Difference between revisions of "XanderFramework"

From Robowiki
Jump to navigation Jump to search
(A few updates for the refactored release-ready Xander framework)
m (→‎Static Resources: formatting fix)
Line 52: Line 52:
 
=== GunStats ===
 
=== GunStats ===
 
Keeps track of hit ratios, virtual hit ratios, and other gun-based statistics.
 
Keeps track of hit ratios, virtual hit ratios, and other gun-based statistics.
=== DriveStats === Keeps track of the amount of time each drive has been used, and other drive-based statistics.
+
=== DriveStats ===  
 +
Keeps track of the amount of time each drive has been used, and other drive-based statistics.
 
=== Configuration ===
 
=== Configuration ===
 
Stores Xander framework configuration parameters.  For the most part, it is the Xander framework itself that needs access to this static resource.
 
Stores Xander framework configuration parameters.  For the most part, it is the Xander framework itself that needs access to this static resource.

Revision as of 23:02, 1 August 2011

The Xander framework is an AdvancedRobot framework that makes it easy to build new bots by combining different guns, radars, and drives. It is based on an abstract class named AbstractXanderBot that extends AdvancedRobot. All framework classes are in the package xandercat.core. When looking at any of my xandercat robots, anything outside of the xandercat.core package are components built for the Xander framework, not part of the Xander framework itself.

Xander Framework

The Xander framework is a framework on which Robocode robots can be built. This section details the core framework.

Base Robot Class

Xander robots extend the AbstractXanderBot class. The AbstractXanderBot class contains basic robot setup code and a basic processing loop.

The basic setup code performs as follows:

  • If it's the first round...
    • Create new configuration and call the configure(Configuration) method.
  • Otherwise...
    • Get configuration from the static resource mananger
  • call methods setAdjustGunForRobotTurn(true), setAdjustRadarForGunTurn(true), and setAdjustRadarForRobotTurn(true)
  • apply robot styling
  • initialize robot history and bullet history
  • create or load radar, drive, and gun
  • call initalizeForNewRound(AbstractXanderBot) on all static resources
  • create radar controller, drive controller, and gun controller
  • call drive and gun initialize(...) methods

The basic processing loop performs as follows:

  • Query radar for target
  • If no target is locked...
    • Tell drive to drive without a target
  • Otherwise...
    • Tell drive to drive with given target
    • If target is disabled...
      • Fire on target with Head-On gun
    • Otherwise...
      • Fire on target with main gun
  • Notify turn listeners of turn event
  • call execute()

A Xander robot must implement the following methods:

  • void initialize(Components) - The drive, gun, and radar should be created and stored in the Components object using the appropriate setter methods. (Note: In early versions of the framework, there were separate methods for creating the gun, radar, and drive. However, this made it more difficult to handle situations where coordination was required between two or more components. It was for this reason that all three main components are now created within a single method.)


To aid in testing, it is valid to leave the drive, gun, and/or radar null within the Components object. A null drive will cause the robot to stay in once place. A null gun will cause the robot to not fire any bullets.

In addition, a Xander robot may optionally override the following methods:

  • void configure(Configuration) - allows basic configuration of the robot to be changed
  • void style(RobotStyle) - allows setting styling options like robot colors
  • void doFinishingMoves() - moves to perform after winning a round

Static Resources

Classes within a Xander robot have easy access to a number of static resources which can be accessed through the Static Resource Manager. This includes a Timer, Robot Proxy, GunStats, DriveStats, Configuration, and RobotStyle.

Timer

The timer simply keeps track of game time. In addition to round time, it also maintains a cumulative battle time.

RobotProxy

Access to all robot getXxx methods outside of the main robot class itself should be accessed via the RobotProxy object. As a convenience, it is also passed as an argument to some interface methods.

GunStats

Keeps track of hit ratios, virtual hit ratios, and other gun-based statistics.

DriveStats

Keeps track of the amount of time each drive has been used, and other drive-based statistics.

Configuration

Stores Xander framework configuration parameters. For the most part, it is the Xander framework itself that needs access to this static resource.

RobotStyle

Stores robot vanity information, such as robot colors.

Guns, Radars, and Drives

All guns, radars, and drives are treated as static resources. (Note: In an earlier version of the framework, guns, drives, and radars did not have to be static resources. However, this was more complicated than necessary, and was therefore changed. The only downside to this change is that some components not meant to be static may have to clear out their variables between rounds in the initializeForNewRound(...) method.)

Controllers

Radars, guns, and drives control the robot through controller classes. The controllers for radar, gun, and drive provide access to the radar, gun, and drive related setXxx methods of the robot. This approach helps to prevent components from doing operations that are outside their area of responsibility, and also prevents components from calling the basic Robot control methods, or any methods that would immediately cause a turn to end. Controllers may also have other helper methods.

