Update BitGameCanvas.java

Removed System-Outs to clean up console
Added a ChatGPT generated MiniMaxAI based on the old MiniMaxAI but with alpha-beta pruning and heuristics for Reversi
2026-02-04 10:54:51 +00:00 · 2025-12-05 22:08:45 +01:00 · 2025-12-05 14:18:47 +01:00 · 2025-12-05 14:09:54 +01:00 · 2025-12-05 12:16:03 +01:00 · 2025-12-05 01:20:01 +01:00
50 changed files with 1332 additions and 1571 deletions
--- a/app/src/main/java/org/toop/app/Server.java
+++ b/app/src/main/java/org/toop/app/Server.java
@@ -2,9 +2,7 @@ package org.toop.app;
 import javafx.application.Platform;
 import javafx.geometry.Pos;
-import org.toop.app.gameControllers.AbstractGameController;
+import org.toop.app.gameControllers.*;
 import org.toop.app.gameControllers.ReversiController;
 import org.toop.app.gameControllers.TicTacToeController;
 import org.toop.app.widget.Primitive;
 import org.toop.app.widget.WidgetContainer;
 import org.toop.app.widget.complex.LoadingWidget;
@@ -13,15 +11,16 @@ import org.toop.app.widget.popup.ErrorPopup;
 import org.toop.app.widget.popup.SendChallengePopup;
 import org.toop.app.widget.view.ServerView;
 import org.toop.framework.eventbus.EventFlow;
 import org.toop.framework.gameFramework.controller.GameController;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.framework.networking.clients.TournamentNetworkingClient;
 import org.toop.framework.networking.events.NetworkEvents;
 import org.toop.framework.networking.types.NetworkingConnector;
 import org.toop.game.games.reversi.BitboardReversi;
 import org.toop.game.games.tictactoe.BitboardTicTacToe;
 import org.toop.game.players.ArtificialPlayer;
 import org.toop.game.players.OnlinePlayer;
-import org.toop.game.games.reversi.ReversiAIR;
+import org.toop.game.players.RandomAI;
 import org.toop.game.games.reversi.ReversiR;
 import org.toop.game.games.tictactoe.TicTacToeAIR;
 import org.toop.local.AppContext;
 import java.util.List;
@@ -42,7 +41,7 @@ public final class Server {
 	private ServerView primary;
 	private boolean isPolling = true;
-    private AbstractGameController<?> gameController;
+    private GameController gameController;
    private final AtomicBoolean isSingleGame = new AtomicBoolean(false);
@@ -194,26 +193,31 @@ public final class Server {
            information.players[0].computerThinkTime = 1;
            information.players[1].name = response.opponent();
-            Player[] players = new Player[2];
+            /*switch (type){
            players[(myTurn + 1) % 2] = new OnlinePlayer<ReversiR>(response.opponent());
            switch (type){
                case TICTACTOE ->{
                    players[myTurn] = new ArtificialPlayer<>(new TicTacToeAIR(), user);
                }
                case REVERSI ->{
                    players[myTurn] = new ArtificialPlayer<>(new ReversiAIR(), user);
                }
-            }
+            }*/
            switch (type) {
                case TICTACTOE ->{
-                        gameController = new TicTacToeController(players, false);
+                        Player<BitboardTicTacToe>[] players = new Player[2];
                        players[(myTurn + 1) % 2] = new OnlinePlayer<>(response.opponent());
                        players[myTurn] = new ArtificialPlayer<>(new RandomAI<BitboardTicTacToe>(), user);
                        gameController = new TicTacToeBitController(players);
                }
-                case REVERSI ->
+                case REVERSI -> {
-                        gameController = new ReversiController(players, false);
+                    Player<BitboardReversi>[] players = new Player[2];
                    players[(myTurn + 1) % 2] = new OnlinePlayer<>(response.opponent());
                    players[myTurn] = new ArtificialPlayer<>(new RandomAI<BitboardReversi>(), user);
                    gameController = new ReversiBitController(players);}
                default -> new ErrorPopup("Unsupported game type.");
            }
            if (gameController != null){
--- a/app/src/main/java/org/toop/app/canvas/BitGameCanvas.java
+++ b/app/src/main/java/org/toop/app/canvas/BitGameCanvas.java
@@ -0,0 +1,247 @@
 package org.toop.app.canvas;
 import javafx.animation.KeyFrame;
 import javafx.animation.Timeline;
 import javafx.scene.canvas.Canvas;
 import javafx.scene.canvas.GraphicsContext;
 import javafx.scene.input.MouseButton;
 import javafx.scene.paint.Color;
 import javafx.scene.text.Font;
 import javafx.util.Duration;
 import org.toop.framework.eventbus.EventFlow;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.view.GUIEvents;
 import java.util.function.Consumer;
 public abstract class BitGameCanvas<T extends TurnBasedGame<T>> implements GameCanvas<T> {
 	protected record Cell(float x, float y, float width, float height) {
 		public boolean isInside(double x, double y) {
 			return x >= this.x && x <= this.x + width &&
 				y >= this.y && y <= this.y + height;
 		}
 	}
 	protected final Canvas canvas;
 	protected final GraphicsContext graphics;
 	protected final Color color;
 	protected final Color backgroundColor;
 	protected final int width;
 	protected final int height;
 	protected final int rowSize;
 	protected final int columnSize;
 	protected final int gapSize;
 	protected final boolean edges;
 	protected final Cell[] cells;
    private Consumer<Long> onCellCLicked;
    public void setOnCellClicked(Consumer<Long> onClick) {
        this.onCellCLicked = onClick;
    }
 	protected BitGameCanvas(Color color, Color backgroundColor, int width, int height, int rowSize, int columnSize, int gapSize, boolean edges) {
 		canvas = new Canvas(width, height);
 		graphics = canvas.getGraphicsContext2D();
        this.onCellCLicked = (c) -> new EventFlow().addPostEvent(GUIEvents.PlayerAttemptedMove.class, c).postEvent();
 		this.color = color;
 		this.backgroundColor = backgroundColor;
 		this.width = width;
 		this.height = height;
 		this.rowSize = rowSize;
 		this.columnSize = columnSize;
 		this.gapSize = gapSize;
 		this.edges = edges;
 		cells = new Cell[rowSize * columnSize];
 		final float cellWidth = ((float) width - gapSize * rowSize - gapSize) / rowSize;
 		final float cellHeight = ((float) height - gapSize * columnSize - gapSize) / columnSize;
 		for (int y = 0; y < columnSize; y++) {
 			final float startY = y * cellHeight + y * gapSize + gapSize;
 			for (int x = 0; x < rowSize; x++) {
 				final float startX = x * cellWidth + x * gapSize + gapSize;
 				cells[x + y * rowSize] = new Cell(startX, startY, cellWidth, cellHeight);
 			}
 		}
 		canvas.setOnMouseClicked(event -> {
 			if (event.getButton() != MouseButton.PRIMARY) {
 				return;
 			}
 			final int column = (int) ((event.getX() / this.width) * rowSize);
 			final int row = (int) ((event.getY() / this.height) * columnSize);
 			final Cell cell = cells[column + row * rowSize];
 			if (cell.isInside(event.getX(), event.getY())) {
 				event.consume();
 				this.onCellCLicked.accept(1L << (column + row * rowSize));
 			}
 		});
 		render();
 	}
    public void loopOverBoard(long bb, Consumer<Integer> onCell){
        while (bb != 0) {
            int idx = Long.numberOfTrailingZeros(bb); // index of least-significant 1-bit
            onCell.accept(idx);
            bb &= bb - 1; // clear LSB 1-bit
        }
    }
 	private void render() {
 		graphics.setFill(backgroundColor);
 		graphics.fillRect(0, 0, width, height);
 		graphics.setFill(color);
 		for (int x = 0; x < rowSize - 1; x++) {
 			final float start = cells[x].x + cells[x].width;
 			graphics.fillRect(start, gapSize, gapSize, height - gapSize * 2);
 		}
 		for (int y = 0; y < columnSize - 1; y++) {
 			final float start = cells[y * rowSize].y + cells[y * rowSize].height;
 			graphics.fillRect(gapSize, start, width - gapSize * 2, gapSize);
 		}
 		if (edges) {
 			graphics.fillRect(0, 0, width, gapSize);
 			graphics.fillRect(0, 0, gapSize, height);
 			graphics.fillRect(width - gapSize, 0, gapSize, height);
 			graphics.fillRect(0, height - gapSize, width, gapSize);
 		}
 	}
 	public void fill(Color color, int cell) {
 		final float x = cells[cell].x();
 		final float y = cells[cell].y();
 		final float width = cells[cell].width();
 		final float height = cells[cell].height();
 		graphics.setFill(color);
 		graphics.fillRect(x, y, width, height);
 	}
 	public void clear(int cell) {
 		final float x = cells[cell].x();
 		final float y = cells[cell].y();
 		final float width = cells[cell].width();
 		final float height = cells[cell].height();
 		graphics.clearRect(x, y, width, height);
 		graphics.setFill(backgroundColor);
 		graphics.fillRect(x, y, width, height);
 	}
 	public void clearAll() {
 		for (int i = 0; i < cells.length; i++) {
 			clear(i);
 		}
 	}
    public void drawPlayerMove(int player, int move) {
        final float x = cells[move].x() + gapSize;
        final float y = cells[move].y() + gapSize;
        final float width = cells[move].width() - gapSize * 2;
        final float height = cells[move].height() - gapSize * 2;
        graphics.setFill(color);
        graphics.setFont(Font.font("Arial", 40)); // TODO different font and size
        graphics.fillText(String.valueOf(player), x + width, y + height);
    }
 	public void drawDot(Color color, int cell) {
 		final float x = cells[cell].x() + gapSize;
 		final float y = cells[cell].y() + gapSize;
 		final float width = cells[cell].width() - gapSize * 2;
 		final float height = cells[cell].height() - gapSize * 2;
 		graphics.setFill(color);
 		graphics.fillOval(x, y, width, height);
 	}
    public void drawInnerDot(Color color, int cell, boolean slightlyBigger) {
        final float x = cells[cell].x() + gapSize;
        final float y = cells[cell].y() + gapSize;
        float multiplier = slightlyBigger?1.4f:1.5f;
        final float width = (cells[cell].width() - gapSize * 2)/multiplier;
        final float height = (cells[cell].height() - gapSize * 2)/multiplier;
        float offset = slightlyBigger?5f:4f;
        graphics.setFill(color);
        graphics.fillOval(x + width/offset, y + height/offset, width, height);
    }
 	private void drawDotScaled(Color color, int cell, double scale) {
 		final float cx = cells[cell].x() + gapSize;
 		final float cy = cells[cell].y() + gapSize;
 		final float fullWidth = cells[cell].width() - gapSize * 2;
 		final float height = cells[cell].height() - gapSize * 2;
 		final float scaledWidth = (float)(fullWidth * scale);
 		final float offsetX = (fullWidth - scaledWidth) / 2;
 		graphics.setFill(color);
 		graphics.fillOval(cx + offsetX, cy, scaledWidth, height);
 	}
 	public Timeline flipDot(Color fromColor, Color toColor, int cell) {
 		final int steps = 60;
 		final long duration = 250;
 		final double interval = duration / (double) steps;
 		final Timeline timeline = new Timeline();
 		for (int i = 0; i <= steps; i++) {
 			final double t = i / (double) steps;
 			final KeyFrame keyFrame = new KeyFrame(Duration.millis(i * interval),
 				_ -> {
 					clear(cell);
 					final double scale = t <= 0.5 ? 1 - 2 * t : 2 * t - 1;
 					final Color currentColor = t < 0.5 ? fromColor : toColor;
 					drawDotScaled(currentColor, cell, scale);
 				}
 			);
 			timeline.getKeyFrames().add(keyFrame);
 		}
 		return timeline;
 	}
 	public Canvas getCanvas() {
 		return canvas;
 	}
 }
--- a/app/src/main/java/org/toop/app/canvas/Connect4Canvas.java
+++ b/app/src/main/java/org/toop/app/canvas/Connect4Canvas.java
@@ -1,17 +0,0 @@
 package org.toop.app.canvas;
 import javafx.scene.paint.Color;
 import org.toop.framework.gameFramework.model.game.AbstractGame;
 import java.util.function.Consumer;
 public class Connect4Canvas extends GameCanvas {
    public Connect4Canvas(Color color, int width, int height, Consumer<Integer> onCellClicked) {
        super(color, Color.TRANSPARENT, width, height, 7, 6, 10, true, onCellClicked,null);
    }
    @Override
    public void drawPlayerHover(int player, int move, AbstractGame game) {
    }
 }
--- a/app/src/main/java/org/toop/app/canvas/DrawPlayerHover.java
+++ b/app/src/main/java/org/toop/app/canvas/DrawPlayerHover.java
@@ -1,7 +1,7 @@
 package org.toop.app.canvas;
-import org.toop.framework.gameFramework.model.game.AbstractGame;
+import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 public interface DrawPlayerHover {
-    void drawPlayerHover(int player, int move, AbstractGame game);
+    void drawPlayerHover(int player, int move, TurnBasedGame game);
 }
--- a/app/src/main/java/org/toop/app/canvas/GameCanvas.java
+++ b/app/src/main/java/org/toop/app/canvas/GameCanvas.java
@@ -1,237 +1,8 @@
 package org.toop.app.canvas;
 import javafx.animation.KeyFrame;
 import javafx.animation.Timeline;
 import javafx.scene.canvas.Canvas;
-import javafx.scene.canvas.GraphicsContext;
+import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import javafx.scene.input.MouseButton;
 import javafx.scene.paint.Color;
 import javafx.scene.text.Font;
 import javafx.util.Duration;
 import org.toop.framework.gameFramework.model.game.AbstractGame;
-import java.util.function.Consumer;
+public interface GameCanvas<T extends TurnBasedGame<T>> extends GameDrawer<T>{
-
+    Canvas getCanvas();
-public abstract class GameCanvas<T extends AbstractGame> implements DrawPlayerMove, DrawPlayerHover {
+}
 	protected record Cell(float x, float y, float width, float height) {
 		public boolean isInside(double x, double y) {
 			return x >= this.x && x <= this.x + width &&
 				y >= this.y && y <= this.y + height;
 		}
 	}
 	protected final Canvas canvas;
 	protected final GraphicsContext graphics;
 	protected final Color color;
 	protected final Color backgroundColor;
 	protected final int width;
 	protected final int height;
 	protected final int rowSize;
 	protected final int columnSize;
 	protected final int gapSize;
 	protected final boolean edges;
 	protected final Cell[] cells;
    private Consumer<Integer> onCellCLicked;
    public void setOnCellClicked(Consumer<Integer> onClick) {
        this.onCellCLicked = onClick;
    }
 	protected GameCanvas(Color color, Color backgroundColor, int width, int height, int rowSize, int columnSize, int gapSize, boolean edges, Consumer<Integer> onCellClicked, Consumer<Integer> newCellEntered) {
 		canvas = new Canvas(width, height);
 		graphics = canvas.getGraphicsContext2D();
        this.onCellCLicked = onCellClicked;
 		this.color = color;
 		this.backgroundColor = backgroundColor;
 		this.width = width;
 		this.height = height;
 		this.rowSize = rowSize;
 		this.columnSize = columnSize;
 		this.gapSize = gapSize;
 		this.edges = edges;
 		cells = new Cell[rowSize * columnSize];
 		final float cellWidth = ((float) width - gapSize * rowSize - gapSize) / rowSize;
 		final float cellHeight = ((float) height - gapSize * columnSize - gapSize) / columnSize;
 		for (int y = 0; y < columnSize; y++) {
 			final float startY = y * cellHeight + y * gapSize + gapSize;
 			for (int x = 0; x < rowSize; x++) {
 				final float startX = x * cellWidth + x * gapSize + gapSize;
 				cells[x + y * rowSize] = new Cell(startX, startY, cellWidth, cellHeight);
 			}
 		}
