))
    let val_ ?loc ?attrs a b c = mk ?loc ?attrs (Pcf_val (a, b, c))
    let method_ ?loc ?attrs a b c = mk ?loc ?attrs (Pcf_method (a, b, c))
    let constraint_ ?loc ?attrs a b = mk ?loc ?attrs (Pcf_constraint (a, b))
    let initializer_ ?loc ?attrs a = mk ?loc ?attrs (Pcf_initializer a)
    let extension ?loc ?attrs a = mk ?loc ?attrs (Pcf_extension a)
    let attribute ?loc a = mk ?loc (Pcf_attribute a)
    let text txt =
      let f_txt = List.filter (fun ds -> docstring_body ds <> "") txt in
      List.map
        (fun ds -> attribute ~loc:(docstring_loc ds) (text_attr ds))
        f_txt

    let virtual_ ct = Cfk_virtual ct
    let concrete o e = Cfk_concrete (o, e)

    let attr d a = {d with pcf_attributes = d.pcf_attributes @ [a]}

  end

  module Val = struct
    let mk ?(loc = !default_loc) ?(attrs = []) ?(docs = empty_docs)
          ?(prim = []) name typ =
      {
       pval_name = name;
       pval_type = typ;
       pval_attributes = add_docs_attrs docs attrs;
       pval_loc = loc;
       pval_prim = prim;
      }
  end

  module Md = struct
    let mk ?(loc = !default_loc) ?(attrs = [])
          ?(docs = empty_docs) ?(text = []) name typ =
      {
       pmd_name = name;
       pmd_type = typ;
       pmd_attributes =
         add_text_attrs text (add_docs_attrs docs attrs);
       pmd_loc = loc;
      }
  end

  module Mtd = struct
    let mk ?(loc = !default_loc) ?(attrs = [])
          ?(docs = empty_docs) ?(text = []) ?typ name =
      {
       pmtd_name = name;
       pmtd_type = typ;
       pmtd_attributes =
         add_text_attrs text (add_docs_attrs docs attrs);
       pmtd_loc = loc;
      }
  end

  module Mb = struct
    let mk ?(loc = !default_loc) ?(attrs = [])
          ?(docs = empty_docs) ?(text = []) name expr =
      {
       pmb_name = name;
       pmb_expr = expr;
       pmb_attributes =
         add_text_attrs text (add_docs_attrs docs attrs);
       pmb_loc = loc;
      }
  end

  module Opn = struct
    let mk ?(loc = !default_loc) ?(attrs = []) ?(docs = empty_docs)
          ?(override = Fresh) lid =
      {
       popen_lid = lid;
       popen_override = override;
       popen_loc = loc;
       popen_attributes = add_docs_attrs docs attrs;
      }
  end

  module Incl = struct
    let mk ?(loc = !default_loc) ?(attrs = []) ?(docs = empty_docs) mexpr =
      {
       pincl_mod = mexpr;
       pincl_loc = loc;
       pincl_attributes = add_docs_attrs docs attrs;
      }

  end

  module Vb = struct
    let mk ?(loc = !default_loc) ?(attrs = []) ?(docs = empty_docs)
          ?(text = []) pat expr =
      {
       pvb_pat = pat;
       pvb_expr = expr;
       pvb_attributes =
         add_text_attrs text (add_docs_attrs docs attrs);
       pvb_loc = loc;
      }
  end

  module Ci = struct
    let mk ?(loc = !default_loc) ?(attrs = [])
          ?(docs = empty_docs) ?(text = [])
          ?(virt = Concrete) ?(params = []) name expr =
      {
       pci_virt = virt;
       pci_params = params;
       pci_name = name;
       pci_expr = expr;
       pci_attributes =
         add_text_attrs text (add_docs_attrs docs attrs);
       pci_loc = loc;
      }
  end

  module Type = struct
    let mk ?(loc = !default_loc) ?(attrs = [])
          ?(docs = empty_docs) ?(text = [])
        ?(params = [])
        ?(cstrs = [])
        ?(kind = Ptype_abstract)
        ?(priv = Public)
        ?manifest
        name =
      {
       ptype_name = name;
       ptype_params = params;
       ptype_cstrs = cstrs;
       ptype_kind = kind;
       ptype_private = priv;
       ptype_manifest = manifest;
       ptype_attributes =
         add_text_attrs text (add_docs_attrs docs attrs);
       ptype_loc = loc;
      }

    let constructor ?(loc = !default_loc) ?(attrs = []) ?(info = empty_info)
          ?(args = Pcstr_tuple []) ?res name =
      {
       pcd_name = name;
       pcd_args = args;
       pcd_res = res;
       pcd_loc = loc;
       pcd_attributes = add_info_attrs info attrs;
       }

    let field ?(loc = !default_loc) ?(attrs = []) ?(info = empty_info)
          ?(mut = Immutable) name typ =
      {
       pld_name = name;
       pld_mutable = mut;
       pld_type = typ;
       pld_loc = loc;
       pld_attributes = add_info_attrs info attrs;
      }

  end

  (** Type extensions *)
  module Te = struct
    let mk ?(attrs = []) ?(docs = empty_docs)
          ?(params = []) ?(priv = Public) path constructors =
      {
       ptyext_path = path;
       ptyext_params = params;
       ptyext_constructors = constructors;
       ptyext_private = priv;
       ptyext_attributes = add_docs_attrs docs attrs;
      }

    let constructor ?(loc = !default_loc) ?(attrs = [])
          ?(docs = empty_docs) ?(info = empty_info) name kind =
      {
       pext_name = name;
       pext_kind = kind;
       pext_loc = loc;
       pext_attributes = add_docs_attrs docs (add_info_attrs info attrs);
      }

    let decl ?(loc = !default_loc) ?(attrs = []) ?(docs = empty_docs)
               ?(info = empty_info) ?(args = Pcstr_tuple []) ?res name =
      {
       pext_name = name;
       pext_kind = Pext_decl(args, res);
       pext_loc = loc;
       pext_attributes = add_docs_attrs docs (add_info_attrs info attrs);
      }

    let rebind ?(loc = !default_loc) ?(attrs = [])
          ?(docs = empty_docs) ?(info = empty_info) name lid =
      {
       pext_name = name;
       pext_kind = Pext_rebind lid;
       pext_loc = loc;
       pext_attributes = add_docs_attrs docs (add_info_attrs info attrs);
      }

  end

  module Csig = struct
    let mk self fields =
      {
       pcsig_self = self;
       pcsig_fields = fields;
      }
  end

  module Cstr = struct
    let mk self fields =
      {
       pcstr_self = self;
       pcstr_fields = fields;
      }
  end

end

module Ast_mapper : sig
  (** The interface of a -ppx rewriter

    A -ppx rewriter is a program that accepts a serialized abstract syntax
    tree and outputs another, possibly modified, abstract syntax tree.
    This module encapsulates the interface between the compiler and
    the -ppx rewriters, handling such details as the serialization format,
    forwarding of command-line flags, and storing state.

