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|
# SPDX-License-Identifier: GPL-2.0-only
#
# Copyright (C) 2019 EfficiOS Inc.
#
import sys
import unittest
import bt2
from bt2 import port as bt2_port
from bt2 import message_iterator as bt2_message_iterator
from utils import TestOutputPortMessageIterator
class SimpleSink(bt2._UserSinkComponent):
# Straightforward sink that creates one input port (`in`) and consumes from
# it.
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_consume(self):
next(self._msg_iter)
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _create_graph(src_comp_cls, sink_comp_cls, flt_comp_cls=None):
graph = bt2.Graph()
src_comp = graph.add_component(src_comp_cls, "src")
sink_comp = graph.add_component(sink_comp_cls, "sink")
if flt_comp_cls is not None:
flt_comp = graph.add_component(flt_comp_cls, "flt")
graph.connect_ports(src_comp.output_ports["out"], flt_comp.input_ports["in"])
graph.connect_ports(flt_comp.output_ports["out"], sink_comp.input_ports["in"])
else:
graph.connect_ports(src_comp.output_ports["out"], sink_comp.input_ports["in"])
return graph
class UserMessageIteratorTestCase(unittest.TestCase):
def test_init(self):
the_output_port_from_source = None
the_output_port_from_iter = None
class MyIter(bt2._UserMessageIterator):
def __init__(self, config, self_port_output):
nonlocal initialized
nonlocal the_output_port_from_iter
initialized = True
the_output_port_from_iter = self_port_output
class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, config, params, obj):
nonlocal the_output_port_from_source
the_output_port_from_source = self._add_output_port("out", "user data")
initialized = False
graph = _create_graph(MySource, SimpleSink)
graph.run()
self.assertTrue(initialized)
self.assertEqual(
the_output_port_from_source.addr, the_output_port_from_iter.addr
)
self.assertEqual(the_output_port_from_iter.user_data, "user data")
def test_create_from_message_iterator(self):
class MySourceIter(bt2._UserMessageIterator):
def __init__(self, config, self_port_output):
nonlocal src_iter_initialized
src_iter_initialized = True
class MySource(bt2._UserSourceComponent, message_iterator_class=MySourceIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
class MyFilterIter(bt2._UserMessageIterator):
def __init__(self, config, self_port_output):
nonlocal flt_iter_initialized
flt_iter_initialized = True
self._up_iter = self._create_message_iterator(
self._component._input_ports["in"]
)
def __next__(self):
return next(self._up_iter)
class MyFilter(bt2._UserFilterComponent, message_iterator_class=MyFilterIter):
def __init__(self, config, params, obj):
self._add_input_port("in")
self._add_output_port("out")
src_iter_initialized = False
flt_iter_initialized = False
graph = _create_graph(MySource, SimpleSink, MyFilter)
graph.run()
self.assertTrue(src_iter_initialized)
self.assertTrue(flt_iter_initialized)
# Test that creating a message iterator from a sink component on a
# non-connected input port raises.
def test_create_from_sink_component_unconnected_port_raises(self):
class MySink(bt2._UserSinkComponent):
def __init__(comp_self, config, params, obj):
comp_self._input_port = comp_self._add_input_port("in")
def _user_graph_is_configured(comp_self):
with self.assertRaisesRegex(ValueError, "input port is not connected"):
comp_self._create_message_iterator(comp_self._input_port)
nonlocal seen
seen = True
def _user_consume(self):
raise bt2.Stop
seen = False
graph = bt2.Graph()
graph.add_component(MySink, "snk")
graph.run()
self.assertTrue(seen)
