YouCompleteMe/python/ycm/unsafe_thread_pool_executor.py

# Copyright 2009 Brian Quinlan. All Rights Reserved.
#   Licensed to PSF under a Contributor Agreement.
#
# Copyright (C) 2013  Google Inc.
#   Changes to this file are licensed under the same terms as the original file
#   (the Python Software Foundation License).


from __future__ import with_statement
import threading
import weakref
import sys

from concurrent.futures import _base

try:
  import queue
except ImportError:
  import Queue as queue


# This file provides an UnsafeThreadPoolExecutor, which operates exactly like
# the upstream Python version of ThreadPoolExecutor with one exception: it
# doesn't wait for worker threads to finish before shutting down the Python
# interpreter.
#
# This is dangerous for many workloads, but fine for some (like when threads
# only send network requests). The YCM workload is one of those workloads where
# it's safe (the aforementioned network requests case).

class _WorkItem( object ):
  def __init__( self, future, fn, args, kwargs ):
    self.future = future
    self.fn = fn
    self.args = args
    self.kwargs = kwargs

  def run( self ):
    if not self.future.set_running_or_notify_cancel():
      return

    try:
      result = self.fn( *self.args, **self.kwargs )
    except BaseException:
      e = sys.exc_info()[ 1 ]
      self.future.set_exception( e )
    else:
      self.future.set_result( result )


def _worker( executor_reference, work_queue ):
  try:
    while True:
      work_item = work_queue.get( block=True )
      if work_item is not None:
        work_item.run()
        continue
      executor = executor_reference()
      # Exit if:
      #   - The executor that owns the worker has been collected OR
      #   - The executor that owns the worker has been shutdown.
      if executor is None or executor._shutdown:
        # Notice other workers
        work_queue.put( None )
        return
      del executor
  except BaseException:
    _base.LOGGER.critical( 'Exception in worker', exc_info=True )


class UnsafeThreadPoolExecutor( _base.Executor ):
  def __init__( self, max_workers ):
    """Initializes a new ThreadPoolExecutor instance.

    Args:
        max_workers: The maximum number of threads that can be used to
            execute the given calls.
    """
    self._max_workers = max_workers
    self._work_queue = queue.Queue()
    self._threads = set()
    self._shutdown = False
    self._shutdown_lock = threading.Lock()

  def submit( self, fn, *args, **kwargs ):
    with self._shutdown_lock:
      if self._shutdown:
        raise RuntimeError( 'cannot schedule new futures after shutdown' )

      f = _base.Future()
      w = _WorkItem( f, fn, args, kwargs )

      self._work_queue.put( w )
      self._adjust_thread_count()
      return f
  submit.__doc__ = _base.Executor.submit.__doc__

  def _adjust_thread_count( self ):
    # When the executor gets lost, the weakref callback will wake up
    # the worker threads.
    def weakref_cb( _, q=self._work_queue ):
      q.put( None )
    # TODO(bquinlan): Should avoid creating new threads if there are more
    # idle threads than items in the work queue.
    if len( self._threads ) < self._max_workers:
      t = threading.Thread( target=_worker,
                            args=( weakref.ref( self, weakref_cb ),
                                   self._work_queue ) )
      t.daemon = True
      t.start()
      self._threads.add( t )