Robot History

Robot history is available through the RobotHistory class, and is accessible via the RobotProxy class, and is therefore available to all radars, drives, and guns. Robot history for a particular point in time is stored in a robot snapshot via the RobotSnapshot class, an immutable snapshot of a robot at a particular point in time.

Each turn, a Xander robot takes a new snapshot for itself and stores it in the history. Each scan, a new snapshot for the scanned robot is generated and stored in the history. Robot history allows the robot to look back at snapshots of itself and it's opponents back a set number of turns and scans.

Bullet History

Bullet history provides information on enemy bullets fired. Information about a fired bullet is stored as a BulletWave. Bullet history is available through the BulletHistory class, and is accessible via the RobotProxy class. The bullet history also keeps track of the opponent's hit ratio. Any component wishing to be informed of enemy bullet fired events can register itself as a BulletWaveListener.

Radar

Radars must implement the Radar interface.

Drive

Drives must implement the Drive interface.

Gun

Guns must implement the Gun interface. However, rather than creating a gun class and directly implementing the gun interface, the recommended approach for a Xander robot is to use the XanderGun class. The XanderGun class relies on two other interfaces: Targeter and PowerSelector. A PowerSelector decides on what fire power to use, while the Targeter determines how to aim the gun based on what the bullet velocity will be. When using a XanderGun, you create classes that implement Targeter and PowerSelector, and the XanderGun takes care of the rest, including:

  • Preparing information for self and target. This takes the latest snapshots and predicts them one turn into the future (necessary for a more accurate aim due to how the Robocode processing loop operates), and passes those to the Targeter for aiming.
  • Calling the setXxx methods to aim the gun and fire bullets.
  • Auto-adjusting the fire power for low energy situations (so long as the PowerSelector allows it). Fire power is modified based on the current state of the target and self. Power selection steps are as follows:
    • Get preferred fire power from the PowerSelector.
    • If power is more than is required to kill the target, reduce firepower to what is needed for a kill.
    • If target is not disabled and firing bullet would disable self, reduce firepower such that it will not disable self.

Events

Robocode issues a number of different events to the robot. A Xander framework robot repackages these events and also provides other custom events, and makes those available to other components. Xander robots can make use of the following events:

Listener Class Events Issued By (Register With) Purpose
BulletListener AbstractXanderBot Repackages Robocode events onBulletHit, onBulletHitBullet, onBulletMissed, and onHitByBullet
BulletFiredListener AbstractXanderBot Provides basic information on enemy bullet fired at self, including snapshots of enemy, self, and energy of bullet.
BulletWaveHitListener BulletHistory Provides details on enemy bullet waves as they are tracked by the bullet history, including when waves are created and destroyed, when they hit, and what wave matches any bullet that hits self.
CollisionListener AbstractXanderBot Repackages Robocode events onHitRobot and onHitWall
MyBulletFiredListener GunController Provides details on our own bullet waves, including when they are fired, when they are invalidated (by being old or after bullet hit bullet), when they hit the targeted opponent, and what the next wave to hit is.
Painter AbstractXanderBot Repackages Robocode event onPaint, allowing other components to paint on the battlefield
RoundListener AbstractXanderBot Repackages Robocode events onWin, onDeath, onBattleEnded, onRobotDeath, and onRoundEnded
ScannedRobotListener AbstractXanderBot Repackages Robocode event onScannedRobot
TurnListener AbstractXanderBot Event that fires on every iteration of the AbstractXanderBot main processing loop. This event fires immediately before execute() is called.

Xander Framework Components

Most of these components are not considered part of the Xander framework core; they are more accurately thought of as components built for the Xander framework. Exceptions to this are CompoundDrive and CompoundGun, which are part of the basic Xander philosophy of building drive trees and gun trees, and the HeadOnTargeter, as it is used by a Xander framework core class and must therefore be considered part of the framework.

Xander Radars

BasicRadar

Basic radar scan the field, and locks onto the first target it finds. Target can switch if another robot happens to be closer and drives through the scan beam.

Xander Guns

Xander guns must implement the Gun interface.

AntiMirrorGun

Specifically for targeting opponents who use a mirroring drive strategy. Must be used in combination with the AntiMirrorDrive.

BSProtectedGun

A wrapper for other guns that provides support for counteracting bullet shielding.

CircularTargeter

This gun is for targeting opponents that drive in circles. If the opponent does not appear to be going in circles, this gun will not fire on the target. One advantage this gun has over some other circular targeting implementations is that it works for circular paths that are centered anywhere, and is not limited to circular paths centered at the location bullet wave was fired from. This gun pulverizes SpinBot.

