@header@

matplotlib.backends.backend_wxagg

index
/usr/lib/python2.4/site-packages/matplotlib/backends/backend_wxagg.py

Modules

matplotlib.backends._wxagg
matplotlib.backends.backend_wx
matplotlib
wx

Classes



matplotlib.backends.backend_agg.FigureCanvasAgg(matplotlib.backend_bases.FigureCanvasBase)

FigureCanvasWxAgg(matplotlib.backends.backend_wx.FigureCanvasWx, matplotlib.backends.backend_agg.FigureCanvasAgg)

matplotlib.backends.backend_wx.FigureCanvasWx(matplotlib.backend_bases.FigureCanvasBase, wx._windows.Panel)

FigureCanvasWxAgg(matplotlib.backends.backend_wx.FigureCanvasWx, matplotlib.backends.backend_agg.FigureCanvasAgg)

matplotlib.backends.backend_wx.FigureFrameWx(wx._windows.Frame)

FigureFrameWxAgg

matplotlib.backends.backend_wx.NavigationToolbar2Wx(matplotlib.backend_bases.NavigationToolbar2, wx._controls.ToolBar)

NavigationToolbar2WxAgg

class FigureCanvasWxAgg(matplotlib.backends.backend_wx.FigureCanvasWx, matplotlib.backends.backend_agg.FigureCanvasAgg)

    The FigureCanvas contains the figure and does event handling. In the wxPython backend, it is derived from wxPanel, and (usually) lives inside a frame instantiated by a FigureManagerWx. The parent window probably implements a wxSizer to control the displayed control size - but we give a hint as to our preferred minimum size.

Method resolution order:

FigureCanvasWxAgg

matplotlib.backends.backend_wx.FigureCanvasWx

matplotlib.backends.backend_agg.FigureCanvasAgg

matplotlib.backend_bases.FigureCanvasBase

wx._windows.Panel

wx._core.Window

wx._core.EvtHandler

wx._core.Object

__builtin__.object

Methods defined here:

blit(self, bbox=None)
Transfer the region of the agg buffer defined by bbox to the display. If bbox is None, the entire buffer is transferred.

draw(self, repaint=True)
Render the figure using agg.

print_figure(self, filename, dpi=None, facecolor='w', edgecolor='w', orientation='portrait', **kwargs)
Render the figure to hardcopy

Methods inherited from matplotlib.backends.backend_wx.FigureCanvasWx:

Copy_to_Clipboard(self, event=None)
copy bitmap of canvas to system clipboard

Destroy(self, *args, **kwargs)

Printer_Init(self)
initialize printer settings using wx methods

Printer_Preview(self, event=None)
generate Print Preview with wx Print mechanism

Printer_Print(self, event=None)
Print figure using wx Print mechanism

Printer_Setup(self, event=None)
set up figure for printing.  The standard wx Printer Setup Dialog seems to die easily. Therefore, this setup simply asks for image width and margin for printing.

Printer_Setup2(self, event=None)
set up figure for printing.  Using the standard wx Printer Setup Dialog.

__init__(self, parent, id, figure)
Initialise a FigureWx instance. - Initialise the FigureCanvasBase and wxPanel parents. - Set event handlers for:   EVT_SIZE  (Resize event)   EVT_PAINT (Paint event)

gui_repaint(self, drawDC=None)
Performs update of the displayed image on the GUI canvas, using the supplied device context.  If drawDC is None, a ClientDC will be used to redraw the image.

realize(self)
This method will be called when the system is ready to draw, eg when a GUI window is realized

Data and other attributes inherited from matplotlib.backends.backend_wx.FigureCanvasWx:

keyvald = {306: 'shift', 307: 'alt', 308: 'control', 316: 'left', 317: 'up', 318: 'right', 319: 'down'}

Methods inherited from matplotlib.backends.backend_agg.FigureCanvasAgg:

buffer_rgba(self, x, y)

copy_from_bbox(self, bbox)

get_renderer(self)

restore_region(self, region)

tostring_argb(self)

tostring_rgb(self)

Methods inherited from matplotlib.backend_bases.FigureCanvasBase:

button_press_event(self, x, y, button, guiEvent=None)
Backend derived classes should call this function on any mouse button press.  x,y are the canvas coords: 0,0 is lower, left. button and key are as defined in MouseEvent

button_release_event(self, x, y, button, guiEvent=None)
Backend derived classes should call this function on any mouse button release.  x,y are the canvas coords: 0,0 is lower, left. button and key are as defined in MouseEvent

draw_cursor(self, event)
Draw a cursor in the event.axes if inaxes is not None.  Use native GUI drawing for efficiency if possible

draw_event(self, renderer)

draw_idle(self, *args, **kwargs)
draw only if idle; defaults to draw but backends can overrride

get_width_height(self)
return the figure width and height in points or pixels (depending on the backend), truncated to integers

key_press_event(self, key, guiEvent=None)

key_release_event(self, key, guiEvent=None)

motion_notify_event(self, x, y, guiEvent=None)
Backend derived classes should call this function on any motion-notify-event. x,y are the canvas coords: 0,0 is lower, left. button and key are as defined in MouseEvent

mpl_connect(self, s, func)
Connect event with string s to func.  The signature of func is   def func(event) where event is a MplEvent.  The following events are recognized 'resize_event' 'draw_event' 'key_press_event' 'key_release_event' 'button_press_event' 'button_release_event' 'motion_notify_event' For the three events above, if the mouse is over the axes, the variable event.inaxes will be set to the axes it is over, and additionally, the variables event.xdata and event.ydata will be defined.  This is the mouse location in data coords. See backend_bases.MplEvent. return value is a connection id that can be used with mpl_disconnect

mpl_disconnect(self, cid)
Connect s to func. return an id that can be used with disconnect Method should return None

resize(self, w, h)
set the canvas size in pixels

resize_event(self)

switch_backends(self, FigureCanvasClass)
instantiate an instance of FigureCanvasClass This is used for backend switching, eg, to instantiate a FigureCanvasPS from a FigureCanvasGTK.  Note, deep copying is not done, so any changes to one of the instances (eg, setting figure size or line props), will be reflected in the other

Data and other attributes inherited from matplotlib.backend_bases.FigureCanvasBase:

events = ('key_press_event', 'key_release_event', 'button_press_event', 'button_release_event', 'motion_notify_event')

Methods inherited from wx._windows.Panel:

Create(*args, **kwargs)
Create(self, Window parent, int id=-1, Point pos=DefaultPosition,     Size size=DefaultSize, long style=wxTAB_TRAVERSAL|wxNO_BORDER,     String name=PanelNameStr) -> bool Create the GUI part of the Window for 2-phase creation mode.

InitDialog(*args, **kwargs)
InitDialog(self) Sends an EVT_INIT_DIALOG event, whose handler usually transfers data to the dialog via validators.

__repr__(self)

Static methods inherited from wx._windows.Panel:

GetClassDefaultAttributes(*args, **kwargs)
GetClassDefaultAttributes(int variant=WINDOW_VARIANT_NORMAL) -> VisualAttributes Get the default attributes for this class.  This is useful if you want to use the same font or colour in your own control as in a standard control -- which is a much better idea than hard coding specific colours or fonts which might look completely out of place on the user's system, especially if it uses themes. The variant parameter is only relevant under Mac currently and is ignore under other platforms. Under Mac, it will change the size of the returned font. See `wx.Window.SetWindowVariant` for more about this.

Methods inherited from wx._core.Window:

AcceptsFocus(*args, **kwargs)
AcceptsFocus(self) -> bool Can this window have focus?

AcceptsFocusFromKeyboard(*args, **kwargs)
AcceptsFocusFromKeyboard(self) -> bool Can this window be given focus by keyboard navigation? if not, the only way to give it focus (provided it accepts it at all) is to click it.

AddChild(*args, **kwargs)
AddChild(self, Window child) Adds a child window. This is called automatically by window creation functions so should not be required by the application programmer.

AssociateHandle(*args, **kwargs)
AssociateHandle(self, long handle) Associate the window with a new native handle

CaptureMouse(*args, **kwargs)
CaptureMouse(self) Directs all mouse input to this window. Call wx.Window.ReleaseMouse to release the capture. Note that wxWindows maintains the stack of windows having captured the mouse and when the mouse is released the capture returns to the window which had had captured it previously and it is only really released if there were no previous window. In particular, this means that you must release the mouse as many times as you capture it.

Center(*args, **kwargs)
Center(self, int direction=BOTH) Centers the window.  The parameter specifies the direction for cetering, and may be wx.HORIZONTAL, wx.VERTICAL or wx.BOTH. It may also include wx.CENTER_ON_SCREEN flag if you want to center the window on the entire screen and not on its parent window.  If it is a top-level window and has no parent then it will always be centered relative to the screen.

CenterOnParent(*args, **kwargs)
CenterOnParent(self, int dir=BOTH) Center with respect to the the parent window

CenterOnScreen(*args, **kwargs)
CenterOnScreen(self, int dir=BOTH) Center on screen (only works for top level windows)

Centre = Center(*args, **kwargs)
Center(self, int direction=BOTH) Centers the window.  The parameter specifies the direction for cetering, and may be wx.HORIZONTAL, wx.VERTICAL or wx.BOTH. It may also include wx.CENTER_ON_SCREEN flag if you want to center the window on the entire screen and not on its parent window.  If it is a top-level window and has no parent then it will always be centered relative to the screen.

CentreOnParent = CenterOnParent(*args, **kwargs)
CenterOnParent(self, int dir=BOTH) Center with respect to the the parent window

CentreOnScreen = CenterOnScreen(*args, **kwargs)
CenterOnScreen(self, int dir=BOTH) Center on screen (only works for top level windows)

ClearBackground(*args, **kwargs)
ClearBackground(self) Clears the window by filling it with the current background colour. Does not cause an erase background event to be generated.

ClientToScreen(*args, **kwargs)
ClientToScreen(self, Point pt) -> Point Converts to screen coordinates from coordinates relative to this window.

ClientToScreenXY(*args, **kwargs)
ClientToScreenXY(int x, int y) -> (x,y) Converts to screen coordinates from coordinates relative to this window.

Close(*args, **kwargs)
Close(self, bool force=False) -> bool This function simply generates a EVT_CLOSE event whose handler usually tries to close the window. It doesn't close the window itself, however.  If force is False (the default) then the window's close handler will be allowed to veto the destruction of the window.

ConvertDialogPointToPixels(*args, **kwargs)
ConvertDialogPointToPixels(self, Point pt) -> Point Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

ConvertDialogSizeToPixels(*args, **kwargs)
ConvertDialogSizeToPixels(self, Size sz) -> Size Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

ConvertPixelPointToDialog(*args, **kwargs)
ConvertPixelPointToDialog(self, Point pt) -> Point

ConvertPixelSizeToDialog(*args, **kwargs)
ConvertPixelSizeToDialog(self, Size sz) -> Size

DLG_PNT(*args, **kwargs)
DLG_PNT(self, Point pt) -> Point Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

DLG_SZE(*args, **kwargs)
DLG_SZE(self, Size sz) -> Size Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

DestroyChildren(*args, **kwargs)
DestroyChildren(self) -> bool Destroys all children of a window. Called automatically by the destructor.

Disable(*args, **kwargs)
Disable(self) -> bool Disables the window, same as Enable(false).

DissociateHandle(*args, **kwargs)
DissociateHandle(self) Dissociate the current native handle from the window

Enable(*args, **kwargs)
Enable(self, bool enable=True) -> bool Enable or disable the window for user input. Note that when a parent window is disabled, all of its children are disabled as well and they are reenabled again when the parent is.  Returns true if the window has been enabled or disabled, false if nothing was done, i.e. if the window had already been in the specified state.

FindWindowById(*args, **kwargs)
FindWindowById(self, long winid) -> Window Find a chld of this window by window ID

FindWindowByName(*args, **kwargs)
FindWindowByName(self, String name) -> Window Find a child of this window by name

Fit(*args, **kwargs)
Fit(self) Sizes the window so that it fits around its subwindows. This function won't do anything if there are no subwindows and will only really work correctly if sizers are used for the subwindows layout. Also, if the window has exactly one subwindow it is better (faster and the result is more precise as Fit adds some margin to account for fuzziness of its calculations) to call window.SetClientSize(child.GetSize()) instead of calling Fit.

FitInside(*args, **kwargs)
FitInside(self) Similar to Fit, but sizes the interior (virtual) size of a window. Mainly useful with scrolled windows to reset scrollbars after sizing changes that do not trigger a size event, and/or scrolled windows without an interior sizer. This function similarly won't do anything if there are no subwindows.

Freeze(*args, **kwargs)
Freeze(self) Freezes the window or, in other words, prevents any updates from taking place on screen, the window is not redrawn at all. Thaw must be called to reenable window redrawing.  Calls to Freeze/Thaw may be nested, with the actual Thaw being delayed until all the nesting has been undone. This method is useful for visual appearance optimization (for example, it is a good idea to use it before inserting large amount of text into a wxTextCtrl under wxGTK) but is not implemented on all platforms nor for all controls so it is mostly just a hint to wxWindows and not a mandatory directive.

GetAcceleratorTable(*args, **kwargs)
GetAcceleratorTable(self) -> AcceleratorTable Gets the accelerator table for this window.

GetAdjustedBestSize(*args, **kwargs)
GetAdjustedBestSize(self) -> Size This method is similar to GetBestSize, except in one thing. GetBestSize should return the minimum untruncated size of the window, while this method will return the largest of BestSize and any user specified minimum size. ie. it is the minimum size the window should currently be drawn at, not the minimal size it can possibly tolerate.

GetAutoLayout(*args, **kwargs)
GetAutoLayout(self) -> bool Returns the current autoLayout setting

GetBackgroundColour(*args, **kwargs)
GetBackgroundColour(self) -> Colour Returns the background colour of the window.

GetBackgroundStyle(*args, **kwargs)
GetBackgroundStyle(self) -> int Returns the background style of the window. :see: `SetBackgroundStyle`

GetBestFittingSize(*args, **kwargs)
GetBestFittingSize(self) -> Size This function will merge the window's best size into the window's minimum size, giving priority to the min size components, and returns the results.

GetBestSize(*args, **kwargs)
GetBestSize(self) -> Size This function returns the best acceptable minimal size for the window, if applicable. For example, for a static text control, it will be the minimal size such that the control label is not truncated. For windows containing subwindows (suzh aswx.Panel), the size returned by this function will be the same as the size the window would have had after calling Fit.

GetBestSizeTuple(*args, **kwargs)
GetBestSizeTuple() -> (width, height) This function returns the best acceptable minimal size for the window, if applicable. For example, for a static text control, it will be the minimal size such that the control label is not truncated. For windows containing subwindows (suzh aswx.Panel), the size returned by this function will be the same as the size the window would have had after calling Fit.

GetBestVirtualSize(*args, **kwargs)
GetBestVirtualSize(self) -> Size Return the largest of ClientSize and BestSize (as determined by a sizer, interior children, or other means)

GetBorder(*args)
GetBorder(self, long flags) -> int GetBorder(self) -> int Get border for the flags of this window

GetCaret(*args, **kwargs)
GetCaret(self) -> Caret Returns the caret associated with the window.

GetCharHeight(*args, **kwargs)
GetCharHeight(self) -> int Get the (average) character size for the current font.

GetCharWidth(*args, **kwargs)
GetCharWidth(self) -> int Get the (average) character size for the current font.

GetChildren(*args, **kwargs)
GetChildren(self) -> PyObject Returns a list of the window's children.  NOTE: Currently this is a copy of the child window list maintained by the window, so the return value of this function is only valid as long as the window's children do not change.

GetClientAreaOrigin(*args, **kwargs)
GetClientAreaOrigin(self) -> Point Get the origin of the client area of the window relative to the window's top left corner (the client area may be shifted because of the borders, scrollbars, other decorations...)

GetClientRect(*args, **kwargs)
GetClientRect(self) -> Rect Get the client area position and size as a `wx.Rect` object.

GetClientSize(*args, **kwargs)
GetClientSize(self) -> Size This gets the size of the window's 'client area' in pixels. The client area is the area which may be drawn on by the programmer, excluding title bar, border, scrollbars, etc.

GetClientSizeTuple(*args, **kwargs)
GetClientSizeTuple() -> (width, height) This gets the size of the window's 'client area' in pixels. The client area is the area which may be drawn on by the programmer, excluding title bar, border, scrollbars, etc.

GetConstraints(*args, **kwargs)
GetConstraints(self) -> LayoutConstraints Returns a pointer to the window's layout constraints, or None if there are none.

GetContainingSizer(*args, **kwargs)
GetContainingSizer(self) -> Sizer Return the sizer that this window is a member of, if any, otherwise None.

GetCursor(*args, **kwargs)
GetCursor(self) -> Cursor Return the cursor associated with this window.

GetDefaultAttributes(*args, **kwargs)
GetDefaultAttributes(self) -> VisualAttributes Get the default attributes for an instance of this class.  This is useful if you want to use the same font or colour in your own control as in a standard control -- which is a much better idea than hard coding specific colours or fonts which might look completely out of place on the user's system, especially if it uses themes.

GetDefaultItem(*args, **kwargs)
GetDefaultItem(self) -> Window Get the default child of this parent, i.e. the one which is activated by pressing <Enter> such as the OK button on a wx.Dialog.

GetDropTarget(*args, **kwargs)
GetDropTarget(self) -> DropTarget Returns the associated drop target, which may be None.

GetEventHandler(*args, **kwargs)
GetEventHandler(self) -> EvtHandler Returns the event handler for this window. By default, the window is its own event handler.

GetExtraStyle(*args, **kwargs)
GetExtraStyle(self) -> long Returns the extra style bits for the window.

GetFont(*args, **kwargs)
GetFont(self) -> Font Returns the default font used for this window.

GetForegroundColour(*args, **kwargs)
GetForegroundColour(self) -> Colour Returns the foreground colour of the window.  The interpretation of foreground colour is dependent on the window class; it may be the text colour or other colour, or it may not be used at all.

GetFullTextExtent(*args, **kwargs)
GetFullTextExtent(String string, Font font=None) ->    (width, height, descent, externalLeading) Get the width, height, decent and leading of the text using the current or specified font.

GetGrandParent(*args, **kwargs)
GetGrandParent(self) -> Window Returns the parent of the parent of this window, or None if there isn't one.

GetHandle(*args, **kwargs)
GetHandle(self) -> long Returns the platform-specific handle (as a long integer) of the physical window.  Currently on wxMac it returns the handle of the toplevel parent of the window.

GetHelpText(*args, **kwargs)
GetHelpText(self) -> String Gets the help text to be used as context-sensitive help for this window.  Note that the text is actually stored by the current wxHelpProvider implementation, and not in the window object itself.

GetId(*args, **kwargs)
GetId(self) -> int Returns the identifier of the window.  Each window has an integer identifier. If the application has not provided one (or the default Id -1 is used) then an unique identifier with a negative value will be generated.

GetLabel(*args, **kwargs)
GetLabel(self) -> String Generic way of getting a label from any window, for identification purposes.  The interpretation of this function differs from class to class. For frames and dialogs, the value returned is the title. For buttons or static text controls, it is the button text. This function can be useful for meta-programs such as testing tools or special-needs access programs)which need to identify windows by name.

