"""Image_GetImageExtWildcard() -> String"""
return _core_.Image_GetImageExtWildcard(*args, **kwargs)
+def InitAllImageHandlers():
+ """
+ The former functionality of InitAllImageHanders is now done internal to
+ the _core_ extension module and so this function has become a simple NOP.
+ """
+ pass
-def InitAllImageHandlers(*args, **kwargs):
- """InitAllImageHandlers()"""
- return _core_.InitAllImageHandlers(*args, **kwargs)
IMAGE_RESOLUTION_INCHES = _core_.IMAGE_RESOLUTION_INCHES
IMAGE_RESOLUTION_CM = _core_.IMAGE_RESOLUTION_CM
BMP_24BPP = _core_.BMP_24BPP
return _core_.NavigationKeyEvent_GetDirection(*args, **kwargs)
def SetDirection(*args, **kwargs):
- """SetDirection(self, bool bForward)"""
+ """SetDirection(self, bool forward)"""
return _core_.NavigationKeyEvent_SetDirection(*args, **kwargs)
def IsWindowChange(*args, **kwargs):
return _core_.NavigationKeyEvent_IsWindowChange(*args, **kwargs)
def SetWindowChange(*args, **kwargs):
- """SetWindowChange(self, bool bIs)"""
+ """SetWindowChange(self, bool ischange)"""
return _core_.NavigationKeyEvent_SetWindowChange(*args, **kwargs)
+ def SetFlags(*args, **kwargs):
+ """SetFlags(self, long flags)"""
+ return _core_.NavigationKeyEvent_SetFlags(*args, **kwargs)
+
def GetCurrentFocus(*args, **kwargs):
"""GetCurrentFocus(self) -> Window"""
return _core_.NavigationKeyEvent_GetCurrentFocus(*args, **kwargs)
"""SetCurrentFocus(self, Window win)"""
return _core_.NavigationKeyEvent_SetCurrentFocus(*args, **kwargs)
+ IsForward = _core_.NavigationKeyEvent_IsForward
+ WinChange = _core_.NavigationKeyEvent_WinChange
class NavigationKeyEventPtr(NavigationKeyEvent):
def __init__(self, this):
wx.App.__init__(self, redirect, filename, useBestVisual, clearSigInt)
def OnInit(self):
- wx.InitAllImageHandlers()
return True
"""
GetClientRect(self) -> Rect
- Get the client area position and size as a wx.Rect object.
+ Get the client area position and size as a `wx.Rect` object.
"""
return _core_.Window_GetClientRect(*args, **kwargs)
"""
GetBestSize(self) -> Size
- This functions returns the best acceptable minimal size for the
+ 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
"""
GetBestSizeTuple() -> (width, height)
- This functions returns the best acceptable minimal size for the
+ 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
def SetSizeHints(*args):
"""
+ SetSizeHints(self, Size minSize, Size maxSize=DefaultSize, Size incSize=DefaultSize)
SetSizeHints(self, int minW, int minH, int maxW=-1, int maxH=-1, int incW=-1,
int incH=-1)
- SetSizeHints(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. The
- resizing increments are only significant under Motif or Xt.
+ 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.
"""
return _core_.Window_SetSizeHints(*args)
def SetVirtualSizeHints(*args):
"""
- SetVirtualSizeHints(self, int minW, int minH, int maxW=-1, int maxH=-1)
SetVirtualSizeHints(self, Size minSize, Size maxSize=DefaultSize)
+ 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
"""
return _core_.Window_SetVirtualSizeHints(*args)
+ def GetMaxSize(*args, **kwargs):
+ """GetMaxSize(self) -> Size"""
+ return _core_.Window_GetMaxSize(*args, **kwargs)
+
+ def GetMinSize(*args, **kwargs):
+ """GetMinSize(self) -> Size"""
+ return _core_.Window_GetMinSize(*args, **kwargs)
+
+ def SetMinSize(*args, **kwargs):
+ """
+ SetMinSize(self, Size minSize)
+
+ A more convenient method than `SetSizeHints` for setting just the
+ min size.
+ """
+ return _core_.Window_SetMinSize(*args, **kwargs)
+
+ def SetMaxSize(*args, **kwargs):
+ """
+ SetMaxSize(self, Size maxSize)
+
+ A more convenient method than `SetSizeHints` for setting just the
+ max size.
+ """
+ return _core_.Window_SetMaxSize(*args, **kwargs)
+
def GetMinWidth(*args, **kwargs):
"""GetMinWidth(self) -> int"""
return _core_.Window_GetMinWidth(*args, **kwargs)
"""GetMaxHeight(self) -> int"""
return _core_.Window_GetMaxHeight(*args, **kwargs)
- def GetMaxSize(*args, **kwargs):
- """GetMaxSize(self) -> Size"""
- return _core_.Window_GetMaxSize(*args, **kwargs)
-
- def GetMinSize(*args, **kwargs):
- """GetMinSize(self) -> Size"""
- return _core_.Window_GetMinSize(*args, **kwargs)
-
def SetVirtualSize(*args, **kwargs):
"""
SetVirtualSize(self, Size size)
"""
return _core_.Window_SetTmpDefaultItem(*args, **kwargs)
+ def Navigate(*args, **kwargs):
+ """
+ Navigate(self, int flags=NavigationKeyEvent.IsForward) -> bool
+
+ :param flags: A combination of the ``IsForward`` and ``WinChange``
+ values in the `wx.NavigationKeyEvent` class, which
+ determine if the navigation should be in forward or
+ reverse order, and if it should be able to cross
+ parent window boundaries, such as between notebook
+ pages or MDI child frames. Typically the status of
+ the Shift key (for forward or reverse) or the
+ Control key (for WinChange) would be used to
+ determine how to set the flags.
+
+ situation in which you may wish to call this method is from a text
+ rol custom keypress handler to do the default navigation behaviour
+ the tab key, since the standard default behaviour for a multiline
+ control with the wx.TE_PROCESS_TAB style is to insert a tab and
+ navigate to the next control.
+ """
+ return _core_.Window_Navigate(*args, **kwargs)
+
def GetChildren(*args, **kwargs):
"""
GetChildren(self) -> PyObject
def PopupMenuXY(*args, **kwargs):
"""
- PopupMenuXY(self, Menu menu, int x, int y) -> bool
+ 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.
+ 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.
"""
return _core_.Window_PopupMenuXY(*args, **kwargs)
def PopupMenu(*args, **kwargs):
"""
- PopupMenu(self, Menu menu, Point pos) -> bool
+ 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.
+ 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.
"""
return _core_.Window_PopupMenu(*args, **kwargs)
return "<%s.%s; proxy of C++ wxControl instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
"""
- __init__(self, Window parent, int id, Point pos=DefaultPosition, Size size=DefaultSize,
- long style=0, Validator validator=DefaultValidator,
+ __init__(self, Window parent, int id=-1, Point pos=DefaultPosition,
+ Size size=DefaultSize, long style=0, Validator validator=DefaultValidator,
String name=ControlNameStr) -> Control
Create a Control. Normally you should only call this from a subclass'
def Create(*args, **kwargs):
"""
- Create(self, Window parent, int id, Point pos=DefaultPosition, Size size=DefaultSize,
- long style=0, Validator validator=DefaultValidator,
+ Create(self, Window parent, int id=-1, Point pos=DefaultPosition,
+ Size size=DefaultSize, long style=0, Validator validator=DefaultValidator,
String name=ControlNameStr) -> bool
Do the 2nd phase and create the GUI control.
#---------------------------------------------------------------------------
class SizerItem(Object):
+ """
+ The wx.SizerItem class is used to track the position, size and other
+ attributes of each item managed by a `wx.Sizer`. In normal usage user
+ code should never need to deal directly with a wx.SizerItem, but
+ custom classes derived from `wx.PySizer` will probably need to use the
+ collection of wx.SizerItems held by wx.Sizer when calculating layout.
+
+ :see: `wx.Sizer`, `wx.GBSizerItem`
+ """
def __repr__(self):
return "<%s.%s; proxy of C++ wxSizerItem instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
- """__init__(self) -> SizerItem"""
+ """
+ __init__(self) -> SizerItem
+
+ Constructs an empty wx.SizerItem. Either a window, sizer or spacer
+ size will need to be set before this item can be used in a Sizer.
