예제 #1
0
  // returns true if the robot moved away
  public static boolean moveAwayFromEnemy(RobotController rc) throws GameActionException {
    Team myTeam = rc.getTeam();
    int mySightRange = rc.getType().sensorRadiusSquared;
    MapLocation myLoc = rc.getLocation();
    RobotInfo[] hostiles = rc.senseHostileRobots(myLoc, mySightRange);

    MapLocation closestEnemy = null;
    int closestEnemyDist = 60;
    for (RobotInfo e : hostiles) {
      MapLocation curEnemyLoc = e.location;
      int curDist = myLoc.distanceSquaredTo(curEnemyLoc);
      if (curDist < closestEnemyDist) {
        closestEnemyDist = curDist;
        closestEnemy = e.location;
      }
    }
    if (closestEnemy == null) {
      return false;
    } else {
      Direction dir = getBestMoveableDirection(closestEnemy.directionTo(myLoc), rc, 4);
      if (dir != Direction.NONE) {
        rc.move(dir);
        return true;
      } else {
        return false;
      }
    }
  }
예제 #2
0
 /**
  * Returns true if no nearby enemies or if the nearby enemies are only scouts. Returns false if
  * deadly enemies are within sensing radius.
  *
  * @return boolean
  * @param RobotController rc
  */
 private static boolean isNearbyEnemies(RobotController rc) {
   RobotInfo[] enemies = rc.senseHostileRobots(rc.getLocation(), rc.getType().sensorRadiusSquared);
   for (int i = 0; i < enemies.length; i++) {
     if (enemies[i].type != RobotType.SCOUT) {
       return true;
     }
   }
   return enemies.length > 0;
 }
예제 #3
0
 private static void turretAttack(RobotController rc) throws GameActionException {
   if (rc.isWeaponReady()) {
     // can't attack if enemy is too close so attackFirst throws errors
     RobotInfo[] enemies =
         rc.senseHostileRobots(rc.getLocation(), rc.getType().attackRadiusSquared);
     for (RobotInfo enemy : enemies) {
       if (rc.canAttackLocation(enemy.location) && rc.isWeaponReady()) {
         rc.attackLocation(enemy.location);
       }
     }
   }
 }
예제 #4
0
 /**
  * @param rc
  * @return true if rc moves else false
  * @throws GameActionException
  */
 private static void moveTowardsNearestEnemy(RobotController rc) throws GameActionException {
   List<RobotInfo> enemies = Arrays.asList(rc.senseHostileRobots(rc.getLocation(), -1));
   Optional<RobotInfo> nearestEnemy =
       enemies
           .stream()
           .min(
               (enemy1, enemy2) ->
                   rc.getLocation().distanceSquaredTo(enemy1.location)
                       - rc.getLocation().distanceSquaredTo(enemy2.location));
   if (nearestEnemy.isPresent() && rc.isCoreReady()) {
     moveTowards(rc, rc.getLocation().directionTo(nearestEnemy.get().location));
   }
 }
예제 #5
0
 /**
  * If rc finds a zombie den, it signals out to surrounding robots If rc has no weapon delay,
  * attacks in the following priority: 1) adjacent robots (if robot is a bigzombie or standard
  * zombie move away every other turn to kite it) 2) big zombies 3) nearest enemy
  *
  * @param rc RobotController which will attack
  * @param RobotController
  * @throws GameActionException
  * @return true if this robot attacked else false
  */
 private static void attackFirst(RobotController rc) throws GameActionException {
   boolean equalHealth = true;
   int lowestHealthIndex = -1;
   int lowestDistanceIndex = -1;
   int attackIndex = -1;
   RobotInfo[] enemies = rc.senseHostileRobots(rc.getLocation(), rc.getType().attackRadiusSquared);
   if (rc.isWeaponReady() && enemies.length > 0) {
     for (int i = 0; i < enemies.length; i++) {
       if (enemies[i].type == RobotType.ZOMBIEDEN) {
         rc.broadcastSignal(rc.getType().sensorRadiusSquared * 2);
       }
       if (attackIndex < 0 && (rc.getLocation()).isAdjacentTo(enemies[i].location)) {
         attackIndex = i;
         // TODO test this part - work on kiting
         if ((enemies[i].type == RobotType.BIGZOMBIE
                 || enemies[i].type == RobotType.STANDARDZOMBIE)
             && rc.getRoundNum() % 2 == 0
             && rc.isCoreReady()) {
           moveAwayFromEnemy(rc, rc.getLocation().directionTo(enemies[i].location));
         }
         if (rc.isWeaponReady()) {
           rc.attackLocation(enemies[i].location);
         }
       }
       if (rc.isWeaponReady() && enemies[i].type == RobotType.BIGZOMBIE) {
         attackIndex = i;
         rc.attackLocation(enemies[i].location);
       }
       if (attackIndex < 0) {
         lowestHealthIndex = lowestHealthIndex < 0 ? 0 : lowestHealthIndex;
         lowestDistanceIndex = lowestDistanceIndex < 0 ? 0 : lowestDistanceIndex;
         equalHealth = equalHealth && enemies[i].health == enemies[lowestHealthIndex].health;
         lowestDistanceIndex =
             rc.getLocation().distanceSquaredTo(enemies[i].location)
                     < rc.getLocation().distanceSquaredTo(enemies[lowestDistanceIndex].location)
                 ? i
                 : lowestDistanceIndex;
         lowestHealthIndex =
             enemies[i].health < enemies[lowestHealthIndex].health ? i : lowestHealthIndex;
       }
     }
     if (attackIndex < 0 && enemies.length > 0) {
       attackIndex = equalHealth ? lowestDistanceIndex : lowestHealthIndex;
     }
     if (attackIndex >= 0 && rc.isWeaponReady()) {
       rc.attackLocation(enemies[attackIndex].location);
     }
   }
 }
예제 #6
0
  /**
   * Moves rc in direction dir if possible, while attempting to stay out of attack range of hostile
   * robots.
   *
   * @param rc
   * @param dir
   * @throws GameActionException
   */
  private static void moveCautiously(RobotController rc, Direction dir) throws GameActionException {
    if (!rc.isCoreReady()) return;
    final MapLocation myLocation = rc.getLocation();
    final Map<MapLocation, Double> moveLocationsToWeights = new HashMap<>();
    for (MapLocation loc :
        MapLocation.getAllMapLocationsWithinRadiusSq(rc.getLocation(), ONE_SQUARE_RADIUS)) {
      if (loc.equals(rc.getLocation())) {
        continue;
      }
      if (!rc.canMove(myLocation.directionTo(loc))) {
        continue;
      }
      moveLocationsToWeights.put(loc, 1.);
    }

