{-# LANGUAGE TypeApplications #-}


-- | Copyright  : Will Thompson, Iñaki García Etxebarria and Jonas Platte
-- License    : LGPL-2.1
-- Maintainer : Iñaki García Etxebarria
-- 
-- The GRecMutex struct is an opaque data structure to represent a
-- recursive mutex. It is similar to a t'GI.GLib.Unions.Mutex.Mutex' with the difference
-- that it is possible to lock a GRecMutex multiple times in the same
-- thread without deadlock. When doing so, care has to be taken to
-- unlock the recursive mutex as often as it has been locked.
-- 
-- If a t'GI.GLib.Structs.RecMutex.RecMutex' is allocated in static storage then it can be used
-- without initialisation.  Otherwise, you should call
-- 'GI.GLib.Structs.RecMutex.recMutexInit' on it and 'GI.GLib.Structs.RecMutex.recMutexClear' when done.
-- 
-- A GRecMutex should only be accessed with the
-- g_rec_mutex_ functions.
-- 
-- /Since: 2.32/

#if (MIN_VERSION_haskell_gi_overloading(1,0,0) && !defined(__HADDOCK_VERSION__))
#define ENABLE_OVERLOADING
#endif

module GI.GLib.Structs.RecMutex
    ( 

-- * Exported types
    RecMutex(..)                            ,
    newZeroRecMutex                         ,


 -- * Methods
-- ** Overloaded methods #method:Overloaded methods#

#if defined(ENABLE_OVERLOADING)
    ResolveRecMutexMethod                   ,
#endif


-- ** clear #method:clear#

#if defined(ENABLE_OVERLOADING)
    RecMutexClearMethodInfo                 ,
#endif
    recMutexClear                           ,


-- ** init #method:init#

#if defined(ENABLE_OVERLOADING)
    RecMutexInitMethodInfo                  ,
#endif
    recMutexInit                            ,


-- ** lock #method:lock#

#if defined(ENABLE_OVERLOADING)
    RecMutexLockMethodInfo                  ,
#endif
    recMutexLock                            ,


-- ** trylock #method:trylock#

#if defined(ENABLE_OVERLOADING)
    RecMutexTrylockMethodInfo               ,
#endif
    recMutexTrylock                         ,


-- ** unlock #method:unlock#

#if defined(ENABLE_OVERLOADING)
    RecMutexUnlockMethodInfo                ,
#endif
    recMutexUnlock                          ,




    ) where

import Data.GI.Base.ShortPrelude
import qualified Data.GI.Base.ShortPrelude as SP
import qualified Data.GI.Base.Overloading as O
import qualified Prelude as P

import qualified Data.GI.Base.Attributes as GI.Attributes
import qualified Data.GI.Base.BasicTypes as B.Types
import qualified Data.GI.Base.ManagedPtr as B.ManagedPtr
import qualified Data.GI.Base.GClosure as B.GClosure
import qualified Data.GI.Base.GError as B.GError
import qualified Data.GI.Base.GVariant as B.GVariant
import qualified Data.GI.Base.GValue as B.GValue
import qualified Data.GI.Base.GParamSpec as B.GParamSpec
import qualified Data.GI.Base.CallStack as B.CallStack
import qualified Data.GI.Base.Properties as B.Properties
import qualified Data.GI.Base.Signals as B.Signals
import qualified Control.Monad.IO.Class as MIO
import qualified Data.Text as T
import qualified Data.ByteString.Char8 as B
import qualified Data.Map as Map
import qualified Foreign.Ptr as FP
import qualified GHC.OverloadedLabels as OL


