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import unittest import gevent.testing as greentest from gevent.testing import TestCase, main import gevent from gevent.hub import get_hub, LoopExit from gevent import util from gevent import queue from gevent.queue import Empty, Full from gevent.event import AsyncResult from gevent.testing.timing import AbstractGenericGetTestCase # pylint:disable=too-many-ancestors class TestQueue(TestCase): def test_send_first(self): self.switch_expected = False q = queue.Queue() q.put('hi') self.assertEqual(q.peek(), 'hi') self.assertEqual(q.get(), 'hi') def test_peek_empty(self): q = queue.Queue() # No putters waiting, in the main loop: LoopExit self.assertRaises(LoopExit, q.peek) def waiter(q): self.assertRaises(Empty, q.peek, timeout=0.01) g = gevent.spawn(waiter, q) gevent.sleep(0.1) g.join() def test_peek_multi_greenlet(self): q = queue.Queue() g = gevent.spawn(q.peek) g.start() gevent.sleep(0) q.put(1) g.join() self.assertTrue(g.exception is None) self.assertEqual(q.peek(), 1) def test_send_last(self): q = queue.Queue() def waiter(q): with gevent.Timeout(0.1 if not greentest.RUNNING_ON_APPVEYOR else 0.5): self.assertEqual(q.get(), 'hi2') return "OK" p = gevent.spawn(waiter, q) gevent.sleep(0.01) q.put('hi2') gevent.sleep(0.01) assert p.get(timeout=0) == "OK" def test_max_size(self): q = queue.Queue(2) results = [] def putter(q): q.put('a') results.append('a') q.put('b') results.append('b') q.put('c') results.append('c') return "OK" p = gevent.spawn(putter, q) gevent.sleep(0) self.assertEqual(results, ['a', 'b']) self.assertEqual(q.get(), 'a') gevent.sleep(0) self.assertEqual(results, ['a', 'b', 'c']) self.assertEqual(q.get(), 'b') self.assertEqual(q.get(), 'c') assert p.get(timeout=0) == "OK" def test_zero_max_size(self): q = queue.Channel() def sender(evt, q): q.put('hi') evt.set('done') def receiver(evt, q): x = q.get() evt.set(x) e1 = AsyncResult() e2 = AsyncResult() p1 = gevent.spawn(sender, e1, q) gevent.sleep(0.001) self.assertTrue(not e1.ready()) p2 = gevent.spawn(receiver, e2, q) self.assertEqual(e2.get(), 'hi') self.assertEqual(e1.get(), 'done') with gevent.Timeout(0): gevent.joinall([p1, p2]) def test_multiple_waiters(self): # tests that multiple waiters get their results back q = queue.Queue() def waiter(q, evt): evt.set(q.get()) sendings = ['1', '2', '3', '4'] evts = [AsyncResult() for x in sendings] for i, _ in enumerate(sendings): gevent.spawn(waiter, q, evts[i]) # XXX use waitall for them gevent.sleep(0.01) # get 'em all waiting results = set() def collect_pending_results(): for e in evts: with gevent.Timeout(0.001, False): x = e.get() results.add(x) return len(results) q.put(sendings[0]) self.assertEqual(collect_pending_results(), 1) q.put(sendings[1]) self.assertEqual(collect_pending_results(), 2) q.put(sendings[2]) q.put(sendings[3]) self.assertEqual(collect_pending_results(), 4) def test_waiters_that_cancel(self): q = queue.Queue() def do_receive(q, evt): with gevent.Timeout(0, RuntimeError()): try: result = q.get() evt.set(result) # pragma: no cover (should have raised) except RuntimeError: evt.set('timed out') evt = AsyncResult() gevent.spawn(do_receive, q, evt) self.assertEqual(evt.get(), 'timed out') q.put('hi') self.assertEqual(q.get(), 'hi') def test_senders_that_die(self): q = queue.Queue() def do_send(q): q.put('sent') gevent.spawn(do_send, q) self.assertEqual(q.get(), 'sent') def test_two_waiters_one_dies(self): def waiter(q, evt): evt.set(q.get()) def do_receive(q, evt): with gevent.Timeout(0, RuntimeError()): try: result = q.get() evt.set(result) # pragma: no cover (should have raised) except RuntimeError: evt.set('timed out') q = queue.Queue() dying_evt = AsyncResult() waiting_evt = AsyncResult() gevent.spawn(do_receive, q, dying_evt) gevent.spawn(waiter, q, waiting_evt) gevent.sleep(0.1) q.put('hi') self.assertEqual(dying_evt.get(), 'timed out') self.assertEqual(waiting_evt.get(), 'hi') def test_two_bogus_waiters(self): def do_receive(q, evt): with gevent.Timeout(0, RuntimeError()): try: result = q.get() evt.set(result) # pragma: no cover (should have raised) except RuntimeError: evt.set('timed out') q = queue.Queue() e1 = AsyncResult() e2 = AsyncResult() gevent.spawn(do_receive, q, e1) gevent.spawn(do_receive, q, e2) gevent.sleep(0.1) q.put('sent') self.assertEqual(e1.get(), 'timed out') self.assertEqual(e2.get(), 'timed out') self.assertEqual(q.get(), 'sent') class TestChannel(TestCase): def test_send(self): channel = queue.Channel() events = [] def another_greenlet(): events.append(channel.get()) events.append(channel.get()) g = gevent.spawn(another_greenlet) events.append('sending') channel.put('hello') events.append('sent hello') channel.put('world') events.append('sent world') self.assertEqual(['sending', 'hello', 'sent hello', 'world', 'sent world'], events) g.get() def test_wait(self): channel = queue.Channel() events = [] def another_greenlet(): events.append('sending hello') channel.put('hello') events.append('sending world') channel.put('world') events.append('sent