# Test that creating a message iterator from a message iterator on a
# non-connected input port raises.
def test_create_from_message_iterator_unconnected_port_raises(self):
class MyFilterIter(bt2._UserMessageIterator):
def __init__(iter_self, config, port):
input_port = iter_self._component._input_ports["in"]
with self.assertRaisesRegex(ValueError, "input port is not connected"):
iter_self._create_message_iterator(input_port)
nonlocal seen
seen = True
class MyFilter(bt2._UserFilterComponent, message_iterator_class=MyFilterIter):
def __init__(comp_self, config, params, obj):
comp_self._add_input_port("in")
comp_self._add_output_port("out")
class MySink(bt2._UserSinkComponent):
def __init__(comp_self, config, params, obj):
comp_self._input_port = comp_self._add_input_port("in")
def _user_graph_is_configured(comp_self):
comp_self._input_iter = comp_self._create_message_iterator(
comp_self._input_port
)
def _user_consume(self):
raise bt2.Stop
seen = False
graph = bt2.Graph()
flt = graph.add_component(MyFilter, "flt")
snk = graph.add_component(MySink, "snk")
graph.connect_ports(flt.output_ports["out"], snk.input_ports["in"])
graph.run()
self.assertTrue(seen)
def test_create_user_error(self):
# This tests both error handling by
# _UserSinkComponent._create_message_iterator
# and _UserMessageIterator._create_message_iterator, as they
# are both used in the graph.
class MySourceIter(bt2._UserMessageIterator):
def __init__(self, config, self_port_output):
raise ValueError("Very bad error")
class MySource(bt2._UserSourceComponent, message_iterator_class=MySourceIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
class MyFilterIter(bt2._UserMessageIterator):
def __init__(self, config, self_port_output):
# This is expected to raise because of the error in
# MySourceIter.__init__.
self._create_message_iterator(self._component._input_ports["in"])
class MyFilter(bt2._UserFilterComponent, message_iterator_class=MyFilterIter):
def __init__(self, config, params, obj):
self._add_input_port("in")
self._add_output_port("out")
graph = _create_graph(MySource, SimpleSink, MyFilter)
with self.assertRaises(bt2._Error) as ctx:
graph.run()
exc = ctx.exception
cause = exc[0]
self.assertIsInstance(cause, bt2._MessageIteratorErrorCause)
self.assertEqual(cause.component_name, "src")
self.assertEqual(cause.component_output_port_name, "out")
self.assertIn("ValueError: Very bad error", cause.message)
def test_finalize(self):
class MyIter(bt2._UserMessageIterator):
def _user_finalize(self):
nonlocal finalized
finalized = True
class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
finalized = False
graph = _create_graph(MySource, SimpleSink)
graph.run()
del graph
self.assertTrue(finalized)
def test_config_parameter(self):
class MyIter(bt2._UserMessageIterator):
def __init__(self, config, port):
nonlocal config_type
config_type = type(config)
class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
config_type = None
graph = _create_graph(MySource, SimpleSink)
graph.run()
self.assertIs(config_type, bt2_message_iterator._MessageIteratorConfiguration)
def _test_config_can_seek_forward(self, set_can_seek_forward):
class MyIter(bt2._UserMessageIterator):
def __init__(self, config, port):
if set_can_seek_forward:
config.can_seek_forward = True
class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
nonlocal can_seek_forward
can_seek_forward = self._msg_iter.can_seek_forward
can_seek_forward = None
graph = _create_graph(MySource, MySink)
graph.run_once()
self.assertIs(can_seek_forward, set_can_seek_forward)
def test_config_can_seek_forward_default(self):
self._test_config_can_seek_forward(False)
def test_config_can_seek_forward(self):
self._test_config_can_seek_forward(True)
def test_config_can_seek_forward_wrong_type(self):
class MyIter(bt2._UserMessageIterator):
def __init__(self, config, port):
config.can_seek_forward = 1
class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
graph = _create_graph(MySource, SimpleSink)
with self.assertRaises(bt2._Error) as ctx:
graph.run()
root_cause = ctx.exception[0]
self.assertIn("TypeError: 'int' is not a 'bool' object", root_cause.message)
def test_component(self):
class MyIter(bt2._UserMessageIterator):
def __init__(self, config, self_port_output):
nonlocal salut
salut = self._component._salut
class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
self._salut = 23
salut = None
graph = _create_graph(MySource, SimpleSink)
graph.run()
self.assertEqual(salut, 23)
def test_port(self):
class MyIter(bt2._UserMessageIterator):
def __init__(self_iter, config, self_port_output):
nonlocal called
called = True
port = self_iter._port
self.assertIs(type(self_port_output), bt2_port._UserComponentOutputPort)
self.assertIs(type(port), bt2_port._UserComponentOutputPort)
self.assertEqual(self_port_output.addr, port.addr)
class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
called = False
graph = _create_graph(MySource, SimpleSink)
graph.run()
self.assertTrue(called)
def test_addr(self):
class MyIter(bt2._UserMessageIterator):
def __init__(self, config, self_port_output):
nonlocal addr
addr = self.addr
class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
addr = None
graph = _create_graph(MySource, SimpleSink)
graph.run()
self.assertIsNotNone(addr)
self.assertNotEqual(addr, 0)