    if (moveLocationsToWeights.size() == 0) {
      return;
    }

    RobotInfo[] enemies = rc.senseHostileRobots(rc.getLocation(), -1);
    for (MapLocation loc : moveLocationsToWeights.keySet()) {
      for (RobotInfo enemy : enemies) {
        if (enemy.weaponDelay < 1
            && enemy.type.attackRadiusSquared >= enemy.location.distanceSquaredTo(loc)) {
          moveLocationsToWeights.put(loc, moveLocationsToWeights.get(loc) + enemy.attackPower);
        }
      }
      moveLocationsToWeights.put(
          loc,
          moveLocationsToWeights.get(loc)
              + distanceFromDirection(dir, myLocation.directionTo(loc)));
    }
    // TODO(remember, though, the enemies will get to move one more time before you do)
    MapLocation bestLocation = moveLocationsToWeights.keySet().iterator().next();
    Double lowestWeight = moveLocationsToWeights.get(bestLocation);
    for (MapLocation loc : moveLocationsToWeights.keySet()) {
      if (moveLocationsToWeights.get(loc) < lowestWeight) {
        lowestWeight = moveLocationsToWeights.get(loc);
        bestLocation = loc;
      }
    }
    rc.move(myLocation.directionTo(bestLocation));
  }
예제 #7
0
  public void run(final RobotController robotController) throws GameActionException {

    final MapInfoModule mapInfoModule = new MapInfoModule();

    final CombatModule combatModule = new CombatModule();
    final CommunicationModule communicationModule = new CommunicationModule(mapInfoModule);
    final DirectionModule directionModule = new DirectionModule(robotController.getID());
    final MovementModule movementModule = new MovementModule();
    final RubbleModule rubbleModule = new RubbleModule();

    final Team currentTeam = robotController.getTeam();
    int turnsStuck = 0;

    while (true) {

      RobotType type = robotController.getType();
      MapLocation currentLocation = robotController.getLocation();

      // update communication

      communicationModule.processIncomingSignals(robotController);

      // let's verify existing information

      communicationModule.verifyCommunicationsInformation(robotController, null, false);

      if (type == RobotType.TTM) {

        // MOVE

        // let's get the best assignment

        CommunicationModuleSignal objectiveSignal = null;
        int closestObjectiveLocationDistance = Integer.MAX_VALUE;

        final Enumeration<CommunicationModuleSignal> zombieDenCommunicationModuleSignals =
            communicationModule.zombieDens.elements();
        while (zombieDenCommunicationModuleSignals.hasMoreElements()) {

          final CommunicationModuleSignal signal =
              zombieDenCommunicationModuleSignals.nextElement();
          final int distance = signal.location.distanceSquaredTo(currentLocation);
          if (distance < closestObjectiveLocationDistance) {

            objectiveSignal = signal;
            closestObjectiveLocationDistance = distance;
          }
        }

        final Enumeration<CommunicationModuleSignal> enemyArchonCommunicationModuleSignals =
            communicationModule.enemyArchons.elements();
        while (enemyArchonCommunicationModuleSignals.hasMoreElements()) {

          final CommunicationModuleSignal signal =
              enemyArchonCommunicationModuleSignals.nextElement();
          final int distance =
              signal.location.distanceSquaredTo(currentLocation)
                  * 6; // multiplying by 6 to prioritize the dens
          if (distance < closestObjectiveLocationDistance) {

            objectiveSignal = signal;
            closestObjectiveLocationDistance = distance;
          }
        }

        final Enumeration<CommunicationModuleSignal> enemyTurretCommunicationModuleSignals =
            communicationModule.enemyTurrets.elements();
        while (enemyTurretCommunicationModuleSignals.hasMoreElements()) {

          final CommunicationModuleSignal signal =
              enemyTurretCommunicationModuleSignals.nextElement();
          final int distance = signal.location.distanceSquaredTo(currentLocation) * 20;
          if (distance < closestObjectiveLocationDistance) {

            objectiveSignal = signal;
            closestObjectiveLocationDistance = distance;
          }
        }

        boolean shouldMove = true;
        Direction desiredMovementDirection = null;
        Direction targetRubbleClearanceDirection = null;

        // check to make sure we are safe

        final RobotInfo[] enemies =
            robotController.senseHostileRobots(
                currentLocation, robotController.getType().sensorRadiusSquared);

        if (robotController.isCoreReady() && enemies.length > 0) {

          final Direction fleeDirection =
              directionModule.averageDirectionTowardDangerousRobotsAndOuterBounds(
                  robotController, enemies);
          if (fleeDirection != null) {

            final Direction fleeMovementDirection =
                directionModule.recommendedMovementDirectionForDirection(
                    fleeDirection.opposite(), robotController, false);
            if (fleeMovementDirection != null) {

              robotController.move(fleeMovementDirection);
              currentLocation = robotController.getLocation();
              robotController.setIndicatorString(
                  1, fleeDirection.name() + " " + fleeMovementDirection.name());
            }
          }
        }

        // check if there are nearby signals

        if (desiredMovementDirection == null) {

          int closestSignalDistance = Integer.MAX_VALUE;
          MapLocation closestSignalLocation = null;

          final ArrayList<Signal> notifications = communicationModule.notifications;
          for (int i = 0; i < notifications.size(); i++) {

            final Signal signal = notifications.get(i);
            final int distance = currentLocation.distanceSquaredTo(signal.getLocation());
            if (distance < closestSignalDistance) {

              closestSignalDistance = distance;
              closestSignalLocation = signal.getLocation();
            }
          }
          if (closestSignalLocation != null) {

            desiredMovementDirection = currentLocation.directionTo(closestSignalLocation);
          }
        }

        // now let's try move toward an assignment

        if (robotController.isCoreReady()
            && communicationModule.initialInformationReceived
            && shouldMove) {

          // check if we have an objective

          if (desiredMovementDirection == null) {

            if (objectiveSignal != null) {

              final MapLocation objectiveLocation = objectiveSignal.location;
              if (objectiveLocation.distanceSquaredTo(currentLocation) >= 8) {

                desiredMovementDirection = currentLocation.directionTo(objectiveLocation);
              }
            }
          }

          // try move towards archon starting positions

          if (desiredMovementDirection == null) {

            int closestArchonDistance = Integer.MAX_VALUE;
            MapLocation closestArchonLocation = null;

            final MapLocation[] archonLocations =
                robotController.getInitialArchonLocations(robotController.getTeam().opponent());
            for (int i = 0; i < archonLocations.length; i++) {

              final MapLocation location = archonLocations[i];
              final int distance = currentLocation.distanceSquaredTo(location);
              if (distance < closestArchonDistance) {

                closestArchonDistance = distance;
                closestArchonLocation = location;
              }
            }
            if (closestArchonLocation != null) {

              desiredMovementDirection = currentLocation.directionTo(closestArchonLocation);
            }
          }

