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|
{-# LANGUAGE Trustworthy #-}
{-# LANGUAGE DeriveGeneric, NoImplicitPrelude, MagicHash,
ExistentialQuantification, ImplicitParams #-}
{-# OPTIONS_GHC -funbox-strict-fields #-}
{-# OPTIONS_HADDOCK not-home #-}
-----------------------------------------------------------------------------
-- |
-- Module : GHC.IO.Exception
-- Copyright : (c) The University of Glasgow, 2009
-- License : see libraries/base/LICENSE
--
-- Maintainer : libraries@haskell.org
-- Stability : internal
-- Portability : non-portable
--
-- IO-related Exception types and functions
--
-----------------------------------------------------------------------------
module GHC.IO.Exception (
BlockedIndefinitelyOnMVar(..), blockedIndefinitelyOnMVar,
BlockedIndefinitelyOnSTM(..), blockedIndefinitelyOnSTM,
Deadlock(..),
AllocationLimitExceeded(..), allocationLimitExceeded,
AssertionFailed(..),
CompactionFailed(..),
cannotCompactFunction, cannotCompactPinned, cannotCompactMutable,
SomeAsyncException(..),
asyncExceptionToException, asyncExceptionFromException,
AsyncException(..), stackOverflow, heapOverflow,
ArrayException(..),
ExitCode(..),
FixIOException (..),
ioException,
ioError,
IOError,
IOException(..),
IOErrorType(..),
userError,
assertError,
unsupportedOperation,
untangle,
) where
import GHC.Base
import GHC.Generics
import GHC.List
import GHC.IO
import GHC.Show
import GHC.Read
import GHC.Exception
import GHC.IO.Handle.Types
import GHC.OldList ( intercalate )
import {-# SOURCE #-} GHC.Stack.CCS
import Foreign.C.Types
import Data.Typeable ( cast )
-- ------------------------------------------------------------------------
-- Exception datatypes and operations
-- |The thread is blocked on an @MVar@, but there are no other references
-- to the @MVar@ so it can't ever continue.
data BlockedIndefinitelyOnMVar = BlockedIndefinitelyOnMVar
-- | @since 4.1.0.0
instance Exception BlockedIndefinitelyOnMVar
-- | @since 4.1.0.0
instance Show BlockedIndefinitelyOnMVar where
showsPrec _ BlockedIndefinitelyOnMVar = showString "thread blocked indefinitely in an MVar operation"
blockedIndefinitelyOnMVar :: SomeException -- for the RTS
blockedIndefinitelyOnMVar = toException BlockedIndefinitelyOnMVar
-----
-- |The thread is waiting to retry an STM transaction, but there are no
-- other references to any @TVar@s involved, so it can't ever continue.
data BlockedIndefinitelyOnSTM = BlockedIndefinitelyOnSTM
-- | @since 4.1.0.0
instance Exception BlockedIndefinitelyOnSTM
-- | @since 4.1.0.0
instance Show BlockedIndefinitelyOnSTM where
showsPrec _ BlockedIndefinitelyOnSTM = showString "thread blocked indefinitely in an STM transaction"
blockedIndefinitelyOnSTM :: SomeException -- for the RTS
blockedIndefinitelyOnSTM = toException BlockedIndefinitelyOnSTM
-----
-- |There are no runnable threads, so the program is deadlocked.
-- The @Deadlock@ exception is raised in the main thread only.
data Deadlock = Deadlock
-- | @since 4.1.0.0
instance Exception Deadlock
-- | @since 4.1.0.0
instance Show Deadlock where
showsPrec _ Deadlock = showString "<<deadlock>>"
-----
-- |This thread has exceeded its allocation limit. See
-- 'System.Mem.setAllocationCounter' and
-- 'System.Mem.enableAllocationLimit'.
--
-- @since 4.8.0.0
data AllocationLimitExceeded = AllocationLimitExceeded
-- | @since 4.8.0.0
instance Exception AllocationLimitExceeded where
toException = asyncExceptionToException
fromException = asyncExceptionFromException
-- | @since 4.7.1.0
instance Show AllocationLimitExceeded where
showsPrec _ AllocationLimitExceeded =
showString "allocation limit exceeded"
allocationLimitExceeded :: SomeException -- for the RTS
allocationLimitExceeded = toException AllocationLimitExceeded
-----
-- | Compaction found an object that cannot be compacted. Functions
-- cannot be compacted, nor can mutable objects or pinned objects.
-- See 'GHC.Compact.compact'.
