Lightweight threads.
include sig ... end
val sexp_of_t : t ‑> Sexplib.Sexp.t
val create : ('a ‑> 'b) ‑> 'a ‑> t
Thread.create funct arg
creates a new thread of control,
in which the function application funct arg
is executed concurrently with the other threads of the program.
The application of Thread.create
returns the handle of the newly created thread.
The new thread terminates when the application funct arg
returns, either normally or by raising an uncaught exception.
In the latter case, the exception is printed on standard error,
but not propagated back to the parent thread. Similarly, the
result of the application funct arg
is discarded and not
directly accessible to the parent thread.
val id : t ‑> int
Return the identifier of the given thread. A thread identifier is an integer that identifies uniquely the thread. It can be used to build data structures indexed by threads.
This has been deliberately removed from the interface because it is an inherently unsafe operation and is never required.
(** Terminate prematurely the thread whose handle is given.
This functionality is available only with bytecode-level threads. *)
val kill : t -> unit
val delay : float ‑> unit
delay d
suspends the execution of the calling thread for
d
seconds. The other program threads continue to run during
this time.
val join : t ‑> unit
join th
suspends the execution of the calling thread
until the thread th
has terminated.
val wait_write : Unix.file_descr ‑> unit
Suspend the execution of the calling thread until at least
one character is available for reading (Thread.wait_read) or
one character can be written without blocking (wait_write
)
on the given Unix file descriptor.
val wait_timed_write : Unix.file_descr ‑> float ‑> bool
Same as Thread.wait_read and Thread.wait_write, but wait for at most
the amount of time given as second argument (in seconds).
Return true
if the file descriptor is ready for input/output
and false
if the timeout expired.
val yield : unit ‑> unit
Re-schedule the calling thread without suspending it. This function can be used to give scheduling hints, telling the scheduler that now is a good time to switch to other threads.
Signal handling follows the POSIX thread model: signals generated by a thread are delivered to that thread; signals generated externally are delivered to one of the threads that does not block it. Each thread possesses a set of blocked signals, which can be modified using Thread.sigmask. This set is inherited at thread creation time. Per-thread signal masks are supported only by the system thread library under Unix, but not under Win32, nor by the VM thread library.
val sigmask : Core.Signal.sigprocmask_command ‑> Core.Signal.t list ‑> Core.Signal.t list
sigmask cmd sigs
changes the set of blocked signals for the
calling thread.
If cmd
is `Set
, blocked signals are set to those in
the list sigs
.
If cmd
is `Block
, the signals in sigs
are added to
the set of blocked signals.
If cmd
is `Unblock
, the signals in sigs
are removed
from the set of blocked signals.
sigmask
returns the set of previously blocked signals for the thread.
val wait_signal : Core.Signal.t list ‑> int
wait_signal sigs
suspends the execution of the calling thread
until the process receives one of the signals specified in the
list sigs
. It then returns the number of the signal received.
Signal handlers attached to the signals in sigs
will not
be invoked. The signals sigs
are expected to be blocked before
calling wait_signal
.
Jane Street extensions
val threads_have_been_created : unit ‑> bool
true
iff Thread.create has ever been called, even if there is
currently only one running thread.