Maintainer | Bas van Dijk <v.dijk.bas@gmail.com> , Roel van Dijk <vandijk.roel@gmail.com> |
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Wait arbitrarily long for an IO computation to finish.
Documentation
timeout :: Integer -> IO α -> IO (Maybe α)Source
Like timeout
, but not bounded by an Int
.
Wrap an IO
computation to time out and return Nothing
in case no result is
available within n
microseconds (1/10^6
seconds). In case a result is
available before the timeout expires, Just
a
is returned. A negative timeout
interval means "wait indefinitely".
The design of this combinator was guided by the objective that timeout n f
should behave exactly the same as f
as long as f
doesn't time out. This
means that f
has the same myThreadId
it would have without the timeout
wrapper. Any exceptions f
might throw cancel the timeout and propagate further
up. It also possible for f
to receive exceptions thrown to it by another
thread.
A tricky implementation detail is the question of how to abort an IO
computation. This combinator relies on asynchronous exceptions internally. The
technique works very well for computations executing inside of the Haskell
runtime system, but it doesn't work at all for non-Haskell code. Foreign
function calls, for example, cannot be timed out with this combinator simply
because an arbitrary C function cannot receive asynchronous exceptions. When
timeout
is used to wrap an FFI call that blocks, no timeout event can be
delivered until the FFI call returns, which pretty much negates the purpose of
the combinator. In practice, however, this limitation is less severe than it may
sound. Standard I/O functions like hGetBuf
, hPutBuf
,
Network.Socket.accept, or hWaitForInput
appear to be blocking, but
they really don't because the runtime system uses scheduling mechanisms like
select(2)
to perform asynchronous I/O, so it is possible to interrupt
standard socket I/O or file I/O using this combinator.