public void evaluateDistancingControl() {
double powerTwoHitPercentageThreshold;
if (_robot.getRoundNum() < 2) {
_desiredDistance = 420;
_fearDistance = 175;
_smoothAwayDistance = 75;
} else if (normalizedEnemyHitPercentage() > (powerTwoHitPercentageThreshold = 7.5)) {
_desiredDistance = 525 + (Math.max((ScanLog.avgEnemyPower() - 2), 0) * 165);
_fearDistance = 250;
_smoothAwayDistance = 75;
} else if (normalizedEnemyHitPercentage() > (powerTwoHitPercentageThreshold = 3)) {
_desiredDistance = 450 + (Math.max((ScanLog.avgEnemyPower() - 2), 0) * 150);
_fearDistance = 175;
_smoothAwayDistance = 75;
} else {
_desiredDistance = 420;
_fearDistance = 0;
_smoothAwayDistance = 0;
}
if (_robot.getRoundNum() < 2 || normalizedEnemyHitPercentage() > 7.5) {
_currentDistancer = _aggressiveDistancer;
} else {
_currentDistancer = _subtleDistancer;
}
}
public void surf() {
RobotState currentState =
new RobotState(
ScanLog.myLocation(),
_robot.getHeadingRadians(),
_robot.getVelocity(),
_robot.getTime());
boolean goingClockwise = (_lastMovementChoice == CLOCKWISE_OPTION);
double orbitCounterClockwiseDanger =
checkDanger(
currentState, COUNTERCLOCKWISE_OPTION, goingClockwise, FIRST_WAVE, WAVES_TO_SURF);
double stopDanger =
checkDanger(currentState, STOP_OPTION, goingClockwise, FIRST_WAVE, WAVES_TO_SURF);
double orbitClockwiseDanger =
checkDanger(currentState, CLOCKWISE_OPTION, goingClockwise, FIRST_WAVE, WAVES_TO_SURF);
int goOrientation = _lastMovementChoice;
Wave orbitWave = findSurfableWave(FIRST_WAVE);
double orbitAbsBearing, distanceToClosestWaveSource;
try {
distanceToClosestWaveSource = ScanLog.myLocation().distance(orbitWave.sourceLocation);
orbitAbsBearing = DUtils.absoluteBearing(orbitWave.sourceLocation, ScanLog.myLocation());
} catch (NullPointerException noSurfableWaves) {
distanceToClosestWaveSource = ScanLog.getLastDistance();
orbitAbsBearing = ScanLog.getLastEnemyScan().getAbsBearingRadians();
}
double goAngle, attackAngle;
if (stopDanger == NO_SURFABLE_WAVES) {
attackAngle = -1.047;
_robot.setMaxVelocity(8);
double goAngleCcw =
orbitAbsBearing + (COUNTERCLOCKWISE_OPTION * ((Math.PI / 2) + attackAngle));
goAngleCcw =
wallSmoothing(
ScanLog.myLocation(),
goAngleCcw,
COUNTERCLOCKWISE_OPTION,
distanceToClosestWaveSource);
double goAngleCw = orbitAbsBearing + (CLOCKWISE_OPTION * ((Math.PI / 2) + attackAngle));
goAngleCw =
wallSmoothing(
ScanLog.myLocation(), goAngleCw, CLOCKWISE_OPTION, distanceToClosestWaveSource);
if (Math.abs(Utils.normalRelativeAngle(goAngleCw - orbitAbsBearing))
< Math.abs(Utils.normalRelativeAngle(goAngleCcw - orbitAbsBearing))) {
goOrientation = CLOCKWISE_OPTION;
goAngle = goAngleCw;
} else {
goOrientation = COUNTERCLOCKWISE_OPTION;
goAngle = goAngleCcw;
}
} else {
_robot.setMaxVelocity(8);
attackAngle = _currentDistancer.attackAngle(distanceToClosestWaveSource, _desiredDistance);
if (ScanLog.enemyIsRammer()
&& ScanLog.getLastDistance() < 300
&& orbitWave != NO_WAVE_FOUND) {
if (Utils.normalRelativeAngle(
DUtils.absoluteBearing(ScanLog.myLocation(), orbitWave.sourceLocation)
- ScanLog.getLastScan().getAbsBearingRadians())
> 0) {
goOrientation = -1;
} else {
goOrientation = 1;
}
} else if (stopDanger <= orbitCounterClockwiseDanger
&& stopDanger <= orbitClockwiseDanger
&& !ScanLog.enemyIsRammer()) {
_robot.setMaxVelocity(0);
} else {
if (orbitClockwiseDanger < orbitCounterClockwiseDanger) {
goOrientation = CLOCKWISE_OPTION;
} else {
goOrientation = COUNTERCLOCKWISE_OPTION;
}
}
goAngle = orbitAbsBearing + (goOrientation * ((Math.PI / 2) + attackAngle));
goAngle =
wallSmoothing(ScanLog.myLocation(), goAngle, goOrientation, distanceToClosestWaveSource);
}
DUtils.setBackAsFront(_robot, goAngle);
_lastMovementChoice = goOrientation;
}
public double checkDanger(
RobotState startState,
int movementOption,
boolean previouslyMovingClockwise,
int surfableWaveIndex,
int recursionLevels) {