-- | Memory-managed wrapper type.
newtype RecMutex = RecMutex (SP.ManagedPtr RecMutex)
    deriving (RecMutex -> RecMutex -> Bool
(RecMutex -> RecMutex -> Bool)
-> (RecMutex -> RecMutex -> Bool) -> Eq RecMutex
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: RecMutex -> RecMutex -> Bool
$c/= :: RecMutex -> RecMutex -> Bool
== :: RecMutex -> RecMutex -> Bool
$c== :: RecMutex -> RecMutex -> Bool
Eq)

instance SP.ManagedPtrNewtype RecMutex where
    toManagedPtr :: RecMutex -> ManagedPtr RecMutex
toManagedPtr (RecMutex ManagedPtr RecMutex
p) = ManagedPtr RecMutex
p

instance BoxedPtr RecMutex where
    boxedPtrCopy :: RecMutex -> IO RecMutex
boxedPtrCopy = \RecMutex
p -> RecMutex -> (Ptr RecMutex -> IO RecMutex) -> IO RecMutex
forall a c.
(HasCallStack, ManagedPtrNewtype a) =>
a -> (Ptr a -> IO c) -> IO c
B.ManagedPtr.withManagedPtr RecMutex
p (Int -> Ptr RecMutex -> IO (Ptr RecMutex)
forall a. (HasCallStack, CallocPtr a) => Int -> Ptr a -> IO (Ptr a)
copyBytes Int
16 (Ptr RecMutex -> IO (Ptr RecMutex))
-> (Ptr RecMutex -> IO RecMutex) -> Ptr RecMutex -> IO RecMutex
forall (m :: * -> *) a b c.
Monad m =>
(a -> m b) -> (b -> m c) -> a -> m c
>=> (ManagedPtr RecMutex -> RecMutex) -> Ptr RecMutex -> IO RecMutex
forall a.
(HasCallStack, BoxedPtr a) =>
(ManagedPtr a -> a) -> Ptr a -> IO a
B.ManagedPtr.wrapPtr ManagedPtr RecMutex -> RecMutex
RecMutex)
    boxedPtrFree :: RecMutex -> IO ()
boxedPtrFree = \RecMutex
x -> RecMutex -> (Ptr RecMutex -> IO ()) -> IO ()
forall a c.
(HasCallStack, ManagedPtrNewtype a) =>
a -> (Ptr a -> IO c) -> IO c
SP.withManagedPtr RecMutex
x Ptr RecMutex -> IO ()
forall a. Ptr a -> IO ()
SP.freeMem
instance CallocPtr RecMutex where
    boxedPtrCalloc :: IO (Ptr RecMutex)
boxedPtrCalloc = Int -> IO (Ptr RecMutex)
forall a. Int -> IO (Ptr a)
callocBytes Int
16


-- | Construct a `RecMutex` struct initialized to zero.
newZeroRecMutex :: MonadIO m => m RecMutex
newZeroRecMutex :: m RecMutex
newZeroRecMutex = IO RecMutex -> m RecMutex
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO RecMutex -> m RecMutex) -> IO RecMutex -> m RecMutex
forall a b. (a -> b) -> a -> b
$ IO (Ptr RecMutex)
forall a. CallocPtr a => IO (Ptr a)
boxedPtrCalloc IO (Ptr RecMutex) -> (Ptr RecMutex -> IO RecMutex) -> IO RecMutex
forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
>>= (ManagedPtr RecMutex -> RecMutex) -> Ptr RecMutex -> IO RecMutex
forall a.
(HasCallStack, BoxedPtr a) =>
(ManagedPtr a -> a) -> Ptr a -> IO a
wrapPtr ManagedPtr RecMutex -> RecMutex
RecMutex

instance tag ~ 'AttrSet => Constructible RecMutex tag where
    new :: (ManagedPtr RecMutex -> RecMutex)
-> [AttrOp RecMutex tag] -> m RecMutex
new ManagedPtr RecMutex -> RecMutex
_ [AttrOp RecMutex tag]
attrs = do
        RecMutex
o <- m RecMutex
forall (m :: * -> *). MonadIO m => m RecMutex
newZeroRecMutex
        RecMutex -> [AttrOp RecMutex 'AttrSet] -> m ()
forall o (m :: * -> *).
MonadIO m =>
o -> [AttrOp o 'AttrSet] -> m ()
GI.Attributes.set RecMutex
o [AttrOp RecMutex tag]
[AttrOp RecMutex 'AttrSet]
attrs
        RecMutex -> m RecMutex
forall (m :: * -> *) a. Monad m => a -> m a
return RecMutex
o