+
+ You will probably never need to create a wx.SizerItem directly as they
+ are created automatically when the sizer's Add, Insert or Prepend
+ methods are called.
+
+ :see: `wx.SizerItemSpacer`, `wx.SizerItemWindow`, `wx.SizerItemSizer`
+ """
newobj = _core_.new_SizerItem(*args, **kwargs)
self.this = newobj.this
self.thisown = 1
del newobj.thisown
def DeleteWindows(*args, **kwargs):
- """DeleteWindows(self)"""
+ """
+ DeleteWindows(self)
+
+ Destroy the window or the windows in a subsizer, depending on the type
+ of item.
+ """
return _core_.SizerItem_DeleteWindows(*args, **kwargs)
def DetachSizer(*args, **kwargs):
- """DetachSizer(self)"""
+ """
+ DetachSizer(self)
+
+ Enable deleting the SizerItem without destroying the contained sizer.
+ """
return _core_.SizerItem_DetachSizer(*args, **kwargs)
def GetSize(*args, **kwargs):
- """GetSize(self) -> Size"""
+ """
+ GetSize(self) -> Size
+
+ Get the current size of the item, as set in the last Layout.
+ """
return _core_.SizerItem_GetSize(*args, **kwargs)
def CalcMin(*args, **kwargs):
- """CalcMin(self) -> Size"""
+ """
+ CalcMin(self) -> Size
+
+ Calculates the minimum desired size for the item, including any space
+ needed by borders.
+ """
return _core_.SizerItem_CalcMin(*args, **kwargs)
def SetDimension(*args, **kwargs):
- """SetDimension(self, Point pos, Size size)"""
+ """
+ SetDimension(self, Point pos, Size size)
+
+ Set the position and size of the space allocated for this item by the
+ sizer, and adjust the position and size of the item (window or
+ subsizer) to be within that space taking alignment and borders into
+ account.
+ """
return _core_.SizerItem_SetDimension(*args, **kwargs)
def GetMinSize(*args, **kwargs):
- """GetMinSize(self) -> Size"""
+ """
+ GetMinSize(self) -> Size
+
+ Get the minimum size needed for the item.
+ """
return _core_.SizerItem_GetMinSize(*args, **kwargs)
def SetInitSize(*args, **kwargs):
return _core_.SizerItem_SetInitSize(*args, **kwargs)
def SetRatioWH(*args, **kwargs):
- """SetRatioWH(self, int width, int height)"""
+ """
+ SetRatioWH(self, int width, int height)
+
+ Set the ratio item attribute.
+ """
return _core_.SizerItem_SetRatioWH(*args, **kwargs)
def SetRatioSize(*args, **kwargs):
- """SetRatioSize(self, Size size)"""
+ """
+ SetRatioSize(self, Size size)
+
+ Set the ratio item attribute.
+ """
return _core_.SizerItem_SetRatioSize(*args, **kwargs)
def SetRatio(*args, **kwargs):
- """SetRatio(self, float ratio)"""
+ """
+ SetRatio(self, float ratio)
+
+ Set the ratio item attribute.
+ """
return _core_.SizerItem_SetRatio(*args, **kwargs)
def GetRatio(*args, **kwargs):
- """GetRatio(self) -> float"""
+ """
+ GetRatio(self) -> float
+
+ Set the ratio item attribute.
+ """
return _core_.SizerItem_GetRatio(*args, **kwargs)
def IsWindow(*args, **kwargs):
- """IsWindow(self) -> bool"""
+ """
+ IsWindow(self) -> bool
+
+ Is this sizer item a window?
+ """
return _core_.SizerItem_IsWindow(*args, **kwargs)
def IsSizer(*args, **kwargs):
- """IsSizer(self) -> bool"""
+ """
+ IsSizer(self) -> bool
+
+ Is this sizer item a subsizer?
+ """
return _core_.SizerItem_IsSizer(*args, **kwargs)
def IsSpacer(*args, **kwargs):
- """IsSpacer(self) -> bool"""
+ """
+ IsSpacer(self) -> bool
+
+ Is this sizer item a spacer?
+ """
return _core_.SizerItem_IsSpacer(*args, **kwargs)
def SetProportion(*args, **kwargs):
- """SetProportion(self, int proportion)"""
+ """
+ SetProportion(self, int proportion)
+
+ Set the proportion value for this item.
+ """
return _core_.SizerItem_SetProportion(*args, **kwargs)
def GetProportion(*args, **kwargs):
- """GetProportion(self) -> int"""
+ """
+ GetProportion(self) -> int
+
+ Get the proportion value for this item.
+ """
return _core_.SizerItem_GetProportion(*args, **kwargs)
- SetOption = SetProportion
- GetOption = GetProportion
+ SetOption = wx._deprecated(SetProportion, "Please use `SetProportion` instead.")
+ GetOption = wx._deprecated(GetProportion, "Please use `GetProportion` instead.")
def SetFlag(*args, **kwargs):
- """SetFlag(self, int flag)"""
+ """
+ SetFlag(self, int flag)
+
+ Set the flag value for this item.
+ """
return _core_.SizerItem_SetFlag(*args, **kwargs)
def GetFlag(*args, **kwargs):
- """GetFlag(self) -> int"""
+ """
+ GetFlag(self) -> int
+
+ Get the flag value for this item.
+ """
return _core_.SizerItem_GetFlag(*args, **kwargs)
def SetBorder(*args, **kwargs):
- """SetBorder(self, int border)"""
+ """
+ SetBorder(self, int border)
+
+ Set the border value for this item.
+ """
return _core_.SizerItem_SetBorder(*args, **kwargs)
def GetBorder(*args, **kwargs):
- """GetBorder(self) -> int"""
+ """
+ GetBorder(self) -> int
+
+ Get the border value for this item.
+ """
return _core_.SizerItem_GetBorder(*args, **kwargs)
def GetWindow(*args, **kwargs):
- """GetWindow(self) -> Window"""
+ """
+ GetWindow(self) -> Window
+
+ Get the window (if any) that is managed by this sizer item.
+ """
return _core_.SizerItem_GetWindow(*args, **kwargs)
def SetWindow(*args, **kwargs):
- """SetWindow(self, Window window)"""
+ """
+ SetWindow(self, Window window)
+
+ Set the window to be managed by this sizer item.
+ """
return _core_.SizerItem_SetWindow(*args, **kwargs)
def GetSizer(*args, **kwargs):
- """GetSizer(self) -> Sizer"""
+ """
+ GetSizer(self) -> Sizer
+
+ Get the subsizer (if any) that is managed by this sizer item.
+ """
return _core_.SizerItem_GetSizer(*args, **kwargs)
def SetSizer(*args, **kwargs):
- """SetSizer(self, Sizer sizer)"""
+ """
+ SetSizer(self, Sizer sizer)
+
+ Set the subsizer to be managed by this sizer item.
+ """
return _core_.SizerItem_SetSizer(*args, **kwargs)
def GetSpacer(*args, **kwargs):
- """GetSpacer(self) -> Size"""
+ """
+ GetSpacer(self) -> Size
+
+ Get the size of the spacer managed by this sizer item.
+ """
return _core_.SizerItem_GetSpacer(*args, **kwargs)
def SetSpacer(*args, **kwargs):
- """SetSpacer(self, Size size)"""
+ """
+ SetSpacer(self, Size size)
+
+ Set the size of the spacer to be managed by this sizer item.
+ """
return _core_.SizerItem_SetSpacer(*args, **kwargs)
def Show(*args, **kwargs):
- """Show(self, bool show)"""
+ """
+ Show(self, bool show)
+
+ Set the show item attribute, which sizers use to determine if the item
+ is to be made part of the layout or not. If the item is tracking a
+ window then it is shown or hidden as needed.
+ """
return _core_.SizerItem_Show(*args, **kwargs)
def IsShown(*args, **kwargs):
- """IsShown(self) -> bool"""
+ """
+ IsShown(self) -> bool
+
+ Is the item to be shown in the layout?
+ """
return _core_.SizerItem_IsShown(*args, **kwargs)
def GetPosition(*args, **kwargs):
- """GetPosition(self) -> Point"""
+ """
+ GetPosition(self) -> Point
+
+ Returns the current position of the item, as set in the last Layout.
