916 lines
34 KiB
OCaml
916 lines
34 KiB
OCaml
(**************************************************************************)
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(* *)
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(* OCaml *)
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(* *)
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(* Alain Frisch, LexiFi *)
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(* *)
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(* Copyright 2012 Institut National de Recherche en Informatique et *)
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(* en Automatique. *)
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(* *)
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(* All rights reserved. This file is distributed under the terms of *)
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(* the GNU Lesser General Public License version 2.1, with the *)
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(* special exception on linking described in the file LICENSE. *)
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(* *)
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(**************************************************************************)
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(* A generic Parsetree mapping class *)
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(*
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[@@@ocaml.warning "+9"]
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(* Ensure that record patterns don't miss any field. *)
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*)
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open Parsetree
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open Ast_helper
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open Location
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type mapper = {
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attribute: mapper -> attribute -> attribute;
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attributes: mapper -> attribute list -> attribute list;
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case: mapper -> case -> case;
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cases: mapper -> case list -> case list;
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class_declaration: mapper -> class_declaration -> class_declaration;
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class_description: mapper -> class_description -> class_description;
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class_expr: mapper -> class_expr -> class_expr;
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class_field: mapper -> class_field -> class_field;
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class_signature: mapper -> class_signature -> class_signature;
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class_structure: mapper -> class_structure -> class_structure;
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class_type: mapper -> class_type -> class_type;
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class_type_declaration: mapper -> class_type_declaration
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-> class_type_declaration;
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class_type_field: mapper -> class_type_field -> class_type_field;
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constructor_declaration: mapper -> constructor_declaration
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-> constructor_declaration;
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expr: mapper -> expression -> expression;
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extension: mapper -> extension -> extension;
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extension_constructor: mapper -> extension_constructor
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-> extension_constructor;
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include_declaration: mapper -> include_declaration -> include_declaration;
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include_description: mapper -> include_description -> include_description;
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label_declaration: mapper -> label_declaration -> label_declaration;
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location: mapper -> Location.t -> Location.t;
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module_binding: mapper -> module_binding -> module_binding;
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module_declaration: mapper -> module_declaration -> module_declaration;
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module_expr: mapper -> module_expr -> module_expr;
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module_type: mapper -> module_type -> module_type;
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module_type_declaration: mapper -> module_type_declaration
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-> module_type_declaration;
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open_description: mapper -> open_description -> open_description;
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pat: mapper -> pattern -> pattern;
