コード例 #1
0
ファイル: task.py プロジェクト: Som-Energia/plantmonitor
def task_daily_download_from_api_meteologica(test_env=True):

    pony = PonyManager(envinfo.DB_CONF)

    pony.define_all_models()
    pony.binddb(create_tables=False)

    configdb = ns.load('conf/config_meteologica.yaml')
    with orm.db_session:
        downloadMeterForecasts(pony.db, configdb, test_env=test_env)
コード例 #2
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def importPlantCLI(yaml):
    yamlFilename = click.format_filename(yaml)
    logger.debug(yamlFilename)

    from conf import envinfo
    pony = PonyManager(envinfo.DB_CONF)

    pony.define_all_models()
    pony.binddb(create_tables=False)

    importPlantsFromFile(pony.db, yamlFilename)
コード例 #3
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def computeIntegralMetrics():
    from conf import envinfo
    pony = PonyManager(envinfo.DB_CONF)

    pony.define_all_models()
    pony.binddb()
    irradiance = integrateIrradiance(pony.db)
    insertHourlySensorIrradiationMetrics(pony.db, irradiance, 'integratedIrradiation_wh_m2')
    orm.flush()

    expectedEnergy = integrateExpectedPower(pony.db)
    insertHourlySensorIrradiationMetrics(pony.db, expectedEnergy, 'expected_energy_wh')
コード例 #4
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def check_db_connection():
    from conf import envinfo
    pony = PonyManager(envinfo.DB_CONF)

    pony.define_all_models()
    pony.binddb()

    pony.db.check_tables()

    with orm.db_session:
        plants = pony.db.Plant.select()[:].to_list()

    print(plants)
コード例 #5
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ファイル: task.py プロジェクト: Som-Energia/plantmonitor
def task_meters_erp_to_orm():

    pony = PonyManager(envinfo.DB_CONF)

    pony.define_all_models()
    pony.binddb(create_tables=False)
    r = ReadingsFacade(pony.db)

    try:
        # TODO mock measures or fake meters
        r.transfer_ERP_readings_to_model()
    except Exception as err:
        logger.error("[ERROR] %s" % err)
        raise
コード例 #6
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ファイル: forecasts.py プロジェクト: Som-Energia/plantmonitor
def main():
    args = parseArguments()

    configfile = args.get('--config', 'conf/config.yaml')
    configdb = ns.load(configfile)

    configdb.update(args)

    from conf import envinfo

    pony = PonyManager(envinfo.DB_CONF)
    pony.define_all_models()
    pony.binddb()

    downloadMeterForecasts(pony.db, configdb)
コード例 #7
0
ファイル: task.py プロジェクト: Som-Energia/plantmonitor
def task():
    try:

        plantname = envinfo.ACTIVEPLANT_CONF['activeplant']

        # TODO remove legacy
        if plantname == 'Alcolea':
            legacyInfluxUpload()

        plant = ProductionPlant()

        apiconfig = envinfo.API_CONFIG

        if not plant.load('conf/modmap.yaml', plantname):
            logger.error('Error loading yaml definition file...')
            sys.exit(-1)

        plant_data = get_plant_reading(plant)

        if not plant_data:
            logger.error(
                "Getting reading from {} failed. Aborting.".format(plantname))
            return

        pony_manager = PonyManager(envinfo.DB_CONF)
        pony_manager.define_all_models()
        pony_manager.binddb()
        ponyStorage = PonyMetricStorage(pony_manager.db)
        apiStorage = ApiMetricStorage(apiconfig)

        logger.info("**** Saving data in database ****")
        logger.debug("plant_data: {}".format(plant_data))
        ponyStorage.insertPlantData(plant_data)

        logger.info("**** Saving data in Api ****")
        result = apiStorage.insertPlantData(plant_data)
        logger.debug("api response: {}".format(result))

    except Exception as err:
        logger.exception("[ERROR] %s" % err)
コード例 #8
0
class CheckDBConnection_Test(unittest.TestCase):

    def setUp(self):

        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

        orm.rollback()

        self.pony = PonyManager(envinfo.DB_CONF)

        self.pony.define_all_models()
        self.pony.binddb(create_tables=True)

        self.pony.db.drop_all_tables(with_all_data=True)

        #orm.set_sql_debug(True)
        self.pony.db.create_tables()

        self.pony.db.disconnect()

        # database.generate_mapping(create_tables=True)
        # orm.db_session.__enter__()

    def tearDown(self):
        orm.rollback()
        # orm.db_session.__exit__()
        self.pony.db.drop_all_tables(with_all_data=True)
        self.pony.db.disconnect()


    def test__check_db_connection(self):
        check_db_connection()

    def test__check_db_connectionCLI(self):
        runner = CliRunner()
        result = runner.invoke(check_db_connection_CLI, [])
        self.assertEqual(0, result.exit_code)
コード例 #9
0
class Storage_Test(unittest.TestCase):

    from yamlns.testutils import assertNsEqual

    def setUp(self):

        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

        orm.rollback()
        self.pony = PonyManager(envinfo.DB_CONF)

        self.pony.define_all_models()
        self.pony.binddb(create_tables=True)

        self.pony.db.drop_all_tables(with_all_data=True)

        self.storage = PonyMetricStorage(self.pony.db)

        self.maxDiff = None
        # orm.set_sql_debug(True)

        self.pony.db.create_tables()

        # database.generate_mapping(create_tables=True)
        orm.db_session.__enter__()

    def tearDown(self):
        orm.rollback()
        orm.db_session.__exit__()
        self.pony.db.drop_all_tables(with_all_data=True)
        self.pony.db.disconnect()

    def samplePlantData(self, time):
        plantData = {
            "plant":
            "alibaba",
            "devices":
            sorted([{
                "id":
                "Meter:1234578",
                "readings": [{
                    "time": time,
                    "export_energy_wh": 1,
                    "import_energy_wh": 123,
                    "r1_VArh": 1234,
                    "r2_VArh": 124,
                    "r3_VArh": 1234,
                    "r4_VArh": 124,
                }],
            }, {
                "id": "SensorTemperatureAmbient:5555",
                "readings": [{
                    "time": time,
                    "temperature_dc": 170,
                }]
            }],
                   key=lambda d: d['id']),
        }
        return plantData

    def test_Environment(self):
        #TODO will it be too late if the config is misconfigured?
        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

    def test_connection(self):
        with orm.db_session:
            self.assertEqual(self.pony.db.get_connection().status, 1)

    def test__datetimeToStr(self):
        time = datetime.datetime.now(datetime.timezone.utc)
        plant_data = self.samplePlantData(time)
        ApiMetricStorage.datetimeToStr(plant_data)
        expected_plant_data = self.samplePlantData(time.isoformat())

        self.assertDictEqual(plant_data, expected_plant_data)

    #TODO deprecated as soon as we switch plant_data
    # test instead registries_to_plant_data in task.py
    def __test_PublishOrmOneInverterRegistry(self):
        plant_name = 'SomEnergia_Alibaba'
        inverter_name = 'Mary'
        with orm.db_session:
            alcolea = self.pony.db.Plant(name=plant_name,
                                         codename='SOMSC01',
                                         description='descripción de planta')
            inverter = self.pony.db.Inverter(name=inverter_name, plant=alcolea)
            metrics = ns([
                ('daily_energy_h_wh', 0),
                ('daily_energy_l_wh', 17556),
                ('e_total_h_wh', 566),
                ('e_total_l_wh', 49213),
                ('h_total_h_h', 0),
                ('h_total_l_h', 18827),
                ('pac_r_w', 0),
                ('pac_s_w', 0),
                ('pac_t_w', 0),
                ('powerreactive_t_v', 0),
                ('powerreactive_r_v', 0),
                ('powerreactive_s_v', 0),
                ('temp_inv_dc', 320),
                ('time', datetime.datetime.now(datetime.timezone.utc)),
                # Sensors registers  obtained from inverters
                ('probe1value', 443),
                ('probe2value', 220),
                ('probe3value', 0),
                ('probe4value', 0),
            ])

            self.storage.storeInverterMeasures(plant_name, inverter_name,
                                               metrics)

            metrics.pop('probe1value')
            metrics.pop('probe2value')
            metrics.pop('probe3value')
            metrics.pop('probe4value')

            expectedRegistry = dict(metrics)
            expectedRegistry['inverter'] = inverter.id

            inverterReadings = self.storage.inverterReadings()
            self.assertEqual(inverterReadings, [expectedRegistry])

    def __test_PublishOrmIfInverterNotExist(self):
        inverter_name = 'Alice'
        plant_name = 'SomEnergia_Alibaba'
        with orm.db_session:
            alcolea = self.pony.db.Plant(name=plant_name,
                                         codename='SOMSC01',
                                         description='descripción de planta')
            inverter = self.pony.db.Inverter(name=inverter_name, plant=alcolea)
            metrics = ns([
                ('daily_energy_h_wh', 0),
                ('daily_energy_l_wh', 17556),
                ('e_total_h_wh', 566),
                ('e_total_l_wh', 49213),
                ('h_total_h_h', 0),
                ('h_total_l_h', 18827),
                ('pac_r_w', 0),
                ('pac_s_w', 0),
                ('pac_t_w', 0),
                ('powerreactive_t_v', 0),
                ('powerreactive_r_v', 0),
                ('powerreactive_s_v', 0),
                ('temp_inv_dc', 320),
                ('time', datetime.datetime.now(datetime.timezone.utc)),
                # Sensors registers  obtained from inverters
                ('probe1value', 443),
                ('probe2value', 220),
                ('probe3value', 0),
                ('probe4value', 0),
            ])
            self.storage.storeInverterMeasures(plant_name, "UnknownInverter",
                                               metrics)

            self.assertListEqual(self.storage.inverterReadings(), [])

    def __test_PublishOrmIfPlantNotExist(self):
        inverter_name = 'Alice'
        plant_name = 'SomEnergia_Alibaba'
        with orm.db_session:
            alcolea = self.pony.db.Plant(name=plant_name,
                                         codename='SOMSC01',
                                         description='descripción de planta')
            inverter = self.pony.db.Inverter(name=inverter_name, plant=alcolea)
            metrics = ns([
                ('daily_energy_h_wh', 0),
                ('daily_energy_l_wh', 17556),
                ('e_total_h_wh', 566),
                ('e_total_l_wh', 49213),
                ('h_total_h_h', 0),
                ('h_total_l_h', 18827),
                ('pac_r_w', 0),
                ('pac_s_w', 0),
                ('pac_t_w', 0),
                ('powerreactive_t_v', 0),
                ('powerreactive_r_v', 0),
                ('powerreactive_s_v', 0),
                ('temp_inv_dc', 320),
                ('time', datetime.datetime.now(datetime.timezone.utc)),
                # Sensors registers  obtained from inverters
                ('probe1value', 443),
                ('probe2value', 220),
                ('probe3value', 0),
                ('probe4value', 0),
            ])
            self.storage.storeInverterMeasures('UnknownPlant', inverter_name,
                                               metrics)

            self.assertListEqual(self.storage.inverterReadings(), [])

    def test__PonyMetricStorage_insertPlantData__storeTemperatureSensor(self):
        sensor_name = 'Alice'
        plant_name = 'SomEnergia_Alibaba'
        time = datetime.datetime.now(datetime.timezone.utc)

        with orm.db_session:
            alcolea = self.pony.db.Plant(name=plant_name,
                                         codename='SOMSC01',
                                         description='descripción de planta')
            sensor = self.pony.db.SensorTemperatureAmbient(name=sensor_name,
                                                           plant=alcolea)
            orm.flush()
            plant_data = {
                "plant":
                plant_name,
                "version":
                "1.0",
                "time":
                time.isoformat(),  #consider using fastapi.jsonable_encoder
                "devices": [{
                    "id":
                    "SensorTemperatureAmbient:Alice",
                    "readings": [{
                        "temperature_dc": 120,
                        "time": time,
                    }]
                }]
            }
            self.storage.insertPlantData(plant_data)
            orm.flush()

            expected_plant_data = {
                'plant':
                plant_name,
                'devices': [{
                    'id':
                    'SensorTemperatureAmbient:Alice',
                    'readings': [{
                        "temperature_dc": 120,
                        "time": time,
                    }]
                }],
            }
            self.assertDictEqual(self.storage.plantData(plant_name),
                                 expected_plant_data)

    def test__PonyMetricStorage_insertPlantData__storeTemperatureSensorWithoutTemperature(
            self):
        sensor_name = 'Alice'
        plant_name = 'SomEnergia_Alibaba'
        time = datetime.datetime.now(datetime.timezone.utc)

        with orm.db_session:
            alcolea = self.pony.db.Plant(name=plant_name,
                                         codename='SOMSC01',
                                         description='descripción de planta')
            sensor = self.pony.db.SensorTemperatureAmbient(name=sensor_name,
                                                           plant=alcolea)
            orm.flush()
            plant_data = {
                "plant":
                plant_name,
                "version":
                "1.0",
                "time":
                time.isoformat(),  #consider using fastapi.jsonable_encoder
                "devices": [{
                    "id":
                    "SensorTemperatureAmbient:Alice",
                    "readings": [{
                        "temperature_dc": None,
                        "time": time,
                    }]
                }]
            }
            self.storage.insertPlantData(plant_data)
            orm.flush()

            expected_plant_data = {
                'plant':
                plant_name,
                'devices': [{
                    'id':
                    'SensorTemperatureAmbient:Alice',
                    'readings': [{
                        "temperature_dc": None,
                        "time": time,
                    }]
                }],
            }

            self.assertDictEqual(self.storage.plantData(plant_name),
                                 expected_plant_data)
コード例 #10
0
class Migrations_Test(unittest.TestCase):

    from yamlns.testutils import assertNsEqual

    def createConfig(self):
        configdb = ns.load('conf/configdb_test.yaml')
        #TODO add dump database setting (if we end up not replicating it)
        configdb['psql_db'] = "testdump"
        return configdb

    def setUpORM(self):

        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

        orm.rollback()
        self.pony = PonyManager(envinfo.DB_CONF)

        self.pony.define_all_models()
        self.pony.binddb(create_tables=True)

        self.pony.db.drop_all_tables(with_all_data=True)

        self.pony.db.create_tables()
        self.maxDiff = None

        # database.generate_mapping(create_tables=True)
        # orm.db_session.__enter__()

    def tearDownORM(self):
        orm.rollback()
        # orm.db_session.__exit__()
        self.pony.db.drop_all_tables(with_all_data=True)
        self.pony.db.disconnect()

    def setUp(self):
        # configdb = self.createConfig()
        # dumpfile = configdb['dumpfile']
        # print("dumpfile: {}".format(dumpfile))
        # PlantmonitorDB(configdb).demoDBsetupFromDump(configdb, dumpfile)
        self.setUpORM()

    def tearDown(self):
        # configdb = self.createConfig()
        # PlantmonitorDB(configdb).dropDatabase(configdb)
        self.tearDownORM()

    def createPlantmonitorDB(self):
        configdb = self.createConfig()
        return PlantmonitorDB(configdb)

    def mainFacility(self):
        return 'SomEnergia_Amapola'

    def __test_playground(self):
        self.assertTrue(False)

    def __test_loadDump(self):
        # Get data to migrate
        with self.createPlantmonitorDB() as db:
            dumpdir = "./dumpPlantmonitor"
            excluded = [
                'facility_meter', 'teoric_energy', 'integrated_sensors'
            ]

            loadDump(db, dumpdir, excluded)

            # TODO check data
            cur = db._client.cursor()
            cur.execute("select count(*) from facility_meter;")
            facilityMeterCountReg = cur.fetchall()
            cur.execute("select count(*) from integrated_sensors;")
            integratedSensorsCountReg = cur.fetchall()
            self.assertEqual(facilityMeterCountReg, 123)
            self.assertEqual(integratedSensorsCountReg, 123)

    def test_insertInverterRegistrySignature(self):
        #if the insertInvertRegistrySignature changes, the migration code has to
        # change as well, given that it relies on column order
        signature = self.pony.db.Inverter.insertRegistry.__code__.co_varnames
        expectedSignature = (
            "self",
            "power_w",
            "energy_wh",
            "intensity_cc_mA",
            "intensity_ca_mA",
            "voltage_cc_mV",
            "voltage_ca_mV",
            "uptime_h",
            "temperature_dc",
            "time",
        )
        self.assertTupleEqual(expectedSignature, signature)

    def test_tableInverterColumns(self):
        # if the insertInvertRegistrySignature changes, the migration code has to
        # change as well, given that it relies on column order
        with self.createPlantmonitorDB() as db:
            cur = db._client.cursor()
            cur.execute('select * from sistema_inversor limit 1;')
            colNames = [c[0] for c in cur.description]
            expectedColnames = [
                'time', 'inverter_name', 'location', '1HR', '1HR0', '2HR2',
                '3HR3', '4HR4', 'daily_energy_h', 'daily_energy_l',
                'e_total_h', 'e_total_l', 'h_total_h', 'h_total_l', 'pac_r',
                'pac_s', 'pac_t', 'powereactive_t', 'powerreactive_r',
                'powerreactive_s', 'probe1value', 'probe2value', 'probe3value',
                'probe4value', 'temp_inv'
            ]
            self.assertListEqual(expectedColnames, colNames)

    def __test_orderbytime(self):
        # pg_dump pg_restore fails to restore the timescale time index
        with self.createPlantmonitorDB() as db:
            cur = db._client.cursor()
            cur.execute(
                "select time from sistema_inversor order by time asc limit 1;")
            records = cur.fetchall()

            self.assertEqual(len(records), 1)

    def test_Plant_importExportPlant(self):
        with orm.db_session:

            alcoleaPlantYAML = ns.loads("""\
                plants:
                - plant:
                    name: alcolea
                    codename: SCSOM04
                    description: la bonica planta
                    meters:
                    - meter:
                        name: '1234578'
                    inverters:
                    - inverter:
                        name: '5555'
                    - inverter:
                        name: '6666'
                    irradiationSensors:
                    - irradiationSensor:
                        name: alberto
                    temperatureAmbientSensors:
                    - temperatureAmbientSensor:
                        name: joana
                    temperatureModuleSensors:
                    - temperatureModuleSensor:
                        name: juanpe
                    integratedSensors:
                    - integratedSensor:
                        name: voki""")

            alcoleaPlant = alcoleaPlantYAML.plants[0].plant
            alcolea = self.pony.db.Plant(name=alcoleaPlant.name,
                                         codename=alcoleaPlant.codename)
            alcolea = alcolea.importPlant(alcoleaPlant)
            orm.flush()