#if defined(ENABLE_OVERLOADING)
instance O.HasAttributeList RecMutex
type instance O.AttributeList RecMutex = RecMutexAttributeList
type RecMutexAttributeList = ('[ ] :: [(Symbol, *)])
#endif

-- method RecMutex::clear
-- method type : OrdinaryMethod
-- Args: [ Arg
--           { argCName = "rec_mutex"
--           , argType =
--               TInterface Name { namespace = "GLib" , name = "RecMutex" }
--           , direction = DirectionIn
--           , mayBeNull = False
--           , argDoc =
--               Documentation
--                 { rawDocText = Just "an initialized #GRecMutex"
--                 , sinceVersion = Nothing
--                 }
--           , argScope = ScopeTypeInvalid
--           , argClosure = -1
--           , argDestroy = -1
--           , argCallerAllocates = False
--           , transfer = TransferNothing
--           }
--       ]
-- Lengths: []
-- returnType: Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_rec_mutex_clear" g_rec_mutex_clear :: 
    Ptr RecMutex ->                         -- rec_mutex : TInterface (Name {namespace = "GLib", name = "RecMutex"})
    IO ()

-- | Frees the resources allocated to a recursive mutex with
-- 'GI.GLib.Structs.RecMutex.recMutexInit'.
-- 
-- This function should not be used with a t'GI.GLib.Structs.RecMutex.RecMutex' that has been
-- statically allocated.
-- 
-- Calling 'GI.GLib.Structs.RecMutex.recMutexClear' on a locked recursive mutex leads
-- to undefined behaviour.
-- 
-- Sine: 2.32
recMutexClear ::
    (B.CallStack.HasCallStack, MonadIO m) =>
    RecMutex
    -- ^ /@recMutex@/: an initialized t'GI.GLib.Structs.RecMutex.RecMutex'
    -> m ()
recMutexClear :: RecMutex -> m ()
recMutexClear RecMutex
recMutex = IO () -> m ()
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO () -> m ()) -> IO () -> m ()
forall a b. (a -> b) -> a -> b
$ do
    Ptr RecMutex
recMutex' <- RecMutex -> IO (Ptr RecMutex)
forall a. (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr a)
unsafeManagedPtrGetPtr RecMutex
recMutex
    Ptr RecMutex -> IO ()
g_rec_mutex_clear Ptr RecMutex
recMutex'
    RecMutex -> IO ()
forall a. ManagedPtrNewtype a => a -> IO ()
touchManagedPtr RecMutex
recMutex
    () -> IO ()
forall (m :: * -> *) a. Monad m => a -> m a
return ()

#if defined(ENABLE_OVERLOADING)
data RecMutexClearMethodInfo
instance (signature ~ (m ()), MonadIO m) => O.MethodInfo RecMutexClearMethodInfo RecMutex signature where
    overloadedMethod = recMutexClear

#endif

-- method RecMutex::init
-- method type : OrdinaryMethod
-- Args: [ Arg
--           { argCName = "rec_mutex"
--           , argType =
--               TInterface Name { namespace = "GLib" , name = "RecMutex" }
--           , direction = DirectionIn
--           , mayBeNull = False
--           , argDoc =
--               Documentation
--                 { rawDocText = Just "an uninitialized #GRecMutex"
--                 , sinceVersion = Nothing
--                 }
--           , argScope = ScopeTypeInvalid
--           , argClosure = -1
--           , argDestroy = -1
--           , argCallerAllocates = False
--           , transfer = TransferNothing
--           }
--       ]
-- Lengths: []
-- returnType: Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_rec_mutex_init" g_rec_mutex_init :: 
    Ptr RecMutex ->                         -- rec_mutex : TInterface (Name {namespace = "GLib", name = "RecMutex"})
    IO ()

