Lib/test/libregrtest/runtest_mp.py - platform/external/python/cpython3 - Gitiles

 import faulthandler
 import json
 import os
 import queue
 import sys
 import time
 import traceback
 import types
 from test import support
 try:
     import threading
 except ImportError:
     print("Multiprocess option requires thread support")
     sys.exit(2)

 from test.libregrtest.runtest import (
     runtest, INTERRUPTED, CHILD_ERROR, PROGRESS_MIN_TIME,
     format_test_result)
 from test.libregrtest.setup import setup_tests


 # Display the running tests if nothing happened last N seconds
 PROGRESS_UPDATE = 30.0   # seconds

 # If interrupted, display the wait progress every N seconds
 WAIT_PROGRESS = 2.0   # seconds


 def run_test_in_subprocess(testname, ns):
     """Run the given test in a subprocess with --slaveargs.

     ns is the option Namespace parsed from command-line arguments. regrtest
     is invoked in a subprocess with the --slaveargs argument; when the
     subprocess exits, its return code, stdout and stderr are returned as a
     3-tuple.
     """
     from subprocess import Popen, PIPE

     ns_dict = vars(ns)
     slaveargs = (ns_dict, testname)
     slaveargs = json.dumps(slaveargs)

     cmd = [sys.executable, *support.args_from_interpreter_flags(),
            '-u',    # Unbuffered stdout and stderr
            '-m', 'test.regrtest',
            '--slaveargs', slaveargs]
     if ns.pgo:
         cmd += ['--pgo']

     # Running the child from the same working directory as regrtest's original
     # invocation ensures that TEMPDIR for the child is the same when
     # sysconfig.is_python_build() is true. See issue 15300.
     popen = Popen(cmd,
                   stdout=PIPE, stderr=PIPE,
                   universal_newlines=True,
                   close_fds=(os.name != 'nt'),
                   cwd=support.SAVEDCWD)
     with popen:
         stdout, stderr = popen.communicate()
         retcode = popen.wait()
     return retcode, stdout, stderr


 def run_tests_slave(slaveargs):
     ns_dict, testname = json.loads(slaveargs)
     ns = types.SimpleNamespace(**ns_dict)

     setup_tests(ns)

     try:
         result = runtest(ns, testname)
     except KeyboardInterrupt:
         result = INTERRUPTED, ''
     except BaseException as e:
         traceback.print_exc()
         result = CHILD_ERROR, str(e)

     print()   # Force a newline (just in case)
     print(json.dumps(result), flush=True)
     sys.exit(0)


 # We do not use a generator so multiple threads can call next().
 class MultiprocessIterator:

     """A thread-safe iterator over tests for multiprocess mode."""

     def __init__(self, tests):
         self.interrupted = False
         self.lock = threading.Lock()
         self.tests = tests

     def __iter__(self):
         return self

     def __next__(self):
         with self.lock:
             if self.interrupted:
                 raise StopIteration('tests interrupted')
             return next(self.tests)


 class MultiprocessThread(threading.Thread):
     def __init__(self, pending, output, ns):
         super().__init__()
         self.pending = pending
         self.output = output
         self.ns = ns
         self.current_test = None
         self.start_time = None

     def _runtest(self):
         try:
             test = next(self.pending)
         except StopIteration:
             self.output.put((None, None, None, None))
             return True

         try:
             self.start_time = time.monotonic()
             self.current_test = test

             retcode, stdout, stderr = run_test_in_subprocess(test, self.ns)
         finally:
             self.current_test = None

         stdout, _, result = stdout.strip().rpartition("\n")
         if retcode != 0:
             result = (CHILD_ERROR, "Exit code %s" % retcode)
             self.output.put((test, stdout.rstrip(), stderr.rstrip(),
                              result))
             return True

         if not result:
             self.output.put((None, None, None, None))
             return True

         result = json.loads(result)
         self.output.put((test, stdout.rstrip(), stderr.rstrip(),
                          result))
         return False

     def run(self):
         try:
             stop = False
             while not stop:
                 stop = self._runtest()
         except BaseException:
             self.output.put((None, None, None, None))
             raise


 def run_tests_multiprocess(regrtest):
     output = queue.Queue()
     pending = MultiprocessIterator(regrtest.tests)
     test_timeout = regrtest.ns.timeout
     use_timeout = (test_timeout is not None)

     workers = [MultiprocessThread(pending, output, regrtest.ns)
                for i in range(regrtest.ns.use_mp)]
     print("Run tests in parallel using %s child processes"
           % len(workers))
     for worker in workers:
         worker.start()

