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Testing '#:' attribute docstrings for sphinx....
Testing '#:' attribute docstrings for sphinx. This is supposed to work and give us class/instance docstrings, but it's not yet. I have a question on the sphinx list about it, let's leave it in the code until we figure out what we need to do to sphinx for it to work (it doesn't hurt otherwise).
Brian Granger - - Load All Authors

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ipcontrollerapp.py
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#!/usr/bin/env python
# encoding: utf-8
"""
The IPython controller application.
"""
#-----------------------------------------------------------------------------
# Copyright (C) 2008-2009 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 __future__ import with_statement
import copy
import os
import sys
from twisted.application import service
from twisted.internet import reactor
from twisted.python import log
from IPython.config.loader import Config, NoConfigDefault
from IPython.kernel.clusterdir import (
ApplicationWithClusterDir,
AppWithClusterDirArgParseConfigLoader
)
from IPython.core import release
from IPython.utils.traitlets import Str, Instance, Unicode
from IPython.kernel import controllerservice
from IPython.kernel.fcutil import FCServiceFactory
#-----------------------------------------------------------------------------
# Default interfaces
#-----------------------------------------------------------------------------
# The default client interfaces for FCClientServiceFactory.interfaces
default_client_interfaces = Config()
default_client_interfaces.Task.interface_chain = [
'IPython.kernel.task.ITaskController',
'IPython.kernel.taskfc.IFCTaskController'
]
default_client_interfaces.Task.furl_file = 'ipcontroller-tc.furl'
default_client_interfaces.MultiEngine.interface_chain = [
'IPython.kernel.multiengine.IMultiEngine',
'IPython.kernel.multienginefc.IFCSynchronousMultiEngine'
]
default_client_interfaces.MultiEngine.furl_file = u'ipcontroller-mec.furl'
# Make this a dict we can pass to Config.__init__ for the default
default_client_interfaces = dict(copy.deepcopy(default_client_interfaces.items()))
# The default engine interfaces for FCEngineServiceFactory.interfaces
default_engine_interfaces = Config()
default_engine_interfaces.Default.interface_chain = [
'IPython.kernel.enginefc.IFCControllerBase'
]
default_engine_interfaces.Default.furl_file = u'ipcontroller-engine.furl'
# Make this a dict we can pass to Config.__init__ for the default
default_engine_interfaces = dict(copy.deepcopy(default_engine_interfaces.items()))
#-----------------------------------------------------------------------------
# Service factories
#-----------------------------------------------------------------------------
class FCClientServiceFactory(FCServiceFactory):
"""A Foolscap implementation of the client services."""
cert_file = Unicode(u'ipcontroller-client.pem', config=True)
interfaces = Instance(klass=Config, kw=default_client_interfaces,
allow_none=False, config=True)
class FCEngineServiceFactory(FCServiceFactory):
"""A Foolscap implementation of the engine services."""
cert_file = Unicode(u'ipcontroller-engine.pem', config=True)
interfaces = Instance(klass=dict, kw=default_engine_interfaces,
allow_none=False, config=True)
#-----------------------------------------------------------------------------
# The main application
#-----------------------------------------------------------------------------
cl_args = (
# Client config
(('--client-ip',), dict(
type=str, dest='FCClientServiceFactory.ip', default=NoConfigDefault,
help='The IP address or hostname the controller will listen on for '
'client connections.',
metavar='FCClientServiceFactory.ip')
),
(('--client-port',), dict(
type=int, dest='FCClientServiceFactory.port', default=NoConfigDefault,
help='The port the controller will listen on for client connections. '
'The default is to use 0, which will autoselect an open port.',
metavar='FCClientServiceFactory.port')
),
(('--client-location',), dict(
type=str, dest='FCClientServiceFactory.location', default=NoConfigDefault,
help='The hostname or IP that clients should connect to. This does '
'not control which interface the controller listens on. Instead, this '
'determines the hostname/IP that is listed in the FURL, which is how '
'clients know where to connect. Useful if the controller is listening '
'on multiple interfaces.',
metavar='FCClientServiceFactory.location')
),
# Engine config
(('--engine-ip',), dict(
type=str, dest='FCEngineServiceFactory.ip', default=NoConfigDefault,
help='The IP address or hostname the controller will listen on for '
'engine connections.',
metavar='FCEngineServiceFactory.ip')
),
(('--engine-port',), dict(
type=int, dest='FCEngineServiceFactory.port', default=NoConfigDefault,
help='The port the controller will listen on for engine connections. '
'The default is to use 0, which will autoselect an open port.',
metavar='FCEngineServiceFactory.port')
),
(('--engine-location',), dict(
type=str, dest='FCEngineServiceFactory.location', default=NoConfigDefault,
help='The hostname or IP that engines should connect to. This does '
'not control which interface the controller listens on. Instead, this '
'determines the hostname/IP that is listed in the FURL, which is how '
'engines know where to connect. Useful if the controller is listening '
'on multiple interfaces.',
metavar='FCEngineServiceFactory.location')
),
# Global config
(('--log-to-file',), dict(
action='store_true', dest='Global.log_to_file', default=NoConfigDefault,
help='Log to a file in the log directory (default is stdout)')
),
(('-r','--reuse-furls'), dict(
action='store_true', dest='Global.reuse_furls', default=NoConfigDefault,
help='Try to reuse all FURL files. If this is not set all FURL files '
'are deleted before the controller starts. This must be set if '
'specific ports are specified by --engine-port or --client-port.')
