# This file was created automatically by SWIG 1.3.29. # Don't modify this file, modify the SWIG interface instead. import _gdi_ import new new_instancemethod = new.instancemethod def _swig_setattr_nondynamic(self,class_type,name,value,static=1): if (name == "thisown"): return self.this.own(value) if (name == "this"): if type(value).__name__ == 'PySwigObject': self.__dict__[name] = value return method = class_type.__swig_setmethods__.get(name,None) if method: return method(self,value) if (not static) or hasattr(self,name): self.__dict__[name] = value else: raise AttributeError("You cannot add attributes to %s" % self) def _swig_setattr(self,class_type,name,value): return _swig_setattr_nondynamic(self,class_type,name,value,0) def _swig_getattr(self,class_type,name): if (name == "thisown"): return self.this.own() method = class_type.__swig_getmethods__.get(name,None) if method: return method(self) raise AttributeError,name def _swig_repr(self): try: strthis = "proxy of " + self.this.__repr__() except: strthis = "" return "<%s.%s; %s >" % (self.__class__.__module__, self.__class__.__name__, strthis,) import types try: _object = types.ObjectType _newclass = 1 except AttributeError: class _object : pass _newclass = 0 del types def _swig_setattr_nondynamic_method(set): def set_attr(self,name,value): if (name == "thisown"): return self.this.own(value) if hasattr(self,name) or (name == "this"): set(self,name,value) else: raise AttributeError("You cannot add attributes to %s" % self) return set_attr import _core wx = _core #--------------------------------------------------------------------------- class GDIObject(_core.Object): """Proxy of C++ GDIObject class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr __swig_destroy__ = _gdi_.delete_GDIObject __del__ = lambda self : None; def IsNull(*args, **kwargs): """IsNull(self) -> bool""" return _gdi_.GDIObject_IsNull(*args, **kwargs) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.GDIObject_IsOk(*args, **kwargs) Ok = IsOk _gdi_.GDIObject_swigregister(GDIObject) #--------------------------------------------------------------------------- C2S_NAME = _gdi_.C2S_NAME C2S_CSS_SYNTAX = _gdi_.C2S_CSS_SYNTAX C2S_HTML_SYNTAX = _gdi_.C2S_HTML_SYNTAX ALPHA_TRANSPARENT = _gdi_.ALPHA_TRANSPARENT ALPHA_OPAQUE = _gdi_.ALPHA_OPAQUE class Colour(_core.Object): """ A colour is an object representing a combination of Red, Green, and Blue (RGB) intensity values, and is used to determine drawing colours, window colours, etc. Valid RGB values are in the range 0 to 255. In wxPython there are typemaps that will automatically convert from a colour name, from a '#RRGGBB' colour hex value string, or from a 3 or 4 integer tuple to a wx.Colour object when calling C++ methods that expect a wxColour. This means that the following are all equivallent:: win.SetBackgroundColour(wxColour(0,0,255)) win.SetBackgroundColour('BLUE') win.SetBackgroundColour('#0000FF') win.SetBackgroundColour((0,0,255)) In addition to the RGB values, the alpha transparency can optionally be set. This is supported by the typemaps as well as the wx.Colour constructors and setters. (The alpha value is ignored in many places that take a wx.Colour object, but it is honored in things like wx.GCDC or wx.GraphicsContext.) Adding an alpha value of 0xC0 (192) to the above samples looks like this: win.SetBackgroundColour(wxColour(0,0,255,192)) win.SetBackgroundColour('BLUE:C0') win.SetBackgroundColour('#0000FFC0') win.SetBackgroundColour((0,0,255,192)) Additional colour names and their coresponding values can be added using `wx.ColourDatabase`. Also see `wx.lib.colourdb` for a large set of colour names and values. Various system colours (as set in the user's system preferences or control panel) can be retrieved with `wx.SystemSettings.GetColour`. """ 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, byte red=0, byte green=0, byte blue=0, byte alpha=ALPHA_OPAQUE) -> Colour Constructs a colour from red, green, blue and alpha values. :see: Alternate constructors `wx.NamedColour`, `wx.ColourRGB` and `MacThemeColour`. """ _gdi_.Colour_swiginit(self,_gdi_.new_Colour(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Colour __del__ = lambda self : None; def Red(*args, **kwargs): """ Red(self) -> byte Returns the red intensity. """ return _gdi_.Colour_Red(*args, **kwargs) def Green(*args, **kwargs): """ Green(self) -> byte Returns the green intensity. """ return _gdi_.Colour_Green(*args, **kwargs) def Blue(*args, **kwargs): """ Blue(self) -> byte Returns the blue intensity. """ return _gdi_.Colour_Blue(*args, **kwargs) def Alpha(*args, **kwargs): """ Alpha(self) -> byte Returns the Alpha value. """ return _gdi_.Colour_Alpha(*args, **kwargs) def IsOk(*args, **kwargs): """ IsOk(self) -> bool Returns True if the colour object is valid (the colour has been initialised with RGB values). """ return _gdi_.Colour_IsOk(*args, **kwargs) Ok = IsOk def Set(*args, **kwargs): """ Set(self, byte red, byte green, byte blue, byte alpha=ALPHA_OPAQUE) Sets the RGB intensity values. """ return _gdi_.Colour_Set(*args, **kwargs) def SetFromString(self, colourName): """ Sets the RGB intensity values using a colour name listed in ``wx.TheColourDatabase``, or any string format supported by the wxColour typemaps. """ c = wx.NamedColour(colourName) self.Set(c.red, c.green, c.blue, c.alpha) SetFromName = SetFromString def GetAsString(*args, **kwargs): """ GetAsString(self, long flags=wxC2S_NAME|wxC2S_CSS_SYNTAX) -> String Return the colour as a string. Acceptable flags are: =================== ================================== wx.C2S_NAME return colour name, when possible wx.C2S_CSS_SYNTAX return colour in rgb(r,g,b) syntax wx.C2S_HTML_SYNTAX return colour in #rrggbb syntax =================== ================================== """ return _gdi_.Colour_GetAsString(*args, **kwargs) def SetRGB(*args, **kwargs): """ SetRGB(self, unsigned int colRGB) Sets the RGB colour values from a single 32 bit value. The argument colRGB should be of the form 0x00BBGGRR and where 0xRR, 0xGG and 0xBB are the values of the red, green and blue components. """ return _gdi_.Colour_SetRGB(*args, **kwargs) def SetRGBA(*args, **kwargs): """ SetRGBA(self, unsigned int colRGBA) Sets the RGBA colour values from a single 32 bit value. The argument colRGBA should be of the form 0xAABBGGRR where 0xRR, 0xGG, 0xBB and 0xAA are the values of the red, green, blue and alpha components. """ return _gdi_.Colour_SetRGBA(*args, **kwargs) def GetRGBA(*args, **kwargs): """GetRGBA(self) -> unsigned int""" return _gdi_.Colour_GetRGBA(*args, **kwargs) def GetPixel(*args, **kwargs): """ GetPixel(self) -> long Returns a pixel value which is platform-dependent. On Windows, a COLORREF is returned. On X, an allocated pixel value is returned. -1 is returned if the pixel is invalid (on X, unallocated). """ return _gdi_.Colour_GetPixel(*args, **kwargs) def __eq__(*args, **kwargs): """ __eq__(self, PyObject other) -> bool Compare colours for equality. """ return _gdi_.Colour___eq__(*args, **kwargs) def __ne__(*args, **kwargs): """ __ne__(self, PyObject other) -> bool Compare colours for inequality. """ return _gdi_.Colour___ne__(*args, **kwargs) def Get(*args, **kwargs): """ Get(self, bool includeAlpha=False) -> (r,g,b) or (r,g,b,a) Returns the RGB intensity values as a tuple, optionally the alpha value as well. """ return _gdi_.Colour_Get(*args, **kwargs) def GetRGB(*args): """ GetRGB(self) -> unsigned int GetRGB(self) -> unsigned long Return the colour as a packed RGB value """ return _gdi_.Colour_GetRGB(*args) asTuple = wx.deprecated(Get, "asTuple is deprecated, use `Get` instead") def __str__(self): return str(self.Get(True)) # help() can access the stock colors before they are created, # so make sure there is a this attribute before calling any wrapper method. def __repr__(self): if hasattr(self, 'this'): return 'wx.Colour' + str(self.Get(True)) else: return 'wx.Colour()' def __len__(self): return len(self.Get()) def __getitem__(self, index): return self.Get()[index] def __nonzero__(self): return self.IsOk() __safe_for_unpickling__ = True def __reduce__(self): return (Colour, self.Get(True)) Pixel = property(GetPixel,doc="See `GetPixel`") RGB = property(GetRGB,SetRGB,doc="See `GetRGB` and `SetRGB`") red = property(Red) green = property(Green) blue = property(Blue) alpha = property(Alpha) _gdi_.Colour_swigregister(Colour) def NamedColour(*args, **kwargs): """ NamedColour(String colourName) -> Colour Constructs a colour object using a colour name listed in ``wx.TheColourDatabase``, or any string format supported by the wxColour typemaps. """ val = _gdi_.new_NamedColour(*args, **kwargs) return val def ColourRGB(*args, **kwargs): """ ColourRGB(unsigned long colRGB) -> Colour Constructs a colour from a packed RGB value. """ val = _gdi_.new_ColourRGB(*args, **kwargs) return val def MacThemeColour(*args, **kwargs): """ MacThemeColour(int themeBrushID) -> Colour Creates a color (or pattern) from a Mac theme brush ID. Raises a NotImplemented exception on other platforms. """ val = _gdi_.new_MacThemeColour(*args, **kwargs) return val class Palette(GDIObject): """Proxy of C++ Palette class""" 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, wxArrayInt red, wxArrayInt green, wxArrayInt blue) -> Palette""" _gdi_.Palette_swiginit(self,_gdi_.new_Palette(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Palette __del__ = lambda self : None; def GetPixel(*args, **kwargs): """GetPixel(self, byte red, byte green, byte blue) -> int""" return _gdi_.Palette_GetPixel(*args, **kwargs) def GetRGB(*args, **kwargs): """GetRGB(self, int pixel) -> (success, R,G,B)""" return _gdi_.Palette_GetRGB(*args, **kwargs) def GetColoursCount(*args, **kwargs): """GetColoursCount(self) -> int""" return _gdi_.Palette_GetColoursCount(*args, **kwargs) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.Palette_IsOk(*args, **kwargs) Ok = IsOk def __nonzero__(self): return self.IsOk() ColoursCount = property(GetColoursCount,doc="See `GetColoursCount`") _gdi_.Palette_swigregister(Palette) #--------------------------------------------------------------------------- PENSTYLE_INVALID = _gdi_.PENSTYLE_INVALID PENSTYLE_SOLID = _gdi_.PENSTYLE_SOLID PENSTYLE_DOT = _gdi_.PENSTYLE_DOT PENSTYLE_LONG_DASH = _gdi_.PENSTYLE_LONG_DASH PENSTYLE_SHORT_DASH = _gdi_.PENSTYLE_SHORT_DASH PENSTYLE_DOT_DASH = _gdi_.PENSTYLE_DOT_DASH PENSTYLE_USER_DASH = _gdi_.PENSTYLE_USER_DASH PENSTYLE_TRANSPARENT = _gdi_.PENSTYLE_TRANSPARENT PENSTYLE_STIPPLE_MASK_OPAQUE = _gdi_.PENSTYLE_STIPPLE_MASK_OPAQUE PENSTYLE_STIPPLE_MASK = _gdi_.PENSTYLE_STIPPLE_MASK PENSTYLE_STIPPLE = _gdi_.PENSTYLE_STIPPLE PENSTYLE_BDIAGONAL_HATCH = _gdi_.PENSTYLE_BDIAGONAL_HATCH PENSTYLE_CROSSDIAG_HATCH = _gdi_.PENSTYLE_CROSSDIAG_HATCH PENSTYLE_FDIAGONAL_HATCH = _gdi_.PENSTYLE_FDIAGONAL_HATCH PENSTYLE_CROSS_HATCH = _gdi_.PENSTYLE_CROSS_HATCH PENSTYLE_HORIZONTAL_HATCH = _gdi_.PENSTYLE_HORIZONTAL_HATCH PENSTYLE_VERTICAL_HATCH = _gdi_.PENSTYLE_VERTICAL_HATCH PENSTYLE_FIRST_HATCH = _gdi_.PENSTYLE_FIRST_HATCH PENSTYLE_LAST_HATCH = _gdi_.PENSTYLE_LAST_HATCH JOIN_INVALID = _gdi_.JOIN_INVALID JOIN_BEVEL = _gdi_.JOIN_BEVEL JOIN_MITER = _gdi_.JOIN_MITER JOIN_ROUND = _gdi_.JOIN_ROUND CAP_INVALID = _gdi_.CAP_INVALID CAP_ROUND = _gdi_.CAP_ROUND CAP_PROJECTING = _gdi_.CAP_PROJECTING CAP_BUTT = _gdi_.CAP_BUTT class Pen(GDIObject): """Proxy of C++ Pen class""" 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, Colour colour, int width=1, int style=SOLID) -> Pen""" _gdi_.Pen_swiginit(self,_gdi_.new_Pen(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Pen __del__ = lambda self : None; def GetCap(*args, **kwargs): """GetCap(self) -> int""" return _gdi_.Pen_GetCap(*args, **kwargs) def GetColour(*args, **kwargs): """GetColour(self) -> Colour""" return _gdi_.Pen_GetColour(*args, **kwargs) def GetJoin(*args, **kwargs): """GetJoin(self) -> int""" return _gdi_.Pen_GetJoin(*args, **kwargs) def GetStyle(*args, **kwargs): """GetStyle(self) -> int""" return _gdi_.Pen_GetStyle(*args, **kwargs) def GetWidth(*args, **kwargs): """GetWidth(self) -> int""" return _gdi_.Pen_GetWidth(*args, **kwargs) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.Pen_IsOk(*args, **kwargs) Ok = IsOk def SetCap(*args, **kwargs): """SetCap(self, int cap_style)""" return _gdi_.Pen_SetCap(*args, **kwargs) def SetColour(*args, **kwargs): """SetColour(self, Colour colour)""" return _gdi_.Pen_SetColour(*args, **kwargs) def SetJoin(*args, **kwargs): """SetJoin(self, int join_style)""" return _gdi_.Pen_SetJoin(*args, **kwargs) def SetStyle(*args, **kwargs): """SetStyle(self, int style)""" return _gdi_.Pen_SetStyle(*args, **kwargs) def SetWidth(*args, **kwargs): """SetWidth(self, int width)""" return _gdi_.Pen_SetWidth(*args, **kwargs) def SetDashes(*args, **kwargs): """SetDashes(self, int dashes)""" return _gdi_.Pen_SetDashes(*args, **kwargs) def GetDashes(*args, **kwargs): """GetDashes(self) -> PyObject""" return _gdi_.Pen_GetDashes(*args, **kwargs) def _SetDashes(*args, **kwargs): """_SetDashes(self, PyObject _self, PyObject pyDashes)""" return _gdi_.Pen__SetDashes(*args, **kwargs) def SetDashes(self, dashes): """ Associate a list of dash lengths with the Pen. """ self._SetDashes(self, dashes) def GetDashCount(*args, **kwargs): """GetDashCount(self) -> int""" return _gdi_.Pen_GetDashCount(*args, **kwargs) DashCount = property(GetDashCount,doc="See `GetDashCount`") def GetStipple(*args, **kwargs): """GetStipple(self) -> Bitmap""" return _gdi_.Pen_GetStipple(*args, **kwargs) def SetStipple(*args, **kwargs): """SetStipple(self, Bitmap stipple)""" return _gdi_.Pen_SetStipple(*args, **kwargs) Stipple = property(GetStipple,SetStipple,doc="See `GetStipple` and `SetStipple`") def IsTransparent(*args, **kwargs): """IsTransparent(self) -> bool""" return _gdi_.Pen_IsTransparent(*args, **kwargs) def IsNonTransparent(*args, **kwargs): """IsNonTransparent(self) -> bool""" return _gdi_.Pen_IsNonTransparent(*args, **kwargs) def __eq__(*args, **kwargs): """__eq__(self, Pen other) -> bool""" return _gdi_.Pen___eq__(*args, **kwargs) def __ne__(*args, **kwargs): """__ne__(self, Pen other) -> bool""" return _gdi_.Pen___ne__(*args, **kwargs) def __nonzero__(self): return self.IsOk() Cap = property(GetCap,SetCap,doc="See `GetCap` and `SetCap`") Colour = property(GetColour,SetColour,doc="See `GetColour` and `SetColour`") Dashes = property(GetDashes,SetDashes,doc="See `GetDashes` and `SetDashes`") Join = property(GetJoin,SetJoin,doc="See `GetJoin` and `SetJoin`") Style = property(GetStyle,SetStyle,doc="See `GetStyle` and `SetStyle`") Width = property(GetWidth,SetWidth,doc="See `GetWidth` and `SetWidth`") _gdi_.Pen_swigregister(Pen) #--------------------------------------------------------------------------- BRUSHSTYLE_INVALID = _gdi_.BRUSHSTYLE_INVALID BRUSHSTYLE_SOLID = _gdi_.BRUSHSTYLE_SOLID BRUSHSTYLE_TRANSPARENT = _gdi_.BRUSHSTYLE_TRANSPARENT BRUSHSTYLE_STIPPLE_MASK_OPAQUE = _gdi_.BRUSHSTYLE_STIPPLE_MASK_OPAQUE BRUSHSTYLE_STIPPLE_MASK = _gdi_.BRUSHSTYLE_STIPPLE_MASK BRUSHSTYLE_STIPPLE = _gdi_.BRUSHSTYLE_STIPPLE BRUSHSTYLE_BDIAGONAL_HATCH = _gdi_.BRUSHSTYLE_BDIAGONAL_HATCH BRUSHSTYLE_CROSSDIAG_HATCH = _gdi_.BRUSHSTYLE_CROSSDIAG_HATCH BRUSHSTYLE_FDIAGONAL_HATCH = _gdi_.BRUSHSTYLE_FDIAGONAL_HATCH BRUSHSTYLE_CROSS_HATCH = _gdi_.BRUSHSTYLE_CROSS_HATCH BRUSHSTYLE_HORIZONTAL_HATCH = _gdi_.BRUSHSTYLE_HORIZONTAL_HATCH BRUSHSTYLE_VERTICAL_HATCH = _gdi_.BRUSHSTYLE_VERTICAL_HATCH BRUSHSTYLE_FIRST_HATCH = _gdi_.BRUSHSTYLE_FIRST_HATCH BRUSHSTYLE_LAST_HATCH = _gdi_.BRUSHSTYLE_LAST_HATCH class Brush(GDIObject): """ A brush is a drawing tool for filling in areas. It is used for painting the background of rectangles, ellipses, etc. when drawing on a `wx.DC`. It has a colour and a style. """ 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, Colour colour, int style=SOLID) -> Brush Constructs a brush from a `wx.Colour` object and a style. """ _gdi_.Brush_swiginit(self,_gdi_.new_Brush(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Brush __del__ = lambda self : None; def SetColour(*args, **kwargs): """ SetColour(self, Colour col) Set the brush's `wx.Colour`. """ return _gdi_.Brush_SetColour(*args, **kwargs) def SetStyle(*args, **kwargs): """ SetStyle(self, int style) Sets the style of the brush. See `__init__` for a listing of styles. """ return _gdi_.Brush_SetStyle(*args, **kwargs) def SetStipple(*args, **kwargs): """ SetStipple(self, Bitmap stipple) Sets the stipple `wx.Bitmap`. """ return _gdi_.Brush_SetStipple(*args, **kwargs) def GetColour(*args, **kwargs): """ GetColour(self) -> Colour Returns the `wx.Colour` of the brush. """ return _gdi_.Brush_GetColour(*args, **kwargs) def GetStyle(*args, **kwargs): """ GetStyle(self) -> int Returns the style of the brush. See `__init__` for a listing of styles. """ return _gdi_.Brush_GetStyle(*args, **kwargs) def GetStipple(*args, **kwargs): """ GetStipple(self) -> Bitmap Returns the stiple `wx.Bitmap` of the brush. If the brush does not have a wx.STIPPLE style, then the return value may be non-None but an uninitialised bitmap (`wx.Bitmap.Ok` returns False). """ return _gdi_.Brush_GetStipple(*args, **kwargs) def IsHatch(*args, **kwargs): """ IsHatch(self) -> bool Is the current style a hatch type? """ return _gdi_.Brush_IsHatch(*args, **kwargs) def IsTransparent(*args, **kwargs): """IsTransparent(self) -> bool""" return _gdi_.Brush_IsTransparent(*args, **kwargs) def IsNonTransparent(*args, **kwargs): """IsNonTransparent(self) -> bool""" return _gdi_.Brush_IsNonTransparent(*args, **kwargs) def IsOk(*args, **kwargs): """ IsOk(self) -> bool Returns True if the brush is initialised and valid. """ return _gdi_.Brush_IsOk(*args, **kwargs) Ok = IsOk def __nonzero__(self): return self.IsOk() Colour = property(GetColour,SetColour,doc="See `GetColour` and `SetColour`") Stipple = property(GetStipple,SetStipple,doc="See `GetStipple` and `SetStipple`") Style = property(GetStyle,SetStyle,doc="See `GetStyle` and `SetStyle`") _gdi_.Brush_swigregister(Brush) def BrushFromBitmap(*args, **kwargs): """ BrushFromBitmap(Bitmap stippleBitmap) -> Brush Constructs a stippled brush using a bitmap. """ val = _gdi_.new_BrushFromBitmap(*args, **kwargs) return val BitmapBufferFormat_RGB = _gdi_.BitmapBufferFormat_RGB BitmapBufferFormat_RGBA = _gdi_.BitmapBufferFormat_RGBA BitmapBufferFormat_RGB32 = _gdi_.BitmapBufferFormat_RGB32 BitmapBufferFormat_ARGB32 = _gdi_.BitmapBufferFormat_ARGB32 BITMAP_SCREEN_DEPTH = _gdi_.BITMAP_SCREEN_DEPTH class Bitmap(GDIObject): """ The wx.Bitmap class encapsulates the concept of a platform-dependent bitmap. It can be either monochrome or colour, and either loaded from a file or created dynamically. A bitmap can be selected into a memory device context (instance of `wx.MemoryDC`). This enables the bitmap to be copied to a window or memory device context using `wx.DC.Blit`, or to be used as a drawing surface. """ 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, String name, int type=BITMAP_TYPE_ANY) -> Bitmap Loads a bitmap from a file. """ _gdi_.Bitmap_swiginit(self,_gdi_.new_Bitmap(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Bitmap __del__ = lambda self : None; def GetHandle(*args, **kwargs): """GetHandle(self) -> long""" return _gdi_.Bitmap_GetHandle(*args, **kwargs) def SetHandle(*args, **kwargs): """SetHandle(self, long handle)""" return _gdi_.Bitmap_SetHandle(*args, **kwargs) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.Bitmap_IsOk(*args, **kwargs) Ok = IsOk def GetWidth(*args, **kwargs): """ GetWidth(self) -> int Gets the width of the bitmap in pixels. """ return _gdi_.Bitmap_GetWidth(*args, **kwargs) def GetHeight(*args, **kwargs): """ GetHeight(self) -> int Gets the height of the bitmap in pixels. """ return _gdi_.Bitmap_GetHeight(*args, **kwargs) def GetDepth(*args, **kwargs): """ GetDepth(self) -> int Gets the colour depth of the bitmap. A value of 1 indicates a monochrome bitmap. """ return _gdi_.Bitmap_GetDepth(*args, **kwargs) def GetSize(*args, **kwargs): """ GetSize(self) -> Size Get the size of the bitmap. """ return _gdi_.Bitmap_GetSize(*args, **kwargs) def ConvertToImage(*args, **kwargs): """ ConvertToImage(self) -> Image Creates a platform-independent image from a platform-dependent bitmap. This preserves mask information so that bitmaps and images can be converted back and forth without loss in that respect. """ return _gdi_.Bitmap_ConvertToImage(*args, **kwargs) def GetMask(*args, **kwargs): """ GetMask(self) -> Mask Gets the associated mask (if any) which may have been loaded from a file or explpicitly set for the bitmap. :see: `SetMask`, `wx.Mask` """ return _gdi_.Bitmap_GetMask(*args, **kwargs) def SetMask(*args, **kwargs): """ SetMask(self, Mask mask) Sets the mask for this bitmap. :see: `GetMask`, `wx.Mask` """ return _gdi_.Bitmap_SetMask(*args, **kwargs) def SetMaskColour(*args, **kwargs): """ SetMaskColour(self, Colour colour) Create a Mask based on a specified colour in the Bitmap. """ return _gdi_.Bitmap_SetMaskColour(*args, **kwargs) def GetSubBitmap(*args, **kwargs): """ GetSubBitmap(self, Rect rect) -> Bitmap Returns a sub-bitmap of the current one as long as the rect belongs entirely to the bitmap. This function preserves bit depth and mask information. """ return _gdi_.Bitmap_GetSubBitmap(*args, **kwargs) def ConvertToDisabled(*args, **kwargs): """ConvertToDisabled(self, byte brightness=255) -> Bitmap""" return _gdi_.Bitmap_ConvertToDisabled(*args, **kwargs) def SaveFile(*args, **kwargs): """ SaveFile(self, String name, int type, Palette palette=None) -> bool Saves a bitmap in the named file. See `__init__` for a description of the ``type`` parameter. """ return _gdi_.Bitmap_SaveFile(*args, **kwargs) def LoadFile(*args, **kwargs): """ LoadFile(self, String name, int type) -> bool Loads a bitmap from a file. See `__init__` for a description of the ``type`` parameter. """ return _gdi_.Bitmap_LoadFile(*args, **kwargs) def GetPalette(*args, **kwargs): """GetPalette(self) -> Palette""" return _gdi_.Bitmap_GetPalette(*args, **kwargs) def SetPalette(*args, **kwargs): """SetPalette(self, Palette palette)""" return _gdi_.Bitmap_SetPalette(*args, **kwargs) def CopyFromIcon(*args, **kwargs): """CopyFromIcon(self, Icon icon) -> bool""" return _gdi_.Bitmap_CopyFromIcon(*args, **kwargs) def SetHeight(*args, **kwargs): """ SetHeight(self, int height) Set the height property (does not affect the existing bitmap data). """ return _gdi_.Bitmap_SetHeight(*args, **kwargs) def SetWidth(*args, **kwargs): """ SetWidth(self, int width) Set the width property (does not affect the existing bitmap data). """ return _gdi_.Bitmap_SetWidth(*args, **kwargs) def SetDepth(*args, **kwargs): """ SetDepth(self, int depth) Set the depth property (does not affect the existing bitmap data). """ return _gdi_.Bitmap_SetDepth(*args, **kwargs) def SetSize(*args, **kwargs): """ SetSize(self, Size size) Set the bitmap size (does not affect the existing bitmap data). """ return _gdi_.Bitmap_SetSize(*args, **kwargs) def CopyFromCursor(*args, **kwargs): """CopyFromCursor(self, Cursor cursor) -> bool""" return _gdi_.Bitmap_CopyFromCursor(*args, **kwargs) def CopyFromBuffer(*args, **kwargs): """ CopyFromBuffer(self, buffer data, int format=BitmapBufferFormat_RGB, int stride=-1) Copy data from a buffer object to replace the bitmap pixel data. Default format is plain RGB, but other formats are now supported as well. The following symbols are used to specify the format of the bytes in the buffer: ============================= ================================ wx.BitmapBufferFormat_RGB A simple sequence of RGB bytes wx.BitmapBufferFormat_RGBA A simple sequence of RGBA bytes wx.BitmapBufferFormat_ARGB32 A sequence of 32-bit values in native endian order, with alpha in the upper 8 bits, followed by red, green, and blue. wx.BitmapBufferFormat_RGB32 Same as above but the alpha byte is ignored. ============================= ================================ """ return _gdi_.Bitmap_CopyFromBuffer(*args, **kwargs) def CopyFromBufferRGBA(self, buffer): """ Copy data from a RGBA buffer object to replace the bitmap pixel data. This method is now just a compatibility wrapper around CopyFromBuffer. """ self.CopyFromBuffer(buffer, wx.BitmapBufferFormat_RGBA) def CopyToBuffer(*args, **kwargs): """ CopyToBuffer(self, buffer data, int format=BitmapBufferFormat_RGB, int stride=-1) Copy pixel data to a buffer object. See `CopyFromBuffer` for buffer format . """ return _gdi_.Bitmap_CopyToBuffer(*args, **kwargs) def HasAlpha(*args, **kwargs): """HasAlpha(self) -> bool""" return _gdi_.Bitmap_HasAlpha(*args, **kwargs) def __nonzero__(self): return self.IsOk() def __eq__(*args, **kwargs): """__eq__(self, Bitmap other) -> bool""" return _gdi_.Bitmap___eq__(*args, **kwargs) def __ne__(*args, **kwargs): """__ne__(self, Bitmap other) -> bool""" return _gdi_.Bitmap___ne__(*args, **kwargs) Depth = property(GetDepth,SetDepth,doc="See `GetDepth` and `SetDepth`") Height = property(GetHeight,SetHeight,doc="See `GetHeight` and `SetHeight`") Mask = property(GetMask,SetMask,doc="See `GetMask` and `SetMask`") Palette = property(GetPalette,doc="See `GetPalette`") Size = property(GetSize,SetSize,doc="See `GetSize` and `SetSize`") Width = property(GetWidth,SetWidth,doc="See `GetWidth` and `SetWidth`") _gdi_.Bitmap_swigregister(Bitmap) def EmptyBitmap(*args, **kwargs): """ EmptyBitmap(int width, int height, int depth=BITMAP_SCREEN_DEPTH) -> Bitmap Creates a new bitmap of the given size. A depth of -1 indicates the depth of the current screen or visual. Some platforms only support 1 for monochrome and -1 for the current display depth. """ val = _gdi_.new_EmptyBitmap(*args, **kwargs) return val def BitmapFromIcon(*args, **kwargs): """ BitmapFromIcon(Icon icon) -> Bitmap Create a new bitmap from a `wx.Icon` object. """ val = _gdi_.new_BitmapFromIcon(*args, **kwargs) return val def BitmapFromImage(*args, **kwargs): """ BitmapFromImage(Image image, int depth=BITMAP_SCREEN_DEPTH) -> Bitmap Creates bitmap object from a `wx.Image`. This has to be done to actually display a `wx.Image` as you cannot draw an image directly on a window. The resulting bitmap will use the provided colour depth (or that of the current screen colour depth if depth is -1) which entails that a colour reduction may have to take place. """ val = _gdi_.new_BitmapFromImage(*args, **kwargs) return val def BitmapFromXPMData(*args, **kwargs): """ BitmapFromXPMData(PyObject listOfStrings) -> Bitmap Construct a Bitmap from a list of strings formatted as XPM data. """ val = _gdi_.new_BitmapFromXPMData(*args, **kwargs) return val def BitmapFromBits(*args, **kwargs): """ BitmapFromBits(PyObject bits, int width, int height, int depth=1) -> Bitmap Creates a bitmap from an array of bits. You should only use this function for monochrome bitmaps (depth 1) in portable programs: in this case the bits parameter should contain an XBM image as a data string. For other bit depths, the behaviour is platform dependent. """ val = _gdi_.new_BitmapFromBits(*args, **kwargs) return val def _BitmapFromBufferAlpha(*args, **kwargs): """_BitmapFromBufferAlpha(int width, int height, buffer data, buffer alpha) -> Bitmap""" return _gdi_._BitmapFromBufferAlpha(*args, **kwargs) def _BitmapFromBuffer(*args, **kwargs): """_BitmapFromBuffer(int width, int height, buffer data) -> Bitmap""" return _gdi_._BitmapFromBuffer(*args, **kwargs) def BitmapFromBuffer(width, height, dataBuffer, alphaBuffer=None): """ Creates a `wx.Bitmap` from the data in dataBuffer. The dataBuffer parameter must be a Python object that implements the buffer interface, such as a string, array, etc. The dataBuffer object is expected to contain a series of RGB bytes and be width*height*3 bytes long. A buffer object can optionally be supplied for the image's alpha channel data, and it is expected to be width*height bytes long. On Windows and Mac the RGB values are 'premultiplied' by the alpha values. (The other platforms do the multiplication themselves.) Unlike `wx.ImageFromBuffer` the bitmap created with this function does not share the memory buffer with the buffer object. This is because the native pixel buffer format varies on different platforms, and so instead an efficient as possible copy of the data is made from the buffer objects to the bitmap's native pixel buffer. For direct access to a bitmap's pixel buffer see `wx.NativePixelData` and `wx.AlphaPixelData`. :see: `wx.Bitmap`, `wx.BitmapFromBufferRGBA`, `wx.NativePixelData`, `wx.AlphaPixelData`, `wx.ImageFromBuffer` """ if alphaBuffer is not None: return _gdi_._BitmapFromBufferAlpha(width, height, dataBuffer, alphaBuffer) else: return _gdi_._BitmapFromBuffer(width, height, dataBuffer) def _BitmapFromBufferRGBA(*args, **kwargs): """_BitmapFromBufferRGBA(int width, int height, buffer data) -> Bitmap""" return _gdi_._BitmapFromBufferRGBA(*args, **kwargs) def BitmapFromBufferRGBA(width, height, dataBuffer): """ Creates a `wx.Bitmap` from the data in dataBuffer. The dataBuffer parameter must be a Python object that implements the buffer interface, such as a string, array, etc. The dataBuffer object is expected to contain a series of RGBA bytes (red, green, blue and alpha) and be width*height*4 bytes long. On Windows and Mac the RGB values are 'premultiplied' by the alpha values. (The other platforms do the multiplication themselves.) Unlike `wx.ImageFromBuffer` the bitmap created with this function does not share the memory buffer with the buffer object. This is because the native pixel buffer format varies on different platforms, and so instead an efficient as possible copy of the data is made from the buffer object to the bitmap's native pixel buffer. For direct access to a bitmap's pixel buffer see `wx.NativePixelData` and `wx.AlphaPixelData`. :see: `wx.Bitmap`, `wx.BitmapFromBuffer`, `wx.NativePixelData`, `wx.AlphaPixelData`, `wx.ImageFromBuffer` """ return _gdi_._BitmapFromBufferRGBA(width, height, dataBuffer) def _EmptyBitmapRGBA(*args, **kwargs): """ _EmptyBitmapRGBA(int width, int height, byte red, byte green, byte blue, byte alpha) -> Bitmap """ return _gdi_._EmptyBitmapRGBA(*args, **kwargs) def EmptyBitmapRGBA(width, height, red=0, green=0, blue=0, alpha=0): """ Returns a new empty 32-bit bitmap where every pixel has been initialized with the given RGBA values. """ return _gdi_._EmptyBitmapRGBA(width, height, red, green, blue, alpha) class PixelDataBase(object): """Proxy of C++ PixelDataBase class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr def GetOrigin(*args, **kwargs): """GetOrigin(self) -> Point""" return _gdi_.PixelDataBase_GetOrigin(*args, **kwargs) def GetWidth(*args, **kwargs): """GetWidth(self) -> int""" return _gdi_.PixelDataBase_GetWidth(*args, **kwargs) def GetHeight(*args, **kwargs): """GetHeight(self) -> int""" return _gdi_.PixelDataBase_GetHeight(*args, **kwargs) def GetSize(*args, **kwargs): """GetSize(self) -> Size""" return _gdi_.PixelDataBase_GetSize(*args, **kwargs) def GetRowStride(*args, **kwargs): """GetRowStride(self) -> int""" return _gdi_.PixelDataBase_GetRowStride(*args, **kwargs) Height = property(GetHeight,doc="See `GetHeight`") Origin = property(GetOrigin,doc="See `GetOrigin`") RowStride = property(GetRowStride,doc="See `GetRowStride`") Size = property(GetSize,doc="See `GetSize`") Width = property(GetWidth,doc="See `GetWidth`") _gdi_.PixelDataBase_swigregister(PixelDataBase) class NativePixelData(PixelDataBase): """Proxy of C++ NativePixelData class""" 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): """ __init__(self, Bitmap bmp) -> NativePixelData __init__(self, Bitmap bmp, Rect rect) -> NativePixelData __init__(self, Bitmap bmp, Point pt, Size sz) -> NativePixelData """ _gdi_.NativePixelData_swiginit(self,_gdi_.new_NativePixelData(*args)) __swig_destroy__ = _gdi_.delete_NativePixelData __del__ = lambda self : None; def GetPixels(*args, **kwargs): """GetPixels(self) -> NativePixelData_Accessor""" return _gdi_.NativePixelData_GetPixels(*args, **kwargs) def UseAlpha(self): pass UseAlpha = wx.deprecated(UseAlpha) def __nonzero__(*args, **kwargs): """__nonzero__(self) -> bool""" return _gdi_.NativePixelData___nonzero__(*args, **kwargs) def __iter__(self): """ Create and return an iterator object for this pixel data object. (It's really a generator but I won't tell if you don't tell.) """ width = self.GetWidth() height = self.GetHeight() pixels = self.GetPixels() class PixelFacade(object): def Get(self): return pixels.Get() def Set(self, *args, **kw): return pixels.Set(*args, **kw) def __str__(self): return str(self.Get()) def __repr__(self): return 'pixel(%d,%d): %s' % (x,y,self.Get()) X = property(lambda self: x) Y = property(lambda self: y) pf = PixelFacade() for y in xrange(height): pixels.MoveTo(self, 0, y) for x in xrange(width): yield pf pixels.nextPixel() Pixels = property(GetPixels,doc="See `GetPixels`") _gdi_.NativePixelData_swigregister(NativePixelData) class NativePixelData_Accessor(object): """Proxy of C++ NativePixelData_Accessor class""" 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): """ __init__(self, NativePixelData data) -> NativePixelData_Accessor __init__(self, Bitmap bmp, NativePixelData data) -> NativePixelData_Accessor __init__(self) -> NativePixelData_Accessor """ _gdi_.NativePixelData_Accessor_swiginit(self,_gdi_.new_NativePixelData_Accessor(*args)) __swig_destroy__ = _gdi_.delete_NativePixelData_Accessor __del__ = lambda self : None; def Reset(*args, **kwargs): """Reset(self, NativePixelData data)""" return _gdi_.NativePixelData_Accessor_Reset(*args, **kwargs) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.NativePixelData_Accessor_IsOk(*args, **kwargs) def nextPixel(*args, **kwargs): """nextPixel(self)""" return _gdi_.NativePixelData_Accessor_nextPixel(*args, **kwargs) def Offset(*args, **kwargs): """Offset(self, NativePixelData data, int x, int y)""" return _gdi_.NativePixelData_Accessor_Offset(*args, **kwargs) def OffsetX(*args, **kwargs): """OffsetX(self, NativePixelData data, int x)""" return _gdi_.NativePixelData_Accessor_OffsetX(*args, **kwargs) def OffsetY(*args, **kwargs): """OffsetY(self, NativePixelData data, int y)""" return _gdi_.NativePixelData_Accessor_OffsetY(*args, **kwargs) def MoveTo(*args, **kwargs): """MoveTo(self, NativePixelData data, int x, int y)""" return _gdi_.NativePixelData_Accessor_MoveTo(*args, **kwargs) def