world') g = gevent.spawn(another_greenlet) events.append('waiting') events.append(channel.get()) events.append(channel.get()) self.assertEqual(['waiting', 'sending hello', 'hello', 'sending world', 'world'], events) gevent.sleep(0) self.assertEqual(['waiting', 'sending hello', 'hello', 'sending world', 'world', 'sent world'], events) g.get() def test_iterable(self): channel = queue.Channel() gevent.spawn(channel.put, StopIteration) r = list(channel) self.assertEqual(r, []) class TestJoinableQueue(TestCase): def test_task_done(self): channel = queue.JoinableQueue() X = object() gevent.spawn(channel.put, X) result = channel.get() self.assertIs(result, X) self.assertEqual(1, channel.unfinished_tasks) channel.task_done() self.assertEqual(0, channel.unfinished_tasks) class TestNoWait(TestCase): def test_put_nowait_simple(self): result = [] q = queue.Queue(1) def store_result(func, *args): result.append(func(*args)) run_callback = get_hub().loop.run_callback run_callback(store_result, util.wrap_errors(Full, q.put_nowait), 2) run_callback(store_result, util.wrap_errors(Full, q.put_nowait), 3) gevent.sleep(0) assert len(result) == 2, result assert result[0] is None, result assert isinstance(result[1], queue.Full), result def test_get_nowait_simple(self): result = [] q = queue.Queue(1) q.put(4) def store_result(func, *args): result.append(func(*args)) run_callback = get_hub().loop.run_callback run_callback(store_result, util.wrap_errors(Empty, q.get_nowait)) run_callback(store_result, util.wrap_errors(Empty, q.get_nowait)) gevent.sleep(0) assert len(result) == 2, result assert result[0] == 4, result assert isinstance(result[1], queue.Empty), result # get_nowait must work from the mainloop def test_get_nowait_unlock(self): result = [] q = queue.Queue(1) p = gevent.spawn(q.put, 5) def store_result(func, *args): result.append(func(*args)) assert q.empty(), q gevent.sleep(0) assert q.full(), q get_hub().loop.run_callback(store_result, q.get_nowait) gevent.sleep(0) assert q.empty(), q assert result == [5], result assert p.ready(), p assert p.dead, p assert q.empty(), q def test_get_nowait_unlock_channel(self): result = [] q = queue.Channel() p = gevent.spawn(q.put, 5) def store_result(func, *args): result.append(func(*args)) assert q.empty(), q assert q.full(), q gevent.sleep(0.001) assert q.empty(), q assert q.full(), q get_hub().loop.run_callback(store_result, q.get_nowait) gevent.sleep(0.001) assert q.empty(), q assert q.full(), q assert result == [5], result assert p.ready(), p assert p.dead, p assert q.empty(), q # put_nowait must work from the mainloop def test_put_nowait_unlock(self): result = [] q = queue.Queue() p = gevent.spawn(q.get) def store_result(func, *args): result.append(func(*args)) self.assertTrue(q.empty(), q) self.assertFalse(q.full(), q) gevent.sleep(0.001) self.assertTrue(q.empty(), q) self.assertFalse(q.full(), q) get_hub().loop.run_callback(store_result, q.put_nowait, 10) self.assertFalse(p.ready(), p) gevent.sleep(0.001) self.assertEqual(result, [None]) self.assertTrue(p.ready(), p) self.assertFalse(q.full(), q) self.assertTrue(q.empty(), q) class TestJoinEmpty(TestCase): def test_issue_45(self): """Test that join() exits immediately if not jobs were put into the queue""" self.switch_expected = False q = queue.JoinableQueue() q.join() class AbstractTestWeakRefMixin(object): def test_weak_reference(self): import weakref one = self._makeOne() ref = weakref.ref(one) self.assertIs(one, ref()) class TestGetInterrupt(AbstractTestWeakRefMixin, AbstractGenericGetTestCase): Timeout = Empty kind = queue.Queue def wait(self, timeout): return self._makeOne().get(timeout=timeout) def _makeOne(self): return self.kind() class TestGetInterruptJoinableQueue(TestGetInterrupt): kind = queue.JoinableQueue class TestGetInterruptLifoQueue(TestGetInterrupt): kind = queue.LifoQueue class TestGetInterruptPriorityQueue(TestGetInterrupt): kind = queue.PriorityQueue class TestGetInterruptChannel(TestGetInterrupt): kind = queue.Channel class TestPutInterrupt(AbstractGenericGetTestCase): kind = queue.Queue Timeout = Full def setUp(self): super(TestPutInterrupt, self).setUp() self.queue = self._makeOne() def wait(self, timeout): while not self.queue.full(): self.queue.put(1) return self.queue.put(2, timeout=timeout) def _makeOne(self): return self.kind(1) class TestPutInterruptJoinableQueue(TestPutInterrupt): kind = queue.JoinableQueue class TestPutInterruptLifoQueue(TestPutInterrupt): kind = queue.LifoQueue class TestPutInterruptPriorityQueue(TestPutInterrupt): kind = queue.PriorityQueue class TestPutInterruptChannel(TestPutInterrupt): kind = queue.Channel def _makeOne(self): return self.kind() if hasattr(queue, 'SimpleQueue'): class TestGetInterruptSimpleQueue(TestGetInterrupt): kind = queue.SimpleQueue def test_raises_timeout_Timeout(self): raise unittest.SkipTest("Not supported") test_raises_timeout_Timeout_exc_customized = test_raises_timeout_Timeout test_outer_timeout_is_not_lost = test_raises_timeout_Timeout del AbstractGenericGetTestCase if __name__ == '__main__': main()