cpython/Lib/test/test_interpreters.py

1070 lines
32 KiB
Python

import contextlib
import json
import os
import os.path
import sys
import threading
from textwrap import dedent
import unittest
import time
from test import support
from test.support import import_helper
from test.support import threading_helper
from test.support import os_helper
_interpreters = import_helper.import_module('_xxsubinterpreters')
_channels = import_helper.import_module('_xxinterpchannels')
from test.support import interpreters
def _captured_script(script):
r, w = os.pipe()
indented = script.replace('\n', '\n ')
wrapped = dedent(f"""
import contextlib
with open({w}, 'w', encoding='utf-8') as spipe:
with contextlib.redirect_stdout(spipe):
{indented}
""")
return wrapped, open(r, encoding='utf-8')
def clean_up_interpreters():
for interp in interpreters.list_all():
if interp.id == 0: # main
continue
try:
interp.close()
except RuntimeError:
pass # already destroyed
def _run_output(interp, request, channels=None):
script, rpipe = _captured_script(request)
with rpipe:
interp.run(script, channels=channels)
return rpipe.read()
@contextlib.contextmanager
def _running(interp):
r, w = os.pipe()
def run():
interp.run(dedent(f"""
# wait for "signal"
with open({r}) as rpipe:
rpipe.read()
"""))
t = threading.Thread(target=run)
t.start()
yield
with open(w, 'w') as spipe:
spipe.write('done')
t.join()
class TestBase(unittest.TestCase):
def pipe(self):
def ensure_closed(fd):
try:
os.close(fd)
except OSError:
pass
r, w = os.pipe()
self.addCleanup(lambda: ensure_closed(r))
self.addCleanup(lambda: ensure_closed(w))
return r, w
def tearDown(self):
clean_up_interpreters()
class CreateTests(TestBase):
def test_in_main(self):
interp = interpreters.create()
self.assertIsInstance(interp, interpreters.Interpreter)
self.assertIn(interp, interpreters.list_all())
def test_in_thread(self):
lock = threading.Lock()
interp = None
def f():
nonlocal interp
interp = interpreters.create()
lock.acquire()
lock.release()
t = threading.Thread(target=f)
with lock:
t.start()
t.join()
self.assertIn(interp, interpreters.list_all())
def test_in_subinterpreter(self):
main, = interpreters.list_all()
interp = interpreters.create()
out = _run_output(interp, dedent("""
from test.support import interpreters
interp = interpreters.create()
print(interp.id)
"""))
interp2 = interpreters.Interpreter(int(out))
self.assertEqual(interpreters.list_all(), [main, interp, interp2])
def test_after_destroy_all(self):
before = set(interpreters.list_all())
# Create 3 subinterpreters.
interp_lst = []
for _ in range(3):
interps = interpreters.create()
interp_lst.append(interps)
# Now destroy them.
for interp in interp_lst:
interp.close()
# Finally, create another.
interp = interpreters.create()
self.assertEqual(set(interpreters.list_all()), before | {interp})
def test_after_destroy_some(self):
before = set(interpreters.list_all())
# Create 3 subinterpreters.
interp1 = interpreters.create()
interp2 = interpreters.create()
interp3 = interpreters.create()
# Now destroy 2 of them.
interp1.close()
interp2.close()
