Difference between revisions of "User:Chase-san/MovSim"
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m (removing a debug print) |
m (don't actually need this limit here (assuming a user sets maxVelocity to something sane (that is +- <= MAX_VELOCITY))) |
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<syntaxhighlight> | <syntaxhighlight> | ||
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import java.awt.geom.Point2D; | import java.awt.geom.Point2D; | ||
| − | |||
import robocode.Rules; | import robocode.Rules; | ||
import robocode.util.Utils; | import robocode.util.Utils; | ||
| − | + | ||
| − | public class | + | /** |
| − | + | * A simulator class I wrote to make simulation simple. | |
| − | public | + | * |
| − | + | * @author Chase | |
| − | public | + | */ |
| − | + | public final class Simulate { | |
| + | public Point2D.Double position; | ||
| + | public double heading; | ||
| + | public double velocity; | ||
| + | public double headingDelta; | ||
| + | public double maxVelocity; | ||
| + | public double angleToTurn; | ||
| + | public int direction; | ||
| + | |||
| + | /** | ||
| + | * Create a new Simulate class | ||
| + | */ | ||
| + | public Simulate() { | ||
| + | position = new Point2D.Double(); | ||
| + | maxVelocity = Rules.MAX_VELOCITY; | ||
| + | direction = 1; | ||
} | } | ||
| − | + | ||
| − | // | + | /** |
| − | + | * We can easily set the position with this. | |
| − | public | + | */ |
| − | + | public void setLocation(double x, double y) { | |
| − | + | position.x = x; | |
| + | position.y = y; | ||
| + | } | ||
| + | |||
| + | /** | ||
| + | * Here we just make a copy of the simulator. | ||
| + | */ | ||
| + | public Simulate copy() { | ||
| + | Simulate copy = new Simulate(); | ||
| + | copy.position.setLocation(this.position); | ||
| + | copy.heading = this.heading; | ||
| + | copy.velocity = this.velocity; | ||
| + | copy.headingDelta = this.headingDelta; | ||
| + | copy.maxVelocity = this.maxVelocity; | ||
| + | copy.angleToTurn = this.angleToTurn; | ||
| + | copy.direction = this.direction; | ||
| + | return copy; | ||
| + | } | ||
| + | |||
| + | /** | ||
| + | * We calculate one step or turn into the future, and update the values accordingly | ||
| + | */ | ||
| + | public void step() { | ||
//////////////// | //////////////// | ||
//Heading | //Heading | ||
double lastHeading = heading; | double lastHeading = heading; | ||
| − | double turnRate = Rules.getTurnRateRadians | + | double turnRate = Rules.getTurnRateRadians(Math.abs(velocity)); |
| − | + | double turn = Math.min(turnRate, Math.max(angleToTurn, -turnRate)); | |
| − | + | heading = Utils.normalNearAbsoluteAngle(heading + turn); | |
| − | heading = Utils. | + | angleToTurn -= turn; |
| − | + | ||
//////////////// | //////////////// | ||
//Movement | //Movement | ||
| Line 39: | Line 73: | ||
//Acceleration | //Acceleration | ||
double acceleration = 0; | double acceleration = 0; | ||
| − | double | + | double speed = Math.abs(velocity); |
maxVelocity = Math.abs(maxVelocity); | maxVelocity = Math.abs(maxVelocity); | ||
| − | + | ||
| − | // | + | //Determine the current direction |
int velDirection = (velocity > 0 ? (int)1 : (int)-1); | int velDirection = (velocity > 0 ? (int)1 : (int)-1); | ||
| − | + | ||
| + | //Handles the zero direction, which means stop | ||
if(direction == 0) { | if(direction == 0) { | ||
maxVelocity = 0; | maxVelocity = 0; | ||
direction = velDirection; | direction = velDirection; | ||
} | } | ||
| − | + | ||
| − | if( | + | //Handles speedup from zero |
| + | if(speed < 0.000001) { | ||
velDirection = direction; | velDirection = direction; | ||
} | } | ||
| − | + | ||
| − | //Check | + | //Check if we are speeding up or slowing down |
if(velDirection == direction) { | if(velDirection == direction) { | ||
| − | if( | + | //We are speeding up or maintaining speed |
| + | if(speed <= maxVelocity) { | ||
//We are speeding up | //We are speeding up | ||
| − | acceleration = Math.min(Rules.ACCELERATION, maxVelocity - | + | acceleration = Math.min(Rules.ACCELERATION, maxVelocity - speed); |
} else { | } else { | ||
//We are slowing down in the same direction | //We are slowing down in the same direction | ||
| − | if( | + | if(speed > maxVelocity) |
| − | acceleration = Math.max(-Rules.DECELERATION, maxVelocity - | + | acceleration = Math.max(-Rules.DECELERATION, maxVelocity - speed); |