Set(*args, **kwargs): """Set(self, byte red, byte green, byte blue)""" return _gdi_.NativePixelData_Accessor_Set(*args, **kwargs) def Get(*args, **kwargs): """Get(self) -> PyObject""" return _gdi_.NativePixelData_Accessor_Get(*args, **kwargs) _gdi_.NativePixelData_Accessor_swigregister(NativePixelData_Accessor) class AlphaPixelData(PixelDataBase): """Proxy of C++ AlphaPixelData class""" 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): """ __init__(self, Bitmap bmp) -> AlphaPixelData __init__(self, Bitmap bmp, Rect rect) -> AlphaPixelData __init__(self, Bitmap bmp, Point pt, Size sz) -> AlphaPixelData """ _gdi_.AlphaPixelData_swiginit(self,_gdi_.new_AlphaPixelData(*args)) __swig_destroy__ = _gdi_.delete_AlphaPixelData __del__ = lambda self : None; def GetPixels(*args, **kwargs): """GetPixels(self) -> AlphaPixelData_Accessor""" return _gdi_.AlphaPixelData_GetPixels(*args, **kwargs) def UseAlpha(self): pass UseAlpha = wx.deprecated(UseAlpha) def __nonzero__(*args, **kwargs): """__nonzero__(self) -> bool""" return _gdi_.AlphaPixelData___nonzero__(*args, **kwargs) def __iter__(self): """ Create and return an iterator object for this pixel data object. (It's really a generator but I won't tell if you don't tell.) """ width = self.GetWidth() height = self.GetHeight() pixels = self.GetPixels() class PixelFacade(object): def Get(self): return pixels.Get() def Set(self, *args, **kw): return pixels.Set(*args, **kw) def __str__(self): return str(self.Get()) def __repr__(self): return 'pixel(%d,%d): %s' % (x,y,self.Get()) X = property(lambda self: x) Y = property(lambda self: y) pf = PixelFacade() for y in xrange(height): pixels.MoveTo(self, 0, y) for x in xrange(width): yield pf pixels.nextPixel() Pixels = property(GetPixels,doc="See `GetPixels`") _gdi_.AlphaPixelData_swigregister(AlphaPixelData) class AlphaPixelData_Accessor(object): """Proxy of C++ AlphaPixelData_Accessor class""" 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): """ __init__(self, AlphaPixelData data) -> AlphaPixelData_Accessor __init__(self, Bitmap bmp, AlphaPixelData data) -> AlphaPixelData_Accessor __init__(self) -> AlphaPixelData_Accessor """ _gdi_.AlphaPixelData_Accessor_swiginit(self,_gdi_.new_AlphaPixelData_Accessor(*args)) __swig_destroy__ = _gdi_.delete_AlphaPixelData_Accessor __del__ = lambda self : None; def Reset(*args, **kwargs): """Reset(self, AlphaPixelData data)""" return _gdi_.AlphaPixelData_Accessor_Reset(*args, **kwargs) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.AlphaPixelData_Accessor_IsOk(*args, **kwargs) def nextPixel(*args, **kwargs): """nextPixel(self)""" return _gdi_.AlphaPixelData_Accessor_nextPixel(*args, **kwargs) def Offset(*args, **kwargs): """Offset(self, AlphaPixelData data, int x, int y)""" return _gdi_.AlphaPixelData_Accessor_Offset(*args, **kwargs) def OffsetX(*args, **kwargs): """OffsetX(self, AlphaPixelData data, int x)""" return _gdi_.AlphaPixelData_Accessor_OffsetX(*args, **kwargs) def OffsetY(*args, **kwargs): """OffsetY(self, AlphaPixelData data, int y)""" return _gdi_.AlphaPixelData_Accessor_OffsetY(*args, **kwargs) def MoveTo(*args, **kwargs): """MoveTo(self, AlphaPixelData data, int x, int y)""" return _gdi_.AlphaPixelData_Accessor_MoveTo(*args, **kwargs) def Set(*args, **kwargs): """Set(self, byte red, byte green, byte blue, byte alpha)""" return _gdi_.AlphaPixelData_Accessor_Set(*args, **kwargs) def Get(*args, **kwargs): """Get(self) -> PyObject""" return _gdi_.AlphaPixelData_Accessor_Get(*args, **kwargs) _gdi_.AlphaPixelData_Accessor_swigregister(AlphaPixelData_Accessor) class Mask(_core.Object): """ This class encapsulates a monochrome mask bitmap, where the masked area is black and the unmasked area is white. When associated with a bitmap and drawn in a device context, the unmasked area of the bitmap will be drawn, and the masked area will not be drawn. A mask may be associated with a `wx.Bitmap`. It is used in `wx.DC.DrawBitmap` or `wx.DC.Blit` when the source device context is a `wx.MemoryDC` with a `wx.Bitmap` selected into it that contains a mask. """ 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, Bitmap bitmap, Colour colour=NullColour) -> Mask Constructs a mask from a `wx.Bitmap` and a `wx.Colour` in that bitmap that indicates the transparent portions of the mask. In other words, the pixels in ``bitmap`` that match ``colour`` will be the transparent portions of the mask. If no ``colour`` or an invalid ``colour`` is passed then BLACK is used. :see: `wx.Bitmap`, `wx.Colour` """ _gdi_.Mask_swiginit(self,_gdi_.new_Mask(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Mask __del__ = lambda self : None; _gdi_.Mask_swigregister(Mask) MaskColour = wx.deprecated(Mask, "wx.MaskColour is deprecated, use `wx.Mask` instead.") class Icon(GDIObject): """Proxy of C++ Icon class""" 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, String name, int type=BITMAP_TYPE_ANY, int desiredWidth=-1, int desiredHeight=-1) -> Icon """ _gdi_.Icon_swiginit(self,_gdi_.new_Icon(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Icon __del__ = lambda self : None; def LoadFile(*args, **kwargs): """LoadFile(self, String name, int type) -> bool""" return _gdi_.Icon_LoadFile(*args, **kwargs) def GetHandle(*args, **kwargs): """GetHandle(self) -> long""" return _gdi_.Icon_GetHandle(*args, **kwargs) def SetHandle(*args, **kwargs): """SetHandle(self, long handle)""" return _gdi_.Icon_SetHandle(*args, **kwargs) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.Icon_IsOk(*args, **kwargs) Ok = IsOk def GetWidth(*args, **kwargs): """GetWidth(self) -> int""" return _gdi_.Icon_GetWidth(*args, **kwargs) def GetHeight(*args, **kwargs): """GetHeight(self) -> int""" return _gdi_.Icon_GetHeight(*args, **kwargs) def GetDepth(*args, **kwargs): """GetDepth(self) -> int""" return _gdi_.Icon_GetDepth(*args, **kwargs) def SetWidth(*args, **kwargs): """SetWidth(self, int w)""" return _gdi_.Icon_SetWidth(*args, **kwargs) def SetHeight(*args, **kwargs): """SetHeight(self, int h)""" return _gdi_.Icon_SetHeight(*args, **kwargs) def SetDepth(*args, **kwargs): """SetDepth(self, int d)""" return _gdi_.Icon_SetDepth(*args, **kwargs) def SetSize(*args, **kwargs): """SetSize(self, Size size)""" return _gdi_.Icon_SetSize(*args, **kwargs) def CopyFromBitmap(*args, **kwargs): """CopyFromBitmap(self, Bitmap bmp)""" return _gdi_.Icon_CopyFromBitmap(*args, **kwargs) def __nonzero__(self): return self.IsOk() Depth = property(GetDepth,SetDepth,doc="See `GetDepth` and `SetDepth`") Height = property(GetHeight,SetHeight,doc="See `GetHeight` and `SetHeight`") Width = property(GetWidth,SetWidth,doc="See `GetWidth` and `SetWidth`") _gdi_.Icon_swigregister(Icon) def EmptyIcon(*args, **kwargs): """EmptyIcon() -> Icon""" val = _gdi_.new_EmptyIcon(*args, **kwargs) return val def IconFromLocation(*args, **kwargs): """IconFromLocation(IconLocation loc) -> Icon""" val = _gdi_.new_IconFromLocation(*args, **kwargs) return val def IconFromBitmap(*args, **kwargs): """IconFromBitmap(Bitmap bmp) -> Icon""" val = _gdi_.new_IconFromBitmap(*args, **kwargs) return val def IconFromXPMData(*args, **kwargs): """IconFromXPMData(PyObject listOfStrings) -> Icon""" val = _gdi_.new_IconFromXPMData(*args, **kwargs) return val class IconLocation(object): """Proxy of C++ IconLocation class""" 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, String filename=&wxPyEmptyString, int num=0) -> IconLocation""" _gdi_.IconLocation_swiginit(self,_gdi_.new_IconLocation(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_IconLocation __del__ = lambda self : None; def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.IconLocation_IsOk(*args, **kwargs) def __nonzero__(self): return self.IsOk() def SetFileName(*args, **kwargs): """SetFileName(self, String filename)""" return _gdi_.IconLocation_SetFileName(*args, **kwargs) def GetFileName(*args, **kwargs): """GetFileName(self) -> String""" return _gdi_.IconLocation_GetFileName(*args, **kwargs) def SetIndex(*args, **kwargs): """SetIndex(self, int num)""" return _gdi_.IconLocation_SetIndex(*args, **kwargs) def GetIndex(*args, **kwargs): """GetIndex(self) -> int""" return _gdi_.IconLocation_GetIndex(*args, **kwargs) FileName = property(GetFileName,SetFileName,doc="See `GetFileName` and `SetFileName`") Index = property(GetIndex,SetIndex,doc="See `GetIndex` and `SetIndex`") _gdi_.IconLocation_swigregister(IconLocation) class IconBundle(object): """Proxy of C++ IconBundle class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') __repr__ = _swig_repr FALLBACK_NONE = _gdi_.IconBundle_FALLBACK_NONE FALLBACK_SYSTEM = _gdi_.IconBundle_FALLBACK_SYSTEM FALLBACK_NEAREST_LARGER = _gdi_.IconBundle_FALLBACK_NEAREST_LARGER def __init__(self, *args, **kwargs): """__init__(self) -> IconBundle""" _gdi_.IconBundle_swiginit(self,_gdi_.new_IconBundle(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_IconBundle __del__ = lambda self : None; def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.IconBundle_IsOk(*args, **kwargs) def __nonzero__(self): return self.IsOk() def AddIcon(*args, **kwargs): """ AddIcon(self, Icon icon) Adds the icon to the collection, if the collection already contains an icon with the same width and height, it is replaced """ return _gdi_.IconBundle_AddIcon(*args, **kwargs) def AddIconFromFile(*args, **kwargs): """ AddIconFromFile(self, String file, int type=BITMAP_TYPE_ANY) Adds all the icons contained in the file to the collection, if the collection already contains icons with the same width and height, they are replaced """ return _gdi_.IconBundle_AddIconFromFile(*args, **kwargs) def AddIconFromStream(*args, **kwargs): """ AddIconFromStream(self, InputStream stream, int type=BITMAP_TYPE_ANY) Just like `AddIconFromFile` but pulls icons from a file-liek object. """ return _gdi_.IconBundle_AddIconFromStream(*args, **kwargs) def GetIcon(*args, **kwargs): """ GetIcon(self, Size size, int flags=FALLBACK_SYSTEM) -> Icon Returns the icon with the given size; if no such icon exists, returns the icon with size wxSYS_ICON_[XY]; if no such icon exists, returns the first icon in the bundle """ return _gdi_.IconBundle_GetIcon(*args, **kwargs) def GetIconOfExactSize(*args, **kwargs): """ GetIconOfExactSize(self, Size size) -> Icon Returns the icon exactly of the specified size or wxNullIcon if no icon of exactly given size are available. """ return _gdi_.IconBundle_GetIconOfExactSize(*args, **kwargs) def GetIconCount(*args, **kwargs): """ GetIconCount(self) -> size_t return the number of available icons """ return _gdi_.IconBundle_GetIconCount(*args, **kwargs) def GetIconByIndex(*args, **kwargs): """ GetIconByIndex(self, size_t n) -> Icon Return the icon at index (must be < GetIconCount()) """ return _gdi_.IconBundle_GetIconByIndex(*args, **kwargs) def IsEmpty(*args, **kwargs): """ IsEmpty(self) -> bool Check if we have any icons at all """ return _gdi_.IconBundle_IsEmpty(*args, **kwargs) _gdi_.IconBundle_swigregister(IconBundle) def IconBundleFromFile(*args, **kwargs): """IconBundleFromFile(String file, int type=BITMAP_TYPE_ANY) -> IconBundle""" val = _gdi_.new_IconBundleFromFile(*args, **kwargs) return val def IconBundleFromIcon(*args, **kwargs): """IconBundleFromIcon(Icon icon) -> IconBundle""" val = _gdi_.new_IconBundleFromIcon(*args, **kwargs) return val def IconBundleFromStream(*args, **kwargs): """IconBundleFromStream(InputStream stream, int type=BITMAP_TYPE_ANY) -> IconBundle""" val = _gdi_.new_IconBundleFromStream(*args, **kwargs) return val class Cursor(GDIObject): """ A cursor is a small bitmap usually used for denoting where the mouse pointer is, with a picture that might indicate the interpretation of a mouse click. A single cursor object may be used in many windows (any subwindow type). The wxWindows convention is to set the cursor for a window, as in X, rather than to set it globally as in MS Windows, although a global `wx.SetCursor` function is also available for use on MS Windows. """ 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, String cursorName, int type, int hotSpotX=0, int hotSpotY=0) -> Cursor Construct a Cursor from a file. Specify the type of file using wx.BITMAP_TYPE* constants, and specify the hotspot if not using a .cur file. """ _gdi_.Cursor_swiginit(self,_gdi_.new_Cursor(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Cursor __del__ = lambda self : None; def GetHandle(*args, **kwargs): """ GetHandle(self) -> long Get the MS Windows handle for the cursor """ return _gdi_.Cursor_GetHandle(*args, **kwargs) def SetHandle(*args, **kwargs): """ SetHandle(self, long handle) Set the MS Windows handle to use for the cursor """ return _gdi_.Cursor_SetHandle(*args, **kwargs) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.Cursor_IsOk(*args, **kwargs) Ok = IsOk def __nonzero__(self): return self.IsOk() def GetWidth(*args, **kwargs): """GetWidth(self) -> int""" return _gdi_.Cursor_GetWidth(*args, **kwargs) def GetHeight(*args, **kwargs): """GetHeight(self) -> int""" return _gdi_.Cursor_GetHeight(*args, **kwargs) def GetDepth(*args, **kwargs): """GetDepth(self) -> int""" return _gdi_.Cursor_GetDepth(*args, **kwargs) def SetWidth(*args, **kwargs): """SetWidth(self, int w)""" return _gdi_.Cursor_SetWidth(*args, **kwargs) def SetHeight(*args, **kwargs): """SetHeight(self, int h)""" return _gdi_.Cursor_SetHeight(*args, **kwargs) def SetDepth(*args, **kwargs): """SetDepth(self, int d)""" return _gdi_.Cursor_SetDepth(*args, **kwargs) def SetSize(*args, **kwargs): """SetSize(self, Size size)""" return _gdi_.Cursor_SetSize(*args, **kwargs) _gdi_.Cursor_swigregister(Cursor) def StockCursor(*args, **kwargs): """ StockCursor(int id) -> Cursor Create a cursor using one of the stock cursors. Note that not all stock cursors are available on all platforms. """ val = _gdi_.new_StockCursor(*args, **kwargs) return val def CursorFromImage(*args, **kwargs): """ CursorFromImage(Image image) -> Cursor Constructs a cursor from a `wx.Image`. The mask (if any) will be used for setting the transparent portions of the cursor. """ val = _gdi_.new_CursorFromImage(*args, **kwargs) return val #--------------------------------------------------------------------------- OutRegion = _gdi_.OutRegion PartRegion = _gdi_.PartRegion InRegion = _gdi_.InRegion class Region(GDIObject): """Proxy of C++ Region class""" 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, int x=0, int y=0, int width=0, int height=0) -> Region""" _gdi_.Region_swiginit(self,_gdi_.new_Region(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Region __del__ = lambda self : None; def Clear(*args, **kwargs): """Clear(self)""" return _gdi_.Region_Clear(*args, **kwargs) def Offset(*args, **kwargs): """Offset(self, int x, int y) -> bool""" return _gdi_.Region_Offset(*args, **kwargs) def Contains(*args, **kwargs): """Contains(self, int x, int y) -> int""" return _gdi_.Region_Contains(*args, **kwargs) def ContainsPoint(*args, **kwargs): """ContainsPoint(self, Point pt) -> int""" return _gdi_.Region_ContainsPoint(*args, **kwargs) def ContainsRect(*args, **kwargs): """ContainsRect(self, Rect rect) -> int""" return _gdi_.Region_ContainsRect(*args, **kwargs) def ContainsRectDim(*args, **kwargs): """ContainsRectDim(self, int x, int y, int w, int h) -> int""" return _gdi_.Region_ContainsRectDim(*args, **kwargs) def GetBox(*args, **kwargs): """GetBox(self) -> Rect""" return _gdi_.Region_GetBox(*args, **kwargs) def Intersect(*args, **kwargs): """Intersect(self, int x, int y, int width, int height) -> bool""" return _gdi_.Region_Intersect(*args, **kwargs) def IntersectRect(*args, **kwargs): """IntersectRect(self, Rect rect) -> bool""" return _gdi_.Region_IntersectRect(*args, **kwargs) def IntersectRegion(*args, **kwargs): """IntersectRegion(self, Region region) -> bool""" return _gdi_.Region_IntersectRegion(*args, **kwargs) def IsEmpty(*args, **kwargs): """IsEmpty(self) -> bool""" return _gdi_.Region_IsEmpty(*args, **kwargs) def IsEqual(*args, **kwargs): """IsEqual(self, Region region) -> bool""" return _gdi_.Region_IsEqual(*args, **kwargs) def Union(*args, **kwargs): """Union(self, int x, int y, int width, int height) -> bool""" return _gdi_.Region_Union(*args, **kwargs) def UnionRect(*args, **kwargs): """UnionRect(self, Rect rect) -> bool""" return _gdi_.Region_UnionRect(*args, **kwargs) def UnionRegion(*args, **kwargs): """UnionRegion(self, Region region) -> bool""" return _gdi_.Region_UnionRegion(*args, **kwargs) def Subtract(*args, **kwargs): """Subtract(self, int x, int y, int width, int height) -> bool""" return _gdi_.Region_Subtract(*args, **kwargs) def SubtractRect(*args, **kwargs): """SubtractRect(self, Rect rect) -> bool""" return _gdi_.Region_SubtractRect(*args, **kwargs) def SubtractRegion(*args, **kwargs): """SubtractRegion(self, Region region) -> bool""" return _gdi_.Region_SubtractRegion(*args, **kwargs) def Xor(*args, **kwargs): """Xor(self, int x, int y, int width, int height) -> bool""" return _gdi_.Region_Xor(*args, **kwargs) def XorRect(*args, **kwargs): """XorRect(self, Rect rect) -> bool""" return _gdi_.Region_XorRect(*args, **kwargs) def XorRegion(*args, **kwargs): """XorRegion(self, Region region) -> bool""" return _gdi_.Region_XorRegion(*args, **kwargs) def ConvertToBitmap(*args, **kwargs): """ConvertToBitmap(self) -> Bitmap""" return _gdi_.Region_ConvertToBitmap(*args, **kwargs) def UnionBitmap(*args, **kwargs): """UnionBitmap(self, Bitmap bmp) -> bool""" return _gdi_.Region_UnionBitmap(*args, **kwargs) def UnionBitmapColour(*args, **kwargs): """UnionBitmapColour(self, Bitmap bmp, Colour transColour, int tolerance=0) -> bool""" return _gdi_.Region_UnionBitmapColour(*args, **kwargs) Box = property(GetBox,doc="See `GetBox`") _gdi_.Region_swigregister(Region) def RegionFromBitmap(*args, **kwargs): """RegionFromBitmap(Bitmap bmp) -> Region""" val = _gdi_.new_RegionFromBitmap(*args, **kwargs) return val def RegionFromBitmapColour(*args, **kwargs): """RegionFromBitmapColour(Bitmap bmp, Colour transColour, int tolerance=0) -> Region""" val = _gdi_.new_RegionFromBitmapColour(*args, **kwargs) return val def RegionFromPoints(*args, **kwargs): """RegionFromPoints(int points, int fillStyle=WINDING_RULE) -> Region""" val = _gdi_.new_RegionFromPoints(*args, **kwargs) return val class RegionIterator(_core.Object): """Proxy of C++ RegionIterator class""" 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, Region region) -> RegionIterator""" _gdi_.RegionIterator_swiginit(self,_gdi_.new_RegionIterator(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_RegionIterator __del__ = lambda self : None; def GetX(*args, **kwargs): """GetX(self) -> int""" return _gdi_.RegionIterator_GetX(*args, **kwargs) def GetY(*args, **kwargs): """GetY(self) -> int""" return _gdi_.RegionIterator_GetY(*args, **kwargs) def GetW(*args, **kwargs): """GetW(self) -> int""" return _gdi_.RegionIterator_GetW(*args, **kwargs) def GetWidth(*args, **kwargs): """GetWidth(self) -> int""" return _gdi_.RegionIterator_GetWidth(*args, **kwargs) def GetH(*args, **kwargs): """GetH(self) -> int""" return _gdi_.RegionIterator_GetH(*args, **kwargs) def GetHeight(*args, **kwargs): """GetHeight(self) -> int""" return _gdi_.RegionIterator_GetHeight(*args, **kwargs) def GetRect(*args, **kwargs): """GetRect(self) -> Rect""" return _gdi_.RegionIterator_GetRect(*args, **kwargs) def HaveRects(*args, **kwargs): """HaveRects(self) -> bool""" return _gdi_.RegionIterator_HaveRects(*args, **kwargs) def Reset(*args, **kwargs): """Reset(self)""" return _gdi_.RegionIterator_Reset(*args, **kwargs) def Next(*args, **kwargs): """Next(self)""" return _gdi_.RegionIterator_Next(*args, **kwargs) def __nonzero__(*args, **kwargs): """__nonzero__(self) -> bool""" return _gdi_.RegionIterator___nonzero__(*args, **kwargs) H = property(GetH,doc="See `GetH`") Height = property(GetHeight,doc="See `GetHeight`") Rect = property(GetRect,doc="See `GetRect`") W = property(GetW,doc="See `GetW`") Width = property(GetWidth,doc="See `GetWidth`") X = property(GetX,doc="See `GetX`") Y = property(GetY,doc="See `GetY`") _gdi_.RegionIterator_swigregister(RegionIterator) #--------------------------------------------------------------------------- FONTFAMILY_DEFAULT = _gdi_.FONTFAMILY_DEFAULT FONTFAMILY_DECORATIVE = _gdi_.FONTFAMILY_DECORATIVE FONTFAMILY_ROMAN = _gdi_.FONTFAMILY_ROMAN FONTFAMILY_SCRIPT = _gdi_.FONTFAMILY_SCRIPT FONTFAMILY_SWISS = _gdi_.FONTFAMILY_SWISS FONTFAMILY_MODERN = _gdi_.FONTFAMILY_MODERN FONTFAMILY_TELETYPE = _gdi_.FONTFAMILY_TELETYPE FONTFAMILY_MAX = _gdi_.FONTFAMILY_MAX FONTFAMILY_UNKNOWN = _gdi_.FONTFAMILY_UNKNOWN FONTSTYLE_NORMAL = _gdi_.FONTSTYLE_NORMAL FONTSTYLE_ITALIC = _gdi_.FONTSTYLE_ITALIC FONTSTYLE_SLANT = _gdi_.FONTSTYLE_SLANT FONTSTYLE_MAX = _gdi_.FONTSTYLE_MAX FONTWEIGHT_NORMAL = _gdi_.FONTWEIGHT_NORMAL FONTWEIGHT_LIGHT = _gdi_.FONTWEIGHT_LIGHT FONTWEIGHT_BOLD = _gdi_.FONTWEIGHT_BOLD FONTWEIGHT_MAX = _gdi_.FONTWEIGHT_MAX FONTSIZE_XX_SMALL = _gdi_.FONTSIZE_XX_SMALL FONTSIZE_X_SMALL = _gdi_.FONTSIZE_X_SMALL FONTSIZE_SMALL = _gdi_.FONTSIZE_SMALL FONTSIZE_MEDIUM = _gdi_.FONTSIZE_MEDIUM FONTSIZE_LARGE = _gdi_.FONTSIZE_LARGE FONTSIZE_X_LARGE = _gdi_.FONTSIZE_X_LARGE FONTSIZE_XX_LARGE = _gdi_.FONTSIZE_XX_LARGE FONTFLAG_DEFAULT = _gdi_.FONTFLAG_DEFAULT FONTFLAG_ITALIC = _gdi_.FONTFLAG_ITALIC FONTFLAG_SLANT = _gdi_.FONTFLAG_SLANT FONTFLAG_LIGHT = _gdi_.FONTFLAG_LIGHT FONTFLAG_BOLD = _gdi_.FONTFLAG_BOLD FONTFLAG_ANTIALIASED = _gdi_.FONTFLAG_ANTIALIASED FONTFLAG_NOT_ANTIALIASED = _gdi_.FONTFLAG_NOT_ANTIALIASED FONTFLAG_UNDERLINED = _gdi_.FONTFLAG_UNDERLINED FONTFLAG_STRIKETHROUGH = _gdi_.FONTFLAG_STRIKETHROUGH FONTFLAG_MASK = _gdi_.FONTFLAG_MASK FONTENCODING_SYSTEM = _gdi_.FONTENCODING_SYSTEM FONTENCODING_DEFAULT = _gdi_.FONTENCODING_DEFAULT FONTENCODING_ISO8859_1 = _gdi_.FONTENCODING_ISO8859_1 FONTENCODING_ISO8859_2 = _gdi_.FONTENCODING_ISO8859_2 FONTENCODING_ISO8859_3 = _gdi_.FONTENCODING_ISO8859_3 FONTENCODING_ISO8859_4 = _gdi_.FONTENCODING_ISO8859_4 FONTENCODING_ISO8859_5 = _gdi_.FONTENCODING_ISO8859_5 FONTENCODING_ISO8859_6 = _gdi_.FONTENCODING_ISO8859_6 FONTENCODING_ISO8859_7 = _gdi_.FONTENCODING_ISO8859_7 FONTENCODING_ISO8859_8 = _gdi_.FONTENCODING_ISO8859_8 FONTENCODING_ISO8859_9 = _gdi_.FONTENCODING_ISO8859_9 FONTENCODING_ISO8859_10 = _gdi_.FONTENCODING_ISO8859_10 FONTENCODING_ISO8859_11 = _gdi_.FONTENCODING_ISO8859_11 FONTENCODING_ISO8859_12 = _gdi_.FONTENCODING_ISO8859_12 FONTENCODING_ISO8859_13 = _gdi_.FONTENCODING_ISO8859_13 FONTENCODING_ISO8859_14 = _gdi_.FONTENCODING_ISO8859_14 FONTENCODING_ISO8859_15 = _gdi_.FONTENCODING_ISO8859_15 FONTENCODING_ISO8859_MAX = _gdi_.FONTENCODING_ISO8859_MAX FONTENCODING_KOI8 = _gdi_.FONTENCODING_KOI8 FONTENCODING_KOI8_U = _gdi_.FONTENCODING_KOI8_U FONTENCODING_ALTERNATIVE = _gdi_.FONTENCODING_ALTERNATIVE FONTENCODING_BULGARIAN = _gdi_.FONTENCODING_BULGARIAN FONTENCODING_CP437 = _gdi_.FONTENCODING_CP437 FONTENCODING_CP850 = _gdi_.FONTENCODING_CP850 FONTENCODING_CP852 = _gdi_.FONTENCODING_CP852 FONTENCODING_CP855 = _gdi_.FONTENCODING_CP855 FONTENCODING_CP866 = _gdi_.FONTENCODING_CP866 FONTENCODING_CP874 = _gdi_.FONTENCODING_CP874 FONTENCODING_CP932 = _gdi_.FONTENCODING_CP932 FONTENCODING_CP936 = _gdi_.FONTENCODING_CP936 FONTENCODING_CP949 = _gdi_.FONTENCODING_CP949 FONTENCODING_CP950 = _gdi_.FONTENCODING_CP950 FONTENCODING_CP1250 = _gdi_.FONTENCODING_CP1250 FONTENCODING_CP1251 = _gdi_.FONTENCODING_CP1251 FONTENCODING_CP1252 = _gdi_.FONTENCODING_CP1252 FONTENCODING_CP1253 = _gdi_.FONTENCODING_CP1253 FONTENCODING_CP1254 = _gdi_.FONTENCODING_CP1254 FONTENCODING_CP1255 = _gdi_.FONTENCODING_CP1255 FONTENCODING_CP1256 = _gdi_.FONTENCODING_CP1256 FONTENCODING_CP1257 = _gdi_.FONTENCODING_CP1257 FONTENCODING_CP12_MAX = _gdi_.FONTENCODING_CP12_MAX FONTENCODING_UTF7 = _gdi_.FONTENCODING_UTF7 FONTENCODING_UTF8 = _gdi_.FONTENCODING_UTF8 FONTENCODING_EUC_JP = _gdi_.FONTENCODING_EUC_JP FONTENCODING_UTF16BE = _gdi_.FONTENCODING_UTF16BE FONTENCODING_UTF16LE = _gdi_.FONTENCODING_UTF16LE FONTENCODING_UTF32BE = _gdi_.FONTENCODING_UTF32BE FONTENCODING_UTF32LE = _gdi_.FONTENCODING_UTF32LE FONTENCODING_MACROMAN = _gdi_.FONTENCODING_MACROMAN FONTENCODING_MACJAPANESE = _gdi_.FONTENCODING_MACJAPANESE FONTENCODING_MACCHINESETRAD = _gdi_.FONTENCODING_MACCHINESETRAD FONTENCODING_MACKOREAN = _gdi_.FONTENCODING_MACKOREAN FONTENCODING_MACARABIC = _gdi_.FONTENCODING_MACARABIC FONTENCODING_MACHEBREW = _gdi_.FONTENCODING_MACHEBREW FONTENCODING_MACGREEK = _gdi_.FONTENCODING_MACGREEK FONTENCODING_MACCYRILLIC = _gdi_.FONTENCODING_MACCYRILLIC FONTENCODING_MACDEVANAGARI = _gdi_.FONTENCODING_MACDEVANAGARI FONTENCODING_MACGURMUKHI = _gdi_.FONTENCODING_MACGURMUKHI FONTENCODING_MACGUJARATI = _gdi_.FONTENCODING_MACGUJARATI FONTENCODING_MACORIYA = _gdi_.FONTENCODING_MACORIYA FONTENCODING_MACBENGALI = _gdi_.FONTENCODING_MACBENGALI FONTENCODING_MACTAMIL = _gdi_.FONTENCODING_MACTAMIL FONTENCODING_MACTELUGU = _gdi_.FONTENCODING_MACTELUGU FONTENCODING_MACKANNADA = _gdi_.FONTENCODING_MACKANNADA FONTENCODING_MACMALAJALAM = _gdi_.FONTENCODING_MACMALAJALAM FONTENCODING_MACSINHALESE = _gdi_.FONTENCODING_MACSINHALESE FONTENCODING_MACBURMESE = _gdi_.FONTENCODING_MACBURMESE FONTENCODING_MACKHMER = _gdi_.FONTENCODING_MACKHMER FONTENCODING_MACTHAI = _gdi_.FONTENCODING_MACTHAI FONTENCODING_MACLAOTIAN = _gdi_.FONTENCODING_MACLAOTIAN FONTENCODING_MACGEORGIAN = _gdi_.FONTENCODING_MACGEORGIAN FONTENCODING_MACARMENIAN = _gdi_.FONTENCODING_MACARMENIAN FONTENCODING_MACCHINESESIMP = _gdi_.FONTENCODING_MACCHINESESIMP FONTENCODING_MACTIBETAN = _gdi_.FONTENCODING_MACTIBETAN FONTENCODING_MACMONGOLIAN = _gdi_.FONTENCODING_MACMONGOLIAN FONTENCODING_MACETHIOPIC = _gdi_.FONTENCODING_MACETHIOPIC FONTENCODING_MACCENTRALEUR = _gdi_.FONTENCODING_MACCENTRALEUR FONTENCODING_MACVIATNAMESE = _gdi_.FONTENCODING_MACVIATNAMESE FONTENCODING_MACARABICEXT = _gdi_.FONTENCODING_MACARABICEXT FONTENCODING_MACSYMBOL = _gdi_.FONTENCODING_MACSYMBOL FONTENCODING_MACDINGBATS = _gdi_.FONTENCODING_MACDINGBATS FONTENCODING_MACTURKISH = _gdi_.FONTENCODING_MACTURKISH FONTENCODING_MACCROATIAN = _gdi_.FONTENCODING_MACCROATIAN FONTENCODING_MACICELANDIC = _gdi_.FONTENCODING_MACICELANDIC FONTENCODING_MACROMANIAN = _gdi_.FONTENCODING_MACROMANIAN FONTENCODING_MACCELTIC = _gdi_.FONTENCODING_MACCELTIC FONTENCODING_MACGAELIC = _gdi_.FONTENCODING_MACGAELIC FONTENCODING_MACKEYBOARD = _gdi_.FONTENCODING_MACKEYBOARD FONTENCODING_ISO2022_JP = _gdi_.FONTENCODING_ISO2022_JP FONTENCODING_MACMIN = _gdi_.FONTENCODING_MACMIN FONTENCODING_MACMAX = _gdi_.FONTENCODING_MACMAX FONTENCODING_MAX = _gdi_.FONTENCODING_MAX FONTENCODING_UTF16 = _gdi_.FONTENCODING_UTF16 FONTENCODING_UTF32 = _gdi_.FONTENCODING_UTF32 FONTENCODING_UNICODE = _gdi_.FONTENCODING_UNICODE FONTENCODING_GB2312 = _gdi_.FONTENCODING_GB2312 FONTENCODING_BIG5 = _gdi_.FONTENCODING_BIG5 FONTENCODING_SHIFT_JIS = _gdi_.FONTENCODING_SHIFT_JIS FONTENCODING_EUC_KR = _gdi_.FONTENCODING_EUC_KR #--------------------------------------------------------------------------- class NativeFontInfo(object): """Proxy of C++ NativeFontInfo class""" 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) -> NativeFontInfo""" _gdi_.NativeFontInfo_swiginit(self,_gdi_.new_NativeFontInfo(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_NativeFontInfo __del__ = lambda self : None; def Init(*args, **kwargs): """Init(self)""" return _gdi_.NativeFontInfo_Init(*args, **kwargs) def InitFromFont(*args, **kwargs): """InitFromFont(self, Font font)""" return _gdi_.NativeFontInfo_InitFromFont(*args, **kwargs) def GetPointSize(*args, **kwargs): """GetPointSize(self) -> int""" return _gdi_.NativeFontInfo_GetPointSize(*args, **kwargs) def GetPixelSize(*args, **kwargs): """GetPixelSize(self) -> Size""" return _gdi_.NativeFontInfo_GetPixelSize(*args, **kwargs) def GetStyle(*args, **kwargs): """GetStyle(self) -> int""" return _gdi_.NativeFontInfo_GetStyle(*args, **kwargs) def GetWeight(*args, **kwargs): """GetWeight(self) -> int""" return _gdi_.NativeFontInfo_GetWeight(*args, **kwargs) def GetUnderlined(*args, **kwargs): """GetUnderlined(self) -> bool""" return _gdi_.NativeFontInfo_GetUnderlined(*args, **kwargs) def GetStrikethrough(*args, **kwargs): """GetStrikethrough(self) -> bool""" return _gdi_.NativeFontInfo_GetStrikethrough(*args, **kwargs) def GetFaceName(*args, **kwargs): """GetFaceName(self) -> String""" return _gdi_.NativeFontInfo_GetFaceName(*args, **kwargs) def GetFamily(*args, **kwargs): """GetFamily(self) -> int""" return _gdi_.NativeFontInfo_GetFamily(*args, **kwargs) def GetEncoding(*args, **kwargs): """GetEncoding(self) -> int""" return _gdi_.NativeFontInfo_GetEncoding(*args, **kwargs) def SetPointSize(*args, **kwargs): """SetPointSize(self, int pointsize)""" return _gdi_.NativeFontInfo_SetPointSize(*args, **kwargs) def SetPixelSize(*args, **kwargs): """SetPixelSize(self, Size pixelSize)""" return _gdi_.NativeFontInfo_SetPixelSize(*args, **kwargs) def SetStyle(*args, **kwargs): """SetStyle(self, int style)""" return _gdi_.NativeFontInfo_SetStyle(*args, **kwargs) def SetWeight(*args, **kwargs): """SetWeight(self, int weight)""" return _gdi_.NativeFontInfo_SetWeight(*args, **kwargs) def SetUnderlined(*args, **kwargs): """SetUnderlined(self, bool underlined)""" return _gdi_.NativeFontInfo_SetUnderlined(*args, **kwargs) def SetStrikethrough(*args, **kwargs): """SetStrikethrough(self, bool strikethrough)""" return _gdi_.NativeFontInfo_SetStrikethrough(*args, **kwargs) def SetFaceName(*args, **kwargs): """SetFaceName(self, String facename) -> bool""" return _gdi_.NativeFontInfo_SetFaceName(*args, **kwargs) def SetFamily(*args, **kwargs): """SetFamily(self, int family)""" return _gdi_.NativeFontInfo_SetFamily(*args, **kwargs) def SetEncoding(*args, **kwargs): """SetEncoding(self, int encoding)""" return _gdi_.NativeFontInfo_SetEncoding(*args, **kwargs) def FromString(*args, **kwargs): """FromString(self, String s) -> bool""" return _gdi_.NativeFontInfo_FromString(*args, **kwargs) def ToString(*args, **kwargs): """ToString(self) -> String""" return _gdi_.NativeFontInfo_ToString(*args, **kwargs) def __str__(*args, **kwargs): """__str__(self) -> String""" return _gdi_.NativeFontInfo___str__(*args, **kwargs) def FromUserString(*args, **kwargs): """FromUserString(self, String s) -> bool""" return _gdi_.NativeFontInfo_FromUserString(*args, **kwargs) def ToUserString(*args, **kwargs): """ToUserString(self) -> String""" return _gdi_.NativeFontInfo_ToUserString(*args, **kwargs) Encoding = property(GetEncoding,SetEncoding,doc="See `GetEncoding` and `SetEncoding`") FaceName = property(GetFaceName,SetFaceName,doc="See `GetFaceName` and `SetFaceName`") Family = property(GetFamily,SetFamily,doc="See `GetFamily` and `SetFamily`") PointSize = property(GetPointSize,SetPointSize,doc="See `GetPointSize` and `SetPointSize`") Style = property(GetStyle,SetStyle,doc="See `GetStyle` and `SetStyle`") Underlined = property(GetUnderlined,SetUnderlined,doc="See `GetUnderlined` and `SetUnderlined`") Weight = property(GetWeight,SetWeight,doc="See `GetWeight` and `SetWeight`") _gdi_.NativeFontInfo_swigregister(NativeFontInfo) class NativeEncodingInfo(object): """Proxy of C++ NativeEncodingInfo class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') __repr__ = _swig_repr facename = property(_gdi_.NativeEncodingInfo_facename_get, _gdi_.NativeEncodingInfo_facename_set) encoding = property(_gdi_.NativeEncodingInfo_encoding_get, _gdi_.NativeEncodingInfo_encoding_set) def __init__(self, *args, **kwargs): """__init__(self) -> NativeEncodingInfo""" _gdi_.NativeEncodingInfo_swiginit(self,_gdi_.new_NativeEncodingInfo(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_NativeEncodingInfo __del__ = lambda self : None; def FromString(*args, **kwargs): """FromString(self, String s) -> bool""" return _gdi_.NativeEncodingInfo_FromString(*args, **kwargs) def ToString(*args, **kwargs): """ToString(self) -> String""" return _gdi_.NativeEncodingInfo_ToString(*args, **kwargs) _gdi_.NativeEncodingInfo_swigregister(NativeEncodingInfo) def GetNativeFontEncoding(*args, **kwargs): """GetNativeFontEncoding(int encoding) -> NativeEncodingInfo""" return _gdi_.GetNativeFontEncoding(*args, **kwargs) def TestFontEncoding(*args, **kwargs): """TestFontEncoding(NativeEncodingInfo info) -> bool""" return _gdi_.TestFontEncoding(*args, **kwargs) #--------------------------------------------------------------------------- class FontMapper(object): """Proxy of C++ FontMapper class""" 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) -> FontMapper""" _gdi_.FontMapper_swiginit(self,_gdi_.new_FontMapper(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_FontMapper __del__ = lambda self : None; def Get(*args, **kwargs): """Get() -> FontMapper""" return _gdi_.FontMapper_Get(*args, **kwargs) Get = staticmethod(Get) def Set(*args, **kwargs): """Set(FontMapper mapper) -> FontMapper""" return _gdi_.FontMapper_Set(*args, **kwargs) Set = staticmethod(Set) def CharsetToEncoding(*args, **kwargs): """CharsetToEncoding(self, String charset, bool interactive=True) -> int""" return _gdi_.FontMapper_CharsetToEncoding(*args, **kwargs) def GetSupportedEncodingsCount(*args, **kwargs): """GetSupportedEncodingsCount() -> size_t""" return _gdi_.FontMapper_GetSupportedEncodingsCount(*args, **kwargs) GetSupportedEncodingsCount = staticmethod(GetSupportedEncodingsCount) def GetEncoding(*args, **kwargs): """GetEncoding(size_t n) -> int""" return _gdi_.FontMapper_GetEncoding(*args, **kwargs) GetEncoding = staticmethod(GetEncoding) def GetEncodingName(*args, **kwargs): """GetEncodingName(int encoding) -> String""" return _gdi_.FontMapper_GetEncodingName(*args, **kwargs) GetEncodingName = staticmethod(GetEncodingName) def GetEncodingDescription(*args, **kwargs): """GetEncodingDescription(int encoding) -> String""" return _gdi_.FontMapper_GetEncodingDescription(*args, **kwargs) GetEncodingDescription = staticmethod(GetEncodingDescription) def GetEncodingFromName(*args, **kwargs): """GetEncodingFromName(String name) -> int""" return _gdi_.FontMapper_GetEncodingFromName(*args, **kwargs) GetEncodingFromName = staticmethod(GetEncodingFromName) def SetConfigPath(*args, **kwargs): """SetConfigPath(self, String prefix)""" return _gdi_.FontMapper_SetConfigPath(*args, **kwargs) def GetDefaultConfigPath(*args, **kwargs): """GetDefaultConfigPath() -> String""" return _gdi_.FontMapper_GetDefaultConfigPath(*args, **kwargs) GetDefaultConfigPath = staticmethod(GetDefaultConfigPath) def GetAltForEncoding(*args, **kwargs): """GetAltForEncoding(self, int encoding, String facename=EmptyString, bool interactive=True) -> PyObject""" return _gdi_.FontMapper_GetAltForEncoding(*args, **kwargs) def IsEncodingAvailable(*args, **kwargs): """IsEncodingAvailable(self, int encoding, String facename=EmptyString) -> bool""" return _gdi_.FontMapper_IsEncodingAvailable(*args, **kwargs) def SetDialogParent(*args, **kwargs): """SetDialogParent(self, Window parent)""" return _gdi_.FontMapper_SetDialogParent(*args, **kwargs) def SetDialogTitle(*args, **kwargs): """SetDialogTitle(self, String title)""" return _gdi_.FontMapper_SetDialogTitle(*args, **kwargs) _gdi_.FontMapper_swigregister(FontMapper) def FontMapper_Get(*args): """FontMapper_Get() -> FontMapper""" return _gdi_.FontMapper_Get(*args) def FontMapper_Set(*args, **kwargs): """FontMapper_Set(FontMapper mapper) -> FontMapper""" return _gdi_.FontMapper_Set(*args, **kwargs) def FontMapper_GetSupportedEncodingsCount(*args): """FontMapper_GetSupportedEncodingsCount() -> size_t""" return _gdi_.FontMapper_GetSupportedEncodingsCount(*args) def FontMapper_GetEncoding(*args, **kwargs): """FontMapper_GetEncoding(size_t n) -> int""" return _gdi_.FontMapper_GetEncoding(*args, **kwargs) def FontMapper_GetEncodingName(*args, **kwargs): """FontMapper_GetEncodingName(int encoding) -> String""" return _gdi_.FontMapper_GetEncodingName(*args, **kwargs) def FontMapper_GetEncodingDescription(*args, **kwargs): """FontMapper_GetEncodingDescription(int encoding) -> String""" return _gdi_.FontMapper_GetEncodingDescription(*args, **kwargs) def FontMapper_GetEncodingFromName(*args, **kwargs): """FontMapper_GetEncodingFromName(String name) -> int""" return _gdi_.FontMapper_GetEncodingFromName(*args, **kwargs) def FontMapper_GetDefaultConfigPath(*args): """FontMapper_GetDefaultConfigPath() -> String""" return _gdi_.FontMapper_GetDefaultConfigPath(*args) #--------------------------------------------------------------------------- class Font(GDIObject): """ A font is an object which determines the appearance of text. Fonts are used for drawing text to a device context, and setting the appearance of a window's text. You can retrieve the current system font settings with `wx.SystemSettings`. """ 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, int pointSize, int family, int style, int weight, bool underline=False, String face=EmptyString, int encoding=FONTENCODING_DEFAULT) -> Font Creates a font object with the specified attributes. :param pointSize: The size of the font in points. :param family: Font family. A generic way of referring to fonts without specifying actual facename. It can be One of the ``wx.FONTFAMILY_xxx`` constants. :param style: One of the ``wx.FONTSTYLE_xxx`` constants. :param weight: Font weight, sometimes also referred to as font boldness. One of the ``wx.FONTWEIGHT_xxx`` constants. :param underline: The value can be ``True`` or ``False`` and indicates whether the font will include an underline. This may not be supported on all platforms. :param face: An optional string specifying the actual typeface to be used. If it is an empty string, a default typeface will be chosen based on the family. :param encoding: An encoding which may be one of the ``wx.FONTENCODING_xxx`` constants. If the specified encoding isn't available, no font is created. :see: `wx.FFont`, `wx.FontFromPixelSize`, `wx.FFontFromPixelSize`, `wx.FontFromNativeInfoString`, `wx.FontFromNativeInfo` """ if kwargs.has_key('faceName'): kwargs['face'] = kwargs['faceName'];del kwargs['faceName'] _gdi_.Font_swiginit(self,_gdi_.new_Font(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Font __del__ = lambda self : None; def IsOk(*args, **kwargs): """ IsOk(self) -> bool Returns ``True`` if this font was successfully created. """ return _gdi_.Font_IsOk(*args, **kwargs) Ok = IsOk def __nonzero__(self): return self.IsOk() def __eq__(*args, **kwargs): """__eq__(self, Font other) -> bool""" return _gdi_.Font___eq__(*args, **kwargs) def __ne__(*args, **kwargs): """__ne__(self, Font other) -> bool""" return _gdi_.Font___ne__(*args, **kwargs) def GetPointSize(*args, **kwargs): """ GetPointSize(self) -> int Gets the point size. """ return _gdi_.Font_GetPointSize(*args, **kwargs) def GetPixelSize(*args, **kwargs): """ GetPixelSize(self) -> Size Returns the size in pixels if the font was constructed with a pixel size. """ return _gdi_.Font_GetPixelSize(*args, **kwargs) def IsUsingSizeInPixels(*args, **kwargs): """ IsUsingSizeInPixels(self) -> bool Returns ``True`` if the font is using a pixelSize. """ return _gdi_.Font_IsUsingSizeInPixels(*args, **kwargs) def GetFamily(*args, **kwargs): """ GetFamily(self) -> int Gets the font family. """ return _gdi_.Font_GetFamily(*args, **kwargs) def GetStyle(*args, **kwargs): """ GetStyle(self) -> int Gets the font style. """ return _gdi_.Font_GetStyle(*args, **kwargs) def GetWeight(*args, **kwargs): """ GetWeight(self) -> int Gets the font weight. """ return _gdi_.Font_GetWeight(*args, **kwargs) def GetUnderlined(*args, **kwargs): """ GetUnderlined(self) -> bool Returns ``True`` if the font is underlined, ``False`` otherwise. """ return _gdi_.Font_GetUnderlined(*args, **kwargs) def GetStrikethrough(*args, **kwargs): """GetStrikethrough(self) -> bool""" return _gdi_.Font_GetStrikethrough(*args, **kwargs) def GetFaceName(*args, **kwargs): """ GetFaceName(self) -> String Returns the typeface name associated with the font, or the empty string if there is no typeface information. """ return _gdi_.Font_GetFaceName(*args, **kwargs) def GetEncoding(*args, **kwargs): """ GetEncoding(self) -> int Get the font's encoding. """ return _gdi_.Font_GetEncoding(*args, **kwargs) def GetNativeFontInfo(*args, **kwargs): """ GetNativeFontInfo(self) -> NativeFontInfo Constructs a `wx.NativeFontInfo` object from this font. """ return _gdi_.Font_GetNativeFontInfo(*args, **kwargs) def IsFixedWidth(*args, **kwargs): """ IsFixedWidth(self) -> bool Returns true if the font is a fixed width (or monospaced) font, false if it is a proportional one or font is invalid. """ return _gdi_.Font_IsFixedWidth(*args, **kwargs) def GetNativeFontInfoDesc(*args, **kwargs): """ GetNativeFontInfoDesc(self) -> String Returns the platform-dependent string completely describing this font or an empty string if the font isn't valid. """ return _gdi_.Font_GetNativeFontInfoDesc(*args, **kwargs) def GetNativeFontInfoUserDesc(*args, **kwargs): """ GetNativeFontInfoUserDesc(self) -> String Returns a human readable version of `GetNativeFontInfoDesc`. """ return _gdi_.Font_GetNativeFontInfoUserDesc(*args, **kwargs) def SetPointSize(*args, **kwargs): """ SetPointSize(self, int pointSize) Sets the point size. """ return _gdi_.Font_SetPointSize(*args, **kwargs) def SetPixelSize(*args, **kwargs): """ SetPixelSize(self, Size pixelSize) Sets the size in pixels rather than points. If there is platform API support for this then it is used, otherwise a font with the closest size is found using a binary search. """ return _gdi_.Font_SetPixelSize(*args, **kwargs) def SetFamily(*args, **kwargs): """ SetFamily(self, int family) Sets the font family. """ return _gdi_.Font_SetFamily(*args, **kwargs) def SetStyle(*args, **kwargs): """ SetStyle(self, int style) Sets the font style. """ return _gdi_.Font_SetStyle(*args, **kwargs) def SetWeight(*args, **kwargs): """ SetWeight(self, int weight) Sets the font weight. """ return _gdi_.Font_SetWeight(*args, **kwargs) def SetFaceName(*args, **kwargs): """ SetFaceName(self, String faceName) -> bool Sets the facename for the font. The facename, which should be a valid font installed on the end-user's system. To avoid portability problems, don't rely on a specific face, but specify the font family instead or as well. A suitable font will be found on the end-user's system. If both the family and the facename are specified, wxWidgets will first search for the specific face, and then for a font belonging to the same family. """ return _gdi_.Font_SetFaceName(*args, **kwargs) def SetUnderlined(*args, **kwargs): """ SetUnderlined(self, bool underlined) Sets underlining. """ return _gdi_.Font_SetUnderlined(*args, **kwargs) def SetStrikethrough(*args, **kwargs): """SetStrikethrough(self, bool strikethrough)""" return _gdi_.Font_SetStrikethrough(*args, **kwargs) def SetEncoding(*args, **kwargs): """ SetEncoding(self, int encoding) Set the font encoding. """ return _gdi_.Font_SetEncoding(*args, **kwargs) def SetNativeFontInfo(*args, **kwargs): """ SetNativeFontInfo(self, NativeFontInfo info) Set the font's attributes from a `wx.NativeFontInfo` object. """ return _gdi_.Font_SetNativeFontInfo(*args, **kwargs) def SetNativeFontInfoFromString(*args, **kwargs): """ SetNativeFontInfoFromString(self, String info) -> bool Set the font's attributes from string representation of a `wx.NativeFontInfo` object. """ return _gdi_.Font_SetNativeFontInfoFromString(*args, **kwargs) def SetNativeFontInfoUserDesc(*args, **kwargs): """ SetNativeFontInfoUserDesc(self, String info) -> bool Set the font's attributes from a string formerly returned from `GetNativeFontInfoDesc`. """ return _gdi_.Font_SetNativeFontInfoUserDesc(*args, **kwargs) def SetSymbolicSize(*args, **kwargs): """SetSymbolicSize(self, int size)""" return _gdi_.Font_SetSymbolicSize(*args, **kwargs) def SetSymbolicSizeRelativeTo(*args, **kwargs): """SetSymbolicSizeRelativeTo(self, int size, int base)""" return _gdi_.Font_SetSymbolicSizeRelativeTo(*args, **kwargs) def AdjustToSymbolicSize(*args, **kwargs): """AdjustToSymbolicSize(int size, int base) -> int""" return _gdi_.Font_AdjustToSymbolicSize(*args, **kwargs) AdjustToSymbolicSize = staticmethod(AdjustToSymbolicSize) def GetFamilyString(*args, **kwargs): """ GetFamilyString(self) -> String Returns a string representation of the font family. """ return _gdi_.Font_GetFamilyString(*args, **kwargs) def GetStyleString(*args, **kwargs): """ GetStyleString(self) -> String Returns a string representation of the font style. """ return _gdi_.Font_GetStyleString(*args, **kwargs) def GetWeightString(*args, **kwargs): """ GetWeightString(self) -> String Return a string representation of the font weight. """ return _gdi_.Font_GetWeightString(*args, **kwargs) def SetNoAntiAliasing(*args, **kwargs): """SetNoAntiAliasing(self, bool no=True)""" return _gdi_.Font_SetNoAntiAliasing(*args, **kwargs) def GetNoAntiAliasing(*args, **kwargs): """GetNoAntiAliasing(self) -> bool""" return _gdi_.Font_GetNoAntiAliasing(*args, **kwargs) SetNoAntiAliasing = wx.deprecated(SetNoAntiAliasing) GetNoAntiAliasing = wx.deprecated(GetNoAntiAliasing) def MakeBold(*args, **kwargs): """MakeBold(self) -> Font""" return _gdi_.Font_MakeBold(*args, **kwargs) def MakeItalic(*args, **kwargs): """MakeItalic(self) -> Font""" return _gdi_.Font_MakeItalic(*args, **kwargs) def MakeUnderlined(*args, **kwargs): """MakeUnderlined(self) -> Font""" return _gdi_.Font_MakeUnderlined(*args, **kwargs) def MakeStrikethrough(*args, **kwargs): """MakeStrikethrough(self) -> Font""" return _gdi_.Font_MakeStrikethrough(*args, **kwargs) def MakeLarger(*args, **kwargs): """MakeLarger(self) -> Font""" return _gdi_.Font_MakeLarger(*args, **kwargs) def MakeSmaller(*args, **kwargs): """MakeSmaller(self) -> Font""" return _gdi_.Font_MakeSmaller(*args, **kwargs) def Scale(*args, **kwargs): """Scale(self, float x) -> Font""" return _gdi_.Font_Scale(*args, **kwargs) def Bold(*args, **kwargs): """Bold(self) -> Font""" return _gdi_.Font_Bold(*args, **kwargs) def Italic(*args, **kwargs): """Italic(self) -> Font""" return _gdi_.Font_Italic(*args, **kwargs) def Underlined(*args, **kwargs): """Underlined(self) -> Font""" return _gdi_.Font_Underlined(*args, **kwargs) def Strikethrough(*args, **kwargs): """Strikethrough(self) -> Font""" return _gdi_.Font_Strikethrough(*args, **kwargs) def Larger(*args, **kwargs): """Larger(self) -> Font""" return _gdi_.Font_Larger(*args, **kwargs) def Smaller(*args, **kwargs): """Smaller(self) -> Font""" return _gdi_.Font_Smaller(*args, **kwargs) def Scaled(*args, **kwargs): """Scaled(self, float x) -> Font""" return _gdi_.Font_Scaled(*args, **kwargs) def GetHFONT(*args, **kwargs): """GetHFONT(self) -> void""" return _gdi_.Font_GetHFONT(*args, **kwargs) def GetDefaultEncoding(*args, **kwargs): """ GetDefaultEncoding() -> int Returns the encoding used for all fonts created with an encoding of ``wx.FONTENCODING_DEFAULT``. """ return _gdi_.Font_GetDefaultEncoding(*args, **kwargs) GetDefaultEncoding = staticmethod(GetDefaultEncoding) def SetDefaultEncoding(*args, **kwargs): """ SetDefaultEncoding(int encoding) Sets the default font encoding. """ return _gdi_.Font_SetDefaultEncoding(*args, **kwargs) SetDefaultEncoding = staticmethod(SetDefaultEncoding) Encoding = property(GetEncoding,SetEncoding,doc="See `GetEncoding` and `SetEncoding`") FaceName = property(GetFaceName,SetFaceName,doc="See `GetFaceName` and `SetFaceName`") Family = property(GetFamily,SetFamily,doc="See `GetFamily` and `SetFamily`") FamilyString = property(GetFamilyString,doc="See `GetFamilyString`") NativeFontInfo = property(GetNativeFontInfo,SetNativeFontInfo,doc="See `GetNativeFontInfo` and `SetNativeFontInfo`") NativeFontInfoDesc = property(GetNativeFontInfoDesc,doc="See `GetNativeFontInfoDesc`") NativeFontInfoUserDesc = property(GetNativeFontInfoUserDesc,SetNativeFontInfoUserDesc,doc="See `GetNativeFontInfoUserDesc` and `SetNativeFontInfoUserDesc`") NoAntiAliasing = property(GetNoAntiAliasing,SetNoAntiAliasing,doc="See `GetNoAntiAliasing` and `SetNoAntiAliasing`") PixelSize = property(GetPixelSize,SetPixelSize,doc="See `GetPixelSize` and `SetPixelSize`") PointSize = property(GetPointSize,SetPointSize,doc="See `GetPointSize` and `SetPointSize`") Style = property(GetStyle,SetStyle,doc="See `GetStyle` and `SetStyle`") StyleString = property(GetStyleString,doc="See `GetStyleString`") Weight = property(GetWeight,SetWeight,doc="See `GetWeight` and `SetWeight`") WeightString = property(GetWeightString,doc="See `GetWeightString`") _gdi_.Font_swigregister(Font) def FontFromNativeInfo(*args, **kwargs): """ FontFromNativeInfo(NativeFontInfo info) -> Font Construct a `wx.Font` from a `wx.NativeFontInfo` object. """ if kwargs.has_key('faceName'): kwargs['face'] = kwargs['faceName'];del kwargs['faceName'] val = _gdi_.new_FontFromNativeInfo(*args, **kwargs) return val def FontFromNativeInfoString(*args, **kwargs): """ FontFromNativeInfoString(String info) -> Font Construct a `wx.Font` from the string representation of a `wx.NativeFontInfo` object. """ if kwargs.has_key('faceName'): kwargs['face'] = kwargs['faceName'];del kwargs['faceName'] val = _gdi_.new_FontFromNativeInfoString(*args, **kwargs) return val def FFont(*args, **kwargs): """ FFont(int pointSize, int family, int flags=FONTFLAG_DEFAULT, String face=EmptyString, int encoding=FONTENCODING_DEFAULT) -> Font A bit of a simpler way to create a `wx.Font` using flags instead of individual attribute settings. The value of flags can be a combination of the following: ============================ == wx.FONTFLAG_DEFAULT wx.FONTFLAG_ITALIC wx.FONTFLAG_SLANT wx.FONTFLAG_LIGHT wx.FONTFLAG_BOLD wx.FONTFLAG_ANTIALIASED wx.FONTFLAG_NOT_ANTIALIASED wx.FONTFLAG_UNDERLINED wx.FONTFLAG_STRIKETHROUGH ============================ == :see: `wx.Font.__init__` """ if kwargs.has_key('faceName'): kwargs['face'] = kwargs['faceName'];del kwargs['faceName'] val = _gdi_.new_FFont(*args, **kwargs) return val def FontFromPixelSize(*args, **kwargs): """ FontFromPixelSize(Size pixelSize, int family, int style, int weight, bool underlined=False, String face=wxEmptyString, int encoding=FONTENCODING_DEFAULT) -> Font Creates a font using a size in pixels rather than points. If there is platform API support for this then it is used, otherwise a font with the closest size is found using a binary search. :see: `wx.Font.__init__` """ if kwargs.has_key('faceName'): kwargs['face'] = kwargs['faceName'];del kwargs['faceName'] val = _gdi_.new_FontFromPixelSize(*args, **kwargs) return val def FFontFromPixelSize(*args, **kwargs): """ FFontFromPixelSize(Size pixelSize, int family, int flags=FONTFLAG_DEFAULT, String face=wxEmptyString, int encoding=FONTENCODING_DEFAULT) -> Font Creates a font using a size in pixels rather than points. If there is platform API support for this then it is used, otherwise a font with the closest size is found using a binary search. :see: `wx.Font.__init__`, `wx.FFont` """ if kwargs.has_key('faceName'): kwargs['face'] = kwargs['faceName'];del kwargs['faceName'] val = _gdi_.new_FFontFromPixelSize(*args, **kwargs) return val def Font_AdjustToSymbolicSize(*args, **kwargs): """Font_AdjustToSymbolicSize(int size, int base) -> int""" return _gdi_.Font_AdjustToSymbolicSize(*args, **kwargs) def Font_GetDefaultEncoding(*args): """ Font_GetDefaultEncoding() -> int Returns the encoding used for all fonts created with an encoding of ``wx.FONTENCODING_DEFAULT``. """ return _gdi_.Font_GetDefaultEncoding(*args) def Font_SetDefaultEncoding(*args, **kwargs): """ Font_SetDefaultEncoding(int encoding) Sets the default font encoding. """ return _gdi_.Font_SetDefaultEncoding(*args, **kwargs) Font2 = wx.deprecated(FFont, "Use `wx.FFont` instead.") #--------------------------------------------------------------------------- class FontEnumerator(object): """Proxy of C++ FontEnumerator class""" 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) -> FontEnumerator""" _gdi_.FontEnumerator_swiginit(self,_gdi_.new_FontEnumerator(*args, **kwargs)) FontEnumerator._setCallbackInfo(self, self, FontEnumerator) __swig_destroy__ = _gdi_.delete_FontEnumerator __del__ = lambda self : None; def _setCallbackInfo(*args, **kwargs): """_setCallbackInfo(self, PyObject self, PyObject _class, int incref=0)""" return _gdi_.FontEnumerator__setCallbackInfo(*args, **kwargs) def EnumerateFacenames(*args, **kwargs): """EnumerateFacenames(self, int encoding=FONTENCODING_SYSTEM, bool fixedWidthOnly=False) -> bool""" return _gdi_.FontEnumerator_EnumerateFacenames(*args, **kwargs) def EnumerateEncodings(*args, **kwargs): """EnumerateEncodings(self, String facename=EmptyString) -> bool""" return _gdi_.FontEnumerator_EnumerateEncodings(*args, **kwargs) def GetEncodings(*args, **kwargs): """GetEncodings() -> PyObject""" return _gdi_.FontEnumerator_GetEncodings(*args, **kwargs) GetEncodings = staticmethod(GetEncodings) def GetFacenames(*args, **kwargs): """GetFacenames() -> PyObject""" return _gdi_.FontEnumerator_GetFacenames(*args, **kwargs) GetFacenames = staticmethod(GetFacenames) def IsValidFacename(*args, **kwargs): """ IsValidFacename(String str) -> bool Convenience function that returns true if the given face name exist in the user's system """ return _gdi_.FontEnumerator_IsValidFacename(*args, **kwargs) IsValidFacename = staticmethod(IsValidFacename) _gdi_.FontEnumerator_swigregister(FontEnumerator) def FontEnumerator_GetEncodings(*args): """FontEnumerator_GetEncodings() -> PyObject""" return _gdi_.FontEnumerator_GetEncodings(*args) def FontEnumerator_GetFacenames(*args): """FontEnumerator_GetFacenames() -> PyObject""" return _gdi_.FontEnumerator_GetFacenames(*args) def FontEnumerator_IsValidFacename(*args, **kwargs): """ FontEnumerator_IsValidFacename(String str) -> bool Convenience function that returns true if the given face name exist in the user's system """ return _gdi_.FontEnumerator_IsValidFacename(*args, **kwargs) #--------------------------------------------------------------------------- LANGUAGE_DEFAULT = _gdi_.LANGUAGE_DEFAULT LANGUAGE_UNKNOWN = _gdi_.LANGUAGE_UNKNOWN LANGUAGE_ABKHAZIAN = _gdi_.LANGUAGE_ABKHAZIAN LANGUAGE_AFAR = _gdi_.LANGUAGE_AFAR LANGUAGE_AFRIKAANS = _gdi_.LANGUAGE_AFRIKAANS LANGUAGE_ALBANIAN = _gdi_.LANGUAGE_ALBANIAN LANGUAGE_AMHARIC = _gdi_.LANGUAGE_AMHARIC LANGUAGE_ARABIC = _gdi_.LANGUAGE_ARABIC LANGUAGE_ARABIC_ALGERIA = _gdi_.LANGUAGE_ARABIC_ALGERIA LANGUAGE_ARABIC_BAHRAIN = _gdi_.LANGUAGE_ARABIC_BAHRAIN LANGUAGE_ARABIC_EGYPT = _gdi_.LANGUAGE_ARABIC_EGYPT LANGUAGE_ARABIC_IRAQ = _gdi_.LANGUAGE_ARABIC_IRAQ LANGUAGE_ARABIC_JORDAN = _gdi_.LANGUAGE_ARABIC_JORDAN LANGUAGE_ARABIC_KUWAIT = _gdi_.LANGUAGE_ARABIC_KUWAIT LANGUAGE_ARABIC_LEBANON = _gdi_.LANGUAGE_ARABIC_LEBANON LANGUAGE_ARABIC_LIBYA = _gdi_.LANGUAGE_ARABIC_LIBYA LANGUAGE_ARABIC_MOROCCO = _gdi_.LANGUAGE_ARABIC_MOROCCO LANGUAGE_ARABIC_OMAN = _gdi_.LANGUAGE_ARABIC_OMAN LANGUAGE_ARABIC_QATAR = _gdi_.LANGUAGE_ARABIC_QATAR LANGUAGE_ARABIC_SAUDI_ARABIA = _gdi_.LANGUAGE_ARABIC_SAUDI_ARABIA LANGUAGE_ARABIC_SUDAN = _gdi_.LANGUAGE_ARABIC_SUDAN LANGUAGE_ARABIC_SYRIA = _gdi_.LANGUAGE_ARABIC_SYRIA LANGUAGE_ARABIC_TUNISIA = _gdi_.LANGUAGE_ARABIC_TUNISIA LANGUAGE_ARABIC_UAE = _gdi_.LANGUAGE_ARABIC_UAE LANGUAGE_ARABIC_YEMEN = _gdi_.LANGUAGE_ARABIC_YEMEN LANGUAGE_ARMENIAN = _gdi_.LANGUAGE_ARMENIAN LANGUAGE_ASSAMESE = _gdi_.LANGUAGE_ASSAMESE LANGUAGE_ASTURIAN = _gdi_.LANGUAGE_ASTURIAN LANGUAGE_AYMARA = _gdi_.LANGUAGE_AYMARA LANGUAGE_AZERI = _gdi_.LANGUAGE_AZERI LANGUAGE_AZERI_CYRILLIC = _gdi_.LANGUAGE_AZERI_CYRILLIC LANGUAGE_AZERI_LATIN = _gdi_.LANGUAGE_AZERI_LATIN LANGUAGE_BASHKIR = _gdi_.LANGUAGE_BASHKIR LANGUAGE_BASQUE = _gdi_.LANGUAGE_BASQUE LANGUAGE_BELARUSIAN = _gdi_.LANGUAGE_BELARUSIAN LANGUAGE_BENGALI = _gdi_.LANGUAGE_BENGALI LANGUAGE_BHUTANI = _gdi_.LANGUAGE_BHUTANI LANGUAGE_BIHARI = _gdi_.LANGUAGE_BIHARI LANGUAGE_BISLAMA = _gdi_.LANGUAGE_BISLAMA LANGUAGE_BRETON = _gdi_.LANGUAGE_BRETON LANGUAGE_BULGARIAN = _gdi_.LANGUAGE_BULGARIAN LANGUAGE_BURMESE = _gdi_.LANGUAGE_BURMESE LANGUAGE_CAMBODIAN = _gdi_.LANGUAGE_CAMBODIAN LANGUAGE_CATALAN = _gdi_.LANGUAGE_CATALAN LANGUAGE_CHINESE = _gdi_.LANGUAGE_CHINESE LANGUAGE_CHINESE_SIMPLIFIED = _gdi_.LANGUAGE_CHINESE_SIMPLIFIED LANGUAGE_CHINESE_TRADITIONAL = _gdi_.LANGUAGE_CHINESE_TRADITIONAL LANGUAGE_CHINESE_HONGKONG = _gdi_.LANGUAGE_CHINESE_HONGKONG LANGUAGE_CHINESE_MACAU = _gdi_.LANGUAGE_CHINESE_MACAU LANGUAGE_CHINESE_SINGAPORE = _gdi_.LANGUAGE_CHINESE_SINGAPORE LANGUAGE_CHINESE_TAIWAN = _gdi_.LANGUAGE_CHINESE_TAIWAN LANGUAGE_CORSICAN = _gdi_.LANGUAGE_CORSICAN LANGUAGE_CROATIAN = _gdi_.LANGUAGE_CROATIAN LANGUAGE_CZECH = _gdi_.LANGUAGE_CZECH LANGUAGE_DANISH = _gdi_.LANGUAGE_DANISH LANGUAGE_DUTCH = _gdi_.LANGUAGE_DUTCH LANGUAGE_DUTCH_BELGIAN = _gdi_.LANGUAGE_DUTCH_BELGIAN LANGUAGE_ENGLISH = _gdi_.LANGUAGE_ENGLISH LANGUAGE_ENGLISH_UK = _gdi_.LANGUAGE_ENGLISH_UK LANGUAGE_ENGLISH_US = _gdi_.LANGUAGE_ENGLISH_US LANGUAGE_ENGLISH_AUSTRALIA = _gdi_.LANGUAGE_ENGLISH_AUSTRALIA LANGUAGE_ENGLISH_BELIZE = _gdi_.LANGUAGE_ENGLISH_BELIZE LANGUAGE_ENGLISH_BOTSWANA = _gdi_.LANGUAGE_ENGLISH_BOTSWANA LANGUAGE_ENGLISH_CANADA = _gdi_.LANGUAGE_ENGLISH_CANADA LANGUAGE_ENGLISH_CARIBBEAN = _gdi_.LANGUAGE_ENGLISH_CARIBBEAN LANGUAGE_ENGLISH_DENMARK = _gdi_.LANGUAGE_ENGLISH_DENMARK LANGUAGE_ENGLISH_EIRE = _gdi_.LANGUAGE_ENGLISH_EIRE LANGUAGE_ENGLISH_JAMAICA = _gdi_.LANGUAGE_ENGLISH_JAMAICA LANGUAGE_ENGLISH_NEW_ZEALAND = _gdi_.LANGUAGE_ENGLISH_NEW_ZEALAND LANGUAGE_ENGLISH_PHILIPPINES = _gdi_.LANGUAGE_ENGLISH_PHILIPPINES LANGUAGE_ENGLISH_SOUTH_AFRICA = _gdi_.LANGUAGE_ENGLISH_SOUTH_AFRICA LANGUAGE_ENGLISH_TRINIDAD = _gdi_.LANGUAGE_ENGLISH_TRINIDAD LANGUAGE_ENGLISH_ZIMBABWE = _gdi_.LANGUAGE_ENGLISH_ZIMBABWE LANGUAGE_ESPERANTO = _gdi_.LANGUAGE_ESPERANTO LANGUAGE_ESTONIAN = _gdi_.LANGUAGE_ESTONIAN LANGUAGE_FAEROESE = _gdi_.LANGUAGE_FAEROESE LANGUAGE_FARSI = _gdi_.LANGUAGE_FARSI LANGUAGE_FIJI = _gdi_.LANGUAGE_FIJI LANGUAGE_FINNISH = _gdi_.LANGUAGE_FINNISH LANGUAGE_FRENCH = _gdi_.LANGUAGE_FRENCH LANGUAGE_FRENCH_BELGIAN = _gdi_.LANGUAGE_FRENCH_BELGIAN LANGUAGE_FRENCH_CANADIAN = _gdi_.LANGUAGE_FRENCH_CANADIAN LANGUAGE_FRENCH_LUXEMBOURG = _gdi_.LANGUAGE_FRENCH_LUXEMBOURG LANGUAGE_FRENCH_MONACO = _gdi_.LANGUAGE_FRENCH_MONACO LANGUAGE_FRENCH_SWISS = _gdi_.LANGUAGE_FRENCH_SWISS LANGUAGE_FRISIAN = _gdi_.LANGUAGE_FRISIAN LANGUAGE_GALICIAN = _gdi_.LANGUAGE_GALICIAN LANGUAGE_GEORGIAN = _gdi_.LANGUAGE_GEORGIAN LANGUAGE_GERMAN = _gdi_.LANGUAGE_GERMAN LANGUAGE_GERMAN_AUSTRIAN = _gdi_.LANGUAGE_GERMAN_AUSTRIAN LANGUAGE_GERMAN_BELGIUM = _gdi_.LANGUAGE_GERMAN_BELGIUM LANGUAGE_GERMAN_LIECHTENSTEIN = _gdi_.LANGUAGE_GERMAN_LIECHTENSTEIN LANGUAGE_GERMAN_LUXEMBOURG = _gdi_.LANGUAGE_GERMAN_LUXEMBOURG LANGUAGE_GERMAN_SWISS = _gdi_.LANGUAGE_GERMAN_SWISS LANGUAGE_GREEK = _gdi_.LANGUAGE_GREEK LANGUAGE_GREENLANDIC = _gdi_.LANGUAGE_GREENLANDIC LANGUAGE_GUARANI = _gdi_.LANGUAGE_GUARANI LANGUAGE_GUJARATI = _gdi_.LANGUAGE_GUJARATI LANGUAGE_HAUSA = _gdi_.LANGUAGE_HAUSA LANGUAGE_HEBREW = _gdi_.LANGUAGE_HEBREW LANGUAGE_HINDI = _gdi_.LANGUAGE_HINDI LANGUAGE_HUNGARIAN = _gdi_.LANGUAGE_HUNGARIAN LANGUAGE_ICELANDIC = _gdi_.LANGUAGE_ICELANDIC LANGUAGE_INDONESIAN = _gdi_.LANGUAGE_INDONESIAN LANGUAGE_INTERLINGUA = _gdi_.LANGUAGE_INTERLINGUA LANGUAGE_INTERLINGUE = _gdi_.LANGUAGE_INTERLINGUE LANGUAGE_INUKTITUT = _gdi_.LANGUAGE_INUKTITUT LANGUAGE_INUPIAK = _gdi_.LANGUAGE_INUPIAK LANGUAGE_IRISH = _gdi_.LANGUAGE_IRISH LANGUAGE_ITALIAN = _gdi_.LANGUAGE_ITALIAN LANGUAGE_ITALIAN_SWISS = _gdi_.LANGUAGE_ITALIAN_SWISS LANGUAGE_JAPANESE = _gdi_.LANGUAGE_JAPANESE LANGUAGE_JAVANESE = _gdi_.LANGUAGE_JAVANESE LANGUAGE_KANNADA = _gdi_.LANGUAGE_KANNADA LANGUAGE_KASHMIRI = _gdi_.LANGUAGE_KASHMIRI LANGUAGE_KASHMIRI_INDIA = _gdi_.LANGUAGE_KASHMIRI_INDIA LANGUAGE_KAZAKH = _gdi_.LANGUAGE_KAZAKH LANGUAGE_KERNEWEK = _gdi_.LANGUAGE_KERNEWEK LANGUAGE_KINYARWANDA = _gdi_.LANGUAGE_KINYARWANDA LANGUAGE_KIRGHIZ = _gdi_.LANGUAGE_KIRGHIZ LANGUAGE_KIRUNDI = _gdi_.LANGUAGE_KIRUNDI LANGUAGE_KONKANI = _gdi_.LANGUAGE_KONKANI LANGUAGE_KOREAN = _gdi_.LANGUAGE_KOREAN LANGUAGE_KURDISH = _gdi_.LANGUAGE_KURDISH LANGUAGE_LAOTHIAN = _gdi_.LANGUAGE_LAOTHIAN LANGUAGE_LATIN = _gdi_.LANGUAGE_LATIN LANGUAGE_LATVIAN = _gdi_.LANGUAGE_LATVIAN LANGUAGE_LINGALA = _gdi_.LANGUAGE_LINGALA LANGUAGE_LITHUANIAN = _gdi_.LANGUAGE_LITHUANIAN LANGUAGE_MACEDONIAN = _gdi_.LANGUAGE_MACEDONIAN LANGUAGE_MALAGASY = _gdi_.LANGUAGE_MALAGASY LANGUAGE_MALAY = _gdi_.LANGUAGE_MALAY LANGUAGE_MALAYALAM = _gdi_.LANGUAGE_MALAYALAM LANGUAGE_MALAY_BRUNEI_DARUSSALAM = _gdi_.LANGUAGE_MALAY_BRUNEI_DARUSSALAM LANGUAGE_MALAY_MALAYSIA = _gdi_.LANGUAGE_MALAY_MALAYSIA LANGUAGE_MALTESE = _gdi_.LANGUAGE_MALTESE LANGUAGE_MANIPURI = _gdi_.LANGUAGE_MANIPURI LANGUAGE_MAORI = _gdi_.LANGUAGE_MAORI LANGUAGE_MARATHI = _gdi_.LANGUAGE_MARATHI LANGUAGE_MOLDAVIAN = _gdi_.LANGUAGE_MOLDAVIAN LANGUAGE_MONGOLIAN = _gdi_.LANGUAGE_MONGOLIAN LANGUAGE_NAURU = _gdi_.LANGUAGE_NAURU LANGUAGE_NEPALI = _gdi_.LANGUAGE_NEPALI LANGUAGE_NEPALI_INDIA = _gdi_.LANGUAGE_NEPALI_INDIA LANGUAGE_NORWEGIAN_BOKMAL = _gdi_.LANGUAGE_NORWEGIAN_BOKMAL LANGUAGE_NORWEGIAN_NYNORSK = _gdi_.LANGUAGE_NORWEGIAN_NYNORSK LANGUAGE_OCCITAN = _gdi_.LANGUAGE_OCCITAN LANGUAGE_ORIYA = _gdi_.LANGUAGE_ORIYA LANGUAGE_OROMO = _gdi_.LANGUAGE_OROMO LANGUAGE_PASHTO = _gdi_.LANGUAGE_PASHTO LANGUAGE_POLISH = _gdi_.LANGUAGE_POLISH LANGUAGE_PORTUGUESE = _gdi_.LANGUAGE_PORTUGUESE LANGUAGE_PORTUGUESE_BRAZILIAN = _gdi_.LANGUAGE_PORTUGUESE_BRAZILIAN LANGUAGE_PUNJABI = _gdi_.LANGUAGE_PUNJABI LANGUAGE_QUECHUA = _gdi_.LANGUAGE_QUECHUA LANGUAGE_RHAETO_ROMANCE = _gdi_.LANGUAGE_RHAETO_ROMANCE LANGUAGE_ROMANIAN = _gdi_.LANGUAGE_ROMANIAN LANGUAGE_RUSSIAN = _gdi_.LANGUAGE_RUSSIAN LANGUAGE_RUSSIAN_UKRAINE = _gdi_.LANGUAGE_RUSSIAN_UKRAINE LANGUAGE_SAMI = _gdi_.LANGUAGE_SAMI LANGUAGE_SAMOAN = _gdi_.LANGUAGE_SAMOAN LANGUAGE_SANGHO = _gdi_.LANGUAGE_SANGHO LANGUAGE_SANSKRIT = _gdi_.LANGUAGE_SANSKRIT LANGUAGE_SCOTS_GAELIC = _gdi_.LANGUAGE_SCOTS_GAELIC LANGUAGE_SERBIAN = _gdi_.LANGUAGE_SERBIAN LANGUAGE_SERBIAN_CYRILLIC = _gdi_.LANGUAGE_SERBIAN_CYRILLIC LANGUAGE_SERBIAN_LATIN = _gdi_.LANGUAGE_SERBIAN_LATIN LANGUAGE_SERBO_CROATIAN = _gdi_.LANGUAGE_SERBO_CROATIAN LANGUAGE_SESOTHO = _gdi_.LANGUAGE_SESOTHO LANGUAGE_SETSWANA = _gdi_.LANGUAGE_SETSWANA LANGUAGE_SHONA = _gdi_.LANGUAGE_SHONA LANGUAGE_SINDHI = _gdi_.LANGUAGE_SINDHI LANGUAGE_SINHALESE = _gdi_.LANGUAGE_SINHALESE LANGUAGE_SISWATI = _gdi_.LANGUAGE_SISWATI LANGUAGE_SLOVAK = _gdi_.LANGUAGE_SLOVAK LANGUAGE_SLOVENIAN = _gdi_.LANGUAGE_SLOVENIAN LANGUAGE_SOMALI = _gdi_.LANGUAGE_SOMALI LANGUAGE_SPANISH = _gdi_.LANGUAGE_SPANISH LANGUAGE_SPANISH_ARGENTINA = _gdi_.LANGUAGE_SPANISH_ARGENTINA LANGUAGE_SPANISH_BOLIVIA = _gdi_.LANGUAGE_SPANISH_BOLIVIA LANGUAGE_SPANISH_CHILE = _gdi_.LANGUAGE_SPANISH_CHILE LANGUAGE_SPANISH_COLOMBIA = _gdi_.LANGUAGE_SPANISH_COLOMBIA LANGUAGE_SPANISH_COSTA_RICA = _gdi_.LANGUAGE_SPANISH_COSTA_RICA LANGUAGE_SPANISH_DOMINICAN_REPUBLIC = _gdi_.LANGUAGE_SPANISH_DOMINICAN_REPUBLIC LANGUAGE_SPANISH_ECUADOR = _gdi_.LANGUAGE_SPANISH_ECUADOR LANGUAGE_SPANISH_EL_SALVADOR = _gdi_.LANGUAGE_SPANISH_EL_SALVADOR LANGUAGE_SPANISH_GUATEMALA = _gdi_.LANGUAGE_SPANISH_GUATEMALA LANGUAGE_SPANISH_HONDURAS = _gdi_.LANGUAGE_SPANISH_HONDURAS LANGUAGE_SPANISH_MEXICAN = _gdi_.LANGUAGE_SPANISH_MEXICAN LANGUAGE_SPANISH_MODERN = _gdi_.LANGUAGE_SPANISH_MODERN LANGUAGE_SPANISH_NICARAGUA = _gdi_.LANGUAGE_SPANISH_NICARAGUA LANGUAGE_SPANISH_PANAMA = _gdi_.LANGUAGE_SPANISH_PANAMA LANGUAGE_SPANISH_PARAGUAY = _gdi_.LANGUAGE_SPANISH_PARAGUAY LANGUAGE_SPANISH_PERU = _gdi_.LANGUAGE_SPANISH_PERU LANGUAGE_SPANISH_PUERTO_RICO = _gdi_.LANGUAGE_SPANISH_PUERTO_RICO LANGUAGE_SPANISH_URUGUAY = _gdi_.LANGUAGE_SPANISH_URUGUAY LANGUAGE_SPANISH_US = _gdi_.LANGUAGE_SPANISH_US LANGUAGE_SPANISH_VENEZUELA = _gdi_.LANGUAGE_SPANISH_VENEZUELA LANGUAGE_SUNDANESE = _gdi_.LANGUAGE_SUNDANESE LANGUAGE_SWAHILI = _gdi_.LANGUAGE_SWAHILI LANGUAGE_SWEDISH = _gdi_.LANGUAGE_SWEDISH LANGUAGE_SWEDISH_FINLAND = _gdi_.LANGUAGE_SWEDISH_FINLAND LANGUAGE_TAGALOG = _gdi_.LANGUAGE_TAGALOG LANGUAGE_TAJIK = _gdi_.LANGUAGE_TAJIK LANGUAGE_TAMIL = _gdi_.LANGUAGE_TAMIL LANGUAGE_TATAR = _gdi_.LANGUAGE_TATAR LANGUAGE_TELUGU = _gdi_.LANGUAGE_TELUGU LANGUAGE_THAI = _gdi_.LANGUAGE_THAI LANGUAGE_TIBETAN = _gdi_.LANGUAGE_TIBETAN LANGUAGE_TIGRINYA = _gdi_.LANGUAGE_TIGRINYA LANGUAGE_TONGA = _gdi_.LANGUAGE_TONGA LANGUAGE_TSONGA = _gdi_.LANGUAGE_TSONGA LANGUAGE_TURKISH = _gdi_.LANGUAGE_TURKISH LANGUAGE_TURKMEN = _gdi_.LANGUAGE_TURKMEN LANGUAGE_TWI = _gdi_.LANGUAGE_TWI LANGUAGE_UIGHUR = _gdi_.LANGUAGE_UIGHUR LANGUAGE_UKRAINIAN = _gdi_.LANGUAGE_UKRAINIAN LANGUAGE_URDU = _gdi_.LANGUAGE_URDU LANGUAGE_URDU_INDIA = _gdi_.LANGUAGE_URDU_INDIA LANGUAGE_URDU_PAKISTAN = _gdi_.LANGUAGE_URDU_PAKISTAN LANGUAGE_UZBEK = _gdi_.LANGUAGE_UZBEK LANGUAGE_UZBEK_CYRILLIC = _gdi_.LANGUAGE_UZBEK_CYRILLIC LANGUAGE_UZBEK_LATIN = _gdi_.LANGUAGE_UZBEK_LATIN LANGUAGE_VALENCIAN = _gdi_.LANGUAGE_VALENCIAN LANGUAGE_VIETNAMESE = _gdi_.LANGUAGE_VIETNAMESE LANGUAGE_VOLAPUK = _gdi_.LANGUAGE_VOLAPUK LANGUAGE_WELSH = _gdi_.LANGUAGE_WELSH LANGUAGE_WOLOF = _gdi_.LANGUAGE_WOLOF LANGUAGE_XHOSA = _gdi_.LANGUAGE_XHOSA LANGUAGE_YIDDISH = _gdi_.LANGUAGE_YIDDISH LANGUAGE_YORUBA = _gdi_.LANGUAGE_YORUBA LANGUAGE_ZHUANG = _gdi_.LANGUAGE_ZHUANG LANGUAGE_ZULU = _gdi_.LANGUAGE_ZULU LANGUAGE_USER_DEFINED = _gdi_.LANGUAGE_USER_DEFINED class LanguageInfo(object): """Proxy of C++ LanguageInfo class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr Language = property(_gdi_.LanguageInfo_Language_get, _gdi_.LanguageInfo_Language_set) CanonicalName = property(_gdi_.LanguageInfo_CanonicalName_get, _gdi_.LanguageInfo_CanonicalName_set) Description = property(_gdi_.LanguageInfo_Description_get, _gdi_.LanguageInfo_Description_set) LayoutDirection = property(_gdi_.LanguageInfo_LayoutDirection_get, _gdi_.LanguageInfo_LayoutDirection_set) def GetLocaleName(*args, **kwargs): """GetLocaleName(self) -> String""" return _gdi_.LanguageInfo_GetLocaleName(*args, **kwargs) _gdi_.LanguageInfo_swigregister(LanguageInfo) LOCALE_CAT_NUMBER = _gdi_.LOCALE_CAT_NUMBER LOCALE_CAT_DATE = _gdi_.LOCALE_CAT_DATE LOCALE_CAT_MONEY = _gdi_.LOCALE_CAT_MONEY LOCALE_CAT_DEFAULT = _gdi_.LOCALE_CAT_DEFAULT LOCALE_CAT_MAX = _gdi_.LOCALE_CAT_MAX LOCALE_THOUSANDS_SEP = _gdi_.LOCALE_THOUSANDS_SEP LOCALE_DECIMAL_POINT = _gdi_.LOCALE_DECIMAL_POINT LOCALE_SHORT_DATE_FMT = _gdi_.LOCALE_SHORT_DATE_FMT LOCALE_LONG_DATE_FMT = _gdi_.LOCALE_LONG_DATE_FMT LOCALE_DATE_TIME_FMT = _gdi_.LOCALE_DATE_TIME_FMT LOCALE_TIME_FMT = _gdi_.LOCALE_TIME_FMT LOCALE_DONT_LOAD_DEFAULT = _gdi_.LOCALE_DONT_LOAD_DEFAULT LOCALE_LOAD_DEFAULT = _gdi_.LOCALE_LOAD_DEFAULT LOCALE_CONV_ENCODING = _gdi_.LOCALE_CONV_ENCODING class Locale(object): """Proxy of C++ Locale class""" 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, int language=-1, int flags=LOCALE_LOAD_DEFAULT) -> Locale""" _gdi_.Locale_swiginit(self,_gdi_.new_Locale(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Locale __del__ = lambda self : None; def Init1(*args, **kwargs): """ Init1(self, String name, String shortName=EmptyString, String locale=EmptyString, bool bLoadDefault=True) -> bool """ return _gdi_.Locale_Init1(*args, **kwargs) def Init2(*args, **kwargs): """Init2(self, int language=LANGUAGE_DEFAULT, int flags=LOCALE_LOAD_DEFAULT) -> bool""" return _gdi_.Locale_Init2(*args, **kwargs) def Init(self, *_args, **_kwargs): if type(_args[0]) in [type(''), type(u'')]: val = self.Init1(*_args, **_kwargs) else: val = self.Init2(*_args, **_kwargs) return val def GetSystemLanguage(*args, **kwargs): """GetSystemLanguage() -> int""" return _gdi_.Locale_GetSystemLanguage(*args, **kwargs) GetSystemLanguage = staticmethod(GetSystemLanguage) def GetSystemEncoding(*args, **kwargs): """GetSystemEncoding() -> int""" return _gdi_.Locale_GetSystemEncoding(*args, **kwargs) GetSystemEncoding = staticmethod(GetSystemEncoding) def GetSystemEncodingName(*args, **kwargs): """GetSystemEncodingName() -> String""" return _gdi_.Locale_GetSystemEncodingName(*args, **kwargs) GetSystemEncodingName = staticmethod(GetSystemEncodingName) def GetInfo(*args, **kwargs): """GetInfo(int index, int cat=LOCALE_CAT_DEFAULT) -> String""" return _gdi_.Locale_GetInfo(*args, **kwargs) GetInfo = staticmethod(GetInfo) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.Locale_IsOk(*args, **kwargs) def __nonzero__(self): return self.IsOk() def GetLocale(*args, **kwargs): """GetLocale(self) -> String""" return _gdi_.Locale_GetLocale(*args, **kwargs) def GetLanguage(*args, **kwargs): """GetLanguage(self) -> int""" return _gdi_.Locale_GetLanguage(*args, **kwargs) def GetSysName(*args, **kwargs): """GetSysName(self) -> String""" return _gdi_.Locale_GetSysName(*args, **kwargs) def GetCanonicalName(*args, **kwargs): """GetCanonicalName(self) -> String""" return _gdi_.Locale_GetCanonicalName(*args, **kwargs) def AddCatalogLookupPathPrefix(*args, **kwargs): """AddCatalogLookupPathPrefix(String