1848 lines
59 KiB
OCaml
1848 lines
59 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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(* Environment handling *)
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open Cmi_format
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open Config
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open Misc
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open Asttypes
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open Longident
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open Path
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open Types
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open Btype
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let add_delayed_check_forward = ref (fun _ -> assert false)
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let value_declarations : ((string * Location.t), (unit -> unit)) Hashtbl.t =
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Hashtbl.create 16
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(* This table is used to usage of value declarations. A declaration is
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identified with its name and location. The callback attached to a
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declaration is called whenever the value is used explicitly
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(lookup_value) or implicitly (inclusion test between signatures,
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cf Includemod.value_descriptions). *)
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let type_declarations = Hashtbl.create 16
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type constructor_usage = Positive | Pattern | Privatize
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type constructor_usages =
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{
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mutable cu_positive: bool;
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mutable cu_pattern: bool;
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mutable cu_privatize: bool;
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}
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let add_constructor_usage cu = function
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| Positive -> cu.cu_positive <- true
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| Pattern -> cu.cu_pattern <- true
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| Privatize -> cu.cu_privatize <- true
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let constructor_usages () =
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{cu_positive = false; cu_pattern = false; cu_privatize = false}
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let used_constructors :
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(string * Location.t * string, (constructor_usage -> unit)) Hashtbl.t
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= Hashtbl.create 16
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let prefixed_sg = Hashtbl.create 113
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type error =
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| Illegal_renaming of string * string * string
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| Inconsistent_import of string * string * string
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| Need_recursive_types of string * string
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| Missing_module of Location.t * Path.t * Path.t
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exception Error of error
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let error err = raise (Error err)
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module EnvLazy : sig
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type ('a,'b) t
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val force : ('a -> 'b) -> ('a,'b) t -> 'b
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val create : 'a -> ('a,'b) t
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val is_val : ('a,'b) t -> bool
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end = struct
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type ('a,'b) t = ('a,'b) eval ref
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and ('a,'b) eval =
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Done of 'b
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| Raise of exn
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| Thunk of 'a
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let force f x =
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match !x with
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Done x -> x
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| Raise e -> raise e
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| Thunk e ->
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try
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let y = f e in
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x := Done y;
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y
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with e ->
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x := Raise e;
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raise e
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let is_val x =
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match !x with Done _ -> true | _ -> false
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let create x =
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let x = ref (Thunk x) in
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x
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end
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type summary =
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Env_empty
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| Env_value of summary * Ident.t * value_description
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| Env_type of summary * Ident.t * type_declaration
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| Env_extension of summary * Ident.t * extension_constructor
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| Env_module of summary * Ident.t * module_declaration
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| Env_modtype of summary * Ident.t * modtype_declaration
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| Env_class of summary * Ident.t * class_declaration
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| Env_cltype of summary * Ident.t * class_type_declaration
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| Env_open of summary * Path.t
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| Env_functor_arg of summary * Ident.t
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module EnvTbl =
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struct
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(* A table indexed by identifier, with an extra slot to record usage. *)
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type 'a t = ('a * (unit -> unit)) Ident.tbl
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let empty = Ident.empty
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let nothing = fun () -> ()
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let already_defined s tbl =
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try ignore (Ident.find_name s tbl); true
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with Not_found -> false
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let add kind slot id x tbl ref_tbl =
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let slot =
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match slot with
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| None -> nothing
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| Some f ->
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(fun () ->
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let s = Ident.name id in
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f kind s (already_defined s ref_tbl)
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)
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in
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Ident.add id (x, slot) tbl
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let add_dont_track id x tbl =
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Ident.add id (x, nothing) tbl
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let find_same_not_using id tbl =
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fst (Ident.find_same id tbl)
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let find_same id tbl =
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let (x, slot) = Ident.find_same id tbl in
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slot ();
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x
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let find_name s tbl =
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let (x, slot) = Ident.find_name s tbl in
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slot ();
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x
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let find_all s tbl =
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Ident.find_all s tbl
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let fold_name f = Ident.fold_name (fun k (d,_) -> f k d)
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let keys tbl = Ident.fold_all (fun k _ accu -> k::accu) tbl []
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end
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type type_descriptions =
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constructor_description list * label_description list
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let in_signature_flag = 0x01
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let implicit_coercion_flag = 0x02
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type t = {
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values: (Path.t * value_description) EnvTbl.t;
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constrs: constructor_description EnvTbl.t;
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labels: label_description EnvTbl.t;
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types: (Path.t * (type_declaration * type_descriptions)) EnvTbl.t;
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modules: (Path.t * module_declaration) EnvTbl.t;
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modtypes: (Path.t * modtype_declaration) EnvTbl.t;
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components: (Path.t * module_components) EnvTbl.t;
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classes: (Path.t * class_declaration) EnvTbl.t;
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cltypes: (Path.t * class_type_declaration) EnvTbl.t;
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functor_args: unit Ident.tbl;
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summary: summary;
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local_constraints: bool;
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gadt_instances: (int * TypeSet.t ref) list;
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flags: int;
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}
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and module_components =
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(t * Subst.t * Path.t * Types.module_type, module_components_repr) EnvLazy.t
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and module_components_repr =
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Structure_comps of structure_components
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| Functor_comps of functor_components
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and structure_components = {
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mutable comp_values: (string, (value_description * int)) Tbl.t;
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mutable comp_constrs: (string, (constructor_description * int) list) Tbl.t;
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mutable comp_labels: (string, (label_description * int) list) Tbl.t;
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mutable comp_types:
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(string, ((type_declaration * type_descriptions) * int)) Tbl.t;
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mutable comp_modules:
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(string, ((Subst.t * Types.module_type,module_type) EnvLazy.t * int)) Tbl.t;
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mutable comp_modtypes: (string, (modtype_declaration * int)) Tbl.t;
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mutable comp_components: (string, (module_components * int)) Tbl.t;
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mutable comp_classes: (string, (class_declaration * int)) Tbl.t;
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mutable comp_cltypes: (string, (class_type_declaration * int)) Tbl.t
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}
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and functor_components = {
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fcomp_param: Ident.t; (* Formal parameter *)
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fcomp_arg: module_type option; (* Argument signature *)
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fcomp_res: module_type; (* Result signature *)
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fcomp_cache: (Path.t, module_components) Hashtbl.t; (* For memoization *)
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fcomp_subst_cache: (Path.t, module_type) Hashtbl.t
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}
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let subst_modtype_maker (subst, mty) = Subst.modtype subst mty
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let empty = {
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values = EnvTbl.empty; constrs = EnvTbl.empty;
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labels = EnvTbl.empty; types = EnvTbl.empty;
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modules = EnvTbl.empty; modtypes = EnvTbl.empty;
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components = EnvTbl.empty; classes = EnvTbl.empty;
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cltypes = EnvTbl.empty;
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summary = Env_empty; local_constraints = false; gadt_instances = [];
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flags = 0;
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functor_args = Ident.empty;
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}
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let in_signature b env =
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let flags =
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if b then env.flags lor in_signature_flag
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else env.flags land (lnot in_signature_flag)
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in
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{env with flags}
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let implicit_coercion env =
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{env with flags = env.flags lor implicit_coercion_flag}
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let is_in_signature env = env.flags land in_signature_flag <> 0
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let is_implicit_coercion env = env.flags land implicit_coercion_flag <> 0
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let diff_keys is_local tbl1 tbl2 =
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let keys2 = EnvTbl.keys tbl2 in
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List.filter
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(fun id ->
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is_local (EnvTbl.find_same_not_using id tbl2) &&
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try ignore (EnvTbl.find_same_not_using id tbl1); false
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with Not_found -> true)
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keys2
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let is_ident = function
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Pident _ -> true
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| Pdot _ | Papply _ -> false
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let is_local (p, _) = is_ident p
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let is_local_ext = function
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| {cstr_tag = Cstr_extension(p, _)} -> is_ident p
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| _ -> false
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let diff env1 env2 =
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diff_keys is_local env1.values env2.values @
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diff_keys is_local_ext env1.constrs env2.constrs @
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diff_keys is_local env1.modules env2.modules @
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diff_keys is_local env1.classes env2.classes
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(* Forward declarations *)
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let components_of_module' =
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ref ((fun env sub path mty -> assert false) :
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t -> Subst.t -> Path.t -> module_type -> module_components)
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let components_of_module_maker' =
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ref ((fun (env, sub, path, mty) -> assert false) :
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t * Subst.t * Path.t * module_type -> module_components_repr)
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let components_of_functor_appl' =
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ref ((fun f env p1 p2 -> assert false) :
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functor_components -> t -> Path.t -> Path.t -> module_components)
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let check_modtype_inclusion =
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(* to be filled with Includemod.check_modtype_inclusion *)
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ref ((fun env mty1 path1 mty2 -> assert false) :
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t -> module_type -> Path.t -> module_type -> unit)
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let strengthen =
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(* to be filled with Mtype.strengthen *)
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ref ((fun env mty path -> assert false) :
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t -> module_type -> Path.t -> module_type)
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let md md_type =
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{md_type; md_attributes=[]; md_loc=Location.none}
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(* The name of the compilation unit currently compiled.
