package async_kernel

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val events : {t}7 -> Async_kernel__Types.Job_or_event.t Timing_wheel.t
val set_execution_context : {t}7 -> Async_kernel__Types.Execution_context.t -> unit
module Synchronous_time_source : sig ... end
module Event : sig ... end
module Alarm = Timing_wheel.Alarm
module Job_or_event : sig ... end
val debug : bool
module Ivar : sig ... end
module Bvar : sig ... end
module Very_low_priority_worker : sig ... end
type t = {
  1. mutable check_access : (unit -> unit) option;
  2. mutable job_pool : (Execution_context.t, Stdlib.Obj.t -> unit, Stdlib.Obj.t) Tuple_pool.Slots.t3 Tuple_pool.t;
  3. normal_priority_jobs : Async_kernel__.Types.Job_queue.t;
  4. low_priority_jobs : Async_kernel__.Types.Job_queue.t;
  5. very_low_priority_workers : Very_low_priority_worker.t Core.Deque.t;
  6. mutable main_execution_context : Execution_context.t;
  7. mutable current_execution_context : Execution_context.t;
  8. mutable uncaught_exn : (Core.Exn.t * Core.Sexp.t) option;
  9. mutable cycle_count : int;
  10. mutable cycle_start : Core.Time_ns.t;
  11. mutable in_cycle : bool;
  12. mutable run_every_cycle_start : (unit -> unit) array;
  13. run_every_cycle_start_state : (Async_kernel__.Types.Cycle_hook_handle.t, unit -> unit) Core.Hashtbl.t;
  14. mutable run_every_cycle_end : (unit -> unit) array;
  15. run_every_cycle_end_state : (Async_kernel__.Types.Cycle_hook_handle.t, unit -> unit) Core.Hashtbl.t;
  16. mutable last_cycle_time : Core.Core_private.Time_ns_alternate_sexp.Span.t;
  17. mutable last_cycle_num_jobs : int;
  18. mutable total_cycle_time : Core.Core_private.Time_ns_alternate_sexp.Span.t;
  19. mutable time_source : Core.read_write Synchronous_time_source.T1.t;
  20. external_jobs : Async_kernel__.Types.External_job.t Thread_safe_queue.t;
  21. mutable thread_safe_external_job_hook : unit -> unit;
  22. mutable job_queued_hook : (Priority.t -> unit) option;
  23. mutable event_added_hook : (Core.Time_ns.t -> unit) option;
  24. mutable yield : (unit, Core.read_write) Async_kernel__.Types.Bvar.t;
  25. mutable yield_until_no_jobs_remain : (unit, Core.read_write) Async_kernel__.Types.Bvar.t;
  26. mutable check_invariants : bool;
  27. mutable max_num_jobs_per_priority_per_cycle : Async_kernel_config.Max_num_jobs_per_priority_per_cycle.t;
  28. mutable record_backtraces : bool;
}
val record_backtraces : t -> bool
val set_record_backtraces : t -> bool -> unit
val max_num_jobs_per_priority_per_cycle : t -> Async_kernel_config.Max_num_jobs_per_priority_per_cycle.t
val set_max_num_jobs_per_priority_per_cycle : t -> Async_kernel_config.Max_num_jobs_per_priority_per_cycle.t -> unit
val check_invariants : t -> bool
val set_check_invariants : t -> bool -> unit
val yield_until_no_jobs_remain : t -> (unit, Core.read_write) Async_kernel__.Types.Bvar.t
val set_yield_until_no_jobs_remain : t -> (unit, Core.read_write) Async_kernel__.Types.Bvar.t -> unit
val yield : t -> (unit, Core.read_write) Async_kernel__.Types.Bvar.t
val set_yield : t -> (unit, Core.read_write) Async_kernel__.Types.Bvar.t -> unit
val event_added_hook : t -> (Core.Time_ns.t -> unit) option
val set_event_added_hook : t -> (Core.Time_ns.t -> unit) option -> unit
val job_queued_hook : t -> (Priority.t -> unit) option
val set_job_queued_hook : t -> (Priority.t -> unit) option -> unit
val thread_safe_external_job_hook : t -> unit -> unit
val set_thread_safe_external_job_hook : t -> (unit -> unit) -> unit
val external_jobs : t -> Async_kernel__.Types.External_job.t Thread_safe_queue.t
val set_time_source : t -> Core.read_write Synchronous_time_source.T1.t -> unit
val set_total_cycle_time : t -> Core.Core_private.Time_ns_alternate_sexp.Span.t -> unit