          // process movement

          if (desiredMovementDirection != null) {

            final Direction recommendedMovementDirection =
                directionModule.recommendedMovementDirectionForDirection(
                    desiredMovementDirection, robotController, false);
            final MapLocation recommendedMovementLocation =
                recommendedMovementDirection != null
                    ? currentLocation.add(recommendedMovementDirection)
                    : null;
            if (recommendedMovementDirection != null
                && !movementModule.isMovementLocationRepetitive(
                    recommendedMovementLocation, robotController)) {

              robotController.move(recommendedMovementDirection);
              movementModule.addMovementLocation(recommendedMovementLocation, robotController);
              currentLocation = robotController.getLocation();
              turnsStuck = 0;
            }
          }
        }

        // unpack if we're safe

        RobotInfo[] nearbyTeammates = robotController.senseNearbyRobots(8, currentTeam);
        RobotInfo[] nearbySoldiers =
            combatModule.robotsOfTypesFromRobots(
                nearbyTeammates, new RobotType[] {RobotType.SOLDIER});

        if (nearbySoldiers.length > 2) {

          robotController.unpack();
        }

      } else {

        // ATTACK

        final RobotInfo[] enemies =
            robotController.senseHostileRobots(
                currentLocation, robotController.getType().attackRadiusSquared);

        RobotInfo bestEnemy = this.getBestEnemyToAttackFromEnemies(robotController, enemies);

        // handle attacking

        if (bestEnemy != null) {

          if (robotController.isWeaponReady()) {

            // we can attack the enemy

            robotController.attackLocation(bestEnemy.location);
            if (bestEnemy.type != RobotType.ZOMBIEDEN) {

              communicationModule.broadcastSignal(
                  robotController,
                  CommunicationModule.maximumFreeBroadcastRangeForRobotType(
                      robotController.getType()));
            }
          }
        }

        // pack if we aren't near soldiers

        RobotInfo[] nearbyTeammates =
            robotController.senseNearbyRobots(type.sensorRadiusSquared, currentTeam);
        RobotInfo[] nearbySoldiers =
            combatModule.robotsOfTypesFromRobots(
                nearbyTeammates, new RobotType[] {RobotType.SOLDIER});

        if (nearbySoldiers.length < 3) {

          robotController.pack();
        }
      }

      Clock.yield();
    }
  }
예제 #8
0
  public static void run(RobotController rc) {
    Random rand = new Random(rc.getID());
    Team myTeam = rc.getTeam();
    Team enemyTeam = myTeam.opponent();
    int numFriendly = 0;
    RobotInfo[] adjNeutralRobots = rc.senseNearbyRobots(2, Team.NEUTRAL);
    // if useTurrets = true, then use turret strategy
    boolean useTurrets = false;

    try {
      // Any code here gets executed exactly once at the beginning of the game.
      RobotInfo[] nearbyArchons =
          rc.senseNearbyRobots(RobotType.ARCHON.sensorRadiusSquared, rc.getTeam());
      if (nearbyArchons.length >= 2) {
        useTurrets = true;
      }
      // rc.setIndicatorString(1, "newString");
    } catch (Exception e) {
      // Throwing an uncaught exception makes the robot die, so we need to catch exceptions.
      // Caught exceptions will result in a bytecode penalty.
      System.out.println(e.getMessage());
      e.printStackTrace();
    }

    while (true) {
      // This is a loop to prevent the run() method from returning. Because of the Clock.yield()
      // at the end of it, the loop will iterate once per game round.
      try {
        if (useTurrets) {
          boolean escape = false;
          //					if (rc.isCoreReady()) {
          //						int numAdjTurrets = 0;
          //						for (RobotInfo f : friendlyAdjacent) {
          //							if (f.type == RobotType.TURRET) {
          //								numAdjTurrets++;
          //							}
          //						}
          //						if (numAdjTurrets < 3) {
          //							escape = Movement.moveAwayFromEnemy(rc);
          //						}
          //					}
          //					if (rc.isCoreReady()) {
          //						escape = Movement.moveAwayFromEnemy(rc);
          //					}
          if (!escape) {
            if (adjNeutralRobots.length > 0) {
              // if there is a neutral robot adjacent, activate it or wait until there's no core
              // delay
              if (rc.isCoreReady()) {
                rc.activate(adjNeutralRobots[0].location);
              }
            }
            // careful- moving to parts might get into enemy turret range
            if (Movement.getToAdjParts(rc)) {
            } else {
              boolean toheal = false;
              // repair a nearby friendly robot
              if (rc.isWeaponReady()) {
                RobotInfo[] friendlyWithinRange = rc.senseNearbyRobots(24, myTeam);
                numFriendly = friendlyWithinRange.length;
                if (friendlyWithinRange.length > 0) {
                  RobotInfo toRepair = friendlyWithinRange[0];
                  for (RobotInfo r : friendlyWithinRange) {
                    if ((r.health < toRepair.health)
                        && (r.type != RobotType.ARCHON)
                        && (r.maxHealth - r.health > 1)) {
                      toRepair = r;
                    }
                  }
                  if ((toRepair.maxHealth - toRepair.health > 1)
                      && (toRepair.type != RobotType.ARCHON)) {
                    toheal = true;
                    rc.repair(toRepair.location);
                  }
                }
              }
              if (toheal == false && rc.isCoreReady()) {
                // did not heal any robots

                // sense all the hostile robots within the archon's radius
                MapLocation myLoc = rc.getLocation();
                RobotInfo[] hostileWithinRange =
                    rc.senseHostileRobots(myLoc, RobotType.ARCHON.sensorRadiusSquared);
                RobotInfo closestRobot = null;
                int closestDistance = 0;
                // get the furthest robot from the scout
                for (RobotInfo r : hostileWithinRange) {
                  if (r.location.distanceSquaredTo(myLoc) > closestDistance) {
                    closestRobot = r;
                    closestDistance = r.location.distanceSquaredTo(myLoc);
                  }
                }
                // if there is such an enemy, signal it to range 8
                if (closestRobot != null) {
                  try {
                    // this signaling is only effective against non turret enemies
                    rc.broadcastMessageSignal(closestRobot.location.x, closestRobot.location.y, 8);
                  } catch (GameActionException e) {
                    // TODO Auto-generated catch block
                    e.printStackTrace();
                  }
                }

