Example #1
0
def task_with_deferred_arguments(url):
    """A deferred result may be passed as an argument to another task. Tasks
    receiving deferred arguments will not be invoked until the deferred value
    is available. Notice that the value of the deferred argument, not the
    Deferred object itself, is passed to ``sum`` in this example.
    """
    def func(arg):
        return arg

    broker = get_broker(url)
    broker.expose(func)
    broker.expose(sum)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.sum([
            q.func(1),
            q.func(2),
            q.func(3),
        ])

        assert res.wait(WAIT), repr(res)
        eq_(res.value, 6)
Example #2
0
def more_deferred_arguments(url):
    from operator import add

    def func(arg):
        return arg

    broker = get_broker(url)
    broker.expose(func)
    broker.expose(sum)
    broker.expose(add)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        sum_123 = q.sum([
            q.func(1),
            q.func(2),
            q.func(3),
        ])

        sum_1234 = q.add(sum_123, q.func(4))

        assert sum_1234.wait(WAIT), repr(res)
        eq_(sum_1234.value, 10)
Example #3
0
def task_with_deferred_arguments(url):
    """A deferred result may be passed as an argument to another task. Tasks
    receiving deferred arguments will not be invoked until the deferred value
    is available. Notice that the value of the deferred argument, not the
    Deferred object itself, is passed to ``sum`` in this example.
    """

    def func(arg):
        return arg

    broker = get_broker(url)
    broker.expose(func)
    broker.expose(sum)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.sum([
            q.func(1),
            q.func(2),
            q.func(3),
        ])

        assert res.wait(WAIT), repr(res)
        eq_(res.value, 6)
Example #4
0
def test_Queue_len(url):
    lock = TimeoutLock(locked=True)

    def func(arg=None):
        pass

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker, lock):
        q = get_queue(url)
        eq_(len(q), 0)

        r0 = q.func()
        eq_(len(q), 1)

        r1 = q.func()
        r2 = q.func(r1)
        eq_(len(q), 3)

        eventually((lambda: lock.locked), True)
        lock.release()
        assert r0.wait(timeout=WAIT), repr(r0)
        eq_(len(q), 2)

        eventually((lambda: lock.locked), True)
        lock.release()
        eventually((lambda: lock.locked), True)
        lock.release()
        assert r2.wait(timeout=WAIT), repr(r2)
        eq_(len(q), 0)
Example #5
0
def task_with_failed_deferred_arguments(url):
    """TaskFailure can be passed to the final task.

    By default, a task fails if any of its deferred arguments fail. However,
    creating a ``Task`` with ``on_error=Task.PASS`` will cause a ``TaskFailure``
    to be passed as the result of any task that fails.
    """

    def func(arg):
        if arg == 0:
            raise Exception('zero fail!')
        return arg

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        items = [
            q.func(1),
            q.func(0),
            q.func(2),
        ]

        task = Task(q.func, on_error=Task.PASS)
        res = task(items)
        res.wait(timeout=WAIT)

        fail = TaskFailure(
            'func', 'default', items[1].id, 'Exception: zero fail!')
        eq_(res.value, [1, fail, 2])
Example #6
0
def test_Queue_len(url):
    lock = TimeoutLock(locked=True)
    def func(arg=None):
        pass
    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker, lock):
        q = get_queue(url)
        eq_(len(q), 0)

        r0 = q.func()
        eq_(len(q), 1)

        r1 = q.func()
        r2 = q.func(r1)
        eq_(len(q), 3)

        eventually((lambda:lock.locked), True)
        lock.release()
        assert r0.wait(timeout=WAIT), repr(r0)
        eq_(len(q), 2)

        eventually((lambda:lock.locked), True)
        lock.release()
        eventually((lambda:lock.locked), True)
        lock.release()
        assert r2.wait(timeout=WAIT), repr(r2)
        eq_(len(q), 0)
Example #7
0
def more_deferred_arguments(url):
    from operator import add

    def func(arg):
        return arg

    broker = get_broker(url)
    broker.expose(func)
    broker.expose(sum)
    broker.expose(add)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        sum_123 = q.sum([
            q.func(1),
            q.func(2),
            q.func(3),
        ])

        sum_1234 = q.add(sum_123, q.func(4))

        assert sum_1234.wait(WAIT), repr(res)
        eq_(sum_1234.value, 10)
Example #8
0
def task_with_failed_deferred_arguments(url):
    """TaskFailure can be passed to the final task.

