Exemplo n.º 1
0
        // Refresh the output value of the input rows (first NINPUTS of the table)
        private void RefreshTableInputs(TableRex t)
        {
            for (int i = 0; i < TableRexBase.NINPUTS; i++) {
                switch (i) {
                    case 0: t[i].output = InputVelocity(); break;
                    case 1: t[i].output = InputEnergy(); break;
                    case 2: t[i].output = InputHeading(); break;
                    case 3: t[i].output = InputGunHeading(); break;
                    case 4: t[i].output = InputGunHeat(); break;
                    case 5: t[i].output = InputRadarHeading(); break;
                    case 6: t[i].output = InputRadarTurnRemaining(); break;
                    case 7: t[i].output = InputDistanceToWestWall(); break;
                    case 8: t[i].output = InputDistanceToNorthWall(); break;
                    case 9: t[i].output = InputDistanceToEastWall(); break;
                    case 10: t[i].output = InputDistanceToSouthWall(); break;
                    case 11: t[i].output = InputConstant1(); break;
                    case 12: t[i].output = InputConstant2(); break;
                    case 13: t[i].output = InputConstant10(); break;
                    case 14: t[i].output = InputConstant90(); break;
                    case 15: t[i].output = InputEnemyVelocity(); break;
                    case 16: t[i].output = InputEnemyEnergy(); break;
                    case 17: t[i].output = InputEnemyHeading(); break;
                    case 18: t[i].output = InputEnemyBearing(); break;
                    case 19: t[i].output = InputEnemyDistance(); break;
                    default: break;

                }
            }
        }
Exemplo n.º 2
0
 private double Or(TableRex t, int i1, int i2)
 {
     //Out.WriteLine("Ejecutando Or con " + i1.ToString() + ", " + i2.ToString());
     return LogicOperators(t, i1, i2, LogicOps.or);
 }
Exemplo n.º 3
0
 private double RandomFloat(TableRex t, int i1, int i2)
 {
     //Out.WriteLine("Ejecutando RandomFloat con " + i1.ToString() + ", " + i2.ToString());
     Random rand = new Random((int)X % ((int)Energy + 1) + (int)Time);
     return (rand.NextDouble() * t[i1].output + t[i2].output);
 }
Exemplo n.º 4
0
        public override void Run()
        {
            // Reading the data from the file
            string rawBin = "";
            try {
                using (Stream count = GetDataFile(Name + ".rxt")) {
                    if (count.Length != 0) {
                        using (TextReader tr = new StreamReader(count)) {
                            rawBin = tr.ReadToEnd();
                            //Out.WriteLine("rawBin = " + rawBin);  // DEBUG
                            //Out.WriteLine("rawBin = "); // DEBUG
                            // OUT DEBUG
                            //rawBin.Trim(char.Parse(TableRexBase.SEPARATOR));
                            //string[] rows = tRaw.Split(char.Parse(TableRexBase.SEPARATOR)
                            // OUT DEBUG
                        }
                    }
                }
            } catch (Exception) {
                Out.WriteLine("Could not read the TableRex table.");
            }

            rawBin = rawBin.Trim(char.Parse(TableRexBase.TSEPARATOR));
            string[] tables = rawBin.Split(char.Parse(TableRexBase.TSEPARATOR));

            if (tables.Length != 5) {
                Out.WriteLine("Invalid file data. Five (5) programs (sections sepparated by \"|\") are needed.");
                return;
            }

            for (int i = 0; i < tables.Length; i++) {
                switch (i) {
                    case 0: mainTable = new TableRex(tables[i]); break;
                    case 1: onScannedTable = new TableRex(tables[i]); break;
                    case 2: onHitByBulletTable = new TableRex(tables[i]); break;
                    case 3: onHitBotTable = new TableRex(tables[i]); break;
                    case 4: onHitWallTable = new TableRex(tables[i]); break;
                }
            }

            while (true)
                RunProgram(TableRexPrograms.main);

