snake und bot

src/Bot.java

@@ -0,0 +1,88 @@
+package src;
+
+import java.io.BufferedReader;
+import java.io.InputStreamReader;
+import java.io.IOException;
+import java.io.OutputStream;
+import java.net.Socket;
+import java.net.InetSocketAddress;
+
+public abstract class Bot {
+
+    // Ein Bot ist ein Programm, das sich mit einem Server verbindet und
+    // mit diesem kommuniziert. Der Server sendet dem Bot eine Zeichenkette,
+    // die das Spielfeld repräsentiert. Der Bot sendet dem Server ein Zeichen,
+    // das die nächste Bewegung des Bots repräsentiert.
+
+
+    private final String host;  // Hostname oder IP-Adresse des Servers
+    private final int port;     // Port des Servers
+
+    protected Bot(String[] args) {
+        host = args.length > 0 ? args[0] : "localhost";
+        port = args.length > 1 ? Integer.parseInt(args[1]) : 63187;
+    }
+
+    // Diese Methode stellt die Verbindung zum Server her und startet die
+    // Kommunikation mit dem Server. Die Methode wird von der main-Methode
+    // aufgerufen.
+    protected void run() {
+        try (Socket socket = new Socket()) {
+            socket.connect(new InetSocketAddress(host, port));
+            OutputStream out = socket.getOutputStream();
+            BufferedReader in = new BufferedReader(new InputStreamReader(socket.getInputStream()));
+            View view = new View();
+            while (true) {
+                view.read(in);
+                view.print();
+                try {
+                    char ch = nextMove(view);
+                    out.write(ch);
+                } catch (Exception e) {
+                    break;
+                }
+            }
+            socket.close();
+        } catch (IOException e) {
+            System.err.println("Error: " + e.getMessage());
+        }
+    }
+
+    // Diese Methode ermittelt den nächsten Zug des Bots. Sie wird von der
+    // run-Methode aufgerufen, nachdem der Server das Spielfeld gesendet hat.
+    // Subklassen müssen diese Methode implementieren.
+    abstract protected char nextMove(View view) throws Exception;
+
+    // Diese Klasse repräsentiert das Spielfeld. Sie wird von der run-Methode
+    // verwendet, um das Spielfeld zu lesen und auszugeben.
+    // Subklassen können diese Klasse verwenden, um das Spielfeld zu analysieren.
+    public static class View {
+        protected String data;
+        protected int width;
+
+        // Diese Methode liest das Spielfeld vom Server.
+        private void read(BufferedReader in) throws IOException {
+            StringBuilder sb = new StringBuilder();
+            data = in.readLine();
+            if (data == null) {
+                return;
+            }
+            sb.append(data);
+            width = data.length();
+            for (int i = 1; i < width; ++i) {
+                sb.append(in.readLine());
+            }
+            data = sb.toString();
+        }
+
+        // Diese Methode gibt das Spielfeld aus.
+        protected void print() {
+            if (data == null || width < 1) {
+                return;
+            }
+            for (int i = 0, len = data.length(); i < len; i += width) {
+                System.out.println(data.substring(i, i + width));
+            }
+        }
+    }
+}