            #TODO test the whole fixture, not just the plant data
            plantns = alcolea.exportPlant()
            self.assertNsEqual(plantns, alcoleaPlant)

    def test_db_records(self):
        # Get data to migrate
        with self.createPlantmonitorDB() as db:
            curr = db._client.cursor()

            curr.execute("select current_database()")
            db_name = curr.fetchone()[0]
            self.assertEqual(db_name, "testdump")

            curr.execute("select count(*) from sistema_inversor;")
            numrecords = curr.fetchone()[0]
            self.assertGreater(numrecords, 100)
            curr.execute(
                'select time, inverter_name, location, "1HR", daily_energy_h, daily_energy_l from sistema_inversor;'
            )
            records = curr.fetchmany(2)

            # WARNING fetchall does not work on timescale tables / ultrabig tables
            # we might need server-side cursors
            # https://www.psycopg.org/docs/usage.html#server-side-cursors
            #curr.fetchall()

            self.assertEqual(records,
                             [(dt.datetime(2020, 2, 27, 0, 0, 2, 958223),
                               'inversor1', 'Florida', None, 0, 0),
                              (dt.datetime(2020, 2, 27, 0, 0, 3, 152901),
                               'inversor2', 'Florida', None, 0, 0)])

    def __test_registryInsert_PhantomObjectDebug(self):
        with orm.db_session:
            plant = Plant(name='alcolea', codename='alcolea')
            inverter = Inverter(name='inversor1', plant=plant)

            time = dt.datetime(2020, 2, 27, 0, 45, 57, 520238)
            # time = pytz.utc.localize(time)
            time = time.replace(tzinfo=dt.timezone.utc)
            temp_inv = 190
            values = [0, 0, 492, 29998, 0, 16166, 0, 0, 0, 0, 0, 0]
            inverter.insertRegistry(*values, temp_inv_dc=temp_inv, time=time)

            orm.select(r for r in self.pony.db.InverterRegistry).show()

    def __test_migrateLegacyTableToPony_meter(self):
        tableName = 'sistema_contador'
        plantColumnName = 'location'
        deviceColumnName = 'contador'
        deviceType = 'Meter'
        with orm.db_session:
            migrateLegacyInverterTableToPony(self.createConfig(),
                                             tableName=tableName,
                                             plantColumnName=plantColumnName,
                                             deviceColumnName=deviceColumnName,
                                             deviceType=deviceType,
                                             excerpt=True)

    def test_migrateLegacySensorIrradiationTableToPony_sensor(self):
        tableName = 'sensors'
        dataColumnName = 'irradiation_w_m2'
        plantName = 'Alcolea'
        deviceName = 'irradiation_alcolea'
        deviceType = 'SensorIrradiation'

        migrateLegacySensorIrradiationTableToPony(self.createConfig(),
                                                  plantName=plantName,
                                                  deviceName=deviceName,
                                                  excerpt=True)

        with self.createPlantmonitorDB() as db:
            # retrieve expected
            curr = db._client.cursor()
            curr.execute("select time, {} from {} limit 1;".format(
                dataColumnName, tableName))
            expectedFirstRegistry = list(curr.fetchone())

        expectedTime = expectedFirstRegistry[0].replace(tzinfo=dt.timezone.utc)
        expectedIrrValue = expectedFirstRegistry[1]
        expectedTempValue = expectedFirstRegistry[1]
        expectedMigrateRegistryList = [
            expectedTime, plantName, deviceName, expectedIrrValue,
            expectedTempValue
        ]

        with orm.db_session:
            query = self.pony.db.SensorIrradiationRegistry.select().order_by(
                SensorIrradiationRegistry.time)
            migratedRegistry = query.first()
            id, time, irrValue, tempValue = list(
                migratedRegistry.to_dict().values())
            migratedRegistryList = [
                time, migratedRegistry.sensor.plant.name,
                migratedRegistry.sensor.name, irrValue, tempValue
            ]

        self.assertListEqual(migratedRegistryList, expectedMigrateRegistryList)

    # @TODO deprecated integrated sensors are deprecated
    def _test_migrateLegacySensorTableToPony_sensor(self):
        tableName = 'integrated_sensors'
        dataColumnName = 'integral_irradiation_wh_m2'
        plantName = 'Alcolea'
        deviceName = 'irradiation_alcolea'
        deviceType = 'SensorIntegratedIrradiation'

        migrateLegacySensorTableToPony(self.createConfig(),
                                       plantName=plantName,
                                       tableName=tableName,
                                       deviceType=deviceType,
                                       dataColumnName=dataColumnName,
                                       deviceName=deviceName,
                                       excerpt=True)

        with self.createPlantmonitorDB() as db:
            # retrieve expected
            curr = db._client.cursor()
            curr.execute("select time, {} from {} limit 1;".format(
                dataColumnName, tableName))
            expectedFirstRegistry = list(curr.fetchone())

        expectedTime = expectedFirstRegistry[0].replace(tzinfo=dt.timezone.utc)
        expectedValue = expectedFirstRegistry[1]
        expectedMigrateRegistryList = [
            expectedTime, plantName, deviceName, expectedValue
        ]

        with orm.db_session:
            query = self.pony.db.HourlySensorIrradiationRegistry.select(
            ).order_by(HourlySensorIrradiationRegistry.time)
            migratedRegistry = query.first()
            id, time, migratedValue = list(migratedRegistry.to_dict().values())
            migratedRegistryList = [
                time, migratedRegistry.sensor.plant.name,
                migratedRegistry.sensor.name, migratedValue
            ]

        self.assertListEqual(migratedRegistryList, expectedMigrateRegistryList)

    # TODO fix this test
    def test_migrateLegacyMeterTableToPony_checkFacilityMeter(self):
        plantName = 'Alcolea'

        createPlants()
        migrateLegacyMeterTableToPony(self.createConfig(), excerpt=True)

        dbFacilityMeter = {}
        with self.createPlantmonitorDB() as db:
            # retrieve expected
            dbFacilityMeter = db.getFacilityMeter()

        # excluded plants
        excludedFacilities = [
            'SomEnergia_Exiom', 'SomEnergia_Fontivsolar',
            'SomEnergia_La_Florida', 'SomEnergia_Alcolea'
        ]
        dbFacilityMeter = set(
            (f, m) for f, m in dbFacilityMeter if f not in excludedFacilities)

        with orm.db_session:
            q = orm.select((m.plant.codename, m.name) for m in Meter)
            ormFacilityMeter = set(q[:])

        # fetch facilitymeter data
        self.assertSetEqual(ormFacilityMeter, dbFacilityMeter)

    def test_migrateLegacyMeterTableToPony_meters(self):
        plantName = 'Alcolea'
        meterName = '501600324'

        createPlants()
        migrateLegacyMeterTableToPony(self.createConfig(), excerpt=True)

        with self.createPlantmonitorDB() as db:
            # retrieve expected
            curr = db._client.cursor()
            curr.execute(
                "select * from sistema_contador where name = '{}' limit 1;".
                format(meterName))
            expectedFirstRegistry = list(curr.fetchone())

        expectedTime = expectedFirstRegistry[0].replace(tzinfo=dt.timezone.utc)
        expectedMeterName = expectedFirstRegistry[1]
        expectedValuesList = expectedFirstRegistry[2:]
        expectedMigrateRegistryList = [
            expectedTime, plantName, expectedMeterName
        ] + expectedValuesList

        with orm.db_session:
            query = self.pony.db.MeterRegistry.select().order_by(
                self.pony.db.MeterRegistry.time)
            migratedRegistry = query.first()

            id, time, *migratedRegistrylist = list(
                migratedRegistry.to_dict().values())
            migratedRegistryList = [
                time, migratedRegistry.meter.plant.name,
                migratedRegistry.meter.name
            ] + migratedRegistrylist

        self.assertListEqual(migratedRegistryList, expectedMigrateRegistryList)

    def __test_migrateLegacyTableToPony_sensor(self):
        tableName = 'sensors'
        plantColumnName = None
        deviceColumnName = None
        deviceType = 'SensorIrradiation'

        migrateLegacyInverterTableToPony(self.createConfig(),
                                         tableName=tableName,
                                         plantColumnName=plantColumnName,
                                         deviceColumnName=deviceColumnName,
                                         deviceType=deviceType,
                                         excerpt=True)

    def test_migrateLegacyInverterTableToPony_10records(self):
        # Get data to migrate
        # Assumed there on db
        numrecords = 10

        # TODO fix order by time or extract first record plant and inverter_name from pony
        plantName = 'Alcolea'
        inversorName = 'inversor1'

        migrateLegacyInverterTableToPony(self.createConfig(), excerpt=True)

        with self.createPlantmonitorDB() as db:
            # retrieve expected
            curr = db._client.cursor()
            #curr.execute("select * from sistema_inversor where order by location, inverter_name, time desc limit 10;")
            curr.execute(
                "select distinct on (time, location, inverter_name) * from sistema_inversor where location = '{}' and inverter_name = '{}' limit 1;"
                .format(plantName, inversorName))
            expectedFirstRegistry = list(curr.fetchone())

        with orm.db_session:
            numplants = orm.count(p for p in self.pony.db.Plant)
            numinverters = orm.count(i for i in self.pony.db.Inverter)
            numregistries = orm.count(r for r in self.pony.db.InverterRegistry)
            self.assertEqual(numinverters * numrecords, numregistries)

        expectedTime = expectedFirstRegistry[0].replace(tzinfo=dt.timezone.utc)
        expectedPlant = expectedFirstRegistry[2]
        expectedInverter = expectedFirstRegistry[1]
        expectedEnergy = int(
            round((expectedFirstRegistry[8] << 16) + expectedFirstRegistry[9]))
        expectedTempInv = expectedFirstRegistry[-1] * 100
        expectedMigrateRegistryList = [
            expectedTime, expectedPlant, expectedInverter, expectedEnergy,
            expectedTempInv
        ]

        with orm.db_session:
            query = orm.select(
                r for r in self.pony.db.InverterRegistry
                if r.inverter.name == expectedInverter
                and r.inverter.plant.name == expectedPlant).order_by(
                    InverterRegistry.time)

            migratedRegistry = query.first()
            id, time, power, energy, *migratedRegistryList, temperature_dc = list(
                migratedRegistry.to_dict().values())
            migratedRegistryList = [
                time, migratedRegistry.inverter.plant.name,
                migratedRegistry.inverter.name, energy, temperature_dc
            ]

        self.assertListEqual(migratedRegistryList, expectedMigrateRegistryList)

    def _test_fullMigration_plants(self):
        migrateLegacyToPony(self.createConfig(), excerpt=True)

        expectedPlants = [
            'Alcolea', 'Riudarenes_SM', 'Fontivsolar I', 'Riudarenes_BR',
            'Riudarenes_ZE', 'Florida', 'Matallana'
        ]

        with orm.db_session:
            plants = list(orm.select(p.name for p in self.pony.db.Plant))

        self.assertCountEqual(plants, expectedPlants)

    def test_fullMigration_FloridaCheck(self):
        migrateLegacyToPony(self.createConfig(), excerpt=True)

        with orm.db_session:
            plants = list(
                orm.select(p.name for p in self.pony.db.Plant
                           if p.name == "La Florida"))

        self.assertListEqual(plants, [])

    def __test_migrateLegacyInverterTableToPony_DaylightSavingTime(self):
        # TODO
        migrateLegacyInverterTableToPony(self.createConfig(), excerpt=False)

    # skipped per slow, but numbers don't match 1769262 vs 1769465
    def __test_fullMigration_InverterCount_noexcerpt(self):
        migrateLegacyInverterTableToPony(self.createConfig(), excerpt=False)

        with self.createPlantmonitorDB() as db:
            curr = db._client.cursor()
            #curr.execute("select * from sistema_inversor where order by location, inverter_name, time desc limit 10;")
            curr.execute(
                "select count(distinct (time, location, inverter_name)) from sistema_inversor"
            )
            expectednumregistries = curr.fetchone()[0]

        with orm.db_session:
            numregistries = orm.count(r for r in self.pony.db.InverterRegistry)

        self.assertEqual(numregistries, expectednumregistries)

    # TODO there are repeated records 2020-02-26 15:00:00 with different energy values
    # How does distinct choose one
    def __test_fullMigration_MeterCount_noexcerpt(self):

        migrateLegacyMeterTableToPony(self.createConfig(), excerpt=True)

        with self.createPlantmonitorDB() as db:
            curr = db._client.cursor()
            #curr.execute("select * from sistema_inversor where order by location, inverter_name, time desc limit 10;")
            curr.execute(
                "select count(distinct (time, name)) from sistema_contador")
            expectednumregistries = curr.fetchone()[0]

        numregistries = orm.count(r for r in self.pony.db.MeterRegistry)
        self.assertEqual(numregistries, expectednumregistries)

    def __test_fullMigration_noexcerpt(self):

        migrateLegacyToPony(self.createConfig(), excerpt=False)

        with self.createPlantmonitorDB() as db:
            curr = db._client.cursor()
            #curr.execute("select * from sistema_inversor where order by location, inverter_name, time desc limit 10;")
            curr.execute(
                "select count(distinct (time, location, inverter_name)) from sistema_inversor"
            )
            expectednumInverterRegistries = curr.fetchone()[0]
            curr.execute("select count(*) from sistema_contador")
            expectednumMeterRegistries = curr.fetchone()[0]

        with orm.db_session:
            numInverterRegistries = orm.count(
                r for r in self.pony.db.InverterRegistry)
            self.assertEqual(numInverterRegistries,
                             expectednumInverterRegistries)
            numMeterRegistries = orm.count(r
                                           for r in self.pony.db.MeterRegistry)
            self.assertEqual(numMeterRegistries, expectednumMeterRegistries)

    def test_fullMigration_excerpt(self):
        expectednumInverterRegistries = 60
        expectednumMeterRegistries = 70
        migrateLegacyToPony(self.createConfig(), excerpt=True)

        with orm.db_session:
            numInverterRegistries = orm.count(
                r for r in self.pony.db.InverterRegistry)
            self.assertEqual(numInverterRegistries,
                             expectednumInverterRegistries)
            numMeterRegistries = orm.count(r
                                           for r in self.pony.db.MeterRegistry)
            self.assertEqual(numMeterRegistries, expectednumMeterRegistries)
コード例 #11
0
class ReadingsFacade_Test(unittest.TestCase):

    def setUp(self):
        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

        orm.rollback()
        self.pony = PonyManager(envinfo.DB_CONF)

        self.pony.define_all_models()
        self.pony.binddb(create_tables=True)

        self.pony.db.drop_all_tables(with_all_data=True)

        self.pony.db.create_tables()

        orm.db_session.__enter__()

    def tearDown(self):
        orm.rollback()
        orm.db_session.__exit__()
        self.pony.db.drop_all_tables(with_all_data=True)
        self.pony.db.disconnect()

    def samplePlantsNS(self, altMeter="12345678"):
        alcoleaPlantsNS = ns.loads("""\
            municipalities:
            - municipality:
                name: Figueres
                ineCode: '17066'
                countryCode: ES
                country: Spain
                regionCode: '09'
                region: Catalonia
                provinceCode: '17'
                province: Girona
            - municipality:
                name: Girona
                ineCode: '17079'
            plants:
            - plant:
                name: alcolea
                codename: SCSOM04
                description: la bonica planta
                municipality: '17066'
                meters:
                - meter:
                    name: '{}'
                inverters:
                - inverter:
                    name: '5555'
            - plant:
                name: figuerea
                codename: Som_figuerea
                description: la bonica planta
                municipality: '17079'
                meters:
                - meter:
                    name: '5432'
                - meter:
                    name: '9876'
                inverters:
                - inverter:
                    name: '4444'
                - inverter:
                    name: '2222'
                irradiationSensors:
                - irradiationSensor:
                    name: oriol
                temperatureModuleSensors:
                - temperatureModuleSensor:
                    name: joan
                temperatureAmbientSensors:
                - temperatureAmbientSensor:
                    name: benjami
                integratedSensors:
                - integratedSensor:
                    name: david""".format(altMeter))
        return alcoleaPlantsNS

    def samplePlantsData(self, time, dt, altMeter="12345678"):
        plantsData = [
              {
              "plant": "alcolea",
              "devices":
                sorted([{
                    "id": "Meter:{}".format(altMeter),
                    "readings": [{
                        "time": time,
                        "export_energy_wh": 1,
                        "import_energy_wh": 123,
                        "r1_VArh": 1234,
                        "r2_VArh": 124,
                        "r3_VArh": 1234,
                        "r4_VArh": 124,
                    }],
                },
                {
                    "id": "Inverter:5555",
                    "readings": [{
                        "time": time,
                        "power_w": 156,
                        "energy_wh": 154,
                        "intensity_cc_mA": 222,
                        "intensity_ca_mA": 500,
                        "voltage_cc_mV": 200,
                        "voltage_ca_mV": 100,
                        "uptime_h": 15,
                        "temperature_dc": 170,
                    }]
                }],key=lambda d: d['id']),
              },
              {
              "plant": "figuerea",
              "devices":
                sorted([{
                    "id": "Meter:9876",
                    "readings": [{
                        "time": time,
                        "export_energy_wh": 1,
                        "import_energy_wh": 123,
                        "r1_VArh": 1234,
                        "r2_VArh": 124,
                        "r3_VArh": 1234,
                        "r4_VArh": 124,
                    }],
                },
                {
                    "id": "Meter:5432",
                    "readings": [{
                        "time": time,
                        "export_energy_wh": 1,
                        "import_energy_wh": 123,
                        "r1_VArh": 1234,
                        "r2_VArh": 124,
                        "r3_VArh": 1234,
                        "r4_VArh": 124,
                    }],
                }],key=lambda d: d['id']),
            }]
        return plantsData

