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Fully refactored subprocess handling on all platforms....
Fully refactored subprocess handling on all platforms. Now we have all process-related code in utils.process, which itself imports from platform-specific files as needed. On posix, we have reliable asynchronous delivery of stdout and stderr, and on win32 at least we have the basics that subprocess.py provides, since pexpect is not available. We also now support robust killing of subprocesses that may capture SIGINT: one SIGINT on our end is sent to the subprocess, but then we kill it, to prevent a rogue subprocess from hijacking the ipython console. Note that on posix, we now depend on pexpect, but we ship our own copy to users which we'll use if there's no system pexpect installed. UNC path handling for windows was implemented as a context manager called AvoidUNCPath.
Brian Granger - - Load All Authors

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r2509:70d27296
r2908:06dcbd43
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error.py
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/ IPython / kernel / error.py
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# encoding: utf-8
"""Classes and functions for kernel related errors and exceptions."""
__docformat__ = "restructuredtext en"
# Tell nose to skip this module
__test__ = {}
#-------------------------------------------------------------------------------
# Copyright (C) 2008 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
#-------------------------------------------------------------------------------
from twisted.python import failure
from IPython.kernel.core import error
#-------------------------------------------------------------------------------
# Error classes
#-------------------------------------------------------------------------------
class KernelError(error.IPythonError):
pass
class NotDefined(KernelError):
def __init__(self, name):
self.name = name
self.args = (name,)
def __repr__(self):
return '<NotDefined: %s>' % self.name
__str__ = __repr__
class QueueCleared(KernelError):
pass
class IdInUse(KernelError):
pass
class ProtocolError(KernelError):
pass
class ConnectionError(KernelError):
pass
class InvalidEngineID(KernelError):
pass
class NoEnginesRegistered(KernelError):
pass
class InvalidClientID(KernelError):
pass
class InvalidDeferredID(KernelError):
pass
class SerializationError(KernelError):
pass
class MessageSizeError(KernelError):
pass
class PBMessageSizeError(MessageSizeError):
pass
class ResultNotCompleted(KernelError):
pass
class ResultAlreadyRetrieved(KernelError):
pass
class ClientError(KernelError):
pass
class TaskAborted(KernelError):
pass
class TaskTimeout(KernelError):
pass
class NotAPendingResult(KernelError):
pass
class UnpickleableException(KernelError):
pass
class AbortedPendingDeferredError(KernelError):
pass
class InvalidProperty(KernelError):
pass
class MissingBlockArgument(KernelError):
pass
class StopLocalExecution(KernelError):
pass
class SecurityError(KernelError):
pass
class FileTimeoutError(KernelError):
pass
class TaskRejectError(KernelError):
"""Exception to raise when a task should be rejected by an engine.
This exception can be used to allow a task running on an engine to test
if the engine (or the user's namespace on the engine) has the needed
task dependencies. If not, the task should raise this exception. For
the task to be retried on another engine, the task should be created
with the `retries` argument > 1.
The advantage of this approach over our older properties system is that
tasks have full access to the user's namespace on the engines and the
properties don't have to be managed or tested by the controller.
"""
class CompositeError(KernelError):
def __init__(self, message, elist):
Exception.__init__(self, *(message, elist))
# Don't use pack_exception because it will conflict with the .message
# attribute that is being deprecated in 2.6 and beyond.
self.msg = message
self.elist = elist
def _get_engine_str(self, ev):
try:
ei = ev._ipython_engine_info
except AttributeError:
return '[Engine Exception]'
else:
return '[%i:%s]: ' % (ei['engineid'], ei['method'])
def _get_traceback(self, ev):
try:
tb = ev._ipython_traceback_text
except AttributeError:
return 'No traceback available'
else:
return tb
def __str__(self):
s = str(self.msg)
for et, ev, etb in self.elist:
engine_str = self._get_engine_str(ev)
s = s + '\n' + engine_str + str(et.__name__) + ': ' + str(ev)
return s
def print_tracebacks(self, excid=None):
if excid is None:
for (et,ev,etb) in self.elist:
print self._get_engine_str(ev)
print self._get_traceback(ev)
print
else:
try:
et,ev,etb = self.elist[excid]
except:
raise IndexError("an exception with index %i does not exist"%excid)
else:
print self._get_engine_str(ev)
print self._get_traceback(ev)
def raise_exception(self, excid=0):
try:
et,ev,etb = self.elist[excid]
except:
raise IndexError("an exception with index %i does not exist"%excid)
else:
raise et, ev, etb
def collect_exceptions(rlist, method):
elist = []
for r in rlist:
if isinstance(r, failure.Failure):
r.cleanFailure()
et, ev, etb = r.type, r.value, r.tb
# Sometimes we could have CompositeError in our list. Just take
# the errors out of them and put them in our new list. This
# has the effect of flattening lists of CompositeErrors into one
# CompositeError
if et==CompositeError:
for e in ev.elist:
elist.append(e)
else:
elist.append((et, ev, etb))
if len(elist)==0:
return rlist
else:
msg = "one or more exceptions from call to method: %s" % (method)
# This silliness is needed so the debugger has access to the exception
# instance (e in this case)
try:
raise CompositeError(msg, elist)
except CompositeError, e:
raise e