Difference between revisions of "Circular Targeting"

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This is the code used in [[WaveSurfing Challenge Bot/C|WaveSurfing Challenge Bot C]]:
 
This is the code used in [[WaveSurfing Challenge Bot/C|WaveSurfing Challenge Bot C]]:
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<syntaxhighlight lang="java">
 
//Add import robocode.util.* for Utils and import java.awt.geom.* for Point2D
 
//Add import robocode.util.* for Utils and import java.awt.geom.* for Point2D
 
//This code goes in your onScannedRobot() event handler
 
//This code goes in your onScannedRobot() event handler
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* [[Circular Targeting/Walkthrough]] - An in-depth example of creating a circular targeting algorithm in Robocode, authored by [[Dummy]].
 
* [[Circular Targeting/Walkthrough]] - An in-depth example of creating a circular targeting algorithm in Robocode, authored by [[Dummy]].
* [[CodeSnippets/Nano Circular Linear Predictor | NanoBot sized circular targeting example code]]
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* Alisdair Owen's [https://www.ibm.com/developerworks/library/j-circular/index.html circular targeting tutorial] with iteration.
* Alisdair Owen's [http://www-106.ibm.com/developerworks/library/j-circular/ circular targeting tutorial] with iteration.
 
  
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{{Targeting Navbox}}
 
[[Category:Simple Targeting Strategies]]
 
[[Category:Simple Targeting Strategies]]
 
[[Category:Code Snippets]]
 
[[Category:Code Snippets]]

Latest revision as of 22:45, 9 May 2024

Description

A method of targeting which assumes that the target will continue moving with the same turn rate and at the same speed.

Example

This is the code used in WaveSurfing Challenge Bot C:

//Add import robocode.util.* for Utils and import java.awt.geom.* for Point2D
//This code goes in your onScannedRobot() event handler

double bulletPower = Math.min(3.0,getEnergy());
double myX = getX();
double myY = getY();
double absoluteBearing = getHeadingRadians() + e.getBearingRadians();
double enemyX = getX() + e.getDistance() * Math.sin(absoluteBearing);
double enemyY = getY() + e.getDistance() * Math.cos(absoluteBearing);
double enemyHeading = e.getHeadingRadians();
double enemyHeadingChange = enemyHeading - oldEnemyHeading;
double enemyVelocity = e.getVelocity();
oldEnemyHeading = enemyHeading;

double deltaTime = 0;
double battleFieldHeight = getBattleFieldHeight(), 
       battleFieldWidth = getBattleFieldWidth();
double predictedX = enemyX, predictedY = enemyY;
while((++deltaTime) * (20.0 - 3.0 * bulletPower) < 
      Point2D.Double.distance(myX, myY, predictedX, predictedY)){		
	predictedX += Math.sin(enemyHeading) * enemyVelocity;
	predictedY += Math.cos(enemyHeading) * enemyVelocity;
	enemyHeading += enemyHeadingChange;
	if(	predictedX < 18.0 
		|| predictedY < 18.0
		|| predictedX > battleFieldWidth - 18.0
		|| predictedY > battleFieldHeight - 18.0){

		predictedX = Math.min(Math.max(18.0, predictedX), 
		    battleFieldWidth - 18.0);	
		predictedY = Math.min(Math.max(18.0, predictedY), 
		    battleFieldHeight - 18.0);
		break;
	}
}
double theta = Utils.normalAbsoluteAngle(Math.atan2(
    predictedX - getX(), predictedY - getY()));

setTurnRadarRightRadians(Utils.normalRelativeAngle(
    absoluteBearing - getRadarHeadingRadians()));
setTurnGunRightRadians(Utils.normalRelativeAngle(
    theta - getGunHeadingRadians()));
fire(3);

See also