from __future__ import annotations import random from dataclasses import dataclass from typing import ( Iterable, Iterator, List, Optional, TYPE_CHECKING, Tuple, Union, ) from dcs.mapping import Point, Vector2 from game.theater import ( ControlPoint, MissionTarget, OffMapSpawn, TheaterGroundObject, TheaterUnit, ) from game.utils import Distance, meters, nautical_miles from .flightwaypoint import AltitudeReference, FlightWaypoint from .flightwaypointtype import FlightWaypointType if TYPE_CHECKING: from game.coalition import Coalition from game.transfers import MultiGroupTransport from game.theater.theatergroup import TheaterGroup from .flight import Flight @dataclass(frozen=True) class StrikeTarget: name: str target: Union[TheaterGroundObject, TheaterGroup, TheaterUnit, MultiGroupTransport] class WaypointBuilder: def __init__( self, flight: Flight, coalition: Coalition, targets: Optional[List[StrikeTarget]] = None, ) -> None: self.flight = flight self.doctrine = coalition.doctrine self.threat_zones = coalition.opponent.threat_zone self.navmesh = coalition.nav_mesh self.targets = targets self._bullseye = coalition.bullseye @property def is_helo(self) -> bool: return self.flight.unit_type.dcs_unit_type.helicopter def takeoff(self, departure: ControlPoint) -> FlightWaypoint: """Create takeoff waypoint for the given arrival airfield or carrier. Note that the takeoff waypoint will automatically be created by pydcs when we create the group, but creating our own before generation makes the planning code simpler. Args: departure: Departure airfield or carrier. """ position = departure.position if isinstance(departure, OffMapSpawn): return FlightWaypoint( "NAV", FlightWaypointType.NAV, position, meters(500) if self.is_helo else self.doctrine.rendezvous_altitude, description="Enter theater", pretty_name="Enter theater", ) return FlightWaypoint( "TAKEOFF", FlightWaypointType.TAKEOFF, position, meters(0), alt_type="RADIO", description="Takeoff", pretty_name="Takeoff", ) def land(self, arrival: ControlPoint) -> FlightWaypoint: """Create descent waypoint for the given arrival airfield or carrier. Args: arrival: Arrival airfield or carrier. """ position = arrival.position if isinstance(arrival, OffMapSpawn): return FlightWaypoint( "NAV", FlightWaypointType.NAV, position, meters(500) if self.is_helo else self.doctrine.rendezvous_altitude, description="Exit theater", pretty_name="Exit theater", ) return FlightWaypoint( "LANDING", FlightWaypointType.LANDING_POINT, position, meters(0), alt_type="RADIO", description="Land", pretty_name="Land", control_point=arrival, ) def divert(self, divert: Optional[ControlPoint]) -> Optional[FlightWaypoint]: """Create divert waypoint for the given arrival airfield or carrier. Args: divert: Divert airfield or carrier. """ if divert is None: return None position = divert.position altitude_type: AltitudeReference if isinstance(divert, OffMapSpawn): if self.is_helo: altitude = meters(500) else: altitude = self.doctrine.rendezvous_altitude altitude_type = "BARO" else: altitude = meters(0) altitude_type = "RADIO" return FlightWaypoint( "DIVERT", FlightWaypointType.DIVERT, position, altitude, alt_type=altitude_type, description="Divert", pretty_name="Divert", only_for_player=True, control_point=divert, ) def bullseye(self) -> FlightWaypoint: return FlightWaypoint( "BULLSEYE", FlightWaypointType.BULLSEYE, self._bullseye.position, meters(0), description="Bullseye", pretty_name="Bullseye", only_for_player=True, ) def hold(self, position: Point) -> FlightWaypoint: alt_type: AltitudeReference = "BARO" if self.is_helo: alt_type = "RADIO" return FlightWaypoint( "HOLD", FlightWaypointType.LOITER, position, meters(500) if self.is_helo else self.doctrine.rendezvous_altitude, alt_type, description="Wait until push time", pretty_name="Hold", ) def join(self, position: Point) -> FlightWaypoint: alt_type: AltitudeReference = "BARO" if self.is_helo: alt_type = "RADIO" return FlightWaypoint( "JOIN", FlightWaypointType.JOIN, position, meters(80) if self.is_helo else self.doctrine.ingress_altitude, alt_type, description="Rendezvous with package", pretty_name="Join", ) def refuel(self, position: Point) -> FlightWaypoint: alt_type: AltitudeReference = "BARO" if self.is_helo: alt_type = "RADIO" return FlightWaypoint( "REFUEL", FlightWaypointType.REFUEL, position, meters(80) if self.is_helo else self.doctrine.ingress_altitude, alt_type, description="Refuel from tanker", pretty_name="Refuel", ) def split(self, position: Point) -> FlightWaypoint: alt_type: AltitudeReference = "BARO" if self.is_helo: alt_type = "RADIO" return FlightWaypoint( "SPLIT", FlightWaypointType.SPLIT, position, meters(80) if self.is_helo else self.doctrine.ingress_altitude, alt_type, description="Depart from package", pretty_name="Split", ) def ingress( self, ingress_type: FlightWaypointType, position: Point, objective: MissionTarget, ) -> FlightWaypoint: