Difference between revisions of "User:Chase-san/MovSim"

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m (removing a debug print)
m (updating)
Line 5: Line 5:
  
 
<syntaxhighlight>
 
<syntaxhighlight>
package chase.s2.move;
 
 
import java.awt.geom.Point2D;
 
 
 
import robocode.Rules;
 
import robocode.Rules;
 
import robocode.util.Utils;
 
import robocode.util.Utils;
  
public class MovSim2 {
+
public final class Simulator {
//New DeAccel Rule, cannot go from -1 to 1, would go from -1 to 0.5
 
 
public static final boolean useNewDeaccelRule = true;
 
public static final boolean useNewDeaccelRule = true;
 
 
public static final MovSim2Stat step(Point2D p, double velocity, int direction, double heading, double angle) {
+
public Point2D.Double position;
return step(p.getX(), p.getY(), velocity, Rules.MAX_VELOCITY, direction, heading, angle);
+
public double heading;
 +
public double velocity;
 +
public double headingDelta;
 +
public double maxVelocity;
 +
public double angleToTurn;
 +
public int direction;
 +
 +
public Simulator() {
 +
position = new Point2D.Double();
 +
maxVelocity = Rules.MAX_VELOCITY;
 +
direction = 1;
 +
}
 +
 
 +
public void setPos(double x, double y) {
 +
position.x = x;
 +
position.y = y;
 
}
 
}
+
 
//For Dead Code
+
public void step() {
@SuppressWarnings("all")
 
public static final MovSim2Stat step(double x, double y, double velocity, double maxVelocity,
 
int direction, double heading, double angleToTurn) {
 
 
 
////////////////
 
////////////////
 
//Heading
 
//Heading
 
double lastHeading = heading;
 
double lastHeading = heading;
double turnRate = Rules.getTurnRateRadians(velocity);
+
double turnRate = Rules.getTurnRateRadians(Math.abs(velocity));
if(Math.abs(angleToTurn) < turnRate) heading += angleToTurn;
+
double turn = Math.min(turnRate, Math.max(angleToTurn, -turnRate));
else heading += turnRate * Math.signum(angleToTurn);
+
heading = Utils.normalNearAbsoluteAngle(heading + turn);
heading = Utils.normalAbsoluteAngle(heading);
+
angleToTurn -= turn;
 
 
 
////////////////
 
////////////////
Line 45: Line 51:
 
int velDirection = (velocity > 0 ? (int)1 : (int)-1);
 
int velDirection = (velocity > 0 ? (int)1 : (int)-1);
 
 
 +
//Handles direction zero stop
 
if(direction == 0) {
 
if(direction == 0) {
 
maxVelocity = 0;
 
maxVelocity = 0;
Line 50: Line 57:
 
}
 
}
 
 
 +
//Handles speedup from zero
 
if(absVelocity < 0.000001) {
 
if(absVelocity < 0.000001) {
 
velDirection = direction;
 
velDirection = direction;
Line 91: Line 99:
 
////////////////
 
////////////////
 
//Position
 
//Position
x += velocity * Math.sin(heading);
+
position.x += Math.sin(heading) * velocity;
y += velocity * Math.cos(heading);
+
position.y += Math.cos(heading) * velocity;
}
 
return new MovSim2Stat(x,y,velocity,heading,Utils.normalRelativeAngle(heading - lastHeading));
 
}
 
 
 
public static final MovSim2Stat stepWall(double x, double y, double velocity, double maxVelocity,
 
int direction, double heading, double angleToTurn, double fieldW, double fieldH) {
 
MovSim2Stat stat = step(x,y,velocity,maxVelocity,direction, heading, angleToTurn);
 
if (stat.x < 18 || stat.y < 18 || stat.x > fieldW - 18 || stat.y > fieldH - 18) {
 
stat.v = 0;
 
stat.x = Math.max(18, Math.min(fieldW - 18, stat.x));
 
stat.y = Math.max(18, Math.min(fieldH - 18, stat.y));
 
