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|
# SPDX-License-Identifier: GPL-2.0-only
#
# Copyright (C) 2019 EfficiOS Inc.
#
# pyright: strict, reportPrivateUsage=false
import uuid
import typing
import unittest
import bt2
from bt2 import value as bt2_value
from bt2 import clock_class as bt2_clock_class
from utils import (
TestOutputPortMessageIterator,
run_in_component_init,
get_const_event_message,
)
from test_all_mip_versions import test_all_mip_versions
class ClockOffsetTestCase(unittest.TestCase):
def test_create_default(self):
cco = bt2.ClockOffset()
self.assertEqual(cco.seconds, 0)
self.assertEqual(cco.cycles, 0)
def test_create(self):
cco = bt2.ClockOffset(23, 4871232)
self.assertEqual(cco.seconds, 23)
self.assertEqual(cco.cycles, 4871232)
def test_create_kwargs(self):
cco = bt2.ClockOffset(seconds=23, cycles=4871232)
self.assertEqual(cco.seconds, 23)
self.assertEqual(cco.cycles, 4871232)
def test_create_invalid_seconds(self):
with self.assertRaises(TypeError):
bt2.ClockOffset("hello", 4871232) # type: ignore
def test_create_invalid_cycles(self):
with self.assertRaises(TypeError):
bt2.ClockOffset(23, "hello") # type: ignore
def test_eq(self):
cco1 = bt2.ClockOffset(23, 42)
cco2 = bt2.ClockOffset(23, 42)
self.assertEqual(cco1, cco2)
def test_ne_seconds(self):
cco1 = bt2.ClockOffset(23, 42)
cco2 = bt2.ClockOffset(24, 42)
self.assertNotEqual(cco1, cco2)
def test_ne_cycles(self):
cco1 = bt2.ClockOffset(23, 42)
cco2 = bt2.ClockOffset(23, 43)
self.assertNotEqual(cco1, cco2)
def test_eq_invalid(self):
self.assertFalse(bt2.ClockOffset() == 23)
RetT = typing.TypeVar("RetT")
@test_all_mip_versions
class ClockClassTestCase(unittest.TestCase):
@classmethod
def setUpClass(cls):
# Big hack to make `_mip_version` known to static type checkers in a
# Python 3.4 compatible way.
cls._mip_version = -1
del cls._mip_version
def run_in_component_init(self, f: typing.Callable[[bt2._UserSinkComponent], RetT]):
return run_in_component_init(self._mip_version, f)
def assertRaisesInComponentInit(
self,
expected_exc_type: typing.Type[Exception],
user_code: typing.Callable[[bt2._UserSinkComponent], RetT],
expected_str: typing.Optional[str] = None,
):
def f(comp_self: bt2._UserSinkComponent):
try:
user_code(comp_self)
except Exception as exc:
return exc
exc = self.run_in_component_init(f)
self.assertIsNotNone(exc)
self.assertEqual(type(exc), expected_exc_type)
if expected_str is not None:
self.assertIn(expected_str, str(exc))
def test_create_default(self):
cc = run_in_component_init(
self._mip_version, lambda comp_self: comp_self._create_clock_class()
)
self.assertIsNone(cc.name)
self.assertEqual(cc.frequency, 1000000000)
self.assertIsNone(cc.description)
if self._mip_version == 0:
self.assertEqual(cc.precision, 0)
else:
self.assertIsNone(cc.precision)
self.assertIsNone(cc.accuracy)
self.assertEqual(cc.offset, bt2.ClockOffset())
self.assertIs(cc.origin, bt2.unix_epoch_clock_origin)
if self._mip_version == 0:
self.assertIsNone(cc.uuid)
else:
self.assertIsNone(cc.namespace)
self.assertIsNone(cc.name)
self.assertIsNone(cc.uid)
self.assertEqual(len(cc.user_attributes), 0)
def test_create_namespace(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(namespace="the_clock")
if self._mip_version == 0:
self.assertRaisesInComponentInit(
ValueError,
f,
"Clock class namespace is only available with MIP version ≥ 1 (currently 0)",
)
else:
self.assertEqual(self.run_in_component_init(f).namespace, "the_clock")
def test_create_invalid_namespace(self):
if self._mip_version < 1:
self.skipTest("requires MIP >= 1")
def f(comp_self: bt2._UserSinkComponent):
comp_self._create_clock_class(namespace=23) # type: ignore
self.assertRaisesInComponentInit(TypeError, f, "'int' is not a 'str' object")
def test_create_name(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(name="the_clock")
cc = self.run_in_component_init(f)
self.assertEqual(cc.name, "the_clock")
def test_create_invalid_name(self):
def f(comp_self: bt2._UserSinkComponent):
comp_self._create_clock_class(name=23) # type: ignore
self.assertRaisesInComponentInit(TypeError, f)
def test_create_uid(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(uid="the_clock")
if self._mip_version == 0:
self.assertRaisesInComponentInit(
ValueError,
f,
"Clock class UID is only available with MIP version ≥ 1 (currently 0)",
)
else:
self.assertEqual(self.run_in_component_init(f).uid, "the_clock")
def test_create_invalid_uid(self):
if self._mip_version < 1:
self.skipTest("requires MIP >= 1")
def f(comp_self: bt2._UserSinkComponent):
comp_self._create_clock_class(uid=23) # type: ignore
self.assertRaisesInComponentInit(TypeError, f, "'int' is not a 'str' object")