-- | Initializes a t'GI.GLib.Structs.RecMutex.RecMutex' so that it can be used.
-- 
-- This function is useful to initialize a recursive mutex
-- that has been allocated on the stack, or as part of a larger
-- structure.
-- 
-- It is not necessary to initialise a recursive mutex that has been
-- statically allocated.
-- 
-- 
-- === /C code/
-- >
-- >  typedef struct {
-- >    GRecMutex m;
-- >    ...
-- >  } Blob;
-- >
-- >Blob *b;
-- >
-- >b = g_new (Blob, 1);
-- >g_rec_mutex_init (&b->m);
-- 
-- 
-- Calling 'GI.GLib.Structs.RecMutex.recMutexInit' on an already initialized t'GI.GLib.Structs.RecMutex.RecMutex'
-- leads to undefined behaviour.
-- 
-- To undo the effect of 'GI.GLib.Structs.RecMutex.recMutexInit' when a recursive mutex
-- is no longer needed, use 'GI.GLib.Structs.RecMutex.recMutexClear'.
-- 
-- /Since: 2.32/
recMutexInit ::
    (B.CallStack.HasCallStack, MonadIO m) =>
    RecMutex
    -- ^ /@recMutex@/: an uninitialized t'GI.GLib.Structs.RecMutex.RecMutex'
    -> m ()
recMutexInit :: RecMutex -> m ()
recMutexInit RecMutex
recMutex = IO () -> m ()
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO () -> m ()) -> IO () -> m ()
forall a b. (a -> b) -> a -> b
$ do
    Ptr RecMutex
recMutex' <- RecMutex -> IO (Ptr RecMutex)
forall a. (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr a)
unsafeManagedPtrGetPtr RecMutex
recMutex
    Ptr RecMutex -> IO ()
g_rec_mutex_init Ptr RecMutex
recMutex'
    RecMutex -> IO ()
forall a. ManagedPtrNewtype a => a -> IO ()
touchManagedPtr RecMutex
recMutex
    () -> IO ()
forall (m :: * -> *) a. Monad m => a -> m a
return ()

#if defined(ENABLE_OVERLOADING)
data RecMutexInitMethodInfo
instance (signature ~ (m ()), MonadIO m) => O.MethodInfo RecMutexInitMethodInfo RecMutex signature where
    overloadedMethod = recMutexInit

#endif

-- method RecMutex::lock
-- method type : OrdinaryMethod
-- Args: [ Arg
--           { argCName = "rec_mutex"
--           , argType =
--               TInterface Name { namespace = "GLib" , name = "RecMutex" }
--           , direction = DirectionIn
--           , mayBeNull = False
--           , argDoc =
--               Documentation
--                 { rawDocText = Just "a #GRecMutex" , sinceVersion = Nothing }
--           , argScope = ScopeTypeInvalid
--           , argClosure = -1
--           , argDestroy = -1
--           , argCallerAllocates = False
--           , transfer = TransferNothing
--           }
--       ]
-- Lengths: []
-- returnType: Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_rec_mutex_lock" g_rec_mutex_lock :: 
    Ptr RecMutex ->                         -- rec_mutex : TInterface (Name {namespace = "GLib", name = "RecMutex"})
    IO ()

