Exemplo n.º 1
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    def test_requires_sequence(self):

        # we leave these untouched (no req. added)
        a1 = J(sl(0.1), label="a1")
        a2 = J(sl(0.1), label="a2")
        a3 = J(sl(0.1), label="a3")
        a4 = J(sl(0.1), label="a4")
        a5 = J(sl(0.1), label="a5")

        # re-create these each time to have fresh data
        def bs():
            b1 = J(sl(0.1), label="b1")
            b2 = J(sl(0.1), label="b2")
            b3 = J(sl(0.1), label="b3")
            return b1, b2, b3

        b1, b2, b3, *_ = bs()
        s1 = Seq(b1, b2, b3, required=[a1, a2])
        self.assertEqual(len(b1.required), 2)
        self.assertEqual(len(b2.required), 1)

        b1, b2, b3, *_ = bs()
        s1 = Seq(b1, b2, b3)
        s1.requires([a1, a2])
        self.assertEqual(len(b1.required), 2)
        self.assertEqual(len(b2.required), 1)
Exemplo n.º 2
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 def test_sequence6(self):
     "adding a sequence"
     sched = Scheduler()
     a1 = J(sl(0.1), label=1)
     a2 = J(sl(0.1), label=2)
     a3 = J(sl(0.1), label=3)
     sched.add(Seq(a1, a2, a3))
     self.assertTrue(sched.orchestrate())
Exemplo n.º 3
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 def test_creation_scheduler(self):
     sched = Scheduler()
     s = Seq(J(sl(1)), J(sl(2)), scheduler=sched)
     j = J(sl(3), required=s, scheduler=sched)
     # make sure that jobs appended in the sequence
     # even later on are also added to the scheduler
     s.append(J(sl(.5)))
     self.assertEqual(len(sched.jobs), 4)
     self.assertTrue(sched.rain_check())
     self.assertTrue(sched.orchestrate())
Exemplo n.º 4
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 def test_timeout(self):
     a1 = J(sl(1), label="a1")
     a2 = J(sl(2), label="a2")
     a3 = J(sl(10), label="a3")
     result = Scheduler(a1, a2, a3).orchestrate(timeout=3)
     self.assertEqual(result, False)
     self.assertEqual(a1.is_done(), True)
     self.assertEqual(a1.result(), 1)
     self.assertEqual(a2.is_done(), True)
     self.assertEqual(a2.result(), 2)
     self.assertEqual(a3.is_done(), False)
Exemplo n.º 5
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    def test_cycle(self):
        """a simple loop with 3 jobs - cannot handle that"""
        a1, a2, a3 = J(sl(1.1)), J(sl(1.2)), J(sl(1.3))
        a1.requires(a2)
        a2.requires(a3)
        a3.requires(a1)

        sched = Scheduler(a1, a2, a3)

        # these lines seem to trigger a nasty message about a coro not being
        # waited
        self.assertFalse(sched.rain_check())
Exemplo n.º 6
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    def test_forever(self):
        async def tick(n):
            while True:
                print('tick {}'.format(n))
                await asyncio.sleep(n)