    {!mapper} allows to implement AST rewriting using open recursion.
    A typical mapper would be based on {!default_mapper}, a deep
    identity mapper, and will fall back on it for handling the syntax it
    does not modify. For example:

    {[
  open Asttypes
  open Parsetree
  open Ast_mapper

  let test_mapper argv =
    { default_mapper with
      expr = fun mapper expr ->
        match expr with
        | { pexp_desc = Pexp_extension ({ txt = "test" }, PStr [])} ->
          Ast_helper.Exp.constant (Const_int 42)
        | other -> default_mapper.expr mapper other; }

  let () =
    register "ppx_test" test_mapper]}

    This -ppx rewriter, which replaces [[%test]] in expressions with
    the constant [42], can be compiled using
    [ocamlc -o ppx_test -I +compiler-libs ocamlcommon.cma ppx_test.ml].

    *)

  open Parsetree

  (** {2 A generic Parsetree mapper} *)

  type mapper (*IF_CURRENT = Ast_mapper.mapper*) = {
    attribute: mapper -> attribute -> attribute;
    attributes: mapper -> attribute list -> attribute list;
    case: mapper -> case -> case;
    cases: mapper -> case list -> case list;
    class_declaration: mapper -> class_declaration -> class_declaration;
    class_description: mapper -> class_description -> class_description;
    class_expr: mapper -> class_expr -> class_expr;
    class_field: mapper -> class_field -> class_field;
    class_signature: mapper -> class_signature -> class_signature;
    class_structure: mapper -> class_structure -> class_structure;
    class_type: mapper -> class_type -> class_type;
    class_type_declaration: mapper -> class_type_declaration
                            -> class_type_declaration;
    class_type_field: mapper -> class_type_field -> class_type_field;
    constructor_declaration: mapper -> constructor_declaration
                             -> constructor_declaration;
    expr: mapper -> expression -> expression;
    extension: mapper -> extension -> extension;
    extension_constructor: mapper -> extension_constructor
                           -> extension_constructor;
    include_declaration: mapper -> include_declaration -> include_declaration;
    include_description: mapper -> include_description -> include_description;
    label_declaration: mapper -> label_declaration -> label_declaration;
    location: mapper -> Location.t -> Location.t;
    module_binding: mapper -> module_binding -> module_binding;
    module_declaration: mapper -> module_declaration -> module_declaration;
    module_expr: mapper -> module_expr -> module_expr;
    module_type: mapper -> module_type -> module_type;
    module_type_declaration: mapper -> module_type_declaration
                             -> module_type_declaration;
    open_description: mapper -> open_description -> open_description;
    pat: mapper -> pattern -> pattern;
    payload: mapper -> payload -> payload;
    signature: mapper -> signature -> signature;
    signature_item: mapper -> signature_item -> signature_item;
    structure: mapper -> structure -> structure;
    structure_item: mapper -> structure_item -> structure_item;
    typ: mapper -> core_type -> core_type;
    type_declaration: mapper -> type_declaration -> type_declaration;
    type_extension: mapper -> type_extension -> type_extension;
    type_kind: mapper -> type_kind -> type_kind;
    value_binding: mapper -> value_binding -> value_binding;
    value_description: mapper -> value_description -> value_description;
    with_constraint: mapper -> with_constraint -> with_constraint;
  }
  (** A mapper record implements one "method" per syntactic category,
      using an open recursion style: each method takes as its first
      argument the mapper to be applied to children in the syntax
      tree. *)

  val default_mapper: mapper
  (** A default mapper, which implements a "deep identity" mapping. *)

  (** {2 Convenience functions to write mappers} *)

  val map_opt: ('a -> 'b) -> 'a option -> 'b option

  val extension_of_error: Location.error -> extension
  (** Encode an error into an 'ocaml.error' extension node which can be
      inserted in a generated Parsetree.  The compiler will be
      responsible for reporting the error. *)

  val attribute_of_warning: Location.t -> string -> attribute
  (** Encode a warning message into an 'ocaml.ppwarning' attribute which can be
      inserted in a generated Parsetree.  The compiler will be
      responsible for reporting the warning. *)

end = struct
  (* A generic Parsetree mapping class *)

  (*
  [@@@ocaml.warning "+9"]
    (* Ensure that record patterns don't miss any field. *)
  *)


  open Parsetree
  open Ast_helper
  open Location

  type mapper (*IF_CURRENT = Ast_mapper.mapper*) = {
    attribute: mapper -> attribute -> attribute;
    attributes: mapper -> attribute list -> attribute list;
    case: mapper -> case -> case;
    cases: mapper -> case list -> case list;
    class_declaration: mapper -> class_declaration -> class_declaration;
    class_description: mapper -> class_description -> class_description;
    class_expr: mapper -> class_expr -> class_expr;
    class_field: mapper -> class_field -> class_field;
    class_signature: mapper -> class_signature -> class_signature;
    class_structure: mapper -> class_structure -> class_structure;
    class_type: mapper -> class_type -> class_type;
    class_type_declaration: mapper -> class_type_declaration
                            -> class_type_declaration;
    class_type_field: mapper -> class_type_field -> class_type_field;
    constructor_declaration: mapper -> constructor_declaration
                             -> constructor_declaration;
    expr: mapper -> expression -> expression;
    extension: mapper -> extension -> extension;
    extension_constructor: mapper -> extension_constructor
                           -> extension_constructor;
    include_declaration: mapper -> include_declaration -> include_declaration;
    include_description: mapper -> include_description -> include_description;
    label_declaration: mapper -> label_declaration -> label_declaration;
    location: mapper -> Location.t -> Location.t;
    module_binding: mapper -> module_binding -> module_binding;
    module_declaration: mapper -> module_declaration -> module_declaration;
    module_expr: mapper -> module_expr -> module_expr;
    module_type: mapper -> module_type -> module_type;
    module_type_declaration: mapper -> module_type_declaration
                             -> module_type_declaration;
    open_description: mapper -> open_description -> open_description;
    pat: mapper -> pattern -> pattern;
    payload: mapper -> payload -> payload;
    signature: mapper -> signature -> signature;
    signature_item: mapper -> signature_item -> signature_item;
    structure: mapper -> structure -> structure;
    structure_item: mapper -> structure_item -> structure_item;
    typ: mapper -> core_type -> core_type;
    type_declaration: mapper -> type_declaration -> type_declaration;
    type_extension: mapper -> type_extension -> type_extension;
    type_kind: mapper -> type_kind -> type_kind;
    value_binding: mapper -> value_binding -> value_binding;
    value_description: mapper -> value_description -> value_description;
    with_constraint: mapper -> with_constraint -> with_constraint;
  }