# Finally, create another.
interp = interpreters.create()
self.assertEqual(set(interpreters.list_all()), before | {interp3, interp})
class GetCurrentTests(TestBase):
def test_main(self):
main = interpreters.get_main()
current = interpreters.get_current()
self.assertEqual(current, main)
def test_subinterpreter(self):
main = _interpreters.get_main()
interp = interpreters.create()
out = _run_output(interp, dedent("""
from test.support import interpreters
cur = interpreters.get_current()
print(cur.id)
"""))
current = interpreters.Interpreter(int(out))
self.assertNotEqual(current, main)
class ListAllTests(TestBase):
def test_initial(self):
interps = interpreters.list_all()
self.assertEqual(1, len(interps))
def test_after_creating(self):
main = interpreters.get_current()
first = interpreters.create()
second = interpreters.create()
ids = []
for interp in interpreters.list_all():
ids.append(interp.id)
self.assertEqual(ids, [main.id, first.id, second.id])
def test_after_destroying(self):
main = interpreters.get_current()
first = interpreters.create()
second = interpreters.create()
first.close()
ids = []
for interp in interpreters.list_all():
ids.append(interp.id)
self.assertEqual(ids, [main.id, second.id])
class TestInterpreterAttrs(TestBase):
def test_id_type(self):
main = interpreters.get_main()
current = interpreters.get_current()
interp = interpreters.create()
self.assertIsInstance(main.id, _interpreters.InterpreterID)
self.assertIsInstance(current.id, _interpreters.InterpreterID)
self.assertIsInstance(interp.id, _interpreters.InterpreterID)
def test_main_id(self):
main = interpreters.get_main()
self.assertEqual(main.id, 0)
def test_custom_id(self):
interp = interpreters.Interpreter(1)
self.assertEqual(interp.id, 1)
with self.assertRaises(TypeError):
interpreters.Interpreter('1')
def test_id_readonly(self):
interp = interpreters.Interpreter(1)
with self.assertRaises(AttributeError):
interp.id = 2
@unittest.skip('not ready yet (see bpo-32604)')
def test_main_isolated(self):
main = interpreters.get_main()
self.assertFalse(main.isolated)
@unittest.skip('not ready yet (see bpo-32604)')
def test_subinterpreter_isolated_default(self):
interp = interpreters.create()
self.assertFalse(interp.isolated)
def test_subinterpreter_isolated_explicit(self):
interp1 = interpreters.create(isolated=True)
interp2 = interpreters.create(isolated=False)
self.assertTrue(interp1.isolated)
self.assertFalse(interp2.isolated)
@unittest.skip('not ready yet (see bpo-32604)')
def test_custom_isolated_default(self):
interp = interpreters.Interpreter(1)
self.assertFalse(interp.isolated)
def test_custom_isolated_explicit(self):
interp1 = interpreters.Interpreter(1, isolated=True)
interp2 = interpreters.Interpreter(1, isolated=False)
self.assertTrue(interp1.isolated)
self.assertFalse(interp2.isolated)
def test_isolated_readonly(self):
interp = interpreters.Interpreter(1)
with self.assertRaises(AttributeError):
interp.isolated = True
def test_equality(self):
interp1 = interpreters.create()
interp2 = interpreters.create()
self.assertEqual(interp1, interp1)
self.assertNotEqual(interp1, interp2)
class TestInterpreterIsRunning(TestBase):
def test_main(self):
main = interpreters.get_main()
self.assertTrue(main.is_running())
@unittest.skip('Fails on FreeBSD')
def test_subinterpreter(self):
interp = interpreters.create()
self.assertFalse(interp.is_running())
with _running(interp):
self.assertTrue(interp.is_running())
self.assertFalse(interp.is_running())
def test_finished(self):
r, w = self.pipe()
interp = interpreters.create()
interp.run(f"""if True:
import os
os.write({w}, b'x')
""")
self.assertFalse(interp.is_running())
self.assertEqual(os.read(r, 1), b'x')
def test_from_subinterpreter(self):
interp = interpreters.create()
out = _run_output(interp, dedent(f"""
import _xxsubinterpreters as _interpreters
if _interpreters.is_running({interp.id}):
print(True)
else:
print(False)
"""))
self.assertEqual(out.strip(), 'True')
def test_already_destroyed(self):
interp = interpreters.create()
interp.close()
with self.assertRaises(RuntimeError):
interp.is_running()
def test_does_not_exist(self):
interp = interpreters.Interpreter(1_000_000)