),
(('--no-secure',), dict(
action='store_false', dest='Global.secure', default=NoConfigDefault,
help='Turn off SSL encryption for all connections.')
),
(('--secure',), dict(
action='store_true', dest='Global.secure', default=NoConfigDefault,
help='Turn off SSL encryption for all connections.')
)
)
class IPControllerAppCLConfigLoader(AppWithClusterDirArgParseConfigLoader):
arguments = cl_args
_description = """Start the IPython controller for parallel computing.
The IPython controller provides a gateway between the IPython engines and
clients. The controller needs to be started before the engines and can be
configured using command line options or using a cluster directory. Cluster
directories contain config, log and security files and are usually located in
your .ipython directory and named as "cluster_<profile>". See the --profile
and --cluster-dir options for details.
"""
default_config_file_name = u'ipcontroller_config.py'
class IPControllerApp(ApplicationWithClusterDir):
name = u'ipcontroller'
description = _description
config_file_name = default_config_file_name
auto_create_cluster_dir = True
def create_default_config(self):
super(IPControllerApp, self).create_default_config()
self.default_config.Global.reuse_furls = False
self.default_config.Global.secure = True
self.default_config.Global.import_statements = []
self.default_config.Global.clean_logs = True
def create_command_line_config(self):
"""Create and return a command line config loader."""
return IPControllerAppCLConfigLoader(
description=self.description,
version=release.version
)
def post_load_command_line_config(self):
# Now setup reuse_furls
c = self.command_line_config
if hasattr(c.Global, 'reuse_furls'):
c.FCClientServiceFactory.reuse_furls = c.Global.reuse_furls
c.FCEngineServiceFactory.reuse_furls = c.Global.reuse_furls
del c.Global.reuse_furls
if hasattr(c.Global, 'secure'):
c.FCClientServiceFactory.secure = c.Global.secure
c.FCEngineServiceFactory.secure = c.Global.secure
del c.Global.secure
def construct(self):
# This is the working dir by now.
sys.path.insert(0, '')
self.start_logging()
self.import_statements()
# Create the service hierarchy
self.main_service = service.MultiService()
# The controller service
controller_service = controllerservice.ControllerService()
controller_service.setServiceParent(self.main_service)
# The client tub and all its refereceables
csfactory = FCClientServiceFactory(self.master_config, controller_service)
client_service = csfactory.create()
client_service.setServiceParent(self.main_service)
# The engine tub
esfactory = FCEngineServiceFactory(self.master_config, controller_service)
engine_service = esfactory.create()
engine_service.setServiceParent(self.main_service)
def import_statements(self):
statements = self.master_config.Global.import_statements
for s in statements:
try:
log.msg("Executing statement: '%s'" % s)
exec s in globals(), locals()
except:
log.msg("Error running statement: %s" % s)
def start_app(self):
# Start the controller service.
self.main_service.startService()
# Write the .pid file overwriting old ones. This allow multiple
# controllers to clober each other. But Windows is not cleaning
# these up properly.
self.write_pid_file(overwrite=True)
# Add a trigger to delete the .pid file upon shutting down.
reactor.addSystemEventTrigger('during','shutdown', self.remove_pid_file)
reactor.run()
def launch_new_instance():
"""Create and run the IPython controller"""
app = IPControllerApp()
app.start()
if __name__ == '__main__':
launch_new_instance()