GetMaxHeight(*args, **kwargs)
GetMaxHeight(self) -> int

GetMaxSize(*args, **kwargs)
GetMaxSize(self) -> Size

GetMaxWidth(*args, **kwargs)
GetMaxWidth(self) -> int

GetMinHeight(*args, **kwargs)
GetMinHeight(self) -> int

GetMinSize(*args, **kwargs)
GetMinSize(self) -> Size

GetMinWidth(*args, **kwargs)
GetMinWidth(self) -> int

GetName(*args, **kwargs)
GetName(self) -> String Returns the windows name.  This name is not guaranteed to be unique; it is up to the programmer to supply an appropriate name in the window constructor or via wx.Window.SetName.

GetParent(*args, **kwargs)
GetParent(self) -> Window Returns the parent window of this window, or None if there isn't one.

GetPosition(*args, **kwargs)
GetPosition(self) -> Point Get the window's position.

GetPositionTuple(*args, **kwargs)
GetPositionTuple() -> (x,y) Get the window's position.

GetRect(*args, **kwargs)
GetRect(self) -> Rect Returns the size and position of the window as a wx.Rect object.

GetScrollPos(*args, **kwargs)
GetScrollPos(self, int orientation) -> int Returns the built-in scrollbar position.

GetScrollRange(*args, **kwargs)
GetScrollRange(self, int orientation) -> int Returns the built-in scrollbar range.

GetScrollThumb(*args, **kwargs)
GetScrollThumb(self, int orientation) -> int Returns the built-in scrollbar thumb size.

GetSize(*args, **kwargs)
GetSize(self) -> Size Get the window size.

GetSizeTuple(*args, **kwargs)
GetSizeTuple() -> (width, height) Get the window size.

GetSizer(*args, **kwargs)
GetSizer(self) -> Sizer Return the sizer associated with the window by a previous call to SetSizer or None if there isn't one.

GetTextExtent(*args, **kwargs)
GetTextExtent(String string) -> (width, height) Get the width and height of the text using the current font.

GetThemeEnabled(*args, **kwargs)
GetThemeEnabled(self) -> bool Return the themeEnabled flag.

GetTitle(*args, **kwargs)
GetTitle(self) -> String Gets the window's title. Applicable only to frames and dialogs.

GetToolTip(*args, **kwargs)
GetToolTip(self) -> ToolTip get the associated tooltip or None if none

GetUpdateClientRect(*args, **kwargs)
GetUpdateClientRect(self) -> Rect Get the update rectangle region bounding box in client coords.

GetUpdateRegion(*args, **kwargs)
GetUpdateRegion(self) -> Region Returns the region specifying which parts of the window have been damaged. Should only be called within an EVT_PAINT handler.

GetValidator(*args, **kwargs)
GetValidator(self) -> Validator Returns a pointer to the current validator for the window, or None if there is none.

GetVirtualSize(*args, **kwargs)
GetVirtualSize(self) -> Size Get the the virtual size of the window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

GetVirtualSizeTuple(*args, **kwargs)
GetVirtualSizeTuple() -> (width, height) Get the the virtual size of the window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

GetWindowStyle = GetWindowStyleFlag(*args, **kwargs)
GetWindowStyleFlag(self) -> long Gets the window style that was passed to the constructor or Create method.

GetWindowStyleFlag(*args, **kwargs)
GetWindowStyleFlag(self) -> long Gets the window style that was passed to the constructor or Create method.

GetWindowVariant(*args, **kwargs)
GetWindowVariant(self) -> int

HasCapture(*args, **kwargs)
HasCapture(self) -> bool Returns true if this window has the current mouse capture.

HasFlag(*args, **kwargs)
HasFlag(self, int flag) -> bool Test if the given style is set for this window.

HasScrollbar(*args, **kwargs)
HasScrollbar(self, int orient) -> bool Does the window have the scrollbar for this orientation?

Hide(*args, **kwargs)
Hide(self) -> bool Equivalent to calling Show(False).

HitTest(*args, **kwargs)
HitTest(self, Point pt) -> int Test where the given (in client coords) point lies

HitTestXY(*args, **kwargs)
HitTestXY(self, int x, int y) -> int Test where the given (in client coords) point lies

InheritAttributes(*args, **kwargs)
InheritAttributes(self) This function is (or should be, in case of custom controls) called during window creation to intelligently set up the window visual attributes, that is the font and the foreground and background colours. By 'intelligently' the following is meant: by default, all windows use their own default attributes. However if some of the parent's attributes are explicitly changed (that is, using SetFont and not SetOwnFont) and if the corresponding attribute hadn't been explicitly set for this window itself, then this window takes the same value as used by the parent. In addition, if the window overrides ShouldInheritColours to return false, the colours will not be changed no matter what and only the font might. This rather complicated logic is necessary in order to accommodate the different usage scenarios. The most common one is when all default attributes are used and in this case, nothing should be inherited as in modern GUIs different controls use different fonts (and colours) than their siblings so they can't inherit the same value from the parent. However it was also deemed desirable to allow to simply change the attributes of all children at once by just changing the font or colour of their common parent, hence in this case we do inherit the parents attributes.

InvalidateBestSize(*args, **kwargs)
InvalidateBestSize(self) Reset the cached best size value so it will be recalculated the next time it is needed.

IsBeingDeleted(*args, **kwargs)
IsBeingDeleted(self) -> bool Is the window in the process of being deleted?

IsEnabled(*args, **kwargs)
IsEnabled(self) -> bool Returns true if the window is enabled for input, false otherwise.

IsExposed(*args, **kwargs)
IsExposed(self, int x, int y, int w=1, int h=1) -> bool Returns true if the given point or rectangle area has been exposed since the last repaint. Call this in an paint event handler to optimize redrawing by only redrawing those areas, which have been exposed.

IsExposedPoint(*args, **kwargs)
IsExposedPoint(self, Point pt) -> bool Returns true if the given point or rectangle area has been exposed since the last repaint. Call this in an paint event handler to optimize redrawing by only redrawing those areas, which have been exposed.

IsExposedRect(*args, **kwargs)
IsExposedRect(self, Rect rect) -> bool Returns true if the given point or rectangle area has been exposed since the last repaint. Call this in an paint event handler to optimize redrawing by only redrawing those areas, which have been exposed.

IsRetained(*args, **kwargs)
IsRetained(self) -> bool Returns true if the window is retained, false otherwise.  Retained windows are only available on X platforms.

IsShown(*args, **kwargs)
IsShown(self) -> bool Returns true if the window is shown, false if it has been hidden.

IsTopLevel(*args, **kwargs)
IsTopLevel(self) -> bool Returns true if the given window is a top-level one. Currently all frames and dialogs are always considered to be top-level windows (even if they have a parent window).

Layout(*args, **kwargs)
Layout(self) -> bool Invokes the constraint-based layout algorithm or the sizer-based algorithm for this window.  See SetAutoLayout: when auto layout is on, this function gets called automatically by the default EVT_SIZE handler when the window is resized.

LineDown(*args, **kwargs)
LineDown(self) -> bool This is just a wrapper for ScrollLines(1).

LineUp(*args, **kwargs)
LineUp(self) -> bool This is just a wrapper for ScrollLines(-1).

Lower(*args, **kwargs)
Lower(self) Lowers the window to the bottom of the window hierarchy if it is a managed window (dialog or frame).

MakeModal(*args, **kwargs)
MakeModal(self, bool modal=True) Disables all other windows in the application so that the user can only interact with this window.  Passing False will reverse this effect.

Move(*args, **kwargs)
Move(self, Point pt, int flags=SIZE_USE_EXISTING) Moves the window to the given position.

MoveAfterInTabOrder(*args, **kwargs)
MoveAfterInTabOrder(self, Window win) Moves this window in the tab navigation order after the specified sibling window.  This means that when the user presses the TAB key on that other window, the focus switches to this window. The default tab order is the same as creation order.  This function and `MoveBeforeInTabOrder` allow to change it after creating all the windows.

MoveBeforeInTabOrder(*args, **kwargs)
MoveBeforeInTabOrder(self, Window win) Same as `MoveAfterInTabOrder` except that it inserts this window just before win instead of putting it right after it.

MoveXY(*args, **kwargs)
MoveXY(self, int x, int y, int flags=SIZE_USE_EXISTING) Moves the window to the given position.

Navigate(*args, **kwargs)
Navigate(self, int flags=NavigationKeyEvent.IsForward) -> bool Does keyboard navigation from this window to another, by sending a `wx.NavigationKeyEvent`.

PageDown(*args, **kwargs)
PageDown(self) -> bool This is just a wrapper for ScrollPages(1).

PageUp(*args, **kwargs)
PageUp(self) -> bool This is just a wrapper for ScrollPages(-1).

PopEventHandler(*args, **kwargs)
PopEventHandler(self, bool deleteHandler=False) -> EvtHandler Removes and returns the top-most event handler on the event handler stack.  If deleteHandler is True then the wx.EvtHandler object will be destroyed after it is popped.

PopupMenu(*args, **kwargs)
PopupMenu(self, Menu menu, Point pos=DefaultPosition) -> bool Pops up the given menu at the specified coordinates, relative to this window, and returns control when the user has dismissed the menu. If a menu item is selected, the corresponding menu event is generated and will be processed as usual.  If the default position is given then the current position of the mouse cursor will be used.

PopupMenuXY(*args, **kwargs)
PopupMenuXY(self, Menu menu, int x=-1, int y=-1) -> bool Pops up the given menu at the specified coordinates, relative to this window, and returns control when the user has dismissed the menu. If a menu item is selected, the corresponding menu event is generated and will be processed as usual.  If the default position is given then the current position of the mouse cursor will be used.

PostCreate(self, pre)
Phase 3 of the 2-phase create <wink!> Call this method after precreating the window with the 2-phase create method.

PrepareDC(*args, **kwargs)
PrepareDC(self, DC dc) Call this function to prepare the device context for drawing a scrolled image. It sets the device origin according to the current scroll position.

PushEventHandler(*args, **kwargs)
PushEventHandler(self, EvtHandler handler) Pushes this event handler onto the event handler stack for the window. An event handler is an object that is capable of processing the events sent to a window. By default, the window is its own event handler, but an application may wish to substitute another, for example to allow central implementation of event-handling for a variety of different window classes. wx.Window.PushEventHandler allows an application to set up a chain of event handlers, where an event not handled by one event handler is handed to the next one in the chain. Use `wx.Window.PopEventHandler` to remove the event handler.

Raise(*args, **kwargs)
Raise(self) Raises the window to the top of the window hierarchy if it is a managed window (dialog or frame).

Refresh(*args, **kwargs)
Refresh(self, bool eraseBackground=True, Rect rect=None) Mark the specified rectangle (or the whole window) as "dirty" so it will be repainted.  Causes an EVT_PAINT event to be generated and sent to the window.

RefreshRect(*args, **kwargs)
RefreshRect(self, Rect rect) Redraws the contents of the given rectangle: the area inside it will be repainted.  This is the same as Refresh but has a nicer syntax.

RegisterHotKey(*args, **kwargs)
RegisterHotKey(self, int hotkeyId, int modifiers, int keycode) -> bool Registers a system wide hotkey. Every time the user presses the hotkey registered here, this window will receive a hotkey event. It will receive the event even if the application is in the background and does not have the input focus because the user is working with some other application.  To bind an event handler function to this hotkey use EVT_HOTKEY with an id equal to hotkeyId.  Returns True if the hotkey was registered successfully.

ReleaseMouse(*args, **kwargs)
ReleaseMouse(self) Releases mouse input captured with wx.Window.CaptureMouse.

RemoveChild(*args, **kwargs)
RemoveChild(self, Window child) Removes a child window. This is called automatically by window deletion functions so should not be required by the application programmer.

RemoveEventHandler(*args, **kwargs)
RemoveEventHandler(self, EvtHandler handler) -> bool Find the given handler in the event handler chain and remove (but not delete) it from the event handler chain, return True if it was found and False otherwise (this also results in an assert failure so this function should only be called when the handler is supposed to be there.)

Reparent(*args, **kwargs)
Reparent(self, Window newParent) -> bool Reparents the window, i.e the window will be removed from its current parent window (e.g. a non-standard toolbar in a wxFrame) and then re-inserted into another. Available on Windows and GTK.  Returns True if the parent was changed, False otherwise (error or newParent == oldParent)

ScreenToClient(*args, **kwargs)
ScreenToClient(self, Point pt) -> Point Converts from screen to client window coordinates.

ScreenToClientXY(*args, **kwargs)
ScreenToClientXY(int x, int y) -> (x,y) Converts from screen to client window coordinates.

ScrollLines(*args, **kwargs)
ScrollLines(self, int lines) -> bool If the platform and window class supports it, scrolls the window by the given number of lines down, if lines is positive, or up if lines is negative.  Returns True if the window was scrolled, False if it was already on top/bottom and nothing was done.

ScrollPages(*args, **kwargs)
ScrollPages(self, int pages) -> bool If the platform and window class supports it, scrolls the window by the given number of pages down, if pages is positive, or up if pages is negative.  Returns True if the window was scrolled, False if it was already on top/bottom and nothing was done.

ScrollWindow(*args, **kwargs)
ScrollWindow(self, int dx, int dy, Rect rect=None) Physically scrolls the pixels in the window and move child windows accordingly.  Use this function to optimise your scrolling implementations, to minimise the area that must be redrawn. Note that it is rarely required to call this function from a user program.

SetAcceleratorTable(*args, **kwargs)
SetAcceleratorTable(self, AcceleratorTable accel) Sets the accelerator table for this window.

SetAutoLayout(*args, **kwargs)
SetAutoLayout(self, bool autoLayout) Determines whether the Layout function will be called automatically when the window is resized.  It is called implicitly by SetSizer but if you use SetConstraints you should call it manually or otherwise the window layout won't be correctly updated when its size changes.

SetBackgroundColour(*args, **kwargs)
SetBackgroundColour(self, Colour colour) -> bool Sets the background colour of the window.  Returns True if the colour was changed.  The background colour is usually painted by the default EVT_ERASE_BACKGROUND event handler function under Windows and automatically under GTK.  Using `wx.NullColour` will reset the window to the default background colour. Note that setting the background colour may not cause an immediate refresh, so you may wish to call `ClearBackground` or `Refresh` after calling this function. Using this function will disable attempts to use themes for this window, if the system supports them.  Use with care since usually the themes represent the appearance chosen by the user to be used for all applications on the system.

SetBackgroundStyle(*args, **kwargs)
SetBackgroundStyle(self, int style) -> bool Returns the background style of the window. The background style indicates how the background of the window is drawn.     ======================  ========================================     wx.BG_STYLE_SYSTEM      The background colour or pattern should                             be determined by the system     wx.BG_STYLE_COLOUR      The background should be a solid colour     wx.BG_STYLE_CUSTOM      The background will be implemented by the                             application.     ======================  ======================================== On GTK+, use of wx.BG_STYLE_CUSTOM allows the flicker-free drawing of a custom background, such as a tiled bitmap. Currently the style has no effect on other platforms. :see: `GetBackgroundStyle`, `SetBackgroundColour`

SetBestFittingSize(*args, **kwargs)
SetBestFittingSize(self, Size size=DefaultSize) A 'Smart' SetSize that will fill in default size components with the window's *best size* values.  Also set's the minsize for use with sizers.

SetCaret(*args, **kwargs)
SetCaret(self, Caret caret) Sets the caret associated with the window.

SetClientRect(*args, **kwargs)
SetClientRect(self, Rect rect) This sets the size of the window client area in pixels. Using this function to size a window tends to be more device-independent than wx.Window.SetSize, since the application need not worry about what dimensions the border or title bar have when trying to fit the window around panel items, for example.

SetClientSize(*args, **kwargs)
SetClientSize(self, Size size) This sets the size of the window client area in pixels. Using this function to size a window tends to be more device-independent than wx.Window.SetSize, since the application need not worry about what dimensions the border or title bar have when trying to fit the window around panel items, for example.

SetClientSizeWH(*args, **kwargs)
SetClientSizeWH(self, int width, int height) This sets the size of the window client area in pixels. Using this function to size a window tends to be more device-independent than wx.Window.SetSize, since the application need not worry about what dimensions the border or title bar have when trying to fit the window around panel items, for example.

SetConstraints(*args, **kwargs)
SetConstraints(self, LayoutConstraints constraints) Sets the window to have the given layout constraints. If an existing layout constraints object is already owned by the window, it will be deleted.  Pass None to disassociate and delete the window's current constraints. You must call SetAutoLayout to tell a window to use the constraints automatically in its default EVT_SIZE handler; otherwise, you must handle EVT_SIZE yourself and call Layout() explicitly. When setting both a wx.LayoutConstraints and a wx.Sizer, only the sizer will have effect.

SetContainingSizer(*args, **kwargs)
SetContainingSizer(self, Sizer sizer) This normally does not need to be called by application code. It is called internally when a window is added to a sizer, and is used so the window can remove itself from the sizer when it is destroyed.

SetCursor(*args, **kwargs)
SetCursor(self, Cursor cursor) -> bool Sets the window's cursor. Notice that the window cursor also sets it for the children of the window implicitly. The cursor may be wx.NullCursor in which case the window cursor will be reset back to default.

SetDefaultItem(*args, **kwargs)
SetDefaultItem(self, Window child) -> Window Set this child as default, return the old default.

SetDimensions(*args, **kwargs)
SetDimensions(self, int x, int y, int width, int height, int sizeFlags=SIZE_AUTO) Sets the position and size of the window in pixels.  The sizeFlags parameter indicates the interpretation of the other params if they are -1.  wx.SIZE_AUTO*: a -1 indicates that a class-specific default shoudl be used.  wx.SIZE_USE_EXISTING: existing dimensions should be used if -1 values are supplied.  wxSIZE_ALLOW_MINUS_ONE: allow dimensions of -1 and less to be interpreted as real dimensions, not default values.

SetDropTarget(*args, **kwargs)
SetDropTarget(self, DropTarget dropTarget) Associates a drop target with this window.  If the window already has a drop target, it is deleted.

SetEventHandler(*args, **kwargs)
SetEventHandler(self, EvtHandler handler) Sets the event handler for this window.  An event handler is an object that is capable of processing the events sent to a window. By default, the window is its own event handler, but an application may wish to substitute another, for example to allow central implementation of event-handling for a variety of different window classes. It is usually better to use `wx.Window.PushEventHandler` since this sets up a chain of event handlers, where an event not handled by one event handler is handed to the next one in the chain.

SetExtraStyle(*args, **kwargs)
SetExtraStyle(self, long exStyle) Sets the extra style bits for the window.  Extra styles are the less often used style bits which can't be set with the constructor or with SetWindowStyleFlag()

SetFocus(*args, **kwargs)
SetFocus(self) Set's the focus to this window, allowing it to receive keyboard input.

SetFocusFromKbd(*args, **kwargs)
SetFocusFromKbd(self) Set focus to this window as the result of a keyboard action.  Normally only called internally.

SetFont(*args, **kwargs)
SetFont(self, Font font) -> bool Sets the font for this window.