--
-- @since 4.10.0.0
newtype CompactionFailed = CompactionFailed String
-- | @since 4.10.0.0
instance Exception CompactionFailed where
-- | @since 4.10.0.0
instance Show CompactionFailed where
showsPrec _ (CompactionFailed why) =
showString ("compaction failed: " ++ why)
cannotCompactFunction :: SomeException -- for the RTS
cannotCompactFunction =
toException (CompactionFailed "cannot compact functions")
cannotCompactPinned :: SomeException -- for the RTS
cannotCompactPinned =
toException (CompactionFailed "cannot compact pinned objects")
cannotCompactMutable :: SomeException -- for the RTS
cannotCompactMutable =
toException (CompactionFailed "cannot compact mutable objects")
-----
-- |'assert' was applied to 'False'.
newtype AssertionFailed = AssertionFailed String
-- | @since 4.1.0.0
instance Exception AssertionFailed
-- | @since 4.1.0.0
instance Show AssertionFailed where
showsPrec _ (AssertionFailed err) = showString err
-----
-- |Superclass for asynchronous exceptions.
--
-- @since 4.7.0.0
data SomeAsyncException = forall e . Exception e => SomeAsyncException e
-- | @since 4.7.0.0
instance Show SomeAsyncException where
show (SomeAsyncException e) = show e
-- | @since 4.7.0.0
instance Exception SomeAsyncException
-- |@since 4.7.0.0
asyncExceptionToException :: Exception e => e -> SomeException
asyncExceptionToException = toException . SomeAsyncException
-- |@since 4.7.0.0
asyncExceptionFromException :: Exception e => SomeException -> Maybe e
asyncExceptionFromException x = do
SomeAsyncException a <- fromException x
cast a
-- |Asynchronous exceptions.
data AsyncException
= StackOverflow
-- ^The current thread\'s stack exceeded its limit.
-- Since an exception has been raised, the thread\'s stack
-- will certainly be below its limit again, but the
-- programmer should take remedial action
-- immediately.
| HeapOverflow
-- ^The program\'s heap is reaching its limit, and
-- the program should take action to reduce the amount of
-- live data it has. Notes:
--
-- * It is undefined which thread receives this exception.
-- GHC currently throws this to the same thread that
-- receives 'UserInterrupt', but this may change in the
-- future.
--
-- * The GHC RTS currently can only recover from heap overflow
-- if it detects that an explicit memory limit (set via RTS flags).
-- has been exceeded. Currently, failure to allocate memory from
-- the operating system results in immediate termination of the
-- program.
| ThreadKilled
-- ^This exception is raised by another thread
-- calling 'Control.Concurrent.killThread', or by the system
-- if it needs to terminate the thread for some
-- reason.
| UserInterrupt
-- ^This exception is raised by default in the main thread of
-- the program when the user requests to terminate the program
-- via the usual mechanism(s) (e.g. Control-C in the console).
deriving ( Eq -- ^ @since 4.2.0.0
, Ord -- ^ @since 4.2.0.0
)
-- | @since 4.7.0.0
instance Exception AsyncException where
toException = asyncExceptionToException
fromException = asyncExceptionFromException
-- | Exceptions generated by array operations
data ArrayException
= IndexOutOfBounds String
-- ^An attempt was made to index an array outside
-- its declared bounds.
| UndefinedElement String
-- ^An attempt was made to evaluate an element of an
-- array that had not been initialized.
deriving ( Eq -- ^ @since 4.2.0.0
, Ord -- ^ @since 4.2.0.0
)
-- | @since 4.1.0.0
instance Exception ArrayException
-- for the RTS
stackOverflow, heapOverflow :: SomeException
stackOverflow = toException StackOverflow
heapOverflow = toException HeapOverflow
-- | @since 4.1.0.0
instance Show AsyncException where
showsPrec _ StackOverflow = showString "stack overflow"
showsPrec _ HeapOverflow = showString "heap overflow"
showsPrec _ ThreadKilled = showString "thread killed"
showsPrec _ UserInterrupt = showString "user interrupt"
-- | @since 4.1.0.0
instance Show ArrayException where
showsPrec _ (IndexOutOfBounds s)
= showString "array index out of range"
. (if not (null s) then showString ": " . showString s
else id)
showsPrec _ (UndefinedElement s)
= showString "undefined array element"
. (if not (null s) then showString ": " . showString s
else id)
-- | The exception thrown when an infinite cycle is detected in
-- 'System.IO.fixIO'.
--
-- @since 4.11.0.0
data FixIOException = FixIOException
-- | @since 4.11.0.0
instance Exception FixIOException
-- | @since 4.11.0.0
instance Show FixIOException where
showsPrec _ FixIOException = showString "cyclic evaluation in fixIO"
-- -----------------------------------------------------------------------------
-- The ExitCode type
-- We need it here because it is used in ExitException in the
-- Exception datatype (above).
-- | Defines the exit codes that a program can return.
data ExitCode
= ExitSuccess -- ^ indicates successful termination;
| ExitFailure Int
-- ^ indicates program failure with an exit code.
-- The exact interpretation of the code is
-- operating-system dependent. In particular, some values
-- may be prohibited (e.g. 0 on a POSIX-compliant system).
deriving (Eq, Ord, Read, Show, Generic)
-- | @since 4.1.0.0
instance Exception ExitCode
ioException :: IOException -> IO a
ioException err = throwIO err
-- | Raise an 'IOError' in the 'IO' monad.
ioError :: IOError -> IO a
ioError = ioException
-- ---------------------------------------------------------------------------
-- IOError type
-- | The Haskell 2010 type for exceptions in the 'IO' monad.
