コード例 #1
0
ファイル: test_daily.py プロジェクト: timtsm/weewx
    def testScalarTally(self):
        with weewx.manager.open_manager_with_config(self.config_dict, 'wx_binding') as manager:
            # Pick a random day, say 15 March:
            start_ts = int(time.mktime((2010, 3, 15, 0, 0, 0, 0, 0, -1)))
            stop_ts = int(time.mktime((2010, 3, 16, 0, 0, 0, 0, 0, -1)))
            # Sanity check that this is truly the start of day:
            self.assertEqual(start_ts, weeutil.weeutil.startOfDay(start_ts))

            # Get a day's stats from the daily summaries:
            allStats = manager._get_day_summary(start_ts)

            # Now calculate the same summaries from the raw data in the archive.
            # Here are some random observation types:
            for stats_type in ['barometer', 'outTemp', 'rain']:

                # Now test all the aggregates:
                for aggregate in ['min', 'max', 'sum', 'count', 'avg']:
                    # Compare to the main archive:
                    res = manager.getSql(
                        "SELECT %s(%s) FROM archive WHERE dateTime>? AND dateTime <=?;" % (aggregate, stats_type),
                        (start_ts, stop_ts))
                    # The results from the daily summaries for this aggregation 
                    allStats_res = getattr(allStats[stats_type], aggregate)
                    self.assertAlmostEqual(allStats_res, res[0],
                                           msg="Value check. Failing type %s, aggregate: %s" % (stats_type, aggregate))

                    # Check the times of min and max as well:
                    if aggregate in ['min', 'max']:
                        res2 = manager.getSql(
                            "SELECT dateTime FROM archive WHERE %s = ? AND dateTime>? AND dateTime <=?" % (stats_type,),
                            (res[0], start_ts, stop_ts))
                        stats_time = getattr(allStats[stats_type], aggregate + 'time')
                        self.assertEqual(stats_time, res2[0],
                                         "Time check. Failing type %s, aggregate: %s" % (stats_type, aggregate))
コード例 #2
0
ファイル: time_db.py プロジェクト: tkeffer/benchmarks
def time_query(config_dict):
    """A low-level approach. Use a SQL query"""
    
    manager_dict = weewx.manager.get_manager_dict_from_config(config_dict, 'wx_binding')
    # Just use a regular ol' manager to avoid using the daily summary optimization:
    manager_dict['manager'] = 'weewx.manager.Manager'

    manager = weewx.manager.open_manager(manager_dict,initialize=False)
    
    print "start time=", timestamp_to_string(start_ts)
    print "stop time=",  timestamp_to_string(stop_ts)
    print "Approximately %.1f months of data" % ((stop_ts - start_ts)/(30*24*3600))
    
    t0 = time.time()
    vec = []
    
    for span in weeutil.weeutil.genDaySpans(start_ts, stop_ts):
        query = 'SELECT dateTime, outTemp FROM archive WHERE dateTime > %d AND dateTime <= %d '\
                    'AND outTemp = (SELECT MAX(outTemp) FROM archive WHERE dateTime > %d AND dateTime <= %d)' % (span + span)
        tup = manager.getSql(query)
        vec.append(tup)
    t1 = time.time()
    print "Elapsed query time=", t1-t0
        
    print vec
コード例 #3
0
ファイル: test_daily.py プロジェクト: g-eddy/weewx
    def testWindTally(self):
        with weewx.manager.open_manager_with_config(self.config_dict,
                                                    'wx_binding') as manager:
            # Pick a random day, say 15 March:
            start_ts = int(time.mktime((2010, 3, 15, 0, 0, 0, 0, 0, -1)))
            stop_ts = int(time.mktime((2010, 3, 16, 0, 0, 0, 0, 0, -1)))
            # Sanity check that this is truly the start of day:
            self.assertEqual(start_ts, weeutil.weeutil.startOfDay(start_ts))

            allStats = manager._get_day_summary(start_ts)

            # Test all the aggregates:
            for aggregate in ['min', 'max', 'sum', 'count', 'avg']:
                if aggregate == 'max':
                    res = manager.getSql(
                        "SELECT MAX(windGust) FROM archive WHERE dateTime>? AND dateTime <=?;",
                        (start_ts, stop_ts))
                else:
                    res = manager.getSql(
                        "SELECT %s(windSpeed) FROM archive WHERE dateTime>? AND dateTime <=?;"
                        % (aggregate, ), (start_ts, stop_ts))