SetForegroundColour(*args, **kwargs)
SetForegroundColour(self, Colour colour) -> bool Sets the foreground colour of the window.  Returns True is the colour was changed.  The interpretation of foreground colour is dependent on the window class; it may be the text colour or other colour, or it may not be used at all.

SetHelpText(*args, **kwargs)
SetHelpText(self, String text) Sets the help text to be used as context-sensitive help for this window.  Note that the text is actually stored by the current wxHelpProvider implementation, and not in the window object itself.

SetHelpTextForId(*args, **kwargs)
SetHelpTextForId(self, String text) Associate this help text with all windows with the same id as this one.

SetId(*args, **kwargs)
SetId(self, int winid) Sets the identifier of the window.  Each window has an integer identifier. If the application has not provided one, an identifier will be generated. Normally, the identifier should be provided on creation and should not be modified subsequently.

SetLabel(*args, **kwargs)
SetLabel(self, String label) Set the text which the window shows in its label if applicable.

SetMaxSize(*args, **kwargs)
SetMaxSize(self, Size maxSize) A more convenient method than `SetSizeHints` for setting just the max size.

SetMinSize(*args, **kwargs)
SetMinSize(self, Size minSize) A more convenient method than `SetSizeHints` for setting just the min size.

SetName(*args, **kwargs)
SetName(self, String name) Sets the window's name.  The window name is used for ressource setting in X, it is not the same as the window title/label

SetOwnBackgroundColour(*args, **kwargs)
SetOwnBackgroundColour(self, Colour colour)

SetOwnFont(*args, **kwargs)
SetOwnFont(self, Font font)

SetOwnForegroundColour(*args, **kwargs)
SetOwnForegroundColour(self, Colour colour)

SetPosition = Move(*args, **kwargs)
Move(self, Point pt, int flags=SIZE_USE_EXISTING) Moves the window to the given position.

SetRect(*args, **kwargs)
SetRect(self, Rect rect, int sizeFlags=SIZE_AUTO) Sets the position and size of the window in pixels using a wx.Rect.

SetScrollPos(*args, **kwargs)
SetScrollPos(self, int orientation, int pos, bool refresh=True) Sets the position of one of the built-in scrollbars.

SetScrollbar(*args, **kwargs)
SetScrollbar(self, int orientation, int position, int thumbSize, int range,     bool refresh=True) Sets the scrollbar properties of a built-in scrollbar.

SetSize(*args, **kwargs)
SetSize(self, Size size) Sets the size of the window in pixels.

SetSizeHints(*args, **kwargs)
SetSizeHints(self, int minW, int minH, int maxW=-1, int maxH=-1, int incW=-1,     int incH=-1) Allows specification of minimum and maximum window sizes, and window size increments. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the window outside the given bounds (if it is a top-level window.)  Sizers will also inspect the minimum window size and will use that value if set when calculating layout. The resizing increments are only significant under Motif or Xt.

SetSizeHintsSz(*args, **kwargs)
SetSizeHintsSz(self, Size minSize, Size maxSize=DefaultSize, Size incSize=DefaultSize) Allows specification of minimum and maximum window sizes, and window size increments. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the window outside the given bounds (if it is a top-level window.)  Sizers will also inspect the minimum window size and will use that value if set when calculating layout. The resizing increments are only significant under Motif or Xt.

SetSizeWH(*args, **kwargs)
SetSizeWH(self, int width, int height) Sets the size of the window in pixels.

SetSizer(*args, **kwargs)
SetSizer(self, Sizer sizer, bool deleteOld=True) Sets the window to have the given layout sizer. The window will then own the object, and will take care of its deletion. If an existing layout sizer object is already owned by the window, it will be deleted if the deleteOld parameter is true. Note that this function will also call SetAutoLayout implicitly with a True parameter if the sizer is non-None, and False otherwise.

SetSizerAndFit(*args, **kwargs)
SetSizerAndFit(self, Sizer sizer, bool deleteOld=True) The same as SetSizer, except it also sets the size hints for the window based on the sizer's minimum size.

SetThemeEnabled(*args, **kwargs)
SetThemeEnabled(self, bool enableTheme) This function tells a window if it should use the system's "theme" code to draw the windows' background instead if its own background drawing code. This will only have an effect on platforms that support the notion of themes in user defined windows. One such platform is GTK+ where windows can have (very colourful) backgrounds defined by a user's selected theme. Dialogs, notebook pages and the status bar have this flag set to true by default so that the default look and feel is simulated best.

SetTitle(*args, **kwargs)
SetTitle(self, String title) Sets the window's title. Applicable only to frames and dialogs.

SetTmpDefaultItem(*args, **kwargs)
SetTmpDefaultItem(self, Window win) Set this child as temporary default

SetToolTip(*args, **kwargs)
SetToolTip(self, ToolTip tip) Attach a tooltip to the window.

SetToolTipString(*args, **kwargs)
SetToolTipString(self, String tip) Attach a tooltip to the window.

SetValidator(*args, **kwargs)
SetValidator(self, Validator validator) Deletes the current validator (if any) and sets the window validator, having called wx.Validator.Clone to create a new validator of this type.

SetVirtualSize(*args, **kwargs)
SetVirtualSize(self, Size size) Set the the virtual size of a window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

SetVirtualSizeHints(*args, **kwargs)
SetVirtualSizeHints(self, int minW, int minH, int maxW=-1, int maxH=-1) Allows specification of minimum and maximum virtual window sizes. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the virtual area of the window outside the given bounds.

SetVirtualSizeHintsSz(*args, **kwargs)
SetVirtualSizeHintsSz(self, Size minSize, Size maxSize=DefaultSize) Allows specification of minimum and maximum virtual window sizes. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the virtual area of the window outside the given bounds.

SetVirtualSizeWH(*args, **kwargs)
SetVirtualSizeWH(self, int w, int h) Set the the virtual size of a window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

SetWindowStyle = SetWindowStyleFlag(*args, **kwargs)
SetWindowStyleFlag(self, long style) Sets the style of the window. Please note that some styles cannot be changed after the window creation and that Refresh() might need to be called after changing the others for the change to take place immediately.

SetWindowStyleFlag(*args, **kwargs)
SetWindowStyleFlag(self, long style) Sets the style of the window. Please note that some styles cannot be changed after the window creation and that Refresh() might need to be called after changing the others for the change to take place immediately.

SetWindowVariant(*args, **kwargs)
SetWindowVariant(self, int variant) Sets the variant of the window/font size to use for this window, if the platform supports variants, for example, wxMac.

ShouldInheritColours(*args, **kwargs)
ShouldInheritColours(self) -> bool Return true from here to allow the colours of this window to be changed by InheritAttributes, returning false forbids inheriting them from the parent window. The base class version returns false, but this method is overridden in wxControl where it returns true.

Show(*args, **kwargs)
Show(self, bool show=True) -> bool Shows or hides the window. You may need to call Raise for a top level window if you want to bring it to top, although this is not needed if Show is called immediately after the frame creation.  Returns True if the window has been shown or hidden or False if nothing was done because it already was in the requested state.

Thaw(*args, **kwargs)
Thaw(self) Reenables window updating after a previous call to Freeze.  Calls to Freeze/Thaw may be nested, so Thaw must be called the same number of times that Freeze was before the window will be updated.

TransferDataFromWindow(*args, **kwargs)
TransferDataFromWindow(self) -> bool Transfers values from child controls to data areas specified by their validators. Returns false if a transfer failed.  If the window has wx.WS_EX_VALIDATE_RECURSIVELY extra style flag set, the method will also call TransferDataFromWindow() of all child windows.

TransferDataToWindow(*args, **kwargs)
TransferDataToWindow(self) -> bool Transfers values to child controls from data areas specified by their validators.  If the window has wx.WS_EX_VALIDATE_RECURSIVELY extra style flag set, the method will also call TransferDataToWindow() of all child windows.

UnregisterHotKey(*args, **kwargs)
UnregisterHotKey(self, int hotkeyId) -> bool Unregisters a system wide hotkey.

Update(*args, **kwargs)
Update(self) Calling this method immediately repaints the invalidated area of the window instead of waiting for the EVT_PAINT event to happen, (normally this would usually only happen when the flow of control returns to the event loop.)  Notice that this function doesn't refresh the window and does nothing if the window has been already repainted.  Use Refresh first if you want to immediately redraw the window (or some portion of it) unconditionally.

UpdateWindowUI(*args, **kwargs)
UpdateWindowUI(self, long flags=UPDATE_UI_NONE) This function sends EVT_UPDATE_UI events to the window. The particular implementation depends on the window; for example a wx.ToolBar will send an update UI event for each toolbar button, and a wx.Frame will send an update UI event for each menubar menu item. You can call this function from your application to ensure that your UI is up-to-date at a particular point in time (as far as your EVT_UPDATE_UI handlers are concerned). This may be necessary if you have called wx.UpdateUIEvent.SetMode or wx.UpdateUIEvent.SetUpdateInterval to limit the overhead that wxWindows incurs by sending update UI events in idle time.

Validate(*args, **kwargs)
Validate(self) -> bool Validates the current values of the child controls using their validators.  If the window has wx.WS_EX_VALIDATE_RECURSIVELY extra style flag set, the method will also call Validate() of all child windows.  Returns false if any of the validations failed.

WarpPointer(*args, **kwargs)
WarpPointer(self, int x, int y) Moves the pointer to the given position on the window. NOTE: This function is not supported under Mac because Apple Human Interface Guidelines forbid moving the mouse cursor programmatically.

Static methods inherited from wx._core.Window:

FindFocus(*args, **kwargs)
FindFocus() -> Window Returns the window or control that currently has the keyboard focus, or None.

GetCapture(*args, **kwargs)
GetCapture() -> Window Returns the window which currently captures the mouse or None

NewControlId(*args, **kwargs)
NewControlId() -> int Generate a control id for the controls which were not given one.

NextControlId(*args, **kwargs)
NextControlId(int winid) -> int Get the id of the control following the one with the given autogenerated) id

PrevControlId(*args, **kwargs)
PrevControlId(int winid) -> int Get the id of the control preceding the one with the given autogenerated) id

Methods inherited from wx._core.EvtHandler:

AddPendingEvent(*args, **kwargs)
AddPendingEvent(self, Event event)

Bind(self, event, handler, source=None, id=-1, id2=-1)
Bind an event to an event handler. :param event: One of the EVT_* objects that specifies the               type of event to bind, :param handler: A callable object to be invoked when the               event is delivered to self.  Pass None to               disconnect an event handler. :param source: Sometimes the event originates from a               different window than self, but you still               want to catch it in self.  (For example, a               button event delivered to a frame.)  By               passing the source of the event, the event               handling system is able to differentiate               between the same event type from different               controls. :param id: Used to spcify the event source by ID instead            of instance. :param id2: Used when it is desirable to bind a handler               to a range of IDs, such as with EVT_MENU_RANGE.

Connect(*args, **kwargs)
Connect(self, int id, int lastId, int eventType, PyObject func)

Disconnect(*args, **kwargs)
Disconnect(self, int id, int lastId=-1, wxEventType eventType=wxEVT_NULL) -> bool

GetEvtHandlerEnabled(*args, **kwargs)
GetEvtHandlerEnabled(self) -> bool

GetNextHandler(*args, **kwargs)
GetNextHandler(self) -> EvtHandler

GetPreviousHandler(*args, **kwargs)
GetPreviousHandler(self) -> EvtHandler

ProcessEvent(*args, **kwargs)
ProcessEvent(self, Event event) -> bool

ProcessPendingEvents(*args, **kwargs)
ProcessPendingEvents(self)

SetEvtHandlerEnabled(*args, **kwargs)
SetEvtHandlerEnabled(self, bool enabled)

SetNextHandler(*args, **kwargs)
SetNextHandler(self, EvtHandler handler)

SetPreviousHandler(*args, **kwargs)
SetPreviousHandler(self, EvtHandler handler)

Unbind(self, event, source=None, id=-1, id2=-1)
Disconencts the event handler binding for event from self. Returns True if successful.

Methods inherited from wx._core.Object:

GetClassName(*args, **kwargs)
GetClassName(self) -> String Returns the class name of the C++ class using wxRTTI.

Data and other attributes inherited from wx._core.Object:

__dict__ = <dictproxy object>
dictionary for instance variables (if defined)

__weakref__ = <attribute '__weakref__' of 'Object' objects>
list of weak references to the object (if defined)

class FigureFrameWxAgg(matplotlib.backends.backend_wx.FigureFrameWx)


Method resolution order:

FigureFrameWxAgg

matplotlib.backends.backend_wx.FigureFrameWx

wx._windows.Frame

wx._windows.TopLevelWindow

wx._core.Window

wx._core.EvtHandler

wx._core.Object

__builtin__.object

Methods defined here:

get_canvas(self, fig)

Methods inherited from matplotlib.backends.backend_wx.FigureFrameWx:

Destroy(self, *args, **kwargs)

GetToolBar(self)
Override wxFrame::GetToolBar as we don't have managed toolbar

__init__(self, num, fig)

get_figure_manager(self)

Methods inherited from wx._windows.Frame:

Command = ProcessCommand(*args, **kwargs)
ProcessCommand(self, int winid) -> bool

Create(*args, **kwargs)
Create(self, Window parent, int id=-1, String title=EmptyString,     Point pos=DefaultPosition, Size size=DefaultSize,     long style=DEFAULT_FRAME_STYLE, String name=FrameNameStr) -> bool

CreateStatusBar(*args, **kwargs)
CreateStatusBar(self, int number=1, long style=wxST_SIZEGRIP|wxFULL_REPAINT_ON_RESIZE,     int winid=0, String name=StatusLineNameStr) -> StatusBar

CreateToolBar(*args, **kwargs)
CreateToolBar(self, long style=-1, int winid=-1, String name=ToolBarNameStr) -> wxToolBar

DoGiveHelp(*args, **kwargs)
DoGiveHelp(self, String text, bool show)

DoMenuUpdates(*args, **kwargs)
DoMenuUpdates(self, Menu menu=None)

GetClientAreaOrigin(*args, **kwargs)
GetClientAreaOrigin(self) -> Point Get the origin of the client area of the window relative to the window's top left corner (the client area may be shifted because of the borders, scrollbars, other decorations...)

GetMenuBar(*args, **kwargs)
GetMenuBar(self) -> MenuBar

GetStatusBar(*args, **kwargs)
GetStatusBar(self) -> StatusBar

GetStatusBarPane(*args, **kwargs)
GetStatusBarPane(self) -> int

PopStatusText(*args, **kwargs)
PopStatusText(self, int number=0)

ProcessCommand(*args, **kwargs)
ProcessCommand(self, int winid) -> bool

PushStatusText(*args, **kwargs)
PushStatusText(self, String text, int number=0)

SendSizeEvent(*args, **kwargs)
SendSizeEvent(self)

SetMenuBar(*args, **kwargs)
SetMenuBar(self, MenuBar menubar)

SetStatusBar(*args, **kwargs)
SetStatusBar(self, StatusBar statBar)

SetStatusBarPane(*args, **kwargs)
SetStatusBarPane(self, int n)

SetStatusText(*args, **kwargs)
SetStatusText(self, String text, int number=0)

SetStatusWidths(*args, **kwargs)
SetStatusWidths(self, int widths, int widths_field)

SetToolBar(*args, **kwargs)
SetToolBar(self, wxToolBar toolbar)

__repr__(self)

Static methods inherited from wx._windows.Frame:

GetClassDefaultAttributes(*args, **kwargs)
GetClassDefaultAttributes(int variant=WINDOW_VARIANT_NORMAL) -> VisualAttributes Get the default attributes for this class.  This is useful if you want to use the same font or colour in your own control as in a standard control -- which is a much better idea than hard coding specific colours or fonts which might look completely out of place on the user's system, especially if it uses themes. The variant parameter is only relevant under Mac currently and is ignore under other platforms. Under Mac, it will change the size of the returned font. See `wx.Window.SetWindowVariant` for more about this.

Methods inherited from wx._windows.TopLevelWindow:

GetIcon(*args, **kwargs)
GetIcon(self) -> Icon

GetTitle(*args, **kwargs)
GetTitle(self) -> String Gets the window's title. Applicable only to frames and dialogs.

Iconize(*args, **kwargs)
Iconize(self, bool iconize=True)

IsActive(*args, **kwargs)
IsActive(self) -> bool

IsFullScreen(*args, **kwargs)
IsFullScreen(self) -> bool

IsIconized(*args, **kwargs)
IsIconized(self) -> bool

IsMaximized(*args, **kwargs)
IsMaximized(self) -> bool

MacGetMetalAppearance(*args, **kwargs)
MacGetMetalAppearance(self) -> bool

MacSetMetalAppearance(*args, **kwargs)
MacSetMetalAppearance(self, bool on)

Maximize(*args, **kwargs)
Maximize(self, bool maximize=True)

RequestUserAttention(*args, **kwargs)
RequestUserAttention(self, int flags=USER_ATTENTION_INFO)

Restore(*args, **kwargs)
Restore(self)

SetIcon(*args, **kwargs)
SetIcon(self, Icon icon)

SetIcons(*args, **kwargs)
SetIcons(self, wxIconBundle icons)

SetShape(*args, **kwargs)
SetShape(self, Region region) -> bool

SetTitle(*args, **kwargs)
SetTitle(self, String title) Sets the window's title. Applicable only to frames and dialogs.

ShowFullScreen(*args, **kwargs)
ShowFullScreen(self, bool show, long style=FULLSCREEN_ALL) -> bool

Methods inherited from wx._core.Window:

AcceptsFocus(*args, **kwargs)
AcceptsFocus(self) -> bool Can this window have focus?

AcceptsFocusFromKeyboard(*args, **kwargs)
AcceptsFocusFromKeyboard(self) -> bool Can this window be given focus by keyboard navigation? if not, the only way to give it focus (provided it accepts it at all) is to click it.

AddChild(*args, **kwargs)
AddChild(self, Window child) Adds a child window. This is called automatically by window creation functions so should not be required by the application programmer.

AssociateHandle(*args, **kwargs)
AssociateHandle(self, long handle) Associate the window with a new native handle

CaptureMouse(*args, **kwargs)
CaptureMouse(self) Directs all mouse input to this window. Call wx.Window.ReleaseMouse to release the capture. Note that wxWindows maintains the stack of windows having captured the mouse and when the mouse is released the capture returns to the window which had had captured it previously and it is only really released if there were no previous window. In particular, this means that you must release the mouse as many times as you capture it.

Center(*args, **kwargs)
Center(self, int direction=BOTH) Centers the window.  The parameter specifies the direction for cetering, and may be wx.HORIZONTAL, wx.VERTICAL or wx.BOTH. It may also include wx.CENTER_ON_SCREEN flag if you want to center the window on the entire screen and not on its parent window.  If it is a top-level window and has no parent then it will always be centered relative to the screen.

CenterOnParent(*args, **kwargs)
CenterOnParent(self, int dir=BOTH) Center with respect to the the parent window

CenterOnScreen(*args, **kwargs)
CenterOnScreen(self, int dir=BOTH) Center on screen (only works for top level windows)

Centre = Center(*args, **kwargs)
Center(self, int direction=BOTH) Centers the window.  The parameter specifies the direction for cetering, and may be wx.HORIZONTAL, wx.VERTICAL or wx.BOTH. It may also include wx.CENTER_ON_SCREEN flag if you want to center the window on the entire screen and not on its parent window.  If it is a top-level window and has no parent then it will always be centered relative to the screen.