 		canvas.setOnMouseClicked(event -> {
 			if (event.getButton() != MouseButton.PRIMARY) {
 				return;
 			}
 			final int column = (int) ((event.getX() / this.width) * rowSize);
 			final int row = (int) ((event.getY() / this.height) * columnSize);
 			final Cell cell = cells[column + row * rowSize];
 			if (cell.isInside(event.getX(), event.getY())) {
 				event.consume();
 				this.onCellCLicked.accept(column + row * rowSize);
 			}
 		});
 		render();
 	}
 	private void render() {
 		graphics.setFill(backgroundColor);
 		graphics.fillRect(0, 0, width, height);
 		graphics.setFill(color);
 		for (int x = 0; x < rowSize - 1; x++) {
 			final float start = cells[x].x + cells[x].width;
 			graphics.fillRect(start, gapSize, gapSize, height - gapSize * 2);
 		}
 		for (int y = 0; y < columnSize - 1; y++) {
 			final float start = cells[y * rowSize].y + cells[y * rowSize].height;
 			graphics.fillRect(gapSize, start, width - gapSize * 2, gapSize);
 		}
 		if (edges) {
 			graphics.fillRect(0, 0, width, gapSize);
 			graphics.fillRect(0, 0, gapSize, height);
 			graphics.fillRect(width - gapSize, 0, gapSize, height);
 			graphics.fillRect(0, height - gapSize, width, gapSize);
 		}
 	}
 	public void fill(Color color, int cell) {
 		final float x = cells[cell].x();
 		final float y = cells[cell].y();
 		final float width = cells[cell].width();
 		final float height = cells[cell].height();
 		graphics.setFill(color);
 		graphics.fillRect(x, y, width, height);
 	}
 	public void clear(int cell) {
 		final float x = cells[cell].x();
 		final float y = cells[cell].y();
 		final float width = cells[cell].width();
 		final float height = cells[cell].height();
 		graphics.clearRect(x, y, width, height);
 		graphics.setFill(backgroundColor);
 		graphics.fillRect(x, y, width, height);
 	}
 	public void clearAll() {
 		for (int i = 0; i < cells.length; i++) {
 			clear(i);
 		}
 	}
    @Override
    public void drawPlayerMove(int player, int move) {
        final float x = cells[move].x() + gapSize;
        final float y = cells[move].y() + gapSize;
        final float width = cells[move].width() - gapSize * 2;
        final float height = cells[move].height() - gapSize * 2;
        graphics.setFill(color);
        graphics.setFont(Font.font("Arial", 40)); // TODO different font and size
        graphics.fillText(String.valueOf(player), x + width, y + height);
    }
 	public void drawDot(Color color, int cell) {
 		final float x = cells[cell].x() + gapSize;
 		final float y = cells[cell].y() + gapSize;
 		final float width = cells[cell].width() - gapSize * 2;
 		final float height = cells[cell].height() - gapSize * 2;
 		graphics.setFill(color);
 		graphics.fillOval(x, y, width, height);
 	}
    public void drawInnerDot(Color color, int cell, boolean slightlyBigger) {
        final float x = cells[cell].x() + gapSize;
        final float y = cells[cell].y() + gapSize;
        float multiplier = slightlyBigger?1.4f:1.5f;
        final float width = (cells[cell].width() - gapSize * 2)/multiplier;
        final float height = (cells[cell].height() - gapSize * 2)/multiplier;
        float offset = slightlyBigger?5f:4f;
        graphics.setFill(color);
        graphics.fillOval(x + width/offset, y + height/offset, width, height);
    }
 	private void drawDotScaled(Color color, int cell, double scale) {
 		final float cx = cells[cell].x() + gapSize;
 		final float cy = cells[cell].y() + gapSize;
 		final float fullWidth = cells[cell].width() - gapSize * 2;
 		final float height = cells[cell].height() - gapSize * 2;
 		final float scaledWidth = (float)(fullWidth * scale);
 		final float offsetX = (fullWidth - scaledWidth) / 2;
 		graphics.setFill(color);
 		graphics.fillOval(cx + offsetX, cy, scaledWidth, height);
 	}
 	public Timeline flipDot(Color fromColor, Color toColor, int cell) {
 		final int steps = 60;
 		final long duration = 250;
 		final double interval = duration / (double) steps;
 		final Timeline timeline = new Timeline();
 		for (int i = 0; i <= steps; i++) {
 			final double t = i / (double) steps;
 			final KeyFrame keyFrame = new KeyFrame(Duration.millis(i * interval),
 				_ -> {
 					clear(cell);
 					final double scale = t <= 0.5 ? 1 - 2 * t : 2 * t - 1;
 					final Color currentColor = t < 0.5 ? fromColor : toColor;
 					drawDotScaled(currentColor, cell, scale);
 				}
 			);
 			timeline.getKeyFrames().add(keyFrame);
 		}
 		return timeline;
 	}
 	public Canvas getCanvas() {
 		return canvas;
 	}
 }
--- a/app/src/main/java/org/toop/app/canvas/GameDrawer.java
+++ b/app/src/main/java/org/toop/app/canvas/GameDrawer.java
@@ -0,0 +1,7 @@
 package org.toop.app.canvas;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 public interface GameDrawer<T extends TurnBasedGame<T>> {
    void redraw(T gameCopy);
 }
--- a/app/src/main/java/org/toop/app/canvas/ReversiBitCanvas.java
+++ b/app/src/main/java/org/toop/app/canvas/ReversiBitCanvas.java
@@ -0,0 +1,42 @@
 package org.toop.app.canvas;
 import javafx.scene.paint.Color;
 import org.toop.app.App;
 import org.toop.game.games.reversi.BitboardReversi;
 import java.util.Arrays;
 import java.util.function.Consumer;
 public class ReversiBitCanvas extends BitGameCanvas<BitboardReversi> {
    public ReversiBitCanvas() {
        super(Color.GRAY, new Color(0f, 0.4f, 0.2f, 1f), (App.getHeight() / 4) * 3, (App.getHeight() / 4) * 3, 8, 8, 5, true);
        canvas.setOnMouseMoved(event -> {
            double mouseX = event.getX();
            double mouseY = event.getY();
            int cellId = -1;
            BitGameCanvas.Cell hovered = null;
            for (BitGameCanvas.Cell cell : cells) {
                if (cell.isInside(mouseX, mouseY)) {
                    hovered = cell;
                    cellId = turnCoordsIntoCellId(mouseX, mouseY);
                    break;
                }
            }
        });
    }
    private int turnCoordsIntoCellId(double x, double y) {
        final int column = (int) ((x / this.width) * rowSize);
        final int row = (int) ((y / this.height) * columnSize);
        return column + row * rowSize;
    }
    @Override
    public void redraw(BitboardReversi gameCopy) {
        clearAll();
        long[] board = gameCopy.getBoard();
        loopOverBoard(board[0], (i) -> drawDot(Color.WHITE, i));
        loopOverBoard(board[1], (i) -> drawDot(Color.BLACK, i));
    }
 }
--- a/app/src/main/java/org/toop/app/canvas/ReversiCanvas.java
+++ b/app/src/main/java/org/toop/app/canvas/ReversiCanvas.java
@@ -1,96 +0,0 @@
 package org.toop.app.canvas;
 import javafx.scene.paint.Color;
 import org.toop.framework.gameFramework.model.game.AbstractGame;
 import org.toop.game.Move;
 import org.toop.game.games.reversi.ReversiR;
 import java.util.concurrent.atomic.AtomicReference;
 import java.util.function.Consumer;
 public final class ReversiCanvas extends GameCanvas<ReversiR> {
    private Move[] currentlyHighlightedMoves = null;
 	public ReversiCanvas(Color color, int width, int height, Consumer<Integer> onCellClicked,  Consumer<Integer> newCellEntered) {
 		super(color, new Color(0f,0.4f,0.2f,1f), width, height, 8, 8, 5, true, onCellClicked,  newCellEntered);
 		drawStartingDots();
        final AtomicReference<Cell> lastHoveredCell = new AtomicReference<>(null);
        canvas.setOnMouseMoved(event -> {
            double mouseX = event.getX();
            double mouseY = event.getY();
            int cellId = -1;
            Cell hovered = null;
            for (Cell cell : cells) {
                if (cell.isInside(mouseX, mouseY)) {
                    hovered = cell;
                    cellId = turnCoordsIntoCellId(mouseX, mouseY);
                    break;
                }
            }
            Cell previous = lastHoveredCell.get();
            if (hovered != previous) {
                lastHoveredCell.set(hovered);
                newCellEntered.accept(cellId);
            }
        });
 	}
    public void setCurrentlyHighlightedMovesNull() {
        currentlyHighlightedMoves = null;
    }
    public void drawHighlightDots(Move[] moves){
        if (currentlyHighlightedMoves != null){
            for (final Move move : currentlyHighlightedMoves){
                Color color = move.value() == 'W'? Color.BLACK: Color.WHITE;
                drawInnerDot(color, move.position(), true);
            }
        }
        currentlyHighlightedMoves = moves;
        if (moves != null) {
            for (Move move : moves) {
                Color color = move.value() == 'B' ? Color.BLACK : Color.WHITE;
                drawInnerDot(color, move.position(), false);
            }
        }
    }
    private int turnCoordsIntoCellId(double x, double y) {
        final int column = (int) ((x / this.width) * rowSize);
        final int row = (int) ((y / this.height) * columnSize);
        return column + row * rowSize;
    }
 	public void drawStartingDots() {
 		drawDot(Color.BLACK, 28);
 		drawDot(Color.WHITE, 36);
 		drawDot(Color.BLACK, 35);
 		drawDot(Color.WHITE, 27);
 	}
 	public void drawLegalPosition(int cell, char player) {
        Color innerColor;
        if (player == 'B') {
            innerColor = new Color(0.0f, 0.0f, 0.0f, 0.6f);
        }
        else {
            innerColor = new Color(1.0f, 1.0f, 1.0f, 0.75f);
        }
        drawInnerDot(innerColor, cell,false);
 	}
    @Override
    public void drawPlayerMove(int player ,int move){
        super.drawPlayerMove(player, move);
    }
    @Override
    public void drawPlayerHover(int player, int move, AbstractGame game) {
    }
 }
--- a/app/src/main/java/org/toop/app/canvas/TicTacToeBitCanvas.java
+++ b/app/src/main/java/org/toop/app/canvas/TicTacToeBitCanvas.java
@@ -0,0 +1,63 @@
 package org.toop.app.canvas;
 import javafx.scene.paint.Color;
 import org.toop.app.App;
 import org.toop.game.games.tictactoe.BitboardTicTacToe;
 import java.util.Arrays;
 import java.util.function.Consumer;
 public class TicTacToeBitCanvas extends BitGameCanvas<BitboardTicTacToe>{
    public TicTacToeBitCanvas() {
        super(
                Color.GRAY,
                Color.TRANSPARENT,
                (App.getHeight() / 4) * 3,
                (App.getHeight() / 4) * 3,
                3,
                3,
                30,
                false
        );
    }
    @Override
    public void redraw(BitboardTicTacToe gameCopy) {
        clearAll();
        drawMoves(gameCopy.getBoard());
    }
    private void drawMoves(long[] gameBoard){
        loopOverBoard(gameBoard[0], (i) -> drawX(Color.RED, i));
        loopOverBoard(gameBoard[1], (i) -> drawO(Color.BLUE, i));
    }
    public void drawX(Color color, int cell) {
        graphics.setStroke(color);
        graphics.setLineWidth(gapSize);
        final float x = cells[cell].x() + gapSize;
        final float y = cells[cell].y() + gapSize;
        final float width = cells[cell].width() - gapSize * 2;
        final float height = cells[cell].height() - gapSize * 2;
        graphics.strokeLine(x, y, x + width, y + height);
        graphics.strokeLine(x + width, y, x, y + height);
    }
    public void drawO(Color color, int cell) {
        graphics.setStroke(color);
        graphics.setLineWidth(gapSize);
        final float x = cells[cell].x() + gapSize;
        final float y = cells[cell].y() + gapSize;
        final float width = cells[cell].width() - gapSize * 2;
        final float height = cells[cell].height() - gapSize * 2;
        graphics.strokeOval(x, y, width, height);
    }
 }
--- a/app/src/main/java/org/toop/app/canvas/TicTacToeCanvas.java
+++ b/app/src/main/java/org/toop/app/canvas/TicTacToeCanvas.java
@@ -1,54 +0,0 @@
 package org.toop.app.canvas;
 import javafx.scene.paint.Color;
 import org.toop.framework.gameFramework.model.game.AbstractGame;
 import org.toop.game.games.tictactoe.TicTacToeR;
 import java.util.function.Consumer;
 public final class TicTacToeCanvas extends GameCanvas<TicTacToeR> {
 	public TicTacToeCanvas(Color color, int width, int height, Consumer<Integer> onCellClicked) {
 		super(color, Color.TRANSPARENT, width, height, 3, 3, 30, false, onCellClicked,null);
 	}
    @Override
    public void drawPlayerMove(int player, int move) {
        switch (player) {
            case 0 -> drawX(Color.RED, move);
            case 1 -> drawO(Color.BLUE, move);
            default -> super.drawPlayerMove(player, move);
        }
    }
 	public void drawX(Color color, int cell) {
 		graphics.setStroke(color);
 		graphics.setLineWidth(gapSize);
 		final float x = cells[cell].x() + gapSize;
 		final float y = cells[cell].y() + gapSize;
 		final float width = cells[cell].width() - gapSize * 2;
 		final float height = cells[cell].height() - gapSize * 2;
 		graphics.strokeLine(x, y, x + width, y + height);
 		graphics.strokeLine(x + width, y, x, y + height);
 	}
 	public void drawO(Color color, int cell) {
 		graphics.setStroke(color);
 		graphics.setLineWidth(gapSize);
 		final float x = cells[cell].x() + gapSize;
 		final float y = cells[cell].y() + gapSize;
 		final float width = cells[cell].width() - gapSize * 2;
 		final float height = cells[cell].height() - gapSize * 2;
 		graphics.strokeOval(x, y, width, height);
 	}
    @Override
    public void drawPlayerHover(int player, int move, AbstractGame game) {
    }
 }
--- a/app/src/main/java/org/toop/app/gameControllers/AbstractGameController.java
+++ b/app/src/main/java/org/toop/app/gameControllers/AbstractGameController.java
@@ -1,127 +0,0 @@
 package org.toop.app.gameControllers;
 import org.apache.logging.log4j.LogManager;
 import org.apache.logging.log4j.Logger;
 import org.toop.framework.gameFramework.controller.UpdatesGameUI;
 import org.toop.framework.gameFramework.view.GUIEvents;
 import org.toop.app.canvas.GameCanvas;
 import org.toop.framework.networking.events.NetworkEvents;
 import org.toop.framework.gameFramework.model.game.threadBehaviour.ThreadBehaviour;
 import org.toop.app.widget.view.GameView;
 import org.toop.framework.eventbus.EventFlow;
 import org.toop.game.gameThreads.OnlineThreadBehaviour;
 import org.toop.framework.gameFramework.model.game.AbstractGame;
 import org.toop.framework.gameFramework.model.game.SupportsOnlinePlay;
 import org.toop.framework.gameFramework.model.player.Player;
 import java.util.ArrayList;
 import java.util.List;
 import java.util.function.Consumer;
 public abstract class AbstractGameController<T extends AbstractGame<T>> implements UpdatesGameUI, ThreadBehaviour<T> {
    protected final EventFlow eventFlow = new EventFlow();
    protected final List<Consumer<?>> listeners = new ArrayList<>();
    // Logger for logging ofcourse
    protected final Logger logger = LogManager.getLogger(this.getClass());
    // Reference to primary view
    protected final GameView primary;
    // Reference to game canvas
    protected final GameCanvas<T> canvas;
    private final Player<T>[] players;         // List of players, can't be changed.
    protected final T game;       // Reference to game instance
    private final ThreadBehaviour<T> gameThreadBehaviour;
    // TODO: Change gameType to automatically happen with either dependency injection or something else.