    def samplePlantsData_DifferentTimes(self, basetime, differenttime, altMeter='12345678'):
        plantsData = [
              {
              "plant": "alcolea",
              "devices":
                sorted([{
                    "id": "Meter:{}".format(altMeter),
                    "readings": [{
                        "time": differenttime,
                        "export_energy_wh": 1,
                        "import_energy_wh": 123,
                        "r1_VArh": 1234,
                        "r2_VArh": 124,
                        "r3_VArh": 1234,
                        "r4_VArh": 124,
                    }],
                },
                {
                    "id": "Inverter:5555",
                    "readings": [{
                        "time": basetime,
                        "power_w": 156,
                        "energy_wh": 154,
                        "intensity_cc_mA": 222,
                        "intensity_ca_mA": 500,
                        "voltage_cc_mV": 200,
                        "voltage_ca_mV": 100,
                        "uptime_h": 15,
                        "temperature_dc": 170,
                    }]
                }],key=lambda d: d['id']),
              },
              {
              "plant": "figuerea",
              "devices":
                sorted([{
                    "id": "Meter:9876",
                    "readings": [{
                        "time": basetime,
                        "export_energy_wh": 1,
                        "import_energy_wh": 123,
                        "r1_VArh": 1234,
                        "r2_VArh": 124,
                        "r3_VArh": 1234,
                        "r4_VArh": 124,
                    }],
                },
                {
                    "id": "Meter:5432",
                    "readings": [{
                        "time": basetime,
                        "export_energy_wh": 1,
                        "import_energy_wh": 123,
                        "r1_VArh": 1234,
                        "r2_VArh": 124,
                        "r3_VArh": 1234,
                        "r4_VArh": 124,
                    }],
                }],key=lambda d: d['id']),
            }]
        return plantsData

    def setupPlants(self, time, alternativeMeter="12345678", plantsData = None):
        delta = dt.timedelta(minutes=30)
        plantsns = self.samplePlantsNS(altMeter=alternativeMeter)
        importPlants(self.pony.db, plantsns)
        plantsData = plantsData or self.samplePlantsData(time, delta, altMeter=alternativeMeter)
        self.pony.db.Plant.insertPlantsData(plantsData)
        orm.flush()

    def test_getNewMetersReadings__noMeterInERP(self):
        time = dt.datetime(2020, 12, 10, 15, 5, 10, 588861, tzinfo=dt.timezone.utc)

        self.setupPlants(time)

        mock = MagicMock(side_effect=self.mockMeterReadingsSideEffects)
        with patch('plantmonitor.readings_facade.ReadingsFacade.measuresFromDate', mock):
            r = ReadingsFacade(db = self.pony.db)
            r.erpMeters = []
            plantsData = r.getNewMetersReadings()

        # orm returns unordered
        for plantdata in plantsData:
            plantdata["devices"].sort(key=lambda d: d['id'])

        expectedPlantsData = [
              {
              "plant": "alcolea",
              "devices": [],
              },
              {
              "plant": "figuerea",
              "devices": [],
            }]

        self.assertListEqual(expectedPlantsData, plantsData)

    # TODO defragilize this tests via fake or mock
    def test_getNewMetersReadings__meterInERP_OldReadings(self):
        lastReadingTime = dt.datetime(2020, 12, 10, 15, 5, 10, 588861, tzinfo=dt.timezone.utc)
        erpMeter = "88300864" # removed meter
        self.setupPlants(lastReadingTime, erpMeter)

        r = ReadingsFacade(self.pony.db)

        plantsData = r.getNewMetersReadings()

        # orm returns unordered
        for plantdata in plantsData:
            plantdata["devices"].sort(key=lambda d: d['id'])

        expectedPlantsData = sorted([
              {
              "plant": "alcolea",
              "devices":
                [{
                    "id": "Meter:88300864",
                    "readings": [],
                }],
              },
              {
              "plant": "figuerea",
              "devices": [],
            }], key=lambda d: d['plant'])

        self.assertListEqual(expectedPlantsData, plantsData)

    def test_getNewMetersReadings__meterInERPmanyReadings(self):
        lastReadingTime = dt.datetime(2019, 10, 1, 15, 5, 10, 588861, tzinfo=dt.timezone.utc)
        erpMeter = "88300864"
        self.setupPlants(lastReadingTime, erpMeter)

        r = ReadingsFacade(self.pony.db)

        upto = dt.datetime(2019, 10, 1, 17, 5, 10, 588861, tzinfo=dt.timezone.utc)
        plantsData = r.getNewMetersReadings(upto)

        # orm returns unordered
        for plantdata in plantsData:
            plantdata["devices"].sort(key=lambda d: d['id'])

        expectedPlantsData = [
              {
              "plant": "alcolea",
              "devices":
                [{
                    "id": "Meter:{}".format(erpMeter),
                    "readings": [{
                        "time": dt.datetime(2019,10,1,16,00,00, tzinfo=dt.timezone.utc),
                        "export_energy_wh": 1139000,
                        "import_energy_wh": 0,
                        "r1_VArh": 0,
                        "r2_VArh": 1000,
                        "r3_VArh": 2000,
                        "r4_VArh": 0,
                    },
                    {
                        "time": dt.datetime(2019,10,1,17,00,00, tzinfo=dt.timezone.utc),
                        "export_energy_wh": 568000,
                        "import_energy_wh": 0,
                        "r1_VArh": 0,
                        "r2_VArh": 0,
                        "r3_VArh": 8000,
                        "r4_VArh": 0,
                    }]
                }],
              },
              {
              "plant": "figuerea",
              "devices": [],
            }]

        self.assertListEqual(expectedPlantsData, plantsData)

    def _test_transfer_ERP_readings_to_model(self):
        r = ReadingsFacade(self.pony.db)
        r.erpMeters = ['12345678']

        # TODO mock measures or fake meters
        r.transfer_ERP_readings_to_model(refreshERPmeters=False)

    def test__warnNewMeters(self):
        erpMeter = "88300864"
        self.setupPlants(dt.datetime.now(tz=dt.timezone.utc), erpMeter)

        r = ReadingsFacade(self.pony.db)
        r.erpMeters = ['3141519']
        newMeters = r.warnNewMeters()
        expectedNewMeters = ['3141519']

        self.assertListEqual(newMeters, expectedNewMeters)

    def test_checkNewMeters(self):
        erpMeter = "88300864"
        self.setupPlants(dt.datetime.now(tz=dt.timezone.utc), erpMeter)
        newMeter = "3141519"

        meterNames = [erpMeter, newMeter]

        r = ReadingsFacade(self.pony.db)
        newMeters = r.checkNewMeters(meterNames)

        self.assertListEqual(newMeters, [newMeter])

    def test__refreshERPmeters__mockTelemeasure(self):

        erpMeter = '88300864'
        self.setupPlants(dt.datetime.now(tz=dt.timezone.utc), erpMeter)

        erpMeters = ['12345678', '87654321']

        # mock telemeasure_meters_name
        r = ReadingsFacade(self.pony.db)
        r.telemeasureMetersNames = MagicMock(return_value=['12345678', '87654321'])
        r.refreshERPmeters()
        newMeters = r.erpMeters

        self.assertListEqual(newMeters, erpMeters)

    # TODO this test is just to remind us that inputting timestamp instead of timestamptz
    # in an entity causes the obscure pony.orm.core.UnrepeatableReadError: Phantom object.
    # times should always have dt.datetime.now(tz=dt.timezone.utc)
    def test__setupPlants__registries(self):

        erpMeter = '88300864'
        self.setupPlants(dt.datetime.now(), erpMeter)

        with self.assertRaises(orm.core.UnrepeatableReadError):
            self.pony.db.MeterRegistry.select().show()

    def _test__getDeviceReadings__differentLastDates(self):

        erpMeter = '88300864'
        self.setupPlants(dt.datetime.now(tz=dt.timezone.utc), erpMeter)

        plant = self.pony.db.Plant.get(name='alcolea')
        meter = self.pony.db.Meter.get(plant=plant, name=erpMeter)
        print(meter.to_dict())
        self.assertIsNotNone(meter)
        self.pony.db.MeterRegistry.select().show()

        lastDate = meter.getLastReadingDate()
        # mock telemeasure_meters_name

        erp_meters = ['12345678', '87654321']

        # mockreturn = [(
        #         measure['utc_timestamp'],
        #         int(measure['ae']),
        #         int(measure['ai']),
        #         int(measure['r1']),
        #         int(measure['r2']),
        #         int(measure['r3']),
        #         int(measure['r4']),
        #     )
        #     for measure in sorted(measures,
        #         key=lambda x: x['utc_timestamp'])
        # ]
        mock = MagicMock(return_value=['12345678', '87654321'])
        with patch('plantmonitor.readings_facade.ReadingsFacade.measuresFromDate', mock):
            r = ReadingsFacade(self.pony.db)
            newMeters = r.getDeviceReadings(meterName=erpMeter, lastDate=lastDate, upto=None)

        self.assertListEqual(newMeters, erp_meters)

    def assertPlantsData(self, plants_data, meterReadings):
        # print("meterreadings\n{}\n mock\n{}\n".format(plants_data, meterReadings))

        plants_data_meters = sorted([device['id'].split(':')[1] for plant_data in plants_data for device in plant_data['devices']])
        meters = sorted(meterReadings.keys())
        self.assertListEqual(plants_data_meters, meters)

        for plant_data in plants_data:
            for device in plant_data['devices']:
                meterName = device['id'].split(':')[1]
                data = (meterName, meterReadings[meterName])
                expected = (meterName, [
                        (
                            reading['time'].strftime("%Y-%m-%d %H:%M:%S"),
                            reading['export_energy_wh']/1000.0,
                            0/1000.0,0,0,0,0
                        ) for reading in device['readings']
                    ])
                self.assertTupleEqual(data, expected)


    # def assertMockReadings(self, plants_data, mock_readings):
    #     readings = [
    #         self.assertListEqual(
    #             mock_readings,
    #             [(
    #                 reading['time'].strftime("%Y-%m-%d %H:%M:%S"),
    #                 reading['export_energy_wh'],
    #                 0,0,0,0,0
    #             ) for reading in device['readings']]
    #         )
    #         for plant_data in plants_data for device in plant_data['devices']
    #     ]

    def mock_meter_readings(self, time, random=True):
        import random

        def toUTCstr(dtaware):
            return dtaware.astimezone(tz=dt.timezone.utc).replace(tzinfo=None).strftime("%Y-%m-%d %H:%M:%S")

        time.replace(minute=0,second=0,microsecond=0)
        delta = dt.timedelta(hours=1)

        values = [0]*8 + [11, 80, 366, 716, 991, 1182, 1293, 1315, 1268, 1132, 894, 609, 323, 104, 1, 0]
        i = 0
        while True:
            # dr = random.randint(30,70) if random else 0
            dr = 0
            yield (toUTCstr(time + i*delta), values[(time.hour+i)%24] + dr,0,0,0,0,0)
            i = i + 1

    def setupReadingsDB(self, time, readingsDict=None):
        def toUTCstr(dtaware):
            return dtaware.astimezone(tz=dt.timezone.utc).replace(tzinfo=None).strftime("%Y-%m-%d %H:%M:%S")

        h = dt.timedelta(hours=1)
        self.readingsDB = readingsDict or {
            '12345678': [
                (toUTCstr(time+0*h), 11,0,0,0,0,0),
                (toUTCstr(time+1*h), 11,0,0,0,0,0),
                (toUTCstr(time+2*h), 80,0,0,0,0,0),
                (toUTCstr(time+3*h), 366,0,0,0,0,0),
            ],
            '1234': [
                (toUTCstr(time+0*h), 11,0,0,0,0,0),
                (toUTCstr(time+1*h), 11,0,0,0,0,0),
                (toUTCstr(time+2*h), 80,0,0,0,0,0),
                (toUTCstr(time+3*h), 366,0,0,0,0,0),
            ],
            '9876': [
                (toUTCstr(time+0*h), 11,0,0,0,0,0),
                (toUTCstr(time+1*h), 11,0,0,0,0,0),
                (toUTCstr(time+2*h), 80,0,0,0,0,0),
                (toUTCstr(time+3*h), 366,0,0,0,0,0),
            ],
            '5432': [
                (toUTCstr(time+0*h), 11,0,0,0,0,0),
                (toUTCstr(time+1*h), 11,0,0,0,0,0),
                (toUTCstr(time+2*h), 80,0,0,0,0,0),
                (toUTCstr(time+3*h), 366,0,0,0,0,0),
            ]
        }

    def mockMeterReadingsSideEffects(self, meterName, beyond, upto):
        if not beyond:
            return [r for r in self.readingsDB[meterName] if todtaware(r[0]) < upto]
        else:
            return [r for r in self.readingsDB[meterName] if beyond < todtaware(r[0]) and todtaware(r[0]) < upto]

    def test__mock_meter_readings(self):
        time = dt.datetime(2019,10,1,16,00,00, tzinfo=dt.timezone.utc)
        readingGenerator = self.mock_meter_readings(time, random=False)
        readings = list(next(readingGenerator) for i in range(4))

        self.assertTrue(readings)

    def setupMockReadings(self, erpMeters, meterTimes):

        readingGenerators = {
            'Meter:{}'.format(name): self.mock_meter_readings(meterTime, random=False)
            for name, meterTime in zip(erpMeters, meterTimes)
        }
        mockMeterReadings = {
            id:list(next(readingGenerator) for i in range(4))
            for id, readingGenerator in readingGenerators.items()
        }
        mockSideEffect = [
            readings for id, readings in mockMeterReadings.items()
        ]

        return mockMeterReadings, mockSideEffect

    def test__getLastReadingDate(self):

        erpMeter = '12345678'
        time = dt.datetime.now(tz=dt.timezone.utc)
        self.setupPlants(time, erpMeter)

        lastDates = [meter.getLastReadingDate() for meter in self.pony.db.Meter.select()]

        self.assertListEqual(lastDates, [time]*len(lastDates))

    def test__transferERPreadingsToModel__manyMetersSameDates_ManyNewReadings(self):

        erpMeter = '12345678'
        ormtime = dt.datetime(2019,10,1,16,00,00, tzinfo=dt.timezone.utc)
        erptime = dt.datetime(2020,10,1,16,00,00, tzinfo=dt.timezone.utc)
        self.setupPlants(ormtime, erpMeter)
        self.setupReadingsDB(erptime)

        erpMeters = ['12345678', '1234', '9876', '5432']

        mock = MagicMock(side_effect=self.mockMeterReadingsSideEffects)
        with patch('plantmonitor.readings_facade.ReadingsFacade.measuresFromDate', mock):
            r = ReadingsFacade(self.pony.db)
            r.erpMeters = erpMeters
            plantsData = r.getNewMetersReadings()

        expectedErpMeters = ['12345678', '9876', '5432']
        expectedMeterReadings = {k:v for k,v in self.readingsDB.items() if k in expectedErpMeters}
        self.assertPlantsData(plantsData, expectedMeterReadings)

    def test__transferERPreadingsToModel__manyMetersDifferentDates_OneWithoutNewReadings(self):

        erpMeter = '12345678'
        obsoleteTime = dt.datetime(2020,10,1,16,00,00, tzinfo=dt.timezone.utc)
        updatedTime = dt.datetime(2021,4,1,16,00,00, tzinfo=dt.timezone.utc)
        erpTime = dt.datetime(2021,3,1,16,00,00, tzinfo=dt.timezone.utc)
        plantsData_different = self.samplePlantsData_DifferentTimes(basetime=obsoleteTime, differenttime=updatedTime)
        self.setupPlants(alternativeMeter=erpMeter, time=None, plantsData=plantsData_different)
        self.setupReadingsDB(erpTime)
        erpMeters = [erpMeter, '1234', '9876', '5432']

        mock = MagicMock(side_effect=self.mockMeterReadingsSideEffects)
        with patch('plantmonitor.readings_facade.ReadingsFacade.measuresFromDate', mock):
            r = ReadingsFacade(self.pony.db)
            r.erpMeters = erpMeters
            plants_data = r.getNewMetersReadings()

        expectedMeters = [erpMeter, '9876', '5432']
        expectedMeterReadings = {k:v for k,v in self.readingsDB.items() if k in expectedMeters}
        expectedMeterReadings[erpMeter] = []
        self.assertPlantsData(plants_data, expectedMeterReadings)

    def test__transferERPreadingsToModel__ormMetersNotInERP(self):
        erpMeter = '12345678'
        ormtime = dt.datetime(2019,10,1,16,00,00, tzinfo=dt.timezone.utc)
        self.setupPlants(ormtime, alternativeMeter=erpMeter)
        erptime = dt.datetime(2018,10,1,16,00,00, tzinfo=dt.timezone.utc)
        self.setupReadingsDB(erptime)

        erpMeters = ['1234', '9876'] # missing erpMeter and 5432

        mock = MagicMock(side_effect=self.mockMeterReadingsSideEffects)
        with patch('plantmonitor.readings_facade.ReadingsFacade.measuresFromDate', mock):
            r = ReadingsFacade(self.pony.db)
            r.erpMeters = erpMeters
            plants_data = r.getNewMetersReadings()

        expectedPlantsData = {'9876':[]}
        self.assertPlantsData(plants_data, expectedPlantsData)

    def test__transferERPreadingsToModel__ormEmpty(self):
        erpMeter = '12345678'
        emptyPlantsData = [{
              "plant": "alcolea",
              "devices": []
        }]
        self.setupPlants(None, alternativeMeter=erpMeter, plantsData=emptyPlantsData)
        erptime = dt.datetime(2020,10,1,16,00,00, tzinfo=dt.timezone.utc)
        self.setupReadingsDB(erptime)

        erpMeters = ['12345678', '1234', '9876', '5432']

        mock = MagicMock(side_effect=self.mockMeterReadingsSideEffects)
        with patch('plantmonitor.readings_facade.ReadingsFacade.measuresFromDate', mock):
            r = ReadingsFacade(self.pony.db)
            r.erpMeters = erpMeters
            plants_data = r.getNewMetersReadings()

        expectedErpMeters = ['12345678', '9876', '5432']
        expectedPlantsData = {k:v for k,v in self.readingsDB.items() if k in expectedErpMeters}
        self.assertPlantsData(plants_data, expectedPlantsData)

    def _test__transferERPreadingsToModel__differentLastDates(self):

        erpMeter = '12345678'
        self.setupPlants(dt.datetime.now(tz=dt.timezone.utc), erpMeter)

        erpMeters = ['12345678', '87654321']

        lastDate = dt.datetime(2019,10,1,16,00,00, tzinfo=dt.timezone.utc)

        mockreturn = [(
                measure['utc_timestamp'],
                int(measure['ae']),
                int(measure['ai']),
                int(measure['r1']),
                int(measure['r2']),
                int(measure['r3']),
                int(measure['r4']),
            )
            for measure in sorted(measures,
                key=lambda x: x['utc_timestamp'])
        ]

        mock = MagicMock(return_value=['12345678', '87654321'])
        with patch('plantmonitor.readings_facade.ReadingsFacade.measuresFromDate', mock):
            r = ReadingsFacade(self.pony.db)
            r.erpMeters = erpMeters
            newMeters = r.transfer_ERP_readings_to_model(refreshERPmeters=False)

        self.assertListEqual(newMeters, erpMeters)
コード例 #12
0
class ExpectedPower_Test(TestCase):
    from b2btest.b2btest import assertB2BEqual