     def get_running(workers):
         running = []
         for worker in workers:
             current_test = worker.current_test
             if not current_test:
                 continue
             dt = time.monotonic() - worker.start_time
             if dt >= PROGRESS_MIN_TIME:
                 running.append('%s (%.0f sec)' % (current_test, dt))
         return running

     finished = 0
     test_index = 1
     get_timeout = max(PROGRESS_UPDATE, PROGRESS_MIN_TIME)
     try:
         while finished < regrtest.ns.use_mp:
             if use_timeout:
                 faulthandler.dump_traceback_later(test_timeout, exit=True)

             try:
                 item = output.get(timeout=get_timeout)
             except queue.Empty:
                 running = get_running(workers)
                 if running and not regrtest.ns.pgo:
                     print('running: %s' % ', '.join(running))
                 continue

             test, stdout, stderr, result = item
             if test is None:
                 finished += 1
                 continue
             regrtest.accumulate_result(test, result)

             # Display progress
             ok, test_time = result
             text = format_test_result(test, ok)
             if (ok not in (CHILD_ERROR, INTERRUPTED)
                 and test_time >= PROGRESS_MIN_TIME
                 and not regrtest.ns.pgo):
                 text += ' (%.0f sec)' % test_time
             running = get_running(workers)
             if running and not regrtest.ns.pgo:
                 text += ' -- running: %s' % ', '.join(running)
             regrtest.display_progress(test_index, text)

             # Copy stdout and stderr from the child process
             if stdout:
                 print(stdout, flush=True)
             if stderr and not regrtest.ns.pgo:
                 print(stderr, file=sys.stderr, flush=True)

             if result[0] == INTERRUPTED:
                 raise KeyboardInterrupt
             if result[0] == CHILD_ERROR:
                 msg = "Child error on {}: {}".format(test, result[1])
                 raise Exception(msg)
             test_index += 1
     except KeyboardInterrupt:
         regrtest.interrupted = True
         pending.interrupted = True
         print()
     finally:
         if use_timeout:
             faulthandler.cancel_dump_traceback_later()

     # If tests are interrupted, wait until tests complete
     wait_start = time.monotonic()
     while True:
         running = [worker.current_test for worker in workers]
         running = list(filter(bool, running))
         if not running:
             break

         dt = time.monotonic() - wait_start
         line = "Waiting for %s (%s tests)" % (', '.join(running), len(running))
         if dt >= WAIT_PROGRESS:
             line = "%s since %.0f sec" % (line, dt)
         print(line)
         for worker in workers:
             worker.join(WAIT_PROGRESS)
	import faulthandler
	import json
	import os
	import queue
	import sys
	import time
	import traceback
	import types
	from test import support
	try:
	import threading
	except ImportError:
	print("Multiprocess option requires thread support")
	sys.exit(2)

	from test.libregrtest.runtest import (
	runtest, INTERRUPTED, CHILD_ERROR, PROGRESS_MIN_TIME,
	format_test_result)
	from test.libregrtest.setup import setup_tests


	# Display the running tests if nothing happened last N seconds
	PROGRESS_UPDATE = 30.0 # seconds

	# If interrupted, display the wait progress every N seconds
	WAIT_PROGRESS = 2.0 # seconds


	def run_test_in_subprocess(testname, ns):
	"""Run the given test in a subprocess with --slaveargs.

	ns is the option Namespace parsed from command-line arguments. regrtest
	is invoked in a subprocess with the --slaveargs argument; when the
	subprocess exits, its return code, stdout and stderr are returned as a
	3-tuple.
	"""
	from subprocess import Popen, PIPE

	ns_dict = vars(ns)
	slaveargs = (ns_dict, testname)
	slaveargs = json.dumps(slaveargs)

	cmd = [sys.executable, *support.args_from_interpreter_flags(),
	'-u', # Unbuffered stdout and stderr
	'-m', 'test.regrtest',
	'--slaveargs', slaveargs]
	if ns.pgo:
	cmd += ['--pgo']

	# Running the child from the same working directory as regrtest's original
	# invocation ensures that TEMPDIR for the child is the same when
	# sysconfig.is_python_build() is true. See issue 15300.
	popen = Popen(cmd,
	stdout=PIPE, stderr=PIPE,
	universal_newlines=True,
	close_fds=(os.name != 'nt'),
	cwd=support.SAVEDCWD)
	with popen:
	stdout, stderr = popen.communicate()
	retcode = popen.wait()
	return retcode, stdout, stderr


	def run_tests_slave(slaveargs):
	ns_dict, testname = json.loads(slaveargs)
	ns = types.SimpleNamespace(**ns_dict)

	setup_tests(ns)

	try:
	result = runtest(ns, testname)
	except KeyboardInterrupt:
	result = INTERRUPTED, ''
	except BaseException as e:
	traceback.print_exc()
	result = CHILD_ERROR, str(e)

	print() # Force a newline (just in case)
	print(json.dumps(result), flush=True)
	sys.exit(0)