if (surfableWaveIndex >= recursionLevels) {
return 0;
}
boolean predictClockwiseOrNot;
if (movementOption == CLOCKWISE_OPTION) {
predictClockwiseOrNot = true;
} else if (movementOption == COUNTERCLOCKWISE_OPTION) {
predictClockwiseOrNot = false;
} else {
predictClockwiseOrNot = previouslyMovingClockwise;
}
Wave surfWave = findSurfableWave(surfableWaveIndex);
if (surfWave == null) {
if (surfableWaveIndex == FIRST_WAVE) {
double nonSurfableWaveDistance = 150;
surfWave = findNonSurfableWave(nonSurfableWaveDistance);
}
if (surfWave == null) {
return NO_SURFABLE_WAVES;
}
}
/*
Color drawColor = Color.white;
if (surfableWaveIndex != 0 || movementOption == STOP_OPTION) {
drawColor = Color.blue;
}
*/
double waveHitInterceptOffset = surfWave.bulletVelocity() + BOT_HALF_WIDTH;
double wavePassedInterceptOffset = surfWave.bulletVelocity();
RobotState predictedState = startState;
RobotState dangerState = startState;
boolean wavePassed = false;
boolean waveHit = false;
double maxVelocity = (movementOption == STOP_OPTION) ? 0 : 8;
do {
double orbitAbsBearing =
DUtils.absoluteBearing(surfWave.sourceLocation, predictedState.location);
double orbitDistance = surfWave.sourceLocation.distance(predictedState.location);
double attackAngle = _currentDistancer.attackAngle(orbitDistance, _desiredDistance);
boolean clockwiseSmoothing = predictClockwiseOrNot;
if (orbitDistance < _smoothAwayDistance) {
clockwiseSmoothing = !clockwiseSmoothing;
}
predictedState =
DUtils.nextPerpendicularWallSmoothedLocation(
predictedState.location,
orbitAbsBearing,
predictedState.velocity,
maxVelocity,
predictedState.heading,
attackAngle,
clockwiseSmoothing,
predictedState.time,
DUtils.battleField,
DUtils.battleFieldWidth,
DUtils.battleFieldHeight,
_wallStick,
DUtils.OBSERVE_WALL_HITS);
if (!waveHit
&& surfWave.wavePassed(
predictedState.location, predictedState.time, waveHitInterceptOffset)) {
dangerState = predictedState;
waveHit = true;
}
if (!wavePassed
&& surfWave.wavePassed(
predictedState.location, predictedState.time, wavePassedInterceptOffset)) {
wavePassed = true;
}
} while (!wavePassed);
// drawPoint(predictedState.location, drawColor);
double danger = getBinScore(surfWave, dangerState.location);
danger *= DUtils.bulletDamage(surfWave.bulletPower);
double currentDistanceToWaveSource = ScanLog.myLocation().distance(surfWave.sourceLocation);
double currentDistanceToWave =
currentDistanceToWaveSource - surfWave.distanceTraveled(_robot.getTime());
double timeToImpact = currentDistanceToWave / DUtils.bulletVelocity(surfWave.bulletPower);
if (_flattenerEnabled) {
danger /= DUtils.square(timeToImpact);
} else {
danger /= timeToImpact;
}
double nextCounterClockwiseDanger =
checkDanger(
predictedState,
COUNTERCLOCKWISE_OPTION,
predictClockwiseOrNot,
surfableWaveIndex + 1,
recursionLevels);
double nextStopDanger =
checkDanger(
predictedState,
STOP_OPTION,
predictClockwiseOrNot,
surfableWaveIndex + 1,
recursionLevels);
double nextClockwiseDanger =
checkDanger(
predictedState,
CLOCKWISE_OPTION,
predictClockwiseOrNot,
surfableWaveIndex + 1,
recursionLevels);
danger += Math.min(nextCounterClockwiseDanger, Math.min(nextStopDanger, nextClockwiseDanger));
// danger += Math.min(nextCounterClockwiseDanger, nextClockwiseDanger);
if (surfableWaveIndex == FIRST_WAVE) {
double predictedDistanceToWaveSource =
surfWave.sourceLocation.distance(predictedState.location);
double predictedDistanceToEnemy = ScanLog.enemyLocation().distance(predictedState.location);
double shorterDistance = Math.min(predictedDistanceToWaveSource, predictedDistanceToEnemy);
double distancingDangerBase = Math.max(currentDistanceToWaveSource / shorterDistance, .99);
double distancingDangerExponent =
shorterDistance > _fearDistance
? NORMAL_DISTANCING_EXPONENT
: FEARFUL_DISTANCING_EXPONENT;
danger *= Math.pow(distancingDangerBase, distancingDangerExponent);
}
return danger;
}