// @param allowGreaterDistance whether or not the robot is allowed to move further away in moving // toward public Direction moveToward(MapLocation location, Boolean allowGreaterDistance) throws GameActionException { if (location == null) return null; MapLocation currentLocation = this.robot.locationController.currentLocation(); double currentDistance = currentLocation.distanceSquaredTo(location); Direction direction = this.robot.robotController.getLocation().directionTo(location); int directionInteger = directionToInt(direction); int[] offsets = {0, 1, -1, 2, -2}; for (int offset : offsets) { direction = MovementController.directionFromInt(directionInteger + offset); MapLocation moveLocation = currentLocation.add(direction); if (!allowGreaterDistance && moveLocation.distanceSquaredTo(location) > currentDistance) continue; if (this.moveTo(direction)) { return direction; } } return null; }
public Direction moveToward(MapLocation location, Boolean allowGreaterDistance, int[] offsets) throws GameActionException { if (location == null) return null; MapLocation currentLocation = this.robot.locationController.currentLocation(); double currentDistance = currentLocation.distanceSquaredTo(location); Direction direction = currentLocation.directionTo(location); int directionInteger = directionToInt(direction); if (this.actualLastPosition != null && currentLocation.distanceSquaredTo(this.actualLastPosition) <= 1) this.turnsStuck++; if (this.turnsStuck > 1) return this.moveAroundObstacleToward(location); if (moveTo(direction)) { this.actualLastPosition = currentLocation; return direction; } else { for (int offset : offsets) { Direction directionOne = MovementController.directionFromInt(directionInteger + offset); Direction directionTwo = MovementController.directionFromInt(directionInteger - offset); direction = this.moveTowardDirections( currentLocation, location, directionOne, directionTwo, allowGreaterDistance, currentDistance); if (direction != null) { this.actualLastPosition = currentLocation; return direction; } } } this.turnsStuck++; return null; }
// moves away from a location using the moveTo method (and its implications) public Direction moveAway(MapLocation location) throws GameActionException { if (location == null) return null; MapLocation currentLocation = this.robot.locationController.currentLocation(); Direction direction = currentLocation.directionTo(location); return this.moveToward( currentLocation.add(MovementController.directionWithOffset(direction, -4))); }
public Direction moveAway(RobotInfo[] enemies) throws GameActionException { MapLocation currentLocation = this.robot.locationController.currentLocation(); Direction opposite = null; for (RobotInfo enemy : enemies) { opposite = MovementController.directionWithOffset(currentLocation.directionTo(enemy.location), -4); break; } return this.moveToward(currentLocation.add(opposite, 40)); }
public Direction moveAway(RobotInfo[] enemies) throws GameActionException { MapLocation currentLocation = this.robot.locationController.currentLocation(); RobotInfo closestEnemy = null; double closestDistance = Double.MAX_VALUE; for (RobotInfo enemy : enemies) { double distance = currentLocation.distanceSquaredTo(enemy.location); if (distance < closestDistance) { closestEnemy = enemy; closestDistance = distance; } } Direction opposite = MovementController.directionWithOffset( currentLocation.directionTo(closestEnemy.location), -4); return this.moveToward(currentLocation.add(opposite, 40)); }
public static Direction directionWithOffset(Direction direction, int offset) { return MovementController.directionFromInt( MovementController.directionToInt(direction) + offset); }
// follows a wall until it can move towards it's initial target, switching directions if it gets // stuck public Direction moveAroundObstacleToward(MapLocation location) throws GameActionException { if (this.traversalDirection == 0) { // start with a random traversal direction if (this.robot.random.nextBoolean()) this.traversalDirection = -1; else this.traversalDirection = 1; } MapLocation robotLocation = this.robot.locationController.currentLocation(); this.actualLastPosition = robotLocation; Direction directionToTarget = robotLocation.directionTo(location); Direction directionToLastPosition = this.lastPosition != null ? robotLocation.directionTo(this.lastPosition) : null; int switchedDirection = 0; this.robot.robotController.setIndicatorString( 2, "Traversal Direction " + this.traversalDirection + " Dir to target " + directionToTarget + " Dir to LP " + directionToLastPosition); // see if it can move toward it's target if (directionToTarget == directionToLastPosition || !this.moveTo(directionToTarget)) { if (this.lastLastPosition != null && robotLocation.distanceSquaredTo(this.lastLastPosition) <= 1 && this.turnsStuckWhilePathfinding == 0) { // if just moved in a triangle this.traversalDirection = -this.traversalDirection; } this.robot.robotController.setIndicatorString(2, "I CAN'T move towards target"); // traverse along obstacle, switching directions if it hits a loop around or outer wall for (int i = 1; i < 8 && switchedDirection <= 1; i++) { Direction direction = MovementController.directionWithOffset(directionToTarget, i * this.traversalDirection); MapLocation nextLocation = robotLocation.add(direction); this.robot.robotController.setIndicatorDot(nextLocation, 255, 255, 255); if (!direction.equals(directionToLastPosition) || this.turnsStuckWhilePathfinding > 1) { if (this.robot.movementController.moveTo(direction)) { this.lastLastPosition = this.lastPosition; this.lastPosition = robotLocation; if (this.turnsStuckWhilePathfinding > 0) this.turnsStuckWhilePathfinding -= 1; return direction; } else { if (this.robot .robotController .senseTerrainTile(nextLocation) .equals(TerrainTile.OFF_MAP)) { this.traversalDirection = -this .traversalDirection; // Might need to do additional checks if this switches // too often i = 0; switchedDirection++; } } } } // check if didn't move (dead end) if (robotLocation.equals(this.actualLastPosition)) { this.turnsStuckWhilePathfinding++; } } else { this.robot.robotController.setIndicatorString(2, "I can move towards target"); this.robot.robotController.setIndicatorLine(robotLocation, location, 255, 255, 255); this.turnsStuck = 0; return directionToTarget; } // System.out.println("Didn't find move location."); return null; }