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|
module C = Collections
(** Signature for a module describing an identifier.
We often need identifiers (for definitions, variables, etc.) and in
order to make sure we don't mix them, we use a generative functor
(see [IdGen]).
*)
module type Id = sig
type id
type generator
(** Id generator - simply a counter *)
val zero : id
val generator_zero : generator
val generator_from_incr_id : id -> generator
val fresh_stateful_generator : unit -> generator ref * (unit -> id)
val mk_stateful_generator : generator -> generator ref * (unit -> id)
val incr : id -> id
(* TODO: this should be stateful! - but we may want to be able to duplicate
contexts...
Maybe we could have a `fresh` and a `global_fresh`
TODO: change the order of the returned types
*)
val fresh : generator -> id * generator
val to_string : id -> string
val pp_id : Format.formatter -> id -> unit
val show_id : id -> string
val id_of_json : Yojson.Basic.t -> (id, string) result
val compare_id : id -> id -> int
val max : id -> id -> id
val min : id -> id -> id
val pp_generator : Format.formatter -> generator -> unit
val show_generator : generator -> string
val to_int : id -> int
val of_int : int -> id
val nth : 'a list -> id -> 'a
(* TODO: change the signature (invert the index and the list *)
val nth_opt : 'a list -> id -> 'a option
val update_nth : 'a list -> id -> 'a -> 'a list
(** Update the nth element of the list.
Raises [Invalid_argument] if the identifier is out of range.
*)
val mapi : (id -> 'a -> 'b) -> 'a list -> 'b list
val mapi_from1 : (id -> 'a -> 'b) -> 'a list -> 'b list
(** Same as [mapi], but where the indices start with 1.
TODO: generalize to `map_from_i`
*)
val iteri : (id -> 'a -> unit) -> 'a list -> unit
module Ord : C.OrderedType with type t = id
module Set : C.Set with type elt = id
module Map : C.Map with type key = id
end
(** Generative functor for identifiers.
See [Id].
*)
module IdGen () : Id = struct
(* TODO: use Z.t *)
type id = int [@@deriving show]
type generator = id [@@deriving show]
let zero = 0
let generator_zero = 0
let incr x =
(* Identifiers should never overflow (because max_int is a really big
* value - but we really want to make sure we detect overflows if
* they happen *)
if x == max_int then raise (Errors.IntegerOverflow ()) else x + 1
let generator_from_incr_id id =
let id = incr id in
id
let mk_stateful_generator g =
let g = ref g in
let fresh () =
let id = !g in
g := incr id;
id
in
(g, fresh)
let fresh_stateful_generator () = mk_stateful_generator 0
let fresh gen = (gen, incr gen)
let to_string = string_of_int
let to_int x = x
let of_int x = x
let id_of_json js =
(* TODO: check boundaries ? *)
match js with
| `Int i -> Ok i
| _ -> Error ("id_of_json: failed on " ^ Yojson.Basic.show js)
let compare_id = compare
let max id0 id1 = if id0 > id1 then id0 else id1
let min id0 id1 = if id0 < id1 then id0 else id1
let nth v id = List.nth v id
let nth_opt v id = List.nth_opt v id
let rec update_nth vec id v =
match (vec, id) with
| [], _ -> raise (Invalid_argument "Out of range")
| _ :: vec', 0 -> v :: vec'
| x :: vec', _ -> x :: update_nth vec' (id - 1) v
let mapi = List.mapi
let mapi_from1 f ls =
let rec aux i ls =
match ls with [] -> [] | x :: ls' -> f i x :: aux (i + 1) ls'
in
aux 1 ls
let iteri = List.iteri
module Ord = struct
type t = id
let compare = compare
let to_string = to_string
let pp_t = pp_id
let show_t = show_id
end
module Set = C.MakeSet (Ord)
module Map = C.MakeMap (Ord)
end
type name = string list [@@deriving show, ord]
(** A name such as: `std::collections::vector` (which would be represented as
[["std"; "collections"; "vector"]]) *)
module NameOrderedType : C.OrderedType with type t = name = struct
type t = name
let compare = compare_name
let to_string = String.concat "::"
let pp_t = pp_name
let show_t = show_name
end
module NameMap = C.MakeMap (NameOrderedType)
module NameSet = C.MakeSet (NameOrderedType)
|