            //Out.WriteLine("Transformando 101110011110101100 en int: " + Support.BinaryStringToInt("101110011110101100").ToString()); // DEBUG
        }
Exemplo n.º 5
0
 private double Not(TableRex t, int i1)
 {
     //Out.WriteLine("Ejecutando Not con " + i1.ToString());
     return LogicOperators(t, i1, 0, LogicOps.not);
 }
Exemplo n.º 6
0
 private double Add(TableRex t, int i1, int i2)
 {
     /*Out.WriteLine("Ejecutando Add con " + i1.ToString() + ", " + i2.ToString());*/ return (t[i1].output + t[i2].output);
 }
Exemplo n.º 7
0
 private double NormalizeRelativeAngle(TableRex t, int i1)
 {
     //Out.WriteLine("Ejecutando NormalizeRelativeAngle con " + i1.ToString());
     // Source: http://www.java2s.com/Tutorial/Java/0120__Development/Normalizesanangletoarelativeangle.htm
     //return (t[i1].output %= 360) >= 0 ? (t[i1].output < 180) ? t[i1].output : t[i1].output - 360 : (t[i1].output >= -180) ? t[i1].output : t[i1].output + 360;
     return Robocode.Util.Utils.NormalRelativeAngleDegrees(t[i1].output);
 }
Exemplo n.º 8
0
 private double LessThan(TableRex t, int i1, int i2)
 {
     //Out.WriteLine("Ejecutando LessThan con " + i1.ToString() + ", " + i2.ToString());
     if (t[i1].output < t[i2].output)
         return 1;
     return 0;
 }
Exemplo n.º 9
0
        private double LogicOperators(TableRex t, int i1, int i2, LogicOps op)
        {
            bool b1 = true;
            bool b2 = true;
            bool r = true;

            if (t[i1].output < 1)
                b1 = false;
            if (t[i2].output < 1)
                b2 = false;

            switch (op) {
                case LogicOps.and: r = b1 && b2; break;
                case LogicOps.or: r = b1 || b2; break;
                case LogicOps.not: r = !b1; break;
                default: return 0;
            }
            if (r)
                return 1;
            return 0;
        }
Exemplo n.º 10
0
 private double Equal(TableRex t, int i1, int i2)
 {
     //Out.WriteLine("Ejecutando Equal con " + i1.ToString() + ", " + i2.ToString());
     if (t[i1].output == t[i2].output)
         return 1;
     return 0;
 }
Exemplo n.º 11
0
 private double GenerateConstant(TableRex t, int i1, int i2)
 {
     //Out.WriteLine("Ejecutando GenerateConstant con " + i1.ToString() + ", " + i2.ToString());
     return i2 - i1;
 }
Exemplo n.º 12
0
 private double Divide(TableRex t, int i1, int i2)
 {
     //Out.WriteLine("Ejecutando Divide con " + i1.ToString() + ", " + i2.ToString());
     if (t[i2].output != 0)
         return (t[i1].output / t[i2].output);
     return (t[i1].output / (t[i2].output + 1));
 }
Exemplo n.º 13
0
        private double ControlActuator(TableRex t, int i1, int i2)
        {
            //Out.WriteLine("Ejecutando ControlActuator con " + i1.ToString() + ", " + i2.ToString());
            //Ahead(GenerateConstant(i1, i2)); // DEBUG
            switch (i1) {
                case 0: return ActAhead(t[i2].output);
                case 1: return ActAhead50();
                case 2: return ActAheadDistanceToCenter();
                case 3: return ActAheadHalfDistanceToWestWall();
                case 4: return ActAheadHalfDistanceToNorthWall();
                case 5: return ActAheadHalfDistanceToEastWall();
                case 6: return ActAheadHalfDistanceToSouthWall();
                case 7: return ActAheadDistanceToEnemy();
                case 8: return ActAheadHalfDistanceToEnemy();
                case 9: return ActBack(t[i2].output);
                case 10: return ActBack50();
                case 11: return ActBackDistanceToCenter();
                case 12: return ActBackHalfDistanceToWestWall();
                case 13: return ActBackHalfDistanceToNorthWall();
                case 14: return ActBackHalfDistanceToEastWall();
                case 15: return ActBackHalfDistanceToSouthWall();
                case 16: return ActBackDistanceToEnemy();
                case 17: return ActBackHalfDistanceToEnemy();
                case 18: return ActTurnRight(t[i2].output);
                case 19: return ActTurnRight10();
                case 20: return ActTurnRight45();
                case 21: return ActTurnRight90();
                case 22: return ActTurnLeft(t[i2].output);
                case 23: return ActTurnLeft10();
                case 24: return ActTurnLeft45();
                case 25: return ActTurnLeft90();
                case 26: return ActTurnToCenter();
                case 27: return ActTurnAwayFromCenter();
                case 28: return ActTurnToEnemy();
                case 29: return ActTurnAwayFromEnemy();
                case 30: return ActTurnPerpendicularToEnemy();
                case 31: return ActTurnParallelToNearestWall();
                case 32: return ActTurnPerpendicularToNearestWall();
                case 33: return ActFire(t[i2].output);
                case 34: return ActFire1();
                case 35: return ActFire2();
                case 36: return ActFire3();
                case 37: return ActTurnGunRight(t[i2].output);
                case 38: return ActTurnGunRight10();
                case 39: return ActTurnGunRight45();
                case 40: return ActTurnGunRight90();
                case 41: return ActTurnGunLeft(t[i2].output);
                case 42: return ActTurnGunLeft10();
                case 43: return ActTurnGunLeft45();
                case 44: return ActTurnGunLeft90();
                case 45: return ActTurnGunToCenter();
                case 46: return ActTurnGunToEnemy();

