| Safe Haskell | None |
|---|---|
| Language | Haskell2010 |
GHCJS.DOM
- currentWindow :: IO (Maybe Window)
- currentDocument :: IO (Maybe Document)
- syncPoint :: IO ()
- syncAfter :: IO () -> IO ()
- waitForAnimationFrame :: IO Double
- nextAnimationFrame :: (Double -> JSM a) -> JSM a
- catch :: Exception e => IO a -> (e -> IO a) -> IO a
- bracket :: IO a -> (a -> IO b) -> (a -> IO c) -> IO c
Documentation
waitForAnimationFrame :: IO Double #
Wait for an animation frame callback to continue running the current
thread. Use synchronously if the thread should
not be preempted. This will return the high-performance clock time
stamp once an animation frame is reached.
Arguments
| :: Exception e | |
| => IO a | The computation to run |
| -> (e -> IO a) | Handler to invoke if an exception is raised |
| -> IO a |
This is the simplest of the exception-catching functions. It takes a single argument, runs it, and if an exception is raised the "handler" is executed, with the value of the exception passed as an argument. Otherwise, the result is returned as normal. For example:
catch (readFile f)
(\e -> do let err = show (e :: IOException)
hPutStr stderr ("Warning: Couldn't open " ++ f ++ ": " ++ err)
return "")Note that we have to give a type signature to e, or the program
will not typecheck as the type is ambiguous. While it is possible
to catch exceptions of any type, see the section "Catching all
exceptions" (in Control.Exception) for an explanation of the problems with doing so.
For catching exceptions in pure (non-IO) expressions, see the
function evaluate.
Note that due to Haskell's unspecified evaluation order, an
expression may throw one of several possible exceptions: consider
the expression (error "urk") + (1 `div` 0). Does
the expression throw
ErrorCall "urk", or DivideByZero?
The answer is "it might throw either"; the choice is
non-deterministic. If you are catching any type of exception then you
might catch either. If you are calling catch with type
IO Int -> (ArithException -> IO Int) -> IO Int then the handler may
get run with DivideByZero as an argument, or an ErrorCall "urk"
exception may be propogated further up. If you call it again, you
might get a the opposite behaviour. This is ok, because catch is an
IO computation.
Arguments
| :: IO a | computation to run first ("acquire resource") |
| -> (a -> IO b) | computation to run last ("release resource") |
| -> (a -> IO c) | computation to run in-between |
| -> IO c |
When you want to acquire a resource, do some work with it, and
then release the resource, it is a good idea to use bracket,
because bracket will install the necessary exception handler to
release the resource in the event that an exception is raised
during the computation. If an exception is raised, then bracket will
re-raise the exception (after performing the release).
A common example is opening a file:
bracket
(openFile "filename" ReadMode)
(hClose)
(\fileHandle -> do { ... })The arguments to bracket are in this order so that we can partially apply
it, e.g.:
withFile name mode = bracket (openFile name mode) hClose