Deletes the C++ object this Python object is a proxy for.
"""
- val = _core_.Object_Destroy(*args, **kwargs)
- args[0].thisown = 0
- return val
+ args[0].this.own(False)
+ return _core_.Object_Destroy(*args, **kwargs)
+
+ def IsSameAs(*args, **kwargs):
+ """
+ IsSameAs(self, Object p) -> bool
+
+ For wx.Objects that use C++ reference counting internally, this method
+ can be used to determine if two objects are referencing the same data
+ object.
+ """
+ return _core_.Object_IsSameAs(*args, **kwargs)
ClassName = property(GetClassName,doc="See `GetClassName`")
_core_.Object_swigregister(Object)
BITMAP_TYPE_ICON = _core_.BITMAP_TYPE_ICON
BITMAP_TYPE_ANI = _core_.BITMAP_TYPE_ANI
BITMAP_TYPE_IFF = _core_.BITMAP_TYPE_IFF
+BITMAP_TYPE_TGA = _core_.BITMAP_TYPE_TGA
BITMAP_TYPE_MACCURSOR = _core_.BITMAP_TYPE_MACCURSOR
BITMAP_TYPE_ANY = _core_.BITMAP_TYPE_ANY
CURSOR_NONE = _core_.CURSOR_NONE
"""
return _core_.Size_DecTo(*args, **kwargs)
+ def IncBy(*args, **kwargs):
+ """IncBy(self, int dx, int dy)"""
+ return _core_.Size_IncBy(*args, **kwargs)
+
+ def DecBy(*args, **kwargs):
+ """DecBy(self, int dx, int dy)"""
+ return _core_.Size_DecBy(*args, **kwargs)
+
def Scale(*args, **kwargs):
"""
Scale(self, float xscale, float yscale)
"""SetBottomRight(self, Point p)"""
return _core_.Rect_SetBottomRight(*args, **kwargs)
+ def GetTopRight(*args, **kwargs):
+ """GetTopRight(self) -> Point"""
+ return _core_.Rect_GetTopRight(*args, **kwargs)
+
+ def SetTopRight(*args, **kwargs):
+ """SetTopRight(self, Point p)"""
+ return _core_.Rect_SetTopRight(*args, **kwargs)
+
+ def GetBottomLeft(*args, **kwargs):
+ """GetBottomLeft(self) -> Point"""
+ return _core_.Rect_GetBottomLeft(*args, **kwargs)
+
+ def SetBottomLeft(*args, **kwargs):
+ """SetBottomLeft(self, Point p)"""
+ return _core_.Rect_SetBottomLeft(*args, **kwargs)
+
def GetLeft(*args, **kwargs):
"""GetLeft(self) -> int"""
return _core_.Rect_GetLeft(*args, **kwargs)
"""
return _core_.Rect_ContainsRect(*args, **kwargs)
- Inside = wx._deprecated(Contains, "Use `Contains` instead.")
- InsideXY = wx._deprecated(ContainsXY, "Use `ContainsXY` instead.")
- InsideRect = wx._deprecated(ContainsRect, "Use `ContainsRect` instead.")
+ #Inside = wx._deprecated(Contains, "Use `Contains` instead.")
+ #InsideXY = wx._deprecated(ContainsXY, "Use `ContainsXY` instead.")
+ #InsideRect = wx._deprecated(ContainsRect, "Use `ContainsRect` instead.")
+ Inside = Contains
+ InsideXY = ContainsXY
+ InsideRect = ContainsRect
def Intersects(*args, **kwargs):
"""
Bottom = property(GetBottom,SetBottom,doc="See `GetBottom` and `SetBottom`")
BottomRight = property(GetBottomRight,SetBottomRight,doc="See `GetBottomRight` and `SetBottomRight`")
+ BottomLeft = property(GetBottomLeft,SetBottomLeft,doc="See `GetBottomLeft` and `SetBottomLeft`")
Height = property(GetHeight,SetHeight,doc="See `GetHeight` and `SetHeight`")
Left = property(GetLeft,SetLeft,doc="See `GetLeft` and `SetLeft`")
Position = property(GetPosition,SetPosition,doc="See `GetPosition` and `SetPosition`")
Size = property(GetSize,SetSize,doc="See `GetSize` and `SetSize`")
Top = property(GetTop,SetTop,doc="See `GetTop` and `SetTop`")
TopLeft = property(GetTopLeft,SetTopLeft,doc="See `GetTopLeft` and `SetTopLeft`")
+ TopRight = property(GetTopRight,SetTopRight,doc="See `GetTopRight` and `SetTopRight`")
Width = property(GetWidth,SetWidth,doc="See `GetWidth` and `SetWidth`")
X = property(GetX,SetX,doc="See `GetX` and `SetX`")
Y = property(GetY,SetY,doc="See `GetY` and `SetY`")
Create a w.Point2D object.
"""
_core_.Point2D_swiginit(self,_core_.new_Point2D(*args, **kwargs))
+ __swig_destroy__ = _core_.delete_Point2D
+ __del__ = lambda self : None;
def GetFloor(*args, **kwargs):
"""
GetFloor() -> (x,y)
#---------------------------------------------------------------------------
+Inside = _core_.Inside
+OutLeft = _core_.OutLeft
+OutRight = _core_.OutRight
+OutTop = _core_.OutTop
+OutBottom = _core_.OutBottom
+class Rect2D(object):
+ """
+ wx.Rect2D is a rectangle, with position and size, in a 2D coordinate system
+ with floating point component values.
