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Intelegentny_Pszczelarz/.venv/Lib/site-packages/pygame/tests/event_test.py

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feat: virtual environment
2023-03-18 12:55:22 +01:00
import collections
import time
import unittest
import pygame
EVENT_TYPES = (
# pygame.NOEVENT,
# pygame.ACTIVEEVENT,
pygame.KEYDOWN,
pygame.KEYUP,
pygame.MOUSEMOTION,
pygame.MOUSEBUTTONDOWN,
pygame.MOUSEBUTTONUP,
pygame.JOYAXISMOTION,
pygame.JOYBALLMOTION,
pygame.JOYHATMOTION,
pygame.JOYBUTTONDOWN,
pygame.JOYBUTTONUP,
pygame.VIDEORESIZE,
pygame.VIDEOEXPOSE,
pygame.QUIT,
pygame.SYSWMEVENT,
pygame.USEREVENT,
# pygame.NUMEVENTS,
)
EVENT_TEST_PARAMS = collections.defaultdict(dict)
EVENT_TEST_PARAMS.update(
{
pygame.KEYDOWN: {"key": pygame.K_SPACE},
pygame.KEYUP: {"key": pygame.K_SPACE},
pygame.MOUSEMOTION: dict(),
pygame.MOUSEBUTTONDOWN: dict(button=1),
pygame.MOUSEBUTTONUP: dict(button=1),
}
)
NAMES_AND_EVENTS = (
("NoEvent", pygame.NOEVENT),
("ActiveEvent", pygame.ACTIVEEVENT),
("KeyDown", pygame.KEYDOWN),
("KeyUp", pygame.KEYUP),
("MouseMotion", pygame.MOUSEMOTION),
("MouseButtonDown", pygame.MOUSEBUTTONDOWN),
("MouseButtonUp", pygame.MOUSEBUTTONUP),
("JoyAxisMotion", pygame.JOYAXISMOTION),
("JoyBallMotion", pygame.JOYBALLMOTION),
("JoyHatMotion", pygame.JOYHATMOTION),
("JoyButtonDown", pygame.JOYBUTTONDOWN),
("JoyButtonUp", pygame.JOYBUTTONUP),
("VideoResize", pygame.VIDEORESIZE),
("VideoExpose", pygame.VIDEOEXPOSE),
("Quit", pygame.QUIT),
("SysWMEvent", pygame.SYSWMEVENT),
("MidiIn", pygame.MIDIIN),
("MidiOut", pygame.MIDIOUT),
("UserEvent", pygame.USEREVENT),
("Unknown", 0xFFFF),
("FingerMotion", pygame.FINGERMOTION),
("FingerDown", pygame.FINGERDOWN),
("FingerUp", pygame.FINGERUP),
("MultiGesture", pygame.MULTIGESTURE),
("MouseWheel", pygame.MOUSEWHEEL),
("TextInput", pygame.TEXTINPUT),
("TextEditing", pygame.TEXTEDITING),
("ControllerAxisMotion", pygame.CONTROLLERAXISMOTION),
("ControllerButtonDown", pygame.CONTROLLERBUTTONDOWN),
("ControllerButtonUp", pygame.CONTROLLERBUTTONUP),
("ControllerDeviceAdded", pygame.CONTROLLERDEVICEADDED),
("ControllerDeviceRemoved", pygame.CONTROLLERDEVICEREMOVED),
("ControllerDeviceMapped", pygame.CONTROLLERDEVICEREMAPPED),
("DropFile", pygame.DROPFILE),
("AudioDeviceAdded", pygame.AUDIODEVICEADDED),
("AudioDeviceRemoved", pygame.AUDIODEVICEREMOVED),
("DropText", pygame.DROPTEXT),
("DropBegin", pygame.DROPBEGIN),
("DropComplete", pygame.DROPCOMPLETE),
)
class EventTypeTest(unittest.TestCase):
def test_Event(self):
"""Ensure an Event object can be created."""