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"" if outside a compilation unit. *)
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let current_unit = ref ""
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(* Persistent structure descriptions *)
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type pers_struct =
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{ ps_name: string;
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ps_sig: signature Lazy.t;
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ps_comps: module_components;
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ps_crcs: (string * Digest.t option) list;
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mutable ps_crcs_checked: bool;
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ps_filename: string;
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ps_flags: pers_flags list }
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let persistent_structures =
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(Hashtbl.create 17 : (string, pers_struct option) Hashtbl.t)
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(* Consistency between persistent structures *)
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let crc_units = Consistbl.create()
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module StringSet =
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Set.Make(struct type t = string let compare = String.compare end)
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let imported_units = ref StringSet.empty
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let add_import s =
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imported_units := StringSet.add s !imported_units
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let clear_imports () =
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Consistbl.clear crc_units;
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imported_units := StringSet.empty
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let check_consistency ps =
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if not ps.ps_crcs_checked then
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try
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List.iter
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(fun (name, crco) ->
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match crco with
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None -> ()
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| Some crc ->
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add_import name;
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Consistbl.check crc_units name crc ps.ps_filename)
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ps.ps_crcs;
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ps.ps_crcs_checked <- true;
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with Consistbl.Inconsistency(name, source, auth) ->
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error (Inconsistent_import(name, auth, source))
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(* Reading persistent structures from .cmi files *)
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let read_pers_struct modname filename =
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let cmi = read_cmi filename in
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let name = cmi.cmi_name in
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let sign = cmi.cmi_sign in
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let crcs = cmi.cmi_crcs in
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let flags = cmi.cmi_flags in
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let comps =
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!components_of_module' empty Subst.identity
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(Pident(Ident.create_persistent name))
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(Mty_signature sign)
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in
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let ps = { ps_name = name;
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ps_sig = lazy (Subst.signature Subst.identity sign);
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ps_comps = comps;
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ps_crcs = crcs;
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ps_filename = filename;
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ps_flags = flags;
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ps_crcs_checked = false;
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} in
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if ps.ps_name <> modname then
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error (Illegal_renaming(modname, ps.ps_name, filename));
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add_import name;
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List.iter
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(function Rectypes ->
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if not !Clflags.recursive_types then
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error (Need_recursive_types(ps.ps_name, !current_unit)))
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ps.ps_flags;
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Hashtbl.add persistent_structures modname (Some ps);
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ps
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let find_pers_struct ?(check=true) name =
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if name = "*predef*" then raise Not_found;
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let r =
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try Some (Hashtbl.find persistent_structures name)
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with Not_found -> None
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in
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let ps =
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match r with
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| Some None -> raise Not_found
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| Some (Some sg) -> sg
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| None ->
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let filename =
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try find_in_path_uncap !load_path (name ^ ".cmi")
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with Not_found ->
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Hashtbl.add persistent_structures name None;
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raise Not_found
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in
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read_pers_struct name filename
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in
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if check then check_consistency ps;
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ps
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let reset_cache () =
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current_unit := "";
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Hashtbl.clear persistent_structures;
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clear_imports ();
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Hashtbl.clear value_declarations;
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Hashtbl.clear type_declarations;
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Hashtbl.clear used_constructors;
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Hashtbl.clear prefixed_sg
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let reset_cache_toplevel () =
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(* Delete 'missing cmi' entries from the cache. *)
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let l =
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Hashtbl.fold
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(fun name r acc -> if r = None then name :: acc else acc)
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persistent_structures []
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in
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List.iter (Hashtbl.remove persistent_structures) l;
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Hashtbl.clear value_declarations;
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Hashtbl.clear type_declarations;
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Hashtbl.clear used_constructors;
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Hashtbl.clear prefixed_sg
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let set_unit_name name =
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current_unit := name
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(* Lookup by identifier *)
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let rec find_module_descr path env =
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match path with
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Pident id ->
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begin try
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let (p, desc) = EnvTbl.find_same id env.components
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in desc
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with Not_found ->
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if Ident.persistent id
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then (find_pers_struct (Ident.name id)).ps_comps
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else raise Not_found
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end
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| Pdot(p, s, pos) ->
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begin match
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EnvLazy.force !components_of_module_maker' (find_module_descr p env)
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with
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Structure_comps c ->
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let (descr, pos) = Tbl.find s c.comp_components in
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descr
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| Functor_comps f ->
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raise Not_found
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end
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| Papply(p1, p2) ->
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begin match
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EnvLazy.force !components_of_module_maker' (find_module_descr p1 env)
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with
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Functor_comps f ->
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!components_of_functor_appl' f env p1 p2
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| Structure_comps c ->
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raise Not_found
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end
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let find proj1 proj2 path env =
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match path with
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Pident id ->
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let (p, data) = EnvTbl.find_same id (proj1 env)
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in data
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| Pdot(p, s, pos) ->
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begin match
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EnvLazy.force !components_of_module_maker' (find_module_descr p env)
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with
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Structure_comps c ->
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let (data, pos) = Tbl.find s (proj2 c) in data
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| Functor_comps f ->
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raise Not_found
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end
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| Papply(p1, p2) ->
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raise Not_found
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let find_value =
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find (fun env -> env.values) (fun sc -> sc.comp_values)
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and find_type_full =
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find (fun env -> env.types) (fun sc -> sc.comp_types)
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and find_modtype =
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find (fun env -> env.modtypes) (fun sc -> sc.comp_modtypes)
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and find_class =
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find (fun env -> env.classes) (fun sc -> sc.comp_classes)
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and find_cltype =
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find (fun env -> env.cltypes) (fun sc -> sc.comp_cltypes)
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let type_of_cstr path = function
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| {cstr_inlined = Some d; _} ->
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(d, ([], List.map snd (Datarepr.labels_of_type path d)))
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| _ ->
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assert false
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let find_type_full path env =
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match Path.constructor_typath path with
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| Regular p -> find_type_full p env
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| Cstr (ty_path, s) ->
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let (_, (cstrs, _)) =
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try find_type_full ty_path env
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with Not_found -> assert false
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in
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let cstr =
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try List.find (fun cstr -> cstr.cstr_name = s) cstrs
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with Not_found -> assert false
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in
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type_of_cstr path cstr
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| LocalExt id ->
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let cstr =
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try EnvTbl.find_same id env.constrs
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with Not_found -> assert false
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in
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type_of_cstr path cstr
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| Ext (mod_path, s) ->
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let comps =
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try find_module_descr mod_path env
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with Not_found -> assert false
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in
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let comps =
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match EnvLazy.force !components_of_module_maker' comps with
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| Structure_comps c -> c
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| Functor_comps _ -> assert false
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in
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let exts =
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List.filter
|
|
(function ({cstr_tag=Cstr_extension _}, _) -> true | _ -> false)
|
|
(try Tbl.find s comps.comp_constrs
|
|
with Not_found -> assert false)
|
|
in
|
|
match exts with
|
|
| [(cstr, _)] -> type_of_cstr path cstr
|
|
| _ -> assert false
|
|
|
|
let find_type p env =
|
|
fst (find_type_full p env)
|
|
let find_type_descrs p env =
|
|
snd (find_type_full p env)
|
|
|
|
let find_module ~alias path env =
|
|
match path with
|
|
Pident id ->
|
|
begin try
|
|
let (p, data) = EnvTbl.find_same id env.modules
|
|
in data
|
|
with Not_found ->
|
|
if Ident.persistent id then
|
|
let ps = find_pers_struct (Ident.name id) in
|
|
md (Mty_signature(Lazy.force ps.ps_sig))
|
|
else raise Not_found
|
|
end
|
|
| Pdot(p, s, pos) ->
|
|
begin match
|
|
EnvLazy.force !components_of_module_maker' (find_module_descr p env)
|
|
with
|
|
Structure_comps c ->
|
|
let (data, pos) = Tbl.find s c.comp_modules in
|
|
md (EnvLazy.force subst_modtype_maker data)
|
|
| Functor_comps f ->
|
|
raise Not_found
|
|
end
|
|
| Papply(p1, p2) ->
|
|
let desc1 = find_module_descr p1 env in
|
|
begin match EnvLazy.force !components_of_module_maker' desc1 with
|
|
Functor_comps f ->
|
|
md begin match f.fcomp_res with
|
|
| Mty_alias p as mty-> mty
|
|
| mty ->
|
|
if alias then mty else
|
|
try
|
|
Hashtbl.find f.fcomp_subst_cache p2
|
|
with Not_found ->
|
|
let mty =
|
|
Subst.modtype
|
|
(Subst.add_module f.fcomp_param p2 Subst.identity)
|
|
f.fcomp_res in
|
|
Hashtbl.add f.fcomp_subst_cache p2 mty;
|
|
mty
|
|
end
|
|
| Structure_comps c ->
|
|
raise Not_found
|
|
end
|
|
|
|
let required_globals = ref []
|
|
let reset_required_globals () = required_globals := []
|
|
let get_required_globals () = !required_globals
|
|
let add_required_global id =
|
|
if Ident.global id && not !Clflags.transparent_modules
|
|
&& not (List.exists (Ident.same id) !required_globals)
|
|
then required_globals := id :: !required_globals
|
|
|
|
let rec normalize_path lax env path =
|
|
let path =
|
|
match path with
|
|
Pdot(p, s, pos) ->
|
|
Pdot(normalize_path lax env p, s, pos)
|
|
| Papply(p1, p2) ->
|
|
Papply(normalize_path lax env p1, normalize_path true env p2)
|
|
| _ -> path
|
|
in
|
|
try match find_module ~alias:true path env with
|
|
{md_type=Mty_alias path1} ->
|
|
let path' = normalize_path lax env path1 in
|
|
if lax || !Clflags.transparent_modules then path' else
|
|
let id = Path.head path in
|
|
if Ident.global id && not (Ident.same id (Path.head path'))
|
|
then add_required_global id;
|
|
path'
|
|
| _ -> path
|
|
with Not_found when lax
|
|
|| (match path with Pident id -> not (Ident.persistent id) | _ -> true) ->
|
|
path
|
|
|
|
let normalize_path oloc env path =
|
|
try normalize_path (oloc = None) env path
|
|
with Not_found ->
|
|
match oloc with None -> assert false
|
|
| Some loc ->
|
|
raise (Error(Missing_module(loc, path, normalize_path true env path)))
|
|
|
|
let find_module = find_module ~alias:false
|
|
|
|
(* Find the manifest type associated to a type when appropriate:
|
|
- the type should be public or should have a private row,
|
|
- the type should have an associated manifest type. *)
|
|
let find_type_expansion path env =
|
|
let decl = find_type path env in
|
|
match decl.type_manifest with
|
|
| Some body when decl.type_private = Public
|
|
|| decl.type_kind <> Type_abstract
|
|
|| Btype.has_constr_row body ->
|
|
(decl.type_params, body, may_map snd decl.type_newtype_level)
|
|
(* The manifest type of Private abstract data types without
|
|
private row are still considered unknown to the type system.
