1495 lines
58 KiB
OCaml
1495 lines
58 KiB
OCaml
(***********************************************************************)
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(* *)
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(* OCaml *)
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(* *)
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(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* en Automatique. All rights reserved. This file is distributed *)
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(* under the terms of the Q Public License version 1.0. *)
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(* *)
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(***********************************************************************)
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open Misc
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open Longident
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open Path
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open Asttypes
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open Parsetree
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open Types
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open Format
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type error =
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Cannot_apply of module_type
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| Not_included of Includemod.error list
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| Cannot_eliminate_dependency of module_type
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| Signature_expected
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| Structure_expected of module_type
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| With_no_component of Longident.t
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| With_mismatch of Longident.t * Includemod.error list
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| Repeated_name of string * string
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| Non_generalizable of type_expr
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| Non_generalizable_class of Ident.t * class_declaration
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| Non_generalizable_module of module_type
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| Implementation_is_required of string
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| Interface_not_compiled of string
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| Not_allowed_in_functor_body
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| With_need_typeconstr
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| Not_a_packed_module of type_expr
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| Incomplete_packed_module of type_expr
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| Scoping_pack of Longident.t * type_expr
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| Extension of string
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| Recursive_module_require_explicit_type
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exception Error of Location.t * Env.t * error
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open Typedtree
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let fst3 (x,_,_) = x
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let rec path_concat head p =
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match p with
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Pident tail -> Pdot (Pident head, Ident.name tail, 0)
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| Pdot (pre, s, pos) -> Pdot (path_concat head pre, s, pos)
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| Papply _ -> assert false
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(* Extract a signature from a module type *)
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let extract_sig env loc mty =
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match Mtype.scrape env mty with
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Mty_signature sg -> sg
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| _ -> raise(Error(loc, env, Signature_expected))
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let extract_sig_open env loc mty =
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match Mtype.scrape env mty with
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Mty_signature sg -> sg
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| _ -> raise(Error(loc, env, Structure_expected mty))
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(* Compute the environment after opening a module *)
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let type_open ?toplevel env loc lid =
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let (path, mty) = Typetexp.find_module env loc lid.txt in
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let sg = extract_sig_open env loc mty in
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path, Env.open_signature ~loc ?toplevel path sg env
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(* Record a module type *)
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let rm node =
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Stypes.record (Stypes.Ti_mod node);
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node
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(* Forward declaration, to be filled in by type_module_type_of *)
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let type_module_type_of_fwd :
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(Env.t -> Parsetree.module_expr ->
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Typedtree.module_expr * Types.module_type) ref
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= ref (fun env m -> assert false)
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(* Merge one "with" constraint in a signature *)
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let rec add_rec_types env = function
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Sig_type(id, decl, Trec_next) :: rem ->
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add_rec_types (Env.add_type id decl env) rem
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| _ -> env
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let check_type_decl env id row_id newdecl decl rs rem =
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let env = Env.add_type id newdecl env in
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let env =
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match row_id with None -> env | Some id -> Env.add_type id newdecl env in
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let env = if rs = Trec_not then env else add_rec_types env rem in
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Includemod.type_declarations env id newdecl decl
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let rec make_params n = function
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[] -> []
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| _ :: l -> ("a" ^ string_of_int n) :: make_params (n+1) l
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let make_next_first rs rem =
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if rs = Trec_first then
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match rem with
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Sig_type (id, decl, Trec_next) :: rem ->
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Sig_type (id, decl, Trec_first) :: rem
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| Sig_module (id, mty, Trec_next) :: rem ->
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Sig_module (id, mty, Trec_first) :: rem
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| _ -> rem
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else rem
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let sig_item desc typ env loc = {
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Typedtree.sig_desc = desc; sig_loc = loc; sig_env = env
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}
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let merge_constraint initial_env loc sg lid constr =
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let real_id = ref None in
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let rec merge env sg namelist row_id =
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match (sg, namelist, constr) with
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([], _, _) ->
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raise(Error(loc, env, With_no_component lid.txt))
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| (Sig_type(id, decl, rs) :: rem, [s],
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Pwith_type ({ptype_kind = Ptype_abstract} as sdecl))
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when Ident.name id = s && Typedecl.is_fixed_type sdecl ->
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let decl_row =
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{ type_params =
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List.map (fun _ -> Btype.newgenvar()) sdecl.ptype_params;
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type_arity = List.length sdecl.ptype_params;
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type_kind = Type_abstract;
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type_private = Private;
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type_manifest = None;
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type_variance =
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List.map (fun (c,n) -> (not n, not c, not c))
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sdecl.ptype_variance;
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type_loc = Location.none;
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type_newtype_level = None }
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and id_row = Ident.create (s^"#row") in
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let initial_env = Env.add_type id_row decl_row initial_env in
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let tdecl = Typedecl.transl_with_constraint
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initial_env id (Some(Pident id_row)) decl sdecl in
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let newdecl = tdecl.typ_type in
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check_type_decl env id row_id newdecl decl rs rem;
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let decl_row = {decl_row with type_params = newdecl.type_params} in
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let rs' = if rs = Trec_first then Trec_not else rs in
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(Pident id, lid, Twith_type tdecl),
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Sig_type(id_row, decl_row, rs') :: Sig_type(id, newdecl, rs) :: rem
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| (Sig_type(id, decl, rs) :: rem , [s], Pwith_type sdecl)
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when Ident.name id = s ->
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let tdecl =
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Typedecl.transl_with_constraint initial_env id None decl sdecl in
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let newdecl = tdecl.typ_type in
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check_type_decl env id row_id newdecl decl rs rem;
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(Pident id, lid, Twith_type tdecl), Sig_type(id, newdecl, rs) :: rem
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| (Sig_type(id, decl, rs) :: rem, [s], (Pwith_type _ | Pwith_typesubst _))
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when Ident.name id = s ^ "#row" ->
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merge env rem namelist (Some id)
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| (Sig_type(id, decl, rs) :: rem, [s], Pwith_typesubst sdecl)
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when Ident.name id = s ->
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(* Check as for a normal with constraint, but discard definition *)
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let tdecl =
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Typedecl.transl_with_constraint initial_env id None decl sdecl in
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let newdecl = tdecl.typ_type in
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check_type_decl env id row_id newdecl decl rs rem;
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real_id := Some id;
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(Pident id, lid, Twith_typesubst tdecl),
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make_next_first rs rem
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| (Sig_module(id, mty, rs) :: rem, [s], Pwith_module (lid))
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when Ident.name id = s ->
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let (path, mty') = Typetexp.find_module initial_env loc lid.txt in
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let newmty = Mtype.strengthen env mty' path in
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ignore(Includemod.modtypes env newmty mty);
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(Pident id, lid, Twith_module (path, lid)),
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Sig_module(id, newmty, rs) :: rem
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| (Sig_module(id, mty, rs) :: rem, [s], Pwith_modsubst (lid))
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when Ident.name id = s ->
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let (path, mty') = Typetexp.find_module initial_env loc lid.txt in
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let newmty = Mtype.strengthen env mty' path in
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ignore(Includemod.modtypes env newmty mty);
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real_id := Some id;
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(Pident id, lid, Twith_modsubst (path, lid)),
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make_next_first rs rem
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| (Sig_module(id, mty, rs) :: rem, s :: namelist, _)
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when Ident.name id = s ->
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let ((path, path_loc, tcstr), newsg) =
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merge env (extract_sig env loc mty) namelist None in
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(path_concat id path, lid, tcstr),
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Sig_module(id, Mty_signature newsg, rs) :: rem
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| (item :: rem, _, _) ->
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let (cstr, items) = merge (Env.add_item item env) rem namelist row_id
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in
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cstr, item :: items
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in
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try
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let names = Longident.flatten lid.txt in
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let (tcstr, sg) = merge initial_env sg names None in
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let sg =
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match names, constr with
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[s], Pwith_typesubst sdecl ->
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let id =
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match !real_id with None -> assert false | Some id -> id in
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let lid =
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try match sdecl.ptype_manifest with
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| Some {ptyp_desc = Ptyp_constr (lid, stl)}
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when List.length stl = List.length sdecl.ptype_params ->
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let params =
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List.map
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(function {ptyp_desc=Ptyp_var s} -> s | _ -> raise Exit)
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stl in
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List.iter2 (fun x ox ->
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match ox with
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Some y when x = y.txt -> ()
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| _ -> raise Exit
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) params sdecl.ptype_params;
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lid
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| _ -> raise Exit
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with Exit ->
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raise(Error(sdecl.ptype_loc, initial_env, With_need_typeconstr))
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in
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let (path, _) =
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try Env.lookup_type lid.txt initial_env with Not_found -> assert false
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in
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let sub = Subst.add_type id path Subst.identity in
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Subst.signature sub sg
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| [s], Pwith_modsubst (lid) ->
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let id =
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match !real_id with None -> assert false | Some id -> id in
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let (path, _) = Typetexp.find_module initial_env loc lid.txt in
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let sub = Subst.add_module id path Subst.identity in
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Subst.signature sub sg
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| _ ->
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sg
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in
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(tcstr, sg)
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with Includemod.Error explanation ->
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raise(Error(loc, initial_env, With_mismatch(lid.txt, explanation)))
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(* Add recursion flags on declarations arising from a mutually recursive
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block. *)
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let map_rec fn decls rem =
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match decls with
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| [] -> rem
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| d1 :: dl -> fn Trec_first d1 :: map_end (fn Trec_next) dl rem
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let map_rec' = map_rec
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(*
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let rec map_rec' fn decls rem =
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match decls with
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| (id,_ as d1) :: dl when Btype.is_row_name (Ident.name id) ->
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fn Trec_not d1 :: map_rec' fn dl rem
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| _ -> map_rec fn decls rem
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*)
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let rec map_rec'' fn decls rem =
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match decls with
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| (id, _,_ as d1) :: dl when Btype.is_row_name (Ident.name id) ->
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fn Trec_not d1 :: map_rec'' fn dl rem
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| _ -> map_rec fn decls rem
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(* Auxiliary for translating recursively-defined module types.