e = pygame.event.Event(pygame.USEREVENT, some_attr=1, other_attr="1")
self.assertEqual(e.some_attr, 1)
self.assertEqual(e.other_attr, "1")
# Event now uses tp_dictoffset and tp_members:
# https://github.com/pygame/pygame/issues/62
self.assertEqual(e.type, pygame.USEREVENT)
self.assertIs(e.dict, e.__dict__)
e.some_attr = 12
self.assertEqual(e.some_attr, 12)
e.new_attr = 15
self.assertEqual(e.new_attr, 15)
self.assertRaises(AttributeError, setattr, e, "type", 0)
self.assertRaises(AttributeError, setattr, e, "dict", None)
# Ensure attributes are visible to dir(), part of the original
# posted request.
d = dir(e)
attrs = ("type", "dict", "__dict__", "some_attr", "other_attr", "new_attr")
for attr in attrs:
self.assertIn(attr, d)
# redundant type field as kwarg
self.assertRaises(ValueError, pygame.event.Event, 10, type=100)
def test_as_str(self):
# Bug reported on Pygame mailing list July 24, 2011:
# For Python 3.x str(event) to raises an UnicodeEncodeError when
# an event attribute is a string with a non-ascii character.
try:
str(pygame.event.Event(EVENT_TYPES[0], a="\xed"))
except UnicodeEncodeError:
self.fail("Event object raised exception for non-ascii character")
# Passed.
def test_event_bool(self):
self.assertFalse(pygame.event.Event(pygame.NOEVENT))
for event_type in [
pygame.MOUSEBUTTONDOWN,
pygame.ACTIVEEVENT,
pygame.WINDOWLEAVE,
pygame.USEREVENT_DROPFILE,
]:
self.assertTrue(pygame.event.Event(event_type))
def test_event_equality(self):
"""Ensure that events can be compared correctly."""
a = pygame.event.Event(EVENT_TYPES[0], a=1)
b = pygame.event.Event(EVENT_TYPES[0], a=1)
c = pygame.event.Event(EVENT_TYPES[1], a=1)
d = pygame.event.Event(EVENT_TYPES[0], a=2)
self.assertTrue(a == a)
self.assertFalse(a != a)
self.assertTrue(a == b)
self.assertFalse(a != b)
self.assertTrue(a != c)
self.assertFalse(a == c)
self.assertTrue(a != d)
self.assertFalse(a == d)
race_condition_notification = """
This test is dependent on timing. The event queue is cleared in preparation for
tests. There is a small window where outside events from the OS may have effected
results. Try running the test again.
"""
class EventModuleArgsTest(unittest.TestCase):
def setUp(self):
pygame.display.init()
pygame.event.clear()
def tearDown(self):
pygame.display.quit()
def test_get(self):
pygame.event.get()
pygame.event.get(None)
pygame.event.get(None, True)
pygame.event.get(pump=False)
pygame.event.get(pump=True)
pygame.event.get(eventtype=None)
pygame.event.get(eventtype=[pygame.KEYUP, pygame.KEYDOWN])
pygame.event.get(eventtype=pygame.USEREVENT, pump=False)
# event type out of range
self.assertRaises(ValueError, pygame.event.get, 0x00010000)
self.assertRaises(TypeError, pygame.event.get, 1 + 2j)
self.assertRaises(TypeError, pygame.event.get, "foo")
def test_clear(self):
pygame.event.clear()
pygame.event.clear(None)
pygame.event.clear(None, True)
pygame.event.clear(pump=False)
pygame.event.clear(pump=True)
pygame.event.clear(eventtype=None)
pygame.event.clear(eventtype=[pygame.KEYUP, pygame.KEYDOWN])
pygame.event.clear(eventtype=pygame.USEREVENT, pump=False)
# event type out of range
self.assertRaises(ValueError, pygame.event.clear, 0x0010FFFFF)
self.assertRaises(TypeError, pygame.event.get, ["a", "b", "c"])
def test_peek(self):
pygame.event.peek()
pygame.event.peek(None)
pygame.event.peek(None, True)
pygame.event.peek(pump=False)
pygame.event.peek(pump=True)
pygame.event.peek(eventtype=None)
pygame.event.peek(eventtype=[pygame.KEYUP, pygame.KEYDOWN])
pygame.event.peek(eventtype=pygame.USEREVENT, pump=False)
class Foo:
pass
# event type out of range
self.assertRaises(ValueError, pygame.event.peek, -1)
self.assertRaises(ValueError, pygame.event.peek, [-10])
self.assertRaises(TypeError, pygame.event.peek, Foo())
class EventCustomTypeTest(unittest.TestCase):
"""Those tests are special in that they need the _custom_event counter to
be reset before and/or after being run."""