    @classmethod
    def setUpClass(cls):
        ''

    def setUp(self):
        self.maxDiff = None
        self.b2bdatapath = 'b2bdata'
        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

        orm.rollback()

        self.pony = PonyManager(envinfo.DB_CONF)

        self.pony.define_all_models()
        self.pony.binddb(create_tables=True)

        self.pony.db.drop_all_tables(with_all_data=True)

        self.pony.db.create_tables()

        orm.db_session.__enter__()

    def tearDown(self):
        orm.rollback()
        orm.db_session.__exit__()
        self.pony.db.drop_all_tables(with_all_data=True)
        self.pony.db.disconnect()

    def samplePlantNS(self):  # Copied from test_models.py:samplePlantNS
        alcoleaPlantNS = ns.loads("""\
            name: myplant
            codename: PLANTCODE
            description: Plant Description
            meters:
            - meter:
                name: '1234578'
            irradiationSensors:
            - irradiationSensor:
                name: irradiationSensor1
        """)
        return alcoleaPlantNS

    def setupPlant(self):
        plantDefinition = self.samplePlantNS()
        plant = self.pony.db.Plant(
            name=plantDefinition.name,
            codename=plantDefinition.codename,
        )
        plant.importPlant(plantDefinition)
        plant.flush()
        self.plant = plant.id
        self.sensor = self.pony.db.SensorIrradiation.select().first().id

    def importData(self, sensor, filename, outputColumn):
        tsvContent = readTimedDataTsv(filename, [
            'Temperatura modul',
            'Irradiación (W/m2)',
            outputColumn or
            'Potencia parque calculada con temperatura kW con degradación placas',
        ])
        for time, temperature_c, irradiation_w_m2, outputValue in tsvContent:
            self.pony.db.SensorIrradiationRegistry(
                sensor=self.sensor,
                time=datetime.datetime.fromisoformat(time),
                irradiation_w_m2=int(round(irradiation_w_m2)),
                temperature_dc=int(round(temperature_c * 10)),
            )
        orm.flush()

        return [(time, self.plant, self.sensor, outputValue) for time,
                temperature_c, irradiation_w_m2, outputValue in tsvContent]

    parametersAlcolea = dict(
        nominalPowerMWp=2.16,
        efficiency=15.5,
        nModules=8640,  # plant parameter
        Imp=8.27,  # A, module model param
        Vmp=30.2,  # V, module model param
        temperatureCoefficientI=0.088,  # %/ºC, module model param
        temperatureCoefficientV=-0.352,  # %/ºC, module model param
        temperatureCoefficientPmax=-0.442,  # %/ºC, module model param
        irradiationSTC=1000.0,  # W/m2, module model param
        temperatureSTC=25,  # ºC, module model param
        Isc=8.75,  # A, module model param
        Voc=37.8,  # V, module model param
        #degradation=97.0, # %, module model param
        degradation=95 *
        .9,  # %, module model param # According the excel formula
        correctionFactorPercent=90.,  # %, plant parameter
    )

    parametersFlorida = dict(
        nominalPowerMWp=2.16,  # TODO use Florida values
        efficiency=15.5,  # TODO use Florida values
        nModules=4878,  # plant parameter
        Imp=9.07,  # A, module model param
        Vmp=37.5,  # V, module model param
        temperatureCoefficientI=0.05,  # %/ºC, module model param
        temperatureCoefficientV=-0.31,  # %/ºC, module model param
        temperatureCoefficientPmax=-0.442,  # %/ºC, module model param
        irradiationSTC=1000.0,  # W/m2, module model param
        temperatureSTC=25,  # ºC, module model param
        degradation=97.5,  # %, module model param
        Isc=9.5,  # A, module model param
        Voc=46.1,  # V, module model param
        correctionFactorPercent=90.,  # %, plant parameter
    )

    def setPlantParameters(self, **data):
        data = ns(data)
        plant = self.pony.db.PlantModuleParameters(
            plant=self.plant,
            nominal_power_wp=int(data.nominalPowerMWp * 1000000),
            efficency_cpercent=int(data.efficiency * 100),
            n_modules=data.nModules,
            max_power_current_ma=int(data.Imp * 1000),
            max_power_voltage_mv=int(data.Vmp * 1000),
            current_temperature_coefficient_mpercent_c=int(
                data.temperatureCoefficientI * 1000),
            voltage_temperature_coefficient_mpercent_c=int(
                data.temperatureCoefficientV * 1000),
            max_power_temperature_coefficient_mpercent_c=int(
                data.temperatureCoefficientPmax * 1000),
            standard_conditions_irradiation_w_m2=int(data.irradiationSTC),
            standard_conditions_temperature_dc=int(data.temperatureSTC * 10),
            degradation_cpercent=int(data.degradation * 100),
            opencircuit_voltage_mv=int(data.Voc * 1000),
            shortcircuit_current_ma=int(data.Isc * 1000),
            expected_power_correction_factor_cpercent=int(
                data.get('correctionFactorPercent', 100) * 100),
        )
        plant.flush()

    def assertOutputB2B(self, result):
        def x2utcisoformat(date):
            if not hasattr(date, 'isoformat'):
                date = datetime.datetime.fromisoformat(date)
            date = date.astimezone(datetime.timezone.utc)
            return date.isoformat()

        result = "\n".join((
            "{}\n{:.6f}".format(x2utcisoformat(time), value)
            for time, plant, sensor, value, temperature, irradiance in result))
        self.assertB2BEqual(result)

    # TODO fancy_replace calls make B2B too slow when changing timezone
    # see https://bugs.python.org/issue6931 I guess
    # def assertOutputB2BNoPlant(self, result):
    #     tz = pytz.timezone("Europe/Madrid")
    #     result = "\n".join((
    #         "{},{},{:.9f}".format(t[0].astimezone(tz).isoformat(),sensor.name,t[1])
    #         for sensor, l in result.items() for t in l
    #     ))
    #     self.assertB2BEqual(result)

    def assertOutputB2BNoPlant(self, result):
        result = "\n".join(("{},{},{:.9f}".format(t[0].isoformat(),
                                                  sensor.name, t[1])
                            for sensor, l in result.items() for t in l))
        self.assertB2BEqual(result)

    def test_expectedPower_Florida_2020_09(self):
        self.setupPlant()
        self.setPlantParameters(**dict(
            self.parametersFlorida,
            correctionFactorPercent=100,
        ))
        expected = self.importData(
            self.sensor,
            'b2bdata/expectedPower-2020-09-Florida.csv',
            'Potencia parque calculada con temperatura kW con degradación placas',
        )
        query = Path('queries/view_expected_power.sql').read_text(
            encoding='utf8')
        result = self.pony.db.select(query)

        self.assertOutputB2B(result)  # first run with expected instead result

    def test_expectedPower_Florida_2020_09_withCorrection(self):
        self.setupPlant()
        self.setPlantParameters(**dict(
            self.parametersFlorida,
            correctionFactorPercent=90,
        ))
        expected = self.importData(
            self.sensor,
            'b2bdata/expectedPower-2020-09-Florida.csv',
            'Potencia parque calculada con temperatura kW con degradación placas',
        )
        query = Path('queries/view_expected_power.sql').read_text(
            encoding='utf8')
        result = self.pony.db.select(query)

        self.assertOutputB2B(result)  # first run with expected instead result

    def test_expectedPower_Alcolea_2021_04_noCorrections(self):
        self.setupPlant()
        self.setPlantParameters(**dict(
            self.parametersAlcolea,
            correctionFactorPercent=100,
        ))
        expected = self.importData(
            self.sensor,
            'b2bdata/expectedPower-2021-04-Alcolea.csv',
            'Potencia parque calculada con temperatura kW con degradación placas',
        )
        query = Path('queries/view_expected_power.sql').read_text(
            encoding='utf8')
        result = self.pony.db.select(query)

        self.assertOutputB2B(result)  # first run with expected instead result

    def test_integrateExpectedPower_Florida_2020_09(self):
        self.setupPlant()
        self.setPlantParameters(**dict(
            self.parametersFlorida,
            correctionFactorPercent=100,
        ))
        expected = None
        # expected = self.importData(self.sensor,
        #     'b2bdata/expectedEnergy-2020-09-Florida.csv',
        #     'Potencia parque calculada con temperatura kW con degradación placas',
        # )
        self.importData(
            self.sensor,
            'b2bdata/expectedPower-2020-09-Florida.csv',
            'Potencia parque calculada con temperatura kW con degradación placas',
        )

        time = datetime.datetime(2020,
                                 9,
                                 1,
                                 2,
                                 5,
                                 10,
                                 588861,
                                 tzinfo=datetime.timezone.utc)
        fromDate = time.replace(hour=14, minute=0, second=0, microsecond=0)
        toDate = fromDate + datetime.timedelta(days=30)

        query = Path('queries/view_expected_power.sql').read_text(
            encoding='utf8')
        expectedPowerQuery = self.pony.db.select(query)

        # end of setup

        result = integrateExpectedPower(self.pony.db, fromDate, toDate)

        self.assertOutputB2BNoPlant(result)

    # TODO add expectedEnergy as a view instead of a redash query
    def _test_expectedEnergy_Alcolea_2021_04(self):
        self.setupPlant()
        self.setPlantParameters(**dict(
            self.parametersFlorida,
            correctionFactorPercent=90,
        ))
        self.importData(
            self.sensor,
            'b2bdata/expectedPower-2021-04-Alcolea.csv',
            'Potencia parque calculada con temperatura kW con degradación placas',
        )
        # TODO how to add a view on a test?
        query = Path('queries/view_expected_power.sql').read_text(
            encoding='utf8')
        result = database.select(query)

        query = Path('queries/view_expected_energy.sql').read_text(
            encoding='utf8')
        result = database.select(query)

        self.assertOutputB2B(result)  # first run with expected instead result
コード例 #13
0
#TODO find a way to not use Union because of time
class Device(BaseModel):
    id: str
    readings: List[Dict[str, Union[int, datetime.datetime, None]]]

class PlantReading(BaseModel):
    plant: str
    version: str
    time: datetime.datetime
    devices: List[Device]

api = FastAPI()

from conf import envinfo
pony_manager = PonyManager(envinfo.DB_CONF)
pony_manager.define_all_models()
pony_manager.binddb()
storage = PonyMetricStorage(pony_manager.db)

@api.get('/version')
def api_version():
    return dict(
        version='1.0',
    )


@api.put('/plant/{plant_id}/readings')
async def api_putPlantReadings(plant_id: str, plant_reading: PlantReading):
    logger.info("Putting plant data into plant {} : {}".format(plant_id, plant_reading))
    with orm.db_session:
        storage.insertPlantData(plant_reading.dict())
コード例 #14
0
class ORMSetup_Test(unittest.TestCase):

    from yamlns.testutils import assertNsEqual

    def setUp(self):

        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

        orm.rollback()
        self.pony = PonyManager(envinfo.DB_CONF)

        self.pony.define_all_models()
        self.pony.binddb(create_tables=True)

        self.pony.db.drop_all_tables(with_all_data=True)

        self.pony.db.create_tables()
        self.maxDiff = None

        orm.db_session.__enter__()

    def tearDown(self):
        orm.rollback()
        orm.db_session.__exit__()
        self.pony.db.drop_all_tables(with_all_data=True)
        self.pony.db.disconnect()

    def fillPlantRegistries(self, plant):

        timeStart = datetime.datetime(2020,
                                      7,
                                      28,
                                      9,
                                      21,
                                      7,
                                      881064,
                                      tzinfo=datetime.timezone.utc)

        sensorsIrr = list(
            self.pony.db.SensorIrradiation.select(lambda p: p.plant == plant))
        #TODO assert not empty
        sensorIrr = sensorsIrr[0]

        sensorTemp = list(
            self.pony.db.SensorTemperatureAmbient.select(
                lambda p: p.plant == plant))[0]

        dt = datetime.timedelta(minutes=5)
        value = 60
        dv = 10

        n = 3

        for i in range(n):
            sensorIrr.insertRegistry(
                time=timeStart + i * dt,
                irradiation_w_m2=value + i * dv,
                temperature_dc=300 + value + i * (dv + 10),
            )
            sensorTemp.insertRegistry(
                time=timeStart + i * dt,
                temperature_dc=300 + value + i * (dv + 10),
            )
            sensorIrr.insertHourlySensorIrradiationMetric(
                time=timeStart + i * dt,
                integratedIrradiation_wh_m2=5000 + value + i * (dv + 50),
            )

        plantRegistries = {
            'irradiation':
            [(timeStart + i * dt, value + i * dv) for i in range(n)],
            'temperature': [(timeStart + i * dt, 300 + value + i * (dv + 10))
                            for i in range(n)],
            'integratedIrr':
            [(timeStart + i * dt, 5000 + value + i * (dv + 50))
             for i in range(n)],
        }

        return plantRegistries

    def test_Environment(self):
        #TODO will it be too late if the config is misconfigured?
        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

    def test_connection(self):
        with orm.db_session:
            self.assertEqual(self.pony.db.get_connection().status, 1)

    def __test_timescaleTables(self):
        with orm.db_session:
            # orm.set_sql_debug(True)

            tablesToTimescale = self.pony.getTablesToTimescale()

