def _data_changed(self, old, new):
if has_attributes(self.data):
aa = self._assign_attribute
aa.input = new
self._update_data()
self.outputs = [aa.output]
else:
self.outputs = [self.data]
self.data_changed = True
self.output_info.datasets = \
[get_tvtk_dataset_name(self.outputs[0])]
# Add an observer to the VTK dataset after removing the one
# for the old dataset. We use the messenger to avoid an
# uncollectable reference cycle. See the
# enthought.tvtk.messenger module documentation for details.
if old is not None:
old.remove_observer(self._observer_id)
self._observer_id = new.add_observer('ModifiedEvent',
messenger.send)
new_vtk = tvtk.to_vtk(new)
messenger.connect(new_vtk, 'ModifiedEvent',
self._fire_data_changed)
# Change our name so that our label on the tree is updated.
self.name = self._get_name()
def _data_changed(self, old, new):
if has_attributes(self.data):
aa = self._assign_attribute
aa.input = new
self._update_data()
self.outputs = [aa.output]
else:
self.outputs = [self.data]
self.data_changed = True
self.output_info.datasets = \
[get_tvtk_dataset_name(self.outputs[0])]
# Add an observer to the VTK dataset after removing the one
# for the old dataset. We use the messenger to avoid an
# uncollectable reference cycle. See the
# enthought.tvtk.messenger module documentation for details.
if old is not None:
old.remove_observer(self._observer_id)
self._observer_id = new.add_observer('ModifiedEvent', messenger.send)
new_vtk = tvtk.to_vtk(new)
messenger.connect(new_vtk, 'ModifiedEvent', self._fire_data_changed)
# Change our name so that our label on the tree is updated.
self.name = self._get_name()
def test_send_on_dead_ref(self):
"""Test if sending to a gc'd callback works gracefully."""
class C:
def foo(self, o, e):
pass
c = C()
c1 = C()
messenger.connect(c1, 'foo', c.foo)
messenger.send(c1, 'foo')
# Test if things behave sanely if a message was sent and one
# of the callbacks has been gc'd.
m = messenger.Messenger()
l1 = len(m._signals[hash(c1)]['foo'])
#
del c
messenger.send(c1, 'foo')
#
l2 = len(m._signals[hash(c1)]['foo'])
# Since 'c' is gc'd this callback should have been cleared
# out.
self.assertEqual(l2, l1 - 1)
# Clean up.
messenger.disconnect(c1)
def OnPaint(self, event):
"""This method is overridden temporarily in order to create
the light manager. This is necessary because it makes sense
to create the light manager only when the widget is realized.
Only when the widget is realized is the VTK render window
created and only then are the default lights all setup
correctly. This handler is removed on the first Paint event
and the default paint handler of the
wxVTKRenderWindowInteractor is used instead."""
# Call the original handler (this will Show the widget)
self._vtk_control.OnPaint(event)
if len(self.renderer.lights) == 0:
# The renderer is not ready yet, we do not do anything, and
# we do not remove this callback, so that it will be called
# later.
return
# Now create the light manager.
self.light_manager = light_manager.LightManager(self)
renwin = self._renwin
renwin.update_traits()
vtk_rw = tvtk.to_vtk(renwin)
renwin.add_observer('StartEvent', messenger.send)
messenger.connect(vtk_rw, 'StartEvent', self._start_event_callback)
renwin.add_observer('EndEvent', messenger.send)
messenger.connect(vtk_rw, 'EndEvent', self._end_event_callback)
# Reset the event handler to the default since our job is done.
wx.EVT_PAINT(self._vtk_control, None) # Remove the default handler.
wx.EVT_PAINT(self._vtk_control, self._vtk_control.OnPaint)
def test_send_on_dead_ref(self):
"""Test if sending to a gc'd callback works gracefully."""
class C:
def foo(self, o, e):
pass
c = C()
c1 = C()
messenger.connect(c1, 'foo', c.foo)
messenger.send(c1, 'foo')
# Test if things behave sanely if a message was sent and one
# of the callbacks has been gc'd.
m = messenger.Messenger()
l1 = len(m._signals[hash(c1)]['foo'])
#
del c
messenger.send(c1, 'foo')
#
l2 = len(m._signals[hash(c1)]['foo'])
# Since 'c' is gc'd this callback should have been cleared
# out.
self.assertEqual(l2, l1 - 1)
# Clean up.
messenger.disconnect(c1)
def OnPaint(self, event):
"""This method is overridden temporarily in order to create
the light manager. This is necessary because it makes sense
to create the light manager only when the widget is realized.
Only when the widget is realized is the VTK render window
created and only then are the default lights all setup
correctly. This handler is removed on the first Paint event
and the default paint handler of the
wxVTKRenderWindowInteractor is used instead."""
