コード例 #1
0
class DataSource(db.Model, tb.BeliefSourceDBMixin):
    """Each data source is a data-providing entity."""

    __tablename__ = "data_source"

    # The type of data source (e.g. user, forecasting script or scheduling script)
    type = db.Column(db.String(80), default="")
    # The id of the source (can link e.g. to fm_user table)
    user_id = db.Column(
        db.Integer, db.ForeignKey("fm_user.id"), nullable=True, unique=True
    )

    user = db.relationship("User", backref=db.backref("data_source", lazy=True))

    def __init__(
        self,
        name: Optional[str] = None,
        type: Optional[str] = None,
        user: Optional[User] = None,
        **kwargs,
    ):
        if user is not None:
            name = user.username
            type = "user"
            self.user_id = user.id
        self.type = type
        tb.BeliefSourceDBMixin.__init__(self, name=name)
        db.Model.__init__(self, **kwargs)

    @property
    def label(self):
        """ Human-readable label (preferably not starting with a capital letter so it can be used in a sentence). """
        if self.type == "user":
            return f"data entered by user {self.user.username}"  # todo: give users a display name
        elif self.type == "forecasting script":
            return f"forecast by {self.name}"  # todo: give DataSource an optional db column to persist versioned models separately to the name of the data source?
        elif self.type == "scheduling script":
            return f"schedule by {self.name}"
        elif self.type == "crawling script":
            return f"data retrieved from {self.name}"
        elif self.type == "demo script":
            return f"demo data entered by {self.name}"
        else:
            return f"data from {self.name}"

    def __repr__(self):
        return "<Data source %r (%s)>" % (self.id, self.label)
コード例 #2
0
ファイル: markets.py プロジェクト: jorisdehaes/flexmeasures
class Price(TimedValue, db.Model):
    """
    All prices are stored in one slim table.
    TODO: datetime objects take up most of the space (12 bytes each)). One way out is to normalise them out to a table.
    """

    market_id = db.Column(
        db.Integer(), db.ForeignKey("market.id"), primary_key=True, index=True
    )
    market = db.relationship("Market", backref=db.backref("prices", lazy=True))

    @classmethod
    def make_query(cls, **kwargs) -> Query:
        """Construct the database query."""
        return super().make_query(asset_class=Market, **kwargs)

    def __init__(self, **kwargs):
        super(Price, self).__init__(**kwargs)
コード例 #3
0
ファイル: weather.py プロジェクト: jorisdehaes/flexmeasures
class Weather(TimedValue, db.Model):
    """
    All weather measurements are stored in one slim table.
    TODO: datetime objects take up most of the space (12 bytes each)). One way out is to normalise them out to a table.
    """

    sensor_id = db.Column(db.Integer(),
                          db.ForeignKey("weather_sensor.id"),
                          primary_key=True,
                          index=True)
    sensor = db.relationship("WeatherSensor",
                             backref=db.backref("weather", lazy=True))

    @classmethod
    def make_query(cls, **kwargs) -> Query:
        """Construct the database query."""
        return super().make_query(asset_class=WeatherSensor, **kwargs)

    def __init__(self, **kwargs):
        super(Weather, self).__init__(**kwargs)
コード例 #4
0
ファイル: markets.py プロジェクト: jorisdehaes/flexmeasures
class Market(db.Model, tb.SensorDBMixin):
    """Each market is a pricing service."""

    name = db.Column(db.String(80), unique=True)
    display_name = db.Column(db.String(80), default="", unique=True)
    market_type_name = db.Column(
        db.String(80), db.ForeignKey("market_type.name"), nullable=False
    )

    def __init__(self, **kwargs):
        # Set default knowledge horizon function for an economic sensor
        if "knowledge_horizon_fnc" not in kwargs:
            kwargs["knowledge_horizon_fnc"] = knowledge_horizons.ex_ante.__name__
        if "knowledge_horizon_par" not in kwargs:
            kwargs["knowledge_horizon_par"] = {
                knowledge_horizons.ex_ante.__code__.co_varnames[1]: "PT0H"
            }
        super(Market, self).__init__(**kwargs)
        self.name = self.name.replace(" ", "_").lower()
        if "display_name" not in kwargs:
            self.display_name = humanize(self.name)