            #no raises
            self.pony.timescaleTables(tablesToTimescale)

            numColumnsTimescaleMetadata = 11
            timescaleStringColumn = 3
            hypertableName = 2

            cur = self.pony.db.execute(
                "select * from _timescaledb_catalog.hypertable")
            hypertables = cur.fetchall()

            hypertablesNames = [
                t[hypertableName] for t in hypertables
                if len(t) == numColumnsTimescaleMetadata
                and t[timescaleStringColumn] == '_timescaledb_internal'
            ]

            tablesToTimescaleLowerCase = [
                name.lower() for name in tablesToTimescale
            ]

            self.assertListEqual(hypertablesNames, tablesToTimescaleLowerCase)

    def test_meters_whenNone(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')

            self.assertMeterListEqual("""\
                data: []
                """)

    def test_InsertOnePlantOneMeter(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            meter = self.pony.db.Meter(name='Mary', plant=alcolea)

            self.assertMeterListEqual("""\
                data:
                - name: Mary
                  plant_name: SomEnergia_Alcolea
                  plant_code: SOMSC01
                  plant_description: descripción de planta
                """)

    def assertMeterListEqual(self, expected):

        self.assertNsEqual(
            ns(data=[
                ns(
                    name=name,
                    plant_name=plantname,
                    plant_code=plantcode,
                    plant_description=description,
                ) for name, plantname, plantcode, description in orm.select((
                    meter.name,
                    meter.plant.name,
                    meter.plant.codename,
                    meter.plant.description,
                ) for meter in self.pony.db.Meter)
            ]), expected)

    def assertMeterRegistryEqual(self, plantCode, meterName, expected):
        plant = self.pony.db.Plant.get(codename=plantCode)
        meter = self.pony.db.Meter.get(plant=plant, name=meterName)
        registry = [
            ns(
                # yamlns reads datetimes just as date, compare the string
                time=str(line.time),
                export_energy_wh=line.export_energy_wh,
                import_energy_wh=line.import_energy_wh,
                r1_VArh=line.r1_VArh,
                r2_VArh=line.r2_VArh,
                r3_VArh=line.r3_VArh,
                r4_VArh=line.r4_VArh,
            ) for line in orm.select(
                l for l in self.pony.db.MeterRegistry if l.meter == meter)
        ]
        self.assertNsEqual(ns(registry=registry), expected)

    def test_registry_whenEmpty(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            meter = self.pony.db.Meter(name='Mary', plant=alcolea)
            self.assertMeterRegistryEqual(
                'SOMSC01', 'Mary', """\
                registry: []
                """)

    def test_registry_singleEntry(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            meter = self.pony.db.Meter(name='Mary', plant=alcolea)
            meter.insertRegistry(
                time=datetime.datetime(2020,
                                       10,
                                       20,
                                       0,
                                       0,
                                       0,
                                       tzinfo=datetime.timezone.utc),
                export_energy_wh=10,
                import_energy_wh=77,
                r1_VArh=0,
                r2_VArh=0,
                r3_VArh=0,
                r4_VArh=0,
            )
            self.assertMeterRegistryEqual(
                'SOMSC01', 'Mary', """\
                registry:
                - time: '2020-10-20 00:00:00+00:00'
                  export_energy_wh: 10
                  import_energy_wh: 77
                  r1_VArh: 0
                  r2_VArh: 0
                  r3_VArh: 0
                  r4_VArh: 0
                """)

    def test_InverterRegistry_singleEntry(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            inverter = self.pony.db.Inverter(name='Mary', plant=alcolea)
            inverterDataDict = {
                'time':
                datetime.datetime(2020,
                                  10,
                                  20,
                                  0,
                                  0,
                                  0,
                                  tzinfo=datetime.timezone.utc),
                'power_w':
                10,
                'energy_wh':
                10,
                'intensity_cc_mA':
                10,
                'intensity_ca_mA':
                10,
                'voltage_cc_mV':
                10,
                'voltage_ca_mV':
                10,
                'uptime_h':
                10,
                'temperature_dc':
                10,
            }

            inverter.insertRegistry(**inverterDataDict)
            expectedRegistry = inverterDataDict
            expectedRegistry['inverter'] = 1

            oneRegistry = orm.select(
                r for r in self.pony.db.InverterRegistry).first()
            oneRegistryList = oneRegistry.to_dict()
            self.assertDictEqual(expectedRegistry, oneRegistryList)

    def test_InvertersRegistries_multipleRegistries(self):
        pass

    def test_InsertOnePlantOneMeterOneRegistry(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            meter = self.pony.db.Meter(name='Mary', plant=alcolea)
            meterRegistry = self.pony.db.MeterRegistry(
                meter=meter,
                time=datetime.datetime.now(datetime.timezone.utc),
                export_energy_wh=10,
                import_energy_wh=77,
                r1_VArh=0,
                r2_VArh=0,
                r3_VArh=0,
                r4_VArh=0,
            )

    def test_ReadOnePlantOneMeterOneRegistry(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='A fotovoltaic plant')
            meter = self.pony.db.Meter(name='Mary', plant=alcolea)
            meterRegistry = self.pony.db.MeterRegistry(
                meter=meter,
                time=datetime.datetime.now(datetime.timezone.utc),
                export_energy_wh=10,
                import_energy_wh=77,
                r1_VArh=0,
                r2_VArh=0,
                r3_VArh=0,
                r4_VArh=0,
            )

            alcolea_read = self.pony.db.Plant[1]
            self.assertEqual(alcolea_read, alcolea)
            self.assertEqual(alcolea_read.name, alcolea.name)

    def test_InsertTwoPlantTwoMeterOneRegistry(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            alcometer = self.pony.db.Meter(name='meter1', plant=alcolea)
            fonti = self.pony.db.Plant(name='SomEnergia_Fontisolar',
                                       codename='SOMSC02',
                                       description='descripción de planta')
            fontimeter = self.pony.db.Meter(name='meter1', plant=fonti)

    def test_InsertOnePlantOneSensor(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            sensor = self.pony.db.SensorTemperatureAmbient(name='TempAlcolea',
                                                           plant=alcolea)

            sensor_read = self.pony.db.Sensor[1]
            self.assertEqual(sensor_read, sensor)

    def test_InsertOnePlantOneSensorOneRegistry(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            sensor = self.pony.db.SensorIrradiation(name='IrradAlcolea',
                                                    plant=alcolea)
            sensorRegistry = sensor.insertRegistry(time=datetime.datetime.now(
                datetime.timezone.utc),
                                                   irradiation_w_m2=68,
                                                   temperature_dc=250)

            sensor_registry_read = list(
                self.pony.db.SensorIrradiationRegistry.select())[0]
            self.assertEqual(sensor_registry_read, sensorRegistry)

    def test_InsertOneForecast(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            forecastVariable = self.pony.db.ForecastVariable(name='prod')
            forecastPredictor = self.pony.db.ForecastPredictor(
                name='aggregated')
            forecastMetadata = self.pony.db.ForecastMetadata(
                errorcode='',
                plant=alcolea,
                variable=forecastVariable,
                predictor=forecastPredictor,
                forecastdate=datetime.datetime.now(datetime.timezone.utc),
                granularity=60,
            )
            forecast = forecastMetadata.insertForecast(
                time=datetime.datetime.now(datetime.timezone.utc),
                percentil10=10,
                percentil50=50,
                percentil90=90,
            )

            forecast_read = list(self.pony.db.Forecast.select())[0]
            self.assertEqual(forecast_read, forecast)

    def test_GetRegistriesFromOneSensorInDateRange(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            sensor = self.pony.db.SensorIrradiation(name='IrradAlcolea',
                                                    plant=alcolea)
            timetz = datetime.datetime(2020,
                                       7,
                                       28,
                                       9,
                                       21,
                                       7,
                                       881064,
                                       tzinfo=datetime.timezone.utc)
            dt = datetime.timedelta(minutes=5)
            value = 60
            dv = 10
            for i in range(5):
                self.pony.db.SensorIrradiationRegistry(
                    sensor=sensor,
                    time=timetz + i * dt,
                    irradiation_w_m2=value + i * dv,
                )

            oneday = datetime.datetime.strptime('2020-07-28', '%Y-%m-%d')
            query = orm.select(r.time
                               for r in self.pony.db.SensorIrradiationRegistry
                               if oneday.date() == r.time.date())

            expected = [timetz + i * dt for i in range(5)]

            self.assertListEqual(list(query), expected)

    def test_fixtureCreation(self):
        with orm.db_session:

            plantsNS = ns.loads("""\
                plants:
                - plant:
                    name: alcolea
                    codename: SCSOM04
                    description: la bonica planta
                    meters:
                    - meter:
                        name: '1234578'
                    inverters:
                    - inverter:
                        name: '5555'
                    - inverter:
                        name: '6666'
                    irradiationSensors:
                    - irradiationSensor:
                        name: alberto
                    temperatureModuleSensors:
                    - temperatureModuleSensor:
                        name: pol
                    temperatureAmbientSensors:
                    - temperatureAmbientSensor:
                        name: joana
            """)

            importPlants(self.pony.db, plantsNS)

        #TODO test the whole fixture, not just the plant data
        expectedPlantns = exportPlants(self.pony.db)
        self.assertNsEqual(expectedPlantns, plantsNS)

    def test_fillPlantRegistries(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            alcolea.createPlantFixture()
            plantRegistries = self.fillPlantRegistries(alcolea)
            n = len(plantRegistries['irradiation'])

            self.assertEqual(n, 3)
            self.assertListEqual(
                list(plantRegistries.keys()),
                ['irradiation', 'temperature', 'integratedIrr'])

    def test_GetRegistriesFromManySensorsInDateRange(self):
        with orm.db_session:
            alcolea = self.pony.db.Plant(name='SomEnergia_Alcolea',
                                         codename='SOMSC01',
                                         description='descripción de planta')
            alcolea.createPlantFixture()
            plantRegistries = self.fillPlantRegistries(alcolea)
            n = len(plantRegistries['irradiation'])

            # TODO: First select returns empty results unless we commit
            orm.commit()

            expectedPlantRegistries = [(
                plantRegistries['irradiation'][i][0],
                plantRegistries['irradiation'][i][1],
                plantRegistries['temperature'][i][1],
                plantRegistries['integratedIrr'][i][1],
            ) for i in range(n)]

            q1 = orm.select(r for r in self.pony.db.SensorIrradiationRegistry
                            if r.sensor.plant == alcolea)
            q2 = orm.select(
                r for r in self.pony.db.SensorTemperatureAmbientRegistry
                if r.sensor.plant == alcolea)
            q3 = orm.select(
                r for r in self.pony.db.HourlySensorIrradiationRegistry
                if r.sensor.plant == alcolea)

            qresult = orm.select(
                (r1_w.time, r1_w.irradiation_w_m2, r2_w.temperature_dc,
                 r3_w.integratedIrradiation_wh_m2, r1_w.sensor, r2_w.sensor,
                 r3_w.sensor) for r1_w in q1 for r2_w in q2 for r3_w in q3
                if r1_w.time == r2_w.time and r2_w.time == r3_w.time)

            plantRegistries = [(t.astimezone(datetime.timezone.utc), irr, temp,
                                integ)
                               for t, irr, temp, integ, s1, s2, s3 in qresult]

            self.assertListEqual(plantRegistries, expectedPlantRegistries)
コード例 #15
0
class Models_Test(unittest.TestCase):

    from yamlns.testutils import assertNsEqual

    def setUp(self):

        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

        orm.rollback()

        self.pony = PonyManager(envinfo.DB_CONF)

        self.pony.define_all_models()
        self.pony.binddb(create_tables=True)

        self.pony.db.drop_all_tables(with_all_data=True)

        self.pony.db.create_tables()

        orm.db_session.__enter__()

    def tearDown(self):
        orm.rollback()
        orm.db_session.__exit__()
        self.pony.db.drop_all_tables(with_all_data=True)
        self.pony.db.disconnect()

    def samplePlantsNS(self):
        alcoleaPlantsNS = ns.loads("""\
            municipalities:
            - municipality:
                name: Figueres
                ineCode: '17066'
                countryCode: ES
                country: Spain
                regionCode: '09'
                region: Catalonia
                provinceCode: '17'
                province: Girona
            - municipality:
                name: Girona
                ineCode: '17079'
            plants:
            - plant:
                name: alcolea
                codename: SCSOM04
                description: la bonica planta
                municipality: '17066'
                meters:
                - meter:
                    name: '1234578'
                inverters:
                - inverter:
                    name: '5555'
            - plant:
                name: figuerea
                codename: Som_figuerea
                description: la bonica planta
                municipality: '17079'
                meters:
                - meter:
                    name: '9876'
                - meter:
                    name: '5432'
                inverters:
                - inverter:
                    name: '4444'
                - inverter:
                    name: '2222'
                irradiationSensors:
                - irradiationSensor:
                    name: oriol
                temperatureModuleSensors:
                - temperatureModuleSensor:
                    name: joan
                temperatureAmbientSensors:
                - temperatureAmbientSensor:
                    name: benjami
        """)
        return alcoleaPlantsNS

    def samplePlantNS(self):
        alcoleaPlantNS = ns.loads("""\
            name: alcolea
            codename: SCSOM04
            description: la bonica planta
            meters:
            - meter:
                name: '1234578'
            inverters:
            - inverter:
                name: '5555'
            - inverter:
                name: '6666'
            irradiationSensors:
            - irradiationSensor:
                name: alberto
            temperatureModuleSensors:
            - temperatureModuleSensor:
                name: pol
            temperatureAmbientSensors:
            - temperatureAmbientSensor:
                name: joana
        """)
        return alcoleaPlantNS

    def samplePlantNSWithStrings(self):
        alcoleaPlantNS = ns.loads("""\
            name: alcolea
            codename: SCSOM04
            description: la bonica planta
            inverters:
            - inverter:
                name: '5555'
                strings:
                - string1
                - string2
            - inverter:
                name: '6666'
        """)
        return alcoleaPlantNS

    def samplePlantNSWithModuleParameters(self):
        alcoleaPlantNS = ns.loads("""\
            name: alcolea
            codename: SCSOM04
            description: la bonica planta
            moduleParameters:
                nominalPowerMWp: 2.16
                efficiency: 15.5
                nModules: 4878
                Imp: 9.07
                Vmp: 37.5
                temperatureCoefficientI: 0.05
                temperatureCoefficientV: -0.31
                temperatureCoefficientPmax: -0.442
                irradiationSTC: 1000.0
                temperatureSTC: 25
                degradation: 97.5
                Voc: 46.1
                Isc: 9.5
            meters:
            - meter:
                name: '1234578'
            inverters:
            - inverter:
                name: '5555'
            - inverter:
                name: '6666'
            irradiationSensors:
            - irradiationSensor:
                name: alberto
            temperatureModuleSensors:
            - temperatureModuleSensor:
                name: pol
            temperatureAmbientSensors:
            - temperatureAmbientSensor:
                name: joana
        """)
        return alcoleaPlantNS

    def samplePlantsData(self, time, dt):
        plantsData = [{
            "plant":
            "alcolea",
            "devices":
            sorted([{
                "id":
                "Meter:1234578",
                "readings": [{
                    "time": time,
                    "export_energy_wh": 1,
                    "import_energy_wh": 123,
                    "r1_VArh": 1234,
                    "r2_VArh": 124,
                    "r3_VArh": 1234,
                    "r4_VArh": 124,
                }],
            }, {
                "id":
                "Inverter:5555",
                "readings": [{
                    "time": time,
                    "power_w": 156,
                    "energy_wh": 154,
                    "intensity_cc_mA": 222,
                    "intensity_ca_mA": 500,
                    "voltage_cc_mV": 200,
                    "voltage_ca_mV": 100,
                    "uptime_h": 15,
                    "temperature_dc": 170,
                }]
            }],
                   key=lambda d: d['id']),
        }, {
            "plant":
            "figuerea",
            "devices":
            sorted([{
                "id":
                "Meter:9876",
                "readings": [{
                    "time": time,
                    "export_energy_wh": 1,
                    "import_energy_wh": 123,
                    "r1_VArh": 1234,
                    "r2_VArh": 124,
                    "r3_VArh": 1234,
                    "r4_VArh": 124,
                }],
            }, {
                "id":
                "Meter:5432",
                "readings": [{
                    "time": time,
                    "export_energy_wh": 1,
                    "import_energy_wh": 123,
                    "r1_VArh": 1234,
                    "r2_VArh": 124,
                    "r3_VArh": 1234,
                    "r4_VArh": 124,
                }],
            }],
                   key=lambda d: d['id']),
        }]
        return plantsData

    def test_Plant_importExportPlant(self):

        alcoleaPlantNS = self.samplePlantNS()

        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        orm.flush()

        #TODO test the whole fixture, not just the plant data
        plantns = alcolea.exportPlant()
        self.assertNsEqual(plantns, alcoleaPlantNS)

    def test_Plant_importExport_ExtraFields(self):

        alcoleaPlantNS = self.samplePlantNS()

        extraSensor = ns()
        extraSensor['extraSensor'] = ns([('name', 'foosensor')])

        extraSensor2 = ns()
        extraSensor2['extraSensor'] = ns([('name', 'boosensor')])

        alcoleaPlantNS['extraSensors'] = [extraSensor, extraSensor2]

        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        orm.flush()

        #TODO test the whole fixture, not just the plant data
        plantns = alcolea.exportPlant()
        self.assertNsEqual(plantns, self.samplePlantNS())

    def test_Plant_importExport_MissingFields(self):

        alcoleaPlantNS = self.samplePlantNS()

        del alcoleaPlantNS['temperatureAmbientSensors']

        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        orm.flush()

        expectedPlantNS = alcoleaPlantNS
        expectedPlantNS['temperatureAmbientSensors'] = []

        #TODO test the whole fixture, not just the plant data
        plantns = alcolea.exportPlant()
        self.assertNsEqual(plantns, expectedPlantNS)

    def test__Plant_importExport__ModuleParameters(self):

        alcoleaPlantNS = self.samplePlantNSWithModuleParameters()

        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        orm.flush()

        expectedPlantNS = alcoleaPlantNS
        expectedPlantNS['moduleParameters'] = {
            'nModules': 4878,
            'Imp': 9070,
            'Vmp': 37500,
            'temperatureCoefficientI': 50,
            'temperatureCoefficientV': -310,
            'irradiationSTC': 1000,
            'temperatureSTC': 250,
            'degradation': 9750,
            'Voc': 46100,
            'Isc': 9500,
        }

        #TODO test the whole fixture, not just the plant data
        plantns = alcolea.exportPlant()
        self.assertNsEqual(plantns, expectedPlantNS)

    def test__Plant_importExport__Strings(self):

        alcoleaPlantNS = self.samplePlantNSWithStrings()

        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        orm.flush()

        expectedPlantNS = alcoleaPlantNS
        # expectedPlantNS.inverters[1].inverter['strings'] = []

        #TODO test the whole fixture, not just the plant data
        plantns = alcolea.exportPlant(skipEmpty=True)

        self.assertNsEqual(plantns, expectedPlantNS)

    def test_Plant_importExport_EmptyPlant(self):
        emptyPlantNS = ns.loads("""\
            name: alcolea
            codename: SCSOM04
            description: la bonica planta
            """)

        expectedPlantNS = ns.loads("""\
            codename: SCSOM04
            description: la bonica planta
            inverters: []
            irradiationSensors: []
            meters: []
            name: alcolea
            temperatureAmbientSensors: []
            temperatureModuleSensors: []
            """)

        empty = self.pony.db.Plant(name=emptyPlantNS.name,
                                   codename=emptyPlantNS.codename)
        empty = empty.importPlant(emptyPlantNS)