# Call the original handler (this will Show the widget)
self._vtk_control.OnPaint(event)
if len(self.renderer.lights) == 0:
# The renderer is not ready yet, we do not do anything, and
# we do not remove this callback, so that it will be called
# later.
return
# Now create the light manager.
self.light_manager = light_manager.LightManager(self)
renwin = self._renwin
renwin.update_traits()
vtk_rw = tvtk.to_vtk(renwin)
renwin.add_observer('StartEvent', messenger.send)
messenger.connect(vtk_rw, 'StartEvent', self._start_event_callback)
renwin.add_observer('EndEvent', messenger.send)
messenger.connect(vtk_rw, 'EndEvent', self._end_event_callback)
# Reset the event handler to the default since our job is done.
wx.EVT_PAINT(self._vtk_control, None) # Remove the default handler.
wx.EVT_PAINT(self._vtk_control, self._vtk_control.OnPaint)
def _setup_listners(self):
object = self.object
kids = self.children_cache
for key, val in kids.items():
if isinstance(val, tvtk.Collection):
vtk_obj = tvtk.to_vtk(val)
messenger.connect(vtk_obj, "ModifiedEvent", self._notify_children)
else:
object.on_trait_change(self._notify_children, key)
def _setup_listners(self):
object = self.object
kids = self.children_cache
for key, val in kids.items():
if isinstance(val, tvtk.Collection):
vtk_obj = tvtk.to_vtk(val)
messenger.connect(vtk_obj, 'ModifiedEvent',
self._notify_children)
else:
object.on_trait_change(self._notify_children, key)
def test_catchall(self):
"""Tests if catch all handlers are called."""
b = B()
b.send()
self.assertEqual(b.a.event, 'method')
self.assertEqual(b.a.args, ())
self.assertEqual(b.a.kw, {})
self.assertEqual(b.a.did_catch_all, 0)
messenger.connect(b, 'AnyEvent', b.a.catch_all_cb)
b.send(1, test=1)
self.assertEqual(b.a.event, 'method')
self.assertEqual(b.a.args, (1, ))
self.assertEqual(b.a.kw, {'test': 1})
self.assertEqual(b.a.did_catch_all, 1)
b.a.did_catch_all = 0
messenger.disconnect(b, 'AnyEvent')
b.send(1, test=1)
self.assertEqual(b.a.did_catch_all, 0)
def test_catchall(self):
"""Tests if catch all handlers are called."""
b = B()
b.send()
self.assertEqual(b.a.event, 'method')
self.assertEqual(b.a.args, ())
self.assertEqual(b.a.kw, {})
self.assertEqual(b.a.did_catch_all, 0)
messenger.connect(b, 'AnyEvent', b.a.catch_all_cb)
b.send(1, test=1)
self.assertEqual(b.a.event, 'method')
self.assertEqual(b.a.args, (1,))
self.assertEqual(b.a.kw, {'test':1})
self.assertEqual(b.a.did_catch_all, 1)
b.a.did_catch_all = 0
messenger.disconnect(b, 'AnyEvent')
b.send(1, test=1)
self.assertEqual(b.a.did_catch_all, 0)
def _recorder_changed(self, r):
"""When the recorder is set we add an event handler so we can
record the change to the camera position after the interaction.
"""
iren = self._interactor
if r is not None:
self._script_id = r.get_script_id(self)
id = iren.add_observer('EndInteractionEvent',
messenger.send)
self._camera_observer_id = id
i_vtk = tvtk.to_vtk(iren)
messenger.connect(i_vtk, 'EndInteractionEvent',
self._record_camera_position)
else:
self._script_id = ''
iren.remove_observer(self._camera_observer_id)
i_vtk = tvtk.to_vtk(iren)
messenger.disconnect(i_vtk, 'EndInteractionEvent',
self._record_camera_position)
def paintEvent(self, e):
""" Reimplemented to create the light manager only when needed. This
is necessary because it makes sense to create the light manager only
when the widget is realized. Only when the widget is realized is the
VTK render window created and only then are the default lights all
setup correctly.
