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bazarr/libs/tqdm/tests/tests_perf.py

368 lines
10 KiB

from __future__ import print_function, division
from nose.plugins.skip import SkipTest
from contextlib import contextmanager
import sys
from time import sleep, time
from tqdm import trange
from tqdm import tqdm
from tests_tqdm import with_setup, pretest, posttest, StringIO, closing, _range
# Use relative/cpu timer to have reliable timings when there is a sudden load
try:
from time import process_time
except ImportError:
from time import clock
process_time = clock
def get_relative_time(prevtime=0):
return process_time() - prevtime
def cpu_sleep(t):
"""Sleep the given amount of cpu time"""
start = process_time()
while (process_time() - start) < t:
pass
def checkCpuTime(sleeptime=0.2):
"""Check if cpu time works correctly"""
if checkCpuTime.passed:
return True
# First test that sleeping does not consume cputime
start1 = process_time()
sleep(sleeptime)
t1 = process_time() - start1
# secondly check by comparing to cpusleep (where we actually do something)
start2 = process_time()
cpu_sleep(sleeptime)
t2 = process_time() - start2
if abs(t1) < 0.0001 and (t1 < t2 / 10):
return True
raise SkipTest
checkCpuTime.passed = False
@contextmanager
def relative_timer():
start = process_time()
def elapser():
return process_time() - start
yield lambda: elapser()
spent = process_time() - start
def elapser(): # NOQA
return spent
def retry_on_except(n=3):
def wrapper(fn):
def test_inner():
for i in range(1, n + 1):
try:
checkCpuTime()
fn()
except SkipTest:
if i >= n:
raise
else:
return
test_inner.__doc__ = fn.__doc__
return test_inner
return wrapper
class MockIO(StringIO):
"""Wraps StringIO to mock a file with no I/O"""
def write(self, data):
return
def simple_progress(iterable=None, total=None, file=sys.stdout, desc='',
leave=False, miniters=1, mininterval=0.1, width=60):
"""Simple progress bar reproducing tqdm's major features"""
n = [0] # use a closure
start_t = [time()]
last_n = [0]
last_t = [0]
if iterable is not None:
total = len(iterable)
def format_interval(t):
mins, s = divmod(int(t), 60)
h, m = divmod(mins, 60)
if h:
return '{0:d}:{1:02d}:{2:02d}'.format(h, m, s)
else:
return '{0:02d}:{1:02d}'.format(m, s)
def update_and_print(i=1):
n[0] += i
if (n[0] - last_n[0]) >= miniters:
last_n[0] = n[0]
if (time() - last_t[0]) >= mininterval:
last_t[0] = time() # last_t[0] == current time
spent = last_t[0] - start_t[0]
spent_fmt = format_interval(spent)
rate = n[0] / spent if spent > 0 else 0
if 0.0 < rate < 1.0:
rate_fmt = "%.2fs/it" % (1.0 / rate)
else:
rate_fmt = "%.2fit/s" % rate
frac = n[0] / total
percentage = int(frac * 100)
eta = (total - n[0]) / rate if rate > 0 else 0
eta_fmt = format_interval(eta)
# bar = "#" * int(frac * width)
barfill = " " * int((1.0 - frac) * width)
bar_length, frac_bar_length = divmod(int(frac * width * 10), 10)
bar = '#' * bar_length
frac_bar = chr(48 + frac_bar_length) if frac_bar_length \
else ' '
file.write("\r%s %i%%|%s%s%s| %i/%i [%s<%s, %s]" %
(desc, percentage, bar, frac_bar, barfill, n[0],
total, spent_fmt, eta_fmt, rate_fmt))
if n[0] == total and leave:
file.write("\n")
file.flush()
def update_and_yield():
for elt in iterable:
yield elt
update_and_print()
update_and_print(0)
if iterable is not None:
return update_and_yield()
else:
return update_and_print
def assert_performance(thresh, name_left, time_left, name_right, time_right):
"""raises if time_left > thresh * time_right"""
if time_left > thresh * time_right:
raise ValueError(
('{name[0]}: {time[0]:f}, '
'{name[1]}: {time[1]:f}, '
'ratio {ratio:f} > {thresh:f}').format(
name=(name_left, name_right),
time=(time_left, time_right),
ratio=time_left / time_right, thresh=thresh))
@with_setup(pretest, posttest)
@retry_on_except()
def test_iter_overhead():
"""Test overhead of iteration based tqdm"""
total = int(1e6)
with closing(MockIO()) as our_file:
a = 0
with trange(total, file=our_file) as t:
with relative_timer() as time_tqdm:
for i in t:
a += i
assert a == (total * total - total) / 2.0
a = 0