        #TODO test the whole fixture, not just the plant data
        plantns = empty.exportPlant()
        self.assertNsEqual(plantns, expectedPlantNS)

    def test_Plant_importPlants__manyPlants(self):
        plantsns = self.samplePlantsNS()

        importPlants(self.pony.db, plantsns)

        resultPlantns = exportPlants(self.pony.db, skipEmpty=True)

        self.assertNsEqual(plantsns, resultPlantns)

    def test__Plant__getMeter(self):
        plantName = 'alibaba'
        alibaba = self.pony.db.Plant(
            name=plantName, codename='SomEnergia_{}'.format(plantName))
        meterName = '1234'
        meter = self.pony.db.Meter(plant=alibaba, name=meterName)
        orm.flush()

        resultMeter = alibaba.getMeter()

        self.assertEqual(resultMeter, meter)

    def test__Plant__getMeter__ManyGivesNewest(self):
        plantName = 'alibaba'
        alibaba = self.pony.db.Plant(
            name=plantName, codename='SomEnergia_{}'.format(plantName))
        oldmeter = self.pony.db.Meter(plant=alibaba, name='oldmeter')
        newmeter = self.pony.db.Meter(plant=alibaba, name='newmeter')
        orm.flush()

        resultMeter = alibaba.getMeter()

        self.assertEqual(resultMeter, newmeter)

    def test_Municipality__importMunicipality__OneMunicipality(self):
        plantsns = ns()

        municipalitiesns = ns.loads("""\
        - municipality:
            name: Figueres
            ineCode: '17066'
            countryCode: ES
            country: Spain
            regionCode: '08'
            region: Catalonia
            provinceCode: '17'
            province: Girona
            """)

        plantsns['municipalities'] = municipalitiesns

        importPlants(self.pony.db, plantsns)

        storedMunicipalitiesns = exportPlants(self.pony.db)
        plantsns['plants'] = []
        self.assertNsEqual(plantsns, storedMunicipalitiesns)

    def test_Plant_importPlants__ManyMunicipalities(self):
        plantsns = ns()

        municipalitiesns = ns.loads("""\
        - municipality:
            name: Figueres
            ineCode: '17066'
        - municipality:
            name: Girona
            ineCode: '17003'
            """)

        plantsns['municipalities'] = municipalitiesns

        importPlants(self.pony.db, plantsns)

        storedMunicipalitiesns = exportPlants(self.pony.db)
        plantsns['plants'] = []
        self.assertNsEqual(plantsns, storedMunicipalitiesns)

    def test_Plant_importPlants__manyPlants_ManyMunicipalities(self):

        plantsns = self.samplePlantsNS()

        # municipalitiesns = ns.loads("""\
        # - municipality:
        #     name: Figueres
        #     ineCode: '17066'
        # - municipality:
        #     name: Girona
        #     ineCode: '17003'
        #     """)

        # plantsns['municipalities'] = municipalitiesns

        importPlants(self.pony.db, plantsns)
        # orm.flush()

        resultPlantns = exportPlants(self.pony.db, skipEmpty=True)
        self.assertNsEqual(plantsns, resultPlantns)

    def test__Plant_importPlantsData__many(self):
        plantsns = self.samplePlantsNS()
        importPlants(self.pony.db, plantsns)

        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)
        delta = dt.timedelta(minutes=30)
        plantsData = self.samplePlantsData(time, delta)
        self.pony.db.Plant.insertPlantsData(plantsData)
        # orm.flush()

        for plantData in plantsData:
            self.assertDictEqual(
                dict(plantData),
                self.pony.db.Plant.get(name=plantData['plant']).plantData(
                    skipEmpty=True))

    def test__Plant_str2model__sameNameDifferentPlant(self):
        plantsns = self.samplePlantsNS()
        plantsns.plants[0].plant.inverters[0].inverter.name = '4444'
        importPlants(self.pony.db, plantsns)
        orm.flush()

        plant = self.pony.db.Plant.get(name='alcolea')

        alcoleainverter = self.pony.db.Plant.str2device(
            plant, 'Inverter', '4444')

        self.assertNotEqual(alcoleainverter, None)

        plant = self.pony.db.Plant.get(name='figuerea')

        figuereainverter = self.pony.db.Plant.str2device(
            plant, 'Inverter', '4444')

        self.assertNotEqual(figuereainverter, None)

        self.assertNotEqual(alcoleainverter.plant.name,
                            figuereainverter.plant.name)

    def test__Meter_getRegistries__emptyRegistries(self):
        alcoleaPlantNS = self.samplePlantNS()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)

        registries = self.pony.db.Meter[1].getRegistries()

        expectedRegistries = []

        self.assertListEqual(registries, expectedRegistries)

    def test__Meter_getRegistries__OneRegistry(self):
        alcoleaPlantNS = self.samplePlantNS()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)
        self.pony.db.Meter[1].insertRegistry(
            time=time,
            export_energy_wh=10,
            import_energy_wh=5,
            r1_VArh=3,
            r2_VArh=2,
            r3_VArh=4,
            r4_VArh=1,
        )

        registries = self.pony.db.Meter[1].getRegistries()

        expectedRegistries = [{
            'time': time,
            'export_energy_wh': 10,
            'import_energy_wh': 5,
            'r1_VArh': 3,
            'r2_VArh': 2,
            'r3_VArh': 4,
            'r4_VArh': 1,
        }]

        self.assertListEqual(registries, expectedRegistries)

    def test__Meter_getRegistries__OneRegistry_two_meters(self):
        alcoleaPlantNS = self.samplePlantNS()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        self.pony.db.Meter(plant=alcolea, name="Albertinho")
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)
        self.pony.db.Meter[1].insertRegistry(
            time=time,
            export_energy_wh=10,
            import_energy_wh=5,
            r1_VArh=3,
            r2_VArh=2,
            r3_VArh=4,
            r4_VArh=1,
        )
        self.pony.db.Meter[2].insertRegistry(
            time=time,
            export_energy_wh=110,
            import_energy_wh=15,
            r1_VArh=13,
            r2_VArh=12,
            r3_VArh=14,
            r4_VArh=11,
        )
        registries = self.pony.db.Meter[1].getRegistries()

        expectedRegistries = [{
            'time': time,
            'export_energy_wh': 10,
            'import_energy_wh': 5,
            'r1_VArh': 3,
            'r2_VArh': 2,
            'r3_VArh': 4,
            'r4_VArh': 1,
        }]

        self.assertListEqual(registries, expectedRegistries)

    def test__Meter_getRegistries__OneRegistry_filter_date(self):
        with orm.db_session:
            alcoleaPlantNS = self.samplePlantNS()
            alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                         codename=alcoleaPlantNS.codename)
            alcolea = alcolea.importPlant(alcoleaPlantNS)
            time = dt.datetime(2020,
                               12,
                               10,
                               15,
                               5,
                               10,
                               588861,
                               tzinfo=dt.timezone.utc)
            delta = dt.timedelta(minutes=30)
            self.pony.db.Meter[1].insertRegistry(
                time=time,
                export_energy_wh=10,
                import_energy_wh=5,
                r1_VArh=3,
                r2_VArh=2,
                r3_VArh=4,
                r4_VArh=1,
            )
            fromdate = time - delta
            todate = time + delta

            registries = self.pony.db.Meter[1].getRegistries(fromdate=fromdate,
                                                             todate=todate)

            expectedRegistries = [{
                'time': time,
                'export_energy_wh': 10,
                'import_energy_wh': 5,
                'r1_VArh': 3,
                'r2_VArh': 2,
                'r3_VArh': 4,
                'r4_VArh': 1,
            }]

            self.assertListEqual(registries, expectedRegistries)

    def test__Meter_getLastReadingsDate__oneMeterOnePlantEmptyReadings(self):
        alcoleaPlantNS = self.samplePlantNS()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)

        result = self.pony.db.Meter[1].getLastReadingDate()

        self.assertIsNone(result)

    def test__Meter_getLastReadingsDate__oneMeterOnePlantOneReading(self):
        alcoleaPlantNS = self.samplePlantNS()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)
        delta = dt.timedelta(minutes=30)
        meter = self.pony.db.Meter[1]
        meter.insertRegistry(
            time=time,
            export_energy_wh=10,
            import_energy_wh=5,
            r1_VArh=3,
            r2_VArh=2,
            r3_VArh=4,
            r4_VArh=1,
        )

        result = meter.getLastReadingDate()

        expectedResult = time

        self.assertEqual(result, expectedResult)

    def test__inverter_getRegistries__OneRegistry(self):
        alcoleaPlantNS = self.samplePlantNS()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)
        self.pony.db.Inverter[1].insertRegistry(
            power_w=1,
            energy_wh=2,
            intensity_cc_mA=3,
            intensity_ca_mA=4,
            voltage_cc_mV=5,
            voltage_ca_mV=6,
            uptime_h=7,
            temperature_dc=8,
            time=time,
        )

        registries = self.pony.db.Inverter[1].getRegistries()

        expectedRegistries = [{
            "power_w": 1,
            "energy_wh": 2,
            "intensity_cc_mA": 3,
            "intensity_ca_mA": 4,
            "voltage_cc_mV": 5,
            "voltage_ca_mV": 6,
            "uptime_h": 7,
            "temperature_dc": 8,
            "time": time,
        }]

        self.assertListEqual(registries, expectedRegistries)

    def test__string_getRegistries__OneRegistry(self):
        alcoleaPlantNS = self.samplePlantNSWithStrings()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)

        self.pony.db.String[1].insertRegistry(
            intensity_mA=3,
            time=time,
        )

        registries = self.pony.db.String[1].getRegistries()

        expectedRegistries = [{
            "intensity_mA": 3,
            "time": time,
        }]

        self.assertListEqual(registries, expectedRegistries)

    def __test__forecastMetadata(self):
        pass

    def test__createDevice(self):
        oneplant = self.pony.db.Plant(name="Alice", codename="LaSuisse")
        oneplant.createDevice("Inverter", "Bob")

        plantData = oneplant.exportPlant()

        expectedPlant = {
            "name": "Alice",
            "codename": "LaSuisse",
            "description": '',
            "meters": [],
            "inverters": [{
                "inverter": {
                    "name": "Bob"
                },
            }],
            "irradiationSensors": [],
            "temperatureAmbientSensors": [],
            "temperatureModuleSensors": [],
        }

        self.assertDictEqual(plantData, expectedPlant)

    def test__Plant__plantData__InverterWithStrings(self):
        alcoleaPlantNS = self.samplePlantNSWithStrings()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)

        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)

        registry = {
            'energy_wh': 100,
            'intensity_ca_mA': 1,
            'intensity_cc_mA': 1,
            'power_w': 100,
            'temperature_dc': 1,
            'time': time,
            'uptime_h': 1,
            'voltage_ca_mV': 1,
            'voltage_cc_mV': 1
        }

        self.pony.db.Inverter[1].insertRegistry(**registry)

        plantdata = alcolea.plantData()

        expectedPlantData = {
            "plant":
            "alcolea",
            "devices": [{
                'id': 'Inverter:5555',
                'readings': [registry]
            }, {
                'id': 'Inverter:6666',
                'readings': []
            }]
        }

        expectedPlantData["devices"].sort(key=lambda x: x['id'])

        self.assertDictEqual(plantdata, expectedPlantData)

    # TODO fix plantData construction of an inverter with strings
    def _test__Inverter__plantData__withStrings(self):
        alcoleaPlantNS = self.samplePlantNSWithStrings()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)

        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)

        inverterRegistry = {
            'energy_wh': 100,
            'intensity_ca_mA': 1,
            'intensity_cc_mA': 1,
            'power_w': 100,
            'temperature_dc': 1,
            'time': time,
            'uptime_h': 1,
            'voltage_ca_mV': 1,
            'voltage_cc_mV': 1
        }

        stringsRegistry = [100, 200]

        self.pony.db.Inverter[1].insertRegistry(**inverterRegistry)
        self.pony.db.String[1].insertRegistry(intensity_mA=stringsRegistry[0],
                                              time=time)
        self.pony.db.String[2].insertRegistry(intensity_mA=stringsRegistry[1],
                                              time=time)

        inverterPlantdata = self.pony.db.Inverter[1].plantData()

        expected = {
            'id':
            'Inverter:5555',
            'readings': [{
                **inverterRegistry, 'String_intensity_mA:string1': 100,
                'String_intensity_mA:string2': 200
            }]
        }

        self.assertDictEqual(plantdata, expected)

    def _test__String__plantData(self):
        alcoleaPlantNS = self.samplePlantNSWithStrings()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)

        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)

        inverterRegistry = {
            'energy_wh': 100,
            'intensity_ca_mA': 1,
            'intensity_cc_mA': 1,
            'power_w': 100,
            'temperature_dc': 1,
            'time': time,
            'uptime_h': 1,
            'voltage_ca_mV': 1,
            'voltage_cc_mV': 1
        }

        stringsRegistry = [100, 200]

        self.pony.db.Inverter[1].insertRegistry(**inverterRegistry)
        self.pony.db.String[1].insertRegistry(intensity_mA=stringsRegistry[0],
                                              time=time)
        self.pony.db.String[2].insertRegistry(intensity_mA=stringsRegistry[1],
                                              time=time)

        plantdata = alcolea.plantData()

        # option 1b
        expectedPlantData = {
            "plant":
            "alcolea",
            "devices": [{
                'id':
                'Inverter:5555',
                'readings': [{
                    **inverterRegistry, 'String_intensity_mA:string1':
                    100,
                    'String_intensity_mA:string2':
                    200
                }]
            }, {
                'id': 'Inverter:6666',
                'readings': []
            }]
        }

        expectedPlantData["devices"].sort(key=lambda x: x['id'])

        self.assertDictEqual(plantdata, expectedPlantData)

    def test__Plant__plantData(self):
        alcoleaPlantNS = self.samplePlantNS()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)

        mRegistry = {
            "export_energy_wh": 10,
            "import_energy_wh": 5,
            "r1_VArh": 3,
            "r2_VArh": 2,
            "r3_VArh": 4,
            "r4_VArh": 1,
            "time": time,
        }

        self.pony.db.Meter[1].insertRegistry(**mRegistry)

        self.pony.db.SensorIrradiation[1].insertRegistry(
            time=time,
            irradiation_w_m2=15,
            temperature_dc=250,
        )

        plantdata = alcolea.plantData()

        expectedPlantData = {
            "plant":
            "alcolea",
            "devices": [{
                'id': 'Inverter:5555',
                'readings': []
            }, {
                'id': 'Inverter:6666',
                'readings': []
            }, {
                "id": "Meter:1234578",
                "readings": [mRegistry]
            }, {
                "id":
                "SensorIrradiation:alberto",
                "readings": [{
                    "irradiation_w_m2": 15,
                    'temperature_dc': 250,
                    "time": time,
                }]
            }, {
                "id": "SensorTemperatureAmbient:joana",
                "readings": []
            }, {
                "id": "SensorTemperatureModule:pol",
                "readings": []
            }]
        }

        expectedPlantData["devices"].sort(key=lambda x: x['id'])

        self.assertDictEqual(plantdata, expectedPlantData)

    def test__Plant_insertPlantData(self):
        alcoleaPlantNS = self.samplePlantNS()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        orm.flush()
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)

        plantData = {
            "plant":
            "alcolea",
            "devices": [{
                'id': 'Inverter:5555',
                'readings': []
            }, {
                'id': 'Inverter:6666',
                'readings': []
            }, {
                "id":
                "Meter:1234578",
                "readings": [{
                    "export_energy_wh": 10,
                    "import_energy_wh": 5,
                    "r1_VArh": 3,
                    "r2_VArh": 2,
                    "r3_VArh": 4,
                    "r4_VArh": 1,
                    "time": time,
                }]
            }, {
                "id":
                "SensorIrradiation:alberto",
                "readings": [{
                    "irradiation_w_m2": 15,
                    "temperature_dc": 250,
                    "time": time,
                }]
            }, {
                "id": "SensorTemperatureAmbient:joana",
                "readings": []
            }, {
                "id": "SensorTemperatureModule:pol",
                "readings": []
            }]
        }

        alcolea.insertPlantData(plantData)

        plantDataResult = alcolea.plantData()

        self.assertDictEqual(plantData, plantDataResult)

    def _test__Plant_insertPlantData__Strings__Empty(self):
        alcoleaPlantNS = self.samplePlantNSWithStrings()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        orm.flush()
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)

        plantData = {
            "plant":
            "alcolea",
            "devices": [{
                'id': 'Inverter:5555',
                'readings': []
            }, {
                'id': 'Inverter:6666',
                'readings': []
            }]
        }

        alcolea.insertPlantData(plantData)

        plantDataResult = alcolea.plantData()

        self.assertDictEqual(plantData, plantDataResult)

    def test__Plant_insertPlantData__NewStrings__OneInverter(self):
        alcoleaPlantNS = self.samplePlantNSWithStrings()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        orm.flush()
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)

        plantData = {
            "plant":
            "alcolea",
            "devices": [{
                'id':
                'Inverter:5555',
                'readings': [{
                    'energy_wh': 100,
                    'intensity_ca_mA': 1,
                    'intensity_cc_mA': 1,
                    'power_w': 100,
                    'temperature_dc': 1,
                    'time': time,
                    'uptime_h': 1,
                    'voltage_ca_mV': 1,
                    'voltage_cc_mV': 1,
                    'String:string1:intensity_mA': 100,
                    'String:string2:intensity_mA': 200
                }]
            }, {
                'id': 'Inverter:6666',
                'readings': []
            }]
        }

        alcolea.insertPlantData(plantData)

