""" A VTK RenderWindowInteractor widget for wxPython. Note that wxPython comes with its own wxVTKRenderWindow in wxPython.lib.vtk. Try both and see which one works better for you. Find wxPython info at http://wxPython.org Created by Prabhu Ramachandran, April 2002 Based on wxVTKRenderWindow.py Fixes and updates by Charl P. Botha 2003-2005 """ """ Please see the example at the end of this file. ---------------------------------------- Creation: wxVTKRenderWindowInteractor(parent, ID, stereo=0, [wx keywords]): You should create a wxPySimpleApp() or some other wx**App before creating the window. Behaviour: Uses __getattr__ to make the wxVTKRenderWindowInteractor behave just like a vtkGenericRenderWindowInteractor. ---------------------------------------- """ # import usual libraries import math, os, sys from wxPython.wx import * import vtk # wxPython 2.4.0.4 and newer prefers the use of True and False, standard # booleans in Python 2.2 but not earlier. Here we define these values if # they don't exist so that we can use True and False in the rest of the # code. At the time of this writing, that happens exactly ONCE in # CreateTimer() try: True except NameError: True = 1 False = 0 # a few configuration items, see what works best on your system # Use wxGLCanvas as base class instead of wxWindow. # This is sometimes necessary under wxGTK or the image is blank. # (in wxWindows 2.3.1 and earlier, the GLCanvas had scroll bars) try: WX_USE_GL_CANVAS except NameError: if wxPlatform == '__WXMSW__': WX_USE_GLCANVAS = 0 else: WX_USE_GLCANVAS = 1 # Keep capturing mouse after mouse is dragged out of window # (in wxGTK 2.3.2 there is a bug that keeps this from working, # but it is only relevant in wxGTK if there are multiple windows) try: WX_USE_X_CAPTURE except NameError: if wxPlatform == '__WXMSW__': WX_USE_X_CAPTURE = 1 else: WX_USE_X_CAPTURE = 0 # end of configuration items if WX_USE_GLCANVAS: from wxPython.glcanvas import * baseClass = wxGLCanvas else: baseClass = wxWindow class EventTimer(wxTimer): def __init__(self, iren): wxTimer.__init__(self) self.iren = iren def Notify(self): self.iren.TimerEvent() class wxVTKRenderWindowInteractor(baseClass): """ A wxRenderWindow for wxPython. Use GetRenderWindow() to get the vtkRenderWindow. Create with the keyword stereo=1 in order to generate a stereo-capable window. """ # class variable that can also be used to request instances that use # stereo; this is overridden by the stereo=1/0 parameter. If you set # it to True, the NEXT instantiated object will attempt to allocate a # stereo visual. E.g.: # wxVTKRenderWindowInteractor.USE_STEREO = True # myRWI = wxVTKRenderWindowInteractor(parent, -1) USE_STEREO = False def __init__(self, parent, ID, *args, **kw): # private attributes self.__RenderWhenDisabled = 0 # First do special handling of some keywords: # stereo, position, size, width, height, style stereo = 0 if kw.has_key('stereo'): if kw['stereo']: stereo = 1 del kw['stereo'] elif self.USE_STEREO: stereo = 1 position = wxDefaultPosition if kw.has_key('position'): position = kw['position'] del kw['position'] size = wxDefaultSize if kw.has_key('size'): size = kw['size'] del kw['size'] if kw.has_key('width') and kw.has_key('height'): size = (kw['width'], kw['height']) del kw['width'] del kw['height'] # wxWANTS_CHARS says to give us e.g. TAB # wxNO_FULL_REPAINT_ON_RESIZE cuts down resize flicker under GTK style = wxWANTS_CHARS | wxNO_FULL_REPAINT_ON_RESIZE if kw.has_key('style'): style = style | kw['style'] del kw['style'] # the enclosing frame must be shown under GTK or the windows # don't connect together properly l = [] p = parent while p: # make a list of all parents l.append(p) p = p.GetParent() l.reverse() # sort list into descending order for p in l: p.Show(1) # code added by cpbotha to enable stereo correctly where the user # requests this; remember that the glXContext in this case is NOT # allocated by VTK, but by WX, hence all of this. if stereo and baseClass.