# Test that messages returned by _UserMessageIterator.__next__ remain valid
# and can be re-used.
def test_reuse_message(self):
class MyIter(bt2._UserMessageIterator):
def __init__(self, config, port):
tc, sc, ec = port.user_data
trace = tc()
stream = trace.create_stream(sc)
packet = stream.create_packet()
# This message will be returned twice by __next__.
event_message = self._create_event_message(ec, packet)
self._msgs = [
self._create_stream_beginning_message(stream),
self._create_packet_beginning_message(packet),
event_message,
event_message,
]
def __next__(self):
return self._msgs.pop(0)
class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, config, params, obj):
tc = self._create_trace_class()
sc = tc.create_stream_class(supports_packets=True)
ec = sc.create_event_class()
self._add_output_port("out", (tc, sc, ec))
graph = bt2.Graph()
src = graph.add_component(MySource, "src")
it = TestOutputPortMessageIterator(graph, src.output_ports["out"])
# Skip beginning messages.
msg = next(it)
self.assertIs(type(msg), bt2._StreamBeginningMessageConst)
msg = next(it)
self.assertIs(type(msg), bt2._PacketBeginningMessageConst)
msg_ev1 = next(it)
msg_ev2 = next(it)
self.assertIs(type(msg_ev1), bt2._EventMessageConst)
self.assertIs(type(msg_ev2), bt2._EventMessageConst)
self.assertEqual(msg_ev1.addr, msg_ev2.addr)
# Try consuming many times from an iterator that always returns TryAgain.
# This verifies that we are not missing an incref of Py_None, making the
# refcount of Py_None reach 0.
def test_try_again_many_times(self):
# Starting with Python 3.12, `None` is immortal: its reference
# count operations are no-op. Skip this test in that case.
before = sys.getrefcount(None)
dummy = None # noqa: F841
if before == sys.getrefcount(None):
raise unittest.SkipTest("`None` is immortal")
class MyIter(bt2._UserMessageIterator):
def __next__(self):
raise bt2.TryAgain
class MySource(bt2._UserSourceComponent, message_iterator_class=MyIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
graph = bt2.Graph()
src = graph.add_component(MySource, "src")
it = TestOutputPortMessageIterator(graph, src.output_ports["out"])
# Three times the initial ref count of `None` iterations should
# be enough to catch the bug even if there are small differences
# between configurations.
none_ref_count = sys.getrefcount(None) * 3
for i in range(none_ref_count):
with self.assertRaises(bt2.TryAgain):
next(it)
def test_error_in_iterator_with_cycle_after_having_created_upstream_iterator(self):