    // TODO: Make visualisation of moves a behaviour.
    protected AbstractGameController(GameCanvas<T> canvas, Player<T>[] players, T game, ThreadBehaviour<T> gameThreadBehaviour, String gameType) {
        logger.info("Creating AbstractGameController");
        // Make sure player list matches expected size
        if (players.length != game.getPlayerCount()){
            logger.error("Player count mismatch");
            throw new IllegalArgumentException("players and game's players must have same length");
        }
        this.canvas = canvas;
        this.players = players;
        this.game = game;
        this.gameThreadBehaviour = gameThreadBehaviour;
        primary = new GameView(null, null, null, gameType);
        addListeners();
    }
    public void start(){
        logger.info("Starting GameManager");
        gameThreadBehaviour.start();;
    }
    public void stop(){
        logger.info("Stopping GameManager");
        removeListeners();
        gameThreadBehaviour.stop();
    }
    public Player<T> getCurrentPlayer(){
        return game.getPlayer(getCurrentPlayerIndex());
    };
    public int getCurrentPlayerIndex(){
        return game.getCurrentTurn();
    }
    private void addListeners(){
        eventFlow
                .listen(GUIEvents.RefreshGameCanvas.class, this::onUpdateGameUI, false)
                .listen(GUIEvents.GameEnded.class, this::onGameFinish, false);
    }
    private void removeListeners(){
        eventFlow.unsubscribeAll();
    }
    private void onUpdateGameUI(GUIEvents.RefreshGameCanvas event){
        this.updateUI();
    }
    private void onGameFinish(GUIEvents.GameEnded event){
        logger.info("Game Finished");
        String name = event.winner() == -1 ? null : getPlayer(event.winner()).getName();
        primary.gameOver(event.winOrTie(), name);
        stop();
    }
    public Player<T> getPlayer(int player){
        if (player < 0 || player >= players.length){
            logger.error("Invalid player index");
            throw new IllegalArgumentException("player out of range");
        }
        return players[player];
    }
    private boolean isOnline(){
        return this.gameThreadBehaviour instanceof SupportsOnlinePlay;
    }
    public void onYourTurn(NetworkEvents.YourTurnResponse event){
        if (isOnline()){
            ((OnlineThreadBehaviour<T>) this.gameThreadBehaviour).onYourTurn(event);
        }
    }
    public void onMoveReceived(NetworkEvents.GameMoveResponse event){
        if (isOnline()){
            ((OnlineThreadBehaviour<T>) this.gameThreadBehaviour).onMoveReceived(event);
        }
    }
    public void gameFinished(NetworkEvents.GameResultResponse event){
        if (isOnline()){
            ((OnlineThreadBehaviour<T>) this.gameThreadBehaviour).gameFinished(event);
        }
    }
 }
--- a/app/src/main/java/org/toop/app/gameControllers/GenericGameController.java
+++ b/app/src/main/java/org/toop/app/gameControllers/GenericGameController.java
@@ -0,0 +1,144 @@
 package org.toop.app.gameControllers;
 import javafx.application.Platform;
 import javafx.geometry.Pos;
 import org.apache.logging.log4j.LogManager;
 import org.apache.logging.log4j.Logger;
 import org.toop.app.canvas.GameCanvas;
 import org.toop.app.widget.WidgetContainer;
 import org.toop.app.widget.view.GameView;
 import org.toop.framework.eventbus.EventFlow;
 import org.toop.framework.eventbus.GlobalEventBus;
 import org.toop.framework.gameFramework.controller.GameController;
 import org.toop.framework.gameFramework.model.game.SupportsOnlinePlay;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.model.game.threadBehaviour.ThreadBehaviour;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.framework.gameFramework.view.GUIEvents;
 import org.toop.framework.networking.events.NetworkEvents;
 import org.toop.game.players.LocalPlayer;
 import java.util.ArrayList;
 import java.util.List;
 import java.util.function.Consumer;
 public class GenericGameController<T extends TurnBasedGame<T>> implements GameController {
    protected final EventFlow eventFlow = new EventFlow();
    // Logger for logging
    protected final Logger logger = LogManager.getLogger(this.getClass());
    // Reference to gameView view
    protected final GameView gameView;
    // Reference to game canvas
    protected final GameCanvas<T> canvas;
    protected final TurnBasedGame<T> game;       // Reference to game instance
    private final ThreadBehaviour gameThreadBehaviour;
    // TODO: Change gameType to automatically happen with either dependency injection or something else.
    public GenericGameController(GameCanvas<T> canvas, T game, ThreadBehaviour gameThreadBehaviour, String gameType) {
        logger.info("Creating: " + this.getClass());
        this.canvas = canvas;
        this.game = game;
        this.gameThreadBehaviour = gameThreadBehaviour;
        // Tell thread how to send moves
        this.gameThreadBehaviour.setOnSendMove((id, m) -> GlobalEventBus.postAsync(new NetworkEvents.SendMove(id, (short)translateMove(m))));
        // Tell thread how to update UI
        this.gameThreadBehaviour.setOnUpdateUI(() -> Platform.runLater(this::updateUI));
        // Change scene to game view
        gameView = new GameView(null, null, null, gameType);
        gameView.add(Pos.CENTER, canvas.getCanvas());
        WidgetContainer.getCurrentView().transitionNext(gameView, true);
        // Listen to updates
        eventFlow
                .listen(GUIEvents.GameEnded.class, this::onGameFinish, false)
                .listen(GUIEvents.PlayerAttemptedMove.class, event -> {if (getCurrentPlayer() instanceof LocalPlayer<T> lp){lp.setMove(event.move());}}, false);
    }
    public void start(){
        logger.info("Starting GameManager");
        updateUI();
        gameThreadBehaviour.start();
    }
    public void stop(){
        logger.info("Stopping GameManager");
        removeListeners();
        gameThreadBehaviour.stop();
    }
    public Player<T> getCurrentPlayer(){
        return game.getPlayer(getCurrentPlayerIndex());
    };
    public int getCurrentPlayerIndex(){
        return game.getCurrentTurn();
    }
    protected long translateMove(int move){
        return 1L << move;
    }
    protected int translateMove(long move){
        return Long.numberOfTrailingZeros(move);
    }
    private void removeListeners(){
        eventFlow.unsubscribeAll();
    }
    private void onGameFinish(GUIEvents.GameEnded event){
        logger.info("Game Finished");
        String name = event.winner() == -1 ? null : getPlayer(event.winner()).getName();
        gameView.gameOver(event.winOrTie(), name);
        stop();
    }
    public Player<T> getPlayer(int player){
        if (player < 0 || player >= 2){ // TODO: Make game turn player count
            logger.error("Invalid player index");
            throw new IllegalArgumentException("player out of range");
        }
        return game.getPlayer(player);
    }
    private boolean isOnline(){
        return this.gameThreadBehaviour instanceof SupportsOnlinePlay;
    }
    public void onYourTurn(NetworkEvents.YourTurnResponse event){
        if (isOnline()){
            ((SupportsOnlinePlay) this.gameThreadBehaviour).onYourTurn(event.clientId());
        }
    }
    public void onMoveReceived(NetworkEvents.GameMoveResponse event){
        if (isOnline()){
            ((SupportsOnlinePlay) this.gameThreadBehaviour).onMoveReceived(
                    translateMove(Integer.parseInt(event.move())));
        }
    }
    public void gameFinished(NetworkEvents.GameResultResponse event){
        if (isOnline()){
            ((SupportsOnlinePlay) this.gameThreadBehaviour).gameFinished(event.condition());
        }
    }
    @Override
    public void sendMove(long clientId, long move) {
        new EventFlow().addPostEvent(NetworkEvents.SendMove.class, clientId, (short) Long.numberOfTrailingZeros(move)).asyncPostEvent();
    }
    @Override
    public void updateUI() {
        canvas.redraw(game.deepCopy());
    }
 }
--- a/app/src/main/java/org/toop/app/gameControllers/ReversiBitController.java
+++ b/app/src/main/java/org/toop/app/gameControllers/ReversiBitController.java
@@ -0,0 +1,22 @@
 package org.toop.app.gameControllers;
 import org.toop.app.canvas.ReversiBitCanvas;
 import org.toop.framework.gameFramework.model.game.threadBehaviour.ThreadBehaviour;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.game.gameThreads.LocalThreadBehaviour;
 import org.toop.game.gameThreads.OnlineThreadBehaviour;
 import org.toop.game.games.reversi.BitboardReversi;
 import org.toop.game.players.OnlinePlayer;
 public class ReversiBitController extends GenericGameController<BitboardReversi> {
    public ReversiBitController(Player<BitboardReversi>[] players) {
        BitboardReversi game = new BitboardReversi(players);
        ThreadBehaviour thread = new LocalThreadBehaviour<>(game);
        for (Player<BitboardReversi> player : players) {
            if (player instanceof OnlinePlayer<BitboardReversi>){
                thread = new OnlineThreadBehaviour<>(game);
            }
        }
        super(new ReversiBitCanvas(), game, thread, "Reversi");
    }
 }
--- a/app/src/main/java/org/toop/app/gameControllers/ReversiController.java
+++ b/app/src/main/java/org/toop/app/gameControllers/ReversiController.java
@@ -1,138 +0,0 @@
 package org.toop.app.gameControllers;
 import javafx.animation.SequentialTransition;
 import javafx.geometry.Pos;
 import javafx.scene.paint.Color;
 import org.toop.app.App;
 import org.toop.app.canvas.ReversiCanvas;
 import org.toop.app.widget.WidgetContainer;
 import org.toop.framework.eventbus.EventFlow;
 import org.toop.framework.gameFramework.model.game.AbstractGame;
 import org.toop.framework.gameFramework.view.GUIEvents;
 import org.toop.game.gameThreads.LocalFixedRateThreadBehaviour;
 import org.toop.game.gameThreads.OnlineThreadBehaviour;
 import org.toop.game.players.LocalPlayer;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.game.games.reversi.ReversiR;
 public class ReversiController extends AbstractGameController<ReversiR> {
    // TODO: Refactor GUI update methods to follow designed system
    public ReversiController(Player<ReversiR>[] players, boolean local) {
        ReversiR ReversiR = new ReversiR(players);
        super(
                new ReversiCanvas(Color.GRAY, (App.getHeight() / 4) * 3, (App.getHeight() / 4) * 3,(c) -> {new EventFlow().addPostEvent(GUIEvents.PlayerAttemptedMove.class, c).postEvent();}, (c) -> {new EventFlow().addPostEvent(GUIEvents.PlayerMoveHovered.class, c).postEvent();}),
                players,
                ReversiR,
                local ? new LocalFixedRateThreadBehaviour<>(ReversiR, players) : new OnlineThreadBehaviour<>(ReversiR, players), // TODO: Player order matters here, this won't work atm
                "Reversi");
        eventFlow.listen(GUIEvents.PlayerAttemptedMove.class, event -> {if (getCurrentPlayer() instanceof LocalPlayer lp){lp.setMove(event.move());}}, false);
        eventFlow.listen(GUIEvents.PlayerMoveHovered.class, this::onHoverMove, false);
        initUI();
    }
    private void onHoverMove(GUIEvents.PlayerMoveHovered event){
        int cellEntered = event.move();
        canvas.drawPlayerHover(-1, cellEntered, game);
        /*// (information.players[game.getCurrentTurn()].isHuman) {
            int[] legalMoves = game.getLegalMoves();
            boolean isLegalMove = false;
            for (int move : legalMoves) {
                if (move == cellEntered){
                    isLegalMove = true;
                    break;
                }
            }
            if (cellEntered >= 0){
                int[] moves = null;
                if (isLegalMove) {
                    moves = game.getFlipsForPotentialMove(
                            new Point(cellEntered%game.getColumnSize(),cellEntered/game.getRowSize()),
                            game.getCurrentPlayer());
                }
                canvas.drawHighlightDots(moves);
            }
        //}*/
    }
    public ReversiController(Player<ReversiR>[] players) {
        this(players, true);
    }
    private void updateCanvas(boolean animate) {
        // Todo: this is very inefficient. still very fast but if the grid is bigger it might cause issues. improve.
