本文整理汇总了Python中vispy.util.event.EmitterGroup类的典型用法代码示例。如果您正苦于以下问题:Python EmitterGroup类的具体用法?Python EmitterGroup怎么用?Python EmitterGroup使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
在下文中一共展示了EmitterGroup类的12个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: test_add_custom_emitter
def test_add_custom_emitter(self):
class Emitter(EventEmitter):
def _prepare_event(self, *args, **kwds):
ev = super(Emitter, self)._prepare_event(*args, **kwds)
ev.test_key = 1
return ev
class Source:
pass
src = Source()
grp = EmitterGroup(source=src, em1=Emitter(type='test_event1'))
grp.em1.connect(self.record_event)
self.result = None
ev = grp.em1()
self.assert_result(
event=ev,
test_key=1,
type='test_event1',
source=src)
grp.add(em2=Emitter(type='test_event2'))
grp.em2.connect(self.record_event)
self.result = None
ev = grp.em2()
self.assert_result(
event=ev,
test_key=1,
type='test_event2',
source=src)示例2: Config
class Config(object):
""" Container for global settings used application-wide in vispy.
Events:
-------
Config.events.changed - Emits ConfigEvent whenever the configuration changes.
"""
def __init__(self):
self.events = EmitterGroup(source=self)
self.events['changed'] = EventEmitter(event_class=ConfigEvent, source=self)
self._config = {}
def __getitem__(self, item):
return self._config[item]
def __setitem__(self, item, val):
self._config[item] = val
# inform any listeners that a configuration option has changed
self.events.changed(changes={item:val})
def update(self, **kwds):
self._config.update(kwds)
self.events.changed(changes=kwds)
def __repr__(self):
return repr(self._config)示例3: test_group_connect
def test_group_connect(self):
grp = EmitterGroup(source=self, em1=Event)
grp.connect(self.record_event)
self.result = None
ev = grp.em1(test_key=1)
self.assert_result(
event=ev,
source=self,
sources=[
self,
self],
test_key=1)示例4: test_group_construction
def test_group_construction(self):
"""EmitterGroup basic construction"""
grp = EmitterGroup(em1=Event, em2=BasicEvent, em3=TypedEvent)
grp.em1.connect(self.record_event)
grp.em2.connect(self.record_event)
grp.em3.connect(self.record_event)
self.result = None
ev = grp.em1()
self.assert_result(event=ev, type="em1", event_class=Event)
ev = grp.em2()
self.assert_result(event=ev, type="em2", event_class=BasicEvent)
ev = grp.em3()
self.assert_result(event=ev, type="typed_event", event_class=TypedEvent)示例5: test_group_disconnect
def test_group_disconnect(self):
"""EmitterGroup.disconnect"""
grp = EmitterGroup(em1=Event)
assert len(grp.em1.callbacks) == 0, grp.em1.callbacks
grp.connect(self.record_event)
assert len(grp.em1.callbacks) == 1
grp.add(em2=Event)
assert len(grp.em2.callbacks) == 1
grp.disconnect()
assert len(grp.em1.callbacks) == 0
assert len(grp.em2.callbacks) == 0示例6: test_group_ignore
def test_group_ignore(self):
"""EmitterGroup.block_all"""
grp = EmitterGroup(em1=Event)
grp.em1.connect(self.error_event)
with use_log_level("warning", record=True, print_msg=False) as l:
grp.em1()
assert_true(len(l) >= 1)
grp.ignore_callback_errors = False
assert_raises(RuntimeError, grp.em1)
grp.ignore_callback_errors = True
with use_log_level("warning", record=True, print_msg=False) as l:
grp.em1()
assert_true(len(l) >= 1)示例7: __init__
def __init__(self, interval=0.0, connect=None, iterations=-1, start=False, app=None):
self.events = EmitterGroup(source=self,
start=Event,
stop=Event,
timeout=Event)
#self.connect = self.events.timeout.connect
#self.disconnect = self.events.timeout.disconnect
# Get app instance and make sure that it has an associated backend
self._app = vispy.app.default_app if app is None else app
self._app.use()
# Instantiate the backed with the right class
self._backend = self._app.backend_module.TimerBackend(self)
self._interval = interval
self._running = False
self._last_emit_time = None
self.iter_count = 0
self.max_iterations = iterations
if connect is not None:
self.connect(connect)
if start:
self.start()示例8: __init__
def __init__(self):
self.events = EmitterGroup(source=self)
self.events['changed'] = EventEmitter(event_class=ConfigEvent, source=self)
self._config = {}示例9: test_group_block
def test_group_block(self):
"""EmitterGroup.block_all"""