	# We do not use a generator so multiple threads can call next().
	class MultiprocessIterator:

	"""A thread-safe iterator over tests for multiprocess mode."""

	def __init__(self, tests):
	self.interrupted = False
	self.lock = threading.Lock()
	self.tests = tests

	def __iter__(self):
	return self

	def __next__(self):
	with self.lock:
	if self.interrupted:
	raise StopIteration('tests interrupted')
	return next(self.tests)


	class MultiprocessThread(threading.Thread):
	def __init__(self, pending, output, ns):
	super().__init__()
	self.pending = pending
	self.output = output
	self.ns = ns
	self.current_test = None
	self.start_time = None

	def _runtest(self):
	try:
	test = next(self.pending)
	except StopIteration:
	self.output.put((None, None, None, None))
	return True

	try:
	self.start_time = time.monotonic()
	self.current_test = test

	retcode, stdout, stderr = run_test_in_subprocess(test, self.ns)
	finally:
	self.current_test = None

	stdout, _, result = stdout.strip().rpartition("\n")
	if retcode != 0:
	result = (CHILD_ERROR, "Exit code %s" % retcode)
	self.output.put((test, stdout.rstrip(), stderr.rstrip(),
	result))
	return True

	if not result:
	self.output.put((None, None, None, None))
	return True

	result = json.loads(result)
	self.output.put((test, stdout.rstrip(), stderr.rstrip(),
	result))
	return False

	def run(self):
	try:
	stop = False
	while not stop:
	stop = self._runtest()
	except BaseException:
	self.output.put((None, None, None, None))
	raise


	def run_tests_multiprocess(regrtest):
	output = queue.Queue()
	pending = MultiprocessIterator(regrtest.tests)
	test_timeout = regrtest.ns.timeout
	use_timeout = (test_timeout is not None)

	workers = [MultiprocessThread(pending, output, regrtest.ns)
	for i in range(regrtest.ns.use_mp)]
	print("Run tests in parallel using %s child processes"
	% len(workers))
	for worker in workers:
	worker.start()

	def get_running(workers):
	running = []
	for worker in workers:
	current_test = worker.current_test
	if not current_test:
	continue
	dt = time.monotonic() - worker.start_time
	if dt >= PROGRESS_MIN_TIME:
	running.append('%s (%.0f sec)' % (current_test, dt))
	return running

	finished = 0
	test_index = 1
	get_timeout = max(PROGRESS_UPDATE, PROGRESS_MIN_TIME)
	try:
	while finished < regrtest.ns.use_mp:
	if use_timeout:
	faulthandler.dump_traceback_later(test_timeout, exit=True)

	try:
	item = output.get(timeout=get_timeout)
	except queue.Empty:
	running = get_running(workers)
	if running and not regrtest.ns.pgo:
	print('running: %s' % ', '.join(running))
	continue

	test, stdout, stderr, result = item
	if test is None:
	finished += 1
	continue
	regrtest.accumulate_result(test, result)

	# Display progress
	ok, test_time = result
	text = format_test_result(test, ok)
	if (ok not in (CHILD_ERROR, INTERRUPTED)
	and test_time >= PROGRESS_MIN_TIME
	and not regrtest.ns.pgo):
	text += ' (%.0f sec)' % test_time
	running = get_running(workers)
	if running and not regrtest.ns.pgo:
	text += ' -- running: %s' % ', '.join(running)
	regrtest.display_progress(test_index, text)

	# Copy stdout and stderr from the child process
	if stdout:
	print(stdout, flush=True)
	if stderr and not regrtest.ns.pgo:
	print(stderr, file=sys.stderr, flush=True)

	if result[0] == INTERRUPTED:
	raise KeyboardInterrupt
	if result[0] == CHILD_ERROR:
	msg = "Child error on {}: {}".format(test, result[1])
	raise Exception(msg)
	test_index += 1
	except KeyboardInterrupt:
	regrtest.interrupted = True
	pending.interrupted = True
	print()
	finally:
	if use_timeout:
	faulthandler.cancel_dump_traceback_later()

	# If tests are interrupted, wait until tests complete
	wait_start = time.monotonic()
	while True:
	running = [worker.current_test for worker in workers]
	running = list(filter(bool, running))
	if not running:
	break

	dt = time.monotonic() - wait_start
	line = "Waiting for %s (%s tests)" % (', '.join(running), len(running))
	if dt >= WAIT_PROGRESS:
	line = "%s since %.0f sec" % (line, dt)
	print(line)
	for worker in workers:
	worker.join(WAIT_PROGRESS)