def setUp(self):
pygame.quit()
pygame.init()
pygame.display.init()
def tearDown(self):
pygame.quit()
def test_custom_type(self):
self.assertEqual(pygame.event.custom_type(), pygame.USEREVENT + 1)
atype = pygame.event.custom_type()
atype2 = pygame.event.custom_type()
self.assertEqual(atype, atype2 - 1)
ev = pygame.event.Event(atype)
pygame.event.post(ev)
queue = pygame.event.get(atype)
self.assertEqual(len(queue), 1)
self.assertEqual(queue[0].type, atype)
def test_custom_type__end_boundary(self):
"""Ensure custom_type() raises error when no more custom types.
The last allowed custom type number should be (pygame.NUMEVENTS - 1).
"""
last = -1
start = pygame.event.custom_type() + 1
for _ in range(start, pygame.NUMEVENTS):
last = pygame.event.custom_type()
self.assertEqual(last, pygame.NUMEVENTS - 1)
with self.assertRaises(pygame.error):
pygame.event.custom_type()
def test_custom_type__reset(self):
"""Ensure custom events get 'deregistered' by quit()."""
before = pygame.event.custom_type()
self.assertEqual(before, pygame.event.custom_type() - 1)
pygame.quit()
pygame.init()
pygame.display.init()
self.assertEqual(before, pygame.event.custom_type())
class EventModuleTest(unittest.TestCase):
def _assertCountEqual(self, *args, **kwargs):
# Handle method name differences between Python versions.
# Is this still needed?
self.assertCountEqual(*args, **kwargs)
def _assertExpectedEvents(self, expected, got):
"""Find events like expected events, raise on unexpected or missing,
ignore additional event properties if expected properties are present."""
# This does greedy matching, don't encode an NP-hard problem
# into your input data, *please*
items_left = got[:]
for expected_element in expected:
for item in items_left:
for key in expected_element.__dict__:
if item.__dict__[key] != expected_element.__dict__[key]:
break
else:
# found item!
items_left.remove(item)
break
else:
raise AssertionError(
"Expected "
+ str(expected_element)
+ " among remaining events "
+ str(items_left)
+ " out of "
+ str(got)
)
if len(items_left) > 0:
raise AssertionError("Unexpected Events: " + str(items_left))
def setUp(self):
pygame.display.init()
pygame.event.clear() # flush events
def tearDown(self):
pygame.event.clear() # flush events
pygame.display.quit()
def test_event_numevents(self):
"""Ensures NUMEVENTS does not exceed the maximum SDL number of events."""
# Ref: https://www.libsdl.org/tmp/SDL/include/SDL_events.h
MAX_SDL_EVENTS = 0xFFFF # SDL_LASTEVENT = 0xFFFF
self.assertLessEqual(pygame.NUMEVENTS, MAX_SDL_EVENTS)
def test_event_attribute(self):
e1 = pygame.event.Event(pygame.USEREVENT, attr1="attr1")
self.assertEqual(e1.attr1, "attr1")
def test_set_blocked(self):
"""Ensure events can be blocked from the queue."""
