/proc/52785/root/usr/src/Python-3.12.7/Lib/test/test_asyncio/

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"""Tests for queues.py""" import asyncio import unittest from types import GenericAlias def tearDownModule(): asyncio.set_event_loop_policy(None) class QueueBasicTests(unittest.IsolatedAsyncioTestCase): async def _test_repr_or_str(self, fn, expect_id): """Test Queue's repr or str. fn is repr or str. expect_id is True if we expect the Queue's id to appear in fn(Queue()). """ q = asyncio.Queue() self.assertTrue(fn(q).startswith('<Queue'), fn(q)) id_is_present = hex(id(q)) in fn(q) self.assertEqual(expect_id, id_is_present) # getters q = asyncio.Queue() async with asyncio.TaskGroup() as tg: # Start a task that waits to get. getter = tg.create_task(q.get()) # Let it start waiting. await asyncio.sleep(0) self.assertTrue('_getters[1]' in fn(q)) # resume q.get coroutine to finish generator q.put_nowait(0) self.assertEqual(0, await getter) # putters q = asyncio.Queue(maxsize=1) async with asyncio.TaskGroup() as tg: q.put_nowait(1) # Start a task that waits to put. putter = tg.create_task(q.put(2)) # Let it start waiting. await asyncio.sleep(0) self.assertTrue('_putters[1]' in fn(q)) # resume q.put coroutine to finish generator q.get_nowait() self.assertTrue(putter.done()) q = asyncio.Queue() q.put_nowait(1) self.assertTrue('_queue=[1]' in fn(q)) async def test_repr(self): await self._test_repr_or_str(repr, True) async def test_str(self): await self._test_repr_or_str(str, False) def test_generic_alias(self): q = asyncio.Queue[int] self.assertEqual(q.__args__, (int,)) self.assertIsInstance(q, GenericAlias) async def test_empty(self): q = asyncio.Queue() self.assertTrue(q.empty()) await q.put(1) self.assertFalse(q.empty()) self.assertEqual(1, await q.get()) self.assertTrue(q.empty()) async def test_full(self): q = asyncio.Queue() self.assertFalse(q.full()) q = asyncio.Queue(maxsize=1) await q.put(1) self.assertTrue(q.full()) async def test_order(self): q = asyncio.Queue() for i in [1, 3, 2]: await q.put(i) items = [await q.get() for _ in range(3)] self.assertEqual([1, 3, 2], items) async def test_maxsize(self): q = asyncio.Queue(maxsize=2) self.assertEqual(2, q.maxsize) have_been_put = [] async def putter(): for i in range(3): await q.put(i) have_been_put.append(i) return True t = asyncio.create_task(putter()) for i in range(2): await asyncio.sleep(0) # The putter is blocked after putting two items. self.assertEqual([0, 1], have_been_put) self.assertEqual(0, await q.get()) # Let the putter resume and put last item. await asyncio.sleep(0) self.assertEqual([0, 1, 2], have_been_put) self.assertEqual(1, await q.get()) self.assertEqual(2, await q.get()) self.assertTrue(t.done()) self.assertTrue(t.result()) class QueueGetTests(unittest.IsolatedAsyncioTestCase): async def test_blocking_get(self): q = asyncio.Queue() q.put_nowait(1) self.assertEqual(1, await q.get()) async def test_get_with_putters(self): loop = asyncio.get_running_loop() q = asyncio.Queue(1) await q.put(1) waiter = loop.create_future() q._putters.append(waiter) self.assertEqual(1, await q.get()) self.assertTrue(waiter.done()) self.assertIsNone(waiter.result()) async def test_blocking_get_wait(self): loop = asyncio.get_running_loop() q = asyncio.Queue() started = asyncio.Event() finished = False async def queue_get(): nonlocal finished started.set() res = await q.get() finished = True return res queue_get_task = asyncio.create_task(queue_get()) await started.wait() self.assertFalse(finished) loop.call_later(0.01, q.put_nowait, 1) res = await queue_get_task self.assertTrue(finished) self.assertEqual(1, res) def test_nonblocking_get(self): q = asyncio.Queue() q.put_nowait(1) self.assertEqual(1, q.get_nowait()) def test_nonblocking_get_exception(self): q = asyncio.Queue() self.assertRaises(asyncio.QueueEmpty, q.get_nowait) async def test_get_cancelled_race(self): q = asyncio.Queue() t1 = asyncio.create_task(q.get()) t2 = asyncio.create_task(q.get()) await asyncio.sleep(0) t1.cancel() await asyncio.sleep(0) self.assertTrue(t1.done()) await q.put('a') await asyncio.sleep(0) self.assertEqual('a', await t2) async def test_get_with_waiting_putters(self): q = asyncio.Queue(maxsize=1) asyncio.create_task(q.put('a')) asyncio.create_task(q.put('b')) self.assertEqual(await q.get(), 'a') self.assertEqual(await q.get(), 'b') async def test_why_are_getters_waiting(self): async def consumer(queue, num_expected): for _ in range(num_expected): await queue.get() async def producer(queue, num_items): for i in range(num_items): await queue.put(i) producer_num_items = 5 q = asyncio.Queue(1) async with asyncio.TaskGroup() as tg: tg.create_task(producer(q, producer_num_items)) tg.create_task(consumer(q, producer_num_items)) async def test_cancelled_getters_not_being_held_in_self_getters(self): queue = asyncio.Queue(maxsize=5) with self.assertRaises(TimeoutError): await asyncio.wait_for(queue.get(), 0.1) self.assertEqual(len(queue._getters), 0) class QueuePutTests(unittest.IsolatedAsyncioTestCase): async def test_blocking_put(self): q = asyncio.Queue() # No maxsize, won't block. await q.put(1) self.assertEqual(1, await q.get()) async def test_blocking_put_wait(self): q = asyncio.Queue(maxsize=1) started = asyncio.Event() finished = False async def queue_put(): nonlocal finished started.set() await q.put(1) await q.put(2) finished = True loop = asyncio.get_running_loop() loop.call_later(0.01, q.get_nowait) queue_put_task = asyncio.create_task(queue_put()) await started.wait() self.assertFalse(finished) await queue_put_task self.assertTrue(finished) def test_nonblocking_put(self): q = asyncio.Queue() q.put_nowait(1) self.assertEqual(1, q.get_nowait()) async def test_get_cancel_drop_one_pending_reader(self): q = asyncio.Queue() reader = asyncio.create_task(q.get()) await asyncio.sleep(0) q.put_nowait(1) q.put_nowait(2) reader.cancel() try: await reader except asyncio.CancelledError: # try again reader = asyncio.create_task(q.get()) await reader result = reader.result() # if we get 2, it means 1 got dropped! self.assertEqual(1, result) async def test_get_cancel_drop_many_pending_readers(self): q = asyncio.Queue() async with asyncio.TaskGroup() as tg: reader1 = tg.create_task(q.get()) reader2 = tg.create_task(q.get()) reader3 = tg.create_task(q.get()) await asyncio.sleep(0) q.put_nowait(1) q.put_nowait(2) reader1.cancel() with self.assertRaises(asyncio.CancelledError): await reader1 await reader3 # It is undefined in which order concurrent readers receive results. self.assertEqual({reader2.result(), reader3.result()}, {1, 2}) async def test_put_cancel_drop(self): q = asyncio.Queue(1) q.put_nowait(1) # putting a second item in the queue has to block (qsize=1) writer = asyncio.create_task(q.put(2)) await asyncio.sleep(0) value1 = q.get_nowait() self.assertEqual(value1, 1) writer.cancel() try: await writer except asyncio.CancelledError: # try again writer = asyncio.create_task(q.put(2)) await writer value2 = q.get_nowait() self.assertEqual(value2, 2) self.assertEqual(q.qsize(), 0) def test_nonblocking_put_exception(self): q = asyncio.Queue(maxsize=1, ) q.put_nowait(1) self.assertRaises(asyncio.QueueFull, q.put_nowait, 2) async def test_float_maxsize(self): q = asyncio.Queue(maxsize=1.3, ) q.put_nowait(1) q.put_nowait(2) self.assertTrue(q.full()) self.assertRaises(asyncio.QueueFull, q.put_nowait, 3) q = asyncio.Queue(maxsize=1.3, ) await q.put(1) await q.put(2) self.assertTrue(q.full()) async def test_put_cancelled(self): q = asyncio.Queue() async def queue_put(): await q.put(1) return True t = asyncio.create_task(queue_put()) self.assertEqual(1, await q.get()) self.assertTrue(t.done()) self.assertTrue(t.result()) async def test_put_cancelled_race(self): q = asyncio.Queue(maxsize=1) put_a = asyncio.create_task(q.put('a')) put_b = asyncio.create_task(q.put('b')) put_c = asyncio.create_task(q.put('X')) await