module Lwt_switch : sig..end
Switch have two goals:
- being able to free multiple resources at the same time,
- offer a better alternative than always returning an id to free some resource.
For example, considers the following interface:
type id val free : id -> unit Lwt.t val f : unit -> id Lwt.t val g : unit -> id Lwt.t val h : unit -> id Lwt.t
Now you want to calls f, g and h in parallel. You can
lwt idf = f () and idg = g () and idh = h () in ...
However, one may wants to handle possible failures of f (), g
() and h (), and disable all allocated resources if one of
these three threads fails. This may be hard since you have to
remember which one failed and which one returned correctly.
Now we change a little bit the interface:
val f : ?switch : Lwt_switch.t -> unit -> id Lwt.t val g : ?switch : Lwt_switch.t -> unit -> id Lwt.t val h : ?switch : Lwt_switch.t -> unit -> id Lwt.t
and the code becomes:
let switch = Lwt_switch.create () in try_lwt lwt idf = f ~switch () and idg = g ~switch () and idh = h ~switch () in ... with exn -> lwt () = Lwt_switch.turn_off switch in raise_lwt exn
Type of switches.
val create : unit -> t
create () creates a new switch.
val is_on : t -> bool
is_on switch returns true if the switch is currently on, and
turn_off switch turns off the switch. It calls all registered
hooks, waits for all of them to terminates, and the returns. If
one of the hook failed, then it will fail with one of the
exception raised by hooks. If the switch is already off, then it
Exception raised when trying to add a hook to a switch that is
val check : t option -> unit
check switch does nothing if switch is None or contains an
switch that is currently on, and raise Lwt_switch.Off otherwise.
add_hook switch f registers f so it will be called when
Lwt_switch.turn_off is invoked. It does nothing if switch is
None. If switch contains an switch that is already off then
Lwt_switch.Off is raised.
add_hook_or_exec switch f is the same as Lwt_switch.add_hook except
that if the switch is already off, then f is called