  def shutdown( self, wait=True ):
    with self._shutdown_lock:
      self._shutdown = True
      self._work_queue.put( None )
    if wait:
      for t in self._threads:
        t.join()
  shutdown.__doc__ = _base.Executor.shutdown.__doc__
Use a thread pool that doesn't join workers By default, a ThreadPoolExecutor will wait at Python interpreter shutdown for all the threads to stop by themselves before letting the interpreter shut down. We don't want that for the network requests thread pool, it causes a shutdown latency if there are outstanding requests. Killing the threads in our pool is perfectly safe so we can avoid the latency by introducing an UnsafeThreadPoolExecutor. 2013-10-30 21:08:35 -04:00			`# Copyright 2009 Brian Quinlan. All Rights Reserved.`
			`# Licensed to PSF under a Contributor Agreement.`
			`#`
Changing copyright headers from me to Google When I initially released this project, I released it under my own copyright. I have since then worked on it in my 20% time at Google (and want to continue doing this) and my life becomes much simpler if the copyright is Google's. From the perspective of how this project is run and managed, NOTHING changes. YCM is not a Google product, merely a project run by someone who just happens to work for Google. Please note that the license of the project is NOT changing. People sending in future pull requests will have to sign the Google [CLA](https://developers.google.com/open-source/cla/individual) (you can sign online at the bottom of that page) before those pull requests could be merged in. People who sent in pull requests that were merged in the past will get an email from me asking them to sign the CLA as well. 2014-01-13 14:08:43 -05:00			`# Copyright (C) 2013 Google Inc.`
Use a thread pool that doesn't join workers By default, a ThreadPoolExecutor will wait at Python interpreter shutdown for all the threads to stop by themselves before letting the interpreter shut down. We don't want that for the network requests thread pool, it causes a shutdown latency if there are outstanding requests. Killing the threads in our pool is perfectly safe so we can avoid the latency by introducing an UnsafeThreadPoolExecutor. 2013-10-30 21:08:35 -04:00			`# Changes to this file are licensed under the same terms as the original file`
			`# (the Python Software Foundation License).`


			`from __future__ import with_statement`
			`import threading`
			`import weakref`
			`import sys`

			`from concurrent.futures import _base`

			`try:`
Add flake8-ycm to test requirements Fix errors reported by flake8-ycm. 2018-05-29 19:00:49 -04:00			`import queue`
Use a thread pool that doesn't join workers By default, a ThreadPoolExecutor will wait at Python interpreter shutdown for all the threads to stop by themselves before letting the interpreter shut down. We don't want that for the network requests thread pool, it causes a shutdown latency if there are outstanding requests. Killing the threads in our pool is perfectly safe so we can avoid the latency by introducing an UnsafeThreadPoolExecutor. 2013-10-30 21:08:35 -04:00			`except ImportError:`
Add flake8-ycm to test requirements Fix errors reported by flake8-ycm. 2018-05-29 19:00:49 -04:00			`import Queue as queue`
Use a thread pool that doesn't join workers By default, a ThreadPoolExecutor will wait at Python interpreter shutdown for all the threads to stop by themselves before letting the interpreter shut down. We don't want that for the network requests thread pool, it causes a shutdown latency if there are outstanding requests. Killing the threads in our pool is perfectly safe so we can avoid the latency by introducing an UnsafeThreadPoolExecutor. 2013-10-30 21:08:35 -04:00

			`# This file provides an UnsafeThreadPoolExecutor, which operates exactly like`
			`# the upstream Python version of ThreadPoolExecutor with one exception: it`
			`# doesn't wait for worker threads to finish before shutting down the Python`
			`# interpreter.`
			`#`
			`# This is dangerous for many workloads, but fine for some (like when threads`
			`# only send network requests). The YCM workload is one of those workloads where`
			`# it's safe (the aforementioned network requests case).`