asyncio.sleep(0) self.assertTrue(put_a.done()) self.assertFalse(put_b.done()) put_c.cancel() await asyncio.sleep(0) self.assertTrue(put_c.done()) self.assertEqual(q.get_nowait(), 'a') await asyncio.sleep(0) self.assertEqual(q.get_nowait(), 'b') await put_b async def test_put_with_waiting_getters(self): q = asyncio.Queue() t = asyncio.create_task(q.get()) await asyncio.sleep(0) await q.put('a') self.assertEqual(await t, 'a') async def test_why_are_putters_waiting(self): queue = asyncio.Queue(2) async def putter(item): await queue.put(item) async def getter(): await asyncio.sleep(0) num = queue.qsize() for _ in range(num): queue.get_nowait() async with asyncio.TaskGroup() as tg: tg.create_task(getter()) tg.create_task(putter(0)) tg.create_task(putter(1)) tg.create_task(putter(2)) tg.create_task(putter(3)) async def test_cancelled_puts_not_being_held_in_self_putters(self): # Full queue. queue = asyncio.Queue(maxsize=1) queue.put_nowait(1) # Task waiting for space to put an item in the queue. put_task = asyncio.create_task(queue.put(1)) await asyncio.sleep(0) # Check that the putter is correctly removed from queue._putters when # the task is canceled. self.assertEqual(len(queue._putters), 1) put_task.cancel() with self.assertRaises(asyncio.CancelledError): await put_task self.assertEqual(len(queue._putters), 0) async def test_cancelled_put_silence_value_error_exception(self): # Full Queue. queue = asyncio.Queue(1) queue.put_nowait(1) # Task waiting for space to put a item in the queue. put_task = asyncio.create_task(queue.put(1)) await asyncio.sleep(0) # get_nowait() remove the future of put_task from queue._putters. queue.get_nowait() # When canceled, queue.put is going to remove its future from # self._putters but it was removed previously by queue.get_nowait(). put_task.cancel() # The ValueError exception triggered by queue._putters.remove(putter) # inside queue.put should be silenced. # If the ValueError is silenced we should catch a CancelledError. with self.assertRaises(asyncio.CancelledError): await put_task class LifoQueueTests(unittest.IsolatedAsyncioTestCase): async def test_order(self): q = asyncio.LifoQueue() for i in [1, 3, 2]: await q.put(i) items = [await q.get() for _ in range(3)] self.assertEqual([2, 3, 1], items) class PriorityQueueTests(unittest.IsolatedAsyncioTestCase): async def test_order(self): q = asyncio.PriorityQueue() for i in [1, 3, 2]: await q.put(i) items = [await q.get() for _ in range(3)] self.assertEqual([1, 2, 3], items) class _QueueJoinTestMixin: q_class = None def test_task_done_underflow(self): q = self.q_class() self.assertRaises(ValueError, q.task_done) async def test_task_done(self): q = self.q_class() for i in range(100): q.put_nowait(i) accumulator = 0 # Two workers get items from the queue and call task_done after each. # Join the queue and assert all items have been processed. running = True async def worker(): nonlocal accumulator while running: item = await q.get() accumulator += item q.task_done() async with asyncio.TaskGroup() as tg: tasks = [tg.create_task(worker()) for index in range(2)] await q.join() self.assertEqual(sum(range(100)), accumulator) # close running generators running = False for i in range(len(tasks)): q.put_nowait(0) async def test_join_empty_queue(self): q = self.q_class() # Test that a queue join()s successfully, and before anything else # (done twice for insurance). await q.join() await q.join() async def test_format(self): q = self.q_class() self.assertEqual(q._format(), 'maxsize=0') q._unfinished_tasks = 2 self.assertEqual(q._format(), 'maxsize=0 tasks=2') class QueueJoinTests(_QueueJoinTestMixin, unittest.IsolatedAsyncioTestCase): q_class = asyncio.Queue class LifoQueueJoinTests(_QueueJoinTestMixin, unittest.IsolatedAsyncioTestCase): q_class = asyncio.LifoQueue class PriorityQueueJoinTests(_QueueJoinTestMixin, unittest.IsolatedAsyncioTestCase): q_class = asyncio.PriorityQueue if __name__ == '__main__': unittest.main()

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