__name__ == 'wxGLCanvas': # initialize GLCanvas with correct attriblist for stereo attribList = [WX_GL_RGBA, WX_GL_MIN_RED, 1, WX_GL_MIN_GREEN, 1, WX_GL_MIN_BLUE, 1, WX_GL_DEPTH_SIZE, 1, WX_GL_DOUBLEBUFFER, WX_GL_STEREO] try: baseClass.__init__(self, parent, ID, position, size, style, attribList=attribList) except wxPyAssertionError: # stereo visual couldn't be allocated, so we go back to default baseClass.__init__(self, parent, ID, position, size, style) # and make sure everyone knows about it stereo = 0 else: baseClass.__init__(self, parent, ID, position, size, style) # create the RenderWindow and initialize it self._Iren = vtk.vtkGenericRenderWindowInteractor() self._Iren.SetRenderWindow( vtk.vtkRenderWindow() ) self._Iren.AddObserver('CreateTimerEvent', self.CreateTimer) self._Iren.AddObserver('DestroyTimerEvent', self.DestroyTimer) try: self._Iren.GetRenderWindow().SetSize(size.width, size.height) except AttributeError: self._Iren.GetRenderWindow().SetSize(size[0], size[1]) if stereo: self._Iren.GetRenderWindow().StereoCapableWindowOn() self._Iren.GetRenderWindow().SetStereoTypeToCrystalEyes() self.__handle = None self._ActiveButton = 0 self.BindEvents() # with this, we can make sure that the reparenting logic in # Render() isn't called before the first OnPaint() has # successfully been run (and set up the VTK/WX display links) self.__has_painted = False def BindEvents(self): # refresh window by doing a Render EVT_PAINT(self, self.OnPaint) # turn off background erase to reduce flicker EVT_ERASE_BACKGROUND(self, lambda e: None) # Bind the events to the event converters EVT_RIGHT_DOWN(self, self.OnButtonDown) EVT_LEFT_DOWN(self, self.OnButtonDown) EVT_MIDDLE_DOWN(self, self.OnButtonDown) EVT_RIGHT_UP(self, self.OnButtonUp) EVT_LEFT_UP(self, self.OnButtonUp) EVT_MIDDLE_UP(self, self.OnButtonUp) EVT_MOUSEWHEEL(self, self.OnMouseWheel) EVT_MOTION(self, self.OnMotion) EVT_ENTER_WINDOW(self, self.OnEnter) EVT_LEAVE_WINDOW(self, self.OnLeave) # If we use EVT_KEY_DOWN instead of EVT_CHAR, capital versions # of all characters are always returned. EVT_CHAR also performs # other necessary keyboard-dependent translations. EVT_CHAR(self, self.OnKeyDown) EVT_KEY_UP(self, self.OnKeyUp) EVT_SIZE(self, self.OnSize) def __getattr__(self, attr): """Makes the object behave like a vtkGenericRenderWindowInteractor""" if attr == '__vtk__': return lambda t=self._Iren: t elif hasattr(self._Iren, attr): return getattr(self._Iren, attr) else: raise AttributeError, self.__class__.__name__ + \ " has no attribute named " + attr def CreateTimer(self, obj, evt): self._timer = EventTimer(self) self._timer.Start(10, True) def DestroyTimer(self, obj, evt): """The timer is a one shot timer so will expire automatically.""" return 1 def GetDisplayId(self): """Function to get X11 Display ID from WX and return it in a format that can be used by VTK Python. We query the X11 Display with a new call that was added in wxPython 2.6.0.1. The call returns a SWIG object which we can query for the address and subsequently turn into an old-style SWIG-mangled string representation to pass to VTK. """ d = None try: d = wxGetXDisplay() except NameError: # wxGetXDisplay was added by Robin Dunn in wxPython 2.6.0.1 # if it's not available, we can't pass it. In general, # things will still work; on some setups, it'll break. pass else: # wx returns None on platforms where wxGetXDisplay is not relevant if d: d = hex(d) # we now have 0xdeadbeef # VTK wants it as: _deadbeef_void_p (pre-SWIG-1.3 style) d = '_%s_%s' % (d[2:], 'void_p') return d def OnPaint(self,event): dc = wxPaintDC(self) # make sure the RenderWindow is sized correctly self._Iren.GetRenderWindow().SetSize(self.GetSizeTuple()) # Tell the RenderWindow to render inside the wxWindow. if not self.