pym/_emerge/QueueScheduler.py - mirrors/cros/chromiumos/third_party/portage_tool - Git at Google

 # Copyright 1999-2010 Gentoo Foundation
 # Distributed under the terms of the GNU General Public License v2

 import time

 from _emerge.PollScheduler import PollScheduler

 class QueueScheduler(PollScheduler):

 	"""
 	Add instances of SequentialTaskQueue and then call run(). The
 	run() method returns when no tasks remain.
 	"""

 	def __init__(self, max_jobs=None, max_load=None):
 		PollScheduler.__init__(self)

 		if max_jobs is None:
 			max_jobs = 1

 		self._max_jobs = max_jobs
 		self._max_load = max_load

 		self._queues = []
 		self._schedule_listeners = []

 	def add(self, q):
 		self._queues.append(q)

 	def remove(self, q):
 		self._queues.remove(q)

 	def clear(self):
 		for q in self._queues:
 			q.clear()

 	def run(self, timeout=None):

 		start_time = None
 		timed_out = False
 		remaining_timeout = timeout
 		if timeout is not None:
 			start_time = time.time()

 		while self._schedule():
 			self._schedule_wait(timeout=remaining_timeout)
 			if timeout is not None:
 				elapsed_time = time.time() - start_time
 				if elapsed_time < 0:
 					# The system clock has changed such that start_time
 					# is now in the future, so just assume that the
 					# timeout has already elapsed.
 					timed_out = True
 					break
 				remaining_timeout = timeout - 1000 * elapsed_time
 				if remaining_timeout <= 0:
 					timed_out = True
 					break

 		if timeout is None or not timed_out:
 			while self._running_job_count():
 				self._schedule_wait(timeout=remaining_timeout)
 				if timeout is not None:
 					elapsed_time = time.time() - start_time
 					if elapsed_time < 0:
 						# The system clock has changed such that start_time
 						# is now in the future, so just assume that the
 						# timeout has already elapsed.
 						timed_out = True
 						break
 					remaining_timeout = timeout - 1000 * elapsed_time
 					if remaining_timeout <= 0:
 						timed_out = True
 						break

 	def _schedule_tasks(self):
 		"""
 		@rtype: bool
 		@returns: True if there may be remaining tasks to schedule,
 			False otherwise.
 		"""
 		while self._can_add_job():
 			n = self._max_jobs - self._running_job_count()
 			if n < 1:
 				break

 			if not self._start_next_job(n):
 				return False

 		for q in self._queues:
 			if q:
 				return True
 		return False

 	def _running_job_count(self):
 		job_count = 0
 		for q in self._queues:
 			job_count += len(q.running_tasks)
 		self._jobs = job_count
 		return job_count

 	def _start_next_job(self, n=1):
 		started_count = 0
 		for q in self._queues:
 			initial_job_count = len(q.running_tasks)
 			q.schedule()
 			final_job_count = len(q.running_tasks)
 			if final_job_count > initial_job_count:
 				started_count += (final_job_count - initial_job_count)
 			if started_count >= n:
 				break
 		return started_count
	# Copyright 1999-2010 Gentoo Foundation
	# Distributed under the terms of the GNU General Public License v2

	import time

	from _emerge.PollScheduler import PollScheduler

	class QueueScheduler(PollScheduler):

	"""
	Add instances of SequentialTaskQueue and then call run(). The
	run() method returns when no tasks remain.
	"""

	def __init__(self, max_jobs=None, max_load=None):
	PollScheduler.__init__(self)

	if max_jobs is None:
	max_jobs = 1

	self._max_jobs = max_jobs
	self._max_load = max_load

	self._queues = []
	self._schedule_listeners = []

	def add(self, q):
	self._queues.append(q)

	def remove(self, q):
	self._queues.remove(q)

	def clear(self):
	for q in self._queues:
	q.clear()

	def run(self, timeout=None):

	start_time = None
	timed_out = False
	remaining_timeout = timeout
	if timeout is not None:
	start_time = time.time()

	while self._schedule():
	self._schedule_wait(timeout=remaining_timeout)
	if timeout is not None:
	elapsed_time = time.time() - start_time
	if elapsed_time < 0:
	# The system clock has changed such that start_time
	# is now in the future, so just assume that the
	# timeout has already elapsed.
	timed_out = True
	break
	remaining_timeout = timeout - 1000 * elapsed_time
	if remaining_timeout <= 0:
	timed_out = True
	break

	if timeout is None or not timed_out:
	while self._running_job_count():
	self._schedule_wait(timeout=remaining_timeout)
	if timeout is not None:
	elapsed_time = time.time() - start_time
	if elapsed_time < 0:
	# The system clock has changed such that start_time
	# is now in the future, so just assume that the
	# timeout has already elapsed.
	timed_out = True
	break
	remaining_timeout = timeout - 1000 * elapsed_time
	if remaining_timeout <= 0:
	timed_out = True
	break

	def _schedule_tasks(self):
	"""
	@rtype: bool
	@returns: True if there may be remaining tasks to schedule,
	False otherwise.
	"""
	while self._can_add_job():
	n = self._max_jobs - self._running_job_count()
	if n < 1:
	break

	if not self._start_next_job(n):
	return False

	for q in self._queues:
	if q:
	return True
	return False

	def _running_job_count(self):
	job_count = 0
	for q in self._queues:
	job_count += len(q.running_tasks)
	self._jobs = job_count
	return job_count

	def _start_next_job(self, n=1):
	started_count = 0
	for q in self._queues:
	initial_job_count = len(q.running_tasks)
	q.schedule()
	final_job_count = len(q.running_tasks)
	if final_job_count > initial_job_count:
	started_count += (final_job_count - initial_job_count)
	if started_count >= n:
	break
	return started_count