                int turnNum = rc.getRoundNum();
                int numVeryCloseScouts = 0;
                int numNearbyTurrets = 0;
                RobotInfo[] friendlyNearby =
                    rc.senseNearbyRobots(RobotType.ARCHON.sensorRadiusSquared, myTeam);
                for (RobotInfo f : friendlyNearby) {
                  if (f.type == RobotType.TURRET) {
                    numNearbyTurrets++;
                  }
                }
                // for sensing if there are guards within range 24
                RobotInfo[] friendlyClose = rc.senseNearbyRobots(24, myTeam);
                int numNearbyGuards = 0;
                for (RobotInfo f : friendlyClose) {
                  if (f.type == RobotType.GUARD) {
                    numNearbyGuards++;
                  }
                }
                // check for scouts; how close should they be????
                RobotInfo[] friendlyVeryClose = rc.senseNearbyRobots(15, myTeam);
                for (RobotInfo f : friendlyClose) {
                  if (f.type == RobotType.SCOUT) {
                    numVeryCloseScouts++;
                  }
                }
                if (rc.hasBuildRequirements(RobotType.GUARD)
                    && rc.isCoreReady()
                    && numNearbyGuards < 1) {
                  Direction dirToBuild = RobotPlayer.directions[rand.nextInt(8)];
                  for (int i = 0; i < 8; i++) {
                    // If possible, build in this direction
                    if (rc.canBuild(dirToBuild, RobotType.GUARD)) {
                      rc.build(dirToBuild, RobotType.GUARD);
                      break;
                    } else {
                      // Rotate the direction to try
                      dirToBuild = dirToBuild.rotateLeft();
                    }
                  }
                }
                // if there are <1 turrets next to archon, build asap
                if (rc.hasBuildRequirements(RobotType.TURRET)
                    && rc.isCoreReady()
                    && numNearbyTurrets < 1) {
                  Direction dirToBuild = RobotPlayer.directions[rand.nextInt(4) * 2];
                  for (int i = 0; i < 4; i++) {
                    // If possible, build in this direction
                    if (rc.canBuild(dirToBuild, RobotType.TURRET)) {
                      rc.build(dirToBuild, RobotType.TURRET);
                      turretCount++;
                      break;
                    } else {
                      // Rotate the direction to try
                      dirToBuild = dirToBuild.rotateLeft();
                      dirToBuild = dirToBuild.rotateLeft();
                    }
                  }
                }
                // if there are <1 scout next to archon and 1 turret, build scout asap
                if (rc.hasBuildRequirements(RobotType.SCOUT)
                    && rc.isCoreReady()
                    && numNearbyTurrets > 0
                    && numVeryCloseScouts == 0
                    && turnNum < 400) {
                  Direction dirToBuild = RobotPlayer.directions[rand.nextInt(8)];
                  for (int i = 0; i < 8; i++) {
                    // If possible, build in this direction
                    if (rc.canBuild(dirToBuild, RobotType.SCOUT)) {
                      rc.build(dirToBuild, RobotType.SCOUT);
                      scoutCount++;
                      break;
                    } else {
                      // Rotate the direction to try
                      dirToBuild = dirToBuild.rotateLeft();
                    }
                  }
                }
                // build turret every 100 turns until turn 400
                //								if (turnNum > 1 && turnNum < 400) {
                //									if (turnNum % 100 == 85 && rc.isCoreReady()) {
                //										Direction dirToBuild = RobotPlayer.directions[rand.nextInt(4)*2];
                //										for (int i = 0; i < 4; i++) {
                //											// If possible, build in this direction
                //											if (rc.canBuild(dirToBuild, RobotType.TURRET)) {
                //												rc.build(dirToBuild, RobotType.TURRET);
                //												turretCount++;
                //												break;
                //											} else {
                //												// Rotate the direction to try
                //												dirToBuild = dirToBuild.rotateLeft();
                //												dirToBuild = dirToBuild.rotateLeft();
                //											}
                //										}
                //									}
                //								}
                else {
                  // Check if this ARCHON's core is ready
                  if (rc.isCoreReady()) {
                    boolean built = false;
                    RobotType typeToBuild = RobotType.TURRET;
                    if (scoutCount < turretCount / 5) {
                      typeToBuild = RobotType.SCOUT;
                    }
                    // never build scouts after a certain turn
                    if (turnNum < 1500) {
                      typeToBuild = RobotType.TURRET;
                    }
                    // Check for sufficient parts
                    if (rc.hasBuildRequirements(typeToBuild)) {
                      // Choose a random direction to try to build in; NESW for turrets; all 8 for
                      // scouts
                      if (typeToBuild.equals(RobotType.TURRET)) {
                        Direction dirToBuild = RobotPlayer.directions[rand.nextInt(4) * 2];
                        for (int i = 0; i < 4; i++) {
                          // If possible, build in this direction
                          if (rc.canBuild(dirToBuild, RobotType.TURRET)) {
                            rc.build(dirToBuild, RobotType.TURRET);
                            turretCount++;
                            break;
                          } else {
                            // Rotate the direction to try
                            dirToBuild = dirToBuild.rotateLeft();
                            dirToBuild = dirToBuild.rotateLeft();
                          }
                        }
                      } else {
                        Direction dirToBuild = RobotPlayer.directions[rand.nextInt(8)];
                        for (int i = 0; i < 8; i++) {
                          // If possible, build in this direction
                          if (rc.canBuild(dirToBuild, RobotType.SCOUT)) {
                            rc.build(dirToBuild, RobotType.SCOUT);
                            scoutCount++;
                            break;
                          } else {
                            // Rotate the direction to try
                            dirToBuild = dirToBuild.rotateLeft();
                          }
                        }
                      }
                    }
                    // only move around if there are resources
                    if ((!built)
                        && rc.hasBuildRequirements(RobotType.TURRET)
                        && (rc.isCoreReady())) {
                      // don't move into enemy turret range if scout sends signal about it
                      Set<Direction> dangerousDirs = new HashSet<>();
                      Signal currentSignal = rc.readSignal();
                      while (currentSignal != null) {
                        int messageX = currentSignal.getMessage()[0];
                        int messageY = currentSignal.getMessage()[1];
                        // if signal message > 80000, then the message is signaling a turret
                        // location
                        if (messageX > 80000) {
                          messageX = messageX - 100000;
                          messageY = messageY - 100000;
                          MapLocation enemyTurretLoc = new MapLocation(messageX, messageY);
                          Direction dirToEnemyTurret = myLoc.directionTo(enemyTurretLoc);
                          Direction dirToEnemyTurretL =
                              myLoc.directionTo(enemyTurretLoc).rotateLeft();
                          Direction dirToEnemyTurretR =
                              myLoc.directionTo(enemyTurretLoc).rotateRight();
                          if (myLoc.add(dirToEnemyTurret).distanceSquaredTo(enemyTurretLoc) <= 48) {
                            dangerousDirs.add(dirToEnemyTurret);
                          }
                          if (myLoc.add(dirToEnemyTurretL).distanceSquaredTo(enemyTurretLoc)
                              <= 48) {
                            dangerousDirs.add(dirToEnemyTurretL);
                          }
                          if (myLoc.add(dirToEnemyTurretR).distanceSquaredTo(enemyTurretLoc)
                              <= 48) {
                            dangerousDirs.add(dirToEnemyTurretR);
                          }
                        }
                        currentSignal = rc.readSignal();
                      }