# Test a failure that triggered an abort in libbabeltrace2, in this situation:
#
# - The filter iterator creates an upstream iterator.
# - The filter iterator creates a reference cycle, including itself.
# - An exception is raised, causing the filter iterator's
# initialization method to fail.
class MySourceIter(bt2._UserMessageIterator):
pass
class MySource(bt2._UserSourceComponent, message_iterator_class=MySourceIter):
def __init__(self, config, params, obj):
self._add_output_port("out")
class MyFilterIter(bt2._UserMessageIterator):
def __init__(self, config, port):
# First, create an upstream iterator.
self._upstream_iter = self._create_message_iterator(
self._component._input_ports["in"]
)
# Then, voluntarily make a reference cycle that will keep this
# Python object alive, which will keep the upstream iterator
# Babeltrace object alive.
self._self = self
# Finally, raise an exception to make __init__ fail.
raise ValueError("woops")
class MyFilter(bt2._UserFilterComponent, message_iterator_class=MyFilterIter):
def __init__(self, config, params, obj):
self._in = self._add_input_port("in")
self._out = self._add_output_port("out")
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._input_port = self._add_input_port("in")
def _user_graph_is_configured(self):
self._upstream_iter = self._create_message_iterator(self._input_port)
def _user_consume(self):
# We should not reach this.
assert False
g = bt2.Graph()
src = g.add_component(MySource, "src")
flt = g.add_component(MyFilter, "flt")
snk = g.add_component(MySink, "snk")
g.connect_ports(src.output_ports["out"], flt.input_ports["in"])
g.connect_ports(flt.output_ports["out"], snk.input_ports["in"])
with self.assertRaisesRegex(bt2._Error, "ValueError: woops"):
g.run()
def _setup_seek_test(
sink_cls,
user_seek_beginning=None,
user_can_seek_beginning=None,
user_seek_ns_from_origin=None,
user_can_seek_ns_from_origin=None,
can_seek_forward=False,
):
class MySourceIter(bt2._UserMessageIterator):
def __init__(self, config, port):
tc, sc, ec = port.user_data
trace = tc()
stream = trace.create_stream(sc)
packet = stream.create_packet()
self._msgs = [
self._create_stream_beginning_message(stream),
self._create_packet_beginning_message(packet),
self._create_event_message(ec, packet),
self._create_event_message(ec, packet),
self._create_packet_end_message(packet),
self._create_stream_end_message(stream),
]
self._at = 0
config.can_seek_forward = can_seek_forward
def __next__(self):
if self._at < len(self._msgs):
msg = self._msgs[self._at]
self._at += 1
return msg
else:
raise StopIteration
if user_seek_beginning is not None:
MySourceIter._user_seek_beginning = user_seek_beginning
if user_can_seek_beginning is not None:
MySourceIter._user_can_seek_beginning = user_can_seek_beginning
if user_seek_ns_from_origin is not None:
MySourceIter._user_seek_ns_from_origin = user_seek_ns_from_origin
if user_can_seek_ns_from_origin is not None:
MySourceIter._user_can_seek_ns_from_origin = user_can_seek_ns_from_origin
class MySource(bt2._UserSourceComponent, message_iterator_class=MySourceIter):
def __init__(self, config, params, obj):
tc = self._create_trace_class()
sc = tc.create_stream_class(supports_packets=True)
ec = sc.create_event_class()
self._add_output_port("out", (tc, sc, ec))
class MyFilterIter(bt2._UserMessageIterator):
def __init__(self, config, port):
self._upstream_iter = self._create_message_iterator(
self._component._input_ports["in"]
)
config.can_seek_forward = self._upstream_iter.can_seek_forward
def __next__(self):
return next(self._upstream_iter)
def _user_can_seek_beginning(self):
return self._upstream_iter.can_seek_beginning()
def _user_seek_beginning(self):
self._upstream_iter.seek_beginning()
def _user_can_seek_ns_from_origin(self, ns_from_origin):
return self._upstream_iter.can_seek_ns_from_origin(ns_from_origin)