        # TODO build a plantData with data with strings

        plantdata_result = alcolea.plantData()

        del plantData['devices'][0]['readings'][0][
            'String:string1:intensity_mA']
        del plantData['devices'][0]['readings'][0][
            'String:string2:intensity_mA']

        self.assertDictEqual(plantData, plantdata_result)

        expected_strings = [{
            'time': time,
            'intensity_mA': 100
        }, {
            'time': time,
            'intensity_mA': 200
        }]

        string_readings = [{
            'time': r.time,
            'intensity_mA': r.intensity_mA
        } for r in self.pony.db.StringRegistry.select()]

        self.assertListEqual(string_readings, expected_strings)

    def test__municipality_insert(self):
        figueres = self.pony.db.Municipality(
            countryCode="ES",
            country="Spain",
            regionCode="09",
            region="Catalonia",
            provinceCode="17",
            province="Girona",
            ineCode="17066",
            name="Figueres",
        )

        alcolea = self.pony.db.Plant(name="Alcolea",
                                     codename="Som_Alcolea",
                                     municipality=figueres)

        municipality = self.pony.db.Plant.get(name="Alcolea").municipality

        self.assertDictEqual(figueres.to_dict(), municipality.to_dict())

    def test__location_insert(self):
        alcolea = self.pony.db.Plant(name="Alcolea", codename="Som_Alcolea")
        alcoleaLatLong = (42.26610810248693, 2.958334450785599)
        alcoleaLocation = self.pony.db.PlantLocation(
            plant=alcolea,
            latitude=alcoleaLatLong[0],
            longitude=alcoleaLatLong[1])
        alcolea.location = alcoleaLocation

        location = self.pony.db.Plant.get(name="Alcolea").location

        self.assertEqual(alcoleaLatLong, location.getLatLong())

    def test__importPlants__oneplant(self):
        pass

    def test__Meter_updateMeterProtocol_byDefault(self):

        alcoleaPlantNS = self.samplePlantNSWithModuleParameters()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        orm.flush()

        meter = self.pony.db.Meter.get(name='1234578')
        self.assertEqual(meter.connection_protocol, 'ip')

    def test__Meter_updateMeterProtocol_afterUpdate(self):

        alcoleaPlantNS = self.samplePlantNSWithModuleParameters()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        orm.flush()

        self.pony.db.Meter.updateMeterProtocol({
            '1234578': 'moxa',
        })
        meter = self.pony.db.Meter.get(name='1234578')
        self.assertEqual(meter.connection_protocol, 'moxa')

    def test__Meter_updateMeterProtocol_unknownMetersIgnored(self):
        # This adds many more meters such as 9876 which we are not updating
        plantsns = self.samplePlantsNS()
        importPlants(self.pony.db, plantsns)

        self.pony.db.Meter.updateMeterProtocol({
            '1234578': 'moxa',
        })
        meter = self.pony.db.Meter.get(name='1234578')
        self.assertEqual(meter.connection_protocol, 'moxa')
        meter = self.pony.db.Meter.get(name='9876')
        self.assertEqual(meter.connection_protocol, 'ip')

    def test__Meter_updateMeterProtocol_deprecatedMetersIgnored(self):
        plantsns = self.samplePlantsNS()
        importPlants(self.pony.db, plantsns)

        # Should not fail
        self.pony.db.Meter.updateMeterProtocol({
            '1234578': 'moxa',
            'OLDMETER': 'moxa',
        })
        meter = self.pony.db.Meter.get(name='OLDMETER')
        self.assertEqual(meter, None)

    @unittest.skipIf(
        True,
        "we don't support String creation directly, only as inverter registry")
    def test__String_createDevice(self):
        alcoleaPlantNS = self.samplePlantNS()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea.importPlant(alcoleaPlantNS)
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)
        dev = alcolea.createDevice(classname='String',
                                   devicename='5555-string1')

        expected = {'id': 1, 'inverter': 1, 'name': 'string1'}
        self.assertIsNotNone(dev)
        self.assertDictEqual(expected, dev.to_dict())

    def test__String_insertRegistry__new(self):
        alcoleaPlantNS = self.samplePlantNS()
        alcolea = self.pony.db.Plant(name=alcoleaPlantNS.name,
                                     codename=alcoleaPlantNS.codename)
        alcolea = alcolea.importPlant(alcoleaPlantNS)
        time = dt.datetime(2020,
                           12,
                           10,
                           15,
                           5,
                           10,
                           588861,
                           tzinfo=dt.timezone.utc)

        stringIntensities = [400, 400, 300, 500, 2000, 300, 400, 1000, 300]

        self.pony.db.Inverter[1].insertRegistry(
            power_w=1,
            energy_wh=2,
            intensity_cc_mA=3,
            intensity_ca_mA=4,
            voltage_cc_mV=5,
            voltage_ca_mV=6,
            uptime_h=7,
            temperature_dc=8,
            time=time,
        )

        registries = self.pony.db.Inverter[1].getRegistries()

        expectedRegistries = [{
            "power_w": 1,
            "energy_wh": 2,
            "intensity_cc_mA": 3,
            "intensity_ca_mA": 4,
            "voltage_cc_mV": 5,
            "voltage_ca_mV": 6,
            "uptime_h": 7,
            "temperature_dc": 8,
            "time": time,
        }]

        self.assertListEqual(registries, expectedRegistries)
コード例 #16
0
class Queries_Test(TestCase):
    from b2btest.b2btest import assertB2BEqual

    @classmethod
    def setUpClass(cls):
        ''

    def setUp(self):
        self.maxDiff = None
        self.b2bdatapath = 'b2bdata'
        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

        orm.rollback()

        self.pony = PonyManager(envinfo.DB_CONF)

        self.pony.define_all_models()
        self.pony.binddb(create_tables=True)

        self.pony.db.drop_all_tables(with_all_data=True)

        self.pony.db.create_tables()

        orm.db_session.__enter__()

    def tearDown(self):
        orm.rollback()
        orm.db_session.__exit__()
        self.pony.db.drop_all_tables(with_all_data=True)
        self.pony.db.disconnect()

    def samplePlantNS(self):  # Copied from test_models.py:samplePlantNS
        alcoleaPlantNS = ns.loads("""\
            name: myplant
            codename: PLANTCODE
            description: Plant Description
            meters:
            - meter:
                name: '1234578'
            irradiationSensors:
            - irradiationSensor:
                name: irradiationSensor1
        """)
        return alcoleaPlantNS

    # irradiance exported with
    # `\copy (select to_char(time at time zone 'UTC', 'YYYY-MM-DD"T"HH24:MI:SS.MS'), irradiation_w_m2
    # from sensorirradiationregistry order by time desc) to '/tmp/irradiance-2021-07-21-Alcolea.csv' with csv;`

    def readTimeseriesCSV(self, csv_filepath):
        with open(csv_filepath) as csv_file:
            content = csv_file.read()
            timeseries = [(datetime.datetime.fromisoformat(l[0]).astimezone(
                datetime.timezone.utc), int(l[1]))
                          for l in (r.split(',') for r in content.split('\n')
                                    if r)]

        return timeseries

    def setupPlant(self):
        plantDefinition = self.samplePlantNS()
        plant = self.pony.db.Plant(
            name=plantDefinition.name,
            codename=plantDefinition.codename,
        )
        plant.importPlant(plantDefinition)
        plant.flush()
        self.plant = plant.id
        self.sensor = self.pony.db.SensorIrradiation.select().first().id

    def importData(self, sensor, filename):
        irradianceTimeSeries = self.readTimeseriesCSV(filename)
        for time, irradiation_w_m2 in irradianceTimeSeries:
            self.pony.db.SensorIrradiationRegistry(
                sensor=sensor,
                time=time,
                irradiation_w_m2=int(round(irradiation_w_m2)),
                temperature_dc=0,
            )
        self.pony.db.flush()

        return [(time, self.plant, sensor, irradiation_w_m2)
                for time, irradiation_w_m2 in irradianceTimeSeries]

    def assertOutputB2B(self, result):
        result = "\n".join(
            ("{}, {}, {:.9f}".format(time.isoformat() if time else None, sensor
                                     or int('nan'), irradiation
                                     or float('nan'))
             for time, sensor, irradiation in result))
        self.assertB2BEqual(result)

    def test_irradiation(self):
        self.setupPlant()
        self.importData(self.sensor,
                        'b2bdata/irradiance-2021-07-21-Alcolea.csv')
        query = Path('queries/view_irradiation.sql').read_text(encoding='utf8')
        result = self.pony.db.select(query)

        self.assertOutputB2B(result)

    def test_irradiation_oneDay(self):
        self.setupPlant()
        self.importData(self.sensor,
                        'b2bdata/irradiance-2021-07-21-Alcolea.csv')
        query = Path('queries/view_irradiation.sql').read_text(encoding='utf8')
        result = [
            r for r in self.pony.db.select(query)
            if todtaware('2021-06-01 00:00:00') <= r.time
            and r.time < todtaware('2021-06-02 00:00:00') and r.sensor == 1
        ]

        self.assertOutputB2B(result)

    def test_irradiation_incompleteLastDay(self):
        self.setupPlant()
        self.importData(
            self.sensor,
            'b2bdata/irradiance-2021-07-21-Alcolea_test_cases.csv')
        query = Path('queries/view_irradiation.sql').read_text(encoding='utf8')
        result = [
            r.irradiation_w_m2_h for r in self.pony.db.select(query)
            if todtaware('2021-07-14 9:00:00') <= r.time
            and r.time < todtaware('2021-07-14 10:00:00') and r.sensor == 1
        ][0]

        self.assertAlmostEqual(result, 551.254630277778, places=5)

    def test_irradiation_halfHourWithReadings(self):
        self.setupPlant()
        self.importData(
            self.sensor,
            'b2bdata/irradiance-2021-07-21-Alcolea_test_cases.csv')
        query = Path('queries/view_irradiation.sql').read_text(encoding='utf8')
        result = [
            r.irradiation_w_m2_h for r in self.pony.db.select(query)
            if todtaware('2021-07-14 8:00:00') <= r.time
            and r.time < todtaware('2021-07-14 9:00:00')
        ][0]

        self.assertAlmostEqual(result, 415.2791252777778, places=5)

    def test_irradiation_second_sensors(self):
        self.setupPlant()
        plant = self.plant
        sensor_florida = self.pony.db.SensorIrradiation(
            plant=plant, name="irradiationSensor2")
        self.importData(sensor_florida,
                        'b2bdata/irradiance-2021-07-21-Florida.csv')
        query = Path('queries/view_irradiation.sql').read_text(encoding='utf8')
        result = self.pony.db.select(query)

        self.assertOutputB2B(result)

    def test_irradiation_multiple_sensors(self):
        self.setupPlant()
        self.importData(self.sensor,
                        'b2bdata/irradiance-2021-07-21-Alcolea.csv')
        plant = self.plant
        sensor_florida = self.pony.db.SensorIrradiation(
            plant=plant, name="irradiationSensor2")
        self.importData(sensor_florida,
                        'b2bdata/irradiance-2021-07-21-Florida.csv')
        query = Path('queries/view_irradiation.sql').read_text(encoding='utf8')
        result = self.pony.db.select(query)

        self.assertOutputB2B(result)

    # TODO test output of one sensor equal to two sensors for the one sensor
    def _test_irradiation_multiple_sensors_same_as_one(self):
        self.setupPlant()
        self.importData(self.sensor,
                        'b2bdata/irradiance-2021-07-21-Alcolea.csv')
        plant = self.plant
        sensor_florida = self.pony.db.SensorIrradiation(
            plant=plant, name="irradiationSensor2")
        self.importData(sensor_florida,
                        'b2bdata/irradiance-2021-07-21-Florida.csv')
        query = Path('queries/view_irradiation.sql').read_text(encoding='utf8')
        result = self.pony.db.select(query)

        self.assertOutputB2B(result)

    def test_irradiation_oneHour_againstTrapezoidal(self):
        # remember that you have an trapezoidal approximation script for csv at scripts/integrate_csv
        from scripts.integrate_csv import integrate

        trapzIrradiationTS = integrate(
            'b2bdata/irradiance-2021-07-21-Alcolea_test_cases.csv')

        self.assertAlmostEqual(trapzIrradiationTS[0][1],
                               448.17932250650483,
                               places=3)
コード例 #17
0
class ImportPlant_Test(unittest.TestCase):

    from yamlns.testutils import assertNsEqual

    def setUpORM(self):

        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

        orm.rollback()

        self.pony = PonyManager(envinfo.DB_CONF)

        self.pony.define_all_models()
        self.pony.binddb(create_tables=True)

        self.pony.db.drop_all_tables(with_all_data=True)

        #orm.set_sql_debug(True)
        self.pony.db.create_tables()


        # database.generate_mapping(create_tables=True)
        # orm.db_session.__enter__()

    def tearDownORM(self):
        orm.rollback()
        # orm.db_session.__exit__()
        self.pony.db.drop_all_tables(with_all_data=True)
        self.pony.db.disconnect()

    def setUp(self):
        self.setUpORM()

    def tearDown(self):
        self.tearDownORM()

    def test_importExportPlant(self):
        with orm.db_session:

            nsplants = ns.loads("""\
                plants:
                - plant:
                    name: alcolea
                    codename: SCSOM04
                    description: la bonica planta
                    meters:
                    - meter:
                        name: '1234578'
                    inverters:
                    - inverter:
                        name: '5555'
                    - inverter:
                        name: '6666'
                    irradiationSensors:
                    - irradiationSensor:
                        name: alberto
                    temperatureAmbientSensors:
                    - temperatureAmbientSensor:
                        name: joana
                    temperatureModuleSensors:
                    - temperatureModuleSensor:
                        name: pol""")

            importPlants(self.pony.db, nsplants)

            #TODO test the whole fixture, not just the plant data
            expectedPlantsNS = exportPlants(self.pony.db)
            self.assertNsEqual(expectedPlantsNS, nsplants)

    def test__importPlantCLI_NoFile(self):
        runner = CliRunner()
        result = runner.invoke(importPlantCLI, [])
        self.assertEqual(2, result.exit_code)

    def test__importPlantCLI_File(self):
        fakePlantYaml = 'fakeplant.yaml'

        content = """\
            plants:
            - plant:
                name: alcolea
                codename: SCSOM04
                description: la bonica planta
                meters:
                - meter:
                    name: '1234578'
                inverters:
                - inverter:
                    name: '5555'
                - inverter:
                    name: '6666'
                irradiationSensors:
                - irradiationSensor:
                    name: alberto
                temperatureAmbientSensors:
                - temperatureAmbientSensor:
                    name: joana
                temperatureModuleSensors:
                - temperatureModuleSensor:
                    name: pol"""

        p = Path(fakePlantYaml)
        with p.open("w", encoding="utf-8") as f:
            f.write(content)

        runner = CliRunner()
        result = runner.invoke(importPlantCLI, [fakePlantYaml])
        print(result)
        self.assertEqual(0, result.exit_code)

        p.unlink()

        with orm.db_session:
            plantns = exportPlants(self.pony.db)

        self.assertNsEqual(plantns, content)


    def test__importPlant_File(self):
        fakePlantsYaml = 'fakeplant.yaml'

        content = """\
            plants:
            - plant:
                name: alcolea
                codename: SCSOM04
                description: la bonica planta
                meters:
                - meter:
                    name: '1234578'
                inverters:
                - inverter:
                    name: '5555'
                - inverter:
                    name: '6666'
                irradiationSensors:
                - irradiationSensor:
                    name: alberto
                temperatureAmbientSensors:
                - temperatureAmbientSensor:
                    name: joana
                temperatureModuleSensors:
                - temperatureModuleSensor:
                    name: pol"""

        p = Path(fakePlantsYaml)
        with p.open("w", encoding="utf-8") as f:
            f.write(content)

        importPlantsFromFile(self.pony.db, fakePlantsYaml)

        p.unlink()

        with orm.db_session:
            plantns = exportPlants(self.pony.db)

        self.assertNsEqual(plantns, content)

    def test__importPlant_File__withMunicipalities(self):
        fakePlantsYaml = 'fakeplant.yaml'

        content = """\
            municipalities:
            - municipality:
                name: Figueres
                ineCode: '17066'
                countryCode: ES
                country: Spain
                regionCode: '08'
                region: Catalonia
                provinceCode: '17'
                province: Girona
            plants:
            - plant:
                name: alcolea
                codename: SCSOM04
                description: la bonica planta
                meters:
                - meter:
                    name: '1234578'
                inverters:
                - inverter:
                    name: '5555'
                - inverter:
                    name: '6666'
                irradiationSensors:
                - irradiationSensor:
                    name: alberto
                temperatureAmbientSensors:
                - temperatureAmbientSensor:
                    name: joana
                temperatureModuleSensors:
                - temperatureModuleSensor:
                    name: pol"""

        p = Path(fakePlantsYaml)
        with p.open("w", encoding="utf-8") as f:
            f.write(content)

        importPlantsFromFile(self.pony.db, fakePlantsYaml)

        p.unlink()

        with orm.db_session:
            plantns = exportPlants(self.pony.db)

        self.assertNsEqual(plantns, content)
コード例 #18
0
class DailyDownload_Test(unittest.TestCase):
    def createApi(self, **kwds):
        config = self.createConfig()
        params = dict(
            wsdl=config['meteo_test_url'],
            username=config['meteo_user'],
            password=config['meteo_password'],
            lastDateFile=self.getLastDateFile(),
            lastDateDownloadFile=self.getLastDateDownloadFile(),
            showResponses=False,
        )
        params.update(kwds)
        return MeteologicaApi(**params)

    def createConfig(self):
        return ns.load('conf/configdb_test.yaml')