| + | //else we are maintaining speed (do nothing) | ||
} | } | ||
} else { | } else { | ||
| − | // | + | //We are slowing down or stopping |
| − | if( | + | if(speed < Rules.DECELERATION) { |
| − | // | + | //Limit pass over zero, special rules are here for this |
| − | double beyondZero = Math.abs( | + | double beyondZero = Math.abs(speed - Rules.DECELERATION); |
| − | + | acceleration = speed + (beyondZero /= 2.0); | |
| − | + | ||
| − | |||
| − | |||
| − | |||
//Limit our acceleration so it does not go beyond max when passing over zero | //Limit our acceleration so it does not go beyond max when passing over zero | ||
if(beyondZero > maxVelocity) | if(beyondZero > maxVelocity) | ||
| − | acceleration = | + | acceleration = speed + maxVelocity; |
} else { | } else { | ||
//Otherwise | //Otherwise | ||
| Line 82: | Line 117: | ||
} | } | ||
} | } | ||
| − | + | ||
| + | //Apply the direction to the acceleration, so we don't have | ||
| + | //to have a case for both directions | ||
acceleration *= direction; | acceleration *= direction; | ||
| − | + | ||
//////////////// | //////////////// | ||
//Velocity | //Velocity | ||
| − | velocity = | + | velocity += acceleration; |
| − | + | ||
//////////////// | //////////////// | ||
//Position | //Position | ||
| − | x += | + | position.x += Math.sin(heading) * velocity; |
| − | y += | + | position.y += Math.cos(heading) * velocity; |
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} | } | ||
| + | |||
| + | headingDelta = Utils.normalRelativeAngle(heading - lastHeading); | ||
} | } | ||
} | } | ||
</syntaxhighlight> | </syntaxhighlight> | ||
Latest revision as of 07:10, 16 July 2011
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 java.awt.geom.Point2D;
import robocode.Rules;
import robocode.util.Utils;
/**
* A simulator class I wrote to make simulation simple.
*
* @author Chase
*/
public final class Simulate {
public Point2D.Double position;
public double heading;
public double velocity;
public double headingDelta;
public double maxVelocity;
public double angleToTurn;
public int direction;
/**
* Create a new Simulate class
*/
public Simulate() {
position = new Point2D.Double();
maxVelocity = Rules.MAX_VELOCITY;
direction = 1;
}
/**
* We can easily set the position with this.
*/
public void setLocation(double x, double y) {
position.x = x;
position.y = y;
}
/**
* Here we just make a copy of the simulator.
*/
public Simulate copy() {
Simulate copy = new Simulate();
copy.position.setLocation(this.position);
copy.heading = this.heading;
copy.velocity = this.velocity;
copy.headingDelta = this.headingDelta;
copy.maxVelocity = this.maxVelocity;
copy.angleToTurn = this.angleToTurn;
copy.direction = this.direction;
return copy;
}
/**
* We calculate one step or turn into the future, and update the values accordingly
*/
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 speed = Math.abs(velocity);
maxVelocity = Math.abs(maxVelocity);
//Determine the current direction
int velDirection = (velocity > 0 ? (int)1 : (int)-1);
//Handles the zero direction, which means stop
if(direction == 0) {
maxVelocity = 0;
direction = velDirection;
}
//Handles speedup from zero
if(speed < 0.000001) {
velDirection = direction;
}
//Check if we are speeding up or slowing down
if(velDirection == direction) {
//We are speeding up or maintaining speed
if(speed <= maxVelocity) {
//We are speeding up
acceleration = Math.min(Rules.ACCELERATION, maxVelocity - speed);
} else {
//We are slowing down in the same direction
if(speed > maxVelocity)
acceleration = Math.max(-Rules.DECELERATION, maxVelocity - speed);
//else we are maintaining speed (do nothing)
}
} else {
//We are slowing down or stopping
if(speed < Rules.DECELERATION) {
//Limit pass over zero, special rules are here for this
double beyondZero = Math.abs(speed - Rules.DECELERATION);
acceleration = speed + (beyondZero /= 2.0);
//Limit our acceleration so it does not go beyond max when passing over zero
if(beyondZero > maxVelocity)
acceleration = speed + maxVelocity;
} else {
//Otherwise
acceleration = Rules.DECELERATION;
}
}
//Apply the direction to the acceleration, so we don't have
//to have a case for both directions
acceleration *= direction;
////////////////
//Velocity
velocity += acceleration;
////////////////
//Position
position.x += Math.sin(heading) * velocity;
position.y += Math.cos(heading) * velocity;
}
headingDelta = Utils.normalRelativeAngle(heading - lastHeading);
}
}