|
|
Hence, this case is caught by the following clause that also handles
|
|
purely abstract data types without manifest type definition. *)
|
|
| _ ->
|
|
(* another way to expand is to normalize the path itself *)
|
|
let path' = normalize_path None env path in
|
|
if Path.same path path' then raise Not_found else
|
|
(decl.type_params,
|
|
newgenty (Tconstr (path', decl.type_params, ref Mnil)),
|
|
may_map snd decl.type_newtype_level)
|
|
|
|
(* Find the manifest type information associated to a type, i.e.
|
|
the necessary information for the compiler's type-based optimisations.
|
|
In particular, the manifest type associated to a private abstract type
|
|
is revealed for the sake of compiler's type-based optimisations. *)
|
|
let find_type_expansion_opt path env =
|
|
let decl = find_type path env in
|
|
match decl.type_manifest with
|
|
(* The manifest type of Private abstract data types can still get
|
|
an approximation using their manifest type. *)
|
|
| Some body -> (decl.type_params, body, may_map snd decl.type_newtype_level)
|
|
| _ ->
|
|
let path' = normalize_path None env path in
|
|
if Path.same path path' then raise Not_found else
|
|
(decl.type_params,
|
|
newgenty (Tconstr (path', decl.type_params, ref Mnil)),
|
|
may_map snd decl.type_newtype_level)
|
|
|
|
let find_modtype_expansion path env =
|
|
match (find_modtype path env).mtd_type with
|
|
| None -> raise Not_found
|
|
| Some mty -> mty
|
|
|
|
let rec is_functor_arg path env =
|
|
match path with
|
|
Pident id ->
|
|
begin try Ident.find_same id env.functor_args; true
|
|
with Not_found -> false
|
|
end
|
|
| Pdot (p, s, _) -> is_functor_arg p env
|
|
| Papply _ -> true
|
|
|
|
(* Lookup by name *)
|
|
|
|
exception Recmodule
|
|
|
|
let rec lookup_module_descr lid env =
|
|
match lid with
|
|
Lident s ->
|
|
begin try
|
|
EnvTbl.find_name s env.components
|
|
with Not_found ->
|
|
if s = !current_unit then raise Not_found;
|
|
let ps = find_pers_struct s in
|
|
(Pident(Ident.create_persistent s), ps.ps_comps)
|
|
end
|
|
| Ldot(l, s) ->
|
|
let (p, descr) = lookup_module_descr l env in
|
|
begin match EnvLazy.force !components_of_module_maker' descr with
|
|
Structure_comps c ->
|
|
let (descr, pos) = Tbl.find s c.comp_components in
|
|
(Pdot(p, s, pos), descr)
|
|
| Functor_comps f ->
|
|
raise Not_found
|
|
end
|
|
| Lapply(l1, l2) ->
|
|
let (p1, desc1) = lookup_module_descr l1 env in
|
|
let p2 = lookup_module true l2 env in
|
|
let {md_type=mty2} = find_module p2 env in
|
|
begin match EnvLazy.force !components_of_module_maker' desc1 with
|
|
Functor_comps f ->
|
|
Misc.may (!check_modtype_inclusion env mty2 p2) f.fcomp_arg;
|
|
(Papply(p1, p2), !components_of_functor_appl' f env p1 p2)
|
|
| Structure_comps c ->
|
|
raise Not_found
|
|
end
|
|
|
|
and lookup_module ~load lid env : Path.t =
|
|
match lid with
|
|
Lident s ->
|
|
begin try
|
|
let (p, {md_type}) as r = EnvTbl.find_name s env.modules in
|
|
begin match md_type with
|
|
| Mty_ident (Path.Pident id) when Ident.name id = "#recmod#" ->
|
|
(* see #5965 *)
|
|
raise Recmodule
|
|
| _ -> ()
|
|
end;
|
|
p
|
|
with Not_found ->
|
|
if s = !current_unit then raise Not_found;
|
|
if !Clflags.transparent_modules && not load then
|
|
try ignore (find_pers_struct ~check:false s)
|
|
with Not_found ->
|
|
Location.prerr_warning Location.none (Warnings.No_cmi_file s)
|
|
else ignore (find_pers_struct s);
|
|
Pident(Ident.create_persistent s)
|
|
end
|
|
| Ldot(l, s) ->
|
|
let (p, descr) = lookup_module_descr l env in
|
|
begin match EnvLazy.force !components_of_module_maker' descr with
|
|
Structure_comps c ->
|
|
let (data, pos) = Tbl.find s c.comp_modules in
|
|
Pdot(p, s, pos)
|
|
| Functor_comps f ->
|
|
raise Not_found
|
|
end
|
|
| Lapply(l1, l2) ->
|
|
let (p1, desc1) = lookup_module_descr l1 env in
|
|
let p2 = lookup_module true l2 env in
|
|
let {md_type=mty2} = find_module p2 env in
|
|
let p = Papply(p1, p2) in
|
|
begin match EnvLazy.force !components_of_module_maker' desc1 with
|
|
Functor_comps f ->
|
|
Misc.may (!check_modtype_inclusion env mty2 p2) f.fcomp_arg;
|
|
p
|
|
| Structure_comps c ->
|
|
raise Not_found
|
|
end
|
|
|
|
let lookup proj1 proj2 lid env =
|
|
match lid with
|
|
Lident s ->
|
|
EnvTbl.find_name s (proj1 env)
|
|
| Ldot(l, s) ->
|
|
let (p, desc) = lookup_module_descr l env in
|
|
begin match EnvLazy.force !components_of_module_maker' desc with
|
|
Structure_comps c ->
|
|
let (data, pos) = Tbl.find s (proj2 c) in
|
|
(Pdot(p, s, pos), data)
|
|
| Functor_comps f ->
|
|
raise Not_found
|
|
end
|
|
| Lapply(l1, l2) ->
|
|
raise Not_found
|
|
|
|
let lookup_simple proj1 proj2 lid env =
|
|
match lid with
|
|
Lident s ->
|
|
EnvTbl.find_name s (proj1 env)
|
|
| Ldot(l, s) ->
|
|
let (p, desc) = lookup_module_descr l env in
|
|
begin match EnvLazy.force !components_of_module_maker' desc with
|
|
Structure_comps c ->
|
|
let (data, pos) = Tbl.find s (proj2 c) in
|
|
data
|
|
| Functor_comps f ->
|
|
raise Not_found
|
|
end
|
|
| Lapply(l1, l2) ->
|
|
raise Not_found
|
|
|
|
let lookup_all_simple proj1 proj2 shadow lid env =
|
|
match lid with
|
|
Lident s ->
|
|
let xl = EnvTbl.find_all s (proj1 env) in
|
|
let rec do_shadow =
|
|
function
|
|
| [] -> []
|
|
| ((x, f) :: xs) ->
|
|
(x, f) ::
|
|
(do_shadow (List.filter (fun (y, g) -> not (shadow x y)) xs))
|
|
in
|
|
do_shadow xl
|
|
| Ldot(l, s) ->
|
|
let (p, desc) = lookup_module_descr l env in
|
|
begin match EnvLazy.force !components_of_module_maker' desc with
|
|
Structure_comps c ->
|
|
let comps =
|
|
try Tbl.find s (proj2 c) with Not_found -> []
|
|
in
|
|
List.map
|
|
(fun (data, pos) -> (data, (fun () -> ())))
|
|
comps
|
|
| Functor_comps f ->
|
|
raise Not_found
|
|
end
|
|
| Lapply(l1, l2) ->
|
|
raise Not_found
|
|
|
|
let has_local_constraints env = env.local_constraints
|
|
|
|
let cstr_shadow cstr1 cstr2 =
|
|
match cstr1.cstr_tag, cstr2.cstr_tag with
|
|
| Cstr_extension _, Cstr_extension _ -> true
|
|
| _ -> false
|
|
|
|
let lbl_shadow lbl1 lbl2 = false
|
|
|
|
let lookup_value =
|
|
lookup (fun env -> env.values) (fun sc -> sc.comp_values)
|
|
and lookup_all_constructors =
|
|
lookup_all_simple (fun env -> env.constrs) (fun sc -> sc.comp_constrs)
|
|
cstr_shadow
|
|
and lookup_all_labels =
|
|
lookup_all_simple (fun env -> env.labels) (fun sc -> sc.comp_labels)
|
|
lbl_shadow
|
|
and lookup_type =
|
|
lookup (fun env -> env.types) (fun sc -> sc.comp_types)
|
|
and lookup_modtype =
|
|
lookup (fun env -> env.modtypes) (fun sc -> sc.comp_modtypes)
|
|
and lookup_class =
|
|
lookup (fun env -> env.classes) (fun sc -> sc.comp_classes)
|
|
and lookup_cltype =
|
|
lookup (fun env -> env.cltypes) (fun sc -> sc.comp_cltypes)
|
|
|
|