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Return a module type that approximates the shape of the given module
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type AST. Retain only module, type, and module type
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components of signatures. For types, retain only their arity,
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making them abstract otherwise. *)
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let rec approx_modtype env smty =
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match smty.pmty_desc with
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Pmty_ident lid ->
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let (path, info) = Typetexp.find_modtype env smty.pmty_loc lid.txt in
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Mty_ident path
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| Pmty_signature ssg ->
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Mty_signature(approx_sig env ssg)
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| Pmty_functor(param, sarg, sres) ->
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let arg = approx_modtype env sarg in
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let (id, newenv) = Env.enter_module param.txt arg env in
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let res = approx_modtype newenv sres in
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Mty_functor(id, arg, res)
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| Pmty_with(sbody, constraints) ->
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approx_modtype env sbody
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| Pmty_typeof smod ->
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let (_, mty) = !type_module_type_of_fwd env smod in
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mty
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| Pmty_extension (s, _arg) ->
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raise (Error (smty.pmty_loc, env, Extension s))
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and approx_sig env ssg =
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match ssg with
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[] -> []
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| item :: srem ->
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match item.psig_desc with
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| Psig_type sdecls ->
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let decls = Typedecl.approx_type_decl env sdecls in
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let rem = approx_sig env srem in
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map_rec' (fun rs (id, info) -> Sig_type(id, info, rs)) decls rem
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| Psig_module pmd ->
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let mty = approx_modtype env pmd.pmd_type in
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let (id, newenv) = Env.enter_module pmd.pmd_name.txt mty env in
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Sig_module(id, mty, Trec_not) :: approx_sig newenv srem
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| Psig_recmodule sdecls ->
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let decls =
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List.map
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(fun pmd ->
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(Ident.create pmd.pmd_name.txt, approx_modtype env pmd.pmd_type))
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sdecls in
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let newenv =
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List.fold_left (fun env (id, mty) -> Env.add_module id mty env)
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env decls in
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map_rec (fun rs (id, mty) -> Sig_module(id, mty, rs)) decls
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(approx_sig newenv srem)
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| Psig_modtype d ->
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let info = approx_modtype_info env d.pmtd_type in
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let (id, newenv) = Env.enter_modtype d.pmtd_name.txt info env in
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Sig_modtype(id, info) :: approx_sig newenv srem
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| Psig_open (lid, _attrs) ->
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let (path, mty) = type_open env item.psig_loc lid in
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approx_sig mty srem
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| Psig_include (smty, _attrs) ->
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let mty = approx_modtype env smty in
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let sg = Subst.signature Subst.identity
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(extract_sig env smty.pmty_loc mty) in
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let newenv = Env.add_signature sg env in
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sg @ approx_sig newenv srem
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| Psig_class sdecls | Psig_class_type sdecls ->
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let decls = Typeclass.approx_class_declarations env sdecls in
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let rem = approx_sig env srem in
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List.flatten
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(map_rec
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(fun rs (i1, _, d1, i2, d2, i3, d3, _) ->
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[Sig_class_type(i1, d1, rs);
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Sig_type(i2, d2, rs);
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Sig_type(i3, d3, rs)])
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decls [rem])
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| _ ->
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approx_sig env srem
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and approx_modtype_info env sinfo =
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match sinfo with
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None ->
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Modtype_abstract
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| Some smty ->
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Modtype_manifest(approx_modtype env smty)
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(* Additional validity checks on type definitions arising from
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recursive modules *)
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let check_recmod_typedecls env sdecls decls =
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let recmod_ids = List.map fst3 decls in
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List.iter2
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(fun pmd (id, _, mty) ->
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let mty = mty.mty_type in
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List.iter
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(fun path ->
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Typedecl.check_recmod_typedecl env pmd.pmd_type.pmty_loc recmod_ids
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path (Env.find_type path env))
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(Mtype.type_paths env (Pident id) mty))
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sdecls decls
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(* Auxiliaries for checking uniqueness of names in signatures and structures *)
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module StringSet = Set.Make(struct type t = string let compare = compare end)
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let check cl loc set_ref name =
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if StringSet.mem name !set_ref
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then raise(Error(loc, Env.empty, Repeated_name(cl, name)))
