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Fixed name error bug in function safe_unicode in module py3compat.
Fixed name error bug in function safe_unicode in module py3compat.

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test_kernel.py
204 lines | 6.1 KiB | text/x-python | PythonLexer
"""test the IPython Kernel"""
#-------------------------------------------------------------------------------
# Copyright (C) 2013 The IPython Development Team
#
# Distributed under the terms of the BSD License. The full license is in
# the file COPYING, distributed as part of this software.
#-------------------------------------------------------------------------------
#-------------------------------------------------------------------------------
# Imports
#-------------------------------------------------------------------------------
import os
import shutil
import sys
import tempfile
from contextlib import contextmanager
from subprocess import PIPE
import nose.tools as nt
from IPython.kernel import KernelManager
from IPython.kernel.tests.test_message_spec import execute, flush_channels
from IPython.testing import decorators as dec
from IPython.utils import path
#-------------------------------------------------------------------------------
# Tests
#-------------------------------------------------------------------------------
IPYTHONDIR = None
save_env = None
save_get_ipython_dir = None
def setup():
"""setup temporary IPYTHONDIR for tests"""
global IPYTHONDIR
global save_env
global save_get_ipython_dir
IPYTHONDIR = tempfile.mkdtemp()
save_env = os.environ.copy()
os.environ["IPYTHONDIR"] = IPYTHONDIR
save_get_ipython_dir = path.get_ipython_dir
path.get_ipython_dir = lambda : IPYTHONDIR
def teardown():
path.get_ipython_dir = save_get_ipython_dir
os.environ = save_env
try:
shutil.rmtree(IPYTHONDIR)
except (OSError, IOError):
# no such file
pass
@contextmanager
def new_kernel():
"""start a kernel in a subprocess, and wait for it to be ready
Returns
-------
kernel_manager: connected KernelManager instance
"""
KM = KernelManager()
KM.start_kernel(stdout=PIPE, stderr=PIPE)
KC = KM.client()
KC.start_channels()
# wait for kernel to be ready
KC.shell_channel.execute("import sys")
KC.shell_channel.get_msg(block=True, timeout=5)
flush_channels(KC)
try:
yield KC
finally:
KC.stop_channels()
KM.shutdown_kernel()
def assemble_output(iopub):
"""assemble stdout/err from an execution"""
stdout = ''
stderr = ''
while True:
msg = iopub.get_msg(block=True, timeout=1)
msg_type = msg['msg_type']
content = msg['content']
if msg_type == 'status' and content['execution_state'] == 'idle':
# idle message signals end of output
break
elif msg['msg_type'] == 'stream':
if content['name'] == 'stdout':
stdout = stdout + content['data']
elif content['name'] == 'stderr':
stderr = stderr + content['data']
else:
raise KeyError("bad stream: %r" % content['name'])
else:
# other output, ignored
pass
return stdout, stderr
def _check_mp_mode(kc, expected=False, stream="stdout"):
execute(kc=kc, code="import sys")
flush_channels(kc)
msg_id, content = execute(kc=kc, code="print (sys.%s._check_mp_mode())" % stream)
stdout, stderr = assemble_output(kc.iopub_channel)
nt.assert_equal(eval(stdout.strip()), expected)
def test_simple_print():
"""simple print statement in kernel"""
with new_kernel() as kc:
iopub = kc.iopub_channel
msg_id, content = execute(kc=kc, code="print ('hi')")
stdout, stderr = assemble_output(iopub)
nt.assert_equal(stdout, 'hi\n')
nt.assert_equal(stderr, '')
_check_mp_mode(kc, expected=False)
print ('hello')
@dec.knownfailureif(sys.platform == 'win32', "subprocess prints fail on Windows")
def test_subprocess_print():
"""printing from forked mp.Process"""
with new_kernel() as kc:
iopub = kc.iopub_channel
_check_mp_mode(kc, expected=False)
flush_channels(kc)
np = 5
code = '\n'.join([
"from __future__ import print_function",
"import multiprocessing as mp",
"pool = [mp.Process(target=print, args=('hello', i,)) for i in range(%i)]" % np,
"for p in pool: p.start()",
"for p in pool: p.join()"
])
expected = '\n'.join([
"hello %s" % i for i in range(np)
]) + '\n'
msg_id, content = execute(kc=kc, code=code)
stdout, stderr = assemble_output(iopub)
nt.assert_equal(stdout.count("hello"), np, stdout)
for n in range(np):
nt.assert_equal(stdout.count(str(n)), 1, stdout)
nt.assert_equal(stderr, '')
_check_mp_mode(kc, expected=False)
_check_mp_mode(kc, expected=False, stream="stderr")
def test_subprocess_noprint():
"""mp.Process without print doesn't trigger iostream mp_mode"""
with new_kernel() as kc:
iopub = kc.iopub_channel
np = 5
code = '\n'.join([
"import multiprocessing as mp",
"pool = [mp.Process(target=range, args=(i,)) for i in range(%i)]" % np,
"for p in pool: p.start()",
"for p in pool: p.join()"
])
msg_id, content = execute(kc=kc, code=code)
stdout, stderr = assemble_output(iopub)
nt.assert_equal(stdout, '')
nt.assert_equal(stderr, '')
_check_mp_mode(kc, expected=False)
_check_mp_mode(kc, expected=False, stream="stderr")
@dec.knownfailureif(sys.platform == 'win32', "subprocess prints fail on Windows")
def test_subprocess_error():
"""error in mp.Process doesn't crash"""
with new_kernel() as kc:
iopub = kc.iopub_channel
code = '\n'.join([
"import multiprocessing as mp",
"p = mp.Process(target=int, args=('hi',))",
"p.start()",
"p.join()",
])
msg_id, content = execute(kc=kc, code=code)
stdout, stderr = assemble_output(iopub)
nt.assert_equal(stdout, '')
nt.assert_true("ValueError" in stderr, stderr)
_check_mp_mode(kc, expected=False)
_check_mp_mode(kc, expected=False, stream="stderr")