Exemplo n.º 1
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    def test_single_broker(self):
        """ Testing a single broker is instantiated no matter how many
        Publishers or Subscribers we have """

        publishers = [Publisher() for _ in range(10)]
        subscribers = [DummySubscriber() for _ in range(10)]

        for pub, sub in zip(publishers, subscribers):
            self.assertEqual(id(pub._broker), id(sub._broker))
Exemplo n.º 2
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    def test_pusbsub(self):
        """ Test subscribing works"""
        sub = DummySubscriber()

        def action_callback(test):
            """ Callback called when 'publisher.action` event occurs """
            test.assertTrue(True)

        sub.subscribe("publisher.action", action_callback)
        Publisher().publish("publisher.action", self)
Exemplo n.º 3
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    def test_unsubscribe_simple(self):
        """ Testing a simple unsubscribe works """
        sub = DummySubscriber()

        def callback(_who, test):
            """ This should have ever been called """
            test.fail("We shouldn't have reach this code!")

        sub.subscribe("publisher.action", callback)
        sub.unsubscribe("publisher.action", callback)
        Publisher().publish("publisher.action", self)
Exemplo n.º 4
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    def test_unsubscribe_multiple(self):
        """ Testing unsubscribe works with many other subscribed event works """

        sub = DummySubscriber()

        def callback(test):
            """ This should have ever been called """
            test.fail("We shouldn't have reach this code!")

        def dummy_callback(_test):
            """ Just a dummy callback, it won't be executed"""
            pass

        sub.subscribe("publisher.action", callback)
        sub.subscribe("publisher.action", dummy_callback)
        sub.unsubscribe("publisher.action", callback)
        Publisher().publish("publisher.action", self)
Exemplo n.º 5
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 def _callback(_):
     nfinished[0] += 1
     Publisher().publish("terra.transpiler.parallel.done", nfinished[0])
Exemplo n.º 6
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def parallel_map(
        task,
        values,
        task_args=tuple(),
        task_kwargs={},  # pylint: disable=W0102
        num_processes=CPU_COUNT):
    """
    Parallel execution of a mapping of `values` to the function `task`. This
    is functionally equivalent to::

        result = [task(value, *task_args, **task_kwargs) for value in values]

    On Windows this function defaults to a serial implementation to avoid the
    overhead from spawning processes in Windows.

    Args:
        task (func): Function that is to be called for each value in ``task_vec``.
        values (array_like): List or array of values for which the ``task``
                            function is to be evaluated.
        task_args (list): Optional additional arguments to the ``task`` function.
        task_kwargs (dict): Optional additional keyword argument to the ``task`` function.
        num_processes (int): Number of processes to spawn.

    Returns:
        result: The result list contains the value of
                ``task(value, *task_args, **task_kwargs)`` for
                    each value in ``values``.

    Raises:
        QISKitError: If user interrupts via keyboard.

    Events:
        terra.transpiler.parallel.start: The collection of parallel tasks are about to start.
        terra.transpiler.parallel.update: One of the parallel task has finished.
        terra.transpiler.parallel.finish: All the parallel tasks have finished.
    """
    Publisher().publish("terra.transpiler.parallel.start", len(values))
    if len(values) == 1:
        Publisher().publish("terra.transpiler.parallel.finish")
        return [task(values[0], *task_args, **task_kwargs)]

    nfinished = [0]

    def _callback(_):
        nfinished[0] += 1
        Publisher().publish("terra.transpiler.parallel.done", nfinished[0])

    # Run in parallel if not Win and not in parallel already
    if platform.system() != 'Windows' and num_processes > 1 \
       and os.getenv('QISKIT_IN_PARALLEL') == 'FALSE':
        os.environ['QISKIT_IN_PARALLEL'] = 'TRUE'
        try:
            pool = Pool(processes=num_processes)

            async_res = [
                pool.apply_async(task, (value, ) + task_args, task_kwargs,
                                 _callback) for value in values
            ]

            while not all([item.ready() for item in async_res]):
                for item in async_res:
                    item.wait(timeout=0.1)

            pool.terminate()
            pool.join()

        except KeyboardInterrupt:
            pool.terminate()
            pool.join()
            Publisher().publish("terra.parallel.parallel.finish")
            raise QISKitError('Keyboard interrupt in parallel_map.')

        Publisher().publish("terra.transpiler.parallel.finish")
        os.environ['QISKIT_IN_PARALLEL'] = 'FALSE'
        return [ar.get() for ar in async_res]

    # Cannot do parallel on Windows , if another parallel_map is running in parallel,
    # or len(values) == 1.
    results = []
    for _, value in enumerate(values):
        result = task(value, *task_args, **task_kwargs)
        results.append(result)
        _callback(0)
    Publisher().publish("terra.transpiler.parallel.finish")
    return results
Exemplo n.º 7
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 def _emmit_finish():
     """ Emmit a dag transpilation finish event
     Arg:
         progress: The dag number that just has finshed transpile"""
     Publisher().publish("terra.transpiler.transpile_dag.finish")
Exemplo n.º 8
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 def _emmit_done(progress):
     """ Emmit a dag transpilation done event
     Arg:
         progress: The dag number that just has finshed transpile"""
     Publisher().publish("terra.transpiler.transpile_dag.done", progress)
Exemplo n.º 9
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 def _emmit_start(num_dags):
     """ Emmit a dag transpilation start event
     Arg:
         num_dags: Number of dags to be transpiled"""
     Publisher().publish("terra.transpiler.transpile_dag.start", num_dags)