CentreOnParent = CenterOnParent(*args, **kwargs)
CenterOnParent(self, int dir=BOTH) Center with respect to the the parent window

CentreOnScreen = CenterOnScreen(*args, **kwargs)
CenterOnScreen(self, int dir=BOTH) Center on screen (only works for top level windows)

ClearBackground(*args, **kwargs)
ClearBackground(self) Clears the window by filling it with the current background colour. Does not cause an erase background event to be generated.

ClientToScreen(*args, **kwargs)
ClientToScreen(self, Point pt) -> Point Converts to screen coordinates from coordinates relative to this window.

ClientToScreenXY(*args, **kwargs)
ClientToScreenXY(int x, int y) -> (x,y) Converts to screen coordinates from coordinates relative to this window.

Close(*args, **kwargs)
Close(self, bool force=False) -> bool This function simply generates a EVT_CLOSE event whose handler usually tries to close the window. It doesn't close the window itself, however.  If force is False (the default) then the window's close handler will be allowed to veto the destruction of the window.

ConvertDialogPointToPixels(*args, **kwargs)
ConvertDialogPointToPixels(self, Point pt) -> Point Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

ConvertDialogSizeToPixels(*args, **kwargs)
ConvertDialogSizeToPixels(self, Size sz) -> Size Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

ConvertPixelPointToDialog(*args, **kwargs)
ConvertPixelPointToDialog(self, Point pt) -> Point

ConvertPixelSizeToDialog(*args, **kwargs)
ConvertPixelSizeToDialog(self, Size sz) -> Size

DLG_PNT(*args, **kwargs)
DLG_PNT(self, Point pt) -> Point Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

DLG_SZE(*args, **kwargs)
DLG_SZE(self, Size sz) -> Size Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

DestroyChildren(*args, **kwargs)
DestroyChildren(self) -> bool Destroys all children of a window. Called automatically by the destructor.

Disable(*args, **kwargs)
Disable(self) -> bool Disables the window, same as Enable(false).

DissociateHandle(*args, **kwargs)
DissociateHandle(self) Dissociate the current native handle from the window

Enable(*args, **kwargs)
Enable(self, bool enable=True) -> bool Enable or disable the window for user input. Note that when a parent window is disabled, all of its children are disabled as well and they are reenabled again when the parent is.  Returns true if the window has been enabled or disabled, false if nothing was done, i.e. if the window had already been in the specified state.

FindWindowById(*args, **kwargs)
FindWindowById(self, long winid) -> Window Find a chld of this window by window ID

FindWindowByName(*args, **kwargs)
FindWindowByName(self, String name) -> Window Find a child of this window by name

Fit(*args, **kwargs)
Fit(self) Sizes the window so that it fits around its subwindows. This function won't do anything if there are no subwindows and will only really work correctly if sizers are used for the subwindows layout. Also, if the window has exactly one subwindow it is better (faster and the result is more precise as Fit adds some margin to account for fuzziness of its calculations) to call window.SetClientSize(child.GetSize()) instead of calling Fit.

FitInside(*args, **kwargs)
FitInside(self) Similar to Fit, but sizes the interior (virtual) size of a window. Mainly useful with scrolled windows to reset scrollbars after sizing changes that do not trigger a size event, and/or scrolled windows without an interior sizer. This function similarly won't do anything if there are no subwindows.

Freeze(*args, **kwargs)
Freeze(self) Freezes the window or, in other words, prevents any updates from taking place on screen, the window is not redrawn at all. Thaw must be called to reenable window redrawing.  Calls to Freeze/Thaw may be nested, with the actual Thaw being delayed until all the nesting has been undone. This method is useful for visual appearance optimization (for example, it is a good idea to use it before inserting large amount of text into a wxTextCtrl under wxGTK) but is not implemented on all platforms nor for all controls so it is mostly just a hint to wxWindows and not a mandatory directive.

GetAcceleratorTable(*args, **kwargs)
GetAcceleratorTable(self) -> AcceleratorTable Gets the accelerator table for this window.

GetAdjustedBestSize(*args, **kwargs)
GetAdjustedBestSize(self) -> Size This method is similar to GetBestSize, except in one thing. GetBestSize should return the minimum untruncated size of the window, while this method will return the largest of BestSize and any user specified minimum size. ie. it is the minimum size the window should currently be drawn at, not the minimal size it can possibly tolerate.

GetAutoLayout(*args, **kwargs)
GetAutoLayout(self) -> bool Returns the current autoLayout setting

GetBackgroundColour(*args, **kwargs)
GetBackgroundColour(self) -> Colour Returns the background colour of the window.

GetBackgroundStyle(*args, **kwargs)
GetBackgroundStyle(self) -> int Returns the background style of the window. :see: `SetBackgroundStyle`

GetBestFittingSize(*args, **kwargs)
GetBestFittingSize(self) -> Size This function will merge the window's best size into the window's minimum size, giving priority to the min size components, and returns the results.

GetBestSize(*args, **kwargs)
GetBestSize(self) -> Size This function returns the best acceptable minimal size for the window, if applicable. For example, for a static text control, it will be the minimal size such that the control label is not truncated. For windows containing subwindows (suzh aswx.Panel), the size returned by this function will be the same as the size the window would have had after calling Fit.

GetBestSizeTuple(*args, **kwargs)
GetBestSizeTuple() -> (width, height) This function returns the best acceptable minimal size for the window, if applicable. For example, for a static text control, it will be the minimal size such that the control label is not truncated. For windows containing subwindows (suzh aswx.Panel), the size returned by this function will be the same as the size the window would have had after calling Fit.

GetBestVirtualSize(*args, **kwargs)
GetBestVirtualSize(self) -> Size Return the largest of ClientSize and BestSize (as determined by a sizer, interior children, or other means)

GetBorder(*args)
GetBorder(self, long flags) -> int GetBorder(self) -> int Get border for the flags of this window

GetCaret(*args, **kwargs)
GetCaret(self) -> Caret Returns the caret associated with the window.

GetCharHeight(*args, **kwargs)
GetCharHeight(self) -> int Get the (average) character size for the current font.

GetCharWidth(*args, **kwargs)
GetCharWidth(self) -> int Get the (average) character size for the current font.

GetChildren(*args, **kwargs)
GetChildren(self) -> PyObject Returns a list of the window's children.  NOTE: Currently this is a copy of the child window list maintained by the window, so the return value of this function is only valid as long as the window's children do not change.

GetClientRect(*args, **kwargs)
GetClientRect(self) -> Rect Get the client area position and size as a `wx.Rect` object.

GetClientSize(*args, **kwargs)
GetClientSize(self) -> Size This gets the size of the window's 'client area' in pixels. The client area is the area which may be drawn on by the programmer, excluding title bar, border, scrollbars, etc.

GetClientSizeTuple(*args, **kwargs)
GetClientSizeTuple() -> (width, height) This gets the size of the window's 'client area' in pixels. The client area is the area which may be drawn on by the programmer, excluding title bar, border, scrollbars, etc.

GetConstraints(*args, **kwargs)
GetConstraints(self) -> LayoutConstraints Returns a pointer to the window's layout constraints, or None if there are none.

GetContainingSizer(*args, **kwargs)
GetContainingSizer(self) -> Sizer Return the sizer that this window is a member of, if any, otherwise None.

GetCursor(*args, **kwargs)
GetCursor(self) -> Cursor Return the cursor associated with this window.

GetDefaultAttributes(*args, **kwargs)
GetDefaultAttributes(self) -> VisualAttributes Get the default attributes for an instance of this class.  This is useful if you want to use the same font or colour in your own control as in a standard control -- which is a much better idea than hard coding specific colours or fonts which might look completely out of place on the user's system, especially if it uses themes.

GetDefaultItem(*args, **kwargs)
GetDefaultItem(self) -> Window Get the default child of this parent, i.e. the one which is activated by pressing <Enter> such as the OK button on a wx.Dialog.

GetDropTarget(*args, **kwargs)
GetDropTarget(self) -> DropTarget Returns the associated drop target, which may be None.

GetEventHandler(*args, **kwargs)
GetEventHandler(self) -> EvtHandler Returns the event handler for this window. By default, the window is its own event handler.

GetExtraStyle(*args, **kwargs)
GetExtraStyle(self) -> long Returns the extra style bits for the window.

GetFont(*args, **kwargs)
GetFont(self) -> Font Returns the default font used for this window.

GetForegroundColour(*args, **kwargs)
GetForegroundColour(self) -> Colour Returns the foreground colour of the window.  The interpretation of foreground colour is dependent on the window class; it may be the text colour or other colour, or it may not be used at all.

GetFullTextExtent(*args, **kwargs)
GetFullTextExtent(String string, Font font=None) ->    (width, height, descent, externalLeading) Get the width, height, decent and leading of the text using the current or specified font.

GetGrandParent(*args, **kwargs)
GetGrandParent(self) -> Window Returns the parent of the parent of this window, or None if there isn't one.

GetHandle(*args, **kwargs)
GetHandle(self) -> long Returns the platform-specific handle (as a long integer) of the physical window.  Currently on wxMac it returns the handle of the toplevel parent of the window.

GetHelpText(*args, **kwargs)
GetHelpText(self) -> String Gets the help text to be used as context-sensitive help for this window.  Note that the text is actually stored by the current wxHelpProvider implementation, and not in the window object itself.

GetId(*args, **kwargs)
GetId(self) -> int Returns the identifier of the window.  Each window has an integer identifier. If the application has not provided one (or the default Id -1 is used) then an unique identifier with a negative value will be generated.

GetLabel(*args, **kwargs)
GetLabel(self) -> String Generic way of getting a label from any window, for identification purposes.  The interpretation of this function differs from class to class. For frames and dialogs, the value returned is the title. For buttons or static text controls, it is the button text. This function can be useful for meta-programs such as testing tools or special-needs access programs)which need to identify windows by name.

GetMaxHeight(*args, **kwargs)
GetMaxHeight(self) -> int

GetMaxSize(*args, **kwargs)
GetMaxSize(self) -> Size

GetMaxWidth(*args, **kwargs)
GetMaxWidth(self) -> int

GetMinHeight(*args, **kwargs)
GetMinHeight(self) -> int

GetMinSize(*args, **kwargs)
GetMinSize(self) -> Size

GetMinWidth(*args, **kwargs)
GetMinWidth(self) -> int

GetName(*args, **kwargs)
GetName(self) -> String Returns the windows name.  This name is not guaranteed to be unique; it is up to the programmer to supply an appropriate name in the window constructor or via wx.Window.SetName.

GetParent(*args, **kwargs)
GetParent(self) -> Window Returns the parent window of this window, or None if there isn't one.

GetPosition(*args, **kwargs)
GetPosition(self) -> Point Get the window's position.

GetPositionTuple(*args, **kwargs)
GetPositionTuple() -> (x,y) Get the window's position.

GetRect(*args, **kwargs)
GetRect(self) -> Rect Returns the size and position of the window as a wx.Rect object.

GetScrollPos(*args, **kwargs)
GetScrollPos(self, int orientation) -> int Returns the built-in scrollbar position.

GetScrollRange(*args, **kwargs)
GetScrollRange(self, int orientation) -> int Returns the built-in scrollbar range.

GetScrollThumb(*args, **kwargs)
GetScrollThumb(self, int orientation) -> int Returns the built-in scrollbar thumb size.

GetSize(*args, **kwargs)
GetSize(self) -> Size Get the window size.

GetSizeTuple(*args, **kwargs)
GetSizeTuple() -> (width, height) Get the window size.

GetSizer(*args, **kwargs)
GetSizer(self) -> Sizer Return the sizer associated with the window by a previous call to SetSizer or None if there isn't one.

GetTextExtent(*args, **kwargs)
GetTextExtent(String string) -> (width, height) Get the width and height of the text using the current font.

GetThemeEnabled(*args, **kwargs)
GetThemeEnabled(self) -> bool Return the themeEnabled flag.

GetToolTip(*args, **kwargs)
GetToolTip(self) -> ToolTip get the associated tooltip or None if none

GetUpdateClientRect(*args, **kwargs)
GetUpdateClientRect(self) -> Rect Get the update rectangle region bounding box in client coords.

GetUpdateRegion(*args, **kwargs)
GetUpdateRegion(self) -> Region Returns the region specifying which parts of the window have been damaged. Should only be called within an EVT_PAINT handler.

GetValidator(*args, **kwargs)
GetValidator(self) -> Validator Returns a pointer to the current validator for the window, or None if there is none.

GetVirtualSize(*args, **kwargs)
GetVirtualSize(self) -> Size Get the the virtual size of the window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

GetVirtualSizeTuple(*args, **kwargs)
GetVirtualSizeTuple() -> (width, height) Get the the virtual size of the window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

GetWindowStyle = GetWindowStyleFlag(*args, **kwargs)
GetWindowStyleFlag(self) -> long Gets the window style that was passed to the constructor or Create method.

GetWindowStyleFlag(*args, **kwargs)
GetWindowStyleFlag(self) -> long Gets the window style that was passed to the constructor or Create method.

GetWindowVariant(*args, **kwargs)
GetWindowVariant(self) -> int

HasCapture(*args, **kwargs)
HasCapture(self) -> bool Returns true if this window has the current mouse capture.

HasFlag(*args, **kwargs)
HasFlag(self, int flag) -> bool Test if the given style is set for this window.

HasScrollbar(*args, **kwargs)
HasScrollbar(self, int orient) -> bool Does the window have the scrollbar for this orientation?

Hide(*args, **kwargs)
Hide(self) -> bool Equivalent to calling Show(False).

HitTest(*args, **kwargs)
HitTest(self, Point pt) -> int Test where the given (in client coords) point lies

HitTestXY(*args, **kwargs)
HitTestXY(self, int x, int y) -> int Test where the given (in client coords) point lies

InheritAttributes(*args, **kwargs)
InheritAttributes(self) This function is (or should be, in case of custom controls) called during window creation to intelligently set up the window visual attributes, that is the font and the foreground and background colours. By 'intelligently' the following is meant: by default, all windows use their own default attributes. However if some of the parent's attributes are explicitly changed (that is, using SetFont and not SetOwnFont) and if the corresponding attribute hadn't been explicitly set for this window itself, then this window takes the same value as used by the parent. In addition, if the window overrides ShouldInheritColours to return false, the colours will not be changed no matter what and only the font might. This rather complicated logic is necessary in order to accommodate the different usage scenarios. The most common one is when all default attributes are used and in this case, nothing should be inherited as in modern GUIs different controls use different fonts (and colours) than their siblings so they can't inherit the same value from the parent. However it was also deemed desirable to allow to simply change the attributes of all children at once by just changing the font or colour of their common parent, hence in this case we do inherit the parents attributes.

InitDialog(*args, **kwargs)
InitDialog(self) Sends an EVT_INIT_DIALOG event, whose handler usually transfers data to the dialog via validators.

InvalidateBestSize(*args, **kwargs)
InvalidateBestSize(self) Reset the cached best size value so it will be recalculated the next time it is needed.

IsBeingDeleted(*args, **kwargs)
IsBeingDeleted(self) -> bool Is the window in the process of being deleted?

IsEnabled(*args, **kwargs)
IsEnabled(self) -> bool Returns true if the window is enabled for input, false otherwise.

IsExposed(*args, **kwargs)
IsExposed(self, int x, int y, int w=1, int h=1) -> bool Returns true if the given point or rectangle area has been exposed since the last repaint. Call this in an paint event handler to optimize redrawing by only redrawing those areas, which have been exposed.

IsExposedPoint(*args, **kwargs)
IsExposedPoint(self, Point pt) -> bool Returns true if the given point or rectangle area has been exposed since the last repaint. Call this in an paint event handler to optimize redrawing by only redrawing those areas, which have been exposed.

IsExposedRect(*args, **kwargs)
IsExposedRect(self, Rect rect) -> bool Returns true if the given point or rectangle area has been exposed since the last repaint. Call this in an paint event handler to optimize redrawing by only redrawing those areas, which have been exposed.

IsRetained(*args, **kwargs)
IsRetained(self) -> bool Returns true if the window is retained, false otherwise.  Retained windows are only available on X platforms.

IsShown(*args, **kwargs)
IsShown(self) -> bool Returns true if the window is shown, false if it has been hidden.

IsTopLevel(*args, **kwargs)
IsTopLevel(self) -> bool Returns true if the given window is a top-level one. Currently all frames and dialogs are always considered to be top-level windows (even if they have a parent window).

Layout(*args, **kwargs)
Layout(self) -> bool Invokes the constraint-based layout algorithm or the sizer-based algorithm for this window.  See SetAutoLayout: when auto layout is on, this function gets called automatically by the default EVT_SIZE handler when the window is resized.

LineDown(*args, **kwargs)
LineDown(self) -> bool This is just a wrapper for ScrollLines(1).

LineUp(*args, **kwargs)
LineUp(self) -> bool This is just a wrapper for ScrollLines(-1).

Lower(*args, **kwargs)
Lower(self) Lowers the window to the bottom of the window hierarchy if it is a managed window (dialog or frame).

MakeModal(*args, **kwargs)
MakeModal(self, bool modal=True) Disables all other windows in the application so that the user can only interact with this window.  Passing False will reverse this effect.

Move(*args, **kwargs)
Move(self, Point pt, int flags=SIZE_USE_EXISTING) Moves the window to the given position.

MoveAfterInTabOrder(*args, **kwargs)
MoveAfterInTabOrder(self, Window win) Moves this window in the tab navigation order after the specified sibling window.  This means that when the user presses the TAB key on that other window, the focus switches to this window. The default tab order is the same as creation order.  This function and `MoveBeforeInTabOrder` allow to change it after creating all the windows.

MoveBeforeInTabOrder(*args, **kwargs)
MoveBeforeInTabOrder(self, Window win) Same as `MoveAfterInTabOrder` except that it inserts this window just before win instead of putting it right after it.

MoveXY(*args, **kwargs)
MoveXY(self, int x, int y, int flags=SIZE_USE_EXISTING) Moves the window to the given position.

Navigate(*args, **kwargs)
Navigate(self, int flags=NavigationKeyEvent.IsForward) -> bool Does keyboard navigation from this window to another, by sending a `wx.NavigationKeyEvent`.

PageDown(*args, **kwargs)
PageDown(self) -> bool This is just a wrapper for ScrollPages(1).

PageUp(*args, **kwargs)
PageUp(self) -> bool This is just a wrapper for ScrollPages(-1).

PopEventHandler(*args, **kwargs)
PopEventHandler(self, bool deleteHandler=False) -> EvtHandler Removes and returns the top-most event handler on the event handler stack.  If deleteHandler is True then the wx.EvtHandler object will be destroyed after it is popped.

PopupMenu(*args, **kwargs)
PopupMenu(self, Menu menu, Point pos=DefaultPosition) -> bool Pops up the given menu at the specified coordinates, relative to this window, and returns control when the user has dismissed the menu. If a menu item is selected, the corresponding menu event is generated and will be processed as usual.  If the default position is given then the current position of the mouse cursor will be used.