prefix)""" return _gdi_.Locale_AddCatalogLookupPathPrefix(*args, **kwargs) AddCatalogLookupPathPrefix = staticmethod(AddCatalogLookupPathPrefix) def AddCatalog(*args): """ AddCatalog(self, String domain) -> bool AddCatalog(self, String domain, int msgIdLanguage) -> bool AddCatalog(self, String domain, int msgIdLanguage, String msgIdCharset) -> bool """ return _gdi_.Locale_AddCatalog(*args) def IsAvailable(*args, **kwargs): """IsAvailable(int lang) -> bool""" return _gdi_.Locale_IsAvailable(*args, **kwargs) IsAvailable = staticmethod(IsAvailable) def IsLoaded(*args, **kwargs): """IsLoaded(self, String domain) -> bool""" return _gdi_.Locale_IsLoaded(*args, **kwargs) def GetLanguageInfo(*args, **kwargs): """GetLanguageInfo(int lang) -> LanguageInfo""" return _gdi_.Locale_GetLanguageInfo(*args, **kwargs) GetLanguageInfo = staticmethod(GetLanguageInfo) def GetLanguageName(*args, **kwargs): """GetLanguageName(int lang) -> String""" return _gdi_.Locale_GetLanguageName(*args, **kwargs) GetLanguageName = staticmethod(GetLanguageName) def GetLanguageCanonicalName(*args, **kwargs): """GetLanguageCanonicalName(int lang) -> String""" return _gdi_.Locale_GetLanguageCanonicalName(*args, **kwargs) GetLanguageCanonicalName = staticmethod(GetLanguageCanonicalName) def FindLanguageInfo(*args, **kwargs): """FindLanguageInfo(String locale) -> LanguageInfo""" return _gdi_.Locale_FindLanguageInfo(*args, **kwargs) FindLanguageInfo = staticmethod(FindLanguageInfo) def AddLanguage(*args, **kwargs): """AddLanguage(LanguageInfo info)""" return _gdi_.Locale_AddLanguage(*args, **kwargs) AddLanguage = staticmethod(AddLanguage) def GetString(*args, **kwargs): """GetString(self, String origString, String domain=EmptyString) -> String""" return _gdi_.Locale_GetString(*args, **kwargs) def GetName(*args, **kwargs): """GetName(self) -> String""" return _gdi_.Locale_GetName(*args, **kwargs) CanonicalName = property(GetCanonicalName,doc="See `GetCanonicalName`") Language = property(GetLanguage,doc="See `GetLanguage`") Locale = property(GetLocale,doc="See `GetLocale`") Name = property(GetName,doc="See `GetName`") String = property(GetString,doc="See `GetString`") SysName = property(GetSysName,doc="See `GetSysName`") _gdi_.Locale_swigregister(Locale) def Locale_GetSystemLanguage(*args): """Locale_GetSystemLanguage() -> int""" return _gdi_.Locale_GetSystemLanguage(*args) def Locale_GetSystemEncoding(*args): """Locale_GetSystemEncoding() -> int""" return _gdi_.Locale_GetSystemEncoding(*args) def Locale_GetSystemEncodingName(*args): """Locale_GetSystemEncodingName() -> String""" return _gdi_.Locale_GetSystemEncodingName(*args) def Locale_GetInfo(*args, **kwargs): """Locale_GetInfo(int index, int cat=LOCALE_CAT_DEFAULT) -> String""" return _gdi_.Locale_GetInfo(*args, **kwargs) def Locale_AddCatalogLookupPathPrefix(*args, **kwargs): """Locale_AddCatalogLookupPathPrefix(String prefix)""" return _gdi_.Locale_AddCatalogLookupPathPrefix(*args, **kwargs) def Locale_IsAvailable(*args, **kwargs): """Locale_IsAvailable(int lang) -> bool""" return _gdi_.Locale_IsAvailable(*args, **kwargs) def Locale_GetLanguageInfo(*args, **kwargs): """Locale_GetLanguageInfo(int lang) -> LanguageInfo""" return _gdi_.Locale_GetLanguageInfo(*args, **kwargs) def Locale_GetLanguageName(*args, **kwargs): """Locale_GetLanguageName(int lang) -> String""" return _gdi_.Locale_GetLanguageName(*args, **kwargs) def Locale_GetLanguageCanonicalName(*args, **kwargs): """Locale_GetLanguageCanonicalName(int lang) -> String""" return _gdi_.Locale_GetLanguageCanonicalName(*args, **kwargs) def Locale_FindLanguageInfo(*args, **kwargs): """Locale_FindLanguageInfo(String locale) -> LanguageInfo""" return _gdi_.Locale_FindLanguageInfo(*args, **kwargs) def Locale_AddLanguage(*args, **kwargs): """Locale_AddLanguage(LanguageInfo info)""" return _gdi_.Locale_AddLanguage(*args, **kwargs) class PyLocale(Locale): """Proxy of C++ PyLocale class""" 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, int language=-1, int flags=LOCALE_LOAD_DEFAULT) -> PyLocale""" _gdi_.PyLocale_swiginit(self,_gdi_.new_PyLocale(*args, **kwargs)) PyLocale._setCallbackInfo(self, self, PyLocale) __swig_destroy__ = _gdi_.delete_PyLocale __del__ = lambda self : None; def _setCallbackInfo(*args, **kwargs): """_setCallbackInfo(self, PyObject self, PyObject _class)""" return _gdi_.PyLocale__setCallbackInfo(*args, **kwargs) def GetSingularString(*args, **kwargs): """GetSingularString(self, String origString, String domain=EmptyString) -> String""" return _gdi_.PyLocale_GetSingularString(*args, **kwargs) def GetPluralString(*args, **kwargs): """GetPluralString(self, String origString, String origString2, size_t n, String domain=EmptyString) -> String""" return _gdi_.PyLocale_GetPluralString(*args, **kwargs) _gdi_.PyLocale_swigregister(PyLocale) def GetLocale(*args): """GetLocale() -> Locale""" return _gdi_.GetLocale(*args) #--------------------------------------------------------------------------- CONVERT_STRICT = _gdi_.CONVERT_STRICT CONVERT_SUBSTITUTE = _gdi_.CONVERT_SUBSTITUTE PLATFORM_CURRENT = _gdi_.PLATFORM_CURRENT PLATFORM_UNIX = _gdi_.PLATFORM_UNIX PLATFORM_WINDOWS = _gdi_.PLATFORM_WINDOWS PLATFORM_OS2 = _gdi_.PLATFORM_OS2 PLATFORM_MAC = _gdi_.PLATFORM_MAC class EncodingConverter(_core.Object): """Proxy of C++ EncodingConverter class""" 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) -> EncodingConverter""" _gdi_.EncodingConverter_swiginit(self,_gdi_.new_EncodingConverter(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_EncodingConverter __del__ = lambda self : None; def Init(*args, **kwargs): """Init(self, int input_enc, int output_enc, int method=CONVERT_STRICT) -> bool""" return _gdi_.EncodingConverter_Init(*args, **kwargs) def Convert(*args, **kwargs): """Convert(self, String input) -> String""" return _gdi_.EncodingConverter_Convert(*args, **kwargs) def GetPlatformEquivalents(*args, **kwargs): """GetPlatformEquivalents(int enc, int platform=PLATFORM_CURRENT) -> wxFontEncodingArray""" return _gdi_.EncodingConverter_GetPlatformEquivalents(*args, **kwargs) GetPlatformEquivalents = staticmethod(GetPlatformEquivalents) def GetAllEquivalents(*args, **kwargs): """GetAllEquivalents(int enc) -> wxFontEncodingArray""" return _gdi_.EncodingConverter_GetAllEquivalents(*args, **kwargs) GetAllEquivalents = staticmethod(GetAllEquivalents) def CanConvert(*args, **kwargs): """CanConvert(int encIn, int encOut) -> bool""" return _gdi_.EncodingConverter_CanConvert(*args, **kwargs) CanConvert = staticmethod(CanConvert) def __nonzero__(self): return self.IsOk() _gdi_.EncodingConverter_swigregister(EncodingConverter) def GetTranslation(*args): """ GetTranslation(String str) -> String GetTranslation(String str, String domain) -> String GetTranslation(String str, String strPlural, size_t n) -> String GetTranslation(String str, String strPlural, size_t n, String domain) -> String """ return _gdi_.GetTranslation(*args) def EncodingConverter_GetPlatformEquivalents(*args, **kwargs): """EncodingConverter_GetPlatformEquivalents(int enc, int platform=PLATFORM_CURRENT) -> wxFontEncodingArray""" return _gdi_.EncodingConverter_GetPlatformEquivalents(*args, **kwargs) def EncodingConverter_GetAllEquivalents(*args, **kwargs): """EncodingConverter_GetAllEquivalents(int enc) -> wxFontEncodingArray""" return _gdi_.EncodingConverter_GetAllEquivalents(*args, **kwargs) def EncodingConverter_CanConvert(*args, **kwargs): """EncodingConverter_CanConvert(int encIn, int encOut) -> bool""" return _gdi_.EncodingConverter_CanConvert(*args, **kwargs) #---------------------------------------------------------------------------- # Add the directory where the wxWidgets catalogs were installed # to the default catalog path, if they were put in the pacakge dir. import os _localedir = os.path.join(os.path.dirname(__file__), "locale") if os.path.exists(_localedir): Locale.AddCatalogLookupPathPrefix(_localedir) del os #---------------------------------------------------------------------------- #--------------------------------------------------------------------------- CLEAR = _gdi_.CLEAR XOR = _gdi_.XOR INVERT = _gdi_.INVERT OR_REVERSE = _gdi_.OR_REVERSE AND_REVERSE = _gdi_.AND_REVERSE COPY = _gdi_.COPY AND = _gdi_.AND AND_INVERT = _gdi_.AND_INVERT NO_OP = _gdi_.NO_OP NOR = _gdi_.NOR EQUIV = _gdi_.EQUIV SRC_INVERT = _gdi_.SRC_INVERT OR_INVERT = _gdi_.OR_INVERT NAND = _gdi_.NAND OR = _gdi_.OR SET = _gdi_.SET FLOOD_SURFACE = _gdi_.FLOOD_SURFACE FLOOD_BORDER = _gdi_.FLOOD_BORDER MM_TEXT = _gdi_.MM_TEXT MM_TWIPS = _gdi_.MM_TWIPS MM_POINTS = _gdi_.MM_POINTS MM_METRIC = _gdi_.MM_METRIC class FontMetrics(object): """Proxy of C++ FontMetrics class""" 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) -> FontMetrics""" _gdi_.FontMetrics_swiginit(self,_gdi_.new_FontMetrics(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_FontMetrics __del__ = lambda self : None; height = property(_gdi_.FontMetrics_height_get, _gdi_.FontMetrics_height_set) ascent = property(_gdi_.FontMetrics_ascent_get, _gdi_.FontMetrics_ascent_set) descent = property(_gdi_.FontMetrics_descent_get, _gdi_.FontMetrics_descent_set) internalLeading = property(_gdi_.FontMetrics_internalLeading_get, _gdi_.FontMetrics_internalLeading_set) externalLeading = property(_gdi_.FontMetrics_externalLeading_get, _gdi_.FontMetrics_externalLeading_set) averageWidth = property(_gdi_.FontMetrics_averageWidth_get, _gdi_.FontMetrics_averageWidth_set) _gdi_.FontMetrics_swigregister(FontMetrics) class DC(_core.Object): """ A wx.DC is a device context onto which graphics and text can be drawn. It is intended to represent a number of output devices in a generic way, so a window can have a device context associated with it, and a printer also has a device context. In this way, the same piece of code may write to a number of different devices, if the device context is used as a parameter. Derived types of wxDC have documentation for specific features only, so refer to this section for most device context information. The wx.DC class is abstract and can not be instantiated, you must use one of the derived classes instead. Which one will depend on the situation in which it is used. """ thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr __swig_destroy__ = _gdi_.delete_DC __del__ = lambda self : None; # These have been deprecated in wxWidgets. Since they never # really did anything to begin with, just make them be NOPs. def BeginDrawing(self): pass def EndDrawing(self): pass def GetImpl(*args, **kwargs): """GetImpl(self) -> DCImpl""" return _gdi_.DC_GetImpl(*args, **kwargs) def GetWindow(*args, **kwargs): """GetWindow(self) -> Window""" return _gdi_.DC_GetWindow(*args, **kwargs) def CopyAttributes(*args, **kwargs): """CopyAttributes(self, DC dc)""" return _gdi_.DC_CopyAttributes(*args, **kwargs) def FloodFill(*args, **kwargs): """ FloodFill(self, int x, int y, Colour col, int style=FLOOD_SURFACE) -> bool Flood fills the device context starting from the given point, using the current brush colour, and using a style: - **wxFLOOD_SURFACE**: the flooding occurs until a colour other than the given colour is encountered. - **wxFLOOD_BORDER**: the area to be flooded is bounded by the given colour. Returns False if the operation failed. Note: The present implementation for non-Windows platforms may fail to find colour borders if the pixels do not match the colour exactly. However the function will still return true. """ return _gdi_.DC_FloodFill(*args, **kwargs) def FloodFillPoint(*args, **kwargs): """ FloodFillPoint(self, Point pt, Colour col, int style=FLOOD_SURFACE) -> bool Flood fills the device context starting from the given point, using the current brush colour, and using a style: - **wxFLOOD_SURFACE**: the flooding occurs until a colour other than the given colour is encountered. - **wxFLOOD_BORDER**: the area to be flooded is bounded by the given colour. Returns False if the operation failed. Note: The present implementation for non-Windows platforms may fail to find colour borders if the pixels do not match the colour exactly. However the function will still return true. """ return _gdi_.DC_FloodFillPoint(*args, **kwargs) def GradientFillConcentric(*args, **kwargs): """ GradientFillConcentric(self, Rect rect, Colour initialColour, Colour destColour, Point circleCenter) Fill the area specified by rect with a radial gradient, starting from initialColour in the center of the circle and fading to destColour on the outside of the circle. The circleCenter argument is the relative coordinants of the center of the circle in the specified rect. Note: Currently this function is very slow, don't use it for real-time drawing. """ return _gdi_.DC_GradientFillConcentric(*args, **kwargs) def GradientFillLinear(*args, **kwargs): """ GradientFillLinear(self, Rect rect, Colour initialColour, Colour destColour, int nDirection=EAST) Fill the area specified by rect with a linear gradient, starting from initialColour and eventually fading to destColour. The nDirection parameter specifies the direction of the colour change, default is to use initialColour on the left part of the rectangle and destColour on the right side. """ return _gdi_.DC_GradientFillLinear(*args, **kwargs) def GetPixel(*args, **kwargs): """ GetPixel(self, int x, int y) -> Colour Gets the colour at the specified location on the DC. """ return _gdi_.DC_GetPixel(*args, **kwargs) def GetPixelPoint(*args, **kwargs): """GetPixelPoint(self, Point pt) -> Colour""" return _gdi_.DC_GetPixelPoint(*args, **kwargs) def DrawLine(*args, **kwargs): """ DrawLine(self, int x1, int y1, int x2, int y2) Draws a line from the first point to the second. The current pen is used for drawing the line. Note that the second point is *not* part of the line and is not drawn by this function (this is consistent with the behaviour of many other toolkits). """ return _gdi_.DC_DrawLine(*args, **kwargs) def DrawLinePoint(*args, **kwargs): """ DrawLinePoint(self, Point pt1, Point pt2) Draws a line from the first point to the second. The current pen is used for drawing the line. Note that the second point is *not* part of the line and is not drawn by this function (this is consistent with the behaviour of many other toolkits). """ return _gdi_.DC_DrawLinePoint(*args, **kwargs) def CrossHair(*args, **kwargs): """ CrossHair(self, int x, int y) Displays a cross hair using the current pen. This is a vertical and horizontal line the height and width of the window, centred on the given point. """ return _gdi_.DC_CrossHair(*args, **kwargs) def CrossHairPoint(*args, **kwargs): """ CrossHairPoint(self, Point pt) Displays a cross hair using the current pen. This is a vertical and horizontal line the height and width of the window, centred on the given point. """ return _gdi_.DC_CrossHairPoint(*args, **kwargs) def DrawArc(*args, **kwargs): """ DrawArc(self, int x1, int y1, int x2, int y2, int xc, int yc) Draws an arc of a circle, centred on the *center* point (xc, yc), from the first point to the second. The current pen is used for the outline and the current brush for filling the shape. The arc is drawn in an anticlockwise direction from the start point to the end point. """ return _gdi_.DC_DrawArc(*args, **kwargs) def DrawArcPoint(*args, **kwargs): """ DrawArcPoint(self, Point pt1, Point pt2, Point center) Draws an arc of a circle, centred on the *center* point (xc, yc), from the first point to the second. The current pen is used for the outline and the current brush for filling the shape. The arc is drawn in an anticlockwise direction from the start point to the end point. """ return _gdi_.DC_DrawArcPoint(*args, **kwargs) def DrawCheckMark(*args, **kwargs): """ DrawCheckMark(self, int x, int y, int width, int height) Draws a check mark inside the given rectangle. """ return _gdi_.DC_DrawCheckMark(*args, **kwargs) def DrawCheckMarkRect(*args, **kwargs): """ DrawCheckMarkRect(self, Rect rect) Draws a check mark inside the given rectangle. """ return _gdi_.DC_DrawCheckMarkRect(*args, **kwargs) def DrawEllipticArc(*args, **kwargs): """ DrawEllipticArc(self, int x, int y, int w, int h, double start, double end) Draws an arc of an ellipse, with the given rectangle defining the bounds of the ellipse. The current pen is used for drawing the arc and the current brush is used for drawing the pie. The *start* and *end* parameters specify the start and end of the arc relative to the three-o'clock position from the center of the rectangle. Angles are specified in degrees (360 is a complete circle). Positive values mean counter-clockwise motion. If start is equal to end, a complete ellipse will be drawn. """ return _gdi_.DC_DrawEllipticArc(*args, **kwargs) def DrawEllipticArcPointSize(*args, **kwargs): """ DrawEllipticArcPointSize(self, Point pt, Size sz, double start, double end) Draws an arc of an ellipse, with the given rectangle defining the bounds of the ellipse. The current pen is used for drawing the arc and the current brush is used for drawing the pie. The *start* and *end* parameters specify the start and end of the arc relative to the three-o'clock position from the center of the rectangle. Angles are specified in degrees (360 is a complete circle). Positive values mean counter-clockwise motion. If start is equal to end, a complete ellipse will be drawn. """ return _gdi_.DC_DrawEllipticArcPointSize(*args, **kwargs) def DrawPoint(*args, **kwargs): """ DrawPoint(self, int x, int y) Draws a point using the current pen. """ return _gdi_.DC_DrawPoint(*args, **kwargs) def DrawPointPoint(*args, **kwargs): """ DrawPointPoint(self, Point pt) Draws a point using the current pen. """ return _gdi_.DC_DrawPointPoint(*args, **kwargs) def DrawRectangle(*args, **kwargs): """ DrawRectangle(self, int x, int y, int width, int height) Draws a rectangle with the given top left corner, and with the given size. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.DC_DrawRectangle(*args, **kwargs) def DrawRectangleRect(*args, **kwargs): """ DrawRectangleRect(self, Rect rect) Draws a rectangle with the given top left corner, and with the given size. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.DC_DrawRectangleRect(*args, **kwargs) def DrawRectanglePointSize(*args, **kwargs): """ DrawRectanglePointSize(self, Point pt, Size sz) Draws a rectangle with the given top left corner, and with the given size. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.DC_DrawRectanglePointSize(*args, **kwargs) def DrawRoundedRectangle(*args, **kwargs): """ DrawRoundedRectangle(self, int x, int y, int width, int height, double radius) Draws a rectangle with the given top left corner, and with the given size. The corners are quarter-circles using the given radius. The current pen is used for the outline and the current brush for filling the shape. If radius is positive, the value is assumed to be the radius of the rounded corner. If radius is negative, the absolute value is assumed to be the proportion of the smallest dimension of the rectangle. This means that the corner can be a sensible size relative to the size of the rectangle, and also avoids the strange effects X produces when the corners are too big for the rectangle. """ return _gdi_.DC_DrawRoundedRectangle(*args, **kwargs) def DrawRoundedRectangleRect(*args, **kwargs): """ DrawRoundedRectangleRect(self, Rect r, double radius) Draws a rectangle with the given top left corner, and with the given size. The corners are quarter-circles using the given radius. The current pen is used for the outline and the current brush for filling the shape. If radius is positive, the value is assumed to be the radius of the rounded corner. If radius is negative, the absolute value is assumed to be the proportion of the smallest dimension of the rectangle. This means that the corner can be a sensible size relative to the size of the rectangle, and also avoids the strange effects X produces when the corners are too big for the rectangle. """ return _gdi_.DC_DrawRoundedRectangleRect(*args, **kwargs) def DrawRoundedRectanglePointSize(*args, **kwargs): """ DrawRoundedRectanglePointSize(self, Point pt, Size sz, double radius) Draws a rectangle with the given top left corner, and with the given size. The corners are quarter-circles using the given radius. The current pen is used for the outline and the current brush for filling the shape. If radius is positive, the value is assumed to be the radius of the rounded corner. If radius is negative, the absolute value is assumed to be the proportion of the smallest dimension of the rectangle. This means that the corner can be a sensible size relative to the size of the rectangle, and also avoids the strange effects X produces when the corners are too big for the rectangle. """ return _gdi_.DC_DrawRoundedRectanglePointSize(*args, **kwargs) def DrawCircle(*args, **kwargs): """ DrawCircle(self, int x, int y, int radius) Draws a circle with the given center point and radius. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.DC_DrawCircle(*args, **kwargs) def DrawCirclePoint(*args, **kwargs): """ DrawCirclePoint(self, Point pt, int radius) Draws a circle with the given center point and radius. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.DC_DrawCirclePoint(*args, **kwargs) def DrawEllipse(*args, **kwargs): """ DrawEllipse(self, int x, int y, int width, int height) Draws an ellipse contained in the specified rectangle. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.DC_DrawEllipse(*args, **kwargs) def DrawEllipseRect(*args, **kwargs): """ DrawEllipseRect(self, Rect rect) Draws an ellipse contained in the specified rectangle. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.DC_DrawEllipseRect(*args, **kwargs) def DrawEllipsePointSize(*args, **kwargs): """ DrawEllipsePointSize(self, Point pt, Size sz) Draws an ellipse contained in the specified rectangle. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.DC_DrawEllipsePointSize(*args, **kwargs) def DrawIcon(*args, **kwargs): """ DrawIcon(self, Icon icon, int x, int y) Draw an icon on the display (does nothing if the device context is PostScript). This can be the simplest way of drawing bitmaps on a window. """ return _gdi_.DC_DrawIcon(*args, **kwargs) def DrawIconPoint(*args, **kwargs): """ DrawIconPoint(self, Icon icon, Point pt) Draw an icon on the display (does nothing if the device context is PostScript). This can be the simplest way of drawing bitmaps on a window. """ return _gdi_.DC_DrawIconPoint(*args, **kwargs) def DrawBitmap(*args, **kwargs): """ DrawBitmap(self, Bitmap bmp, int x, int y, bool useMask=False) Draw a bitmap on the device context at the specified point. If *transparent* is true and the bitmap has a transparency mask, (or alpha channel on the platforms that support it) then the bitmap will be drawn transparently. """ return _gdi_.DC_DrawBitmap(*args, **kwargs) def DrawBitmapPoint(*args, **kwargs): """ DrawBitmapPoint(self, Bitmap bmp, Point pt, bool useMask=False) Draw a bitmap on the device context at the specified point. If *transparent* is true and the bitmap has a transparency mask, (or alpha channel on the platforms that support it) then the bitmap will be drawn transparently. """ return _gdi_.DC_DrawBitmapPoint(*args, **kwargs) def DrawText(*args, **kwargs): """ DrawText(self, String text, int x, int y) Draws a text string at the specified point, using the current text font, and the current text foreground and background colours. The coordinates refer to the top-left corner of the rectangle bounding the string. See `GetTextExtent` for how to get the dimensions of a text string, which can be used to position the text more precisely. **NOTE**: under wxGTK the current logical function is used by this function but it is ignored by wxMSW. Thus, you should avoid using logical functions with this function in portable programs. """ return _gdi_.DC_DrawText(*args, **kwargs) def DrawTextPoint(*args, **kwargs): """ DrawTextPoint(self, String text, Point pt) Draws a text string at the specified point, using the current text font, and the current text foreground and background colours. The coordinates refer to the top-left corner of the rectangle bounding the string. See `GetTextExtent` for how to get the dimensions of a text string, which can be used to position the text more precisely. **NOTE**: under wxGTK the current logical function is used by this function but it is ignored by wxMSW. Thus, you should avoid using logical functions with this function in portable programs. """ return _gdi_.DC_DrawTextPoint(*args, **kwargs) def DrawRotatedText(*args, **kwargs): """ DrawRotatedText(self, String text, int x, int y, double angle) Draws the text rotated by *angle* degrees, if supported by the platform. **NOTE**: Under Win9x only TrueType fonts can be drawn by this function. In particular, a font different from ``wx.NORMAL_FONT`` should be used as the it is not normally a TrueType font. ``wx.SWISS_FONT`` is an example of a font which is. """ return _gdi_.DC_DrawRotatedText(*args, **kwargs) def DrawRotatedTextPoint(*args, **kwargs): """ DrawRotatedTextPoint(self, String text, Point pt, double angle) Draws the text rotated by *angle* degrees, if supported by the platform. **NOTE**: Under Win9x only TrueType fonts can be drawn by this function. In particular, a font different from ``wx.NORMAL_FONT`` should be used as the it is not normally a TrueType font. ``wx.SWISS_FONT`` is an example of a font which is. """ return _gdi_.DC_DrawRotatedTextPoint(*args, **kwargs) def Blit(*args, **kwargs): """ Blit(self, int xdest, int ydest, int width, int height, DC source, int xsrc, int ysrc, int rop=COPY, bool useMask=False, int xsrcMask=-1, int ysrcMask=-1) -> bool Copy from a source DC to this DC. Parameters specify the destination coordinates, size of area to copy, source DC, source coordinates, logical function, whether to use a bitmap mask, and mask source position. """ return _gdi_.DC_Blit(*args, **kwargs) def BlitPointSize(*args, **kwargs): """ BlitPointSize(self, Point destPt, Size sz, DC source, Point srcPt, int rop=COPY, bool useMask=False, Point srcPtMask=DefaultPosition) -> bool Copy from a source DC to this DC. Parameters specify the destination coordinates, size of area to copy, source DC, source coordinates, logical function, whether to use a bitmap mask, and mask source position. """ return _gdi_.DC_BlitPointSize(*args, **kwargs) def StretchBlit(*args, **kwargs): """ StretchBlit(self, int dstX, int dstY, int dstWidth, int dstHeight, DC source, int srcX, int srcY, int srcWidth, int srcHeight, int rop=COPY, bool useMask=False, int srcMaskX=DefaultCoord, int srcMaskY=DefaultCoord) -> bool Copy from a source DC to this DC, specifying the destination coordinates, destination size, source DC, source coordinates, size of source area to copy, logical function, whether to use a bitmap mask, and mask source position. """ return _gdi_.DC_StretchBlit(*args, **kwargs) def StretchBlitPointSize(*args, **kwargs): """ StretchBlitPointSize(self, Point dstPt, Size dstSize, DC source, Point srcPt, Size srcSize, int rop=COPY, bool useMask=False, Point srcMaskPt=DefaultPosition) -> bool Copy from a source DC to this DC, specifying the destination coordinates, destination size, source DC, source coordinates, size of source area to copy, logical function, whether to use a bitmap mask, and mask source position. This version is the same as `StretchBlit` except `wx.Point` and `wx.Size` objects are used instead of individual position and size components. """ return _gdi_.DC_StretchBlitPointSize(*args, **kwargs) def GetAsBitmap(*args, **kwargs): """GetAsBitmap(self, Rect subrect=None) -> Bitmap""" return _gdi_.DC_GetAsBitmap(*args, **kwargs) def SetClippingRegion(*args, **kwargs): """ SetClippingRegion(self, int x, int y, int width, int height) Sets the clipping region for this device context to the intersection of the given region described by the parameters of this method and the previously set clipping region. You should call `DestroyClippingRegion` if you want to set the clipping region exactly to the region specified. The clipping region is an area to which drawing is restricted. Possible uses for the clipping region are for clipping text or for speeding up window redraws when only a known area of the screen is damaged. """ return _gdi_.DC_SetClippingRegion(*args, **kwargs) def SetClippingRegionPointSize(*args, **kwargs): """ SetClippingRegionPointSize(self, Point pt, Size sz) Sets the clipping region for this device context to the intersection of the given region described by the parameters of this method and the previously set clipping region. You should call `DestroyClippingRegion` if you want to set the clipping region exactly to the region specified. The clipping region is an area to which drawing is restricted. Possible uses for the clipping region are for clipping text or for speeding up window redraws when only a known area of the screen is damaged. """ return _gdi_.DC_SetClippingRegionPointSize(*args, **kwargs) def SetClippingRegionAsRegion(*args, **kwargs): """ SetClippingRegionAsRegion(self, Region region) Sets the clipping region for this device context to the intersection of the given region described by the parameters of this method and the previously set clipping region. You should call `DestroyClippingRegion` if you want to set the clipping region exactly to the region specified. The clipping region is an area to which drawing is restricted. Possible uses for the clipping region are for clipping text or for speeding up window redraws when only a known area of the screen is damaged. """ return _gdi_.DC_SetClippingRegionAsRegion(*args, **kwargs) def SetClippingRect(*args, **kwargs): """ SetClippingRect(self, Rect rect) Sets the clipping region for this device context to the intersection of the given region described by the parameters of this method and the previously set clipping region. You should call `DestroyClippingRegion` if you want to set the clipping region exactly to the region specified. The clipping region is an area to which drawing is restricted. Possible uses for the clipping region are for clipping text or for speeding up window redraws when only a known area of the screen is damaged. """ return _gdi_.DC_SetClippingRect(*args, **kwargs) def SetDeviceClippingRegion(*args, **kwargs): """ SetDeviceClippingRegion(self, Region region) The coordinates of the region used in this method one are in device coordinates, not the logical ones """ return _gdi_.DC_SetDeviceClippingRegion(*args, **kwargs) def DrawLines(*args, **kwargs): """ DrawLines(self, List points, int xoffset=0, int yoffset=0) Draws lines using a sequence of `wx.Point` objects, adding the optional offset coordinate. The current pen is used for drawing the lines. """ return _gdi_.DC_DrawLines(*args, **kwargs) def DrawPolygon(*args, **kwargs): """ DrawPolygon(self, List points, int xoffset=0, int yoffset=0, wxPolygonFillMode fillStyle=ODDEVEN_RULE) Draws a filled polygon using a sequence of `wx.Point` objects, adding the optional offset coordinate. The last argument specifies the fill rule: ``wx.ODDEVEN_RULE`` (the default) or ``wx.WINDING_RULE``. The current pen is used for drawing the outline, and the current brush for filling the shape. Using a transparent brush suppresses filling. Note that wxWidgets automatically closes the first and last points. """ return _gdi_.DC_DrawPolygon(*args, **kwargs) def DrawLabel(*args, **kwargs): """ DrawLabel(self, String text, Rect rect, int alignment=wxALIGN_LEFT|wxALIGN_TOP, int indexAccel=-1) Draw *text* within the specified rectangle, abiding by the alignment flags. Will additionally emphasize the character at *indexAccel* if it is not -1. """ return _gdi_.DC_DrawLabel(*args, **kwargs) def DrawImageLabel(*args, **kwargs): """ DrawImageLabel(self, String text, Bitmap image, Rect rect, int alignment=wxALIGN_LEFT|wxALIGN_TOP, int indexAccel=-1) -> Rect Draw *text* and an image (which may be ``wx.NullBitmap`` to skip drawing it) within the specified rectangle, abiding by the alignment flags. Will additionally emphasize the character at *indexAccel* if it is not -1. Returns the bounding rectangle. """ return _gdi_.DC_DrawImageLabel(*args, **kwargs) def DrawSpline(*args, **kwargs): """ DrawSpline(self, List points) Draws a spline between all given control points, (a list of `wx.Point` objects) using the current pen. The spline is drawn using a series of lines, using an algorithm taken from the X drawing program 'XFIG'. """ return _gdi_.DC_DrawSpline(*args, **kwargs) def Clear(*args, **kwargs): """ Clear(self) Clears the device context using the current background brush. """ return _gdi_.DC_Clear(*args, **kwargs) def StartDoc(*args, **kwargs): """ StartDoc(self, String message) -> bool Starts a document (only relevant when outputting to a printer). *Message* is a message to show whilst printing. """ return _gdi_.DC_StartDoc(*args, **kwargs) def EndDoc(*args, **kwargs): """ EndDoc(self) Ends a document (only relevant when outputting to a printer). """ return _gdi_.DC_EndDoc(*args, **kwargs) def StartPage(*args, **kwargs): """ StartPage(self) Starts a document page (only relevant when outputting to a printer). """ return _gdi_.DC_StartPage(*args, **kwargs) def EndPage(*args, **kwargs): """ EndPage(self) Ends a document page (only relevant when outputting to a printer). """ return _gdi_.DC_EndPage(*args, **kwargs) def SetFont(*args, **kwargs): """ SetFont(self, Font font) Sets the current font for the DC. It must be a valid font, in particular you should not pass ``wx.NullFont`` to this method. """ return _gdi_.DC_SetFont(*args, **kwargs) def SetPen(*args, **kwargs): """ SetPen(self, Pen pen) Sets the current pen for the DC. If the argument is ``wx.NullPen``, the current pen is selected out of the device context, and the original pen restored. """ return _gdi_.DC_SetPen(*args, **kwargs) def SetBrush(*args, **kwargs): """ SetBrush(self, Brush brush) Sets the current brush for the DC. If the argument is ``wx.NullBrush``, the current brush is selected out of the device context, and the original brush restored, allowing the current brush to be destroyed safely. """ return _gdi_.DC_SetBrush(*args, **kwargs) def SetBackground(*args, **kwargs): """ SetBackground(self, Brush brush) Sets the current background brush