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else set_ref := StringSet.add name !set_ref
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let check_sig_item type_names module_names modtype_names loc = function
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Sig_type(id, _, _) ->
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check "type" loc type_names (Ident.name id)
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| Sig_module(id, _, _) ->
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check "module" loc module_names (Ident.name id)
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| Sig_modtype(id, _) ->
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check "module type" loc modtype_names (Ident.name id)
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| _ -> ()
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let rec remove_values ids = function
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[] -> []
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| Sig_value (id, _) :: rem
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when List.exists (Ident.equal id) ids -> remove_values ids rem
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| f :: rem -> f :: remove_values ids rem
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let rec get_values = function
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[] -> []
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| Sig_value (id, _) :: rem -> id :: get_values rem
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| f :: rem -> get_values rem
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(* Check and translate a module type expression *)
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let transl_modtype_longident loc env lid =
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let (path, info) = Typetexp.find_modtype env loc lid in
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path
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let mkmty desc typ env loc attrs =
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let mty = {
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mty_desc = desc;
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mty_type = typ;
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mty_loc = loc;
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mty_env = env;
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mty_attributes = attrs;
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} in
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Cmt_format.add_saved_type (Cmt_format.Partial_module_type mty);
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mty
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let mksig desc env loc =
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let sg = { sig_desc = desc; sig_loc = loc; sig_env = env } in
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Cmt_format.add_saved_type (Cmt_format.Partial_signature_item sg);
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sg
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(* let signature sg = List.map (fun item -> item.sig_type) sg *)
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let rec transl_modtype env smty =
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let loc = smty.pmty_loc in
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match smty.pmty_desc with
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Pmty_ident lid ->
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let path = transl_modtype_longident loc env lid.txt in
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mkmty (Tmty_ident (path, lid)) (Mty_ident path) env loc
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smty.pmty_attributes
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| Pmty_signature ssg ->
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let sg = transl_signature env ssg in
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mkmty (Tmty_signature sg) (Mty_signature sg.sig_type) env loc
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smty.pmty_attributes
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| Pmty_functor(param, sarg, sres) ->
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let arg = transl_modtype env sarg in
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let (id, newenv) = Env.enter_module param.txt arg.mty_type env in
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let res = transl_modtype newenv sres in
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mkmty (Tmty_functor (id, param, arg, res))
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(Mty_functor(id, arg.mty_type, res.mty_type)) env loc
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smty.pmty_attributes
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| Pmty_with(sbody, constraints) ->
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let body = transl_modtype env sbody in
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let init_sg = extract_sig env sbody.pmty_loc body.mty_type in
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let (tcstrs, final_sg) =
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List.fold_left
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(fun (tcstrs,sg) (lid, sdecl) ->
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let (tcstr, sg) = merge_constraint env smty.pmty_loc sg lid sdecl
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in
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(tcstr :: tcstrs, sg)
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)
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([],init_sg) constraints in
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mkmty (Tmty_with ( body, tcstrs))
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(Mtype.freshen (Mty_signature final_sg)) env loc
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smty.pmty_attributes
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| Pmty_typeof smod ->
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let tmty, mty = !type_module_type_of_fwd env smod in
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mkmty (Tmty_typeof tmty) mty env loc smty.pmty_attributes
|
|
| Pmty_extension (s, _arg) ->
|
|
raise (Error (smty.pmty_loc, env, Extension s))
|
|
|
|
|
|
and transl_signature env sg =
|
|
let type_names = ref StringSet.empty
|
|
and module_names = ref StringSet.empty
|
|
and modtype_names = ref StringSet.empty in
|
|
let rec transl_sig env sg =
|
|
Ctype.init_def(Ident.current_time());
|
|
match sg with
|
|
[] -> [], [], env
|
|
| item :: srem ->
|
|
let loc = item.psig_loc in
|
|
match item.psig_desc with
|
|
| Psig_value sdesc ->
|
|
let tdesc = Typedecl.transl_value_decl env item.psig_loc sdesc in
|
|
let desc = tdesc.val_val in
|
|
let (id, newenv) =
|
|
Env.enter_value sdesc.pval_name.txt desc env
|
|
~check:(fun s -> Warnings.Unused_value_declaration s) in
|
|
let (trem,rem, final_env) = transl_sig newenv srem in
|
|
mksig (Tsig_value (id, sdesc.pval_name, tdesc)) env loc :: trem,
|
|
(if List.exists (Ident.equal id) (get_values rem) then rem
|
|
else Sig_value(id, desc) :: rem),
|
|
final_env
|
|
| Psig_type sdecls ->
|
|
List.iter
|
|
(fun decl ->
|
|
check "type" item.psig_loc type_names decl.ptype_name.txt)
|
|
sdecls;
|
|
let (decls, newenv) = Typedecl.transl_type_decl env sdecls in
|
|
let (trem, rem, final_env) = transl_sig newenv srem in
|
|
mksig (Tsig_type decls) env loc :: trem,
|
|
map_rec'' (fun rs (id, _, info) ->
|
|
Sig_type(id, info.typ_type, rs)) decls rem,
|
|
final_env
|
|
| Psig_exception sarg ->
|
|
let arg = Typedecl.transl_exception env sarg in
|
|
let (id, newenv) = Env.enter_exception sarg.pcd_name.txt arg.exn_exn env in
|
|
let (trem, rem, final_env) = transl_sig newenv srem in
|
|
mksig (Tsig_exception (id, sarg.pcd_name, arg)) env loc :: trem,
|
|
Sig_exception(id, arg.exn_exn) :: rem,
|
|
final_env
|
|
| Psig_module pmd ->
|
|
check "module" item.psig_loc module_names pmd.pmd_name.txt;
|
|
let tmty = transl_modtype env pmd.pmd_type in
|
|
let mty = tmty.mty_type in
|
|
let (id, newenv) = Env.enter_module pmd.pmd_name.txt mty env in
|
|
let (trem, rem, final_env) = transl_sig newenv srem in
|
|
mksig (Tsig_module (id, pmd.pmd_name, tmty)) env loc :: trem,
|
|
Sig_module(id, mty, Trec_not) :: rem,
|
|
final_env
|
|
| Psig_recmodule sdecls ->