HeadOnTargeter

Head-on shots.

LinearTargeter

This gun is for targeting opponents that drive in a straight line. It fires on the opponent based on the opponents current speed and heading. It does not attempt to determine whether the target is actually moving in a straight line or not, but does compensate for battlefield bounds (don't shoot off the grid). The linear intercept calculation is precise (not iterative nor an approximation).

StatTargeter

This gun is a "guess factor" gun that relies on statistics to determine how to aim. It relies on a Segmenter to determine how to categorize the statistics it collects (Segmenter is a separate interface). It requires a certain load before a segment will be used; when under that load, it uses an overall factor array with no segmentation.

AdvancedStatTargeter

Extends the StatGun, adding the capability of using an AdvancedSegmenter such that multiple combinations of segmenters can be used on the fly.

CompoundGun

Combines two or more other guns. Compound gun delegates gunning to other guns based on a GunSelector. By default, a CompoundGun uses the FirstAvailGunSelector.

GunSelector

Compound guns can be set up with different gun selection modules. Some available gun selection modules include:

  • FirstAvailGunSelector - original behavior before gun selectors, this one just hands off to the first gun it finds that claims it can fire at the target.
  • HitRatioGunSelector - this gun selector looks at gun hit ratios and bullets fired for each gun to determine which gun to fire with.
  • VirtualHitRatioGunSelector - this gun selector looks at virtual hit ratios for all guns to determine what gun to fire with.

Xander Drives

Xander drives must implement the Drive interface.

AntiMirrorDrive

Drive specifically for use with opponents who use a mirroring drive strategy. This drive must be used in combination with the AntiMirrorGun.

BasicSurferDrive

This drive is an adaptation of the Wave Surfing drive used in the BasicGFSurfer robot.

CompoundDrive

A drive that combines multiple other drives. A CompoundDrive forms a branch of the drive tree, with individual drives forming the leaves. Which drive to use is determined by a DriveSelector.

DriveSelector

Interface that provides the means for selecting between drives.

OrbitalDrive

This drive approaches the target using linear targeting and then, when it range, orbits around the target, changing direction periodically. It originally also used "inverse gravity bullet avoidance", although this is no longer the case; this feature was an early experimental feature of the framework, and has since been removed in favor of tracking bullet "waves" without predicting the firing direction.

RamboDrive

This drive attempts to ram the enemy. It can be configured so that it does not approach the enemy in a straight line, but the effectiveness may still be limited against the better bots out there.

RamEscapeDrive

For getting away from needy robots who always want a hug.

StatDrive

This drive is a Wave Surfing drive of my own design. Similar to the StatGun, it supports using a segmenter, and a compound drive segmenter is available to combine the effects of multiple drive segmenters.

AdvancedStatDrive

Extends the StatDrive, adding the capability of using an AdvancedSegmenter.

Segmentation

Drives and guns now use a single set of segmenters. Basic segmenters must implement the Segmenter interface. Current available segmenters include:

  • AdvancedCompoundSegmenter - implements the AdvancedSegmenter interface, which in turn extends the Segmenter interface. This is the most advanced form of segmenter that combines multiple other segmenters in a way where different combinations of those segmenters can be used independently. It is used by the AdvancedStatDrive and AdvancedStatGun.
  • CompoundSegmenter - A segmenter that combines multiple other segmenters. The combined segmenters are always analyzed together in combination.
  • BulletSpeedSegmenter - segments on bullet speed
  • BulletTravelTimeSegmenter - segments on bullet travel time
  • DefenderAccelerationSegmenter - segments on defender acceleration
  • DefenderSpeedSegmenter - segments on defender speed
  • DistanceSegmenter - segments on distance between robots
  • LateralVelocitySegmenter - segments on lateral velocity
  • NullSegmenter - provides no segmentation (a segmenter with only a single segment).
  • RelativeDirectionSegmenter - segments on whether opponent appears to be orbiting clockwise or counter-clockwise.
  • WallSmoothingSegmenter - segments on whether it appears defender will have to wall smooth clockwise, counter-clockwise, both directions (in corner), or not at all.

Xander Utilities

Logging

The Xander framework provides basic logging services loosely based on the Log4J logging model. Though not nearly as configurable as Log4J logging, it is much more advanced than just using System.out.print statements.

Xander logs have the following levels, in order of significance:

  • DEBUG - Debugging messages.
  • INFO - Informational messages. This is the default logging level.
  • WARNING - Warning messages.
  • STAT - Statistics messages. These are meant to be messages that are useful during development, but also of interest for a finished robot.
  • ERROR - Error messages.