+ """
return _core_.SizerItem_GetPosition(*args, **kwargs)
def GetUserData(*args, **kwargs):
- """GetUserData(self) -> PyObject"""
+ """
+ GetUserData(self) -> PyObject
+
+ Returns the userData associated with this sizer item, or None if there
+ isn't any.
+ """
return _core_.SizerItem_GetUserData(*args, **kwargs)
self.__class__ = SizerItem
_core_.SizerItem_swigregister(SizerItemPtr)
-def SizerItemSpacer(*args, **kwargs):
+def SizerItemWindow(*args, **kwargs):
"""
- SizerItemSpacer(int width, int height, int proportion, int flag, int border,
- Object userData) -> SizerItem
+ SizerItemWindow(Window window, int proportion, int flag, int border,
+ PyObject userData=None) -> SizerItem
+
+ Constructs a `wx.SizerItem` for tracking a window.
"""
- val = _core_.new_SizerItemSpacer(*args, **kwargs)
+ val = _core_.new_SizerItemWindow(*args, **kwargs)
val.thisown = 1
return val
-def SizerItemWindow(*args, **kwargs):
+def SizerItemSpacer(*args, **kwargs):
"""
- SizerItemWindow(Window window, int proportion, int flag, int border,
- Object userData) -> SizerItem
+ SizerItemSpacer(int width, int height, int proportion, int flag, int border,
+ PyObject userData=None) -> SizerItem
+
+ Constructs a `wx.SizerItem` for tracking a spacer.
"""
- val = _core_.new_SizerItemWindow(*args, **kwargs)
+ val = _core_.new_SizerItemSpacer(*args, **kwargs)
val.thisown = 1
return val
def SizerItemSizer(*args, **kwargs):
"""
SizerItemSizer(Sizer sizer, int proportion, int flag, int border,
- Object userData) -> SizerItem
+ PyObject userData=None) -> SizerItem
+
+ Constructs a `wx.SizerItem` for tracking a subsizer
"""
val = _core_.new_SizerItemSizer(*args, **kwargs)
val.thisown = 1
return val
class Sizer(Object):
+ """
+ wx.Sizer is the abstract base class used for laying out subwindows in
+ a window. You cannot use wx.Sizer directly; instead, you will have to
+ use one of the sizer classes derived from it such as `wx.BoxSizer`,
+ `wx.StaticBoxSizer`, `wx.NotebookSizer`, `wx.GridSizer`, `wx.FlexGridSizer`
+ and `wx.GridBagSizer`.
+
+ The concept implemented by sizers in wxWidgets is closely related to
+ layout tools in other GUI toolkits, such as Java's AWT, the GTK
+ toolkit or the Qt toolkit. It is based upon the idea of the individual
+ subwindows reporting their minimal required size and their ability to
+ get stretched if the size of the parent window has changed. This will
+ most often mean that the programmer does not set the original size of
+ a dialog in the beginning, rather the dialog will assigned a sizer and
+ this sizer will be queried about the recommended size. The sizer in
+ turn will query its children, which can be normal windows or contorls,
+ empty space or other sizers, so that a hierarchy of sizers can be
+ constructed. Note that wxSizer does not derive from wxWindow and thus
+ do not interfere with tab ordering and requires very little resources
+ compared to a real window on screen.
+
+ What makes sizers so well fitted for use in wxWidgets is the fact that
+ every control reports its own minimal size and the algorithm can
+ handle differences in font sizes or different window (dialog item)
+ sizes on different platforms without problems. If for example the
+ standard font as well as the overall design of Mac widgets requires
+ more space than on Windows, then the initial size of a dialog using a
+ sizer will automatically be bigger on Mac than on Windows.
+ """
def __init__(self): raise RuntimeError, "No constructor defined"
def __repr__(self):
return "<%s.%s; proxy of C++ wxSizer instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def Add(*args, **kwargs):
"""
- Add(self, PyObject item, int proportion=0, int flag=0, int border=0,
+ Add(self, item, int proportion=0, int flag=0, int border=0,
PyObject userData=None)
+
+ Appends a child item to the sizer.
"""
return _core_.Sizer_Add(*args, **kwargs)
def Insert(*args, **kwargs):
"""
- Insert(self, int before, PyObject item, int proportion=0, int flag=0,
- int border=0, PyObject userData=None)
+ Insert(self, int before, item, int proportion=0, int flag=0, int border=0,
+ PyObject userData=None)
+
+ Inserts a new item into the list of items managed by this sizer before
+ the item at index *before*. See `Add` for a description of the parameters.
"""
return _core_.Sizer_Insert(*args, **kwargs)
def Prepend(*args, **kwargs):
"""
- Prepend(self, PyObject item, int proportion=0, int flag=0, int border=0,
+ Prepend(self, item, int proportion=0, int flag=0, int border=0,
PyObject userData=None)
+
+ Adds a new item to the begining of the list of sizer items managed by
+ this sizer. See `Add` for a description of the parameters.
"""
return _core_.Sizer_Prepend(*args, **kwargs)
def Remove(*args, **kwargs):
- """Remove(self, PyObject item) -> bool"""
+ """
+ Remove(self, item) -> bool
+
+ Removes an item from the sizer and destroys it. This method does not
+ cause any layout or resizing to take place, call `Layout` to update
+ the layout on screen after removing a child from the sizer. The
+ *item* parameter can be either a window, a sizer, or the zero-based
+ index of an item to remove. Returns True if the child item was found
+ and removed.
+ """
return _core_.Sizer_Remove(*args, **kwargs)
def Detach(*args, **kwargs):
- """Detach(self, PyObject item) -> bool"""
+ """
+ Detach(self, item) -> bool
+
+ Detaches an item from the sizer without destroying it. This method
+ does not cause any layout or resizing to take place, call `Layout` to
+ do so. The *item* parameter can be either a window, a sizer, or the
+ zero-based index of the item to be detached. Returns True if the child item
+ was found and detached.
+ """
return _core_.Sizer_Detach(*args, **kwargs)
def _SetItemMinSize(*args, **kwargs):
"""_SetItemMinSize(self, PyObject item, Size size)"""
return _core_.Sizer__SetItemMinSize(*args, **kwargs)
+ def SetItemMinSize(self, item, *args):
+ """
+ SetItemMinSize(self, item, Size size)
+
+ Sets the minimum size that will be allocated for an item in the sizer.
+ The *item* parameter can be either a window, a sizer, or the
+ zero-based index of the item. If a window or sizer is given then it
+ will be searched for recursivly in subsizers if neccessary.
+ """
+ if len(args) == 2:
+ # for backward compatibility accept separate width,height args too
+ return self._SetItemMinSize(item, args)
+ else:
+ return self._SetItemMinSize(item, args[0])
+
def AddItem(*args, **kwargs):
- """AddItem(self, SizerItem item)"""
+ """
+ AddItem(self, SizerItem item)
+
+ Adds a `wx.SizerItem` to the sizer.
+ """
return _core_.Sizer_AddItem(*args, **kwargs)
def InsertItem(*args, **kwargs):
- """InsertItem(self, size_t index, SizerItem item)"""
+ """
+ InsertItem(self, int index, SizerItem item)
+
+ Inserts a `wx.SizerItem` to the sizer at the position given by *index*.
+ """
return _core_.Sizer_InsertItem(*args, **kwargs)
def PrependItem(*args, **kwargs):
- """PrependItem(self, SizerItem item)"""
+ """
+ PrependItem(self, SizerItem item)
+
+ Prepends a `wx.SizerItem` to the sizer.
+ """
return _core_.Sizer_PrependItem(*args, **kwargs)
- def AddMany(self, widgets):
+ def AddMany(self, items):
"""
AddMany is a convenience method for adding several items
to a sizer at one time. Simply pass it a list of tuples,
where each tuple consists of the parameters that you
would normally pass to the `Add` method.
"""
- for childinfo in widgets:
- if type(childinfo) != type(()) or (len(childinfo) == 2 and type(childinfo[0]) == type(1)):
- childinfo = (childinfo, )
- self.Add(*childinfo)
+ for item in items:
+ if type(item) != type(()) or (len(item) == 2 and type(item[0]) == type(1)):
+ item = (item, )
+ self.Add(*item)
# for backwards compatibility only, please do not use in new code
AddWindow = wx._deprecated(Add, "AddWindow is deprecated, use `Add` instead.")
