{-# LANGUAGE ConstraintKinds, FlexibleContexts, FlexibleInstances, DeriveDataTypeable, TypeFamilies, ScopedTypeVariables #-} #if !MIN_VERSION_base(4,8,0) {-# LANGUAGE OverlappingInstances #-} #endif #if MIN_VERSION_base(4,9,0) {-# LANGUAGE DataKinds, TypeOperators, UndecidableInstances #-} #endif -- | Basic types used in the bindings. module Data.GI.Base.BasicTypes ( -- * GType related module Data.GI.Base.GType -- reexported for convenience -- * Memory management , ManagedPtr(..) , ManagedPtrNewtype , BoxedObject(..) , BoxedEnum(..) , BoxedFlags(..) , GObject(..) , WrappedPtr(..) , UnexpectedNullPointerReturn(..) , NullToNothing(..) -- * Basic GLib \/ GObject types , GVariant(..) , GParamSpec(..) , GArray(..) , GPtrArray(..) , GByteArray(..) , GHashTable(..) , GList(..) , g_list_free , GSList(..) , g_slist_free , IsGFlag , PtrWrapped(..) , GDestroyNotify ) where #if !MIN_VERSION_base(4,8,0) import Control.Applicative ((<$>)) #endif import Control.Exception (Exception, catch) import Control.Monad.IO.Class (MonadIO(..)) import Data.Coerce (Coercible) import Data.IORef (IORef) import Data.Proxy (Proxy) import qualified Data.Text as T import Data.Typeable (Typeable) import Foreign.Ptr (Ptr, FunPtr) import Foreign.ForeignPtr (ForeignPtr) import Data.GI.Base.CallStack (CallStack) import Data.GI.Base.GType -- | Thin wrapper over `ForeignPtr`, supporting the extra notion of -- `disowning`, that is, not running the finalizers associated with -- the foreign ptr. data ManagedPtr a = ManagedPtr { managedForeignPtr :: ForeignPtr a , managedPtrIsDisowned :: IORef (Maybe CallStack) -- ^ When disowned, the `CallStack` for the disowning call. } -- | A constraint ensuring that the given type is coercible to a -- ManagedPtr. It will hold for newtypes of the form -- -- > newtype Foo = Foo (ManagedPtr Foo) -- -- which is the typical shape of wrapped 'GObject's. type ManagedPtrNewtype a = Coercible a (ManagedPtr ()) -- Notice that the Coercible here is to ManagedPtr (), instead of -- "ManagedPtr a", which would be the most natural thing. Both are -- representationally equivalent, so this is not a big deal. This is -- to work around a problem in ghc 7.10: -- https://ghc.haskell.org/trac/ghc/ticket/10715 -- | Wrapped boxed structures, identified by their `GType`. class ManagedPtrNewtype a => BoxedObject a where boxedType :: a -> IO GType -- This should not use the value of its -- argument. -- | Enums with an associated `GType`. class BoxedEnum a where boxedEnumType :: a -> IO GType -- | Flags with an associated `GType`. class BoxedFlags a where boxedFlagsType :: Proxy a -> IO GType -- | Pointers to structs/unions without an associated `GType`. class ManagedPtrNewtype a => WrappedPtr a where -- | Allocate a zero-initialized block of memory for the given type. wrappedPtrCalloc :: IO (Ptr a) -- | Make a copy of the given `WrappedPtr`. wrappedPtrCopy :: a -> IO a -- | A pointer to a function for freeing the given pointer, or -- `Nothing` is the memory associated to the pointer does not need -- to be freed. wrappedPtrFree :: Maybe (FunPtr (Ptr a -> IO ())) -- | A wrapped `GObject`. class ManagedPtrNewtype a => GObject a where -- | The `GType` for this object. gobjectType :: a -> IO GType -- | A common omission in the introspection data is missing (nullable) -- annotations for return types, when they clearly are nullable. (A -- common idiom is "Returns: valid value, or %NULL if something went -- wrong.") -- -- Haskell wrappers will raise this exception if the return value is -- an unexpected `Foreign.Ptr.nullPtr`. data UnexpectedNullPointerReturn = UnexpectedNullPointerReturn { nullPtrErrorMsg :: T.Text } deriving (Typeable) instance Show UnexpectedNullPointerReturn where show r = T.unpack (nullPtrErrorMsg r) instance Exception UnexpectedNullPointerReturn type family UnMaybe a :: * where UnMaybe (Maybe a) = a UnMaybe a = a {-# DEPRECATED nullToNothing ["This will be removed in future versions of haskell-gi.", "If you know of wrong introspection data in a binding please report it as an issue at", "http://github.com/haskell-gi/haskell-gi", "so that it can be fixed."] #-} class NullToNothing a where -- | Some functions are not marked as having a nullable return type -- in the introspection data. The result is that they currently do -- not return a Maybe type. This functions lets you work around this -- in a way that will not break when the introspection data is fixed. -- -- When you want to call a `someHaskellGIFunction` that may return null -- wrap the call like this. -- -- > nullToNothing (someHaskellGIFunction x y) -- -- The result will be a Maybe type even if the introspection data has -- not been fixed for `someHaskellGIFunction` yet. nullToNothing :: MonadIO m => IO a -> m (Maybe (UnMaybe a)) instance #if MIN_VERSION_base(4,8,0) {-# OVERLAPPABLE #-} #endif a ~ UnMaybe a => NullToNothing a where nullToNothing f = liftIO $ (Just <$> f) `catch` (\(_::UnexpectedNullPointerReturn) -> return Nothing) instance NullToNothing (Maybe a) where nullToNothing = liftIO -- | A <https://developer.gnome.org/glib/stable/glib-GVariant.html GVariant>. See "Data.GI.Base.GVariant" for further methods. newtype GVariant = GVariant (ManagedPtr GVariant) -- | A <https://developer.gnome.org/gobject/stable/gobject-GParamSpec.html GParamSpec>. See "Data.GI.Base.GParamSpec" for further methods. newtype GParamSpec = GParamSpec (ManagedPtr GParamSpec) -- | An enum usable as a flag for a function. class Enum a => IsGFlag a -- | A <https://developer.gnome.org/glib/stable/glib-Arrays.html GArray>. Marshalling for this type is done in "Data.GI.Base.BasicConversions", it is mapped to a list on the Haskell side. data GArray a = GArray (Ptr (GArray a)) -- | A <https://developer.gnome.org/glib/stable/glib-Pointer-Arrays.html GPtrArray>. Marshalling for this type is done in "Data.GI.Base.BasicConversions", it is mapped to a list on the Haskell side. data GPtrArray a = GPtrArray (Ptr (GPtrArray a)) -- | A <https://developer.gnome.org/glib/stable/glib-Byte-Arrays.html GByteArray>. Marshalling for this type is done in "Data.GI.Base.BasicConversions", it is packed to a 'Data.ByteString.ByteString' on the Haskell side. data GByteArray = GByteArray (Ptr GByteArray) -- | A <https://developer.gnome.org/glib/stable/glib-Hash-Tables.html GHashTable>. It is mapped to a 'Data.Map.Map' on the Haskell side. data GHashTable a b = GHashTable (Ptr (GHashTable a b)) -- | A <https://developer.gnome.org/glib/stable/glib-Doubly-Linked-Lists.html GList>, mapped to a list on the Haskell side. Marshalling is done in "Data.GI.Base.BasicConversions". data GList a = GList (Ptr (GList a)) -- | A <https://developer.gnome.org/glib/stable/glib-Singly-Linked-Lists.html GSList>, mapped to a list on the Haskell side. Marshalling is done in "Data.GI.Base.BasicConversions". data GSList a = GSList (Ptr (GSList a)) -- | Some APIs, such as `GHashTable`, pass around scalar types -- wrapped into a pointer. We encode such a type as follows. newtype PtrWrapped a = PtrWrapped {unwrapPtr :: Ptr a} -- | Destroy the memory associated with a given pointer. type GDestroyNotify a = FunPtr (Ptr a -> IO ()) -- | Free the given 'GList'. foreign import ccall "g_list_free" g_list_free :: Ptr (GList a) -> IO () -- | Free the given 'GSList'. foreign import ccall "g_slist_free" g_slist_free :: Ptr (GSList a) -> IO ()