PopupMenuXY(*args, **kwargs)
PopupMenuXY(self, Menu menu, int x=-1, int y=-1) -> bool Pops up the given menu at the specified coordinates, relative to this window, and returns control when the user has dismissed the menu. If a menu item is selected, the corresponding menu event is generated and will be processed as usual.  If the default position is given then the current position of the mouse cursor will be used.

PostCreate(self, pre)
Phase 3 of the 2-phase create <wink!> Call this method after precreating the window with the 2-phase create method.

PrepareDC(*args, **kwargs)
PrepareDC(self, DC dc) Call this function to prepare the device context for drawing a scrolled image. It sets the device origin according to the current scroll position.

PushEventHandler(*args, **kwargs)
PushEventHandler(self, EvtHandler handler) Pushes this event handler onto the event handler stack for the window. An event handler is an object that is capable of processing the events sent to a window. By default, the window is its own event handler, but an application may wish to substitute another, for example to allow central implementation of event-handling for a variety of different window classes. wx.Window.PushEventHandler allows an application to set up a chain of event handlers, where an event not handled by one event handler is handed to the next one in the chain. Use `wx.Window.PopEventHandler` to remove the event handler.

Raise(*args, **kwargs)
Raise(self) Raises the window to the top of the window hierarchy if it is a managed window (dialog or frame).

Refresh(*args, **kwargs)
Refresh(self, bool eraseBackground=True, Rect rect=None) Mark the specified rectangle (or the whole window) as "dirty" so it will be repainted.  Causes an EVT_PAINT event to be generated and sent to the window.

RefreshRect(*args, **kwargs)
RefreshRect(self, Rect rect) Redraws the contents of the given rectangle: the area inside it will be repainted.  This is the same as Refresh but has a nicer syntax.

RegisterHotKey(*args, **kwargs)
RegisterHotKey(self, int hotkeyId, int modifiers, int keycode) -> bool Registers a system wide hotkey. Every time the user presses the hotkey registered here, this window will receive a hotkey event. It will receive the event even if the application is in the background and does not have the input focus because the user is working with some other application.  To bind an event handler function to this hotkey use EVT_HOTKEY with an id equal to hotkeyId.  Returns True if the hotkey was registered successfully.

ReleaseMouse(*args, **kwargs)
ReleaseMouse(self) Releases mouse input captured with wx.Window.CaptureMouse.

RemoveChild(*args, **kwargs)
RemoveChild(self, Window child) Removes a child window. This is called automatically by window deletion functions so should not be required by the application programmer.

RemoveEventHandler(*args, **kwargs)
RemoveEventHandler(self, EvtHandler handler) -> bool Find the given handler in the event handler chain and remove (but not delete) it from the event handler chain, return True if it was found and False otherwise (this also results in an assert failure so this function should only be called when the handler is supposed to be there.)

Reparent(*args, **kwargs)
Reparent(self, Window newParent) -> bool Reparents the window, i.e the window will be removed from its current parent window (e.g. a non-standard toolbar in a wxFrame) and then re-inserted into another. Available on Windows and GTK.  Returns True if the parent was changed, False otherwise (error or newParent == oldParent)

ScreenToClient(*args, **kwargs)
ScreenToClient(self, Point pt) -> Point Converts from screen to client window coordinates.

ScreenToClientXY(*args, **kwargs)
ScreenToClientXY(int x, int y) -> (x,y) Converts from screen to client window coordinates.

ScrollLines(*args, **kwargs)
ScrollLines(self, int lines) -> bool If the platform and window class supports it, scrolls the window by the given number of lines down, if lines is positive, or up if lines is negative.  Returns True if the window was scrolled, False if it was already on top/bottom and nothing was done.

ScrollPages(*args, **kwargs)
ScrollPages(self, int pages) -> bool If the platform and window class supports it, scrolls the window by the given number of pages down, if pages is positive, or up if pages is negative.  Returns True if the window was scrolled, False if it was already on top/bottom and nothing was done.

ScrollWindow(*args, **kwargs)
ScrollWindow(self, int dx, int dy, Rect rect=None) Physically scrolls the pixels in the window and move child windows accordingly.  Use this function to optimise your scrolling implementations, to minimise the area that must be redrawn. Note that it is rarely required to call this function from a user program.

SetAcceleratorTable(*args, **kwargs)
SetAcceleratorTable(self, AcceleratorTable accel) Sets the accelerator table for this window.

SetAutoLayout(*args, **kwargs)
SetAutoLayout(self, bool autoLayout) Determines whether the Layout function will be called automatically when the window is resized.  It is called implicitly by SetSizer but if you use SetConstraints you should call it manually or otherwise the window layout won't be correctly updated when its size changes.

SetBackgroundColour(*args, **kwargs)
SetBackgroundColour(self, Colour colour) -> bool Sets the background colour of the window.  Returns True if the colour was changed.  The background colour is usually painted by the default EVT_ERASE_BACKGROUND event handler function under Windows and automatically under GTK.  Using `wx.NullColour` will reset the window to the default background colour. Note that setting the background colour may not cause an immediate refresh, so you may wish to call `ClearBackground` or `Refresh` after calling this function. Using this function will disable attempts to use themes for this window, if the system supports them.  Use with care since usually the themes represent the appearance chosen by the user to be used for all applications on the system.

SetBackgroundStyle(*args, **kwargs)
SetBackgroundStyle(self, int style) -> bool Returns the background style of the window. The background style indicates how the background of the window is drawn.     ======================  ========================================     wx.BG_STYLE_SYSTEM      The background colour or pattern should                             be determined by the system     wx.BG_STYLE_COLOUR      The background should be a solid colour     wx.BG_STYLE_CUSTOM      The background will be implemented by the                             application.     ======================  ======================================== On GTK+, use of wx.BG_STYLE_CUSTOM allows the flicker-free drawing of a custom background, such as a tiled bitmap. Currently the style has no effect on other platforms. :see: `GetBackgroundStyle`, `SetBackgroundColour`

SetBestFittingSize(*args, **kwargs)
SetBestFittingSize(self, Size size=DefaultSize) A 'Smart' SetSize that will fill in default size components with the window's *best size* values.  Also set's the minsize for use with sizers.

SetCaret(*args, **kwargs)
SetCaret(self, Caret caret) Sets the caret associated with the window.

SetClientRect(*args, **kwargs)
SetClientRect(self, Rect rect) This sets the size of the window client area in pixels. Using this function to size a window tends to be more device-independent than wx.Window.SetSize, since the application need not worry about what dimensions the border or title bar have when trying to fit the window around panel items, for example.

SetClientSize(*args, **kwargs)
SetClientSize(self, Size size) This sets the size of the window client area in pixels. Using this function to size a window tends to be more device-independent than wx.Window.SetSize, since the application need not worry about what dimensions the border or title bar have when trying to fit the window around panel items, for example.

SetClientSizeWH(*args, **kwargs)
SetClientSizeWH(self, int width, int height) This sets the size of the window client area in pixels. Using this function to size a window tends to be more device-independent than wx.Window.SetSize, since the application need not worry about what dimensions the border or title bar have when trying to fit the window around panel items, for example.

SetConstraints(*args, **kwargs)
SetConstraints(self, LayoutConstraints constraints) Sets the window to have the given layout constraints. If an existing layout constraints object is already owned by the window, it will be deleted.  Pass None to disassociate and delete the window's current constraints. You must call SetAutoLayout to tell a window to use the constraints automatically in its default EVT_SIZE handler; otherwise, you must handle EVT_SIZE yourself and call Layout() explicitly. When setting both a wx.LayoutConstraints and a wx.Sizer, only the sizer will have effect.

SetContainingSizer(*args, **kwargs)
SetContainingSizer(self, Sizer sizer) This normally does not need to be called by application code. It is called internally when a window is added to a sizer, and is used so the window can remove itself from the sizer when it is destroyed.

SetCursor(*args, **kwargs)
SetCursor(self, Cursor cursor) -> bool Sets the window's cursor. Notice that the window cursor also sets it for the children of the window implicitly. The cursor may be wx.NullCursor in which case the window cursor will be reset back to default.

SetDefaultItem(*args, **kwargs)
SetDefaultItem(self, Window child) -> Window Set this child as default, return the old default.

SetDimensions(*args, **kwargs)
SetDimensions(self, int x, int y, int width, int height, int sizeFlags=SIZE_AUTO) Sets the position and size of the window in pixels.  The sizeFlags parameter indicates the interpretation of the other params if they are -1.  wx.SIZE_AUTO*: a -1 indicates that a class-specific default shoudl be used.  wx.SIZE_USE_EXISTING: existing dimensions should be used if -1 values are supplied.  wxSIZE_ALLOW_MINUS_ONE: allow dimensions of -1 and less to be interpreted as real dimensions, not default values.

SetDropTarget(*args, **kwargs)
SetDropTarget(self, DropTarget dropTarget) Associates a drop target with this window.  If the window already has a drop target, it is deleted.

SetEventHandler(*args, **kwargs)
SetEventHandler(self, EvtHandler handler) Sets the event handler for this window.  An event handler is an object that is capable of processing the events sent to a window. By default, the window is its own event handler, but an application may wish to substitute another, for example to allow central implementation of event-handling for a variety of different window classes. It is usually better to use `wx.Window.PushEventHandler` since this sets up a chain of event handlers, where an event not handled by one event handler is handed to the next one in the chain.

SetExtraStyle(*args, **kwargs)
SetExtraStyle(self, long exStyle) Sets the extra style bits for the window.  Extra styles are the less often used style bits which can't be set with the constructor or with SetWindowStyleFlag()

SetFocus(*args, **kwargs)
SetFocus(self) Set's the focus to this window, allowing it to receive keyboard input.

SetFocusFromKbd(*args, **kwargs)
SetFocusFromKbd(self) Set focus to this window as the result of a keyboard action.  Normally only called internally.

SetFont(*args, **kwargs)
SetFont(self, Font font) -> bool Sets the font for this window.

SetForegroundColour(*args, **kwargs)
SetForegroundColour(self, Colour colour) -> bool Sets the foreground colour of the window.  Returns True is the colour was changed.  The interpretation of foreground colour is dependent on the window class; it may be the text colour or other colour, or it may not be used at all.

SetHelpText(*args, **kwargs)
SetHelpText(self, String text) Sets the help text to be used as context-sensitive help for this window.  Note that the text is actually stored by the current wxHelpProvider implementation, and not in the window object itself.

SetHelpTextForId(*args, **kwargs)
SetHelpTextForId(self, String text) Associate this help text with all windows with the same id as this one.

SetId(*args, **kwargs)
SetId(self, int winid) Sets the identifier of the window.  Each window has an integer identifier. If the application has not provided one, an identifier will be generated. Normally, the identifier should be provided on creation and should not be modified subsequently.

SetLabel(*args, **kwargs)
SetLabel(self, String label) Set the text which the window shows in its label if applicable.

SetMaxSize(*args, **kwargs)
SetMaxSize(self, Size maxSize) A more convenient method than `SetSizeHints` for setting just the max size.

SetMinSize(*args, **kwargs)
SetMinSize(self, Size minSize) A more convenient method than `SetSizeHints` for setting just the min size.

SetName(*args, **kwargs)
SetName(self, String name) Sets the window's name.  The window name is used for ressource setting in X, it is not the same as the window title/label

SetOwnBackgroundColour(*args, **kwargs)
SetOwnBackgroundColour(self, Colour colour)

SetOwnFont(*args, **kwargs)
SetOwnFont(self, Font font)

SetOwnForegroundColour(*args, **kwargs)
SetOwnForegroundColour(self, Colour colour)

SetPosition = Move(*args, **kwargs)
Move(self, Point pt, int flags=SIZE_USE_EXISTING) Moves the window to the given position.

SetRect(*args, **kwargs)
SetRect(self, Rect rect, int sizeFlags=SIZE_AUTO) Sets the position and size of the window in pixels using a wx.Rect.

SetScrollPos(*args, **kwargs)
SetScrollPos(self, int orientation, int pos, bool refresh=True) Sets the position of one of the built-in scrollbars.

SetScrollbar(*args, **kwargs)
SetScrollbar(self, int orientation, int position, int thumbSize, int range,     bool refresh=True) Sets the scrollbar properties of a built-in scrollbar.

SetSize(*args, **kwargs)
SetSize(self, Size size) Sets the size of the window in pixels.

SetSizeHints(*args, **kwargs)
SetSizeHints(self, int minW, int minH, int maxW=-1, int maxH=-1, int incW=-1,     int incH=-1) Allows specification of minimum and maximum window sizes, and window size increments. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the window outside the given bounds (if it is a top-level window.)  Sizers will also inspect the minimum window size and will use that value if set when calculating layout. The resizing increments are only significant under Motif or Xt.

SetSizeHintsSz(*args, **kwargs)
SetSizeHintsSz(self, Size minSize, Size maxSize=DefaultSize, Size incSize=DefaultSize) Allows specification of minimum and maximum window sizes, and window size increments. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the window outside the given bounds (if it is a top-level window.)  Sizers will also inspect the minimum window size and will use that value if set when calculating layout. The resizing increments are only significant under Motif or Xt.

SetSizeWH(*args, **kwargs)
SetSizeWH(self, int width, int height) Sets the size of the window in pixels.

SetSizer(*args, **kwargs)
SetSizer(self, Sizer sizer, bool deleteOld=True) Sets the window to have the given layout sizer. The window will then own the object, and will take care of its deletion. If an existing layout sizer object is already owned by the window, it will be deleted if the deleteOld parameter is true. Note that this function will also call SetAutoLayout implicitly with a True parameter if the sizer is non-None, and False otherwise.

SetSizerAndFit(*args, **kwargs)
SetSizerAndFit(self, Sizer sizer, bool deleteOld=True) The same as SetSizer, except it also sets the size hints for the window based on the sizer's minimum size.

SetThemeEnabled(*args, **kwargs)
SetThemeEnabled(self, bool enableTheme) This function tells a window if it should use the system's "theme" code to draw the windows' background instead if its own background drawing code. This will only have an effect on platforms that support the notion of themes in user defined windows. One such platform is GTK+ where windows can have (very colourful) backgrounds defined by a user's selected theme. Dialogs, notebook pages and the status bar have this flag set to true by default so that the default look and feel is simulated best.

SetTmpDefaultItem(*args, **kwargs)
SetTmpDefaultItem(self, Window win) Set this child as temporary default

SetToolTip(*args, **kwargs)
SetToolTip(self, ToolTip tip) Attach a tooltip to the window.

SetToolTipString(*args, **kwargs)
SetToolTipString(self, String tip) Attach a tooltip to the window.

SetValidator(*args, **kwargs)
SetValidator(self, Validator validator) Deletes the current validator (if any) and sets the window validator, having called wx.Validator.Clone to create a new validator of this type.

SetVirtualSize(*args, **kwargs)
SetVirtualSize(self, Size size) Set the the virtual size of a window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

SetVirtualSizeHints(*args, **kwargs)
SetVirtualSizeHints(self, int minW, int minH, int maxW=-1, int maxH=-1) Allows specification of minimum and maximum virtual window sizes. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the virtual area of the window outside the given bounds.

SetVirtualSizeHintsSz(*args, **kwargs)
SetVirtualSizeHintsSz(self, Size minSize, Size maxSize=DefaultSize) Allows specification of minimum and maximum virtual window sizes. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the virtual area of the window outside the given bounds.

SetVirtualSizeWH(*args, **kwargs)
SetVirtualSizeWH(self, int w, int h) Set the the virtual size of a window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

SetWindowStyle = SetWindowStyleFlag(*args, **kwargs)
SetWindowStyleFlag(self, long style) Sets the style of the window. Please note that some styles cannot be changed after the window creation and that Refresh() might need to be called after changing the others for the change to take place immediately.

SetWindowStyleFlag(*args, **kwargs)
SetWindowStyleFlag(self, long style) Sets the style of the window. Please note that some styles cannot be changed after the window creation and that Refresh() might need to be called after changing the others for the change to take place immediately.

SetWindowVariant(*args, **kwargs)
SetWindowVariant(self, int variant) Sets the variant of the window/font size to use for this window, if the platform supports variants, for example, wxMac.

ShouldInheritColours(*args, **kwargs)
ShouldInheritColours(self) -> bool Return true from here to allow the colours of this window to be changed by InheritAttributes, returning false forbids inheriting them from the parent window. The base class version returns false, but this method is overridden in wxControl where it returns true.

Show(*args, **kwargs)
Show(self, bool show=True) -> bool Shows or hides the window. You may need to call Raise for a top level window if you want to bring it to top, although this is not needed if Show is called immediately after the frame creation.  Returns True if the window has been shown or hidden or False if nothing was done because it already was in the requested state.

Thaw(*args, **kwargs)
Thaw(self) Reenables window updating after a previous call to Freeze.  Calls to Freeze/Thaw may be nested, so Thaw must be called the same number of times that Freeze was before the window will be updated.

TransferDataFromWindow(*args, **kwargs)
TransferDataFromWindow(self) -> bool Transfers values from child controls to data areas specified by their validators. Returns false if a transfer failed.  If the window has wx.WS_EX_VALIDATE_RECURSIVELY extra style flag set, the method will also call TransferDataFromWindow() of all child windows.

TransferDataToWindow(*args, **kwargs)
TransferDataToWindow(self) -> bool Transfers values to child controls from data areas specified by their validators.  If the window has wx.WS_EX_VALIDATE_RECURSIVELY extra style flag set, the method will also call TransferDataToWindow() of all child windows.

UnregisterHotKey(*args, **kwargs)
UnregisterHotKey(self, int hotkeyId) -> bool Unregisters a system wide hotkey.

Update(*args, **kwargs)
Update(self) Calling this method immediately repaints the invalidated area of the window instead of waiting for the EVT_PAINT event to happen, (normally this would usually only happen when the flow of control returns to the event loop.)  Notice that this function doesn't refresh the window and does nothing if the window has been already repainted.  Use Refresh first if you want to immediately redraw the window (or some portion of it) unconditionally.

UpdateWindowUI(*args, **kwargs)
UpdateWindowUI(self, long flags=UPDATE_UI_NONE) This function sends EVT_UPDATE_UI events to the window. The particular implementation depends on the window; for example a wx.ToolBar will send an update UI event for each toolbar button, and a wx.Frame will send an update UI event for each menubar menu item. You can call this function from your application to ensure that your UI is up-to-date at a particular point in time (as far as your EVT_UPDATE_UI handlers are concerned). This may be necessary if you have called wx.UpdateUIEvent.SetMode or wx.UpdateUIEvent.SetUpdateInterval to limit the overhead that wxWindows incurs by sending update UI events in idle time.

Validate(*args, **kwargs)
Validate(self) -> bool Validates the current values of the child controls using their validators.  If the window has wx.WS_EX_VALIDATE_RECURSIVELY extra style flag set, the method will also call Validate() of all child windows.  Returns false if any of the validations failed.

WarpPointer(*args, **kwargs)
WarpPointer(self, int x, int y) Moves the pointer to the given position on the window. NOTE: This function is not supported under Mac because Apple Human Interface Guidelines forbid moving the mouse cursor programmatically.