alt_type: AltitudeReference = "BARO" if self.is_helo: alt_type = "RADIO" return FlightWaypoint( "INGRESS", ingress_type, position, meters(60) if self.is_helo else self.doctrine.ingress_altitude, alt_type, description=f"INGRESS on {objective.name}", pretty_name=f"INGRESS on {objective.name}", targets=objective.strike_targets, ) def egress(self, position: Point, target: MissionTarget) -> FlightWaypoint: alt_type: AltitudeReference = "BARO" if self.is_helo: alt_type = "RADIO" return FlightWaypoint( "EGRESS", FlightWaypointType.EGRESS, position, meters(60) if self.is_helo else self.doctrine.ingress_altitude, alt_type, description=f"EGRESS from {target.name}", pretty_name=f"EGRESS from {target.name}", ) def bai_group(self, target: StrikeTarget) -> FlightWaypoint: return self._target_point(target, f"ATTACK {target.name}") def dead_point(self, target: StrikeTarget) -> FlightWaypoint: return self._target_point(target, f"STRIKE {target.name}") def sead_point(self, target: StrikeTarget) -> FlightWaypoint: return self._target_point(target, f"STRIKE {target.name}") def strike_point(self, target: StrikeTarget) -> FlightWaypoint: return self._target_point(target, f"STRIKE {target.name}") @staticmethod def _target_point(target: StrikeTarget, description: str) -> FlightWaypoint: return FlightWaypoint( target.name, FlightWaypointType.TARGET_POINT, target.target.position, meters(0), "RADIO", description=description, pretty_name=description, # The target waypoints are only for the player's benefit. AI tasks for # the target are set on the ingress point so that they begin their attack # *before* reaching the target. only_for_player=True, ) def strike_area(self, target: MissionTarget) -> FlightWaypoint: return self._target_area(f"STRIKE {target.name}", target) def sead_area(self, target: MissionTarget) -> FlightWaypoint: return self._target_area(f"SEAD on {target.name}", target, flyover=True) def dead_area(self, target: MissionTarget) -> FlightWaypoint: return self._target_area(f"DEAD on {target.name}", target) def oca_strike_area(self, target: MissionTarget) -> FlightWaypoint: return self._target_area(f"ATTACK {target.name}", target, flyover=True) @staticmethod def _target_area( name: str, location: MissionTarget, flyover: bool = False ) -> FlightWaypoint: waypoint = FlightWaypoint( name, FlightWaypointType.TARGET_GROUP_LOC, location.position, meters(0), "RADIO", description=name, pretty_name=name, ) # Most target waypoints are only for the player's benefit. AI tasks for # the target are set on the ingress point so they begin their attack # *before* reaching the target. # # The exception is for flight plans that require passing over the # target. For example, OCA strikes need to get close enough to detect # the targets in their engagement zone or they will RTB immediately. if flyover: waypoint.flyover = True else: waypoint.only_for_player = True return waypoint def cas(self, position: Point) -> FlightWaypoint: return FlightWaypoint( "CAS", FlightWaypointType.CAS, position, meters(60) if self.is_helo else meters(1000), "RADIO", description="Provide CAS", pretty_name="CAS", ) @staticmethod def race_track_start(position: Point, altitude: Distance) -> FlightWaypoint: """Creates a racetrack start waypoint. Args: position: Position of the waypoint. altitude: Altitude of the racetrack. """ return FlightWaypoint( "RACETRACK START", FlightWaypointType.PATROL_TRACK, position, altitude, description="Orbit between this point and the next point", pretty_name="Race-track start", ) @staticmethod def race_track_end(position: Point, altitude: Distance) -> FlightWaypoint: """Creates a racetrack end waypoint. Args: position: Position of the waypoint. altitude: Altitude of the racetrack. """ return FlightWaypoint( "RACETRACK END", FlightWaypointType.PATROL, position, altitude, description="Orbit between this point and the previous point", pretty_name="Race-track end", ) def race_track( self, start: Point, end: Point, altitude: Distance ) -> Tuple[FlightWaypoint, FlightWaypoint]: """Creates two waypoint for a racetrack orbit. Args: start: The beginning racetrack waypoint. end: The ending racetrack waypoint. altitude: The racetrack altitude. """ return ( self.race_track_start(start, altitude), self.race_track_end(end, altitude), ) @staticmethod def orbit(start: Point, altitude: Distance) -> FlightWaypoint: """Creates an circular orbit point. Args: start: Position of the waypoint. altitude: Altitude of the racetrack. """ return FlightWaypoint( "ORBIT", FlightWaypointType.LOITER, start, altitude, description="Anchor and hold at this point", pretty_name="Orbit", ) @staticmethod def sweep_start(position: Point, altitude: Distance) -> FlightWaypoint: """Creates a sweep start waypoint. Args: position: Position of the waypoint. altitude: Altitude of the sweep in meters. """ return FlightWaypoint( "SWEEP START", FlightWaypointType.INGRESS_SWEEP, position, altitude, description="Proceed