(************************************************************************) (* * The Rocq Prover / The Rocq Development Team *) (* v * Copyright INRIA, CNRS and contributors *) (* <O___,, * (see version control and CREDITS file for authors & dates) *) (* \VV/ **************************************************************) (* // * This file is distributed under the terms of the *) (* * GNU Lesser General Public License Version 2.1 *) (* * (see LICENSE file for the text of the license) *) (************************************************************************)
(** This file defines a lot of different notions of names used pervasively in the kernel as well as in other places. The essential datatypes exported by this API are:
- Id.t is the type of identifiers, that is morally a subset of strings which only contains Unicode characters of the Letter kind (and a few more). - Name.t is an ad-hoc variant of Id.t option allowing to handle optionally named objects. - DirPath.t represents generic paths as sequences of identifiers. - Label.t is an equivalent of Id.t made distinct for semantical purposes. - ModPath.t are module paths. - KerName.t are absolute names of objects in Rocq.
*)
open Util
(** {6 Identifiers } *)
(** Representation and operations on identifiers. *)
module Id : sig type t (** Values of this type represent (Rocq) identifiers. *)
val equal : t -> t -> bool (** Equality over identifiers. *)
val compare : t -> t -> int (** Comparison over identifiers. *)
val hash : t -> int (** Hash over identifiers. *)
val is_valid : string -> bool (** Check that a string may be converted to an identifier. *)
val is_valid_ident_part : string -> bool (** Check that a string is a valid part of an identifier *)
val of_bytes : bytes -> t val of_string : string -> t (** Converts a string into an identifier.
@raise UserError if the string is invalid as an identifier. *)
val of_string_soft : string -> t (** Same as {!of_string} except that any string made of supported UTF-8 characters is accepted.
@raise UserError if the string is invalid as an UTF-8 string. *)
val to_string : t -> string (** Converts a identifier into an string. *)
valprint : t -> Pp.t (** Pretty-printer. *)
module Set : Set.ExtS withtype elt = t (** Finite sets of identifiers. *)
module Map : Map.ExtS withtype key = t and module Set := Set (** Finite maps of identifiers. *)
module Pred : Predicate.S withtype elt = t (** Predicates over identifiers. *)
module List : List.MonoS withtype elt = t (** Operations over lists of identifiers. *)
val hcons : t Hashcons.f (** Hashconsing of identifiers. *)
end
(** Representation and operations on identifiers that are allowed to be anonymous
(i.e. "_" in concrete syntax). *)
module Name : sig type t = Anonymous (** anonymous identifier *)
| Name of Id.t (** non-anonymous identifier *)
val mk_name : Id.t -> t (** constructor *)
val is_anonymous : t -> bool (** Return [true] iff a given name is [Anonymous]. *)
val is_name : t -> bool (** Return [true] iff a given name is [Name _]. *)
val compare : t -> t -> int (** Comparison over names. *)
val equal : t -> t -> bool (** Equality over names. *)
val hash : t -> int (** Hash over names. *)
val hcons : t Hashcons.f (** Hashconsing over names. *)
valprint : t -> Pp.t (** Pretty-printer (print "_" for [Anonymous]. *)
end
(** {6 Type aliases} *)
type name = Name.t = Anonymous | Name of Id.t
[@@ocaml.deprecated "(8.8) Use Name.t"]
type variable = Id.t
(** {6 Directory paths = section names paths } *)
module DirPath : sig type t (** Type of directory paths. Essentially a list of module identifiers. The
order is reversed to improve sharing. E.g. A.B.C is ["C";"B";"A"] *)
val equal : t -> t -> bool (** Equality over directory paths. *)
val compare : t -> t -> int (** Comparison over directory paths. *)
val hash : t -> int (** Hash over directory paths. *)
val make : Id.t list -> t (** Create a directory path. (The list must be reversed). *)
val repr : t -> Id.t list (** Represent a directory path. (The result list is reversed). *)
val empty : t (** The empty directory path. *)
val is_empty : t -> bool (** Test whether a directory path is empty. *)
val dummy : t (** Used in [Safe_typing.empty_environment] and similar *)
val hcons : t Hashcons.f (** Hashconsing of directory paths. *)
val to_string : t -> string (** Print non-empty directory paths as ["root.module.submodule"] *)
module type EqType = sig type t val compare : t -> t -> int val equal : t -> t -> bool val hash : t -> int end
module type QNameS = sig type t (** A type of reference that implements an implicit quotient by containing two different names. The first one is the user name, i.e. what the user sees when printing. The second one is the canonical name, which is the actual absolute name of the reference.
This mechanism is fundamentally tied to the module system of Rocq. Functor application and module inclusion are the typical ways to introduce names where the canonical and user components differ. In particular, the two components should be undistinguishable from the point of view of typing, i.e. from a "kernel" ground. This aliasing only makes sense inside an environment, but at this point this notion is not even defined so, this dual name trick is fragile. One has to ensure many invariants when creating such names, but the kernel is quite lenient when it comes to checking that these invariants hold. (Read: there are soundness bugs lurking in the module system.)