|
|
List.iter
|
|
(fun pmd ->
|
|
check "module" item.psig_loc module_names pmd.pmd_name.txt)
|
|
sdecls;
|
|
let (decls, newenv) =
|
|
transl_recmodule_modtypes item.psig_loc env sdecls in
|
|
let (trem, rem, final_env) = transl_sig newenv srem in
|
|
mksig (Tsig_recmodule decls) env loc :: trem,
|
|
map_rec (fun rs (id, _, tmty) -> Sig_module(id, tmty.mty_type, rs))
|
|
decls rem,
|
|
final_env
|
|
| Psig_modtype {pmtd_name=name; pmtd_type=sinfo} ->
|
|
check "module type" item.psig_loc modtype_names name.txt;
|
|
let (tinfo, info) = transl_modtype_info env sinfo in
|
|
let (id, newenv) = Env.enter_modtype name.txt info env in
|
|
let (trem, rem, final_env) = transl_sig newenv srem in
|
|
mksig (Tsig_modtype (id, name, tinfo)) env loc :: trem,
|
|
Sig_modtype(id, info) :: rem,
|
|
final_env
|
|
| Psig_open (lid, attrs) ->
|
|
let (path, newenv) = type_open env item.psig_loc lid in
|
|
let (trem, rem, final_env) = transl_sig newenv srem in
|
|
mksig (Tsig_open (path,lid,attrs)) env loc :: trem, rem, final_env
|
|
| Psig_include (smty, attrs) ->
|
|
let tmty = transl_modtype env smty in
|
|
let mty = tmty.mty_type in
|
|
let sg = Subst.signature Subst.identity
|
|
(extract_sig env smty.pmty_loc mty) in
|
|
List.iter
|
|
(check_sig_item type_names module_names modtype_names
|
|
item.psig_loc)
|
|
sg;
|
|
let newenv = Env.add_signature sg env in
|
|
let (trem, rem, final_env) = transl_sig newenv srem in
|
|
mksig (Tsig_include (tmty, sg, attrs)) env loc :: trem,
|
|
remove_values (get_values rem) sg @ rem, final_env
|
|
| Psig_class cl ->
|
|
List.iter
|
|
(fun {pci_name = name} ->
|
|
check "type" item.psig_loc type_names name.txt )
|
|
cl;
|
|
let (classes, newenv) = Typeclass.class_descriptions env cl in
|
|
let (trem, rem, final_env) = transl_sig newenv srem in
|
|
mksig (Tsig_class
|
|
(List.map2
|
|
(fun pcl tcl ->
|
|
let (_, _, _, _, _, _, _, _, _, _, _, tcl) = tcl in
|
|
tcl)
|
|
cl classes)) env loc
|
|
:: trem,
|
|
List.flatten
|
|
(map_rec
|
|
(fun rs (i, _, d, i', d', i'', d'', i''', d''', _, _, _) ->
|
|
[Sig_class(i, d, rs);
|
|
Sig_class_type(i', d', rs);
|
|
Sig_type(i'', d'', rs);
|
|
Sig_type(i''', d''', rs)])
|
|
classes [rem]),
|
|
final_env
|
|
| Psig_class_type cl ->
|
|
List.iter
|
|
(fun {pci_name = name} ->
|
|
check "type" item.psig_loc type_names name.txt)
|
|
cl;
|
|
let (classes, newenv) = Typeclass.class_type_declarations env cl in
|
|
let (trem,rem, final_env) = transl_sig newenv srem in
|
|
mksig (Tsig_class_type (List.map2 (fun pcl tcl ->
|
|
let (_, _, _, _, _, _, _, tcl) = tcl in
|
|
tcl
|
|
) cl classes)) env loc :: trem,
|
|
List.flatten
|
|
(map_rec
|
|
(fun rs (i, _, d, i', d', i'', d'', _) ->
|
|
[Sig_class_type(i, d, rs);
|
|
Sig_type(i', d', rs);
|
|
Sig_type(i'', d'', rs)])
|
|
classes [rem]),
|
|
final_env
|
|
| Psig_attribute x ->
|
|
let (trem,rem, final_env) = transl_sig env srem in
|
|
mksig (Tsig_attribute x) env loc :: trem, rem, final_env
|
|
| Psig_extension ((s, _), _) ->
|
|
raise (Error (loc, env, Extension s))
|
|
in
|
|
let previous_saved_types = Cmt_format.get_saved_types () in
|
|
let (trem, rem, final_env) = transl_sig (Env.in_signature env) sg in
|
|
let sg = { sig_items = trem; sig_type = rem; sig_final_env = final_env } in
|
|
Cmt_format.set_saved_types
|
|
((Cmt_format.Partial_signature sg) :: previous_saved_types);
|
|
sg
|
|
|
|
and transl_modtype_info env sinfo =
|
|
match sinfo with
|
|
None ->
|
|
Tmodtype_abstract, Modtype_abstract
|
|
| Some smty ->
|
|
let tmty = transl_modtype env smty in
|
|
Tmodtype_manifest tmty, Modtype_manifest tmty.mty_type
|
|
|
|
and transl_recmodule_modtypes loc env sdecls =
|
|
let make_env curr =
|
|
List.fold_left
|
|
(fun env (id, _, mty) -> Env.add_module id mty env)
|
|
env curr in
|
|
let make_env2 curr =
|
|
List.fold_left
|
|
(fun env (id, _, mty) -> Env.add_module id mty.mty_type env)
|
|
env curr in
|
|
let transition env_c curr =
|
|
List.map2
|
|
(fun pmd (id, id_loc, mty) -> (id, id_loc, transl_modtype env_c pmd.pmd_type))
|
|
sdecls curr in
|
|
let init =
|
|
List.map
|
|
(fun pmd->
|
|
(Ident.create pmd.pmd_name.txt, pmd.pmd_name, approx_modtype env pmd.pmd_type))
|
|
sdecls in
|
|
let env0 = make_env init in
|
|
let dcl1 = transition env0 init in
|
|
let env1 = make_env2 dcl1 in
|
|
check_recmod_typedecls env1 sdecls dcl1;
|
|
let dcl2 = transition env1 dcl1 in
|
|
(*
|
|
List.iter
|
|
(fun (id, mty) ->
|
|
Format.printf "%a: %a@." Printtyp.ident id Printtyp.modtype mty)
|
|
dcl2;
|
|
*)
|
|
let env2 = make_env2 dcl2 in
|
|
check_recmod_typedecls env2 sdecls dcl2;
|
|
(dcl2, env2)
|
|
|
|
(* Try to convert a module expression to a module path. *)
|
|
|
|
exception Not_a_path
|
|
|
|
let rec path_of_module mexp =
|
|
match mexp.mod_desc with
|
|
Tmod_ident (p,_) -> p
|
|
| Tmod_apply(funct, arg, coercion) when !Clflags.applicative_functors ->
|
|
Papply(path_of_module funct, path_of_module arg)
|
|
| _ -> raise Not_a_path
|
|
|
|
(* Check that all core type schemes in a structure are closed *)
|
|
|
|
let rec closed_modtype = function
|
|
Mty_ident p -> true
|
|
| Mty_signature sg -> List.for_all closed_signature_item sg
|
|
| Mty_functor(id, param, body) -> closed_modtype body
|
|
|
|
and closed_signature_item = function
|
|
Sig_value(id, desc) -> Ctype.closed_schema desc.val_type
|
|
| Sig_module(id, mty, _) -> closed_modtype mty
|
|
| _ -> true
|
|
|
|
let check_nongen_scheme env str =
|
|
match str.str_desc with
|
|
Tstr_value(rec_flag, pat_exp_list) ->
|
|
List.iter
|
|
(fun (pat, exp) ->
|
|
if not (Ctype.closed_schema exp.exp_type) then
|
|
raise(Error(exp.exp_loc, env, Non_generalizable exp.exp_type)))
|
|
pat_exp_list
|
|
| Tstr_module(id, _, md) ->
|
|
if not (closed_modtype md.mod_type) then
|
|
raise(Error(md.mod_loc, env, Non_generalizable_module md.mod_type))
|
|
| _ -> ()
|
|
|
|
let check_nongen_schemes env str =
|
|
List.iter (check_nongen_scheme env) str
|
|
|
|
(* Extract the list of "value" identifiers bound by a signature.
|
|
"Value" identifiers are identifiers for signature components that
|
|
correspond to a run-time value: values, exceptions, modules, classes.
|
|
Note: manifest primitives do not correspond to a run-time value! *)
|
|
|
|
let rec bound_value_identifiers = function
|
|
[] -> []
|
|
| Sig_value(id, {val_kind = Val_reg}) :: rem ->
|
|
id :: bound_value_identifiers rem
|
|
| Sig_exception(id, decl) :: rem -> id :: bound_value_identifiers rem
|
|
| Sig_module(id, mty, _) :: rem -> id :: bound_value_identifiers rem
|
|
| Sig_class(id, decl, _) :: rem -> id :: bound_value_identifiers rem
|
|
| _ :: rem -> bound_value_identifiers rem
|
|
|
|
(* Helpers for typing recursive modules *)
|
|
|
|
let anchor_submodule name anchor =
|
|
match anchor with None -> None | Some p -> Some(Pdot(p, name, nopos))
|
|
let anchor_recmodule id anchor =
|
|
Some (Pident id)
|
|
|
|
let enrich_type_decls anchor decls oldenv newenv =
|
|
match anchor with
|
|
None -> newenv
|
|
| Some p ->
|
|
List.fold_left
|
|
(fun e (id, _, info) ->
|
|
let info' =
|
|
Mtype.enrich_typedecl oldenv (Pdot(p, Ident.name id, nopos))
|
|
info.typ_type
|
|
in
|
|
Env.add_type id info' e)
|
|
oldenv decls
|
|
|
|
let enrich_module_type anchor name mty env =
|
|
match anchor with
|
|
None -> mty
|
|
| Some p -> Mtype.enrich_modtype env (Pdot(p, name, nopos)) mty
|
|
|
|
let check_recmodule_inclusion env bindings =
|
|
(* PR#4450, PR#4470: consider
|
|
module rec X : DECL = MOD where MOD has inferred type ACTUAL
|
|
The "natural" typing condition
|
|
E, X: ACTUAL |- ACTUAL <: DECL
|
|
leads to circularities through manifest types.
|
|
Instead, we "unroll away" the potential circularities a finite number
|
|
of times. The (weaker) condition we implement is:
|
|
E, X: DECL,
|
|
X1: ACTUAL,
|
|
X2: ACTUAL{X <- X1}/X1
|
|
...
|
|
Xn: ACTUAL{X <- X(n-1)}/X(n-1)
|
|
|- ACTUAL{X <- Xn}/Xn <: DECL{X <- Xn}
|
|
so that manifest types rooted at X(n+1) are expanded in terms of X(n),
|
|
avoiding circularities. The strengthenings ensure that
|
|
Xn.t = X(n-1).t = ... = X2.t = X1.t.
|
|
N can be chosen arbitrarily; larger values of N result in more
|
|
recursive definitions being accepted. A good choice appears to be
|
|
the number of mutually recursive declarations. *)
|
|
|
|
let subst_and_strengthen env s id mty =
|
|
Mtype.strengthen env (Subst.modtype s mty)
|
|
(Subst.module_path s (Pident id)) in
|
|
|
|
let rec check_incl first_time n env s =
