from dataclasses import dataclass from dcs import helicopters from dcs.action import ActivateGroup, AITaskPush, MessageToAll from dcs.condition import TimeAfter, CoalitionHasAirdrome, PartOfCoalitionInZone from dcs.flyingunit import FlyingUnit from dcs.helicopters import helicopter_map, UH_1H from dcs.terrain.terrain import Airport, NoParkingSlotError from dcs.triggers import TriggerOnce, Event from game.data.cap_capabilities_db import GUNFIGHTERS from game.settings import Settings from game.utils import nm_to_meter from gen.airfields import RunwayData from gen.airsupportgen import AirSupport from gen.callsigns import create_group_callsign_from_unit from gen.flights.ai_flight_planner import FlightPlanner from gen.flights.flight import ( Flight, FlightType, FlightWaypoint, FlightWaypointType, ) from gen.radios import get_radio, MHz, Radio, RadioFrequency, RadioRegistry from .conflictgen import * from .naming import * WARM_START_HELI_AIRSPEED = 120 WARM_START_HELI_ALT = 500 WARM_START_ALTITUDE = 3000 WARM_START_AIRSPEED = 550 CAP_DURATION = 30 # minutes RTB_ALTITUDE = 800 RTB_DISTANCE = 5000 HELI_ALT = 500 # Note that fallback radio channels will *not* be reserved. It's possible that # flights using these will overlap with other channels. This is because we would # need to make sure we fell back to a frequency that is not used by any beacon # or ATC, which we don't have the information to predict. Deal with the minor # annoyance for now since we'll be fleshing out radio info soon enough. ALLIES_WW2_CHANNEL = MHz(124) GERMAN_WW2_CHANNEL = MHz(40) HELICOPTER_CHANNEL = MHz(127) UHF_FALLBACK_CHANNEL = MHz(251) # TODO: Get radio information for all the special cases. def get_fallback_channel(unit_type: UnitType) -> RadioFrequency: if unit_type in helicopter_map.values() and unit_type != UH_1H: return HELICOPTER_CHANNEL german_ww2_aircraft = [ Bf_109K_4, FW_190A8, FW_190D9, Ju_88A4, ] if unit_type in german_ww2_aircraft: return GERMAN_WW2_CHANNEL allied_ww2_aircraft = [ I_16, P_47D_30, P_51D, P_51D_30_NA, SpitfireLFMkIX, SpitfireLFMkIXCW, ] if unit_type in allied_ww2_aircraft: return ALLIES_WW2_CHANNEL return UHF_FALLBACK_CHANNEL @dataclass(frozen=True) class ChannelAssignment: radio_id: int channel: int @property def radio_name(self) -> str: """Returns the name of the radio, i.e. COM1.""" return f"COM{self.radio_id}" @dataclass class FlightData: """Details of a planned flight.""" flight_type: FlightType #: All units in the flight. units: List[FlyingUnit] #: Total number of aircraft in the flight. size: int #: True if this flight belongs to the player's coalition. friendly: bool #: Number of minutes after mission start the flight is set to depart. departure_delay: int #: Arrival airport. arrival: RunwayData #: Departure airport. departure: RunwayData #: Diver airport. divert: Optional[RunwayData] #: Waypoints of the flight plan. waypoints: List[FlightWaypoint] #: Radio frequency for intra-flight communications. intra_flight_channel: RadioFrequency #: Map of radio frequencies to their assigned radio and channel, if any. frequency_to_channel_map: Dict[RadioFrequency, ChannelAssignment] def __init__(self, flight_type: FlightType, units: List[FlyingUnit], size: int, friendly: bool, departure_delay: int, departure: RunwayData, arrival: RunwayData, divert: Optional[RunwayData], waypoints: List[FlightWaypoint], intra_flight_channel: RadioFrequency) -> None: self.flight_type = flight_type self.units = units self.size = size self.friendly = friendly self.departure_delay = departure_delay self.departure = departure self.arrival = arrival self.divert = divert self.waypoints = waypoints self.intra_flight_channel = intra_flight_channel self.frequency_to_channel_map = {} self.callsign = create_group_callsign_from_unit(self.units[0]) @property def client_units(self) -> List[FlyingUnit]: """List of playable units in the flight.""" return [u for u in