to the target and engage enemy aircraft", pretty_name="Sweep start", ) @staticmethod def sweep_end(position: Point, altitude: Distance) -> FlightWaypoint: """Creates a sweep end waypoint. Args: position: Position of the waypoint. altitude: Altitude of the sweep in meters. """ return FlightWaypoint( "SWEEP END", FlightWaypointType.EGRESS, position, altitude, description="End of sweep", pretty_name="Sweep end", ) def sweep( self, start: Point, end: Point, altitude: Distance ) -> Tuple[FlightWaypoint, FlightWaypoint]: """Creates two waypoint for a racetrack orbit. Args: start: The beginning of the sweep. end: The end of the sweep. altitude: The sweep altitude. """ return self.sweep_start(start, altitude), self.sweep_end(end, altitude) def escort( self, ingress: Point, target: MissionTarget, ) -> Tuple[FlightWaypoint, FlightWaypoint]: """Creates the waypoints needed to escort the package. Args: ingress: The package ingress point. target: The mission target. """ alt_type: AltitudeReference = "BARO" if self.is_helo: alt_type = "RADIO" # This would preferably be no points at all, and instead the Escort task # would begin on the join point and end on the split point, however the # escort task does not appear to work properly (see the longer # description in gen.aircraft.JoinPointBuilder), so instead we give # the escort flights a flight plan including the ingress point and target area. ingress_wp = self.ingress(FlightWaypointType.INGRESS_ESCORT, ingress, target) return ingress_wp, FlightWaypoint( "TARGET", FlightWaypointType.TARGET_GROUP_LOC, target.position, meters(60) if self.is_helo else self.doctrine.ingress_altitude, alt_type, description="Escort the package", pretty_name="Target area", ) @staticmethod def pickup(control_point: ControlPoint) -> FlightWaypoint: """Creates a cargo pickup waypoint. Args: control_point: Pick up location. """ return FlightWaypoint( "PICKUP", FlightWaypointType.PICKUP, control_point.position, meters(0), "RADIO", description=f"Pick up cargo from {control_point}", pretty_name="Pick up location", ) @staticmethod def drop_off(control_point: ControlPoint) -> FlightWaypoint: """Creates a cargo drop-off waypoint. Args: control_point: Drop-off location. """ return FlightWaypoint( "DROP OFF", FlightWaypointType.PICKUP, control_point.position, meters(0), "RADIO", description=f"Drop off cargo at {control_point}", pretty_name="Drop off location", control_point=control_point, ) @staticmethod def nav( position: Point, altitude: Distance, altitude_is_agl: bool = False ) -> FlightWaypoint: """Creates a navigation point. Args: position: Position of the waypoint. altitude: Altitude of the waypoint. altitude_is_agl: True for altitude is AGL. False if altitude is MSL. """ alt_type: AltitudeReference = "BARO" if altitude_is_agl: alt_type = "RADIO" return FlightWaypoint( "NAV", FlightWaypointType.NAV, position, altitude, alt_type, description="NAV", pretty_name="Nav", ) def nav_path( self, a: Point, b: Point, altitude: Distance, altitude_is_agl: bool = False ) -> List[FlightWaypoint]: path = self.clean_nav_points(self.navmesh.shortest_path(a, b)) return [self.nav(self.perturb(p), altitude, altitude_is_agl) for p in path] def clean_nav_points(self, points: Iterable[Point]) -> Iterator[Point]: # Examine a sliding window of three waypoints. `current` is the waypoint # being checked for prunability. `previous` is the last emitted waypoint # before `current`. `nxt` is the waypoint after `current`. previous: Optional[Point] = None current: Optional[Point] = None for nxt in points: if current is None: current = nxt continue if previous is None: previous = current current = nxt continue if self.nav_point_prunable(previous, current, nxt): current = nxt continue yield current previous = current current = nxt def nav_point_prunable(self, previous: Point, current: Point, nxt: Point) -> bool: previous_threatened = self.threat_zones.path_threatened(previous, current) next_threatened = self.threat_zones.path_threatened(current, nxt) pruned_threatened = self.threat_zones.path_threatened(previous, nxt) previous_distance = meters(previous.distance_to_point(current)) distance = meters(current.distance_to_point(nxt)) distance_without = previous_distance + distance if distance > distance_without: # Don't prune paths to make them longer. return False # We could shorten the path by removing the intermediate # waypoint. Do so if the new path isn't higher threat. if not pruned_threatened: # The new path is not threatened, so safe to prune. return True # The new path is threatened. Only allow if both paths were # threatened anyway. return previous_threatened and next_threatened @staticmethod def perturb(point: Point) -> Point: deviation = nautical_miles(1) x_adj = random.randint(int(-deviation.meters), int(deviation.meters)) y_adj = random.randint(int(-deviation.meters), int(deviation.meters)) return point + Vector2(x_adj, y_adj)