package picos_std
Sample libraries for Picos
Install
Dune Dependency
Authors
Maintainers
Sources
picos-0.5.0.tbz
sha256=862d61383e2df93a876bedcffb1fd1ddc0f96c50b0e9c07943a2aee1f0e182be
sha512=87805379017ef4a7f2c11b954625a3757a0f1431bb9ba59132202de278b3e41adbe0cdc20e3ab23b7c9a8c5a15faeb7ec79348e7d80f2b14274b00df0893b8c0
doc/src/picos_std.sync/semaphore.ml.html
Source file semaphore.ml
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117open Picos let[@inline never] overflow () = raise (Sys_error "overflow") let[@inline never] negative () = invalid_arg "negative initial count" module Counting = struct type t = Obj.t Atomic.t let make ?padded count = if count < 0 then negative (); Atomic.make (Obj.repr count) |> Multicore_magic.copy_as ?padded let rec release t backoff = let before = Atomic.get t in if Obj.is_int before then begin let count = Obj.obj before in if count < count + 1 then begin let after = Obj.repr (count + 1) in if not (Atomic.compare_and_set t before after) then release t (Backoff.once backoff) end else overflow () end else let after = Q.tail (Obj.obj before) in if Atomic.compare_and_set t before (Obj.repr after) then let trigger = Q.head (Obj.obj before) in Trigger.signal trigger else release t (Backoff.once backoff) let rec cleanup t trigger backoff = let before = Atomic.get t in if Obj.is_int before then release t Backoff.default else let before = Obj.obj before in let after = Q.remove before trigger in if before == after then release t Backoff.default else if not (Atomic.compare_and_set t (Obj.repr before) (Obj.repr after)) then cleanup t trigger (Backoff.once backoff) let rec acquire t backoff = let before = Atomic.get t in if Obj.is_int before then let count = Obj.obj before in if 0 < count then begin let after = Obj.repr (count - 1) in if not (Atomic.compare_and_set t before after) then acquire t (Backoff.once backoff) end else let trigger = Trigger.create () in let after = Q.singleton trigger in if Atomic.compare_and_set t before (Obj.repr after) then begin match Trigger.await trigger with | None -> () | Some (exn, bt) -> cleanup t trigger Backoff.default; Printexc.raise_with_backtrace exn bt end else acquire t (Backoff.once backoff) else let trigger = Trigger.create () in let after = Q.snoc (Obj.obj before) trigger in if Atomic.compare_and_set t before (Obj.repr after) then begin match Trigger.await trigger with | None -> () | Some (exn, bt) -> cleanup t trigger Backoff.default; Printexc.raise_with_backtrace exn bt end else acquire t (Backoff.once backoff) let rec try_acquire t backoff = let before = Atomic.get t in Obj.is_int before && let count = Obj.obj before in 0 < count && let after = Obj.repr (count - 1) in Atomic.compare_and_set t before after || try_acquire t (Backoff.once backoff) let get_value t = let state = Atomic.get t in if Obj.is_int state then Obj.obj state else 0 let[@inline] release t = release t Backoff.default let[@inline] acquire t = acquire t Backoff.default let[@inline] try_acquire t = try_acquire t Backoff.default end module Binary = struct type t = Counting.t let make ?padded initial = Counting.make ?padded (Bool.to_int initial) let rec release t backoff = let before = Atomic.get t in if Obj.is_int before then begin let count = Obj.obj before in if count = 0 then let after = Obj.repr 1 in if not (Atomic.compare_and_set t before after) then release t (Backoff.once backoff) end else let after = Q.tail (Obj.obj before) in if Atomic.compare_and_set t before (Obj.repr after) then let trigger = Q.head (Obj.obj before) in Trigger.signal trigger else release t (Backoff.once backoff) let acquire = Counting.acquire let try_acquire = Counting.try_acquire let[@inline] release t = release t Backoff.default end