Source file CCBlockingQueue.ml

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(* This file is free software, part of containers. See file "license" for more details. *)

(** {1 Blocking Queue} *)

type 'a t = {
  q : 'a Queue.t;
  lock : Mutex.t;
  cond : Condition.t;
  capacity : int;
  mutable size : int;
}

let create n =
  if n < 1 then invalid_arg "BloquingQueue.create";
  let q = {
    q=Queue.create();
    lock=Mutex.create();
    cond=Condition.create();
    capacity=n;
    size=0;
  } in
  q

let incr_size_ q = assert(q.size < q.capacity); q.size <- q.size + 1
let decr_size_ q = assert(q.size > 0); q.size <- q.size - 1

let finally_ f x ~h =
  try
    let res = f x in
    ignore (h ());
    res
  with e ->
    ignore (h());
    raise e

let with_lock_ q f =
  Mutex.lock q.lock;
  finally_ f () ~h:(fun () -> Mutex.unlock q.lock)

let push q x =
  with_lock_ q
    (fun () ->
       while q.size = q.capacity do
         Condition.wait q.cond q.lock
       done;
       assert (q.size < q.capacity);
       Queue.push x q.q;
       (* if there are blocked receivers, awake one of them *)
       incr_size_ q;
       Condition.broadcast q.cond)

let take q =
  with_lock_ q
    (fun () ->
       while q.size = 0 do
         Condition.wait q.cond q.lock
       done;
       let x = Queue.take q.q in
       (* if there are blocked senders, awake one of them *)
       decr_size_ q;
       Condition.broadcast q.cond;
       x)

(*$R
  let q = create 1 in
  let t1 = CCThread.spawn (fun () -> push q 1; push q 2) in
  let t2 = CCThread.spawn (fun () -> push q 3; push q 4) in
  let l = CCLock.create [] in
  let t3 = CCThread.spawn (fun () -> for i = 1 to 4 do
      let x = take q in
      CCLock.update l (fun l -> x :: l)
    done)
  in
  Thread.join t1; Thread.join t2; Thread.join t3;
  assert_equal [1;2;3;4] (List.sort Stdlib.compare (CCLock.get l))
*)

let push_list q l =
  (* push elements until it's not possible.
     Assumes the lock is acquired. *)
  let rec push_ q l = match l with
    | [] -> l
    | _::_ when q.size = q.capacity -> l (* no room remaining *)
    | x :: tl ->
      Queue.push x q.q;
      incr_size_ q;
      push_ q tl
  in
  (* push chunks of [l] in [q] until [l] is empty *)
  let rec aux q l = match l with
    | [] -> ()
    | _::_ ->
      let l = with_lock_ q
          (fun () ->
             while q.size = q.capacity do
               Condition.wait q.cond q.lock
             done;
             let l = push_ q l in
             Condition.broadcast q.cond;
             l)
      in
      aux q l
  in aux q l

let take_list q n =
  (* take at most [n] elements of [q] and prepend them to [acc] *)
  let rec pop_ acc q n =
    if n=0 || Queue.is_empty q.q then acc, n
    else ( (* take next element *)
      let x = Queue.take q.q in
      decr_size_ q;
      pop_ (x::acc) q (n-1)
    )
  in
  (* call [pop_] until [n] elements have been gathered *)
  let rec aux acc q n =
    if n=0 then List.rev acc
    else
      let acc, n = with_lock_ q
          (fun () ->
             while q.size = 0 do
               Condition.wait q.cond q.lock
             done;
             let acc, n = pop_ acc q n in
             Condition.broadcast q.cond;
             acc, n
          )
      in
      aux acc q n
  in
  aux [] q n

(*$R
  let n = 1000 in
  let lists = [| CCList.(1 -- n) ; CCList.(n+1 -- 2*n); CCList.(2*n+1 -- 3*n) |] in
  let q = create 2 in
  let senders = CCThread.Arr.spawn 3
    (fun i ->
      if i=1
      then push_list q lists.(i)  (* test push_list *)
      else List.iter (push q) lists.(i)
    )
  in
  let res = CCLock.create [] in
  let receivers = CCThread.Arr.spawn 3
    (fun i ->
      if i=1 then
        let l = take_list q n in
        CCLock.update res (fun acc -> l @ acc)
      else
        for _j = 1 to n do
          let x = take q in
          CCLock.update res (fun acc -> x::acc)
        done
    )
  in
  CCThread.Arr.join senders; CCThread.Arr.join receivers;
  let l = CCLock.get res |> List.sort Stdlib.compare in
  assert_equal CCList.(1 -- 3*n) l
*)

let try_take q =
  with_lock_ q
    (fun () ->
       if q.size = 0 then None
       else (
         decr_size_ q;
         Some (Queue.take q.q)
       ))

let try_push q x =
  with_lock_ q
    (fun () ->
       if q.size = q.capacity then false
       else (
         incr_size_ q;
         Queue.push x q.q;
         Condition.signal q.cond;
         true
       ))

let peek q =
  with_lock_ q
    (fun () ->
       try Some (Queue.peek q.q)
       with Queue.Empty -> None)

let size q = with_lock_ q (fun () -> q.size)

let capacity q = q.capacity