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payload: mapper -> payload -> payload;
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signature: mapper -> signature -> signature;
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signature_item: mapper -> signature_item -> signature_item;
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structure: mapper -> structure -> structure;
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structure_item: mapper -> structure_item -> structure_item;
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typ: mapper -> core_type -> core_type;
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type_declaration: mapper -> type_declaration -> type_declaration;
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type_extension: mapper -> type_extension -> type_extension;
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type_kind: mapper -> type_kind -> type_kind;
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value_binding: mapper -> value_binding -> value_binding;
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value_description: mapper -> value_description -> value_description;
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with_constraint: mapper -> with_constraint -> with_constraint;
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}
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let map_fst f (x, y) = (f x, y)
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let map_snd f (x, y) = (x, f y)
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let map_tuple f1 f2 (x, y) = (f1 x, f2 y)
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let map_tuple3 f1 f2 f3 (x, y, z) = (f1 x, f2 y, f3 z)
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let map_opt f = function None -> None | Some x -> Some (f x)
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let map_loc sub {loc; txt} = {loc = sub.location sub loc; txt}
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module T = struct
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(* Type expressions for the core language *)
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let row_field sub = function
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| Rtag (l, attrs, b, tl) ->
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Rtag (l, sub.attributes sub attrs, b, List.map (sub.typ sub) tl)
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| Rinherit t -> Rinherit (sub.typ sub t)
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let map sub {ptyp_desc = desc; ptyp_loc = loc; ptyp_attributes = attrs} =
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let open Typ in
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let loc = sub.location sub loc in
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let attrs = sub.attributes sub attrs in
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match desc with
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| Ptyp_any -> any ~loc ~attrs ()
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| Ptyp_var s -> var ~loc ~attrs s
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| Ptyp_arrow (lab, t1, t2) ->
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arrow ~loc ~attrs lab (sub.typ sub t1) (sub.typ sub t2)
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| Ptyp_tuple tyl -> tuple ~loc ~attrs (List.map (sub.typ sub) tyl)
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| Ptyp_constr (lid, tl) ->
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constr ~loc ~attrs (map_loc sub lid) (List.map (sub.typ sub) tl)
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| Ptyp_object (l, o) ->
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let f (s, a, t) = (s, sub.attributes sub a, sub.typ sub t) in
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object_ ~loc ~attrs (List.map f l) o
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| Ptyp_class (lid, tl) ->
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class_ ~loc ~attrs (map_loc sub lid) (List.map (sub.typ sub) tl)
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| Ptyp_alias (t, s) -> alias ~loc ~attrs (sub.typ sub t) s
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| Ptyp_variant (rl, b, ll) ->
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variant ~loc ~attrs (List.map (row_field sub) rl) b ll
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| Ptyp_poly (sl, t) -> poly ~loc ~attrs sl (sub.typ sub t)
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| Ptyp_package (lid, l) ->
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package ~loc ~attrs (map_loc sub lid)
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(List.map (map_tuple (map_loc sub) (sub.typ sub)) l)
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| Ptyp_extension x -> extension ~loc ~attrs (sub.extension sub x)
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let map_type_declaration sub
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{ptype_name; ptype_params; ptype_cstrs;
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ptype_kind;
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ptype_private;
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ptype_manifest;
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ptype_attributes;