+ """
+ thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag')
+ __repr__ = _swig_repr
+ def __init__(self, *args, **kwargs):
+ """
+ __init__(self, wxDouble x=0.0, wxDouble y=0.0, wxDouble w=0.0, wxDouble h=0.0) -> Rect2D
+
+ wx.Rect2D is a rectangle, with position and size, in a 2D coordinate system
+ with floating point component values.
+ """
+ _core_.Rect2D_swiginit(self,_core_.new_Rect2D(*args, **kwargs))
+ __swig_destroy__ = _core_.delete_Rect2D
+ __del__ = lambda self : None;
+ def GetPosition(*args, **kwargs):
+ """GetPosition(self) -> Point2D"""
+ return _core_.Rect2D_GetPosition(*args, **kwargs)
+
+ def GetSize(*args, **kwargs):
+ """GetSize(self) -> Size"""
+ return _core_.Rect2D_GetSize(*args, **kwargs)
+
+ def GetLeft(*args, **kwargs):
+ """GetLeft(self) -> wxDouble"""
+ return _core_.Rect2D_GetLeft(*args, **kwargs)
+
+ def SetLeft(*args, **kwargs):
+ """SetLeft(self, wxDouble n)"""
+ return _core_.Rect2D_SetLeft(*args, **kwargs)
+
+ def MoveLeftTo(*args, **kwargs):
+ """MoveLeftTo(self, wxDouble n)"""
+ return _core_.Rect2D_MoveLeftTo(*args, **kwargs)
+
+ def GetTop(*args, **kwargs):
+ """GetTop(self) -> wxDouble"""
+ return _core_.Rect2D_GetTop(*args, **kwargs)
+
+ def SetTop(*args, **kwargs):
+ """SetTop(self, wxDouble n)"""
+ return _core_.Rect2D_SetTop(*args, **kwargs)
+
+ def MoveTopTo(*args, **kwargs):
+ """MoveTopTo(self, wxDouble n)"""
+ return _core_.Rect2D_MoveTopTo(*args, **kwargs)
+
+ def GetBottom(*args, **kwargs):
+ """GetBottom(self) -> wxDouble"""
+ return _core_.Rect2D_GetBottom(*args, **kwargs)
+
+ def SetBottom(*args, **kwargs):
+ """SetBottom(self, wxDouble n)"""
+ return _core_.Rect2D_SetBottom(*args, **kwargs)
+
+ def MoveBottomTo(*args, **kwargs):
+ """MoveBottomTo(self, wxDouble n)"""
+ return _core_.Rect2D_MoveBottomTo(*args, **kwargs)
+
+ def GetRight(*args, **kwargs):
+ """GetRight(self) -> wxDouble"""
+ return _core_.Rect2D_GetRight(*args, **kwargs)
+
+ def SetRight(*args, **kwargs):
+ """SetRight(self, wxDouble n)"""
+ return _core_.Rect2D_SetRight(*args, **kwargs)
+
+ def MoveRightTo(*args, **kwargs):
+ """MoveRightTo(self, wxDouble n)"""
+ return _core_.Rect2D_MoveRightTo(*args, **kwargs)
+
+ def GetLeftTop(*args, **kwargs):
+ """GetLeftTop(self) -> Point2D"""
+ return _core_.Rect2D_GetLeftTop(*args, **kwargs)
+
+ def SetLeftTop(*args, **kwargs):
+ """SetLeftTop(self, Point2D pt)"""
+ return _core_.Rect2D_SetLeftTop(*args, **kwargs)
+
+ def MoveLeftTopTo(*args, **kwargs):
+ """MoveLeftTopTo(self, Point2D pt)"""
+ return _core_.Rect2D_MoveLeftTopTo(*args, **kwargs)
+
+ def GetLeftBottom(*args, **kwargs):
+ """GetLeftBottom(self) -> Point2D"""
+ return _core_.Rect2D_GetLeftBottom(*args, **kwargs)
+
+ def SetLeftBottom(*args, **kwargs):
+ """SetLeftBottom(self, Point2D pt)"""
+ return _core_.Rect2D_SetLeftBottom(*args, **kwargs)
+
+ def MoveLeftBottomTo(*args, **kwargs):
+ """MoveLeftBottomTo(self, Point2D pt)"""
+ return _core_.Rect2D_MoveLeftBottomTo(*args, **kwargs)
+
+ def GetRightTop(*args, **kwargs):
+ """GetRightTop(self) -> Point2D"""
+ return _core_.Rect2D_GetRightTop(*args, **kwargs)
+
+ def SetRightTop(*args, **kwargs):
+ """SetRightTop(self, Point2D pt)"""
+ return _core_.Rect2D_SetRightTop(*args, **kwargs)
+
+ def MoveRightTopTo(*args, **kwargs):
+ """MoveRightTopTo(self, Point2D pt)"""
+ return _core_.Rect2D_MoveRightTopTo(*args, **kwargs)
+
+ def GetRightBottom(*args, **kwargs):
+ """GetRightBottom(self) -> Point2D"""
+ return _core_.Rect2D_GetRightBottom(*args, **kwargs)
+
+ def SetRightBottom(*args, **kwargs):