def test_create_description(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(description="hi people")
cc = self.run_in_component_init(f)
self.assertEqual(cc.description, "hi people")
def test_create_invalid_description(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(description=23) # type: ignore
self.assertRaisesInComponentInit(TypeError, f)
def test_create_frequency(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(frequency=987654321)
cc = self.run_in_component_init(f)
self.assertEqual(cc.frequency, 987654321)
def test_create_invalid_frequency(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(frequency="lel") # type: ignore
self.assertRaisesInComponentInit(TypeError, f)
def test_create_precision(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(precision=12)
self.assertEqual(self.run_in_component_init(f).precision, 12)
def test_create_accuracy(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(accuracy=12)
if self._mip_version == 0:
self.assertRaisesInComponentInit(
ValueError,
f,
"Clock class accuracy is only available with MIP version ≥ 1 (currently 0)",
)
else:
self.assertEqual(self.run_in_component_init(f).accuracy, 12)
def test_create_invalid_precision(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(precision="lel") # type: ignore
self.assertRaisesInComponentInit(TypeError, f)
def test_create_offset(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(offset=bt2.ClockOffset(12, 56))
cc = self.run_in_component_init(f)
self.assertEqual(cc.offset, bt2.ClockOffset(12, 56))
def test_create_invalid_offset(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(offset=object()) # type: ignore
self.assertRaisesInComponentInit(TypeError, f)
def test_create_origin_is_unix_epoch_true(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(origin_is_unix_epoch=True)
cc = self.run_in_component_init(f)
self.assertIs(cc.origin, bt2.unix_epoch_clock_origin)
def test_create_origin_is_unix_epoch_false(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(origin_is_unix_epoch=False)
cc = self.run_in_component_init(f)
self.assertIs(cc.origin, bt2.unknown_clock_origin)
def test_create_invalid_origin_is_unix_epoch(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(origin_is_unix_epoch=23) # type: ignore
self.assertRaisesInComponentInit(TypeError, f)
def test_create_unix_epoch_origin(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(origin=bt2.unix_epoch_clock_origin)
cc = self.run_in_component_init(f)
self.assertIs(cc.origin, bt2.unix_epoch_clock_origin)
def test_create_custom_origin(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(
origin=bt2.ClockOrigin("ns", "name", "uid")
)
if self._mip_version == 0:
self.assertRaisesInComponentInit(
ValueError,
f,
"Custom clock class origin is only available with MIP version ≥ 1 (currently 0)",
)
else:
origin = self.run_in_component_init(f).origin
assert type(origin) is bt2.ClockOrigin
self.assertEqual(origin.namespace, "ns")
self.assertEqual(origin.name, "name")
self.assertEqual(origin.uid, "uid")
def test_create_unknown_origin(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(origin=bt2.unknown_clock_origin)
cc = self.run_in_component_init(f)
self.assertIs(cc.origin, bt2.unknown_clock_origin)
def test_create_invalid_origin(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(origin=23) # type: ignore
self.assertRaisesInComponentInit(
TypeError,
f,
"'int' is not a '<class 'bt2.clock_class.ClockOrigin'>' object",
)
def test_create_multiple_origin(self):
cases = (
(True, bt2.ClockOrigin("ns", "name", "uid")),
(False, bt2.ClockOrigin("ns", "name", "uid")),
)
for case in cases:
origin_is_unix_epoch, origin = case
class Foo:
def __init__(
self,
origin_is_unix_epoch: typing.Optional[bool],
origin: typing.Optional[bt2.ClockOrigin],
):
self.origin_is_unix_epoch = origin_is_unix_epoch
self.origin = origin
def __call__(self, comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(
origin_is_unix_epoch=self.origin_is_unix_epoch,
origin=self.origin,
)
self.assertRaisesInComponentInit(
ValueError,
Foo(origin_is_unix_epoch, origin),
"only one of `origin_is_unix_epoch` and `origin` can be set",
)
def test_cycles_to_ns_from_origin(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(
frequency=10**8, origin_is_unix_epoch=True
)
cc = self.run_in_component_init(f)
self.assertEqual(cc.cycles_to_ns_from_origin(112), 1120)
def test_cycles_to_ns_from_origin_overflow(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(frequency=1000)
cc = self.run_in_component_init(f)
with self.assertRaises(bt2._OverflowError):
cc.cycles_to_ns_from_origin(2**63)
