def test_mutabledisposable_replacebeforedispose():
disp1 = False
disp2 = False
m = SerialDisposable()
def action1():
nonlocal disp1
disp1 = True
d1 = Disposable(action1)
m.disposable = d1
assert d1 == m.disposable
assert not disp1
def action2():
nonlocal disp2
disp2 = True
d2 = Disposable(action2)
m.disposable = d2
assert d2 == m.disposable
assert disp1
assert not disp2
def test_groupdisposable_clear():
disp1 = [False]
disp2 = [False]
def action1():
disp1[0] = True
d1 = Disposable(action1)
def action2():
disp2[0] = True
d2 = Disposable(action2)
g = CompositeDisposable(d1, d2)
assert g.length == 2
g.clear()
assert disp1[0]
assert disp2[0]
assert not g.length
disp3 = [False]
def action3():
disp3[0] = True
d3 = Disposable(action3)
g.add(d3)
assert not disp3[0]
assert g.length == 1
def test_mutabledisposable_replaceafterdispose():
disp1 = False
disp2 = False
m = SerialDisposable()
m.dispose()
def action1():
nonlocal disp1
disp1 = True
d1 = Disposable(action1)
m.disposable = d1
assert m.disposable == None
assert disp1
def action2():
nonlocal disp2
disp2 = True
d2 = Disposable(action2)
m.disposable = d2
m.disposable == None
assert disp2
def test_groupdisposable_clear():
disp1 = False
disp2 = False
def action1():
nonlocal disp1
disp1 = True
d1 = Disposable(action1)
def action2():
nonlocal disp2
disp2 = True
d2 = Disposable(action2)
g = CompositeDisposable(d1, d2)
assert g.length == 2
g.clear()
assert disp1
assert disp2
assert not g.length
disp3 = False
def action3():
nonlocal disp3
disp3 = True
d3 = Disposable(action3)
g.add(d3)
assert not disp3
assert g.length == 1
def subscribe(observer):
enum = iter(sources)
is_disposed = [False]
subscription = SerialDisposable()
def action(action1, state=None):
if is_disposed[0]:
return
try:
current = next(enum)
except StopIteration:
observer.on_completed()
except Exception as ex:
observer.on_error(ex)
else:
d = SingleAssignmentDisposable()
subscription.disposable = d
d.disposable = current.subscribe(observer.on_next,
observer.on_error,
lambda: action1())
cancelable = immediate_scheduler.schedule_recursive(action)
def dispose():
is_disposed[0] = True
return CompositeDisposable(subscription, cancelable,
Disposable(dispose))
def schedule_periodic(self, period, action, state=None):
"""Schedules a periodic piece of work by dynamically discovering the
schedulers capabilities.
Keyword arguments:
period -- Period for running the work periodically.
action -- Action to be executed.
state -- [Optional] Initial state passed to the action upon the first
iteration.
Returns the disposable object used to cancel the scheduled recurring
action (best effort)."""
period /= 1000.0
timer = [None]
s = [state]
def interval():
new_state = action(s[0])
if new_state is not None: # Update state if other than None
s[0] = new_state
timer[0] = Timer(period, interval)
timer[0].start()
timer[0] = Timer(period, interval)
timer[0].start()
def dispose():
timer[0].cancel()
return Disposable(dispose)
def schedule_relative(self, duetime, action, state=None):
"""Schedules an action to be executed after duetime.
Keyword arguments:
duetime -- {timedelta} Relative time after which to execute the action.
action -- {Function} Action to be executed.
Returns {Disposable} The disposable object used to cancel the scheduled
action (best effort)."""
scheduler = self
seconds = self.to_relative(duetime) / 1000.0
disposable = SingleAssignmentDisposable()
def interval():
disposable.disposable = action(scheduler, state)
log.debug("timeout: %s", seconds)
handle = [self.reactor.callLater(seconds, interval)]
def dispose():
handle[0].cancel()
return CompositeDisposable(disposable, Disposable(dispose))
def schedule_periodic(self, period, action, state=None):
"""Schedules an action to be executed periodically.
Keyword arguments:
period -- Period for running the work periodically.
action -- {Function} Action to be executed.
state -- [Optional] Initial state passed to the action upon the first
iteration.
Returns {Disposable} The disposable object used to cancel the scheduled
action (best effort)."""
scheduler = self
seconds = self.to_relative(period) / 1000.0
if seconds == 0:
return scheduler.schedule(action, state)
disposable = SingleAssignmentDisposable()
def interval():
disposable.disposable = action(state)
scheduler.schedule_periodic(period, action, state)
handle = [self.loop.call_later(seconds, interval)]
def dispose():
# nonlocal handle
handle[0].cancel()
return CompositeDisposable(disposable, Disposable(dispose))
def schedule_periodic(self, period, action, state=None):
"""Schedules a periodic piece of work to be executed in the tkinter
mainloop.
Keyword arguments:
period -- Period in milliseconds for running the work periodically.
action -- Action to be executed.
state -- [Optional] Initial state passed to the action upon the first
iteration.