event = EVENT_TYPES[0]
unblocked_event = EVENT_TYPES[1]
pygame.event.set_blocked(event)
self.assertTrue(pygame.event.get_blocked(event))
self.assertFalse(pygame.event.get_blocked(unblocked_event))
posted = pygame.event.post(
pygame.event.Event(event, **EVENT_TEST_PARAMS[event])
)
self.assertFalse(posted)
# post an unblocked event
posted = pygame.event.post(
pygame.event.Event(unblocked_event, **EVENT_TEST_PARAMS[unblocked_event])
)
self.assertTrue(posted)
ret = pygame.event.get()
should_be_blocked = [e for e in ret if e.type == event]
should_be_allowed_types = [e.type for e in ret if e.type != event]
self.assertEqual(should_be_blocked, [])
self.assertTrue(unblocked_event in should_be_allowed_types)
def test_set_blocked__event_sequence(self):
"""Ensure a sequence of event types can be blocked."""
event_types = [
pygame.KEYDOWN,
pygame.KEYUP,
pygame.MOUSEMOTION,
pygame.MOUSEBUTTONDOWN,
pygame.MOUSEBUTTONUP,
pygame.WINDOWFOCUSLOST,
pygame.USEREVENT,
]
pygame.event.set_blocked(event_types)
for etype in event_types:
self.assertTrue(pygame.event.get_blocked(etype))
def test_set_blocked_all(self):
"""Ensure all events can be unblocked at once."""
pygame.event.set_blocked(None)
for e in EVENT_TYPES:
self.assertTrue(pygame.event.get_blocked(e))
def test_post__and_poll(self):
"""Ensure events can be posted to the queue."""
e1 = pygame.event.Event(pygame.USEREVENT, attr1="attr1")
pygame.event.post(e1)
posted_event = pygame.event.poll()
self.assertEqual(e1.attr1, posted_event.attr1, race_condition_notification)
# fuzzing event types
for i in range(1, 13):
pygame.event.post(
pygame.event.Event(EVENT_TYPES[i], **EVENT_TEST_PARAMS[EVENT_TYPES[i]])
)
self.assertEqual(
pygame.event.poll().type, EVENT_TYPES[i], race_condition_notification
)
def test_post_and_get_keydown(self):
"""Ensure keydown events can be posted to the queue."""
activemodkeys = pygame.key.get_mods()
events = [
pygame.event.Event(pygame.KEYDOWN, key=pygame.K_p),
pygame.event.Event(pygame.KEYDOWN, key=pygame.K_y, mod=activemodkeys),
pygame.event.Event(pygame.KEYDOWN, key=pygame.K_g, unicode="g"),
pygame.event.Event(pygame.KEYDOWN, key=pygame.K_a, unicode=None),
pygame.event.Event(pygame.KEYDOWN, key=pygame.K_m, mod=None, window=None),
pygame.event.Event(
pygame.KEYDOWN, key=pygame.K_e, mod=activemodkeys, unicode="e"
),
]
for e in events:
pygame.event.post(e)
posted_event = pygame.event.poll()
self.assertEqual(e, posted_event, race_condition_notification)
def test_post_large_user_event(self):
pygame.event.post(
pygame.event.Event(
pygame.USEREVENT, {"a": "a" * 1024}, test=list(range(100))
)
)
e = pygame.event.poll()
self.assertEqual(e.type, pygame.USEREVENT)
self.assertEqual(e.a, "a" * 1024)
self.assertEqual(e.test, list(range(100)))
def test_post_blocked(self):
"""
Test blocked events are not posted. Also test whether post()
returns a boolean correctly
"""
pygame.event.set_blocked(pygame.USEREVENT)
self.assertFalse(pygame.event.post(pygame.event.Event(pygame.USEREVENT)))
self.assertFalse(pygame.event.poll())
pygame.event.set_allowed(pygame.USEREVENT)
self.assertTrue(pygame.event.post(pygame.event.Event(pygame.USEREVENT)))
self.assertEqual(pygame.event.poll(), pygame.event.Event(pygame.USEREVENT))
def test_get(self):
"""Ensure get() retrieves all the events on the queue."""