                # From StatsDb:
                allStats_res = getattr(allStats['wind'], aggregate)
                self.assertAlmostEqual(allStats_res, res[0])

                # Check the times of min and max as well:
                if aggregate == 'min':
                    resmin = manager.getSql(
                        "SELECT dateTime FROM archive WHERE windSpeed = ? AND dateTime>? AND dateTime <=?",
                        (res[0], start_ts, stop_ts))
                    self.assertEqual(allStats['wind'].mintime, resmin[0])
                elif aggregate == 'max':
                    resmax = manager.getSql(
                        "SELECT dateTime FROM archive WHERE windGust = ?  AND dateTime>? AND dateTime <=?",
                        (res[0], start_ts, stop_ts))
                    self.assertEqual(allStats['wind'].maxtime, resmax[0])

            # Check RMS:
            (squaresum, count) = manager.getSql(
                "SELECT SUM(windSpeed*windSpeed), COUNT(windSpeed) from archive where dateTime>? AND dateTime<=?;",
                (start_ts, stop_ts))
            rms = math.sqrt(squaresum / count) if count else None
            self.assertAlmostEqual(allStats['wind'].rms, rms)
コード例 #4
0
ファイル: test_daily.py プロジェクト: timtsm/weewx
    def testTags(self):
        """Test common tags."""
        global skin_dict
        db_binder = weewx.manager.DBBinder(self.config_dict)
        db_lookup = db_binder.bind_default()
        with weewx.manager.open_manager_with_config(self.config_dict, 'wx_binding') as manager:

            spans = {'day': weeutil.weeutil.TimeSpan(time.mktime((2010, 3, 15, 0, 0, 0, 0, 0, -1)),
                                                     time.mktime((2010, 3, 16, 0, 0, 0, 0, 0, -1))),
                     'week': weeutil.weeutil.TimeSpan(time.mktime((2010, 3, 14, 0, 0, 0, 0, 0, -1)),
                                                      time.mktime((2010, 3, 21, 0, 0, 0, 0, 0, -1))),
                     'month': weeutil.weeutil.TimeSpan(time.mktime((2010, 3, 1, 0, 0, 0, 0, 0, -1)),
                                                       time.mktime((2010, 4, 1, 0, 0, 0, 0, 0, -1))),
                     'year': weeutil.weeutil.TimeSpan(time.mktime((2010, 1, 1, 0, 0, 0, 0, 0, -1)),
                                                      time.mktime((2011, 1, 1, 0, 0, 0, 0, 0, -1)))}

            # This may not necessarily execute in the order specified above:
            for span in spans:

                start_ts = spans[span].start
                stop_ts = spans[span].stop
                tagStats = weewx.tags.TimeBinder(db_lookup, stop_ts,
                                                 formatter=default_formatter,
                                                 rain_year_start=1,
                                                 skin_dict=skin_dict)

                # Cycle over the statistical types:
                for stats_type in ('barometer', 'outTemp', 'rain'):

                    # Now test all the aggregates:
                    for aggregate in ('min', 'max', 'sum', 'count', 'avg'):
                        # Compare to the main archive:
                        res = manager.getSql(
                            "SELECT %s(%s) FROM archive WHERE dateTime>? AND dateTime <=?;" % (aggregate, stats_type),
                            (start_ts, stop_ts))
                        archive_result = res[0]
                        value_helper = getattr(getattr(getattr(tagStats, span)(), stats_type), aggregate)
                        self.assertAlmostEqual(float(str(value_helper.formatted)), archive_result, places=1)

                        # Check the times of min and max as well:
                        if aggregate in ('min', 'max'):
                            res2 = manager.getSql(
                                "SELECT dateTime FROM archive WHERE %s = ? AND dateTime>? AND dateTime <=?" % (
                                stats_type,), (archive_result, start_ts, stop_ts))
                            stats_value_helper = getattr(getattr(getattr(tagStats, span)(), stats_type),
                                                         aggregate + 'time')
                            self.assertEqual(stats_value_helper.raw, res2[0])