RemovePos = wx._deprecated(Remove, "RemovePos is deprecated, use `Remove` instead.")
- def SetItemMinSize(self, item, *args):
- if len(args) == 2:
- return self._SetItemMinSize(item, args)
- else:
- return self._SetItemMinSize(item, args[0])
-
def SetDimension(*args, **kwargs):
- """SetDimension(self, int x, int y, int width, int height)"""
+ """
+ SetDimension(self, int x, int y, int width, int height)
+
+ Call this to force the sizer to take the given dimension and thus
+ force the items owned by the sizer to resize themselves according to
+ the rules defined by the parameter in the `Add`, `Insert` or `Prepend`
+ methods.
+ """
return _core_.Sizer_SetDimension(*args, **kwargs)
def SetMinSize(*args, **kwargs):
- """SetMinSize(self, Size size)"""
+ """
+ SetMinSize(self, Size size)
+
+ Call this to give the sizer a minimal size. Normally, the sizer will
+ calculate its minimal size based purely on how much space its children
+ need. After calling this method `GetMinSize` will return either the
+ minimal size as requested by its children or the minimal size set
+ here, depending on which is bigger.
+ """
return _core_.Sizer_SetMinSize(*args, **kwargs)
def GetSize(*args, **kwargs):
- """GetSize(self) -> Size"""
+ """
+ GetSize(self) -> Size
+
+ Returns the current size of the space managed by the sizer.
+ """
return _core_.Sizer_GetSize(*args, **kwargs)
def GetPosition(*args, **kwargs):
- """GetPosition(self) -> Point"""
+ """
+ GetPosition(self) -> Point
+
+ Returns the current position of the sizer's managed space.
+ """
return _core_.Sizer_GetPosition(*args, **kwargs)
def GetMinSize(*args, **kwargs):
- """GetMinSize(self) -> Size"""
+ """
+ GetMinSize(self) -> Size
+
+ Returns the minimal size of the sizer. This is either the combined
+ minimal size of all the children and their borders or the minimal size
+ set by SetMinSize, depending on which is bigger.
+ """
return _core_.Sizer_GetMinSize(*args, **kwargs)
def GetSizeTuple(self):
return self.GetMinSize().Get()
def RecalcSizes(*args, **kwargs):
- """RecalcSizes(self)"""
+ """
+ RecalcSizes(self)
+
+ Using the sizes calculated by `CalcMin` reposition and resize all the
+ items managed by this sizer. You should not need to call this directly as
+ it is called by `Layout`.
+ """
return _core_.Sizer_RecalcSizes(*args, **kwargs)
def CalcMin(*args, **kwargs):
- """CalcMin(self) -> Size"""
+ """
+ CalcMin(self) -> Size
+
+ This method is where the sizer will do the actual calculation of its
+ children's minimal sizes. You should not need to call this directly as
+ it is called by `Layout`.
+ """
return _core_.Sizer_CalcMin(*args, **kwargs)
def Layout(*args, **kwargs):
- """Layout(self)"""
+ """
+ Layout(self)
+
+ This method will force the recalculation and layout of the items
+ controlled by the sizer using the current space allocated to the
+ sizer. Normally this is called automatically from the owning window's
+ EVT_SIZE handler, but it is also useful to call it from user code when
+ one of the items in a sizer change size, or items are added or
+ removed.
+ """
return _core_.Sizer_Layout(*args, **kwargs)
def Fit(*args, **kwargs):
- """Fit(self, Window window) -> Size"""
+ """
+ Fit(self, Window window) -> Size
+
+ Tell the sizer to resize the *window* to match the sizer's minimal
+ size. This is commonly done in the constructor of the window itself in
+ order to set its initial size to match the needs of the children as
+ determined by the sizer. Returns the new size.
+
+ For a top level window this is the total window size, not the client size.
+ """
return _core_.Sizer_Fit(*args, **kwargs)
def FitInside(*args, **kwargs):
- """FitInside(self, Window window)"""
+ """
+ FitInside(self, Window window)
+
+ Tell the sizer to resize the *virtual size* of the *window* to match the
+ sizer's minimal size. This will not alter the on screen size of the
+ window, but may cause the addition/removal/alteration of scrollbars
+ required to view the virtual area in windows which manage it.
+
+ :see: `wx.ScrolledWindow.SetScrollbars`, `SetVirtualSizeHints`
+
+ """
return _core_.Sizer_FitInside(*args, **kwargs)
def SetSizeHints(*args, **kwargs):
- """SetSizeHints(self, Window window)"""
+ """
+ SetSizeHints(self, Window window)
+
+ Tell the sizer to set (and `Fit`) the minimal size of the *window* to
+ match the sizer's minimal size. This is commonly done in the
+ constructor of the window itself if the window is resizable (as are
+ many dialogs under Unix and frames on probably all platforms) in order
+ to prevent the window from being sized smaller than the minimal size
+ required by the sizer.
+ """
return _core_.Sizer_SetSizeHints(*args, **kwargs)
def SetVirtualSizeHints(*args, **kwargs):
- """SetVirtualSizeHints(self, Window window)"""
+ """
+ SetVirtualSizeHints(self, Window window)
+
+ Tell the sizer to set the minimal size of the window virtual area to
+ match the sizer's minimal size. For windows with managed scrollbars
+ this will set them appropriately.
+
+ :see: `wx.ScrolledWindow.SetScrollbars`
+
+ """
return _core_.Sizer_SetVirtualSizeHints(*args, **kwargs)
def Clear(*args, **kwargs):
- """Clear(self, bool delete_windows=False)"""
+ """
+ Clear(self, bool deleteWindows=False)
+
+ Clear all items from the sizer, optionally destroying the window items
+ as well.
+ """
return _core_.Sizer_Clear(*args, **kwargs)
def DeleteWindows(*args, **kwargs):
- """DeleteWindows(self)"""
+ """
+ DeleteWindows(self)
+
+ Destroy all windows managed by the sizer.
+ """
return _core_.Sizer_DeleteWindows(*args, **kwargs)
def GetChildren(*args, **kwargs):
- """GetChildren(self) -> PyObject"""
+ """
+ GetChildren(sefl) -> list
+
+ Returns a list of all the `wx.SizerItem` objects managed by the sizer.
+ """
return _core_.Sizer_GetChildren(*args, **kwargs)
def Show(*args, **kwargs):
- """Show(self, PyObject item, bool show=True)"""
- return _core_.Sizer_Show(*args, **kwargs)
+ """
+ Show(self, item, bool show=True)
- def Hide(*args, **kwargs):
- """Hide(self, PyObject item)"""
- return _core_.Sizer_Hide(*args, **kwargs)
+ Shows or hides an item managed by the sizer. To make a sizer item
+ disappear or reappear, use Show followed by `Layout`. The *item*
+ parameter can be either a window, a sizer, or the zero-based index of
+ the item.
+ """
+ return _core_.Sizer_Show(*args, **kwargs)
def IsShown(*args, **kwargs):
- """IsShown(self, PyObject item) -> bool"""
+ """
+ IsShown(self, item)
+
+ Determines if the item is currently shown. sizer. To make a sizer
+ item disappear or reappear, use Show followed by `Layout`. The *item*
+ parameter can be either a window, a sizer, or the zero-based index of
+ the item.
+ """
return _core_.Sizer_IsShown(*args, **kwargs)
+ def Hide(self, item):
+ """
+ A convenience method for Show(item, False).
+ """
+ self.Show(item, False)
+
def ShowItems(*args, **kwargs):
- """ShowItems(self, bool show)"""
+ """
+ ShowItems(self, bool show)
+
+ Recursively call `wx.Window.Show` on all sizer items.
+ """
return _core_.Sizer_ShowItems(*args, **kwargs)
_core_.Sizer_swigregister(SizerPtr)
class PySizer(Sizer):
+ """
+ wx.PySizer is a special version of `wx.Sizer` that has been
+ instrumented to allow the C++ virtual methods to be overloaded in
+ Python derived classes. You would derive from this class if you are
+ wanting to implement a custom sizer in Python code. Simply implement
+ `CalcMin` and `RecalcSizes` in the derived class and you're all set.