  let map_fst f (x, y) = (f x, y)
  let map_snd f (x, y) = (x, f y)
  let map_tuple f1 f2 (x, y) = (f1 x, f2 y)
  let map_tuple3 f1 f2 f3 (x, y, z) = (f1 x, f2 y, f3 z)
  let map_opt f = function None -> None | Some x -> Some (f x)

  let map_loc sub {loc; txt} = {loc = sub.location sub loc; txt}

  module T = struct
    (* Type expressions for the core language *)

    let row_field sub = function
      | Rtag (l, attrs, b, tl) ->
          Rtag (l, sub.attributes sub attrs, b, List.map (sub.typ sub) tl)
      | Rinherit t -> Rinherit (sub.typ sub t)

    let map sub {ptyp_desc = desc; ptyp_loc = loc; ptyp_attributes = attrs} =
      let open Typ in
      let loc = sub.location sub loc in
      let attrs = sub.attributes sub attrs in
      match desc with
      | Ptyp_any -> any ~loc ~attrs ()
      | Ptyp_var s -> var ~loc ~attrs s
      | Ptyp_arrow (lab, t1, t2) ->
          arrow ~loc ~attrs lab (sub.typ sub t1) (sub.typ sub t2)
      | Ptyp_tuple tyl -> tuple ~loc ~attrs (List.map (sub.typ sub) tyl)
      | Ptyp_constr (lid, tl) ->
          constr ~loc ~attrs (map_loc sub lid) (List.map (sub.typ sub) tl)
      | Ptyp_object (l, o) ->
          let f (s, a, t) =
            (map_loc sub s, sub.attributes sub a, sub.typ sub t) in
          object_ ~loc ~attrs (List.map f l) o
      | Ptyp_class (lid, tl) ->
          class_ ~loc ~attrs (map_loc sub lid) (List.map (sub.typ sub) tl)
      | Ptyp_alias (t, s) -> alias ~loc ~attrs (sub.typ sub t) s
      | Ptyp_variant (rl, b, ll) ->
          variant ~loc ~attrs (List.map (row_field sub) rl) b ll
      | Ptyp_poly (sl, t) -> poly ~loc ~attrs
                               (List.map (map_loc sub) sl) (sub.typ sub t)
      | Ptyp_package (lid, l) ->
          package ~loc ~attrs (map_loc sub lid)
            (List.map (map_tuple (map_loc sub) (sub.typ sub)) l)
      | Ptyp_extension x -> extension ~loc ~attrs (sub.extension sub x)

    let map_type_declaration sub
        {ptype_name; ptype_params; ptype_cstrs;
         ptype_kind;
         ptype_private;
         ptype_manifest;
         ptype_attributes;
         ptype_loc} =
      Type.mk (map_loc sub ptype_name)
        ~params:(List.map (map_fst (sub.typ sub)) ptype_params)
        ~priv:ptype_private
        ~cstrs:(List.map
                  (map_tuple3 (sub.typ sub) (sub.typ sub) (sub.location sub))
                  ptype_cstrs)
        ~kind:(sub.type_kind sub ptype_kind)
        ?manifest:(map_opt (sub.typ sub) ptype_manifest)
        ~loc:(sub.location sub ptype_loc)
        ~attrs:(sub.attributes sub ptype_attributes)

    let map_type_kind sub = function
      | Ptype_abstract -> Ptype_abstract
      | Ptype_variant l ->
          Ptype_variant (List.map (sub.constructor_declaration sub) l)
      | Ptype_record l -> Ptype_record (List.map (sub.label_declaration sub) l)
      | Ptype_open -> Ptype_open

    let map_constructor_arguments sub = function
      | Pcstr_tuple l -> Pcstr_tuple (List.map (sub.typ sub) l)
      | Pcstr_record l ->
          Pcstr_record (List.map (sub.label_declaration sub) l)

    let map_type_extension sub
        {ptyext_path; ptyext_params;
         ptyext_constructors;
         ptyext_private;
         ptyext_attributes} =
      Te.mk
        (map_loc sub ptyext_path)
        (List.map (sub.extension_constructor sub) ptyext_constructors)
        ~params:(List.map (map_fst (sub.typ sub)) ptyext_params)
        ~priv:ptyext_private
        ~attrs:(sub.attributes sub ptyext_attributes)

    let map_extension_constructor_kind sub = function
        Pext_decl(ctl, cto) ->
          Pext_decl(map_constructor_arguments sub ctl, map_opt (sub.typ sub) cto)
      | Pext_rebind li ->
          Pext_rebind (map_loc sub li)

    let map_extension_constructor sub
        {pext_name;
         pext_kind;
         pext_loc;
         pext_attributes} =
      Te.constructor
        (map_loc sub pext_name)
        (map_extension_constructor_kind sub pext_kind)
        ~loc:(sub.location sub pext_loc)
        ~attrs:(sub.attributes sub pext_attributes)

  end

  module CT = struct
    (* Type expressions for the class language *)