self.units if u.is_human()] @property def aircraft_type(self) -> FlyingType: """Returns the type of aircraft in this flight.""" return self.units[0].unit_type def num_radio_channels(self, radio_id: int) -> int: """Returns the number of preset channels for the given radio.""" # Note: pydcs only initializes the radio presets for client slots. return self.client_units[0].num_radio_channels(radio_id) def channel_for( self, frequency: RadioFrequency) -> Optional[ChannelAssignment]: """Returns the radio and channel number for the given frequency.""" return self.frequency_to_channel_map.get(frequency, None) def assign_channel(self, radio_id: int, channel_id: int, frequency: RadioFrequency) -> None: """Assigns a preset radio channel to the given frequency.""" for unit in self.client_units: unit.set_radio_channel_preset(radio_id, channel_id, frequency.mhz) # One frequency could be bound to multiple channels. Prefer the first, # since with the current implementation it will be the lowest numbered # channel. if frequency not in self.frequency_to_channel_map: self.frequency_to_channel_map[frequency] = ChannelAssignment( radio_id, channel_id ) class RadioChannelAllocator: """Base class for radio channel allocators.""" def assign_channels_for_flight(self, flight: FlightData, air_support: AirSupport) -> None: """Assigns mission frequencies to preset channels for the flight.""" raise NotImplementedError @dataclass(frozen=True) class CommonRadioChannelAllocator(RadioChannelAllocator): """Radio channel allocator suitable for most aircraft. Most of the aircraft with preset channels available have one or more radios with 20 or more channels available (typically per-radio, but this is not the case for the JF-17). """ #: Index of the radio used for intra-flight communications. Matches the #: index of the panel_radio field of the pydcs.dcs.planes object. inter_flight_radio_index: Optional[int] #: Index of the radio used for intra-flight communications. Matches the #: index of the panel_radio field of the pydcs.dcs.planes object. intra_flight_radio_index: Optional[int] def assign_channels_for_flight(self, flight: FlightData, air_support: AirSupport) -> None: flight.assign_channel( self.intra_flight_radio_index, 1, flight.intra_flight_channel) # For cases where the inter-flight and intra-flight radios share presets # (the JF-17 only has one set of channels, even though it can use two # channels simultaneously), start assigning inter-flight channels at 2. radio_id = self.inter_flight_radio_index if self.intra_flight_radio_index == radio_id: first_channel = 2 else: first_channel = 1 last_channel = flight.num_radio_channels(radio_id) channel_alloc = iter(range(first_channel, last_channel + 1)) flight.assign_channel(radio_id, next(channel_alloc), flight.departure.atc) # TODO: If there ever are multiple AWACS, limit to mission relevant. for awacs in air_support.awacs: flight.assign_channel(radio_id, next(channel_alloc), awacs.freq) if flight.arrival != flight.departure: flight.assign_channel(radio_id, next(channel_alloc), flight.arrival.atc) try: # TODO: Skip incompatible tankers. for tanker in air_support.tankers: flight.assign_channel( radio_id, next(channel_alloc), tanker.freq) if flight.divert is not None: flight.assign_channel(radio_id, next(channel_alloc), flight.divert.atc) except StopIteration: # Any remaining channels are nice-to-haves, but not necessary for # the few aircraft with a small number of channels available. pass @dataclass(frozen=True) class WarthogRadioChannelAllocator(RadioChannelAllocator): """Preset channel allocator for the A-10C.""" def assign_channels_for_flight(self, flight: FlightData, air_support: AirSupport) -> None: # The A-10's radio works differently than most aircraft. Doesn't seem to # be a way to set these from the mission editor, let alone pydcs. pass @dataclass(frozen=True) class ViggenRadioChannelAllocator(RadioChannelAllocator): """Preset