+ """SetRightBottom(self, Point2D pt)"""
+ return _core_.Rect2D_SetRightBottom(*args, **kwargs)
+
+ def MoveRightBottomTo(*args, **kwargs):
+ """MoveRightBottomTo(self, Point2D pt)"""
+ return _core_.Rect2D_MoveRightBottomTo(*args, **kwargs)
+
+ def GetCentre(*args, **kwargs):
+ """GetCentre(self) -> Point2D"""
+ return _core_.Rect2D_GetCentre(*args, **kwargs)
+
+ def SetCentre(*args, **kwargs):
+ """SetCentre(self, Point2D pt)"""
+ return _core_.Rect2D_SetCentre(*args, **kwargs)
+
+ def MoveCentreTo(*args, **kwargs):
+ """MoveCentreTo(self, Point2D pt)"""
+ return _core_.Rect2D_MoveCentreTo(*args, **kwargs)
+
+ def GetOutcode(*args, **kwargs):
+ """GetOutcode(self, Point2D pt) -> int"""
+ return _core_.Rect2D_GetOutcode(*args, **kwargs)
+
+ def Contains(*args, **kwargs):
+ """Contains(self, Point2D pt) -> bool"""
+ return _core_.Rect2D_Contains(*args, **kwargs)
+
+ def ContainsRect(*args, **kwargs):
+ """ContainsRect(self, Rect2D rect) -> bool"""
+ return _core_.Rect2D_ContainsRect(*args, **kwargs)
+
+ def IsEmpty(*args, **kwargs):
+ """IsEmpty(self) -> bool"""
+ return _core_.Rect2D_IsEmpty(*args, **kwargs)
+
+ def HaveEqualSize(*args, **kwargs):
+ """HaveEqualSize(self, Rect2D rect) -> bool"""
+ return _core_.Rect2D_HaveEqualSize(*args, **kwargs)
+
+ def Inset(*args):
+ """
+ Inset(self, wxDouble x, wxDouble y)
+ Inset(self, wxDouble left, wxDouble top, wxDouble right, wxDouble bottom)
+ """
+ return _core_.Rect2D_Inset(*args)
+
+ def Offset(*args, **kwargs):
+ """Offset(self, Point2D pt)"""
+ return _core_.Rect2D_Offset(*args, **kwargs)
+
+ def ConstrainTo(*args, **kwargs):
+ """ConstrainTo(self, Rect2D rect)"""
+ return _core_.Rect2D_ConstrainTo(*args, **kwargs)
+
+ def Interpolate(*args, **kwargs):
+ """Interpolate(self, int widthfactor, int heightfactor) -> Point2D"""
+ return _core_.Rect2D_Interpolate(*args, **kwargs)
+
+ def Intersect(*args, **kwargs):
+ """Intersect(self, Rect2D otherRect)"""
+ return _core_.Rect2D_Intersect(*args, **kwargs)
+
+ def CreateIntersection(*args, **kwargs):
+ """CreateIntersection(self, Rect2D otherRect) -> Rect2D"""
+ return _core_.Rect2D_CreateIntersection(*args, **kwargs)
+
+ def Intersects(*args, **kwargs):
+ """Intersects(self, Rect2D rect) -> bool"""
+ return _core_.Rect2D_Intersects(*args, **kwargs)
+
+ def Union(*args, **kwargs):
+ """Union(self, Rect2D otherRect)"""
+ return _core_.Rect2D_Union(*args, **kwargs)
+
+ def CreateUnion(*args, **kwargs):
+ """CreateUnion(self, Rect2D otherRect) -> Rect2D"""
+ return _core_.Rect2D_CreateUnion(*args, **kwargs)
+
+ def Scale(*args):
+ """
+ Scale(self, wxDouble f)
+ Scale(self, int num, int denum)
+ """
+ return _core_.Rect2D_Scale(*args)
+
+ def __eq__(*args, **kwargs):
+ """
+ __eq__(self, PyObject other) -> bool
+
+ Test for equality of wx.Rect2D objects.
+ """
+ return _core_.Rect2D___eq__(*args, **kwargs)
+
+ def __ne__(*args, **kwargs):
+ """
+ __ne__(self, PyObject other) -> bool
+
+ Test for inequality of wx.Rect2D objects.
+ """
+ return _core_.Rect2D___ne__(*args, **kwargs)
+
+ x = property(_core_.Rect2D_x_get, _core_.Rect2D_x_set)
+ y = property(_core_.Rect2D_y_get, _core_.Rect2D_y_set)
+ width = property(_core_.Rect2D_width_get, _core_.Rect2D_width_set)
+ height = property(_core_.Rect2D_height_get, _core_.Rect2D_height_set)
+ def Set(*args, **kwargs):
+ """Set(self, wxDouble x=0, wxDouble y=0, wxDouble width=0, wxDouble height=0)"""
+ return _core_.Rect2D_Set(*args, **kwargs)
+
+ def Get(*args, **kwargs):
+ """
+ Get() -> (x,y, width, height)
+
+ Return x, y, width and height y properties as a tuple.