Returns the disposable object used to cancel the scheduled recurring
action (best effort)."""
state = [state]
def interval():
state[0] = action(state[0])
alarm[0] = self.master.after(period, interval)
log.debug("timeout: %s", period)
alarm = [self.master.after(period, interval)]
def dispose():
# nonlocal alarm
self.master.after_cancel(alarm[0])
return Disposable(dispose)
def _subscribe(self, observer):
clock = self.scheduler.to_relative(self.scheduler.now())
self.subscriptions.append(Subscription(clock))
index = len(self.subscriptions) - 1
disposable = CompositeDisposable()
def get_action(notification):
def action(scheduler, state):
notification.accept(observer)
return Disposable.empty()
return action
for message in self.messages:
notification = message.value
# Don't make closures within a loop
action = get_action(notification)
disposable.add(
self.scheduler.schedule_relative(message.time, action))
def dispose():
start = self.subscriptions[index].subscribe
end = self.scheduler.to_relative(self.scheduler.now())
self.subscriptions[index] = Subscription(start, end)
disposable.dispose()
return Disposable(dispose)
def _qtimer_schedule(self, time, action, state, periodic=False):
scheduler = self
msecs = self.to_relative(time)
disposable = SingleAssignmentDisposable()
periodic_state = [state]
def interval():
if periodic:
periodic_state[0] = action(periodic_state[0])
else:
disposable.disposable = action(scheduler, state)
log.debug("timeout: %s", msecs)
timer = self.qtcore.QTimer()
timer.setSingleShot(not periodic)
timer.timeout.connect(interval)
timer.setInterval(msecs)
timer.start()
self._timers.add(timer)
def dispose():
timer.stop()
self._timers.remove(timer)
return CompositeDisposable(disposable, Disposable(dispose))
def schedule_relative(self, duetime, action, state=None):
"""Schedules an action to be executed after duetime.
Keyword arguments:
duetime -- {timedelta} Relative time after which to execute the action.
action -- {Function} Action to be executed.
Returns {Disposable} The disposable object used to cancel the scheduled
action (best effort)."""
scheduler = self
msecs = self.to_relative(duetime)
if msecs == 0:
return scheduler.schedule(action, state)
disposable = SingleAssignmentDisposable()
def interval():
disposable.disposable = action(scheduler, state)
log.debug("timeout: %s", msecs)
alarm = self.master.after(msecs, interval)
def dispose():
# nonlocal alarm
self.master.after_cancel(alarm)
return CompositeDisposable(disposable, Disposable(dispose))
def schedule_periodic(self, period, action, state=None):
"""Schedules a periodic piece of work by dynamically discovering the
scheduler's capabilities.
Keyword parameters:
period -- Period for running the work periodically.
action -- Action to be executed.
state -- [Optional] Initial state passed to the action upon the first
iteration.
Returns the disposable object used to cancel the scheduled recurring
action (best effort).
"""
period /= 1000.0
timer = None
s = state
def interval():
nonlocal timer, s
s = action(s)
timer = Timer(period, interval)
timer.start()
timer = Timer(period, interval)
timer.start()
def dispose():
timer.cancel()
return Disposable(dispose)
def _wxtimer_schedule(self, time, action, state, periodic=False):
scheduler = self
msecs = self.to_relative(time)
disposable = SingleAssignmentDisposable()
periodic_state = [state]
def interval():
if periodic:
periodic_state[0] = action(periodic_state[0])
else:
disposable.disposable = action(scheduler, state)
log.debug("timeout: %s", msecs)
if msecs == 0:
msecs = 1 # wx.Timer doesn't support zero.
timer = self._timer_class(interval)
timer.Start(
msecs,
self.wx.TIMER_CONTINUOUS if periodic else self.wx.TIMER_ONE_SHOT)
self._timers.add(timer)
def dispose():
timer.Stop()
self._timers.remove(timer)
return CompositeDisposable(disposable, Disposable(dispose))
def schedule_periodic(self, period, action, state=None):
"""Schedules a periodic piece of work by dynamically discovering the
schedulers capabilities.
Keyword arguments:
period -- Period for running the work periodically.
action -- Action to be executed.
state -- [Optional] Initial state passed to the action upon the first
iteration.
Returns the disposable object used to cancel the scheduled recurring
action (best effort)."""