|
|
if n > 0 then begin
|
|
(* Generate fresh names Y_i for the rec. bound module idents X_i *)
|
|
let bindings1 =
|
|
List.map
|
|
(fun (id, _, mty_decl, modl, mty_actual) ->
|
|
(id, Ident.rename id, mty_actual))
|
|
bindings in
|
|
(* Enter the Y_i in the environment with their actual types substituted
|
|
by the input substitution s *)
|
|
let env' =
|
|
List.fold_left
|
|
(fun env (id, id', mty_actual) ->
|
|
let mty_actual' =
|
|
if first_time
|
|
then mty_actual
|
|
else subst_and_strengthen env s id mty_actual in
|
|
Env.add_module id' mty_actual' env)
|
|
env bindings1 in
|
|
(* Build the output substitution Y_i <- X_i *)
|
|
let s' =
|
|
List.fold_left
|
|
(fun s (id, id', mty_actual) ->
|
|
Subst.add_module id (Pident id') s)
|
|
Subst.identity bindings1 in
|
|
(* Recurse with env' and s' *)
|
|
check_incl false (n-1) env' s'
|
|
end else begin
|
|
(* Base case: check inclusion of s(mty_actual) in s(mty_decl)
|
|
and insert coercion if needed *)
|
|
let check_inclusion (id, id_loc, mty_decl, modl, mty_actual) =
|
|
let mty_decl' = Subst.modtype s mty_decl.mty_type
|
|
and mty_actual' = subst_and_strengthen env s id mty_actual in
|
|
let coercion =
|
|
try
|
|
Includemod.modtypes env mty_actual' mty_decl'
|
|
with Includemod.Error msg ->
|
|
raise(Error(modl.mod_loc, env, Not_included msg)) in
|
|
let modl' =
|
|
{ mod_desc = Tmod_constraint(modl, mty_decl.mty_type,
|
|
Tmodtype_explicit mty_decl, coercion);
|
|
mod_type = mty_decl.mty_type;
|
|
mod_env = env;
|
|
mod_loc = modl.mod_loc } in
|
|
(id, id_loc, mty_decl, modl') in
|
|
List.map check_inclusion bindings
|
|
end
|
|
in check_incl true (List.length bindings) env Subst.identity
|
|
|
|
(* Helper for unpack *)
|
|
|
|
let rec package_constraints env loc mty constrs =
|
|
if constrs = [] then mty
|
|
else let sg = extract_sig env loc mty in
|
|
let sg' =
|
|
List.map
|
|
(function
|
|
| Sig_type (id, ({type_params=[]} as td), rs)
|
|
when List.mem_assoc [Ident.name id] constrs ->
|
|
let ty = List.assoc [Ident.name id] constrs in
|
|
Sig_type (id, {td with type_manifest = Some ty}, rs)
|
|
| Sig_module (id, mty, rs) ->
|
|
let rec aux = function
|
|
| (m :: ((_ :: _) as l), t) :: rest when m = Ident.name id ->
|
|
(l, t) :: aux rest
|
|
| _ :: rest -> aux rest
|
|
| [] -> []
|
|
in
|
|
Sig_module (id, package_constraints env loc mty (aux constrs), rs)
|
|
| item -> item
|
|
)
|
|
sg
|
|
in
|
|
Mty_signature sg'
|
|
|
|
let modtype_of_package env loc p nl tl =
|
|
try match Env.find_modtype p env with
|
|
| Modtype_manifest mty when nl <> [] ->
|
|
package_constraints env loc mty
|
|
(List.combine (List.map Longident.flatten nl) tl)
|
|
| _ ->
|
|
if nl = [] then Mty_ident p
|
|
else raise(Error(loc, env, Signature_expected))
|
|
with Not_found ->
|
|
let error = Typetexp.Unbound_modtype (Ctype.lid_of_path p) in
|
|
raise(Typetexp.Error(loc, env, error))
|
|
|
|
let wrap_constraint env arg mty explicit =
|
|
let coercion =
|
|
try
|
|
Includemod.modtypes env arg.mod_type mty
|
|
with Includemod.Error msg ->
|
|
raise(Error(arg.mod_loc, env, Not_included msg)) in
|
|
{ mod_desc = Tmod_constraint(arg, mty, explicit, coercion);
|
|
mod_type = mty;
|
|
mod_env = env;
|
|
mod_loc = arg.mod_loc }
|
|
|
|
(* Type a module value expression *)
|
|
|
|
let rec type_module sttn funct_body anchor env smod =
|
|
match smod.pmod_desc with
|
|
Pmod_ident lid ->
|
|
let (path, mty) = Typetexp.find_module env smod.pmod_loc lid.txt in
|
|
rm { mod_desc = Tmod_ident (path, lid);
|
|
mod_type = if sttn then Mtype.strengthen env mty path else mty;
|
|
mod_env = env;
|
|
mod_loc = smod.pmod_loc }
|
|
| Pmod_structure sstr ->
|
|
let (str, sg, finalenv) =
|
|
type_structure funct_body anchor env sstr smod.pmod_loc in
|
|
rm { mod_desc = Tmod_structure str;
|
|
mod_type = Mty_signature sg;
|
|
mod_env = env;
|
|
mod_loc = smod.pmod_loc }
|
|
| Pmod_functor(name, smty, sbody) ->
|
|
let mty = transl_modtype env smty in
|
|
let (id, newenv) = Env.enter_module name.txt mty.mty_type env in
|
|
let body = type_module sttn true None newenv sbody in
|
|
rm { mod_desc = Tmod_functor(id, name, mty, body);
|
|
mod_type = Mty_functor(id, mty.mty_type, body.mod_type);
|
|
mod_env = env;
|
|
mod_loc = smod.pmod_loc }
|
|
| Pmod_apply(sfunct, sarg) ->
|
|
let arg = type_module true funct_body None env sarg in
|
|
let path = try Some (path_of_module arg) with Not_a_path -> None in
|
|
let funct =
|
|
type_module (sttn && path <> None) funct_body None env sfunct in
|
|
begin match Mtype.scrape env funct.mod_type with
|
|
Mty_functor(param, mty_param, mty_res) as mty_functor ->
|
|
let coercion =
|
|
try
|
|
Includemod.modtypes env arg.mod_type mty_param
|
|
with Includemod.Error msg ->
|
|
raise(Error(sarg.pmod_loc, env, Not_included msg)) in
|
|
let mty_appl =
|
|
match path with
|
|
Some path ->
|
|
Subst.modtype (Subst.add_module param path Subst.identity)
|
|
mty_res
|
|
| None ->
|
|
try
|
|
Mtype.nondep_supertype
|
|
(Env.add_module param arg.mod_type env) param mty_res
|
|
with Not_found ->
|
|
raise(Error(smod.pmod_loc, env,
|
|
Cannot_eliminate_dependency mty_functor))
|
|
in
|
|
rm { mod_desc = Tmod_apply(funct, arg, coercion);
|
|
mod_type = mty_appl;
|
|
mod_env = env;
|
|
mod_loc = smod.pmod_loc }
|
|
| _ ->
|
|
raise(Error(sfunct.pmod_loc, env, Cannot_apply funct.mod_type))
|
|
end
|
|
| Pmod_constraint(sarg, smty) ->
|
|
let arg = type_module true funct_body anchor env sarg in
|
|
let mty = transl_modtype env smty in
|
|
rm {(wrap_constraint env arg mty.mty_type (Tmodtype_explicit mty)) with
|
|
mod_loc = smod.pmod_loc}
|
|
|
|
| Pmod_unpack sexp ->
|
|
if funct_body then
|
|
raise (Error (smod.pmod_loc, env, Not_allowed_in_functor_body));
|
|
if !Clflags.principal then Ctype.begin_def ();
|
|
let exp = Typecore.type_exp env sexp in
|
|
if !Clflags.principal then begin
|
|
Ctype.end_def ();
|
|
Ctype.generalize_structure exp.exp_type
|
|
end;
|
|
let mty =
|
|
match Ctype.expand_head env exp.exp_type with
|
|
{desc = Tpackage (p, nl, tl)} ->
|
|
if List.exists (fun t -> Ctype.free_variables t <> []) tl then
|
|
raise (Error (smod.pmod_loc, env,
|
|
Incomplete_packed_module exp.exp_type));
|
|
if !Clflags.principal &&
|
|
not (Typecore.generalizable (Btype.generic_level-1) exp.exp_type)
|
|
then
|
|
Location.prerr_warning smod.pmod_loc
|
|
(Warnings.Not_principal "this module unpacking");
|
|
modtype_of_package env smod.pmod_loc p nl tl
|
|
| {desc = Tvar _} ->
|
|
raise (Typecore.Error
|
|
(smod.pmod_loc, env, Typecore.Cannot_infer_signature))
|
|
| _ ->
|
|
raise (Error(smod.pmod_loc, env, Not_a_packed_module exp.exp_type))
|
|
in
|
|
rm { mod_desc = Tmod_unpack(exp, mty);
|
|
mod_type = mty;
|
|
mod_env = env;
|
|
mod_loc = smod.pmod_loc }
|
|
| Pmod_extension (s, _arg) ->
|
|
raise (Error (smod.pmod_loc, env, Extension s))
|
|
|
|
and type_structure ?(toplevel = false) funct_body anchor env sstr scope =
|
|
let type_names = ref StringSet.empty
|
|
and module_names = ref StringSet.empty
|
|
and modtype_names = ref StringSet.empty in
|
|
let rec type_struct env sstr =
|
|
let previous_saved_types = Cmt_format.get_saved_types () in
|
|
Ctype.init_def(Ident.current_time());
|
|
match sstr with
|
|
[] ->
|
|
([], [], env)
|
|
| pstr :: srem ->
|
|
let loc = pstr.pstr_loc in
|
|
let mk desc =
|
|
let str = { str_desc = desc; str_loc = loc; str_env = env } in
|
|
Cmt_format.set_saved_types (Cmt_format.Partial_structure_item str :: previous_saved_types);
|
|
str
|
|
in
|
|
match pstr.pstr_desc with
|
|
| Pstr_eval sexpr ->
|
|
let expr = Typecore.type_expression env sexpr in
|
|
let item = mk (Tstr_eval expr) in
|
|
let (str_rem, sig_rem, final_env) = type_struct env srem in
|
|
(item :: str_rem, sig_rem, final_env)
|
|
| Pstr_value(rec_flag, sdefs) ->
|
|
let scope =
|
|
match rec_flag with
|
|
| Recursive -> Some (Annot.Idef {scope with
|
|
Location.loc_start = loc.Location.loc_start})
|
|
| Nonrecursive ->
|
|
let start = match srem with
|
|
| [] -> loc.Location.loc_end
|
|
| {pstr_loc = loc2} :: _ -> loc2.Location.loc_start
|
|
in Some (Annot.Idef {scope with Location.loc_start = start})
|
|
| Default -> None
|
|
in
|
|
let (defs, newenv) =
|
|
Typecore.type_binding env rec_flag sdefs scope in
|
|
let item = mk (Tstr_value(rec_flag, defs)) in
|
|
let (str_rem, sig_rem, final_env) = type_struct newenv srem in
|
|
let bound_idents = let_bound_idents defs in
|
|