    let map sub {pcty_loc = loc; pcty_desc = desc; pcty_attributes = attrs} =
      let open Cty in
      let loc = sub.location sub loc in
      let attrs = sub.attributes sub attrs in
      match desc with
      | Pcty_constr (lid, tys) ->
          constr ~loc ~attrs (map_loc sub lid) (List.map (sub.typ sub) tys)
      | Pcty_signature x -> signature ~loc ~attrs (sub.class_signature sub x)
      | Pcty_arrow (lab, t, ct) ->
          arrow ~loc ~attrs lab (sub.typ sub t) (sub.class_type sub ct)
      | Pcty_extension x -> extension ~loc ~attrs (sub.extension sub x)

    let map_field sub {pctf_desc = desc; pctf_loc = loc; pctf_attributes = attrs}
      =
      let open Ctf in
      let loc = sub.location sub loc in
      let attrs = sub.attributes sub attrs in
      match desc with
      | Pctf_inherit ct -> inherit_ ~loc ~attrs (sub.class_type sub ct)
      | Pctf_val (s, m, v, t) ->
          val_ ~loc ~attrs (map_loc sub s) m v (sub.typ sub t)
      | Pctf_method (s, p, v, t) ->
          method_ ~loc ~attrs (map_loc sub s) p v (sub.typ sub t)
      | Pctf_constraint (t1, t2) ->
          constraint_ ~loc ~attrs (sub.typ sub t1) (sub.typ sub t2)
      | Pctf_attribute x -> attribute ~loc (sub.attribute sub x)
      | Pctf_extension x -> extension ~loc ~attrs (sub.extension sub x)

    let map_signature sub {pcsig_self; pcsig_fields} =
      Csig.mk
        (sub.typ sub pcsig_self)
        (List.map (sub.class_type_field sub) pcsig_fields)
  end

  module MT = struct
    (* Type expressions for the module language *)

    let map sub {pmty_desc = desc; pmty_loc = loc; pmty_attributes = attrs} =
      let open Mty in
      let loc = sub.location sub loc in
      let attrs = sub.attributes sub attrs in
      match desc with
      | Pmty_ident s -> ident ~loc ~attrs (map_loc sub s)
      | Pmty_alias s -> alias ~loc ~attrs (map_loc sub s)
      | Pmty_signature sg -> signature ~loc ~attrs (sub.signature sub sg)
      | Pmty_functor (s, mt1, mt2) ->
          functor_ ~loc ~attrs (map_loc sub s)
            (Misc.may_map (sub.module_type sub) mt1)
            (sub.module_type sub mt2)
      | Pmty_with (mt, l) ->
          with_ ~loc ~attrs (sub.module_type sub mt)
            (List.map (sub.with_constraint sub) l)
      | Pmty_typeof me -> typeof_ ~loc ~attrs (sub.module_expr sub me)
      | Pmty_extension x -> extension ~loc ~attrs (sub.extension sub x)

    let map_with_constraint sub = function
      | Pwith_type (lid, d) ->
          Pwith_type (map_loc sub lid, sub.type_declaration sub d)
      | Pwith_module (lid, lid2) ->
          Pwith_module (map_loc sub lid, map_loc sub lid2)
      | Pwith_typesubst d -> Pwith_typesubst (sub.type_declaration sub d)
      | Pwith_modsubst (s, lid) ->
          Pwith_modsubst (map_loc sub s, map_loc sub lid)

    let map_signature_item sub {psig_desc = desc; psig_loc = loc} =
      let open Sig in
      let loc = sub.location sub loc in
      match desc with
      | Psig_value vd -> value ~loc (sub.value_description sub vd)
      | Psig_type (rf, l) -> type_ ~loc rf (List.map (sub.type_declaration sub) l)
      | Psig_typext te -> type_extension ~loc (sub.type_extension sub te)
      | Psig_exception ed -> exception_ ~loc (sub.extension_constructor sub ed)
      | Psig_module x -> module_ ~loc (sub.module_declaration sub x)
      | Psig_recmodule l ->
          rec_module ~loc (List.map (sub.module_declaration sub) l)
      | Psig_modtype x -> modtype ~loc (sub.module_type_declaration sub x)
      | Psig_open x -> open_ ~loc (sub.open_description sub x)
      | Psig_include x -> include_ ~loc (sub.include_description sub x)
      | Psig_class l -> class_ ~loc (List.map (sub.class_description sub) l)
      | Psig_class_type l ->
          class_type ~loc (List.map (sub.class_type_declaration sub) l)
      | Psig_extension (x, attrs) ->
          extension ~loc (sub.extension sub x) ~attrs:(sub.attributes sub attrs)
      | Psig_attribute x -> attribute ~loc (sub.attribute sub x)
  end


  module M = struct
    (* Value expressions for the module language *)

    let map sub {pmod_loc = loc; pmod_desc = desc; pmod_attributes = attrs} =
      let open Mod in
      let loc = sub.location sub loc in
      let attrs = sub.attributes sub attrs in
      match desc with
      | Pmod_ident x -> ident ~loc ~attrs (map_loc sub x)
      | Pmod_structure str -> structure ~loc ~attrs (sub.structure sub str)
      | Pmod_functor (arg, arg_ty, body) ->
          functor_ ~loc ~attrs (map_loc sub arg)
            (Misc.may_map (sub.module_type sub) arg_ty)
            (sub.module_expr sub body)
      | Pmod_apply (m1, m2) ->
          apply ~loc ~attrs (sub.module_expr sub m1) (sub.module_expr sub m2)
      | Pmod_constraint (m, mty) ->
          constraint_ ~loc ~attrs (sub.module_expr sub m)
                      (sub.module_type sub mty)
      | Pmod_unpack e -> unpack ~loc ~attrs (sub.expr sub e)
      | Pmod_extension x -> extension ~loc ~attrs (sub.extension sub x)