event_cnt = 10
for _ in range(event_cnt):
pygame.event.post(pygame.event.Event(pygame.USEREVENT))
queue = pygame.event.get()
self.assertEqual(len(queue), event_cnt)
self.assertTrue(all(e.type == pygame.USEREVENT for e in queue))
def test_get_type(self):
ev = pygame.event.Event(pygame.USEREVENT)
pygame.event.post(ev)
queue = pygame.event.get(pygame.USEREVENT)
self.assertEqual(len(queue), 1)
self.assertEqual(queue[0].type, pygame.USEREVENT)
TESTEVENTS = 10
for _ in range(TESTEVENTS):
pygame.event.post(ev)
q = pygame.event.get([pygame.USEREVENT])
self.assertEqual(len(q), TESTEVENTS)
for event in q:
self.assertEqual(event, ev)
def test_get_exclude_throw(self):
self.assertRaises(
pygame.error, pygame.event.get, pygame.KEYDOWN, False, pygame.KEYUP
)
def test_get_exclude(self):
pygame.event.post(pygame.event.Event(pygame.USEREVENT))
pygame.event.post(pygame.event.Event(pygame.KEYDOWN))
queue = pygame.event.get(exclude=pygame.KEYDOWN)
self.assertEqual(len(queue), 1)
self.assertEqual(queue[0].type, pygame.USEREVENT)
pygame.event.post(pygame.event.Event(pygame.KEYUP))
pygame.event.post(pygame.event.Event(pygame.USEREVENT))
queue = pygame.event.get(exclude=(pygame.KEYDOWN, pygame.KEYUP))
self.assertEqual(len(queue), 1)
self.assertEqual(queue[0].type, pygame.USEREVENT)
queue = pygame.event.get()
self.assertEqual(len(queue), 2)
def test_get__empty_queue(self):
"""Ensure get() works correctly on an empty queue."""
expected_events = []
pygame.event.clear()
# Ensure all events can be checked.
retrieved_events = pygame.event.get()
self.assertListEqual(retrieved_events, expected_events)
# Ensure events can be checked individually.
for event_type in EVENT_TYPES:
retrieved_events = pygame.event.get(event_type)
self.assertListEqual(retrieved_events, expected_events)
# Ensure events can be checked as a sequence.
retrieved_events = pygame.event.get(EVENT_TYPES)
self.assertListEqual(retrieved_events, expected_events)
def test_get__event_sequence(self):
"""Ensure get() can handle a sequence of event types."""
event_types = [pygame.KEYDOWN, pygame.KEYUP, pygame.MOUSEMOTION]
other_event_type = pygame.MOUSEBUTTONUP
# Test when no events in the queue.
expected_events = []
pygame.event.clear()
retrieved_events = pygame.event.get(event_types)
# don't use self._assertCountEqual here. This checks for
# expected properties in events, and ignores unexpected ones, for
# forward compatibility with SDL2.
self._assertExpectedEvents(expected=expected_events, got=retrieved_events)
# Test when an event type not in the list is in the queue.
expected_events = []
pygame.event.clear()
pygame.event.post(
pygame.event.Event(other_event_type, **EVENT_TEST_PARAMS[other_event_type])
)
retrieved_events = pygame.event.get(event_types)
self._assertExpectedEvents(expected=expected_events, got=retrieved_events)
# Test when 1 event type in the list is in the queue.
expected_events = [
pygame.event.Event(event_types[0], **EVENT_TEST_PARAMS[event_types[0]])
]
pygame.event.clear()
pygame.event.post(expected_events[0])
retrieved_events = pygame.event.get(event_types)
self._assertExpectedEvents(expected=expected_events, got=retrieved_events)
# Test all events in the list are in the queue.
pygame.event.clear()
expected_events = []
for etype in event_types:
expected_events.append(
pygame.event.Event(etype, **EVENT_TEST_PARAMS[etype])
)
pygame.event.post(expected_events[-1])
retrieved_events = pygame.event.get(event_types)
self._assertExpectedEvents(expected=expected_events, got=retrieved_events)
def test_get_clears_queue(self):
"""Ensure get() clears the event queue after a call"""
pygame.event.get() # should clear the queue completely by getting all events
self.assertEqual(pygame.event.get(), [])
def test_clear(self):
"""Ensure clear() removes all the events on the queue."""