    # TODO refactor the need of a lastDate download in MeteologicaApi, db should suffice
    def getLastDateFile(self):
        return 'lastDateFile-test.yaml'

    def getLastDateDownloadFile(self):
        return 'lastDateDownloadFile-test.yaml'

    def cleanLastDateFile(self):
        f = Path(self.getLastDateFile())
        if f.exists(): f.unlink()

    def setUp(self):
        from conf import envinfo
        self.assertEqual(envinfo.SETTINGS_MODULE, 'conf.settings.testing')

        orm.rollback()
        self.pony = PonyManager(envinfo.DB_CONF)

        self.pony.define_all_models()
        self.pony.binddb(create_tables=True)

        self.pony.db.drop_all_tables(with_all_data=True)

        self.pony.db.create_tables()

        orm.db_session.__enter__()

    def tearDown(self):
        orm.rollback()
        orm.db_session.__exit__()
        self.pony.db.drop_all_tables(with_all_data=True)
        self.pony.db.disconnect()
        # comment this if you want to check the date format
        self.cleanLastDateFile()

    def mainFacility(self):
        return 'Alcolea'

    def otherFacility(self):
        return 'Arigato'

    def sampleForecastMeta(self, plant_name, forecastdate):
        return {
            'facilityId': self.mainFacility(),
            'variableId': 'prod',
            'predictorId': 'aggregated',
            'granularity': '60',
            'forecastDate': forecastdate,
            'errorcode': None,
        }

    def samplePlantData(self, plant_name, forecastdate, forecasts,
                        packet_time):
        return {
            'plant':
            plant_name,
            'version':
            '1.0',
            'time':
            packet_time,
            'devices': [{
                'id': 'ForecastMetadata:',
                'errorcode': None,
                'variable': 'prod',
                'predictor': 'aggregated',
                'forecastdate': forecastdate,
                'granularity': 60,
                'forecasts': forecasts,
            }]
        }

    def createPlantmonitorDB(self):
        configdb = ns.load('conf/configdb_test.yaml')
        return PlantmonitorDB(configdb)

    def test__createForecast__OnePlant(self):
        alcolea = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        time = datetime.datetime(2020,
                                 12,
                                 10,
                                 15,
                                 5,
                                 10,
                                 588861,
                                 tzinfo=datetime.timezone.utc)

        forecastMeta = {
            'variable': 'prod',
            'predictor': 'aggregated',
            'granularity': '60',
            'forecastdate': time,
            'errorcode': '',
        }

        forecastData = {
            self.mainFacility(): [
                (todtaware("2040-01-02 00:00:00"), 10),
                (todtaware("2040-01-02 01:00:00"), 20),
            ],
        }

        forecastMetadata = self.pony.db.ForecastMetadata.create(plant=alcolea,
                                                                **forecastMeta)

        self.assertIsNotNone(forecastMetadata)

        for f in forecastData[self.mainFacility()]:
            forecastMetadata.insertForecast(
                time=f[0],
                percentil10=None,
                percentil50=f[1],
                percentil90=None,
            )
        orm.flush()

        expected = [{
            'forecastMetadata':
            1,
            'percentil10':
            None,
            'percentil50':
            10,
            'percentil90':
            None,
            'time':
            datetime.datetime(2040, 1, 2, 0, 0, tzinfo=datetime.timezone.utc)
        }, {
            'forecastMetadata':
            1,
            'percentil10':
            None,
            'percentil50':
            20,
            'percentil90':
            None,
            'time':
            datetime.datetime(2040, 1, 2, 1, 0, tzinfo=datetime.timezone.utc)
        }]
        forecasts = [f.to_dict() for f in self.pony.db.Forecast.select()]
        self.assertListEqual(forecasts, expected)

    def test__lastForecastDownloadDate__NoData(self):

        alibaba = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        forecastDate = alibaba.lastForecastDownloaded()

        self.assertIsNone(forecastDate)

    def test__lastForecastDownloadDate__SomeData(self):

        alcolea = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        time = datetime.datetime(2020,
                                 12,
                                 10,
                                 15,
                                 5,
                                 10,
                                 588861,
                                 tzinfo=datetime.timezone.utc)

        forecastMeta = self.sampleForecastMeta(self.mainFacility(), time)

        data = {
            self.mainFacility(): [
                (todt("2040-01-02 00:00:00"), 10),
                (todt("2040-01-02 01:00:00"), 20),
            ],
        }

        status = 'OK'
        forecastDate = time

        forecastMetadata = self.pony.db.ForecastMetadata.create(
            plant=alcolea, forecastdate=forecastDate, errorcode=status)
        forecastMetadata.addForecasts(data[self.mainFacility()])

        orm.flush()

        forecastDate = alcolea.lastForecastDownloaded()

        expectedForecastDate = time

        self.assertEqual(forecastDate, expectedForecastDate)

    def test_getForecast(self):
        data = {
            "SomEnergia_{}".format(self.mainFacility()): [
                (todt("2040-01-02 00:00:00"), 10),
                (todt("2040-01-02 01:00:00"), 20),
            ],
        }

        fromDate = todt("{}-01-01 00:00:00".format(
            datetime.datetime.now().year))
        toDate = todt("{}-01-03 00:00:00".format(datetime.datetime.now().year))

        with self.createApi() as api:
            for facility, values in data.items():
                resultForecast = api.getForecast(facility, fromDate, toDate)
                self.assertEqual(
                    resultForecast[0][0],
                    todtaware("{}-01-01 00:00:00".format(
                        datetime.datetime.now().year)))

    def test__downloadMeterForecasts__uptodate(self):

        alcolea = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        forecastDate = datetime.datetime.now(datetime.timezone.utc)
        oldForecastMetadata = self.pony.db.ForecastMetadata.create(
            plant=alcolea, forecastdate=forecastDate, errorcode='OK')

        p50 = 1000
        time = datetime.datetime.now(datetime.timezone.utc)
        oldForecastMetadata.insertForecast(percentil10=None,
                                           percentil50=p50,
                                           percentil90=None,
                                           time=time)
        orm.flush()

        statuses = downloadMeterForecasts(self.pony.db, self.createConfig())

        forecastMetadata = self.pony.db.ForecastMetadata.select().order_by(
            orm.desc(self.pony.db.ForecastMetadata.forecastdate)).first()

        self.assertEqual(forecastMetadata, oldForecastMetadata)
        forecasts = forecastMetadata.registries

        self.assertEqual(statuses['SomEnergia_Alcolea'],
                         ForecastStatus.UPTODATE)

    def test__downloadMeterForecasts__newForecasts(self):

        alcolea = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        time = datetime.datetime.now(datetime.timezone.utc)
        forecastDate = time - datetime.timedelta(hours=1)
        oldForecastMetadata = self.pony.db.ForecastMetadata.create(
            plant=alcolea, forecastdate=forecastDate, errorcode='OK')

        p50 = 1000

        oldForecastMetadata.insertForecast(percentil10=None,
                                           percentil50=p50,
                                           percentil90=None,
                                           time=time)
        orm.flush()

        statuses = downloadMeterForecasts(self.pony.db, self.createConfig())

        forecastMetadata = self.pony.db.ForecastMetadata.select().order_by(
            orm.desc(self.pony.db.ForecastMetadata.forecastdate)).first()

        self.assertNotEqual(forecastMetadata, oldForecastMetadata)
        self.assertEqual(statuses['SomEnergia_Alcolea'], ForecastStatus.OK)
        forecasts = orm.select(
            f for f in forecastMetadata.registries).order_by(lambda: f.time)[:]
        print(forecasts)
        expectedTime = time.replace(
            minute=0, second=0, microsecond=0) + datetime.timedelta(days=14,
                                                                    hours=1)
        expectedNumForecasts = 14 * 24 + 1
        self.assertEqual(len(forecasts), expectedNumForecasts)
        self.assertEqual(forecasts[-1].time, expectedTime)

    def test__getMeterReadings__None(self):

        plant = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        self.pony.db.Meter(plant=plant, name="1234")

        orm.flush()

        with orm.db_session:
            data = getMeterReadings(self.pony.db, plant.codename)

        self.assertEqual(data, [])

    def test__getMeterReadings__UnexistingFacility(self):
        with orm.db_session:
            data = getMeterReadings(self.pony.db, facility="fake")

        # TODO return None or [] ?
        self.assertEqual(data, None)

    def test__getMeterReadings(self):

        plant = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        time = todtaware('2020-01-01 00:00:00')

        meter = self.pony.db.Meter(plant=plant, name='1234')

        export_energy_wh = 210

        meter.insertRegistry(time=time,
                             export_energy_wh=export_energy_wh,
                             import_energy_wh=0,
                             r1_VArh=0,
                             r2_VArh=0,
                             r3_VArh=0,
                             r4_VArh=0)

        orm.flush()

        expected = [
            (todtaware('2020-01-01 00:00:00'), 210),
        ]

        with orm.db_session:
            result = getMeterReadings(self.pony.db, plant.codename)

        self.assertEqual(expected, result)

    def test__getMeterReadingsFromLastUpload__noMeter(self):

        plant = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        time = todtaware('2020-01-01 00:00:00')

        orm.flush()

        with orm.db_session:
            result = getMeterReadings(self.pony.db, plant.codename)

        self.assertIsNone(result)

    def test__getMeterReadingsFromLastUpload__None(self):

        plant = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        time = todtaware('2020-01-01 00:00:00')

        meter = self.pony.db.Meter(plant=plant, name='1234')

        orm.flush()

        with orm.db_session:
            result = getMeterReadings(self.pony.db, plant.codename)

        self.assertEqual([], result)

    def test__getMeterReadingsFromLastUpload__OneReading(self):

        plant = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        time = todtaware('2020-01-01 00:00:00')

        meter = self.pony.db.Meter(plant=plant, name='1234')

        export_energy_wh = 210

        meter.insertRegistry(time=time,
                             export_energy_wh=export_energy_wh,
                             import_energy_wh=0,
                             r1_VArh=0,
                             r2_VArh=0,
                             r3_VArh=0,
                             r4_VArh=0)

        orm.flush()

        expected = [
            (todtaware('2020-01-01 00:00:00'), 210),
        ]

        with orm.db_session:
            result = getMeterReadings(self.pony.db, plant.codename)

        self.assertEqual(expected, result)

    def test__uploadFacilityMeterReadings__checkResponses(self):

        plant = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        time = todtaware('2020-01-01 00:00:00')

        meter = self.pony.db.Meter(plant=plant, name='1234')

        export_energy_wh = 210

        meter.insertRegistry(time=time,
                             export_energy_wh=export_energy_wh,
                             import_energy_wh=0,
                             r1_VArh=0,
                             r2_VArh=0,
                             r3_VArh=0,
                             r4_VArh=0)

        orm.flush()

        with self.createApi() as api:
            response = uploadFacilityMeterReadings(self.pony.db, api,
                                                   plant.codename)

        expectedResponse = 'OK'
        self.assertEqual(response, expectedResponse)

    def test__uploadMeterReadings__checkResponses(self):

        plant = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        time = todtaware('2020-01-01 00:00:00')

        meter = self.pony.db.Meter(plant=plant, name='1234')

        export_energy_wh = 210

        meter.insertRegistry(time=time,
                             export_energy_wh=export_energy_wh,
                             import_energy_wh=0,
                             r1_VArh=0,
                             r2_VArh=0,
                             r3_VArh=0,
                             r4_VArh=0)

        orm.flush()

        with self.createApi() as api:
            responses = uploadMeterReadings(self.pony.db, self.createConfig())

        expectedResponse = 'OK'
        self.assertEqual(responses[plant.codename], expectedResponse)

    def test__lastForecastDownloaded__checkLastDateAdded(self):

        alcolea = self.pony.db.Plant(
            name=self.mainFacility(),
            codename='SomEnergia_{}'.format(self.mainFacility()),
        )

        oldForecastDate = datetime.datetime(2020,
                                            12,
                                            10,
                                            15,
                                            5,
                                            10,
                                            588861,
                                            tzinfo=datetime.timezone.utc)
        newForecastDate = oldForecastDate + datetime.timedelta(hours=1)

        status = 'OK'

        oldForecastMetadata = self.pony.db.ForecastMetadata.create(
            plant=alcolea, forecastdate=oldForecastDate, errorcode=status)
        newForecastMetadata = self.pony.db.ForecastMetadata.create(
            plant=alcolea, forecastdate=newForecastDate, errorcode=status)

        oldForecast = [
            (todt("2040-01-02 00:00:00"), 10),
            (todt("2040-01-02 01:00:00"), 20),
        ]

        newForecast = [
            (todt("2040-01-02 02:00:00"), 30),
            (todt("2040-01-02 03:00:00"), 40),
        ]

        oldForecastMetadata.addForecasts(oldForecast)
        newForecastMetadata.addForecasts(newForecast)

        orm.flush()

        lastForecastDate = alcolea.lastForecastDownloaded()

        expectedForecastDate = newForecastDate

        self.assertEqual(lastForecastDate, expectedForecastDate)

    def __test_downloadForecast_setup(self):

        forecastMeta = self.sampleForecastMeta(self.mainFacility(), time)

        status = 'OK'
        forecastDate = time

        forecastMetadata = self.pony.db.ForecastMetadata.create(
            plant=alcolea, forecastdate=forecastDate, errorcode=status)
        forecastMetadata.addForecasts(data[self.mainFacility()])

        orm.flush()

        expected = [
            (todtaware('2020-01-01 00:00:00'), 210),
            (todtaware('2020-01-01 01:00:00'), 320),
            (todtaware('2020-01-01 02:00:00'), 230),
            (todtaware('2020-01-01 03:00:00'), 340),
        ]

    # TODO old tests, are they still useful to refactor?

    def _test_downloadForecastToEmptyDB(self):
        configdb = self.createConfig()

        download_meter_data(configdb, test_env=True)

        forecastDB = {}
        with self.createPlantmonitorDB() as db:
            forecastDB = db.getForecast()

        now = datetime.datetime.now(datetime.timezone.utc)
        fromDate = now - datetime.timedelta(days=14)
        toDate = now
        forecast = []
        with self.createApi() as api:
            forecast = api.getForecast(self.mainFacility(), fromDate, toDate)

        self.assertListEqual(forecastDB[self.mainFacility()], forecast)

    def __test_downloadForecastToEmptyDB_manyfacilities(self):
        configdb = self.createConfig()

        data = {
            self.mainFacility(): [
                (todt("2040-01-02 00:00:00"), 10),
                (todt("2040-01-02 01:00:00"), 20),
            ],
        }

        fromDate = todt("2020-01-01 00:00:00")
        toDate = todt("2020-01-01 00:00:00")
        forecasts = {}
        with self.createApi() as api:
            for facility in data.keys():
                forecast = api.getForecast(facility, fromDate, toDate)
                forecasts[facility] = forecast

        downloadResponses = download_meter_data(configdb, test_env=True)

        self.assertTrue((self.mainFacility(),
                         "OK") in downloadResponses.items())

        forecastDBData = {}
        with self.createPlantmonitorDB() as db:
            forecastDBData = db.getForecast(self.mainFacility())

        logger.info(forecastDBData)
        logger.info(forecasts)

        self.assertDictEqual(forecastDBData, forecasts[self.mainFacility()])

    def __test_downloadForecastToDB(self):
        configdb = self.createConfig()

        data = {
            self.mainFacility(): [
                (todt("2040-01-02 00:00:00"), 10),
                (todt("2040-01-02 01:00:00"), 20),
            ],
        }

        fromDate = todt("2020-01-01 00:00:00")
        toDate = todt("2020-01-01 00:00:00")

        with self.createApi() as api:
            for facility in data.keys():
                response = api.getForecast(facility, fromDate, toDate)

        with self.createPlantmonitorDB() as db:
            db.addFacilityMeterRelation(self.mainFacility(), '123401234')
            tworeadings = {
                self.mainFacility(): [
                    (todt("2040-01-02 00:00:00"), 10),
                    (todt("2040-01-02 01:00:00"), 20),
                ],
            }
            db.addMeterData(tworeadings)

        responses = download_meter_data(configdb, test_env=True)
        self.assertDictEqual({self.mainFacility(): "OK"}, responses)

        # TODO check uploaded content from api if they ever add GetObservations
        with self.createApi() as api:
            self.assertEqual(api.lastDateUploaded(self.mainFacility()),
                             todt("2040-01-02 01:00:00"))

    def __test_downloadForecastToDB_ManyFacilities(self):
        config = self.createConfig()

        with self.createPlantmonitorDB() as db:
            db.addFacilityMeterRelation(self.otherFacility(), '432104321')
            db.addFacilityMeterRelation(self.mainFacility(), '123401234')
            data = {
                self.mainFacility(): [
                    (todt("2040-01-02 00:00:00"), 10),
                    (todt("2040-01-02 01:00:00"), 20),
                ],
                self.otherFacility(): [
                    (todt("2040-01-02 00:00:00"), 210),
                    (todt("2040-01-02 01:00:00"), 340),
                ],
            }
            db.addMeterData(data)

        responses = download_meter_data(config, test_env=True)

        self.assertDictEqual(
            {
                self.mainFacility(): "OK",
                self.otherFacility(): "OK"
            }, responses)

    def __test_downloadForecastToDB_mismatchFacilities(self):
        config = self.createConfig()

        with self.createPlantmonitorDB() as db:
            db.addFacilityMeterRelation(self.unexistantFacility(), '432104321')
            data = {
                self.unexistantFacility(): [
                    (todt("2040-01-02 00:00:00"), 10),
                    (todt("2040-01-02 01:00:00"), 20),
                ],
            }
            db.addMeterData(data)

        responses = download_meter_data(configdb=config, test_env=True)

        self.assertDictEqual(
            {
                self.unexistantFacility():
                "INVALID_FACILITY_ID: {}".format(self.unexistantFacility())
            }, responses)
        with self.createApi() as api:
            self.assertEqual(api.lastDateUploaded(self.unexistantFacility()),
                             None)

    def __test_downloadForecastToDB_mixedFacilities(self):
        config = self.createConfig()

        with self.createPlantmonitorDB() as db:
            db.addFacilityMeterRelation(self.mainFacility(), '123401234')
            db.addFacilityMeterRelation(self.unexistantFacility(), '432104321')
            data = {
                self.mainFacility(): [
                    (todt("2040-01-02 00:00:00"), 50),
                    (todt("2040-01-02 01:00:00"), 70),
                ],
                self.unexistantFacility(): [
                    (todt("2040-01-02 00:00:00"), 10),
                    (todt("2040-01-02 01:00:00"), 20),
                ],
            }
            db.addMeterData(data)

        responses = download_meter_data(configdb=config, test_env=True)

        self.assertDictEqual(
            {
                self.mainFacility():
                "OK",
                self.unexistantFacility():
                "INVALID_FACILITY_ID: {}".format(self.unexistantFacility())
            }, responses)
        with self.createApi() as api:
            self.assertEqual(api.lastDateUploaded(self.mainFacility()),
                             todt("2040-01-02 01:00:00"))
            self.assertEqual(api.lastDateUploaded(self.unexistantFacility()),
                             None)