let mark_value_used env name vd =
|
|
if not (is_implicit_coercion env) then
|
|
try Hashtbl.find value_declarations (name, vd.val_loc) ()
|
|
with Not_found -> ()
|
|
|
|
let mark_type_used env name vd =
|
|
if not (is_implicit_coercion env) then
|
|
try Hashtbl.find type_declarations (name, vd.type_loc) ()
|
|
with Not_found -> ()
|
|
|
|
let mark_constructor_used usage env name vd constr =
|
|
if not (is_implicit_coercion env) then
|
|
try Hashtbl.find used_constructors (name, vd.type_loc, constr) usage
|
|
with Not_found -> ()
|
|
|
|
let mark_extension_used usage env ext name =
|
|
if not (is_implicit_coercion env) then
|
|
let ty_name = Path.last ext.ext_type_path in
|
|
try Hashtbl.find used_constructors (ty_name, ext.ext_loc, name) usage
|
|
with Not_found -> ()
|
|
|
|
let set_value_used_callback name vd callback =
|
|
let key = (name, vd.val_loc) in
|
|
try
|
|
let old = Hashtbl.find value_declarations key in
|
|
Hashtbl.replace value_declarations key (fun () -> old (); callback ())
|
|
(* this is to support cases like:
|
|
let x = let x = 1 in x in x
|
|
where the two declarations have the same location
|
|
(e.g. resulting from Camlp4 expansion of grammar entries) *)
|
|
with Not_found ->
|
|
Hashtbl.add value_declarations key callback
|
|
|
|
let set_type_used_callback name td callback =
|
|
let loc = td.type_loc in
|
|
if loc.Location.loc_ghost then ()
|
|
else let key = (name, loc) in
|
|
let old =
|
|
try Hashtbl.find type_declarations key
|
|
with Not_found -> assert false
|
|
in
|
|
Hashtbl.replace type_declarations key (fun () -> callback old)
|
|
|
|
let lookup_value lid env =
|
|
let (_, desc) as r = lookup_value lid env in
|
|
mark_value_used env (Longident.last lid) desc;
|
|
r
|
|
|
|
let lookup_type lid env =
|
|
let (path, (decl, _)) = lookup_type lid env in
|
|
mark_type_used env (Longident.last lid) decl;
|
|
(path, decl)
|
|
|
|
(* [path] must be the path to a type, not to a module ! *)
|
|
let path_subst_last path id =
|
|
match path with
|
|
Pident _ -> Pident id
|
|
| Pdot (p, name, pos) -> Pdot(p, Ident.name id, pos)
|
|
| Papply (p1, p2) -> assert false
|
|
|
|
let mark_type_path env path =
|
|
try
|
|
let decl = find_type path env in
|
|
mark_type_used env (Path.last path) decl
|
|
with Not_found -> ()
|
|
|
|
let ty_path t =
|
|
match repr t with
|
|
| {desc=Tconstr(path, _, _)} -> path
|
|
| _ -> assert false
|
|
|
|
let lookup_constructor lid env =
|
|
match lookup_all_constructors lid env with
|
|
[] -> raise Not_found
|
|
| (desc, use) :: _ ->
|
|
mark_type_path env (ty_path desc.cstr_res);
|
|
use ();
|
|
desc
|
|
|
|
let is_lident = function
|
|
Lident _ -> true
|
|
| _ -> false
|
|
|
|
let lookup_all_constructors lid env =
|
|
try
|
|
let cstrs = lookup_all_constructors lid env in
|
|
let wrap_use desc use () =
|
|
mark_type_path env (ty_path desc.cstr_res);
|
|
use ()
|
|
in
|
|
List.map (fun (cstr, use) -> (cstr, wrap_use cstr use)) cstrs
|
|
with
|
|
Not_found when is_lident lid -> []
|
|
|
|
let mark_constructor usage env name desc =
|
|
if not (is_implicit_coercion env)
|
|
then match desc.cstr_tag with
|
|
| Cstr_extension _ ->
|
|
begin
|
|
let ty_path = ty_path desc.cstr_res in
|
|
let ty_name = Path.last ty_path in
|
|
try Hashtbl.find used_constructors (ty_name, desc.cstr_loc, name) usage
|
|
with Not_found -> ()
|
|
end
|
|
| _ ->
|
|
let ty_path = ty_path desc.cstr_res in
|
|
let ty_decl = try find_type ty_path env with Not_found -> assert false in
|
|
let ty_name = Path.last ty_path in
|
|
mark_constructor_used usage env ty_name ty_decl name
|
|
|
|
let lookup_label lid env =
|
|
match lookup_all_labels lid env with
|
|
[] -> raise Not_found
|
|
| (desc, use) :: _ ->
|
|
mark_type_path env (ty_path desc.lbl_res);
|
|
use ();
|
|
desc
|
|
|
|
let lookup_all_labels lid env =
|
|
try
|
|
let lbls = lookup_all_labels lid env in
|
|
let wrap_use desc use () =
|
|
mark_type_path env (ty_path desc.lbl_res);
|
|
use ()
|
|
in
|
|
List.map (fun (lbl, use) -> (lbl, wrap_use lbl use)) lbls
|
|
with
|
|
Not_found when is_lident lid -> []
|
|
|
|
let lookup_class lid env =
|
|
let (_, desc) as r = lookup_class lid env in
|
|
(* special support for Typeclass.unbound_class *)
|
|
if Path.name desc.cty_path = "" then ignore (lookup_type lid env)
|
|
else mark_type_path env desc.cty_path;
|
|
r
|
|
|
|
let lookup_cltype lid env =
|
|
let (_, desc) as r = lookup_cltype lid env in
|
|
if Path.name desc.clty_path = "" then ignore (lookup_type lid env)
|
|
else mark_type_path env desc.clty_path;
|
|
mark_type_path env desc.clty_path;
|
|
r
|
|
|
|
(* Iter on an environment (ignoring the body of functors and
|
|
not yet evaluated structures) *)
|
|
|
|
let iter_env proj1 proj2 f env =
|
|
Ident.iter (fun id (x,_) -> f (Pident id) x) (proj1 env);
|
|
let rec iter_components path path' mcomps =
|
|
(* if EnvLazy.is_val mcomps then *)
|
|
match EnvLazy.force !components_of_module_maker' mcomps with
|
|
Structure_comps comps ->
|
|
Tbl.iter
|
|
(fun s (d, n) -> f (Pdot (path, s, n)) (Pdot (path', s, n), d))
|
|
(proj2 comps);
|
|
Tbl.iter
|
|
(fun s (c, n) ->
|
|
iter_components (Pdot (path, s, n)) (Pdot (path', s, n)) c)
|
|
comps.comp_components
|
|
| Functor_comps _ -> ()
|
|
in
|
|
Hashtbl.iter
|
|
(fun s pso ->
|
|
match pso with None -> ()
|
|
| Some ps ->
|
|
let id = Pident (Ident.create_persistent s) in
|
|
iter_components id id ps.ps_comps)
|
|
persistent_structures;
|
|
Ident.iter
|
|
(fun id ((path, comps), _) -> iter_components (Pident id) path comps)
|
|
env.components
|
|
|
|
let iter_types f = iter_env (fun env -> env.types) (fun sc -> sc.comp_types) f
|
|
|
|
let same_types env1 env2 =
|
|
env1.types == env2.types && env1.components == env2.components
|
|
|
|
let used_persistent () =
|
|
let r = ref Concr.empty in
|
|
Hashtbl.iter (fun s pso -> if pso != None then r := Concr.add s !r)
|
|
persistent_structures;
|
|
!r
|
|
|
|
let find_all_comps proj s (p,mcomps) =
|
|
match EnvLazy.force !components_of_module_maker' mcomps with
|
|
Functor_comps _ -> []
|
|
| Structure_comps comps ->
|
|
try let (c,n) = Tbl.find s (proj comps) in [Pdot(p,s,n), c]
|
|
with Not_found -> []
|
|
|
|
let rec find_shadowed_comps path env =
|
|
match path with
|
|
Pident id ->
|
|
List.map fst (Ident.find_all (Ident.name id) env.components)
|
|
| Pdot (p, s, _) ->
|
|
let l = find_shadowed_comps p env in
|
|
let l' =
|
|
List.map (find_all_comps (fun comps -> comps.comp_components) s) l in
|
|
List.flatten l'
|
|
| Papply _ -> []
|
|
|
|
let find_shadowed proj1 proj2 path env =
|
|
match path with
|
|
Pident id ->
|
|
List.map fst (Ident.find_all (Ident.name id) (proj1 env))
|
|
| Pdot (p, s, _) ->
|
|
let l = find_shadowed_comps p env in
|
|