-- Any I\/O operation may raise an 'IOError' instead of returning a result.
-- For a more general type of exception, including also those that arise
-- in pure code, see 'Control.Exception.Exception'.
--
-- In Haskell 2010, this is an opaque type.
type IOError = IOException
-- |Exceptions that occur in the @IO@ monad.
-- An @IOException@ records a more specific error type, a descriptive
-- string and maybe the handle that was used when the error was
-- flagged.
data IOException
= IOError {
ioe_handle :: Maybe Handle, -- the handle used by the action flagging
-- the error.
ioe_type :: IOErrorType, -- what it was.
ioe_location :: String, -- location.
ioe_description :: String, -- error type specific information.
ioe_errno :: Maybe CInt, -- errno leading to this error, if any.
ioe_filename :: Maybe FilePath -- filename the error is related to.
}
-- | @since 4.1.0.0
instance Exception IOException
-- | @since 4.1.0.0
instance Eq IOException where
(IOError h1 e1 loc1 str1 en1 fn1) == (IOError h2 e2 loc2 str2 en2 fn2) =
e1==e2 && str1==str2 && h1==h2 && loc1==loc2 && en1==en2 && fn1==fn2
-- | An abstract type that contains a value for each variant of 'IOError'.
data IOErrorType
-- Haskell 2010:
= AlreadyExists
| NoSuchThing
| ResourceBusy
| ResourceExhausted
| EOF
| IllegalOperation
| PermissionDenied
| UserError
-- GHC only:
| UnsatisfiedConstraints
| SystemError
| ProtocolError
| OtherError
| InvalidArgument
| InappropriateType
| HardwareFault
| UnsupportedOperation
| TimeExpired
| ResourceVanished
| Interrupted
-- | @since 4.1.0.0
instance Eq IOErrorType where
x == y = isTrue# (getTag x ==# getTag y)
-- | @since 4.1.0.0
instance Show IOErrorType where
showsPrec _ e =
showString $
case e of
AlreadyExists -> "already exists"
NoSuchThing -> "does not exist"
ResourceBusy -> "resource busy"
ResourceExhausted -> "resource exhausted"
EOF -> "end of file"
IllegalOperation -> "illegal operation"
PermissionDenied -> "permission denied"
UserError -> "user error"
HardwareFault -> "hardware fault"
InappropriateType -> "inappropriate type"
Interrupted -> "interrupted"
InvalidArgument -> "invalid argument"
OtherError -> "failed"
ProtocolError -> "protocol error"
ResourceVanished -> "resource vanished"
SystemError -> "system error"
TimeExpired -> "timeout"
UnsatisfiedConstraints -> "unsatisfied constraints" -- ultra-precise!
UnsupportedOperation -> "unsupported operation"
-- | Construct an 'IOError' value with a string describing the error.
-- The 'fail' method of the 'IO' instance of the 'Monad' class raises a
-- 'userError', thus:
--
-- > instance Monad IO where
-- > ...
-- > fail s = ioError (userError s)
--
userError :: String -> IOError
userError str = IOError Nothing UserError "" str Nothing Nothing
-- ---------------------------------------------------------------------------
-- Showing IOErrors
-- | @since 4.1.0.0
instance Show IOException where
showsPrec p (IOError hdl iot loc s _ fn) =
(case fn of
Nothing -> case hdl of
Nothing -> id
Just h -> showsPrec p h . showString ": "
Just name -> showString name . showString ": ") .
(case loc of
"" -> id
_ -> showString loc . showString ": ") .
showsPrec p iot .
(case s of
"" -> id
_ -> showString " (" . showString s . showString ")")
-- Note the use of "lazy". This means that
-- assert False (throw e)
-- will throw the assertion failure rather than e. See trac #5561.
assertError :: (?callStack :: CallStack) => Bool -> a -> a
assertError predicate v
| predicate = lazy v
| otherwise = unsafeDupablePerformIO $ do
ccsStack <- currentCallStack
let
implicitParamCallStack = prettyCallStackLines ?callStack
ccsCallStack = showCCSStack ccsStack
stack = intercalate "\n" $ implicitParamCallStack ++ ccsCallStack
throwIO (AssertionFailed ("Assertion failed\n" ++ stack))
unsupportedOperation :: IOError
unsupportedOperation =
(IOError Nothing UnsupportedOperation ""
"Operation is not supported" Nothing Nothing)
{-
(untangle coded message) expects "coded" to be of the form
"location|details"
It prints
location message details
-}
untangle :: Addr# -> String -> String
untangle coded message
= location
++ ": "
++ message
++ details
++ "\n"
where
coded_str = unpackCStringUtf8# coded
(location, details)
= case (span not_bar coded_str) of { (loc, rest) ->
case rest of
('|':det) -> (loc, ' ' : det)
_ -> (loc, "")
}
not_bar c = c /= '|'
|