        canvas.clearAll();
        for (int i = 0; i < game.getBoard().length; i++) {
            if (game.getBoard()[i] == 0) {
                canvas.drawDot(Color.WHITE, i);
            } else if (game.getBoard()[i] == 1) {
                canvas.drawDot(Color.BLACK, i);
            }
        }
        final int[] flipped = game.getMostRecentlyFlippedPieces();
        final SequentialTransition animation = new SequentialTransition();
        final Color fromColor = getCurrentPlayerIndex() == 0? Color.WHITE : Color.BLACK;
        final Color toColor = getCurrentPlayerIndex() == 0? Color.BLACK : Color.WHITE;
        if (animate && flipped != null) {
            for (final int flip : flipped) {
                canvas.clear(flip);
                canvas.drawDot(fromColor, flip);
                animation.getChildren().addFirst(canvas.flipDot(fromColor, toColor, flip));
            }
        }
        animation.setOnFinished(_ -> {
            if (getCurrentPlayer() instanceof LocalPlayer) {
                final int[] legalMoves = game.getLegalMoves();
                for (final int legalMove : legalMoves) {
                    drawLegalPosition(legalMove, getCurrentPlayerIndex());
                }
            }
        });
        animation.play();
        primary.nextPlayer(true, getCurrentPlayer().getName(), game.getCurrentTurn() == 0 ? "X" : "O", getPlayer((game.getCurrentTurn() + 1) % 2).getName());
    }
    @Override
    public void updateUI() {
        updateCanvas(false);
    }
    public void drawLegalPosition(int cell, int player) {
        Color innerColor;
        if (player == 1) {
            innerColor = new Color(0.0f, 0.0f, 0.0f, 0.6f);
        }
        else {
            innerColor = new Color(1.0f, 1.0f, 1.0f, 0.75f);
        }
        canvas.drawInnerDot(innerColor, cell,false);
    }
    private void initUI(){
        primary.add(Pos.CENTER, canvas.getCanvas());
        WidgetContainer.getCurrentView().transitionNext(primary, true);
        updateCanvas(false);
    }
    private void drawMoves(){
        int[] board = game.getBoard();
        // Draw each square
        for (int i = 0; i < board.length; i++){
            // If square isn't empty, draw player move
            if (board[i] != AbstractGame.EMPTY){
                canvas.drawPlayerMove(board[i], i);
            }
        }
    }
 }
--- a/app/src/main/java/org/toop/app/gameControllers/TicTacToeBitController.java
+++ b/app/src/main/java/org/toop/app/gameControllers/TicTacToeBitController.java
@@ -0,0 +1,23 @@
 package org.toop.app.gameControllers;
 import org.toop.app.canvas.TicTacToeBitCanvas;
 import org.toop.framework.gameFramework.model.game.threadBehaviour.ThreadBehaviour;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.game.gameThreads.LocalFixedRateThreadBehaviour;
 import org.toop.game.gameThreads.LocalThreadBehaviour;
 import org.toop.game.gameThreads.OnlineThreadBehaviour;
 import org.toop.game.games.tictactoe.BitboardTicTacToe;
 import org.toop.game.players.OnlinePlayer;
 public class TicTacToeBitController extends GenericGameController<BitboardTicTacToe> {
    public TicTacToeBitController(Player<BitboardTicTacToe>[] players) {
        BitboardTicTacToe game = new BitboardTicTacToe(players);
        ThreadBehaviour thread = new LocalThreadBehaviour<>(game);
        for (Player<BitboardTicTacToe> player : players) {
            if (player instanceof OnlinePlayer<BitboardTicTacToe>){
                thread = new OnlineThreadBehaviour<>(game);
            }
        }
        super(new TicTacToeBitCanvas(), game, thread , "TicTacToe");
    }
 }
--- a/app/src/main/java/org/toop/app/gameControllers/TicTacToeController.java
+++ b/app/src/main/java/org/toop/app/gameControllers/TicTacToeController.java
@@ -1,63 +0,0 @@
 package org.toop.app.gameControllers;
 import javafx.geometry.Pos;
 import javafx.scene.paint.Color;
 import org.toop.app.App;
 import org.toop.app.canvas.TicTacToeCanvas;
 import org.toop.framework.eventbus.EventFlow;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.framework.gameFramework.view.GUIEvents;
 import org.toop.framework.gameFramework.model.game.AbstractGame;
 import org.toop.game.gameThreads.LocalThreadBehaviour;
 import org.toop.game.gameThreads.OnlineThreadBehaviour;
 import org.toop.game.players.LocalPlayer;
 import org.toop.app.widget.WidgetContainer;
 import org.toop.game.games.tictactoe.TicTacToeR;
 public class TicTacToeController extends AbstractGameController<TicTacToeR> {
    public TicTacToeController(Player<TicTacToeR>[] players, boolean local) {
        TicTacToeR ticTacToeR = new TicTacToeR(players);
        super(
                new TicTacToeCanvas(Color.GRAY, (App.getHeight() / 4) * 3, (App.getHeight() / 4) * 3,(c) -> {new EventFlow().addPostEvent(GUIEvents.PlayerAttemptedMove.class, c).postEvent();}),
                players,
                ticTacToeR,
                local ? new LocalThreadBehaviour(ticTacToeR, players) : new OnlineThreadBehaviour<>(ticTacToeR, players), // TODO: Player order matters here, this won't work atm
                "TicTacToe");
        initUI();
        eventFlow.listen(GUIEvents.PlayerAttemptedMove.class, event -> {if (getCurrentPlayer() instanceof LocalPlayer lp){lp.setMove(event.move());}}, false);
        //addListener(GlobalEventBus.subscribe(GUIEvents.PlayerAttemptedMove.class, event -> {if (getCurrentPlayer() instanceof LocalPlayer lp){lp.setMove(event.move());}}));
        //new EventFlow().listen(GUIEvents.PlayerAttemptedMove.class, event -> {if (getCurrentPlayer() instanceof LocalPlayer lp){lp.setMove(event.move());}});
    }
    public TicTacToeController(Player<TicTacToeR>[] players) {
        this(players, true);
    }
    @Override
    public void updateUI() {
        canvas.clearAll();
        // TODO: wtf is even this pile of poop temp fix
        primary.nextPlayer(true, getCurrentPlayer().getName(), game.getCurrentTurn() == 0 ? "X" : "O", getPlayer((game.getCurrentTurn() + 1) % 2).getName());
        drawMoves();
    }
    private void initUI(){
        primary.add(Pos.CENTER, canvas.getCanvas());
        WidgetContainer.getCurrentView().transitionNext(primary, true);
        updateUI();
    }
    private void drawMoves(){
        int[] board = game.getBoard();
        // Draw each square
        for (int i = 0; i < board.length; i++){
            // If square isn't empty, draw player move
            if (board[i] != AbstractGame.EMPTY){
                canvas.drawPlayerMove(board[i], i);
            }
        }
    }
 }
--- a/app/src/main/java/org/toop/app/widget/view/LocalMultiplayerView.java
+++ b/app/src/main/java/org/toop/app/widget/view/LocalMultiplayerView.java
@@ -2,19 +2,24 @@ package org.toop.app.widget.view;
 import javafx.application.Platform;
 import org.toop.app.GameInformation;
-import org.toop.app.gameControllers.AbstractGameController;
+import org.toop.app.canvas.ReversiBitCanvas;
-import org.toop.app.gameControllers.ReversiController;
+import org.toop.app.canvas.TicTacToeBitCanvas;
-import org.toop.app.gameControllers.TicTacToeController;
+import org.toop.app.gameControllers.GenericGameController;
 import org.toop.app.gameControllers.ReversiBitController;
 import org.toop.app.gameControllers.TicTacToeBitController;
 import org.toop.framework.gameFramework.controller.GameController;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.game.games.reversi.BitboardReversi;
 import org.toop.game.games.tictactoe.BitboardTicTacToe;
 import org.toop.game.players.ArtificialPlayer;
 import org.toop.game.players.LocalPlayer;
 import org.toop.app.widget.Primitive;
 import org.toop.app.widget.complex.PlayerInfoWidget;
 import org.toop.app.widget.complex.ViewWidget;
 import org.toop.app.widget.popup.ErrorPopup;
 import org.toop.game.games.reversi.ReversiAIR;
 import org.toop.game.games.tictactoe.TicTacToeAIR;
 import org.toop.app.widget.tutorial.*;
 import org.toop.game.players.MiniMaxAI;
 import org.toop.game.players.RandomAI;
 import org.toop.local.AppContext;
 import javafx.geometry.Pos;
@@ -22,10 +27,13 @@ import javafx.scene.control.ScrollPane;
 import javafx.scene.layout.VBox;
 import org.toop.local.AppSettings;
 import java.util.Arrays;
 import java.util.Random;
 public class LocalMultiplayerView extends ViewWidget {
 	private final GameInformation information;
-    private AbstractGameController<?> gameController;
+    private GameController gameController;
 	public LocalMultiplayerView(GameInformation.Type type) {
 		this(new GameInformation(type));
@@ -44,7 +52,7 @@ public class LocalMultiplayerView extends ViewWidget {
 				}
 			}
-            // TODO: Fix this temporary ass way of setting the players (Only works for TicTacToe)
+            // TODO: Fix this temporary ass way of setting the players
            Player[] players = new Player[2];
 			switch (information.type) {
@@ -52,27 +60,27 @@ public class LocalMultiplayerView extends ViewWidget {
                    if (information.players[0].isHuman) {
                        players[0] = new LocalPlayer<>(information.players[0].name);
                    } else {
-                        players[0] = new ArtificialPlayer<>(new TicTacToeAIR(), information.players[0].name);
+                        players[0] = new ArtificialPlayer<>(new RandomAI<BitboardTicTacToe>(), "Random AI");
                    }
                    if (information.players[1].isHuman) {
                        players[1] = new LocalPlayer<>(information.players[1].name);
                    } else {
-                        players[1] = new ArtificialPlayer<>(new TicTacToeAIR(), information.players[1].name);
+                        players[1] = new ArtificialPlayer<>(new MiniMaxAI<BitboardTicTacToe>(9), "MiniMax AI");
                    }
                    if (AppSettings.getSettings().getTutorialFlag() && AppSettings.getSettings().getFirstTTT()) {
                        new ShowEnableTutorialWidget(
                                () -> new TicTacToeTutorialWidget(() -> {
-                                    gameController = new TicTacToeController(players);
+                                    gameController = new TicTacToeBitController(players);
                                    gameController.start();
                                }),
                                () -> Platform.runLater(() -> {
-                                    gameController = new TicTacToeController(players);
+                                    gameController = new TicTacToeBitController(players);
                                    gameController.start();
                                }),
                                () -> AppSettings.getSettings().setFirstTTT(false)
                        );
                    } else {
-                        gameController = new TicTacToeController(players);
+                        gameController = new TicTacToeBitController(players);
                        gameController.start();
                    }
                    break;
@@ -80,27 +88,27 @@ public class LocalMultiplayerView extends ViewWidget {
                    if (information.players[0].isHuman) {
                        players[0] = new LocalPlayer<>(information.players[0].name);
                    } else {
-                        players[0] = new ArtificialPlayer<>(new ReversiAIR(), information.players[0].name);
+                        players[0] = new ArtificialPlayer<>(new RandomAI<BitboardReversi>(), "Random AI");
                    }
                    if (information.players[1].isHuman) {
                        players[1] = new LocalPlayer<>(information.players[1].name);
                    } else {
-                        players[1] = new ArtificialPlayer<>(new ReversiAIR(), information.players[1].name);
+                        players[1] = new ArtificialPlayer<>(new MiniMaxAI<BitboardReversi>(6), "MiniMax");
                    }
                    if (AppSettings.getSettings().getTutorialFlag() && AppSettings.getSettings().getFirstReversi()) {
                        new ShowEnableTutorialWidget(
                                () -> new ReversiTutorialWidget(() -> {
-                                    gameController = new ReversiController(players);
+                                    gameController = new ReversiBitController(players);
                                    gameController.start();
                                }),
                                () -> Platform.runLater(() -> {
-                                    gameController = new ReversiController(players);
+                                    gameController = new ReversiBitController(players);
                                    gameController.start();
                                }),
                                () -> AppSettings.getSettings().setFirstReversi(false)
                        );
                    } else {
-                        gameController = new ReversiController(players);
+                        gameController = new ReversiBitController(players);
                        gameController.start();
                    }
                    break;
--- a/framework/src/main/java/org/toop/framework/gameFramework/LongPairConsumer.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/LongPairConsumer.java
@@ -0,0 +1,6 @@
 package org.toop.framework.gameFramework;
@FunctionalInterface
 public interface LongPairConsumer {
    void accept(long a, long b);
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/controller/GameController.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/controller/GameController.java
@@ -0,0 +1,18 @@
 package org.toop.framework.gameFramework.controller;
 import org.toop.framework.gameFramework.model.game.SupportsOnlinePlay;
 import org.toop.framework.gameFramework.model.game.threadBehaviour.Controllable;
 import org.toop.framework.networking.events.NetworkEvents;
 public interface GameController extends Controllable, UpdatesGameUI {
    /** Called when it is this player's turn to make a move. */
    void onYourTurn(NetworkEvents.YourTurnResponse event);
    /** Called when a move from another player is received. */
    void onMoveReceived(NetworkEvents.GameMoveResponse event);
    /** Called when the game has finished, with the final result. */
    void gameFinished(NetworkEvents.GameResultResponse event);
    void sendMove(long clientId, long move);
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/game/AbstractGame.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/game/AbstractGame.java
@@ -1,108 +0,0 @@
 package org.toop.framework.gameFramework.model.game;
 import org.toop.framework.gameFramework.model.player.Player;
 import java.util.Arrays;
 public abstract class AbstractGame<T extends TurnBasedGame<T>> implements TurnBasedGame<T> {
    private final int playerCount;  // How many players are playing
    private final Player<T>[] players;
    private int turn = 0;           // What turn it is in the game
    /** Constant representing an empty position on the board. */
    public static final int EMPTY = -1;
    /** Number of rows in the game board. */
    private final int rowSize;
    /** Number of columns in the game board. */
    private final int columnSize;
    /** The game board stored as a one-dimensional array. */
    private final int[] board;
    protected AbstractGame(int rowSize, int columnSize, int playerCount, Player<T>[] players) {
        assert rowSize > 0 && columnSize > 0;
        this.rowSize = rowSize;
        this.columnSize = columnSize;
        this.players = players;
        board = new int[rowSize * columnSize];
        Arrays.fill(board, EMPTY);
        this.playerCount = playerCount;
    }
    protected AbstractGame(AbstractGame<T> other){
        this.rowSize = other.rowSize;
        this.columnSize = other.columnSize;
        this.board = other.board.clone();
        this.playerCount = other.playerCount;
        this.turn = other.turn;
        // TODO: Make this a deep copy, add deep copy interface to Player
        this.players = other.players;
    }
    public static boolean contains(int[] array, int value) {
        // O(n)
        for (int element : array){
            if (element == value) return true;
        }
        return false;
    }
    public Player<T> getPlayer(int index) {
        return players[index];
    }
    public int getPlayerCount(){return this.playerCount;}
    protected void nextTurn() {
        turn += 1;
    }
    public int getCurrentTurn() {
        return turn % playerCount;
    }
    protected void setBoard(int position) {
        setBoard(position, getCurrentTurn());
    }
    protected void setBoard(int position, int player) {
        this.board[position] = player;
    }
    /**
     * Returns the number of rows in the board.
     *
     * @return number of rows
     */
    public int getRowSize() {
        return this.rowSize;
    }
    /**
     * Returns the number of columns in the board.
     *
     * @return number of columns
     */
    public int getColumnSize() {
        return this.columnSize;
    }
    /**
     * Returns a copy of the current board state.
     *
     * @return a cloned array representing the board
     */
    public int[] getBoard() {
        return this.board.clone();
    }
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/game/BoardProvider.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/game/BoardProvider.java
@@ -0,0 +1,5 @@
 package org.toop.framework.gameFramework.model.game;
 public interface BoardProvider {
    long[] getBoard();
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/game/DeepCopyable.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/game/DeepCopyable.java
@@ -1,5 +1,5 @@
 package org.toop.framework.gameFramework.model.game;
-public interface DeepCopyable<T extends TurnBasedGame<T>> {
+public interface DeepCopyable<T> {
    T deepCopy();
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/game/Playable.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/game/Playable.java
@@ -12,7 +12,7 @@ public interface Playable {
     *
     * @return an array of integers representing legal moves
     */
-    int[] getLegalMoves();
+    long getLegalMoves();
    /**
     * Plays the given move and returns the resulting game state.
@@ -20,5 +20,5 @@ public interface Playable {
     * @param move the move to apply
     * @return the {@link GameState} and additional info after the move
     */
-    PlayResult play(int move);
+    PlayResult play(long move);
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/game/SupportsOnlinePlay.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/game/SupportsOnlinePlay.java
@@ -10,11 +10,11 @@ import org.toop.framework.networking.events.NetworkEvents;
 public interface SupportsOnlinePlay {
    /** Called when it is this player's turn to make a move. */
-    void onYourTurn(NetworkEvents.YourTurnResponse event);
+    void onYourTurn(long clientId);
    /** Called when a move from another player is received. */
-    void onMoveReceived(NetworkEvents.GameMoveResponse event);
+    void onMoveReceived(long move);
    /** Called when the game has finished, with the final result. */
-    void gameFinished(NetworkEvents.GameResultResponse event);
+    void gameFinished(String condition);
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/game/TurnBasedGame.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/game/TurnBasedGame.java
@@ -1,5 +1,7 @@
 package org.toop.framework.gameFramework.model.game;
-public interface TurnBasedGame<T extends TurnBasedGame<T>> extends Playable, DeepCopyable<T>, PlayerProvider<T> {
+public interface TurnBasedGame<T extends TurnBasedGame<T>> extends Playable, DeepCopyable<T>, PlayerProvider<T>, BoardProvider {
    int getCurrentTurn();
    int getPlayerCount();
    int getWinner();
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/game/threadBehaviour/AbstractThreadBehaviour.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/game/threadBehaviour/AbstractThreadBehaviour.java
@@ -2,10 +2,13 @@ package org.toop.framework.gameFramework.model.game.threadBehaviour;
 import org.apache.logging.log4j.LogManager;
 import org.apache.logging.log4j.Logger;
 import org.toop.framework.gameFramework.LongPairConsumer;
 import org.toop.framework.gameFramework.controller.GameController;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.model.player.Player;
 import java.util.concurrent.atomic.AtomicBoolean;
 import java.util.function.Consumer;
 /**
 * Base class for thread-based game behaviours.