    let map_structure_item sub {pstr_loc = loc; pstr_desc = desc} =
      let open Str in
      let loc = sub.location sub loc in
      match desc with
      | Pstr_eval (x, attrs) ->
          eval ~loc ~attrs:(sub.attributes sub attrs) (sub.expr sub x)
      | Pstr_value (r, vbs) -> value ~loc r (List.map (sub.value_binding sub) vbs)
      | Pstr_primitive vd -> primitive ~loc (sub.value_description sub vd)
      | Pstr_type (rf, l) -> type_ ~loc rf (List.map (sub.type_declaration sub) l)
      | Pstr_typext te -> type_extension ~loc (sub.type_extension sub te)
      | Pstr_exception ed -> exception_ ~loc (sub.extension_constructor sub ed)
      | Pstr_module x -> module_ ~loc (sub.module_binding sub x)
      | Pstr_recmodule l -> rec_module ~loc (List.map (sub.module_binding sub) l)
      | Pstr_modtype x -> modtype ~loc (sub.module_type_declaration sub x)
      | Pstr_open x -> open_ ~loc (sub.open_description sub x)
      | Pstr_class l -> class_ ~loc (List.map (sub.class_declaration sub) l)
      | Pstr_class_type l ->
          class_type ~loc (List.map (sub.class_type_declaration sub) l)
      | Pstr_include x -> include_ ~loc (sub.include_declaration sub x)
      | Pstr_extension (x, attrs) ->
          extension ~loc (sub.extension sub x) ~attrs:(sub.attributes sub attrs)
      | Pstr_attribute x -> attribute ~loc (sub.attribute sub x)
  end

  module E = struct
    (* Value expressions for the core language *)

    let map sub {pexp_loc = loc; pexp_desc = desc; pexp_attributes = attrs} =
      let open Exp in
      let loc = sub.location sub loc in
      let attrs = sub.attributes sub attrs in
      match desc with
      | Pexp_ident x -> ident ~loc ~attrs (map_loc sub x)
      | Pexp_constant x -> constant ~loc ~attrs x
      | Pexp_let (r, vbs, e) ->
          let_ ~loc ~attrs r (List.map (sub.value_binding sub) vbs)
            (sub.expr sub e)
      | Pexp_fun (lab, def, p, e) ->
          fun_ ~loc ~attrs lab (map_opt (sub.expr sub) def) (sub.pat sub p)
            (sub.expr sub e)
      | Pexp_function pel -> function_ ~loc ~attrs (sub.cases sub pel)
      | Pexp_apply (e, l) ->
          apply ~loc ~attrs (sub.expr sub e) (List.map (map_snd (sub.expr sub)) l)
      | Pexp_match (e, pel) ->
          match_ ~loc ~attrs (sub.expr sub e) (sub.cases sub pel)
      | Pexp_try (e, pel) -> try_ ~loc ~attrs (sub.expr sub e) (sub.cases sub pel)
      | Pexp_tuple el -> tuple ~loc ~attrs (List.map (sub.expr sub) el)
      | Pexp_construct (lid, arg) ->
          construct ~loc ~attrs (map_loc sub lid) (map_opt (sub.expr sub) arg)
      | Pexp_variant (lab, eo) ->
          variant ~loc ~attrs lab (map_opt (sub.expr sub) eo)
      | Pexp_record (l, eo) ->
          record ~loc ~attrs (List.map (map_tuple (map_loc sub) (sub.expr sub)) l)
            (map_opt (sub.expr sub) eo)
      | Pexp_field (e, lid) ->
          field ~loc ~attrs (sub.expr sub e) (map_loc sub lid)
      | Pexp_setfield (e1, lid, e2) ->
          setfield ~loc ~attrs (sub.expr sub e1) (map_loc sub lid)
            (sub.expr sub e2)
      | Pexp_array el -> array ~loc ~attrs (List.map (sub.expr sub) el)
      | Pexp_ifthenelse (e1, e2, e3) ->
          ifthenelse ~loc ~attrs (sub.expr sub e1) (sub.expr sub e2)
            (map_opt (sub.expr sub) e3)
      | Pexp_sequence (e1, e2) ->
          sequence ~loc ~attrs (sub.expr sub e1) (sub.expr sub e2)
      | Pexp_while (e1, e2) ->
          while_ ~loc ~attrs (sub.expr sub e1) (sub.expr sub e2)
      | Pexp_for (p, e1, e2, d, e3) ->
          for_ ~loc ~attrs (sub.pat sub p) (sub.expr sub e1) (sub.expr sub e2) d
            (sub.expr sub e3)
      | Pexp_coerce (e, t1, t2) ->
          coerce ~loc ~attrs (sub.expr sub e) (map_opt (sub.typ sub) t1)
            (sub.typ sub t2)
      | Pexp_constraint (e, t) ->
          constraint_ ~loc ~attrs (sub.expr sub e) (sub.typ sub t)
      | Pexp_send (e, s) ->
          send ~loc ~attrs (sub.expr sub e) (map_loc sub s)
      | Pexp_new lid -> new_ ~loc ~attrs (map_loc sub lid)
      | Pexp_setinstvar (s, e) ->
          setinstvar ~loc ~attrs (map_loc sub s) (sub.expr sub e)
      | Pexp_override sel ->
          override ~loc ~attrs
            (List.map (map_tuple (map_loc sub) (sub.expr sub)) sel)
      | Pexp_letmodule (s, me, e) ->
          letmodule ~loc ~attrs (map_loc sub s) (sub.module_expr sub me)
            (sub.expr sub e)
      | Pexp_letexception (cd, e) ->
          letexception ~loc ~attrs
            (sub.extension_constructor sub cd)
            (sub.expr sub e)
      | Pexp_assert e -> assert_ ~loc ~attrs (sub.expr sub e)
      | Pexp_lazy e -> lazy_ ~loc ~attrs (sub.expr sub e)
      | Pexp_poly (e, t) ->
          poly ~loc ~attrs (sub.expr sub e) (map_opt (sub.typ sub) t)
      | Pexp_object cls -> object_ ~loc ~attrs (sub.class_structure sub cls)
      | Pexp_newtype (s, e) ->
          newtype ~loc ~attrs (map_loc sub s) (sub.expr sub e)
      | Pexp_pack me -> pack ~loc ~attrs (sub.module_expr sub me)
      | Pexp_open (ovf, lid, e) ->
          open_ ~loc ~attrs ovf (map_loc sub lid) (sub.expr sub e)
      | Pexp_extension x -> extension ~loc ~attrs (sub.extension sub x)
      | Pexp_unreachable -> unreachable ~loc ~attrs ()
  end

  module P = struct
    (* Patterns *)

