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Simplify StreamCapturer for subprocess testing...
Simplify StreamCapturer for subprocess testing Rather than using a transient pipe for each subprocess started, the StreamCapturer now makes a single pipe, and subprocesses redirect their output to it. So long as this works on Windows (I've done brief testing, and os.pipe() seems to be functional), this will hopefully make this much more robust. The recent failures in ShiningPanda on IPython.parallel have been caused by StreamCapturer.
Thomas Kluyver - - Load All Authors

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r13405:4ad2c011
r13405:4ad2c011
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utils.py
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/ IPython / kernel / tests / utils.py
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"""utilities for testing IPython kernels"""
#-------------------------------------------------------------------------------
# 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 atexit
from contextlib import contextmanager
from subprocess import PIPE, STDOUT
try:
from queue import Empty # Py 3
except ImportError:
from Queue import Empty # Py 2
import nose
import nose.tools as nt
from IPython.kernel import KernelManager
#-------------------------------------------------------------------------------
# Globals
#-------------------------------------------------------------------------------
STARTUP_TIMEOUT = 60
TIMEOUT = 15
KM = None
KC = None
#-------------------------------------------------------------------------------
# code
#-------------------------------------------------------------------------------
def start_new_kernel(argv=None):
"""start a new kernel, and return its Manager and Client"""
km = KernelManager()
kwargs = dict(stdout=nose.ipy_stream_capturer.writefd, stderr=STDOUT)
if argv:
kwargs['extra_arguments'] = argv
km.start_kernel(**kwargs)
nose.ipy_stream_capturer.ensure_started()
kc = km.client()
kc.start_channels()
msg_id = kc.kernel_info()
kc.get_shell_msg(block=True, timeout=STARTUP_TIMEOUT)
flush_channels(kc)
return km, kc
def flush_channels(kc=None):
"""flush any messages waiting on the queue"""
from .test_message_spec import validate_message
if kc is None:
kc = KC
for channel in (kc.shell_channel, kc.iopub_channel):
while True:
try:
msg = channel.get_msg(block=True, timeout=0.1)
except Empty:
break
else:
validate_message(msg)
def execute(code='', kc=None, **kwargs):
"""wrapper for doing common steps for validating an execution request"""
from .test_message_spec import validate_message
if kc is None:
kc = KC
msg_id = kc.execute(code=code, **kwargs)
reply = kc.get_shell_msg(timeout=TIMEOUT)
validate_message(reply, 'execute_reply', msg_id)
busy = kc.get_iopub_msg(timeout=TIMEOUT)
validate_message(busy, 'status', msg_id)
nt.assert_equal(busy['content']['execution_state'], 'busy')
if not kwargs.get('silent'):
pyin = kc.get_iopub_msg(timeout=TIMEOUT)
validate_message(pyin, 'pyin', msg_id)
nt.assert_equal(pyin['content']['code'], code)
return msg_id, reply['content']
def start_global_kernel():
"""start the global kernel (if it isn't running) and return its client"""
global KM, KC
if KM is None:
KM, KC = start_new_kernel()
atexit.register(stop_global_kernel)
return KC
@contextmanager
def kernel():
"""Context manager for the global kernel instance
Should be used for most kernel tests
Returns
-------
kernel_client: connected KernelClient instance
"""
yield start_global_kernel()
def uses_kernel(test_f):
"""Decorator for tests that use the global kernel"""
def wrapped_test():
with kernel() as kc:
test_f(kc)
wrapped_test.__doc__ = test_f.__doc__
wrapped_test.__name__ = test_f.__name__
return wrapped_test
def stop_global_kernel():
"""Stop the global shared kernel instance, if it exists"""
global KM, KC
KC.stop_channels()
KC = None
if KM is None:
return
KM.shutdown_kernel(now=True)
KM = None
@contextmanager
def new_kernel(argv=None):
"""Context manager for a new kernel in a subprocess
Should only be used for tests where the kernel must not be re-used.
Returns
-------
kernel_client: connected KernelClient instance
"""
km, kc = start_new_kernel(argv)
try:
yield kc
finally:
kc.stop_channels()
km.shutdown_kernel(now=True)
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 += content['data']
elif content['name'] == 'stderr':
stderr += content['data']
else:
raise KeyError("bad stream: %r" % content['name'])
else:
# other output, ignored
pass
return stdout, stderr