-- | Locks /@recMutex@/. If /@recMutex@/ is already locked by another
-- thread, the current thread will block until /@recMutex@/ is
-- unlocked by the other thread. If /@recMutex@/ is already locked
-- by the current thread, the \'lock count\' of /@recMutex@/ is increased.
-- The mutex will only become available again when it is unlocked
-- as many times as it has been locked.
-- 
-- /Since: 2.32/
recMutexLock ::
    (B.CallStack.HasCallStack, MonadIO m) =>
    RecMutex
    -- ^ /@recMutex@/: a t'GI.GLib.Structs.RecMutex.RecMutex'
    -> m ()
recMutexLock :: RecMutex -> m ()
recMutexLock RecMutex
recMutex = IO () -> m ()
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO () -> m ()) -> IO () -> m ()
forall a b. (a -> b) -> a -> b
$ do
    Ptr RecMutex
recMutex' <- RecMutex -> IO (Ptr RecMutex)
forall a. (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr a)
unsafeManagedPtrGetPtr RecMutex
recMutex
    Ptr RecMutex -> IO ()
g_rec_mutex_lock Ptr RecMutex
recMutex'
    RecMutex -> IO ()
forall a. ManagedPtrNewtype a => a -> IO ()
touchManagedPtr RecMutex
recMutex
    () -> IO ()
forall (m :: * -> *) a. Monad m => a -> m a
return ()

#if defined(ENABLE_OVERLOADING)
data RecMutexLockMethodInfo
instance (signature ~ (m ()), MonadIO m) => O.MethodInfo RecMutexLockMethodInfo RecMutex signature where
    overloadedMethod = recMutexLock

#endif

-- method RecMutex::trylock
-- method type : OrdinaryMethod
-- Args: [ Arg
--           { argCName = "rec_mutex"
--           , argType =
--               TInterface Name { namespace = "GLib" , name = "RecMutex" }
--           , direction = DirectionIn
--           , mayBeNull = False
--           , argDoc =
--               Documentation
--                 { rawDocText = Just "a #GRecMutex" , sinceVersion = Nothing }
--           , argScope = ScopeTypeInvalid
--           , argClosure = -1
--           , argDestroy = -1
--           , argCallerAllocates = False
--           , transfer = TransferNothing
--           }
--       ]
-- Lengths: []
-- returnType: Just (TBasicType TBoolean)
-- throws : False
-- Skip return : False

foreign import ccall "g_rec_mutex_trylock" g_rec_mutex_trylock :: 
    Ptr RecMutex ->                         -- rec_mutex : TInterface (Name {namespace = "GLib", name = "RecMutex"})
    IO CInt

-- | Tries to lock /@recMutex@/. If /@recMutex@/ is already locked
-- by another thread, it immediately returns 'P.False'. Otherwise
-- it locks /@recMutex@/ and returns 'P.True'.
-- 
-- /Since: 2.32/
recMutexTrylock ::
    (B.CallStack.HasCallStack, MonadIO m) =>
    RecMutex
    -- ^ /@recMutex@/: a t'GI.GLib.Structs.RecMutex.RecMutex'
    -> m Bool
    -- ^ __Returns:__ 'P.True' if /@recMutex@/ could be locked
recMutexTrylock :: RecMutex -> m Bool
recMutexTrylock RecMutex
recMutex = IO Bool -> m Bool
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO Bool -> m Bool) -> IO Bool -> m Bool
forall a b. (a -> b) -> a -> b
$ do
    Ptr RecMutex
recMutex' <- RecMutex -> IO (Ptr RecMutex)
forall a. (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr a)
unsafeManagedPtrGetPtr RecMutex
recMutex
    CInt
result <- Ptr RecMutex -> IO CInt
g_rec_mutex_trylock Ptr RecMutex
recMutex'
    let result' :: Bool
result' = (CInt -> CInt -> Bool
forall a. Eq a => a -> a -> Bool
/= CInt
0) CInt
result
    RecMutex -> IO ()
forall a. ManagedPtrNewtype a => a -> IO ()
touchManagedPtr RecMutex
recMutex
    Bool -> IO Bool
forall (m :: * -> *) a. Monad m => a -> m a
return Bool
result'

#if defined(ENABLE_OVERLOADING)
data RecMutexTrylockMethodInfo
instance (signature ~ (m Bool), MonadIO m) => O.MethodInfo RecMutexTrylockMethodInfo RecMutex signature where
    overloadedMethod = recMutexTrylock