for e in EVENT_TYPES:
pygame.event.post(pygame.event.Event(e, **EVENT_TEST_PARAMS[e]))
poll_event = pygame.event.poll()
self.assertNotEqual(poll_event.type, pygame.NOEVENT)
pygame.event.clear()
poll_event = pygame.event.poll()
self.assertEqual(poll_event.type, pygame.NOEVENT, race_condition_notification)
def test_clear__empty_queue(self):
"""Ensure clear() works correctly on an empty queue."""
expected_events = []
pygame.event.clear()
# Test calling clear() on an already empty queue.
pygame.event.clear()
retrieved_events = pygame.event.get()
self.assertListEqual(retrieved_events, expected_events)
def test_clear__event_sequence(self):
"""Ensure a sequence of event types can be cleared from the queue."""
cleared_event_types = EVENT_TYPES[:5]
expected_event_types = EVENT_TYPES[5:10]
expected_events = []
# Add the events to the queue.
for etype in cleared_event_types:
pygame.event.post(pygame.event.Event(etype, **EVENT_TEST_PARAMS[etype]))
for etype in expected_events:
expected_events.append(
pygame.event.Event(etype, **EVENT_TEST_PARAMS[etype])
)
pygame.event.post(expected_events[-1])
# Clear the cleared_events from the queue.
pygame.event.clear(cleared_event_types)
# Check the rest of the events in the queue.
remaining_events = pygame.event.get()
self._assertCountEqual(remaining_events, expected_events)
def test_event_name(self):
"""Ensure event_name() returns the correct event name."""
for expected_name, event in NAMES_AND_EVENTS:
self.assertEqual(
pygame.event.event_name(event), expected_name, f"0x{event:X}"
)
def test_event_name__userevent_range(self):
"""Ensures event_name() returns the correct name for user events.
Tests the full range of user events.
"""
expected_name = "UserEvent"
for event in range(pygame.USEREVENT, pygame.NUMEVENTS):
self.assertEqual(
pygame.event.event_name(event), expected_name, f"0x{event:X}"
)
def test_event_name__userevent_boundary(self):
"""Ensures event_name() does not return 'UserEvent' for events
just outside the user event range.
"""
unexpected_name = "UserEvent"
for event in (pygame.USEREVENT - 1, pygame.NUMEVENTS):
self.assertNotEqual(
pygame.event.event_name(event), unexpected_name, f"0x{event:X}"
)
def test_peek(self):
"""Ensure queued events can be peeked at."""
event_types = [pygame.KEYDOWN, pygame.KEYUP, pygame.MOUSEMOTION]
for event_type in event_types:
pygame.event.post(
pygame.event.Event(event_type, **EVENT_TEST_PARAMS[event_type])
)
# Ensure events can be checked individually.
for event_type in event_types:
self.assertTrue(pygame.event.peek(event_type))
# Ensure events can be checked as a sequence.
self.assertTrue(pygame.event.peek(event_types))
def test_peek__event_sequence(self):
"""Ensure peek() can handle a sequence of event types."""
event_types = [pygame.KEYDOWN, pygame.KEYUP, pygame.MOUSEMOTION]
other_event_type = pygame.MOUSEBUTTONUP
# Test when no events in the queue.
pygame.event.clear()
peeked = pygame.event.peek(event_types)
self.assertFalse(peeked)
# Test when an event type not in the list is in the queue.
pygame.event.clear()
pygame.event.post(
pygame.event.Event(other_event_type, **EVENT_TEST_PARAMS[other_event_type])
)
peeked = pygame.event.peek(event_types)
self.assertFalse(peeked)
# Test when 1 event type in the list is in the queue.
pygame.event.clear()
pygame.event.post(
pygame.event.Event(event_types[0], **EVENT_TEST_PARAMS[event_types[0]])
)
peeked = pygame.event.peek(event_types)
self.assertTrue(peeked)
# Test all events in the list are in the queue.
pygame.event.clear()
for etype in event_types:
pygame.event.post(pygame.event.Event(etype, **EVENT_TEST_PARAMS[etype]))
peeked = pygame.event.peek(event_types)
self.assertTrue(peeked)
def test_peek__empty_queue(self):
"""Ensure peek() works correctly on an empty queue."""
