def iget_date(self , time_index): """ Returns the simulation date for element nr @time_index. """ long_time = self._iget_sim_time( time_index ) ct = CTime(long_time) return ct.datetime()
def iget_restart_sim_time( self , index ): """ Will locate restart block nr @index and return the true time as a datetime instance. """ ct = CTime(cfunc.iget_restart_time( self , index )) return ct.datetime()
def iget_restart_sim_time(self, index): """ Will locate restart block nr @index and return the true time as a datetime instance. """ ct = CTime(cfunc.iget_restart_time(self, index)) return ct.datetime()
def iget_date(self, time_index): """ Returns the simulation date for element nr @time_index. """ long_time = self._iget_sim_time(time_index) ct = CTime(long_time) return ct.datetime()
def iget_date(self, time_index): """ Returns the simulation date for element nr @t ime_index. """ long_time = EclSum.cNamespace().iget_sim_time(self, time_index) ct = CTime(long_time) return ct.datetime()
def iget_date(self , time_index): """ Returns the simulation date for element nr @t ime_index. """ long_time = EclSum.cNamespace().iget_sim_time( self , time_index ) ct = CTime(long_time) return ct.datetime()
def test_conversion(self): t = CTime(0) self.assertEqual(t.value(), 0) self.assertEqual(t.ctime(), 0) self.assertEqual(t.time(), time.localtime(0)) # These conversions depend on timezone utc = timezone('utc') local_timezone = timezone(CTime.timezone()) localized_dt = local_timezone.localize(t.datetime()) self.assertEqual(localized_dt.astimezone(utc), datetime(1970, 1, 1, 0, tzinfo=utc)) localized_d = datetime(1970, 1, 1, 0, tzinfo=utc).astimezone(local_timezone) self.assertEqual(t.date(), localized_d.date())
def getSimDate(self): ct = CTime(EclRestartHead.cNamespace().get_sim_time(self)) return ct.datetime()
def getSimDate(self): ct = CTime( EclRestartHead.cNamespace().get_sim_time( self ) ) return ct.datetime( )
def getSimDate(self): ct = CTime( self._get_sim_time( ) ) return ct.datetime( )