channel allocator for the AJS37.""" def assign_channels_for_flight(self, flight: FlightData, air_support: AirSupport) -> None: # The Viggen's preset channels are handled differently from other # aircraft. The aircraft automatically configures channels for every # allied flight in the game (including AWACS) and for every airfield. As # such, we don't need to allocate any of those. There are seven presets # we can modify, however: three channels for the main radio intended for # communication with wingmen, and four emergency channels for the backup # radio. We'll set the first channel of the main radio to the # intra-flight channel, and the first three emergency channels to each # of the flight plan's airfields. The fourth emergency channel is always # the guard channel. radio_id = 1 flight.assign_channel(radio_id, 1, flight.intra_flight_channel) flight.assign_channel(radio_id, 4, flight.departure.atc) flight.assign_channel(radio_id, 5, flight.arrival.atc) # TODO: Assign divert to 6 when we support divert airfields. @dataclass(frozen=True) class AircraftData: """Additional aircraft data not exposed by pydcs.""" #: The type of radio used for inter-flight communications. inter_flight_radio: Radio #: The type of radio used for intra-flight communications. intra_flight_radio: Radio #: The radio preset channel allocator, if the aircraft supports channel #: presets. If the aircraft does not support preset channels, this will be #: None. channel_allocator: Optional[RadioChannelAllocator] # Indexed by the id field of the pydcs PlaneType. AIRCRAFT_DATA: Dict[str, AircraftData] = { "A-10C": AircraftData( inter_flight_radio=get_radio("AN/ARC-164"), intra_flight_radio=get_radio("AN/ARC-186(V) AM"), channel_allocator=WarthogRadioChannelAllocator() ), "AJS37": AircraftData( # The AJS37 has somewhat unique radio configuration. Two backup radio # (FR 24) can only operate simultaneously with the main radio in guard # mode. As such, we only use the main radio for both inter- and intra- # flight communication. inter_flight_radio=get_radio("FR 22"), intra_flight_radio=get_radio("FR 22"), channel_allocator=ViggenRadioChannelAllocator() ), "AV8BNA": AircraftData( inter_flight_radio=get_radio("AN/ARC-210"), intra_flight_radio=get_radio("AN/ARC-210"), channel_allocator=CommonRadioChannelAllocator( inter_flight_radio_index=2, intra_flight_radio_index=1 ) ), "F-14B": AircraftData( inter_flight_radio=get_radio("AN/ARC-159"), intra_flight_radio=get_radio("AN/ARC-182"), channel_allocator=CommonRadioChannelAllocator( inter_flight_radio_index=1, intra_flight_radio_index=2 ) ), "F-16C_50": AircraftData( inter_flight_radio=get_radio("AN/ARC-164"), intra_flight_radio=get_radio("AN/ARC-222"), # COM2 is the AN/ARC-222, which is the VHF radio we want to use for # intra-flight communication to leave COM1 open for UHF inter-flight. channel_allocator=CommonRadioChannelAllocator( inter_flight_radio_index=1, intra_flight_radio_index=2 ) ), "FA-18C_hornet": AircraftData( inter_flight_radio=get_radio("AN/ARC-210"), intra_flight_radio=get_radio("AN/ARC-210"), # DCS will clobber channel 1 of the first radio compatible with the # flight's assigned frequency. Since the F/A-18's two radios are both # AN/ARC-210s, radio 1 will be compatible regardless of which frequency # is assigned, so we must use radio 1 for the intra-flight radio. channel_allocator=CommonRadioChannelAllocator( inter_flight_radio_index=2, intra_flight_radio_index=1 ) ), "JF-17": AircraftData( inter_flight_radio=get_radio("R&S M3AR UHF"), intra_flight_radio=get_radio("R&S M3AR VHF"), channel_allocator=CommonRadioChannelAllocator( inter_flight_radio_index=1, intra_flight_radio_index=1 ) ), "M-2000C": AircraftData( inter_flight_radio=get_radio("TRT ERA 7000 V/UHF"), intra_flight_radio=get_radio("TRT ERA 7200 UHF"), channel_allocator=CommonRadioChannelAllocator( inter_flight_radio_index=1, intra_flight_radio_index=2 ) ), } class AircraftConflictGenerator: escort_targets = [] # type: typing.List[typing.Tuple[FlyingGroup, int]] def __init__(self, mission: Mission, conflict: Conflict, settings: Settings, game, radio_registry: RadioRegistry): self.m = mission self.game = game self.settings = settings self.conflict = conflict self.radio_registry = radio_registry self.escort_targets = [] self.flights: List[FlightData] = [] def get_intra_flight_channel(self, airframe: UnitType) -> RadioFrequency: """Allocates an intra-flight channel to a group. Args: airframe: The type of aircraft a channel should be allocated for. Returns: The frequency of the intra-flight channel. """ try: aircraft_data = AIRCRAFT_DATA[airframe.id] return self.radio_registry.alloc_for_radio( aircraft_data.intra_flight_radio) except KeyError: return get_fallback_channel(airframe) def _start_type(self) -> StartType: return self.settings.cold_start and StartType.Cold or StartType.Warm def _setup_group(self, group: FlyingGroup, for_task: typing.Type[Task], flight: Flight, dynamic_runways: Dict[str, RunwayData]): did_load_loadout = False unit_type = group.units[0].unit_type if unit_type in db.PLANE_PAYLOAD_OVERRIDES: override_loadout = db.PLANE_PAYLOAD_OVERRIDES[unit_type] if type(override_loadout) == dict: # Clear pylons for p in group.units: p.pylons.clear() # Now load loadout if for_task in db.PLANE_PAYLOAD_OVERRIDES[unit_type]: payload_name = db.PLANE_PAYLOAD_OVERRIDES[unit_type][for_task] group.load_loadout(payload_name) did_load_loadout = True logging.info("Loaded overridden payload for {} - {} for task {}".format(unit_type, payload_name, for_task)) elif "*" in db.PLANE_PAYLOAD_OVERRIDES[unit_type]: payload_name = db.PLANE_PAYLOAD_OVERRIDES[unit_type]["*"] group.load_loadout(payload_name) did_load_loadout = True logging.info("Loaded overridden payload for {} - {} for task {}".format(unit_type, payload_name, for_task)) elif issubclass(override_loadout, MainTask): group.load_task_default_loadout(override_loadout) did_load_loadout = True if not did_load_loadout: group.load_task_default_loadout(for_task) if unit_type in db.PLANE_LIVERY_OVERRIDES: for unit_instance in group.units: unit_instance.livery_id = db.PLANE_LIVERY_OVERRIDES[unit_type] single_client = flight.client_count == 1 for idx in range(0, min(len(group.units), flight.client_count)): unit = group.units[idx] if single_client: unit.set_player() else: unit.set_client() # Do not generate player group with late activation. if group.late_activation: group.late_activation = False # Set up F-14 Client to have pre-stored alignement if unit_type is F_14B: unit.set_property(F_14B.Properties.INSAlignmentStored.id, True) group.points[0].tasks.append(OptReactOnThreat(OptReactOnThreat.Values.EvadeFire)) channel = self.get_intra_flight_channel(unit_type) group.set_frequency(channel.mhz) # TODO: Support for different departure/arrival airfields. cp = flight.from_cp fallback_runway = RunwayData(cp.full_name, runway_name="") if cp.cptype == ControlPointType.AIRBASE: departure_runway = self.get_preferred_runway(flight.from_cp.airport) elif cp.is_fleet: departure_runway = dynamic_runways.get(cp.name, fallback_runway) else: logging.warning(f"Unhandled departure control point: {cp.cptype}") departure_runway = fallback_runway # The first waypoint is set automatically by pydcs, so it's not in our # list. Convert the pydcs MovingPoint to a FlightWaypoint so it shows up # in our FlightData. first_point = FlightWaypoint.from_pydcs(group.points[0], flight.from_cp) self.flights.append(FlightData( flight_type=flight.flight_type, units=group.units, size=len(group.units), friendly=flight.from_cp.captured, departure_delay=flight.scheduled_in, departure=departure_runway, arrival=departure_runway, # TODO: Support for divert airfields. divert=None, waypoints=[first_point] + flight.points, intra_flight_channel=channel )) # Special case so Su 33 carrier take off if unit_type is Su_33: if task is not CAP: for unit in group.units: unit.fuel = Su_33.fuel_max / 2.2 else: for unit in group.units: unit.fuel = Su_33.fuel_max * 0.8 def get_preferred_runway(self, airport: Airport) -> RunwayData: """Returns the preferred runway for the given airport. Right now we're only selecting runways based on whether or not they have ILS, but we could also choose based on wind conditions, or which direction flight plans should follow. """ runways = list(RunwayData.for_pydcs_airport(airport)) for runway in runways: # Prefer any runway with ILS. if runway.ils is not None: return runway # Otherwise we lack the mission information to pick more usefully, # so just use the first runway. return runways[0] def _generate_at_airport(self, name: str, side: Country, unit_type: FlyingType, count: int, client_count: int, airport: Airport = None, start_type = None) -> FlyingGroup: assert count > 0 assert unit is not None if start_type is None: start_type = self._start_type() logging.info("airgen: {} for {} at {}".format(unit_type, side.id, airport)) return self.m.flight_group_from_airport( country=side, name=name, aircraft_type=unit_type, airport=airport, maintask=None, start_type=start_type, group_size=count, parking_slots=None) def _generate_inflight(self, name: str, side: Country, unit_type: FlyingType, count: int, client_count: int, at: Point) -> FlyingGroup: assert count > 0 assert unit is not None if unit_type in helicopters.helicopter_map.values(): alt = WARM_START_HELI_ALT speed = WARM_START_HELI_AIRSPEED else: alt = WARM_START_ALTITUDE speed = WARM_START_AIRSPEED pos = Point(at.x + random.randint(100, 1000), at.y + random.randint(100, 1000)) logging.info("airgen: {} for {} at {} at {}".format(unit_type, side.id, alt, speed)) group = self.m.flight_group( country=side, name=name, aircraft_type=unit_type, airport=None, position=pos, altitude=alt, speed=speed, maintask=None, start_type=self._start_type(), group_size=count) group.points[0].alt_type = "RADIO" return group def _generate_at_group(self, name: str, side: Country, unit_type: FlyingType, count: int, client_count: int, at: typing.Union[ShipGroup, StaticGroup], start_type=None) -> FlyingGroup: assert count > 0 assert unit is not None if start_type is None: start_type = self._start_type() logging.info("airgen: {} for {} at unit {}".format(unit_type, side.id, at)) return self.m.flight_group_from_unit( country=side, name=name, aircraft_type=unit_type, pad_group=at, maintask=None, start_type=start_type, group_size=count) def _generate_group(self, name: str, side: Country, unit_type: FlyingType, count: int, client_count: int, at: db.StartingPosition): if isinstance(at, Point): return self._generate_inflight(name, side, unit_type, count, client_count, at) elif isinstance(at, Group): takeoff_ban = unit_type in db.CARRIER_TAKEOFF_BAN ai_ban = client_count == 0 and self.settings.only_player_takeoff if not takeoff_ban and not ai_ban: return self._generate_at_group(name, side, unit_type, count, client_count, at) else: return self._generate_inflight(name, side, unit_type, count, client_count, at.position) elif issubclass(at, Airport): takeoff_ban = unit_type in db.TAKEOFF_BAN ai_ban = client_count == 0 and self.settings.only_player_takeoff if not takeoff_ban and not ai_ban: try: return self._generate_at_airport(name, side, unit_type, count, client_count, at) except NoParkingSlotError: logging.info("No parking slot found at " + at.name + ", switching to air start.") pass return self._generate_inflight(name, side, unit_type, count, client_count, at.position) else: assert False def _add_radio_waypoint(self, group: FlyingGroup, position, altitude: int, airspeed: int = 600): point = group.add_waypoint(position, altitude, airspeed) point.alt_type = "RADIO" return point def _rtb_for(self, group: FlyingGroup, cp: ControlPoint, at: db.StartingPosition = None): if not at: at = cp.at position = at if isinstance(at, Point) else at.position last_waypoint = group.points[-1] if last_waypoint is not None: heading = position.heading_between_point(last_waypoint.position) tod_location = position.point_from_heading(heading, RTB_DISTANCE) self._add_radio_waypoint(group, tod_location, last_waypoint.alt) destination_waypoint = self._add_radio_waypoint(group, position, RTB_ALTITUDE) if isinstance(at, Airport): group.land_at(at) return destination_waypoint def _at_position(self, at) -> Point: if isinstance(at, Point): return at elif isinstance(at, ShipGroup): return at.position elif issubclass(at, Airport): return at.position else: assert False def _setup_custom_payload(self, flight, group:FlyingGroup): if flight.use_custom_loadout: logging.info("Custom loadout for flight : " + flight.__repr__()) for p in group.units: p.pylons.clear() for key in flight.loadout.keys(): if "Pylon" + key in flight.unit_type.__dict__.keys(): print(flight.loadout) weapon_dict = flight.unit_type.__dict__["Pylon" + key].__dict__ if flight.loadout[key] in weapon_dict.keys(): weapon = weapon_dict[flight.loadout[key]] group.load_pylon(weapon, int(key)) else: logging.warning("Pylon not found ! => Pylon" + key + " on " + str(flight.unit_type)) def generate_flights(self, cp, country, flight_planner: FlightPlanner, dynamic_runways: Dict[str, RunwayData]): # Clear pydcs parking slots if cp.airport is not None: logging.info("CLEARING SLOTS @ " + cp.airport.name) logging.info("===============") if cp.airport is not None: for ps in cp.airport.parking_slots: logging.info("SLOT : " + str(ps.unit_id)) ps.unit_id = None logging.info("----------------") logging.info("===============") for flight in flight_planner.flights: if flight.client_count == 0 and self.game.position_culled(flight.from_cp.position): logging.info("Flight not generated : culled") continue logging.info("Generating flight : " + str(flight.unit_type)) group = self.generate_planned_flight(cp, country, flight) self.setup_flight_group(group, flight, flight.flight_type, dynamic_runways) self.setup_group_activation_trigger(flight, group) def setup_group_activation_trigger(self, flight, group): if flight.scheduled_in > 0 and flight.client_count == 0: if flight.start_type != "In Flight" and flight.from_cp.cptype not in [ControlPointType.AIRCRAFT_CARRIER_GROUP, ControlPointType.LHA_GROUP]: group.late_activation = False group.uncontrolled = True activation_trigger = TriggerOnce(Event.NoEvent, "FlightStartTrigger" + str(group.id)) activation_trigger.add_condition(TimeAfter(seconds=flight.scheduled_in * 60)) if (flight.from_cp.cptype == ControlPointType.AIRBASE): if flight.from_cp.captured: activation_trigger.add_condition( CoalitionHasAirdrome(self.game.get_player_coalition_id(), flight.from_cp.id)) else: activation_trigger.add_condition( CoalitionHasAirdrome(self.game.get_enemy_coalition_id(), flight.from_cp.id)) if flight.flight_type == FlightType.INTERCEPTION: self.setup_interceptor_triggers(group, flight, activation_trigger) group.add_trigger_action(StartCommand()) activation_trigger.add_action(AITaskPush(group.id, len(group.tasks))) self.m.triggerrules.triggers.append(activation_trigger) else: group.late_activation = True activation_trigger = TriggerOnce(Event.NoEvent, "FlightLateActivationTrigger" + str(group.id)) activation_trigger.add_condition(TimeAfter(seconds=flight.scheduled_in*60)) if(flight.from_cp.cptype == ControlPointType.AIRBASE): if flight.from_cp.captured: activation_trigger.add_condition(CoalitionHasAirdrome(self.game.get_player_coalition_id(), flight.from_cp.id)) else: activation_trigger.add_condition(CoalitionHasAirdrome(self.game.get_enemy_coalition_id(), flight.from_cp.id)) if flight.flight_type == FlightType.INTERCEPTION: self.setup_interceptor_triggers(group, flight, activation_trigger) activation_trigger.add_action(ActivateGroup(group.id)) self.m.triggerrules.triggers.append(activation_trigger) def