+ For example::
+
+ class MySizer(wx.PySizer):
+ def __init__(self):
+ wx.PySizer.__init__(self)
+
+ def CalcMin(self):
+ for item in self.GetChildren():
+ # calculate the total minimum width and height needed
+ # by all items in the sizer according to this sizer's
+ # layout algorithm.
+ ...
+ return wx.Size(width, height)
+
+ def RecalcSizes(self):
+ # find the space allotted to this sizer
+ pos = self.GetPosition()
+ size = self.GetSize()
+ for item in self.GetChildren():
+ # Recalculate (if necessary) the position and size of
+ # each item and then call item.SetDimension to do the
+ # actual positioning and sizing of the items within the
+ # space alloted to this sizer.
+ ...
+ item.SetDimension(itemPos, itemSize)
+
+
+ When `Layout` is called it first calls `CalcMin` followed by
+ `RecalcSizes` so you can optimize a bit by saving the results of
+ `CalcMin` and resuing them in `RecalcSizes`.
+
+ :see: `wx.SizerItem`, `wx.Sizer.GetChildren`
+
+
+ """
def __repr__(self):
return "<%s.%s; proxy of C++ wxPySizer instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
- """__init__(self) -> PySizer"""
+ """
+ __init__(self) -> PySizer
+
+ Creates a wx.PySizer. Must be called from the __init__ in the derived
+ class.
+ """
newobj = _core_.new_PySizer(*args, **kwargs)
self.this = newobj.this
self.thisown = 1
#---------------------------------------------------------------------------
class BoxSizer(Sizer):
+ """
+ The basic idea behind a box sizer is that windows will most often be
+ laid out in rather simple basic geometry, typically in a row or a
+ column or nested hierarchies of either. A wx.BoxSizer will lay out
+ its items in a simple row or column, depending on the orientation
+ parameter passed to the constructor.
+ """
def __repr__(self):
return "<%s.%s; proxy of C++ wxBoxSizer instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
- """__init__(self, int orient=HORIZONTAL) -> BoxSizer"""
+ """
+ __init__(self, int orient=HORIZONTAL) -> BoxSizer
+
+ Constructor for a wx.BoxSizer. *orient* may be one of ``wx.VERTICAL``
+ or ``wx.HORIZONTAL`` for creating either a column sizer or a row
+ sizer.
+ """
newobj = _core_.new_BoxSizer(*args, **kwargs)
self.this = newobj.this
self.thisown = 1
self._setOORInfo(self)
def GetOrientation(*args, **kwargs):
- """GetOrientation(self) -> int"""
+ """
+ GetOrientation(self) -> int
+
+ Returns the current orientation of the sizer.
+ """
return _core_.BoxSizer_GetOrientation(*args, **kwargs)
def SetOrientation(*args, **kwargs):
- """SetOrientation(self, int orient)"""
- return _core_.BoxSizer_SetOrientation(*args, **kwargs)
-
- def RecalcSizes(*args, **kwargs):
- """RecalcSizes(self)"""
- return _core_.BoxSizer_RecalcSizes(*args, **kwargs)
+ """
+ SetOrientation(self, int orient)
- def CalcMin(*args, **kwargs):
- """CalcMin(self) -> Size"""
- return _core_.BoxSizer_CalcMin(*args, **kwargs)
+ Resets the orientation of the sizer.
+ """
+ return _core_.BoxSizer_SetOrientation(*args, **kwargs)
class BoxSizerPtr(BoxSizer):
#---------------------------------------------------------------------------
class StaticBoxSizer(BoxSizer):
+ """
+ wx.StaticBoxSizer derives from and functions identically to the
+ `wx.BoxSizer` and adds a `wx.StaticBox` around the items that the sizer
+ manages. Note that this static box must be created separately and
+ passed to the sizer constructor.
+ """
def __repr__(self):
return "<%s.%s; proxy of C++ wxStaticBoxSizer instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
- """__init__(self, wxStaticBox box, int orient=HORIZONTAL) -> StaticBoxSizer"""
+ """
+ __init__(self, StaticBox box, int orient=HORIZONTAL) -> StaticBoxSizer
+
+ Constructor. It takes an associated static box and the orientation
+ *orient* as parameters - orient can be either of ``wx.VERTICAL`` or
+ ``wx.HORIZONTAL``.
+ """
newobj = _core_.new_StaticBoxSizer(*args, **kwargs)
self.this = newobj.this
self.thisown = 1
self._setOORInfo(self)
def GetStaticBox(*args, **kwargs):
- """GetStaticBox(self) -> wxStaticBox"""
- return _core_.StaticBoxSizer_GetStaticBox(*args, **kwargs)
-
- def RecalcSizes(*args, **kwargs):
- """RecalcSizes(self)"""
- return _core_.StaticBoxSizer_RecalcSizes(*args, **kwargs)
+ """
+ GetStaticBox(self) -> StaticBox
- def CalcMin(*args, **kwargs):
- """CalcMin(self) -> Size"""
- return _core_.StaticBoxSizer_CalcMin(*args, **kwargs)
+ Returns the static box associated with this sizer.
+ """
+ return _core_.StaticBoxSizer_GetStaticBox(*args, **kwargs)
class StaticBoxSizerPtr(StaticBoxSizer):
#---------------------------------------------------------------------------
class GridSizer(Sizer):
+ """
+ A grid sizer is a sizer which lays out its children in a
+ two-dimensional table with all cells having the same size. In other
+ words, the width of each cell within the grid is the width of the
+ widest item added to the sizer and the height of each grid cell is the
+ height of the tallest item. An optional vertical and/or horizontal
+ gap between items can also be specified (in pixels.)
+
+ Items are placed in the cells of the grid in the order they are added,
+ in row-major order. In other words, the first row is filled first,
+ then the second, and so on until all items have been added. (If
+ neccessary, additional rows will be added as items are added.) If you
+ need to have greater control over the cells that items are placed in
+ then use the `wx.GridBagSizer`.
+
+ """
def __repr__(self):
return "<%s.%s; proxy of C++ wxGridSizer instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
- """__init__(self, int rows=1, int cols=0, int vgap=0, int hgap=0) -> GridSizer"""
+ """
+ __init__(self, int rows=1, int cols=0, int vgap=0, int hgap=0) -> GridSizer
+
+ Constructor for a wx.GridSizer. *rows* and *cols* determine the number
+ of columns and rows in the sizer - if either of the parameters is
+ zero, it will be calculated to from the total number of children in
+ the sizer, thus making the sizer grow dynamically. *vgap* and *hgap*
+ define extra space between all children.
+ """
newobj = _core_.new_GridSizer(*args, **kwargs)
self.this = newobj.this
self.thisown = 1
del newobj.thisown
self._setOORInfo(self)
- def RecalcSizes(*args, **kwargs):
- """RecalcSizes(self)"""
- return _core_.GridSizer_RecalcSizes(*args, **kwargs)
-
- def CalcMin(*args, **kwargs):
- """CalcMin(self) -> Size"""
- return _core_.GridSizer_CalcMin(*args, **kwargs)
-
def SetCols(*args, **kwargs):
- """SetCols(self, int cols)"""
+ """
+ SetCols(self, int cols)
+
+ Sets the number of columns in the sizer.
+ """
return _core_.GridSizer_SetCols(*args, **kwargs)
def SetRows(*args, **kwargs):
- """SetRows(self, int rows)"""
+ """
+ SetRows(self, int rows)
+
+ Sets the number of rows in the sizer.
+ """
return _core_.GridSizer_SetRows(*args, **kwargs)
def SetVGap(*args, **kwargs):
- """SetVGap(self, int gap)"""
+ """
+ SetVGap(self, int gap)
+
+ Sets the vertical gap (in pixels) between the cells in the sizer.
+ """
return _core_.GridSizer_SetVGap(*args, **kwargs)
def SetHGap(*args, **kwargs):
- """SetHGap(self, int gap)"""
+ """
+ SetHGap(self, int gap)
+
+ Sets the horizontal gap (in pixels) between cells in the sizer
+ """
return _core_.GridSizer_SetHGap(*args, **kwargs)
def GetCols(*args, **kwargs):
- """GetCols(self) -> int"""
+ """
+ GetCols(self) -> int
+
+ Returns the number of columns in the sizer.