+ """
+ return _core_.Rect2D_Get(*args, **kwargs)
+
+ def __str__(self): return str(self.Get())
+ def __repr__(self): return 'wx.Rect2D'+str(self.Get())
+ def __len__(self): return len(self.Get())
+ def __getitem__(self, index): return self.Get()[index]
+ def __setitem__(self, index, val):
+ if index == 0: self.x = val
+ elif index == 1: self.y = val
+ elif index == 2: self.width = val
+ elif index == 3: self.height = val
+ else: raise IndexError
+ def __nonzero__(self): return self.Get() != (0.0, 0.0, 0.0, 0.0)
+ __safe_for_unpickling__ = True
+ def __reduce__(self): return (wx.Rect2D, self.Get())
+
+_core_.Rect2D_swigregister(Rect2D)
+
+#---------------------------------------------------------------------------
+
FromStart = _core_.FromStart
FromCurrent = _core_.FromCurrent
FromEnd = _core_.FromEnd
def __init__(self, *args, **kwargs):
"""__init__(self) -> FileSystemHandler"""
_core_.FileSystemHandler_swiginit(self,_core_.new_FileSystemHandler(*args, **kwargs))
- self._setCallbackInfo(self, FileSystemHandler)
+ FileSystemHandler._setCallbackInfo(self, self, FileSystemHandler)
def _setCallbackInfo(*args, **kwargs):
"""_setCallbackInfo(self, PyObject self, PyObject _class)"""
IMAGE_ALPHA_TRANSPARENT = _core_.IMAGE_ALPHA_TRANSPARENT
IMAGE_ALPHA_THRESHOLD = _core_.IMAGE_ALPHA_THRESHOLD
IMAGE_ALPHA_OPAQUE = _core_.IMAGE_ALPHA_OPAQUE
+IMAGE_QUALITY_NORMAL = _core_.IMAGE_QUALITY_NORMAL
+IMAGE_QUALITY_HIGH = _core_.IMAGE_QUALITY_HIGH
#---------------------------------------------------------------------------
class ImageHandler(Object):
Destroys the image data.
"""
- val = _core_.Image_Destroy(*args, **kwargs)
- args[0].thisown = 0
- return val
+ args[0].this.own(False)
+ return _core_.Image_Destroy(*args, **kwargs)
def Scale(*args, **kwargs):
"""
- Scale(self, int width, int height) -> Image
+ Scale(self, int width, int height, int quality=IMAGE_QUALITY_NORMAL) -> Image
Returns a scaled version of the image. This is also useful for scaling
bitmaps in general as the only other way to scale bitmaps is to blit a
- `wx.MemoryDC` into another `wx.MemoryDC`.
+ `wx.MemoryDC` into another `wx.MemoryDC`. The ``quality`` parameter
+ specifies what method to use for resampling the image. It can be
+ either wx.IMAGE_QUALITY_NORMAL, which uses the normal default scaling
+ method of pixel replication, or wx.IMAGE_QUALITY_HIGH which uses
+ bicubic and box averaging resampling methods for upsampling and
+ downsampling respectively.
"""
return _core_.Image_Scale(*args, **kwargs)
+ def ResampleBox(*args, **kwargs):
+ """ResampleBox(self, int width, int height) -> Image"""
+ return _core_.Image_ResampleBox(*args, **kwargs)
+
+ def ResampleBicubic(*args, **kwargs):
+ """ResampleBicubic(self, int width, int height) -> Image"""
+ return _core_.Image_ResampleBicubic(*args, **kwargs)
+
+ def Blur(*args, **kwargs):
+ """
+ Blur(self, int radius) -> Image
+
+ Blurs the image in both horizontal and vertical directions by the
+ specified pixel ``radius``. This should not be used when using a
+ single mask colour for transparency.
+ """
+ return _core_.Image_Blur(*args, **kwargs)
+
+ def BlurHorizontal(*args, **kwargs):
+ """
+ BlurHorizontal(self, int radius) -> Image
+
+ Blurs the image in the horizontal direction only. This should not be
+ used when using a single mask colour for transparency.
+
+ """
+ return _core_.Image_BlurHorizontal(*args, **kwargs)
+
+ def BlurVertical(*args, **kwargs):
+ """
+ BlurVertical(self, int radius) -> Image
+
+ Blurs the image in the vertical direction only. This should not be
+ used when using a single mask colour for transparency.
+ """
+ return _core_.Image_BlurVertical(*args, **kwargs)
+
def ShrinkBy(*args, **kwargs):
"""
ShrinkBy(self, int xFactor, int yFactor) -> Image
def Rescale(*args, **kwargs):
"""
- Rescale(self, int width, int height) -> Image
+ Rescale(self, int width, int height, int quality=IMAGE_QUALITY_NORMAL) -> Image
Changes the size of the image in-place by scaling it: after a call to
this function, the image will have the given width and height.
"""
return _core_.Image_LoadMimeStream(*args, **kwargs)
- def Ok(*args, **kwargs):
+ def IsOk(*args, **kwargs):
"""
- Ok(self) -> bool
+ IsOk(self) -> bool
Returns true if image data is present.
