src/v8/tools/testrunner/local/pool.py - cobalt - Git at Google

 #!/usr/bin/env python
 # Copyright 2014 the V8 project authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 from Queue import Empty
 from multiprocessing import Event, Process, Queue
 import traceback


 def setup_testing():
   """For testing only: Use threading under the hood instead of multiprocessing
   to make coverage work.
   """
   global Queue
   global Event
   global Process
   del Queue
   del Event
   del Process
   from Queue import Queue
   from threading import Event
   from threading import Thread as Process


 class NormalResult():
   def __init__(self, result):
     self.result = result
     self.exception = False
     self.break_now = False


 class ExceptionResult():
   def __init__(self):
     self.exception = True
     self.break_now = False


 class BreakResult():
   def __init__(self):
     self.exception = False
     self.break_now = True


 class MaybeResult():
   def __init__(self, heartbeat, value):
     self.heartbeat = heartbeat
     self.value = value

   @staticmethod
   def create_heartbeat():
     return MaybeResult(True, None)

   @staticmethod
   def create_result(value):
     return MaybeResult(False, value)


 def Worker(fn, work_queue, done_queue, done,
            process_context_fn=None, process_context_args=None):
   """Worker to be run in a child process.
   The worker stops on two conditions. 1. When the poison pill "STOP" is
   reached or 2. when the event "done" is set."""
   try:
     kwargs = {}
     if process_context_fn and process_context_args is not None:
       kwargs.update(process_context=process_context_fn(*process_context_args))
     for args in iter(work_queue.get, "STOP"):
       if done.is_set():
         break
       try:
         done_queue.put(NormalResult(fn(*args, **kwargs)))
       except Exception, e:
         traceback.print_exc()
         print(">>> EXCEPTION: %s" % e)
         done_queue.put(ExceptionResult())
   except KeyboardInterrupt:
     done_queue.put(BreakResult())


 class Pool():
   """Distributes tasks to a number of worker processes.
   New tasks can be added dynamically even after the workers have been started.
   Requirement: Tasks can only be added from the parent process, e.g. while
   consuming the results generator."""

   # Factor to calculate the maximum number of items in the work/done queue.
   # Necessary to not overflow the queue's pipe if a keyboard interrupt happens.
   BUFFER_FACTOR = 4

   def __init__(self, num_workers, heartbeat_timeout=30):
     self.num_workers = num_workers
     self.processes = []
     self.terminated = False

     # Invariant: count >= #work_queue + #done_queue. It is greater when a
     # worker takes an item from the work_queue and before the result is
     # submitted to the done_queue. It is equal when no worker is working,
     # e.g. when all workers have finished, and when no results are processed.
     # Count is only accessed by the parent process. Only the parent process is
     # allowed to remove items from the done_queue and to add items to the
     # work_queue.
     self.count = 0
     self.work_queue = Queue()
     self.done_queue = Queue()
     self.done = Event()
     self.heartbeat_timeout = heartbeat_timeout

   def imap_unordered(self, fn, gen,
                      process_context_fn=None, process_context_args=None):
     """Maps function "fn" to items in generator "gen" on the worker processes
     in an arbitrary order. The items are expected to be lists of arguments to
     the function. Returns a results iterator. A result value of type
     MaybeResult either indicates a heartbeat of the runner, i.e. indicating
     that the runner is still waiting for the result to be computed, or it wraps
     the real result.