def _user_seek_ns_from_origin(self, ns_from_origin):
self._upstream_iter.seek_ns_from_origin(ns_from_origin)
class MyFilter(bt2._UserFilterComponent, message_iterator_class=MyFilterIter):
def __init__(self, config, params, obj):
self._add_input_port("in")
self._add_output_port("out")
return _create_graph(MySource, sink_cls, flt_comp_cls=MyFilter)
class UserMessageIteratorSeekBeginningTestCase(unittest.TestCase):
def test_can_seek_beginning_without_seek_beginning(self):
with self.assertRaisesRegex(
bt2._IncompleteUserClass,
"cannot create component class 'MySource': message iterator class implements _user_can_seek_beginning but not _user_seek_beginning",
):
_setup_seek_test(SimpleSink, user_can_seek_beginning=lambda: None)
def test_can_seek_beginning(self):
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
nonlocal can_seek_beginning
can_seek_beginning = self._msg_iter.can_seek_beginning()
def _user_can_seek_beginning(self):
return input_port_iter_can_seek_beginning
graph = _setup_seek_test(
MySink,
user_can_seek_beginning=_user_can_seek_beginning,
user_seek_beginning=lambda: None,
)
input_port_iter_can_seek_beginning = True
can_seek_beginning = None
graph.run_once()
self.assertIs(can_seek_beginning, True)
input_port_iter_can_seek_beginning = False
can_seek_beginning = None
graph.run_once()
self.assertIs(can_seek_beginning, False)
def test_no_can_seek_beginning_with_seek_beginning(self):
# Test an iterator without a _user_can_seek_beginning method, but with
# a _user_seek_beginning method.
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
nonlocal can_seek_beginning
can_seek_beginning = self._msg_iter.can_seek_beginning()
def _user_seek_beginning(self):
pass
graph = _setup_seek_test(MySink, user_seek_beginning=_user_seek_beginning)
can_seek_beginning = None
graph.run_once()
self.assertIs(can_seek_beginning, True)
def test_no_can_seek_beginning(self):
# Test an iterator without a _user_can_seek_beginning method, without
# a _user_seek_beginning method.
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
nonlocal can_seek_beginning
can_seek_beginning = self._msg_iter.can_seek_beginning()
graph = _setup_seek_test(MySink)
can_seek_beginning = None
graph.run_once()
self.assertIs(can_seek_beginning, False)
def test_can_seek_beginning_user_error(self):
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
# This is expected to raise.
self._msg_iter.can_seek_beginning()
def _user_can_seek_beginning(self):
raise ValueError("moustiquaire")
graph = _setup_seek_test(
MySink,
user_can_seek_beginning=_user_can_seek_beginning,
user_seek_beginning=lambda: None,
)
with self.assertRaises(bt2._Error) as ctx:
graph.run_once()
cause = ctx.exception[0]
self.assertIn("ValueError: moustiquaire", cause.message)
def test_can_seek_beginning_wrong_return_value(self):
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
# This is expected to raise.
self._msg_iter.can_seek_beginning()
def _user_can_seek_beginning(self):
return "Amqui"
graph = _setup_seek_test(
MySink,
user_can_seek_beginning=_user_can_seek_beginning,
user_seek_beginning=lambda: None,
)
with self.assertRaises(bt2._Error) as ctx:
graph.run_once()
cause = ctx.exception[0]
self.assertIn("TypeError: 'str' is not a 'bool' object", cause.message)
def test_seek_beginning(self):
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
nonlocal msg
if do_seek_beginning:
self._msg_iter.seek_beginning()
return
msg = next(self._msg_iter)
def _user_seek_beginning(self):
self._at = 0
msg = None
graph = _setup_seek_test(MySink, user_seek_beginning=_user_seek_beginning)
# Consume message.
do_seek_beginning = False
graph.run_once()
self.assertIs(type(msg), bt2._StreamBeginningMessageConst)
# Consume message.
graph.run_once()
self.assertIs(type(msg), bt2._PacketBeginningMessageConst)
# Seek beginning.
do_seek_beginning = True
graph.run_once()