grp = EmitterGroup(em1=Event, em2=Event)
def cb(ev):
self.result = 1
grp.em1.connect(self.record_event)
grp.em2.connect(self.record_event)
grp.connect(cb)
self.result = None
grp.block_all()
try:
grp.em1()
grp.em2()
grp(type='test_event')
finally:
grp.unblock_all()
assert self.result is None示例10: test_group_add_emitter
def test_group_add_emitter(self):
"""EmitterGroup.add"""
grp = EmitterGroup(em1=Event)
grp.em1.connect(self.record_event)
self.result = None
ev = grp.em1()
self.assert_result(event=ev, type='em1')
grp.add(em2=BasicEvent)
grp.em2.connect(self.record_event)
ev = grp.em2()
self.assert_result(event=ev, type='em2', event_class=BasicEvent)
grp.add(em3=TypedEvent)
grp.em3.connect(self.record_event)
ev = grp.em3(test_key=2)
self.assert_result(
event=ev,
type='typed_event',
event_class=TypedEvent,
test_key=2)
try:
grp.add(em3=Event)
assert False, "Double-added emitter"
except ValueError:
pass
try:
grp.add(add=Event)
assert False, "Added event with invalid name"
except ValueError:
pass示例11: test_group_autoconnect
def test_group_autoconnect(self):
"""EmitterGroup auto-connect"""
class Source:
def on_em1(self, ev):
self.result = 1
def em2_event(self, ev):
self.result = 2
def em3_event(self, ev):
self.result = 3
src = Source()
grp = EmitterGroup(source=src, em1=Event, auto_connect=False)
src.result = None
grp.em1()
assert src.result is None
grp = EmitterGroup(source=src, em1=Event, auto_connect=True)
src.result = None
grp.em1()
assert src.result == 1
grp.auto_connect_format = "%s_event"
grp.add(em2=Event)
src.result = None
grp.em2()
assert src.result == 2
grp.add(em3=Event, auto_connect=False)
src.result = None
grp.em3()
assert src.result is None示例12: Timer
class Timer(object):
"""Timer used to schedule events in the future or on a repeating schedule.
"""
def __init__(self, interval=0.0, connect=None, iterations=-1, start=False, app=None):
self.events = EmitterGroup(source=self,
start=Event,
stop=Event,
timeout=Event)
#self.connect = self.events.timeout.connect
#self.disconnect = self.events.timeout.disconnect
# Get app instance and make sure that it has an associated backend
self._app = vispy.app.default_app if app is None else app
self._app.use()
# Instantiate the backed with the right class
self._backend = self._app.backend_module.TimerBackend(self)
self._interval = interval
self._running = False
self._last_emit_time = None
self.iter_count = 0
self.max_iterations = iterations
if connect is not None:
self.connect(connect)
if start:
self.start()
@property
def app(self):
""" The vispy Application instance on which this Timer is based.
"""
return self._app
@property
def interval(self):
return self._interval
@interval.setter
def interval(self, val):
self._interval = val
if self.running:
self.stop()
self.start()
@property
def running(self):
return self._running
def start(self, interval=None, iterations=None):
"""Start the timer.
A timeout event will be generated every *interval* seconds.
If *interval* is None, then self.interval will be used.
If *iterations* is specified, the timer will stop after
emitting that number of events. If unspecified, then
the previous value of self.iterations will be used. If the value is
negative, then the timer will continue running until stop() is called.
"""
self.iter_count = 0
if interval is not None:
self.interval = interval
if iterations is not None:
self.max_iterations = iterations
self._backend._vispy_start(self.interval)
self._running = True
self._last_emit_time = None
self.events.start(type='timer_start')
def stop(self):
"""Stop the timer."""
self._backend._vispy_stop()
self._running = False
self.events.stop(type='timer_stop')
# use timer.app.run() and .quit() instead.
#def run_event_loop(self):
#"""Execute the event loop for this Timer's backend.
#"""
#return self._backend._vispy_run()
#def quit_event_loop(self):
#"""Exit the event loop for this Timer's backend.
#"""
#return self._backend._vispy_quit()
@property
def native(self):
""" The native timer on which this Timer is based.
"""
return self._backend._vispy_get_native_timer()
def _timeout(self, *args):
# called when the backend timer has triggered.
if not self.running:
return
#.........这里部分代码省略.........