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ptype_loc} =
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Type.mk (map_loc sub ptype_name)
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~params:(List.map (map_fst (sub.typ sub)) ptype_params)
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~priv:ptype_private
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~cstrs:(List.map
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(map_tuple3 (sub.typ sub) (sub.typ sub) (sub.location sub))
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ptype_cstrs)
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~kind:(sub.type_kind sub ptype_kind)
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?manifest:(map_opt (sub.typ sub) ptype_manifest)
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~loc:(sub.location sub ptype_loc)
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~attrs:(sub.attributes sub ptype_attributes)
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let map_type_kind sub = function
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| Ptype_abstract -> Ptype_abstract
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| Ptype_variant l ->
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Ptype_variant (List.map (sub.constructor_declaration sub) l)
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| Ptype_record l -> Ptype_record (List.map (sub.label_declaration sub) l)
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| Ptype_open -> Ptype_open
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let map_constructor_arguments sub = function
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| Pcstr_tuple l -> Pcstr_tuple (List.map (sub.typ sub) l)
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| Pcstr_record l ->
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Pcstr_record (List.map (sub.label_declaration sub) l)
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let map_type_extension sub
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{ptyext_path; ptyext_params;
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ptyext_constructors;
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ptyext_private;
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ptyext_attributes} =
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Te.mk
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(map_loc sub ptyext_path)
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(List.map (sub.extension_constructor sub) ptyext_constructors)
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~params:(List.map (map_fst (sub.typ sub)) ptyext_params)
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~priv:ptyext_private
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~attrs:(sub.attributes sub ptyext_attributes)
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let map_extension_constructor_kind sub = function
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Pext_decl(ctl, cto) ->
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Pext_decl(map_constructor_arguments sub ctl, map_opt (sub.typ sub) cto)
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| Pext_rebind li ->
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Pext_rebind (map_loc sub li)
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let map_extension_constructor sub
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{pext_name;
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pext_kind;
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pext_loc;
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pext_attributes} =
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Te.constructor
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(map_loc sub pext_name)
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(map_extension_constructor_kind sub pext_kind)
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~loc:(sub.location sub pext_loc)
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~attrs:(sub.attributes sub pext_attributes)
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end
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module CT = struct
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(* Type expressions for the class language *)
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let map sub {pcty_loc = loc; pcty_desc = desc; pcty_attributes = attrs} =
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let open Cty in
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let loc = sub.location sub loc in
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let attrs = sub.attributes sub attrs in
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match desc with
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| Pcty_constr (lid, tys) ->
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constr ~loc ~attrs (map_loc sub lid) (List.map (sub.typ sub) tys)
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| Pcty_signature x -> signature ~loc ~attrs (sub.class_signature sub x)
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| Pcty_arrow (lab, t, ct) ->
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arrow ~loc ~attrs lab (sub.typ sub t) (sub.class_type sub ct)