"""
- return _core_.Image_Ok(*args, **kwargs)
+ return _core_.Image_IsOk(*args, **kwargs)
+ Ok = IsOk
def GetWidth(*args, **kwargs):
"""
GetWidth(self) -> int
return _core_.Image_HSVtoRGB(*args, **kwargs)
HSVtoRGB = staticmethod(HSVtoRGB)
- def __nonzero__(self): return self.Ok()
+ def __nonzero__(self): return self.IsOk()
AlphaBuffer = property(GetAlphaBuffer,SetAlphaBuffer,doc="See `GetAlphaBuffer` and `SetAlphaBuffer`")
AlphaData = property(GetAlphaData,SetAlphaData,doc="See `GetAlphaData` and `SetAlphaData`")
Data = property(GetData,SetData,doc="See `GetData` and `SetData`")
MaskBlue = property(GetMaskBlue,doc="See `GetMaskBlue`")
MaskGreen = property(GetMaskGreen,doc="See `GetMaskGreen`")
MaskRed = property(GetMaskRed,doc="See `GetMaskRed`")
- Size = property(GetSize,doc="See `GetSize`")
Width = property(GetWidth,doc="See `GetWidth`")
_core_.Image_swigregister(Image)
_core_.TIFFHandler_swiginit(self,_core_.new_TIFFHandler(*args, **kwargs))
_core_.TIFFHandler_swigregister(TIFFHandler)
+class TGAHandler(ImageHandler):
+ """A `wx.ImageHandler` for TGA image files."""
+ thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag')
+ __repr__ = _swig_repr
+ def __init__(self, *args, **kwargs):
+ """
+ __init__(self) -> TGAHandler
+
+ A `wx.ImageHandler` for TGA image files.
+ """
+ _core_.TGAHandler_swiginit(self,_core_.new_TGAHandler(*args, **kwargs))
+_core_.TGAHandler_swigregister(TGAHandler)
+
QUANTIZE_INCLUDE_WINDOWS_COLOURS = _core_.QUANTIZE_INCLUDE_WINDOWS_COLOURS
QUANTIZE_FILL_DESTINATION_IMAGE = _core_.QUANTIZE_FILL_DESTINATION_IMAGE
class Quantize(object):
def __init__(self, *args, **kwargs):
"""__init__(self) -> EvtHandler"""
_core_.EvtHandler_swiginit(self,_core_.new_EvtHandler(*args, **kwargs))
+ self._setOORInfo(self)
+
def GetNextHandler(*args, **kwargs):
"""GetNextHandler(self) -> EvtHandler"""
return _core_.EvtHandler_GetNextHandler(*args, **kwargs)
"""
Skip(self, bool skip=True)
- Called by an event handler, it controls whether additional event
- handlers bound to this event will be called after the current event
- handler returns. Skip(false) (the default setting) will prevent
- additional event handlers from being called and control will be
- returned to the sender of the event immediately after the current
- handler has finished. Skip(True) will cause the event processing
- system to continue searching for a handler function for this event.
-
+ This method can be used inside an event handler to control whether
+ further event handlers bound to this event will be called after the
+ current one returns. Without Skip() (or equivalently if Skip(False) is
+ used), the event will not be processed any more. If Skip(True) is
+ called, the event processing system continues searching for a further
+ handler function for this event, even though it has been processed
+ already in the current handler.
"""
return _core_.Event_Skip(*args, **kwargs)
return _core_.UpdateUIEvent_GetMode(*args, **kwargs)
GetMode = staticmethod(GetMode)
+ Checked = property(GetChecked,Check,doc="See `GetChecked`")
+ Enabled = property(GetEnabled,Enable,doc="See `GetEnabled`")
+ Shown = property(GetShown,Show,doc="See `GetShown`")
+ Text = property(GetText,SetText,doc="See `GetText` and `SetText`")
_core_.UpdateUIEvent_swigregister(UpdateUIEvent)
def UpdateUIEvent_SetUpdateInterval(*args, **kwargs):
"""
return _core_.WindowCreateEvent_GetWindow(*args, **kwargs)
+ Window = property(GetWindow,doc="See `GetWindow`")
_core_.WindowCreateEvent_swigregister(WindowCreateEvent)
class WindowDestroyEvent(CommandEvent):
"""
return _core_.WindowDestroyEvent_GetWindow(*args, **kwargs)
+ Window = property(GetWindow,doc="See `GetWindow`")
_core_.WindowDestroyEvent_swigregister(WindowDestroyEvent)
#---------------------------------------------------------------------------
Create a new application object, starting the bootstrap process.
"""
_core_.PyApp_swiginit(self,_core_.new_PyApp(*args, **kwargs))
- self._setCallbackInfo(self, PyApp, False)
- self._setOORInfo(self, False)
+ self._setOORInfo(self, False);PyApp._setCallbackInfo(self, self, PyApp)
__swig_destroy__ = _core_.delete_PyApp
__del__ = lambda self : None;
def _setCallbackInfo(*args, **kwargs):
- """_setCallbackInfo(self, PyObject self, PyObject _class, bool incref)"""
+ """_setCallbackInfo(self, PyObject self, PyObject _class, bool incref=False)"""
return _core_.PyApp__setCallbackInfo(*args, **kwargs)
def GetAppName(*args, **kwargs):
def SetUseBestVisual(*args, **kwargs):
"""
- SetUseBestVisual(self, bool flag)
+ SetUseBestVisual(self, bool flag, bool forceTrueColour=False)
Set whether the app should try to use the best available visual on
systems where more than one is available, (Sun, SGI, XFree86 4, etc.)