scheduler = self
seconds = self.to_relative(period) / 1000.0
if not seconds:
return scheduler.schedule(action, state)
disposable = SingleAssignmentDisposable()
def interval():
disposable.disposable = action(scheduler, state)
scheduler.schedule_periodic(period, action, state)
log.debug("timeout: %s", seconds)
timer = [eventlet.spawn_after(seconds, interval)]
def dispose():
timer[0].kill()
return CompositeDisposable(disposable, Disposable(dispose))
def fix_subscriber(subscriber):
"""Fixes subscriber to make sure it returns a Disposable instead
of None or a dispose function"""
if not hasattr(subscriber, "dispose"):
subscriber = Disposable(subscriber)
return subscriber
def test_anonymousdisposable_dispose():
disposed = [False]
def action():
disposed[0] = True
d = Disposable(action)
assert not disposed[0]
d.dispose()
assert disposed[0]
def test_anonymousdisposable_dispose():
disposed = False
def action():
nonlocal disposed
disposed = True
d = Disposable(action)
assert not disposed
d.dispose()
assert disposed
def test_groupdisposable_remove():
disp1 = False
disp2 = False
def action1():
nonlocal disp1
disp1 = True
d1 = Disposable(action1)
def action2():
nonlocal disp2
disp2 = True
d2 = Disposable(action2)
g = CompositeDisposable(d1, d2)
assert g.length == 2
assert g.contains(d1)
assert g.contains(d2)
assert g.remove(d1)
assert g.length == 1
assert not g.contains(d1)
assert g.contains(d2)
assert disp1
assert g.remove(d2)
assert not g.contains(d1)
assert not g.contains(d2)
assert disp2
disp3 = False
def action3():
nonlocal disp3
disp3 = True
d3 = Disposable(action3)
assert not g.remove(d3)
assert not disp3
def test_groupdisposable_addafterdispose():
disp1 = [False]
disp2 = [False]
def action1():
disp1[0] = True
d1 = Disposable(action1)
def action2():
disp2[0] = True
d2 = Disposable(action2)
g = CompositeDisposable(d1)
assert g.length == 1
g.dispose()
assert disp1[0]
assert g.length == 0
g.add(d2)
assert disp2[0]
assert g.length == 0
def schedule(self, action, state=None):
"""Schedules an action to be executed."""
if self.is_disposed:
raise DisposedException()
si = ScheduledItem(self, state, action, None)
with self.condition:
self.ready_list.append(si)
self.condition.notify() # signal that a new item is available
self.ensure_thread()
return Disposable(si.cancel)
def test_mutabledisposable_replacebeforedispose():
disp1 = [False]
disp2 = [False]
m = SerialDisposable()
def action1():
disp1[0] = True
d1 = Disposable(action1)
m.disposable = d1
assert d1 == m.disposable
assert not disp1[0]
def action2():
disp2[0] = True
d2 = Disposable(action2)
m.disposable = d2
assert d2 == m.disposable
assert disp1[0]
assert not disp2[0]
def test_mutabledisposable_replaceafterdispose():
disp1 = [False]
disp2 = [False]
m = SerialDisposable()
m.dispose()
def action1():
disp1[0] = True
d1 = Disposable(action1)
m.disposable = d1
assert m.disposable == None
assert disp1[0]
def action2():
disp2[0] = True
d2 = Disposable(action2)
m.disposable = d2
assert m.disposable == None
assert disp2[0]
def subscribe(observer):
try:
subscription = source.subscribe(observer)
except Exception as ex:
action()
raise
def dispose():
try:
subscription.dispose()
finally:
action()
return Disposable(dispose)
def test_groupdisposable_remove():
disp1 = [False]
disp2 = [False]
def action1():
disp1[0] = True
d1 = Disposable(action1)
def action2():
disp2[0] = True
d2 = Disposable(action2)
g = CompositeDisposable(d1, d2)
assert g.length == 2
assert g.contains(d1)
assert g.contains(d2)
assert g.remove(d1)
assert g.length == 1
assert not g.contains(d1)
assert g.contains(d2)
assert disp1[0]
assert g.remove(d2)
assert not g.contains(d1)
assert not g.contains(d2)
assert disp2[0]
disp3 = [False]
def action3():
disp3[0] = True
d3 = Disposable(action3)
assert not g.remove(d3)
assert not disp3[0]
def test_mutabledisposable_dispose():
disp = [False]
m = SerialDisposable()
def action():
disp[0] = True
d = Disposable(action)
m.disposable = d
assert d == m.disposable
assert not disp[0]
m.dispose()
assert disp[0]
assert m.disposable == None
def schedule(self, action, state=None):
"""Schedules an action to be executed."""
scheduler = self
disposable = SingleAssignmentDisposable()
def interval():
disposable.disposable = action(scheduler, state)
timer = [eventlet.spawn(interval)]
def dispose():
timer[0].kill()
return CompositeDisposable(disposable, Disposable(dispose))
def test_groupdisposable_addafterdispose():
disp1 = False
disp2 = False
def action1():
nonlocal disp1
disp1 = True
d1 = Disposable(action1)
def action2():
nonlocal disp2
disp2 = True
d2 = Disposable(action2)
g = CompositeDisposable(d1)
assert g.length == 1
g.dispose()
assert disp1
assert g.length == 0
g.add(d2)
assert disp2
assert g.length == 0
def schedule(self, action, state=None):
"""Schedules an action to be executed."""
scheduler = self
disposable = SingleAssignmentDisposable()
def interval():
disposable.disposable = action(scheduler, state)
handle = [self.loop.call_soon(interval)]
def dispose():
# nonlocal handle
handle[0].cancel()
return CompositeDisposable(disposable, Disposable(dispose))
def test_mutabledisposable_dispose():
disp = False
m = SerialDisposable()
def action():
nonlocal disp
disp = True
d = Disposable(action)
m.disposable = d
assert d == m.disposable
assert not disp
m.dispose()
assert disp
assert m.disposable == None
