def test_regularProduction(self): sum = EclSum(self.case) with self.assertRaises(TypeError): trange = TimeVector.createRegular(sum.start_time, sum.end_time, "1M") prod = sum.blockedProduction("FOPR", trange) with self.assertRaises(KeyError): trange = TimeVector.createRegular(sum.start_time, sum.end_time, "1M") prod = sum.blockedProduction("NoNotThis", trange) trange = sum.timeRange(interval="2Y") self.assertTrue(trange[0] == datetime.date(2000, 1, 1)) self.assertTrue(trange[-1] == datetime.date(2006, 1, 1)) trange = sum.timeRange(interval="5Y") self.assertTrue(trange[0] == datetime.date(2000, 1, 1)) self.assertTrue(trange[-1] == datetime.date(2005, 1, 1)) trange = sum.timeRange(interval="6M") wprod1 = sum.blockedProduction("WOPT:OP_1", trange) wprod2 = sum.blockedProduction("WOPT:OP_2", trange) wprod3 = sum.blockedProduction("WOPT:OP_3", trange) wprod4 = sum.blockedProduction("WOPT:OP_4", trange) wprod5 = sum.blockedProduction("WOPT:OP_5", trange) fprod = sum.blockedProduction("FOPT", trange) gprod = sum.blockedProduction("GOPT:OP", trange) wprod = wprod1 + wprod2 + wprod3 + wprod4 + wprod5 for (w, f, g) in zip(wprod, fprod, gprod): self.assertFloatEqual(w, f) self.assertFloatEqual(w, g)
def time_range(self, start=None, end=None, interval="1Y", extend_end=True): (num, timeUnit) = TimeVector.parseTimeUnit(interval) if start is None: start = self.getDataStartTime() else: if isinstance(start, datetime.date): start = datetime.datetime(start.year, start.month, start.day, 0, 0, 0) if start < self.getDataStartTime(): start = self.getDataStartTime() if end is None: end = self.getEndTime() else: if isinstance(end, datetime.date): end = datetime.datetime(end.year, end.month, end.day, 0, 0, 0) if end > self.getEndTime(): end = self.getEndTime() if end < start: raise ValueError("Invalid time interval start after end") range_start = start range_end = end if not timeUnit == "d": year1 = start.year year2 = end.year month1 = start.month month2 = end.month day1 = start.day day2 = end.day if extend_end: if timeUnit == 'm': if day2 > 1: month2 += 1 if month2 == 13: year2 += 1 month2 = 1 elif timeUnit == "y": month1 = 1 if year2 > 1 or day2 > 1: year2 += 1 month2 = 1 day1 = 1 day2 = 1 range_start = datetime.date(year1, month1, day1) range_end = datetime.date(year2, month2, day2) trange = TimeVector.createRegular(range_start, range_end, interval) # If the simulation does not start at the first of the month # the start value will be before the simulation start; we # manually shift the first element in the trange to the start # value; the same for the end of list. if trange[-1] < end: if extend_end: trange.appendTime(num, timeUnit) else: trange.append(end) data_start = self.getDataStartTime() if trange[0] < data_start: trange[0] = CTime(data_start) return trange
def time_range(self, start=None, end=None, interval="1Y", num_timestep=None, extend_end=True): """Will create a vector of timepoints based on the current case. By default the timepoints will be regularly sampled based on the interval given by the @interval string. Alternatively the total number of timesteps can be specified, if the @num_timestep option is specified that will take presedence. """ (num, timeUnit) = TimeVector.parseTimeUnit(interval) if start is None: start = self.getDataStartTime() else: if isinstance(start, datetime.date): start = datetime.datetime(start.year, start.month, start.day, 0, 0, 0) if start < self.getDataStartTime(): start = self.getDataStartTime() if end is None: end = self.getEndTime() else: if isinstance(end, datetime.date): end = datetime.datetime(end.year, end.month, end.day, 0, 0, 0) if end > self.getEndTime(): end = self.getEndTime() if end < start: raise ValueError("Invalid time interval start after end") if not num_timestep is None: return TimeVector.create_linear(CTime(start), CTime(end), num_timestep) range_start = start range_end = end if not timeUnit == "d": year1 = start.year year2 = end.year month1 = start.month month2 = end.month day1 = start.day day2 = end.day if extend_end: if timeUnit == 'm': if day2 > 1: month2 += 1 if month2 == 13: year2 += 1 month2 = 1 elif timeUnit == "y": month1 = 1 if year2 > 1 or day2 > 1: year2 += 1 month2 = 1 day1 = 1 day2 = 1 range_start = datetime.date(year1, month1, day1) range_end = datetime.date(year2, month2, day2) trange = TimeVector.createRegular(range_start, range_end, interval) # If the simulation does not start at the first of the month # the start value will be before the simulation start; we # manually shift the first element in the trange to the start # value; the same for the end of list. if trange[-1] < end: if extend_end: trange.appendTime(num, timeUnit) else: trange.append(end) data_start = self.getDataStartTime() if trange[0] < data_start: trange[0] = CTime(data_start) return trange
def test_time_vector_regular(self): start = datetime.datetime(2010, 1, 1, 0, 0, 0) end = datetime.datetime(2010, 2, 1, 0, 0, 0) with self.assertRaises(ValueError): trange = TimeVector.createRegular(end, start, "1X") with self.assertRaises(TypeError): trange = TimeVector.createRegular(start, end, "1X") with self.assertRaises(TypeError): trange = TimeVector.createRegular(start, end, "1") with self.assertRaises(TypeError): trange = TimeVector.createRegular(start, end, "X") with self.assertRaises(TypeError): trange = TimeVector.createRegular(start, end, "1.5Y") trange = TimeVector.createRegular(start, end, "d") trange = TimeVector.createRegular(start, end, "D") trange = TimeVector.createRegular(start, end, "1d") self.assertEqual(trange[0].datetime(), start) self.assertEqual(trange[-1].datetime(), end) date = start delta = datetime.timedelta(days=1) for t in trange: self.assertEqual(t, date) date += delta end = datetime.datetime(2010, 1, 10, 0, 0, 0) trange = TimeVector.createRegular(start, end, "2d") self.assertEqual(trange[-1].datetime(), datetime.datetime(2010, 1, 9, 0, 0, 0)) self.assertEqual(5, len(trange)) end = datetime.datetime(2012, 1, 10, 0, 0, 0) trange = TimeVector.createRegular(start, end, "3M") self.assertTrue(trange[-1] == datetime.datetime(2012, 1, 1, 0, 0, 0)) self.assertTrue(trange[1] == datetime.datetime(2010, 4, 1, 0, 0, 0)) self.assertTrue(trange[2] == datetime.datetime(2010, 7, 1, 0, 0, 0)) self.assertTrue(trange[3] == datetime.datetime(2010, 10, 1, 0, 0, 0)) self.assertTrue(trange[4] == datetime.datetime(2011, 1, 1, 0, 0, 0)) start = datetime.datetime(1980, 1, 1, 0, 0, 0) end = datetime.datetime(2020, 1, 1, 0, 0, 0) trange = TimeVector.createRegular(start, end, "2Y") for (y, t) in zip(xrange(1980, 2022, 2), trange): self.assertTrue(t == datetime.datetime(y, 1, 1, 0, 0, 0)) trange = TimeVector.createRegular(start, datetime.date(2050, 1, 1), "1Y")