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| Pcty_extension x -> extension ~loc ~attrs (sub.extension sub x)
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let map_field sub {pctf_desc = desc; pctf_loc = loc; pctf_attributes = attrs}
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=
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let open Ctf in
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let loc = sub.location sub loc in
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let attrs = sub.attributes sub attrs in
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match desc with
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| Pctf_inherit ct -> inherit_ ~loc ~attrs (sub.class_type sub ct)
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| Pctf_val (s, m, v, t) -> val_ ~loc ~attrs s m v (sub.typ sub t)
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| Pctf_method (s, p, v, t) -> method_ ~loc ~attrs s p v (sub.typ sub t)
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| Pctf_constraint (t1, t2) ->
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constraint_ ~loc ~attrs (sub.typ sub t1) (sub.typ sub t2)
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| Pctf_attribute x -> attribute ~loc (sub.attribute sub x)
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| Pctf_extension x -> extension ~loc ~attrs (sub.extension sub x)
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let map_signature sub {pcsig_self; pcsig_fields} =
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Csig.mk
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(sub.typ sub pcsig_self)
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(List.map (sub.class_type_field sub) pcsig_fields)
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end
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module MT = struct
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(* Type expressions for the module language *)
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let map sub {pmty_desc = desc; pmty_loc = loc; pmty_attributes = attrs} =
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let open Mty in
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let loc = sub.location sub loc in
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let attrs = sub.attributes sub attrs in
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match desc with
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| Pmty_ident s -> ident ~loc ~attrs (map_loc sub s)
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| Pmty_alias s -> alias ~loc ~attrs (map_loc sub s)
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| Pmty_signature sg -> signature ~loc ~attrs (sub.signature sub sg)
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| Pmty_functor (s, mt1, mt2) ->
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functor_ ~loc ~attrs (map_loc sub s)
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(Misc.may_map (sub.module_type sub) mt1)
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(sub.module_type sub mt2)
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| Pmty_with (mt, l) ->
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with_ ~loc ~attrs (sub.module_type sub mt)
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(List.map (sub.with_constraint sub) l)
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| Pmty_typeof me -> typeof_ ~loc ~attrs (sub.module_expr sub me)
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| Pmty_extension x -> extension ~loc ~attrs (sub.extension sub x)
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let map_with_constraint sub = function
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| Pwith_type (lid, d) ->
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Pwith_type (map_loc sub lid, sub.type_declaration sub d)
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| Pwith_module (lid, lid2) ->
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Pwith_module (map_loc sub lid, map_loc sub lid2)
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| Pwith_typesubst d -> Pwith_typesubst (sub.type_declaration sub d)
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| Pwith_modsubst (s, lid) ->
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Pwith_modsubst (map_loc sub s, map_loc sub lid)
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let map_signature_item sub {psig_desc = desc; psig_loc = loc} =
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let open Sig in
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let loc = sub.location sub loc in
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match desc with
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| Psig_value vd -> value ~loc (sub.value_description sub vd)
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| Psig_type (rf, l) -> type_ ~loc rf (List.map (sub.type_declaration sub) l)
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| Psig_typext te -> type_extension ~loc (sub.type_extension sub te)
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| Psig_exception ed -> exception_ ~loc (sub.extension_constructor sub ed)
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| Psig_module x -> module_ ~loc (sub.module_declaration sub x)
