\begin{code}
-{-# OPTIONS -fno-implicit-prelude #-}
+{-# OPTIONS_GHC -fno-implicit-prelude #-}
-----------------------------------------------------------------------------
-- |
-- Module : GHC.IOBase
--
-----------------------------------------------------------------------------
-module GHC.IOBase where
-
+-- #hide
+module GHC.IOBase(
+ IO(..), unIO, failIO, liftIO, bindIO, thenIO, returnIO,
+ unsafePerformIO, unsafeInterleaveIO,
+
+ -- To and from from ST
+ stToIO, ioToST, unsafeIOToST,
+
+ -- References
+ IORef(..), newIORef, readIORef, writeIORef,
+ IOArray(..), newIOArray, readIOArray, writeIOArray, unsafeReadIOArray, unsafeWriteIOArray,
+ MVar(..),
+
+ -- Handles, file descriptors,
+ FilePath,
+ Handle(..), Handle__(..), HandleType(..), IOMode(..), FD,
+ isReadableHandleType, isWritableHandleType, showHandle,
+
+ -- Buffers
+ Buffer(..), RawBuffer, BufferState(..), BufferList(..), BufferMode(..),
+ bufferIsWritable, bufferEmpty, bufferFull,
+
+ -- Exceptions
+ Exception(..), ArithException(..), AsyncException(..), ArrayException(..),
+ stackOverflow, heapOverflow, throw, throwIO, ioException,
+ IOError, IOException(..), IOErrorType(..), ioError, userError,
+ ExitCode(..)
+ ) where
+
import GHC.ST
import GHC.Arr -- to derive Ix class
import GHC.Enum -- to derive Enum class
import GHC.STRef
import GHC.Base
-import GHC.Num -- To get fromInteger etc, needed because of -fno-implicit-prelude
+-- import GHC.Num -- To get fromInteger etc, needed because of -fno-implicit-prelude
import Data.Maybe ( Maybe(..) )
import GHC.Show
import GHC.List
-- ---------------------------------------------------------------------------
-- Coercions between IO and ST
---stToIO :: (forall s. ST s a) -> IO a
+-- | A monad transformer embedding strict state transformers in the 'IO'
+-- monad. The 'RealWorld' parameter indicates that the internal state
+-- used by the 'ST' computation is a special one supplied by the 'IO'
+-- monad, and thus distinct from those used by invocations of 'runST'.
stToIO :: ST RealWorld a -> IO a
stToIO (ST m) = IO m
ioToST :: IO a -> ST RealWorld a
ioToST (IO m) = (ST m)
+-- This relies on IO and ST having the same representation modulo the
+-- constraint on the type of the state
+--
+unsafeIOToST :: IO a -> ST s a
+unsafeIOToST (IO io) = ST $ \ s -> (unsafeCoerce# io) s
+
-- ---------------------------------------------------------------------------
-- Unsafe IO operations
>
> main = do
> writeIORef test [42]
-> bang \<- readIORef test
+> bang <- readIORef test
> print (bang :: [Char])
This program will core dump. This problem with polymorphic references
unsafePerformIO :: IO a -> a
unsafePerformIO (IO m) = case m realWorld# of (# _, r #) -> r
+-- Why do we NOINLINE unsafePerformIO? See the comment with
+-- GHC.ST.runST. Essentially the issue is that the IO computation
+-- inside unsafePerformIO must be atomic: it must either all run, or
+-- not at all. If we let the compiler see the application of the IO
+-- to realWorld#, it might float out part of the IO.
+
{-|
'unsafeInterleaveIO' allows '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 'System.IO.hGetContents'.
-}
-{-# NOINLINE unsafeInterleaveIO #-}
+{-# INLINE unsafeInterleaveIO #-}
unsafeInterleaveIO :: IO a -> IO a
unsafeInterleaveIO (IO m)
= IO ( \ s -> let
in
(# s, r #))
+-- We believe that INLINE on unsafeInterleaveIO is safe, because the
+-- state from this IO thread is passed explicitly to the interleaved
+-- IO, so it cannot be floated out and shared.
+
-- ---------------------------------------------------------------------------
-- Handle type
-- enough information to identify the handle for debugging. A handle is
-- equal according to '==' only to itself; no attempt
-- is made to compare the internal state of different handles for equality.
+--
+-- GHC note: a 'Handle' will be automatically closed when the garbage
+-- collector detects that it has become unreferenced by the program.