"""
QVTKRenderWindowInteractor.paintEvent(self, e)
scene = self._scene
if scene.light_manager is None:
scene.light_manager = light_manager.LightManager(scene)
renwin = scene._renwin
renwin.update_traits()
vtk_rw = tvtk.to_vtk(renwin)
renwin.add_observer('StartEvent', messenger.send)
messenger.connect(vtk_rw, 'StartEvent', self._start_event_callback)
renwin.add_observer('EndEvent', messenger.send)
messenger.connect(vtk_rw, 'EndEvent', self._end_event_callback)
def __init__(self, parent=None, wflags=QtCore.Qt.WindowFlags(), **kw):
# the current button
self._ActiveButton = QtCore.Qt.NoButton
# private attributes
self.__oldFocus = None
self.__saveX = 0
self.__saveY = 0
self.__saveModifiers = QtCore.Qt.NoModifier
self.__saveButtons = QtCore.Qt.NoButton
# do special handling of some keywords:
# stereo, rw
stereo = 0
if kw.has_key('stereo'):
if kw['stereo']:
stereo = 1
rw = None
if kw.has_key('rw'):
rw = kw['rw']
# create qt-level widget
QtGui.QWidget.__init__(self, parent, wflags|QtCore.Qt.MSWindowsOwnDC)
if rw: # user-supplied render window
self._RenderWindow = rw
else:
self._RenderWindow = vtk.vtkRenderWindow()
self._RenderWindow.SetWindowInfo(str(int(self.winId())))
self._should_set_parent_info = (sys.platform == 'win32')
if stereo: # stereo mode
self._RenderWindow.StereoCapableWindowOn()
self._RenderWindow.SetStereoTypeToCrystalEyes()
self._Iren = vtk.vtkGenericRenderWindowInteractor()
self._Iren.SetRenderWindow(self._RenderWindow)
# do all the necessary qt setup
self.setAttribute(QtCore.Qt.WA_OpaquePaintEvent)
self.setAttribute(QtCore.Qt.WA_PaintOnScreen)
self.setMouseTracking(True) # get all mouse events
self.setFocusPolicy(QtCore.Qt.WheelFocus)
self.setSizePolicy(QtGui.QSizePolicy(QtGui.QSizePolicy.Expanding, QtGui.QSizePolicy.Expanding))
self._Timer = QtCore.QTimer(self)
self.connect(self._Timer, QtCore.SIGNAL('timeout()'), self.TimerEvent)
self._Iren.AddObserver('CreateTimerEvent', messenger.send)
messenger.connect(self._Iren, 'CreateTimerEvent', self.CreateTimer)
self._Iren.AddObserver('DestroyTimerEvent', messenger.send)
messenger.connect(self._Iren, 'DestroyTimerEvent', self.DestroyTimer)
render_window = self._Iren.GetRenderWindow()
render_window.AddObserver('CursorChangedEvent', messenger.send)
messenger.connect(render_window, 'CursorChangedEvent', self.CursorChangedEvent)
def __init__(self, parent=None, wflags=QtCore.Qt.WindowFlags(), **kw):
# the current button
self._ActiveButton = QtCore.Qt.NoButton
# private attributes
self.__oldFocus = None
self.__saveX = 0
self.__saveY = 0
self.__saveModifiers = QtCore.Qt.NoModifier
self.__saveButtons = QtCore.Qt.NoButton
# do special handling of some keywords:
# stereo, rw
stereo = 0
if kw.has_key('stereo'):
if kw['stereo']:
stereo = 1
rw = None
if kw.has_key('rw'):
rw = kw['rw']
# create qt-level widget
QtGui.QWidget.__init__(self, parent, wflags | QtCore.Qt.MSWindowsOwnDC)
if rw: # user-supplied render window
self._RenderWindow = rw
else:
self._RenderWindow = vtk.vtkRenderWindow()
self._RenderWindow.SetWindowInfo(str(int(self.winId())))
self._should_set_parent_info = (sys.platform == 'win32')
if stereo: # stereo mode
self._RenderWindow.StereoCapableWindowOn()
self._RenderWindow.SetStereoTypeToCrystalEyes()
self._Iren = vtk.vtkGenericRenderWindowInteractor()
self._Iren.SetRenderWindow(self._RenderWindow)
# do all the necessary qt setup
self.setAttribute(QtCore.Qt.WA_OpaquePaintEvent)
self.setAttribute(QtCore.Qt.WA_PaintOnScreen)
self.setMouseTracking(True) # get all mouse events
self.setFocusPolicy(QtCore.Qt.WheelFocus)
self.setSizePolicy(
QtGui.QSizePolicy(QtGui.QSizePolicy.Expanding,
QtGui.QSizePolicy.Expanding))
self._Timer = QtCore.QTimer(self)
self.connect(self._Timer, QtCore.SIGNAL('timeout()'), self.TimerEvent)
self._Iren.AddObserver('CreateTimerEvent', messenger.send)
messenger.connect(self._Iren, 'CreateTimerEvent', self.CreateTimer)
self._Iren.AddObserver('DestroyTimerEvent', messenger.send)
messenger.connect(self._Iren, 'DestroyTimerEvent', self.DestroyTimer)
render_window = self._Iren.GetRenderWindow()
render_window.AddObserver('CursorChangedEvent', messenger.send)
messenger.connect(render_window, 'CursorChangedEvent',
self.CursorChangedEvent)
def __init__(self):
self.a = A()
messenger.connect(self, 'method', self.a.callback)
messenger.connect(self, 'function', callback)
def __init__(self):
self.a = A()
messenger.connect(self, 'method', self.a.callback)
messenger.connect(self, 'function', callback)