__handle: # on relevant platforms, set the X11 Display ID d = self.GetDisplayId() if d: self._Iren.GetRenderWindow().SetDisplayId(d) # store the handle self.__handle = self.GetHandle() # and give it to VTK self._Iren.GetRenderWindow().SetWindowInfo(str(self.__handle)) # now that we've painted once, the Render() reparenting logic # is safe self.__has_painted = True self.Render() def OnSize(self,event): try: width, height = event.GetSize() except: width = event.GetSize().width height = event.GetSize().height self._Iren.SetSize(width, height) self._Iren.ConfigureEvent() # this will check for __handle self.Render() # event processing should continue event.Skip() def OnMotion(self, event): self._Iren.SetEventInformationFlipY(event.GetX(), event.GetY(), event.ControlDown(), event.ShiftDown(), chr(0), 0, None) self._Iren.MouseMoveEvent() # event processing should continue event.Skip() def OnEnter(self,event): self._Iren.SetEventInformationFlipY(event.GetX(), event.GetY(), event.ControlDown(), event.ShiftDown(), chr(0), 0, None) self._Iren.EnterEvent() # event processing should continue event.Skip() def OnLeave(self,event): self._Iren.SetEventInformationFlipY(event.GetX(), event.GetY(), event.ControlDown(), event.ShiftDown(), chr(0), 0, None) self._Iren.LeaveEvent() # event processing should continue event.Skip() def OnButtonDown(self,event): ctrl, shift = event.ControlDown(), event.ShiftDown() self._Iren.SetEventInformationFlipY(event.GetX(), event.GetY(), ctrl, shift, chr(0), 0, None) self._ActiveButton = 0 if event.RightDown(): self._Iren.RightButtonPressEvent() self._ActiveButton = 'Right' elif event.LeftDown(): self._Iren.LeftButtonPressEvent() self._ActiveButton = 'Left' elif event.MiddleDown(): self._Iren.MiddleButtonPressEvent() self._ActiveButton = 'Middle' # save the button and capture mouse until the button is released if self._ActiveButton and WX_USE_X_CAPTURE: self.CaptureMouse() # allow wx event processing to continue # on wxPython 2.6.0.1, omitting this will cause problems with # the initial focus, resulting in the wxVTKRWI ignoring keypresses # until we focus elsewhere and then refocus the wxVTKRWI frame event.Skip() def OnButtonUp(self,event): ctrl, shift = event.ControlDown(), event.ShiftDown() self._Iren.SetEventInformationFlipY(event.GetX(), event.GetY(), ctrl, shift, chr(0), 0, None) if self._ActiveButton == 'Right': self._Iren.RightButtonReleaseEvent() elif self._ActiveButton == 'Left': self._Iren.LeftButtonReleaseEvent() elif self._ActiveButton == 'Middle': self._Iren.MiddleButtonReleaseEvent() # if the ActiveButton is realeased, then release mouse capture if self._ActiveButton and WX_USE_X_CAPTURE: self.ReleaseMouse() # event processing should continue event.Skip() def OnMouseWheel(self,event): ctrl, shift = event.ControlDown(), event.ShiftDown() self._Iren.SetEventInformationFlipY(event.GetX(), event.GetY(), ctrl, shift, chr(0), 0, None) if event.GetWheelRotation() > 0: self._Iren.MouseWheelForwardEvent() else: self._Iren.MouseWheelBackwardEvent() # event processing should continue event.Skip() def OnKeyDown(self,event): ctrl, shift = event.ControlDown(), event.ShiftDown() keycode, keysym = event.GetKeyCode(), None key = chr(0) if keycode < 256: key = chr(keycode) # wxPython 2.6.0.1 does not return a valid event.Get{X,Y}() # for this event, so we use the cached position. (x,y)= self._Iren.GetEventPosition() self._Iren.SetEventInformation(x, y, ctrl, shift, key, 0, keysym) self._Iren.KeyPressEvent() self._Iren.CharEvent() # event processing should continue event.Skip() def OnKeyUp(self,event): ctrl, shift = event.ControlDown(), event.ShiftDown() keycode, keysym = event.GetKeyCode(), None key = chr(0) if keycode < 256: key = chr(keycode) self._Iren.SetEventInformationFlipY(event.GetX(), event.GetY(), ctrl, shift, key, 0, keysym) self._Iren.KeyReleaseEvent() # event processing should continue event.Skip() def GetRenderWindow(self): return self._Iren.GetRenderWindow() def Render(self): RenderAllowed = 1 if not self.