Static methods inherited from wx._core.Window:

FindFocus(*args, **kwargs)
FindFocus() -> Window Returns the window or control that currently has the keyboard focus, or None.

GetCapture(*args, **kwargs)
GetCapture() -> Window Returns the window which currently captures the mouse or None

NewControlId(*args, **kwargs)
NewControlId() -> int Generate a control id for the controls which were not given one.

NextControlId(*args, **kwargs)
NextControlId(int winid) -> int Get the id of the control following the one with the given autogenerated) id

PrevControlId(*args, **kwargs)
PrevControlId(int winid) -> int Get the id of the control preceding the one with the given autogenerated) id

Methods inherited from wx._core.EvtHandler:

AddPendingEvent(*args, **kwargs)
AddPendingEvent(self, Event event)

Bind(self, event, handler, source=None, id=-1, id2=-1)
Bind an event to an event handler. :param event: One of the EVT_* objects that specifies the               type of event to bind, :param handler: A callable object to be invoked when the               event is delivered to self.  Pass None to               disconnect an event handler. :param source: Sometimes the event originates from a               different window than self, but you still               want to catch it in self.  (For example, a               button event delivered to a frame.)  By               passing the source of the event, the event               handling system is able to differentiate               between the same event type from different               controls. :param id: Used to spcify the event source by ID instead            of instance. :param id2: Used when it is desirable to bind a handler               to a range of IDs, such as with EVT_MENU_RANGE.

Connect(*args, **kwargs)
Connect(self, int id, int lastId, int eventType, PyObject func)

Disconnect(*args, **kwargs)
Disconnect(self, int id, int lastId=-1, wxEventType eventType=wxEVT_NULL) -> bool

GetEvtHandlerEnabled(*args, **kwargs)
GetEvtHandlerEnabled(self) -> bool

GetNextHandler(*args, **kwargs)
GetNextHandler(self) -> EvtHandler

GetPreviousHandler(*args, **kwargs)
GetPreviousHandler(self) -> EvtHandler

ProcessEvent(*args, **kwargs)
ProcessEvent(self, Event event) -> bool

ProcessPendingEvents(*args, **kwargs)
ProcessPendingEvents(self)

SetEvtHandlerEnabled(*args, **kwargs)
SetEvtHandlerEnabled(self, bool enabled)

SetNextHandler(*args, **kwargs)
SetNextHandler(self, EvtHandler handler)

SetPreviousHandler(*args, **kwargs)
SetPreviousHandler(self, EvtHandler handler)

Unbind(self, event, source=None, id=-1, id2=-1)
Disconencts the event handler binding for event from self. Returns True if successful.

Methods inherited from wx._core.Object:

GetClassName(*args, **kwargs)
GetClassName(self) -> String Returns the class name of the C++ class using wxRTTI.

Data and other attributes inherited from wx._core.Object:

__dict__ = <dictproxy object>
dictionary for instance variables (if defined)

__weakref__ = <attribute '__weakref__' of 'Object' objects>
list of weak references to the object (if defined)

class NavigationToolbar2WxAgg(matplotlib.backends.backend_wx.NavigationToolbar2Wx)


Method resolution order:

NavigationToolbar2WxAgg

matplotlib.backends.backend_wx.NavigationToolbar2Wx

matplotlib.backend_bases.NavigationToolbar2

wx._controls.ToolBar

wx._controls.ToolBarBase

wx._core.Control

wx._core.Window

wx._core.EvtHandler

wx._core.Object

__builtin__.object

Methods defined here:

get_canvas(self, frame, fig)

Methods inherited from matplotlib.backends.backend_wx.NavigationToolbar2Wx:

__init__(self, canvas)

configure_subplot(self, evt)

draw_rubberband(self, event, x0, y0, x1, y1)
adapted from http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/189744

dynamic_update(self)

pan(self, *args)

release(self, event)

save(self, evt)

set_cursor(self, cursor)

set_history_buttons(self)

set_message(self, s)

set_status_bar(self, statbar)

zoom(self, *args)

Methods inherited from matplotlib.backend_bases.NavigationToolbar2:

back(self, *args)
move back up the view lim stack

drag_pan(self, event)
the drag callback in pan/zoom mode

draw(self)
redraw the canvases, update the locators

forward(self, *args)
move forward in the view lim stack

home(self, *args)
restore the original view

mouse_move(self, event)

nonsingular(self, x0, x1)
Desperate hack to prevent crashes when button-3 panning with axis('image') in effect.

press(self, event)
this will be called whenver a mouse button is pressed

press_pan(self, event)
the press mouse button in pan/zoom mode callback

press_zoom(self, event)
the press mouse button in zoom to rect mode callback

push_current(self)
push the current view limits and position onto the stack

release_pan(self, event)
the release mouse button callback in pan/zoom mode

release_zoom(self, event)
the release mouse button callback in zoom to rect mode

save_figure(self, *args)
save the current figure

update(self)
reset the axes stack

Methods inherited from wx._controls.ToolBar:

Create(*args, **kwargs)
Create(self, Window parent, int id=-1, Point pos=DefaultPosition,     Size size=DefaultSize, long style=wxNO_BORDER|wxTB_HORIZONTAL,     String name=wxPyToolBarNameStr) -> bool

FindToolForPosition(*args, **kwargs)
FindToolForPosition(self, int x, int y) -> ToolBarToolBase

__repr__(self)

Static methods inherited from wx._controls.ToolBar:

GetClassDefaultAttributes(*args, **kwargs)
GetClassDefaultAttributes(int variant=WINDOW_VARIANT_NORMAL) -> VisualAttributes Get the default attributes for this class.  This is useful if you want to use the same font or colour in your own control as in a standard control -- which is a much better idea than hard coding specific colours or fonts which might look completely out of place on the user's system, especially if it uses themes. The variant parameter is only relevant under Mac currently and is ignore under other platforms. Under Mac, it will change the size of the returned font. See `wx.Window.SetWindowVariant` for more about this.

Methods inherited from wx._controls.ToolBarBase:

AddCheckLabelTool(self, id, label, bitmap, bmpDisabled=wxPython wrapper for UNBORN object! (The C++ object is not initialized yet.), shortHelp='', longHelp='', clientData=None)
Add a check tool, i.e. a tool which can be toggled

AddCheckTool(self, id, bitmap, bmpDisabled=wxPython wrapper for UNBORN object! (The C++ object is not initialized yet.), shortHelp='', longHelp='', clientData=None)
Add a check tool, i.e. a tool which can be toggled

AddControl(*args, **kwargs)
AddControl(self, Control control) -> ToolBarToolBase

AddLabelTool(self, id, label, bitmap, bmpDisabled=wxPython wrapper for UNBORN object! (The C++ object is not initialized yet.), kind=0, shortHelp='', longHelp='', clientData=None)
The full AddTool() function. If bmpDisabled is wx.NullBitmap, a shadowed version of the normal bitmap is created and used as the disabled image.

AddRadioLabelTool(self, id, label, bitmap, bmpDisabled=wxPython wrapper for UNBORN object! (The C++ object is not initialized yet.), shortHelp='', longHelp='', clientData=None)
Add a radio tool, i.e. a tool which can be toggled and releases any other toggled radio tools in the same group when it happens

AddRadioTool(self, id, bitmap, bmpDisabled=wxPython wrapper for UNBORN object! (The C++ object is not initialized yet.), shortHelp='', longHelp='', clientData=None)
Add a radio tool, i.e. a tool which can be toggled and releases any other toggled radio tools in the same group when it happens

AddSeparator(*args, **kwargs)
AddSeparator(self) -> ToolBarToolBase

AddSimpleTool(self, id, bitmap, shortHelpString='', longHelpString='', isToggle=0)
Old style method to add a tool to the toolbar.

AddTool(self, id, bitmap, pushedBitmap=wxPython wrapper for UNBORN object! (The C++ object is not initialized yet.), isToggle=0, clientData=None, shortHelpString='', longHelpString='')
Old style method to add a tool to the toolbar.

AddToolItem(*args, **kwargs)
AddToolItem(self, ToolBarToolBase tool) -> ToolBarToolBase

ClearTools(*args, **kwargs)
ClearTools(self)

DeleteTool(*args, **kwargs)
DeleteTool(self, int id) -> bool

DeleteToolByPos(*args, **kwargs)
DeleteToolByPos(self, size_t pos) -> bool

DoAddTool(*args, **kwargs)
DoAddTool(self, int id, String label, Bitmap bitmap, Bitmap bmpDisabled=wxNullBitmap,     int kind=ITEM_NORMAL, String shortHelp=EmptyString,     String longHelp=EmptyString,     PyObject clientData=None) -> ToolBarToolBase

DoInsertTool(*args, **kwargs)
DoInsertTool(self, size_t pos, int id, String label, Bitmap bitmap, Bitmap bmpDisabled=wxNullBitmap,     int kind=ITEM_NORMAL,     String shortHelp=EmptyString, String longHelp=EmptyString,     PyObject clientData=None) -> ToolBarToolBase

EnableTool(*args, **kwargs)
EnableTool(self, int id, bool enable)

FindById(*args, **kwargs)
FindById(self, int toolid) -> ToolBarToolBase

FindControl(*args, **kwargs)
FindControl(self, int id) -> Control

GetMargins(*args, **kwargs)
GetMargins(self) -> Size

GetMaxCols(*args, **kwargs)
GetMaxCols(self) -> int

GetMaxRows(*args, **kwargs)
GetMaxRows(self) -> int

GetToolBitmapSize(*args, **kwargs)
GetToolBitmapSize(self) -> Size

GetToolClientData(*args, **kwargs)
GetToolClientData(self, int id) -> PyObject

GetToolEnabled(*args, **kwargs)
GetToolEnabled(self, int id) -> bool

GetToolLongHelp(*args, **kwargs)
GetToolLongHelp(self, int id) -> String

GetToolMargins(*args, **kwargs)
GetToolMargins(self) -> Size

GetToolPacking(*args, **kwargs)
GetToolPacking(self) -> int

GetToolPos(*args, **kwargs)
GetToolPos(self, int id) -> int

GetToolSeparation(*args, **kwargs)
GetToolSeparation(self) -> int

GetToolShortHelp(*args, **kwargs)
GetToolShortHelp(self, int id) -> String

GetToolSize(*args, **kwargs)
GetToolSize(self) -> Size

GetToolState(*args, **kwargs)
GetToolState(self, int id) -> bool

InsertControl(*args, **kwargs)
InsertControl(self, size_t pos, Control control) -> ToolBarToolBase

InsertLabelTool(self, pos, id, label, bitmap, bmpDisabled=wxPython wrapper for UNBORN object! (The C++ object is not initialized yet.), kind=0, shortHelp='', longHelp='', clientData=None)
Insert the new tool at the given position, if pos == GetToolsCount(), it is equivalent to AddTool()

InsertSeparator(*args, **kwargs)
InsertSeparator(self, size_t pos) -> ToolBarToolBase

InsertSimpleTool(self, pos, id, bitmap, shortHelpString='', longHelpString='', isToggle=0)
Old style method to insert a tool in the toolbar.

InsertTool(self, pos, id, bitmap, pushedBitmap=wxPython wrapper for UNBORN object! (The C++ object is not initialized yet.), isToggle=0, clientData=None, shortHelpString='', longHelpString='')
Old style method to insert a tool in the toolbar.

InsertToolItem(*args, **kwargs)
InsertToolItem(self, size_t pos, ToolBarToolBase tool) -> ToolBarToolBase

IsVertical(*args, **kwargs)
IsVertical(self) -> bool

Realize(*args, **kwargs)
Realize(self) -> bool

RemoveTool(*args, **kwargs)
RemoveTool(self, int id) -> ToolBarToolBase

SetMargins(*args, **kwargs)
SetMargins(self, Size size)

SetMarginsXY(*args, **kwargs)
SetMarginsXY(self, int x, int y)

SetMaxRowsCols(*args, **kwargs)
SetMaxRowsCols(self, int rows, int cols)

SetRows(*args, **kwargs)
SetRows(self, int nRows)

SetToggle(*args, **kwargs)
SetToggle(self, int id, bool toggle)

SetToolBitmapSize(*args, **kwargs)
SetToolBitmapSize(self, Size size)

SetToolClientData(*args, **kwargs)
SetToolClientData(self, int id, PyObject clientData)

SetToolLongHelp(*args, **kwargs)
SetToolLongHelp(self, int id, String helpString)

SetToolPacking(*args, **kwargs)
SetToolPacking(self, int packing)

SetToolSeparation(*args, **kwargs)
SetToolSeparation(self, int separation)

SetToolShortHelp(*args, **kwargs)
SetToolShortHelp(self, int id, String helpString)

ToggleTool(*args, **kwargs)
ToggleTool(self, int id, bool toggle)

Methods inherited from wx._core.Control:

Command(*args, **kwargs)
Command(self, CommandEvent event) Simulates the effect of the user issuing a command to the item. :see: `wx.CommandEvent`

GetLabel(*args, **kwargs)
GetLabel(self) -> String Return a control's text.

SetLabel(*args, **kwargs)
SetLabel(self, String label) Sets the item's text.

Methods inherited from wx._core.Window:

AcceptsFocus(*args, **kwargs)
AcceptsFocus(self) -> bool Can this window have focus?

AcceptsFocusFromKeyboard(*args, **kwargs)
AcceptsFocusFromKeyboard(self) -> bool Can this window be given focus by keyboard navigation? if not, the only way to give it focus (provided it accepts it at all) is to click it.

AddChild(*args, **kwargs)
AddChild(self, Window child) Adds a child window. This is called automatically by window creation functions so should not be required by the application programmer.

AssociateHandle(*args, **kwargs)
AssociateHandle(self, long handle) Associate the window with a new native handle

CaptureMouse(*args, **kwargs)
CaptureMouse(self) Directs all mouse input to this window. Call wx.Window.ReleaseMouse to release the capture. Note that wxWindows maintains the stack of windows having captured the mouse and when the mouse is released the capture returns to the window which had had captured it previously and it is only really released if there were no previous window. In particular, this means that you must release the mouse as many times as you capture it.

Center(*args, **kwargs)
Center(self, int direction=BOTH) Centers the window.  The parameter specifies the direction for cetering, and may be wx.HORIZONTAL, wx.VERTICAL or wx.BOTH. It may also include wx.CENTER_ON_SCREEN flag if you want to center the window on the entire screen and not on its parent window.  If it is a top-level window and has no parent then it will always be centered relative to the screen.

CenterOnParent(*args, **kwargs)
CenterOnParent(self, int dir=BOTH) Center with respect to the the parent window

CenterOnScreen(*args, **kwargs)
CenterOnScreen(self, int dir=BOTH) Center on screen (only works for top level windows)

Centre = Center(*args, **kwargs)
Center(self, int direction=BOTH) Centers the window.  The parameter specifies the direction for cetering, and may be wx.HORIZONTAL, wx.VERTICAL or wx.BOTH. It may also include wx.CENTER_ON_SCREEN flag if you want to center the window on the entire screen and not on its parent window.  If it is a top-level window and has no parent then it will always be centered relative to the screen.

CentreOnParent = CenterOnParent(*args, **kwargs)
CenterOnParent(self, int dir=BOTH) Center with respect to the the parent window

CentreOnScreen = CenterOnScreen(*args, **kwargs)
CenterOnScreen(self, int dir=BOTH) Center on screen (only works for top level windows)

ClearBackground(*args, **kwargs)
ClearBackground(self) Clears the window by filling it with the current background colour. Does not cause an erase background event to be generated.

ClientToScreen(*args, **kwargs)
ClientToScreen(self, Point pt) -> Point Converts to screen coordinates from coordinates relative to this window.

ClientToScreenXY(*args, **kwargs)
ClientToScreenXY(int x, int y) -> (x,y) Converts to screen coordinates from coordinates relative to this window.

Close(*args, **kwargs)
Close(self, bool force=False) -> bool This function simply generates a EVT_CLOSE event whose handler usually tries to close the window. It doesn't close the window itself, however.  If force is False (the default) then the window's close handler will be allowed to veto the destruction of the window.

ConvertDialogPointToPixels(*args, **kwargs)
ConvertDialogPointToPixels(self, Point pt) -> Point Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

ConvertDialogSizeToPixels(*args, **kwargs)
ConvertDialogSizeToPixels(self, Size sz) -> Size Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

ConvertPixelPointToDialog(*args, **kwargs)
ConvertPixelPointToDialog(self, Point pt) -> Point

ConvertPixelSizeToDialog(*args, **kwargs)
ConvertPixelSizeToDialog(self, Size sz) -> Size

DLG_PNT(*args, **kwargs)
DLG_PNT(self, Point pt) -> Point Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

DLG_SZE(*args, **kwargs)
DLG_SZE(self, Size sz) -> Size Converts a point or size from dialog units to pixels.  Dialog units are used for maintaining a dialog's proportions even if the font changes. For the x dimension, the dialog units are multiplied by the average character width and then divided by 4. For the y dimension, the dialog units are multiplied by the average character height and then divided by 8.

Destroy(*args, **kwargs)
Destroy(self) -> bool Destroys the window safely.  Frames and dialogs are not destroyed immediately when this function is called -- they are added to a list of windows to be deleted on idle time, when all the window's events have been processed. This prevents problems with events being sent to non-existent windows. Returns True if the window has either been successfully deleted, or it has been added to the list of windows pending real deletion.

DestroyChildren(*args, **kwargs)
DestroyChildren(self) -> bool Destroys all children of a window. Called automatically by the destructor.

Disable(*args, **kwargs)
Disable(self) -> bool Disables the window, same as Enable(false).

DissociateHandle(*args, **kwargs)
DissociateHandle(self) Dissociate the current native handle from the window

Enable(*args, **kwargs)
Enable(self, bool enable=True) -> bool Enable or disable the window for user input. Note that when a parent window is disabled, all of its children are disabled as well and they are reenabled again when the parent is.  Returns true if the window has been enabled or disabled, false if nothing was done, i.e. if the window had already been in the specified state.

FindWindowById(*args, **kwargs)
FindWindowById(self, long winid) -> Window Find a chld of this window by window ID

FindWindowByName(*args, **kwargs)
FindWindowByName(self, String name) -> Window Find a child of this window by name

Fit(*args, **kwargs)
Fit(self) Sizes the window so that it fits around its subwindows. This function won't do anything if there are no subwindows and will only really work correctly if sizers are used for the subwindows layout. Also, if the window has exactly one subwindow it is better (faster and the result is more precise as Fit adds some margin to account for fuzziness of its calculations) to call window.SetClientSize(child.GetSize()) instead of calling Fit.

FitInside(*args, **kwargs)
FitInside(self) Similar to Fit, but sizes the interior (virtual) size of a window. Mainly useful with scrolled windows to reset scrollbars after sizing changes that do not trigger a size event, and/or scrolled windows without an interior sizer. This function similarly won't do anything if there are no subwindows.

