def test_setLastAccessed(self):
t = self.t.new('xyzzy')
ft = fauxtime.time()
assert t.getLastAccessed() <= ft
fauxtime.sleep(self.timeout) # go to sleep past the granuarity
ft2 = fauxtime.time()
t.setLastAccessed()
ft3 = fauxtime.time()
assert t.getLastAccessed() <= ft3
assert t.getLastAccessed() >= ft2
def testDelNotification(self):
self.app.sm.setDelNotificationTarget(delNotificationTarget)
sdo = self.app.sm.new_or_existing('TempObject')
# sleep longer than timeout
fauxtime.sleep(self.timeout * 100.0)
self.app.sm.get('TempObject')
now = fauxtime.time()
k = sdo.get('endtime')
self.assertEqual(type(k), type(now))
self.assert_(k <= now)
def test_setLastAccessed(self):
t = self.t.new('xyzzy')
ft = fauxtime.time()
self.assert_(t.getLastAccessed() <= ft)
fauxtime.sleep(self.timeout) # go to sleep past the granuarity
ft2 = fauxtime.time()
t.setLastAccessed()
ft3 = fauxtime.time()
self.assert_(t.getLastAccessed() <= ft3)
self.assert_(t.getLastAccessed() >= ft2)
def test_setLastAccessed(self):
t = self.t.new('xyzzy')
ft = fauxtime.time()
self.assert_(t.getLastAccessed() <= ft)
fauxtime.sleep(self.timeout * 2) # go to sleep past the granularity
ft2 = fauxtime.time()
t.setLastAccessed()
ft3 = fauxtime.time()
self.assert_(t.getLastAccessed() <= ft3)
self.assert_(t.getLastAccessed() >= ft2)
def testDelNotification(self):
self.app.sm.setDelNotificationTarget(delNotificationTarget)
sdo = self.app.sm.new_or_existing('TempObject')
# sleep longer than timeout
fauxtime.sleep(self.timeout * 100.0)
self.app.sm.get('TempObject')
now = fauxtime.time()
k = sdo.get('endtime')
self.assertEqual(type(k), type(now))
self.assert_(k <= now)
def testDelNotification(self):
self.app.sm.setDelNotificationTarget(delNotificationTarget)
sdo = self.app.sm.new_or_existing('TempObject')
timeout = self.timeout * 60
# sleep 2X longer than timeout? doesnt work at 1.1X, 1.5X?
fauxtime.sleep(timeout * 2)
sdo1 = self.app.sm.get('TempObject')
now = fauxtime.time()
k = sdo.get('endtime')
self.assertEqual(type(k), type(now))
self.assert_(k <= now)
def testDelNotification(self):
self.app.sm.setDelNotificationTarget(delNotificationTarget)
sdo = self.app.sm.new_or_existing('TempObject')
timeout = self.timeout * 60
fauxtime.sleep(timeout + (timeout * .75))
sdo1 = self.app.sm.get('TempObject')
# force the sdm to do housekeeping
self.app.sm._housekeep(self.app.sm._deindex_next() -
self.app.sm._period)
now = fauxtime.time()
k = sdo.get('endtime')
assert (type(k) == type(now)), type(k)
assert k <= now, (k, now)
def testLastAccessed(self):
sdo = self.app.sm.new_or_existing('TempObject')
la1 = sdo.getLastAccessed()
# time.time() on Windows has coarse granularity (updates at
# 18.2 Hz -- about once each 0.055 seconds). We have to sleep
# long enough so that "the next" call to time.time() actually
# delivers a larger value. _last_accessed isn't actually updated
# unless current time.time() is greater than the last value +
# WRITEGRANULARITY. The time() and sleep() are fudged by a
# factor of 60, though. The code here used to do
# fauxtime.sleep(WRITEGRANULARITY + 1)
# and that wasn't enough on Windows. The "+1" only added 1/60th
# of a second sleep time in real time, much less than the Windows
# time.time() resolution. Rounding up 0.055 to 1 digit and
# multiplying by 60 ensures that we'll actually sleep long enough
# to get to the next Windows time.time() tick.
fauxtime.sleep(WRITEGRANULARITY + 0.06 * 60)
sdo = self.app.sm.get('TempObject')
self.assert_(sdo.getLastAccessed() > la1)
def testLastAccessed(self):
sdo = self.app.sm.new_or_existing('TempObject')
la1 = sdo.getLastAccessed()
# time.time() on Windows has coarse granularity (updates at
# 18.2 Hz -- about once each 0.055 seconds). We have to sleep
# long enough so that "the next" call to time.time() actually
# delivers a larger value. _last_accessed isn't actually updated
# unless current time.time() is greater than the last value +
# WRITEGRANULARITY. The time() and sleep() are fudged by a
# factor of 60, though. The code here used to do
# fauxtime.sleep(WRITEGRANULARITY + 1)
# and that wasn't enough on Windows. The "+1" only added 1/60th
# of a second sleep time in real time, much less than the Windows
# time.time() resolution. Rounding up 0.055 to 1 digit and
# multiplying by 60 ensures that we'll actually sleep long enough
# to get to the next Windows time.time() tick.
fauxtime.sleep(WRITEGRANULARITY + 0.06 * 60)
sdo = self.app.sm.get('TempObject')
self.assert_(sdo.getLastAccessed() > la1)
def testLastAccessed(self):
sdo = self.app.sm.new_or_existing('TempObject')
la1 = sdo.getLastAccessed()
fauxtime.sleep(WRITEGRANULARITY + 1)
sdo = self.app.sm.get('TempObject')
assert sdo.getLastAccessed() > la1, (sdo.getLastAccessed(), la1)