                      Direction dirToMove = RobotPlayer.directions[(rand.nextInt(4) * 2) + 1];
                      for (int i = 0; i < 4; i++) {
                        if (rc.canMove(dirToMove) && !dangerousDirs.contains(dirToMove)) {
                          rc.move(dirToMove);
                          break;
                        } else {
                          dirToMove = dirToMove.rotateLeft();
                          dirToMove = dirToMove.rotateLeft();
                        }
                      }
                    }
                  }
                }
              }
            }
          }
        } else { // use soldiers
          boolean escape = false;
          if (rc.isCoreReady()) {
            escape = Movement.moveAwayFromEnemy(rc);
          }
          if (!escape) {
            if (adjNeutralRobots.length > 0) {
              // if there is a neutral robot adjacent, activate it or wait until there's no core
              // delay
              if (rc.isCoreReady()) {
                rc.activate(adjNeutralRobots[0].location);
              }
            }
            if (Movement.getToAdjParts(rc)) {
            } else {
              boolean toheal = false;
              // repair a nearby friendly robot
              if (rc.isWeaponReady()) {
                RobotInfo[] friendlyWithinRange = rc.senseNearbyRobots(24, myTeam);
                numFriendly = friendlyWithinRange.length;
                if (friendlyWithinRange.length > 0) {
                  RobotInfo toRepair = friendlyWithinRange[0];
                  for (RobotInfo r : friendlyWithinRange) {
                    if ((r.health < toRepair.health)
                        && (r.type != RobotType.ARCHON)
                        && (r.maxHealth - r.health > 1)) {
                      toRepair = r;
                    }
                  }
                  if ((toRepair.maxHealth - toRepair.health > 1)
                      && (toRepair.type != RobotType.ARCHON)) {
                    toheal = true;
                    rc.repair(toRepair.location);
                  }
                }
              }
              if (toheal == false) {
                // for sensing if there are guards within range 24
                RobotInfo[] friendlyClose = rc.senseNearbyRobots(24, myTeam);
                int numNearbyGuards = 0;
                for (RobotInfo f : friendlyClose) {
                  if (f.type == RobotType.GUARD) {
                    numNearbyGuards++;
                  }
                }

                boolean built = false;
                int turnNum = rc.getRoundNum();
                if (rc.hasBuildRequirements(RobotType.SCOUT)
                    && rc.isCoreReady()
                    && turnNum > 1
                    && turnNum % 150 >= 0
                    && turnNum % 150 <= 19
                    && turnNum < 900) {
                  Direction dirToBuild = RobotPlayer.directions[rand.nextInt(8)];
                  for (int i = 0; i < 8; i++) {
                    // If possible, build in this direction
                    if (rc.canBuild(dirToBuild, RobotType.SCOUT)) {
                      rc.build(dirToBuild, RobotType.SCOUT);
                      built = true;
                      break;
                    } else {
                      // Rotate the direction to try
                      dirToBuild = dirToBuild.rotateLeft();
                    }
                  }
                }
                if (rc.hasBuildRequirements(RobotType.GUARD)
                    && rc.isCoreReady()
                    && !built
                    && numNearbyGuards < 1) {
                  Direction dirToBuild = RobotPlayer.directions[rand.nextInt(8)];
                  for (int i = 0; i < 8; i++) {
                    // If possible, build in this direction
                    if (rc.canBuild(dirToBuild, RobotType.GUARD)) {
                      rc.build(dirToBuild, RobotType.GUARD);
                      built = true;
                      break;
                    } else {
                      // Rotate the direction to try
                      dirToBuild = dirToBuild.rotateLeft();
                    }
                  }
                }
                if (rc.hasBuildRequirements(RobotType.SOLDIER) && rc.isCoreReady() && !built) {
                  Direction dirToBuild = RobotPlayer.directions[rand.nextInt(8)];
                  for (int i = 0; i < 8; i++) {
                    // If possible, build in this direction
                    if (rc.canBuild(dirToBuild, RobotType.SOLDIER)) {
                      rc.build(dirToBuild, RobotType.SOLDIER);
                      built = true;
                      break;
                    } else {
                      // Rotate the direction to try
                      dirToBuild = dirToBuild.rotateLeft();
                    }
                  }
                }
                // if archon has nothing to do, tell soldiers to come to it's location
                /*if (rc.getRoundNum() > 500 && rc.isCoreReady() && rc.isWeaponReady()) {
                	rc.broadcastMessageSignal(-100, 0, 70 * 70);
                }*/
              }
            }
          }
        }
        Clock.yield();
      } catch (Exception e) {
        System.out.println(e.getMessage());
        e.printStackTrace();
      }
    }
  }
예제 #9
0
  // find a safe location
  public static MapLocation findSaferLocation() // move to far spot in direction with fewest enemies
      {
    MapLocation currentLocation = rc.getLocation();
    ArrayList<Direction> directions = Utility.arrayListOfDirections();

    /*
    ArrayList<Integer> enemiesInEachDirection = new ArrayList<Integer>(10);
    //initialize the enemiesInEachDirection arraylist
    for(int i = 0; i < 10; i++)
    {
    	enemiesInEachDirection.add(0);
    }

    for(RobotInfo foe : foes)
    {
    	Direction dirToFoe = currentLocation.directionTo(foe.location);
    	int index = directions.indexOf(dirToFoe);
    	int numberOfFoesInDirection = enemiesInEachDirection.get(index);
    	enemiesInEachDirection.set(index, numberOfFoesInDirection++);
    }

    int leastEnemies = 1000000;
    int directionWithLeastEnemies = 0;
    for(int i = 0; i<enemiesInEachDirection.size(); i++)
    {
    	int numberOfEnemies = enemiesInEachDirection.get(i);
    	if(numberOfEnemies < leastEnemies)
    	{
    		directionWithLeastEnemies = i;
    		leastEnemies = numberOfEnemies;
    	}
    }

    Direction direction = directions.get(directionWithLeastEnemies);//the direction with the fewest enemies
     */

    // find if foes are within attack range
    RobotInfo[] foes = rc.senseHostileRobots(rc.getLocation(), RobotType.SCOUT.sensorRadiusSquared);
    ArrayList<RobotInfo> nearAttackRange = new ArrayList<RobotInfo>();

    for (RobotInfo foe : foes) {
      RobotType type = foe.type;
      if (type != RobotType.ARCHON
          && type != RobotType.ZOMBIEDEN
          && type != RobotType.SCOUT) // only want enemies who can attack
      {
        // if you're close to the attack range
        if (currentLocation.distanceSquaredTo(foe.location) < foe.type.attackRadiusSquared + 4) {
          nearAttackRange.add(foe);
        }
      }
    }

    // get average loc of hostiles
    // could also just run away from the closest hostile
    // neither one of those would have you go up or down if you have enemies directly to
    // your left and right
    int n_hostiles = 0;
    int x_sum = 0;
    int y_sum = 0;
    if (nearAttackRange.size() > 0) {
      for (RobotInfo robot : nearAttackRange) {
        n_hostiles++;
        MapLocation robotLoc = robot.location;
        x_sum += robotLoc.x;
        y_sum += robotLoc.y;
      }
      int x = x_sum / n_hostiles;
      int y = y_sum / n_hostiles;
      MapLocation hostileLoc = new MapLocation(x, y);
      Direction dirToMove = hostileLoc.directionTo(rc.getLocation());
      MapLocation locationToGoTo =
          currentLocation.add(dirToMove, (int) Math.sqrt(RobotType.ARCHON.sensorRadiusSquared));
      return locationToGoTo;
    }