        a1 = J(sl(0.5), label="finite")
        a2 = J(tick(0.1), forever=True, label="forever")
        sched = Scheduler(a1, a2)
        result = sched.orchestrate()
        self.assertEqual(result, True)
        self.assertEqual(a1.is_done(), True)
        self.assertEqual(a2.is_done(), False)
Exemplo n.º 7
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 def test_sequence2(self):
     "a job and a sequence"
     a1 = J(sl(0.1), label=1)
     a2 = J(sl(0.1), label=2)
     a3 = J(sl(0.1), label=3)
     s = Seq(a2, a3, required=a1)
     sched = Scheduler(a1, s)
     list_sep(sched, sep + "sequence2")
     self.assertEqual(len(a1.required), 0)
     self.assertEqual(len(a2.required), 1)
     self.assertEqual(len(a3.required), 1)
     self.assertTrue(check_required_types(sched, "test_sequence2"))
     self.assertTrue(sched.orchestrate())
Exemplo n.º 8
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 def test_sequence1(self):
     "a simple sequence"
     a1 = J(sl(0.1), label=1)
     a2 = J(sl(0.1), label=2)
     a3 = J(sl(0.1), label=3)
     s = Seq(a1, a2, a3)
     sched = PureScheduler(s)
     list_sep(sched, common_sep + "sequence1")
     self.assertEqual(len(a1.required), 0)
     self.assertEqual(len(a2.required), 1)
     self.assertEqual(len(a3.required), 1)
     self.assertTrue(check_required_types(sched, "test_sequence1"))
     self.assertTrue(sched.run())
Exemplo n.º 9
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 def test_sequence3(self):
     "a sequence and a job"
     a1 = J(sl(0.1), label=1)
     a2 = J(sl(0.1), label=2)
     s = Seq(a1, a2)
     a3 = J(sl(0.1), label=3, required=s)
     sched = Scheduler()
     sched.update((s, a3))
     list_sep(sched, sep + "sequence3")
     self.assertEqual(len(a1.required), 0)
     self.assertEqual(len(a2.required), 1)
     self.assertEqual(len(a3.required), 1)
     self.assertTrue(check_required_types(sched, "test_sequence3"))
     self.assertTrue(sched.orchestrate())
Exemplo n.º 10
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 def test_sequence4(self):
     "a sequence of 2 sequences"
     a1 = J(sl(0.1), label=1)
     a2 = J(sl(0.1), label=2)
     a3 = J(sl(0.1), label=3)
     a4 = J(sl(0.1), label=4)
     s1 = Seq(a1, a2)
     s2 = Seq(a3, a4)
     sched = Scheduler(Seq(s1, s2))
     list_sep(sched, sep + "sequence4")
     self.assertEqual(len(a1.required), 0)
     self.assertEqual(len(a2.required), 1)
     self.assertEqual(len(a3.required), 1)
     self.assertEqual(len(a4.required), 1)
     self.assertTrue(check_required_types(sched, "test_sequence4"))
     self.assertTrue(sched.orchestrate())
Exemplo n.º 11
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    def _test_exc_non_critical(self, verbose):

        print("verbose = {}".format(verbose))
        a1, a2 = SLJ(1), J(co_exception(0.5), label='non critical boom')
        sched = Scheduler(a1, a2, verbose=verbose)
        self.assertTrue(sched.orchestrate())
        print(sep + 'debrief()')
        sched.debrief()
Exemplo n.º 12
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    def _test_exc_critical(self, verbose):

        print("verbose = {}".format(verbose))
        a1, a2 = SLJ(1), J(co_exception(0.5),
                           label='critical boom',
                           critical=True)
        sched = PureScheduler(a1, a2, verbose=verbose)
        self.assertFalse(sched.run())
        print(common_sep + 'debrief()')
        sched.debrief()
Exemplo n.º 13
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    def test_simple(self):
        """a simple topology, that should work"""
        jobs = SLJ(0.1), SLJ(0.2), SLJ(0.3), SLJ(
            0.4), SLJ(0.5), J(sl(0.6)), J(sl(0.7))
        a1, a2, a3, a4, a5, a6, a7 = jobs
        a4.requires(a1, a2, a3)
        a5.requires(a4)
        a6.requires(a4)
        a7.requires(a5)
        a7.requires(a6)

        sched = Scheduler(*jobs)
        list_sep(sched, sep + "LIST BEFORE")
        self.assertTrue(sched.rain_check())
        self.assertTrue(sched.orchestrate(loop=asyncio.get_event_loop()))
        for j in jobs:
            self.assertFalse(j.raised_exception())
        list_sep(sched, sep + "LIST AFTER")
        print(sep + "DEBRIEF")
        sched.debrief()
Exemplo n.º 14
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    def test_display(self):

        class FakeTask:

            def __init__(self):
                self._result = 0
                self._exception = None

        def annotate_job_with_fake_task(job, state, boom):
            task = FakeTask()
            if state == "done":
                task._state = asyncio.futures._FINISHED
                job._task = task
                job._running = True
            elif state == "running":
                task._state = "NONE"
                job._task = task
                job._running = True
            elif state == "scheduled":
                task._state = "NONE"
                job._task = task
                job._running = False
            else:
                pass