}
 
return stat;
 
}
 
 
public static final class MovSim2Stat {
 
public double x, y;
 
public double v, h, w; //w = heading change
 
public MovSim2Stat(double x, double y, double v, double h, double w) {
 
this.x = x;
 
this.y = y;
 
this.v = v;
 
this.h = h;
 
this.w = w;
 
 
}
 
}
 +
 +
headingDelta = Utils.normalRelativeAngle(heading - lastHeading);
 
}
 
}
 
}
 
}
 
</syntaxhighlight>
 
</syntaxhighlight>

Revision as of 09:42, 27 July 2010

This is the move simulator I created, for use in Precise Prediction, it was influenced by Albert's Precise Prediction code. Unlike his it doesn't handle distance, but that is a very complicated set of code (which I might add later if there is a need).

This and all my other code in which I display on the robowiki falls under the ZLIB License.

import robocode.Rules;
import robocode.util.Utils;

public final class Simulator {
	public static final boolean useNewDeaccelRule = true;
	
	public Point2D.Double position;
	public double heading;
	public double velocity;
	public double headingDelta;
	public double maxVelocity;
	public double angleToTurn;
	public int direction;
	
	public Simulator() {
		position = new Point2D.Double();
		maxVelocity = Rules.MAX_VELOCITY;
		direction = 1;
	}

	public void setPos(double x, double y) {
		position.x = x;
		position.y = y;
	}

	public void step() {
		////////////////
		//Heading
		double lastHeading = heading;
		double turnRate = Rules.getTurnRateRadians(Math.abs(velocity));
		double turn = Math.min(turnRate, Math.max(angleToTurn, -turnRate));
		heading = Utils.normalNearAbsoluteAngle(heading + turn);
		angleToTurn -= turn;
		
		////////////////
		//Movement
		if(direction != 0 || velocity != 0.0) {
			////////////////
			//Acceleration
			double acceleration = 0;
			double absVelocity = Math.abs(velocity);
			maxVelocity = Math.abs(maxVelocity);
			
			//Stop and ask for directions
			int velDirection = (velocity > 0 ? (int)1 : (int)-1);
			
			//Handles direction zero stop
			if(direction == 0) {
				maxVelocity = 0;
				direction = velDirection;
			}
			
			//Handles speedup from zero
			if(absVelocity < 0.000001) {
				velDirection = direction;
			}
			
			//Check directions
			if(velDirection == direction) {
				if(absVelocity <= maxVelocity) {
					//We are speeding up
					acceleration = Math.min(Rules.ACCELERATION, maxVelocity - absVelocity);
				} else {
					//We are slowing down in the same direction
					if(absVelocity > maxVelocity)
						acceleration = Math.max(-Rules.DECELERATION, maxVelocity - absVelocity);
				}
			} else {
				//If this is the case then we are always slowing down
				if(absVelocity < Rules.DECELERATION) {
					//Do we pass over zero, special rules are here for this
					double beyondZero = Math.abs(absVelocity - Rules.DECELERATION);
					if(useNewDeaccelRule) {
						acceleration = absVelocity + (beyondZero /= 2.0);
					} else {
						acceleration = Rules.DECELERATION;
					}
					//Limit our acceleration so it does not go beyond max when passing over zero
					if(beyondZero > maxVelocity)
						acceleration = absVelocity + maxVelocity;
				} else {
					//Otherwise
					acceleration = Rules.DECELERATION;
				}
			}
			
			acceleration *= direction;
			
			////////////////
			//Velocity
			velocity = Math.min(Math.max(-Rules.MAX_VELOCITY, velocity + acceleration), Rules.MAX_VELOCITY);
			
			////////////////
			//Position
			position.x += Math.sin(heading) * velocity;
			position.y += Math.cos(heading) * velocity;
		}
		
		headingDelta = Utils.normalRelativeAngle(heading - lastHeading);
	}
}