    /* OTHER WAY TO DO IT
    //get the average direction to them
    //ArrayList<Direction> listOfDirections = Utility.arrayListOfDirections();
    int averageDirection = 0;
    for(RobotInfo foe : nearAttackRange)
    {
    	averageDirection += directions.indexOf(currentLocation.directionTo(foe.location));
    }
    if(nearAttackRange.size() > 0)
    {
    	averageDirection /= nearAttackRange.size();
    	Direction directionToEnemies = directions.get(averageDirection);

    	//move in that direction as far as you can see
    	MapLocation locationToGoTo = currentLocation.add(directionToEnemies.opposite(), (int)Math.sqrt(RobotType.ARCHON.sensorRadiusSquared));
    	return locationToGoTo;
    }
    */

    else {
      return rc.getLocation();
    }
  }
예제 #10
0
  public static void run(RobotController rc) {
    sightRadius = RobotType.SOLDIER.sensorRadiusSquared;
    attackRadius = RobotType.SOLDIER.attackRadiusSquared;
    myTeam = rc.getTeam();
    enemyTeam = myTeam.opponent();
    while (true) {
      try {
        numEnemySoldiers = 0;
        totalEnemySoldierHealth = 0;
        myLoc = rc.getLocation();
        nearbyAllies = rc.senseNearbyRobots(sightRadius, myTeam);
        nearbyEnemies = rc.senseHostileRobots(myLoc, sightRadius);
        newArchonLoc = null;

        // clear bad locations
        resetLocations(rc);
        // read messages and get destination
        readMessages(rc);
        // heal if need (and set the archon destination to go to)
        setRetreatingStatus(rc, nearbyEnemies);

        // Remove turret locations that you can see are not there.
        // Does NOT remove turret locations due to broadcasts. Already done in read messages.
        removeTurretLocations(rc);

        if (newArchonLoc != null) {
          nearestArchonLocation = newArchonLoc;
        }

        rc.setIndicatorString(2, "Round: " + rc.getRoundNum() + ", rushing: " + rush);
        // Reset rushing if turns since rush is > 20 and see no more enemies.
        if (rush && myLoc.distanceSquaredTo(rushLocation) <= 100) turnsSinceRush++;
        if (turnsSinceRush > 20) {
          if (rc.senseNearbyRobots(sightRadius, enemyTeam).length == 0) {
            turnsSinceRush = 0;
            rush = false;
          }
        }

        // When rushing, be mad aggressive.
        if (rush) {
          rushMicro(rc, nearbyEnemies);
        }
        // When retreating, retreat
        else if (healing) {
          if (rc.isCoreReady()) {
            if (nearestArchonLocation != null) {
              if (myLoc.distanceSquaredTo(nearestArchonLocation) > 13) {
                bugging.enemyAvoidMove(nearbyEnemies);
                // Get away from archons that are not too close together.
              } else if (myLoc.distanceSquaredTo(nearestArchonLocation) <= 2) {
                Direction radialDir = nearestArchonLocation.directionTo(myLoc);
                Direction awayDir = Movement.getBestMoveableDirection(radialDir, rc, 2);
                if (awayDir != Direction.NONE) {
                  rc.move(awayDir);
                }
              }
            }
          }
          // Make sure to attack people even when retreating.
          // Prioritize the closest enemy. Then the closest zombie.
          if (rc.isWeaponReady()) {
            // Attack the closest enemy. If there is not one, then attack the closest zombie
            int closestDist = 10000;
            RobotInfo target = null;
            for (RobotInfo hostile : nearbyEnemies) {
              int dist = myLoc.distanceSquaredTo(hostile.location);
              if (rc.canAttackLocation(hostile.location)) {
                // There is already is a target
                if (target != null) {
                  if (target.team == enemyTeam) {
                    // Target is already enemy, so prioritize the closest
                    if (hostile.team == enemyTeam) {
                      if (dist < closestDist) {
                        target = hostile;
                        closestDist = dist;
                      }
                    } // If hostile is not an enemy, not worth considering.
                  } else {
                    // Target is not on enemy team, so hostile is best choice!
                    if (hostile.team == enemyTeam) {
                      target = hostile;
                      closestDist = dist;
                      // Both are zombies, so just pick the closest.
                    } else {
                      if (dist < closestDist) {
                        target = hostile;
                        closestDist = dist;
                      }
                    }
                  }
                  // Set a target when there is not one.
                } else {
                  target = hostile;
                  closestDist = dist;
                }
              }
            }
            // We know that if there is a target, we can attack it.
            if (target != null) {
              rc.attackLocation(target.location);
            }
          }
        }

        // When viper infected and will die from the infection, do special micro
        else if (isViperInfected(rc)
            && (rc.getHealth() < rc.getViperInfectedTurns() * 2 || rc.getRoundNum() > 2100)) {
          viperInfectedMicro(rc);
        }

        // if there are enemies in range, we should focus on attack and micro
        else if (nearbyEnemies.length > 0) {
          if (shouldLure(rc, nearbyEnemies, nearbyAllies)) luringMicro(rc);
          else micro(rc);
        } else { // otherwise, we should always be moving somewhere
          moveSoldier(rc);
        }

        Clock.yield();
      } catch (Exception e) {
        e.printStackTrace();
      }
    }
  }
예제 #11
0
  public static void run(RobotController rc) {
    team = rc.getTeam();
    while (true) {
      try {
        myLoc = rc.getLocation();
        int numOurTurrets = 0;

        // Move opposite of ally scout. Also keep track of our number of turrets.
        // Try to pair with ally turret.
        RobotInfo[] allies = rc.senseNearbyRobots(myLoc, sightRange, team);
        isPaired = false;
        int followedTurretDist = 10000;
        for (RobotInfo ally : allies) {
          if (ally.type == RobotType.SCOUT) {
            int randInt = rand.nextInt(3);
            if (randInt == 0) {
              mainDir = ally.location.directionTo(myLoc);
            } else if (randInt == 1) {
              mainDir = ally.location.directionTo(myLoc).rotateLeft();
            } else {
              mainDir = ally.location.directionTo(myLoc).rotateRight();
            }
          } else if (ally.type == RobotType.TURRET || ally.type == RobotType.TTM) {
            numOurTurrets++;
            int dist = myLoc.distanceSquaredTo(ally.location);
            if (dist < followedTurretDist) {
              // Try to pair with this turret.
              // Confirm that no other scout allies are nearby.
              RobotInfo[] otherAllies = rc.senseNearbyRobots(ally.location, dist, team);
              boolean canPairWith = true;
              for (RobotInfo otherAlly : otherAllies) {
                if (otherAlly.type == RobotType.SCOUT) {
                  int otherDist = ally.location.distanceSquaredTo(otherAlly.location);
                  if (otherDist < dist) {
                    canPairWith = false;
                    break;
                  }
                }
              }
              if (canPairWith) {
                // This is turret we can pair with.
                isPaired = true;
                followedTurretDist = dist;
                pairedTurret = ally.location;
              }
            }
          }
        }
        rc.setIndicatorString(0, "Round: " + rc.getRoundNum() + ", Is paired: " + isPaired);

        int numEnemyTurrets = 0;
        boolean inEnemyAttackRangeAndPaired = false;
        Direction dodgeEnemyDir = Direction.NONE;
        boolean inDanger = false;