val set_last_cycle_num_jobs : t -> int -> unit
val set_last_cycle_time : t -> Core.Core_private.Time_ns_alternate_sexp.Span.t -> unit
val run_every_cycle_end_state : t -> (Async_kernel__.Types.Cycle_hook_handle.t, unit -> unit) Core.Hashtbl.t
val run_every_cycle_end : t -> (unit -> unit) array
val set_run_every_cycle_end : t -> (unit -> unit) array -> unit
val run_every_cycle_start_state : t -> (Async_kernel__.Types.Cycle_hook_handle.t, unit -> unit) Core.Hashtbl.t
val run_every_cycle_start : t -> (unit -> unit) array
val set_run_every_cycle_start : t -> (unit -> unit) array -> unit
val in_cycle : t -> bool
val set_in_cycle : t -> bool -> unit
val cycle_start : t -> Core.Time_ns.t
val set_cycle_start : t -> Core.Time_ns.t -> unit
val cycle_count : t -> int
val set_cycle_count : t -> int -> unit
val set_uncaught_exn : t -> (Core.Exn.t * Core.Sexp.t) option -> unit
val set_current_execution_context : t -> Execution_context.t -> unit
val main_execution_context : t -> Execution_context.t
val set_main_execution_context : t -> Execution_context.t -> unit
val very_low_priority_workers : t -> Very_low_priority_worker.t Core.Deque.t
val low_priority_jobs : t -> Async_kernel__.Types.Job_queue.t
val normal_priority_jobs : t -> Async_kernel__.Types.Job_queue.t
val job_pool : t -> (Execution_context.t, Stdlib.Obj.t -> unit, Stdlib.Obj.t) Tuple_pool.Slots.t3 Tuple_pool.t
val set_job_pool : t -> (Execution_context.t, Stdlib.Obj.t -> unit, Stdlib.Obj.t) Tuple_pool.Slots.t3 Tuple_pool.t -> unit
module Fields : sig ... end
val sexp_of_t : t -> Sexplib0.Sexp.t
val uncaught_exn_unwrapped : t -> (Core.Exn.t * Core.Sexp.t) option
val uncaught_exn : t -> Core.Error.t option
val num_pending_jobs : t -> int
val num_jobs_run : t -> int
val last_cycle_num_jobs : t -> int
val unordered_is_sublist : equal:('a -> 'b -> bool) -> sublist:'c list -> 'd Core.Array.t -> bool
val check_hook_table_invariant : ('a, 'b) Core.Hashtbl.t -> 'c Core.Array.t -> unit
val invariant : t -> unit
val free_job : t -> (Execution_context.t, Stdlib.Obj.t -> unit, Stdlib.Obj.t) Tuple_pool.Slots.t3 Tuple_pool.Pointer.t -> unit
val enqueue : t -> Execution_context.t -> ('a -> unit) -> 'b -> unit
val enqueue_job : t -> (Execution_context.t * (Stdlib.Obj.t -> unit) * Stdlib.Obj.t, [ `S0 of Execution_context.t | `S1 of Stdlib.Obj.t -> unit | `S2 of Stdlib.Obj.t ]) Tuple_pool.Slots.t Tuple_pool.Pointer.t -> free_job:bool -> unit
val handle_fired : 'a Synchronous_time_source.T1.t -> Async_kernel__.Types.Job_or_event.t -> unit
val create : unit -> t
val is_dead : t -> bool
val set_check_access : t -> (unit -> unit) option -> unit
val backtrace_of_first_job : t -> Core.Backtrace.t option
val t_ref : t Core.ref
val check_access : t -> unit
val t : unit -> t
val current_execution_context : t -> Execution_context.t
val with_execution_context1 : t -> Async_kernel__Types.Execution_context.t -> f:('a -> 'b) -> 'c -> 'd
val with_execution_context : t -> Async_kernel__Types.Execution_context.t -> f:(unit -> 'a) -> 'b
val create_job : t -> Execution_context.t -> ('a -> unit) -> 'a0 -> (Execution_context.t, Stdlib.Obj.t -> unit, Stdlib.Obj.t) Tuple_pool.Slots.t3 Tuple_pool.Pointer.t
val got_uncaught_exn : t -> Core.Exn.t -> Core.Sexp.t -> unit
val start_cycle : t -> max_num_jobs_per_priority: Async_kernel_config.Max_num_jobs_per_priority_per_cycle.t -> unit
val run_jobs : t -> (unit, exn * Core.Backtrace.t) Core._result
val stabilize : t -> (unit, exn) Core._result
val create_time_source : ?timing_wheel_config:Timing_wheel.Config.t -> now:Core.Time_ns.t -> unit -> 'a Synchronous_time_source.T1.t
val wall_clock : unit -> Synchronous_time_source.t
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