Log levels are defined by the nested Enum named Level in the Log class (e.g. the level INFO would be accessed via Log.Level.INFO)

Logging consists of two classes: Logger and Log. Each class can have it's own Log. A Log is created by the Logger.

A Log can currently be created in a manner similar to as follows:

public class ExampleClass {

	private static final Log log = Logger.getLog(ExampleClass.class);

}

Once created, it can be used by calling the appropriate methods of the Log class as in the following example:

	log.info("This is an informational message.");

Similar to Log4J, log messages will only be printed if the level of the message is at or above the level set in the Log. By default, all Logs are at level INFO. This can be changed globally on startup through the Logger class, or on a Log by Log basis.

The main Xander robot class, AbstractXanderBot, provides a protected method getDefaultLogLevel() for setting the global logging level on startup. Robots using the Xander framework can override this method to change the default logging level for all Logs.

Mathematics

Circular

This class contains methods specific to circular targeting. These methods are available outside the CircularGun because it is possible that other components may have use for calculating circular paths.

Linear

This class contains methods specific to linear targeting. These methods are available outside the LinearGun because it is possible thar other components may have use for calculating linear paths. For example, a drive may be interested in approaching an opponent using a linear intercept path.

MathUtil

This class provides generic math helper functions. Most are targeted at solving Robocode problems, but are still usable in a more generic sense.

RoboPhysics

This class provides constants and methods that are only useful within the context of Robocode. Some of what it provides is obsolete due to various additions to the Robocode API over the last few years -- specifically the Robocode Rules and Utils classes -- but I leave it there for posterity.

Xander Code Examples

Radars, Gun, and Drives

Radars, Guns, and Drives all follow a similar pattern. Each must implement an interface. The methods defined in the interfaces provide a controller as an argument. Controllers are actually wrappers for the main robot class that limit exposure of main class methods to only those methods they should be allowed to call. For example, a Gun is allowed to call methods to turn the gun, but is not allowed to call methods that would turn the radar or robot body.

As an example, below is the Gun interface. However, note that it will likely change before the Xander framework is considered complete:

/**
 * Interface to be implemented by XanderBot gun classes.
 * 
 * @author Scott Arnold
 */
public interface Gun {

	public String getName();
	
	public void initialize(GunController gunController);
	
	public boolean canFireAt(String robotName, GunController gunController);
		
	public void fireAt(String robotName, GunController gunController);
	
}

At present, Controllers are recreated at the beginning of each round. It is primarily for this reason that the initialize(...) method is provided.

Main Robot Class

Note: This section is way outdated and needs to be updated.

As an example of how the Xander framework is used, below is the source for the main robot class of XanderCat 2.0.

/**
 * 1-on-1 robot built on the Xander framework.  Also suitable for melee.
 * 
 * @author Scott Arnold
 */
public class XanderCat extends AbstractXanderBot {	
	
	@Override
	protected Level getLogLevel() {
		return Log.Level.INFO;
	}

	@Override
	protected Radar createRadar() {
		return new BasicRadar(this, 45, 5);
	}

	@Override
	protected Drive createDrive() {
		return new OrbitalDrive(this, 200, 40, 0.5f);
	}

	@Override
	protected Gun createGun() {
		FiringProfile firingProfile = new FiringProfile(
				1.0d, 500d, 3.0d, 150d, 0.5d, 450d, 700d);
		Segmenter segmenter = new CompoundSegmenter(
				new BulletTravelTimeSegmenter(getName(), 12, getBattlefieldBounds()),
				new RelativeDirectionSegmenter(10));
		return new CompoundGun(
				new StatGun(this, firingProfile, 1000, 10, 30, segmenter, true),
				new CircularGun(firingProfile), 
				new LinearGun(firingProfile));
	}

}

Handling Static Data

In order to remember information from one battle to the next, it is necessary to save that information in some static variable or object. However, this would seem to cause problems if you want to pit a robot against itself, or if you want to run two different robots off of the same base framework classes. This would seem to be a problem because suddenly you have two or more distinct robots sharing certain static resources, when each robot should have it's own unique set. However, Robocode uses a separate class loader for every robot, putting each robot in it's own isolated sandbox. This means static variables are not shared among robots.

The Xander framework attempts to adhere to good object oriented practices; declaring variables or objects as static to preserve them between rounds is considered contrary to this. Therefore, the Xander framework provides a static resource manager. The static resource manager is a singleton that stores objects in a static Map. Whenever a variable or object needs to be kept or retrieved from round to round, the static resource manager instance is obtained, and then the variable or object is stored or retrieved from it.

The static resource manager supports storing three different kinds of objects, which are referred to as resources, properties, and static objects: