module Qtc.Enums.Gui.QTabWidget (
QTabWidgetTabPosition, eNorth, eSouth, eWest, eEast
, TabShape, eRounded, eTriangular
)
where
import Foreign.C.Types
import Qtc.Classes.Base
import Qtc.ClassTypes.Core (QObject, TQObject, qObjectFromPtr)
import Qtc.Core.Base (Qcs, connectSlot, qtc_connectSlot_int, wrapSlotHandler_int)
import Qtc.Enums.Base
import Qtc.Enums.Classes.Core
data CQTabWidgetTabPosition a = CQTabWidgetTabPosition a
type QTabWidgetTabPosition = QEnum(CQTabWidgetTabPosition Int)
ieQTabWidgetTabPosition :: Int -> QTabWidgetTabPosition
ieQTabWidgetTabPosition x = QEnum (CQTabWidgetTabPosition x)
instance QEnumC (CQTabWidgetTabPosition Int) where
qEnum_toInt (QEnum (CQTabWidgetTabPosition x)) = x
qEnum_fromInt x = QEnum (CQTabWidgetTabPosition x)
withQEnumResult x
= do
ti <- x
return $ qEnum_fromInt $ fromIntegral ti
withQEnumListResult x
= do
til <- x
return $ map qEnum_fromInt til
instance Qcs (QObject c -> QTabWidgetTabPosition -> IO ()) where
connectSlot _qsig_obj _qsig_nam _qslt_obj _qslt_nam _handler
= do
funptr <- wrapSlotHandler_int slotHandlerWrapper_int
stptr <- newStablePtr (Wrap _handler)
withObjectPtr _qsig_obj $ \cobj_sig ->
withCWString _qsig_nam $ \cstr_sig ->
withObjectPtr _qslt_obj $ \cobj_slt ->
withCWString _qslt_nam $ \cstr_slt ->
qtc_connectSlot_int cobj_sig cstr_sig cobj_slt cstr_slt (toCFunPtr funptr) (castStablePtrToPtr stptr)
return ()
where
slotHandlerWrapper_int :: Ptr fun -> Ptr () -> Ptr (TQObject c) -> CInt -> IO ()
slotHandlerWrapper_int funptr stptr qobjptr cint
= do qobj <- qObjectFromPtr qobjptr
let hint = fromCInt cint
if (objectIsNull qobj)
then do when (stptr/=ptrNull)
(freeStablePtr (castPtrToStablePtr stptr))
when (funptr/=ptrNull)
(freeHaskellFunPtr (castPtrToFunPtr funptr))
else _handler qobj (qEnum_fromInt hint)
return ()
eNorth :: QTabWidgetTabPosition
eNorth
= ieQTabWidgetTabPosition $ 0
eSouth :: QTabWidgetTabPosition
eSouth
= ieQTabWidgetTabPosition $ 1
eWest :: QTabWidgetTabPosition
eWest
= ieQTabWidgetTabPosition $ 2
eEast :: QTabWidgetTabPosition
eEast
= ieQTabWidgetTabPosition $ 3
data CTabShape a = CTabShape a
type TabShape = QEnum(CTabShape Int)
ieTabShape :: Int -> TabShape
ieTabShape x = QEnum (CTabShape x)
instance QEnumC (CTabShape Int) where
qEnum_toInt (QEnum (CTabShape x)) = x
qEnum_fromInt x = QEnum (CTabShape x)
withQEnumResult x
= do
ti <- x
return $ qEnum_fromInt $ fromIntegral ti
withQEnumListResult x
= do
til <- x
return $ map qEnum_fromInt til
instance Qcs (QObject c -> TabShape -> IO ()) where
connectSlot _qsig_obj _qsig_nam _qslt_obj _qslt_nam _handler
= do
funptr <- wrapSlotHandler_int slotHandlerWrapper_int
stptr <- newStablePtr (Wrap _handler)
withObjectPtr _qsig_obj $ \cobj_sig ->
withCWString _qsig_nam $ \cstr_sig ->
withObjectPtr _qslt_obj $ \cobj_slt ->
withCWString _qslt_nam $ \cstr_slt ->
qtc_connectSlot_int cobj_sig cstr_sig cobj_slt cstr_slt (toCFunPtr funptr) (castStablePtrToPtr stptr)
return ()
where
slotHandlerWrapper_int :: Ptr fun -> Ptr () -> Ptr (TQObject c) -> CInt -> IO ()
slotHandlerWrapper_int funptr stptr qobjptr cint
= do qobj <- qObjectFromPtr qobjptr
let hint = fromCInt cint
if (objectIsNull qobj)
then do when (stptr/=ptrNull)
(freeStablePtr (castPtrToStablePtr stptr))
when (funptr/=ptrNull)
(freeHaskellFunPtr (castPtrToFunPtr funptr))
else _handler qobj (qEnum_fromInt hint)
return ()
eRounded :: TabShape
eRounded
= ieTabShape $ 0
eTriangular :: TabShape
eTriangular
= ieTabShape $ 1