Safe Haskell	None
Language	Haskell98

Data.GI.Base.ManagedPtr

Contents

Managed pointers
Safe casting
Wrappers

Description

We wrap most objects in a "managed pointer", which is basically a ForeignPtr of the appropriate type together with a notion of "disowning", which means not running the finalizers passed upon construction of the object upon garbage collection. The routines in this module deal with the memory management of such managed pointers.

Synopsis

newManagedPtr :: HasCallStack => Ptr a -> IO () -> IO (ManagedPtr a)
newManagedPtr' :: HasCallStack => FinalizerPtr a -> Ptr a -> IO (ManagedPtr a)
newManagedPtr_ :: Ptr a -> IO (ManagedPtr a)
withManagedPtr :: (HasCallStack, ManagedPtrNewtype a) => a -> (Ptr a -> IO c) -> IO c
maybeWithManagedPtr :: (HasCallStack, ManagedPtrNewtype a) => Maybe a -> (Ptr a -> IO c) -> IO c
withManagedPtrList :: (HasCallStack, ManagedPtrNewtype a) => [a] -> ([Ptr a] -> IO c) -> IO c
withTransient :: (HasCallStack, ManagedPtrNewtype a) => (ManagedPtr a -> a) -> Ptr a -> (a -> IO b) -> IO b
unsafeManagedPtrGetPtr :: (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr a)
unsafeManagedPtrCastPtr :: forall a b. (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr b)
touchManagedPtr :: forall a. ManagedPtrNewtype a => a -> IO ()
disownManagedPtr :: forall a. (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr a)
castTo :: forall o o'. (GObject o, GObject o') => (ManagedPtr o' -> o') -> o -> IO (Maybe o')
unsafeCastTo :: forall o o'. (HasCallStack, GObject o, GObject o') => (ManagedPtr o' -> o') -> o -> IO o'
newObject :: (HasCallStack, GObject a, GObject b) => (ManagedPtr a -> a) -> Ptr b -> IO a
wrapObject :: forall a b. (HasCallStack, GObject a, GObject b) => (ManagedPtr a -> a) -> Ptr b -> IO a
unrefObject :: (HasCallStack, GObject a) => a -> IO ()
disownObject :: (HasCallStack, GObject a) => a -> IO (Ptr b)
newBoxed :: forall a. (HasCallStack, BoxedObject a) => (ManagedPtr a -> a) -> Ptr a -> IO a
wrapBoxed :: forall a. (HasCallStack, BoxedObject a) => (ManagedPtr a -> a) -> Ptr a -> IO a
copyBoxed :: forall a. (HasCallStack, BoxedObject a) => a -> IO (Ptr a)
copyBoxedPtr :: forall a. BoxedObject a => Ptr a -> IO (Ptr a)
freeBoxed :: forall a. (HasCallStack, BoxedObject a) => a -> IO ()
disownBoxed :: (HasCallStack, BoxedObject a) => a -> IO (Ptr a)
wrapPtr :: (HasCallStack, WrappedPtr a) => (ManagedPtr a -> a) -> Ptr a -> IO a
newPtr :: (HasCallStack, WrappedPtr a) => (ManagedPtr a -> a) -> Ptr a -> IO a
copyBytes :: WrappedPtr a => Int -> Ptr a -> IO (Ptr a)

Managed pointers

newManagedPtr :: HasCallStack => Ptr a -> IO () -> IO (ManagedPtr a) Source #

Thin wrapper over newForeignPtr.

newManagedPtr' :: HasCallStack => FinalizerPtr a -> Ptr a -> IO (ManagedPtr a) Source #

Version of newManagedPtr taking a FinalizerPtr and a corresponding Ptr, as in newForeignPtr.

newManagedPtr_ :: Ptr a -> IO (ManagedPtr a) Source #

Thin wrapper over newForeignPtr_.

withManagedPtr :: (HasCallStack, ManagedPtrNewtype a) => a -> (Ptr a -> IO c) -> IO c Source #

Perform an IO action on the Ptr inside a managed pointer.

maybeWithManagedPtr :: (HasCallStack, ManagedPtrNewtype a) => Maybe a -> (Ptr a -> IO c) -> IO c Source #

Like withManagedPtr, but accepts a Maybe type. If the passed value is Nothing the inner action will be executed with a nullPtr argument.

withManagedPtrList :: (HasCallStack, ManagedPtrNewtype a) => [a] -> ([Ptr a] -> IO c) -> IO c Source #