    By default, a task fails if any of its deferred arguments fail. However,
    creating a ``Task`` with ``on_error=Task.PASS`` will cause a ``TaskFailure``
    to be passed as the result of any task that fails.
    """
    def func(arg):
        if arg == 0:
            raise Exception('zero fail!')
        return arg

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        items = [
            q.func(1),
            q.func(0),
            q.func(2),
        ]

        task = Task(q.func, on_error=Task.PASS)
        res = task(items)
        res.wait(timeout=WAIT)

        fail = TaskFailure('func', 'default', items[1].id,
                           'Exception: zero fail!')
        eq_(res.value, [1, fail, 2])
Example #9
0
def dependency_graph(url):
    """Dependency graph
                         |
            _____________|_____________
           /             |             \
          / \           / \           / \
         /   \         /   \         /   \
      left   right  left   right  left   right
         \   /         \   /         \   /
          \ /           \ /           \ /
         catch         catch         catch
            \            |            /
             \___________|___________/
                         |
                      combine
    """
    ts = TaskSpace()

    @ts.task
    def left(num):
        return ('left', num)

    @ts.task
    def right(num):
        return ('right', num)

    @ts.task
    def catch(left, right, num):
        return [num, left, right]

    @ts.task
    def combine(items):
        return {i[0]: i[1:] for i in items}

    broker = get_broker(url)
    broker.expose(ts)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        catches = []
        for num in [1, 2, 3]:
            left = q.left(num)
            right = q.right(num)

            catch = q.catch(left, right, num)

            catches.append(catch)

        res = q.combine(catches)
        assert res.wait(WAIT), repr(res)

        eq_(
            res.value, {
                1: [('left', 1), ('right', 1)],
                2: [('left', 2), ('right', 2)],
                3: [('left', 3), ('right', 3)],
            })
Example #10
0
def dependency_graph(url):
    """Dependency graph
                         |
            _____________|_____________
           /             |             \
          / \           / \           / \
         /   \         /   \         /   \
      left   right  left   right  left   right
         \   /         \   /         \   /
          \ /           \ /           \ /
         catch         catch         catch
            \            |            /
             \___________|___________/
                         |
                      combine
    """
    ts = TaskSpace()

    @ts.task
    def left(num):
        return ('left', num)

    @ts.task
    def right(num):
        return ('right', num)

    @ts.task
    def catch(left, right, num):
        return [num, left, right]

    @ts.task
    def combine(items):
        return {i[0]: i[1:] for i in items}

    broker = get_broker(url)
    broker.expose(ts)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        catches = []
        for num in [1, 2, 3]:
            left = q.left(num)
            right = q.right(num)

            catch = q.catch(left, right, num)

            catches.append(catch)

        res = q.combine(catches)
        assert res.wait(WAIT), repr(res)

        eq_(res.value, {
            1: [('left', 1), ('right', 1)],
            2: [('left', 2), ('right', 2)],
            3: [('left', 3), ('right', 3)],
        })
Example #11
0
def test_WorkerPool_max_worker_tasks(url):
    broker = get_broker(url)
    pool = WorkerPool(broker, WorkerPool_max_worker_tasks_init,
        workers=1, max_worker_tasks=3)
    with start_pool(pool):

        q = get_queue(url)
        res = q.results([q.func() for n in range(4)])
        assert res.wait(WAIT), repr(res)

        results = res.value
        assert isinstance(results, list), results
        eq_([r[1] for r in results], [1, 2, 3, 1])
        eq_(len(set(r[0] for r in results)), 2)
Example #12
0
def result_status(url):
    """Deferred results can be queried for task status.

    A lock is used to control state interactions between the producer
    and the worker for illustration purposes only. This type of
    lock-step interaction is not normally needed or even desired.
    """
    lock = TimeoutLock(locked=True)

    def func(arg):
        lock.acquire()
        return arg

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker, lock):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.func('arg')

        eventually((lambda: res.status), const.ENQUEUED)
        eq_(repr(res), "<Deferred func [default:%s] enqueued>" % res.id)

        lock.release()
        eventually((lambda: res.status), const.PROCESSING)
        eq_(repr(res), "<Deferred func [default:%s] processing>" % res.id)

        lock.release()
        assert res.wait(WAIT), repr(res)
        eq_(repr(res), "<Deferred func [default:%s] success>" % res.id)

        eq_(res.value, 'arg')
Example #13
0
def test_WorkerPool_max_worker_tasks(url):
    broker = get_broker(url)
    pool = WorkerPool(broker, WorkerPool_max_worker_tasks_init,
        workers=1, max_worker_tasks=3)
    with start_pool(pool):

        q = get_queue(url)
        res = q.results([q.func() for n in range(4)])
        assert res.wait(WAIT), repr(res)

        results = res.value
        assert isinstance(results, list), results
        eq_([r[1] for r in results], [1, 2, 3, 1])
        eq_(len(set(r[0] for r in results)), 2)
Example #14
0
def result_status(url):
    """Deferred results can be queried for task status.