pygame.event.clear()
# Ensure all events can be checked.
peeked = pygame.event.peek()
self.assertFalse(peeked)
# Ensure events can be checked individually.
for event_type in EVENT_TYPES:
peeked = pygame.event.peek(event_type)
self.assertFalse(peeked)
# Ensure events can be checked as a sequence.
peeked = pygame.event.peek(EVENT_TYPES)
self.assertFalse(peeked)
def test_set_allowed(self):
"""Ensure a blocked event type can be unblocked/allowed."""
event = EVENT_TYPES[0]
pygame.event.set_blocked(event)
self.assertTrue(pygame.event.get_blocked(event))
pygame.event.set_allowed(event)
self.assertFalse(pygame.event.get_blocked(event))
def test_set_allowed__event_sequence(self):
"""Ensure a sequence of blocked event types can be unblocked/allowed."""
event_types = [
pygame.KEYDOWN,
pygame.KEYUP,
pygame.MOUSEMOTION,
pygame.MOUSEBUTTONDOWN,
pygame.MOUSEBUTTONUP,
]
pygame.event.set_blocked(event_types)
pygame.event.set_allowed(event_types)
for etype in event_types:
self.assertFalse(pygame.event.get_blocked(etype))
def test_set_allowed_all(self):
"""Ensure all events can be unblocked/allowed at once."""
pygame.event.set_blocked(None)
for e in EVENT_TYPES:
self.assertTrue(pygame.event.get_blocked(e))
pygame.event.set_allowed(None)
for e in EVENT_TYPES:
self.assertFalse(pygame.event.get_blocked(e))
def test_pump(self):
"""Ensure pump() functions properly."""
pygame.event.pump()
# @unittest.skipIf(
# os.environ.get("SDL_VIDEODRIVER") == "dummy",
# 'requires the SDL_VIDEODRIVER to be a non "dummy" value',
# )
# Fails on SDL 2.0.18
@unittest.skip("flaky test, and broken on 2.0.18 windows")
def test_set_grab__and_get_symmetric(self):
"""Ensure event grabbing can be enabled and disabled.
WARNING: Moving the mouse off the display during this test can cause it
to fail.
"""
surf = pygame.display.set_mode((10, 10))
pygame.event.set_grab(True)
self.assertTrue(pygame.event.get_grab())
pygame.event.set_grab(False)
self.assertFalse(pygame.event.get_grab())
def test_get_blocked(self):
"""Ensure an event's blocked state can be retrieved."""
# Test each event is not blocked.
pygame.event.set_allowed(None)
for etype in EVENT_TYPES:
blocked = pygame.event.get_blocked(etype)
self.assertFalse(blocked)
# Test each event type is blocked.
pygame.event.set_blocked(None)
for etype in EVENT_TYPES:
blocked = pygame.event.get_blocked(etype)
self.assertTrue(blocked)
def test_get_blocked__event_sequence(self):
"""Ensure get_blocked() can handle a sequence of event types."""
