# SPDX-License-Identifier: Apache-2.0 # Copyright 2020 Contributors to OpenLEADR # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from dataclasses import dataclass, field, asdict, is_dataclass from typing import List, Dict from datetime import datetime, timezone, timedelta from openleadr import utils from openleadr import enums @dataclass class AggregatedPNode: node: str @dataclass class EndDeviceAsset: mrid: str @dataclass class MeterAsset: mrid: str @dataclass class PNode: node: str @dataclass class FeatureCollection: id: str location: dict @dataclass class ServiceArea: feature_collection: FeatureCollection @dataclass class ServiceDeliveryPoint: node: str @dataclass class ServiceLocation: node: str @dataclass class TransportInterface: point_of_receipt: str point_of_delivery: str @dataclass class Target: aggregated_p_node: AggregatedPNode = None end_device_asset: EndDeviceAsset = None meter_asset: MeterAsset = None p_node: PNode = None service_area: ServiceArea = None service_delivery_point: ServiceDeliveryPoint = None service_location: ServiceLocation = None transport_interface: TransportInterface = None group_id: str = None group_name: str = None resource_id: str = None ven_id: str = None party_id: str = None def __repr__(self): targets = {key: value for key, value in asdict(self).items() if value is not None} targets_str = ", ".join(f"{key}={value}" for key, value in targets.items()) return f"Target('{targets_str}')" @dataclass class EventDescriptor: event_id: str modification_number: int market_context: str event_status: str created_date_time: datetime = None modification_date_time: datetime = None priority: int = 0 test_event: bool = False vtn_comment: str = None def __post_init__(self): if self.modification_date_time is None: self.modification_date_time = datetime.now(timezone.utc) if self.created_date_time is None: self.created_date_time = datetime.now(timezone.utc) if self.modification_number is None: self.modification_number = 0 @dataclass class ActivePeriod: dtstart: datetime duration: timedelta tolerance: dict = None notification: dict = None ramp_up: dict = None recovery: dict = None @dataclass class Interval: dtstart: datetime duration: timedelta signal_payload: float uid: int = None @dataclass class SamplingRate: min_period: timedelta = None max_period: timedelta = None on_change: bool = False @dataclass class PowerAttributes: hertz: int = 50 voltage: int = 230 ac: bool = True @dataclass class Measurement: name: str description: str unit: str acceptable_units: List[str] = field(repr=False, default_factory=list) scale: str = None power_attributes: PowerAttributes = None pulse_factor: int = None ns: str = 'power' def __post_init__(self): if self.name not in enums._MEASUREMENT_NAMESPACES: self.name = 'customUnit' self.ns = enums._MEASUREMENT_NAMESPACES[self.name] @dataclass class EventSignal: intervals: List[Interval] signal_name: str signal_type: str signal_id: str current_value: float = None targets: List[Target] = None targets_by_type: Dict = None measurement: Measurement = None def __post_init__(self): if self.targets is None and self.targets_by_type is None: return elif self.targets_by_type is None: list_of_targets = [asdict(target) if is_dataclass(target) else target for target in self.targets] self.targets_by_type = utils.group_targets_by_type(list_of_targets) elif self.targets is None: self.targets = [Target(**target) for target in utils.ungroup_targets_by_type(self.targets_by_type)] elif self.targets is not None and self.targets_by_type is not None: list_of_targets = [asdict(target) if is_dataclass(target) else target for target in self.targets] if utils.group_targets_by_type(list_of_targets) != self.targets_by_type: raise ValueError("You assigned both 'targets' and 'targets_by_type' in your event, " "but the two were not consistent with each other. " f"You supplied 'targets' = {self.targets} and " f"'targets_by_type' = {self.targets_by_type}") @dataclass class Event: event_descriptor: EventDescriptor event_signals: List[EventSignal] targets: List[Target] = None targets_by_type: Dict = None active_period: ActivePeriod = None def __post_init__(self): if self.active_period is None: dtstart = min([i['dtstart'] if isinstance(i, dict) else i.dtstart for s in self.event_signals for i in s.intervals]) duration = max([i['dtstart'] + i['duration'] if isinstance(i, dict) else i.dtstart + i.duration for s in self.event_signals for i in s.intervals]) - dtstart self.active_period = ActivePeriod(dtstart=dtstart, duration=duration) if self.targets is None and self.targets_by_type is None: raise ValueError("You must supply either 'targets' or 'targets_by_type'.") elif self.targets_by_type is None: list_of_targets = [asdict(target) if is_dataclass(target) else target for target in self.targets] self.targets_by_type = utils.group_targets_by_type(list_of_targets) elif self.targets is None: self.targets = [Target(**target) for target in utils.ungroup_targets_by_type(self.targets_by_type)] elif self.targets is not None and self.targets_by_type is not None: list_of_targets = [asdict(target) if is_dataclass(target) else target for target in self.targets] if utils.group_targets_by_type(list_of_targets) != self.targets_by_type: raise ValueError("You assigned both 'targets' and 'targets_by_type' in your event, " "but the two were not consistent with each other. " f"You supplied 'targets' = {self.targets} and " f"'targets_by_type' = {self.targets_by_type}") # Set the event status self.event_descriptor.event_status = utils.determine_event_status(self.active_period) @dataclass class Response: response_code: int response_description: str request_id: str @dataclass class ReportDescription: r_id: str # Identifies a specific datapoint in a report market_context: str reading_type: str report_subject: Target report_data_source: Target report_type: str sampling_rate: SamplingRate measurement: Measurement = None @dataclass class ReportPayload: r_id: str value: float confidence: int = None accuracy: int = None @dataclass class ReportInterval: dtstart: datetime report_payload: ReportPayload duration: timedelta = None @dataclass class Report: report_specifier_id: str # This is what the VEN calls this report report_name: str # Usually one of the default ones (enums.REPORT_NAME) report_request_id: str = None # Usually empty report_descriptions: List[ReportDescription] = None created_date_time: datetime = None dtstart: datetime = None # For delivering values duration: timedelta = None # For delivering values intervals: List[ReportInterval] = None # For delivering values data_collection_mode: str = 'incremental' def __post_init__(self): if self.created_date_time is None: self.created_date_time = datetime.now(timezone.utc) if self.report_descriptions is None: self.report_descriptions = [] @dataclass class SpecifierPayload: r_id: str reading_type: str measurement: Measurement = None @dataclass class ReportSpecifier: report_specifier_id: str # This is what the VEN called this report granularity: timedelta specifier_payloads: List[SpecifierPayload] report_interval: Interval = None report_back_duration: timedelta = None @dataclass class ReportRequest: report_request_id: str report_specifier: ReportSpecifier