        RobotInfo[] hostiles = rc.senseHostileRobots(myLoc, sightRange);
        if (isPaired) {
          if (hostiles.length > 0) {
            closestTurretLoc = null;
            int closestDist = 10000;
            RobotInfo closestEnemy = hostiles[0];
            RobotInfo bestEnemy = hostiles[0];
            // Find the best enemy.
            // In the meantime, also find the closest enemy that can hit me and get away.
            MapLocation enemyTurretLoc = null;
            MapLocation enemyScoutLoc = null;
            for (RobotInfo hostile : hostiles) {
              int dist = myLoc.distanceSquaredTo(hostile.location);
              if (hostile.type == RobotType.SCOUT) {
                enemyScoutLoc = hostile.location;
              } else if (hostile.type == RobotType.TURRET) {
                enemyTurretLoc = hostile.location;
              } else if (hostile.type == RobotType.ZOMBIEDEN) {
                // if (rc.isCoreReady()) {
                if (!hostile.location.equals(previouslyBroadcastedDen)) {
                  if (myLoc.distanceSquaredTo(pairedTurret) <= 2) {
                    previouslyBroadcastedDen = hostile.location;
                    Message.sendMessageGivenDelay(rc, hostile.location, Message.ZOMBIEDEN, 10);
                  }
                }
                // }
              }

              // First handle finding the best enemy.
              // make sure hostile range is > 5
              if (hostile.location.distanceSquaredTo(pairedTurret)
                      <= RobotType.TURRET.attackRadiusSquared
                  && hostile.location.distanceSquaredTo(pairedTurret) > 5) {
                if (bestEnemy.type == RobotType.ARCHON) {
                  if (hostile.type == RobotType.ARCHON) {
                    if (hostile.health < bestEnemy.health) {
                      bestEnemy = hostile;
                    }
                  }
                } else {
                  if (hostile.type == RobotType.ARCHON) {
                    bestEnemy = hostile;
                  } else {
                    if (hostile.health < bestEnemy.health) {
                      bestEnemy = hostile;
                    }
                  }
                }
              }
              // Then find the closest turret
              if (closestTurretDist > dist
                  && hostile.type == RobotType.TURRET
                  && hostile.location.distanceSquaredTo(pairedTurret) > 5) {
                closestTurretDist = dist;
                closestTurretLoc = hostile.location;
              }

              // Find the closest enemy
              if (closestDist > dist
                  && hostile.type != RobotType.ARCHON
                  && hostile.location.distanceSquaredTo(pairedTurret) > 5) {
                closestDist = dist;
                closestEnemy = hostile;
              }

              // If my closest enemy can hit me, get away.
              if (closestEnemy.location.distanceSquaredTo(myLoc)
                  <= closestEnemy.type.attackRadiusSquared) {
                inEnemyAttackRangeAndPaired = true;
                // Find a direction closest to paired turret that is not in attack range.
                int closestPairedDist = 10000;
                for (Direction dir : RobotPlayer.directions) {
                  if (rc.canMove(dir)) {
                    MapLocation dirLoc = myLoc.add(dir);
                    int pairedDist = dirLoc.distanceSquaredTo(pairedTurret);
                    if (dirLoc.distanceSquaredTo(closestEnemy.location)
                        > closestEnemy.type.attackRadiusSquared) {
                      if (closestPairedDist > pairedDist) {
                        closestPairedDist = pairedDist;
                        dodgeEnemyDir = dir;
                      }
                    }
                  }
                }
              }
            }
            // If there is a best enemy, send a message.
            if (bestEnemy != null
                && bestEnemy.location.distanceSquaredTo(pairedTurret) > 5
                && rc.isCoreReady()) {
              Message.sendMessageGivenRange(rc, bestEnemy.location, Message.PAIREDATTACK, 15);
            }

            // If there is a closest turret, send a message.
            if (closestTurretLoc != null && rc.isCoreReady()) {
              Message.sendMessageGivenDelay(rc, closestTurretLoc, Message.TURRET, 2.25);
              previouslyBroadcastedClosestTurretLoc = closestTurretLoc;
            }

            if (previouslyBroadcastedClosestTurretLoc != null
                && closestTurretLoc == null
                && rc.isCoreReady()) {
              Message.sendMessageGivenDelay(
                  rc, previouslyBroadcastedClosestTurretLoc, Message.TURRETKILLED, 2.25);
            }

            // if it sees enemy turret with a scout, signal that
            if (enemyScoutLoc != null && enemyTurretLoc != null && rc.isCoreReady()) {
              Message.sendMessageGivenRange(rc, enemyTurretLoc, Message.ENEMYTURRETSCOUT, 8);
            }
          }

        } else {
          // If sees an enemy, get away and record the two closest enemies. Then broadcast the
          // location while running away.
          // If Scout sees Den, then just broadcast immediately.
          // If Scout sees other enemies, then wait until far enough to broadcast.
          closestRecordedEnemy = null; // does not include the Den!
          secondClosestRecordedEnemy = null; // does not include the Den!
          int closestRecordedEnemyDist = 10000;
          int secondClosestRecordedEnemyDist = 20000;
          if (hostiles.length > 0) {
            MapLocation realLoc = myLoc.add(mainDir);
            int closestAttackingEnemyDist = 10000;
            for (RobotInfo hostile : hostiles) {
              if (hostile.type == RobotType.ZOMBIEDEN) {
                if (!hostile.location.equals(previouslyBroadcastedDen)) {
                  previouslyBroadcastedDen = hostile.location;
                  // if (rc.isCoreReady()) {
                  Message.sendMessageGivenDelay(rc, hostile.location, Message.ZOMBIEDEN, 10);
                  Direction dir = hostile.location.directionTo(myLoc);
                  if (rc.canMove(dir)) {
                    mainDir = dir;
                  } else if (rc.canMove(dir.rotateLeft())) {
                    mainDir = dir.rotateLeft();
                  } else if (rc.canMove(dir.rotateRight())) {
                    mainDir = dir.rotateRight();
                  }
                  // }
                }
              } else {
                if (hostile.type == RobotType.TURRET) {
                  numEnemyTurrets++;
                }
                // In danger only if someone can attack me.
                if (hostile.type != RobotType.ARCHON) {
                  int dist = realLoc.distanceSquaredTo(hostile.location);
                  if (hostile.type == RobotType.ZOMBIEDEN) {
                    if (dist <= 5) {
                      inDanger = true;
                    }
                  } else if (hostile.type == RobotType.TURRET) {
                    if (dist <= hostile.type.attackRadiusSquared) inDanger = true;
                  } else {
                    if (dist <= hostile.type.sensorRadiusSquared) inDanger = true;
                  }
                }