     Args:
       process_context_fn: Function executed once by each worker. Expected to
           return a process-context object. If present, this object is passed
           as additional argument to each call to fn.
       process_context_args: List of arguments for the invocation of
           process_context_fn. All arguments will be pickled and sent beyond the
           process boundary.
     """
     try:
       internal_error = False
       gen = iter(gen)
       self.advance = self._advance_more

       for w in xrange(self.num_workers):
         p = Process(target=Worker, args=(fn,
                                          self.work_queue,
                                          self.done_queue,
                                          self.done,
                                          process_context_fn,
                                          process_context_args))
         p.start()
         self.processes.append(p)

       self.advance(gen)
       while self.count > 0:
         while True:
           try:
             result = self.done_queue.get(timeout=self.heartbeat_timeout)
             break
           except Empty:
             # Indicate a heartbeat. The iterator will continue fetching the
             # next result.
             yield MaybeResult.create_heartbeat()
         self.count -= 1
         if result.exception:
           # TODO(machenbach): Handle a few known types of internal errors
           # gracefully, e.g. missing test files.
           internal_error = True
           continue
         elif result.break_now:
           # A keyboard interrupt happened in one of the worker processes.
           raise KeyboardInterrupt
         else:
           yield MaybeResult.create_result(result.result)
         self.advance(gen)
     except KeyboardInterrupt:
       raise
     except Exception as e:
       traceback.print_exc()
       print(">>> EXCEPTION: %s" % e)
     finally:
       self.terminate()
     if internal_error:
       raise Exception("Internal error in a worker process.")

   def _advance_more(self, gen):
     while self.count < self.num_workers * self.BUFFER_FACTOR:
       try:
         self.work_queue.put(gen.next())
         self.count += 1
       except StopIteration:
         self.advance = self._advance_empty
         break

   def _advance_empty(self, gen):
     pass

   def add(self, args):
     """Adds an item to the work queue. Can be called dynamically while
     processing the results from imap_unordered."""
     self.work_queue.put(args)
     self.count += 1

   def terminate(self):
     if self.terminated:
       return
     self.terminated = True

     # For exceptional tear down set the "done" event to stop the workers before
     # they empty the queue buffer.
     self.done.set()

     for p in self.processes:
       # During normal tear down the workers block on get(). Feed a poison pill
       # per worker to make them stop.
       self.work_queue.put("STOP")

     for p in self.processes:
       p.join()

     # Drain the queues to prevent failures when queues are garbage collected.
     try:
       while True: self.work_queue.get(False)
     except:
       pass
     try:
       while True: self.done_queue.get(False)
     except:
       pass
	#!/usr/bin/env python
	# Copyright 2014 the V8 project authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	from Queue import Empty
	from multiprocessing import Event, Process, Queue
	import traceback


	def setup_testing():
	"""For testing only: Use threading under the hood instead of multiprocessing
	to make coverage work.
	"""
	global Queue
	global Event
	global Process
	del Queue
	del Event
	del Process
	from Queue import Queue
	from threading import Event
	from threading import Thread as Process


	class NormalResult():
	def __init__(self, result):
	self.result = result
	self.exception = False
	self.break_now = False


	class ExceptionResult():
	def __init__(self):
	self.exception = True
	self.break_now = False


	class BreakResult():
	def __init__(self):
	self.exception = False
	self.break_now = True


	class MaybeResult():
	def __init__(self, heartbeat, value):
	self.heartbeat = heartbeat
	self.value = value

	@staticmethod
	def create_heartbeat():
	return MaybeResult(True, None)

	@staticmethod
	def create_result(value):
	return MaybeResult(False, value)


	def Worker(fn, work_queue, done_queue, done,
	process_context_fn=None, process_context_args=None):
	"""Worker to be run in a child process.
	The worker stops on two conditions. 1. When the poison pill "STOP" is
	reached or 2. when the event "done" is set."""
	try:
	kwargs = {}
	if process_context_fn and process_context_args is not None:
	kwargs.update(process_context=process_context_fn(*process_context_args))
	for args in iter(work_queue.get, "STOP"):
	if done.is_set():
	break
	try:
	done_queue.put(NormalResult(fn(args, *kwargs)))
	except Exception, e:
	traceback.print_exc()
	print(">>> EXCEPTION: %s" % e)
	done_queue.put(ExceptionResult())
	except KeyboardInterrupt:
	done_queue.put(BreakResult())


	class Pool():
	"""Distributes tasks to a number of worker processes.
	New tasks can be added dynamically even after the workers have been started.
	Requirement: Tasks can only be added from the parent process, e.g. while
	consuming the results generator."""