with self.assertRaises(RuntimeError):
interp.is_running()
def test_bad_id(self):
interp = interpreters.Interpreter(-1)
with self.assertRaises(ValueError):
interp.is_running()
def test_with_only_background_threads(self):
r_interp, w_interp = self.pipe()
r_thread, w_thread = self.pipe()
DONE = b'D'
FINISHED = b'F'
interp = interpreters.create()
interp.run(f"""if True:
import os
import threading
def task():
v = os.read({r_thread}, 1)
assert v == {DONE!r}
os.write({w_interp}, {FINISHED!r})
t = threading.Thread(target=task)
t.start()
""")
self.assertFalse(interp.is_running())
os.write(w_thread, DONE)
interp.run('t.join()')
self.assertEqual(os.read(r_interp, 1), FINISHED)
class TestInterpreterClose(TestBase):
def test_basic(self):
main = interpreters.get_main()
interp1 = interpreters.create()
interp2 = interpreters.create()
interp3 = interpreters.create()
self.assertEqual(set(interpreters.list_all()),
{main, interp1, interp2, interp3})
interp2.close()
self.assertEqual(set(interpreters.list_all()),
{main, interp1, interp3})
def test_all(self):
before = set(interpreters.list_all())
interps = set()
for _ in range(3):
interp = interpreters.create()
interps.add(interp)
self.assertEqual(set(interpreters.list_all()), before | interps)
for interp in interps:
interp.close()
self.assertEqual(set(interpreters.list_all()), before)
def test_main(self):
main, = interpreters.list_all()
with self.assertRaises(RuntimeError):
main.close()
def f():
with self.assertRaises(RuntimeError):
main.close()
t = threading.Thread(target=f)
t.start()
t.join()
def test_already_destroyed(self):
interp = interpreters.create()
interp.close()
with self.assertRaises(RuntimeError):
interp.close()
def test_does_not_exist(self):
interp = interpreters.Interpreter(1_000_000)
with self.assertRaises(RuntimeError):
interp.close()
def test_bad_id(self):
interp = interpreters.Interpreter(-1)
with self.assertRaises(ValueError):
interp.close()
def test_from_current(self):
main, = interpreters.list_all()
interp = interpreters.create()
out = _run_output(interp, dedent(f"""
from test.support import interpreters
interp = interpreters.Interpreter({int(interp.id)})
try:
interp.close()
except RuntimeError:
print('failed')
"""))
self.assertEqual(out.strip(), 'failed')
self.assertEqual(set(interpreters.list_all()), {main, interp})
def test_from_sibling(self):
main, = interpreters.list_all()
interp1 = interpreters.create()
interp2 = interpreters.create()
self.assertEqual(set(interpreters.list_all()),
{main, interp1, interp2})
interp1.run(dedent(f"""
from test.support import interpreters
interp2 = interpreters.Interpreter(int({interp2.id}))
interp2.close()
interp3 = interpreters.create()
interp3.close()
"""))
self.assertEqual(set(interpreters.list_all()), {main, interp1})
def test_from_other_thread(self):
interp = interpreters.create()
def f():
interp.close()
t = threading.Thread(target=f)
t.start()
t.join()
@unittest.skip('Fails on FreeBSD')
def test_still_running(self):
main, = interpreters.list_all()
interp = interpreters.create()
with _running(interp):
with self.assertRaises(RuntimeError):
interp.close()
self.assertTrue(interp.is_running())
def test_subthreads_still_running(self):
r_interp, w_interp = self.pipe()
r_thread, w_thread = self.pipe()
FINISHED = b'F'
interp = interpreters.create()
interp.run(f"""if True:
import os
import threading
import time
done = False
def notify_fini():
global done
done = True
t.join()
threading._register_atexit(notify_fini)
def task():
while not done:
time.sleep(0.1)
os.write({w_interp}, {FINISHED!r})
t = threading.Thread(target=task)
t.start()
""")
interp.close()
self.assertEqual(os.read(r_interp, 1), FINISHED)
class TestInterpreterRun(TestBase):
def test_success(self):
interp = interpreters.create()
script, file = _captured_script('print("it worked!", end="")')
with file:
interp.run(script)
out = file.read()
self.assertEqual(out, 'it worked!')
def test_in_thread(self):
interp = interpreters.create()
script, file = _captured_script('print("it worked!", end="")')
with file:
def f():
interp.run(script)
t = threading.Thread(target=f)
t.start()
t.join()
out = file.read()
self.assertEqual(out, 'it worked!')