let l' = List.map (find_all_comps proj2 s) l in
|
|
List.flatten l'
|
|
| Papply _ -> []
|
|
|
|
let find_shadowed_types path env =
|
|
let l =
|
|
find_shadowed
|
|
(fun env -> env.types) (fun comps -> comps.comp_types) path env
|
|
in
|
|
List.map fst l
|
|
|
|
|
|
(* GADT instance tracking *)
|
|
|
|
let add_gadt_instance_level lv env =
|
|
{env with
|
|
gadt_instances = (lv, ref TypeSet.empty) :: env.gadt_instances}
|
|
|
|
let is_Tlink = function {desc = Tlink _} -> true | _ -> false
|
|
|
|
let gadt_instance_level env t =
|
|
let rec find_instance = function
|
|
[] -> None
|
|
| (lv, r) :: rem ->
|
|
if TypeSet.exists is_Tlink !r then
|
|
(* Should we use set_typeset ? *)
|
|
r := TypeSet.fold (fun ty -> TypeSet.add (repr ty)) !r TypeSet.empty;
|
|
if TypeSet.mem t !r then Some lv else find_instance rem
|
|
in find_instance env.gadt_instances
|
|
|
|
let add_gadt_instances env lv tl =
|
|
let r =
|
|
try List.assoc lv env.gadt_instances with Not_found -> assert false in
|
|
(* Format.eprintf "Added";
|
|
List.iter (fun ty -> Format.eprintf "@ %a" !Btype.print_raw ty) tl;
|
|
Format.eprintf "@."; *)
|
|
set_typeset r (List.fold_right TypeSet.add tl !r)
|
|
|
|
(* Only use this after expand_head! *)
|
|
let add_gadt_instance_chain env lv t =
|
|
let r =
|
|
try List.assoc lv env.gadt_instances with Not_found -> assert false in
|
|
let rec add_instance t =
|
|
let t = repr t in
|
|
if not (TypeSet.mem t !r) then begin
|
|
(* Format.eprintf "@ %a" !Btype.print_raw t; *)
|
|
set_typeset r (TypeSet.add t !r);
|
|
match t.desc with
|
|
Tconstr (p, _, memo) ->
|
|
may add_instance (find_expans Private p !memo)
|
|
| _ -> ()
|
|
end
|
|
in
|
|
(* Format.eprintf "Added chain"; *)
|
|
add_instance t
|
|
(* Format.eprintf "@." *)
|
|
|
|
(* Expand manifest module type names at the top of the given module type *)
|
|
|
|
let rec scrape_alias env ?path mty =
|
|
match mty, path with
|
|
Mty_ident p, _ ->
|
|
begin try
|
|
scrape_alias env (find_modtype_expansion p env) ?path
|
|
with Not_found ->
|
|
mty
|
|
end
|
|
| Mty_alias path, _ ->
|
|
begin try
|
|
scrape_alias env (find_module path env).md_type ~path
|
|
with Not_found ->
|
|
(*Location.prerr_warning Location.none
|
|
(Warnings.No_cmi_file (Path.name path));*)
|
|
mty
|
|
end
|
|
| mty, Some path ->
|
|
!strengthen env mty path
|
|
| _ -> mty
|
|
|
|
let scrape_alias env mty = scrape_alias env mty
|
|
|
|
(* Given a signature and a root path, prefix all idents in the signature
|
|
by the root path and build the corresponding substitution. *)
|
|
|
|
let rec prefix_idents root pos sub = function
|
|
[] -> ([], sub)
|
|
| Sig_value(id, decl) :: rem ->
|
|
let p = Pdot(root, Ident.name id, pos) in
|
|
let nextpos = match decl.val_kind with Val_prim _ -> pos | _ -> pos+1 in
|
|
let (pl, final_sub) = prefix_idents root nextpos sub rem in
|
|
(p::pl, final_sub)
|
|
| Sig_type(id, decl, _) :: rem ->
|
|
let p = Pdot(root, Ident.name id, nopos) in
|
|
let (pl, final_sub) =
|
|
prefix_idents root pos (Subst.add_type id p sub) rem in
|
|
(p::pl, final_sub)
|
|
| Sig_typext(id, ext, _) :: rem ->
|
|
let p = Pdot(root, Ident.name id, pos) in
|
|
(* we extend the substitution in case of an inlined record *)
|
|
let (pl, final_sub) =
|
|
prefix_idents root (pos+1) (Subst.add_type id p sub) rem in
|
|
(p::pl, final_sub)
|
|
| Sig_module(id, mty, _) :: rem ->
|
|
let p = Pdot(root, Ident.name id, pos) in
|
|
let (pl, final_sub) =
|
|
prefix_idents root (pos+1) (Subst.add_module id p sub) rem in
|
|
(p::pl, final_sub)
|
|
| Sig_modtype(id, decl) :: rem ->
|
|
let p = Pdot(root, Ident.name id, nopos) in
|
|
let (pl, final_sub) =
|
|
prefix_idents root pos
|
|
(Subst.add_modtype id (Mty_ident p) sub) rem in
|
|
(p::pl, final_sub)
|
|
| Sig_class(id, decl, _) :: rem ->
|
|
(* pretend this is a type, cf. PR#6650 *)
|
|
let p = Pdot(root, Ident.name id, pos) in
|
|
let (pl, final_sub) =
|
|
prefix_idents root (pos + 1) (Subst.add_type id p sub) rem in
|
|
(p::pl, final_sub)
|
|
| Sig_class_type(id, decl, _) :: rem ->
|
|
let p = Pdot(root, Ident.name id, nopos) in
|
|
let (pl, final_sub) =
|
|
prefix_idents root pos (Subst.add_type id p sub) rem in
|
|
(p::pl, final_sub)
|
|
|
|
let subst_signature sub sg =
|
|
List.map
|
|
(fun item ->
|
|
match item with
|
|
| Sig_value(id, decl) ->
|
|
Sig_value (id, Subst.value_description sub decl)
|
|
| Sig_type(id, decl, x) ->
|
|
Sig_type(id, Subst.type_declaration sub decl, x)
|
|
| Sig_typext(id, ext, es) ->
|
|
Sig_typext (id, Subst.extension_constructor sub ext, es)
|
|
| Sig_module(id, mty, x) ->
|
|
Sig_module(id, Subst.module_declaration sub mty,x)
|
|
| Sig_modtype(id, decl) ->
|
|
Sig_modtype(id, Subst.modtype_declaration sub decl)
|
|
| Sig_class(id, decl, x) ->
|
|
Sig_class(id, Subst.class_declaration sub decl, x)
|
|
| Sig_class_type(id, decl, x) ->
|
|
Sig_class_type(id, Subst.cltype_declaration sub decl, x)
|
|
)
|
|
sg
|
|
|
|
|
|
let prefix_idents_and_subst root sub sg =
|
|
let (pl, sub) = prefix_idents root 0 sub sg in
|
|
pl, sub, lazy (subst_signature sub sg)
|
|
|
|
let prefix_idents_and_subst root sub sg =
|
|
if sub = Subst.identity then
|
|
let sgs =
|
|
try
|
|
Hashtbl.find prefixed_sg root
|
|
with Not_found ->
|
|
let sgs = ref [] in
|
|
Hashtbl.add prefixed_sg root sgs;
|
|
sgs
|
|
in
|
|
try
|
|
List.assq sg !sgs
|
|
with Not_found ->
|
|
let r = prefix_idents_and_subst root sub sg in
|
|
sgs := (sg, r) :: !sgs;
|
|
r
|
|
else
|
|
prefix_idents_and_subst root sub sg
|
|
|
|
(* Compute structure descriptions *)
|
|
|
|
let add_to_tbl id decl tbl =
|
|
let decls =
|
|
try Tbl.find id tbl with Not_found -> [] in
|
|
Tbl.add id (decl :: decls) tbl
|
|
|
|
let rec components_of_module env sub path mty =
|
|
EnvLazy.create (env, sub, path, mty)
|
|
|
|
and components_of_module_maker (env, sub, path, mty) =
|
|
(match scrape_alias env mty with
|
|
Mty_signature sg ->
|
|
let c =
|
|
{ comp_values = Tbl.empty;
|
|
comp_constrs = Tbl.empty;
|
|
comp_labels = Tbl.empty; comp_types = Tbl.empty;
|
|
comp_modules = Tbl.empty; comp_modtypes = Tbl.empty;
|
|
comp_components = Tbl.empty; comp_classes = Tbl.empty;
|
|
comp_cltypes = Tbl.empty } in
|
|
let pl, sub, _ = prefix_idents_and_subst path sub sg in
|
|
let env = ref env in
|
|
let pos = ref 0 in
|
|
List.iter2 (fun item path ->
|
|
match item with
|
|
Sig_value(id, decl) ->
|
|
let decl' = Subst.value_description sub decl in
|
|
c.comp_values <-
|
|
Tbl.add (Ident.name id) (decl', !pos) c.comp_values;
|
|
begin match decl.val_kind with
|
|
Val_prim _ -> () | _ -> incr pos
|
|
end
|
|
| Sig_type(id, decl, _) ->
|
|
let decl' = Subst.type_declaration sub decl in
|
|
let constructors =
|
|
List.map snd (Datarepr.constructors_of_type path decl') in