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| Psig_recmodule l ->
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rec_module ~loc (List.map (sub.module_declaration sub) l)
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| Psig_modtype x -> modtype ~loc (sub.module_type_declaration sub x)
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| Psig_open x -> open_ ~loc (sub.open_description sub x)
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| Psig_include x -> include_ ~loc (sub.include_description sub x)
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| Psig_class l -> class_ ~loc (List.map (sub.class_description sub) l)
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| Psig_class_type l ->
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class_type ~loc (List.map (sub.class_type_declaration sub) l)
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| Psig_extension (x, attrs) ->
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extension ~loc (sub.extension sub x) ~attrs:(sub.attributes sub attrs)
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| Psig_attribute x -> attribute ~loc (sub.attribute sub x)
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end
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module M = struct
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(* Value expressions for the module language *)
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let map sub {pmod_loc = loc; pmod_desc = desc; pmod_attributes = attrs} =
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let open Mod in
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let loc = sub.location sub loc in
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let attrs = sub.attributes sub attrs in
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match desc with
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| Pmod_ident x -> ident ~loc ~attrs (map_loc sub x)
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| Pmod_structure str -> structure ~loc ~attrs (sub.structure sub str)
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| Pmod_functor (arg, arg_ty, body) ->
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functor_ ~loc ~attrs (map_loc sub arg)
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(Misc.may_map (sub.module_type sub) arg_ty)
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(sub.module_expr sub body)
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| Pmod_apply (m1, m2) ->
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apply ~loc ~attrs (sub.module_expr sub m1) (sub.module_expr sub m2)
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| Pmod_constraint (m, mty) ->
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constraint_ ~loc ~attrs (sub.module_expr sub m)
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(sub.module_type sub mty)
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| Pmod_unpack e -> unpack ~loc ~attrs (sub.expr sub e)
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| Pmod_extension x -> extension ~loc ~attrs (sub.extension sub x)
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let map_structure_item sub {pstr_loc = loc; pstr_desc = desc} =
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let open Str in
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let loc = sub.location sub loc in
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match desc with
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| Pstr_eval (x, attrs) ->
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eval ~loc ~attrs:(sub.attributes sub attrs) (sub.expr sub x)
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| Pstr_value (r, vbs) -> value ~loc r (List.map (sub.value_binding sub) vbs)
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| Pstr_primitive vd -> primitive ~loc (sub.value_description sub vd)
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| Pstr_type (rf, l) -> type_ ~loc rf (List.map (sub.type_declaration sub) l)
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| Pstr_typext te -> type_extension ~loc (sub.type_extension sub te)
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| Pstr_exception ed -> exception_ ~loc (sub.extension_constructor sub ed)
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| Pstr_module x -> module_ ~loc (sub.module_binding sub x)
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| Pstr_recmodule l -> rec_module ~loc (List.map (sub.module_binding sub) l)
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| Pstr_modtype x -> modtype ~loc (sub.module_type_declaration sub x)
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| Pstr_open x -> open_ ~loc (sub.open_description sub x)
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| Pstr_class l -> class_ ~loc (List.map (sub.class_declaration sub) l)
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| Pstr_class_type l ->
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class_type ~loc (List.map (sub.class_type_declaration sub) l)
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| Pstr_include x -> include_ ~loc (sub.include_declaration sub x)
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| Pstr_extension (x, attrs) ->