    A lock is used to control state interactions between the producer
    and the worker for illustration purposes only. This type of
    lock-step interaction is not normally needed or even desired.
    """
    lock = TimeoutLock(locked=True)

    def func(arg):
        lock.acquire()
        return arg

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker, lock):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.func('arg')

        eventually((lambda:res.status), const.ENQUEUED)
        eq_(repr(res), "<Deferred func [default:%s] enqueued>" % res.id)

        lock.release()
        eventually((lambda:res.status), const.PROCESSING)
        eq_(repr(res), "<Deferred func [default:%s] processing>" % res.id)

        lock.release()
        assert res.wait(WAIT), repr(res)
        eq_(repr(res), "<Deferred func [default:%s] success>" % res.id)

        eq_(res.value, 'arg')
Example #15
0
def no_such_task(url):

    broker = get_broker(url)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.func('arg')
        assert res.wait(WAIT), repr(res)

        eq_(repr(res), '<Deferred func [default:%s] failed>' % res.id)
        with assert_raises(TaskFailure,
                'func [default:%s] no such task' % res.id):
            res.value
Example #16
0
def no_such_task(url):

    broker = get_broker(url)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.func('arg')
        assert res.wait(WAIT), repr(res)

        eq_(repr(res), '<Deferred func [default:%s] failed>' % res.id)
        with assert_raises(TaskFailure,
                           'func [default:%s] no such task' % res.id):
            res.value
Example #17
0
def test_Queue_default_options(url):
    def func(arg=3):
        if isinstance(arg, int) and arg < 2:
            raise ValueError('too low')
        return str(arg)
    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):
        q = get_queue(url, ignore_result=True)
        eq_(q.func(), None)

        q = get_queue(url, on_error=Task.PASS)
        rx = q.func(1)
        res = q.func(rx)
        assert res.wait(WAIT), repr(res)
        eq_(res.value, 'func [default:%s] ValueError: too low' % rx.id)
Example #18
0
def test_Queue_default_options(url):
    def func(arg=3):
        if isinstance(arg, int) and arg < 2:
            raise ValueError('too low')
        return str(arg)
    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):
        q = get_queue(url, ignore_result=True)
        eq_(q.func(), None)

        q = get_queue(url, on_error=Task.PASS)
        rx = q.func(1)
        res = q.func(rx)
        assert res.wait(WAIT), repr(res)
        eq_(res.value, 'func [default:%s] ValueError: too low' % rx.id)
Example #19
0
def task_error(url):
    def func(arg):
        raise Exception('fail!')

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.func('arg')
        assert res.wait(WAIT), repr(res)

        eq_(repr(res), '<Deferred func [default:%s] failed>' % res.id)
        with assert_raises(TaskFailure,
                           'func [default:%s] Exception: fail!' % res.id):
            res.value
Example #20
0
def task_error(url):

    def func(arg):
        raise Exception('fail!')

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.func('arg')
        assert res.wait(WAIT), repr(res)

        eq_(repr(res), '<Deferred func [default:%s] failed>' % res.id)
        with assert_raises(TaskFailure,
                'func [default:%s] Exception: fail!' % res.id):
            res.value
Example #21
0
def test_worker_interrupted(url):
    def func(arg):
        raise KeyboardInterrupt()

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.func('arg')
        completed = res.wait(WAIT)

        assert completed, repr(res)
        eq_(repr(res), '<Deferred func [default:%s] failed>' % res.id)
        with assert_raises(TaskFailure,
                           'func [default:%s] KeyboardInterrupt: ' % res.id):
            res.value
Example #22
0
def test_worker_interrupted(url):

    def func(arg):
        raise KeyboardInterrupt()

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.func('arg')
        completed = res.wait(WAIT)

        assert completed, repr(res)
        eq_(repr(res), '<Deferred func [default:%s] failed>' % res.id)
        with assert_raises(TaskFailure,
                'func [default:%s] KeyboardInterrupt: ' % res.id):
            res.value
Example #23
0
def ignore_result(url):
    """Tell the queue to ignore the task result when the result is not
    important. This is done by creating a ``Task`` object with custom
    options for more efficient queue operation.
    """
    state = []

    def func(arg):
        state.append(arg)

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        f = Task(q.func, ignore_result=True)
        res = f(3)

        eq_(res, None) # verify that we did not get a deferred result
        eventually((lambda:state), [3])
Example #24
0
def ignore_result(url):
    """Tell the queue to ignore the task result when the result is not
    important. This is done by creating a ``Task`` object with custom
    options for more efficient queue operation.
    """
    state = []

    def func(arg):
        state.append(arg)