One could enforce the invariants by splitting the names and storing that information in the environment instead, but unfortunately, this wreaks havoc in the upper layers. The latter are infamously not stable by syntactic equality, in particular they might observe the difference between canonical and user names if not packed together.
For this reason, it is discouraged to use the canonical-accessing API in the upper layers, notably the [CanOrd] module below. Instead, one should use their quotiented versions defined in the [Environ] module. Eventually all uses to [CanOrd] outside of the kernel should be removed.
CAVEAT: name sets and maps are still exposing a canonical-accessing API
surreptitiously. *)
module CanOrd : EqType withtype t = t (** Equality functions over the canonical name. Their use should be
restricted to the kernel. *)
module UserOrd : EqType withtype t = t (** Equality functions over the user name. *)
module SyntacticOrd : EqType withtype t = t (** Equality functions using both names, for low-level uses. *)
val canonize : t -> t (** Returns the canonical version of the name *) end
(** {6 Constant Names } *)
module Constant: sig type t
(** Constructors *)
val make : KerName.t -> KerName.t -> t (** Builds a constant name from a user and a canonical kernel name. *)
val make1 : KerName.t -> t (** Special case of [make] where the user name is canonical. *)
val make2 : ModPath.t -> Label.t -> t (** Shortcut for [(make1 (KerName.make ...))] *)
(** Projections *)
val user : t -> KerName.t val canonical : t -> KerName.t
val modpath : t -> ModPath.t (** Shortcut for [KerName.modpath (user ...)] *)
val label : t -> Label.t (** Shortcut for [KerName.label (user ...)] *)
(** Comparisons *)
include QNameS withtype t := t
val equal : t -> t -> bool [@@ocaml.deprecated "(8.13) Use QConstant.equal"] (** Default comparison, alias for [CanOrd.equal] *)
val hash : t -> int [@@ocaml.deprecated "(8.13) Use QConstant.hash"] (** Hashing function *)
val change_label : t -> Label.t -> t (** Builds a new constant name with a different label *)
(** Displaying *)
val to_string : t -> string (** Encode as a string (not to be used for user-facing messages). *)
valprint : t -> Pp.t (** Print internal representation (not to be used for user-facing messages). *)
val debug_to_string : t -> string (** Same as [to_string], but outputs extra information related to debug. *)
val debug_print : t -> Pp.t (** Same as [print], but outputs extra information related to debug. *)
end
(** The [*_env] modules consider an order on user part of names
the others consider an order on canonical part of names*)
module Cpred : Predicate.S withtype elt = Constant.t
module Cset : CSig.USetS withtype elt = Constant.t
module Cset_env : CSig.USetS withtype elt = Constant.t
module Cmap : Map.UExtS withtype key = Constant.t and module Set := Cset (** A map whose keys are constants (values of the {!Constant.t} type).
Keys are ordered wrt. "canonical form" of the constant. *)
module Cmap_env : Map.UExtS withtype key = Constant.t and module Set := Cset_env (** A map whose keys are constants (values of the {!Constant.t} type).
Keys are ordered wrt. "user form" of the constant. *)
(** {6 Inductive names} *)
module MutInd : sig type t
(** Constructors *)
val make : KerName.t -> KerName.t -> t (** Builds a mutual inductive name from a user and a canonical kernel name. *)
val make1 : KerName.t -> t (** Special case of [make] where the user name is canonical. *)
val make2 : ModPath.t -> Label.t -> t (** Shortcut for [(make1 (KerName.make ...))] *)
(** Projections *)
val user : t -> KerName.t val canonical : t -> KerName.t
val modpath : t -> ModPath.t (** Shortcut for [KerName.modpath (user ...)] *)
val label : t -> Label.t (** Shortcut for [KerName.label (user ...)] *)
(** Comparisons *)
include QNameS withtype t := t
val equal : t -> t -> bool [@@ocaml.deprecated "(8.13) Use QMutInd.equal"] (** Default comparison, alias for [CanOrd.equal] *)
val hash : t -> int [@@ocaml.deprecated "(8.13) Use QMutInd.hash"]
(** Displaying *)
val to_string : t -> string (** Encode as a string (not to be used for user-facing messages). *)
valprint : t -> Pp.t (** Print internal representation (not to be used for user-facing messages). *)
val debug_to_string : t -> string (** Same as [to_string], but outputs extra information related to debug. *)
val debug_print : t -> Pp.t (** Same as [print], but outputs extra information related to debug. *)
module Ind : sig (** Designation of a (particular) inductive type. *) type t = MutInd.t (* the name of the inductive type *)
* int (* the position of this inductive type within the block of mutually-recursive inductive types.