# Consume message.
do_seek_beginning = False
graph.run_once()
self.assertIs(type(msg), bt2._StreamBeginningMessageConst)
def test_seek_beginning_user_error(self):
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
self._msg_iter.seek_beginning()
def _user_seek_beginning(self):
raise ValueError("ouch")
graph = _setup_seek_test(MySink, user_seek_beginning=_user_seek_beginning)
with self.assertRaises(bt2._Error):
graph.run_once()
class UserMessageIteratorSeekNsFromOriginTestCase(unittest.TestCase):
def test_can_seek_ns_from_origin_without_seek_ns_from_origin(self):
# Test the case where:
#
# - can_seek_ns_from_origin: Returns True (don't really care, as long
# as it's provided)
# - seek_ns_from_origin provided: No
# - can the iterator seek beginning: Don't care
# - can the iterator seek forward: Don't care
for can_seek_ns_from_origin in (False, True):
for iter_can_seek_beginning in (False, True):
for iter_can_seek_forward in (False, True):
with self.assertRaisesRegex(
bt2._IncompleteUserClass,
"cannot create component class 'MySource': message iterator class implements _user_can_seek_ns_from_origin but not _user_seek_ns_from_origin",
):
self._can_seek_ns_from_origin_test(
None,
user_can_seek_ns_from_origin_ret_val=True,
user_seek_ns_from_origin_provided=False,
iter_can_seek_beginning=iter_can_seek_beginning,
iter_can_seek_forward=iter_can_seek_forward,
)
def test_can_seek_ns_from_origin_returns_true(self):
# Test the case where:
#
# - can_seek_ns_from_origin: returns True
# - seek_ns_from_origin provided: Yes
# - can the iterator seek beginning: Don't care
# - can the iterator seek forward: Don't care
#
# We expect iter.can_seek_ns_from_origin to return True.
for iter_can_seek_beginning in (False, True):
for iter_can_seek_forward in (False, True):
self._can_seek_ns_from_origin_test(
expected_outcome=True,
user_can_seek_ns_from_origin_ret_val=True,
user_seek_ns_from_origin_provided=True,
iter_can_seek_beginning=iter_can_seek_beginning,
iter_can_seek_forward=iter_can_seek_forward,
)
def test_can_seek_ns_from_origin_returns_false_can_seek_beginning_forward_seekable(
self,
):
# Test the case where:
#
# - can_seek_ns_from_origin: returns False
# - seek_ns_from_origin provided: Yes
# - can the iterator seek beginning: Yes
# - can the iterator seek forward: Yes
#
# We expect iter.can_seek_ns_from_origin to return True.
self._can_seek_ns_from_origin_test(
expected_outcome=True,
user_can_seek_ns_from_origin_ret_val=False,
user_seek_ns_from_origin_provided=True,
iter_can_seek_beginning=True,
iter_can_seek_forward=True,
)
def test_can_seek_ns_from_origin_returns_false_can_seek_beginning_not_forward_seekable(
self,
):
# Test the case where:
#
# - can_seek_ns_from_origin: returns False
# - seek_ns_from_origin provided: Yes
# - can the iterator seek beginning: Yes
# - can the iterator seek forward: No
#
# We expect iter.can_seek_ns_from_origin to return False.
self._can_seek_ns_from_origin_test(
expected_outcome=False,
user_can_seek_ns_from_origin_ret_val=False,
user_seek_ns_from_origin_provided=True,
iter_can_seek_beginning=True,
iter_can_seek_forward=False,
)
def test_can_seek_ns_from_origin_returns_false_cant_seek_beginning_forward_seekable(
self,
):