__RenderWhenDisabled: # the user doesn't want us to render when the toplevel frame # is disabled - first find the top level parent topParent = wxGetTopLevelParent(self) if topParent: # if it exists, check whether it's enabled # if it's not enabeld, RenderAllowed will be false RenderAllowed = topParent.IsEnabled() if RenderAllowed: if self.__handle and self.__handle == self.GetHandle(): self._Iren.GetRenderWindow().Render() elif self.GetHandle() and self.__has_painted: # this means the user has reparented us; let's adapt to the # new situation by doing the WindowRemap dance self._Iren.GetRenderWindow().SetNextWindowInfo( str(self.GetHandle())) # make sure the DisplayId is also set correctly d = self.GetDisplayId() if d: self._Iren.GetRenderWindow().SetDisplayId(d) # do the actual remap with the new parent information self._Iren.GetRenderWindow().WindowRemap() # store the new situation self.__handle = self.GetHandle() self._Iren.GetRenderWindow().Render() def SetRenderWhenDisabled(self, newValue): """Change value of __RenderWhenDisabled ivar. If __RenderWhenDisabled is false (the default), this widget will not call Render() on the RenderWindow if the top level frame (i.e. the containing frame) has been disabled. This prevents recursive rendering during wxSafeYield() calls. wxSafeYield() can be called during the ProgressMethod() callback of a VTK object to have progress bars and other GUI elements updated - it does this by disabling all windows (disallowing user-input to prevent re-entrancy of code) and then handling all outstanding GUI events. However, this often triggers an OnPaint() method for wxVTKRWIs, resulting in a Render(), resulting in Update() being called whilst still in progress. """ self.__RenderWhenDisabled = bool(newValue) #-------------------------------------------------------------------- def wxVTKRenderWindowInteractorConeExample(): """Like it says, just a simple example """ # every wx app needs an app app = wxPySimpleApp() # create the top-level frame, sizer and wxVTKRWI frame = wxFrame(None, -1, "wxRenderWindow", size=wxSize(400,400)) widget = wxVTKRenderWindowInteractor(frame, -1) sizer = wxBoxSizer(wxVERTICAL) sizer.Add(widget, 1, wxEXPAND) frame.SetSizer(sizer) frame.Layout() # It would be more correct (API-wise) to call widget.Initialize() and # widget.Start() here, but Initialize() calls RenderWindow.Render(). # That Render() call will get through before we can setup the # RenderWindow() to render via the wxWidgets-created context; this # causes flashing on some platforms and downright breaks things on # other platforms. Instead, we call widget.Enable(). This means # that the RWI::Initialized ivar is not set, but in THIS SPECIFIC CASE, # that doesn't matter. widget.Enable(1) widget.AddObserver("ExitEvent", lambda o,e,f=frame: f.Close()) ren = vtk.vtkRenderer() widget.GetRenderWindow().AddRenderer(ren) cone = vtk.vtkConeSource() cone.SetResolution(8) coneMapper = vtk.vtkPolyDataMapper() coneMapper.SetInput(cone.GetOutput()) coneActor = vtk.vtkActor() coneActor.SetMapper(coneMapper) ren.AddActor(coneActor) # show the window frame.Show(1) app.MainLoop() if __name__ == "__main__": wxVTKRenderWindowInteractorConeExample()