    let map sub {ppat_desc = desc; ppat_loc = loc; ppat_attributes = attrs} =
      let open Pat in
      let loc = sub.location sub loc in
      let attrs = sub.attributes sub attrs in
      match desc with
      | Ppat_any -> any ~loc ~attrs ()
      | Ppat_var s -> var ~loc ~attrs (map_loc sub s)
      | Ppat_alias (p, s) -> alias ~loc ~attrs (sub.pat sub p) (map_loc sub s)
      | Ppat_constant c -> constant ~loc ~attrs c
      | Ppat_interval (c1, c2) -> interval ~loc ~attrs c1 c2
      | Ppat_tuple pl -> tuple ~loc ~attrs (List.map (sub.pat sub) pl)
      | Ppat_construct (l, p) ->
          construct ~loc ~attrs (map_loc sub l) (map_opt (sub.pat sub) p)
      | Ppat_variant (l, p) -> variant ~loc ~attrs l (map_opt (sub.pat sub) p)
      | Ppat_record (lpl, cf) ->
          record ~loc ~attrs
                 (List.map (map_tuple (map_loc sub) (sub.pat sub)) lpl) cf
      | Ppat_array pl -> array ~loc ~attrs (List.map (sub.pat sub) pl)
      | Ppat_or (p1, p2) -> or_ ~loc ~attrs (sub.pat sub p1) (sub.pat sub p2)
      | Ppat_constraint (p, t) ->
          constraint_ ~loc ~attrs (sub.pat sub p) (sub.typ sub t)
      | Ppat_type s -> type_ ~loc ~attrs (map_loc sub s)
      | Ppat_lazy p -> lazy_ ~loc ~attrs (sub.pat sub p)
      | Ppat_unpack s -> unpack ~loc ~attrs (map_loc sub s)
      | Ppat_open (lid,p) -> open_ ~loc ~attrs (map_loc sub lid) (sub.pat sub p)
      | Ppat_exception p -> exception_ ~loc ~attrs (sub.pat sub p)
      | Ppat_extension x -> extension ~loc ~attrs (sub.extension sub x)
  end

  module CE = struct
    (* Value expressions for the class language *)

    let map sub {pcl_loc = loc; pcl_desc = desc; pcl_attributes = attrs} =
      let open Cl in
      let loc = sub.location sub loc in
      let attrs = sub.attributes sub attrs in
      match desc with
      | Pcl_constr (lid, tys) ->
          constr ~loc ~attrs (map_loc sub lid) (List.map (sub.typ sub) tys)
      | Pcl_structure s ->
          structure ~loc ~attrs (sub.class_structure sub s)
      | Pcl_fun (lab, e, p, ce) ->
          fun_ ~loc ~attrs lab
            (map_opt (sub.expr sub) e)
            (sub.pat sub p)
            (sub.class_expr sub ce)
      | Pcl_apply (ce, l) ->
          apply ~loc ~attrs (sub.class_expr sub ce)
            (List.map (map_snd (sub.expr sub)) l)
      | Pcl_let (r, vbs, ce) ->
          let_ ~loc ~attrs r (List.map (sub.value_binding sub) vbs)
            (sub.class_expr sub ce)
      | Pcl_constraint (ce, ct) ->
          constraint_ ~loc ~attrs (sub.class_expr sub ce) (sub.class_type sub ct)
      | Pcl_extension x -> extension ~loc ~attrs (sub.extension sub x)

    let map_kind sub = function
      | Cfk_concrete (o, e) -> Cfk_concrete (o, sub.expr sub e)
      | Cfk_virtual t -> Cfk_virtual (sub.typ sub t)

    let map_field sub {pcf_desc = desc; pcf_loc = loc; pcf_attributes = attrs} =
      let open Cf in
      let loc = sub.location sub loc in
      let attrs = sub.attributes sub attrs in
      match desc with
      | Pcf_inherit (o, ce, s) ->
          inherit_ ~loc ~attrs o (sub.class_expr sub ce)
            (map_opt (map_loc sub) s)
      | Pcf_val (s, m, k) -> val_ ~loc ~attrs (map_loc sub s) m (map_kind sub k)
      | Pcf_method (s, p, k) ->
          method_ ~loc ~attrs (map_loc sub s) p (map_kind sub k)
      | Pcf_constraint (t1, t2) ->
          constraint_ ~loc ~attrs (sub.typ sub t1) (sub.typ sub t2)
      | Pcf_initializer e -> initializer_ ~loc ~attrs (sub.expr sub e)
      | Pcf_attribute x -> attribute ~loc (sub.attribute sub x)
      | Pcf_extension x -> extension ~loc ~attrs (sub.extension sub x)

    let map_structure sub {pcstr_self; pcstr_fields} =
      {
        pcstr_self = sub.pat sub pcstr_self;
        pcstr_fields = List.map (sub.class_field sub) pcstr_fields;
      }

    let class_infos sub f {pci_virt; pci_params = pl; pci_name; pci_expr;
                           pci_loc; pci_attributes} =
      Ci.mk
       ~virt:pci_virt
       ~params:(List.map (map_fst (sub.typ sub)) pl)
        (map_loc sub pci_name)
        (f pci_expr)
        ~loc:(sub.location sub pci_loc)
        ~attrs:(sub.attributes sub pci_attributes)
  end

  (* Now, a generic AST mapper, to be extended to cover all kinds and
     cases of the OCaml grammar.  The default behavior of the mapper is
     the identity. *)

  let default_mapper =
    {
      structure = (fun this l -> List.map (this.structure_item this) l);
      structure_item = M.map_structure_item;
      module_expr = M.map;
      signature = (fun this l -> List.map (this.signature_item this) l);
      signature_item = MT.map_signature_item;
      module_type = MT.map;
      with_constraint = MT.map_with_constraint;
      class_declaration =
        (fun this -> CE.class_infos this (this.class_expr this));
      class_expr = CE.map;
      class_field = CE.map_field;
      class_structure = CE.map_structure;
      class_type = CT.map;
      class_type_field = CT.map_field;
      class_signature = CT.map_signature;
      class_type_declaration =
        (fun this -> CE.class_infos this (this.class_type this));
      class_description =
        (fun this -> CE.class_infos this (this.class_type this));
      type_declaration = T.map_type_declaration;
      type_kind = T.map_type_kind;
      typ = T.map;
      type_extension = T.map_type_extension;
      extension_constructor = T.map_extension_constructor;
      value_description =
        (fun this {pval_name; pval_type; pval_prim; pval_loc;
                   pval_attributes} ->
          Val.mk
            (map_loc this pval_name)
            (this.typ this pval_type)
            ~attrs:(this.attributes this pval_attributes)
            ~loc:(this.location this pval_loc)
            ~prim:pval_prim
        );