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        f = Task(q.func, ignore_result=True)
        res = f(3)

        eq_(res, None)  # verify that we did not get a deferred result
        eventually((lambda: state), [3])
Example #25
0
def Broker_duplicate_task_id(url, identifier):
    lock = TimeoutLock(locked=True)
    state = []

    def func(arg):
        lock.acquire()
        return arg

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker, lock):
        q = get_queue(url)

        task = Task(q.func, id=identifier)
        res = task(1)

        eventually((lambda: res.status), const.ENQUEUED)
        msg = 'func [default:int] cannot enqueue task with duplicate id'
        with assert_raises(DuplicateTask, msg):
            task(2)

        lock.release()
        eventually((lambda: res.status), const.PROCESSING)
        msg = 'func [default:int] cannot enqueue task with duplicate id'
        with assert_raises(DuplicateTask, msg):
            task(3)

        lock.release()
        assert res.wait(timeout=WAIT), repr(res)
        eq_(res.value, 1)

        res = task(4)
        eventually((lambda: res.status), const.ENQUEUED)
        lock.release()
        eventually((lambda: res.status), const.PROCESSING)
        lock.release()
        assert res.wait(timeout=WAIT), repr(res)
        eq_(res.value, 4)
Example #26
0
def Broker_duplicate_task_id(url, identifier):
    lock = TimeoutLock(locked=True)
    state = []

    def func(arg):
        lock.acquire()
        return arg

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker, lock):
        q = get_queue(url)

        task = Task(q.func, id=identifier)
        res = task(1)

        eventually((lambda:res.status), const.ENQUEUED)
        msg = 'func [default:int] cannot enqueue task with duplicate id'
        with assert_raises(DuplicateTask, msg):
            task(2)

        lock.release()
        eventually((lambda:res.status), const.PROCESSING)
        msg = 'func [default:int] cannot enqueue task with duplicate id'
        with assert_raises(DuplicateTask, msg):
            task(3)

        lock.release()
        assert res.wait(timeout=WAIT), repr(res)
        eq_(res.value, 1)

        res = task(4)
        eventually((lambda:res.status), const.ENQUEUED)
        lock.release()
        eventually((lambda:res.status), const.PROCESSING)
        lock.release()
        assert res.wait(timeout=WAIT), repr(res)
        eq_(res.value, 4)
Example #27
0
def wait_for_result(url):
    """Efficiently wait for (block on) a task result.

    Use this feature wisely. Waiting for a result in a WorQ task
    could deadlock the queue.
    """
    def func(arg):
        return arg

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.func('arg')

        completed = res.wait(WAIT)

        assert completed, repr(res)
        eq_(res.value, 'arg')
        eq_(repr(res), "<Deferred func [default:%s] success>" % res.id)
Example #28
0
def wait_for_result(url):
    """Efficiently wait for (block on) a task result.

    Use this feature wisely. Waiting for a result in a WorQ task
    could deadlock the queue.
    """

    def func(arg):
        return arg

    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):

        # -- task-invoking code, usually another process --
        q = get_queue(url)

        res = q.func('arg')

        completed = res.wait(WAIT)

        assert completed, repr(res)
        eq_(res.value, 'arg')
        eq_(repr(res), "<Deferred func [default:%s] success>" % res.id)
Example #29
0
def test_clear_Queue(url):
    q = get_queue(url)
    eq_(len(q), 0)

    q.func()
    q.func()
    eq_(len(q), 2)

    del q[:]
    eq_(len(q), 0)

    msg = 'delitem is only valid with a full slice ([:])'
    with assert_raises(ValueError, msg=msg):
        del q[:2]
Example #30
0
def test_clear_Queue(url):
    q = get_queue(url)
    eq_(len(q), 0)

    q.func()
    q.func()
    eq_(len(q), 2)

    del q[:]
    eq_(len(q), 0)

    msg = 'delitem is only valid with a full slice ([:])'
    with assert_raises(ValueError, msg=msg):
        del q[:2]
Example #31
0
def test_completed_Deferred_as_argument(url):
    def func(arg):
        eq_(arg, 1)
        return arg
    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):
        q = get_queue(url)
        eq_(len(q), 0)

        r0 = q.func(1)
        assert r0.wait(timeout=WAIT), repr(r0)
        eq_(r0.value, 1)

        r1 = q.func(r0)
        assert r1.wait(timeout=WAIT), repr(r1)
        eq_(r0.value, 1)
Example #32
0
def test_completed_Deferred_as_argument(url):
    def func(arg):
        eq_(arg, 1)
        return arg
    broker = get_broker(url)
    broker.expose(func)
    with thread_worker(broker):
        q = get_queue(url)
        eq_(len(q), 0)

        r0 = q.func(1)
        assert r0.wait(timeout=WAIT), repr(r0)
        eq_(r0.value, 1)

        r1 = q.func(r0)
        assert r1.wait(timeout=WAIT), repr(r1)
        eq_(r0.value, 1)
Example #33
0
 def func(arg):
     eq_(arg, 1)
     return arg
Example #34
0
 def func(arg):
     eq_(arg, 1)
     return arg