|
|
let labels =
|
|
List.map snd (Datarepr.labels_of_type path decl') in
|
|
c.comp_types <-
|
|
Tbl.add (Ident.name id)
|
|
((decl', (constructors, labels)), nopos)
|
|
c.comp_types;
|
|
List.iter
|
|
(fun descr ->
|
|
c.comp_constrs <-
|
|
add_to_tbl descr.cstr_name (descr, nopos) c.comp_constrs)
|
|
constructors;
|
|
List.iter
|
|
(fun descr ->
|
|
c.comp_labels <-
|
|
add_to_tbl descr.lbl_name (descr, nopos) c.comp_labels)
|
|
labels;
|
|
env := store_type_infos None id (Pident id) decl !env !env
|
|
| Sig_typext(id, ext, _) ->
|
|
let ext' = Subst.extension_constructor sub ext in
|
|
let descr = Datarepr.extension_descr path ext' in
|
|
c.comp_constrs <-
|
|
add_to_tbl (Ident.name id) (descr, !pos) c.comp_constrs;
|
|
incr pos
|
|
| Sig_module(id, md, _) ->
|
|
let mty = md.md_type in
|
|
let mty' = EnvLazy.create (sub, mty) in
|
|
c.comp_modules <-
|
|
Tbl.add (Ident.name id) (mty', !pos) c.comp_modules;
|
|
let comps = components_of_module !env sub path mty in
|
|
c.comp_components <-
|
|
Tbl.add (Ident.name id) (comps, !pos) c.comp_components;
|
|
env := store_module None id (Pident id) md !env !env;
|
|
incr pos
|
|
| Sig_modtype(id, decl) ->
|
|
let decl' = Subst.modtype_declaration sub decl in
|
|
c.comp_modtypes <-
|
|
Tbl.add (Ident.name id) (decl', nopos) c.comp_modtypes;
|
|
env := store_modtype None id (Pident id) decl !env !env
|
|
| Sig_class(id, decl, _) ->
|
|
let decl' = Subst.class_declaration sub decl in
|
|
c.comp_classes <-
|
|
Tbl.add (Ident.name id) (decl', !pos) c.comp_classes;
|
|
incr pos
|
|
| Sig_class_type(id, decl, _) ->
|
|
let decl' = Subst.cltype_declaration sub decl in
|
|
c.comp_cltypes <-
|
|
Tbl.add (Ident.name id) (decl', !pos) c.comp_cltypes)
|
|
sg pl;
|
|
Structure_comps c
|
|
| Mty_functor(param, ty_arg, ty_res) ->
|
|
Functor_comps {
|
|
fcomp_param = param;
|
|
(* fcomp_arg and fcomp_res must be prefixed eagerly, because they are interpreted
|
|
in the outer environment *)
|
|
fcomp_arg = may_map (Subst.modtype sub) ty_arg;
|
|
fcomp_res = Subst.modtype sub ty_res;
|
|
fcomp_cache = Hashtbl.create 17;
|
|
fcomp_subst_cache = Hashtbl.create 17 }
|
|
| Mty_ident _
|
|
| Mty_alias _ ->
|
|
Structure_comps {
|
|
comp_values = Tbl.empty;
|
|
comp_constrs = Tbl.empty;
|
|
comp_labels = Tbl.empty;
|
|
comp_types = Tbl.empty;
|
|
comp_modules = Tbl.empty; comp_modtypes = Tbl.empty;
|
|
comp_components = Tbl.empty; comp_classes = Tbl.empty;
|
|
comp_cltypes = Tbl.empty })
|
|
|
|
(* Insertion of bindings by identifier + path *)
|
|
|
|
and check_usage loc id warn tbl =
|
|
if not loc.Location.loc_ghost && Warnings.is_active (warn "") then begin
|
|
let name = Ident.name id in
|
|
let key = (name, loc) in
|
|
if Hashtbl.mem tbl key then ()
|
|
else let used = ref false in
|
|
Hashtbl.add tbl key (fun () -> used := true);
|
|
if not (name = "" || name.[0] = '_' || name.[0] = '#')
|
|
then
|
|
!add_delayed_check_forward
|
|
(fun () -> if not !used then Location.prerr_warning loc (warn name))
|
|
end;
|
|
|
|
and store_value ?check slot id path decl env renv =
|
|
may (fun f -> check_usage decl.val_loc id f value_declarations) check;
|
|
{ env with
|
|
values = EnvTbl.add "value" slot id (path, decl) env.values renv.values;
|
|
summary = Env_value(env.summary, id, decl) }
|
|
|
|
and store_type ~check slot id path info env renv =
|
|
let loc = info.type_loc in
|
|
if check then
|
|
check_usage loc id (fun s -> Warnings.Unused_type_declaration s)
|
|
type_declarations;
|
|
let constructors = Datarepr.constructors_of_type path info in
|
|
let labels = Datarepr.labels_of_type path info in
|
|
let descrs = (List.map snd constructors, List.map snd labels) in
|
|
|
|
if check && not loc.Location.loc_ghost &&
|
|
Warnings.is_active (Warnings.Unused_constructor ("", false, false))
|
|
then begin
|
|
let ty = Ident.name id in
|
|
List.iter
|
|
begin fun (_, {cstr_name = c; _}) ->
|
|
let k = (ty, loc, c) in
|
|
if not (Hashtbl.mem used_constructors k) then
|
|
let used = constructor_usages () in
|
|
Hashtbl.add used_constructors k (add_constructor_usage used);
|
|
if not (ty = "" || ty.[0] = '_')
|
|
then !add_delayed_check_forward
|
|
(fun () ->
|
|
if not (is_in_signature env) && not used.cu_positive then
|
|
Location.prerr_warning loc
|
|
(Warnings.Unused_constructor
|
|
(c, used.cu_pattern, used.cu_privatize)))
|
|
end
|
|
constructors
|
|
end;
|
|
{ env with
|
|
constrs =
|
|
List.fold_right
|
|
(fun (id, descr) constrs ->
|
|
EnvTbl.add "constructor" slot id descr constrs renv.constrs)
|
|
constructors
|
|
env.constrs;
|
|
labels =
|
|
List.fold_right
|
|
(fun (id, descr) labels ->
|
|
EnvTbl.add "label" slot id descr labels renv.labels)
|
|
labels
|
|
env.labels;
|
|
types = EnvTbl.add "type" slot id (path, (info, descrs)) env.types
|
|
renv.types;
|
|
summary = Env_type(env.summary, id, info) }
|
|
|
|
and store_type_infos slot id path info env renv =
|
|
(* Simplified version of store_type that doesn't compute and store
|
|
constructor and label infos, but simply record the arity and
|
|
manifest-ness of the type. Used in components_of_module to
|
|
keep track of type abbreviations (e.g. type t = float) in the
|
|
computation of label representations. *)
|
|
{ env with
|
|
types = EnvTbl.add "type" slot id (path, (info,([],[]))) env.types
|
|
renv.types;
|
|
summary = Env_type(env.summary, id, info) }
|
|
|
|
and store_extension ~check slot id path ext env renv =
|
|
let loc = ext.ext_loc in
|
|
if check && not loc.Location.loc_ghost &&
|
|
Warnings.is_active (Warnings.Unused_extension ("", false, false))
|
|
then begin
|
|
let ty = Path.last ext.ext_type_path in
|
|
let n = Ident.name id in
|
|
let k = (ty, loc, n) in
|
|
if not (Hashtbl.mem used_constructors k) then begin
|
|
let used = constructor_usages () in
|
|
Hashtbl.add used_constructors k (add_constructor_usage used);
|
|
!add_delayed_check_forward
|
|
(fun () ->
|
|
if not (is_in_signature env) && not used.cu_positive then
|
|
Location.prerr_warning loc
|
|
(Warnings.Unused_extension
|
|
(n, used.cu_pattern, used.cu_privatize)
|
|
)
|
|
)
|
|
end;
|
|
end;
|
|
{ env with
|
|
constrs = EnvTbl.add "constructor" slot id
|
|
(Datarepr.extension_descr path ext)
|
|
env.constrs renv.constrs;
|
|
summary = Env_extension(env.summary, id, ext) }
|
|
|
|
and store_module slot id path md env renv =
|
|
{ env with
|
|
modules = EnvTbl.add "module" slot id (path, md) env.modules renv.modules;
|
|
components =
|
|
EnvTbl.add "module" slot id
|
|
(path, components_of_module env Subst.identity path md.md_type)
|
|
env.components renv.components;
|
|
summary = Env_module(env.summary, id, md) }
|
|
|
|
and store_modtype slot id path info env renv =
|
|
{ env with
|
|