Perform an IO action taking a list of Ptr on a list of managed pointers.

withTransient :: (HasCallStack, ManagedPtrNewtype a) => (ManagedPtr a -> a) -> Ptr a -> (a -> IO b) -> IO b Source #

Perform the IO action with a transient managed pointer. The managed pointer will be valid while calling the action, but will be disowned as soon as the action finished.

unsafeManagedPtrGetPtr :: (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr a) Source #

Return the Ptr in a given managed pointer. As the name says, this is potentially unsafe: the given Ptr may only be used before a call to touchManagedPtr. This function is of most interest to the autogenerated bindings, for hand-written code withManagedPtr is almost always a better choice.

unsafeManagedPtrCastPtr :: forall a b. (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr b) Source #

Same as unsafeManagedPtrGetPtr, but is polymorphic on the return type.

touchManagedPtr :: forall a. ManagedPtrNewtype a => a -> IO () Source #

Ensure that the Ptr in the given managed pointer is still alive (i.e. it has not been garbage collected by the runtime) at the point that this is called.

disownManagedPtr :: forall a. (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr a) Source #

Do not run the finalizers upon garbage collection of the ManagedPtr.

Safe casting

castTo :: forall o o'. (GObject o, GObject o') => (ManagedPtr o' -> o') -> o -> IO (Maybe o') Source #

Cast to the given type, checking that the cast is valid. If it is not, we return Nothing. Usage:

maybeWidget <- castTo Widget label

unsafeCastTo :: forall o o'. (HasCallStack, GObject o, GObject o') => (ManagedPtr o' -> o') -> o -> IO o' Source #

Cast to the given type, assuming that the cast will succeed. This function will call error if the cast is illegal.

Wrappers

newObject :: (HasCallStack, GObject a, GObject b) => (ManagedPtr a -> a) -> Ptr b -> IO a Source #

Construct a Haskell wrapper for a GObject, increasing its reference count, or taking ownership of the floating reference if there is one.

wrapObject :: forall a b. (HasCallStack, GObject a, GObject b) => (ManagedPtr a -> a) -> Ptr b -> IO a Source #

Same as newObject, but we steal ownership of the object.

unrefObject :: (HasCallStack, GObject a) => a -> IO () Source #

Decrease the reference count of the given GObject. The memory associated with the object may be released if the reference count reaches 0.

disownObject :: (HasCallStack, GObject a) => a -> IO (Ptr b) Source #

Disown a GObject, that is, do not unref the associated foreign GObject when the Haskell object gets garbage collected. Returns the pointer to the underlying GObject.

newBoxed :: forall a. (HasCallStack, BoxedObject a) => (ManagedPtr a -> a) -> Ptr a -> IO a Source #

Construct a Haskell wrapper for the given boxed object. We make a copy of the object.

wrapBoxed :: forall a. (HasCallStack, BoxedObject a) => (ManagedPtr a -> a) -> Ptr a -> IO a Source #

Like newBoxed, but we do not make a copy (we "steal" the passed object, so now it is managed by the Haskell runtime).

copyBoxed :: forall a. (HasCallStack, BoxedObject a) => a -> IO (Ptr a) Source #

Make a copy of the given boxed object.

copyBoxedPtr :: forall a. BoxedObject a => Ptr a -> IO (Ptr a) Source #

Like copyBoxed, but acting directly on a pointer, instead of a managed pointer.

freeBoxed :: forall a. (HasCallStack, BoxedObject a) => a -> IO () Source #

Free the memory associated with a boxed object. Note that this disowns the associated ManagedPtr via disownManagedPtr.

disownBoxed :: (HasCallStack, BoxedObject a) => a -> IO (Ptr a) Source #

Disown a boxed object, that is, do not free the associated foreign GBoxed when the Haskell object gets garbage collected. Returns the pointer to the underlying BoxedObject.

wrapPtr :: (HasCallStack, WrappedPtr a) => (ManagedPtr a -> a) -> Ptr a -> IO a Source #

Wrap a pointer, taking ownership of it.

newPtr :: (HasCallStack, WrappedPtr a) => (ManagedPtr a -> a) -> Ptr a -> IO a Source #

Wrap a pointer, making a copy of the data.

copyBytes :: WrappedPtr a => Int -> Ptr a -> IO (Ptr a) Source #

Make a copy of a wrapped pointer using memcpy into a freshly allocated memory region of the given size.