1995-11-14 09:11:31 -08:00
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(***********************************************************************)
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(* *)
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(* Caml Special Light *)
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(* *)
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(* David Nowak and Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1995 Institut National de Recherche en Informatique et *)
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(* Automatique. Distributed only by permission. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(* Events *)
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type 'a basic_event =
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{ poll: unit -> bool;
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(* If communication can take place immediately, return true. *)
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suspend: unit -> unit;
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(* Offer the communication on the channel and get ready
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to suspend current process. *)
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result: unit -> 'a }
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(* Return the result of the communication *)
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type 'a event =
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Communication of (int ref -> Condition.t -> int -> 'a basic_event)
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| Choose of 'a event list
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| Guard of (unit -> 'a event)
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(* Communication channels *)
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type 'a channel =
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{ writes_pending: 'a communication Queue.t; (* All offers to write on it *)
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reads_pending: 'a communication Queue.t } (* All offers to read from it *)
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(* Communication offered *)
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and 'a communication =
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{ performed: int ref; (* -1 if not performed yet, set to the number *)
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(* of the matching communication after rendez-vous. *)
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condition: Condition.t; (* To restart the blocked thread. *)
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mutable data: 'a option; (* The data sent or received. *)
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event_number: int } (* Event number in select *)
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(* Create a channel *)
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let new_channel () =
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1996-04-22 04:15:41 -07:00
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{ writes_pending = Queue.create();
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reads_pending = Queue.create() }
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1995-11-14 09:11:31 -08:00
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(* Basic synchronization function *)
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1996-04-22 04:15:41 -07:00
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let masterlock = Mutex.create()
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1995-11-14 09:11:31 -08:00
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let basic_sync genev =
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let performed = ref (-1) in
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1996-04-22 04:15:41 -07:00
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let condition = Condition.create() in
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let bev = Array.create (Array.length genev)
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(genev.(0) performed condition 0) in
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1995-11-14 09:11:31 -08:00
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for i = 1 to Array.length genev - 1 do
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bev.(i) <- genev.(i) performed condition i
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done;
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(* See if any of the events is already activable *)
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let rec poll_events i =
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if i >= Array.length bev
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then false
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else bev.(i).poll() or poll_events (i+1) in
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Mutex.lock masterlock;
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if not (poll_events 0) then begin
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(* Suspend on all events *)
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for i = 0 to Array.length bev - 1 do bev.(i).suspend() done;
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(* Wait until the condition is signalled *)
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Condition.wait condition masterlock
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end;
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Mutex.unlock masterlock;
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(* Extract the result *)
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bev.(!performed).result()
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1995-11-15 08:40:01 -08:00
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(* Apply a random permutation on an array *)
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let scramble_array a =
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let len = Array.length a in
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for i = len - 1 downto 1 do
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let j = Random.int (i + 1) in
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let temp = a.(i) in a.(i) <- a.(j); a.(j) <- temp
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done;
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a
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1995-11-14 09:11:31 -08:00
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(* Main synchronization function *)
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let rec flatten_event ev accu =
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match ev with
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Communication bev -> bev :: accu
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| Choose evl -> List.fold_right flatten_event evl accu
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| Guard fn -> flatten_event (fn ()) accu
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let sync ev =
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1995-11-15 08:40:01 -08:00
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basic_sync(scramble_array(Array.of_list(flatten_event ev [])))
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1995-11-14 09:11:31 -08:00
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1995-11-16 02:25:57 -08:00
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(* Event polling -- like sync, but non-blocking *)
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let basic_poll genev =
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let performed = ref (-1) in
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1996-04-22 04:15:41 -07:00
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let condition = Condition.create() in
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let bev = Array.create(Array.length genev)
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(genev.(0) performed condition 0) in
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1995-11-16 02:25:57 -08:00
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for i = 1 to Array.length genev - 1 do
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bev.(i) <- genev.(i) performed condition i
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done;
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(* See if any of the events is already activable *)
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let rec poll_events i =
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if i >= Array.length bev
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then false
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else bev.(i).poll() or poll_events (i+1) in
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Mutex.lock masterlock;
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let ready = poll_events 0 in
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if ready then begin
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(* Extract the result *)
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Mutex.unlock masterlock;
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Some(bev.(!performed).result())
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end else begin
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(* Cancel the communication offers *)
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performed := 0;
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Mutex.unlock masterlock;
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None
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end
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let poll ev =
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basic_poll(scramble_array(Array.of_list(flatten_event ev [])))
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1995-11-14 09:11:31 -08:00
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(* Event construction *)
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let send channel data =
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Communication(fun performed condition evnum ->
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let wcomm =
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{ performed = performed;
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condition = condition;
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data = Some data;
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event_number = evnum } in
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{ poll = (fun () ->
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let rec poll () =
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let rcomm = Queue.take channel.reads_pending in
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if !(rcomm.performed) >= 0 then
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poll ()
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else begin
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rcomm.data <- wcomm.data;
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performed := evnum;
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rcomm.performed := rcomm.event_number;
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Condition.signal rcomm.condition
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end in
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try
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poll();
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true
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with Queue.Empty ->
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false);
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suspend = (fun () -> Queue.add wcomm channel.writes_pending);
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result = (fun () -> ()) })
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let receive channel =
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Communication(fun performed condition evnum ->
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let rcomm =
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{ performed = performed;
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condition = condition;
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data = None;
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event_number = evnum } in
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{ poll = (fun () ->
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let rec poll () =
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let wcomm = Queue.take channel.writes_pending in
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if !(wcomm.performed) >= 0 then
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poll ()
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else begin
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rcomm.data <- wcomm.data;
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performed := evnum;
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wcomm.performed := wcomm.event_number;
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Condition.signal wcomm.condition
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end in
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try
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poll();
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true
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with Queue.Empty ->
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false);
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suspend = (fun () ->
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Queue.add rcomm channel.reads_pending);
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result = (fun () ->
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match rcomm.data with
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None -> invalid_arg "Event.receive"
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| Some res -> res) })
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let choose = function
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[] -> invalid_arg "Event.choose"
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| evl -> Choose evl
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let guard fn = Guard fn
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let rec wrap ev fn =
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match ev with
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Communication genev ->
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Communication(fun performed condition evnum ->
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let bev = genev performed condition evnum in
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{ poll = bev.poll;
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suspend = bev.suspend;
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result = (fun () -> fn(bev.result())) })
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| Choose evl ->
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Choose(List.map (fun ev -> wrap ev fn) evl)
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| Guard gu ->
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Guard(fun () -> wrap (gu()) fn)
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(* Convenience functions *)
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let select evl = sync(Choose evl)
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