{-# LINE 1 "Data/GI/Base/BasicTypes.hsc" #-} {-# LANGUAGE ConstraintKinds, FlexibleContexts, FlexibleInstances, DeriveDataTypeable, TypeFamilies, ScopedTypeVariables, MultiParamTypeClasses, DataKinds, TypeOperators, UndecidableInstances, AllowAmbiguousTypes #-} -- | Basic types used in the bindings. module Data.GI.Base.BasicTypes ( -- * Memory management ManagedPtr(..) , ManagedPtrNewtype(..) , BoxedPtr(..) , CallocPtr(..) , UnexpectedNullPointerReturn(..) -- * Basic GLib \/ GObject types , TypedObject(..) , GObject , GType(..) , CGType , gtypeName , GVariant(..) , GBoxed , BoxedEnum , BoxedFlags , GParamSpec(..) , noGParamSpec , GArray(..) , GPtrArray(..) , GByteArray(..) , GHashTable(..) , GList(..) , g_list_free , GSList(..) , g_slist_free , IsGFlag , PtrWrapped(..) , GDestroyNotify ) where import Control.Exception (Exception) import Data.Coerce (coerce, Coercible) import Data.IORef (IORef) import qualified Data.Text as T import Data.Typeable (Typeable) import Data.Word import Foreign.C (CString, peekCString) import Foreign.Ptr (Ptr, FunPtr) import Foreign.ForeignPtr (ForeignPtr) import Data.GI.Base.CallStack (CallStack) import {-# SOURCE #-} Data.GI.Base.Overloading (HasParentTypes) -- | 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 { ManagedPtr a -> ForeignPtr a managedForeignPtr :: ForeignPtr a , ManagedPtr a -> Maybe CallStack managedPtrAllocCallStack :: Maybe CallStack -- ^ `CallStack` for the call that created the pointer. , ManagedPtr a -> IORef (Maybe CallStack) managedPtrIsDisowned :: IORef (Maybe CallStack) -- ^ When disowned, the `CallStack` for the disowning call. } -- | Two 'ManagedPtr's are equal if they wrap the same underlying -- C 'Ptr'. instance Eq (ManagedPtr a) where ManagedPtr a a == :: ManagedPtr a -> ManagedPtr a -> Bool == ManagedPtr a b = ManagedPtr a -> ForeignPtr a forall a. ManagedPtr a -> ForeignPtr a managedForeignPtr ManagedPtr a a ForeignPtr a -> ForeignPtr a -> Bool forall a. Eq a => a -> a -> Bool == ManagedPtr a -> ForeignPtr a forall a. ManagedPtr a -> ForeignPtr a managedForeignPtr ManagedPtr a b -- | A constraint ensuring that the given type is a newtype over a -- `ManagedPtr`. class Coercible a (ManagedPtr ()) => ManagedPtrNewtype a where toManagedPtr :: a -> ManagedPtr a -- | A default instance for `IsManagedPtr` for newtypes over `ManagedPtr`. instance {-# OVERLAPPABLE #-} Coercible a (ManagedPtr ()) => ManagedPtrNewtype a where toManagedPtr :: a -> ManagedPtr a toManagedPtr = a -> ManagedPtr a coerce -- Notice that the Coercible here above 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 -- -- Additionally, a simpler approach would be to simply do -- -- > type IsManagedPtr a = Coercible a (ManagedPtr ()) -- -- but this requires the constructor of the datatype to be in scope, -- which is cumbersome (for instance, one often wants to call `castTo` -- on the results of `Gtk.builderGetObject`, which is a `GObject`, -- whose constructor is not necessarily in scope when using `GI.Gtk`). -- -- When we make the bindings we will always add explicit instances, -- which cannot be hidden, avoiding the issue. We keep the default -- instance for convenience when writing new object types. -- | Pointers to chunks of memory which we know how to copy and -- release. class ManagedPtrNewtype a => BoxedPtr a where -- | Make a copy of the given `BoxedPtr`. boxedPtrCopy :: a -> IO a -- | A pointer to a function for freeing the given pointer. boxedPtrFree :: a -> IO () -- | A ptr to a memory block which we know how to allocate and fill -- with zero. class BoxedPtr a => CallocPtr a where -- | Allocate a zero-initialized block of memory for the given type. boxedPtrCalloc :: IO (Ptr a) -- | A wrapped object that has an associated GLib type. This does not -- necessarily descend from `GObject`, that constraint is implemented -- by the `GObject` type below. class HasParentTypes a => TypedObject a where -- | The `GType` for this object. glibType :: IO GType -- | Chunks of memory whose allocation/deallocation info has been -- registered with the GLib type system. class (ManagedPtrNewtype a, TypedObject a) => GBoxed a -- | A wrapped `GObject`, or any other type that descends from it. class (ManagedPtrNewtype a, TypedObject a) => GObject a -- | Enums with an associated `GType`. class TypedObject a => BoxedEnum a -- | Flags with an associated `GType`. class TypedObject a => BoxedFlags a -- | A type identifier in the GLib type system. This is the low-level -- type associated with the representation in memory, when using this -- on the Haskell side use `GType` below. type CGType = Word64 {-# LINE 142 "Data/GI/Base/BasicTypes.hsc" #-} -- | A newtype for use on the haskell side. newtype GType = GType {GType -> CGType gtypeToCGType :: CGType} foreign import ccall "g_type_name" g_type_name :: GType -> IO CString -- | Get the name assigned to the given `GType`. gtypeName :: GType -> IO String gtypeName :: GType -> IO String gtypeName GType gtype = GType -> IO CString g_type_name GType gtype IO CString -> (CString -> IO String) -> IO String forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b >>= CString -> IO String peekCString -- | 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 { UnexpectedNullPointerReturn -> Text nullPtrErrorMsg :: T.Text } deriving (Typeable) instance Show UnexpectedNullPointerReturn where show :: UnexpectedNullPointerReturn -> String show UnexpectedNullPointerReturn r = Text -> String T.unpack (UnexpectedNullPointerReturn -> Text nullPtrErrorMsg UnexpectedNullPointerReturn r) instance Exception UnexpectedNullPointerReturn -- | 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) -- | A convenient synonym for @Nothing :: Maybe GParamSpec@. noGParamSpec :: Maybe GParamSpec noGParamSpec :: Maybe GParamSpec noGParamSpec = Maybe GParamSpec forall a. Maybe a Nothing -- | 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 {PtrWrapped a -> Ptr a 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 ()