# Test the case where:
#
# - can_seek_ns_from_origin: returns False
# - seek_ns_from_origin provided: Yes
# - can the iterator seek beginning: No
# - can the iterator seek forward: Yes
#
# We expect iter.can_seek_ns_from_origin to return False.
self._can_seek_ns_from_origin_test(
expected_outcome=False,
user_can_seek_ns_from_origin_ret_val=False,
user_seek_ns_from_origin_provided=True,
iter_can_seek_beginning=False,
iter_can_seek_forward=True,
)
def test_can_seek_ns_from_origin_returns_false_cant_seek_beginning_not_forward_seekable(
self,
):
# Test the case where:
#
# - can_seek_ns_from_origin: returns False
# - seek_ns_from_origin provided: Yes
# - can the iterator seek beginning: No
# - can the iterator seek forward: No
#
# We expect iter.can_seek_ns_from_origin to return False.
self._can_seek_ns_from_origin_test(
expected_outcome=False,
user_can_seek_ns_from_origin_ret_val=False,
user_seek_ns_from_origin_provided=True,
iter_can_seek_beginning=False,
iter_can_seek_forward=False,
)
def test_no_can_seek_ns_from_origin_seek_ns_from_origin(self):
# Test the case where:
#
# - can_seek_ns_from_origin: Not provided
# - seek_ns_from_origin provided: Yes
# - can the iterator seek beginning: Don't care
# - can the iterator seek forward: Don't care
#
# We expect iter.can_seek_ns_from_origin to return True.
for iter_can_seek_beginning in (False, True):
for iter_can_seek_forward in (False, True):
self._can_seek_ns_from_origin_test(
expected_outcome=True,
user_can_seek_ns_from_origin_ret_val=None,
user_seek_ns_from_origin_provided=True,
iter_can_seek_beginning=iter_can_seek_beginning,
iter_can_seek_forward=iter_can_seek_forward,
)
def test_no_can_seek_ns_from_origin_no_seek_ns_from_origin_can_seek_beginning_forward_seekable(
self,
):
# Test the case where:
#
# - can_seek_ns_from_origin: Not provided
# - seek_ns_from_origin provided: Not provided
# - can the iterator seek beginning: Yes
# - can the iterator seek forward: Yes
#
# We expect iter.can_seek_ns_from_origin to return True.
self._can_seek_ns_from_origin_test(
expected_outcome=True,
user_can_seek_ns_from_origin_ret_val=None,
user_seek_ns_from_origin_provided=False,
iter_can_seek_beginning=True,
iter_can_seek_forward=True,
)
def test_no_can_seek_ns_from_origin_no_seek_ns_from_origin_can_seek_beginning_not_forward_seekable(
self,
):
# Test the case where:
#
# - can_seek_ns_from_origin: Not provided
# - seek_ns_from_origin provided: Not provided
# - can the iterator seek beginning: Yes
# - can the iterator seek forward: No
#
# We expect iter.can_seek_ns_from_origin to return False.
self._can_seek_ns_from_origin_test(
expected_outcome=False,
user_can_seek_ns_from_origin_ret_val=None,
user_seek_ns_from_origin_provided=False,
iter_can_seek_beginning=True,
iter_can_seek_forward=False,
)
def test_no_can_seek_ns_from_origin_no_seek_ns_from_origin_cant_seek_beginning_forward_seekable(
self,
):
# Test the case where:
#
# - can_seek_ns_from_origin: Not provided
# - seek_ns_from_origin provided: Not provided
# - can the iterator seek beginning: No
# - can the iterator seek forward: Yes
#
# We expect iter.can_seek_ns_from_origin to return False.
self._can_seek_ns_from_origin_test(
expected_outcome=False,
user_can_seek_ns_from_origin_ret_val=None,
user_seek_ns_from_origin_provided=False,
iter_can_seek_beginning=False,
iter_can_seek_forward=True,
)
def test_no_can_seek_ns_from_origin_no_seek_ns_from_origin_cant_seek_beginning_not_forward_seekable(
self,
):
