val create :
on_uncaught_exn:[ `Kill_whole_process | `Print_to_stderr ]->('a-> unit)->'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, behavior is controlled by on_uncaught_exn. If `Print_to_stderr is selected, the exception is printed on standard error, but not propagated back to the parent thread. If `Kill_whole_process is selected, the exception is printed to stderr and then the process exits with code 1 (after having run at_exit callbacks, etc.).
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.
val exit : unit -> unit
Terminate prematurely the currently executing thread.
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
Suspending threads
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.
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.
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.
Management of signals
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.
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.
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.
val num_threads : unit ->int option
num_threads () attempts to return the number of currently running threads by parsing /proc. Since this is an operation frought with potential failure, we return an option in cases of failure
val block_forever : unit ->'a
block_forever () will block the calling thread forever.
Non-portable pthread extensions
The following operations may not be supported on all platforms. Before you can use them, you must first check that they do not contain error values. For example, if you wanted to use setaffinity_self_exn then you would first do:
let setaffinity_self_exn =
match Thread.setaffinity_self_exn with
| Ok f -> f
| Error err -> (* raise or provide a default implementation. *)
If your application requires that one of these operations be present then, you could just do this instead:
let setaffinity_self_exn = Or_error.ok_exn Thread.setaffinity_self_exn
Sets the core affinity of the currently-running thread to the set specified.
This function is implemented using pthread_setaffinity_np(3), when available. See the man page for situations when this function may return an error, and therefore raise.
Gets the core affinity of the currently-running thread.
This function is implemented using pthread_getaffinity_np(3), when available. See the man page for situations when this function may return an error, and therefore raise.