            # here we assume that a job that has raised an exception is
            # necessarily done
            if boom:
                if state in ("idle", "scheduled", "running"):
                    print("incompatible combination boom x idle - ignored")
                    return
                else:
                    job._task._exception = True
            return job

        class J(AbstractJob):
            pass

        sched = Scheduler()
        previous = None
        for state in "idle", "scheduled", "running", "done":
            for boom in True, False:
                for critical in True, False:
                    for forever in True, False:
                        j = J(critical=critical,
                              forever=forever,
                              label="forever={} crit.={} status={} boom={}"
                              .format(forever, critical, state, boom),
                              required=previous
                              )
                        if annotate_job_with_fake_task(j, state, boom):
                            sched.add(j)
                            previous = j
        sched.list()
Exemplo n.º 15
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    def test_simple(self):
        """a simple topology, that should work"""
        jobs = SLJ(0.1), SLJ(0.2), SLJ(0.3), SLJ(0.4), SLJ(0.5), J(sl(0.6)), J(
            sl(0.7))
        a1, a2, a3, a4, a5, a6, a7 = jobs
        a4.requires(a1, a2, a3)
        a5.requires(a4)
        a6.requires(a4)
        a7.requires(a5)
        a7.requires(a6)

        sched = PureScheduler(*jobs)
        list_sep(sched, common_sep + "LIST BEFORE")
        self.assertTrue(sched.check_cycles())
        self.assertTrue(sched.run())
        for j in jobs:
            self.assertFalse(j.raised_exception())
        list_sep(sched, common_sep + "LIST AFTER")
        print(common_sep + "DEBRIEF")
        sched.debrief()
Exemplo n.º 16
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 def test_sequence5(self):
     "sequences with required"
     a1 = J(sl(0.1), label=1)
     a2 = J(sl(0.1), label=2)
     a3 = J(sl(0.1), label=3)
     a4 = J(sl(0.1), label=4)
     a5 = J(sl(0.1), label=5)
     a6 = J(sl(0.1), label=6)
     s1 = Seq(a1, a2)
     s2 = Seq(a3, a4, required=s1)
     s3 = Seq(a5, a6, required=s2)
     sched = Scheduler(s1, s2, s3)
     list_sep(sched, sep + "sequence5")
     self.assertEqual(len(a1.required), 0)
     self.assertEqual(len(a2.required), 1)
     self.assertEqual(len(a3.required), 1)
     self.assertEqual(len(a4.required), 1)
     self.assertEqual(len(a5.required), 1)
     self.assertEqual(len(a6.required), 1)
     self.assertTrue(check_required_types(sched, "test_sequence5"))
     self.assertTrue(sched.orchestrate())
Exemplo n.º 17
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 def test_loop(self):
     s = Scheduler()
     Seq(J(sl(.1)), J(sl(.2)),
         scheduler=s)
     loop = asyncio.get_event_loop()
     self.assertTrue(s.orchestrate(loop=loop))
Exemplo n.º 18
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    def test_requires_job(self):

        a1 = J(sl(0.1), label="a1")
        a2 = J(sl(0.1), label="a2")
        a3 = J(sl(0.1), label="a3")
        a4 = J(sl(0.1), label="a4")
        a5 = J(sl(0.1), label="a5")

        # several forms to create
        b = J(sl(0.2), required=None)
        self.assertEqual(len(b.required), 0)
        b = J(sl(0.2), required=(None,))
        self.assertEqual(len(b.required), 0)
        b = J(sl(0.2), required=[None])
        self.assertEqual(len(b.required), 0)
        b = J(sl(0.2), required=a1)
        self.assertEqual(len(b.required), 1)
        b = J(sl(0.2), required=(a1,))
        self.assertEqual(len(b.required), 1)
        b = J(sl(0.2), required=[a1])
        self.assertEqual(len(b.required), 1)
        b = J(sl(0.2), label='BROKEN', required=(a1, a2))
        self.assertEqual(len(b.required), 2)
        b = J(sl(0.2), required=[a1, a2])
        self.assertEqual(len(b.required), 2)
        b = J(sl(0.2), required=[a1, (a2,), set([a3, a4]), [[[[[[a5]]]]]]])
        self.assertEqual(len(b.required), 5)
Exemplo n.º 19
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 def test_seq(self):
     s = PureScheduler()
     Seq(J(sl(.1)), J(sl(.2)), scheduler=s)
     self.assertTrue(s.run())
Exemplo n.º 20
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 def bs():
     b1 = J(sl(0.1), label="b1")
     b2 = J(sl(0.1), label="b2")
     b3 = J(sl(0.1), label="b3")
     return b1, b2, b3