      pat = P.map;
      expr = E.map;

      module_declaration =
        (fun this {pmd_name; pmd_type; pmd_attributes; pmd_loc} ->
           Md.mk
             (map_loc this pmd_name)
             (this.module_type this pmd_type)
             ~attrs:(this.attributes this pmd_attributes)
             ~loc:(this.location this pmd_loc)
        );

      module_type_declaration =
        (fun this {pmtd_name; pmtd_type; pmtd_attributes; pmtd_loc} ->
           Mtd.mk
             (map_loc this pmtd_name)
             ?typ:(map_opt (this.module_type this) pmtd_type)
             ~attrs:(this.attributes this pmtd_attributes)
             ~loc:(this.location this pmtd_loc)
        );

      module_binding =
        (fun this {pmb_name; pmb_expr; pmb_attributes; pmb_loc} ->
           Mb.mk (map_loc this pmb_name) (this.module_expr this pmb_expr)
             ~attrs:(this.attributes this pmb_attributes)
             ~loc:(this.location this pmb_loc)
        );


      open_description =
        (fun this {popen_lid; popen_override; popen_attributes; popen_loc} ->
           Opn.mk (map_loc this popen_lid)
             ~override:popen_override
             ~loc:(this.location this popen_loc)
             ~attrs:(this.attributes this popen_attributes)
        );


      include_description =
        (fun this {pincl_mod; pincl_attributes; pincl_loc} ->
           Incl.mk (this.module_type this pincl_mod)
             ~loc:(this.location this pincl_loc)
             ~attrs:(this.attributes this pincl_attributes)
        );

      include_declaration =
        (fun this {pincl_mod; pincl_attributes; pincl_loc} ->
           Incl.mk (this.module_expr this pincl_mod)
             ~loc:(this.location this pincl_loc)
             ~attrs:(this.attributes this pincl_attributes)
        );


      value_binding =
        (fun this {pvb_pat; pvb_expr; pvb_attributes; pvb_loc} ->
           Vb.mk
             (this.pat this pvb_pat)
             (this.expr this pvb_expr)
             ~loc:(this.location this pvb_loc)
             ~attrs:(this.attributes this pvb_attributes)
        );


      constructor_declaration =
        (fun this {pcd_name; pcd_args; pcd_res; pcd_loc; pcd_attributes} ->
          Type.constructor
            (map_loc this pcd_name)
            ~args:(T.map_constructor_arguments this pcd_args)
            ?res:(map_opt (this.typ this) pcd_res)
            ~loc:(this.location this pcd_loc)
            ~attrs:(this.attributes this pcd_attributes)
        );

      label_declaration =
        (fun this {pld_name; pld_type; pld_loc; pld_mutable; pld_attributes} ->
           Type.field
             (map_loc this pld_name)
             (this.typ this pld_type)
             ~mut:pld_mutable
             ~loc:(this.location this pld_loc)
             ~attrs:(this.attributes this pld_attributes)
        );

      cases = (fun this l -> List.map (this.case this) l);
      case =
        (fun this {pc_lhs; pc_guard; pc_rhs} ->
           {
             pc_lhs = this.pat this pc_lhs;
             pc_guard = map_opt (this.expr this) pc_guard;
             pc_rhs = this.expr this pc_rhs;
           }
        );



      location = (fun _this l -> l);

      extension = (fun this (s, e) -> (map_loc this s, this.payload this e));
      attribute = (fun this (s, e) -> (map_loc this s, this.payload this e));
      attributes = (fun this l -> List.map (this.attribute this) l);
      payload =
        (fun this -> function
           | PStr x -> PStr (this.structure this x)
           | PSig x -> PSig (this.signature this x)
           | PTyp x -> PTyp (this.typ this x)
           | PPat (x, g) -> PPat (this.pat this x, map_opt (this.expr this) g)
        );
    }

  let rec extension_of_error {loc; msg; if_highlight; sub} =
    { loc; txt = "ocaml.error" },
    PStr ([Str.eval (Exp.constant (Pconst_string (msg, None)));
           Str.eval (Exp.constant (Pconst_string (if_highlight, None)))] @
          (List.map (fun ext -> Str.extension (extension_of_error ext)) sub))

  let attribute_of_warning loc s =
    { loc; txt = "ocaml.ppwarning" },
    PStr ([Str.eval ~loc (Exp.constant (Pconst_string (s, None)))])

end

module Outcometree = struct
  (* Module [Outcometree]: results displayed by the toplevel *)

  (* These types represent messages that the toplevel displays as normal
     results or errors. The real displaying is customisable using the hooks:
        [Toploop.print_out_value]
        [Toploop.print_out_type]
        [Toploop.print_out_sig_item]
        [Toploop.print_out_phrase] *)

  type out_ident (*IF_CURRENT = Outcometree.out_ident *) =
    | Oide_apply of out_ident * out_ident
    | Oide_dot of out_ident * string
    | Oide_ident of string

  type out_attribute (*IF_CURRENT = Outcometree.out_attribute *) =
    { oattr_name: string }

  type out_value (*IF_CURRENT = Outcometree.out_value *) =
    | Oval_array of out_value list
    | Oval_char of char
    | Oval_constr of out_ident * out_value list
    | Oval_ellipsis
    | Oval_float of float
    | Oval_int of int
    | Oval_int32 of int32
    | Oval_int64 of int64
    | Oval_nativeint of nativeint
    | Oval_list of out_value list
    | Oval_printer of (Format.formatter -> unit)
    | Oval_record of (out_ident * out_value) list
    | Oval_string of string
    | Oval_stuff of string
    | Oval_tuple of out_value list
    | Oval_variant of string * out_value option

  type out_type (*IF_CURRENT = Outcometree.out_type *) =
    | Otyp_abstract
    | Otyp_open
    | Otyp_alias of out_type * string
    | Otyp_arrow of string * out_type * out_type
    | Otyp_class of bool * out_ident * out_type list
    | Otyp_constr of out_ident * out_type list
    | Otyp_manifest of out_type * out_type
    | Otyp_object of (string * out_type) list * bool option
    | Otyp_record of (string * bool * out_type) list
    | Otyp_stuff of string
    | Otyp_sum of (string * out_type list * out_type option) list
    | Otyp_tuple of out_type list
    | Otyp_var of bool * string
    | Otyp_variant of
        bool * out_variant * bool * (string list) option
    | Otyp_poly of string list * out_type
    | Otyp_module of string * string list * out_type list
    | Otyp_attribute of out_type * out_attribute