(* Note: Env.find_value does not trigger the value_used event. Values
|
|
will be marked as being used during the signature inclusion test. *)
|
|
let make_sig_value id =
|
|
Sig_value(id, Env.find_value (Pident id) newenv) in
|
|
(item :: str_rem,
|
|
map_end make_sig_value bound_idents sig_rem,
|
|
final_env)
|
|
| Pstr_primitive sdesc ->
|
|
let desc = Typedecl.transl_value_decl env loc sdesc in
|
|
let (id, newenv) = Env.enter_value sdesc.pval_name.txt desc.val_val env
|
|
~check:(fun s -> Warnings.Unused_value_declaration s) in
|
|
let item = mk (Tstr_primitive(id, sdesc.pval_name, desc)) in
|
|
let (str_rem, sig_rem, final_env) = type_struct newenv srem in
|
|
(item :: str_rem, Sig_value(id, desc.val_val) :: sig_rem, final_env)
|
|
| Pstr_type sdecls ->
|
|
List.iter
|
|
(fun decl -> check "type" loc type_names decl.ptype_name.txt)
|
|
sdecls;
|
|
let (decls, newenv) = Typedecl.transl_type_decl env sdecls in
|
|
let item = mk (Tstr_type decls) in
|
|
let newenv' =
|
|
enrich_type_decls anchor decls env newenv in
|
|
let (str_rem, sig_rem, final_env) = type_struct newenv' srem in
|
|
(item :: str_rem,
|
|
map_rec'' (fun rs (id, _, info) -> Sig_type(id, info.typ_type, rs))
|
|
decls sig_rem,
|
|
final_env)
|
|
| Pstr_exception sarg ->
|
|
let arg = Typedecl.transl_exception env sarg in
|
|
let (id, newenv) = Env.enter_exception sarg.pcd_name.txt arg.exn_exn env in
|
|
let item = mk (Tstr_exception(id, sarg.pcd_name, arg)) in
|
|
let (str_rem, sig_rem, final_env) = type_struct newenv srem in
|
|
(item :: str_rem,
|
|
Sig_exception(id, arg.exn_exn) :: sig_rem,
|
|
final_env)
|
|
| Pstr_exn_rebind(name, longid, attrs) ->
|
|
let (path, arg) = Typedecl.transl_exn_rebind env loc longid.txt in
|
|
let (id, newenv) = Env.enter_exception name.txt arg env in
|
|
let item = mk (Tstr_exn_rebind(id, name, path, longid, attrs)) in
|
|
let (str_rem, sig_rem, final_env) = type_struct newenv srem in
|
|
(item :: str_rem,
|
|
Sig_exception(id, arg) :: sig_rem,
|
|
final_env)
|
|
| Pstr_module {pmb_name = name; pmb_expr = smodl; pmb_attributes = _} ->
|
|
check "module" loc module_names name.txt;
|
|
let modl =
|
|
type_module true funct_body (anchor_submodule name.txt anchor) env
|
|
smodl in
|
|
let mty = enrich_module_type anchor name.txt modl.mod_type env in
|
|
let (id, newenv) = Env.enter_module name.txt mty env in
|
|
let item = mk (Tstr_module(id, name, modl)) in
|
|
let (str_rem, sig_rem, final_env) = type_struct newenv srem in
|
|
(item :: str_rem,
|
|
Sig_module(id, modl.mod_type, Trec_not) :: sig_rem,
|
|
final_env)
|
|
| Pstr_recmodule sbind ->
|
|
let sbind =
|
|
List.map
|
|
(function
|
|
| {pmb_name = name; pmb_expr = {pmod_desc=Pmod_constraint(expr, typ)}; pmb_attributes = _} ->
|
|
name, typ, expr
|
|
| mb ->
|
|
raise (Error (mb.pmb_expr.pmod_loc, env, Recursive_module_require_explicit_type))
|
|
)
|
|
sbind
|
|
in
|
|
List.iter
|
|
(fun (name, _, _) -> check "module" loc module_names name.txt)
|
|
sbind;
|
|
let (decls, newenv) =
|
|
transl_recmodule_modtypes loc env
|
|
(List.map (fun (name, smty, smodl) -> {pmd_name=name; pmd_type=smty; pmd_attributes=[]}) sbind) in
|
|
let bindings1 =
|
|
List.map2
|
|
(fun (id, _, mty) (name, _, smodl) ->
|
|
let modl =
|
|
type_module true funct_body (anchor_recmodule id anchor) newenv
|
|
smodl in
|
|
let mty' =
|
|
enrich_module_type anchor (Ident.name id) modl.mod_type newenv
|
|
in
|
|
(id, name, mty, modl, mty'))
|
|
decls sbind in
|
|
let bindings2 =
|
|
check_recmodule_inclusion newenv bindings1 in
|
|
let item = mk (Tstr_recmodule bindings2) in
|
|
let (str_rem, sig_rem, final_env) = type_struct newenv srem in
|
|
(item :: str_rem,
|
|
map_rec (fun rs (id, _, _, modl) -> Sig_module(id, modl.mod_type, rs))
|
|
bindings2 sig_rem,
|
|
final_env)
|
|
| Pstr_modtype{pmtb_name=name; pmtb_type=smty} ->
|
|
check "module type" loc modtype_names name.txt;
|
|
let mty = transl_modtype env smty in
|
|
let (id, newenv) =
|
|
Env.enter_modtype name.txt (Modtype_manifest mty.mty_type) env in
|
|
let item = mk (Tstr_modtype(id, name, mty)) in
|
|
let (str_rem, sig_rem, final_env) = type_struct newenv srem in
|
|
(item :: str_rem,
|
|
Sig_modtype(id, Modtype_manifest mty.mty_type) :: sig_rem,
|
|
final_env)
|
|
| Pstr_open (lid, attrs) ->
|
|
let (path, newenv) = type_open ~toplevel env loc lid in
|
|
let item = mk (Tstr_open (path, lid, attrs)) in
|
|
let (str_rem, sig_rem, final_env) = type_struct newenv srem in
|
|
(item :: str_rem, sig_rem, final_env)
|
|
| Pstr_class cl ->
|
|
List.iter
|
|
(fun {pci_name = name} -> check "type" loc type_names name.txt)
|
|
cl;
|
|
let (classes, new_env) = Typeclass.class_declarations env cl in
|
|
let item =
|
|
mk
|
|
(Tstr_class
|
|
(List.map (fun (i, _, d, _,_,_,_,_,_, s, m, c) ->
|
|
let vf = if d.cty_new = None then Virtual else Concrete in
|
|
(* (i, s, m, c, vf) *) (c, m, vf)) classes))
|
|
(* TODO: check with Jacques why this is here
|
|
Tstr_class_type
|
|
(List.map (fun (_,_, i, d, _,_,_,_,_,_,c) -> (i, c)) classes) ::
|
|
Tstr_type
|
|
(List.map (fun (_,_,_,_, i, d, _,_,_,_,_) -> (i, d)) classes) ::
|
|
Tstr_type
|
|
(List.map (fun (_,_,_,_,_,_, i, d, _,_,_) -> (i, d)) classes) ::
|
|
*)
|
|
in
|
|
let (str_rem, sig_rem, final_env) = type_struct new_env srem in
|
|
(item :: str_rem,
|
|
List.flatten
|
|
(map_rec
|
|
(fun rs (i, _, d, i', d', i'', d'', i''', d''', _, _, _) ->
|
|
[Sig_class(i, d, rs);
|
|
Sig_class_type(i', d', rs);
|
|
Sig_type(i'', d'', rs);
|
|
Sig_type(i''', d''', rs)])
|
|
classes [sig_rem]),
|
|
final_env)
|
|
| Pstr_class_type cl ->
|
|
List.iter
|
|
(fun {pci_name = name} -> check "type" loc type_names name.txt)
|
|
cl;
|
|
let (classes, new_env) = Typeclass.class_type_declarations env cl in
|
|
let item =
|
|
mk
|
|
(Tstr_class_type
|
|
(List.map (fun (i, i_loc, d, _, _, _, _, c) ->
|
|
(i, i_loc, c)) classes))
|
|
(* TODO: check with Jacques why this is here
|
|
Tstr_type
|
|
(List.map (fun (_, _, i, d, _, _) -> (i, d)) classes) ::
|
|
Tstr_type
|
|
(List.map (fun (_, _, _, _, i, d) -> (i, d)) classes) :: *)
|
|
in
|
|
let (str_rem, sig_rem, final_env) = type_struct new_env srem in
|
|
(item :: str_rem,
|
|
List.flatten
|
|
(map_rec
|
|
(fun rs (i, _, d, i', d', i'', d'', _) ->
|
|
[Sig_class_type(i, d, rs);
|
|
Sig_type(i', d', rs);
|
|
Sig_type(i'', d'', rs)])
|
|
classes [sig_rem]),
|
|
final_env)
|
|
| Pstr_include (smodl, attrs) ->
|
|
let modl = type_module true funct_body None env smodl in
|
|
(* Rename all identifiers bound by this signature to avoid clashes *)
|
|
let sg = Subst.signature Subst.identity
|
|
(extract_sig_open env smodl.pmod_loc modl.mod_type) in
|
|
List.iter
|
|
(check_sig_item type_names module_names modtype_names loc) sg;
|
|
let new_env = Env.add_signature sg env in
|
|
let item = mk (Tstr_include (modl, bound_value_identifiers sg, attrs)) in
|
|
let (str_rem, sig_rem, final_env) = type_struct new_env srem in
|
|
(item :: str_rem,
|
|
sg @ sig_rem,
|
|
final_env)
|
|
| Pstr_extension ((s, _), _) ->
|
|
raise (Error (loc, env, Extension s))
|
|
| Pstr_attribute x ->
|
|
let (str_rem, sig_rem, final_env) = type_struct env srem in
|
|
mk (Tstr_attribute x) :: str_rem, sig_rem, final_env
|
|
in
|
|
if !Clflags.annotations then
|
|
(* moved to genannot *)
|
|
List.iter (function {pstr_loc = l} -> Stypes.record_phrase l) sstr;
|
|
let previous_saved_types = Cmt_format.get_saved_types () in
|
|
let (items, sg, final_env) = type_struct env sstr in
|
|
let str = { str_items = items; str_type = sg; str_final_env = final_env } in
|
|
Cmt_format.set_saved_types
|
|
(Cmt_format.Partial_structure str :: previous_saved_types);
|
|
str, sg, final_env
|
|
|
|
let type_toplevel_phrase env s = type_structure ~toplevel:true false None env s Location.none
|
|
let type_module = type_module true false None
|
|
let type_structure = type_structure false None
|
|
|
|
(* Normalize types in a signature *)
|
|
|
|
let rec normalize_modtype env = function
|
|
Mty_ident p -> ()
|
|
| Mty_signature sg -> normalize_signature env sg
|
|
| Mty_functor(id, param, body) -> normalize_modtype env body
|
|
|
|
and normalize_signature env = List.iter (normalize_signature_item env)
|
|
|
|
and normalize_signature_item env = function
|
|
Sig_value(id, desc) -> Ctype.normalize_type env desc.val_type
|
|
| Sig_module(id, mty, _) -> normalize_modtype env mty
|
|
| _ -> ()
|
|
|
|
(* Simplify multiple specifications of a value or an exception in a signature.
