static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("corrected message: {0}", RepetitionCorrection(input)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Active Pixels: {0}", DisplayControl(input)); Console.ReadLine(); }
static void Main(string[] args) { List <Instruction> program = new List <Instruction>(); foreach (string line in InputLoader.LoadByLines("input.txt")) { program.Add(new Instruction(line)); } CoProcessor cp1 = new CoProcessor(); System.Threading.Thread p1 = new System.Threading.Thread(new System.Threading.ThreadStart(cp1.ThreadFunc)); cp1.Program = program; cp1.DebugMode = true; p1.Start(); p1.Join(); /*CoProcessor cp2 = new CoProcessor(); * System.Threading.Thread p2 = new System.Threading.Thread(new System.Threading.ThreadStart(cp2.ThreadFunc)); * cp2.Program = program; * cp2.DebugMode = false; * p2.Start(); * p2.Join();*/ aocAssemblerAsCSharp(); Console.WriteLine(string.Format("Program ended")); Console.ReadLine(); }
static void Main(string[] args) { List <string> gridMap = new List <string>(); foreach (string line in InputLoader.LoadByLines("input.txt")) { gridMap.Add(line); } VirusCarrierSimple simpleVirus = new VirusCarrierSimple(gridMap); VirusCarrierEnhanced enhancedVirus = new VirusCarrierEnhanced(gridMap); for (int i = 0; i < 10000; i++) { simpleVirus.Move(); } for (int i = 0; i < 10000000; i++) { enhancedVirus.Move(); } Console.WriteLine(string.Format("Infection Bursts: {0}", simpleVirus.InfectionBursts)); Console.WriteLine(string.Format("Infection Bursts: {0}", enhancedVirus.InfectionBursts)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Dragon checksum disc 1: {0}", MinimumFreeIP(input)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); ParseInstructions(input); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Shortest path: {0}", MazeRunner(input[0])); Console.ReadLine(); }
/*static char[,] RotateMatrix(char[,] matrix, int n) * { * char[,] ret = new char[n, n]; * * for (int i = 0; i < n; ++i) * { * for (int j = 0; j < n; ++j) * { * ret[i, j] = matrix[n - j - 1, i]; * } * } * * return ret; * }*/ static void Main(string[] args) { List <string> startPattern = new List <string>(); startPattern.Add(".#."); startPattern.Add("..#"); startPattern.Add("###"); List <string> outputPattern = new List <string>(startPattern); List <string[]> transformRules = new List <string[]>(); foreach (string line in InputLoader.LoadByLines("input.txt")) { transformRules.Add(line.Split(new string[] { " => " }, StringSplitOptions.RemoveEmptyEntries)); } if ((outputPattern.Count % 2) == 0) { } else { if (outputPattern.Count > 3) { } else { } } /*char[,] matrix = new char[,] { { '1', '2', '3' }, { '4', '5', '6' }, { '7', '8', '9' } }; * matrix = RotateMatrix(matrix, 2);*/ Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Last index for OTP 64: {0}", GenerateOTPs(input[0], 64, false)); Console.WriteLine("Last index for OTP 64 stretched: {0}", GenerateOTPs(input[0], 64, true)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Decompressed Length V1: {0}", DecompressV1(input[0])); Console.WriteLine("Decompressed Length V2: {0}", DecompressV2(input[0])); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Value of Register a(0,0,0,0): {0}", ExecuteInstructions(input, 0, 0, 0, 0)); Console.WriteLine("Value of Register a(0,0,1,0): {0}", ExecuteInstructions(input, 0, 0, 1, 0)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Dragon checksum disc 1: {0}", DragonChecksum(input[0])); Console.WriteLine("Dragon checksum disc 2: {0}", DragonChecksum(input[1])); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Possible triangles: {0}", GetPossibleTrianglesByLine(input)); Console.WriteLine("Possible triangles other order: {0}", GetPossibleTrianglesByColumn(input)); Console.ReadLine(); }
static void Main(string[] args) { string input = InputLoader.LoadByLines("input.txt")[0]; Console.WriteLine(string.Format("Sum Part 1: {0}", SumUp(input, 1))); Console.WriteLine(string.Format("Sum Part 2: {0}", SumUp(input, input.Length / 2))); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Bathroom Code on normal keypad: {0}", KeypadNormal(input)); Console.WriteLine("Bathroom Code on special keypad: {0}", KeypadSpecial(input)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Viable pairs: {0}", ViablePairs(input)); Console.WriteLine("Moves to get data: {0}", DataRetrieval(input)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("IPv7 with TLS: {0}", CountTLSIPv7(input)); Console.WriteLine("IPv7 with SSL: {0}", CountSSLIPv7(input)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Get capsule at time: {0}", DiscMazePassThrough(input, false)); Console.WriteLine("2nd try: Get capsule at time: {0}", DiscMazePassThrough(input, true)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Scrambled password: {0}", Scramble("abcdefgh", input)); Console.WriteLine("Scrambled password: {0}", Unscramble("fbgdceah", input)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Safe tiles: {0}", TrapRoom(input, 40)); input = InputLoader.LoadByLines("input.txt"); Console.WriteLine("Safe tiles: {0}", TrapRoom(input, 400000)); Console.ReadLine(); }