+ """
return _core_.GridSizer_GetCols(*args, **kwargs)
def GetRows(*args, **kwargs):
- """GetRows(self) -> int"""
+ """
+ GetRows(self) -> int
+
+ Returns the number of rows in the sizer.
+ """
return _core_.GridSizer_GetRows(*args, **kwargs)
def GetVGap(*args, **kwargs):
- """GetVGap(self) -> int"""
+ """
+ GetVGap(self) -> int
+
+ Returns the vertical gap (in pixels) between the cells in the sizer.
+ """
return _core_.GridSizer_GetVGap(*args, **kwargs)
def GetHGap(*args, **kwargs):
- """GetHGap(self) -> int"""
+ """
+ GetHGap(self) -> int
+
+ Returns the horizontal gap (in pixels) between cells in the sizer.
+ """
return _core_.GridSizer_GetHGap(*args, **kwargs)
FLEX_GROWMODE_SPECIFIED = _core_.FLEX_GROWMODE_SPECIFIED
FLEX_GROWMODE_ALL = _core_.FLEX_GROWMODE_ALL
class FlexGridSizer(GridSizer):
+ """
+ A flex grid sizer is a sizer which lays out its children in a
+ two-dimensional table with all table cells in one row having the same
+ height and all cells in one column having the same width, but all
+ rows or all columns are not necessarily the same height or width as in
+ the `wx.GridSizer`.
+
+ wx.FlexGridSizer can also size items equally in one direction but
+ unequally ("flexibly") in the other. If the sizer is only flexible
+ in one direction (this can be changed using `SetFlexibleDirection`), it
+ needs to be decided how the sizer should grow in the other ("non
+ flexible") direction in order to fill the available space. The
+ `SetNonFlexibleGrowMode` method serves this purpose.
+
+
+ """
def __repr__(self):
return "<%s.%s; proxy of C++ wxFlexGridSizer instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
- """__init__(self, int rows=1, int cols=0, int vgap=0, int hgap=0) -> FlexGridSizer"""
+ """
+ __init__(self, int rows=1, int cols=0, int vgap=0, int hgap=0) -> FlexGridSizer
+
+ Constructor for a wx.FlexGridSizer. *rows* and *cols* determine the
+ number of columns and rows in the sizer - if either of the parameters
+ is zero, it will be calculated to from the total number of children in
+ the sizer, thus making the sizer grow dynamically. *vgap* and *hgap*
+ define extra space between all children.
+ """
newobj = _core_.new_FlexGridSizer(*args, **kwargs)
self.this = newobj.this
self.thisown = 1
del newobj.thisown
self._setOORInfo(self)
- def RecalcSizes(*args, **kwargs):
- """RecalcSizes(self)"""
- return _core_.FlexGridSizer_RecalcSizes(*args, **kwargs)
+ def AddGrowableRow(*args, **kwargs):
+ """
+ AddGrowableRow(self, size_t idx, int proportion=0)
- def CalcMin(*args, **kwargs):
- """CalcMin(self) -> Size"""
- return _core_.FlexGridSizer_CalcMin(*args, **kwargs)
+ Specifies that row *idx* (starting from zero) should be grown if there
+ is extra space available to the sizer.
- def AddGrowableRow(*args, **kwargs):
- """AddGrowableRow(self, size_t idx, int proportion=0)"""
+ The *proportion* parameter has the same meaning as the stretch factor
+ for the box sizers except that if all proportions are 0, then all
+ columns are resized equally (instead of not being resized at all).
+ """
return _core_.FlexGridSizer_AddGrowableRow(*args, **kwargs)
def RemoveGrowableRow(*args, **kwargs):
- """RemoveGrowableRow(self, size_t idx)"""
+ """
+ RemoveGrowableRow(self, size_t idx)
+
+ Specifies that row *idx* is no longer growable.
+ """
return _core_.FlexGridSizer_RemoveGrowableRow(*args, **kwargs)
def AddGrowableCol(*args, **kwargs):
- """AddGrowableCol(self, size_t idx, int proportion=0)"""
+ """
+ AddGrowableCol(self, size_t idx, int proportion=0)
+
+ Specifies that column *idx* (starting from zero) should be grown if
+ there is extra space available to the sizer.
+
+ The *proportion* parameter has the same meaning as the stretch factor
+ for the box sizers except that if all proportions are 0, then all
+ columns are resized equally (instead of not being resized at all).
+ """
return _core_.FlexGridSizer_AddGrowableCol(*args, **kwargs)
def RemoveGrowableCol(*args, **kwargs):
- """RemoveGrowableCol(self, size_t idx)"""
+ """
+ RemoveGrowableCol(self, size_t idx)
+
+ Specifies that column *idx* is no longer growable.
+ """
return _core_.FlexGridSizer_RemoveGrowableCol(*args, **kwargs)
def SetFlexibleDirection(*args, **kwargs):
- """SetFlexibleDirection(self, int direction)"""
+ """
+ SetFlexibleDirection(self, int direction)
+
+ Specifies whether the sizer should flexibly resize its columns, rows,
+ or both. Argument *direction* can be one of the following values. Any
+ other value is ignored.
+
+ ============== =======================================
+ wx.VERTICAL Rows are flexibly sized.
+ wx.HORIZONTAL Columns are flexibly sized.
+ wx.BOTH Both rows and columns are flexibly sized
+ (this is the default value).
+ ============== =======================================
+
+ Note that this method does not trigger relayout.
+
+ """
return _core_.FlexGridSizer_SetFlexibleDirection(*args, **kwargs)
def GetFlexibleDirection(*args, **kwargs):
- """GetFlexibleDirection(self) -> int"""
+ """
+ GetFlexibleDirection(self) -> int
+
+ Returns a value that specifies whether the sizer
+ flexibly resizes its columns, rows, or both (default).
+
+ :see: `SetFlexibleDirection`
+ """
return _core_.FlexGridSizer_GetFlexibleDirection(*args, **kwargs)
def SetNonFlexibleGrowMode(*args, **kwargs):
- """SetNonFlexibleGrowMode(self, int mode)"""
+ """
+ SetNonFlexibleGrowMode(self, int mode)
+
+ Specifies how the sizer should grow in the non-flexible direction if
+ there is one (so `SetFlexibleDirection` must have been called
+ previously). Argument *mode* can be one of the following values:
+
+ ========================== =================================================
+ wx.FLEX_GROWMODE_NONE Sizer doesn't grow in the non flexible direction.
+ wx.FLEX_GROWMODE_SPECIFIED Sizer honors growable columns/rows set with
+ `AddGrowableCol` and `AddGrowableRow`. In this
+ case equal sizing applies to minimum sizes of
+ columns or rows (this is the default value).
+ wx.FLEX_GROWMODE_ALL Sizer equally stretches all columns or rows in
+ the non flexible direction, whether they are
+ growable or not in the flexbile direction.
+ ========================== =================================================
+
+ Note that this method does not trigger relayout.
+
+
+ """
return _core_.FlexGridSizer_SetNonFlexibleGrowMode(*args, **kwargs)
def GetNonFlexibleGrowMode(*args, **kwargs):
- """GetNonFlexibleGrowMode(self) -> int"""
+ """
+ GetNonFlexibleGrowMode(self) -> int
+
+ Returns the value that specifies how the sizer grows in the
+ non-flexible direction if there is one.
+
+ :see: `SetNonFlexibleGrowMode`
+ """
return _core_.FlexGridSizer_GetNonFlexibleGrowMode(*args, **kwargs)
def GetRowHeights(*args, **kwargs):
- """GetRowHeights(self) -> wxArrayInt"""
+ """GetRowHeights(self) -> list"""
return _core_.FlexGridSizer_GetRowHeights(*args, **kwargs)
def GetColWidths(*args, **kwargs):
- """GetColWidths(self) -> wxArrayInt"""
+ """GetColWidths(self) -> list"""
return _core_.FlexGridSizer_GetColWidths(*args, **kwargs)
#---------------------------------------------------------------------------
class GBPosition(object):
+ """
+ This class represents the position of an item in a virtual grid of
+ rows and columns managed by a `wx.GridBagSizer`. wxPython has
+ typemaps that will automatically convert from a 2-element sequence of
+ integers to a wx.GBPosition, so you can use the more pythonic
+ representation of the position nearly transparently in Python code.
