print(xml_data, file=sys.__stderr__)
raise
- def display_progress(self, test_index, text):
- if self.ns.quiet:
- return
-
- # "[ 51/405/1] test_tcl passed"
- line = f"{test_index:{self.test_count_width}}{self.test_count}"
- fails = len(self.bad) + len(self.environment_changed)
- if fails and not self.ns.pgo:
- line = f"{line}/{fails}"
- line = f"[{line}] {text}"
+ def log(self, line=''):
+ empty = not line
# add the system load prefix: "load avg: 1.80 "
load_avg = self.getloadavg()
test_time = time.monotonic() - self.start_time
test_time = datetime.timedelta(seconds=int(test_time))
line = f"{test_time} {line}"
+
+ if empty:
+ line = line[:-1]
+
print(line, flush=True)
+ def display_progress(self, test_index, text):
+ if self.ns.quiet:
+ return
+
+ # "[ 51/405/1] test_tcl passed"
+ line = f"{test_index:{self.test_count_width}}{self.test_count}"
+ fails = len(self.bad) + len(self.environment_changed)
+ if fails and not self.ns.pgo:
+ line = f"{line}/{fails}"
+ self.log(f"[{line}] {text}")
+
def parse_args(self, kwargs):
ns = _parse_args(sys.argv[1:], **kwargs)
self.first_result = self.get_tests_result()
- print()
- print("Re-running failed tests in verbose mode")
+ self.log()
+ self.log("Re-running failed tests in verbose mode")
self.rerun = self.bad[:]
for test_name in self.rerun:
- print(f"Re-running {test_name} in verbose mode", flush=True)
+ self.log(f"Re-running {test_name} in verbose mode")
self.ns.verbose = True
result = runtest(self.ns, test_name)
save_modules = sys.modules.keys()
- print("Run tests sequentially")
+ self.log("Run tests sequentially")
previous_test = None
for test_index, test_name in enumerate(self.tests, 1):
class TestWorkerProcess(threading.Thread):
- def __init__(self, worker_id, pending, output, ns, timeout):
+ def __init__(self, worker_id, runner):
super().__init__()
self.worker_id = worker_id
- self.pending = pending
- self.output = output
- self.ns = ns
- self.timeout = timeout
+ self.pending = runner.pending
+ self.output = runner.output
+ self.ns = runner.ns
+ self.timeout = runner.worker_timeout
+ self.regrtest = runner.regrtest
self.current_test_name = None
self.start_time = None
self._popen = None
if not self.is_alive():
break
dt = time.monotonic() - start_time
- print(f"Waiting for {self} thread for {format_duration(dt)}", flush=True)
+ self.regrtest.log(f"Waiting for {self} thread "
+ f"for {format_duration(dt)}")
if dt > JOIN_TIMEOUT:
print_warning(f"Failed to join {self} in {format_duration(dt)}")
break
class MultiprocessTestRunner:
def __init__(self, regrtest):
self.regrtest = regrtest
+ self.log = self.regrtest.log
self.ns = regrtest.ns
self.output = queue.Queue()
self.pending = MultiprocessIterator(self.regrtest.tests)
self.workers = None
def start_workers(self):
- self.workers = [TestWorkerProcess(index, self.pending, self.output,
- self.ns, self.worker_timeout)
+ self.workers = [TestWorkerProcess(index, self)
for index in range(1, self.ns.use_mp + 1)]
- print("Run tests in parallel using %s child processes"
- % len(self.workers))
+ self.log("Run tests in parallel using %s child processes"
+ % len(self.workers))
for worker in self.workers:
worker.start()
# display progress
running = get_running(self.workers)
if running and not self.ns.pgo:
- print('running: %s' % ', '.join(running), flush=True)
+ self.log('running: %s' % ', '.join(running))
def display_result(self, mp_result):
result = mp_result.result
if item[0]:
# Thread got an exception
format_exc = item[1]
- print(f"regrtest worker thread failed: {format_exc}",
- file=sys.stderr, flush=True)
+ print_warning(f"regrtest worker thread failed: {format_exc}")
return True
self.test_index += 1
if minutes:
parts.append('%s min' % minutes)
if seconds:
- parts.append('%s sec' % seconds)
- if ms:
- parts.append('%s ms' % ms)
+ if parts:
+ # 2 min 1 sec
+ parts.append('%s sec' % seconds)
+ else:
+ # 1.0 sec
+ parts.append('%.1f sec' % (seconds + ms / 1000))
if not parts:
- return '0 ms'
+ return '%s ms' % ms
parts = parts[:2]
return ' '.join(parts)
import _winapi
+import math
import msvcrt
import os
import subprocess
# Max size of asynchronous reads
BUFSIZE = 8192
-# Exponential damping factor (see below)
-LOAD_FACTOR_1 = 0.9200444146293232478931553241
-
# Seconds per measurement
SAMPLING_INTERVAL = 1
