A micro-blogging tool with multiple interfaces.
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# ----------------------------------------------------------------------
# Threading related objects.
# These classes are based on the code available at http://gist.github.com/51686
# (c) 2008, John Stowers <john.stowers@gmail.com>
# ----------------------------------------------------------------------
import gobject
import threading
import logging
_log = logging.getLogger('helper.gtk_threads')
# ----------------------------------------------------------------------
class _IdleObject(gobject.GObject):
"""
Override gobject.GObject to always emit signals in the main thread
by emmitting on an idle handler
"""
def __init__(self):
gobject.GObject.__init__(self)
def emit(self, *args):
gobject.idle_add(gobject.GObject.emit, self, *args)
# ----------------------------------------------------------------------
class _WorkerThread(threading.Thread, _IdleObject):
"""
A single working thread.
"""
__gsignals__ = {
"completed": (
gobject.SIGNAL_RUN_LAST,
gobject.TYPE_NONE,
(gobject.TYPE_PYOBJECT, )), # list/networkdata
"exception": (
gobject.SIGNAL_RUN_LAST,
gobject.TYPE_NONE,
(gobject.TYPE_PYOBJECT, ))} # The exception
def __init__(self, function, *args, **kwargs):
threading.Thread.__init__(self)
_IdleObject.__init__(self)
self._function = function
self._args = args
self._kwargs = kwargs
def run(self):
# call the function
_log.debug('Thread d %s calling %s', self.getName(),
str(self._function.__name__))
args = self._args
kwargs = self._kwargs
try:
result = self._function(*args, **kwargs)
except Exception, exc: # Catch ALL exceptions
# TODO: Check if this catch all warnins too!
_log.debug('Exception inside thread: %s', str(exc))
self.emit("exception", exc)
return
_log.debug('Thread id %s completed', self.getName())
self.emit("completed", result)
return
# ----------------------------------------------------------------------
class ThreadManager(object):
"""Manages the threads."""
def __init__(self, max_threads=2):
"""Start the thread pool. The number of threads in the pool is defined
by `pool_size`, defaults to 2."""
self._max_threads = max_threads
self._thread_pool = []
self._running = []
self._thread_id = 0
return
def _remove_thread(self, widget, arg=None):
"""Called when the thread completes. We remove it from the thread list
(dictionary, actually) and start the next thread (if there is one)."""
# not actually a widget. It's the object that emitted the signal, in
# this case, the _WorkerThread object.
thread_id = widget.getName()
self._running.remove(thread_id)
_log.debug('Thread id %s completed, %d threads in the queue, ' \
'%d still running', thread_id, len(self._thread_pool),
len(self._running))
if self._thread_pool:
if len(self._running) < self._max_threads:
next = self._thread_pool.pop()
_log.debug('Dequeuing thread %s', next.getName())
self._running.append(next.getName())
next.start()
return
def add_work(self, complete_cb, exception_cb, func, *args, **kwargs):
"""Add a work to the thread list. `complete_cb` is the function to be
called with the result of the work. `exception_cb` is the function to
be called if there are any exceptions raised. Note that, once the
work is complete, one of those will be called, not both. `func` is the
function to be called in the secondary threads. `args` and `kwargs`
are parameters passed to the function."""
thread = _WorkerThread(func, *args, **kwargs)
thread_id = '%s-%s' % (self._thread_id, func.__name__)
thread.connect('completed', complete_cb)
thread.connect('completed', self._remove_thread)
thread.connect('exception', exception_cb)
thread.connect('exception', self._remove_thread)
thread.setName(thread_id)
if len(self._running) < self._max_threads:
# immediatelly start the thread
self._running.append(thread_id)
thread.start()
else:
# add the thread to the queue
running_names = ', '.join(self._running)
_log.debug('Threads %s running, adding %s to the queue',
running_names, thread_id)
self._thread_pool.append(thread)
self._thread_id += 1
return
def clear(self):
"""Clear the thread pool list. This will cause the manager to stop
working after the threads finish."""
self._thread_pool = []
self._running = []
return