def test_create_uuid(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(
uuid=uuid.UUID("b43372c32ef0be28444dfc1c5cdafd33")
)
if self._mip_version == 0:
self.assertEqual(
self.run_in_component_init(f).uuid,
uuid.UUID("b43372c32ef0be28444dfc1c5cdafd33"),
)
else:
self.assertRaisesInComponentInit(
ValueError,
f,
"Clock class UUID is only available with MIP version 0 (currently 1)",
)
def test_create_invalid_uuid(self):
if self._mip_version != 0:
self.skipTest("requires MIP == 0")
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(uuid=23) # type: ignore
self.assertRaisesInComponentInit(TypeError, f)
def test_create_user_attributes(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(user_attributes={"salut": 23})
cc = self.run_in_component_init(f)
self.assertEqual(cc.user_attributes, {"salut": 23})
self.assertIs(type(cc.user_attributes), bt2_value.MapValue)
def test_const_user_attributes(self):
cc = get_const_event_message().default_clock_snapshot.clock_class
self.assertEqual(cc.user_attributes, {"a-clock-class-attribute": 1})
self.assertIs(type(cc.user_attributes), bt2._MapValueConst)
def test_create_invalid_user_attributes(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(user_attributes=object()) # type: ignore
self.assertRaisesInComponentInit(TypeError, f)
def test_create_invalid_user_attributes_value_type(self):
def f(comp_self: bt2._UserSinkComponent):
return comp_self._create_clock_class(user_attributes=23) # type: ignore
self.assertRaisesInComponentInit(TypeError, f)
class ClockSnapshotTestCase(unittest.TestCase):
def run_in_component_init(self, f: typing.Callable[[bt2._UserSinkComponent], RetT]):
return run_in_component_init(0, f)
def setUp(self):
def f(comp_self: bt2._UserSinkComponent):
cc = comp_self._create_clock_class(
1000, "my_cc", offset=bt2.ClockOffset(45, 354)
)
tc = comp_self._create_trace_class()
return (cc, tc)
_cc, _tc = self.run_in_component_init(f)
_trace = _tc()
_sc = _tc.create_stream_class(default_clock_class=_cc)
_ec = _sc.create_event_class(name="salut")
_stream = _trace.create_stream(_sc)
self._stream = _stream
self._ec = _ec
self._cc = _cc
class MyIter(bt2._UserMessageIterator):
def __init__(
self,
config: bt2._MessageIteratorConfiguration,
self_port_output: bt2._UserComponentOutputPort,
):
self._at = 0
def __next__(self):
if self._at == 0:
notif = self._create_stream_beginning_message(_stream)
elif self._at == 1:
notif = self._create_event_message(_ec, _stream, 123)
elif self._at == 2:
notif = self._create_event_message(_ec, _stream, 2**63)
elif self._at == 3:
notif = self._create_stream_end_message(_stream)
else:
raise bt2.Stop
self._at += 1
return notif
class MySrc(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(
self,
config: bt2._UserSourceComponentConfiguration,
params: bt2._MapValueConst,
obj: object,
):
self._add_output_port("out")
self._graph = bt2.Graph()
self._src_comp = self._graph.add_component(MySrc, "my_source")
self._msg_iter = TestOutputPortMessageIterator(
self._graph, self._src_comp.output_ports["out"]
)
for i, msg in enumerate(self._msg_iter):
if i == 1:
assert type(msg) is bt2._EventMessageConst
self._msg = msg
elif i == 2:
assert type(msg) is bt2._EventMessageConst
self._msg_clock_overflow = msg
break
def tearDown(self):
del self._cc
del self._msg
def test_create_default(self):
self.assertEqual(
self._msg.default_clock_snapshot.clock_class.addr, self._cc.addr
)
self.assertEqual(self._msg.default_clock_snapshot.value, 123)
def test_clock_class(self):
cc = self._msg.default_clock_snapshot.clock_class
self.assertEqual(cc.addr, self._cc.addr)
self.assertIs(type(cc), bt2_clock_class._ClockClassConst)
def test_ns_from_origin(self):
s_from_origin = 45 + ((354 + 123) / 1000)
ns_from_origin = int(s_from_origin * 1e9)
self.assertEqual(
self._msg.default_clock_snapshot.ns_from_origin, ns_from_origin
)
def test_ns_from_origin_overflow(self):
with self.assertRaises(bt2._OverflowError):
self._msg_clock_overflow.default_clock_snapshot.ns_from_origin
def test_eq_int(self):
self.assertEqual(self._msg.default_clock_snapshot, 123)
def test_eq_invalid(self):
self.assertFalse(self._msg.default_clock_snapshot == 23)
def test_comparison(self):
self.assertTrue(self._msg.default_clock_snapshot > 100)
self.assertFalse(self._msg.default_clock_snapshot > 200)
self.assertTrue(self._msg.default_clock_snapshot >= 123)
self.assertFalse(self._msg.default_clock_snapshot >= 200)
self.assertTrue(self._msg.default_clock_snapshot < 200)
self.assertFalse(self._msg.default_clock_snapshot < 100)
self.assertTrue(self._msg.default_clock_snapshot <= 123)
self.assertFalse(self._msg.default_clock_snapshot <= 100)
if __name__ == "__main__":
unittest.main()
|