@@ -14,8 +17,9 @@ import java.util.concurrent.atomic.AtomicBoolean;
 * a running flag, a game reference, and a logger.
 * Subclasses implement the actual game-loop logic.
 */
-public abstract class AbstractThreadBehaviour<T extends TurnBasedGame<T>> implements ThreadBehaviour<T> {
+public abstract class AbstractThreadBehaviour<T extends TurnBasedGame<T>> implements ThreadBehaviour {
-
+    private LongPairConsumer onSendMove;
    private Runnable onUpdateUI;
    /** Indicates whether the game loop or event processing is active. */
    protected final AtomicBoolean isRunning = new AtomicBoolean();
@@ -33,4 +37,26 @@ public abstract class AbstractThreadBehaviour<T extends TurnBasedGame<T>> implem
    public AbstractThreadBehaviour(T game) {
        this.game = game;
    }
    protected void updateUI(){
        if (onUpdateUI != null) {
            onUpdateUI.run();
        }
    }
    protected void sendMove(long clientId, long move){
        if (onSendMove != null) {
            onSendMove.accept(clientId, move);
        }
    }
    @Override
    public void setOnUpdateUI(Runnable onUpdateUI) {
        this.onUpdateUI = onUpdateUI;
    }
    @Override
    public void setOnSendMove(LongPairConsumer onSendMove) {
        this.onSendMove = onSendMove;
    }
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/game/threadBehaviour/ThreadBehaviour.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/game/threadBehaviour/ThreadBehaviour.java
@@ -1,13 +1,20 @@
 package org.toop.framework.gameFramework.model.game.threadBehaviour;
 import org.toop.framework.gameFramework.LongPairConsumer;
 import org.toop.framework.gameFramework.controller.GameController;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.model.player.AbstractPlayer;
 import org.toop.framework.gameFramework.model.player.Player;
 import java.util.function.Consumer;
 /**
 * Strategy interface for controlling game thread behavior.
 * <p>
 * Defines how a game's execution is started, stopped, and which player is active.
 */
-public interface ThreadBehaviour<T extends TurnBasedGame<T>> extends Controllable {
+public interface ThreadBehaviour extends Controllable {
    void setOnUpdateUI(Runnable onUpdateUI);
    void setOnSendMove(LongPairConsumer onSendMove);
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/player/AI.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/player/AI.java
@@ -0,0 +1,7 @@
 package org.toop.framework.gameFramework.model.player;
 import org.toop.framework.gameFramework.model.game.DeepCopyable;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 public interface AI<T extends TurnBasedGame<T>> extends MoveProvider<T>, DeepCopyable<AI<T>> {
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/player/AbstractAI.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/player/AbstractAI.java
@@ -12,6 +12,6 @@ import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 *
 * @param <T> the specific type of game this AI can play, extending {@link GameR}
 */
-public abstract class AbstractAI<T extends TurnBasedGame> implements MoveProvider<T> {
+public abstract class AbstractAI<T extends TurnBasedGame<T>> implements AI<T> {
    // Concrete AI implementations should override findBestMove(T game, int depth)
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/player/AbstractPlayer.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/player/AbstractPlayer.java
@@ -16,15 +16,17 @@ import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 * </p>
 */
 public abstract class AbstractPlayer<T extends TurnBasedGame<T>> implements Player<T> {
-    private int playerIndex = -1;
+    private final Logger logger = LogManager.getLogger(this.getClass());
    private Logger logger = LogManager.getLogger(this.getClass());
    private final String name;
    protected AbstractPlayer(String name) {
        this.name = name;
    }
    protected AbstractPlayer(AbstractPlayer<T> other) {
        this.name = other.name;
    }
    /**
     * Determines the next move based on the provided game state.
     * <p>
@@ -37,7 +39,7 @@ public abstract class AbstractPlayer<T extends TurnBasedGame<T>> implements Play
     * @return an integer representing the chosen move
     * @throws UnsupportedOperationException if the method is not overridden
     */
-    public int getMove(T gameCopy) {
+    public long getMove(T gameCopy) {
        logger.error("Method getMove not implemented.");
        throw new UnsupportedOperationException("Not supported yet.");
    }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/player/MoveProvider.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/player/MoveProvider.java
@@ -2,6 +2,6 @@ package org.toop.framework.gameFramework.model.player;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
-public interface MoveProvider<T extends TurnBasedGame> {
+public interface MoveProvider<T extends TurnBasedGame<T>> {
-    int getMove(T game);
+    long getMove(T game);
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/model/player/Player.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/model/player/Player.java
@@ -1,6 +1,7 @@
 package org.toop.framework.gameFramework.model.player;
 import org.toop.framework.gameFramework.model.game.DeepCopyable;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
-public interface Player<T extends TurnBasedGame<T>> extends NameProvider, MoveProvider<T> {
+public interface Player<T extends TurnBasedGame<T>> extends NameProvider, MoveProvider<T>, DeepCopyable<Player<T>> {
 }
--- a/framework/src/main/java/org/toop/framework/gameFramework/view/GUIEvents.java
+++ b/framework/src/main/java/org/toop/framework/gameFramework/view/GUIEvents.java
@@ -10,10 +10,6 @@ import org.toop.framework.eventbus.events.GenericEvent;
 * player actions, and game completion.
 */
 public class GUIEvents extends EventsBase {
    /** Event to refresh or redraw the game canvas. */
    public record RefreshGameCanvas() implements GenericEvent {}
    /**
     * Event indicating the game has ended.
     *
@@ -23,8 +19,8 @@ public class GUIEvents extends EventsBase {
    public record GameEnded(boolean winOrTie, int winner) implements GenericEvent {}
    /** Event indicating a player has attempted a move. */
-    public record PlayerAttemptedMove(int move) implements GenericEvent {}
+    public record PlayerAttemptedMove(long move) implements GenericEvent {}
    /** Event indicating a player is hovering over a move (for UI feedback). */
-    public record PlayerMoveHovered(int move) implements GenericEvent {}
+    public record PlayerMoveHovered(long move) implements GenericEvent {}
 }
--- a/game/src/main/java/org/toop/game/BitboardGame.java
+++ b/game/src/main/java/org/toop/game/BitboardGame.java
@@ -0,0 +1,86 @@
 package org.toop.game;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.model.player.Player;
 import java.util.Arrays;
 import java.util.concurrent.atomic.AtomicInteger;
 // There is AI performance to be gained by getting rid of non-primitives and thus speeding up deepCopy
 public abstract class BitboardGame<T extends BitboardGame<T>> implements TurnBasedGame<T> {
 	private final int columnSize;
 	private final int rowSize;
    private Player<T>[] players;
 	// long is 64 bits. Every game has a limit of 64 cells maximum.
 	private final long[] playerBitboard;
 	private int currentTurn = 0;
 	public BitboardGame(int columnSize, int rowSize, int playerCount, Player<T>[] players) {
 		this.columnSize = columnSize;
 		this.rowSize = rowSize;
        this.players = players;
 		this.playerBitboard = new long[playerCount];
 		Arrays.fill(playerBitboard, 0L);
 	}
 	public BitboardGame(BitboardGame<T> other) {
 		this.columnSize = other.columnSize;
 		this.rowSize = other.rowSize;
 		this.playerBitboard = other.playerBitboard.clone();
 		this.currentTurn = other.currentTurn;
        this.players = Arrays.stream(other.players)
                .map(Player<T>::deepCopy)
                .toArray(Player[]::new);
 	}
 	public int getColumnSize() {
 		return this.columnSize;
 	}
 	public int getRowSize() {
 		return this.rowSize;
 	}
 	public long getPlayerBitboard(int player) {
 		return this.playerBitboard[player];
 	}
 	public void setPlayerBitboard(int player, long bitboard) {
 		this.playerBitboard[player] = bitboard;
 	}
 	public int getPlayerCount() {
 		return playerBitboard.length;
 	}
 	public int getCurrentTurn() {
 		return getCurrentPlayerIndex();
 	}
    public Player<T> getPlayer(int index) {return players[index];}
 	public int getCurrentPlayerIndex() {
        return currentTurn % playerBitboard.length;
 	}
 	public int getNextPlayer() {
 		return (currentTurn + 1) % playerBitboard.length;
 	}
    public Player<T> getCurrentPlayer(){
        return players[getCurrentPlayerIndex()];
    }
    @Override
    public long[] getBoard() {return this.playerBitboard;}
 	public void nextTurn() {
        currentTurn++;
 	}
 }
--- a/game/src/main/java/org/toop/game/gameThreads/LocalFixedRateThreadBehaviour.java
+++ b/game/src/main/java/org/toop/game/gameThreads/LocalFixedRateThreadBehaviour.java
@@ -8,6 +8,8 @@ import org.toop.framework.gameFramework.view.GUIEvents;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.model.player.Player;
 import java.util.function.Consumer;
 /**
 * Handles local turn-based game logic at a fixed update rate.
 * <p>
@@ -16,18 +18,14 @@ import org.toop.framework.gameFramework.model.player.Player;
 */
 public class LocalFixedRateThreadBehaviour<T extends TurnBasedGame<T>> extends AbstractThreadBehaviour<T> implements Runnable {
    /** All players participating in the game. */
    private final Player<T>[] players;
    /**
     * Creates a fixed-rate behaviour for a local turn-based game.
     *
     * @param game    the game instance
     * @param players the list of players in turn order
     */
-    public LocalFixedRateThreadBehaviour(T game, Player<T>[] players) {
+    public LocalFixedRateThreadBehaviour(T game) {
        super(game);
        this.players = players;
    }
    /** Starts the game loop thread if not already running. */
@@ -52,7 +50,7 @@ public class LocalFixedRateThreadBehaviour<T extends TurnBasedGame<T>> extends A
     */
    @Override
    public void run() {
-        final int UPS = 60;
+        final int UPS = 1;
        final long UPDATE_INTERVAL = 1_000_000_000L / UPS;
        long nextUpdate = System.nanoTime();
@@ -62,9 +60,10 @@ public class LocalFixedRateThreadBehaviour<T extends TurnBasedGame<T>> extends A
                nextUpdate += UPDATE_INTERVAL;
                Player<T> currentPlayer = game.getPlayer(game.getCurrentTurn());
-                int move = currentPlayer.getMove(game.deepCopy());
+                long move = currentPlayer.getMove(game.deepCopy());
                PlayResult result = game.play(move);
-                new EventFlow().addPostEvent(GUIEvents.RefreshGameCanvas.class).postEvent();
+
                updateUI();
                GameState state = result.state();
                switch (state) {
--- a/game/src/main/java/org/toop/game/gameThreads/LocalThreadBehaviour.java
+++ b/game/src/main/java/org/toop/game/gameThreads/LocalThreadBehaviour.java
@@ -8,6 +8,8 @@ import org.toop.framework.gameFramework.GameState;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.model.player.Player;
 import java.util.function.Consumer;
 /**
 * Handles local turn-based game logic in its own thread.
 * <p>
@@ -20,9 +22,8 @@ public class LocalThreadBehaviour<T extends TurnBasedGame<T>> extends AbstractTh
     * Creates a new behaviour for a local turn-based game.
     *
     * @param game    the game instance
     * @param players the list of players in turn order
     */
-    public LocalThreadBehaviour(T game, Player<T>[] players) {
+    public LocalThreadBehaviour(T game) {
        super(game);
    }
@@ -48,9 +49,10 @@ public class LocalThreadBehaviour<T extends TurnBasedGame<T>> extends AbstractTh
    public void run() {
        while (isRunning.get()) {
            Player<T> currentPlayer = game.getPlayer(game.getCurrentTurn());
-            int move = currentPlayer.getMove(game.deepCopy());
+            long move = currentPlayer.getMove(game.deepCopy());
            PlayResult result = game.play(move);
-            new EventFlow().addPostEvent(GUIEvents.RefreshGameCanvas.class).postEvent();
+
            updateUI();
            GameState state = result.state();
            switch (state) {
--- a/game/src/main/java/org/toop/game/gameThreads/OnlineThreadBehaviour.java
+++ b/game/src/main/java/org/toop/game/gameThreads/OnlineThreadBehaviour.java
@@ -3,9 +3,7 @@ package org.toop.game.gameThreads;
 import org.toop.framework.eventbus.EventFlow;
 import org.toop.framework.gameFramework.model.game.threadBehaviour.AbstractThreadBehaviour;
 import org.toop.framework.gameFramework.view.GUIEvents;
 import org.toop.framework.gameFramework.model.game.AbstractGame;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.networking.events.NetworkEvents;
 import org.toop.framework.gameFramework.model.game.SupportsOnlinePlay;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.game.players.OnlinePlayer;
@@ -17,19 +15,12 @@ import org.toop.game.players.OnlinePlayer;
 * for the local player while receiving moves from other players.
 */
 public class OnlineThreadBehaviour<T extends TurnBasedGame<T>> extends AbstractThreadBehaviour<T> implements SupportsOnlinePlay {
    /** The local player controlled by this client. */
    private final Player<T> mainPlayer;
    private final int playerTurn;
    /**
     * Creates behaviour and sets the first local player
     * (non-online player) from the given array.
     */
-    public OnlineThreadBehaviour(T game, Player<T>[] players) {
+    public OnlineThreadBehaviour(T game) {
        super(game);
        this.playerTurn = getFirstNotOnlinePlayer(players);
        this.mainPlayer = players[this.playerTurn];
    }
    /** Finds the first non-online player in the array. */
@@ -59,33 +50,31 @@ public class OnlineThreadBehaviour<T extends TurnBasedGame<T>> extends AbstractT
     * Sends the generated move back to the server.
     */
    @Override
-    public void onYourTurn(NetworkEvents.YourTurnResponse event) {
+    public void onYourTurn(long clientId) {
        if (!isRunning.get()) return;
-        int move = mainPlayer.getMove(game.deepCopy());
+        long move = game.getPlayer(game.getCurrentTurn()).getMove(game.deepCopy());
-        new EventFlow().addPostEvent(NetworkEvents.SendMove.class, event.clientId(), (short) move).postEvent();
+        sendMove(clientId, move);
    }
    /**
     * Handles a move received from the server for any player.
     * Updates the game state and triggers a UI refresh.
     */
-    @Override
+    public void onMoveReceived(long move) {
    public void onMoveReceived(NetworkEvents.GameMoveResponse event) {
        if (!isRunning.get()) return;
-        game.play(Integer.parseInt(event.move()));
+        game.play(move);
-        new EventFlow().addPostEvent(GUIEvents.RefreshGameCanvas.class).postEvent();
+
        updateUI();
    }
    /**
     * Handles the end of the game as notified by the server.
     * Updates the UI to show a win or draw result for the local player.
     */
-    @Override
+    public void gameFinished(String condition) {
-    public void gameFinished(NetworkEvents.GameResultResponse event) {
+        switch(condition.toUpperCase()){
-        switch(event.condition().toUpperCase()){
+            case "WIN", "LOSS" -> new EventFlow().addPostEvent(GUIEvents.GameEnded.class, true, game.getWinner()).postEvent();
-            case "WIN" -> new EventFlow().addPostEvent(GUIEvents.GameEnded.class, true, playerTurn).postEvent();
+            case "DRAW" -> new EventFlow().addPostEvent(GUIEvents.GameEnded.class, false, -1).postEvent();
            case "DRAW" -> new EventFlow().addPostEvent(GUIEvents.GameEnded.class, false, AbstractGame.EMPTY).postEvent();
            case "LOSS" -> new EventFlow().addPostEvent(GUIEvents.GameEnded.class, true, (playerTurn + 1)%2).postEvent();
            default -> {
                logger.error("Invalid condition");
                throw new RuntimeException("Unknown condition");
--- a/game/src/main/java/org/toop/game/gameThreads/OnlineWithSleepThreadBehaviour.java
+++ b/game/src/main/java/org/toop/game/gameThreads/OnlineWithSleepThreadBehaviour.java
@@ -1,8 +1,7 @@
 package org.toop.game.gameThreads;
-import org.toop.framework.gameFramework.model.game.AbstractGame;
+import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.networking.events.NetworkEvents;
 import org.toop.framework.gameFramework.model.player.AbstractPlayer;
 /**
 * Online thread behaviour that adds a fixed delay before processing
@@ -11,16 +10,15 @@ import org.toop.framework.gameFramework.model.player.AbstractPlayer;
 * This is identical to {@link OnlineThreadBehaviour}, but inserts a
 * short sleep before delegating to the base implementation.
