ligo/src/utils/lwt_pipe.ml

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(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2016. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
open Lwt.Infix
type 'a t =
{ queue : (int * 'a) Queue.t ;
mutable current_size : int ;
max_size : int ;
compute_size : ('a -> int) ;
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mutable closed : bool ;
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mutable push_waiter : (unit Lwt.t * unit Lwt.u) option ;
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mutable pop_waiter : (unit Lwt.t * unit Lwt.u) option ;
empty: unit Lwt_condition.t ;
}
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let create ?size () =
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let max_size, compute_size =
match size with
| None -> max_int, (fun _ -> 0)
| Some (max_size, compute_size) ->
max_size, (fun e -> 4 * (Sys.word_size / 8) + compute_size e) in
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{ queue = Queue.create () ;
current_size = 0 ;
max_size ;
compute_size ;
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closed = false ;
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push_waiter = None ;
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pop_waiter = None ;
empty = Lwt_condition.create () ;
}
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let notify_push q =
match q.push_waiter with
| None -> ()
| Some (_, w) ->
q.push_waiter <- None ;
Lwt.wakeup_later w ()
let notify_pop q =
match q.pop_waiter with
| None -> ()
| Some (_, w) ->
q.pop_waiter <- None ;
Lwt.wakeup_later w ()
let wait_push q =
match q.push_waiter with
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| Some (t, _) -> Lwt.protected t
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| None ->
let waiter, wakener = Lwt.wait () in
q.push_waiter <- Some (waiter, wakener) ;
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Lwt.protected waiter
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let wait_pop q =
match q.pop_waiter with
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| Some (t, _) -> Lwt.protected t
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| None ->
let waiter, wakener = Lwt.wait () in
q.pop_waiter <- Some (waiter, wakener) ;
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Lwt.protected waiter
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let length { queue } = Queue.length queue
let is_empty { queue } = Queue.is_empty queue
let rec empty q =
if is_empty q
then Lwt.return_unit
else (Lwt_condition.wait q.empty >>= fun () -> empty q)
exception Closed
let rec push ({ closed ; queue ; current_size ;
max_size ; compute_size} as q) elt =
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let elt_size = compute_size elt in
if closed then
Lwt.fail Closed
else if current_size + elt_size < max_size || Queue.is_empty queue then begin
Queue.push (elt_size, elt) queue ;
q.current_size <- current_size + elt_size ;
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notify_push q ;
Lwt.return_unit
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end else
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wait_pop q >>= fun () ->
push q elt
let rec push_now ({ closed ; queue ; compute_size ;
current_size ; max_size
} as q) elt =
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if closed then raise Closed ;
let elt_size = compute_size elt in
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(current_size + elt_size < max_size || Queue.is_empty queue)
&& begin
Queue.push (elt_size, elt) queue ;
q.current_size <- current_size + elt_size ;
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notify_push q ;
true
end
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exception Full
let push_now_exn q elt =
if not (push_now q elt) then raise Full
let safe_push_now q elt =
try push_now_exn q elt
with _ -> ()
let rec pop ({ closed ; queue ; empty ; current_size } as q) =
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if not (Queue.is_empty queue) then
let (elt_size, elt) = Queue.pop queue in
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notify_pop q ;
q.current_size <- current_size - elt_size ;
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(if Queue.length queue = 0 then Lwt_condition.signal empty ());
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Lwt.return elt
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else if closed then
Lwt.fail Closed
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else
wait_push q >>= fun () ->
pop q
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let rec peek ({ closed ; queue } as q) =
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if not (Queue.is_empty queue) then
let (_elt_size, elt) = Queue.peek queue in
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Lwt.return elt
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else if closed then
Lwt.fail Closed
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else
wait_push q >>= fun () ->
peek q
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exception Empty
let pop_now_exn ({ closed ; queue ; empty ; current_size } as q) =
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if Queue.is_empty queue then
(if closed then raise Closed else raise Empty) ;
let (elt_size, elt) = Queue.pop queue in
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(if Queue.length queue = 0 then Lwt_condition.signal empty ());
q.current_size <- current_size - elt_size ;
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notify_pop q ;
elt
let pop_now q =
match pop_now_exn q with
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| exception Empty -> None
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| elt -> Some elt
let rec values_available q =
if is_empty q then
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if q.closed then
raise Closed
else
wait_push q >>= fun () ->
values_available q
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else
Lwt.return_unit
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let close q =
if not q.closed then begin
q.closed <- true ;
notify_push q ;
notify_pop q ;
end
let rec iter q ~f =
Lwt.catch begin fun () ->
pop q >>= fun elt ->
f elt >>= fun () ->
iter q ~f
end begin function
| Closed -> Lwt.return_unit
| exn -> Lwt.fail exn
end