cpython/Lib/test/test_capi/test_time.py

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import time
import unittest
from test.support import import_helper
_testcapi = import_helper.import_module('_testcapi')
PyTime_MIN = _testcapi.PyTime_MIN
PyTime_MAX = _testcapi.PyTime_MAX
SEC_TO_NS = 10 ** 9
DAY_TO_SEC = (24 * 60 * 60)
# Worst clock resolution: maximum delta between two clock reads.
CLOCK_RES = 0.050
class CAPITest(unittest.TestCase):
def test_min_max(self):
# PyTime_t is just int64_t
self.assertEqual(PyTime_MIN, -2**63)
self.assertEqual(PyTime_MAX, 2**63 - 1)
def test_assecondsdouble(self):
# Test PyTime_AsSecondsDouble()
def ns_to_sec(ns):
if abs(ns) % SEC_TO_NS == 0:
return float(ns // SEC_TO_NS)
else:
return float(ns) / SEC_TO_NS
seconds = (
0,
1,
DAY_TO_SEC,
365 * DAY_TO_SEC,
)
values = {
PyTime_MIN,
PyTime_MIN + 1,
PyTime_MAX - 1,
PyTime_MAX,
}
for second in seconds:
ns = second * SEC_TO_NS
values.add(ns)
# test nanosecond before/after to test rounding
values.add(ns - 1)
values.add(ns + 1)
for ns in list(values):
if (-ns) > PyTime_MAX:
continue
values.add(-ns)
for ns in sorted(values):
with self.subTest(ns=ns):
self.assertEqual(_testcapi.PyTime_AsSecondsDouble(ns),
ns_to_sec(ns))
def check_clock(self, c_func, py_func):
t1 = c_func()
t2 = py_func()
self.assertAlmostEqual(t1, t2, delta=CLOCK_RES)
def test_monotonic(self):
# Test PyTime_Monotonic() and PyTime_MonotonicRaw()
self.check_clock(_testcapi.PyTime_Monotonic, time.monotonic)
self.check_clock(_testcapi.PyTime_MonotonicRaw, time.monotonic)
def test_perf_counter(self):
# Test PyTime_PerfCounter() and PyTime_PerfCounterRaw()
self.check_clock(_testcapi.PyTime_PerfCounter, time.perf_counter)
self.check_clock(_testcapi.PyTime_PerfCounterRaw, time.perf_counter)
def test_time(self):
# Test PyTime_Time() and PyTime_TimeRaw()
self.check_clock(_testcapi.PyTime_Time, time.time)
self.check_clock(_testcapi.PyTime_TimeRaw, time.time)
if __name__ == "__main__":
unittest.main()