 */
-public class OnlineWithSleepThreadBehaviour extends OnlineThreadBehaviour {
+public class OnlineWithSleepThreadBehaviour<T extends TurnBasedGame<T>> extends OnlineThreadBehaviour<T> {
    /**
     * Creates the behaviour and forwards the players to the base class.
     *
-     * @param game    the online-capable turn-based game
+     * @param game the online-capable turn-based game
     * @param players the list of local and remote players
     */
-    public OnlineWithSleepThreadBehaviour(AbstractGame game, AbstractPlayer[] players) {
+    public OnlineWithSleepThreadBehaviour(T game) {
-        super(game, players);
+        super(game);
    }
    /**
@@ -29,14 +27,14 @@ public class OnlineWithSleepThreadBehaviour extends OnlineThreadBehaviour {
     * @param event the network event indicating it's this client's turn
     */
    @Override
-    public void onYourTurn(NetworkEvents.YourTurnResponse event) {
+    public void onYourTurn(long clientId) {
        try {
-            Thread.sleep(1000);
+            Thread.sleep(50);
        } catch (InterruptedException e) {
            e.printStackTrace();
        }
-        super.onYourTurn(event);
+        super.onYourTurn(clientId);
    }
 }
--- a/game/src/main/java/org/toop/game/games/reversi/BitboardReversi.java
+++ b/game/src/main/java/org/toop/game/games/reversi/BitboardReversi.java
@@ -0,0 +1,170 @@
 package org.toop.game.games.reversi;
 import org.toop.framework.gameFramework.GameState;
 import org.toop.framework.gameFramework.model.game.PlayResult;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.game.BitboardGame;
 public class BitboardReversi extends BitboardGame<BitboardReversi> {
    public record Score(int black, int white) {}
 	private final long notAFile = 0xfefefefefefefefeL;
 	private final long notHFile = 0x7f7f7f7f7f7f7f7fL;
 	public BitboardReversi(Player<BitboardReversi>[] players) {
 		super(8, 8, 2, players);
 		// Black (player 0)
 		setPlayerBitboard(0, (1L << (3 + 4 * 8)) | (1L << (4 + 3 * 8)));
 		// White (player 1)
 		setPlayerBitboard(1, (1L << (3 + 3 * 8)) | (1L << (4 + 4 * 8)));
 	}
    public BitboardReversi(BitboardReversi other) {
        super(other);
    }
 	public long getLegalMoves() {
 		final long player = getPlayerBitboard(getCurrentPlayerIndex());
 		final long opponent = getPlayerBitboard(getNextPlayer());
 		long legalMoves = 0L;
 		// north & south
 		legalMoves |= computeMoves(player, opponent, 8, -1L);
 		legalMoves |= computeMoves(player, opponent, -8, -1L);
 		// east & west
 		legalMoves |= computeMoves(player, opponent, 1, notAFile);
 		legalMoves |= computeMoves(player, opponent, -1, notHFile);
 		// north-east & north-west & south-east & south-west
 		legalMoves |= computeMoves(player, opponent, 9, notAFile);
 		legalMoves |= computeMoves(player, opponent, 7, notHFile);
 		legalMoves |= computeMoves(player, opponent, -7, notAFile);
 		legalMoves |= computeMoves(player, opponent, -9, notHFile);
 		return legalMoves;
 	}
 	public long getFlips(long move) {
 		final long player = getPlayerBitboard(getCurrentPlayerIndex());
 		final long opponent = getPlayerBitboard(getNextPlayer());
 		long flips = 0L;
 		// north & south
 		flips |= computeFlips(move, player, opponent, 8, -1L);
 		flips |= computeFlips(move, player, opponent, -8, -1L);
 		// east & west
 		flips |= computeFlips(move, player, opponent, 1, notAFile);
 		flips |= computeFlips(move, player, opponent, -1, notHFile);
 		// north-east & north-west & south-east & south-west
 		flips |= computeFlips(move, player, opponent, 9, notAFile);
 		flips |= computeFlips(move, player, opponent, 7, notHFile);
 		flips |= computeFlips(move, player, opponent, -7, notAFile);
 		flips |= computeFlips(move, player, opponent, -9, notHFile);
 		return flips;
 	}
    @Override
    public BitboardReversi deepCopy() {return new BitboardReversi(this);}
 	public PlayResult play(long move) {
 		final long flips = getFlips(move);
 		long player = getPlayerBitboard(getCurrentPlayerIndex());
 		long opponent = getPlayerBitboard(getNextPlayer());
 		player |= move | flips;
 		opponent &= ~flips;
 		setPlayerBitboard(getCurrentPlayerIndex(), player);
 		setPlayerBitboard(getNextPlayer(), opponent);
 		nextTurn();
 		final long nextLegalMoves = getLegalMoves();
 		if (nextLegalMoves == 0) {
 			nextTurn();
 			final long skippedLegalMoves = getLegalMoves();
 			if (skippedLegalMoves == 0) {
 				int winner = getWinner();
 				if (winner == -1) {
 					return new PlayResult(GameState.DRAW, -1);
 				}
 				return new PlayResult(GameState.WIN, winner);
 			}
 			return new PlayResult(GameState.TURN_SKIPPED, getCurrentPlayerIndex());
 		}
 		return new PlayResult(GameState.NORMAL, getCurrentPlayerIndex());
 	}
 	public Score getScore() {
 		return new Score(
 			Long.bitCount(getPlayerBitboard(0)),
 			Long.bitCount(getPlayerBitboard(1))
 		);
 	}
    public int getWinner(){
        final long black = getPlayerBitboard(0);
        final long white = getPlayerBitboard(1);
        final int blackCount = Long.bitCount(black);
        final int whiteCount = Long.bitCount(white);
        if (blackCount == whiteCount){
            return -1;
        }
        else if (blackCount > whiteCount){
            return 0;
        }
        else{
            return 1;
        }
    }
 	private long computeMoves(long player, long opponent, int shift, long mask) {
 		long moves = shift(player, shift, mask) & opponent;
 		long captured = moves;
 		while (moves != 0) {
 			moves = shift(moves, shift, mask) & opponent;
 			captured |= moves;
 		}
 		long landing = shift(captured, shift, mask);
 		return landing & ~(player | opponent);
 	}
 	private long computeFlips(long move, long player, long opponent, int shift, long mask) {
 		long flips = 0L;
 		long pos = move;
 		while (true) {
 			pos = shift(pos, shift, mask);
 			if (pos == 0) return 0L;
 			if ((pos & opponent) != 0) flips |= pos;
 			else if ((pos & player) != 0) return flips;
 			else return 0L;
 		}
 	}
 	private long shift(long bit, int shift, long mask) {
 		return shift > 0 ? (bit << shift) & mask : (bit >>> -shift) & mask;
 	}
 }
--- a/game/src/main/java/org/toop/game/games/reversi/ReversiAIR.java
+++ b/game/src/main/java/org/toop/game/games/reversi/ReversiAIR.java
@@ -1,15 +0,0 @@
 package org.toop.game.games.reversi;
 import org.toop.framework.gameFramework.model.player.AbstractAI;
 import java.util.Random;
 public final class ReversiAIR extends AbstractAI<ReversiR> {
 	public int getMove(ReversiR game) {
        int[] moves = game.getLegalMoves();
        if (moves.length == 0) return -1;
        int inty = new Random().nextInt(0, moves.length);
 		return moves[inty];
 	}
 }
--- a/game/src/main/java/org/toop/game/games/reversi/ReversiR.java
+++ b/game/src/main/java/org/toop/game/games/reversi/ReversiR.java
@@ -1,260 +0,0 @@
 package org.toop.game.games.reversi;
 import org.toop.framework.gameFramework.GameState;
 import org.toop.framework.gameFramework.model.game.PlayResult;
 import org.toop.framework.gameFramework.model.game.AbstractGame;
 import org.toop.framework.gameFramework.model.player.Player;
 import java.awt.*;
 import java.util.ArrayList;
 import java.util.Arrays;
 import java.util.HashSet;
 import java.util.Set;
 public final class ReversiR extends AbstractGame<ReversiR> {
    private int movesTaken;
    private Set<Point> filledCells = new HashSet<>();
    private int[] mostRecentlyFlippedPieces;
    @Override
    public ReversiR deepCopy() {
        return new ReversiR(this);
    }
    // TODO: Don't hardcore for two players :)
    public record Score(int player1Score, int player2Score) {}
 	public ReversiR(Player<ReversiR>[] players) {
 		super(8, 8, 2, players);
        addStartPieces();
 	}
    public ReversiR(ReversiR other) {
        super(other);
        this.movesTaken = other.movesTaken;
        this.filledCells = other.filledCells;
        this.mostRecentlyFlippedPieces = other.mostRecentlyFlippedPieces;
    }
    private void addStartPieces() {
        this.setBoard(27, 1);
        this.setBoard(28, 0);
        this.setBoard(35, 0);
        this.setBoard(36, 1);
        updateFilledCellsSet();
    }
    private void updateFilledCellsSet() {
        for (int i = 0; i < 64; i++) {
            if (this.getBoard()[i] != EMPTY) {
                filledCells.add(new Point(i % this.getColumnSize(), i / this.getRowSize()));
            }
        }
    }
 	@Override
 	public int[] getLegalMoves() {
        final ArrayList<Integer> legalMoves = new ArrayList<>();
        int[][] boardGrid = makeBoardAGrid();
        int currentPlayer = this.getCurrentTurn();
        Set<Point> adjCell = getAdjacentCells(boardGrid);
        for (Point point : adjCell){
            int[] moves = getFlipsForPotentialMove(point,currentPlayer);
            int score = moves.length;
            if (score > 0){
                legalMoves.add(point.x + point.y * this.getRowSize());
            }
        }
        return legalMoves.stream().mapToInt(Integer::intValue).toArray();
 	}
    private Set<Point> getAdjacentCells(int[][] boardGrid) {
        Set<Point> possibleCells = new HashSet<>();
        for (Point point : filledCells) {                                           //for every filled cell
            for (int deltaColumn = -1; deltaColumn <= 1; deltaColumn++){            //check adjacent cells
                for (int deltaRow = -1; deltaRow <= 1; deltaRow++){                 //orthogonally and diagonally
                    int newX =  point.x + deltaColumn, newY =  point.y + deltaRow;
                    if (deltaColumn == 0 && deltaRow == 0                           //continue if out of bounds
                    || !isOnBoard(newX, newY)) {
                        continue;
                    }
                    if (boardGrid[newY][newX] == EMPTY) {                           //check if the cell is empty
                        possibleCells.add(new Point(newX, newY));                   //and then add it to the set of possible moves
                    }
                }
            }
        }
        return possibleCells;
    }
    public int[] getFlipsForPotentialMove(Point point, int currentPlayer) {
        final ArrayList<Integer> movesToFlip = new ArrayList<>();
        for (int deltaColumn = -1; deltaColumn <= 1; deltaColumn++) {               //for all directions
            for (int deltaRow = -1; deltaRow <= 1; deltaRow++) {
                if (deltaColumn == 0 && deltaRow == 0){
                    continue;
                }
                int[] moves = getFlipsInDirection(point,makeBoardAGrid(),currentPlayer,deltaColumn,deltaRow);
                if (moves != null) {                                                //getFlipsInDirection
                    Arrays.stream(moves).forEach(movesToFlip::add);
                }
            }
        }
        return movesToFlip.stream().mapToInt(Integer::intValue).toArray();
    }
    private int[] getFlipsInDirection(Point point, int[][] boardGrid, int currentPlayer, int dirX, int dirY) {
        int opponent = getOpponent(currentPlayer);
        final ArrayList<Integer> movesToFlip = new ArrayList<>();
        int x = point.x + dirX;
        int y = point.y + dirY;
        if (!isOnBoard(x, y) || boardGrid[y][x] != opponent) {                          //there must first be an opponents tile
            return null;
        }
        while (isOnBoard(x, y) && boardGrid[y][x] == opponent) {                        //count the opponents tiles in this direction
            movesToFlip.add(x+y*this.getRowSize());
            x += dirX;
            y += dirY;
        }
        if (isOnBoard(x, y) && boardGrid[y][x] == currentPlayer) {
            return movesToFlip.stream().mapToInt(Integer::intValue).toArray();                                    //only return the count if last tile is ours
        }
        return null;
    }
    private boolean isOnBoard(int x, int y) {
        return x >= 0 && x < this.getColumnSize() && y >= 0 && y < this.getRowSize();
    }
    private int[][] makeBoardAGrid() {
        int[][] boardGrid = new int[this.getRowSize()][this.getColumnSize()];
        for (int i = 0; i < 64; i++) {
            boardGrid[i / this.getRowSize()][i % this.getColumnSize()] = this.getBoard()[i];     //boardGrid[y -> row] [x -> column]
        }
        return boardGrid;
    }
    private boolean gameOver(){
        ReversiR gameCopy = deepCopy();
        return gameCopy.getLegalMoves().length == 0 && gameCopy.skipTurn().getLegalMoves().length == 0;
    }
    @Override
    public PlayResult play(int move) {
        /*int[] legalMoves = getLegalMoves();
        boolean moveIsLegal = false;
        for (int legalMove : legalMoves) {                         //check if the move is legal
            if (move == legalMove) {
                moveIsLegal = true;
                break;
            }
        }
        if (!moveIsLegal) {
            return null;
        }
        int[] moves = sortMovesFromCenter(Arrays.stream(getFlipsForPotentialMove(new Point(move%this.getColumnSize(),move/this.getRowSize()), getCurrentTurn())).boxed().toArray(Integer[]::new),move);
        mostRecentlyFlippedPieces = moves;
        this.setBoard(move);                                        //place the move on the board
        for (int m : moves) {
            this.setBoard(m);                                       //flip the correct pieces on the board
        }
        filledCells.add(new Point(move % this.getRowSize(), move / this.getColumnSize()));
        nextTurn();
        if (getLegalMoves().length == 0) {                          //skip the players turn when there are no legal moves
            skipMyTurn();
            if (getLegalMoves().length > 0) {
                return new PlayResult(GameState.TURN_SKIPPED, getCurrentTurn());
            }
            else {                                                  //end the game when neither player has a legal move
                Score score = getScore();
                if (score.player1Score() == score.player2Score()) {
                    return new PlayResult(GameState.DRAW, EMPTY);
                }
                else {
                    return new PlayResult(GameState.WIN, getCurrentTurn());
                }
            }
        }
        return new PlayResult(GameState.NORMAL, EMPTY);*/
        // Check if move is legal
        if (!contains(getLegalMoves(), move)){
            // Next person wins
            return new PlayResult(GameState.WIN, (getCurrentTurn() + 1) % 2);
        }
        // Move is legal, proceed as normal
        int[] moves = sortMovesFromCenter(Arrays.stream(getFlipsForPotentialMove(new Point(move%this.getColumnSize(),move/this.getRowSize()), getCurrentTurn())).boxed().toArray(Integer[]::new),move);
        mostRecentlyFlippedPieces = moves;
        this.setBoard(move);                                        //place the move on the board
        for (int m : moves) {
            this.setBoard(m);                                       //flip the correct pieces on the board
        }