for the DC. """ return _gdi_.DC_SetBackground(*args, **kwargs) def SetBackgroundMode(*args, **kwargs): """ SetBackgroundMode(self, int mode) *mode* may be one of ``wx.SOLID`` and ``wx.TRANSPARENT``. This setting determines whether text will be drawn with a background colour or not. """ return _gdi_.DC_SetBackgroundMode(*args, **kwargs) def SetPalette(*args, **kwargs): """ SetPalette(self, Palette palette) If this is a window DC or memory DC, assigns the given palette to the window or bitmap associated with the DC. If the argument is ``wx.NullPalette``, the current palette is selected out of the device context, and the original palette restored. """ return _gdi_.DC_SetPalette(*args, **kwargs) def DestroyClippingRegion(*args, **kwargs): """ DestroyClippingRegion(self) Destroys the current clipping region so that none of the DC is clipped. """ return _gdi_.DC_DestroyClippingRegion(*args, **kwargs) def GetClippingBox(*args, **kwargs): """ GetClippingBox() -> (x, y, width, height) Gets the rectangle surrounding the current clipping region. """ return _gdi_.DC_GetClippingBox(*args, **kwargs) def GetClippingRect(*args, **kwargs): """ GetClippingRect(self) -> Rect Gets the rectangle surrounding the current clipping region. """ return _gdi_.DC_GetClippingRect(*args, **kwargs) def GetCharHeight(*args, **kwargs): """ GetCharHeight(self) -> int Gets the character height of the currently set font. """ return _gdi_.DC_GetCharHeight(*args, **kwargs) def GetCharWidth(*args, **kwargs): """ GetCharWidth(self) -> int Gets the average character width of the currently set font. """ return _gdi_.DC_GetCharWidth(*args, **kwargs) def GetFontMetrics(*args, **kwargs): """GetFontMetrics(self) -> FontMetrics""" return _gdi_.DC_GetFontMetrics(*args, **kwargs) def GetTextExtent(*args, **kwargs): """ GetTextExtent(wxString string) -> (width, height) Get the width and height of the text using the current font. Only works for single line strings. """ return _gdi_.DC_GetTextExtent(*args, **kwargs) def GetFullTextExtent(*args, **kwargs): """ GetFullTextExtent(wxString string, Font font=None) -> (width, height, descent, externalLeading) Get the width, height, decent and leading of the text using the current or specified font. Only works for single line strings. """ return _gdi_.DC_GetFullTextExtent(*args, **kwargs) def GetMultiLineTextExtent(*args, **kwargs): """ GetMultiLineTextExtent(wxString string, Font font=None) -> (width, height, lineHeight) Get the width, height, and line height of the text using the current or specified font. Works for single as well as multi-line strings. """ return _gdi_.DC_GetMultiLineTextExtent(*args, **kwargs) def GetPartialTextExtents(*args, **kwargs): """ GetPartialTextExtents(self, text) -> [widths] Returns a list of integers such that each value is the distance in pixels from the begining of text to the coresponding character of *text*. The generic version simply builds a running total of the widths of each character using GetTextExtent, however if the various platforms have a native API function that is faster or more accurate than the generic implementation then it will be used instead. """ return _gdi_.DC_GetPartialTextExtents(*args, **kwargs) def GetSize(*args, **kwargs): """ GetSize(self) -> Size This gets the horizontal and vertical resolution in device units. It can be used to scale graphics to fit the page. For example, if *maxX* and *maxY* represent the maximum horizontal and vertical 'pixel' values used in your application, the following code will scale the graphic to fit on the printer page:: w, h = dc.GetSize() scaleX = maxX*1.0 / w scaleY = maxY*1.0 / h dc.SetUserScale(min(scaleX,scaleY),min(scaleX,scaleY)) """ return _gdi_.DC_GetSize(*args, **kwargs) def GetSizeTuple(*args, **kwargs): """ GetSizeTuple() -> (width, height) This gets the horizontal and vertical resolution in device units. It can be used to scale graphics to fit the page. For example, if *maxX* and *maxY* represent the maximum horizontal and vertical 'pixel' values used in your application, the following code will scale the graphic to fit on the printer page:: w, h = dc.GetSize() scaleX = maxX*1.0 / w scaleY = maxY*1.0 / h dc.SetUserScale(min(scaleX,scaleY),min(scaleX,scaleY)) """ return _gdi_.DC_GetSizeTuple(*args, **kwargs) def GetSizeMM(*args, **kwargs): """ GetSizeMM(self) -> Size Get the DC size in milimeters. """ return _gdi_.DC_GetSizeMM(*args, **kwargs) def GetSizeMMTuple(*args, **kwargs): """ GetSizeMMTuple() -> (width, height) Get the DC size in milimeters. """ return _gdi_.DC_GetSizeMMTuple(*args, **kwargs) def GetResolution(*args, **kwargs): """GetResolution(self) -> int""" return _gdi_.DC_GetResolution(*args, **kwargs) def DeviceToLogicalX(*args, **kwargs): """ DeviceToLogicalX(self, int x) -> int Convert device X coordinate to logical coordinate, using the current mapping mode. """ return _gdi_.DC_DeviceToLogicalX(*args, **kwargs) def DeviceToLogicalY(*args, **kwargs): """ DeviceToLogicalY(self, int y) -> int Converts device Y coordinate to logical coordinate, using the current mapping mode. """ return _gdi_.DC_DeviceToLogicalY(*args, **kwargs) def DeviceToLogicalXRel(*args, **kwargs): """ DeviceToLogicalXRel(self, int x) -> int Convert device X coordinate to relative logical coordinate, using the current mapping mode but ignoring the x axis orientation. Use this function for converting a width, for example. """ return _gdi_.DC_DeviceToLogicalXRel(*args, **kwargs) def DeviceToLogicalYRel(*args, **kwargs): """ DeviceToLogicalYRel(self, int y) -> int Convert device Y coordinate to relative logical coordinate, using the current mapping mode but ignoring the y axis orientation. Use this function for converting a height, for example. """ return _gdi_.DC_DeviceToLogicalYRel(*args, **kwargs) def LogicalToDeviceX(*args, **kwargs): """ LogicalToDeviceX(self, int x) -> int Converts logical X coordinate to device coordinate, using the current mapping mode. """ return _gdi_.DC_LogicalToDeviceX(*args, **kwargs) def LogicalToDeviceY(*args, **kwargs): """ LogicalToDeviceY(self, int y) -> int Converts logical Y coordinate to device coordinate, using the current mapping mode. """ return _gdi_.DC_LogicalToDeviceY(*args, **kwargs) def LogicalToDeviceXRel(*args, **kwargs): """ LogicalToDeviceXRel(self, int x) -> int Converts logical X coordinate to relative device coordinate, using the current mapping mode but ignoring the x axis orientation. Use this for converting a width, for example. """ return _gdi_.DC_LogicalToDeviceXRel(*args, **kwargs) def LogicalToDeviceYRel(*args, **kwargs): """ LogicalToDeviceYRel(self, int y) -> int Converts logical Y coordinate to relative device coordinate, using the current mapping mode but ignoring the y axis orientation. Use this for converting a height, for example. """ return _gdi_.DC_LogicalToDeviceYRel(*args, **kwargs) def CanDrawBitmap(*args, **kwargs): """CanDrawBitmap(self) -> bool""" return _gdi_.DC_CanDrawBitmap(*args, **kwargs) def CanGetTextExtent(*args, **kwargs): """CanGetTextExtent(self) -> bool""" return _gdi_.DC_CanGetTextExtent(*args, **kwargs) def GetDepth(*args, **kwargs): """ GetDepth(self) -> int Returns the colour depth of the DC. """ return _gdi_.DC_GetDepth(*args, **kwargs) def GetPPI(*args, **kwargs): """ GetPPI(self) -> Size Resolution in pixels per inch """ return _gdi_.DC_GetPPI(*args, **kwargs) def IsOk(*args, **kwargs): """ IsOk(self) -> bool Returns true if the DC is ok to use. """ return _gdi_.DC_IsOk(*args, **kwargs) Ok = IsOk def GetBackgroundMode(*args, **kwargs): """ GetBackgroundMode(self) -> int Returns the current background mode, either ``wx.SOLID`` or ``wx.TRANSPARENT``. """ return _gdi_.DC_GetBackgroundMode(*args, **kwargs) def GetBackground(*args, **kwargs): """ GetBackground(self) -> Brush Gets the brush used for painting the background. """ return _gdi_.DC_GetBackground(*args, **kwargs) def GetBrush(*args, **kwargs): """ GetBrush(self) -> Brush Gets the current brush """ return _gdi_.DC_GetBrush(*args, **kwargs) def GetFont(*args, **kwargs): """ GetFont(self) -> Font Gets the current font """ return _gdi_.DC_GetFont(*args, **kwargs) def GetPen(*args, **kwargs): """ GetPen(self) -> Pen Gets the current pen """ return _gdi_.DC_GetPen(*args, **kwargs) def GetTextBackground(*args, **kwargs): """ GetTextBackground(self) -> Colour Gets the current text background colour """ return _gdi_.DC_GetTextBackground(*args, **kwargs) def GetTextForeground(*args, **kwargs): """ GetTextForeground(self) -> Colour Gets the current text foreground colour """ return _gdi_.DC_GetTextForeground(*args, **kwargs) def SetTextForeground(*args, **kwargs): """ SetTextForeground(self, Colour colour) Sets the current text foreground colour for the DC. """ return _gdi_.DC_SetTextForeground(*args, **kwargs) def SetTextBackground(*args, **kwargs): """ SetTextBackground(self, Colour colour) Sets the current text background colour for the DC. """ return _gdi_.DC_SetTextBackground(*args, **kwargs) def GetMapMode(*args, **kwargs): """ GetMapMode(self) -> int Gets the current *mapping mode* for the device context """ return _gdi_.DC_GetMapMode(*args, **kwargs) def SetMapMode(*args, **kwargs): """ SetMapMode(self, int mode) The *mapping mode* of the device context defines the unit of measurement used to convert logical units to device units. The mapping mode can be one of the following: ================ ============================================= wx.MM_TWIPS Each logical unit is 1/20 of a point, or 1/1440 of an inch. wx.MM_POINTS Each logical unit is a point, or 1/72 of an inch. wx.MM_METRIC Each logical unit is 1 mm. wx.MM_LOMETRIC Each logical unit is 1/10 of a mm. wx.MM_TEXT Each logical unit is 1 pixel. ================ ============================================= """ return _gdi_.DC_SetMapMode(*args, **kwargs) def GetUserScale(*args, **kwargs): """ GetUserScale(self) -> (xScale, yScale) Gets the current user scale factor (set by `SetUserScale`). """ return _gdi_.DC_GetUserScale(*args, **kwargs) def SetUserScale(*args, **kwargs): """ SetUserScale(self, double x, double y) Sets the user scaling factor, useful for applications which require 'zooming'. """ return _gdi_.DC_SetUserScale(*args, **kwargs) def GetLogicalScale(*args, **kwargs): """GetLogicalScale() -> (xScale, yScale)""" return _gdi_.DC_GetLogicalScale(*args, **kwargs) def SetLogicalScale(*args, **kwargs): """SetLogicalScale(self, double x, double y)""" return _gdi_.DC_SetLogicalScale(*args, **kwargs) def GetLogicalOrigin(*args, **kwargs): """GetLogicalOrigin(self) -> Point""" return _gdi_.DC_GetLogicalOrigin(*args, **kwargs) def GetLogicalOriginTuple(*args, **kwargs): """GetLogicalOriginTuple() -> (x,y)""" return _gdi_.DC_GetLogicalOriginTuple(*args, **kwargs) def SetLogicalOrigin(*args, **kwargs): """SetLogicalOrigin(self, int x, int y)""" return _gdi_.DC_SetLogicalOrigin(*args, **kwargs) def SetLogicalOriginPoint(*args, **kwargs): """SetLogicalOriginPoint(self, Point point)""" return _gdi_.DC_SetLogicalOriginPoint(*args, **kwargs) def GetDeviceOrigin(*args, **kwargs): """GetDeviceOrigin(self) -> Point""" return _gdi_.DC_GetDeviceOrigin(*args, **kwargs) def GetDeviceOriginTuple(*args, **kwargs): """GetDeviceOriginTuple() -> (x,y)""" return _gdi_.DC_GetDeviceOriginTuple(*args, **kwargs) def SetDeviceOrigin(*args, **kwargs): """SetDeviceOrigin(self, int x, int y)""" return _gdi_.DC_SetDeviceOrigin(*args, **kwargs) def SetDeviceOriginPoint(*args, **kwargs): """SetDeviceOriginPoint(self, Point point)""" return _gdi_.DC_SetDeviceOriginPoint(*args, **kwargs) def SetAxisOrientation(*args, **kwargs): """ SetAxisOrientation(self, bool xLeftRight, bool yBottomUp) Sets the x and y axis orientation (i.e., the direction from lowest to highest values on the axis). The default orientation is the natural orientation, e.g. x axis from left to right and y axis from bottom up. """ return _gdi_.DC_SetAxisOrientation(*args, **kwargs) def GetLogicalFunction(*args, **kwargs): """ GetLogicalFunction(self) -> int Gets the current logical function (set by `SetLogicalFunction`). """ return _gdi_.DC_GetLogicalFunction(*args, **kwargs) def SetLogicalFunction(*args, **kwargs): """ SetLogicalFunction(self, int function) Sets the current logical function for the device context. This determines how a source pixel (from a pen or brush colour, or source device context if using `Blit`) combines with a destination pixel in the current device context. The possible values and their meaning in terms of source and destination pixel values are as follows: ================ ========================== wx.AND src AND dst wx.AND_INVERT (NOT src) AND dst wx.AND_REVERSE src AND (NOT dst) wx.CLEAR 0 wx.COPY src wx.EQUIV (NOT src) XOR dst wx.INVERT NOT dst wx.NAND (NOT src) OR (NOT dst) wx.NOR (NOT src) AND (NOT dst) wx.NO_OP dst wx.OR src OR dst wx.OR_INVERT (NOT src) OR dst wx.OR_REVERSE src OR (NOT dst) wx.SET 1 wx.SRC_INVERT NOT src wx.XOR src XOR dst ================ ========================== The default is wx.COPY, which simply draws with the current colour. The others combine the current colour and the background using a logical operation. wx.INVERT is commonly used for drawing rubber bands or moving outlines, since drawing twice reverts to the original colour. """ return _gdi_.DC_SetLogicalFunction(*args, **kwargs) def SetOptimization(self, optimize): pass def GetOptimization(self): return False SetOptimization = wx.deprecated(SetOptimization) GetOptimization = wx.deprecated(GetOptimization) def CalcBoundingBox(*args, **kwargs): """ CalcBoundingBox(self, int x, int y) Adds the specified point to the bounding box which can be retrieved with `MinX`, `MaxX` and `MinY`, `MaxY` or `GetBoundingBox` functions. """ return _gdi_.DC_CalcBoundingBox(*args, **kwargs) def CalcBoundingBoxPoint(*args, **kwargs): """ CalcBoundingBoxPoint(self, Point point) Adds the specified point to the bounding box which can be retrieved with `MinX`, `MaxX` and `MinY`, `MaxY` or `GetBoundingBox` functions. """ return _gdi_.DC_CalcBoundingBoxPoint(*args, **kwargs) def ResetBoundingBox(*args, **kwargs): """ ResetBoundingBox(self) Resets the bounding box: after a call to this function, the bounding box doesn't contain anything. """ return _gdi_.DC_ResetBoundingBox(*args, **kwargs) def MinX(*args, **kwargs): """ MinX(self) -> int Gets the minimum horizontal extent used in drawing commands so far. """ return _gdi_.DC_MinX(*args, **kwargs) def MaxX(*args, **kwargs): """ MaxX(self) -> int Gets the maximum horizontal extent used in drawing commands so far. """ return _gdi_.DC_MaxX(*args, **kwargs) def MinY(*args, **kwargs): """ MinY(self) -> int Gets the minimum vertical extent used in drawing commands so far. """ return _gdi_.DC_MinY(*args, **kwargs) def MaxY(*args, **kwargs): """ MaxY(self) -> int Gets the maximum vertical extent used in drawing commands so far. """ return _gdi_.DC_MaxY(*args, **kwargs) def GetBoundingBox(*args, **kwargs): """ GetBoundingBox() -> (x1,y1, x2,y2) Returns the min and max points used in drawing commands so far. """ return _gdi_.DC_GetBoundingBox(*args, **kwargs) def __nonzero__(self): return self.IsOk() def GetLayoutDirection(*args, **kwargs): """ GetLayoutDirection(self) -> int Get the layout direction (LTR or RTL)_ for this dc. On platforms where RTL layout is supported, the return value will either be ``wx.Layout_LeftToRight`` or ``wx.Layout_RightToLeft``. ``wx.Layout_Default`` is returned if layout direction is not supported. """ return _gdi_.DC_GetLayoutDirection(*args, **kwargs) def SetLayoutDirection(*args, **kwargs): """ SetLayoutDirection(self, int dir) Change the layout direction for this dc. """ return _gdi_.DC_SetLayoutDirection(*args, **kwargs) def GetHandle(*args, **kwargs): """GetHandle(self) -> void""" return _gdi_.DC_GetHandle(*args, **kwargs) def GetHDC(*args, **kwargs): """GetHDC(self) -> long""" return _gdi_.DC_GetHDC(*args, **kwargs) def _DrawPointList(*args, **kwargs): """_DrawPointList(self, PyObject pyCoords, PyObject pyPens, PyObject pyBrushes) -> PyObject""" return _gdi_.DC__DrawPointList(*args, **kwargs) def _DrawLineList(*args, **kwargs): """_DrawLineList(self, PyObject pyCoords, PyObject pyPens, PyObject pyBrushes) -> PyObject""" return _gdi_.DC__DrawLineList(*args, **kwargs) def _DrawRectangleList(*args, **kwargs): """_DrawRectangleList(self, PyObject pyCoords, PyObject pyPens, PyObject pyBrushes) -> PyObject""" return _gdi_.DC__DrawRectangleList(*args, **kwargs) def _DrawEllipseList(*args, **kwargs): """_DrawEllipseList(self, PyObject pyCoords, PyObject pyPens, PyObject pyBrushes) -> PyObject""" return _gdi_.DC__DrawEllipseList(*args, **kwargs) def _DrawPolygonList(*args, **kwargs): """_DrawPolygonList(self, PyObject pyCoords, PyObject pyPens, PyObject pyBrushes) -> PyObject""" return _gdi_.DC__DrawPolygonList(*args, **kwargs) def _DrawTextList(*args, **kwargs): """ _DrawTextList(self, PyObject textList, PyObject pyPoints, PyObject foregroundList, PyObject backgroundList) -> PyObject """ return _gdi_.DC__DrawTextList(*args, **kwargs) def DrawPointList(self, points, pens=None): """ Draw a list of points as quickly as possible. :param points: A sequence of 2-element sequences representing each point to draw, (x,y). :param pens: If None, then the current pen is used. If a single pen then it will be used for all points. If a list of pens then there should be one for each point in points. """ if pens is None: pens = [] elif isinstance(pens, wx.Pen): pens = [pens] elif len(pens) != len(points): raise ValueError('points and pens must have same length') return self._DrawPointList(points, pens, []) def DrawLineList(self, lines, pens=None): """ Draw a list of lines as quickly as possible. :param lines: A sequence of 4-element sequences representing each line to draw, (x1,y1, x2,y2). :param pens: If None, then the current pen is used. If a single pen then it will be used for all lines. If a list of pens then there should be one for each line in lines. """ if pens is None: pens = [] elif isinstance(pens, wx.Pen): pens = [pens] elif len(pens) != len(lines): raise ValueError('lines and pens must have same length') return self._DrawLineList(lines, pens, []) def DrawRectangleList(self, rectangles, pens=None, brushes=None): """ Draw a list of rectangles as quickly as possible. :param rectangles: A sequence of 4-element sequences representing each rectangle to draw, (x,y, w,h). :param pens: If None, then the current pen is used. If a single pen then it will be used for all rectangles. If a list of pens then there should be one for each rectangle in rectangles. :param brushes: A brush or brushes to be used to fill the rectagles, with similar semantics as the pens parameter. """ if pens is None: pens = [] elif isinstance(pens, wx.Pen): pens = [pens] elif len(pens) != len(rectangles): raise ValueError('rectangles and pens must have same length') if brushes is None: brushes = [] elif isinstance(brushes, wx.Brush): brushes = [brushes] elif len(brushes) != len(rectangles): raise ValueError('rectangles and brushes must have same length') return self._DrawRectangleList(rectangles, pens, brushes) def DrawEllipseList(self, ellipses, pens=None, brushes=None): """ Draw a list of ellipses as quickly as possible. :param ellipses: A sequence of 4-element sequences representing each ellipse to draw, (x,y, w,h). :param pens: If None, then the current pen is used. If a single pen then it will be used for all ellipses. If a list of pens then there should be one for each ellipse in ellipses. :param brushes: A brush or brushes to be used to fill the ellipses, with similar semantics as the pens parameter. """ if pens is None: pens = [] elif isinstance(pens, wx.Pen): pens = [pens] elif len(pens) != len(ellipses): raise ValueError('ellipses and pens must have same length') if brushes is None: brushes = [] elif isinstance(brushes, wx.Brush): brushes = [brushes] elif len(brushes) != len(ellipses): raise ValueError('ellipses and brushes must have same length') return self._DrawEllipseList(ellipses, pens, brushes) def DrawPolygonList(self, polygons, pens=None, brushes=None): """ Draw a list of polygons, each of which is a list of points. :param polygons: A sequence of sequences of sequences. [[(x1,y1),(x2,y2),(x3,y3)...], [(x1,y1),(x2,y2),(x3,y3)...]] :param pens: If None, then the current pen is used. If a single pen then it will be used for all polygons. If a list of pens then there should be one for each polygon. :param brushes: A brush or brushes to be used to fill the polygons, with similar semantics as the pens parameter. """ if pens is None: pens = [] elif isinstance(pens, wx.Pen): pens = [pens] elif len(pens) != len(polygons): raise ValueError('polygons and pens must have same length') if brushes is None: brushes = [] elif isinstance(brushes, wx.Brush): brushes = [brushes] elif len(brushes) != len(polygons): raise ValueError('polygons and brushes must have same length') return self._DrawPolygonList(polygons, pens, brushes) def DrawTextList(self, textList, coords, foregrounds = None, backgrounds = None): """ Draw a list of strings using a list of coordinants for positioning each string. :param textList: A list of strings :param coords: A list of (x,y) positions :param foregrounds: A list of `wx.Colour` objects to use for the foregrounds of the strings. :param backgrounds: A list of `wx.Colour` objects to use for the backgrounds of the strings. NOTE: Make sure you set Background mode to wx.Solid (DC.SetBackgroundMode) If you want backgrounds to do anything. """ if type(textList) == type(''): textList = [textList] elif len(textList) != len(coords): raise ValueError('textlist and coords must have same length') if foregrounds is None: foregrounds = [] elif isinstance(foregrounds, wx.Colour): foregrounds = [foregrounds] elif len(foregrounds) != len(coords): raise ValueError('foregrounds and coords must have same length') if backgrounds is None: backgrounds = [] elif isinstance(backgrounds, wx.Colour): backgrounds = [backgrounds] elif len(backgrounds) != len(coords): raise ValueError('backgrounds and coords must have same length') return self._DrawTextList(textList, coords, foregrounds, backgrounds) Background = property(GetBackground,SetBackground,doc="See `GetBackground` and `SetBackground`") BackgroundMode = property(GetBackgroundMode,SetBackgroundMode,doc="See `GetBackgroundMode` and `SetBackgroundMode`") BoundingBox = property(GetBoundingBox,doc="See `GetBoundingBox`") Brush = property(GetBrush,SetBrush,doc="See `GetBrush` and `SetBrush`") CharHeight = property(GetCharHeight,doc="See `GetCharHeight`") CharWidth = property(GetCharWidth,doc="See `GetCharWidth`") ClippingBox = property(GetClippingBox,doc="See `GetClippingBox`") ClippingRect = property(GetClippingRect,SetClippingRect,doc="See `GetClippingRect` and `SetClippingRect`") Depth = property(GetDepth,doc="See `GetDepth`") DeviceOrigin = property(GetDeviceOrigin,SetDeviceOrigin,doc="See `GetDeviceOrigin` and `SetDeviceOrigin`") Font = property(GetFont,SetFont,doc="See `GetFont` and `SetFont`") FullTextExtent = property(GetFullTextExtent,doc="See `GetFullTextExtent`") LogicalFunction = property(GetLogicalFunction,SetLogicalFunction,doc="See `GetLogicalFunction` and `SetLogicalFunction`") LogicalOrigin = property(GetLogicalOrigin,SetLogicalOrigin,doc="See `GetLogicalOrigin` and `SetLogicalOrigin`") LogicalScale = property(GetLogicalScale,SetLogicalScale,doc="See `GetLogicalScale` and `SetLogicalScale`") MapMode = property(GetMapMode,SetMapMode,doc="See `GetMapMode` and `SetMapMode`") MultiLineTextExtent = property(GetMultiLineTextExtent,doc="See `GetMultiLineTextExtent`") Optimization = property(GetOptimization,SetOptimization,doc="See `GetOptimization` and `SetOptimization`") PPI = property(GetPPI,doc="See `GetPPI`") PartialTextExtents = property(GetPartialTextExtents,doc="See `GetPartialTextExtents`") Pen = property(GetPen,SetPen,doc="See `GetPen` and `SetPen`") Size = property(GetSize,doc="See `GetSize`") SizeMM = property(GetSizeMM,doc="See `GetSizeMM`") TextBackground = property(GetTextBackground,SetTextBackground,doc="See `GetTextBackground` and `SetTextBackground`") TextExtent = property(GetTextExtent,doc="See `GetTextExtent`") TextForeground = property(GetTextForeground,SetTextForeground,doc="See `GetTextForeground` and `SetTextForeground`") UserScale = property(GetUserScale,SetUserScale,doc="See `GetUserScale` and `SetUserScale`") LayoutDirection = property(GetLayoutDirection,SetLayoutDirection) _gdi_.DC_swigregister(DC) #--------------------------------------------------------------------------- class DCTextColourChanger(object): """ wx.DCTextColourChanger can be used to temporarily change the DC text colour and restore it automatically when the object goes out of scope """ 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, DC dc, Colour col) -> DCTextColourChanger wx.DCTextColourChanger can be used to temporarily change the DC text colour and restore it automatically when the object goes out of scope """ _gdi_.DCTextColourChanger_swiginit(self,_gdi_.new_DCTextColourChanger(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_DCTextColourChanger __del__ = lambda self : None; def __enter__(self): return self def __exit__(self, exc_type, exc_val, exc_tb): return False _gdi_.DCTextColourChanger_swigregister(DCTextColourChanger) class DCPenChanger(object): """ wx.DCPenChanger can be used to temporarily change the DC pen and restore it automatically when the object goes out of scope """ 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, DC dc, Pen pen) -> DCPenChanger wx.DCPenChanger can be used to temporarily change the DC pen and restore it automatically when the object goes out of scope """ _gdi_.DCPenChanger_swiginit(self,_gdi_.new_DCPenChanger(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_DCPenChanger __del__ = lambda self : None; def __enter__(self): return self def __exit__(self, exc_type, exc_val, exc_tb): return False _gdi_.DCPenChanger_swigregister(DCPenChanger) class DCBrushChanger(object): """ wx.DCBrushChanger can be used to temporarily change the DC brush and restore it automatically when the object goes out of scope """ 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, DC dc, Brush brush) -> DCBrushChanger wx.DCBrushChanger can be used to temporarily change the DC brush and restore it automatically when the object goes out of scope """ _gdi_.DCBrushChanger_swiginit(self,_gdi_.new_DCBrushChanger(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_DCBrushChanger __del__ = lambda self : None; def __enter__(self): return self def __exit__(self, exc_type, exc_val, exc_tb): return False _gdi_.DCBrushChanger_swigregister(DCBrushChanger) class DCClipper(object): """ wx.wxDCClipper sets the DC's clipping region when it is constructed, and then automatically destroys the clipping region when the clipper goes out of scope. """ 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): """ __init__(self, DC dc, Region r) -> DCClipper __init__(self, DC dc, Rect r) -> DCClipper __init__(self, DC dc, int x, int y, int w, int h) -> DCClipper wx.wxDCClipper sets the DC's clipping region when it is constructed, and then automatically destroys the clipping region when the clipper goes out of scope. """ _gdi_.DCClipper_swiginit(self,_gdi_.new_DCClipper(*args)) __swig_destroy__ = _gdi_.delete_DCClipper __del__ = lambda self : None; def __enter__(self): return self def __exit__(self, exc_type, exc_val, exc_tb): return False _gdi_.DCClipper_swigregister(DCClipper) class DCFontChanger(object): """ wx.wxDCFontChanger sets the DC's font when it is constructed, and then restores the old font whrn it goes out of scope. """ 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, DC dc, Font font) -> DCFontChanger wx.wxDCFontChanger sets the DC's font when it is constructed, and then restores the old font whrn it goes out of scope. """ _gdi_.DCFontChanger_swiginit(self,_gdi_.new_DCFontChanger(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_DCFontChanger __del__ = lambda self : None; def Set(*args, **kwargs): """Set(self, Font font)""" return _gdi_.DCFontChanger_Set(*args, **kwargs) _gdi_.DCFontChanger_swigregister(DCFontChanger) #--------------------------------------------------------------------------- class ScreenDC(DC): """ A wxScreenDC can be used to paint anywhere on the screen. This should normally be constructed as a temporary stack object; don't store a wxScreenDC object. """ 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) -> ScreenDC A wxScreenDC can be used to paint anywhere on the screen. This should normally be constructed as a temporary stack object; don't store a wxScreenDC object. """ _gdi_.ScreenDC_swiginit(self,_gdi_.new_ScreenDC(*args, **kwargs)) def StartDrawingOnTopWin(*args, **kwargs): """ StartDrawingOnTopWin(self, Window window) -> bool Specify that the area of the screen to be drawn upon coincides with the given window. :see: `EndDrawingOnTop` """ return _gdi_.ScreenDC_StartDrawingOnTopWin(*args, **kwargs) def StartDrawingOnTop(*args, **kwargs): """ StartDrawingOnTop(self, Rect rect=None) -> bool Specify that the area is the given rectangle, or the whole screen if ``None`` is passed. :see: `EndDrawingOnTop` """ return _gdi_.ScreenDC_StartDrawingOnTop(*args, **kwargs) def EndDrawingOnTop(*args, **kwargs): """ EndDrawingOnTop(self) -> bool Use this in conjunction with `StartDrawingOnTop` or `StartDrawingOnTopWin` to ensure that drawing to the screen occurs on top of existing windows. Without this, some window systems (such as X) only allow drawing to take place underneath other windows. You might use this pair of functions when implementing a drag feature, for example as in the `wx.SplitterWindow` implementation. These functions are probably obsolete since the X implementations allow drawing directly on the screen now. However, the fact that this function allows the screen to be refreshed afterwards may be useful to some applications. """ return _gdi_.ScreenDC_EndDrawingOnTop(*args, **kwargs) _gdi_.ScreenDC_swigregister(ScreenDC) #--------------------------------------------------------------------------- class WindowDC(DC): """ A wx.WindowDC must be constructed if an application wishes to paint on the whole area of a window (client and decorations). This should normally be constructed as a temporary stack object; don't store a wx.WindowDC object. """ 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, Window win) -> WindowDC Constructor. Pass the window on which you wish to paint. """ _gdi_.WindowDC_swiginit(self,_gdi_.new_WindowDC(*args, **kwargs)) _gdi_.WindowDC_swigregister(WindowDC) #--------------------------------------------------------------------------- class ClientDC(WindowDC): """ A wx.ClientDC must be constructed if an application wishes to paint on the client area of a window from outside an EVT_PAINT event. This should normally be constructed as a temporary stack object; don't store a wx.ClientDC object long term. To draw on a window from within an EVT_PAINT handler, construct a `wx.PaintDC` object. To draw on the whole window including decorations, construct a `wx.WindowDC` object (Windows only). """ 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, Window win) -> ClientDC Constructor. Pass the window on which you wish to paint. """ _gdi_.ClientDC_swiginit(self,_gdi_.new_ClientDC(*args, **kwargs)) _gdi_.ClientDC_swigregister(ClientDC) #--------------------------------------------------------------------------- class PaintDC(ClientDC): """ A wx.PaintDC must be constructed if an application wishes to paint on the client area of a window from within an EVT_PAINT event handler. This should normally be constructed as a temporary stack object; don't store a wx.PaintDC object. If you have an EVT_PAINT handler, you **must** create a wx.PaintDC object within it even if you don't actually use it. Using wx.PaintDC within EVT_PAINT handlers is important because it automatically sets the clipping area to the damaged area of the window. Attempts to draw outside this area do not appear. To draw on a window from outside EVT_PAINT handlers, construct a `wx.ClientDC` object. """ 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, Window win) -> PaintDC Constructor. Pass the window on which you wish to paint. """ _gdi_.PaintDC_swiginit(self,_gdi_.new_PaintDC(*args, **kwargs)) _gdi_.PaintDC_swigregister(PaintDC) #--------------------------------------------------------------------------- class MemoryDC(WindowDC): """ A memory device context provides a means to draw graphics onto a bitmap. A bitmap must be selected into the new memory DC before it may be used for anything. Typical usage is as follows:: dc = wx.MemoryDC() dc.SelectObject(bitmap) # draw on the dc using any of the Draw methods dc.SelectObject(wx.NullBitmap) # the bitmap now contains wahtever was drawn upon it Note that the memory DC *must* be deleted (or the bitmap selected out of it) before a bitmap can be reselected into another memory DC. """ 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, Bitmap bitmap=NullBitmap) -> MemoryDC Constructs a new memory device context. Use the Ok member to test whether the constructor was successful in creating a usable device context. If a bitmap is not given to this constructor then don't forget to select a bitmap into the DC before drawing on it. """ _gdi_.MemoryDC_swiginit(self,_gdi_.new_MemoryDC(*args, **kwargs)) def SelectObject(*args, **kwargs): """ SelectObject(self, Bitmap bitmap) Selects the bitmap into the device context, to use as the memory bitmap. Selecting the bitmap into a memory DC allows you to draw into the DC, and therefore the bitmap, and also to use Blit to copy the bitmap to a window. If the argument is wx.NullBitmap (or some other uninitialised `wx.Bitmap`) the current bitmap is selected out of the device context, and the original bitmap restored, allowing the current bitmap to be destroyed safely. """ return _gdi_.MemoryDC_SelectObject(*args, **kwargs) def SelectObjectAsSource(*args, **kwargs): """SelectObjectAsSource(self, Bitmap bmp)""" return _gdi_.MemoryDC_SelectObjectAsSource(*args, **kwargs) _gdi_.MemoryDC_swigregister(MemoryDC) def MemoryDCFromDC(*args, **kwargs): """ MemoryDCFromDC(DC oldDC) -> MemoryDC Creates a DC that is compatible with the oldDC. """ val = _gdi_.new_MemoryDCFromDC(*args, **kwargs) return val #--------------------------------------------------------------------------- BUFFER_VIRTUAL_AREA = _gdi_.BUFFER_VIRTUAL_AREA BUFFER_CLIENT_AREA = _gdi_.BUFFER_CLIENT_AREA BUFFER_USES_SHARED_BUFFER = _gdi_.BUFFER_USES_SHARED_BUFFER class BufferedDC(MemoryDC): """ This simple class provides a simple way to avoid flicker: when drawing on it, everything is in fact first drawn on an in-memory buffer (a `wx.Bitmap`) and then copied to the screen only once, when this object is destroyed. You can either provide a buffer bitmap yourself, and reuse it the next time something needs painted, or you can let the buffered DC create and provide a buffer bitmap itself. Buffered DCs can be used in the same way as any other device context. wx.BufferedDC itself typically replaces `wx.ClientDC`, if you want to use it in your EVT_PAINT handler, you should look at `wx.BufferedPaintDC`. You can also use a wx.BufferedDC without providing a target DC. In this case the operations done on the dc will only be written to the buffer bitmap and *not* to any window, so you will want to have provided the buffer bitmap and then reuse it when it needs painted to the window. Please note that GTK+ 2.0 and OS X provide double buffering themselves natively. You may want to use `wx.Window.IsDoubleBuffered` to determine whether you need to use buffering or not, or use `wx.AutoBufferedPaintDC` to avoid needless double buffering on systems that already do it automatically. """ 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): """ __init__(self, DC dc, Bitmap buffer=NullBitmap, int style=BUFFER_CLIENT_AREA) -> BufferedDC __init__(self, DC dc, Size area, int style=BUFFER_CLIENT_AREA) -> BufferedDC Constructs a buffered DC. """ _gdi_.BufferedDC_swiginit(self,_gdi_.new_BufferedDC(*args)) # save a ref so the other dc will not be deleted before self self.