Copyright | (c) The University of Glasgow 1994-2002 |
---|---|
License | see libraries/base/LICENSE |
Maintainer | cvs-ghc@haskell.org |
Stability | internal |
Portability | non-portable (GHC Extensions) |
Safe Haskell | Unsafe |
Language | Haskell2010 |
Unsafe IO operations
Synopsis
- unsafePerformIO :: IO a -> a
- unsafeInterleaveIO :: IO a -> IO a
- unsafeDupablePerformIO :: IO a -> a
- unsafeDupableInterleaveIO :: IO a -> IO a
- noDuplicate :: IO ()
Documentation
unsafePerformIO :: IO a -> a Source #
This is the "back door" into the IO
monad, allowing
IO
computation to be performed at any time. For
this to be safe, the IO
computation should be
free of side effects and independent of its environment.
If the I/O computation wrapped in unsafePerformIO
performs side
effects, then the relative order in which those side effects take
place (relative to the main I/O trunk, or other calls to
unsafePerformIO
) is indeterminate. Furthermore, when using
unsafePerformIO
to cause side-effects, you should take the following
precautions to ensure the side effects are performed as many times as
you expect them to be. Note that these precautions are necessary for
GHC, but may not be sufficient, and other compilers may require
different precautions:
- Use
{-# NOINLINE foo #-}
as a pragma on any functionfoo
that callsunsafePerformIO
. If the call is inlined, the I/O may be performed more than once. - Use the compiler flag
-fno-cse
to prevent common sub-expression elimination being performed on the module, which might combine two side effects that were meant to be separate. A good example is using multiple global variables (liketest
in the example below). - Make sure that the either you switch off let-floating (
-fno-full-laziness
), or that the call tounsafePerformIO
cannot float outside a lambda. For example, if you say:f x = unsafePerformIO (newIORef [])
you may get only one reference cell shared between all calls tof
. Better would bef x = unsafePerformIO (newIORef [x])
because now it can't float outside the lambda.
It is less well known that
unsafePerformIO
is not type safe. For example:
test :: IORef [a] test = unsafePerformIO $ newIORef [] main = do writeIORef test [42] bang <- readIORef test print (bang :: [Char])
This program will core dump. This problem with polymorphic references
is well known in the ML community, and does not arise with normal
monadic use of references. There is no easy way to make it impossible
once you use unsafePerformIO
. Indeed, it is
possible to write coerce :: a -> b
with the
help of unsafePerformIO
. So be careful!
unsafeInterleaveIO :: IO a -> IO a Source #
unsafeInterleaveIO
allows an IO
computation to be deferred lazily.
When passed a value of type IO a
, the IO
will only be performed
when the value of the a
is demanded. This is used to implement lazy
file reading, see hGetContents
.
unsafeDupablePerformIO :: IO a -> a Source #
This version of unsafePerformIO
is more efficient
because it omits the check that the IO is only being performed by a
single thread. Hence, when you use unsafeDupablePerformIO
,
there is a possibility that the IO action may be performed multiple
times (on a multiprocessor), and you should therefore ensure that
it gives the same results each time. It may even happen that one
of the duplicated IO actions is only run partially, and then interrupted
in the middle without an exception being raised. Therefore, functions
like bracket
cannot be used safely within
unsafeDupablePerformIO
.
Since: base-4.4.0.0
unsafeDupableInterleaveIO :: IO a -> IO a Source #
unsafeDupableInterleaveIO
allows an IO
computation to be deferred lazily.
When passed a value of type IO a
, the IO
will only be performed
when the value of the a
is demanded.
The computation may be performed multiple times by different threads,
possibly at the same time. To ensure that the computation is performed
only once, use unsafeInterleaveIO
instead.
noDuplicate :: IO () Source #
Ensures that the suspensions under evaluation by the current thread
are unique; that is, the current thread is not evaluating anything
that is also under evaluation by another thread that has also executed
noDuplicate
.
This operation is used in the definition of unsafePerformIO
to
prevent the IO action from being executed multiple times, which is usually
undesirable.