            # Do the tests for a report time of midnight, 1-Apr-2010
            tagStats = weewx.tags.TimeBinder(db_lookup, spans['month'].stop,
                                             formatter=default_formatter,
                                             rain_year_start=1,
                                             skin_dict=skin_dict)
            self.assertEqual(str(tagStats.day().barometer.avg), "29.333 inHg")
            self.assertEqual(str(tagStats.day().barometer.min), "29.000 inHg")
            self.assertEqual(str(tagStats.day().barometer.max), "29.935 inHg")
            self.assertEqual(str(tagStats.day().barometer.mintime), "01:00:00")
            self.assertEqual(str(tagStats.day().barometer.maxtime), "00:00:00")
            self.assertEqual(str(tagStats.week().barometer.avg), "30.097 inHg")
            self.assertEqual(str(tagStats.week().barometer.min), "29.000 inHg")
            self.assertEqual(str(tagStats.week().barometer.max), "31.000 inHg")
            self.assertEqual(str(tagStats.week().barometer.mintime), "01:00:00 (Wednesday)")
            self.assertEqual(str(tagStats.week().barometer.maxtime), "01:00:00 (Monday)")
            self.assertEqual(str(tagStats.month().barometer.avg), "29.979 inHg")
            self.assertEqual(str(tagStats.month().barometer.min), "29.000 inHg")
            self.assertEqual(str(tagStats.month().barometer.max), "31.000 inHg")
            self.assertEqual(str(tagStats.month().barometer.mintime), "03/03/10 00:00:00")
            self.assertEqual(str(tagStats.month().barometer.maxtime), "03/05/10 00:00:00")
            self.assertEqual(str(tagStats.year().barometer.avg), "29.996 inHg")
            self.assertEqual(str(tagStats.year().barometer.min), "29.000 inHg")
            self.assertEqual(str(tagStats.year().barometer.max), "31.000 inHg")
            self.assertEqual(str(tagStats.year().barometer.mintime), "01/02/10 00:00:00")
            self.assertEqual(str(tagStats.year().barometer.maxtime), "01/04/10 00:00:00")
            self.assertEqual(str(tagStats.day().outTemp.avg), "38.4°F")
            self.assertEqual(str(tagStats.day().outTemp.min), "18.5°F")
            self.assertEqual(str(tagStats.day().outTemp.max), "58.9°F")
            self.assertEqual(str(tagStats.day().outTemp.mintime), "04:00:00")
            self.assertEqual(str(tagStats.day().outTemp.maxtime), "16:00:00")
            self.assertEqual(str(tagStats.week().outTemp.avg), "38.7°F")
            self.assertEqual(str(tagStats.week().outTemp.min), "16.5°F")
            self.assertEqual(str(tagStats.week().outTemp.max), "60.9°F")
            self.assertEqual(str(tagStats.week().outTemp.mintime), "04:00:00 (Sunday)")
            self.assertEqual(str(tagStats.week().outTemp.maxtime), "16:00:00 (Saturday)")
            self.assertEqual(str(tagStats.month().outTemp.avg), "28.8°F")
            self.assertEqual(str(tagStats.month().outTemp.min), "-1.0°F")
            self.assertEqual(str(tagStats.month().outTemp.max), "58.9°F")
            self.assertEqual(str(tagStats.month().outTemp.mintime), "03/01/10 03:00:00")
            self.assertEqual(str(tagStats.month().outTemp.maxtime), "03/31/10 16:00:00")
            self.assertEqual(str(tagStats.year().outTemp.avg), "48.3°F")
            self.assertEqual(str(tagStats.year().outTemp.min), "-20.0°F")
            self.assertEqual(str(tagStats.year().outTemp.max), "100.0°F")
            self.assertEqual(str(tagStats.year().outTemp.mintime), "01/01/10 03:00:00")
            self.assertEqual(str(tagStats.year().outTemp.maxtime), "07/02/10 16:00:00")

            # Check the special aggregate types "exists" and "has_data":
            self.assertTrue(tagStats.year().barometer.exists)
            self.assertTrue(tagStats.year().barometer.has_data)
            self.assertFalse(tagStats.year().bar.exists)
            self.assertFalse(tagStats.year().bar.has_data)
            self.assertTrue(tagStats.year().inHumidity.exists)
            self.assertFalse(tagStats.year().inHumidity.has_data)