__dc = args[0] # also save a ref to the bitmap if len(args) > 1: self.__bmp = args[1] __swig_destroy__ = _gdi_.delete_BufferedDC __del__ = lambda self : None; def UnMask(*args, **kwargs): """ UnMask(self) Blits the buffer to the dc, and detaches the dc from the buffer (so it can be effectively used once only). This is usually only called in the destructor. """ return _gdi_.BufferedDC_UnMask(*args, **kwargs) def SetStyle(*args, **kwargs): """SetStyle(self, int style)""" return _gdi_.BufferedDC_SetStyle(*args, **kwargs) def GetStyle(*args, **kwargs): """GetStyle(self) -> int""" return _gdi_.BufferedDC_GetStyle(*args, **kwargs) _gdi_.BufferedDC_swigregister(BufferedDC) class BufferedPaintDC(BufferedDC): """ This is a subclass of `wx.BufferedDC` which can be used inside of an EVT_PAINT event handler. Just create an object of this class instead of `wx.PaintDC` and that's all you have to do to (mostly) avoid flicker. The only thing to watch out for is that if you are using this class together with `wx.ScrolledWindow`, you probably do **not** want to call `wx.ScrolledWindow.PrepareDC` on it as it already does this internally for the real underlying `wx.PaintDC`. If your window is already fully buffered in a `wx.Bitmap` then your EVT_PAINT handler can be as simple as just creating a ``wx.BufferedPaintDC`` as it will `Blit` the buffer to the window automatically when it is destroyed. For example:: def OnPaint(self, event): dc = wx.BufferedPaintDC(self, self.buffer) """ 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, Window window, Bitmap buffer=NullBitmap, int style=BUFFER_CLIENT_AREA) -> BufferedPaintDC Create a buffered paint DC. As with `wx.BufferedDC`, you may either provide the bitmap to be used for buffering or let this object create one internally (in the latter case, the size of the client part of the window is automatically used). """ _gdi_.BufferedPaintDC_swiginit(self,_gdi_.new_BufferedPaintDC(*args, **kwargs)) if len(args) > 1: self.__bmp = args[1] _gdi_.BufferedPaintDC_swigregister(BufferedPaintDC) #--------------------------------------------------------------------------- class AutoBufferedPaintDC(DC): """ If the current platform double buffers by default then this DC is the same as a plain `wx.PaintDC`, otherwise it is a `wx.BufferedPaintDC`. :see: `wx.AutoBufferedPaintDCFactory` """ 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, Window win) -> AutoBufferedPaintDC If the current platform double buffers by default then this DC is the same as a plain `wx.PaintDC`, otherwise it is a `wx.BufferedPaintDC`. :see: `wx.AutoBufferedPaintDCFactory` """ _gdi_.AutoBufferedPaintDC_swiginit(self,_gdi_.new_AutoBufferedPaintDC(*args, **kwargs)) _gdi_.AutoBufferedPaintDC_swigregister(AutoBufferedPaintDC) def AutoBufferedPaintDCFactory(*args, **kwargs): """ AutoBufferedPaintDCFactory(Window window) -> DC Checks if the window is natively double buffered and will return a `wx.PaintDC` if it is, a `wx.BufferedPaintDC` otherwise. The advantage of this function over `wx.AutoBufferedPaintDC` is that this function will check if the the specified window has double-buffering enabled rather than just going by platform defaults. """ return _gdi_.AutoBufferedPaintDCFactory(*args, **kwargs) #--------------------------------------------------------------------------- class MirrorDC(DC): """ wx.MirrorDC is a simple wrapper class which is always associated with a real `wx.DC` object and either forwards all of its operations to it without changes (no mirroring takes place) or exchanges x and y coordinates which makes it possible to reuse the same code to draw a figure and its mirror -- i.e. reflection related to the diagonal line x == y. """ 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, DC dc, bool mirror) -> MirrorDC Creates a mirrored DC associated with the real *dc*. Everything drawn on the wx.MirrorDC will appear on the *dc*, and will be mirrored if *mirror* is True. """ _gdi_.MirrorDC_swiginit(self,_gdi_.new_MirrorDC(*args, **kwargs)) _gdi_.MirrorDC_swigregister(MirrorDC) #--------------------------------------------------------------------------- class PostScriptDC(DC): """This is a `wx.DC` that can write to PostScript files on any platform.""" 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, wxPrintData printData) -> PostScriptDC Constructs a PostScript printer device context from a `wx.PrintData` object. """ _gdi_.PostScriptDC_swiginit(self,_gdi_.new_PostScriptDC(*args, **kwargs)) _gdi_.PostScriptDC_swigregister(PostScriptDC) #--------------------------------------------------------------------------- class MetaFile(_core.Object): """Proxy of C++ MetaFile class""" 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, String filename=EmptyString) -> MetaFile""" _gdi_.MetaFile_swiginit(self,_gdi_.new_MetaFile(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_MetaFile __del__ = lambda self : None; def Play(*args, **kwargs): """Play(self, DC dc) -> bool""" return _gdi_.MetaFile_Play(*args, **kwargs) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.MetaFile_IsOk(*args, **kwargs) Ok = IsOk def SetClipboard(*args, **kwargs): """SetClipboard(self, int width=0, int height=0) -> bool""" return _gdi_.MetaFile_SetClipboard(*args, **kwargs) def GetSize(*args, **kwargs): """GetSize(self) -> Size""" return _gdi_.MetaFile_GetSize(*args, **kwargs) def GetWidth(*args, **kwargs): """GetWidth(self) -> int""" return _gdi_.MetaFile_GetWidth(*args, **kwargs) def GetHeight(*args, **kwargs): """GetHeight(self) -> int""" return _gdi_.MetaFile_GetHeight(*args, **kwargs) def GetFileName(*args, **kwargs): """GetFileName(self) -> String""" return _gdi_.MetaFile_GetFileName(*args, **kwargs) def __nonzero__(self): return self.IsOk() _gdi_.MetaFile_swigregister(MetaFile) class MetaFileDC(DC): """Proxy of C++ MetaFileDC class""" 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, String filename=EmptyString, int width=0, int height=0, String description=EmptyString) -> MetaFileDC """ _gdi_.MetaFileDC_swiginit(self,_gdi_.new_MetaFileDC(*args, **kwargs)) def Close(*args, **kwargs): """Close(self) -> MetaFile""" return _gdi_.MetaFileDC_Close(*args, **kwargs) _gdi_.MetaFileDC_swigregister(MetaFileDC) class EnhMetaFile(GDIObject): """Proxy of C++ EnhMetaFile class""" 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): """ __init__(self, String file=wxEmptyString) -> EnhMetaFile __init__(self, EnhMetaFile metafile) -> EnhMetaFile """ _gdi_.EnhMetaFile_swiginit(self,_gdi_.new_EnhMetaFile(*args)) __swig_destroy__ = _gdi_.delete_EnhMetaFile __del__ = lambda self : None; def Play(*args, **kwargs): """Play(self, DC dc, Rect rectBound=None) -> bool""" return _gdi_.EnhMetaFile_Play(*args, **kwargs) def IsOk(*args, **kwargs): """IsOk(self) -> bool""" return _gdi_.EnhMetaFile_IsOk(*args, **kwargs) def GetSize(*args, **kwargs): """GetSize(self) -> Size""" return _gdi_.EnhMetaFile_GetSize(*args, **kwargs) def GetWidth(*args, **kwargs): """GetWidth(self) -> int""" return _gdi_.EnhMetaFile_GetWidth(*args, **kwargs) def GetHeight(*args, **kwargs): """GetHeight(self) -> int""" return _gdi_.EnhMetaFile_GetHeight(*args, **kwargs) def GetFileName(*args, **kwargs): """GetFileName(self) -> String""" return _gdi_.EnhMetaFile_GetFileName(*args, **kwargs) def SetClipboard(*args, **kwargs): """SetClipboard(self, int width=0, int height=0) -> bool""" return _gdi_.EnhMetaFile_SetClipboard(*args, **kwargs) _gdi_.EnhMetaFile_swigregister(EnhMetaFile) class EnhMetaFileDC(DC): """Proxy of C++ EnhMetaFileDC class""" 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): """ __init__(self, String filename=wxEmptyString, int width=0, int height=0, String description=wxEmptyString) -> EnhMetaFileDC __init__(self, DC referenceDC, String filename=wxEmptyString, int width=0, int height=0, String description=wxEmptyString) -> EnhMetaFileDC """ _gdi_.EnhMetaFileDC_swiginit(self,_gdi_.new_EnhMetaFileDC(*args)) def Close(*args, **kwargs): """Close(self) -> EnhMetaFile""" return _gdi_.EnhMetaFileDC_Close(*args, **kwargs) _gdi_.EnhMetaFileDC_swigregister(EnhMetaFileDC) class PrinterDC(DC): """Proxy of C++ PrinterDC class""" 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, wxPrintData printData) -> PrinterDC""" _gdi_.PrinterDC_swiginit(self,_gdi_.new_PrinterDC(*args, **kwargs)) def GetPaperRect(*args, **kwargs): """GetPaperRect(self) -> Rect""" return _gdi_.PrinterDC_GetPaperRect(*args, **kwargs) _gdi_.PrinterDC_swigregister(PrinterDC) class SVGFileDC(DC): """Proxy of C++ SVGFileDC class""" 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, String filename, int width=320, int height=240, double dpi=72.0) -> SVGFileDC""" _gdi_.SVGFileDC_swiginit(self,_gdi_.new_SVGFileDC(*args, **kwargs)) _gdi_.SVGFileDC_swigregister(SVGFileDC) #--------------------------------------------------------------------------- ANTIALIAS_NONE = _gdi_.ANTIALIAS_NONE ANTIALIAS_DEFAULT = _gdi_.ANTIALIAS_DEFAULT INTERPOLATION_DEFAULT = _gdi_.INTERPOLATION_DEFAULT INTERPOLATION_NONE = _gdi_.INTERPOLATION_NONE INTERPOLATION_FAST = _gdi_.INTERPOLATION_FAST INTERPOLATION_GOOD = _gdi_.INTERPOLATION_GOOD INTERPOLATION_BEST = _gdi_.INTERPOLATION_BEST COMPOSITION_INVALID = _gdi_.COMPOSITION_INVALID COMPOSITION_CLEAR = _gdi_.COMPOSITION_CLEAR COMPOSITION_SOURCE = _gdi_.COMPOSITION_SOURCE COMPOSITION_OVER = _gdi_.COMPOSITION_OVER COMPOSITION_IN = _gdi_.COMPOSITION_IN COMPOSITION_OUT = _gdi_.COMPOSITION_OUT COMPOSITION_ATOP = _gdi_.COMPOSITION_ATOP COMPOSITION_DEST = _gdi_.COMPOSITION_DEST COMPOSITION_DEST_OVER = _gdi_.COMPOSITION_DEST_OVER COMPOSITION_DEST_IN = _gdi_.COMPOSITION_DEST_IN COMPOSITION_DEST_OUT = _gdi_.COMPOSITION_DEST_OUT COMPOSITION_DEST_ATOP = _gdi_.COMPOSITION_DEST_ATOP COMPOSITION_XOR = _gdi_.COMPOSITION_XOR COMPOSITION_ADD = _gdi_.COMPOSITION_ADD class GraphicsObject(_core.Object): """ This class is the superclass of native graphics objects like pens etc. It provides the internal reference counting. It is not to be instantiated by user code. """ 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, GraphicsRenderer renderer=None) -> GraphicsObject This class is the superclass of native graphics objects like pens etc. It provides the internal reference counting. It is not to be instantiated by user code. """ _gdi_.GraphicsObject_swiginit(self,_gdi_.new_GraphicsObject(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_GraphicsObject __del__ = lambda self : None; def IsNull(*args, **kwargs): """ IsNull(self) -> bool Is this object valid (false) or still empty (true)? """ return _gdi_.GraphicsObject_IsNull(*args, **kwargs) def GetRenderer(*args, **kwargs): """ GetRenderer(self) -> GraphicsRenderer Returns the renderer that was used to create this instance, or ``None`` if it has not been initialized yet. """ return _gdi_.GraphicsObject_GetRenderer(*args, **kwargs) _gdi_.GraphicsObject_swigregister(GraphicsObject) class GraphicsPen(GraphicsObject): """ A wx.GraphicsPen is a native representation of a pen. It is used for stroking a path on a `wx.GraphicsContext`. The contents are specific and private to the respective renderer. The only way to get a valid instance is via a CreatePen call on the graphics context or the renderer instance. """ 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) -> GraphicsPen A wx.GraphicsPen is a native representation of a pen. It is used for stroking a path on a `wx.GraphicsContext`. The contents are specific and private to the respective renderer. The only way to get a valid instance is via a CreatePen call on the graphics context or the renderer instance. """ _gdi_.GraphicsPen_swiginit(self,_gdi_.new_GraphicsPen(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_GraphicsPen __del__ = lambda self : None; _gdi_.GraphicsPen_swigregister(GraphicsPen) class GraphicsBrush(GraphicsObject): """ A wx.GraphicsBrush is a native representation of a brush. It is used for filling a path on a `wx.GraphicsContext`. The contents are specific and private to the respective renderer. The only way to get a valid instance is via a Create...Brush call on the graphics context or the renderer instance. """ 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) -> GraphicsBrush A wx.GraphicsBrush is a native representation of a brush. It is used for filling a path on a `wx.GraphicsContext`. The contents are specific and private to the respective renderer. The only way to get a valid instance is via a Create...Brush call on the graphics context or the renderer instance. """ _gdi_.GraphicsBrush_swiginit(self,_gdi_.new_GraphicsBrush(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_GraphicsBrush __del__ = lambda self : None; _gdi_.GraphicsBrush_swigregister(GraphicsBrush) class GraphicsFont(GraphicsObject): """ A `wx.GraphicsFont` is a native representation of a font (including text colour). The contents are specific an private to the respective renderer. The only way to get a valid instance is via a CreateFont call on the graphics context or the renderer instance. """ 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) -> GraphicsFont A `wx.GraphicsFont` is a native representation of a font (including text colour). The contents are specific an private to the respective renderer. The only way to get a valid instance is via a CreateFont call on the graphics context or the renderer instance. """ _gdi_.GraphicsFont_swiginit(self,_gdi_.new_GraphicsFont(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_GraphicsFont __del__ = lambda self : None; _gdi_.GraphicsFont_swigregister(GraphicsFont) class GraphicsBitmap(GraphicsObject): """Proxy of C++ GraphicsBitmap class""" 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) -> GraphicsBitmap""" _gdi_.GraphicsBitmap_swiginit(self,_gdi_.new_GraphicsBitmap(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_GraphicsBitmap __del__ = lambda self : None; _gdi_.GraphicsBitmap_swigregister(GraphicsBitmap) class GraphicsMatrix(GraphicsObject): """ A wx.GraphicsMatrix is a native representation of an affine matrix. The contents are specific and private to the respective renderer. The only way to get a valid instance is via a CreateMatrix call on the graphics context or the renderer instance. """ thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr __swig_destroy__ = _gdi_.delete_GraphicsMatrix __del__ = lambda self : None; def Concat(*args, **kwargs): """ Concat(self, GraphicsMatrix t) Concatenates the passed in matrix to the current matrix. """ return _gdi_.GraphicsMatrix_Concat(*args, **kwargs) def Set(*args, **kwargs): """ Set(self, Double a=1.0, Double b=0.0, Double c=0.0, Double d=1.0, Double tx=0.0, Double ty=0.0) Sets the matrix to the specified values (default values are the identity matrix.) """ return _gdi_.GraphicsMatrix_Set(*args, **kwargs) def Get(*args, **kwargs): """ Get(self) --> (a, b, c, d, tx, ty) Gets the component values of the matrix and returns them as a tuple. """ return _gdi_.GraphicsMatrix_Get(*args, **kwargs) def Invert(*args, **kwargs): """ Invert(self) Inverts the matrix. """ return _gdi_.GraphicsMatrix_Invert(*args, **kwargs) def IsEqual(*args, **kwargs): """ IsEqual(self, GraphicsMatrix t) -> bool Returns ``True`` if the elements of the transformation matrix are equal """ return _gdi_.GraphicsMatrix_IsEqual(*args, **kwargs) def IsIdentity(*args, **kwargs): """ IsIdentity(self) -> bool Returns ``True`` if this is the identity matrix """ return _gdi_.GraphicsMatrix_IsIdentity(*args, **kwargs) def Translate(*args, **kwargs): """ Translate(self, Double dx, Double dy) Add a translation to this matrix. """ return _gdi_.GraphicsMatrix_Translate(*args, **kwargs) def Scale(*args, **kwargs): """ Scale(self, Double xScale, Double yScale) Scales this matrix. """ return _gdi_.GraphicsMatrix_Scale(*args, **kwargs) def Rotate(*args, **kwargs): """ Rotate(self, Double angle) Rotates this matrix. The angle should be specified in radians. """ return _gdi_.GraphicsMatrix_Rotate(*args, **kwargs) def TransformPoint(*args, **kwargs): """ TransformPoint(self, x, y) --> (x, y) Applies this matrix to a point, returns the resulting point values """ return _gdi_.GraphicsMatrix_TransformPoint(*args, **kwargs) def TransformDistance(*args, **kwargs): """ TransformDistance(self, dx, dy) --> (dx, dy) Applies this matrix to a distance (ie. performs all transforms except translations) """ return _gdi_.GraphicsMatrix_TransformDistance(*args, **kwargs) def GetNativeMatrix(*args, **kwargs): """ GetNativeMatrix(self) -> void Returns the native representation of the matrix. For CoreGraphics this is a CFAffineMatrix pointer. For GDIPlus a Matrix Pointer and for Cairo a cairo_matrix_t pointer. NOTE: For wxPython we still need a way to make this value usable. """ return _gdi_.GraphicsMatrix_GetNativeMatrix(*args, **kwargs) _gdi_.GraphicsMatrix_swigregister(GraphicsMatrix) class GraphicsPath(GraphicsObject): """Proxy of C++ GraphicsPath class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr __swig_destroy__ = _gdi_.delete_GraphicsPath __del__ = lambda self : None; def MoveToPoint(*args): """ MoveToPoint(self, Double x, Double y) MoveToPoint(self, Point2D p) Begins a new subpath at the specified point. """ return _gdi_.GraphicsPath_MoveToPoint(*args) def AddLineToPoint(*args): """ AddLineToPoint(self, Double x, Double y) AddLineToPoint(self, Point2D p) Adds a straight line from the current point to the specified point. """ return _gdi_.GraphicsPath_AddLineToPoint(*args) def AddCurveToPoint(*args): """ AddCurveToPoint(self, Double cx1, Double cy1, Double cx2, Double cy2, Double x, Double y) AddCurveToPoint(self, Point2D c1, Point2D c2, Point2D e) Adds a cubic Bezier curve from the current point, using two control points and an end point """ return _gdi_.GraphicsPath_AddCurveToPoint(*args) def AddPath(*args, **kwargs): """ AddPath(self, GraphicsPath path) Adds another path """ return _gdi_.GraphicsPath_AddPath(*args, **kwargs) def CloseSubpath(*args, **kwargs): """ CloseSubpath(self) Closes the current sub-path. """ return _gdi_.GraphicsPath_CloseSubpath(*args, **kwargs) def GetCurrentPoint(*args, **kwargs): """ GetCurrentPoint(self) -> Point2D Gets the last point of the current path, (0,0) if not yet set """ return _gdi_.GraphicsPath_GetCurrentPoint(*args, **kwargs) def AddArc(*args): """ AddArc(self, Double x, Double y, Double r, Double startAngle, Double endAngle, bool clockwise=True) AddArc(self, Point2D c, Double r, Double startAngle, Double endAngle, bool clockwise=True) Adds an arc of a circle centering at (x,y) with radius (r) from startAngle to endAngle """ return _gdi_.GraphicsPath_AddArc(*args) def AddQuadCurveToPoint(*args, **kwargs): """ AddQuadCurveToPoint(self, Double cx, Double cy, Double x, Double y) Adds a quadratic Bezier curve from the current point, using a control point and an end point """ return _gdi_.GraphicsPath_AddQuadCurveToPoint(*args, **kwargs) def AddRectangle(*args, **kwargs): """ AddRectangle(self, Double x, Double y, Double w, Double h) Appends a rectangle as a new closed subpath. """ return _gdi_.GraphicsPath_AddRectangle(*args, **kwargs) def AddCircle(*args, **kwargs): """ AddCircle(self, Double x, Double y, Double r) Appends a circle around (x,y) with radius r as a new closed subpath. """ return _gdi_.GraphicsPath_AddCircle(*args, **kwargs) def AddArcToPoint(*args, **kwargs): """ AddArcToPoint(self, Double x1, Double y1, Double x2, Double y2, Double r) Appends an arc to two tangents connecting (current) to (x1,y1) and (x1,y1) to (x2,y2), also a straight line from (current) to (x1,y1) """ return _gdi_.GraphicsPath_AddArcToPoint(*args, **kwargs) def AddEllipse(*args, **kwargs): """ AddEllipse(self, Double x, Double y, Double w, Double h) Appends an ellipse fitting into the passed in rectangle. """ return _gdi_.GraphicsPath_AddEllipse(*args, **kwargs) def AddRoundedRectangle(*args, **kwargs): """ AddRoundedRectangle(self, Double x, Double y, Double w, Double h, Double radius) Appends a rounded rectangle. """ return _gdi_.GraphicsPath_AddRoundedRectangle(*args, **kwargs) def GetNativePath(*args, **kwargs): """ GetNativePath(self) -> void Returns the native path (CGPathRef for Core Graphics, Path pointer for GDIPlus and a cairo_path_t pointer for cairo). NOTE: For wxPython we still need a way to make this value usable. """ return _gdi_.GraphicsPath_GetNativePath(*args, **kwargs) def UnGetNativePath(*args, **kwargs): """ UnGetNativePath(self, void p) Gives back the native path returned by GetNativePath() because there might be some deallocations necessary (eg on cairo the native path returned by GetNativePath is newly allocated each time). """ return _gdi_.GraphicsPath_UnGetNativePath(*args, **kwargs) def Transform(*args, **kwargs): """ Transform(self, GraphicsMatrix matrix) Transforms each point of this path by the matrix """ return _gdi_.GraphicsPath_Transform(*args, **kwargs) def GetBox(*args, **kwargs): """ GetBox(self) -> Rect2D Gets the bounding box enclosing all points (possibly including control points) """ return _gdi_.GraphicsPath_GetBox(*args, **kwargs) def Contains(*args): """ Contains(self, Double x, Double y, int fillStyle=ODDEVEN_RULE) -> bool Contains(self, Point2D c, int fillStyle=ODDEVEN_RULE) -> bool Returns ``True`` if the point is within the path. """ return _gdi_.GraphicsPath_Contains(*args) _gdi_.GraphicsPath_swigregister(GraphicsPath) class GraphicsGradientStop(object): """Proxy of C++ GraphicsGradientStop class""" 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, Colour col=wxTransparentColour, float pos=0.0) -> GraphicsGradientStop""" _gdi_.GraphicsGradientStop_swiginit(self,_gdi_.new_GraphicsGradientStop(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_GraphicsGradientStop __del__ = lambda self : None; def GetColour(*args, **kwargs): """GetColour(self) -> Colour""" return _gdi_.GraphicsGradientStop_GetColour(*args, **kwargs) def SetColour(*args, **kwargs): """SetColour(self, Colour col)""" return _gdi_.GraphicsGradientStop_SetColour(*args, **kwargs) def GetPosition(*args, **kwargs): """GetPosition(self) -> float""" return _gdi_.GraphicsGradientStop_GetPosition(*args, **kwargs) def SetPosition(*args, **kwargs): """SetPosition(self, float pos)""" return _gdi_.GraphicsGradientStop_SetPosition(*args, **kwargs) Position = property(GetPosition,SetPosition) Colour = property(GetColour,SetColour) _gdi_.GraphicsGradientStop_swigregister(GraphicsGradientStop) cvar = _gdi_.cvar NullGraphicsPen = cvar.NullGraphicsPen NullGraphicsBrush = cvar.NullGraphicsBrush NullGraphicsFont = cvar.NullGraphicsFont NullGraphicsBitmap = cvar.NullGraphicsBitmap NullGraphicsMatrix = cvar.NullGraphicsMatrix NullGraphicsPath = cvar.NullGraphicsPath class GraphicsGradientStops(object): """Proxy of C++ GraphicsGradientStops class""" 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, Colour startCol=wxTransparentColour, Colour endCol=wxTransparentColour) -> GraphicsGradientStops""" _gdi_.GraphicsGradientStops_swiginit(self,_gdi_.new_GraphicsGradientStops(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_GraphicsGradientStops __del__ = lambda self : None; def Add(*args): """ Add(self, GraphicsGradientStop stop) Add(self, Colour col, float pos) """ return _gdi_.GraphicsGradientStops_Add(*args) def GetCount(*args, **kwargs): """GetCount(self) -> unsigned int""" return _gdi_.GraphicsGradientStops_GetCount(*args, **kwargs) def Item(*args, **kwargs): """Item(self, unsigned int n) -> GraphicsGradientStop""" return _gdi_.GraphicsGradientStops_Item(*args, **kwargs) def SetStartColour(*args, **kwargs): """SetStartColour(self, Colour col)""" return _gdi_.GraphicsGradientStops_SetStartColour(*args, **kwargs) def GetStartColour(*args, **kwargs): """GetStartColour(self) -> Colour""" return _gdi_.GraphicsGradientStops_GetStartColour(*args, **kwargs) def SetEndColour(*args, **kwargs): """SetEndColour(self, Colour col)""" return _gdi_.GraphicsGradientStops_SetEndColour(*args, **kwargs) def GetEndColour(*args, **kwargs): """GetEndColour(self) -> Colour""" return _gdi_.GraphicsGradientStops_GetEndColour(*args, **kwargs) def __len__(*args, **kwargs): """__len__(self) -> unsigned int""" return _gdi_.GraphicsGradientStops___len__(*args, **kwargs) def __getitem__(*args, **kwargs): """__getitem__(self, unsigned int n) -> GraphicsGradientStop""" return _gdi_.GraphicsGradientStops___getitem__(*args, **kwargs) Count = property(GetCount) StartColour = property(GetStartColour,SetStartColour) EndColour = property(GetEndColour,SetEndColour) _gdi_.GraphicsGradientStops_swigregister(GraphicsGradientStops) class GraphicsContext(GraphicsObject): """ A `wx.GraphicsContext` instance is the object that is drawn upon. It is created by a renderer using the CreateContext calls, this can be done either directly using a renderer instance, or indirectly using the static convenience CreateXXX functions of wx.GraphicsContext that always delegate the task to the default renderer. """ thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr __swig_destroy__ = _gdi_.delete_GraphicsContext __del__ = lambda self : None; def Create(*args): """ Create(WindowDC dc) -> GraphicsContext Create(MemoryDC dc) -> GraphicsContext Create(Window window) -> GraphicsContext Create(PrinterDC dc) -> GraphicsContext Create(MetaFileDC dc) -> GraphicsContext Create(EnhMetaFileDC dc) -> GraphicsContext Create(Image ?) -> GraphicsContext Creates a wx.GraphicsContext either from a window or a DC. """ val = _gdi_.GraphicsContext_Create(*args) val.__dc = args[0] # save a ref so the dc will not be deleted before self return val Create = staticmethod(Create) def CreateMeasuringContext(*args): """ CreateMeasuringContext() -> GraphicsContext Create a lightwieght context that can be used for measuring text only. """ return _gdi_.GraphicsContext_CreateMeasuringContext(*args) CreateMeasuringContext = staticmethod(CreateMeasuringContext) def CreateFromNative(*args, **kwargs): """ CreateFromNative(void context) -> GraphicsContext Creates a wx.GraphicsContext from a native context. This native context must be eg a CGContextRef for Core Graphics, a Graphics pointer for GDIPlus or a cairo_t pointer for Cairo. NOTE: For wxPython we still need a way to make this value usable. """ return _gdi_.GraphicsContext_CreateFromNative(*args, **kwargs) CreateFromNative = staticmethod(CreateFromNative) def CreateFromNativeWindow(*args, **kwargs): """ CreateFromNativeWindow(void window) -> GraphicsContext Creates a wx.GraphicsContext from a native window. NOTE: For wxPython we still need a way to make this value usable. """ return _gdi_.GraphicsContext_CreateFromNativeWindow(*args, **kwargs) CreateFromNativeWindow = staticmethod(CreateFromNativeWindow) def StartDoc(*args, **kwargs): """ StartDoc(self, String message) -> bool Begin a new document (relevant only for printing / pdf etc) if there is a progress dialog, message will be shown """ return _gdi_.GraphicsContext_StartDoc(*args, **kwargs) def EndDoc(*args, **kwargs): """ EndDoc(self) Done with that document (relevant only for printing / pdf etc) """ return _gdi_.GraphicsContext_EndDoc(*args, **kwargs) def StartPage(*args, **kwargs): """ StartPage(self, Double width=0, Double height=0) Opens a new page (relevant only for printing / pdf etc) with the given size in points (if both are null the default page size will be used) """ return _gdi_.GraphicsContext_StartPage(*args, **kwargs) def EndPage(*args, **kwargs): """ EndPage(self) Ends the current page (relevant only for printing / pdf etc) """ return _gdi_.GraphicsContext_EndPage(*args, **kwargs) def Flush(*args, **kwargs): """ Flush(self) Make sure that the current content of this context is immediately visible """ return _gdi_.GraphicsContext_Flush(*args, **kwargs) def CreatePath(*args, **kwargs): """ CreatePath(self) -> GraphicsPath Creates a native graphics path which is initially empty. """ return _gdi_.GraphicsContext_CreatePath(*args, **kwargs) def CreatePen(*args, **kwargs): """ CreatePen(self, Pen pen) -> GraphicsPen Creates a native pen from a `wx.Pen`. """ return _gdi_.GraphicsContext_CreatePen(*args, **kwargs) def CreateBrush(*args, **kwargs): """ CreateBrush(self, Brush brush) -> GraphicsBrush Creates a native brush from a `wx.Brush`. """ return _gdi_.GraphicsContext_CreateBrush(*args, **kwargs) def CreateLinearGradientBrush(*args): """ CreateLinearGradientBrush(self, Double x1, Double y1, Double x2, Double y2, Colour c1, Colour c2) -> GraphicsBrush CreateLinearGradientBrush(self, Double x1, Double y1, Double x2, Double y2, GraphicsGradientStops stops) -> GraphicsBrush Creates a native brush, having a linear gradient, starting at (x1,y1) to (x2,y2) with the given boundary colors or the specified stops. """ return _gdi_.GraphicsContext_CreateLinearGradientBrush(*args) def CreateRadialGradientBrush(*args): """ CreateRadialGradientBrush(self, Double xo, Double yo, Double xc, Double yc, Double radius, Colour oColor, Colour cColor) -> GraphicsBrush CreateRadialGradientBrush(self, Double xo, Double yo, Double xc, Double yc, Double radius, GraphicsGradientStops stops) -> GraphicsBrush Creates a native brush, having a radial gradient originating at point (xo,yo) and ending on a circle around (xc,yc) with the given radius; the colours may be specified by just the two extremes or the full array of gradient stops. """ return _gdi_.GraphicsContext_CreateRadialGradientBrush(*args) def CreateFont(*args): """ CreateFont(self, Font font, Colour col=*wxBLACK) -> GraphicsFont CreateFont(self, double sizeInPixels, String facename, int flags=FONTFLAG_DEFAULT, Colour col=*wxBLACK) -> GraphicsFont """ return _gdi_.GraphicsContext_CreateFont(*args) def CreateBitmap(*args, **kwargs): """ CreateBitmap(self, Bitmap bitmap) -> GraphicsBitmap Create a native bitmap representation. """ return _gdi_.GraphicsContext_CreateBitmap(*args, **kwargs) def CreateBitmapFromImage(*args, **kwargs): """CreateBitmapFromImage(self, Image image) -> GraphicsBitmap""" return _gdi_.GraphicsContext_CreateBitmapFromImage(*args, **kwargs) def CreateSubBitmap(*args, **kwargs): """ CreateSubBitmap(self, GraphicsBitmap bitmap, Double x, Double y, Double w, Double h) -> GraphicsBitmap Create a native bitmap representation using a subset of a wx.Bitmap. """ return _gdi_.GraphicsContext_CreateSubBitmap(*args, **kwargs) def CreateMatrix(*args, **kwargs): """ CreateMatrix(self, Double a=1.0, Double b=0.0, Double c=0.0, Double d=1.0, Double tx=0.0, Double ty=0.0) -> GraphicsMatrix Creates a native affine transformation matrix from the passed in values. The defaults result in an identity matrix. """ return _gdi_.GraphicsContext_CreateMatrix(*args, **kwargs) def PushState(*args, **kwargs): """ PushState(self) Push the current state of the context, (ie the transformation matrix) on a stack """ return _gdi_.GraphicsContext_PushState(*args, **kwargs) def PopState(*args, **kwargs): """ PopState(self) Pops a stored state from the stack """ return _gdi_.GraphicsContext_PopState(*args, **kwargs) def ClipRegion(*args, **kwargs): """ ClipRegion(self, Region region) Clips drawings to the region intersected with the current clipping region. """ return _gdi_.GraphicsContext_ClipRegion(*args, **kwargs) def Clip(*args, **kwargs): """ Clip(self, Double x, Double y, Double w, Double h) Clips drawings to the rectangle intersected with the current clipping region.. """ return _gdi_.GraphicsContext_Clip(*args, **kwargs) def ResetClip(*args, **kwargs): """ ResetClip(self) Resets the clipping to original shape. """ return _gdi_.GraphicsContext_ResetClip(*args, **kwargs) def GetNativeContext(*args, **kwargs): """ GetNativeContext(self) -> void Returns the native context (CGContextRef for Core Graphics, Graphics pointer for GDIPlus and cairo_t pointer for cairo). """ return _gdi_.GraphicsContext_GetNativeContext(*args, **kwargs) def GetAntialiasMode(*args, **kwargs): """ GetAntialiasMode(self) -> int Returns the current shape antialiasing mode """ return _gdi_.GraphicsContext_GetAntialiasMode(*args, **kwargs) def SetAntialiasMode(*args, **kwargs): """ SetAntialiasMode(self, int antialias) -> bool Sets the antialiasing mode, returns true if it is supported """ return _gdi_.GraphicsContext_SetAntialiasMode(*args, **kwargs) def GetInterpolationQuality(*args, **kwargs): """GetInterpolationQuality(self) -> int""" return _gdi_.GraphicsContext_GetInterpolationQuality(*args, **kwargs) def SetInterpolationQuality(*args, **kwargs): """SetInterpolationQuality(self, int interpolation) -> bool""" return _gdi_.GraphicsContext_SetInterpolationQuality(*args, **kwargs) def GetCompositionMode(*args, **kwargs): """ GetCompositionMode(self) -> int Returns the current compositing operator """ return _gdi_.GraphicsContext_GetCompositionMode(*args, **kwargs) def SetCompositionMode(*args, **kwargs): """ SetCompositionMode(self, int op) -> bool Sets the compositing operator, returns True if it supported """ return _gdi_.GraphicsContext_SetCompositionMode(*args, **kwargs) def GetSize(*args, **kwargs): """ GetSize(self) --> (width, height) Returns the size of the graphics context in device coordinates """ return _gdi_.GraphicsContext_GetSize(*args, **kwargs) def GetDPI(*args, **kwargs): """ GetDPI(self) --> (dpiX, dpiY) Returns the resolution of the graphics context in device points per inch """ return _gdi_.GraphicsContext_GetDPI(*args, **kwargs) def BeginLayer(*args, **kwargs): """ BeginLayer(self, Double opacity) all rendering is done into a fully transparent temporary context """ return _gdi_.GraphicsContext_BeginLayer(*args, **kwargs) def EndLayer(*args, **kwargs): """ EndLayer(self) composites back the drawings into the context with the opacity given at the BeginLayer call """ return _gdi_.GraphicsContext_EndLayer(*args, **kwargs) def Translate(*args, **kwargs): """ Translate(self, Double dx, Double dy) Translates the current transformation matrix. """ return _gdi_.GraphicsContext_Translate(*args, **kwargs) def Scale(*args, **kwargs): """ Scale(self, Double xScale, Double yScale) Scale the current transformation matrix of the context. """ return _gdi_.GraphicsContext_Scale(*args, **kwargs) def Rotate(*args, **kwargs): """ Rotate(self, Double angle) Rotate the current transformation matrix of the context. ``angle`` is specified in radians. """ return _gdi_.GraphicsContext_Rotate(*args, **kwargs) def ConcatTransform(*args, **kwargs): """ ConcatTransform(self, GraphicsMatrix matrix) Concatenates the passed in transform with the current transform of this context. """ return _gdi_.GraphicsContext_ConcatTransform(*args, **kwargs) def SetTransform(*args, **kwargs): """ SetTransform(self, GraphicsMatrix matrix) Sets the current transform of this context. """ return _gdi_.GraphicsContext_SetTransform(*args, **kwargs) def GetTransform(*args, **kwargs): """ GetTransform(self) -> GraphicsMatrix Gets the current transformation matrix of this context. """ return _gdi_.GraphicsContext_GetTransform(*args, **kwargs) def SetPen(*args): """ SetPen(self, GraphicsPen pen) SetPen(self, Pen pen) Sets the stroke pen """ return _gdi_.GraphicsContext_SetPen(*args) def SetBrush(*args): """ SetBrush(self, GraphicsBrush brush) SetBrush(self, Brush brush) Sets the brush for filling """ return _gdi_.GraphicsContext_SetBrush(*args) def SetFont(*args): """ SetFont(self, GraphicsFont font) SetFont(self, Font font, Colour colour=*wxBLACK) Sets the font """ return _gdi_.GraphicsContext_SetFont(*args) def StrokePath(*args, **kwargs): """ StrokePath(self, GraphicsPath path) Strokes along a path with the current pen. """ return _gdi_.GraphicsContext_StrokePath(*args, **kwargs) def FillPath(*args, **kwargs): """ FillPath(self, GraphicsPath path, int fillStyle=ODDEVEN_RULE) Fills a path with the current brush. """ return _gdi_.GraphicsContext_FillPath(*args, **kwargs) def DrawPath(*args, **kwargs): """ DrawPath(self, GraphicsPath path, int fillStyle=ODDEVEN_RULE) Draws the path by first filling and then stroking. """ return _gdi_.GraphicsContext_DrawPath(*args, **kwargs) def DrawText(*args, **kwargs): """ DrawText(self, String str, Double x, Double y, GraphicsBrush backgroundBrush=NullGraphicsBrush) Draws a text string at the defined position. """ return _gdi_.GraphicsContext_DrawText(*args, **kwargs) def DrawRotatedText(*args, **kwargs): """ DrawRotatedText(self, String str, Double x, Double y, Double angle, GraphicsBrush backgroundBrush=NullGraphicsBrush) Draws a text string at the defined position, at the specified angle, which is given in radians. """ return _gdi_.GraphicsContext_DrawRotatedText(*args, **kwargs) def GetFullTextExtent(*args, **kwargs): """ GetFullTextExtent(self, text) --> (width, height, descent, externalLeading) Gets the dimensions of the string using the currently selected font. ``text`` is the string to measure, ``w`` and ``h`` are the total width and height respectively, ``descent`` is the dimension from the baseline of the font to the bottom of the descender, and ``externalLeading`` is any extra vertical space added to the font by the font designer (usually is zero). """ return _gdi_.GraphicsContext_GetFullTextExtent(*args, **kwargs) def GetTextExtent(*args, **kwargs): """ GetTextExtent(self, text) --> (width, height) Gets the dimensions of the string using the currently selected font. ``text`` is the string to measure, ``w`` and ``h`` are the total width and height respectively. """ return _gdi_.GraphicsContext_GetTextExtent(*args, **kwargs) def GetPartialTextExtents(*args, **kwargs): """ GetPartialTextExtents(self, text) -> [widths] Returns a list of widths from the beginning of ``text`` to the coresponding character in ``text``. """ return _gdi_.GraphicsContext_GetPartialTextExtents(*args, **kwargs) def DrawBitmap(*args): """ DrawBitmap(self, GraphicsBitmap bmp, Double x, Double y, Double w, Double h) DrawBitmap(self, Bitmap bmp, Double x, Double y, Double w, Double h) Draws the bitmap. In case of a mono bitmap, this is treated as a mask and the current brush is used for filling. """ return _gdi_.GraphicsContext_DrawBitmap(*args) def DrawIcon(*args, **kwargs): """ DrawIcon(self, Icon icon, Double x, Double y, Double w, Double h) Draws the icon. """ return _gdi_.GraphicsContext_DrawIcon(*args, **kwargs) def StrokeLine(*args, **kwargs): """ StrokeLine(self, Double x1, Double y1, Double x2, Double y2) Strokes a single line. """ return _gdi_.GraphicsContext_StrokeLine(*args, **kwargs) def StrokeLines(*args, **kwargs): """ StrokeLines(self, List points) Stroke lines connecting each of the points """ return _gdi_.GraphicsContext_StrokeLines(*args, **kwargs) def StrokeLineSegements(*args, **kwargs): """ StrokeLineSegments(self, List beginPoints, List endPoints) Stroke disconnected lines from begin to end points """ return _gdi_.GraphicsContext_StrokeLineSegements(*args, **kwargs) def DrawLines(*args, **kwargs): """ DrawLines(self, size_t points, int fillStyle=ODDEVEN_RULE) Draws a polygon. """ return _gdi_.GraphicsContext_DrawLines(*args, **kwargs) def DrawRectangle(*args, **kwargs): """ DrawRectangle(self, Double x, Double y, Double w, Double h) Draws a rectangle. """ return _gdi_.GraphicsContext_DrawRectangle(*args, **kwargs) def DrawEllipse(*args, **kwargs): """ DrawEllipse(self, Double x, Double y, Double w, Double h) Draws an ellipse. """ return _gdi_.GraphicsContext_DrawEllipse(*args, **kwargs) def DrawRoundedRectangle(*args, **kwargs): """ DrawRoundedRectangle(self, Double x, Double y, Double w, Double h, Double radius) Draws a rounded rectangle """ return _gdi_.GraphicsContext_DrawRoundedRectangle(*args, **kwargs) def ShouldOffset(*args, **kwargs): """ ShouldOffset(self) -> bool helper to determine if a 0.5 offset should be applied for the drawing operation """ return _gdi_.GraphicsContext_ShouldOffset(*args, **kwargs) def EnableOffset(*args, **kwargs): """EnableOffset(self, bool enable=True)""" return _gdi_.GraphicsContext_EnableOffset(*args, **kwargs) def DisableOffset(*args, **kwargs): """DisableOffset(self)""" return _gdi_.GraphicsContext_DisableOffset(*args, **kwargs) def OffsetEnabled(*args, **kwargs): """OffsetEnabled(self) -> bool""" return _gdi_.GraphicsContext_OffsetEnabled(*args, **kwargs) _gdi_.GraphicsContext_swigregister(GraphicsContext) def GraphicsContext_Create(*args): """ Create(WindowDC dc) -> GraphicsContext Create(MemoryDC dc) -> GraphicsContext Create(Window window) -> GraphicsContext Create(PrinterDC dc) -> GraphicsContext Create(MetaFileDC dc) -> GraphicsContext Create(EnhMetaFileDC dc) -> GraphicsContext GraphicsContext_Create(Image ?) -> GraphicsContext Creates a wx.GraphicsContext either from a window or a DC. """ val = _gdi_.GraphicsContext_Create(*args) val.__dc = args[0] # save a ref so the dc will not be deleted before self return val def GraphicsContext_CreateMeasuringContext(*args): """ GraphicsContext_CreateMeasuringContext() -> GraphicsContext Create a lightwieght context that can be used for measuring text only. """ return _gdi_.GraphicsContext_CreateMeasuringContext(*args) def GraphicsContext_CreateFromNative(*args, **kwargs): """ GraphicsContext_CreateFromNative(void context) -> GraphicsContext Creates a wx.GraphicsContext from a native context. This native context must be eg a CGContextRef for Core Graphics, a Graphics pointer for GDIPlus or a cairo_t pointer for Cairo. NOTE: For wxPython we still need a way to make this value usable. """ return _gdi_.GraphicsContext_CreateFromNative(*args, **kwargs) def GraphicsContext_CreateFromNativeWindow(*args, **kwargs): """ GraphicsContext_CreateFromNativeWindow(void window) -> GraphicsContext Creates a wx.GraphicsContext from a native window. NOTE: For wxPython we still need a way to make this value usable. """ return _gdi_.GraphicsContext_CreateFromNativeWindow(*args, **kwargs) class GraphicsRenderer(_core.Object): """Proxy of C++ GraphicsRenderer class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr __swig_destroy__ = _gdi_.delete_GraphicsRenderer __del__ = lambda self : None; def GetDefaultRenderer(*args, **kwargs): """GetDefaultRenderer() -> GraphicsRenderer""" return _gdi_.GraphicsRenderer_GetDefaultRenderer(*args, **kwargs) GetDefaultRenderer = staticmethod(GetDefaultRenderer) def GetCairoRenderer(*args, **kwargs): """GetCairoRenderer() -> GraphicsRenderer""" return _gdi_.GraphicsRenderer_GetCairoRenderer(*args, **kwargs) GetCairoRenderer = staticmethod(GetCairoRenderer) def CreateContext(*args): """ CreateContext(self, WindowDC dc) -> GraphicsContext CreateContext(self, MemoryDC dc) -> GraphicsContext CreateContext(self, PrinterDC dc) -> GraphicsContext CreateContext(self, Window window) -> GraphicsContext CreateContext(self, MetaFileDC dc) -> GraphicsContext CreateContext(self, EnhMetaFileDC dc) -> GraphicsContext """ return _gdi_.GraphicsRenderer_CreateContext(*args) def CreateContextFromImage(*args, **kwargs): """CreateContextFromImage(self, Image image) -> GraphicsContext""" return _gdi_.GraphicsRenderer_CreateContextFromImage(*args, **kwargs) def CreateMeasuringContext(*args, **kwargs): """CreateMeasuringContext(self) -> GraphicsContext""" return _gdi_.GraphicsRenderer_CreateMeasuringContext(*args, **kwargs) def CreateContextFromNativeContext(*args, **kwargs): """CreateContextFromNativeContext(self, void context) -> GraphicsContext""" return _gdi_.GraphicsRenderer_CreateContextFromNativeContext(*args, **kwargs) def CreateContextFromNativeWindow(*args, **kwargs): """CreateContextFromNativeWindow(self, void window) -> GraphicsContext""" return _gdi_.GraphicsRenderer_CreateContextFromNativeWindow(*args, **kwargs) def CreatePath(*args, **kwargs): """CreatePath(self) -> GraphicsPath""" return _gdi_.GraphicsRenderer_CreatePath(*args, **kwargs) def CreateMatrix(*args, **kwargs): """ CreateMatrix(self, Double a=1.0, Double b=0.0, Double c=0.0, Double d=1.0, Double tx=0.0, Double ty=0.0) -> GraphicsMatrix """ return _gdi_.GraphicsRenderer_CreateMatrix(*args, **kwargs) def CreatePen(*args, **kwargs): """CreatePen(self, Pen pen) -> GraphicsPen""" return _gdi_.GraphicsRenderer_CreatePen(*args, **kwargs) def CreateBrush(*args, **kwargs): """CreateBrush(self, Brush brush) -> GraphicsBrush""" return _gdi_.GraphicsRenderer_CreateBrush(*args, **kwargs) def CreateLinearGradientBrush(*args, **kwargs): """CreateLinearGradientBrush(self, Double x1, Double y1, Double x2, Double y2, GraphicsGradientStops stops) -> GraphicsBrush""" return _gdi_.GraphicsRenderer_CreateLinearGradientBrush(*args, **kwargs) def CreateRadialGradientBrush(*args, **kwargs): """ CreateRadialGradientBrush(self, Double xo, Double yo, Double xc, Double yc, Double radius, GraphicsGradientStops stops) -> GraphicsBrush """ return _gdi_.GraphicsRenderer_CreateRadialGradientBrush(*args, **kwargs) def CreateFont(*args): """ CreateFont(self, Font font, Colour col=*wxBLACK) -> GraphicsFont CreateFont(self, double sizeInPixels, String facename, int flags=FONTFLAG_DEFAULT, Colour col=*wxBLACK) -> GraphicsFont """ return _gdi_.GraphicsRenderer_CreateFont(*args) def CreateBitmap(*args, **kwargs): """CreateBitmap(self, Bitmap bitmap) -> GraphicsBitmap""" return _gdi_.GraphicsRenderer_CreateBitmap(*args, **kwargs) def CreateBitmapFromImage(*args, **kwargs): """CreateBitmapFromImage(self, Image image) -> GraphicsBitmap""" return _gdi_.GraphicsRenderer_CreateBitmapFromImage(*args, **kwargs) def CreateSubBitmap(*args, **kwargs): """ CreateSubBitmap(self, GraphicsBitmap bitmap, Double x, Double y, Double w, Double h) -> GraphicsBitmap """ return _gdi_.GraphicsRenderer_CreateSubBitmap(*args, **kwargs) _gdi_.GraphicsRenderer_swigregister(GraphicsRenderer) def GraphicsRenderer_GetDefaultRenderer(*args): """GraphicsRenderer_GetDefaultRenderer() -> GraphicsRenderer""" return _gdi_.GraphicsRenderer_GetDefaultRenderer(*args) def GraphicsRenderer_GetCairoRenderer(*args): """GraphicsRenderer_GetCairoRenderer() -> GraphicsRenderer""" return _gdi_.GraphicsRenderer_GetCairoRenderer(*args) class GCDC(DC): """Proxy of C++ GCDC class""" 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): """ __init__(self, WindowDC dc) -> GCDC __init__(self, MemoryDC dc) -> GCDC __init__(self, PrinterDC dc) -> GCDC __init__(self, Window window) -> GCDC __init__(self, GraphicsContext ctx) -> GCDC """ _gdi_.GCDC_swiginit(self,_gdi_.new_GCDC(*args)) self.__dc = args[0] # save a ref so the other dc will not be deleted before self __swig_destroy__ = _gdi_.delete_GCDC __del__ = lambda self : None; def GetGraphicsContext(*args, **kwargs): """GetGraphicsContext(self) -> GraphicsContext""" return _gdi_.GCDC_GetGraphicsContext(*args, **kwargs) def SetGraphicsContext(*args, **kwargs): """SetGraphicsContext(self, GraphicsContext ctx)""" return _gdi_.GCDC_SetGraphicsContext(*args, **kwargs) GraphicsContext = property(GetGraphicsContext,SetGraphicsContext) _gdi_.GCDC_swigregister(GCDC) class Overlay(object): """Proxy of C++ Overlay class""" 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) -> Overlay""" _gdi_.Overlay_swiginit(self,_gdi_.new_Overlay(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_Overlay __del__ = lambda self : None; def Reset(*args, **kwargs): """Reset(self)""" return _gdi_.Overlay_Reset(*args, **kwargs) _gdi_.Overlay_swigregister(Overlay) class DCOverlay(object): """Proxy of C++ DCOverlay class""" 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): """ __init__(self, Overlay overlay, DC dc, int x, int y, int width, int height) -> DCOverlay __init__(self, Overlay overlay, DC dc) -> DCOverlay """ _gdi_.DCOverlay_swiginit(self,_gdi_.new_DCOverlay(*args)) self.__dc = args[1] # save a ref so the dc will not be deleted before self __swig_destroy__ = _gdi_.delete_DCOverlay __del__ = lambda self : None; def Clear(*args, **kwargs): """Clear(self)""" return _gdi_.DCOverlay_Clear(*args, **kwargs) _gdi_.DCOverlay_swigregister(DCOverlay) #--------------------------------------------------------------------------- IMAGELIST_DRAW_NORMAL = _gdi_.IMAGELIST_DRAW_NORMAL IMAGELIST_DRAW_TRANSPARENT = _gdi_.IMAGELIST_DRAW_TRANSPARENT IMAGELIST_DRAW_SELECTED = _gdi_.IMAGELIST_DRAW_SELECTED IMAGELIST_DRAW_FOCUSED = _gdi_.IMAGELIST_DRAW_FOCUSED IMAGE_LIST_NORMAL = _gdi_.IMAGE_LIST_NORMAL IMAGE_LIST_SMALL = _gdi_.IMAGE_LIST_SMALL IMAGE_LIST_STATE = _gdi_.IMAGE_LIST_STATE class ImageList(_core.Object): """Proxy of C++ ImageList class""" 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, int width, int height, int mask=True, int initialCount=1) -> ImageList""" _gdi_.ImageList_swiginit(self,_gdi_.new_ImageList(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_ImageList __del__ = lambda self : None; def Add(*args, **kwargs): """Add(self, Bitmap bitmap, Bitmap mask=NullBitmap) -> int""" return _gdi_.ImageList_Add(*args, **kwargs) def AddWithColourMask(*args, **kwargs): """AddWithColourMask(self, Bitmap bitmap, Colour maskColour) -> int""" return _gdi_.ImageList_AddWithColourMask(*args, **kwargs) def AddIcon(*args, **kwargs): """AddIcon(self, Icon icon) -> int""" return _gdi_.ImageList_AddIcon(*args, **kwargs) def GetBitmap(*args, **kwargs): """GetBitmap(self, int index) -> Bitmap""" return _gdi_.ImageList_GetBitmap(*args, **kwargs) def GetIcon(*args, **kwargs): """GetIcon(self, int index) -> Icon""" return _gdi_.ImageList_GetIcon(*args, **kwargs) def Replace(*args, **kwargs): """Replace(self, int index, Bitmap bitmap, Bitmap mask=NullBitmap) -> bool""" return _gdi_.ImageList_Replace(*args, **kwargs) def Draw(*args, **kwargs): """ Draw(self, int index, DC dc, int x, int x, int flags=IMAGELIST_DRAW_NORMAL, bool solidBackground=False) -> bool """ return _gdi_.ImageList_Draw(*args, **kwargs) def GetImageCount(*args, **kwargs): """GetImageCount(self) -> int""" return _gdi_.ImageList_GetImageCount(*args, **kwargs) def Remove(*args, **kwargs): """Remove(self, int index) -> bool""" return _gdi_.ImageList_Remove(*args, **kwargs) def RemoveAll(*args, **kwargs): """RemoveAll(self) -> bool""" return _gdi_.ImageList_RemoveAll(*args, **kwargs) def GetSize(*args, **kwargs): """GetSize(index) -> (width,height)""" return _gdi_.ImageList_GetSize(*args, **kwargs) ImageCount = property(GetImageCount,doc="See `GetImageCount`") Size = property(GetSize,doc="See `GetSize`") _gdi_.ImageList_swigregister(ImageList) #--------------------------------------------------------------------------- class StockGDI(object): """Proxy of C++ StockGDI class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') __repr__ = _swig_repr BRUSH_BLACK = _gdi_.StockGDI_BRUSH_BLACK BRUSH_BLUE = _gdi_.StockGDI_BRUSH_BLUE BRUSH_CYAN = _gdi_.StockGDI_BRUSH_CYAN BRUSH_GREEN = _gdi_.StockGDI_BRUSH_GREEN BRUSH_YELLOW = _gdi_.StockGDI_BRUSH_YELLOW BRUSH_GREY = _gdi_.StockGDI_BRUSH_GREY BRUSH_LIGHTGREY = _gdi_.StockGDI_BRUSH_LIGHTGREY BRUSH_MEDIUMGREY = _gdi_.StockGDI_BRUSH_MEDIUMGREY BRUSH_RED = _gdi_.StockGDI_BRUSH_RED BRUSH_TRANSPARENT = _gdi_.StockGDI_BRUSH_TRANSPARENT BRUSH_WHITE = _gdi_.StockGDI_BRUSH_WHITE COLOUR_BLACK = _gdi_.StockGDI_COLOUR_BLACK COLOUR_BLUE = _gdi_.StockGDI_COLOUR_BLUE COLOUR_CYAN = _gdi_.StockGDI_COLOUR_CYAN COLOUR_GREEN = _gdi_.StockGDI_COLOUR_GREEN COLOUR_YELLOW = _gdi_.StockGDI_COLOUR_YELLOW COLOUR_LIGHTGREY = _gdi_.StockGDI_COLOUR_LIGHTGREY COLOUR_RED = _gdi_.StockGDI_COLOUR_RED COLOUR_WHITE = _gdi_.StockGDI_COLOUR_WHITE CURSOR_CROSS = _gdi_.StockGDI_CURSOR_CROSS CURSOR_HOURGLASS = _gdi_.StockGDI_CURSOR_HOURGLASS CURSOR_STANDARD = _gdi_.StockGDI_CURSOR_STANDARD FONT_ITALIC = _gdi_.StockGDI_FONT_ITALIC FONT_NORMAL = _gdi_.StockGDI_FONT_NORMAL FONT_SMALL = _gdi_.StockGDI_FONT_SMALL FONT_SWISS = _gdi_.StockGDI_FONT_SWISS PEN_BLACK = _gdi_.StockGDI_PEN_BLACK PEN_BLACKDASHED = _gdi_.StockGDI_PEN_BLACKDASHED PEN_BLUE = _gdi_.StockGDI_PEN_BLUE PEN_CYAN = _gdi_.StockGDI_PEN_CYAN PEN_GREEN = _gdi_.StockGDI_PEN_GREEN PEN_YELLOW = _gdi_.StockGDI_PEN_YELLOW PEN_GREY = _gdi_.StockGDI_PEN_GREY PEN_LIGHTGREY = _gdi_.StockGDI_PEN_LIGHTGREY PEN_MEDIUMGREY = _gdi_.StockGDI_PEN_MEDIUMGREY PEN_RED = _gdi_.StockGDI_PEN_RED PEN_TRANSPARENT = _gdi_.StockGDI_PEN_TRANSPARENT PEN_WHITE = _gdi_.StockGDI_PEN_WHITE ITEMCOUNT = _gdi_.StockGDI_ITEMCOUNT def __init__(self, *args, **kwargs): """__init__(self) -> StockGDI""" _gdi_.StockGDI_swiginit(self,_gdi_.new_StockGDI(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_StockGDI __del__ = lambda self : None; def DeleteAll(*args, **kwargs): """DeleteAll()""" return _gdi_.StockGDI_DeleteAll(*args, **kwargs) DeleteAll = staticmethod(DeleteAll) def instance(*args, **kwargs): """instance() -> StockGDI""" return _gdi_.StockGDI_instance(*args, **kwargs) instance = staticmethod(instance) def GetBrush(*args, **kwargs): """GetBrush(int item) -> Brush""" return _gdi_.StockGDI_GetBrush(*args, **kwargs) GetBrush = staticmethod(GetBrush) def GetColour(*args, **kwargs): """GetColour(int item) -> Colour""" return _gdi_.StockGDI_GetColour(*args, **kwargs) GetColour = staticmethod(GetColour) def GetCursor(*args, **kwargs): """GetCursor(int item) -> Cursor""" return _gdi_.StockGDI_GetCursor(*args, **kwargs) GetCursor = staticmethod(GetCursor) def GetPen(*args, **kwargs): """GetPen(int item) -> Pen""" return _gdi_.StockGDI_GetPen(*args, **kwargs) GetPen = staticmethod(GetPen) def GetFont(*args, **kwargs): """GetFont(self, int item) -> Font""" return _gdi_.StockGDI_GetFont(*args, **kwargs) def _initStockObjects(): import wx wx.ITALIC_FONT.this = StockGDI.instance().GetFont(StockGDI.FONT_ITALIC).this wx.NORMAL_FONT.this = StockGDI.instance().GetFont(StockGDI.FONT_NORMAL).this wx.SMALL_FONT.this = StockGDI.instance().GetFont(StockGDI.FONT_SMALL).this wx.SWISS_FONT.this = StockGDI.instance().GetFont(StockGDI.FONT_SWISS).this wx.BLACK_DASHED_PEN.this = StockGDI.GetPen(StockGDI.PEN_BLACKDASHED).this wx.BLACK_PEN.this = StockGDI.GetPen(StockGDI.PEN_BLACK).this wx.BLUE_PEN.this = StockGDI.GetPen(StockGDI.PEN_BLUE).this wx.CYAN_PEN.this = StockGDI.GetPen(StockGDI.PEN_CYAN).this wx.GREEN_PEN.this = StockGDI.GetPen(StockGDI.PEN_GREEN).this wx.YELLOW_PEN.this = StockGDI.GetPen(StockGDI.PEN_YELLOW).this wx.GREY_PEN.this = StockGDI.GetPen(StockGDI.PEN_GREY).this wx.LIGHT_GREY_PEN.this = StockGDI.GetPen(StockGDI.PEN_LIGHTGREY).this wx.MEDIUM_GREY_PEN.this = StockGDI.GetPen(StockGDI.PEN_MEDIUMGREY).this wx.RED_PEN.this = StockGDI.GetPen(StockGDI.PEN_RED).this wx.TRANSPARENT_PEN.this = StockGDI.GetPen(StockGDI.PEN_TRANSPARENT).this wx.WHITE_PEN.this = StockGDI.GetPen(StockGDI.PEN_WHITE).this wx.BLACK_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_BLACK).this wx.BLUE_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_BLUE).this wx.CYAN_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_CYAN).this wx.GREEN_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_GREEN).this wx.YELLOW_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_YELLOW).this wx.GREY_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_GREY).this wx.LIGHT_GREY_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_LIGHTGREY).this wx.MEDIUM_GREY_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_MEDIUMGREY).this wx.RED_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_RED).this wx.TRANSPARENT_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_TRANSPARENT).this wx.WHITE_BRUSH.this = StockGDI.GetBrush(StockGDI.BRUSH_WHITE).this wx.BLACK.this = StockGDI.GetColour(StockGDI.COLOUR_BLACK).this wx.BLUE.this = StockGDI.GetColour(StockGDI.COLOUR_BLUE).this wx.CYAN.this = StockGDI.GetColour(StockGDI.COLOUR_CYAN).this wx.GREEN.this = StockGDI.GetColour(StockGDI.COLOUR_GREEN).this wx.YELLOW.this = StockGDI.GetColour(StockGDI.COLOUR_YELLOW).this wx.LIGHT_GREY.this = StockGDI.GetColour(StockGDI.COLOUR_LIGHTGREY).this wx.RED.this = StockGDI.GetColour(StockGDI.COLOUR_RED).this wx.WHITE.this = StockGDI.GetColour(StockGDI.COLOUR_WHITE).this wx.CROSS_CURSOR.this = StockGDI.GetCursor(StockGDI.CURSOR_CROSS).this wx.HOURGLASS_CURSOR.this = StockGDI.GetCursor(StockGDI.CURSOR_HOURGLASS).this wx.STANDARD_CURSOR.this = StockGDI.GetCursor(StockGDI.CURSOR_STANDARD).this wx.TheFontList.this = _wxPyInitTheFontList().this wx.ThePenList.this = _wxPyInitThePenList().this wx.TheBrushList.this = _wxPyInitTheBrushList().this wx.TheColourDatabase.this = _wxPyInitTheColourDatabase().this _initStockObjects = staticmethod(_initStockObjects) _gdi_.StockGDI_swigregister(StockGDI) def StockGDI_DeleteAll(*args): """StockGDI_DeleteAll()""" return _gdi_.StockGDI_DeleteAll(*args) def StockGDI_instance(*args): """StockGDI_instance() -> StockGDI""" return _gdi_.StockGDI_instance(*args) def StockGDI_GetBrush(*args, **kwargs): """StockGDI_GetBrush(int item) -> Brush""" return _gdi_.StockGDI_GetBrush(*args, **kwargs) def StockGDI_GetColour(*args, **kwargs): """StockGDI_GetColour(int item) -> Colour""" return _gdi_.StockGDI_GetColour(*args, **kwargs) def StockGDI_GetCursor(*args, **kwargs): """StockGDI_GetCursor(int item) -> Cursor""" return _gdi_.StockGDI_GetCursor(*args, **kwargs) def StockGDI_GetPen(*args, **kwargs): """StockGDI_GetPen(int item) -> Pen""" return _gdi_.StockGDI_GetPen(*args, **kwargs) # Create an uninitialized instance for the stock objects, they will # be initialized later when the wx.App object is created. ITALIC_FONT = Font.__new__(Font) NORMAL_FONT = Font.__new__(Font) SMALL_FONT = Font.__new__(Font) SWISS_FONT = Font.__new__(Font) BLACK_DASHED_PEN = Pen.__new__(Pen) BLACK_PEN = Pen.__new__(Pen) BLUE_PEN = Pen.__new__(Pen) CYAN_PEN = Pen.__new__(Pen) GREEN_PEN = Pen.__new__(Pen) YELLOW_PEN = Pen.__new__(Pen) GREY_PEN = Pen.__new__(Pen) LIGHT_GREY_PEN = Pen.__new__(Pen) MEDIUM_GREY_PEN = Pen.__new__(Pen) RED_PEN = Pen.__new__(Pen) TRANSPARENT_PEN = Pen.__new__(Pen) WHITE_PEN = Pen.__new__(Pen) BLACK_BRUSH = Brush.__new__(Brush) BLUE_BRUSH = Brush.__new__(Brush) CYAN_BRUSH = Brush.__new__(Brush) GREEN_BRUSH = Brush.__new__(Brush) YELLOW_BRUSH = Brush.__new__(Brush) GREY_BRUSH = Brush.__new__(Brush) LIGHT_GREY_BRUSH = Brush.__new__(Brush) MEDIUM_GREY_BRUSH = Brush.__new__(Brush) RED_BRUSH = Brush.__new__(Brush) TRANSPARENT_BRUSH = Brush.__new__(Brush) WHITE_BRUSH = Brush.__new__(Brush) BLACK = Colour.__new__(Colour) BLUE = Colour.__new__(Colour) CYAN = Colour.__new__(Colour) GREEN = Colour.__new__(Colour) YELLOW = Colour.__new__(Colour) LIGHT_GREY = Colour.__new__(Colour) RED = Colour.__new__(Colour) WHITE = Colour.__new__(Colour) CROSS_CURSOR = Cursor.__new__(Cursor) HOURGLASS_CURSOR = Cursor.__new__(Cursor) STANDARD_CURSOR = Cursor.__new__(Cursor) TransparentColour = Colour(0,0,0,ALPHA_TRANSPARENT) class GDIObjListBase(object): """Proxy of C++ GDIObjListBase class""" 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) -> GDIObjListBase""" _gdi_.GDIObjListBase_swiginit(self,_gdi_.new_GDIObjListBase(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_GDIObjListBase __del__ = lambda self : None; _gdi_.GDIObjListBase_swigregister(GDIObjListBase) NullBitmap = cvar.NullBitmap NullIcon = cvar.NullIcon NullCursor = cvar.NullCursor NullPen = cvar.NullPen NullBrush = cvar.NullBrush NullPalette = cvar.NullPalette NullFont = cvar.NullFont NullColour = cvar.NullColour NullIconBundle = cvar.NullIconBundle class PenList(GDIObjListBase): """Proxy of C++ PenList class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr def FindOrCreatePen(*args, **kwargs): """FindOrCreatePen(self, Colour colour, int width, int style) -> Pen""" return _gdi_.PenList_FindOrCreatePen(*args, **kwargs) _gdi_.PenList_swigregister(PenList) class BrushList(GDIObjListBase): """Proxy of C++ BrushList class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr def FindOrCreateBrush(*args, **kwargs): """FindOrCreateBrush(self, Colour colour, int style=SOLID) -> Brush""" return _gdi_.BrushList_FindOrCreateBrush(*args, **kwargs) _gdi_.BrushList_swigregister(BrushList) class FontList(GDIObjListBase): """Proxy of C++ FontList class""" thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr def FindOrCreateFont(*args, **kwargs): """ FindOrCreateFont(self, int point_size, int family, int style, int weight, bool underline=False, String facename=EmptyString, int encoding=FONTENCODING_DEFAULT) -> Font """ return _gdi_.FontList_FindOrCreateFont(*args, **kwargs) _gdi_.FontList_swigregister(FontList) class ColourDatabase(object): """Proxy of C++ ColourDatabase class""" 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) -> ColourDatabase""" _gdi_.ColourDatabase_swiginit(self,_gdi_.new_ColourDatabase(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_ColourDatabase __del__ = lambda self : None; def Find(*args, **kwargs): """Find(self, String name) -> Colour""" return _gdi_.ColourDatabase_Find(*args, **kwargs) def FindName(*args, **kwargs): """FindName(self, Colour colour) -> String""" return _gdi_.ColourDatabase_FindName(*args, **kwargs) FindColour = Find def AddColour(*args, **kwargs): """AddColour(self, String name, Colour colour)""" return _gdi_.ColourDatabase_AddColour(*args, **kwargs) def Append(*args, **kwargs): """Append(self, String name, int red, int green, int blue)""" return _gdi_.ColourDatabase_Append(*args, **kwargs) _gdi_.ColourDatabase_swigregister(ColourDatabase) #--------------------------------------------------------------------------- def _wxPyInitTheFontList(*args): """_wxPyInitTheFontList() -> FontList""" return _gdi_._wxPyInitTheFontList(*args) def _wxPyInitThePenList(*args): """_wxPyInitThePenList() -> PenList""" return _gdi_._wxPyInitThePenList(*args) def _wxPyInitTheBrushList(*args): """_wxPyInitTheBrushList() -> BrushList""" return _gdi_._wxPyInitTheBrushList(*args) def _wxPyInitTheColourDatabase(*args): """_wxPyInitTheColourDatabase() -> ColourDatabase""" return _gdi_._wxPyInitTheColourDatabase(*args) # Create an uninitialized instance for the stock objects, they will # be initialized later when the wx.App object is created. TheFontList = FontList.__new__(FontList) ThePenList = PenList.__new__(PenList) TheBrushList = BrushList.__new__(BrushList) TheColourDatabase = ColourDatabase.