modtypes = EnvTbl.add "module type" slot id (path, info) env.modtypes
|
|
renv.modtypes;
|
|
summary = Env_modtype(env.summary, id, info) }
|
|
|
|
and store_class slot id path desc env renv =
|
|
{ env with
|
|
classes = EnvTbl.add "class" slot id (path, desc) env.classes renv.classes;
|
|
summary = Env_class(env.summary, id, desc) }
|
|
|
|
and store_cltype slot id path desc env renv =
|
|
{ env with
|
|
cltypes = EnvTbl.add "class type" slot id (path, desc) env.cltypes
|
|
renv.cltypes;
|
|
summary = Env_cltype(env.summary, id, desc) }
|
|
|
|
(* Compute the components of a functor application in a path. *)
|
|
|
|
let components_of_functor_appl f env p1 p2 =
|
|
try
|
|
Hashtbl.find f.fcomp_cache p2
|
|
with Not_found ->
|
|
let p = Papply(p1, p2) in
|
|
let sub = Subst.add_module f.fcomp_param p2 Subst.identity in
|
|
let mty = Subst.modtype sub f.fcomp_res in
|
|
let comps = components_of_module env Subst.identity p mty in
|
|
Hashtbl.add f.fcomp_cache p2 comps;
|
|
comps
|
|
|
|
(* Define forward functions *)
|
|
|
|
let _ =
|
|
components_of_module' := components_of_module;
|
|
components_of_functor_appl' := components_of_functor_appl;
|
|
components_of_module_maker' := components_of_module_maker
|
|
|
|
(* Insertion of bindings by identifier *)
|
|
|
|
let add_functor_arg id env =
|
|
{env with
|
|
functor_args = Ident.add id () env.functor_args;
|
|
summary = Env_functor_arg (env.summary, id)}
|
|
|
|
let add_value ?check id desc env =
|
|
store_value None ?check id (Pident id) desc env env
|
|
|
|
let add_type ~check id info env =
|
|
store_type ~check None id (Pident id) info env env
|
|
|
|
and add_extension ~check id ext env =
|
|
store_extension ~check None id (Pident id) ext env env
|
|
|
|
and add_module_declaration ?(arg=false) id md env =
|
|
let path =
|
|
(*match md.md_type with
|
|
Mty_alias path -> normalize_path env path
|
|
| _ ->*) Pident id
|
|
in
|
|
let env = store_module None id path md env env in
|
|
if arg then add_functor_arg id env else env
|
|
|
|
and add_modtype id info env =
|
|
store_modtype None id (Pident id) info env env
|
|
|
|
and add_class id ty env =
|
|
store_class None id (Pident id) ty env env
|
|
|
|
and add_cltype id ty env =
|
|
store_cltype None id (Pident id) ty env env
|
|
|
|
let add_module ?arg id mty env =
|
|
add_module_declaration ?arg id (md mty) env
|
|
|
|
let add_local_constraint id info elv env =
|
|
match info with
|
|
{type_manifest = Some ty; type_newtype_level = Some (lv, _)} ->
|
|
(* elv is the expansion level, lv is the definition level *)
|
|
let env =
|
|
add_type ~check:false
|
|
id {info with type_newtype_level = Some (lv, elv)} env in
|
|
{ env with local_constraints = true }
|
|
| _ -> assert false
|
|
|
|
(* Insertion of bindings by name *)
|
|
|
|
let enter store_fun name data env =
|
|
let id = Ident.create name in (id, store_fun None id (Pident id) data env env)
|
|
|
|
let enter_value ?check = enter (store_value ?check)
|
|
and enter_type = enter (store_type ~check:true)
|
|
and enter_extension = enter (store_extension ~check:true)
|
|
and enter_module_declaration ?arg name md env =
|
|
let id = Ident.create name in
|
|
(id, add_module_declaration ?arg id md env)
|
|
(* let (id, env) = enter store_module name md env in
|
|
(id, add_functor_arg ?arg id env) *)
|
|
and enter_modtype = enter store_modtype
|
|
and enter_class = enter store_class
|
|
and enter_cltype = enter store_cltype
|
|
|
|
let enter_module ?arg s mty env =
|
|
enter_module_declaration ?arg s (md mty) env
|
|
|
|
(* Insertion of all components of a signature *)
|
|
|
|
let add_item comp env =
|
|
match comp with
|
|
Sig_value(id, decl) -> add_value id decl env
|
|
| Sig_type(id, decl, _) -> add_type ~check:false id decl env
|
|
| Sig_typext(id, ext, _) -> add_extension ~check:false id ext env
|
|
| Sig_module(id, md, _) -> add_module_declaration id md env
|
|
| Sig_modtype(id, decl) -> add_modtype id decl env
|
|
| Sig_class(id, decl, _) -> add_class id decl env
|
|
| Sig_class_type(id, decl, _) -> add_cltype id decl env
|
|
|
|
let rec add_signature sg env =
|
|
match sg with
|
|
[] -> env
|
|
| comp :: rem -> add_signature rem (add_item comp env)
|
|
|
|
(* Open a signature path *)
|
|
|
|
let open_signature slot root sg env0 =
|
|
(* First build the paths and substitution *)
|
|
let (pl, sub, sg) = prefix_idents_and_subst root Subst.identity sg in
|
|
let sg = Lazy.force sg in
|
|
|
|
(* Then enter the components in the environment after substitution *)
|
|
|
|
let newenv =
|
|
List.fold_left2
|
|
(fun env item p ->
|
|
match item with
|
|
Sig_value(id, decl) ->
|
|
store_value slot (Ident.hide id) p decl env env0
|
|
| Sig_type(id, decl, _) ->
|
|
store_type ~check:false slot (Ident.hide id) p decl env env0
|
|
| Sig_typext(id, ext, _) ->
|
|
store_extension ~check:false slot (Ident.hide id) p ext env env0
|
|
| Sig_module(id, mty, _) ->
|
|
store_module slot (Ident.hide id) p mty env env0
|
|
| Sig_modtype(id, decl) ->
|
|
store_modtype slot (Ident.hide id) p decl env env0
|
|
| Sig_class(id, decl, _) ->
|
|
store_class slot (Ident.hide id) p decl env env0
|
|
| Sig_class_type(id, decl, _) ->
|
|
store_cltype slot (Ident.hide id) p decl env env0
|
|
)
|
|
env0 sg pl in
|
|
{ newenv with summary = Env_open(env0.summary, root) }
|
|
|
|
(* Open a signature from a file *)
|
|
|
|
let open_pers_signature name env =
|
|
let ps = find_pers_struct name in
|
|
open_signature None (Pident(Ident.create_persistent name))
|
|
(Lazy.force ps.ps_sig) env
|
|
|
|
let open_signature ?(loc = Location.none) ?(toplevel = false) ovf root sg env =
|
|
if not toplevel && ovf = Asttypes.Fresh && not loc.Location.loc_ghost
|
|
&& (Warnings.is_active (Warnings.Unused_open "")
|
|
|| Warnings.is_active (Warnings.Open_shadow_identifier ("", ""))
|
|
|| Warnings.is_active (Warnings.Open_shadow_label_constructor ("","")))
|
|
then begin
|
|
let used = ref false in
|
|
!add_delayed_check_forward
|
|
(fun () ->
|
|
if not !used then
|
|
Location.prerr_warning loc (Warnings.Unused_open (Path.name root))
|
|
);
|
|
let shadowed = ref [] in
|
|
let slot kind s b =
|
|
if b && not (List.mem (kind, s) !shadowed) then begin
|
|
shadowed := (kind, s) :: !shadowed;
|
|
let w =
|
|
match kind with
|
|
| "label" | "constructor" ->
|
|
Warnings.Open_shadow_label_constructor (kind, s)
|
|
| _ -> Warnings.Open_shadow_identifier (kind, s)
|
|
in
|
|
Location.prerr_warning loc w
|
|
end;
|
|
used := true
|
|
in
|
|
open_signature (Some slot) root sg env
|
|
end
|
|
else open_signature None root sg env
|
|
|
|
(* Read a signature from a file *)
|
|
|
|
let read_signature modname filename =
|
|
let ps = read_pers_struct modname filename in
|
|
check_consistency ps;
|
|
Lazy.force ps.ps_sig
|