setup_interceptor_triggers(self, group, flight, activation_trigger): detection_zone = self.m.triggers.add_triggerzone(flight.from_cp.position, radius=25000, hidden=False, name="ITZ") if flight.from_cp.captured: activation_trigger.add_condition(PartOfCoalitionInZone(self.game.get_enemy_color(), detection_zone.id)) # TODO : support unit type in part of coalition activation_trigger.add_action(MessageToAll(String("WARNING : Enemy aircraft have been detected in the vicinity of " + flight.from_cp.name + ". Interceptors are taking off."), 20)) else: activation_trigger.add_condition(PartOfCoalitionInZone(self.game.get_player_color(), detection_zone.id)) activation_trigger.add_action(MessageToAll(String("WARNING : We have detected that enemy aircraft are scrambling for an interception on " + flight.from_cp.name + " airbase."), 20)) def generate_planned_flight(self, cp, country, flight:Flight): try: if flight.client_count == 0 and self.game.settings.perf_ai_parking_start: flight.start_type = "Cold" if flight.start_type == "In Flight": group = self._generate_group( name=namegen.next_unit_name(country, cp.id, flight.unit_type), side=country, unit_type=flight.unit_type, count=flight.count, client_count=0, at=cp.position) else: st = StartType.Runway if flight.start_type == "Cold": st = StartType.Cold elif flight.start_type == "Warm": st = StartType.Warm if cp.cptype in [ControlPointType.AIRCRAFT_CARRIER_GROUP, ControlPointType.LHA_GROUP]: group_name = cp.get_carrier_group_name() group = self._generate_at_group( name=namegen.next_unit_name(country, cp.id, flight.unit_type), side=country, unit_type=flight.unit_type, count=flight.count, client_count=0, at=self.m.find_group(group_name), start_type=st) else: group = self._generate_at_airport( name=namegen.next_unit_name(country, cp.id, flight.unit_type), side=country, unit_type=flight.unit_type, count=flight.count, client_count=0, airport=cp.airport, start_type=st) except Exception as e: # Generated when there is no place on Runway or on Parking Slots logging.error(e) logging.warning("No room on runway or parking slots. Starting from the air.") flight.start_type = "In Flight" group = self._generate_group( name=namegen.next_unit_name(country, cp.id, flight.unit_type), side=country, unit_type=flight.unit_type, count=flight.count, client_count=0, at=cp.position) group.points[0].alt = 1500 flight.group = group return group def setup_flight_group(self, group, flight, flight_type, dynamic_runways: Dict[str, RunwayData]): if flight_type in [FlightType.CAP, FlightType.BARCAP, FlightType.TARCAP, FlightType.INTERCEPTION]: group.task = CAP.name self._setup_group(group, CAP, flight, dynamic_runways) # group.points[0].tasks.clear() group.points[0].tasks.clear() group.points[0].tasks.append(EngageTargets(max_distance=nm_to_meter(50), targets=[Targets.All.Air])) # group.tasks.append(EngageTargets(max_distance=nm_to_meter(120), targets=[Targets.All.Air])) if flight.unit_type not in GUNFIGHTERS: group.points[0].tasks.append(OptRTBOnOutOfAmmo(OptRTBOnOutOfAmmo.Values.AAM)) else: group.points[0].tasks.append(OptRTBOnOutOfAmmo(OptRTBOnOutOfAmmo.Values.Cannon)) elif flight_type in [FlightType.CAS, FlightType.BAI]: group.task = CAS.name self._setup_group(group, CAS, flight, dynamic_runways) group.points[0].tasks.clear() group.points[0].tasks.append(EngageTargets(max_distance=nm_to_meter(10), targets=[Targets.All.GroundUnits.GroundVehicles])) group.points[0].tasks.append(OptReactOnThreat(OptReactOnThreat.Values.EvadeFire)) group.points[0].tasks.append(OptROE(OptROE.Values.OpenFireWeaponFree)) group.points[0].tasks.append(OptRTBOnOutOfAmmo(OptRTBOnOutOfAmmo.Values.Unguided)) group.points[0].tasks.append(OptRestrictJettison(True)) elif flight_type in [FlightType.SEAD, FlightType.DEAD]: group.task = SEAD.name