event_types = [
pygame.KEYDOWN,
pygame.KEYUP,
pygame.MOUSEMOTION,
pygame.MOUSEBUTTONDOWN,
pygame.MOUSEBUTTONUP,
pygame.WINDOWMINIMIZED,
pygame.USEREVENT,
]
# Test no event types in the list are blocked.
blocked = pygame.event.get_blocked(event_types)
self.assertFalse(blocked)
# Test when 1 event type in the list is blocked.
pygame.event.set_blocked(event_types[2])
blocked = pygame.event.get_blocked(event_types)
self.assertTrue(blocked)
# Test all event types in the list are blocked.
pygame.event.set_blocked(event_types)
blocked = pygame.event.get_blocked(event_types)
self.assertTrue(blocked)
# @unittest.skipIf(
# os.environ.get("SDL_VIDEODRIVER") == "dummy",
# 'requires the SDL_VIDEODRIVER to be a non "dummy" value',
# )
# Fails on SDL 2.0.18
@unittest.skip("flaky test, and broken on 2.0.18 windows")
def test_get_grab(self):
"""Ensure get_grab() works as expected"""
surf = pygame.display.set_mode((10, 10))
# Test 5 times
for i in range(5):
pygame.event.set_grab(i % 2)
self.assertEqual(pygame.event.get_grab(), i % 2)
def test_poll(self):
"""Ensure poll() works as expected"""
pygame.event.clear()
ev = pygame.event.poll()
# poll() on empty queue should return NOEVENT
self.assertEqual(ev.type, pygame.NOEVENT)
# test poll returns stuff in same order
e1 = pygame.event.Event(pygame.USEREVENT)
e2 = pygame.event.Event(pygame.KEYDOWN, key=pygame.K_a)
e3 = pygame.event.Event(pygame.KEYUP, key=pygame.K_a)
pygame.event.post(e1)
pygame.event.post(e2)
pygame.event.post(e3)
self.assertEqual(pygame.event.poll().type, e1.type)
self.assertEqual(pygame.event.poll().type, e2.type)
self.assertEqual(pygame.event.poll().type, e3.type)
self.assertEqual(pygame.event.poll().type, pygame.NOEVENT)
class EventModuleTestsWithTiming(unittest.TestCase):
__tags__ = ["timing"]
def setUp(self):
pygame.display.init()
pygame.event.clear() # flush events
def tearDown(self):
pygame.event.clear() # flush events
pygame.display.quit()
def test_event_wait(self):
"""Ensure wait() waits for an event on the queue."""
# Test case without timeout.
event = pygame.event.Event(EVENT_TYPES[0], **EVENT_TEST_PARAMS[EVENT_TYPES[0]])
pygame.event.post(event)
wait_event = pygame.event.wait()
self.assertEqual(wait_event.type, event.type)
# Test case with timeout and no event in the queue.
wait_event = pygame.event.wait(100)
self.assertEqual(wait_event.type, pygame.NOEVENT)
# Test case with timeout and an event in the queue.
event = pygame.event.Event(EVENT_TYPES[0], **EVENT_TEST_PARAMS[EVENT_TYPES[0]])
pygame.event.post(event)
wait_event = pygame.event.wait(100)
self.assertEqual(wait_event.type, event.type)
# test wait with timeout waits for the correct duration
pygame.time.set_timer(pygame.USEREVENT, 50, 3)
for wait_time, expected_type, expected_time in (
(60, pygame.USEREVENT, 50),
(65, pygame.USEREVENT, 50),
(20, pygame.NOEVENT, 20),
(45, pygame.USEREVENT, 30),
(70, pygame.NOEVENT, 70),
):
start_time = time.perf_counter()
self.assertEqual(pygame.event.wait(wait_time).type, expected_type)
self.assertAlmostEqual(
time.perf_counter() - start_time, expected_time / 1000, delta=0.01
)
# test wait without timeout waits for the full duration
pygame.time.set_timer(pygame.USEREVENT, 100, 1)
start_time = time.perf_counter()
self.assertEqual(pygame.event.wait().type, pygame.USEREVENT)
self.assertAlmostEqual(time.perf_counter() - start_time, 0.1, delta=0.01)
# test wait returns no event if event is arriving later
pygame.time.set_timer(pygame.USEREVENT, 50, 1)
self.assertEqual(pygame.event.wait(40).type, pygame.NOEVENT)
################################################################################
if __name__ == "__main__":
unittest.main()
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