def test_pyside2_schedule_periodic_cancel(self, app):

        scheduler = QtScheduler(QtCore)
        gate = threading.Semaphore(0)
        period = 0.05
        counter = 3

        def action(state):
            nonlocal counter
            if state:
                counter -= 1
                return state - 1

        disp = scheduler.schedule_periodic(period, action, counter)

        def dispose():
            disp.dispose()

        QtCore.QTimer.singleShot(100, dispose)

        def done():
            app.quit()
            gate.release()

        QtCore.QTimer.singleShot(300, done)
        app.exec_()

        gate.acquire()
        assert 0 < counter < 3
Exemplo n.º 2
0
def main():
    app = QApplication(sys.argv)
    scheduler = QtScheduler(QtCore)

    window = Window()
    window.show()

    text = 'TIME FLIES LIKE AN ARROW'

    def on_next(info):
        label, (x, y), i = info
        label.move(x + i * 12 + 15, y)
        label.show()

    def handle_label(label, i):
        delayer = ops.delay(i * 0.100)
        mapper = ops.map(lambda xy: (label, xy, i))

        return window.mousemove.pipe(
            delayer,
            mapper,
        )

    labeler = ops.flat_map_indexed(handle_label)
    mapper = ops.map(lambda c: QLabel(c, window))

    rx.from_(text).pipe(
        mapper,
        labeler,
    ).subscribe(on_next, on_error=print, scheduler=scheduler)

    sys.exit(app.exec_())
Exemplo n.º 3
0
 def __init__(self, protocol):
     # See comment in players.py.
     self._aio_scheduler = QtScheduler(QtCore)
     messages = protocol.register("game_info")
     self.new = messages.pipe(
         ops.flat_map(self._split_game_info),
         ops.observe_on(self._aio_scheduler),
         ops.flat_map(self._process_game),
         ops.observe_on(ImmediateScheduler()),
         ops.filter(lambda x: x is not None),
     )
    def test_pyside2_schedule_action(self, app):

        scheduler = QtScheduler(QtCore)
        gate = threading.Semaphore(0)
        ran = False

        def action(scheduler, state):
            nonlocal ran
            ran = True

        scheduler.schedule(action)

        def done():
            app.quit()
            gate.release()

        QtCore.QTimer.singleShot(50, done)
        app.exec_()

        gate.acquire()
        assert ran is True
    def test_pyside2_schedule_action_cancel(self, app):

        ran = False
        scheduler = QtScheduler(QtCore)
        gate = threading.Semaphore(0)

        def action(scheduler, state):
            nonlocal ran
            ran = True

        d = scheduler.schedule_relative(0.1, action)
        d.dispose()

        def done():
            app.quit()
            gate.release()

        QtCore.QTimer.singleShot(300, done)
        app.exec_()

        gate.acquire()
        assert ran is False
    def test_pyside2_schedule_action_due_absolute(self, app):

        scheduler = QtScheduler(QtCore)
        gate = threading.Semaphore(0)
        starttime = default_now()
        endtime = None

        def action(scheduler, state):
            nonlocal endtime
            endtime = default_now()

        scheduler.schedule_absolute(starttime + timedelta(seconds=0.2), action)

        def done():
            app.quit()
            gate.release()

        QtCore.QTimer.singleShot(300, done)
        app.exec_()

        gate.acquire()
        assert endtime is not None
        diff = endtime - starttime
        assert diff > timedelta(milliseconds=180)
    def test_pyqt5_schedule_action_periodic(self, app):

        scheduler = QtScheduler(QtCore)
        gate = threading.Semaphore(0)
        period = 0.050
        counter = 3

        def action(state):
            nonlocal counter
            if state:
                counter -= 1
                return state - 1

        scheduler.schedule_periodic(period, action, counter)

        def done():
            app.quit()
            gate.release()

        QtCore.QTimer.singleShot(300, done)
        app.exec_()

        gate.acquire()
        assert counter == 0
Exemplo n.º 8
0
 def __init__(self, protocol):
     # We use this scheduler so that we don't handle all player messages at
     # the same time at startup, as this hangs the UI for a few seconds.
     # With this, it's just a minor slowdown.
     #
     # One side effect is that games and players don't appear immediately
     # (as in, UI is available before they're all shown). This shouldn't be
     # a problem.
     self._aio_scheduler = QtScheduler(QtCore)
     messages = protocol.register("player_info")
     self.new = messages.pipe(
         ops.flat_map(self._split_player_info),
         ops.observe_on(self._aio_scheduler),
         ops.flat_map(self._handle_player_info),
         ops.observe_on(ImmediateScheduler()),
     )
Exemplo n.º 9
0
        time.sleep(1)
        if self.isCancelled():
            return
        self.setProgress("Done...")


import rx
import rx.operators
import rx.scheduler
from rx.disposable import CompositeDisposable
from rx.scheduler.mainloop import QtScheduler

from fscore.observable import Disposable, MainLoopScheduler, Observable
from fsui.qt import QtCore

qtScheduler = QtScheduler(QtCore)

import threading
from typing import Any, List, Optional

from rx.core.typing import Disposable as DisposableType
from rx.core.typing import Observer as ObserverType
from rx.core.typing import Scheduler as SchedulerType
from rx.scheduler import CurrentThreadScheduler


class Task2(Observable):
    def __init__(self):
        self.disposed = False

        def subscribe(observer, scheduler):
 def test_pyside2_schedule_now_units(self):
     scheduler = QtScheduler(QtCore)
     diff = scheduler.now
     sleep(0.1)
     diff = scheduler.now - diff
     assert timedelta(milliseconds=80) < diff < timedelta(milliseconds=180)
 def test_pyside2_schedule_now(self):
     scheduler = QtScheduler(QtCore)
     diff = scheduler.now - default_now()
     assert abs(diff) < timedelta(milliseconds=1)