        filledCells.add(new Point(move % this.getRowSize(), move / this.getColumnSize()));
        nextTurn();
        // Check for forced turn skip
        if (getLegalMoves().length == 0){
            PlayResult result;
            // Check if next turn is also a force skip
            if (deepCopy().skipTurn().getLegalMoves().length == 0){
                // Game over
                int winner = getWinner();
                result = new PlayResult(winner == EMPTY ? GameState.DRAW : GameState.WIN, winner);
            }else{
                // Turn skipped
                result = new PlayResult(GameState.TURN_SKIPPED, getCurrentTurn());
                skipTurn();
            }
            return result;
        }
        return new PlayResult(GameState.NORMAL, EMPTY);
    }
    private ReversiR skipTurn(){
        nextTurn();
        return this;
    }
    private int getOpponent(int currentPlayer){
        return (currentPlayer + 1)%2;
    }
    public int getWinner(){
        int player1Score = 0, player2Score = 0;
        for (int count = 0; count < this.getRowSize() * this.getColumnSize(); count++) {
            if (this.getBoard()[count] == 0) {
                player1Score += 1;
            }
            if (this.getBoard()[count] == 1) {
                player2Score += 1;
            }
        }
        return player1Score == player2Score? -1 : player1Score > player2Score ? 0 : 1;
    }
    private int[] sortMovesFromCenter(Integer[] moves, int center) {                 //sorts the pieces to be flipped for animation purposes
        int centerX = center%this.getColumnSize();
        int centerY = center/this.getRowSize();
        Arrays.sort(moves, (a, b) -> {
            int dxA = a%this.getColumnSize() - centerX;
            int dyA = a/this.getRowSize() - centerY;
            int dxB = b%this.getColumnSize() - centerX;
            int dyB = b/this.getRowSize() - centerY;
            int distA = dxA * dxA + dyA * dyA;
            int distB = dxB * dxB + dyB * dyB;
            return Integer.compare(distA, distB);
        });
        return Arrays.stream(moves).mapToInt(Integer::intValue).toArray();
    }
    public int[] getMostRecentlyFlippedPieces() {
        return mostRecentlyFlippedPieces;
    }
 }
--- a/game/src/main/java/org/toop/game/games/tictactoe/BitboardTicTacToe.java
+++ b/game/src/main/java/org/toop/game/games/tictactoe/BitboardTicTacToe.java
@@ -0,0 +1,103 @@
 package org.toop.game.games.tictactoe;
 import org.toop.framework.gameFramework.GameState;
 import org.toop.framework.gameFramework.model.game.PlayResult;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.game.BitboardGame;
 public class BitboardTicTacToe extends BitboardGame<BitboardTicTacToe> {
 	private final long[] winningLines = {
 		0b111000000L, // top row
 		0b000111000L, // middle row
 		0b000000111L, // bottom row
 		0b100100100L, // left column
 		0b010010010L, // middle column
 		0b001001001L, // right column
 		0b100010001L, // diagonal
 		0b001010100L  // anti-diagonal
 	};
 	public BitboardTicTacToe(Player<BitboardTicTacToe>[] players) {
 		super(3, 3, 2, players);
 	}
    public BitboardTicTacToe(BitboardTicTacToe other) {
        super(other);
    }
    public long getLegalMoves() {
 		final long xBitboard = getPlayerBitboard(0);
 		final long oBitboard = getPlayerBitboard(1);
 		final long taken = (xBitboard | oBitboard);
 		return (~taken) & 0x1ffL;
 	}
    public int getWinner(){
        return getCurrentPlayerIndex();
    }
 	public PlayResult play(long move) {
        // Player loses if move is invalid
        if ((move & getLegalMoves()) == 0 || Long.bitCount(move) != 1){
            return new PlayResult(GameState.WIN, getNextPlayer());
        }
        // Move is legal, make move
 		long playerBitboard = getPlayerBitboard(getCurrentPlayerIndex());
 		playerBitboard |= move;
 		setPlayerBitboard(getCurrentPlayerIndex(), playerBitboard);
        // Check if current player won
        if (checkWin(playerBitboard)) {
            return new PlayResult(GameState.WIN, getCurrentPlayerIndex());
        }
        // Proceed to next turn
        nextTurn();
        // Check for early draw
 		if (getLegalMoves() == 0L || checkEarlyDraw()) {
 			return new PlayResult(GameState.DRAW, -1);
 		}
        // Nothing weird happened, continue on as normal
 		return new PlayResult(GameState.NORMAL, -1);
 	}
 	private boolean checkWin(long board) {
 		for (final long line : winningLines) {
 			if ((board & line) == line) {
 				return true;
 			}
 		}
 		return false;
 	}
 	private boolean checkEarlyDraw() {
 		final long xBitboard = getPlayerBitboard(0);
 		final long oBitboard = getPlayerBitboard(1);
 		final long taken = (xBitboard | oBitboard);
 		final long empty = (~taken) & 0x1FFL;
 		for (final long line : winningLines) {
 			if (((line & xBitboard) != 0 && (line & oBitboard) != 0)) {
 				continue;
 			}
 			if ((line & empty) != 0) {
 				return false;
 			}
 		}
 		return true;
 	}
    @Override
    public BitboardTicTacToe deepCopy() {
        return new BitboardTicTacToe(this);
    }
 }
--- a/game/src/main/java/org/toop/game/games/tictactoe/TicTacToeAIR.java
+++ b/game/src/main/java/org/toop/game/games/tictactoe/TicTacToeAIR.java
@@ -1,102 +0,0 @@
 package org.toop.game.games.tictactoe;
 import org.toop.framework.gameFramework.model.player.AbstractAI;
 import org.toop.framework.gameFramework.model.game.PlayResult;
 import org.toop.framework.gameFramework.GameState;
 /**
 * AI implementation for playing Tic-Tac-Toe.
 * <p>
 * This AI uses a recursive minimax-like strategy with a limited depth to
 * evaluate moves. It attempts to maximize its chances of winning while
 * minimizing the opponent's opportunities. Random moves are used in the
 * opening or when no clear best move is found.
 * </p>
 */
 public final class TicTacToeAIR extends AbstractAI<TicTacToeR> {
    /**
     * Determines the best move for the given Tic-Tac-Toe game state.
     * <p>
     * Uses a depth-limited recursive strategy to score each legal move and
     * selects the move with the highest score. If no legal moves are available,
     * returns -1. If multiple moves are equally good, picks one randomly.
     * </p>
     *
     * @param game  the current Tic-Tac-Toe game state
     * @param depth the depth of lookahead for evaluating moves (non-negative)
     * @return the index of the best move, or -1 if no moves are available
     */
    public int getMove(TicTacToeR game) {
        int depth = 9;
        assert game != null;
        final int[] legalMoves = game.getLegalMoves();
        // If there are no moves, return -1
        if (legalMoves.length == 0) {
            return -1;
        }
        // If first move, pick a corner
        if (legalMoves.length == 9) {
            return switch ((int)(Math.random() * 4)) {
                case 0 -> legalMoves[2];
                case 1 -> legalMoves[6];
                case 2 -> legalMoves[8];
                default -> legalMoves[0];
            };
        }
        int bestScore = -depth;
        int bestMove = -1;
        // Calculate Move score of each move, keep track what moves had the best score
        for (final int move : legalMoves) {
            final int score = getMoveScore(game, depth, move, true);
            if (score > bestScore) {
                bestMove = move;
                bestScore = score;
            }
        }
        return bestMove != -1 ? bestMove : legalMoves[(int)(Math.random() * legalMoves.length)];
    }
    /**
     * Recursively evaluates the score of a potential move using a minimax-like approach.
     *
     * @param game       the current Tic-Tac-Toe game state
     * @param depth      remaining depth to evaluate
     * @param move       the move to evaluate
     * @param maximizing true if the AI is to maximize score, false if minimizing
     * @return the score of the move
     */
    private int getMoveScore(TicTacToeR game, int depth, int move, boolean maximizing) {
        final TicTacToeR copy = game.deepCopy();
        final PlayResult result = copy.play(move);
        GameState state = result.state();
        switch (state) {
            case DRAW: return 0;
            case WIN: return maximizing ? depth + 1 : -depth - 1;
        }
        if (depth <= 0) {
            return 0;
        }
        final int[] legalMoves = copy.getLegalMoves();
        int score = maximizing ? depth + 1 : -depth - 1;
        for (final int next : legalMoves) {
            if (maximizing) {
                score = Math.min(score, getMoveScore(copy, depth - 1, next, false));
            } else {
                score = Math.max(score, getMoveScore(copy, depth - 1, next, true));
            }
        }
        return score;
    }
 }
--- a/game/src/main/java/org/toop/game/games/tictactoe/TicTacToeR.java
+++ b/game/src/main/java/org/toop/game/games/tictactoe/TicTacToeR.java
@@ -1,118 +0,0 @@
 package org.toop.game.games.tictactoe;
 import org.toop.framework.gameFramework.model.game.PlayResult;
 import org.toop.framework.gameFramework.model.game.AbstractGame;
 import org.toop.framework.gameFramework.GameState;
 import org.toop.framework.gameFramework.model.player.Player;
 import java.util.ArrayList;
 import java.util.Objects;
 public final class TicTacToeR extends AbstractGame<TicTacToeR> {
    private int movesLeft;
    public TicTacToeR(Player<TicTacToeR>[] players) {
        super(3, 3, 2, players);
        movesLeft = this.getBoard().length;
    }
    public TicTacToeR(TicTacToeR other) {
        super(other);
        movesLeft = other.movesLeft;
    }
    @Override
    public int[] getLegalMoves() {
        final ArrayList<Integer> legalMoves = new ArrayList<Integer>();
        for (int i = 0; i < this.getBoard().length; i++) {
            if (Objects.equals(this.getBoard()[i], EMPTY)) {
                legalMoves.add(i);
            }
        }
        return legalMoves.stream().mapToInt(Integer::intValue).toArray();
    }
    @Override
    public PlayResult play(int move) {
        // NOT MY ASSERTIONS - Stef
        assert move >= 0 && move < this.getBoard().length;
        // Player loses if move is invalid
        if (!contains(getLegalMoves(), move)) {
            // Next player wins
            return new PlayResult(GameState.WIN, (getCurrentTurn() + 1)%2); // TODO: Make this a generic method like getNextPlayer() or something similar.
        }
        // Move is valid, make move.
        this.setBoard(move);
        movesLeft--;
        nextTurn();
        // Check if current player won TODO: Make this generic?
        // Not sure why I am checking for ANY win when only current player should be able to win.
        int t = checkForWin();
        if (t != EMPTY) {
            return new PlayResult(GameState.WIN, t);
        }
        // Check for (early) draw
        if (movesLeft <= 3) {
            if (checkForEarlyDraw()) {
                return new PlayResult(GameState.DRAW, EMPTY);
            }
        }
        // Nothing weird happened, continue on as normal
        return new PlayResult(GameState.NORMAL, EMPTY);
    }
    private int checkForWin() {
        // Horizontal
        for (int i = 0; i < 3; i++) {
            final int index = i * 3;
            if (!Objects.equals(this.getBoard()[index], EMPTY)
                    && Objects.equals(this.getBoard()[index], this.getBoard()[index + 1])
                    && Objects.equals(this.getBoard()[index], this.getBoard()[index + 2])) {
                return this.getBoard()[index];
            }
        }
        // Vertical
        for (int i = 0; i < 3; i++) {
            if (!Objects.equals(this.getBoard()[i], EMPTY) && Objects.equals(this.getBoard()[i], this.getBoard()[i + 3]) && Objects.equals(this.getBoard()[i], this.getBoard()[i + 6])) {
                return this.getBoard()[i];
            }
        }
        // B-Slash
        if (!Objects.equals(this.getBoard()[0], EMPTY) && Objects.equals(this.getBoard()[0], this.getBoard()[4]) && Objects.equals(this.getBoard()[0], this.getBoard()[8])) {
            return this.getBoard()[0];
        }
        // F-Slash
        if (!Objects.equals(this.getBoard()[2], EMPTY) && Objects.equals(this.getBoard()[2], this.getBoard()[4]) && Objects.equals(this.getBoard()[2], this.getBoard()[6]))
            return this.getBoard()[2];
        // Default return
        return EMPTY;
    }
    private boolean checkForEarlyDraw() {
        for (final int move : this.getLegalMoves()) {
            final TicTacToeR copy = this.deepCopy();
            if (copy.play(move).state() == GameState.WIN || !copy.checkForEarlyDraw()) {
                return false;
            }
        }
        return true;
    }
    public TicTacToeR deepCopy() {
        return new TicTacToeR(this);
    }
 }
--- a/game/src/main/java/org/toop/game/players/ArtificialPlayer.java
+++ b/game/src/main/java/org/toop/game/players/ArtificialPlayer.java
@@ -1,8 +1,6 @@
 package org.toop.game.players;
-import org.toop.framework.gameFramework.model.player.AbstractAI;
+import org.toop.framework.gameFramework.model.player.*;
 import org.toop.framework.gameFramework.model.player.AbstractPlayer;
 import org.toop.framework.gameFramework.model.player.MoveProvider;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 /**
@@ -17,18 +15,23 @@ import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 public class ArtificialPlayer<T extends TurnBasedGame<T>> extends AbstractPlayer<T> {
    /** The AI instance used to calculate moves. */
-    private final MoveProvider<T> ai;
+    private final AI<T> ai;
    /**
     * Constructs a new ArtificialPlayer using the specified AI.
     *
     * @param ai the AI instance that determines moves for this player
     */
-    public ArtificialPlayer(MoveProvider<T> ai, String name) {
+    public ArtificialPlayer(AI<T> ai, String name) {
        super(name);
        this.ai = ai;
    }
    public ArtificialPlayer(ArtificialPlayer<T> other) {
        super(other);
        this.ai = other.ai.deepCopy();
    }
    /**
     * Determines the next move for this player using its AI.
     * <p>
@@ -41,7 +44,12 @@ public class ArtificialPlayer<T extends TurnBasedGame<T>> extends AbstractPlayer
     * @return the integer representing the chosen move
     * @throws ClassCastException if {@code gameCopy} is not of type {@code T}
     */
-    public int getMove(T gameCopy) {
+    public long getMove(T gameCopy) {
        return ai.getMove(gameCopy);
    }
    @Override
    public ArtificialPlayer<T> deepCopy() {
        return new ArtificialPlayer<T>(this);
    }
 }
--- a/game/src/main/java/org/toop/game/players/LocalPlayer.java
+++ b/game/src/main/java/org/toop/game/players/LocalPlayer.java
@@ -2,6 +2,7 @@ package org.toop.game.players;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.model.player.AbstractPlayer;
 import org.toop.framework.gameFramework.model.player.Player;
 import java.util.concurrent.CompletableFuture;
 import java.util.concurrent.ExecutionException;
@@ -10,18 +11,22 @@ public class LocalPlayer<T extends TurnBasedGame<T>> extends AbstractPlayer<T> {
    // Future can be used with event system, IF unsubscribeAfterSuccess works...