Freeze(*args, **kwargs)
Freeze(self) Freezes the window or, in other words, prevents any updates from taking place on screen, the window is not redrawn at all. Thaw must be called to reenable window redrawing.  Calls to Freeze/Thaw may be nested, with the actual Thaw being delayed until all the nesting has been undone. This method is useful for visual appearance optimization (for example, it is a good idea to use it before inserting large amount of text into a wxTextCtrl under wxGTK) but is not implemented on all platforms nor for all controls so it is mostly just a hint to wxWindows and not a mandatory directive.

GetAcceleratorTable(*args, **kwargs)
GetAcceleratorTable(self) -> AcceleratorTable Gets the accelerator table for this window.

GetAdjustedBestSize(*args, **kwargs)
GetAdjustedBestSize(self) -> Size This method is similar to GetBestSize, except in one thing. GetBestSize should return the minimum untruncated size of the window, while this method will return the largest of BestSize and any user specified minimum size. ie. it is the minimum size the window should currently be drawn at, not the minimal size it can possibly tolerate.

GetAutoLayout(*args, **kwargs)
GetAutoLayout(self) -> bool Returns the current autoLayout setting

GetBackgroundColour(*args, **kwargs)
GetBackgroundColour(self) -> Colour Returns the background colour of the window.

GetBackgroundStyle(*args, **kwargs)
GetBackgroundStyle(self) -> int Returns the background style of the window. :see: `SetBackgroundStyle`

GetBestFittingSize(*args, **kwargs)
GetBestFittingSize(self) -> Size This function will merge the window's best size into the window's minimum size, giving priority to the min size components, and returns the results.

GetBestSize(*args, **kwargs)
GetBestSize(self) -> Size This function returns the best acceptable minimal size for the window, if applicable. For example, for a static text control, it will be the minimal size such that the control label is not truncated. For windows containing subwindows (suzh aswx.Panel), the size returned by this function will be the same as the size the window would have had after calling Fit.

GetBestSizeTuple(*args, **kwargs)
GetBestSizeTuple() -> (width, height) This function returns the best acceptable minimal size for the window, if applicable. For example, for a static text control, it will be the minimal size such that the control label is not truncated. For windows containing subwindows (suzh aswx.Panel), the size returned by this function will be the same as the size the window would have had after calling Fit.

GetBestVirtualSize(*args, **kwargs)
GetBestVirtualSize(self) -> Size Return the largest of ClientSize and BestSize (as determined by a sizer, interior children, or other means)

GetBorder(*args)
GetBorder(self, long flags) -> int GetBorder(self) -> int Get border for the flags of this window

GetCaret(*args, **kwargs)
GetCaret(self) -> Caret Returns the caret associated with the window.

GetCharHeight(*args, **kwargs)
GetCharHeight(self) -> int Get the (average) character size for the current font.

GetCharWidth(*args, **kwargs)
GetCharWidth(self) -> int Get the (average) character size for the current font.

GetChildren(*args, **kwargs)
GetChildren(self) -> PyObject Returns a list of the window's children.  NOTE: Currently this is a copy of the child window list maintained by the window, so the return value of this function is only valid as long as the window's children do not change.

GetClientAreaOrigin(*args, **kwargs)
GetClientAreaOrigin(self) -> Point Get the origin of the client area of the window relative to the window's top left corner (the client area may be shifted because of the borders, scrollbars, other decorations...)

GetClientRect(*args, **kwargs)
GetClientRect(self) -> Rect Get the client area position and size as a `wx.Rect` object.

GetClientSize(*args, **kwargs)
GetClientSize(self) -> Size This gets the size of the window's 'client area' in pixels. The client area is the area which may be drawn on by the programmer, excluding title bar, border, scrollbars, etc.

GetClientSizeTuple(*args, **kwargs)
GetClientSizeTuple() -> (width, height) This gets the size of the window's 'client area' in pixels. The client area is the area which may be drawn on by the programmer, excluding title bar, border, scrollbars, etc.

GetConstraints(*args, **kwargs)
GetConstraints(self) -> LayoutConstraints Returns a pointer to the window's layout constraints, or None if there are none.

GetContainingSizer(*args, **kwargs)
GetContainingSizer(self) -> Sizer Return the sizer that this window is a member of, if any, otherwise None.

GetCursor(*args, **kwargs)
GetCursor(self) -> Cursor Return the cursor associated with this window.

GetDefaultAttributes(*args, **kwargs)
GetDefaultAttributes(self) -> VisualAttributes Get the default attributes for an instance of this class.  This is useful if you want to use the same font or colour in your own control as in a standard control -- which is a much better idea than hard coding specific colours or fonts which might look completely out of place on the user's system, especially if it uses themes.

GetDefaultItem(*args, **kwargs)
GetDefaultItem(self) -> Window Get the default child of this parent, i.e. the one which is activated by pressing <Enter> such as the OK button on a wx.Dialog.

GetDropTarget(*args, **kwargs)
GetDropTarget(self) -> DropTarget Returns the associated drop target, which may be None.

GetEventHandler(*args, **kwargs)
GetEventHandler(self) -> EvtHandler Returns the event handler for this window. By default, the window is its own event handler.

GetExtraStyle(*args, **kwargs)
GetExtraStyle(self) -> long Returns the extra style bits for the window.

GetFont(*args, **kwargs)
GetFont(self) -> Font Returns the default font used for this window.

GetForegroundColour(*args, **kwargs)
GetForegroundColour(self) -> Colour Returns the foreground colour of the window.  The interpretation of foreground colour is dependent on the window class; it may be the text colour or other colour, or it may not be used at all.

GetFullTextExtent(*args, **kwargs)
GetFullTextExtent(String string, Font font=None) ->    (width, height, descent, externalLeading) Get the width, height, decent and leading of the text using the current or specified font.

GetGrandParent(*args, **kwargs)
GetGrandParent(self) -> Window Returns the parent of the parent of this window, or None if there isn't one.

GetHandle(*args, **kwargs)
GetHandle(self) -> long Returns the platform-specific handle (as a long integer) of the physical window.  Currently on wxMac it returns the handle of the toplevel parent of the window.

GetHelpText(*args, **kwargs)
GetHelpText(self) -> String Gets the help text to be used as context-sensitive help for this window.  Note that the text is actually stored by the current wxHelpProvider implementation, and not in the window object itself.

GetId(*args, **kwargs)
GetId(self) -> int Returns the identifier of the window.  Each window has an integer identifier. If the application has not provided one (or the default Id -1 is used) then an unique identifier with a negative value will be generated.

GetMaxHeight(*args, **kwargs)
GetMaxHeight(self) -> int

GetMaxSize(*args, **kwargs)
GetMaxSize(self) -> Size

GetMaxWidth(*args, **kwargs)
GetMaxWidth(self) -> int

GetMinHeight(*args, **kwargs)
GetMinHeight(self) -> int

GetMinSize(*args, **kwargs)
GetMinSize(self) -> Size

GetMinWidth(*args, **kwargs)
GetMinWidth(self) -> int

GetName(*args, **kwargs)
GetName(self) -> String Returns the windows name.  This name is not guaranteed to be unique; it is up to the programmer to supply an appropriate name in the window constructor or via wx.Window.SetName.

GetParent(*args, **kwargs)
GetParent(self) -> Window Returns the parent window of this window, or None if there isn't one.

GetPosition(*args, **kwargs)
GetPosition(self) -> Point Get the window's position.

GetPositionTuple(*args, **kwargs)
GetPositionTuple() -> (x,y) Get the window's position.

GetRect(*args, **kwargs)
GetRect(self) -> Rect Returns the size and position of the window as a wx.Rect object.

GetScrollPos(*args, **kwargs)
GetScrollPos(self, int orientation) -> int Returns the built-in scrollbar position.

GetScrollRange(*args, **kwargs)
GetScrollRange(self, int orientation) -> int Returns the built-in scrollbar range.

GetScrollThumb(*args, **kwargs)
GetScrollThumb(self, int orientation) -> int Returns the built-in scrollbar thumb size.

GetSize(*args, **kwargs)
GetSize(self) -> Size Get the window size.

GetSizeTuple(*args, **kwargs)
GetSizeTuple() -> (width, height) Get the window size.

GetSizer(*args, **kwargs)
GetSizer(self) -> Sizer Return the sizer associated with the window by a previous call to SetSizer or None if there isn't one.

GetTextExtent(*args, **kwargs)
GetTextExtent(String string) -> (width, height) Get the width and height of the text using the current font.

GetThemeEnabled(*args, **kwargs)
GetThemeEnabled(self) -> bool Return the themeEnabled flag.

GetTitle(*args, **kwargs)
GetTitle(self) -> String Gets the window's title. Applicable only to frames and dialogs.

GetToolTip(*args, **kwargs)
GetToolTip(self) -> ToolTip get the associated tooltip or None if none

GetUpdateClientRect(*args, **kwargs)
GetUpdateClientRect(self) -> Rect Get the update rectangle region bounding box in client coords.

GetUpdateRegion(*args, **kwargs)
GetUpdateRegion(self) -> Region Returns the region specifying which parts of the window have been damaged. Should only be called within an EVT_PAINT handler.

GetValidator(*args, **kwargs)
GetValidator(self) -> Validator Returns a pointer to the current validator for the window, or None if there is none.

GetVirtualSize(*args, **kwargs)
GetVirtualSize(self) -> Size Get the the virtual size of the window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

GetVirtualSizeTuple(*args, **kwargs)
GetVirtualSizeTuple() -> (width, height) Get the the virtual size of the window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

GetWindowStyle = GetWindowStyleFlag(*args, **kwargs)
GetWindowStyleFlag(self) -> long Gets the window style that was passed to the constructor or Create method.

GetWindowStyleFlag(*args, **kwargs)
GetWindowStyleFlag(self) -> long Gets the window style that was passed to the constructor or Create method.

GetWindowVariant(*args, **kwargs)
GetWindowVariant(self) -> int

HasCapture(*args, **kwargs)
HasCapture(self) -> bool Returns true if this window has the current mouse capture.

HasFlag(*args, **kwargs)
HasFlag(self, int flag) -> bool Test if the given style is set for this window.

HasScrollbar(*args, **kwargs)
HasScrollbar(self, int orient) -> bool Does the window have the scrollbar for this orientation?

Hide(*args, **kwargs)
Hide(self) -> bool Equivalent to calling Show(False).

HitTest(*args, **kwargs)
HitTest(self, Point pt) -> int Test where the given (in client coords) point lies

HitTestXY(*args, **kwargs)
HitTestXY(self, int x, int y) -> int Test where the given (in client coords) point lies

InheritAttributes(*args, **kwargs)
InheritAttributes(self) This function is (or should be, in case of custom controls) called during window creation to intelligently set up the window visual attributes, that is the font and the foreground and background colours. By 'intelligently' the following is meant: by default, all windows use their own default attributes. However if some of the parent's attributes are explicitly changed (that is, using SetFont and not SetOwnFont) and if the corresponding attribute hadn't been explicitly set for this window itself, then this window takes the same value as used by the parent. In addition, if the window overrides ShouldInheritColours to return false, the colours will not be changed no matter what and only the font might. This rather complicated logic is necessary in order to accommodate the different usage scenarios. The most common one is when all default attributes are used and in this case, nothing should be inherited as in modern GUIs different controls use different fonts (and colours) than their siblings so they can't inherit the same value from the parent. However it was also deemed desirable to allow to simply change the attributes of all children at once by just changing the font or colour of their common parent, hence in this case we do inherit the parents attributes.

InitDialog(*args, **kwargs)
InitDialog(self) Sends an EVT_INIT_DIALOG event, whose handler usually transfers data to the dialog via validators.

InvalidateBestSize(*args, **kwargs)
InvalidateBestSize(self) Reset the cached best size value so it will be recalculated the next time it is needed.

IsBeingDeleted(*args, **kwargs)
IsBeingDeleted(self) -> bool Is the window in the process of being deleted?

IsEnabled(*args, **kwargs)
IsEnabled(self) -> bool Returns true if the window is enabled for input, false otherwise.

IsExposed(*args, **kwargs)
IsExposed(self, int x, int y, int w=1, int h=1) -> bool Returns true if the given point or rectangle area has been exposed since the last repaint. Call this in an paint event handler to optimize redrawing by only redrawing those areas, which have been exposed.

IsExposedPoint(*args, **kwargs)
IsExposedPoint(self, Point pt) -> bool Returns true if the given point or rectangle area has been exposed since the last repaint. Call this in an paint event handler to optimize redrawing by only redrawing those areas, which have been exposed.

IsExposedRect(*args, **kwargs)
IsExposedRect(self, Rect rect) -> bool Returns true if the given point or rectangle area has been exposed since the last repaint. Call this in an paint event handler to optimize redrawing by only redrawing those areas, which have been exposed.

IsRetained(*args, **kwargs)
IsRetained(self) -> bool Returns true if the window is retained, false otherwise.  Retained windows are only available on X platforms.

IsShown(*args, **kwargs)
IsShown(self) -> bool Returns true if the window is shown, false if it has been hidden.

IsTopLevel(*args, **kwargs)
IsTopLevel(self) -> bool Returns true if the given window is a top-level one. Currently all frames and dialogs are always considered to be top-level windows (even if they have a parent window).

Layout(*args, **kwargs)
Layout(self) -> bool Invokes the constraint-based layout algorithm or the sizer-based algorithm for this window.  See SetAutoLayout: when auto layout is on, this function gets called automatically by the default EVT_SIZE handler when the window is resized.

LineDown(*args, **kwargs)
LineDown(self) -> bool This is just a wrapper for ScrollLines(1).

LineUp(*args, **kwargs)
LineUp(self) -> bool This is just a wrapper for ScrollLines(-1).

Lower(*args, **kwargs)
Lower(self) Lowers the window to the bottom of the window hierarchy if it is a managed window (dialog or frame).

MakeModal(*args, **kwargs)
MakeModal(self, bool modal=True) Disables all other windows in the application so that the user can only interact with this window.  Passing False will reverse this effect.

Move(*args, **kwargs)
Move(self, Point pt, int flags=SIZE_USE_EXISTING) Moves the window to the given position.

MoveAfterInTabOrder(*args, **kwargs)
MoveAfterInTabOrder(self, Window win) Moves this window in the tab navigation order after the specified sibling window.  This means that when the user presses the TAB key on that other window, the focus switches to this window. The default tab order is the same as creation order.  This function and `MoveBeforeInTabOrder` allow to change it after creating all the windows.

MoveBeforeInTabOrder(*args, **kwargs)
MoveBeforeInTabOrder(self, Window win) Same as `MoveAfterInTabOrder` except that it inserts this window just before win instead of putting it right after it.

MoveXY(*args, **kwargs)
MoveXY(self, int x, int y, int flags=SIZE_USE_EXISTING) Moves the window to the given position.

Navigate(*args, **kwargs)
Navigate(self, int flags=NavigationKeyEvent.IsForward) -> bool Does keyboard navigation from this window to another, by sending a `wx.NavigationKeyEvent`.

PageDown(*args, **kwargs)
PageDown(self) -> bool This is just a wrapper for ScrollPages(1).

PageUp(*args, **kwargs)
PageUp(self) -> bool This is just a wrapper for ScrollPages(-1).

PopEventHandler(*args, **kwargs)
PopEventHandler(self, bool deleteHandler=False) -> EvtHandler Removes and returns the top-most event handler on the event handler stack.  If deleteHandler is True then the wx.EvtHandler object will be destroyed after it is popped.

PopupMenu(*args, **kwargs)
PopupMenu(self, Menu menu, Point pos=DefaultPosition) -> bool Pops up the given menu at the specified coordinates, relative to this window, and returns control when the user has dismissed the menu. If a menu item is selected, the corresponding menu event is generated and will be processed as usual.  If the default position is given then the current position of the mouse cursor will be used.

PopupMenuXY(*args, **kwargs)
PopupMenuXY(self, Menu menu, int x=-1, int y=-1) -> bool Pops up the given menu at the specified coordinates, relative to this window, and returns control when the user has dismissed the menu. If a menu item is selected, the corresponding menu event is generated and will be processed as usual.  If the default position is given then the current position of the mouse cursor will be used.

PostCreate(self, pre)
Phase 3 of the 2-phase create <wink!> Call this method after precreating the window with the 2-phase create method.

PrepareDC(*args, **kwargs)
PrepareDC(self, DC dc) Call this function to prepare the device context for drawing a scrolled image. It sets the device origin according to the current scroll position.

PushEventHandler(*args, **kwargs)
PushEventHandler(self, EvtHandler handler) Pushes this event handler onto the event handler stack for the window. An event handler is an object that is capable of processing the events sent to a window. By default, the window is its own event handler, but an application may wish to substitute another, for example to allow central implementation of event-handling for a variety of different window classes. wx.Window.PushEventHandler allows an application to set up a chain of event handlers, where an event not handled by one event handler is handed to the next one in the chain. Use `wx.Window.PopEventHandler` to remove the event handler.

Raise(*args, **kwargs)
Raise(self) Raises the window to the top of the window hierarchy if it is a managed window (dialog or frame).

Refresh(*args, **kwargs)
Refresh(self, bool eraseBackground=True, Rect rect=None) Mark the specified rectangle (or the whole window) as "dirty" so it will be repainted.  Causes an EVT_PAINT event to be generated and sent to the window.

RefreshRect(*args, **kwargs)
RefreshRect(self, Rect rect) Redraws the contents of the given rectangle: the area inside it will be repainted.  This is the same as Refresh but has a nicer syntax.

RegisterHotKey(*args, **kwargs)
RegisterHotKey(self, int hotkeyId, int modifiers, int keycode) -> bool Registers a system wide hotkey. Every time the user presses the hotkey registered here, this window will receive a hotkey event. It will receive the event even if the application is in the background and does not have the input focus because the user is working with some other application.  To bind an event handler function to this hotkey use EVT_HOTKEY with an id equal to hotkeyId.  Returns True if the hotkey was registered successfully.

ReleaseMouse(*args, **kwargs)
ReleaseMouse(self) Releases mouse input captured with wx.Window.CaptureMouse.

RemoveChild(*args, **kwargs)
RemoveChild(self, Window child) Removes a child window. This is called automatically by window deletion functions so should not be required by the application programmer.

RemoveEventHandler(*args, **kwargs)
RemoveEventHandler(self, EvtHandler handler) -> bool Find the given handler in the event handler chain and remove (but not delete) it from the event handler chain, return True if it was found and False otherwise (this also results in an assert failure so this function should only be called when the handler is supposed to be there.)

Reparent(*args, **kwargs)
Reparent(self, Window newParent) -> bool Reparents the window, i.e the window will be removed from its current parent window (e.g. a non-standard toolbar in a wxFrame) and then re-inserted into another. Available on Windows and GTK.  Returns True if the parent was changed, False otherwise (error or newParent == oldParent)

ScreenToClient(*args, **kwargs)
ScreenToClient(self, Point pt) -> Point Converts from screen to client window coordinates.

ScreenToClientXY(*args, **kwargs)
ScreenToClientXY(int x, int y) -> (x,y) Converts from screen to client window coordinates.

ScrollLines(*args, **kwargs)
ScrollLines(self, int lines) -> bool If the platform and window class supports it, scrolls the window by the given number of lines down, if lines is positive, or up if lines is negative.  Returns True if the window was scrolled, False if it was already on top/bottom and nothing was done.