                int dist = myLoc.distanceSquaredTo(hostile.location);
                if (closestRecordedEnemy == null) {
                  closestRecordedEnemy = hostile;
                } else if (dist
                    < closestRecordedEnemyDist) { // update the two closest stored locations.
                  secondClosestRecordedEnemyDist = closestRecordedEnemyDist;
                  secondClosestRecordedEnemy = closestRecordedEnemy;
                  closestRecordedEnemyDist = dist;
                  closestRecordedEnemy = hostile;
                } else if (dist
                    < secondClosestRecordedEnemyDist) { // update the second closest stored location
                                                        // only.
                  secondClosestRecordedEnemyDist = dist;
                  secondClosestRecordedEnemy = hostile;
                }
              }
            }
            if (rc.isCoreReady()) {
              if (closestRecordedEnemy != null) {
                if (closestRecordedEnemyDist <= closestRecordedEnemy.type.attackRadiusSquared) {
                  // Send a message of the closest enemy
                  broadcastRecordedEnemy(rc, closestRecordedEnemy);
                  if (secondClosestRecordedEnemy != null) {
                    // Send a message of the second closest enemy.
                    broadcastRecordedEnemy(rc, secondClosestRecordedEnemy);
                  }
                }
              }
            }
          }
        }

        // Broadcast collectibles
        if (rc.isCoreReady()) {
          if (numTurnsStationary < 10) {
            if (isPaired) {
              if (myLoc.distanceSquaredTo(pairedTurret) <= 2) {
                broadcastCollectibles(rc, hostiles.length > 0);
              }
            } else {
              broadcastCollectibles(rc, hostiles.length > 0);
            }
          }
        }

        // Every 50 turns, broadcast whether or not I am paired
        if (rc.getRoundNum() % 50 == 0) {
          int messageType = isPaired ? Message.PAIRED : Message.UNPAIRED;
          if (isPaired) {
            if (myLoc.distanceSquaredTo(pairedTurret) <= 2) {
              if (hostiles.length > 0) {
                Message.sendMessageGivenDelay(rc, myLoc, messageType, 8);
              } else {
                Message.sendMessageGivenDelay(rc, myLoc, messageType, 0.3);
              }
            }
          } else {
            if (hostiles.length > 0) {
              Message.sendMessageGivenDelay(rc, myLoc, messageType, 8);
            } else {
              Message.sendMessageGivenDelay(rc, myLoc, messageType, 0.3);
            }
          }
        }

        // When we have more turrets, broadcast that.
        if (numOurTurrets > numEnemyTurrets && isPaired && rc.isCoreReady()) {
          if (myLoc.distanceSquaredTo(pairedTurret) <= 2) {
            if (closestTurretLoc != null) {
              Message.sendMessageGivenRange(rc, closestTurretLoc, Message.RUSH, 2 * sightRange);
            } else {
              Message.sendMessageGivenRange(
                  rc, new MapLocation(0, 0), Message.RUSHNOTURRET, 2 * sightRange);
            }
          }
        }

        // When paired, move along with the turret
        // Otherwise move in your main direction, and change it accordingly if you cannot move.
        if (isPaired) {
          if (rc.isCoreReady()) {
            if (inEnemyAttackRangeAndPaired) {
              // mainDir already computed above.
              if (dodgeEnemyDir != Direction.NONE) {
                mainDir = dodgeEnemyDir;
                rc.move(mainDir);
                numTurnsStationary = 0;
              }
            } else {
              // When not in enemy attack range, cling to paired turret (and make sure not to get
              // hit!)
              Direction dirToTurret = myLoc.directionTo(pairedTurret);
              // If right next to turret, then circle around turret
              if (myLoc.add(dirToTurret).equals(pairedTurret)) {
                Direction left = dirToTurret.rotateLeft();
                if (rc.canMove(left) && !inEnemyAttackRange(myLoc.add(left), hostiles)) {
                  mainDir = left;
                  rc.move(mainDir);
                  numTurnsStationary = 0;
                } else {
                  Direction right = dirToTurret.rotateRight();
                  if (rc.canMove(right) && !inEnemyAttackRange(myLoc.add(right), hostiles)) {
                    mainDir = right;
                    rc.move(mainDir);
                    numTurnsStationary = 0;
                  }
                }
              }
              // Otherwise, move closer to the turret.
              else {
                Direction closerDir = Movement.getBestMoveableDirection(dirToTurret, rc, 2);
                if (closerDir != Direction.NONE
                    && !inEnemyAttackRange(myLoc.add(closerDir), hostiles)) {
                  mainDir = closerDir;
                  rc.move(mainDir);
                  numTurnsStationary = 0;
                }
              }
            }
          }
        } else {
          rc.setIndicatorString(1, "Round: " + rc.getRoundNum() + ", In Danger: " + inDanger);
          if (rc.isCoreReady()) {
            if (inDanger) {
              // Go in direction maximizing the minimum distance
              int maxMinDist = 0;
              for (Direction dir : RobotPlayer.directions) {
                if (rc.canMove(dir)) {
                  MapLocation dirLoc = myLoc.add(dir);
                  int minDist = 10000;
                  for (RobotInfo hostile : hostiles) {
                    int dist = dirLoc.distanceSquaredTo(hostile.location);
                    minDist = Math.min(dist, minDist);
                  }
                  if (maxMinDist < minDist) {
                    maxMinDist = minDist;
                    mainDir = dir;
                  }
                }
              }
              rc.setIndicatorString(
                  2,
                  "Round: "
                      + rc.getRoundNum()
                      + ", Max min dist: "
                      + maxMinDist
                      + ", Dir: "
                      + mainDir);
              if (rc.canMove(mainDir)) {
                rc.move(mainDir);
                numTurnsStationary = 0;
              }
            } else {
              if (!rc.canMove(mainDir)) {
                int[] disps = {1, -1, 3, -3};
                for (int disp : disps) {
                  Direction dir = RobotPlayer.directions[((mainDir.ordinal() + disp) % 8 + 8) % 8];
                  if (rc.canMove(dir)) {
                    mainDir = dir;
                    break;
                  }
                }
              }
              if (rc.canMove(mainDir)) {
                rc.move(mainDir);
                numTurnsStationary = 0;
              }
            }
          }
        }
        numTurnsStationary++;
        Clock.yield();
      } catch (Exception e) {
        e.printStackTrace();
        Clock.yield();
      }
    }
  }