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extension ~loc (sub.extension sub x) ~attrs:(sub.attributes sub attrs)
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| Pstr_attribute x -> attribute ~loc (sub.attribute sub x)
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end
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module E = struct
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(* Value expressions for the core language *)
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let map sub {pexp_loc = loc; pexp_desc = desc; pexp_attributes = attrs} =
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let open Exp in
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let loc = sub.location sub loc in
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let attrs = sub.attributes sub attrs in
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match desc with
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| Pexp_ident x -> ident ~loc ~attrs (map_loc sub x)
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| Pexp_constant x -> constant ~loc ~attrs x
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| Pexp_let (r, vbs, e) ->
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let_ ~loc ~attrs r (List.map (sub.value_binding sub) vbs)
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(sub.expr sub e)
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| Pexp_fun (lab, def, p, e) ->
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fun_ ~loc ~attrs lab (map_opt (sub.expr sub) def) (sub.pat sub p)
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(sub.expr sub e)
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| Pexp_function pel -> function_ ~loc ~attrs (sub.cases sub pel)
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| Pexp_apply (e, l) ->
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apply ~loc ~attrs (sub.expr sub e) (List.map (map_snd (sub.expr sub)) l)
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| Pexp_match (e, pel) ->
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match_ ~loc ~attrs (sub.expr sub e) (sub.cases sub pel)
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| Pexp_try (e, pel) -> try_ ~loc ~attrs (sub.expr sub e) (sub.cases sub pel)
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| Pexp_tuple el -> tuple ~loc ~attrs (List.map (sub.expr sub) el)
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| Pexp_construct (lid, arg) ->
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construct ~loc ~attrs (map_loc sub lid) (map_opt (sub.expr sub) arg)
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| Pexp_variant (lab, eo) ->
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variant ~loc ~attrs lab (map_opt (sub.expr sub) eo)
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| Pexp_record (l, eo) ->
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record ~loc ~attrs (List.map (map_tuple (map_loc sub) (sub.expr sub)) l)
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(map_opt (sub.expr sub) eo)
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| Pexp_field (e, lid) ->
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field ~loc ~attrs (sub.expr sub e) (map_loc sub lid)
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| Pexp_setfield (e1, lid, e2) ->
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setfield ~loc ~attrs (sub.expr sub e1) (map_loc sub lid)
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(sub.expr sub e2)
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| Pexp_array el -> array ~loc ~attrs (List.map (sub.expr sub) el)
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| Pexp_ifthenelse (e1, e2, e3) ->
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ifthenelse ~loc ~attrs (sub.expr sub e1) (sub.expr sub e2)
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(map_opt (sub.expr sub) e3)
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| Pexp_sequence (e1, e2) ->
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sequence ~loc ~attrs (sub.expr sub e1) (sub.expr sub e2)
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| Pexp_while (e1, e2) ->
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while_ ~loc ~attrs (sub.expr sub e1) (sub.expr sub e2)
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| Pexp_for (p, e1, e2, d, e3) ->
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for_ ~loc ~attrs (sub.pat sub p) (sub.expr sub e1) (sub.expr sub e2) d
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(sub.expr sub e3)
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| Pexp_coerce (e, t1, t2) ->
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coerce ~loc ~attrs (sub.expr sub e) (map_opt (sub.typ sub) t1)
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(sub.typ sub t2)
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| Pexp_constraint (e, t) ->
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constraint_ ~loc ~attrs (sub.expr sub e) (sub.typ sub t)
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| Pexp_send (e, s) -> send ~loc ~attrs (sub.expr sub e) s
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| Pexp_new lid -> new_ ~loc ~attrs (map_loc sub lid)
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| Pexp_setinstvar (s, e) ->