BEWARE: indexing starts from 0. *) val modpath : t -> ModPath.t
include QNameS withtype t := t
end
type inductive = Ind.t
module Construct : sig (** Designation of a (particular) constructor of a (particular) inductive type. *) type t = Ind.t (* designates the inductive type *)
* int (* the index of the constructor
BEWARE: indexing starts from 1. *)
val ith_mutual_inductive : inductive -> int -> inductive val ith_constructor_of_inductive : inductive -> int -> constructor val inductive_of_constructor : constructor -> inductive val index_of_constructor : constructor -> int
(** {6 Hash-consing } *)
val hcons_con : Constant.t Hashcons.f val hcons_mind : MutInd.t Hashcons.f val hcons_ind : inductive Hashcons.f val hcons_construct : constructor Hashcons.f
(******)
type'a tableKey =
| ConstKey of'a
| VarKey of Id.t
| RelKey of Int.t
type inv_rel_key = int (** index in the [rel_context] part of environment starting by the end, {e inverse}
of de Bruijn indice *)
val eq_table_key : ('a -> 'a -> bool) -> 'a tableKey -> 'a tableKey -> bool val hash_table_key : ('a -> int) -> 'a tableKey -> int val eq_constant_key : Constant.t -> Constant.t -> bool
(** equalities on constant and inductive names (for the checker) *)
val eq_ind_chk : inductive -> inductive -> bool
(** {5 Module paths} *)
type module_path = ModPath.t =
| MPfile of DirPath.t
| MPbound of MBId.t
| MPdot of ModPath.t * Label.t
[@@ocaml.deprecated "(8.8) Alias type"]
module Projection : sig
module Repr : sig type t
val make : inductive -> proj_npars:int -> proj_arg:int -> Label.t -> t
include QNameS withtype t := t
val constant : t -> Constant.t (** Don't use this if you don't have to. *)
val inductive : t -> inductive val mind : t -> MutInd.t val npars : t -> int val arg : t -> int val label : t -> Label.t
val equal : t -> t -> bool [@@ocaml.deprecated "(8.13) Use QProjection.equal"] val hash : t -> int [@@ocaml.deprecated "(8.13) Use QProjection.hash"] val compare : t -> t -> int [@@ocaml.deprecated "(8.13) Use QProjection.compare"]
valmap : (MutInd.t -> MutInd.t) -> t -> t val map_npars : (int -> int) -> t -> t
val to_string : t -> string (** Encode as a string (not to be used for user-facing messages). *)
valprint : t -> Pp.t (** Print internal representation (not to be used for user-facing messages). *)
end type t (* = Repr.t * bool *)
val make : Repr.t -> bool -> t val repr : t -> Repr.t
include QNameS withtype t := t
val constant : t -> Constant.t val mind : t -> MutInd.t val inductive : t -> inductive val npars : t -> int val arg : t -> int val label : t -> Label.t val unfolded : t -> bool val unfold : t -> t
val equal : t -> t -> bool
[@@ocaml.deprecated "(8.13) Use QProjection.equal"] val hash : t -> int
[@@ocaml.deprecated "(8.13) Use QProjection.hash"] val hcons : t Hashcons.f (** Hashconsing of projections. *)
val repr_equal : t -> t -> bool
[@@ocaml.deprecated "(8.13) Use an explicit projection of Repr"] (** Ignoring the unfolding boolean. *)
val compare : t -> t -> int
[@@ocaml.deprecated "(8.13) Use QProjection.compare"]
valmap : (MutInd.t -> MutInd.t) -> t -> t val map_npars : (int -> int) -> t -> t
val to_string : t -> string (** Encode as a string (not to be used for user-facing messages). *)
valprint : t -> Pp.t (** Print internal representation (not to be used for user-facing messages). *)
val debug_to_string : t -> string (** Same as [to_string], but outputs extra information related to debug. *)
val debug_print : t -> Pp.t (** Same as [print], but outputs extra information related to debug. *)
(** {6 Global reference is a kernel side type for all references together } *)
module GlobRef : sig
type t =
| VarRef of variable (** A reference to the section-context. *)
| ConstRef of Constant.t (** A reference to the environment. *)
| IndRef of inductive (** A reference to an inductive type. *)
| ConstructRef of constructor (** A reference to a constructor of an inductive type. *)
val equal : t -> t -> bool
[@@ocaml.deprecated "(8.18) Use QGlobRef.equal"]
val is_bound : t -> bool
include QNameS withtype t := t
module Set_env : CSig.USetS withtype elt = t
module Map_env : Map.UExtS withtype key = t and module Set := Set_env
module Set : CSig.USetS withtype elt = t
module Map : Map.UExtS withtype key = t and module Set := Set
valprint : t -> Pp.t (** Print internal representation (not to be used for user-facing messages). *)
end
(** Located identifiers and objects with syntax. *)
type lident = Id.t CAst.t type lname = Name.t CAst.t type lstring = string CAst.t
val lident_eq : lident -> lident -> bool
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