import GHC.Base ( assert )
import GHC.Exception as ExceptionBase hiding (catch)
import GHC.Conc ( throwTo, ThreadId )
-import GHC.IOBase ( IO(..), IORef(..), newIORef, readIORef, writeIORef )
-import GHC.Handle ( stdout, hFlush )
-import Foreign.C.String ( CString, withCStringLen )
+import Data.IORef ( IORef, newIORef, readIORef, writeIORef )
+import Foreign.C.String ( CString, withCString )
+import System.IO ( stdout, hFlush )
#endif
#ifdef __HUGS__
-- might be a 'ThreadKilled', for example). In this case it is usually better
-- to use 'catchJust' and select the kinds of exceptions to catch.
--
--- Also note that The "Prelude" also exports a
--- function called 'catch' which has the same type as
--- 'Control.Exception.catch', the difference being that the
--- "Prelude" version only catches the IO and user
+-- Also note that the "Prelude" also exports a function called
+-- 'Prelude.catch' with a similar type to 'Control.Exception.catch',
+-- except that the "Prelude" version only catches the IO and user
-- families of exceptions (as required by Haskell 98). We recommend
-- either hiding the "Prelude" version of
--- 'catch' when importing
+-- 'Prelude.catch' when importing
-- "Control.Exception", or importing
-- "Control.Exception" qualified, to avoid name-clashes.
handleJust p = flip (catchJust p)
-----------------------------------------------------------------------------
--- evaluate
-
--- | Forces its argument to be evaluated, and returns the result in
--- the 'IO' monad. It can be used to order evaluation with respect to
--- other 'IO' operations; its semantics are given by
---
--- > evaluate undefined `seq` return () ==> return ()
--- > catch (evaluate undefined) (\e -> return ()) ==> return ()
---
--- NOTE: @(evaluate a)@ is /not/ the same as @(a \`seq\` return a)@.
-#ifdef __GLASGOW_HASKELL__
-evaluate :: a -> IO a
-evaluate a = IO $ \s -> case a `seq` () of () -> (# s, a #)
- -- NB. can't write
- -- a `seq` (# s, a #)
- -- because we can't have an unboxed tuple as a function argument
-#endif
-
------------------------------------------------------------------------------
-- 'mapException'
-- | This function maps one exception into another as proposed in the
-- 'try' and variations.
-- | Similar to 'catch', but returns an 'Either' result which is
--- @(Right a)@ if no exception was raised, or @(Left e)@ if an
+-- @('Right' a)@ if no exception was raised, or @('Left' e)@ if an
-- exception was raised and its value is @e@.
--
-- > try a = catch (Right \`liftM\` a) (return . Left)
-- to re-throw the exception after performing whatever cleanup is needed.
-- Otherwise, 'tryJust' is generally considered to be better.
--
+-- Also note that "System.IO.Error" also exports a function called
+-- 'System.IO.Error.try' with a similar type to 'Control.Exception.try',
+-- except that it catches only the IO and user families of exceptions
+-- (as required by the Haskell 98 @IO@ module).
+
try :: IO a -> IO (Either Exception a)
try a = catch (a >>= \ v -> return (Right v)) (\e -> return (Left e))
Deadlock -> "no threads to run: infinite loop or deadlock?"
ErrorCall s -> s
other -> showsPrec 0 other "\n"
- withCStringLen ("Fail: "++msg) $ \(cstr,len) -> writeErrString cstr len
-
-foreign import ccall unsafe "writeErrString__"
- writeErrString :: CString -> Int -> IO ()
+ withCString "%s" $ \cfmt ->
+ withCString msg $ \cmsg ->
+ errorBelch cfmt cmsg
+
+foreign import ccall unsafe errorBelch :: CString -> CString -> IO ()
setUncaughtExceptionHandler :: (Exception -> IO ()) -> IO ()
setUncaughtExceptionHandler = writeIORef uncaughtExceptionHandler