# Test the case where:
#
# - can_seek_ns_from_origin: Not provided
# - seek_ns_from_origin provided: Not provided
# - can the iterator seek beginning: No
# - can the iterator seek forward: No
#
# We expect iter.can_seek_ns_from_origin to return False.
self._can_seek_ns_from_origin_test(
expected_outcome=False,
user_can_seek_ns_from_origin_ret_val=None,
user_seek_ns_from_origin_provided=False,
iter_can_seek_beginning=False,
iter_can_seek_forward=False,
)
def _can_seek_ns_from_origin_test(
self,
expected_outcome,
user_can_seek_ns_from_origin_ret_val,
user_seek_ns_from_origin_provided,
iter_can_seek_beginning,
iter_can_seek_forward,
):
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
nonlocal can_seek_ns_from_origin
can_seek_ns_from_origin = self._msg_iter.can_seek_ns_from_origin(
passed_ns_from_origin
)
if user_can_seek_ns_from_origin_ret_val is not None:
def user_can_seek_ns_from_origin(self, ns_from_origin):
nonlocal received_ns_from_origin
received_ns_from_origin = ns_from_origin
return user_can_seek_ns_from_origin_ret_val
else:
user_can_seek_ns_from_origin = None
if user_seek_ns_from_origin_provided:
def user_seek_ns_from_origin(self, ns_from_origin):
pass
else:
user_seek_ns_from_origin = None
if iter_can_seek_beginning:
def user_seek_beginning(self):
pass
else:
user_seek_beginning = None
graph = _setup_seek_test(
MySink,
user_can_seek_ns_from_origin=user_can_seek_ns_from_origin,
user_seek_ns_from_origin=user_seek_ns_from_origin,
user_seek_beginning=user_seek_beginning,
can_seek_forward=iter_can_seek_forward,
)
passed_ns_from_origin = 77
received_ns_from_origin = None
can_seek_ns_from_origin = None
graph.run_once()
self.assertIs(can_seek_ns_from_origin, expected_outcome)
if user_can_seek_ns_from_origin_ret_val is not None:
self.assertEqual(received_ns_from_origin, passed_ns_from_origin)
def test_can_seek_ns_from_origin_user_error(self):
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
# This is expected to raise.
self._msg_iter.can_seek_ns_from_origin(2)
def _user_can_seek_ns_from_origin(self, ns_from_origin):
raise ValueError("Joutel")
graph = _setup_seek_test(
MySink,
user_can_seek_ns_from_origin=_user_can_seek_ns_from_origin,
user_seek_ns_from_origin=lambda: None,
)
with self.assertRaises(bt2._Error) as ctx:
graph.run_once()
cause = ctx.exception[0]
self.assertIn("ValueError: Joutel", cause.message)
def test_can_seek_ns_from_origin_wrong_return_value(self):
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
# This is expected to raise.
self._msg_iter.can_seek_ns_from_origin(2)
def _user_can_seek_ns_from_origin(self, ns_from_origin):
return "Nitchequon"
graph = _setup_seek_test(
MySink,
user_can_seek_ns_from_origin=_user_can_seek_ns_from_origin,
user_seek_ns_from_origin=lambda: None,
)
with self.assertRaises(bt2._Error) as ctx:
graph.run_once()
cause = ctx.exception[0]
self.assertIn("TypeError: 'str' is not a 'bool' object", cause.message)
def test_seek_ns_from_origin(self):
class MySink(bt2._UserSinkComponent):
def __init__(self, config, params, obj):
self._add_input_port("in")
def _user_graph_is_configured(self):
self._msg_iter = self._create_message_iterator(self._input_ports["in"])
def _user_consume(self):
self._msg_iter.seek_ns_from_origin(17)
def _user_seek_ns_from_origin(self, ns_from_origin):
nonlocal actual_ns_from_origin
actual_ns_from_origin = ns_from_origin
graph = _setup_seek_test(
MySink, user_seek_ns_from_origin=_user_seek_ns_from_origin
)
actual_ns_from_origin = None
graph.run_once()
self.assertEqual(actual_ns_from_origin, 17)
if __name__ == "__main__":
unittest.main()
|
