public static void Execute(string input) { long[] code = Array.ConvertAll(input.Split(','), long.Parse); _game = new IntcodeComputer(code, true).WriteMem(0, 2).Run(); Console.Clear(); ParseOutput(); int blocks = 0; foreach (long tile in Screen) { if (tile == 2) { blocks++; } } int frameCounter = 0; while (_game.GetState != IntcodeComputer.State.Halted) { _game.Run(); ParseOutput(); if (frameCounter % 2 == 0) { DrawScreen(); } Thread.Sleep(8); if (_paddle > _ball) { _game.QueueInput(-1); } else if (_paddle < _ball) { _game.QueueInput(1); } else { _game.QueueInput(0); } frameCounter++; } Console.Clear(); Console.WriteLine($"Part 1: {blocks}"); Console.WriteLine($"Part 2: {_score}"); }
public static void Execute(string input) { long[] code = Array.ConvertAll(input.Split(','), long.Parse); IntcodeComputer cpu = new IntcodeComputer(code).QueueInput(1).Run(); long a = 0; while (cpu.OutputQueue.Count > 0) { a = cpu.OutputQueue.Dequeue(); } Console.WriteLine($"Part 1: {a}"); long b = new IntcodeComputer(code).QueueInput(5).Run().OutputQueue.Dequeue(); Console.WriteLine($"Part 2: {b}"); }
private static RunReturnValue RunComputer(long[] code, int defaultValue) { IntcodeComputer robot = new IntcodeComputer(code, true).Run(); Dictionary <IntPoint, int> map = new Dictionary <IntPoint, int>(); IntPoint l = new IntPoint(0, 0); IntPoint min = new IntPoint(int.MaxValue, int.MaxValue); IntPoint max = new IntPoint(int.MinValue, int.MinValue); Direction d = Direction.Up; while (robot.GetState != IntcodeComputer.State.Halted) { int currentSquare = map.ContainsKey(l) ? map[l] : defaultValue; int newSquare = (int)robot.QueueInput(currentSquare).Run().OutputQueue.Dequeue(); int turn = (int)robot.OutputQueue.Dequeue(); map[l] = newSquare; d = MakeTurn(d, turn); l += DirectionToVector(d); if (l.X > max.X || l.Y > max.Y) { max = new IntPoint(Math.Max(l.X, max.X), Math.Max(l.Y, max.Y)); } if (l.X < min.X || l.Y < max.Y) { min = new IntPoint(Math.Min(l.X, min.X), Math.Min(l.Y, min.Y)); } //DrawCenter(map, l, d, map.Count, $"After move"); //Thread.Sleep(10); } RunReturnValue ret = new RunReturnValue(); ret.Map = map; ret.Min = min; ret.Max = max; ret.Cycles = robot.Cycles; ret.Seconds = robot.ExecutionTime.TotalSeconds; return(ret); }
public static void Execute(string input) { long[] code = Array.ConvertAll(input.Split(','), long.Parse); long highest = -1; foreach (var list in GetPermutations(new List <int> { 0, 1, 2, 3, 4 }, 5)) { var permutation = (List <int>)list; long a = new IntcodeComputer(code).QueueInput(permutation[0]).QueueInput(0).Run().OutputQueue.Dequeue(); long b = new IntcodeComputer(code).QueueInput(permutation[1]).QueueInput(a).Run().OutputQueue.Dequeue(); long c = new IntcodeComputer(code).QueueInput(permutation[2]).QueueInput(b).Run().OutputQueue.Dequeue(); long d = new IntcodeComputer(code).QueueInput(permutation[3]).QueueInput(c).Run().OutputQueue.Dequeue(); long e = new IntcodeComputer(code).QueueInput(permutation[4]).QueueInput(d).Run().OutputQueue.Dequeue(); if (e > highest) { highest = e; } } Console.WriteLine($"Part 1: {highest}"); highest = -1; foreach (var list in GetPermutations(new List <int> { 5, 6, 7, 8, 9 }, 5)) { var permutation = (List <int>)list; long lastE = -1; long a = 0; IntcodeComputer[] computers = { new IntcodeComputer(code, true).QueueInput(permutation[0]), new IntcodeComputer(code, true).QueueInput(permutation[1]), new IntcodeComputer(code, true).QueueInput(permutation[2]), new IntcodeComputer(code, true).QueueInput(permutation[3]), new IntcodeComputer(code, true).QueueInput(permutation[4]), }; for (int i = 0;; i++) { IntcodeComputer computer = computers[i % 5]; computer.QueueInput(a).Run(); a = computer.OutputQueue.Dequeue(); if (i % 5 == 4) { lastE = a; } if (computers.Count(cpu => cpu.GetState == IntcodeComputer.State.Halted) == 5) { break; } } if (lastE > highest) { highest = lastE; } } Console.WriteLine($"Part 2: {highest}"); }