src/SnakeBot.java

@@ -0,0 +1,128 @@
+package src;
+
+public class SnakeBot extends Bot {
+    int straightLength = 1;         //length of the straight the bot still needs to travel(in "FOV-Tiles")
+    int stepCounter = 0;            //steps the bot has already taken on the straight
+    int turnCount = 2;              //amount of times the bot needs to turn before increasing straightLength
+    final int VIEWRANGE = 5;        //distance from one end to the bots FOV to the other (assumes square FOV)
+    int wagonCount = 0;             //amount of wagons the rover is currently pulling
+    int angle = 0;                  //current angle of the rover, compared to its initial angle
+    boolean isOnPath = true;        //if the bot is on its normal search path (not pathing to a mineral)
+    char[] clearSequence = {'<', '^', '<', '^', '^', '>', '^', '>', '^', '^', '^', '^', '>', '^', '>', '^', '<', '^', '^', '>',
+            '^', '^', '^', '<', '^', '<', '^', '^', '^', '^', '<', '^', '^', '>'};
+    char[] cornerClearSequence = {'<', '^', '<', '^', '^', '>', '^', '>', '^', '^', '^', '^', '>', '^', '>', '^', '<', '^',
+            '<', '^', '>', '^', '^', '>', '^', '>', '^', '<', '^', '^', '^', '<', '^', '<', '^', '^', '>'};
+    int clearSequenceCounter = 0;
+    boolean isClearing = false;
+
+    protected SnakeBot(String[] args) {
+        super(args);
+    }
+
+    public static void main(String[] args) {
+        SnakeBot bot = new SnakeBot(args);
+        bot.run();
+    }
+
+    @Override
+    protected char nextMove(View view) throws Exception {
+
+//        if (!view.data.contains("@") && isOnPath) {
+//
+//            if (turnCount <= 0) {
+//                turnCount = 2;
+//                straightLength++;
+//            }
+//            if (stepCounter < straightLength * viewRange) {
+//                stepCounter++;
+//                return '^';
+//            } else {
+//                stepCounter = 0;
+//                turnCount--;
+//                angle = (angle + 90) % 360;
+//                return '>';
+//            }
+//        } else if (!view.data.contains("@") && !isOnPath) {
+//
+//        } else {
+//            isOnPath = false;
+//            //check for minerals to the left of the rover (high prio)
+//            for (int i = 0; i < view.data.length(); i += viewRange) {
+//                if (view.data.substring(i, i + 2).contains("@")) {
+//                    angle = (angle + 270) % 360;
+//                    return '<';
+//                }
+//            }
+//            //check for minerals in front of the rover (mid prio)
+//            if (view.data.substring(0, view.data.length() / 2 - viewRange / 2).contains("@")) {
+//                return '^';
+//            }
+//            //check for minerals to the right of the rover (low prio)
+//            for (int i = 3; i < view.data.length(); i += viewRange) {
+//                if (view.data.substring(i, i + 2).contains("@")) {
+//                    angle = (angle + 90) % 360;
+//                    return '>';
+//                }
+//            }
+
+//            if (view.data.substring(0, 10).contains("@")) {
+//                return '^';
+//            } else if (view.data.substring(10, 12).contains("@")) {
+//                return '<';
+//            } else if (view.data.substring(13, 15).contains("@")) {
+//                return '>';
+//            } else if (view.data.substring(15, 25).contains("@")) {
+//                return 'v';
+//            }
+//        }
+
+        if (stepCounter % VIEWRANGE == 0 && !isClearing && view.data.contains("@")) {
+            isClearing = true;
+        }
+        if (isClearing) {
+            return clearFov(view);
+        } else {
+            if (turnCount <= 0) {
+                turnCount = 2;
+                straightLength++;
+            }
+            //if rover hasn't reached corner
+            if (stepCounter < straightLength * VIEWRANGE) {
+                stepCounter++;
+                return '^';
+            } else {
+                stepCounter = 0;
+                turnCount--;
+                return '>';
+            }
+        }
+        //return 0;
+    }
+
+    protected char clearFov(View view) {
+        char move;
+        //check if rover is at a corner of its search path
+        if (stepCounter >= straightLength * VIEWRANGE) {
+            move = cornerClearSequence[clearSequenceCounter++];
+
+            //update rover state and reset sequence after its done
+            if (clearSequenceCounter >= cornerClearSequence.length) {
+                isClearing = false;
+                stepCounter = 2;
+                turnCount--;
+                clearSequenceCounter = 0;
+            }
+        } else {
+            move = clearSequence[clearSequenceCounter++];
+
+            //update rover state and reset sequence after its done
+            if (clearSequenceCounter >= clearSequence.length) {
+                isClearing = false;
+                stepCounter += 2;
+                clearSequenceCounter = 0;
+            }
+        }
+
+        return move;
+    }
+}