__new__(ColourDatabase) #--------------------------------------------------------------------------- CONTROL_DISABLED = _gdi_.CONTROL_DISABLED CONTROL_FOCUSED = _gdi_.CONTROL_FOCUSED CONTROL_PRESSED = _gdi_.CONTROL_PRESSED CONTROL_SPECIAL = _gdi_.CONTROL_SPECIAL CONTROL_ISDEFAULT = _gdi_.CONTROL_ISDEFAULT CONTROL_ISSUBMENU = _gdi_.CONTROL_ISSUBMENU CONTROL_EXPANDED = _gdi_.CONTROL_EXPANDED CONTROL_SIZEGRIP = _gdi_.CONTROL_SIZEGRIP CONTROL_FLAT = _gdi_.CONTROL_FLAT CONTROL_CURRENT = _gdi_.CONTROL_CURRENT CONTROL_SELECTED = _gdi_.CONTROL_SELECTED CONTROL_CHECKED = _gdi_.CONTROL_CHECKED CONTROL_CHECKABLE = _gdi_.CONTROL_CHECKABLE CONTROL_UNDETERMINED = _gdi_.CONTROL_UNDETERMINED CONTROL_FLAGS_MASK = _gdi_.CONTROL_FLAGS_MASK CONTROL_DIRTY = _gdi_.CONTROL_DIRTY TITLEBAR_BUTTON_CLOSE = _gdi_.TITLEBAR_BUTTON_CLOSE TITLEBAR_BUTTON_MAXIMIZE = _gdi_.TITLEBAR_BUTTON_MAXIMIZE TITLEBAR_BUTTON_ICONIZE = _gdi_.TITLEBAR_BUTTON_ICONIZE TITLEBAR_BUTTON_RESTORE = _gdi_.TITLEBAR_BUTTON_RESTORE TITLEBAR_BUTTON_HELP = _gdi_.TITLEBAR_BUTTON_HELP class SplitterRenderParams(object): """ This is just a simple struct used as a return value of `wx.RendererNative.GetSplitterParams` and contains some platform specific metrics about splitters. * widthSash: the width of the splitter sash. * border: the width of the border of the splitter window. * isHotSensitive: ``True`` if the splitter changes its appearance when the mouse is over it. """ 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, int widthSash_, int border_, bool isSens_) -> SplitterRenderParams This is just a simple struct used as a return value of `wx.RendererNative.GetSplitterParams` and contains some platform specific metrics about splitters. * widthSash: the width of the splitter sash. * border: the width of the border of the splitter window. * isHotSensitive: ``True`` if the splitter changes its appearance when the mouse is over it. """ _gdi_.SplitterRenderParams_swiginit(self,_gdi_.new_SplitterRenderParams(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_SplitterRenderParams __del__ = lambda self : None; widthSash = property(_gdi_.SplitterRenderParams_widthSash_get) border = property(_gdi_.SplitterRenderParams_border_get) isHotSensitive = property(_gdi_.SplitterRenderParams_isHotSensitive_get) _gdi_.SplitterRenderParams_swigregister(SplitterRenderParams) class HeaderButtonParams(object): """Extra (optional) parameters for `wx.RendererNative.DrawHeaderButton`""" 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) -> HeaderButtonParams Extra (optional) parameters for `wx.RendererNative.DrawHeaderButton` """ _gdi_.HeaderButtonParams_swiginit(self,_gdi_.new_HeaderButtonParams(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_HeaderButtonParams __del__ = lambda self : None; m_arrowColour = property(_gdi_.HeaderButtonParams_m_arrowColour_get, _gdi_.HeaderButtonParams_m_arrowColour_set) m_selectionColour = property(_gdi_.HeaderButtonParams_m_selectionColour_get, _gdi_.HeaderButtonParams_m_selectionColour_set) m_labelText = property(_gdi_.HeaderButtonParams_m_labelText_get, _gdi_.HeaderButtonParams_m_labelText_set) m_labelFont = property(_gdi_.HeaderButtonParams_m_labelFont_get, _gdi_.HeaderButtonParams_m_labelFont_set) m_labelColour = property(_gdi_.HeaderButtonParams_m_labelColour_get, _gdi_.HeaderButtonParams_m_labelColour_set) m_labelBitmap = property(_gdi_.HeaderButtonParams_m_labelBitmap_get, _gdi_.HeaderButtonParams_m_labelBitmap_set) m_labelAlignment = property(_gdi_.HeaderButtonParams_m_labelAlignment_get, _gdi_.HeaderButtonParams_m_labelAlignment_set) _gdi_.HeaderButtonParams_swigregister(HeaderButtonParams) HDR_SORT_ICON_NONE = _gdi_.HDR_SORT_ICON_NONE HDR_SORT_ICON_UP = _gdi_.HDR_SORT_ICON_UP HDR_SORT_ICON_DOWN = _gdi_.HDR_SORT_ICON_DOWN class RendererVersion(object): """ This simple struct represents the `wx.RendererNative` interface version and is only used as the return value of `wx.RendererNative.GetVersion`. """ 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, int version_, int age_) -> RendererVersion This simple struct represents the `wx.RendererNative` interface version and is only used as the return value of `wx.RendererNative.GetVersion`. """ _gdi_.RendererVersion_swiginit(self,_gdi_.new_RendererVersion(*args, **kwargs)) __swig_destroy__ = _gdi_.delete_RendererVersion __del__ = lambda self : None; Current_Version = _gdi_.RendererVersion_Current_Version Current_Age = _gdi_.RendererVersion_Current_Age def IsCompatible(*args, **kwargs): """IsCompatible(RendererVersion ver) -> bool""" return _gdi_.RendererVersion_IsCompatible(*args, **kwargs) IsCompatible = staticmethod(IsCompatible) version = property(_gdi_.RendererVersion_version_get) age = property(_gdi_.RendererVersion_age_get) _gdi_.RendererVersion_swigregister(RendererVersion) def RendererVersion_IsCompatible(*args, **kwargs): """RendererVersion_IsCompatible(RendererVersion ver) -> bool""" return _gdi_.RendererVersion_IsCompatible(*args, **kwargs) class RendererNative(object): """ One of the design principles of wxWidgets is to use the native widgets on every platform in order to be as close as possible to the native look and feel on every platform. However there are still cases when some generic widgets are needed for various reasons, but it can sometimes take a lot of messy work to make them conform to the native LnF. The wx.RendererNative class is a collection of functions that have platform-specific implementations for drawing certain parts of genereic controls in ways that are as close to the native look as possible. Note that each drawing function restores the `wx.DC` attributes if it changes them, so it is safe to assume that the same pen, brush and colours that were active before the call to this function are still in effect after it. """ thisown = property(lambda x: x.this.own(), lambda x, v: x.this.own(v), doc='The membership flag') def __init__(self): raise AttributeError, "No constructor defined" __repr__ = _swig_repr def DrawHeaderButton(*args, **kwargs): """ DrawHeaderButton(self, Window win, DC dc, Rect rect, int flags=0, int sortArrow=HDR_SORT_ICON_NONE, HeaderButtonParams params=None) -> int Draw a header control button (such as what is used by `wx.ListCtrl` in report mode.) The optimal size of the label (text and icons) is returned. """ return _gdi_.RendererNative_DrawHeaderButton(*args, **kwargs) def DrawHeaderButtonContents(*args, **kwargs): """ DrawHeaderButtonContents(self, Window win, DC dc, Rect rect, int flags=0, int sortArrow=HDR_SORT_ICON_NONE, HeaderButtonParams params=None) -> int Draw the contents of a header control button, (label, sort arrows, etc.) Normally this is only called by `DrawHeaderButton`. """ return _gdi_.RendererNative_DrawHeaderButtonContents(*args, **kwargs) def GetHeaderButtonHeight(*args, **kwargs): """ GetHeaderButtonHeight(self, Window win) -> int Returns the default height of a header button, either a fixed platform height if available, or a generic height based on the window's font. """ return _gdi_.RendererNative_GetHeaderButtonHeight(*args, **kwargs) def GetHeaderButtonMargin(*args, **kwargs): """GetHeaderButtonMargin(self, Window win) -> int""" return _gdi_.RendererNative_GetHeaderButtonMargin(*args, **kwargs) def DrawTreeItemButton(*args, **kwargs): """ DrawTreeItemButton(self, Window win, DC dc, Rect rect, int flags=0) Draw the expanded/collapsed icon for a tree control item. """ return _gdi_.RendererNative_DrawTreeItemButton(*args, **kwargs) def DrawSplitterBorder(*args, **kwargs): """ DrawSplitterBorder(self, Window win, DC dc, Rect rect, int flags=0) Draw the border for a sash window: this border must be such that the sash drawn by `DrawSplitterSash` blends into it well. """ return _gdi_.RendererNative_DrawSplitterBorder(*args, **kwargs) def DrawSplitterSash(*args, **kwargs): """ DrawSplitterSash(self, Window win, DC dc, Size size, int position, int orient, int flags=0) Draw a sash. The orient parameter defines whether the sash should be vertical or horizontal and how the position should be interpreted. """ return _gdi_.RendererNative_DrawSplitterSash(*args, **kwargs) def DrawComboBoxDropButton(*args, **kwargs): """ DrawComboBoxDropButton(self, Window win, DC dc, Rect rect, int flags=0) Draw a button like the one used by `wx.ComboBox` to show a drop down window. The usual appearance is a downwards pointing arrow. The ``flags`` parameter may have the ``wx.CONTROL_PRESSED`` or ``wx.CONTROL_CURRENT`` bits set. """ return _gdi_.RendererNative_DrawComboBoxDropButton(*args, **kwargs) def DrawDropArrow(*args, **kwargs): """ DrawDropArrow(self, Window win, DC dc, Rect rect, int flags=0) Draw a drop down arrow that is suitable for use outside a combo box. Arrow will have a transparent background. ``rect`` is not entirely filled by the arrow. Instead, you should use bounding rectangle of a drop down button which arrow matches the size you need. ``flags`` may have the ``wx.CONTROL_PRESSED`` or ``wx.CONTROL_CURRENT`` bit set. """ return _gdi_.RendererNative_DrawDropArrow(*args, **kwargs) def DrawCheckBox(*args, **kwargs): """ DrawCheckBox(self, Window win, DC dc, Rect rect, int flags=0) Draw a check button. Flags may use wx.CONTROL_CHECKED, wx.CONTROL_UNDETERMINED and wx.CONTROL_CURRENT. """ return _gdi_.RendererNative_DrawCheckBox(*args, **kwargs) def GetCheckBoxSize(*args, **kwargs): """GetCheckBoxSize(self, Window win) -> Size""" return _gdi_.RendererNative_GetCheckBoxSize(*args, **kwargs) def DrawPushButton(*args, **kwargs): """ DrawPushButton(self, Window win, DC dc, Rect rect, int flags=0) Draw a blank button. Flags may be wx.CONTROL_PRESSED, wx.CONTROL_CURRENT and wx.CONTROL_ISDEFAULT """ return _gdi_.RendererNative_DrawPushButton(*args, **kwargs) def DrawItemSelectionRect(*args, **kwargs): """ DrawItemSelectionRect(self, Window win, DC dc, Rect rect, int flags=0) Draw rectangle indicating that an item in e.g. a list control has been selected or focused The flags parameter may be: ==================== ============================================ wx.CONTROL_SELECTED item is selected, e.g. draw background wx.CONTROL_CURRENT item is the current item, e.g. dotted border wx.CONTROL_FOCUSED the whole control has focus, e.g. blue background vs. grey otherwise ==================== ============================================ """ return _gdi_.RendererNative_DrawItemSelectionRect(*args, **kwargs) def DrawFocusRect(*args, **kwargs): """ DrawFocusRect(self, Window win, DC dc, Rect rect, int flags=0) Draw the focus rectangle around the label contained in the given rect. Only wxCONTROL_SELECTED makes sense in flags here """ return _gdi_.RendererNative_DrawFocusRect(*args, **kwargs) def GetSplitterParams(*args, **kwargs): """ GetSplitterParams(self, Window win) -> SplitterRenderParams Get the splitter parameters, see `wx.SplitterRenderParams`. """ return _gdi_.RendererNative_GetSplitterParams(*args, **kwargs) def DrawChoice(*args, **kwargs): """ DrawChoice(self, Window win, DC dc, Rect rect, int flags=0) Draw a native wxChoice """ return _gdi_.RendererNative_DrawChoice(*args, **kwargs) def DrawComboBox(*args, **kwargs): """ DrawComboBox(self, Window win, DC dc, Rect rect, int flags=0) Draw a native wxComboBox """ return _gdi_.RendererNative_DrawComboBox(*args, **kwargs) def DrawTextCtrl(*args, **kwargs): """ DrawTextCtrl(self, Window win, DC dc, Rect rect, int flags=0) Draw a native wxTextCtrl """ return _gdi_.RendererNative_DrawTextCtrl(*args, **kwargs) def DrawRadioBitmap(*args, **kwargs): """ DrawRadioBitmap(self, Window win, DC dc, Rect rect, int flags=0) Draw a native wxRadioButton (just the button image, not the text) """ return _gdi_.RendererNative_DrawRadioBitmap(*args, **kwargs) DrawRadioButton = wx.deprecated(DrawRadioBitmap, 'DrawRadioButton is deprecated, use `DrawRadioBitmap` instead.') def DrawTitleBarBitmap(*args, **kwargs): """ DrawTitleBarBitmap(self, Window win, DC dc, Rect rect, int button, int flags=0) Draw one of the standard title bar buttons. This is currently implemented only for MSW and OS X (for the close button only) because there is no way to render standard title bar buttons under the other platforms, the best can be done is to use normal (only) images which wxArtProvider provides for wxART_HELP and wxART_CLOSE (but not any other title bar buttons) """ return _gdi_.RendererNative_DrawTitleBarBitmap(*args, **kwargs) def Get(*args, **kwargs): """ Get() -> RendererNative Return the currently used renderer """ return _gdi_.RendererNative_Get(*args, **kwargs) Get = staticmethod(Get) def GetGeneric(*args, **kwargs): """ GetGeneric() -> RendererNative Return the generic implementation of the renderer. Under some platforms, this is the default renderer implementation, others have platform-specific default renderer which can be retrieved by calling `wx.RendererNative.GetDefault`. """ return _gdi_.RendererNative_GetGeneric(*args, **kwargs) GetGeneric = staticmethod(GetGeneric) def GetDefault(*args, **kwargs): """ GetDefault() -> RendererNative Return the default (native) implementation for this platform -- this is also the one used by default but this may be changed by calling `wx.RendererNative.Set` in which case the return value of this method may be different from the return value of `wx.RendererNative.Get`. """ return _gdi_.RendererNative_GetDefault(*args, **kwargs) GetDefault = staticmethod(GetDefault) def Set(*args, **kwargs): """ Set(RendererNative renderer) -> RendererNative Set the renderer to use, passing None reverts to using the default renderer. Returns the previous renderer used with Set or None. """ return _gdi_.RendererNative_Set(*args, **kwargs) Set = staticmethod(Set) def GetVersion(*args, **kwargs): """ GetVersion(self) -> RendererVersion Returns the version of the renderer. Will be used for ensuring compatibility of dynamically loaded renderers. """ return _gdi_.RendererNative_GetVersion(*args, **kwargs) SplitterParams = property(GetSplitterParams,doc="See `GetSplitterParams`") Version = property(GetVersion,doc="See `GetVersion`") _gdi_.RendererNative_swigregister(RendererNative) def RendererNative_Get(*args): """ RendererNative_Get() -> RendererNative Return the currently used renderer """ return _gdi_.RendererNative_Get(*args) def RendererNative_GetGeneric(*args): """ RendererNative_GetGeneric() -> RendererNative Return the generic implementation of the renderer. Under some platforms, this is the default renderer implementation, others have platform-specific default renderer which can be retrieved by calling `wx.RendererNative.GetDefault`. """ return _gdi_.RendererNative_GetGeneric(*args) def RendererNative_GetDefault(*args): """ RendererNative_GetDefault() -> RendererNative Return the default (native) implementation for this platform -- this is also the one used by default but this may be changed by calling `wx.RendererNative.Set` in which case the return value of this method may be different from the return value of `wx.RendererNative.Get`. """ return _gdi_.RendererNative_GetDefault(*args) def RendererNative_Set(*args, **kwargs): """ RendererNative_Set(RendererNative renderer) -> RendererNative Set the renderer to use, passing None reverts to using the default renderer. Returns the previous renderer used with Set or None. """ return _gdi_.RendererNative_Set(*args, **kwargs) #--------------------------------------------------------------------------- class PseudoDC(_core.Object): """ A PseudoDC is an object that can be used as if it were a `wx.DC`. All commands issued to the PseudoDC are stored in a list. You can then play these commands back to a real DC object using the DrawToDC method. Commands in the command list are indexed by ID. You can use this to clear the operations associated with a single ID and then re-draw the object associated with that ID. """ 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) -> PseudoDC Constructs a new Pseudo device context for recording dc operations """ _gdi_.PseudoDC_swiginit(self,_gdi_.new_PseudoDC(*args, **kwargs)) def BeginDrawing(*args, **kwargs): """ BeginDrawing(self) Allows for optimization of drawing code on platforms that need it. On other platforms this is just an empty function and is harmless. To take advantage of this postential optimization simply enclose each group of calls to the drawing primitives within calls to `BeginDrawing` and `EndDrawing`. """ return _gdi_.PseudoDC_BeginDrawing(*args, **kwargs) def EndDrawing(*args, **kwargs): """ EndDrawing(self) Ends the group of drawing primitives started with `BeginDrawing`, and invokes whatever optimization is available for this DC type on the current platform. """ return _gdi_.PseudoDC_EndDrawing(*args, **kwargs) __swig_destroy__ = _gdi_.delete_PseudoDC __del__ = lambda self : None; def RemoveAll(*args, **kwargs): """ RemoveAll(self) Removes all objects and operations from the recorded list. """ return _gdi_.PseudoDC_RemoveAll(*args, **kwargs) def GetLen(*args, **kwargs): """ GetLen(self) -> int Returns the number of operations in the recorded list. """ return _gdi_.PseudoDC_GetLen(*args, **kwargs) def SetId(*args, **kwargs): """ SetId(self, int id) Sets the id to be associated with subsequent operations. """ return _gdi_.PseudoDC_SetId(*args, **kwargs) def ClearId(*args, **kwargs): """ ClearId(self, int id) Removes all operations associated with id so the object can be redrawn. """ return _gdi_.PseudoDC_ClearId(*args, **kwargs) def RemoveId(*args, **kwargs): """ RemoveId(self, int id) Remove the object node (and all operations) associated with an id. """ return _gdi_.PseudoDC_RemoveId(*args, **kwargs) def TranslateId(*args, **kwargs): """ TranslateId(self, int id, int dx, int dy) Translate the operations of id by dx,dy. """ return _gdi_.PseudoDC_TranslateId(*args, **kwargs) def SetIdGreyedOut(*args, **kwargs): """ SetIdGreyedOut(self, int id, bool greyout=True) Set whether an object is drawn greyed out or not. """ return _gdi_.PseudoDC_SetIdGreyedOut(*args, **kwargs) def GetIdGreyedOut(*args, **kwargs): """ GetIdGreyedOut(self, int id) -> bool Get whether an object is drawn greyed out or not. """ return _gdi_.PseudoDC_GetIdGreyedOut(*args, **kwargs) def FindObjects(*args, **kwargs): """ FindObjects(self, int x, int y, int radius=1, Colour bg=*wxWHITE) -> PyObject Returns a list of all the id's that draw a pixel with color not equal to bg within radius of (x,y). Returns an empty list if nothing is found. The list is in reverse drawing order so list[0] is the top id. """ return _gdi_.PseudoDC_FindObjects(*args, **kwargs) def FindObjectsByBBox(*args, **kwargs): """ FindObjectsByBBox(self, int x, int y) -> PyObject Returns a list of all the id's whose bounding boxes include (x,y). Returns an empty list if nothing is found. The list is in reverse drawing order so list[0] is the top id. """ return _gdi_.PseudoDC_FindObjectsByBBox(*args, **kwargs) def DrawIdToDC(*args, **kwargs): """ DrawIdToDC(self, int id, DC dc) Draw recorded operations of id to dc. """ return _gdi_.PseudoDC_DrawIdToDC(*args, **kwargs) def SetIdBounds(*args, **kwargs): """ SetIdBounds(self, int id, Rect rect) Set the bounding rect of a given object. This will create an object node if one doesn't exist. """ return _gdi_.PseudoDC_SetIdBounds(*args, **kwargs) def GetIdBounds(*args, **kwargs): """ GetIdBounds(self, int id) -> Rect Returns the bounding rectangle previouly set with SetIdBounds. If no bounds have been set, it returns wx.Rect(0,0,0,0). """ return _gdi_.PseudoDC_GetIdBounds(*args, **kwargs) def DrawToDCClipped(*args, **kwargs): """ DrawToDCClipped(self, DC dc, Rect rect) Draws the recorded operations to dc unless the operation is known to be outside rect. """ return _gdi_.PseudoDC_DrawToDCClipped(*args, **kwargs) def DrawToDCClippedRgn(*args, **kwargs): """ DrawToDCClippedRgn(self, DC dc, Region region) Draws the recorded operations to dc unless the operation is known to be outside rect. """ return _gdi_.PseudoDC_DrawToDCClippedRgn(*args, **kwargs) def DrawToDC(*args, **kwargs): """ DrawToDC(self, DC dc) Draws the recorded operations to dc. """ return _gdi_.PseudoDC_DrawToDC(*args, **kwargs) def FloodFill(*args, **kwargs): """ FloodFill(self, int x, int y, Colour col, int style=FLOOD_SURFACE) Flood fills the device context starting from the given point, using the current brush colour, and using a style: - **wxFLOOD_SURFACE**: the flooding occurs until a colour other than the given colour is encountered. - **wxFLOOD_BORDER**: the area to be flooded is bounded by the given colour. Returns False if the operation failed. Note: The present implementation for non-Windows platforms may fail to find colour borders if the pixels do not match the colour exactly. However the function will still return true. """ return _gdi_.PseudoDC_FloodFill(*args, **kwargs) def FloodFillPoint(*args, **kwargs): """ FloodFillPoint(self, Point pt, Colour col, int style=FLOOD_SURFACE) Flood fills the device context starting from the given point, using the current brush colour, and using a style: - **wxFLOOD_SURFACE**: the flooding occurs until a colour other than the given colour is encountered. - **wxFLOOD_BORDER**: the area to be flooded is bounded by the given colour. Returns False if the operation failed. Note: The present implementation for non-Windows platforms may fail to find colour borders if the pixels do not match the colour exactly. However the function will still return true. """ return _gdi_.PseudoDC_FloodFillPoint(*args, **kwargs) def DrawLine(*args, **kwargs): """ DrawLine(self, int x1, int y1, int x2, int y2) Draws a line from the first point to the second. The current pen is used for drawing the line. Note that the second point is *not* part of the line and is not drawn by this function (this is consistent with the behaviour of many other toolkits). """ return _gdi_.PseudoDC_DrawLine(*args, **kwargs) def DrawLinePoint(*args, **kwargs): """ DrawLinePoint(self, Point pt1, Point pt2) Draws a line from the first point to the second. The current pen is used for drawing the line. Note that the second point is *not* part of the line and is not drawn by this function (this is consistent with the behaviour of many other toolkits). """ return _gdi_.PseudoDC_DrawLinePoint(*args, **kwargs) def CrossHair(*args, **kwargs): """ CrossHair(self, int x, int y) Displays a cross hair using the current pen. This is a vertical and horizontal line the height and width of the window, centred on the given point. """ return _gdi_.PseudoDC_CrossHair(*args, **kwargs) def CrossHairPoint(*args, **kwargs): """ CrossHairPoint(self, Point pt) Displays a cross hair using the current pen. This is a vertical and horizontal line the height and width of the window, centred on the given point. """ return _gdi_.PseudoDC_CrossHairPoint(*args, **kwargs) def DrawArc(*args, **kwargs): """ DrawArc(self, int x1, int y1, int x2, int y2, int xc, int yc) Draws an arc of a circle, centred on the *center* point (xc, yc), from the first point to the second. The current pen is used for the outline and the current brush for filling the shape. The arc is drawn in an anticlockwise direction from the start point to the end point. """ return _gdi_.PseudoDC_DrawArc(*args, **kwargs) def DrawArcPoint(*args, **kwargs): """ DrawArcPoint(self, Point pt1, Point pt2, Point center) Draws an arc of a circle, centred on the *center* point (xc, yc), from the first point to the second. The current pen is used for the outline and the current brush for filling the shape. The arc is drawn in an anticlockwise direction from the start point to the end point. """ return _gdi_.PseudoDC_DrawArcPoint(*args, **kwargs) def DrawCheckMark(*args, **kwargs): """ DrawCheckMark(self, int x, int y, int width, int height) Draws a check mark inside the given rectangle. """ return _gdi_.PseudoDC_DrawCheckMark(*args, **kwargs) def DrawCheckMarkRect(*args, **kwargs): """ DrawCheckMarkRect(self, Rect rect) Draws a check mark inside the given rectangle. """ return _gdi_.PseudoDC_DrawCheckMarkRect(*args, **kwargs) def DrawEllipticArc(*args, **kwargs): """ DrawEllipticArc(self, int x, int y, int w, int h, double start, double end) Draws an arc of an ellipse, with the given rectangle defining the bounds of the ellipse. The current pen is used for drawing the arc and the current brush is used for drawing the pie. The *start* and *end* parameters specify the start and end of the arc relative to the three-o'clock position from the center of the rectangle. Angles are specified in degrees (360 is a complete circle). Positive values mean counter-clockwise motion. If start is equal to end, a complete ellipse will be drawn. """ return _gdi_.PseudoDC_DrawEllipticArc(*args, **kwargs) def DrawEllipticArcPointSize(*args, **kwargs): """ DrawEllipticArcPointSize(self, Point pt, Size sz, double start, double end) Draws an arc of an ellipse, with the given rectangle defining the bounds of the ellipse. The current pen is used for drawing the arc and the current brush is used for drawing the pie. The *start* and *end* parameters specify the start and end of the arc relative to the three-o'clock position from the center of the rectangle. Angles are specified in degrees (360 is a complete circle). Positive values mean counter-clockwise motion. If start is equal to end, a complete ellipse will be drawn. """ return _gdi_.PseudoDC_DrawEllipticArcPointSize(*args, **kwargs) def DrawPoint(*args, **kwargs): """ DrawPoint(self, int x, int y) Draws a point using the current pen. """ return _gdi_.PseudoDC_DrawPoint(*args, **kwargs) def DrawPointPoint(*args, **kwargs): """ DrawPointPoint(self, Point pt) Draws a point using the current pen. """ return _gdi_.PseudoDC_DrawPointPoint(*args, **kwargs) def DrawRectangle(*args, **kwargs): """ DrawRectangle(self, int x, int y, int width, int height) Draws a rectangle with the given top left corner, and with the given size. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.PseudoDC_DrawRectangle(*args, **kwargs) def DrawRectangleRect(*args, **kwargs): """ DrawRectangleRect(self, Rect rect) Draws a rectangle with the given top left corner, and with the given size. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.PseudoDC_DrawRectangleRect(*args, **kwargs) def DrawRectanglePointSize(*args, **kwargs): """ DrawRectanglePointSize(self, Point pt, Size sz) Draws a rectangle with the given top left corner, and with the given size. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.PseudoDC_DrawRectanglePointSize(*args, **kwargs) def DrawRoundedRectangle(*args, **kwargs): """ DrawRoundedRectangle(self, int x, int y, int width, int height, double radius) Draws a rectangle with the given top left corner, and with the given size. The corners are quarter-circles using the given radius. The current pen is used for the outline and the current brush for filling the shape. If radius is positive, the value is assumed to be the radius of the rounded corner. If radius is negative, the absolute value is assumed to be the proportion of the smallest dimension of the rectangle. This means that the corner can be a sensible size relative to the size of the rectangle, and also avoids the strange effects X produces when the corners are too big for the rectangle. """ return _gdi_.PseudoDC_DrawRoundedRectangle(*args, **kwargs) def DrawRoundedRectangleRect(*args, **kwargs): """ DrawRoundedRectangleRect(self, Rect r, double radius) Draws a rectangle with the given top left corner, and with the given size. The corners are quarter-circles using the given radius. The current pen is used for the outline and the current brush for filling the shape. If radius is positive, the value is assumed to be the radius of the rounded corner. If radius is negative, the absolute value is assumed to be the proportion of the smallest dimension of the rectangle. This means that the corner can be a sensible size relative to the size of the rectangle, and also avoids the strange effects X produces when the corners are too big for the rectangle. """ return _gdi_.PseudoDC_DrawRoundedRectangleRect(*args, **kwargs) def DrawRoundedRectanglePointSize(*args, **kwargs): """ DrawRoundedRectanglePointSize(self, Point pt, Size sz, double radius) Draws a rectangle with the given top left corner, and with the given size. The corners are quarter-circles using the given radius. The current pen is used for the outline and the current brush for filling the shape. If radius is positive, the value is assumed to be the radius of the rounded corner. If radius is negative, the absolute value is assumed to be the proportion of the smallest dimension of the rectangle. This means that the corner can be a sensible size relative to the size of the rectangle, and also avoids the strange effects X produces when the corners are too big for the rectangle. """ return _gdi_.PseudoDC_DrawRoundedRectanglePointSize(*args, **kwargs) def DrawCircle(*args, **kwargs): """ DrawCircle(self, int x, int y, int radius) Draws a circle with the given center point and radius. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.PseudoDC_DrawCircle(*args, **kwargs) def DrawCirclePoint(*args, **kwargs): """ DrawCirclePoint(self, Point pt, int radius) Draws a circle with the given center point and radius. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.PseudoDC_DrawCirclePoint(*args, **kwargs) def DrawEllipse(*args, **kwargs): """ DrawEllipse(self, int x, int y, int width, int height) Draws an ellipse contained in the specified rectangle. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.PseudoDC_DrawEllipse(*args, **kwargs) def DrawEllipseRect(*args, **kwargs): """ DrawEllipseRect(self, Rect rect) Draws an ellipse contained in the specified rectangle. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.PseudoDC_DrawEllipseRect(*args, **kwargs) def DrawEllipsePointSize(*args, **kwargs): """ DrawEllipsePointSize(self, Point pt, Size sz) Draws an ellipse contained in the specified rectangle. The current pen is used for the outline and the current brush for filling the shape. """ return _gdi_.PseudoDC_DrawEllipsePointSize(*args, **kwargs) def DrawIcon(*args, **kwargs): """ DrawIcon(self, Icon icon, int x, int y) Draw an icon on the display (does nothing if the device context is PostScript). This can be the simplest way of drawing bitmaps on a window. """ return _gdi_.PseudoDC_DrawIcon(*args, **kwargs) def DrawIconPoint(*args, **kwargs): """ DrawIconPoint(self, Icon icon, Point pt) Draw an icon on the display (does nothing if the device context is PostScript). This can be the simplest way of drawing bitmaps on a window. """ return _gdi_.PseudoDC_DrawIconPoint(*args, **kwargs) def DrawBitmap(*args, **kwargs): """ DrawBitmap(self, Bitmap bmp, int x, int y, bool useMask=False) Draw a bitmap on the device context at the specified point. If *transparent* is true and the bitmap has a transparency mask, (or alpha channel on the platforms that support it) then the bitmap will be drawn transparently. """ return _gdi_.PseudoDC_DrawBitmap(*args, **kwargs) def DrawBitmapPoint(*args, **kwargs): """ DrawBitmapPoint(self, Bitmap bmp, Point pt, bool useMask=False) Draw a bitmap on the device context at the specified point. If *transparent* is true and the bitmap has a transparency mask, (or alpha channel on the platforms that support it) then the bitmap will be drawn transparently. """ return _gdi_.PseudoDC_DrawBitmapPoint(*args, **kwargs) def DrawText(*args, **kwargs): """ DrawText(self, String text, int x, int y) Draws a text string at the specified point, using the current text font, and the current text foreground and background colours. The coordinates refer to the top-left corner of the rectangle bounding the string. See `wx.DC.GetTextExtent` for how to get the dimensions of a text string, which can be used to position the text more precisely, (you will need to use a real DC with GetTextExtent as wx.PseudoDC does not implement it.) **NOTE**: under wxGTK the current logical function is used by this function but it is ignored by wxMSW. Thus, you should avoid using logical functions with this function in portable programs. """ return _gdi_.PseudoDC_DrawText(*args, **kwargs) def DrawTextPoint(*args, **kwargs): """ DrawTextPoint(self, String text, Point pt) Draws a text string at the specified point, using the current text font, and the current text foreground and background colours. The coordinates refer to the top-left corner of the rectangle bounding the string. See `wx.DC.GetTextExtent` for how to get the dimensions of a text string, which can be used to position the text more precisely, (you will need to use a real DC with GetTextExtent as wx.PseudoDC does not implement it.) **NOTE**: under wxGTK the current logical function is used by this function but it is ignored by wxMSW. Thus, you should avoid using logical functions with this function in portable programs. """ return _gdi_.PseudoDC_DrawTextPoint(*args, **kwargs) def DrawRotatedText(*args, **kwargs): """ DrawRotatedText(self, String text, int x, int y, double angle) Draws the text rotated by *angle* degrees, if supported by the platform. **NOTE**: Under Win9x only TrueType fonts can be drawn by this function. In particular, a font different from ``wx.NORMAL_FONT`` should be used as the it is not normally a TrueType font. ``wx.SWISS_FONT`` is an example of a font which is. """ return _gdi_.PseudoDC_DrawRotatedText(*args, **kwargs) def DrawRotatedTextPoint(*args, **kwargs): """ DrawRotatedTextPoint(self, String text, Point pt, double angle) Draws the text rotated by *angle* degrees, if supported by the platform. **NOTE**: Under Win9x only TrueType fonts can be drawn by this function. In particular, a font different from ``wx.NORMAL_FONT`` should be used as the it is not normally a TrueType font. ``wx.SWISS_FONT`` is an example of a font which is. """ return _gdi_.PseudoDC_DrawRotatedTextPoint(*args, **kwargs) def DrawLines(*args, **kwargs): """ DrawLines(self, List points, int xoffset=0, int yoffset=0) Draws lines using a sequence of `wx.Point` objects, adding the optional offset coordinate. The current pen is used for drawing the lines. """ return _gdi_.PseudoDC_DrawLines(*args, **kwargs) def DrawPolygon(*args, **kwargs): """ DrawPolygon(self, List points, int xoffset=0, int yoffset=0, wxPolygonFillMode fillStyle=ODDEVEN_RULE) Draws a filled polygon using a sequence of `wx.Point` objects, adding the optional offset coordinate. The last argument specifies the fill rule: ``wx.ODDEVEN_RULE`` (the default) or ``wx.WINDING_RULE``. The current pen is used for drawing the outline, and the current brush for filling the shape. Using a transparent brush suppresses filling. Note that wxWidgets automatically closes the first and last points. """ return _gdi_.PseudoDC_DrawPolygon(*args, **kwargs) def DrawLabel(*args, **kwargs): """ DrawLabel(self, String text, Rect rect, int alignment=wxALIGN_LEFT|wxALIGN_TOP, int indexAccel=-1) Draw *text* within the specified rectangle, abiding by the alignment flags. Will additionally emphasize the character at *indexAccel* if it is not -1. """ return _gdi_.PseudoDC_DrawLabel(*args, **kwargs) def DrawImageLabel(*args, **kwargs): """ DrawImageLabel(self, String text, Bitmap image, Rect rect, int alignment=wxALIGN_LEFT|wxALIGN_TOP, int indexAccel=-1) Draw *text* and an image (which may be ``wx.NullBitmap`` to skip drawing it) within the specified rectangle, abiding by the alignment flags. Will additionally emphasize the character at *indexAccel* if it is not -1. """ return _gdi_.PseudoDC_DrawImageLabel(*args, **kwargs) def DrawSpline(*args, **kwargs): """ DrawSpline(self, List points) Draws a spline between all given control points, (a list of `wx.Point` objects) using the current pen. The spline is drawn using a series of lines, using an algorithm taken from the X drawing program 'XFIG'. """ return _gdi_.PseudoDC_DrawSpline(*args, **kwargs) def Clear(*args, **kwargs): """ Clear(self) Clears the device context using the current background brush. """ return _gdi_.PseudoDC_Clear(*args, **kwargs) def SetFont(*args, **kwargs): """ SetFont(self, Font font) Sets the current font for the DC. It must be a valid font, in particular you should not pass ``wx.NullFont`` to this method. """ return _gdi_.PseudoDC_SetFont(*args, **kwargs) def SetPen(*args, **kwargs): """ SetPen(self, Pen pen) Sets the current pen for the DC. If the argument is ``wx.NullPen``, the current pen is selected out of the device context, and the original pen restored. """ return _gdi_.PseudoDC_SetPen(*args, **kwargs) def SetBrush(*args, **kwargs): """ SetBrush(self, Brush brush) Sets the current brush for the DC. If the argument is ``wx.NullBrush``, the current brush is selected out of the device context, and the original brush restored, allowing the current brush to be destroyed safely. """ return _gdi_.PseudoDC_SetBrush(*args, **kwargs) def SetBackground(*args, **kwargs): """ SetBackground(self, Brush brush) Sets the current background brush for the DC. """ return _gdi_.PseudoDC_SetBackground(*args, **kwargs) def SetBackgroundMode(*args, **kwargs): """ SetBackgroundMode(self, int mode) *mode* may be one of ``wx.SOLID`` and ``wx.TRANSPARENT``. This setting determines whether text will be drawn with a background colour or not. """ return _gdi_.PseudoDC_SetBackgroundMode(*args, **kwargs) def SetPalette(*args, **kwargs): """ SetPalette(self, Palette palette) If this is a window DC or memory DC, assigns the given palette to the window or bitmap associated with the DC. If the argument is ``wx.NullPalette``, the current palette is selected out of the device context, and the original palette restored. """ return _gdi_.PseudoDC_SetPalette(*args, **kwargs) def SetTextForeground(*args, **kwargs): """ SetTextForeground(self, Colour colour) Sets the current text foreground colour for the DC. """ return _gdi_.PseudoDC_SetTextForeground(*args, **kwargs) def SetTextBackground(*args, **kwargs): """ SetTextBackground(self, Colour colour) Sets the current text background colour for the DC. """ return _gdi_.PseudoDC_SetTextBackground(*args, **kwargs) def SetLogicalFunction(*args, **kwargs): """ SetLogicalFunction(self, int function) Sets the current logical function for the device context. This determines how a source pixel (from a pen or brush colour, combines with a destination pixel in the current device context. The possible values and their meaning in terms of source and destination pixel values are as follows: ================ ========================== wx.AND src AND dst wx.AND_INVERT (NOT src) AND dst wx.AND_REVERSE src AND (NOT dst) wx.CLEAR 0 wx.COPY src wx.EQUIV (NOT src) XOR dst wx.INVERT NOT dst wx.NAND (NOT src) OR (NOT dst) wx.NOR (NOT src) AND (NOT dst) wx.NO_OP dst wx.OR src OR dst wx.OR_INVERT (NOT src) OR dst wx.OR_REVERSE src OR (NOT dst) wx.SET 1 wx.SRC_INVERT NOT src wx.XOR src XOR dst ================ ========================== The default is wx.COPY, which simply draws with the current colour. The others combine the current colour and the background using a logical operation. wx.INVERT is commonly used for drawing rubber bands or moving outlines, since drawing twice reverts to the original colour. """ return _gdi_.PseudoDC_SetLogicalFunction(*args, **kwargs) IdBounds = property(GetIdBounds,SetIdBounds,doc="See `GetIdBounds` and `SetIdBounds`") Len = property(GetLen,doc="See `GetLen`") _gdi_.PseudoDC_swigregister(PseudoDC)