@support.requires_fork()
def test_fork(self):
interp = interpreters.create()
import tempfile
with tempfile.NamedTemporaryFile('w+', encoding='utf-8') as file:
file.write('')
file.flush()
expected = 'spam spam spam spam spam'
script = dedent(f"""
import os
try:
os.fork()
except RuntimeError:
with open('{file.name}', 'w', encoding='utf-8') as out:
out.write('{expected}')
""")
interp.run(script)
file.seek(0)
content = file.read()
self.assertEqual(content, expected)
@unittest.skip('Fails on FreeBSD')
def test_already_running(self):
interp = interpreters.create()
with _running(interp):
with self.assertRaises(RuntimeError):
interp.run('print("spam")')
def test_does_not_exist(self):
interp = interpreters.Interpreter(1_000_000)
with self.assertRaises(RuntimeError):
interp.run('print("spam")')
def test_bad_id(self):
interp = interpreters.Interpreter(-1)
with self.assertRaises(ValueError):
interp.run('print("spam")')
def test_bad_script(self):
interp = interpreters.create()
with self.assertRaises(TypeError):
interp.run(10)
def test_bytes_for_script(self):
interp = interpreters.create()
with self.assertRaises(TypeError):
interp.run(b'print("spam")')
def test_with_background_threads_still_running(self):
r_interp, w_interp = self.pipe()
r_thread, w_thread = self.pipe()
RAN = b'R'
DONE = b'D'
FINISHED = b'F'
interp = interpreters.create()
interp.run(f"""if True:
import os
import threading
def task():
v = os.read({r_thread}, 1)
assert v == {DONE!r}
os.write({w_interp}, {FINISHED!r})
t = threading.Thread(target=task)
t.start()
os.write({w_interp}, {RAN!r})
""")
interp.run(f"""if True:
os.write({w_interp}, {RAN!r})
""")
os.write(w_thread, DONE)
interp.run('t.join()')
self.assertEqual(os.read(r_interp, 1), RAN)
self.assertEqual(os.read(r_interp, 1), RAN)
self.assertEqual(os.read(r_interp, 1), FINISHED)
# test_xxsubinterpreters covers the remaining Interpreter.run() behavior.
class StressTests(TestBase):
# In these tests we generally want a lot of interpreters,
# but not so many that any test takes too long.
@support.requires_resource('cpu')
def test_create_many_sequential(self):
alive = []
for _ in range(100):
interp = interpreters.create()
alive.append(interp)
@support.requires_resource('cpu')
def test_create_many_threaded(self):
alive = []
def task():
interp = interpreters.create()
alive.append(interp)
threads = (threading.Thread(target=task) for _ in range(200))
with threading_helper.start_threads(threads):
pass
class StartupTests(TestBase):
# We want to ensure the initial state of subinterpreters
# matches expectations.
_subtest_count = 0
@contextlib.contextmanager
def subTest(self, *args):
with super().subTest(*args) as ctx:
self._subtest_count += 1
try:
yield ctx
finally:
if self._debugged_in_subtest:
if self._subtest_count == 1:
# The first subtest adds a leading newline, so we
# compensate here by not printing a trailing newline.
print('### end subtest debug ###', end='')
else:
print('### end subtest debug ###')
self._debugged_in_subtest = False
def debug(self, msg, *, header=None):
if header:
self._debug(f'--- {header} ---')
if msg:
if msg.endswith(os.linesep):
self._debug(msg[:-len(os.linesep)])
else:
self._debug(msg)
self._debug('<no newline>')
self._debug('------')
else:
self._debug(msg)
_debugged = False
_debugged_in_subtest = False
def _debug(self, msg):
if not self._debugged:
print()
self._debugged = True
if self._subtest is not None:
if True:
if not self._debugged_in_subtest:
self._debugged_in_subtest = True
print('### start subtest debug ###')
print(msg)
else:
print(msg)
def create_temp_dir(self):
import tempfile
tmp = tempfile.mkdtemp(prefix='test_interpreters_')
tmp = os.path.realpath(tmp)
self.addCleanup(os_helper.rmtree, tmp)
return tmp
def write_script(self, *path, text):
filename = os.path.join(*path)
dirname = os.path.dirname(filename)
if dirname:
os.makedirs(dirname, exist_ok=True)
with open(filename, 'w', encoding='utf-8') as outfile:
outfile.write(dedent(text))
return filename
@support.requires_subprocess()
def run_python(self, argv, *, cwd=None):
# This method is inspired by
# EmbeddingTestsMixin.run_embedded_interpreter() in test_embed.py.
import shlex
import subprocess
if isinstance(argv, str):
argv = shlex.split(argv)
argv = [sys.executable, *argv]
try:
proc = subprocess.run(
argv,
cwd=cwd,
capture_output=True,
text=True,
)
except Exception as exc:
self.debug(f'# cmd: {shlex.join(argv)}')
if isinstance(exc, FileNotFoundError) and not exc.filename:
if os.path.exists(argv[0]):
exists = 'exists'
else:
exists = 'does not exist'
self.debug(f'{argv[0]} {exists}')
raise # re-raise
assert proc.stderr == '' or proc.returncode != 0, proc.stderr
if proc.returncode != 0 and support.verbose:
self.debug(f'# python3 {shlex.join(argv[1:])} failed:')
self.debug(proc.stdout, header='stdout')
self.debug(proc.stderr, header='stderr')
self.assertEqual(proc.returncode, 0)
self.assertEqual(proc.stderr, '')
return proc.stdout
def test_sys_path_0(self):
# The main interpreter's sys.path[0] should be used by subinterpreters.
script = '''
import sys
from test.support import interpreters
orig = sys.path[0]
interp = interpreters.create()
interp.run(f"""if True:
import json
import sys
print(json.dumps({{
'main': {orig!r},
'sub': sys.path[0],
}}, indent=4), flush=True)
""")
'''
# <tmp>/
# pkg/
# __init__.py
# __main__.py
# script.py
# script.py
cwd = self.create_temp_dir()
self.write_script(cwd, 'pkg', '__init__.py', text='')
self.write_script(cwd, 'pkg', '__main__.py', text=script)
self.write_script(cwd, 'pkg', 'script.py', text=script)
self.write_script(cwd, 'script.py', text=script)
cases = [
('script.py', cwd),
('-m script', cwd),
('-m pkg', cwd),
('-m pkg.script', cwd),
('-c "import script"', ''),
]
for argv, expected in cases:
with self.subTest(f'python3 {argv}'):
out = self.run_python(argv, cwd=cwd)
data = json.loads(out)
sp0_main, sp0_sub = data['main'], data['sub']
self.assertEqual(sp0_sub, sp0_main)
self.assertEqual(sp0_sub, expected)
# XXX Also check them all with the -P cmdline flag?
class FinalizationTests(TestBase):
def test_gh_109793(self):
import subprocess
argv = [sys.executable, '-c', '''if True:
import _xxsubinterpreters as _interpreters
interpid = _interpreters.create()
raise Exception
''']
proc = subprocess.run(argv, capture_output=True, text=True)
self.assertIn('Traceback', proc.stderr)
if proc.returncode == 0 and support.verbose:
print()
print("--- cmd unexpected succeeded ---")
print(f"stdout:\n{proc.stdout}")
print(f"stderr:\n{proc.stderr}")
print("------")
self.assertEqual(proc.returncode, 1)
class TestIsShareable(TestBase):
def test_default_shareables(self):
shareables = [
# singletons
None,
# builtin objects
b'spam',
'spam',
10,
-10,
]
for obj in shareables:
with self.subTest(obj):
shareable = interpreters.is_shareable(obj)
self.assertTrue(shareable)
def test_not_shareable(self):
class Cheese:
def __init__(self, name):
self.name = name
def __str__(self):
return self.name
class SubBytes(bytes):
"""A subclass of a shareable type."""