|
|
(Other signature components, e.g. types, modules, etc, are checked for
|
|
name uniqueness.) If multiple specifications with the same name,
|
|
keep only the last (rightmost) one. *)
|
|
|
|
let rec simplify_modtype mty =
|
|
match mty with
|
|
Mty_ident path -> mty
|
|
| Mty_functor(id, arg, res) -> Mty_functor(id, arg, simplify_modtype res)
|
|
| Mty_signature sg -> Mty_signature(simplify_signature sg)
|
|
|
|
and simplify_signature sg =
|
|
let rec simplif val_names exn_names res = function
|
|
[] -> res
|
|
| (Sig_value(id, descr) as component) :: sg ->
|
|
let name = Ident.name id in
|
|
simplif (StringSet.add name val_names) exn_names
|
|
(if StringSet.mem name val_names then res else component :: res)
|
|
sg
|
|
| (Sig_exception(id, decl) as component) :: sg ->
|
|
let name = Ident.name id in
|
|
simplif val_names (StringSet.add name exn_names)
|
|
(if StringSet.mem name exn_names then res else component :: res)
|
|
sg
|
|
| Sig_module(id, mty, rs) :: sg ->
|
|
simplif val_names exn_names
|
|
(Sig_module(id, simplify_modtype mty, rs) :: res) sg
|
|
| component :: sg ->
|
|
simplif val_names exn_names (component :: res) sg
|
|
in
|
|
simplif StringSet.empty StringSet.empty [] (List.rev sg)
|
|
|
|
(* Extract the module type of a module expression *)
|
|
|
|
let type_module_type_of env smod =
|
|
let tmty =
|
|
match smod.pmod_desc with
|
|
| Pmod_ident lid -> (* turn off strengthening in this case *)
|
|
let (path, mty) = Typetexp.find_module env smod.pmod_loc lid.txt in
|
|
rm { mod_desc = Tmod_ident (path, lid);
|
|
mod_type = mty;
|
|
mod_env = env;
|
|
mod_loc = smod.pmod_loc }
|
|
| _ -> type_module env smod in
|
|
let mty = tmty.mod_type in
|
|
(* PR#5037: clean up inferred signature to remove duplicate specs *)
|
|
let mty = simplify_modtype mty in
|
|
(* PR#5036: must not contain non-generalized type variables *)
|
|
if not (closed_modtype mty) then
|
|
raise(Error(smod.pmod_loc, env, Non_generalizable_module mty));
|
|
tmty, mty
|
|
|
|
(* For Typecore *)
|
|
|
|
let rec get_manifest_types = function
|
|
[] -> []
|
|
| Sig_type (id, {type_params=[]; type_manifest=Some ty}, _) :: rem ->
|
|
(Ident.name id, ty) :: get_manifest_types rem
|
|
| _ :: rem -> get_manifest_types rem
|
|
|
|
let type_package env m p nl tl =
|
|
(* Same as Pexp_letmodule *)
|
|
(* remember original level *)
|
|
let lv = Ctype.get_current_level () in
|
|
Ctype.begin_def ();
|
|
Ident.set_current_time lv;
|
|
let context = Typetexp.narrow () in
|
|
let modl = type_module env m in
|
|
Ctype.init_def(Ident.current_time());
|
|
Typetexp.widen context;
|
|
let (mp, env) =
|
|
match modl.mod_desc with
|
|
Tmod_ident (mp,_) -> (mp, env)
|
|
| _ ->
|
|
let (id, new_env) = Env.enter_module "%M" modl.mod_type env in
|
|
(Pident id, new_env)
|
|
in
|
|
let rec mkpath mp = function
|
|
| Lident name -> Pdot(mp, name, nopos)
|
|
| Ldot (m, name) -> Pdot(mkpath mp m, name, nopos)
|
|
| _ -> assert false
|
|
in
|
|
let tl' =
|
|
List.map (fun name -> Ctype.newconstr (mkpath mp name) []) nl in
|
|
(* go back to original level *)
|
|
Ctype.end_def ();
|
|
if nl = [] then
|
|
(wrap_constraint env modl (Mty_ident p) Tmodtype_implicit, [])
|
|
else let mty = modtype_of_package env modl.mod_loc p nl tl' in
|
|
List.iter2
|
|
(fun n ty ->
|
|
try Ctype.unify env ty (Ctype.newvar ())
|
|
with Ctype.Unify _ ->
|
|
raise (Error(m.pmod_loc, env, Scoping_pack (n,ty))))
|
|
nl tl';
|
|
(wrap_constraint env modl mty Tmodtype_implicit, tl')
|
|
|
|
(* Fill in the forward declarations *)
|
|
let () =
|
|
Typecore.type_module := type_module;
|
|
Typetexp.transl_modtype_longident := transl_modtype_longident;
|
|
Typetexp.transl_modtype := transl_modtype;
|
|
Typecore.type_open := type_open;
|
|
Typecore.type_package := type_package;
|
|
type_module_type_of_fwd := type_module_type_of
|
|
|
|
(* Typecheck an implementation file *)
|
|
|
|
let type_implementation sourcefile outputprefix modulename initial_env ast =
|
|
Cmt_format.set_saved_types [];
|
|
try
|
|
Typecore.reset_delayed_checks ();
|
|
let (str, sg, finalenv) =
|
|
type_structure initial_env ast (Location.in_file sourcefile) in
|
|
let simple_sg = simplify_signature sg in
|
|
if !Clflags.print_types then begin
|
|
Printtyp.wrap_printing_env initial_env
|
|
(fun () -> fprintf std_formatter "%a@." Printtyp.signature simple_sg);
|
|
(str, Tcoerce_none) (* result is ignored by Compile.implementation *)
|
|
end else begin
|
|
let sourceintf =
|
|
Misc.chop_extension_if_any sourcefile ^ !Config.interface_suffix in
|
|
if Sys.file_exists sourceintf then begin
|
|
let intf_file =
|
|
try
|
|
find_in_path_uncap !Config.load_path (modulename ^ ".cmi")
|
|
with Not_found ->
|
|
raise(Error(Location.in_file sourcefile, Env.empty,
|
|
Interface_not_compiled sourceintf)) in
|
|
let dclsig = Env.read_signature modulename intf_file in
|
|
let coercion = Includemod.compunit sourcefile sg intf_file dclsig in
|
|
Typecore.force_delayed_checks ();
|
|
(* It is important to run these checks after the inclusion test above,
|
|
so that value declarations which are not used internally but exported
|
|
are not reported as being unused. *)
|
|
Cmt_format.save_cmt (outputprefix ^ ".cmt") modulename
|
|
(Cmt_format.Implementation str) (Some sourcefile) initial_env None;
|
|
(str, coercion)
|
|
end else begin
|
|
check_nongen_schemes finalenv str.str_items;
|
|
normalize_signature finalenv simple_sg;
|
|
let coercion =
|
|
Includemod.compunit sourcefile sg
|
|
"(inferred signature)" simple_sg in
|
|
Typecore.force_delayed_checks ();
|
|
(* See comment above. Here the target signature contains all
|
|
the value being exported. We can still capture unused
|
|
declarations like "let x = true;; let x = 1;;", because in this
|
|
case, the inferred signature contains only the last declaration. *)
|
|
if not !Clflags.dont_write_files then begin
|
|
let sg =
|
|
Env.save_signature simple_sg modulename (outputprefix ^ ".cmi") in
|
|
Cmt_format.save_cmt (outputprefix ^ ".cmt") modulename