ScrollPages(*args, **kwargs)
ScrollPages(self, int pages) -> bool If the platform and window class supports it, scrolls the window by the given number of pages down, if pages is positive, or up if pages is negative.  Returns True if the window was scrolled, False if it was already on top/bottom and nothing was done.

ScrollWindow(*args, **kwargs)
ScrollWindow(self, int dx, int dy, Rect rect=None) Physically scrolls the pixels in the window and move child windows accordingly.  Use this function to optimise your scrolling implementations, to minimise the area that must be redrawn. Note that it is rarely required to call this function from a user program.

SetAcceleratorTable(*args, **kwargs)
SetAcceleratorTable(self, AcceleratorTable accel) Sets the accelerator table for this window.

SetAutoLayout(*args, **kwargs)
SetAutoLayout(self, bool autoLayout) Determines whether the Layout function will be called automatically when the window is resized.  It is called implicitly by SetSizer but if you use SetConstraints you should call it manually or otherwise the window layout won't be correctly updated when its size changes.

SetBackgroundColour(*args, **kwargs)
SetBackgroundColour(self, Colour colour) -> bool Sets the background colour of the window.  Returns True if the colour was changed.  The background colour is usually painted by the default EVT_ERASE_BACKGROUND event handler function under Windows and automatically under GTK.  Using `wx.NullColour` will reset the window to the default background colour. Note that setting the background colour may not cause an immediate refresh, so you may wish to call `ClearBackground` or `Refresh` after calling this function. Using this function will disable attempts to use themes for this window, if the system supports them.  Use with care since usually the themes represent the appearance chosen by the user to be used for all applications on the system.

SetBackgroundStyle(*args, **kwargs)
SetBackgroundStyle(self, int style) -> bool Returns the background style of the window. The background style indicates how the background of the window is drawn.     ======================  ========================================     wx.BG_STYLE_SYSTEM      The background colour or pattern should                             be determined by the system     wx.BG_STYLE_COLOUR      The background should be a solid colour     wx.BG_STYLE_CUSTOM      The background will be implemented by the                             application.     ======================  ======================================== On GTK+, use of wx.BG_STYLE_CUSTOM allows the flicker-free drawing of a custom background, such as a tiled bitmap. Currently the style has no effect on other platforms. :see: `GetBackgroundStyle`, `SetBackgroundColour`

SetBestFittingSize(*args, **kwargs)
SetBestFittingSize(self, Size size=DefaultSize) A 'Smart' SetSize that will fill in default size components with the window's *best size* values.  Also set's the minsize for use with sizers.

SetCaret(*args, **kwargs)
SetCaret(self, Caret caret) Sets the caret associated with the window.

SetClientRect(*args, **kwargs)
SetClientRect(self, Rect rect) This sets the size of the window client area in pixels. Using this function to size a window tends to be more device-independent than wx.Window.SetSize, since the application need not worry about what dimensions the border or title bar have when trying to fit the window around panel items, for example.

SetClientSize(*args, **kwargs)
SetClientSize(self, Size size) This sets the size of the window client area in pixels. Using this function to size a window tends to be more device-independent than wx.Window.SetSize, since the application need not worry about what dimensions the border or title bar have when trying to fit the window around panel items, for example.

SetClientSizeWH(*args, **kwargs)
SetClientSizeWH(self, int width, int height) This sets the size of the window client area in pixels. Using this function to size a window tends to be more device-independent than wx.Window.SetSize, since the application need not worry about what dimensions the border or title bar have when trying to fit the window around panel items, for example.

SetConstraints(*args, **kwargs)
SetConstraints(self, LayoutConstraints constraints) Sets the window to have the given layout constraints. If an existing layout constraints object is already owned by the window, it will be deleted.  Pass None to disassociate and delete the window's current constraints. You must call SetAutoLayout to tell a window to use the constraints automatically in its default EVT_SIZE handler; otherwise, you must handle EVT_SIZE yourself and call Layout() explicitly. When setting both a wx.LayoutConstraints and a wx.Sizer, only the sizer will have effect.

SetContainingSizer(*args, **kwargs)
SetContainingSizer(self, Sizer sizer) This normally does not need to be called by application code. It is called internally when a window is added to a sizer, and is used so the window can remove itself from the sizer when it is destroyed.

SetCursor(*args, **kwargs)
SetCursor(self, Cursor cursor) -> bool Sets the window's cursor. Notice that the window cursor also sets it for the children of the window implicitly. The cursor may be wx.NullCursor in which case the window cursor will be reset back to default.

SetDefaultItem(*args, **kwargs)
SetDefaultItem(self, Window child) -> Window Set this child as default, return the old default.

SetDimensions(*args, **kwargs)
SetDimensions(self, int x, int y, int width, int height, int sizeFlags=SIZE_AUTO) Sets the position and size of the window in pixels.  The sizeFlags parameter indicates the interpretation of the other params if they are -1.  wx.SIZE_AUTO*: a -1 indicates that a class-specific default shoudl be used.  wx.SIZE_USE_EXISTING: existing dimensions should be used if -1 values are supplied.  wxSIZE_ALLOW_MINUS_ONE: allow dimensions of -1 and less to be interpreted as real dimensions, not default values.

SetDropTarget(*args, **kwargs)
SetDropTarget(self, DropTarget dropTarget) Associates a drop target with this window.  If the window already has a drop target, it is deleted.

SetEventHandler(*args, **kwargs)
SetEventHandler(self, EvtHandler handler) Sets the event handler for this window.  An event handler is an object that is capable of processing the events sent to a window. By default, the window is its own event handler, but an application may wish to substitute another, for example to allow central implementation of event-handling for a variety of different window classes. It is usually better to use `wx.Window.PushEventHandler` since this sets up a chain of event handlers, where an event not handled by one event handler is handed to the next one in the chain.

SetExtraStyle(*args, **kwargs)
SetExtraStyle(self, long exStyle) Sets the extra style bits for the window.  Extra styles are the less often used style bits which can't be set with the constructor or with SetWindowStyleFlag()

SetFocus(*args, **kwargs)
SetFocus(self) Set's the focus to this window, allowing it to receive keyboard input.

SetFocusFromKbd(*args, **kwargs)
SetFocusFromKbd(self) Set focus to this window as the result of a keyboard action.  Normally only called internally.

SetFont(*args, **kwargs)
SetFont(self, Font font) -> bool Sets the font for this window.

SetForegroundColour(*args, **kwargs)
SetForegroundColour(self, Colour colour) -> bool Sets the foreground colour of the window.  Returns True is the colour was changed.  The interpretation of foreground colour is dependent on the window class; it may be the text colour or other colour, or it may not be used at all.

SetHelpText(*args, **kwargs)
SetHelpText(self, String text) Sets the help text to be used as context-sensitive help for this window.  Note that the text is actually stored by the current wxHelpProvider implementation, and not in the window object itself.

SetHelpTextForId(*args, **kwargs)
SetHelpTextForId(self, String text) Associate this help text with all windows with the same id as this one.

SetId(*args, **kwargs)
SetId(self, int winid) Sets the identifier of the window.  Each window has an integer identifier. If the application has not provided one, an identifier will be generated. Normally, the identifier should be provided on creation and should not be modified subsequently.

SetMaxSize(*args, **kwargs)
SetMaxSize(self, Size maxSize) A more convenient method than `SetSizeHints` for setting just the max size.

SetMinSize(*args, **kwargs)
SetMinSize(self, Size minSize) A more convenient method than `SetSizeHints` for setting just the min size.

SetName(*args, **kwargs)
SetName(self, String name) Sets the window's name.  The window name is used for ressource setting in X, it is not the same as the window title/label

SetOwnBackgroundColour(*args, **kwargs)
SetOwnBackgroundColour(self, Colour colour)

SetOwnFont(*args, **kwargs)
SetOwnFont(self, Font font)

SetOwnForegroundColour(*args, **kwargs)
SetOwnForegroundColour(self, Colour colour)

SetPosition = Move(*args, **kwargs)
Move(self, Point pt, int flags=SIZE_USE_EXISTING) Moves the window to the given position.

SetRect(*args, **kwargs)
SetRect(self, Rect rect, int sizeFlags=SIZE_AUTO) Sets the position and size of the window in pixels using a wx.Rect.

SetScrollPos(*args, **kwargs)
SetScrollPos(self, int orientation, int pos, bool refresh=True) Sets the position of one of the built-in scrollbars.

SetScrollbar(*args, **kwargs)
SetScrollbar(self, int orientation, int position, int thumbSize, int range,     bool refresh=True) Sets the scrollbar properties of a built-in scrollbar.

SetSize(*args, **kwargs)
SetSize(self, Size size) Sets the size of the window in pixels.

SetSizeHints(*args, **kwargs)
SetSizeHints(self, int minW, int minH, int maxW=-1, int maxH=-1, int incW=-1,     int incH=-1) Allows specification of minimum and maximum window sizes, and window size increments. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the window outside the given bounds (if it is a top-level window.)  Sizers will also inspect the minimum window size and will use that value if set when calculating layout. The resizing increments are only significant under Motif or Xt.

SetSizeHintsSz(*args, **kwargs)
SetSizeHintsSz(self, Size minSize, Size maxSize=DefaultSize, Size incSize=DefaultSize) Allows specification of minimum and maximum window sizes, and window size increments. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the window outside the given bounds (if it is a top-level window.)  Sizers will also inspect the minimum window size and will use that value if set when calculating layout. The resizing increments are only significant under Motif or Xt.

SetSizeWH(*args, **kwargs)
SetSizeWH(self, int width, int height) Sets the size of the window in pixels.

SetSizer(*args, **kwargs)
SetSizer(self, Sizer sizer, bool deleteOld=True) Sets the window to have the given layout sizer. The window will then own the object, and will take care of its deletion. If an existing layout sizer object is already owned by the window, it will be deleted if the deleteOld parameter is true. Note that this function will also call SetAutoLayout implicitly with a True parameter if the sizer is non-None, and False otherwise.

SetSizerAndFit(*args, **kwargs)
SetSizerAndFit(self, Sizer sizer, bool deleteOld=True) The same as SetSizer, except it also sets the size hints for the window based on the sizer's minimum size.

SetThemeEnabled(*args, **kwargs)
SetThemeEnabled(self, bool enableTheme) This function tells a window if it should use the system's "theme" code to draw the windows' background instead if its own background drawing code. This will only have an effect on platforms that support the notion of themes in user defined windows. One such platform is GTK+ where windows can have (very colourful) backgrounds defined by a user's selected theme. Dialogs, notebook pages and the status bar have this flag set to true by default so that the default look and feel is simulated best.

SetTitle(*args, **kwargs)
SetTitle(self, String title) Sets the window's title. Applicable only to frames and dialogs.

SetTmpDefaultItem(*args, **kwargs)
SetTmpDefaultItem(self, Window win) Set this child as temporary default

SetToolTip(*args, **kwargs)
SetToolTip(self, ToolTip tip) Attach a tooltip to the window.

SetToolTipString(*args, **kwargs)
SetToolTipString(self, String tip) Attach a tooltip to the window.

SetValidator(*args, **kwargs)
SetValidator(self, Validator validator) Deletes the current validator (if any) and sets the window validator, having called wx.Validator.Clone to create a new validator of this type.

SetVirtualSize(*args, **kwargs)
SetVirtualSize(self, Size size) Set the the virtual size of a window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

SetVirtualSizeHints(*args, **kwargs)
SetVirtualSizeHints(self, int minW, int minH, int maxW=-1, int maxH=-1) Allows specification of minimum and maximum virtual window sizes. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the virtual area of the window outside the given bounds.

SetVirtualSizeHintsSz(*args, **kwargs)
SetVirtualSizeHintsSz(self, Size minSize, Size maxSize=DefaultSize) Allows specification of minimum and maximum virtual window sizes. If a pair of values is not set (or set to -1), the default values will be used.  If this function is called, the user will not be able to size the virtual area of the window outside the given bounds.

SetVirtualSizeWH(*args, **kwargs)
SetVirtualSizeWH(self, int w, int h) Set the the virtual size of a window in pixels.  For most windows this is just the client area of the window, but for some like scrolled windows it is more or less independent of the screen window size.

SetWindowStyle = SetWindowStyleFlag(*args, **kwargs)
SetWindowStyleFlag(self, long style) Sets the style of the window. Please note that some styles cannot be changed after the window creation and that Refresh() might need to be called after changing the others for the change to take place immediately.

SetWindowStyleFlag(*args, **kwargs)
SetWindowStyleFlag(self, long style) Sets the style of the window. Please note that some styles cannot be changed after the window creation and that Refresh() might need to be called after changing the others for the change to take place immediately.

SetWindowVariant(*args, **kwargs)
SetWindowVariant(self, int variant) Sets the variant of the window/font size to use for this window, if the platform supports variants, for example, wxMac.

ShouldInheritColours(*args, **kwargs)
ShouldInheritColours(self) -> bool Return true from here to allow the colours of this window to be changed by InheritAttributes, returning false forbids inheriting them from the parent window. The base class version returns false, but this method is overridden in wxControl where it returns true.

Show(*args, **kwargs)
Show(self, bool show=True) -> bool Shows or hides the window. You may need to call Raise for a top level window if you want to bring it to top, although this is not needed if Show is called immediately after the frame creation.  Returns True if the window has been shown or hidden or False if nothing was done because it already was in the requested state.

Thaw(*args, **kwargs)
Thaw(self) Reenables window updating after a previous call to Freeze.  Calls to Freeze/Thaw may be nested, so Thaw must be called the same number of times that Freeze was before the window will be updated.

TransferDataFromWindow(*args, **kwargs)
TransferDataFromWindow(self) -> bool Transfers values from child controls to data areas specified by their validators. Returns false if a transfer failed.  If the window has wx.WS_EX_VALIDATE_RECURSIVELY extra style flag set, the method will also call TransferDataFromWindow() of all child windows.

TransferDataToWindow(*args, **kwargs)
TransferDataToWindow(self) -> bool Transfers values to child controls from data areas specified by their validators.  If the window has wx.WS_EX_VALIDATE_RECURSIVELY extra style flag set, the method will also call TransferDataToWindow() of all child windows.

UnregisterHotKey(*args, **kwargs)
UnregisterHotKey(self, int hotkeyId) -> bool Unregisters a system wide hotkey.

Update(*args, **kwargs)
Update(self) Calling this method immediately repaints the invalidated area of the window instead of waiting for the EVT_PAINT event to happen, (normally this would usually only happen when the flow of control returns to the event loop.)  Notice that this function doesn't refresh the window and does nothing if the window has been already repainted.  Use Refresh first if you want to immediately redraw the window (or some portion of it) unconditionally.

UpdateWindowUI(*args, **kwargs)
UpdateWindowUI(self, long flags=UPDATE_UI_NONE) This function sends EVT_UPDATE_UI events to the window. The particular implementation depends on the window; for example a wx.ToolBar will send an update UI event for each toolbar button, and a wx.Frame will send an update UI event for each menubar menu item. You can call this function from your application to ensure that your UI is up-to-date at a particular point in time (as far as your EVT_UPDATE_UI handlers are concerned). This may be necessary if you have called wx.UpdateUIEvent.SetMode or wx.UpdateUIEvent.SetUpdateInterval to limit the overhead that wxWindows incurs by sending update UI events in idle time.

Validate(*args, **kwargs)
Validate(self) -> bool Validates the current values of the child controls using their validators.  If the window has wx.WS_EX_VALIDATE_RECURSIVELY extra style flag set, the method will also call Validate() of all child windows.  Returns false if any of the validations failed.

WarpPointer(*args, **kwargs)
WarpPointer(self, int x, int y) Moves the pointer to the given position on the window. NOTE: This function is not supported under Mac because Apple Human Interface Guidelines forbid moving the mouse cursor programmatically.

Static methods inherited from wx._core.Window:

FindFocus(*args, **kwargs)
FindFocus() -> Window Returns the window or control that currently has the keyboard focus, or None.

GetCapture(*args, **kwargs)
GetCapture() -> Window Returns the window which currently captures the mouse or None

NewControlId(*args, **kwargs)
NewControlId() -> int Generate a control id for the controls which were not given one.

NextControlId(*args, **kwargs)
NextControlId(int winid) -> int Get the id of the control following the one with the given autogenerated) id

PrevControlId(*args, **kwargs)
PrevControlId(int winid) -> int Get the id of the control preceding the one with the given autogenerated) id

Methods inherited from wx._core.EvtHandler:

AddPendingEvent(*args, **kwargs)
AddPendingEvent(self, Event event)

Bind(self, event, handler, source=None, id=-1, id2=-1)
Bind an event to an event handler. :param event: One of the EVT_* objects that specifies the               type of event to bind, :param handler: A callable object to be invoked when the               event is delivered to self.  Pass None to               disconnect an event handler. :param source: Sometimes the event originates from a               different window than self, but you still               want to catch it in self.  (For example, a               button event delivered to a frame.)  By               passing the source of the event, the event               handling system is able to differentiate               between the same event type from different               controls. :param id: Used to spcify the event source by ID instead            of instance. :param id2: Used when it is desirable to bind a handler               to a range of IDs, such as with EVT_MENU_RANGE.

Connect(*args, **kwargs)
Connect(self, int id, int lastId, int eventType, PyObject func)

Disconnect(*args, **kwargs)
Disconnect(self, int id, int lastId=-1, wxEventType eventType=wxEVT_NULL) -> bool

GetEvtHandlerEnabled(*args, **kwargs)
GetEvtHandlerEnabled(self) -> bool

GetNextHandler(*args, **kwargs)
GetNextHandler(self) -> EvtHandler

GetPreviousHandler(*args, **kwargs)
GetPreviousHandler(self) -> EvtHandler

ProcessEvent(*args, **kwargs)
ProcessEvent(self, Event event) -> bool

ProcessPendingEvents(*args, **kwargs)
ProcessPendingEvents(self)

SetEvtHandlerEnabled(*args, **kwargs)
SetEvtHandlerEnabled(self, bool enabled)

SetNextHandler(*args, **kwargs)
SetNextHandler(self, EvtHandler handler)

SetPreviousHandler(*args, **kwargs)
SetPreviousHandler(self, EvtHandler handler)

Unbind(self, event, source=None, id=-1, id2=-1)
Disconencts the event handler binding for event from self. Returns True if successful.

Methods inherited from wx._core.Object:

GetClassName(*args, **kwargs)
GetClassName(self) -> String Returns the class name of the C++ class using wxRTTI.

Data and other attributes inherited from wx._core.Object:

__dict__ = <dictproxy object>
dictionary for instance variables (if defined)

__weakref__ = <attribute '__weakref__' of 'Object' objects>
list of weak references to the object (if defined)

Functions

Bbox(...)
Bbox(ll, ur)

Point(...)
Point(x, y)

Value(...)
Value(x)

new_figure_manager(num, *args, **kwargs)
Create a new figure manager instance

Data

backend_version = '2.5.3.2pre'
division = _Feature((2, 2, 0, 'alpha', 2), (3, 0, 0, 'alpha', 0), 8192)
@footer@

Data
		backend_version = '2.5.3.2pre' division = _Feature((2, 2, 0, 'alpha', 2), (3, 0, 0, 'alpha', 0), 8192)