self._setup_group(group, SEAD, flight, dynamic_runways) group.points[0].tasks.clear() group.points[0].tasks.append(NoTask()) group.points[0].tasks.append(OptReactOnThreat(OptReactOnThreat.Values.EvadeFire)) group.points[0].tasks.append(OptROE(OptROE.Values.OpenFire)) group.points[0].tasks.append(OptRestrictJettison(True)) group.points[0].tasks.append(OptRTBOnOutOfAmmo(OptRTBOnOutOfAmmo.Values.ASM)) elif flight_type in [FlightType.STRIKE]: group.task = PinpointStrike.name self._setup_group(group, GroundAttack, flight, dynamic_runways) group.points[0].tasks.clear() group.points[0].tasks.append(OptReactOnThreat(OptReactOnThreat.Values.EvadeFire)) group.points[0].tasks.append(OptROE(OptROE.Values.OpenFire)) group.points[0].tasks.append(OptRestrictJettison(True)) elif flight_type in [FlightType.ANTISHIP]: group.task = AntishipStrike.name self._setup_group(group, AntishipStrike, flight, dynamic_runways) group.points[0].tasks.clear() group.points[0].tasks.append(OptReactOnThreat(OptReactOnThreat.Values.EvadeFire)) group.points[0].tasks.append(OptROE(OptROE.Values.OpenFire)) group.points[0].tasks.append(OptRestrictJettison(True)) group.points[0].tasks.append(OptRTBOnBingoFuel(True)) group.points[0].tasks.append(OptRestrictAfterburner(True)) if hasattr(flight.unit_type, 'eplrs'): if flight.unit_type.eplrs: group.points[0].tasks.append(EPLRS(group.id)) for i, point in enumerate(flight.points): if not point.only_for_player or (point.only_for_player and flight.client_count > 0): pt = group.add_waypoint(Point(point.x, point.y), point.alt) if point.waypoint_type == FlightWaypointType.PATROL_TRACK: action = ControlledTask(OrbitAction(altitude=pt.alt, pattern=OrbitAction.OrbitPattern.RaceTrack)) action.stop_after_duration(CAP_DURATION * 60) #for tgt in point.targets: # if hasattr(tgt, "position"): # engagetgt = EngageTargetsInZone(tgt.position, radius=CAP_DEFAULT_ENGAGE_DISTANCE, targets=[Targets.All.Air]) # pt.tasks.append(engagetgt) elif point.waypoint_type == FlightWaypointType.LANDING_POINT: pt.type = "Land" elif point.waypoint_type == FlightWaypointType.INGRESS_STRIKE: if group.units[0].unit_type == B_17G: if len(point.targets) > 0: bcenter = Point(0,0) for j, t in enumerate(point.targets): bcenter.x += t.position.x bcenter.y += t.position.y bcenter.x = bcenter.x / len(point.targets) bcenter.y = bcenter.y / len(point.targets) bombing = Bombing(bcenter) bombing.params["expend"] = "All" bombing.params["attackQtyLimit"] = False bombing.params["directionEnabled"] = False bombing.params["altitudeEnabled"] = False bombing.params["weaponType"] = 2032 bombing.params["groupAttack"] = True pt.tasks.append(bombing) else: for j, t in enumerate(point.targets): print(t.position) pt.tasks.append(Bombing(t.position)) if group.units[0].unit_type == JF_17 and j < 4: group.add_nav_target_point(t.position, "PP" + str(j + 1)) if group.units[0].unit_type == F_14B and j == 0: group.add_nav_target_point(t.position, "ST") if group.units[0].unit_type == AJS37 and j < 9: group.add_nav_target_point(t.position, "M" + str(j + 1)) elif point.waypoint_type == FlightWaypointType.INGRESS_SEAD: tgroup = self.m.find_group(point.targetGroup.group_identifier) if tgroup is not None: task = AttackGroup(tgroup.id) task.params["expend"] = "All" task.params["attackQtyLimit"] = False task.params["directionEnabled"] = False task.params["altitudeEnabled"] = False task.params["weaponType"] = 268402702 # Guided Weapons task.params["groupAttack"] = True pt.tasks.append(task) for j, t in enumerate(point.targets): if group.units[0].unit_type == JF_17 and j < 4: group.add_nav_target_point(t.position, "PP" + str(j + 1)) if group.units[0].unit_type == F_14B and j == 0: group.add_nav_target_point(t.position, "ST") if group.units[0].unit_type == AJS37 and j < 9: group.add_nav_target_point(t.position, "M" + str(j + 1)) if pt is not None: pt.alt_type = point.alt_type pt.name = String(point.name) self._setup_custom_payload(flight, group)