    // private CompletableFuture<Integer> LastMove = new CompletableFuture<>();
-    private CompletableFuture<Integer> LastMove;
+    private CompletableFuture<Long> LastMove;
    public LocalPlayer(String name) {
        super(name);
    }
    public LocalPlayer(LocalPlayer<T> other) {
        super(other);
    }
    @Override
-    public int getMove(T gameCopy) {
+    public long getMove(T gameCopy) {
        return getValidMove(gameCopy);
    }
-    public void setMove(int move) {
+    public void setMove(long move) {
        LastMove.complete(move);
    }
@@ -31,11 +36,12 @@ public class LocalPlayer<T extends TurnBasedGame<T>> extends AbstractPlayer<T> {
        return false;
    }
-    private int getMove2(T gameCopy) {
+    private long getMove2(T gameCopy) {
        LastMove = new CompletableFuture<>();
-        int move = -1;
+        long move = 0;
        try {
            move = LastMove.get();
            System.out.println(Long.toBinaryString(move));
        } catch (InterruptedException | ExecutionException e) {
            // TODO: Add proper logging.
            e.printStackTrace();
@@ -43,20 +49,25 @@ public class LocalPlayer<T extends TurnBasedGame<T>> extends AbstractPlayer<T> {
        return move;
    }
-    protected int getValidMove(T gameCopy){
+    protected long getValidMove(T gameCopy){
        // Get this player's valid moves
-        int[] validMoves = gameCopy.getLegalMoves();
+        long validMoves = gameCopy.getLegalMoves();
        // Make sure provided move is valid
        // TODO: Limit amount of retries?
        // TODO: Stop copying game so many times
-        int move = getMove2(gameCopy.deepCopy());
+        long move = getMove2(gameCopy.deepCopy());
-        while (!contains(validMoves, move)) {
+        while ((validMoves & move) == 0) {
            System.out.println("Not a valid move, try again");
            move = getMove2(gameCopy.deepCopy());
        }
        return move;
    }
    @Override
    public LocalPlayer<T> deepCopy() {
        return new LocalPlayer<T>(this.getName());
    }
    /*public void register() {
        // Listening to PlayerAttemptedMove
        new EventFlow().listen(GUIEvents.PlayerAttemptedMove.class, event -> {
--- a/game/src/main/java/org/toop/game/players/MiniMaxAI.java
+++ b/game/src/main/java/org/toop/game/players/MiniMaxAI.java
@@ -0,0 +1,165 @@
 package org.toop.game.players;
 import org.toop.framework.gameFramework.GameState;
 import org.toop.framework.gameFramework.model.game.PlayResult;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.model.player.AbstractAI;
 import java.util.ArrayList;
 import java.util.List;
 import java.util.Random;
 public class MiniMaxAI<T extends TurnBasedGame<T>> extends AbstractAI<T> {
    private final int maxDepth;
    private final Random random = new Random();
    public MiniMaxAI(int depth) {
        this.maxDepth = depth;
    }
    public MiniMaxAI(MiniMaxAI<T> other) {
        this.maxDepth = other.maxDepth;
    }
    @Override
    public MiniMaxAI<T> deepCopy() {
        return new MiniMaxAI<>(this);
    }
    @Override
    public long getMove(T game) {
        long legalMoves = game.getLegalMoves();
        if (legalMoves == 0) return 0;
        List<Long> bestMoves = new ArrayList<>();
        int bestScore = Integer.MIN_VALUE;
        int aiPlayer = game.getCurrentTurn();
        long movesLoop = legalMoves;
        while (movesLoop != 0) {
            long move = 1L << Long.numberOfTrailingZeros(movesLoop);
            T copy = game.deepCopy();
            PlayResult result = copy.play(move);
            int score;
            switch (result.state()) {
                case WIN -> score = (result.player() == aiPlayer ? maxDepth : -maxDepth);
                case DRAW -> score = 0;
                default -> score = getMoveScore(copy, maxDepth - 1, false, aiPlayer, Integer.MIN_VALUE, Integer.MAX_VALUE);
            }
            if (score > bestScore) {
                bestScore = score;
                bestMoves.clear();
                bestMoves.add(move);
            } else if (score == bestScore) {
                bestMoves.add(move);
            }
            movesLoop &= movesLoop - 1;
        }
        long chosenMove = bestMoves.get(random.nextInt(bestMoves.size()));
        return chosenMove;
    }
    /**
     * Recursive minimax with alpha-beta pruning and heuristic evaluation.
     *
     * @param game       Current game state
     * @param depth      Remaining depth
     * @param maximizing True if AI is maximizing, false if opponent
     * @param aiPlayer   AI's player index
     * @param alpha      Alpha value
     * @param beta       Beta value
     * @return score of the position
     */
    private int getMoveScore(T game, int depth, boolean maximizing, int aiPlayer, int alpha, int beta) {
        long legalMoves = game.getLegalMoves();
        // Terminal state
        PlayResult lastResult = null;
        if (legalMoves == 0) {
            lastResult = new PlayResult(GameState.DRAW, -1);
        }
        // If the game is over or depth limit reached, evaluate
        if (depth <= 0 || legalMoves == 0) {
            if (lastResult != null) return 0;
            return evaluateBoard(game, aiPlayer);
        }
        int bestScore = maximizing ? Integer.MIN_VALUE : Integer.MAX_VALUE;
        long movesLoop = legalMoves;
        while (movesLoop != 0) {
            long move = 1L << Long.numberOfTrailingZeros(movesLoop);
            T copy = game.deepCopy();
            PlayResult result = copy.play(move);
            int score;
            switch (result.state()) {
                case WIN -> score = (result.player() == aiPlayer ? depth : -depth);
                case DRAW -> score = 0;
                default -> score = getMoveScore(copy, depth - 1, !maximizing, aiPlayer, alpha, beta);
            }
            if (maximizing) {
                bestScore = Math.max(bestScore, score);
                alpha = Math.max(alpha, bestScore);
            } else {
                bestScore = Math.min(bestScore, score);
                beta = Math.min(beta, bestScore);
            }
            // Alpha-beta pruning
            if (beta <= alpha) break;
            movesLoop &= movesLoop - 1;
        }
        return bestScore;
    }
    /**
     * Simple heuristic evaluation for Reversi-like games.
     * Positive = good for AI, Negative = good for opponent.
     *
     * @param game     Game state
     * @param aiPlayer AI's player index
     * @return heuristic score
     */
    private int evaluateBoard(T game, int aiPlayer) {
        long[] board = game.getBoard();
        int aiCount = 0;
        int opponentCount = 0;
        // Count pieces for AI vs opponent
        for (int i = 0; i < board.length; i++) {
            long bits = board[i];
            for (int j = 0; j < 64; j++) {
                if ((bits & (1L << j)) != 0) {
                    // Assume player 0 occupies even indices, player 1 occupies odd
                    if ((i * 64 + j) % game.getPlayerCount() == aiPlayer) aiCount++;
                    else opponentCount++;
                }
            }
        }
        // Mobility (number of legal moves)
        int mobility = Long.bitCount(game.getLegalMoves());
        // Corner control (top-left, top-right, bottom-left, bottom-right)
        int corners = 0;
        long[] cornerMasks = {1L << 0, 1L << 7, 1L << 56, 1L << 63};
        for (long mask : cornerMasks) {
            for (long b : board) {
                if ((b & mask) != 0) corners += 1;
            }
        }
        // Weighted sum
        return (aiCount - opponentCount) + 2 * mobility + 5 * corners;
    }
 }
--- a/game/src/main/java/org/toop/game/players/OnlinePlayer.java
+++ b/game/src/main/java/org/toop/game/players/OnlinePlayer.java
@@ -2,6 +2,7 @@ package org.toop.game.players;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.model.player.AbstractPlayer;
 import org.toop.framework.gameFramework.model.player.Player;
 /**
 * Represents a player controlled remotely or over a network.
@@ -23,4 +24,13 @@ public class OnlinePlayer<T extends TurnBasedGame<T>> extends AbstractPlayer<T>
    public OnlinePlayer(String name) {
        super(name);
    }
    public OnlinePlayer(OnlinePlayer<T> other) {
        super(other);
    }
    @Override
    public Player<T> deepCopy() {
        return new OnlinePlayer<>(this);
    }
 }
--- a/game/src/main/java/org/toop/game/players/RandomAI.java
+++ b/game/src/main/java/org/toop/game/players/RandomAI.java
@@ -0,0 +1,38 @@
 package org.toop.game.players;
 import org.toop.framework.gameFramework.model.game.TurnBasedGame;
 import org.toop.framework.gameFramework.model.player.AbstractAI;
 import java.util.Random;
 public class RandomAI<T extends TurnBasedGame<T>> extends AbstractAI<T> {
    public RandomAI() {
        super();
    }
    @Override
    public RandomAI<T> deepCopy() {
        return new RandomAI<T>();
    }
    @Override
    public long getMove(T game) {
        long legalMoves = game.getLegalMoves();
        int move = new Random().nextInt(Long.bitCount(legalMoves));
        return nthBitIndex(legalMoves, move);
    }
    public static long nthBitIndex(long bb, int n) {
        while (bb != 0) {
            int tz = Long.numberOfTrailingZeros(bb);
            if (n == 0) {
                return 1L << tz;
            }
            bb &= bb - 1; // clear the least significant 1
            n--;
        }
        return 0L; // not enough 1s
    }
 }
--- a/game/src/test/java/org/toop/game/tictactoe/TicTacToeAIRTest.java
+++ b/game/src/test/java/org/toop/game/tictactoe/TicTacToeAIRTest.java
@@ -1,121 +0,0 @@
 package org.toop.game.tictactoe;
 import org.junit.jupiter.api.DisplayName;
 import org.junit.jupiter.api.Test;
 import org.toop.framework.gameFramework.model.player.Player;
 import org.toop.game.games.tictactoe.TicTacToeAIR;
 import org.toop.game.games.tictactoe.TicTacToeR;
 import static org.junit.jupiter.api.Assertions.*;
 final class TicTacToeAIRTest {
    private final TicTacToeAIR ai = new TicTacToeAIR();
    // Helper: play multiple moves in sequence on a fresh board
    private TicTacToeR playSequence(int... moves) {
        TicTacToeR game = new TicTacToeR(new Player[2]);
        for (int move : moves) {
            game.play(move);
        }
        return game;
    }
    @Test
    @DisplayName("AI first move must choose a corner")
    void testFirstMoveIsCorner() {
        TicTacToeR game = new TicTacToeR(new Player[2]);
        int move = ai.getMove(game);
        assertTrue(
                move == 0 || move == 2 || move == 6 || move == 8,
                "AI should pick a corner as first move"
        );
    }
    @Test
    @DisplayName("AI doesn't make losing move in specific situation")
    void testWinningMove(){
        TicTacToeR game = playSequence(new int[] { 0,  4, 5, 3, 6, 1, 7});
        int move = ai.getMove(game);
        assertEquals(8, move);
    }
    @Test
    @DisplayName("AI takes immediate winning move")
    void testAiTakesWinningMove() {
        // X = AI, O = opponent
        // Board state (X to play):
        // X | X | .
        // O | O | .
        // . | . | .
        //
        // AI must play 2 (top-right) to win.
        TicTacToeR game = playSequence(
                0, 3,   // X, O
                1, 4    // X, O
        );
        int move = ai.getMove(game);
        assertEquals(2, move, "AI must take the winning move at index 2");
    }
    @Test
    @DisplayName("AI blocks opponent's winning move")
    void testAiBlocksOpponent() {
        // Opponent threatens to win:
        // X | . | .
        // O | O | .
        // . | . | X
        // O is about to win at index 5; AI must block it.
        TicTacToeR game = playSequence(
                0, 3,   // X, O
                8, 4    // X, O   (O threatens at 5)
        );
        int move = ai.getMove(game);
        assertEquals(5, move, "AI must block opponent at index 5");
    }
    @Test
    @DisplayName("AI returns -1 when no legal moves exist")
    void testNoMovesAvailable() {
        TicTacToeR full = new TicTacToeR(new Player[2]);
        // Fill board alternating
        for (int i = 0; i < 9; i++) full.play(i);
        int move = ai.getMove(full);
        assertEquals(-1, move, "AI should return -1 when board is full");
    }
    @Test
    @DisplayName("Minimax depth does not cause crashes and produces valid move")
    void testDepthStability() {
        TicTacToeR game = playSequence(0, 4); // Simple mid-game state
        int move = ai.getMove(game);
        assertTrue(move >= -1 && move <= 8, "AI must return a valid move index");
    }
    @Test
    @DisplayName("AI chooses the optimal forced draw move")
    void testForcedDrawScenario() {
        // Scenario where only one move avoids immediate loss:
        //
        // X | O | X
        // X | O | .
        // O | X | .
        //
        // Legal moves: 5, 8
        // Only move 5 avoids losing.
        TicTacToeR game = new TicTacToeR(new Player[2]);
        int[] moves = {0,1,2,4,3,6,7};  // Hard-coded board setup
        for (int m : moves) game.play(m);
        int move = ai.getMove(game);
        assertEquals(5, move, "AI must choose the only move that avoids losing");
    }
 }
Author	SHA1	Message	Date
Stef	b33c85419c	Update BitGameCanvas.java	2025-12-05 22:08:45 +01:00
Stef	449387c8ed	Removed System-Outs to clean up console	2025-12-05 14:18:47 +01:00
Stef	237f708a54	Added a ChatGPT generated MiniMaxAI based on the old MiniMaxAI but with alpha-beta pruning and heuristics for Reversi	2025-12-05 14:09:54 +01:00
Stef	64016bd3f0	Added a method getWinner() to game interface.Controller now tells gameThreads how to deal with drawing UI and sending a move to server.	2025-12-05 12:16:03 +01:00
Stef	38de4f2156	Drawing of board on canvas is now done from bitboards rather than translating.	2025-12-05 01:20:01 +01:00
Stef	b3a97a8978	Removed old AI and old files. Added a new generic random AI. game no longer deals with translation.	2025-12-05 01:05:11 +01:00
Stef	3c283092a3	Made all network events async again	2025-12-04 21:59:31 +01:00
Stef	7d90d475f1	Merge branch 'Development' into 276-refactor-the-game-to-use-bitboards-instead	2025-12-04 21:27:35 +01:00
Stef	05dcea03a1	Added comment	2025-12-04 21:27:02 +01:00
Stef	76f836b1c1	made more classes deepClonable.	2025-12-04 21:23:26 +01:00
Stef	6607918635	Removed souts for debugging	2025-12-04 20:55:05 +01:00
Stef	86e740a34a	Fixed local and online play for both games	2025-12-04 20:50:58 +01:00
ramollia	be57e25a48	fixed getLegalMoves & getFlips	2025-12-04 20:12:15 +01:00
Stef	0993abeec7	Everything is broken	2025-12-04 19:43:03 +01:00
ramollia	7ea45586ae	fixed? getLegalMoves	2025-12-04 19:36:38 +01:00
Stef	788cf08b49	Merge remote-tracking branch 'origin/276-refactor-the-game-to-use-bitboards-instead' into 276-refactor-the-game-to-use-bitboards-instead	2025-12-04 15:00:41 +01:00
ramollia	d74e7b4517	fixed getLegalMoves	2025-12-04 14:48:35 +01:00
Stef	21b489bbe7	Almost done with implementing bitboards. Reversi is broken and artifical players don't work yet.	2025-12-04 14:19:48 +01:00
Stef	f4ee992166	Bitboard implemented with scuffed TicTacToe translation done by game. This should be done by the view.	2025-12-04 00:49:49 +01:00
Stef	34d83ff7a5	(DOES NOT COMPILE) In-between commit	2025-12-03 22:44:43 +01:00
Stef	b3d65e73a0	Merge branch 'Development' into 276-refactor-the-game-to-use-bitboards-instead	2025-12-03 20:39:27 +01:00
ramollia	c25be04ff1	added new classes for the games that use bitboards instead. also combined game with turnbasedgame	2025-12-03 12:51:09 +01:00