                default: break;
            }
            return 1;
        }
Exemplo n.º 14
0
 // TODO: Optimizar esta funcion (demasiado trasiego de ROW...)(Comprobar si se persisten los cambios a los parámetros, para ahorrar devolver una row)
 private void CallFunction(TableRex t, int trPointer)
 {
     //TableRex.Row result = new TableRex.Row(progRow.function, progRow.param1, progRow.param2);
     switch (t[trPointer].function) {
         case (int)TableRexBase.FunctionIndex.absolute_value: t[trPointer].output = Absolute(t, t[trPointer].param1); break;
         case (int)TableRexBase.FunctionIndex.addition: t[trPointer].output = Add(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.and: t[trPointer].output = And(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.division: t[trPointer].output = Divide(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.equal: t[trPointer].output = Equal(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.generate_constant: t[trPointer].output = GenerateConstant(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.greater_than: t[trPointer].output = GreaterThan(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.less_than: t[trPointer].output = LessThan(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.modulo: t[trPointer].output = Modulo(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.multiplication: t[trPointer].output = Product(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.normalize_relative_angle: t[trPointer].output = NormalizeRelativeAngle(t, t[trPointer].param1); break;
         case (int)TableRexBase.FunctionIndex.not: t[trPointer].output = Not(t, t[trPointer].param1); break;
         case (int)TableRexBase.FunctionIndex.or: t[trPointer].output = Or(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.random_float: t[trPointer].output = RandomFloat(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.subtraction: t[trPointer].output = Subtract(t, t[trPointer].param1, t[trPointer].param2); break;
         case (int)TableRexBase.FunctionIndex.control_actuator: t[trPointer].output = ControlActuator(t, t[trPointer].param1, t[trPointer].param2); break;
     }
 }
Exemplo n.º 15
0
 // TODO: Estudiar visibilidad (public, private...)
 // Runs the selected program once
 private void RunProgram(TableRexPrograms prog)
 {
     //Out.WriteLine("Ejecutando tabla " + prog.ToString()); // DEBUG
     // Load working table
     TableRex currentProgram = new TableRex();
     switch (prog) {
         case TableRexPrograms.main: currentProgram = mainTable; break;
         case TableRexPrograms.onScannedRobot: currentProgram = onScannedTable; break;
         case TableRexPrograms.onHitByBullet: currentProgram = onHitByBulletTable; break;
         case TableRexPrograms.onHitRobot: currentProgram = onHitBotTable; break;
         case TableRexPrograms.onHitWall: currentProgram = onHitWallTable; break;
         default: currentProgram = mainTable; break;
     }
     // Cycle throught every program line
     for (int trPointer = TableRexBase.NINPUTS; trPointer < TableRexBase.NROWS; trPointer++) {
         //currentProgram[trPointer] = CallFunction(currentProgram, trPointer);
         CallFunction(currentProgram, trPointer);
         //Out.WriteLine(trPointer.ToString() + ">   " + currentProgram[trPointer].output.ToString()); // DEBUG
     }
     // Persist changes
     switch (prog) {
         case TableRexPrograms.main: mainTable = currentProgram; RefreshTableInputs(mainTable); break;
         case TableRexPrograms.onScannedRobot: onScannedTable = currentProgram; RefreshTableInputs(onScannedTable); break;
         case TableRexPrograms.onHitByBullet: onHitByBulletTable = currentProgram; RefreshTableInputs(onHitByBulletTable); break;
         case TableRexPrograms.onHitRobot: onHitBotTable = currentProgram; RefreshTableInputs(onHitBotTable); break;
         case TableRexPrograms.onHitWall: onHitWallTable = currentProgram; RefreshTableInputs(onHitWallTable); break;
         default: mainTable = currentProgram; break;
     }
 }
Exemplo n.º 16
0
 private double Modulo(TableRex t, int i1, int i2)
 {
     //Out.WriteLine("Ejecutando Modulo con " + i1.ToString() + ", " + i2.ToString());
     if ((int)t[i2].output != 0)
         return ((int)t[i1].output % ((int)t[i2].output));
     return ((int)t[i1].output % ((int)t[i2].output + 1));
 }
Exemplo n.º 17
0
 private double Subtract(TableRex t, int i1, int i2)
 {
     /*Out.WriteLine("Ejecutando Subtract con " + i1.ToString() + ", " + i2.ToString());*/ return (t[i1].output - t[i2].output);
 }
Exemplo n.º 18
0
 private double Absolute(TableRex t, int i1)
 {
     /*Out.WriteLine("Ejecutando Absolute con " + i1.ToString());*/ return Math.Abs(t[i1].output);
 }