package async_kernel

  1. Overview
  2. Docs
Legend:
Library
Module
Module type
Parameter
Class
Class type
module Time_ns : sig ... end
module Alarm : sig ... end
module Alarm_precision = Timing_wheel.Alarm_precision
val default_timing_wheel_config : Timing_wheel.Config.t
type callback = unit -> unit
module Id : sig ... end
module T1 : sig ... end
type t = Core.read T1.t
val sexp_of_t : t -> Sexplib0.Sexp.t
val invariant : 'a T1.t -> unit
val invariant_with_jobs : job: ((Async_kernel__.Types.Execution_context.t, Stdlib.Obj.t -> unit, Stdlib.Obj.t) Tuple_pool.Slots.t3 Tuple_pool.Pointer.t -> unit) -> 'a T1.t -> unit
module Read_write : sig ... end
val id : 'a T1.t -> Id.t
val is_wall_clock : 'a T1.t -> bool
val length : 'a T1.t -> int
val max_allowed_alarm_time : 'a T1.t -> Core.Time_ns.t
val read_only : [> Core.read ] T1.t -> t
val fire : 'a T1.t -> T1.Event.t -> unit
val alarm_precision : 'a T1.t -> Core.Time_ns.Span.t
val next_alarm_fires_at : 'a T1.t -> Core.Time_ns.t option
val next_alarm_runs_at : 'a T1.t -> Core.Time_ns.t option
val now : 'a T1.t -> Core.Time_ns.t
val timing_wheel_now : 'a T1.t -> Core.Time_ns.t
val schedule : 'a T1.t -> T1.Event.t -> unit
val remove_from_fired : 'a T1.t -> T1.Event.t -> new_status:T1.Event.Status.t -> unit
module Event : sig ... end
val run_after : 'a T1.t -> Time_ns.Span.t -> (unit -> unit) -> unit
val run_at : 'a T1.t -> Time_ns.t -> (unit -> unit) -> unit
val run_at_intervals : ?start:Core.Time_ns.t -> 'a T1.t -> Time_ns.Span.t -> (unit -> unit) -> unit
type send_exn = Async_kernel__.Types.Monitor.t -> ?backtrace:[ `Get | `This of Core.Backtrace.t ] -> exn -> unit
val run_fired_events : 'a T1.t -> send_exn:send_exn option -> unit
val any_fired_events_to_run : 'a T1.t -> bool
val advance_clock : 'a T1.t -> to_:Core.Time_ns.t -> send_exn:send_exn option -> unit
val advance_clock_stop_at_next_alarm : 'a T1.t -> to_:Core.Time_ns.t -> send_exn:send_exn option -> unit
val fire_past_alarms : 'a T1.t -> send_exn:send_exn option -> unit
val advance_internal : 'a T1.t -> to_:Core.Time_ns.t -> send_exn:send_exn option -> unit
val advance_internal_stop_at_next_alarm : 'a T1.t -> to_:Core.Time_ns.t -> send_exn:send_exn option -> unit
val prepare_to_advance : 'a T1.t -> send_exn:send_exn option -> unit
val finish_advancing : 'a T1.t -> (unit, Core.Error.t) Core._result
val advance_by_alarms : 'a T1.t -> to_:Time_ns.t -> (unit, Core.Error.t) Core._result
val advance_by_alarms_by : 'a T1.t -> Time_ns.Span.t -> (unit, Core.Error.t) Core._result
val advance_by_max_alarms_in_each_timing_wheel_interval : 'a T1.t -> to_:Time_ns.t -> (unit, Core.Error.t) Core._result
val advance_directly : 'a T1.t -> to_:Core.Time_ns.t -> (unit, Core.Error.t) Core._result
val advance_directly_by : 'a T1.t -> Time_ns.Span.t -> (unit, Core.Error.t) Core._result
val duration_of : 'a T1.t -> (unit -> 'b) -> 'b * Time_ns.Span.t
val max_alarm_time_in_min_timing_wheel_interval : 'a T1.t -> Core.Time_ns.t option
val has_events_to_run : 'a T1.t -> bool
OCaml

Innovation. Community. Security.