+# Exponential damping factor to compute exponentially weighted moving average
+# on 1 minute (60 seconds)
+LOAD_FACTOR_1 = 1 / math.exp(SAMPLING_INTERVAL / 60)
+# Initialize the load using the arithmetic mean of the first NVALUE values
+# of the Processor Queue Length
+NVALUE = 5
# Windows registry subkey of HKEY_LOCAL_MACHINE where the counter names
# of typeperf are registered
COUNTER_REGISTRY_KEY = (r"SOFTWARE\Microsoft\Windows NT\CurrentVersion"
"""
def __init__(self):
- self.load = 0.0
- self.counter_name = ''
+ self._values = []
+ self._load = None
self._buffer = ''
- self.popen = None
+ self._popen = None
self.start()
def start(self):
# Spawn off the load monitor
counter_name = self._get_counter_name()
command = ['typeperf', counter_name, '-si', str(SAMPLING_INTERVAL)]
- self.popen = subprocess.Popen(' '.join(command), stdout=command_stdout, cwd=support.SAVEDCWD)
+ self._popen = subprocess.Popen(' '.join(command), stdout=command_stdout, cwd=support.SAVEDCWD)
# Close our copy of the write end of the pipe
os.close(command_stdout)
process_queue_length = counters_dict['44']
return f'"\\{system}\\{process_queue_length}"'
- def close(self):
- if self.popen is None:
+ def close(self, kill=True):
+ if self._popen is None:
return
- self.popen.kill()
- self.popen.wait()
- self.popen = None
+
+ self._load = None
+
+ if kill:
+ self._popen.kill()
+ self._popen.wait()
+ self._popen = None
def __del__(self):
self.close()
value = value[1:-1]
return float(value)
- def read_lines(self):
+ def _read_lines(self):
overlapped, _ = _winapi.ReadFile(self.pipe, BUFSIZE, True)
bytes_read, res = overlapped.GetOverlappedResult(False)
if res != 0:
return lines
def getloadavg(self):
- for line in self.read_lines():
+ if self._popen is None:
+ return None
+
+ returncode = self._popen.poll()
+ if returncode is not None:
+ self.close(kill=False)
+ return None
+
+ try:
+ lines = self._read_lines()
+ except BrokenPipeError:
+ self.close()
+ return None
+
+ for line in lines:
line = line.rstrip()
# Ignore the initial header:
continue
try:
- load = self._parse_line(line)
+ processor_queue_length = self._parse_line(line)
except ValueError:
print_warning("Failed to parse typeperf output: %a" % line)
continue
# We use an exponentially weighted moving average, imitating the
# load calculation on Unix systems.
# https://en.wikipedia.org/wiki/Load_(computing)#Unix-style_load_calculation
- new_load = self.load * LOAD_FACTOR_1 + load * (1.0 - LOAD_FACTOR_1)
- self.load = new_load
-
- return self.load
+ # https://en.wikipedia.org/wiki/Moving_average#Exponential_moving_average
+ if self._load is not None:
+ self._load = (self._load * LOAD_FACTOR_1
+ + processor_queue_length * (1.0 - LOAD_FACTOR_1))
+ elif len(self._values) < NVALUE:
+ self._values.append(processor_queue_length)
+ else:
+ self._load = sum(self._values) / len(self._values)
+
+ return self._load
Py_DEBUG = hasattr(sys, 'gettotalrefcount')
ROOT_DIR = os.path.join(os.path.dirname(__file__), '..', '..')
ROOT_DIR = os.path.abspath(os.path.normpath(ROOT_DIR))
+LOG_PREFIX = r'[0-9]+:[0-9]+:[0-9]+ (?:load avg: [0-9]+\.[0-9]{2} )?'
TEST_INTERRUPTED = textwrap.dedent("""
from signal import SIGINT, raise_signal
self.assertRegex(output, regex)
def parse_executed_tests(self, output):
- regex = (r'^[0-9]+:[0-9]+:[0-9]+ (?:load avg: [0-9]+\.[0-9]{2} )?\[ *[0-9]+(?:/ *[0-9]+)*\] (%s)'
- % self.TESTNAME_REGEX)
+ regex = (r'^%s\[ *[0-9]+(?:/ *[0-9]+)*\] (%s)'
+ % (LOG_PREFIX, self.TESTNAME_REGEX))
parser = re.finditer(regex, output, re.MULTILINE)
return list(match.group(1) for match in parser)
if rerun:
regex = list_regex('%s re-run test%s', rerun)
self.check_line(output, regex)
- self.check_line(output, "Re-running failed tests in verbose mode")
+ regex = LOG_PREFIX + r"Re-running failed tests in verbose mode"
+ self.check_line(output, regex)
for test_name in rerun:
- regex = f"Re-running {test_name} in verbose mode"
+ regex = LOG_PREFIX + f"Re-running {test_name} in verbose mode"
self.check_line(output, regex)
if no_test_ran:
self.assertEqual(utils.format_duration(10e-3),
'10 ms')
self.assertEqual(utils.format_duration(1.5),
- '1 sec 500 ms')
+ '1.5 sec')
self.assertEqual(utils.format_duration(1),
- '1 sec')
+ '1.0 sec')
self.assertEqual(utils.format_duration(2 * 60),
'2 min')
self.assertEqual(utils.format_duration(2 * 60 + 1),