A Bus is a publisher/subscriber system within the memory space of the program. A
bus has a mutable set of subscribers, which can be modified using subscribe_exn and
unsubscribe.
create returns a Bus.Read_write.t, which you can use to write values to the bus.
write calls the callbacks of all current subscribers before returning.
In a ('callback, 'phantom) Bus.t, 'phantom is a read-write phantom type that
controls whether one can read values from or write values to the bus. The phantom
type states the capabilities one could ever have access to, not the capabilities that
are immediately available. In particular, if one wants to subscribe to a
Bus.Read_write.t, one must call read_only on it in order to get a
Bus.Read_only.t that can be passed to subscribe_exn. This is deliberate, and is
meant to avoid unintentional reads from code that should only be writing.
module Callback_arity : sig ... endCallback_arity states the type of callbacks stored in a bus. Using Callback_arity
is an implementation technique that allows callbacks to be defined as ordinary n-ary
curried functions (e.g., a1 -> a2 -> a3 -> r), instead of forcing n-ary-variadic
callbacks to use tuples (e.g., a1 * a2 * a3 -> r). This also avoids extra
allocation.
include sig ... endval sexp_of_t : ('callback ‑> Base.Sexp.t) ‑> ('phantom ‑> Base.Sexp.t) ‑> ('callback, 'phantom) t ‑> Base.Sexp.tmodule Read_write : sig ... endmodule Read_only : sig ... endmodule On_subscription_after_first_write : sig ... endval read_only : ('callback, _) t ‑> 'callback Read_only.tval create : ?name:Info.t ‑> Source_code_position.t ‑> 'callback Callback_arity.t ‑> on_subscription_after_first_write:On_subscription_after_first_write.t ‑> on_callback_raise:(Error.t ‑> Core_kernel__.Import.unit) ‑> 'callback Read_write.tIn create [%here] ArityN ~on_subscription_after_first_write ~on_callback_raise,
[%here] is stored in the resulting bus, and contained in %sexp_of: t, which can
help with debugging.
If on_subscription_after_first_write is Raise, then subscribe_exn will raise if
it is called after write has been called the first time. If
on_subscription_after_first_write is Allow_and_send_last_value, then the bus will
remember the last value written and will send it to new subscribers.
If a callback raises, on_callback_raise is called with an error containing the
exception.
If on_callback_raise raises, then the exception is raised to write and the bus is
closed.
val callback_arity : ('callback, _) t ‑> 'callback Callback_arity.tval num_subscribers : (_, _) t ‑> Core_kernel__.Import.intval is_closed : (_, _) t ‑> Core_kernel__.Import.boolval close : 'callback Read_write.t ‑> Core_kernel__.Import.unitclose disallows future writes -- once close t is called, all further calls to
write t will raise. close is idempotent. If close is called from within a
callback, the current message will still be sent to all subscribed callbacks that
have not yet seen it before the close takes effect.
write ... write4 call all callbacks currently subscribed to the bus, with no
guarantee on the order in which they will be called. write is non-allocating,
though the callbacks themselves may allocate. Calling writeN t from within a
callback on t if is_closed t will raise.
val write : ('a ‑> Core_kernel__.Import.unit) Read_write.t ‑> 'a ‑> Core_kernel__.Import.unitval write2 : ('a ‑> 'b ‑> Core_kernel__.Import.unit) Read_write.t ‑> 'a ‑> 'b ‑> Core_kernel__.Import.unitval write3 : ('a ‑> 'b ‑> 'c ‑> Core_kernel__.Import.unit) Read_write.t ‑> 'a ‑> 'b ‑> 'c ‑> Core_kernel__.Import.unitval write4 : ('a ‑> 'b ‑> 'c ‑> 'd ‑> Core_kernel__.Import.unit) Read_write.t ‑> 'a ‑> 'b ‑> 'c ‑> 'd ‑> Core_kernel__.Import.unitmodule Subscriber : sig ... endval subscribe_exn : ?extract_exn:Core_kernel__.Import.bool ‑> ?on_callback_raise:(Error.t ‑> Core_kernel__.Import.unit) ‑> ?on_close:(Core_kernel__.Import.unit ‑> Core_kernel__.Import.unit) ‑> 'callback Read_only.t ‑> Source_code_position.t ‑> f:'callback ‑> 'callback Subscriber.tsubscribe_exn t [%here] ~f adds the callback f to the set of t's subscribers,
and returns a Subscriber.t that can later be used to unsubscribe. [%here] is
stored in the Subscriber.t, and contained in %sexp_of: Subscriber.t, which can
help with debugging. If subscribe_exn t is called by a callback in t, i.e.,
during write t, the subscription takes effect for the next write, but does not
affect the current write. subscribe_exn takes time proportional to the number of
callbacks.
If on_callback_raise is supplied, then it will be called by write whenever f
raises; only if that subsequently raises will t's on_callback_raise be called. If
on_callback_raise is not supplied, then t's on_callback_raise will be called
whenever f raises.
If on_callback_raise is supplied and extract_exn is set to true, then the error
passed to the on_callback_raise method will contain only the exception raised by f
without any additional information about the bus subscription or backtrace.
on_close is called if you are still subscribed when Bus.close is called.
val iter_exn : 'callback Read_only.t ‑> Source_code_position.t ‑> f:'callback ‑> Core_kernel__.Import.unititer_exn t [%here] ~f is ignore (subscribe_exn t [%here] ~callback:f). This
captures the common usage in which one never wants to unsubscribe from a bus.
module Fold_arity : sig ... endval fold_exn : 'callback Read_only.t ‑> Source_code_position.t ‑> ('callback, 'f, 's) Fold_arity.t ‑> init:'s ‑> f:'f ‑> Core_kernel__.Import.unitfold_exn t [%here] arity ~init ~f folds over the bus events, threading a state value
to every call. It is otherwise similar to iter_exn.
val unsubscribe : 'callback Read_only.t ‑> 'callback Subscriber.t ‑> Core_kernel__.Import.unitunsubscribe t subscriber removes the callback corresponding to subscriber from
t. unsubscribe never raises and is idempotent. As with subscribe_exn,
unsubscribe t during write t takes effect after the current write finishes.
Also like subscribe_exn, unsubscribe takes time proportional to the number of
callbacks.