with relative_timer() as time_bench:
for i in _range(total):
a += i
our_file.write(a)
assert_performance(6, 'trange', time_tqdm(), 'range', time_bench())
@with_setup(pretest, posttest)
@retry_on_except()
def test_manual_overhead():
"""Test overhead of manual tqdm"""
total = int(1e6)
with closing(MockIO()) as our_file:
with tqdm(total=total * 10, file=our_file, leave=True) as t:
a = 0
with relative_timer() as time_tqdm:
for i in _range(total):
a += i
t.update(10)
a = 0
with relative_timer() as time_bench:
for i in _range(total):
a += i
our_file.write(a)
assert_performance(6, 'tqdm', time_tqdm(), 'range', time_bench())
def worker(total, blocking=True):
def incr_bar(x):
with closing(StringIO()) as our_file:
for _ in trange(
total, file=our_file,
lock_args=None if blocking else (False,),
miniters=1, mininterval=0, maxinterval=0):
pass
return x + 1
return incr_bar
@with_setup(pretest, posttest)
@retry_on_except()
def test_lock_args():
"""Test overhead of nonblocking threads"""
try:
from concurrent.futures import ThreadPoolExecutor
from threading import RLock
except ImportError:
raise SkipTest
import sys
total = 8
subtotal = 1000
tqdm.set_lock(RLock())
with ThreadPoolExecutor(total) as pool:
sys.stderr.write('block ... ')
sys.stderr.flush()
with relative_timer() as time_tqdm:
res = list(pool.map(worker(subtotal, True), range(total)))
assert sum(res) == sum(range(total)) + total
sys.stderr.write('noblock ... ')
sys.stderr.flush()
with relative_timer() as time_noblock:
res = list(pool.map(worker(subtotal, False), range(total)))
assert sum(res) == sum(range(total)) + total
assert_performance(0.2, 'noblock', time_noblock(), 'tqdm', time_tqdm())
@with_setup(pretest, posttest)
@retry_on_except()
def test_iter_overhead_hard():
"""Test overhead of iteration based tqdm (hard)"""
total = int(1e5)
with closing(MockIO()) as our_file:
a = 0
with trange(total, file=our_file, leave=True, miniters=1,
mininterval=0, maxinterval=0) as t:
with relative_timer() as time_tqdm:
for i in t:
a += i
assert a == (total * total - total) / 2.0
a = 0
with relative_timer() as time_bench:
for i in _range(total):
a += i
our_file.write(("%i" % a) * 40)
assert_performance(85, 'trange', time_tqdm(), 'range', time_bench())
@with_setup(pretest, posttest)
@retry_on_except()
def test_manual_overhead_hard():
"""Test overhead of manual tqdm (hard)"""
total = int(1e5)
with closing(MockIO()) as our_file:
t = tqdm(total=total * 10, file=our_file, leave=True, miniters=1,
mininterval=0, maxinterval=0)
a = 0
with relative_timer() as time_tqdm:
for i in _range(total):
a += i
t.update(10)
a = 0
with relative_timer() as time_bench:
for i in _range(total):
a += i
our_file.write(("%i" % a) * 40)
assert_performance(85, 'tqdm', time_tqdm(), 'range', time_bench())
@with_setup(pretest, posttest)
@retry_on_except()
def test_iter_overhead_simplebar_hard():
"""Test overhead of iteration based tqdm vs simple progress bar (hard)"""
total = int(1e4)
with closing(MockIO()) as our_file:
a = 0
with trange(total, file=our_file, leave=True, miniters=1,
mininterval=0, maxinterval=0) as t:
with relative_timer() as time_tqdm:
for i in t:
a += i
assert a == (total * total - total) / 2.0
a = 0
s = simple_progress(_range(total), file=our_file, leave=True,
miniters=1, mininterval=0)
with relative_timer() as time_bench:
for i in s:
a += i
assert_performance(
5, 'trange', time_tqdm(), 'simple_progress', time_bench())
@with_setup(pretest, posttest)
@retry_on_except()
def test_manual_overhead_simplebar_hard():
"""Test overhead of manual tqdm vs simple progress bar (hard)"""
total = int(1e4)
with closing(MockIO()) as our_file:
t = tqdm(total=total * 10, file=our_file, leave=True, miniters=1,
mininterval=0, maxinterval=0)
a = 0
with relative_timer() as time_tqdm:
for i in _range(total):
a += i
t.update(10)
simplebar_update = simple_progress(
total=total * 10, file=our_file, leave=True, miniters=1,
mininterval=0)
a = 0
with relative_timer() as time_bench:
for i in _range(total):
a += i
simplebar_update(10)
assert_performance(
5, 'tqdm', time_tqdm(), 'simple_progress', time_bench())