+-- However, relying on this behaviour is not generally recommended:
+-- the garbage collector is unpredictable. If possible, use explicit
+-- an explicit 'hClose' to close 'Handle's when they are no longer
+-- required. GHC does not currently attempt to free up file
+-- descriptors when they have run out, it is your responsibility to
+-- ensure that this doesn't happen.
data Handle
= FileHandle -- A normal handle to a file
-- but not less frequently, than specified above.
-- The output buffer is emptied as soon as it has been written out.
--
--- Similarly, input occurs according to the buffer mode for handle {\em hdl}.
+-- Similarly, input occurs according to the buffer mode for the handle:
--
-- * /line-buffering/: when the buffer for the handle is not empty,
-- the next item is obtained from the buffer; otherwise, when the
-- the next block of data is read into the buffer.
--
-- * /no-buffering/: the next input item is read and returned.
--- The 'hLookAhead' operation implies that even a no-buffered handle
--- may require a one-character buffer.
+-- The 'System.IO.hLookAhead' operation implies that even a no-buffered
+-- handle may require a one-character buffer.
--
-- The default buffering mode when a handle is opened is
-- implementation-dependent and may depend on the file system object
-- |The type of exceptions. Every kind of system-generated exception
-- has a constructor in the 'Exception' type, and values of other
-- types may be injected into 'Exception' by coercing them to
--- 'Dynamic' (see the section on Dynamic Exceptions: "Control.Exception\#DynamicExceptions").
+-- 'Data.Dynamic.Dynamic' (see the section on Dynamic Exceptions:
+-- "Control.Exception\#DynamicExceptions").
data Exception
= ArithException ArithException
-- ^Exceptions raised by arithmetic
-- ^Asynchronous exceptions (see section on Asynchronous Exceptions: "Control.Exception\#AsynchronousExceptions").
| BlockedOnDeadMVar
-- ^The current thread was executing a call to
- -- 'takeMVar' that could never return, because there are no other
- -- references to this 'MVar'.
+ -- 'Control.Concurrent.MVar.takeMVar' that could never return,
+ -- because there are no other references to this 'MVar'.
+ | BlockedIndefinitely
+ -- ^The current thread was waiting to retry an atomic memory transaction
+ -- that could never become possible to complete because there are no other
+ -- threads referring to any of teh TVars involved.
| Deadlock
-- ^There are no runnable threads, so the program is
-- deadlocked. The 'Deadlock' exception is
showsPrec _ (DynException _err) = showString "unknown exception"
showsPrec _ (AsyncException e) = shows e
showsPrec _ (BlockedOnDeadMVar) = showString "thread blocked indefinitely"
+ showsPrec _ (BlockedIndefinitely) = showString "thread blocked indefinitely"
showsPrec _ (NonTermination) = showString "<<loop>>"
showsPrec _ (Deadlock) = showString "<<deadlock>>"
-- -----------------------------------------------------------------------------
-- The ExitCode type
--- The `ExitCode' type defines the exit codes that a program
--- can return. `ExitSuccess' indicates successful termination;
--- and `ExitFailure code' indicates program failure
--- with value `code'. The exact interpretation of `code'
--- is operating-system dependent. In particular, some values of
--- `code' may be prohibited (e.g. 0 on a POSIX-compliant system).
-
-- We need it here because it is used in ExitException in the
-- Exception datatype (above).
-data ExitCode = ExitSuccess | ExitFailure Int
- deriving (Eq, Ord, Read, Show)
+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)
-- --------------------------------------------------------------------------
-- Primitive throw
ioException :: IOException -> IO a
ioException err = IO $ raiseIO# (IOException err)
+-- | Raise an 'IOError' in the 'IO' monad.
ioError :: IOError -> IO a
ioError = ioException
-- ---------------------------------------------------------------------------
-- IOError type
--- | The Haskell 98 type for exceptions in the @IO@ monad.
+-- | The Haskell 98 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 98, this is an opaque type.
type IOError = IOException
(IOError h1 e1 loc1 str1 fn1) == (IOError h2 e2 loc2 str2 fn2) =
e1==e2 && str1==str2 && h1==h2 && loc1==loc2 && fn1==fn2
+-- | An abstract type that contains a value for each variant of 'IOError'.
data IOErrorType
-- Haskell 98:
= AlreadyExists
UnsupportedOperation -> "unsupported operation"
DynIOError{} -> "unknown IO error"
+-- | 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