# Use Python's install prefix as the default
wx.StandardPaths.Get().SetInstallPrefix(_sys.prefix)
+ # Until the new native control for wxMac is up to par, still use the generic one.
+ wx.SystemOptions.SetOptionInt("mac.listctrl.always_use_generic", 1)
+
# This finishes the initialization of wxWindows and then calls
# the OnInit that should be present in the derived class
self._BootstrapApp()
destroy(self)
def Destroy(self):
+ self.this.own(False)
wx.PyApp.Destroy(self)
- self.thisown = 0
def SetTopWindow(self, frame):
"""Set the \"main\" top level window"""
_core_.AcceleratorTable_swiginit(self,_core_.new_AcceleratorTable(*args, **kwargs))
__swig_destroy__ = _core_.delete_AcceleratorTable
__del__ = lambda self : None;
- def Ok(*args, **kwargs):
- """Ok(self) -> bool"""
- return _core_.AcceleratorTable_Ok(*args, **kwargs)
+ def IsOk(*args, **kwargs):
+ """IsOk(self) -> bool"""
+ return _core_.AcceleratorTable_IsOk(*args, **kwargs)
+ Ok = IsOk
_core_.AcceleratorTable_swigregister(AcceleratorTable)
Returns True if the window has either been successfully deleted, or it
has been added to the list of windows pending real deletion.
"""
- val = _core_.Window_Destroy(*args, **kwargs)
- args[0].thisown = 0
- return val
+ args[0].this.own(False)
+ return _core_.Window_Destroy(*args, **kwargs)
def DestroyChildren(*args, **kwargs):
"""
"""
return _core_.Window_MoveXY(*args, **kwargs)
- def SetBestFittingSize(*args, **kwargs):
+ def SetInitialSize(*args, **kwargs):
"""
- SetBestFittingSize(self, Size size=DefaultSize)
+ SetInitialSize(self, Size size=DefaultSize)
A 'Smart' SetSize that will fill in default size components with the
window's *best size* values. Also set's the minsize for use with sizers.
"""
- return _core_.Window_SetBestFittingSize(*args, **kwargs)
+ return _core_.Window_SetInitialSize(*args, **kwargs)
+ SetBestFittingSize = wx._deprecated(SetInitialSize, 'Use `SetInitialSize`')
def Raise(*args, **kwargs):
"""
Raise(self)
"""
return _core_.Window_CacheBestSize(*args, **kwargs)
- def GetBestFittingSize(*args, **kwargs):
+ def GetEffectiveMinSize(*args, **kwargs):
"""
- GetBestFittingSize(self) -> Size
+ GetEffectiveMinSize(self) -> Size
This function will merge the window's best size into the window's
minimum size, giving priority to the min size components, and returns
the results.
"""
- return _core_.Window_GetBestFittingSize(*args, **kwargs)
+ return _core_.Window_GetEffectiveMinSize(*args, **kwargs)
- def GetAdjustedBestSize(*args, **kwargs):
- """
- GetAdjustedBestSize(self) -> Size
-
- This method is similar to GetBestSize, except in one
- thing. GetBestSize should return the minimum untruncated size of the
- window, while this method will return the largest of BestSize and any
- user specified minimum size. ie. it is the minimum size the window
- should currently be drawn at, not the minimal size it can possibly
- tolerate.
- """
- return _core_.Window_GetAdjustedBestSize(*args, **kwargs)
+ GetBestFittingSize = wx._deprecated(GetEffectiveMinSize, 'Use `GetEffectiveMinSize` instead.')
+ def GetAdjustedBestSize(self):
+ s = self.GetBestSize()
+ return wx.Size(max(s.width, self.GetMinWidth()),
+ max(s.height, self.GetMinHeight()))
+ GetAdjustedBestSize = wx._deprecated(GetAdjustedBestSize, 'Use `GetEffectiveMinSize` instead.')
def Center(*args, **kwargs):
"""
SetEventHandler(self, EvtHandler handler)
Sets the event handler for this window. An event handler is an object
- that is capable of processing the events sent to a window. By default,
- the window is its own event handler, but an application may wish to
- substitute another, for example to allow central implementation of
- event-handling for a variety of different window classes.
+ that is capable of processing the events sent to a window. (In other
+ words, is able to dispatch the events to handler function.) By
+ default, the window is its own event handler, but an application may
+ wish to substitute another, for example to allow central
+ implementation of event-handling for a variety of different window
+ classes.
It is usually better to use `wx.Window.PushEventHandler` since this sets
up a chain of event handlers, where an event not handled by one event
- handler is handed to the next one in the chain.
+ handler is handed off to the next one in the chain.
"""
return _core_.Window_SetEventHandler(*args, **kwargs)
Pushes this event handler onto the event handler stack for the window.
An event handler is an object that is capable of processing the events
- sent to a window. By default, the window is its own event handler, but
- an application may wish to substitute another, for example to allow
- central implementation of event-handling for a variety of different
- window classes.
