def test_cpu_util_percent_per_cpu(almost_equal, flush):
t1 = P.cpu_times(1)
# We need a delay of at least a second here to get close readings for both the APIs
psutil_util_percent = psutil.cpu_percent(1, True)
pslib_util_percent = P.cpu_util_percent(1, t1)
for i,v in enumerate(psutil_util_percent):
assert almost_equal(v, pslib_util_percent[i])
def test_cpu_times_individual(compare_cpu_times, flush):
pslib_cputimes = P.cpu_times(1)
psutil_cputimes = psutil.cpu_times(True)
for i,psutil_measure in enumerate(psutil_cputimes):
pslib_measure = pslib_cputimes[i]
assert compare_cpu_times(pslib_measure, psutil_measure)
def test_cpu_times_individual(compare_cpu_times, flush):
pslib_cputimes = P.cpu_times(1)
psutil_cputimes = psutil.cpu_times(True)
for i, psutil_measure in enumerate(psutil_cputimes):
pslib_measure = pslib_cputimes[i]
assert compare_cpu_times(pslib_measure, psutil_measure)
def test_cpu_times_percent_per_cpu(compare_cpu_times, flush):
t1 = P.cpu_times(1)
# We need a delay of at least a second here to get close readings for both the APIs
psutil_times_percent = psutil.cpu_times_percent(1, True)
pslib_times_percent = P.cpu_times_percent(1, t1)
for i,psutil_measure in enumerate(psutil_times_percent):
pslib_measure = pslib_times_percent[i]
assert compare_cpu_times(pslib_measure, psutil_measure)
def test_cpu_times_percent_per_cpu(compare_cpu_times, flush):
t1 = P.cpu_times(1)
# We need a delay of at least a second here to get close readings for both the APIs
psutil_times_percent = psutil.cpu_times_percent(1, True)
pslib_times_percent = P.cpu_times_percent(1, t1)
for i, psutil_measure in enumerate(psutil_times_percent):
pslib_measure = pslib_times_percent[i]
assert compare_cpu_times(pslib_measure, psutil_measure)
def test_cpu_util_percent(almost_equal, flush):
t1 = P.cpu_times(0)
# We need a delay of at least a second here to get close readings for both the APIs
psutil_util_percent = psutil.cpu_percent(1)
pslib_util_percent = P.cpu_util_percent(0, t1)
assert almost_equal(psutil_util_percent, pslib_util_percent[0])
def test_cpu_times_percent(compare_cpu_times, flush):
t1 = P.cpu_times(0)
# We need a delay of at least a second here to get close readings for both the APIs
psutil_times_percent = psutil.cpu_times_percent(1)
pslib_times_percent = P.cpu_times_percent(0, t1)
compare_cpu_times(psutil_times_percent, pslib_times_percent)
def test_cpu_times_total(compare_cpu_times, flush):
pslib_cputimes = P.cpu_times(0)
psutil_cputimes = psutil.cpu_times(False)
assert compare_cpu_times(pslib_cputimes, psutil_cputimes)
def test_cpu_times_percent(compare_cpu_times, flush):
t1 = P.cpu_times(0)
# We need a delay of at least a second here to get close readings for both the APIs
psutil_times_percent = psutil.cpu_times_percent(1)
pslib_times_percent = P.cpu_times_percent(0, t1)
compare_cpu_times(psutil_times_percent, pslib_times_percent)
def test_cpu_times_total(compare_cpu_times, flush):
pslib_cputimes = P.cpu_times(0)
psutil_cputimes = psutil.cpu_times(False)
assert compare_cpu_times(pslib_cputimes, psutil_cputimes)