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setinstvar ~loc ~attrs (map_loc sub s) (sub.expr sub e)
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| Pexp_override sel ->
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override ~loc ~attrs
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(List.map (map_tuple (map_loc sub) (sub.expr sub)) sel)
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| Pexp_letmodule (s, me, e) ->
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letmodule ~loc ~attrs (map_loc sub s) (sub.module_expr sub me)
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(sub.expr sub e)
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| Pexp_assert e -> assert_ ~loc ~attrs (sub.expr sub e)
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| Pexp_lazy e -> lazy_ ~loc ~attrs (sub.expr sub e)
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| Pexp_poly (e, t) ->
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poly ~loc ~attrs (sub.expr sub e) (map_opt (sub.typ sub) t)
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| Pexp_object cls -> object_ ~loc ~attrs (sub.class_structure sub cls)
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| Pexp_newtype (s, e) -> newtype ~loc ~attrs s (sub.expr sub e)
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| Pexp_pack me -> pack ~loc ~attrs (sub.module_expr sub me)
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| Pexp_open (ovf, lid, e) ->
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open_ ~loc ~attrs ovf (map_loc sub lid) (sub.expr sub e)
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| Pexp_extension x -> extension ~loc ~attrs (sub.extension sub x)
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| Pexp_unreachable -> unreachable ~loc ~attrs ()
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end
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module P = struct
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(* Patterns *)
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let map sub {ppat_desc = desc; ppat_loc = loc; ppat_attributes = attrs} =
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let open Pat in
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let loc = sub.location sub loc in
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|
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_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) 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)))])
|
|
|
|
module StringMap = Map.Make(struct
|
|
type t = string
|
|
let compare = compare
|
|
end)
|
|
|
|
let cookies = ref StringMap.empty
|
|
|
|
let get_cookie k =
|
|
try Some (StringMap.find k !cookies)
|
|
with Not_found -> None
|
|
|
|
let set_cookie k v =
|
|
cookies := StringMap.add k v !cookies
|
|
|
|
let tool_name_ref = ref "_none_"
|
|
|
|
let tool_name () = !tool_name_ref
|
|
|
|
|
|
module PpxContext = struct
|
|
open Longident
|
|
open Asttypes
|
|
open Ast_helper
|
|
|
|
let lid name = { txt = Lident name; loc = Location.none }
|
|
|
|
let make_string x = Exp.constant (Pconst_string (x, None))
|
|
|
|
let make_bool x =
|
|
if x
|
|
then Exp.construct (lid "true") None
|
|
else Exp.construct (lid "false") None
|
|
|
|
let rec make_list f lst =
|
|
match lst with
|
|
| x :: rest ->
|
|
Exp.construct (lid "::") (Some (Exp.tuple [f x; make_list f rest]))
|
|
| [] ->
|
|
Exp.construct (lid "[]") None
|
|
|
|
let make_pair f1 f2 (x1, x2) =
|
|
Exp.tuple [f1 x1; f2 x2]
|
|
|
|
let make_option f opt =
|
|
match opt with
|
|
| Some x -> Exp.construct (lid "Some") (Some (f x))
|
|
| None -> Exp.construct (lid "None") None
|
|
|
|
let get_cookies () =
|
|
lid "cookies",
|
|
make_list (make_pair make_string (fun x -> x))
|
|
(StringMap.bindings !cookies)
|
|
|
|
let mk fields =
|
|
{ txt = "ocaml.ppx.context"; loc = Location.none },
|
|
Parsetree.PStr [Str.eval (Exp.record fields None)]
|
|
|
|
let make ~tool_name () =
|
|
let fields =
|
|
[
|
|
lid "tool_name", make_string tool_name;
|
|
lid "include_dirs", make_list make_string !Clflags.include_dirs;
|
|
lid "load_path", make_list make_string !Config.load_path;
|
|
lid "open_modules", make_list make_string !Clflags.open_modules;
|
|
lid "for_package", make_option make_string !Clflags.for_package;
|
|
lid "debug", make_bool !Clflags.debug;
|
|
get_cookies ()
|
|
]
|
|
in
|
|
mk fields
|
|
|
|
let get_fields = function
|
|
| PStr [{pstr_desc = Pstr_eval
|
|
({ pexp_desc = Pexp_record (fields, None) }, [])}] ->
|
|
fields
|
|
| _ ->
|
|
raise_errorf "Internal error: invalid [@@@ocaml.ppx.context] syntax"
|
|
|
|
let restore fields =
|
|
let field name payload =
|
|
let rec get_string = function
|
|
| { pexp_desc = Pexp_constant (Pconst_string (str, None)) } -> str
|
|
| _ -> raise_errorf "Internal error: invalid [@@@ocaml.ppx.context \
|
|
{ %s }] string syntax" name
|
|
and get_bool pexp =
|
|
match pexp with
|
|
| {pexp_desc = Pexp_construct ({txt = Longident.Lident "true"},
|
|
None)} ->
|
|
true
|
|
| {pexp_desc = Pexp_construct ({txt = Longident.Lident "false"},
|
|
None)} ->
|
|
false
|
|
| _ -> raise_errorf "Internal error: invalid [@@@ocaml.ppx.context \
|
|
{ %s }] bool syntax" name
|
|
and get_list elem = function
|
|
| {pexp_desc =
|
|
Pexp_construct ({txt = Longident.Lident "::"},