+ sent to a window. (In other words, is able to dispatch the events to
+ handler function.) By default, the window is its own event handler,
+ but an application may wish to substitute another, for example to
+ allow central implementation of event-handling for a variety of
+ different window classes.
wx.Window.PushEventHandler allows an application to set up a chain of
event handlers, where an event not handled by one event handler is
- handed to the next one in the chain. Use `wx.Window.PopEventHandler` to
- remove the event handler.
+ handed to the next one in the chain. Use `wx.Window.PopEventHandler`
+ to remove the event handler. Ownership of the handler is *not* given
+ to the window, so you should be sure to pop the handler before the
+ window is destroyed and either let PopEventHandler destroy it, or call
+ its Destroy method yourself.
"""
return _core_.Window_PushEventHandler(*args, **kwargs)
Removes and returns the top-most event handler on the event handler
stack. If deleteHandler is True then the wx.EvtHandler object will be
- destroyed after it is popped.
+ destroyed after it is popped, and ``None`` will be returned instead.
"""
return _core_.Window_PopEventHandler(*args, **kwargs)
RemoveEventHandler(self, EvtHandler handler) -> bool
Find the given handler in the event handler chain and remove (but not
- delete) it from the event handler chain, return True if it was found
+ delete) it from the event handler chain, returns True if it was found
and False otherwise (this also results in an assert failure so this
function should only be called when the handler is supposed to be
there.)
window instead of waiting for the EVT_PAINT event to happen, (normally
this would usually only happen when the flow of control returns to the
event loop.) Notice that this function doesn't refresh the window and
- does nothing if the window has been already repainted. Use Refresh
+ does nothing if the window has been already repainted. Use `Refresh`
first if you want to immediately redraw the window (or some portion of
it) unconditionally.
"""
"""
return _core_.Window_PrepareDC(*args, **kwargs)
+ def IsDoubleBuffered(*args, **kwargs):
+ """
+ IsDoubleBuffered(self) -> bool
+
+ Returns ``True`` if the window contents is double-buffered by the
+ system, i.e. if any drawing done on the window is really done on a
+ temporary backing surface and transferred to the screen all at once
+ later.
+ """
+ return _core_.Window_IsDoubleBuffered(*args, **kwargs)
+
def GetUpdateRegion(*args, **kwargs):
"""
GetUpdateRegion(self) -> Region
if hasattr(self, '_setOORInfo'):
self._setOORInfo(self)
if hasattr(self, '_setCallbackInfo'):
- self._setCallbackInfo(self, self.__class__)
+ self._setCallbackInfo(self, pre.__class__)
def SendSizeEvent(self):
self.GetEventHandler().ProcessEvent(wx.SizeEvent((-1,-1)))
AutoLayout = property(GetAutoLayout,SetAutoLayout,doc="See `GetAutoLayout` and `SetAutoLayout`")
BackgroundColour = property(GetBackgroundColour,SetBackgroundColour,doc="See `GetBackgroundColour` and `SetBackgroundColour`")
BackgroundStyle = property(GetBackgroundStyle,SetBackgroundStyle,doc="See `GetBackgroundStyle` and `SetBackgroundStyle`")
- BestFittingSize = property(GetBestFittingSize,SetBestFittingSize,doc="See `GetBestFittingSize` and `SetBestFittingSize`")
+ EffectiveMinSize = property(GetEffectiveMinSize,doc="See `GetEffectiveMinSize`")
BestSize = property(GetBestSize,doc="See `GetBestSize`")
BestVirtualSize = property(GetBestVirtualSize,doc="See `GetBestVirtualSize`")
Border = property(GetBorder,doc="See `GetBorder`")
return _core_.Validator_SetBellOnError(*args, **kwargs)
SetBellOnError = staticmethod(SetBellOnError)
+ Window = property(GetWindow,SetWindow,doc="See `GetWindow` and `SetWindow`")
_core_.Validator_swigregister(Validator)
def Validator_IsSilent(*args):
def __init__(self, *args, **kwargs):
"""__init__(self) -> PyValidator"""
_core_.PyValidator_swiginit(self,_core_.new_PyValidator(*args, **kwargs))
-
- self._setCallbackInfo(self, PyValidator, 1)
- self._setOORInfo(self)
+ self._setOORInfo(self);PyValidator._setCallbackInfo(self, self, PyValidator)
def _setCallbackInfo(*args, **kwargs):
- """_setCallbackInfo(self, PyObject self, PyObject _class, int incref=True)"""
+ """_setCallbackInfo(self, PyObject self, PyObject _class, int incref=1)"""
return _core_.PyValidator__setCallbackInfo(*args, **kwargs)
_core_.PyValidator_swigregister(PyValidator)
Deletes the C++ object this Python object is a proxy for.
"""
- val = _core_.Menu_Destroy(*args, **kwargs)
- args[0].thisown = 0
- return val
+ args[0].this.own(False)
+ return _core_.Menu_Destroy(*args, **kwargs)
def DestroyId(*args, **kwargs):
- """
- DestroyId(self, int id) -> bool
-
- Deletes the C++ object this Python object is a proxy for.
