{-# LINE 1 "Data/GI/Base/GError.hsc" #-} {-# LANGUAGE DeriveDataTypeable, ScopedTypeVariables #-} -- | To catch GError exceptions use the -- catchGError* or handleGError* functions. They work in a similar -- way to the standard 'Control.Exception.catch' and -- 'Control.Exception.handle' functions. -- -- To catch just a single specific error use 'catchGErrorJust' \/ -- 'handleGErrorJust'. To catch any error in a particular error domain -- use 'catchGErrorJustDomain' \/ 'handleGErrorJustDomain' -- -- For convenience, generated code also includes specialized variants -- of 'catchGErrorJust' \/ 'handleGErrorJust' for each error type. For -- example, for errors of type <https://hackage.haskell.org/package/gi-gdkpixbuf/docs/GI-GdkPixbuf-Enums.html#t:PixbufError PixbufError> one could -- invoke <https://hackage.haskell.org/package/gi-gdkpixbuf/docs/GI-GdkPixbuf-Enums.html#v:catchPixbufError catchPixbufError> \/ -- <https://hackage.haskell.org/package/gi-gdkpixbuf-2.0.14/docs/GI-GdkPixbuf-Enums.html#v:handlePixbufError handlePixbufError>. The definition is simply -- -- > catchPixbufError :: IO a -> (PixbufError -> GErrorMessage -> IO a) -> IO a -- > catchPixbufError = catchGErrorJustDomain -- -- Notice that the type is suitably specialized, so only -- errors of type <https://hackage.haskell.org/package/gi-gdkpixbuf/docs/GI-GdkPixbuf-Enums.html#t:PixbufError PixbufError> will be caught. module Data.GI.Base.GError ( -- * Unpacking GError -- GError(..) , gerrorDomain , gerrorCode , gerrorMessage , GErrorDomain , GErrorCode , GErrorMessage -- * Catching GError exceptions , catchGErrorJust , catchGErrorJustDomain , handleGErrorJust , handleGErrorJustDomain -- * Creating new 'GError's , gerrorNew -- * Implementation specific details -- | The following are used in the implementation -- of the bindings, and are in general not necessary for using the -- API. , GErrorClass(..) , propagateGError , checkGError , maybePokeGError ) where {-# LINE 60 "Data/GI/Base/GError.hsc" #-} import Foreign (poke, peek) import Foreign.Ptr (Ptr, plusPtr, nullPtr) import Foreign.C import Control.Exception import Data.Text (Text) import qualified Data.Text as T import Data.Typeable (Typeable) import Data.Int import Data.Word import System.IO.Unsafe (unsafePerformIO) import Data.GI.Base.BasicTypes (BoxedObject(..), GType(..), ManagedPtr) import Data.GI.Base.BasicConversions (withTextCString, cstringToText) import Data.GI.Base.ManagedPtr (wrapBoxed, withManagedPtr, copyBoxed) import Data.GI.Base.Utils (allocMem, freeMem) -- | A GError, consisting of a domain, code and a human readable -- message. These can be accessed by 'gerrorDomain', 'gerrorCode' and -- 'gerrorMessage' below. newtype GError = GError (ManagedPtr GError) deriving (Typeable) instance Show GError where show gerror = unsafePerformIO $ do code <- gerrorCode gerror message <- gerrorMessage gerror return $ T.unpack message ++ " (" ++ show code ++ ")" instance Exception GError foreign import ccall "g_error_get_type" g_error_get_type :: IO GType instance BoxedObject GError where boxedType _ = g_error_get_type -- | A GQuark. type GQuark = Word32 {-# LINE 101 "Data/GI/Base/GError.hsc" #-} -- | A code used to identify the "namespace" of the error. Within each error -- domain all the error codes are defined in an enumeration. Each gtk\/gnome -- module that uses GErrors has its own error domain. The rationale behind -- using error domains is so that each module can organise its own error codes -- without having to coordinate on a global error code list. type GErrorDomain = GQuark -- | A code to identify a specific error within a given 'GErrorDomain'. Most of -- time you will not need to deal with this raw code since there is an -- enumeration type for each error domain. Of course which enumeration to use -- depends on the error domain, but if you use 'catchGErrorJustDomain' or -- 'handleGErrorJustDomain', this is worked out for you automatically. type GErrorCode = Int32 {-# LINE 115 "Data/GI/Base/GError.hsc" #-} -- | A human readable error message. type GErrorMessage = Text foreign import ccall "g_error_new_literal" g_error_new_literal :: GQuark -> GErrorCode -> CString -> IO (Ptr GError) -- | Create a new 'GError'. gerrorNew :: GErrorDomain -> GErrorCode -> GErrorMessage -> IO GError gerrorNew domain code message = withTextCString message $ \cstring -> g_error_new_literal domain code cstring >>= wrapBoxed GError -- | Return the domain for the given `GError`. This is a GQuark, a -- textual representation can be obtained with -- `GI.GLib.quarkToString`. gerrorDomain :: GError -> IO GQuark gerrorDomain gerror = withManagedPtr gerror $ \ptr -> peek $ ptr `plusPtr` (0) {-# LINE 135 "Data/GI/Base/GError.hsc" #-} -- | The numeric code for the given `GError`. gerrorCode :: GError -> IO GErrorCode gerrorCode gerror = withManagedPtr gerror $ \ptr -> peek $ ptr `plusPtr` (4) {-# LINE 141 "Data/GI/Base/GError.hsc" #-} -- | A text message describing the `GError`. gerrorMessage :: GError -> IO GErrorMessage gerrorMessage gerror = withManagedPtr gerror $ \ptr -> (peek $ ptr `plusPtr` (8)) >>= cstringToText {-# LINE 147 "Data/GI/Base/GError.hsc" #-} -- | Each error domain's error enumeration type should be an instance of this -- class. This class helps to hide the raw error and domain codes from the -- user. -- -- Example for <https://hackage.haskell.org/package/gi-gdkpixbuf/docs/GI-GdkPixbuf-Enums.html#t:PixbufError PixbufError>: -- -- > instance GErrorClass PixbufError where -- > gerrorClassDomain _ = "gdk-pixbuf-error-quark" -- class Enum err => GErrorClass err where gerrorClassDomain :: err -> Text -- ^ This must not use the value of its -- parameter so that it is safe to pass -- 'undefined'. foreign import ccall unsafe "g_quark_try_string" g_quark_try_string :: CString -> IO GQuark -- | Given the string representation of an error domain returns the -- corresponding error quark. gErrorQuarkFromDomain :: Text -> IO GQuark gErrorQuarkFromDomain domain = withTextCString domain g_quark_try_string -- | This will catch just a specific GError exception. If you need to catch a -- range of related errors, 'catchGErrorJustDomain' is probably more -- appropriate. Example: -- -- > do image <- catchGErrorJust PixbufErrorCorruptImage -- > loadImage -- > (\errorMessage -> do log errorMessage -- > return mssingImagePlaceholder) -- catchGErrorJust :: GErrorClass err => err -- ^ The error to catch -> IO a -- ^ The computation to run -> (GErrorMessage -> IO a) -- ^ Handler to invoke if -- an exception is raised -> IO a catchGErrorJust code action handler = catch action handler' where handler' gerror = do quark <- gErrorQuarkFromDomain (gerrorClassDomain code) domain <- gerrorDomain gerror code' <- gerrorCode gerror if domain == quark && code' == (fromIntegral . fromEnum) code then gerrorMessage gerror >>= handler else throw gerror -- Pass it on -- | Catch all GErrors from a particular error domain. The handler function -- should just deal with one error enumeration type. If you need to catch -- errors from more than one error domain, use this function twice with an -- appropriate handler functions for each. -- -- > catchGErrorJustDomain -- > loadImage -- > (\err message -> case err of -- > PixbufErrorCorruptImage -> ... -- > PixbufErrorInsufficientMemory -> ... -- > PixbufErrorUnknownType -> ... -- > _ -> ...) -- catchGErrorJustDomain :: forall err a. GErrorClass err => IO a -- ^ The computation to run -> (err -> GErrorMessage -> IO a) -- ^ Handler to invoke if an exception is raised -> IO a catchGErrorJustDomain action handler = catch action handler' where handler' gerror = do quark <- gErrorQuarkFromDomain (gerrorClassDomain (undefined :: err)) domain <- gerrorDomain gerror if domain == quark then do code <- (toEnum . fromIntegral) <$> gerrorCode gerror msg <- gerrorMessage gerror handler code msg else throw gerror -- | A verson of 'handleGErrorJust' with the arguments swapped around. handleGErrorJust :: GErrorClass err => err -> (GErrorMessage -> IO a) -> IO a -> IO a handleGErrorJust code = flip (catchGErrorJust code) -- | A verson of 'catchGErrorJustDomain' with the arguments swapped around. handleGErrorJustDomain :: GErrorClass err => (err -> GErrorMessage -> IO a) -> IO a -> IO a handleGErrorJustDomain = flip catchGErrorJustDomain -- | Run the given function catching possible 'GError's in its -- execution. If a 'GError' is emitted this throws the corresponding -- exception. propagateGError :: (Ptr (Ptr GError) -> IO a) -> IO a propagateGError f = checkGError f throw -- | Like 'propagateGError', but allows to specify a custom handler -- instead of just throwing the exception. checkGError :: (Ptr (Ptr GError) -> IO a) -> (GError -> IO a) -> IO a checkGError f handler = do gerrorPtr <- allocMem poke gerrorPtr nullPtr result <- f gerrorPtr gerror <- peek gerrorPtr freeMem gerrorPtr if gerror /= nullPtr then wrapBoxed GError gerror >>= handler else return result -- | If the passed in @`Maybe` `GError`@ is not `Nothing`, store a -- copy in the passed in pointer, unless the pointer is `nullPtr`. maybePokeGError :: Ptr (Ptr GError) -> Maybe GError -> IO () maybePokeGError _ Nothing = return () maybePokeGError ptrPtr (Just gerror) | ptrPtr == nullPtr = return () | otherwise = copyBoxed gerror >>= poke ptrPtr