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(**************************************************************************)
(* *)
(* SMTCoq *)
(* Copyright (C) 2011 - 2019 *)
(* *)
(* See file "AUTHORS" for the list of authors *)
(* *)
(* This file is distributed under the terms of the CeCILL-C licence *)
(* *)
(**************************************************************************)
(** Hash tables for hash consing *)
(*s Hash tables for hash consing.
Hash consed values are of the
following type [hash_consed]. The field [tag] contains a unique
integer (for values hash consed with the same table). The field
[hkey] contains the hash key of the value (without modulo) for
possible use in other hash tables (and internally when hash
consing tables are resized). The field [node] contains the value
itself.
Hash consing tables are using weak pointers, so that values that are no
more referenced from anywhere else can be erased by the GC. *)
module type HashedType =
sig
type t
val equal : t -> t -> bool
val hash : t -> int
val tag : int -> t -> t
end
module type S =
sig
type t
val hashcons : t -> t
(** [hashcons n f] hash-cons the value [n] using function [f] i.e. returns
any existing value in the table equal to [n], if any;
otherwise, creates a new value with function [f], stores it
in the table and returns it. Function [f] is passed
the node [n] as first argument and the unique id as second argument.
*)
val iter : (t -> unit) -> unit
(** [iter f] iterates [f] over all elements of the table . *)
val stats : unit -> int * int * int * int * int * int
(** Return statistics on the table. The numbers are, in order:
table length, number of entries, sum of bucket lengths,
smallest bucket length, median bucket length, biggest
bucket length. *)
end
module Make(H : HashedType) : (S with type t = H.t)
(* For simple use *)
type 'a hash_consed = private {
tag : int;
node : 'a }
module type HashedType_consed =
sig
type t
val equal : t -> t -> bool
val hash : t -> int
end
module type S_consed =
sig
type key
val hashcons : key -> key hash_consed
(** [hashcons n f] hash-cons the value [n] using function [f] i.e. returns
any existing value in the table equal to [n], if any;
otherwise, creates a new value with function [f], stores it
in the table and returns it. Function [f] is passed
the node [n] as first argument and the unique id as second argument.
*)
val iter : (key hash_consed -> unit) -> unit
(** [iter f] iterates [f] over all elements of the table . *)
val stats : unit -> int * int * int * int * int * int
(** Return statistics on the table. The numbers are, in order:
table length, number of entries, sum of bucket lengths,
smallest bucket length, median bucket length, biggest
bucket length. *)
end
module Make_consed(H : HashedType_consed) : (S_consed with type key = H.t)
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