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keep track of the sigint timer, and cancel it on a new prompt
keep track of the sigint timer, and cancel it on a new prompt

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base_kernelmanager.py
260 lines | 8.7 KiB | text/x-python | PythonLexer
""" Defines a KernelManager that provides signals and slots.
"""
# System library imports.
from IPython.external.qt import QtCore
# IPython imports.
from IPython.utils.traitlets import HasTraits, Type
from util import MetaQObjectHasTraits, SuperQObject
class ChannelQObject(SuperQObject):
# Emitted when the channel is started.
started = QtCore.Signal()
# Emitted when the channel is stopped.
stopped = QtCore.Signal()
#---------------------------------------------------------------------------
# Channel interface
#---------------------------------------------------------------------------
def start(self):
""" Reimplemented to emit signal.
"""
super(ChannelQObject, self).start()
self.started.emit()
def stop(self):
""" Reimplemented to emit signal.
"""
super(ChannelQObject, self).stop()
self.stopped.emit()
#---------------------------------------------------------------------------
# InProcessChannel interface
#---------------------------------------------------------------------------
def call_handlers_later(self, *args, **kwds):
""" Call the message handlers later.
"""
do_later = lambda: self.call_handlers(*args, **kwds)
QtCore.QTimer.singleShot(0, do_later)
def process_events(self):
""" Process any pending GUI events.
"""
QtCore.QCoreApplication.instance().processEvents()
class QtShellChannelMixin(ChannelQObject):
# Emitted when any message is received.
message_received = QtCore.Signal(object)
# Emitted when a reply has been received for the corresponding request
# type.
execute_reply = QtCore.Signal(object)
complete_reply = QtCore.Signal(object)
object_info_reply = QtCore.Signal(object)
history_reply = QtCore.Signal(object)
# Emitted when the first reply comes back.
first_reply = QtCore.Signal()
# Used by the first_reply signal logic to determine if a reply is the
# first.
_handlers_called = False
#---------------------------------------------------------------------------
# 'ShellChannel' interface
#---------------------------------------------------------------------------
def call_handlers(self, msg):
""" Reimplemented to emit signals instead of making callbacks.
"""
# Emit the generic signal.
self.message_received.emit(msg)
# Emit signals for specialized message types.
msg_type = msg['header']['msg_type']
signal = getattr(self, msg_type, None)
if signal:
signal.emit(msg)
if not self._handlers_called:
self.first_reply.emit()
self._handlers_called = True
#---------------------------------------------------------------------------
# 'QtShellChannelMixin' interface
#---------------------------------------------------------------------------
def reset_first_reply(self):
""" Reset the first_reply signal to fire again on the next reply.
"""
self._handlers_called = False
class QtIOPubChannelMixin(ChannelQObject):
# Emitted when any message is received.
message_received = QtCore.Signal(object)
# Emitted when a message of type 'stream' is received.
stream_received = QtCore.Signal(object)
# Emitted when a message of type 'pyin' is received.
pyin_received = QtCore.Signal(object)
# Emitted when a message of type 'pyout' is received.
pyout_received = QtCore.Signal(object)
# Emitted when a message of type 'pyerr' is received.
pyerr_received = QtCore.Signal(object)
# Emitted when a message of type 'display_data' is received
display_data_received = QtCore.Signal(object)
# Emitted when a crash report message is received from the kernel's
# last-resort sys.excepthook.
crash_received = QtCore.Signal(object)
# Emitted when a shutdown is noticed.
shutdown_reply_received = QtCore.Signal(object)
#---------------------------------------------------------------------------
# 'IOPubChannel' interface
#---------------------------------------------------------------------------
def call_handlers(self, msg):
""" Reimplemented to emit signals instead of making callbacks.
"""
# Emit the generic signal.
self.message_received.emit(msg)
# Emit signals for specialized message types.
msg_type = msg['header']['msg_type']
signal = getattr(self, msg_type + '_received', None)
if signal:
signal.emit(msg)
elif msg_type in ('stdout', 'stderr'):
self.stream_received.emit(msg)
def flush(self):
""" Reimplemented to ensure that signals are dispatched immediately.
"""
super(QtIOPubChannelMixin, self).flush()
QtCore.QCoreApplication.instance().processEvents()
class QtStdInChannelMixin(ChannelQObject):
# Emitted when any message is received.
message_received = QtCore.Signal(object)
# Emitted when an input request is received.
input_requested = QtCore.Signal(object)
#---------------------------------------------------------------------------
# 'StdInChannel' interface
#---------------------------------------------------------------------------
def call_handlers(self, msg):
""" Reimplemented to emit signals instead of making callbacks.
"""
# Emit the generic signal.
self.message_received.emit(msg)
# Emit signals for specialized message types.
msg_type = msg['header']['msg_type']
if msg_type == 'input_request':
self.input_requested.emit(msg)
class QtHBChannelMixin(ChannelQObject):
# Emitted when the kernel has died.
kernel_died = QtCore.Signal(object)
#---------------------------------------------------------------------------
# 'HBChannel' interface
#---------------------------------------------------------------------------
def call_handlers(self, since_last_heartbeat):
""" Reimplemented to emit signals instead of making callbacks.
"""
# Emit the generic signal.
self.kernel_died.emit(since_last_heartbeat)
class QtKernelManagerMixin(HasTraits, SuperQObject):
""" A KernelManager that provides signals and slots.
"""
__metaclass__ = MetaQObjectHasTraits
# Emitted when the kernel manager has started listening.
started_kernel = QtCore.Signal()
# Emitted when the kernel manager has started listening.
started_channels = QtCore.Signal()
# Emitted when the kernel manager has stopped listening.
stopped_channels = QtCore.Signal()
# Use Qt-specific channel classes that emit signals.
iopub_channel_class = Type(QtIOPubChannelMixin)
shell_channel_class = Type(QtShellChannelMixin)
stdin_channel_class = Type(QtStdInChannelMixin)
hb_channel_class = Type(QtHBChannelMixin)
#---------------------------------------------------------------------------
# 'KernelManager' interface
#---------------------------------------------------------------------------
#------ Kernel process management ------------------------------------------
def start_kernel(self, *args, **kw):
""" Reimplemented for proper heartbeat management.
"""
if self._shell_channel is not None:
self._shell_channel.reset_first_reply()
super(QtKernelManagerMixin, self).start_kernel(*args, **kw)
self.started_kernel.emit()
#------ Channel management -------------------------------------------------
def start_channels(self, *args, **kw):
""" Reimplemented to emit signal.
"""
super(QtKernelManagerMixin, self).start_channels(*args, **kw)
self.started_channels.emit()
def stop_channels(self):
""" Reimplemented to emit signal.
"""
super(QtKernelManagerMixin, self).stop_channels()
self.stopped_channels.emit()
@property
def shell_channel(self):
""" Reimplemented for proper heartbeat management.
"""
if self._shell_channel is None:
self._shell_channel = super(QtKernelManagerMixin,self).shell_channel
self._shell_channel.first_reply.connect(self._first_reply)
return self._shell_channel
#---------------------------------------------------------------------------
# Protected interface
#---------------------------------------------------------------------------
def _first_reply(self):
""" Unpauses the heartbeat channel when the first reply is received on
the execute channel. Note that this will *not* start the heartbeat
channel if it is not already running!
"""
if self._hb_channel is not None:
self._hb_channel.unpause()