Add flake8-ycm to test requirements Fix errors reported by flake8-ycm. 2018-05-29 19:00:49 -04:00			`class _WorkItem( object ):`
			`def __init__( self, future, fn, args, kwargs ):`
			`self.future = future`
			`self.fn = fn`
			`self.args = args`
			`self.kwargs = kwargs`
Use a thread pool that doesn't join workers By default, a ThreadPoolExecutor will wait at Python interpreter shutdown for all the threads to stop by themselves before letting the interpreter shut down. We don't want that for the network requests thread pool, it causes a shutdown latency if there are outstanding requests. Killing the threads in our pool is perfectly safe so we can avoid the latency by introducing an UnsafeThreadPoolExecutor. 2013-10-30 21:08:35 -04:00
Add flake8-ycm to test requirements Fix errors reported by flake8-ycm. 2018-05-29 19:00:49 -04:00			`def run( self ):`
			`if not self.future.set_running_or_notify_cancel():`
			`return`
Use a thread pool that doesn't join workers By default, a ThreadPoolExecutor will wait at Python interpreter shutdown for all the threads to stop by themselves before letting the interpreter shut down. We don't want that for the network requests thread pool, it causes a shutdown latency if there are outstanding requests. Killing the threads in our pool is perfectly safe so we can avoid the latency by introducing an UnsafeThreadPoolExecutor. 2013-10-30 21:08:35 -04:00
			`try:`
Add flake8-ycm to test requirements Fix errors reported by flake8-ycm. 2018-05-29 19:00:49 -04:00			`result = self.fn( self.args, *self.kwargs )`
Use a thread pool that doesn't join workers By default, a ThreadPoolExecutor will wait at Python interpreter shutdown for all the threads to stop by themselves before letting the interpreter shut down. We don't want that for the network requests thread pool, it causes a shutdown latency if there are outstanding requests. Killing the threads in our pool is perfectly safe so we can avoid the latency by introducing an UnsafeThreadPoolExecutor. 2013-10-30 21:08:35 -04:00			`except BaseException:`
Add flake8-ycm to test requirements Fix errors reported by flake8-ycm. 2018-05-29 19:00:49 -04:00			`e = sys.exc_info()[ 1 ]`
			`self.future.set_exception( e )`
			`else:`
			`self.future.set_result( result )`


			`def _worker( executor_reference, work_queue ):`
			`try:`
			`while True:`
			`work_item = work_queue.get( block=True )`
			`if work_item is not None:`
			`work_item.run()`
			`continue`
			`executor = executor_reference()`
			`# Exit if:`
			`# - The executor that owns the worker has been collected OR`
			`# - The executor that owns the worker has been shutdown.`
			`if executor is None or executor._shutdown:`
			`# Notice other workers`
			`work_queue.put( None )`
			`return`
			`del executor`
			`except BaseException:`
			`_base.LOGGER.critical( 'Exception in worker', exc_info=True )`


			`class UnsafeThreadPoolExecutor( _base.Executor ):`
			`def __init__( self, max_workers ):`
			`"""Initializes a new ThreadPoolExecutor instance.`

			`Args:`
			`max_workers: The maximum number of threads that can be used to`
			`execute the given calls.`
			`"""`
			`self._max_workers = max_workers`
			`self._work_queue = queue.Queue()`
			`self._threads = set()`
			`self._shutdown = False`
			`self._shutdown_lock = threading.Lock()`

			`def submit( self, fn, args, *kwargs ):`
			`with self._shutdown_lock:`
			`if self._shutdown:`
			`raise RuntimeError( 'cannot schedule new futures after shutdown' )`

			`f = _base.Future()`
			`w = _WorkItem( f, fn, args, kwargs )`

			`self._work_queue.put( w )`
			`self._adjust_thread_count()`
			`return f`
			`submit.__doc__ = _base.Executor.submit.__doc__`

			`def _adjust_thread_count( self ):`
			`# When the executor gets lost, the weakref callback will wake up`
			`# the worker threads.`
			`def weakref_cb( _, q=self._work_queue ):`
			`q.put( None )`
			`# TODO(bquinlan): Should avoid creating new threads if there are more`
			`# idle threads than items in the work queue.`
			`if len( self._threads ) < self._max_workers:`
			`t = threading.Thread( target=_worker,`
			`args=( weakref.ref( self, weakref_cb ),`
			`self._work_queue ) )`
			`t.daemon = True`
			`t.start()`
			`self._threads.add( t )`

			`def shutdown( self, wait=True ):`
			`with self._shutdown_lock:`
			`self._shutdown = True`
			`self._work_queue.put( None )`
			`if wait:`
			`for t in self._threads:`
			`t.join()`
			`shutdown.__doc__ = _base.Executor.shutdown.__doc__`