+ """
def __repr__(self):
return "<%s.%s; proxy of C++ wxGBPosition instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
- """__init__(self, int row=0, int col=0) -> GBPosition"""
+ """
+ __init__(self, int row=0, int col=0) -> GBPosition
+
+ This class represents the position of an item in a virtual grid of
+ rows and columns managed by a `wx.GridBagSizer`. wxPython has
+ typemaps that will automatically convert from a 2-element sequence of
+ integers to a wx.GBPosition, so you can use the more pythonic
+ representation of the position nearly transparently in Python code.
+ """
newobj = _core_.new_GBPosition(*args, **kwargs)
self.this = newobj.this
self.thisown = 1
_core_.GBPosition_swigregister(GBPositionPtr)
class GBSpan(object):
+ """
+ This class is used to hold the row and column spanning attributes of
+ items in a `wx.GridBagSizer`. wxPython has typemaps that will
+ automatically convert from a 2-element sequence of integers to a
+ wx.GBSpan, so you can use the more pythonic representation of the span
+ nearly transparently in Python code.
+
+ """
def __repr__(self):
return "<%s.%s; proxy of C++ wxGBSpan instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
- """__init__(self, int rowspan=1, int colspan=1) -> GBSpan"""
+ """
+ __init__(self, int rowspan=1, int colspan=1) -> GBSpan
+
+ Construct a new wxGBSpan, optionally setting the rowspan and
+ colspan. The default is (1,1). (Meaning that the item occupies one
+ cell in each direction.
+ """
newobj = _core_.new_GBSpan(*args, **kwargs)
self.this = newobj.this
self.thisown = 1
_core_.GBSpan_swigregister(GBSpanPtr)
class GBSizerItem(SizerItem):
+ """
+ The wx.GBSizerItem class is used to track the additional data about
+ items in a `wx.GridBagSizer` such as the item's position in the grid
+ and how many rows or columns it spans.
+
+ """
def __repr__(self):
return "<%s.%s; proxy of C++ wxGBSizerItem instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
- """__init__(self) -> GBSizerItem"""
+ """
+ __init__(self) -> GBSizerItem
+
+ Constructs an empty wx.GBSizerItem. Either a window, sizer or spacer
+ size will need to be set, as well as a position and span before this
+ item can be used in a Sizer.
+
+ You will probably never need to create a wx.GBSizerItem directly as they
+ are created automatically when the sizer's Add method is called.
+ """
newobj = _core_.new_GBSizerItem(*args, **kwargs)
self.this = newobj.this
self.thisown = 1
del newobj.thisown
def GetPos(*args, **kwargs):
- """GetPos(self) -> GBPosition"""
+ """
+ GetPos(self) -> GBPosition
+
+ Get the grid position of the item
+ """
return _core_.GBSizerItem_GetPos(*args, **kwargs)
def GetPosTuple(self): return self.GetPos().Get()
def GetSpan(*args, **kwargs):
- """GetSpan(self) -> GBSpan"""
+ """
+ GetSpan(self) -> GBSpan
+
+ Get the row and column spanning of the item
+ """
return _core_.GBSizerItem_GetSpan(*args, **kwargs)
def GetSpanTuple(self): return self.GetSpan().Get()
def SetPos(*args, **kwargs):
- """SetPos(self, GBPosition pos) -> bool"""
+ """
+ SetPos(self, GBPosition pos) -> bool
+
+ If the item is already a member of a sizer then first ensure that
+ there is no other item that would intersect with this one at the new
+ position, then set the new position. Returns True if the change is
+ successful and after the next Layout() the item will be moved.
+ """
return _core_.GBSizerItem_SetPos(*args, **kwargs)
def SetSpan(*args, **kwargs):
- """SetSpan(self, GBSpan span) -> bool"""
+ """
+ SetSpan(self, GBSpan span) -> bool
+
+ If the item is already a member of a sizer then first ensure that
+ there is no other item that would intersect with this one with its new
+ spanning size, then set the new spanning. Returns True if the change
+ is successful and after the next Layout() the item will be resized.
+
+ """
return _core_.GBSizerItem_SetSpan(*args, **kwargs)
- def Intersects(*args):
+ def Intersects(*args, **kwargs):
"""
Intersects(self, GBSizerItem other) -> bool
- Intersects(self, GBPosition pos, GBSpan span) -> bool
+
+ Returns True if this item and the other item instersect.
+ """
+ return _core_.GBSizerItem_Intersects(*args, **kwargs)
+
+ def IntersectsPos(*args, **kwargs):
+ """
+ IntersectsPos(self, GBPosition pos, GBSpan span) -> bool
+
+ Returns True if the given pos/span would intersect with this item.
"""
- return _core_.GBSizerItem_Intersects(*args)
+ return _core_.GBSizerItem_IntersectsPos(*args, **kwargs)
def GetEndPos(*args, **kwargs):
- """GetEndPos(self, int row, int col)"""
+ """
+ GetEndPos(self) -> GBPosition
+
+ Get the row and column of the endpoint of this item.
+ """
return _core_.GBSizerItem_GetEndPos(*args, **kwargs)
def GetGBSizer(*args, **kwargs):
- """GetGBSizer(self) -> GridBagSizer"""
+ """
+ GetGBSizer(self) -> GridBagSizer
+
+ Get the sizer this item is a member of.
+ """
return _core_.GBSizerItem_GetGBSizer(*args, **kwargs)
def SetGBSizer(*args, **kwargs):
- """SetGBSizer(self, GridBagSizer sizer)"""
+ """
+ SetGBSizer(self, GridBagSizer sizer)
+
+ Set the sizer this item is a member of.
+ """
return _core_.GBSizerItem_SetGBSizer(*args, **kwargs)
def GBSizerItemWindow(*args, **kwargs):
"""
GBSizerItemWindow(Window window, GBPosition pos, GBSpan span, int flag,
- int border, Object userData) -> GBSizerItem
+ int border, PyObject userData=None) -> GBSizerItem
+
+ Construct a `wx.GBSizerItem` for a window.
"""
val = _core_.new_GBSizerItemWindow(*args, **kwargs)
val.thisown = 1
def GBSizerItemSizer(*args, **kwargs):
"""
GBSizerItemSizer(Sizer sizer, GBPosition pos, GBSpan span, int flag,
- int border, Object userData) -> GBSizerItem
+ int border, PyObject userData=None) -> GBSizerItem
+
+ Construct a `wx.GBSizerItem` for a sizer
"""
val = _core_.new_GBSizerItemSizer(*args, **kwargs)
val.thisown = 1
def GBSizerItemSpacer(*args, **kwargs):
"""
GBSizerItemSpacer(int width, int height, GBPosition pos, GBSpan span,
- int flag, int border, Object userData) -> GBSizerItem
+ int flag, int border, PyObject userData=None) -> GBSizerItem
+
+ Construct a `wx.GBSizerItem` for a spacer.
"""
val = _core_.new_GBSizerItemSpacer(*args, **kwargs)
val.thisown = 1
return val
class GridBagSizer(FlexGridSizer):
+ """
+ A `wx.Sizer` that can lay out items in a virtual grid like a
+ `wx.FlexGridSizer` but in this case explicit positioning of the items
+ is allowed using `wx.GBPosition`, and items can optionally span more
+ than one row and/or column using `wx.GBSpan`. The total size of the
+ virtual grid is determined by the largest row and column that items are
+ positioned at, adjusted for spanning.
+
+ """
def __repr__(self):
return "<%s.%s; proxy of C++ wxGridBagSizer instance at %s>" % (self.__class__.__module__, self.__class__.__name__, self.this,)
def __init__(self, *args, **kwargs):
- """__init__(self, int vgap=0, int hgap=0) -> GridBagSizer"""
+ """
+ __init__(self, int vgap=0, int hgap=0) -> GridBagSizer
+
+ Constructor, with optional parameters to specify the gap between the
+ rows and columns.