not_shareables = [
# singletons
True,
False,
NotImplemented,
...,
# builtin types and objects
type,
object,
object(),
Exception(),
100.0,
# user-defined types and objects
Cheese,
Cheese('Wensleydale'),
SubBytes(b'spam'),
]
for obj in not_shareables:
with self.subTest(repr(obj)):
self.assertFalse(
interpreters.is_shareable(obj))
class TestChannels(TestBase):
def test_create(self):
r, s = interpreters.create_channel()
self.assertIsInstance(r, interpreters.RecvChannel)
self.assertIsInstance(s, interpreters.SendChannel)
def test_list_all(self):
self.assertEqual(interpreters.list_all_channels(), [])
created = set()
for _ in range(3):
ch = interpreters.create_channel()
created.add(ch)
after = set(interpreters.list_all_channels())
self.assertEqual(after, created)
@unittest.expectedFailure # See gh-110318:
def test_shareable(self):
rch, sch = interpreters.create_channel()
self.assertTrue(
interpreters.is_shareable(rch))
self.assertTrue(
interpreters.is_shareable(sch))
sch.send_nowait(rch)
sch.send_nowait(sch)
rch2 = rch.recv()
sch2 = rch.recv()
self.assertEqual(rch2, rch)
self.assertEqual(sch2, sch)
class TestRecvChannelAttrs(TestBase):
def test_id_type(self):
rch, _ = interpreters.create_channel()
self.assertIsInstance(rch.id, _channels.ChannelID)
def test_custom_id(self):
rch = interpreters.RecvChannel(1)
self.assertEqual(rch.id, 1)
with self.assertRaises(TypeError):
interpreters.RecvChannel('1')
def test_id_readonly(self):
rch = interpreters.RecvChannel(1)
with self.assertRaises(AttributeError):
rch.id = 2
def test_equality(self):
ch1, _ = interpreters.create_channel()
ch2, _ = interpreters.create_channel()
self.assertEqual(ch1, ch1)
self.assertNotEqual(ch1, ch2)
class TestSendChannelAttrs(TestBase):
def test_id_type(self):
_, sch = interpreters.create_channel()
self.assertIsInstance(sch.id, _channels.ChannelID)
def test_custom_id(self):
sch = interpreters.SendChannel(1)
self.assertEqual(sch.id, 1)
with self.assertRaises(TypeError):
interpreters.SendChannel('1')
def test_id_readonly(self):
sch = interpreters.SendChannel(1)
with self.assertRaises(AttributeError):
sch.id = 2
def test_equality(self):
_, ch1 = interpreters.create_channel()
_, ch2 = interpreters.create_channel()
self.assertEqual(ch1, ch1)
self.assertNotEqual(ch1, ch2)
class TestSendRecv(TestBase):
def test_send_recv_main(self):
r, s = interpreters.create_channel()
orig = b'spam'
s.send_nowait(orig)
obj = r.recv()
self.assertEqual(obj, orig)
self.assertIsNot(obj, orig)
def test_send_recv_same_interpreter(self):
interp = interpreters.create()
interp.run(dedent("""
from test.support import interpreters
r, s = interpreters.create_channel()
orig = b'spam'
s.send_nowait(orig)
obj = r.recv()
assert obj == orig, 'expected: obj == orig'
assert obj is not orig, 'expected: obj is not orig'
"""))
@unittest.skip('broken (see BPO-...)')