- """
- val = _core_.Menu_DestroyId(*args, **kwargs)
- args[0].thisown = 0
- return val
+ """DestroyId(self, int id) -> bool"""
+ return _core_.Menu_DestroyId(*args, **kwargs)
def DestroyItem(*args, **kwargs):
- """
- DestroyItem(self, MenuItem item) -> bool
-
- Deletes the C++ object this Python object is a proxy for.
- """
- val = _core_.Menu_DestroyItem(*args, **kwargs)
- args[0].thisown = 0
- return val
+ """DestroyItem(self, MenuItem item) -> bool"""
+ return _core_.Menu_DestroyItem(*args, **kwargs)
def GetMenuItemCount(*args, **kwargs):
"""GetMenuItemCount(self) -> size_t"""
"""
return _core_.Control_Command(*args, **kwargs)
- def GetLabel(*args, **kwargs):
- """
- GetLabel(self) -> String
-
- Return a control's text.
- """
- return _core_.Control_GetLabel(*args, **kwargs)
-
def GetClassDefaultAttributes(*args, **kwargs):
"""
GetClassDefaultAttributes(int variant=WINDOW_VARIANT_NORMAL) -> VisualAttributes
GetClassDefaultAttributes = staticmethod(GetClassDefaultAttributes)
Alignment = property(GetAlignment,doc="See `GetAlignment`")
- Label = property(GetLabel,doc="See `GetLabel`")
LabelText = property(GetLabelText,doc="See `GetLabelText`")
_core_.Control_swigregister(Control)
ControlNameStr = cvar.ControlNameStr
def Insert(*args, **kwargs):
"""
- Insert(self, String item, unsigned int pos, PyObject clientData=None) -> int
+ Insert(self, String item, int pos, PyObject clientData=None) -> int
Insert an item into the control before the item at the ``pos`` index,
optionally associating some data object with the item.
def Delete(*args, **kwargs):
"""
- Delete(self, unsigned int n)
+ Delete(self, int n)
Deletes the item at the zero-based index 'n' from the control. Note
that it is an error (signalled by a `wx.PyAssertionError` exception if
def GetClientData(*args, **kwargs):
"""
- GetClientData(self, unsigned int n) -> PyObject
+ GetClientData(self, int n) -> PyObject
Returns the client data associated with the given item, (if any.)
"""
def SetClientData(*args, **kwargs):
"""
- SetClientData(self, unsigned int n, PyObject clientData)
+ SetClientData(self, int n, PyObject clientData)
Associate the given client data with the item at position n.
"""
def GetCount(*args, **kwargs):
"""
- GetCount(self) -> unsigned int
+ GetCount(self) -> int
Returns the number of items in the control.
"""
def GetString(*args, **kwargs):
"""
- GetString(self, unsigned int n) -> String
+ GetString(self, int n) -> String
Returns the label of the item with the given index.
"""
def SetString(*args, **kwargs):
"""
- SetString(self, unsigned int n, String s)
+ SetString(self, int n, String s)
Sets the label for the given item.
"""
class.
"""
_core_.PySizer_swiginit(self,_core_.new_PySizer(*args, **kwargs))
- self._setCallbackInfo(self, PySizer);self._setOORInfo(self)
+ self._setOORInfo(self);PySizer._setCallbackInfo(self, self, PySizer)
def _setCallbackInfo(*args, **kwargs):
"""_setCallbackInfo(self, PyObject self, PyObject _class)"""
import warnings
warnings.warn("wxPython/wxWidgets release number mismatch")
+
+def version():
+ """Returns a string containing version and port info"""
+ ctype = wx.USE_UNICODE and 'unicode' or 'ansi'
+ if wx.Platform == '__WXMSW__':
+ port = 'msw'
+ elif wx.Platform == '__WXMAC__':
+ port = 'mac'
+ elif wx.Platform == '__WXGTK__':
+ port = 'gtk'
+ if 'gtk2' in wx.PlatformInfo:
+ port = 'gtk2'
+ else:
+ port = '?'
+
+ return "%s (%s-%s)" % (wx.VERSION_STRING, port, ctype)
+
+
#----------------------------------------------------------------------------
# Set wxPython's default string<-->unicode conversion encoding from
method calls from non-GUI threads. Any extra positional or
keyword args are passed on to the callable when it is called.
- :see: `wx.FutureCall`
+ :see: `wx.CallLater`
"""
app = wx.GetApp()
assert app is not None, 'No wx.App created yet'
#----------------------------------------------------------------------------
-class FutureCall:
+class CallLater:
"""
A convenience class for `wx.Timer`, that calls the given callable
object once after the given amount of milliseconds, passing any
then there is no need to hold a reference to this object. It will
hold a reference to itself while the timer is running (the timer
has a reference to self.Notify) but the cycle will be broken when
- the timer completes, automatically cleaning up the wx.FutureCall
+ the timer completes, automatically cleaning up the wx.CallLater
object.
:see: `wx.CallAfter`
Result = property(GetResult)
+class FutureCall(CallLater):
+ """A compatibility alias for `CallLater`."""
+
#----------------------------------------------------------------------------
# Control which items in this module should be documented by epydoc.
# We allow only classes and functions, which will help reduce the size
projects / wxWidgets.git / blobdiff