|
|
(Cmt_format.Implementation str)
|
|
(Some sourcefile) initial_env (Some sg);
|
|
end;
|
|
(str, coercion)
|
|
end
|
|
end
|
|
with e ->
|
|
Cmt_format.save_cmt (outputprefix ^ ".cmt") modulename
|
|
(Cmt_format.Partial_implementation
|
|
(Array.of_list (Cmt_format.get_saved_types ())))
|
|
(Some sourcefile) initial_env None;
|
|
raise e
|
|
|
|
|
|
let save_signature modname tsg outputprefix source_file initial_env cmi =
|
|
Cmt_format.save_cmt (outputprefix ^ ".cmti") modname
|
|
(Cmt_format.Interface tsg) (Some source_file) initial_env (Some cmi)
|
|
|
|
(* "Packaging" of several compilation units into one unit
|
|
having them as sub-modules. *)
|
|
|
|
let rec package_signatures subst = function
|
|
[] -> []
|
|
| (name, sg) :: rem ->
|
|
let sg' = Subst.signature subst sg in
|
|
let oldid = Ident.create_persistent name
|
|
and newid = Ident.create name in
|
|
Sig_module(newid, Mty_signature sg', Trec_not) ::
|
|
package_signatures (Subst.add_module oldid (Pident newid) subst) rem
|
|
|
|
let package_units objfiles cmifile modulename =
|
|
(* Read the signatures of the units *)
|
|
let units =
|
|
List.map
|
|
(fun f ->
|
|
let pref = chop_extensions f in
|
|
let modname = String.capitalize(Filename.basename pref) in
|
|
let sg = Env.read_signature modname (pref ^ ".cmi") in
|
|
if Filename.check_suffix f ".cmi" &&
|
|
not(Mtype.no_code_needed_sig Env.initial sg)
|
|
then raise(Error(Location.none, Env.empty,
|
|
Implementation_is_required f));
|
|
(modname, Env.read_signature modname (pref ^ ".cmi")))
|
|
objfiles in
|
|
(* Compute signature of packaged unit *)
|
|
Ident.reinit();
|
|
let sg = package_signatures Subst.identity units in
|
|
(* See if explicit interface is provided *)
|
|
let prefix = chop_extension_if_any cmifile in
|
|
let mlifile = prefix ^ !Config.interface_suffix in
|
|
if Sys.file_exists mlifile then begin
|
|
if not (Sys.file_exists cmifile) then begin
|
|
raise(Error(Location.in_file mlifile, Env.empty,
|
|
Interface_not_compiled mlifile))
|
|
end;
|
|
let dclsig = Env.read_signature modulename cmifile in
|
|
Cmt_format.save_cmt (prefix ^ ".cmt") modulename
|
|
(Cmt_format.Packed (sg, objfiles)) None Env.initial None ;
|
|
Includemod.compunit "(obtained by packing)" sg mlifile dclsig
|
|
end else begin
|
|
(* Determine imports *)
|
|
let unit_names = List.map fst units in
|
|
let imports =
|
|
List.filter
|
|
(fun (name, crc) -> not (List.mem name unit_names))
|
|
(Env.imported_units()) in
|
|
(* Write packaged signature *)
|
|
if not !Clflags.dont_write_files then begin
|
|
let sg =
|
|
Env.save_signature_with_imports sg modulename
|
|
(prefix ^ ".cmi") imports in
|
|
Cmt_format.save_cmt (prefix ^ ".cmt") modulename
|
|
(Cmt_format.Packed (sg, objfiles)) None Env.initial (Some sg)
|
|
end;
|
|
Tcoerce_none
|
|
end
|
|
|
|
(* Error report *)
|
|
|
|
open Printtyp
|
|
|
|
let report_error ppf = function
|
|
Cannot_apply mty ->
|
|
fprintf ppf
|
|
"@[This module is not a functor; it has type@ %a@]" modtype mty
|
|
| Not_included errs ->
|
|
fprintf ppf
|
|
"@[<v>Signature mismatch:@ %a@]" Includemod.report_error errs
|
|
| Cannot_eliminate_dependency mty ->
|
|
fprintf ppf
|
|
"@[This functor has type@ %a@ \
|
|
The parameter cannot be eliminated in the result type.@ \
|
|
Please bind the argument to a module identifier.@]" modtype mty
|
|
| Signature_expected -> fprintf ppf "This module type is not a signature"
|
|
| Structure_expected mty ->
|
|
fprintf ppf
|
|
"@[This module is not a structure; it has type@ %a" modtype mty
|
|
| With_no_component lid ->
|
|
fprintf ppf
|
|
"@[The signature constrained by `with' has no component named %a@]"
|
|
longident lid
|
|
| With_mismatch(lid, explanation) ->
|
|
fprintf ppf
|
|
"@[<v>\
|
|
@[In this `with' constraint, the new definition of %a@ \
|
|
does not match its original definition@ \
|
|
in the constrained signature:@]@ \
|
|
%a@]"
|
|
longident lid Includemod.report_error explanation
|
|
| Repeated_name(kind, name) ->
|
|
fprintf ppf
|
|
"@[Multiple definition of the %s name %s.@ \
|
|
Names must be unique in a given structure or signature.@]" kind name
|
|
| Non_generalizable typ ->
|
|
fprintf ppf
|
|
"@[The type of this expression,@ %a,@ \
|
|
contains type variables that cannot be generalized@]" type_scheme typ
|
|
| Non_generalizable_class (id, desc) ->
|
|
fprintf ppf
|
|
"@[The type of this class,@ %a,@ \
|
|
contains type variables that cannot be generalized@]"
|
|
(class_declaration id) desc
|
|
| Non_generalizable_module mty ->
|
|
fprintf ppf
|
|
"@[The type of this module,@ %a,@ \
|
|
contains type variables that cannot be generalized@]" modtype mty
|
|
| Implementation_is_required intf_name ->
|
|
fprintf ppf
|
|
"@[The interface %a@ declares values, not just types.@ \
|
|
An implementation must be provided.@]"
|
|
Location.print_filename intf_name
|
|
| Interface_not_compiled intf_name ->
|
|
fprintf ppf
|
|
"@[Could not find the .cmi file for interface@ %a.@]"
|
|
Location.print_filename intf_name
|
|
| Not_allowed_in_functor_body ->
|
|
fprintf ppf
|
|
"This kind of expression is not allowed within the body of a functor."
|
|
| With_need_typeconstr ->
|
|
fprintf ppf
|
|
"Only type constructors with identical parameters can be substituted."
|
|
| Not_a_packed_module ty ->
|
|
fprintf ppf
|
|
"This expression is not a packed module. It has type@ %a"
|
|
type_expr ty
|
|
| Incomplete_packed_module ty ->
|
|
fprintf ppf
|
|
"The type of this packed module contains variables:@ %a"
|
|
type_expr ty
|
|
| Scoping_pack (lid, ty) ->
|
|
fprintf ppf
|
|
"The type %a in this module cannot be exported.@ " longident lid;
|
|
fprintf ppf
|
|
"Its type contains local dependencies:@ %a" type_expr ty
|
|
| Extension s ->
|
|
fprintf ppf "Uninterpreted extension '%s'." s
|
|
| Recursive_module_require_explicit_type ->
|
|
fprintf ppf "Recursive modules require an explicit module type."
|
|
|
|
let report_error env ppf err =
|
|
Printtyp.wrap_printing_env env (fun () -> report_error ppf err)
|