#endif

-- method RecMutex::unlock
-- method type : OrdinaryMethod
-- Args: [ Arg
--           { argCName = "rec_mutex"
--           , argType =
--               TInterface Name { namespace = "GLib" , name = "RecMutex" }
--           , direction = DirectionIn
--           , mayBeNull = False
--           , argDoc =
--               Documentation
--                 { rawDocText = Just "a #GRecMutex" , sinceVersion = Nothing }
--           , argScope = ScopeTypeInvalid
--           , argClosure = -1
--           , argDestroy = -1
--           , argCallerAllocates = False
--           , transfer = TransferNothing
--           }
--       ]
-- Lengths: []
-- returnType: Nothing
-- throws : False
-- Skip return : False

foreign import ccall "g_rec_mutex_unlock" g_rec_mutex_unlock :: 
    Ptr RecMutex ->                         -- rec_mutex : TInterface (Name {namespace = "GLib", name = "RecMutex"})
    IO ()

-- | Unlocks /@recMutex@/. If another thread is blocked in a
-- 'GI.GLib.Structs.RecMutex.recMutexLock' call for /@recMutex@/, it will become unblocked
-- and can lock /@recMutex@/ itself.
-- 
-- Calling 'GI.GLib.Structs.RecMutex.recMutexUnlock' on a recursive mutex that is not
-- locked by the current thread leads to undefined behaviour.
-- 
-- /Since: 2.32/
recMutexUnlock ::
    (B.CallStack.HasCallStack, MonadIO m) =>
    RecMutex
    -- ^ /@recMutex@/: a t'GI.GLib.Structs.RecMutex.RecMutex'
    -> m ()
recMutexUnlock :: RecMutex -> m ()
recMutexUnlock RecMutex
recMutex = IO () -> m ()
forall (m :: * -> *) a. MonadIO m => IO a -> m a
liftIO (IO () -> m ()) -> IO () -> m ()
forall a b. (a -> b) -> a -> b
$ do
    Ptr RecMutex
recMutex' <- RecMutex -> IO (Ptr RecMutex)
forall a. (HasCallStack, ManagedPtrNewtype a) => a -> IO (Ptr a)
unsafeManagedPtrGetPtr RecMutex
recMutex
    Ptr RecMutex -> IO ()
g_rec_mutex_unlock Ptr RecMutex
recMutex'
    RecMutex -> IO ()
forall a. ManagedPtrNewtype a => a -> IO ()
touchManagedPtr RecMutex
recMutex
    () -> IO ()
forall (m :: * -> *) a. Monad m => a -> m a
return ()

#if defined(ENABLE_OVERLOADING)
data RecMutexUnlockMethodInfo
instance (signature ~ (m ()), MonadIO m) => O.MethodInfo RecMutexUnlockMethodInfo RecMutex signature where
    overloadedMethod = recMutexUnlock

#endif

#if defined(ENABLE_OVERLOADING)
type family ResolveRecMutexMethod (t :: Symbol) (o :: *) :: * where
    ResolveRecMutexMethod "clear" o = RecMutexClearMethodInfo
    ResolveRecMutexMethod "init" o = RecMutexInitMethodInfo
    ResolveRecMutexMethod "lock" o = RecMutexLockMethodInfo
    ResolveRecMutexMethod "trylock" o = RecMutexTrylockMethodInfo
    ResolveRecMutexMethod "unlock" o = RecMutexUnlockMethodInfo
    ResolveRecMutexMethod l o = O.MethodResolutionFailed l o

instance (info ~ ResolveRecMutexMethod t RecMutex, O.MethodInfo info RecMutex p) => OL.IsLabel t (RecMutex -> p) where
#if MIN_VERSION_base(4,10,0)
    fromLabel = O.overloadedMethod @info
#else
    fromLabel _ = O.overloadedMethod @info
#endif

#endif