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(*
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* Copyright (c) Facebook, Inc. and its affiliates.
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*
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* This source code is licensed under the MIT license found in the
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* LICENSE file in the root directory of this source tree.
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*)
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open! NS0
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include NSMap_intf
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type ('key, +'a, 'compare_key) t = ('key, 'a, 'compare_key) Map.t
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[@@deriving compare, equal, sexp]
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type ('compare_key, 'compare_a) compare =
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('compare_key, 'compare_a) Map.compare
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[@@deriving compare, equal, sexp]
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module Make_from_Comparer (Key : sig
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type t [@@deriving equal, sexp_of]
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include Comparer.S with type t := t
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end) =
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struct
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module M = Map.Make [@inlined] (Key)
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type key = Key.t
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type compare_key = Key.compare
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type 'a t = 'a M.t [@@deriving compare]
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type 'compare_a compare = 'compare_a M.compare
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[@@deriving compare, equal, sexp]
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let comparer = M.comparer
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include M.Provide_equal (Key)
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include M.Provide_sexp_of (Key)
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module Provide_of_sexp = M.Provide_of_sexp
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let empty = M.empty
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let singleton = M.singleton
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let add_exn ~key ~data m =
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assert (not (M.mem key m)) ;
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M.add key data m
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let add ~key ~data m = M.add key data m
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let add_multi ~key ~data m =
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M.update key
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(function Some vs -> Some (data :: vs) | None -> Some [data])
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m
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let remove key m = M.remove key m
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let merge l r ~f =
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let combine k lo ro =
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match (lo, ro) with
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| Some lv, Some rv -> f k (`Both (lv, rv))
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| Some lv, None -> f k (`Left lv)
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| None, Some rv -> f k (`Right rv)
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| None, None -> None
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in
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M.merge combine l r
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let merge_endo l r ~f =
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let change = ref false in
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let l' =
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merge l r ~f:(fun key side ->
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let f_side = f key side in
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( match (side, f_side) with
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| (`Both (data, _) | `Left data), Some data' when data' == data ->
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()
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| _ -> change := true ) ;
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f_side )
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in
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if !change then l' else l
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let union x y ~f = M.union f x y
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let union_absent t u =
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let change = ref false in
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let t' =
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M.merge
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(fun _ v1 v2 ->
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match v1 with
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| Some _ -> v1
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| None ->
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change := true ;
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v2 )
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t u
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in
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if !change then t' else t
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let partition m ~f = M.partition f m
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let partition_map m ~f =
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M.fold
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(fun k v (l, r) ->
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match (f k v : _ Either.t) with
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| Left a -> (M.add k a l, r)
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| Right b -> (l, M.add k b r) )
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m (empty, empty)
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let is_empty = M.is_empty
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let is_singleton = M.is_singleton
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let length = M.cardinal
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let only_binding = M.only_binding
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let classify = M.classify
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let choose = M.choose_opt
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let choose_exn = M.choose
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let min_binding = M.min_binding_opt
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let max_binding = M.max_binding_opt
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let mem k m = M.mem k m
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let find_exn k m = M.find k m
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let find k m = M.find_opt k m
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let find_multi k m =
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match M.find_opt k m with None -> [] | Some vs -> vs
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let find_update x m ~f =
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let found = ref None in
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let m =
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M.update x
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(function
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| None -> f None
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| some_v ->
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found := some_v ;
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f some_v )
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m
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in
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(!found, m)
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let find_and_remove = find_update ~f:(fun _ -> None)
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let find_or_add k v m =
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find_update k ~f:(function None -> Some v | some_v -> some_v) m
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let pop_min_binding m =
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min_binding m |> Option.map ~f:(fun (k, v) -> (k, v, remove k m))
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let update k m ~f = M.update k f m
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let map m ~f = M.map f m
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let mapi m ~f = M.mapi (fun key data -> f ~key ~data) m
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let map_endo t ~f = map_endo map t ~f
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let filter_mapi m ~f = M.filter_map (fun key data -> f ~key ~data) m
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let iter m ~f = M.iter (fun _ data -> f data) m
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let iteri m ~f = M.iter (fun key data -> f ~key ~data) m
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let existsi m ~f = M.exists (fun key data -> f ~key ~data) m
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let for_alli m ~f = M.for_all (fun key data -> f ~key ~data) m
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let fold m s ~f = M.fold (fun key data acc -> f ~key ~data acc) m s
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let fold_until (type res) m s ~f ~finish =
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let state = ref s in
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let exception Stop of res in
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try
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iteri m ~f:(fun ~key ~data ->
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match f ~key ~data !state with
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| `Continue s -> state := s
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| `Stop r -> raise_notrace (Stop r) ) ;
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finish !state
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with Stop r -> r
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let keys m = Iter.from_iter (fun f -> M.iter (fun k _ -> f k) m)
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let values m = Iter.from_iter (fun f -> M.iter (fun _ v -> f v) m)
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let to_iter m = Iter.from_iter (fun f -> M.iter (fun k v -> f (k, v)) m)
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let of_iter s = Iter.fold s M.empty ~f:(fun (k, v) m -> M.add k v m)
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let to_list = M.bindings
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let of_list l = List.fold_left l M.empty ~f:(fun m (k, v) -> M.add k v m)
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let symmetric_diff l r ~eq =
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let seq = ref Iter.empty in
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let yield x = seq := Iter.cons x !seq in
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merge l r ~f:(fun k vv ->
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( match vv with
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| `Both (lv, rv) when eq lv rv -> ()
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| `Both vv -> yield (k, `Unequal vv)
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| `Left lv -> yield (k, `Left lv)
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| `Right rv -> yield (k, `Right rv) ) ;
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None )
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|> ignore ;
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!seq
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let pp pp_k pp_v fs m =
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Format.fprintf fs "@[<1>[%a]@]"
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(List.pp ",@ " (fun fs (k, v) ->
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Format.fprintf fs "@[%a@ @<2>↦ %a@]" pp_k k pp_v v ))
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(Iter.to_list (to_iter m))
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let pp_diff ?(pre = ("[@[<hv>" : (unit, unit) fmt))
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?(suf = ("@]];@ " : (unit, unit) fmt))
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?(sep = (";@ " : (unit, unit) fmt)) pp_key pp_val pp_diff_val ~eq fs
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(x, y) =
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let pp_diff_elt fs = function
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| k, `Left v ->
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Format.fprintf fs "-- [@[%a@ @<2>↦ %a@]]" pp_key k pp_val v
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| k, `Right v ->
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Format.fprintf fs "++ [@[%a@ @<2>↦ %a@]]" pp_key k pp_val v
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| k, `Unequal vv ->
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Format.fprintf fs "[@[%a@ @<2>↦ %a@]]" pp_key k pp_diff_val vv
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in
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let sd = Iter.to_list (symmetric_diff ~eq x y) in
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List.pp ~pre ~suf sep pp_diff_elt fs sd
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end
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[@@inline]
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module Make (Key : sig
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type t [@@deriving compare, equal, sexp_of]
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end) =
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Make_from_Comparer (struct
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include Key
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include Comparer.Make (Key)
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end)
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[@@inline]
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