	# Factor to calculate the maximum number of items in the work/done queue.
	# Necessary to not overflow the queue's pipe if a keyboard interrupt happens.
	BUFFER_FACTOR = 4

	def __init__(self, num_workers, heartbeat_timeout=30):
	self.num_workers = num_workers
	self.processes = []
	self.terminated = False

	# Invariant: count >= #work_queue + #done_queue. It is greater when a
	# worker takes an item from the work_queue and before the result is
	# submitted to the done_queue. It is equal when no worker is working,
	# e.g. when all workers have finished, and when no results are processed.
	# Count is only accessed by the parent process. Only the parent process is
	# allowed to remove items from the done_queue and to add items to the
	# work_queue.
	self.count = 0
	self.work_queue = Queue()
	self.done_queue = Queue()
	self.done = Event()
	self.heartbeat_timeout = heartbeat_timeout

	def imap_unordered(self, fn, gen,
	process_context_fn=None, process_context_args=None):
	"""Maps function "fn" to items in generator "gen" on the worker processes
	in an arbitrary order. The items are expected to be lists of arguments to
	the function. Returns a results iterator. A result value of type
	MaybeResult either indicates a heartbeat of the runner, i.e. indicating
	that the runner is still waiting for the result to be computed, or it wraps
	the real result.

	Args:
	process_context_fn: Function executed once by each worker. Expected to
	return a process-context object. If present, this object is passed
	as additional argument to each call to fn.
	process_context_args: List of arguments for the invocation of
	process_context_fn. All arguments will be pickled and sent beyond the
	process boundary.
	"""
	try:
	internal_error = False
	gen = iter(gen)
	self.advance = self._advance_more

	for w in xrange(self.num_workers):
	p = Process(target=Worker, args=(fn,
	self.work_queue,
	self.done_queue,
	self.done,
	process_context_fn,
	process_context_args))
	p.start()
	self.processes.append(p)

	self.advance(gen)
	while self.count > 0:
	while True:
	try:
	result = self.done_queue.get(timeout=self.heartbeat_timeout)
	break
	except Empty:
	# Indicate a heartbeat. The iterator will continue fetching the
	# next result.
	yield MaybeResult.create_heartbeat()
	self.count -= 1
	if result.exception:
	# TODO(machenbach): Handle a few known types of internal errors
	# gracefully, e.g. missing test files.
	internal_error = True
	continue
	elif result.break_now:
	# A keyboard interrupt happened in one of the worker processes.
	raise KeyboardInterrupt
	else:
	yield MaybeResult.create_result(result.result)
	self.advance(gen)
	except KeyboardInterrupt:
	raise
	except Exception as e:
	traceback.print_exc()
	print(">>> EXCEPTION: %s" % e)
	finally:
	self.terminate()
	if internal_error:
	raise Exception("Internal error in a worker process.")

	def _advance_more(self, gen):
	while self.count < self.num_workers * self.BUFFER_FACTOR:
	try:
	self.work_queue.put(gen.next())
	self.count += 1
	except StopIteration:
	self.advance = self._advance_empty
	break

	def _advance_empty(self, gen):
	pass

	def add(self, args):
	"""Adds an item to the work queue. Can be called dynamically while
	processing the results from imap_unordered."""
	self.work_queue.put(args)
	self.count += 1

	def terminate(self):
	if self.terminated:
	return
	self.terminated = True

	# For exceptional tear down set the "done" event to stop the workers before
	# they empty the queue buffer.
	self.done.set()

	for p in self.processes:
	# During normal tear down the workers block on get(). Feed a poison pill
	# per worker to make them stop.
	self.work_queue.put("STOP")

	for p in self.processes:
	p.join()

	# Drain the queues to prevent failures when queues are garbage collected.
	try:
	while True: self.work_queue.get(False)
	except:
	pass
	try:
	while True: self.done_queue.get(False)
	except:
	pass