|
|
Some {pexp_desc = Pexp_tuple [exp; rest]}) } ->
|
|
elem exp :: get_list elem rest
|
|
| {pexp_desc =
|
|
Pexp_construct ({txt = Longident.Lident "[]"}, None)} ->
|
|
[]
|
|
| _ -> raise_errorf "Internal error: invalid [@@@ocaml.ppx.context \
|
|
{ %s }] list syntax" name
|
|
and get_pair f1 f2 = function
|
|
| {pexp_desc = Pexp_tuple [e1; e2]} ->
|
|
(f1 e1, f2 e2)
|
|
| _ -> raise_errorf "Internal error: invalid [@@@ocaml.ppx.context \
|
|
{ %s }] pair syntax" name
|
|
and get_option elem = function
|
|
| { pexp_desc =
|
|
Pexp_construct ({ txt = Longident.Lident "Some" }, Some exp) } ->
|
|
Some (elem exp)
|
|
| { pexp_desc =
|
|
Pexp_construct ({ txt = Longident.Lident "None" }, None) } ->
|
|
None
|
|
| _ -> raise_errorf "Internal error: invalid [@@@ocaml.ppx.context \
|
|
{ %s }] option syntax" name
|
|
in
|
|
match name with
|
|
| "tool_name" ->
|
|
tool_name_ref := get_string payload
|
|
| "include_dirs" ->
|
|
Clflags.include_dirs := get_list get_string payload
|
|
| "load_path" ->
|
|
Config.load_path := get_list get_string payload
|
|
| "open_modules" ->
|
|
Clflags.open_modules := get_list get_string payload
|
|
| "for_package" ->
|
|
Clflags.for_package := get_option get_string payload
|
|
| "debug" ->
|
|
Clflags.debug := get_bool payload
|
|
| "cookies" ->
|
|
let l = get_list (get_pair get_string (fun x -> x)) payload in
|
|
cookies :=
|
|
List.fold_left
|
|
(fun s (k, v) -> StringMap.add k v s) StringMap.empty
|
|
l
|
|
| _ ->
|
|
()
|
|
in
|
|
List.iter (function ({txt=Lident name}, x) -> field name x | _ -> ()) fields
|
|
|
|
let update_cookies fields =
|
|
let fields =
|
|
List.filter
|
|
(function ({txt=Lident "cookies"}, _) -> false | _ -> true)
|
|
fields
|
|
in
|
|
fields @ [get_cookies ()]
|
|
end
|
|
|
|
let ppx_context = PpxContext.make
|
|
|
|
let ext_of_exn exn =
|
|
match error_of_exn exn with
|
|
| Some error -> extension_of_error error
|
|
| None -> raise exn
|
|
|
|
|
|
let apply_lazy ~source ~target mapper =
|
|
let implem ast =
|
|
let fields, ast =
|
|
match ast with
|
|
| {pstr_desc = Pstr_attribute ({txt = "ocaml.ppx.context"}, x)} :: l ->
|
|
PpxContext.get_fields x, l
|
|
| _ -> [], ast
|
|
in
|
|
PpxContext.restore fields;
|
|
let ast =
|
|
try
|
|
let mapper = mapper () in
|
|
mapper.structure mapper ast
|
|
with exn ->
|
|
[{pstr_desc = Pstr_extension (ext_of_exn exn, []);
|
|
pstr_loc = Location.none}]
|
|
in
|
|
let fields = PpxContext.update_cookies fields in
|
|
Str.attribute (PpxContext.mk fields) :: ast
|
|
in
|
|
let iface ast =
|
|
let fields, ast =
|
|
match ast with
|
|
| {psig_desc = Psig_attribute ({txt = "ocaml.ppx.context"}, x)} :: l ->
|
|
PpxContext.get_fields x, l
|
|
| _ -> [], ast
|
|
in
|
|
PpxContext.restore fields;
|
|
let ast =
|
|
try
|
|
let mapper = mapper () in
|
|
mapper.signature mapper ast
|
|
with exn ->
|
|
[{psig_desc = Psig_extension (ext_of_exn exn, []);
|
|
psig_loc = Location.none}]
|
|
in
|
|
let fields = PpxContext.update_cookies fields in
|
|
Sig.attribute (PpxContext.mk fields) :: ast
|
|
in
|
|
|
|
let ic = open_in_bin source in
|
|
let magic =
|
|
really_input_string ic (String.length Config.ast_impl_magic_number)
|
|
in
|
|
|
|
let rewrite transform =
|
|
Location.input_name := input_value ic;
|
|
let ast = input_value ic in
|
|
close_in ic;
|
|
let ast = transform ast in
|
|
let oc = open_out_bin target in
|
|
output_string oc magic;
|
|
output_value oc !Location.input_name;
|
|
output_value oc ast;
|
|
close_out oc
|
|
and fail () =
|
|
close_in ic;
|
|
failwith "Ast_mapper: OCaml version mismatch or malformed input";
|
|
in
|
|
|
|
if magic = Config.ast_impl_magic_number then
|
|
rewrite (implem : structure -> structure)
|
|
else if magic = Config.ast_intf_magic_number then
|
|
rewrite (iface : signature -> signature)
|
|
else fail ()
|
|
|
|
let drop_ppx_context_str ~restore = function
|
|
| {pstr_desc = Pstr_attribute({Location.txt = "ocaml.ppx.context"}, a)}
|
|
:: items ->
|
|
if restore then
|
|
PpxContext.restore (PpxContext.get_fields a);
|
|
items
|
|
| items -> items
|
|
|
|
let drop_ppx_context_sig ~restore = function
|
|
| {psig_desc = Psig_attribute({Location.txt = "ocaml.ppx.context"}, a)}
|
|
:: items ->
|
|
if restore then
|
|
PpxContext.restore (PpxContext.get_fields a);
|
|
items
|
|
| items -> items
|
|
|
|
let add_ppx_context_str ~tool_name ast =
|
|
Ast_helper.Str.attribute (ppx_context ~tool_name ()) :: ast
|
|
|
|
let add_ppx_context_sig ~tool_name ast =
|
|
Ast_helper.Sig.attribute (ppx_context ~tool_name ()) :: ast
|
|
|
|
|
|
let apply ~source ~target mapper =
|
|
apply_lazy ~source ~target (fun () -> mapper)
|
|
|
|
let run_main mapper =
|
|
try
|
|
let a = Sys.argv in
|
|
let n = Array.length a in
|
|
if n > 2 then
|
|
let mapper () =
|
|
try mapper (Array.to_list (Array.sub a 1 (n - 3)))
|
|
with exn ->
|
|
(* PR #6463 *)
|
|
let f _ _ = raise exn in
|
|
{default_mapper with structure = f; signature = f}
|
|
in
|
|
apply_lazy ~source:a.(n - 2) ~target:a.(n - 1) mapper
|
|
else begin
|
|
Printf.eprintf "Usage: %s [extra_args] <infile> <outfile>\n%!"
|
|
Sys.executable_name;
|
|
exit 2
|
|
end
|
|
with exn ->
|
|
prerr_endline (Printexc.to_string exn);
|
|
exit 2
|
|
|
|
let register_function = ref (fun _name f -> run_main f)
|
|
let register name f = !register_function name f
|