def test_send_recv_different_interpreters(self):
r1, s1 = interpreters.create_channel()
r2, s2 = interpreters.create_channel()
orig1 = b'spam'
s1.send_nowait(orig1)
out = _run_output(
interpreters.create(),
dedent(f"""
obj1 = r.recv()
assert obj1 == b'spam', 'expected: obj1 == orig1'
# When going to another interpreter we get a copy.
assert id(obj1) != {id(orig1)}, 'expected: obj1 is not orig1'
orig2 = b'eggs'
print(id(orig2))
s.send_nowait(orig2)
"""),
channels=dict(r=r1, s=s2),
)
obj2 = r2.recv()
self.assertEqual(obj2, b'eggs')
self.assertNotEqual(id(obj2), int(out))
def test_send_recv_different_threads(self):
r, s = interpreters.create_channel()
def f():
while True:
try:
obj = r.recv()
break
except interpreters.ChannelEmptyError:
time.sleep(0.1)
s.send(obj)
t = threading.Thread(target=f)
t.start()
orig = b'spam'
s.send(orig)
t.join()
obj = r.recv()
self.assertEqual(obj, orig)
self.assertIsNot(obj, orig)
def test_send_recv_nowait_main(self):
r, s = interpreters.create_channel()
orig = b'spam'
s.send_nowait(orig)
obj = r.recv_nowait()
self.assertEqual(obj, orig)
self.assertIsNot(obj, orig)
def test_send_recv_nowait_main_with_default(self):
r, _ = interpreters.create_channel()
obj = r.recv_nowait(None)
self.assertIsNone(obj)
def test_send_recv_nowait_same_interpreter(self):
interp = interpreters.create()
interp.run(dedent("""
from test.support import interpreters
r, s = interpreters.create_channel()
orig = b'spam'
s.send_nowait(orig)
obj = r.recv_nowait()
assert obj == orig, 'expected: obj == orig'
# When going back to the same interpreter we get the same object.
assert obj is not orig, 'expected: obj is not orig'
"""))
@unittest.skip('broken (see BPO-...)')
def test_send_recv_nowait_different_interpreters(self):
r1, s1 = interpreters.create_channel()
r2, s2 = interpreters.create_channel()
orig1 = b'spam'
s1.send_nowait(orig1)
out = _run_output(
interpreters.create(),
dedent(f"""
obj1 = r.recv_nowait()
assert obj1 == b'spam', 'expected: obj1 == orig1'
# When going to another interpreter we get a copy.
assert id(obj1) != {id(orig1)}, 'expected: obj1 is not orig1'
orig2 = b'eggs'
print(id(orig2))
s.send_nowait(orig2)
"""),
channels=dict(r=r1, s=s2),
)
obj2 = r2.recv_nowait()
self.assertEqual(obj2, b'eggs')
self.assertNotEqual(id(obj2), int(out))
def test_recv_channel_does_not_exist(self):
ch = interpreters.RecvChannel(1_000_000)
with self.assertRaises(interpreters.ChannelNotFoundError):
ch.recv()
def test_send_channel_does_not_exist(self):
ch = interpreters.SendChannel(1_000_000)
with self.assertRaises(interpreters.ChannelNotFoundError):
ch.send(b'spam')
def test_recv_nowait_channel_does_not_exist(self):
ch = interpreters.RecvChannel(1_000_000)
with self.assertRaises(interpreters.ChannelNotFoundError):
ch.recv_nowait()
def test_send_nowait_channel_does_not_exist(self):
ch = interpreters.SendChannel(1_000_000)
with self.assertRaises(interpreters.ChannelNotFoundError):
ch.send_nowait(b'spam')
def test_recv_nowait_empty(self):
ch, _ = interpreters.create_channel()
with self.assertRaises(interpreters.ChannelEmptyError):
ch.recv_nowait()
def test_recv_nowait_default(self):
default = object()
rch, sch = interpreters.create_channel()
obj1 = rch.recv_nowait(default)
sch.send_nowait(None)
sch.send_nowait(1)
sch.send_nowait(b'spam')
sch.send_nowait(b'eggs')
obj2 = rch.recv_nowait(default)
obj3 = rch.recv_nowait(default)
obj4 = rch.recv_nowait()
obj5 = rch.recv_nowait(default)
obj6 = rch.recv_nowait(default)
self.assertIs(obj1, default)
self.assertIs(obj2, None)
self.assertEqual(obj3, 1)
self.assertEqual(obj4, b'spam')
self.assertEqual(obj5, b'eggs')
self.assertIs(obj6, default)