    @property
    def price_unit(self) -> str:
        """Return the 'unit' property of the generic asset, just with a more insightful name."""
        return self.unit

    market_type = db.relationship(
        "MarketType", backref=db.backref("markets", lazy=True)
    )

    def __repr__(self):
        return "<Market %s:%r (%r) res.: %s>" % (
            self.id,
            self.name,
            self.market_type_name,
            self.event_resolution,
        )

    def to_dict(self) -> Dict[str, str]:
        return dict(name=self.name, market_type=self.market_type.name)
コード例 #5
0
ファイル: weather.py プロジェクト: jorisdehaes/flexmeasures
class WeatherSensor(db.Model, tb.SensorDBMixin):
    """A weather sensor has a location on Earth and measures weather values of a certain weather sensor type, such as
    temperature, wind speed and radiation."""

    name = db.Column(db.String(80), unique=True)
    display_name = db.Column(db.String(80), default="", unique=False)
    weather_sensor_type_name = db.Column(
        db.String(80),
        db.ForeignKey("weather_sensor_type.name"),
        nullable=False)
    # latitude is the North/South coordinate
    latitude = db.Column(db.Float, nullable=False)
    # longitude is the East/West coordinate
    longitude = db.Column(db.Float, nullable=False)

    # only one sensor of any type is needed at one location
    __table_args__ = (UniqueConstraint(
        "weather_sensor_type_name",
        "latitude",
        "longitude",
        name="weather_sensor_type_name_latitude_longitude_key",
    ), )

    def __init__(self, **kwargs):
        super(WeatherSensor, self).__init__(**kwargs)
        self.name = self.name.replace(" ", "_").lower()

    @property
    def weather_unit(self) -> float:
        """Return the 'unit' property of the generic asset, just with a more insightful name."""
        return self.unit

    @property
    def location(self) -> Tuple[float, float]:
        return self.latitude, self.longitude

    @hybrid_property
    def cos_rad_lat(self):
        return math.cos(math.radians(self.latitude))

    @hybrid_property
    def sin_rad_lat(self):
        return math.sin(math.radians(self.latitude))

    @hybrid_property
    def rad_lng(self):
        return math.radians(self.longitude)

    @hybrid_method
    def great_circle_distance(self, **kwargs):
        """Query great circle distance (in km).

        Can be called with an object that has latitude and longitude properties, for example:

            great_circle_distance(object=asset)

        Can also be called with latitude and longitude parameters, for example:

            great_circle_distance(latitude=32, longitude=54)
            great_circle_distance(lat=32, lng=54)

        """
        r = 6371  # Radius of Earth in kilometers
        other_latitude, other_longitude = parse_lat_lng(kwargs)
        if other_latitude is None or other_longitude is None:
            return None
        other_cos_rad_lat = math.cos(math.radians(other_latitude))
        other_sin_rad_lat = math.sin(math.radians(other_latitude))
        other_rad_lng = math.radians(other_longitude)
        return (math.acos(self.cos_rad_lat * other_cos_rad_lat *
                          math.cos(self.rad_lng - other_rad_lng) +
                          self.sin_rad_lat * other_sin_rad_lat) * r)

    @great_circle_distance.expression
    def great_circle_distance(self, **kwargs):
        """Query great circle distance (unclear if in km or in miles).

        Can be called with an object that has latitude and longitude properties, for example:

            great_circle_distance(object=asset)

        Can also be called with latitude and longitude parameters, for example:

            great_circle_distance(latitude=32, longitude=54)
            great_circle_distance(lat=32, lng=54)

        """
        other_latitude, other_longitude = parse_lat_lng(kwargs)
        if other_latitude is None or other_longitude is None:
            return None
        return func.earth_distance(
            func.ll_to_earth(self.latitude, self.longitude),
            func.ll_to_earth(other_latitude, other_longitude),
        )

    sensor_type = db.relationship("WeatherSensorType",
                                  backref=db.backref("sensors", lazy=True))

    def __repr__(self):
        return "<WeatherSensor %s:%r (%r), res.:%s>" % (
            self.id,
            self.name,
            self.weather_sensor_type_name,
            self.event_resolution,
        )

    def to_dict(self) -> Dict[str, str]:
        return dict(name=self.name, sensor_type=self.weather_sensor_type_name)