  and out_variant (*IF_CURRENT = Outcometree.out_variant *) =
    | Ovar_fields of (string * bool * out_type list) list
    | Ovar_typ of out_type

  type out_class_type (*IF_CURRENT = Outcometree.out_class_type *) =
    | Octy_constr of out_ident * out_type list
    | Octy_arrow of string * out_type * out_class_type
    | Octy_signature of out_type option * out_class_sig_item list
  and out_class_sig_item (*IF_CURRENT = Outcometree.out_class_sig_item *) =
    | Ocsg_constraint of out_type * out_type
    | Ocsg_method of string * bool * bool * out_type
    | Ocsg_value of string * bool * bool * out_type

  type out_module_type (*IF_CURRENT = Outcometree.out_module_type *) =
    | Omty_abstract
    | Omty_functor of string * out_module_type option * out_module_type
    | Omty_ident of out_ident
    | Omty_signature of out_sig_item list
    | Omty_alias of out_ident
  and out_sig_item (*IF_CURRENT = Outcometree.out_sig_item *) =
    | Osig_class of
        bool * string * (string * (bool * bool)) list * out_class_type *
          out_rec_status
    | Osig_class_type of
        bool * string * (string * (bool * bool)) list * out_class_type *
          out_rec_status
    | Osig_typext of out_extension_constructor * out_ext_status
    | Osig_modtype of string * out_module_type
    | Osig_module of string * out_module_type * out_rec_status
    | Osig_type of out_type_decl * out_rec_status
    | Osig_value of out_val_decl
    | Osig_ellipsis
  and out_type_decl (*IF_CURRENT = Outcometree.out_type_decl *) =
    { otype_name: string;
      otype_params: (string * (bool * bool)) list;
      otype_type: out_type;
      otype_private: Asttypes.private_flag;
      otype_immediate: bool;
      otype_unboxed: bool;
      otype_cstrs: (out_type * out_type) list }
  and out_extension_constructor (*IF_CURRENT = Outcometree.out_extension_constructor *) =
    { oext_name: string;
      oext_type_name: string;
      oext_type_params: string list;
      oext_args: out_type list;
      oext_ret_type: out_type option;
      oext_private: Asttypes.private_flag }
  and out_type_extension (*IF_CURRENT = Outcometree.out_type_extension *) =
    { otyext_name: string;
      otyext_params: string list;
      otyext_constructors: (string * out_type list * out_type option) list;
      otyext_private: Asttypes.private_flag }
  and out_val_decl (*IF_CURRENT = Outcometree.out_val_decl *) =
    { oval_name: string;
      oval_type: out_type;
      oval_prims: string list;
      oval_attributes: out_attribute list }
  and out_rec_status (*IF_CURRENT = Outcometree.out_rec_status *) =
    | Orec_not
    | Orec_first
    | Orec_next
  and out_ext_status (*IF_CURRENT = Outcometree.out_ext_status *) =
    | Oext_first
    | Oext_next
    | Oext_exception

  type out_phrase (*IF_CURRENT = Outcometree.out_phrase *) =
    | Ophr_eval of out_value * out_type
    | Ophr_signature of (out_sig_item * out_value option) list
    | Ophr_exception of (exn * out_value)

end

module Config = struct
  let ast_impl_magic_number = "Caml1999M020"
  let ast_intf_magic_number = "Caml1999N018"
end

let map_signature mapper = mapper.Ast_mapper.signature mapper
let map_structure mapper = mapper.Ast_mapper.structure mapper

let shallow_identity =
  let id _ x = x in
  {
    Ast_mapper.
    structure               = id;
    structure_item          = id;
    module_expr             = id;
    signature               = id;
    signature_item          = id;
    module_type             = id;
    with_constraint         = id;
    class_declaration       = id;
    class_expr              = id;
    class_field             = id;
    class_structure         = id;
    class_type              = id;
    class_type_field        = id;
    class_signature         = id;
    class_type_declaration  = id;
    class_description       = id;
    type_declaration        = id;
    type_kind               = id;
    typ                     = id;
    type_extension          = id;
    extension_constructor   = id;
    value_description       = id;
    pat                     = id;
    expr                    = id;
    module_declaration      = id;
    module_type_declaration = id;
    module_binding          = id;
    open_description        = id;
    include_description     = id;
    include_declaration     = id;
    value_binding           = id;
    constructor_declaration = id;
    label_declaration       = id;
    cases                   = id;
    case                    = id;
    location                = id;
    extension               = id;
    attribute               = id;
    attributes              = id;
    payload                 = id;
  }

let failing_mapper =
  let fail _ _ =
    invalid_arg "failing_mapper: this mapper function should never get called"
  in
  {
    Ast_mapper.
    structure               = fail;
    structure_item          = fail;
    module_expr             = fail;
    signature               = fail;
    signature_item          = fail;
    module_type             = fail;
    with_constraint         = fail;
    class_declaration       = fail;
    class_expr              = fail;
    class_field             = fail;
    class_structure         = fail;
    class_type              = fail;
    class_type_field        = fail;
    class_signature         = fail;
    class_type_declaration  = fail;
    class_description       = fail;
    type_declaration        = fail;
    type_kind               = fail;
    typ                     = fail;
    type_extension          = fail;
    extension_constructor   = fail;
    value_description       = fail;
    pat                     = fail;
    expr                    = fail;
    module_declaration      = fail;
    module_type_declaration = fail;
    module_binding          = fail;
    open_description        = fail;
    include_description     = fail;
    include_declaration     = fail;
    value_binding           = fail;
    constructor_declaration = fail;
    label_declaration       = fail;
    cases                   = fail;
    case                    = fail;
    location                = fail;
    extension               = fail;
    attribute               = fail;
    attributes              = fail;
    payload                 = fail;
  }

let make_top_mapper ~signature ~structure =
  {failing_mapper with Ast_mapper.
                    signature = (fun _ x -> signature x);
                    structure = (fun _ x -> structure x) }