+ """
newobj = _core_.new_GridBagSizer(*args, **kwargs)
self.this = newobj.this
self.thisown = 1
del newobj.thisown
def Add(*args, **kwargs):
"""
- Add(self, PyObject item, GBPosition pos, GBSpan span=DefaultSpan,
- int flag=0, int border=0, PyObject userData=None) -> bool
+ Add(self, item, GBPosition pos, GBSpan span=DefaultSpan, int flag=0,
+ int border=0, userData=None)
+
+ Adds an item to the sizer at the grid cell *pos*, optionally spanning
+ more than one row or column as specified with *span*. The remaining
+ args behave similarly to `wx.Sizer.Add`.
+
+ Returns True if the item was successfully placed at the given cell
+ position, False if something was already there.
+
"""
return _core_.GridBagSizer_Add(*args, **kwargs)
def AddItem(*args, **kwargs):
- """AddItem(self, GBSizerItem item) -> bool"""
+ """
+ Add(self, GBSizerItem item) -> bool
+
+ Add an item to the sizer using a `wx.GBSizerItem`. Returns True if
+ the item was successfully placed at its given cell position, False if
+ something was already there.
+ """
return _core_.GridBagSizer_AddItem(*args, **kwargs)
def GetEmptyCellSize(*args, **kwargs):
- """GetEmptyCellSize(self) -> Size"""
+ """
+ GetEmptyCellSize(self) -> Size
+
+ Get the size used for cells in the grid with no item.
+ """
return _core_.GridBagSizer_GetEmptyCellSize(*args, **kwargs)
def SetEmptyCellSize(*args, **kwargs):
- """SetEmptyCellSize(self, Size sz)"""
+ """
+ SetEmptyCellSize(self, Size sz)
+
+ Set the size used for cells in the grid with no item.
+ """
return _core_.GridBagSizer_SetEmptyCellSize(*args, **kwargs)
def GetItemPosition(*args):
"""
- GetItemPosition(self, Window window) -> GBPosition
- GetItemPosition(self, Sizer sizer) -> GBPosition
- GetItemPosition(self, size_t index) -> GBPosition
+ GetItemPosition(self, item) -> GBPosition
+
+ Get the grid position of the specified *item* where *item* is either a
+ window or subsizer that is a member of this sizer, or a zero-based
+ index of an item.
"""
return _core_.GridBagSizer_GetItemPosition(*args)
def SetItemPosition(*args):
"""
- SetItemPosition(self, Window window, GBPosition pos) -> bool
- SetItemPosition(self, Sizer sizer, GBPosition pos) -> bool
- SetItemPosition(self, size_t index, GBPosition pos) -> bool
+ SetItemPosition(self, item, GBPosition pos) -> bool
+
+ Set the grid position of the specified *item* where *item* is either a
+ window or subsizer that is a member of this sizer, or a zero-based
+ index of an item. Returns True on success. If the move is not
+ allowed (because an item is already there) then False is returned.
+
"""
return _core_.GridBagSizer_SetItemPosition(*args)
def GetItemSpan(*args):
"""
- GetItemSpan(self, Window window) -> GBSpan
- GetItemSpan(self, Sizer sizer) -> GBSpan
- GetItemSpan(self, size_t index) -> GBSpan
+ GetItemSpan(self, item) -> GBSpan
+
+ Get the row/col spanning of the specified *item* where *item* is
+ either a window or subsizer that is a member of this sizer, or a
+ zero-based index of an item.
"""
return _core_.GridBagSizer_GetItemSpan(*args)
def SetItemSpan(*args):
"""
- SetItemSpan(self, Window window, GBSpan span) -> bool
- SetItemSpan(self, Sizer sizer, GBSpan span) -> bool
- SetItemSpan(self, size_t index, GBSpan span) -> bool
+ SetItemSpan(self, item, GBSpan span) -> bool
+
+ Set the row/col spanning of the specified *item* where *item* is
+ either a window or subsizer that is a member of this sizer, or a
+ zero-based index of an item. Returns True on success. If the move is
+ not allowed (because an item is already there) then False is returned.
"""
return _core_.GridBagSizer_SetItemSpan(*args)
def FindItem(*args):
"""
- FindItem(self, Window window) -> GBSizerItem
- FindItem(self, Sizer sizer) -> GBSizerItem
+ FindItem(self, item) -> GBSizerItem
+
+ Find the sizer item for the given window or subsizer, returns None if
+ not found. (non-recursive)
"""
return _core_.GridBagSizer_FindItem(*args)
def FindItemAtPosition(*args, **kwargs):
- """FindItemAtPosition(self, GBPosition pos) -> GBSizerItem"""
+ """
+ FindItemAtPosition(self, GBPosition pos) -> GBSizerItem
+
+ Return the sizer item for the given grid cell, or None if there is no
+ item at that position. (non-recursive)
+ """
return _core_.GridBagSizer_FindItemAtPosition(*args, **kwargs)
def FindItemAtPoint(*args, **kwargs):
- """FindItemAtPoint(self, Point pt) -> GBSizerItem"""
+ """
+ FindItemAtPoint(self, Point pt) -> GBSizerItem
+
+ Return the sizer item located at the point given in *pt*, or None if
+ there is no item at that point. The (x,y) coordinates in pt correspond
+ to the client coordinates of the window using the sizer for
+ layout. (non-recursive)
+ """
return _core_.GridBagSizer_FindItemAtPoint(*args, **kwargs)
- def FindItemWithData(*args, **kwargs):
- """FindItemWithData(self, Object userData) -> GBSizerItem"""
- return _core_.GridBagSizer_FindItemWithData(*args, **kwargs)
+ def CheckForIntersection(*args, **kwargs):
+ """
+ CheckForIntersection(self, GBSizerItem item, GBSizerItem excludeItem=None) -> bool
- def RecalcSizes(*args, **kwargs):
- """RecalcSizes(self)"""
- return _core_.GridBagSizer_RecalcSizes(*args, **kwargs)
+ Look at all items and see if any intersect (or would overlap) the
+ given *item*. Returns True if so, False if there would be no overlap.
+ If an *excludeItem* is given then it will not be checked for
+ intersection, for example it may be the item we are checking the
+ position of.
- def CalcMin(*args, **kwargs):
- """CalcMin(self) -> Size"""
- return _core_.GridBagSizer_CalcMin(*args, **kwargs)
+ """
+ return _core_.GridBagSizer_CheckForIntersection(*args, **kwargs)
- def CheckForIntersection(*args):
+ def CheckForIntersectionPos(*args, **kwargs):
"""
- CheckForIntersection(self, GBSizerItem item, GBSizerItem excludeItem=None) -> bool
- CheckForIntersection(self, GBPosition pos, GBSpan span, GBSizerItem excludeItem=None) -> bool
+ CheckForIntersectionPos(self, GBPosition pos, GBSpan span, GBSizerItem excludeItem=None) -> bool
+
+ Look at all items and see if any intersect (or would overlap) the
+ given position and span. Returns True if so, False if there would be
+ no overlap. If an *excludeItem* is given then it will not be checked
+ for intersection, for example it may be the item we are checking the
+ position of.
"""
- return _core_.GridBagSizer_CheckForIntersection(*args)
+ return _core_.GridBagSizer_CheckForIntersectionPos(*args, **kwargs)
class GridBagSizerPtr(GridBagSizer):
"""
Call the specified function after the current and pending event
handlers have been completed. This is also good for making GUI
- method calls from non-GUI threads.
+ method calls from non-GUI threads. Any extra positional or
+ keyword args are passed on to the callable when it is called.
+
+ :see: `wx.FutureCall`
"""
app = wx.GetApp()
assert app, 'No wxApp created yet'
A convenience class for wx.Timer, that calls the given callable
object once after the given amount of milliseconds, passing any
positional or keyword args. The return value of the callable is
- availbale after it has been run with the GetResult method.
+ availbale after it has been run with the `GetResult` method.
If you don't need to get the return value or restart the timer
then there is no need to hold a reference to this object. It will
has a reference to self.Notify) but the cycle will be broken when
the timer completes, automatically cleaning up the wx.FutureCall
object.
+
+ :see: `wx.CallAfter`
"""
def __init__(self, millis, callable, *args, **kwargs):
self.millis = millis