|
|
|
(* Return the CRC of the interface of the given compilation unit *)
|
|
|
|
let crc_of_unit name =
|
|
let ps = find_pers_struct name in
|
|
let crco =
|
|
try
|
|
List.assoc name ps.ps_crcs
|
|
with Not_found ->
|
|
assert false
|
|
in
|
|
match crco with
|
|
None -> assert false
|
|
| Some crc -> crc
|
|
|
|
(* Return the list of imported interfaces with their CRCs *)
|
|
|
|
let imports() =
|
|
Consistbl.extract (StringSet.elements !imported_units) crc_units
|
|
|
|
(* Save a signature to a file *)
|
|
|
|
let save_signature_with_imports sg modname filename imports =
|
|
(*prerr_endline filename;
|
|
List.iter (fun (name, crc) -> prerr_endline name) imports;*)
|
|
Btype.cleanup_abbrev ();
|
|
Subst.reset_for_saving ();
|
|
let sg = Subst.signature (Subst.for_saving Subst.identity) sg in
|
|
let oc = open_out_bin filename in
|
|
try
|
|
let cmi = {
|
|
cmi_name = modname;
|
|
cmi_sign = sg;
|
|
cmi_crcs = imports;
|
|
cmi_flags = if !Clflags.recursive_types then [Rectypes] else [];
|
|
} in
|
|
let crc = output_cmi filename oc cmi in
|
|
close_out oc;
|
|
(* Enter signature in persistent table so that imported_unit()
|
|
will also return its crc *)
|
|
let comps =
|
|
components_of_module empty Subst.identity
|
|
(Pident(Ident.create_persistent modname)) (Mty_signature sg) in
|
|
let ps =
|
|
{ ps_name = modname;
|
|
ps_sig = lazy (Subst.signature Subst.identity sg);
|
|
ps_comps = comps;
|
|
ps_crcs = (cmi.cmi_name, Some crc) :: imports;
|
|
ps_filename = filename;
|
|
ps_flags = cmi.cmi_flags;
|
|
ps_crcs_checked = false;
|
|
} in
|
|
Hashtbl.add persistent_structures modname (Some ps);
|
|
Consistbl.set crc_units modname crc filename;
|
|
add_import modname;
|
|
sg
|
|
with exn ->
|
|
close_out oc;
|
|
remove_file filename;
|
|
raise exn
|
|
|
|
let save_signature sg modname filename =
|
|
save_signature_with_imports sg modname filename (imports())
|
|
|
|
(* Folding on environments *)
|
|
|
|
let find_all proj1 proj2 f lid env acc =
|
|
match lid with
|
|
| None ->
|
|
EnvTbl.fold_name
|
|
(fun id (p, data) acc -> f (Ident.name id) p data acc)
|
|
(proj1 env) acc
|
|
| Some l ->
|
|
let p, desc = lookup_module_descr l env in
|
|
begin match EnvLazy.force components_of_module_maker desc with
|
|
Structure_comps c ->
|
|
Tbl.fold
|
|
(fun s (data, pos) acc -> f s (Pdot (p, s, pos)) data acc)
|
|
(proj2 c) acc
|
|
| Functor_comps _ ->
|
|
acc
|
|
end
|
|
|
|
let find_all_simple_list proj1 proj2 f lid env acc =
|
|
match lid with
|
|
| None ->
|
|
EnvTbl.fold_name
|
|
(fun id data acc -> f data acc)
|
|
(proj1 env) acc
|
|
| Some l ->
|
|
let p, desc = lookup_module_descr l env in
|
|
begin match EnvLazy.force components_of_module_maker desc with
|
|
Structure_comps c ->
|
|
Tbl.fold
|
|
(fun s comps acc ->
|
|
match comps with
|
|
[] -> acc
|
|
| (data, pos) :: _ ->
|
|
f data acc)
|
|
(proj2 c) acc
|
|
| Functor_comps _ ->
|
|
acc
|
|
end
|
|
|
|
let fold_modules f lid env acc =
|
|
match lid with
|
|
| None ->
|
|
let acc =
|
|
EnvTbl.fold_name
|
|
(fun id (p, data) acc -> f (Ident.name id) p data acc)
|
|
env.modules
|
|
acc
|
|
in
|
|
Hashtbl.fold
|
|
(fun name ps acc ->
|
|
match ps with
|
|
None -> acc
|
|
| Some ps ->
|
|
f name (Pident(Ident.create_persistent name))
|
|
(md (Mty_signature (Lazy.force ps.ps_sig))) acc)
|
|
persistent_structures
|
|
acc
|
|
| Some l ->
|
|
let p, desc = lookup_module_descr l env in
|
|
begin match EnvLazy.force components_of_module_maker desc with
|
|
Structure_comps c ->
|
|
Tbl.fold
|
|
(fun s (data, pos) acc ->
|
|
f s (Pdot (p, s, pos))
|
|
(md (EnvLazy.force subst_modtype_maker data)) acc)
|
|
c.comp_modules
|
|
acc
|
|
| Functor_comps _ ->
|
|
acc
|
|
end
|
|
|
|
let fold_values f =
|
|
find_all (fun env -> env.values) (fun sc -> sc.comp_values) f
|
|
and fold_constructors f =
|
|
find_all_simple_list (fun env -> env.constrs) (fun sc -> sc.comp_constrs) f
|
|
and fold_labels f =
|
|
find_all_simple_list (fun env -> env.labels) (fun sc -> sc.comp_labels) f
|
|
and fold_types f =
|
|
find_all (fun env -> env.types) (fun sc -> sc.comp_types) f
|
|
and fold_modtypes f =
|
|
find_all (fun env -> env.modtypes) (fun sc -> sc.comp_modtypes) f
|
|
and fold_classs f =
|
|
find_all (fun env -> env.classes) (fun sc -> sc.comp_classes) f
|
|
and fold_cltypes f =
|
|
find_all (fun env -> env.cltypes) (fun sc -> sc.comp_cltypes) f
|
|
|
|
|
|
(* Make the initial environment *)
|
|
let (initial_safe_string, initial_unsafe_string) =
|
|
Predef.build_initial_env
|
|
(add_type ~check:false)
|
|
(add_extension ~check:false)
|
|
empty
|
|
|
|
(* Return the environment summary *)
|
|
|
|
let summary env = env.summary
|
|
|
|
let last_env = ref empty
|
|
let last_reduced_env = ref empty
|
|
|
|
let keep_only_summary env =
|
|
if !last_env == env then !last_reduced_env
|
|
else begin
|
|
let new_env =
|
|
{
|
|
empty with
|
|
summary = env.summary;
|
|
local_constraints = env.local_constraints;
|
|
flags = env.flags;
|
|
}
|
|
in
|
|
last_env := env;
|
|
last_reduced_env := new_env;
|
|
new_env
|
|
end
|
|
|
|
|
|
let env_of_only_summary env_from_summary env =
|
|
let new_env = env_from_summary env.summary Subst.identity in
|
|
{ new_env with
|
|
local_constraints = env.local_constraints;
|
|
flags = env.flags;
|
|
}
|
|
|
|
(* Error report *)
|
|
|
|
open Format
|
|
|
|
let report_error ppf = function
|
|
| Illegal_renaming(modname, ps_name, filename) -> fprintf ppf
|
|
"Wrong file naming: %a@ contains the compiled interface for @ \
|
|
%s when %s was expected"
|
|
Location.print_filename filename ps_name modname
|
|
| Inconsistent_import(name, source1, source2) -> fprintf ppf
|
|
"@[<hov>The files %a@ and %a@ \
|
|
make inconsistent assumptions@ over interface %s@]"
|
|
Location.print_filename source1 Location.print_filename source2 name
|
|
| Need_recursive_types(import, export) ->
|
|
fprintf ppf
|
|
"@[<hov>Unit %s imports from %s, which uses recursive types.@ %s@]"
|
|
export import "The compilation flag -rectypes is required"
|
|
| Missing_module(_, path1, path2) ->
|
|
fprintf ppf "@[@[<hov>";
|
|
if Path.same path1 path2 then
|
|
fprintf ppf "Internal path@ %s@ is dangling." (Path.name path1)
|
|
else
|
|
fprintf ppf "Internal path@ %s@ expands to@ %s@ which is dangling."
|
|
(Path.name path1) (Path.name path2);
|
|
fprintf ppf "@]@ @[%s@ %s@ %s.@]@]"
|
|
"The compiled interface for module" (Ident.name (Path.head path2))
|
|
"was not found"
|
|
|
|
let () =
|
|
Location.register_error_of_exn
|
|
(function
|
|
| Error (Missing_module (loc, _, _) as err) when loc <> Location.none ->
|
|
Some (Location.error_of_printer loc report_error err)
|
|
| Error err -> Some (Location.error_of_printer_file report_error err)
|
|
| _ -> None
|
|
)
|