/*static Coordinates FollowDirections2(string input) * { * Coordinates c = new Coordinates(); * int facing = 0; * * string[] splitted = input.Split(new char[] { ',', ' ' }, StringSplitOptions.RemoveEmptyEntries); * * Dictionary<int, Dictionary<int, int>> grid = new Dictionary<int, Dictionary<int, int>>(); * grid.Add(0, new Dictionary<int, int>()); * grid[0].Add(0, 0); * * foreach (string s in splitted) * { * switch (s[0]) * { * case 'R': * facing++; * break; * case 'L': * facing--; * break; * } * if (facing > 3) * { * facing = 0; * } * if (facing < 0) * { * facing = 3; * } * int steps = int.Parse(s.Remove(0, 1)); * * while (steps-- > 0) * { * switch (facing) * { * case 0: * c.Y++; * break; * case 1: * c.X++; * if (grid.ContainsKey(c.X)) * { * * } * else * { * grid.Add(c.X, new Dictionary<int, int>()); * grid[c.X].Add(c.Y, 0); * } * break; * case 2: * c.Y--; * break; * case 3: * c.X--; * break; * } * } * } * * return c; * }*/ static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); Point[] c = FollowDirections(input); Console.WriteLine("Blocks until destination: {0}", Math.Abs(c[0].X) + Math.Abs(c[0].Y)); Console.WriteLine("Blocks until real destination: {0}", Math.Abs(c[1].X) + Math.Abs(c[1].Y)); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); int[] results = SumIdRealRooms(input); Console.WriteLine("Sum real room IDs: {0}", results[0]); Console.WriteLine("Sector ID where North Pole Items are stored: {0}", results[1]); Console.ReadLine(); }
static void Main(string[] args) { List <string> input = InputLoader.LoadByLines("input.txt"); string[] results = GeneratePassword(input[0]); Console.WriteLine("Door password simple: {0}", results[0]); Console.WriteLine("Door password enhanced: {0}", results[1]); Console.ReadLine(); }
static void Main(string[] args) { List <int> jumpList = new List <int>(); foreach (string line in InputLoader.LoadByLines("input.txt")) { jumpList.Add(int.Parse(line)); } Console.WriteLine("Jumps Part 1: {0}", ListWalkerPart1(jumpList)); Console.WriteLine("Jumps Part 2: {0}", ListWalkerPart2(jumpList)); Console.ReadLine(); }
static void Main(string[] args) { int validPassphrasesPart1 = 0; int validPassphrasesPart2 = 0; foreach (string line in InputLoader.LoadByLines("input.txt")) { validPassphrasesPart1 += IsValidPassphrasePart1(line); validPassphrasesPart2 += IsValidPassphrasePart2(line); } Console.WriteLine("Valid Passphrases Part 1: {0}", validPassphrasesPart1); Console.WriteLine("Valid Passphrases Part 2: {0}", validPassphrasesPart2); Console.ReadLine(); }
static void Main(string[] args) { List <BridgePart> bridgeParts = new List <BridgePart>(); List <List <BridgePart> > bridges = new List <List <BridgePart> >(); int bestBridgeStrength = int.MinValue; int bestBridgeStrengthLongest = int.MinValue; int longestBridge = int.MinValue; foreach (string line in InputLoader.LoadByLines("input.txt")) { bridgeParts.Add(new BridgePart(line)); } createBridges(bridges, new List <BridgePart>(), bridgeParts, 0); foreach (List <BridgePart> bps in bridges) { int strength = 0; foreach (BridgePart bp in bps) { strength += bp.PortStrength[0]; strength += bp.PortStrength[1]; } if (strength > bestBridgeStrength) { bestBridgeStrength = strength; } if (bps.Count > longestBridge) { longestBridge = bps.Count; bestBridgeStrengthLongest = strength; } else if (bps.Count == longestBridge) { if (strength > bestBridgeStrengthLongest) { bestBridgeStrengthLongest = strength; } } } Console.WriteLine(string.Format("Strongest bridge strength: {0}", bestBridgeStrength)); Console.WriteLine(string.Format("Strongest bridge strength of longest bridge: {0}", bestBridgeStrengthLongest)); Console.ReadLine(); }
static void Main(string[] args) { List <string> maze = new List <string>(); foreach (string line in InputLoader.LoadByLines("input.txt")) { maze.Add(line); } // Maze walker int x = FindMazeStart(maze); int y = 0; EDirections dir = EDirections.eDown; int steps = 0; StringBuilder sb = new StringBuilder(); while (true) { switch (dir) { case EDirections.eUp: y--; break; case EDirections.eDown: y++; break; case EDirections.eLeft: x--; break; case EDirections.eRight: x++; break; } steps++; if (maze[y][x] == '+') // direction change { switch (dir) { case EDirections.eUp: if ((maze[y][x - 1] == '-') || char.IsLetter(maze[y][x - 1])) { dir = EDirections.eLeft; } else if ((maze[y][x + 1] == '-') || char.IsLetter(maze[y][x + 1])) { dir = EDirections.eRight; } break; case EDirections.eDown: if ((maze[y][x - 1] == '-') || char.IsLetter(maze[y][x - 1])) { dir = EDirections.eLeft; } else if ((maze[y][x + 1] == '-') || char.IsLetter(maze[y][x + 1])) { dir = EDirections.eRight; } break; case EDirections.eLeft: if ((maze[y - 1][x] == '|') || char.IsLetter(maze[y - 1][x])) { dir = EDirections.eUp; } else if ((maze[y + 1][x] == '|') || char.IsLetter(maze[y + 1][x])) { dir = EDirections.eDown; } break; case EDirections.eRight: if ((maze[y - 1][x] == '|') || char.IsLetter(maze[y - 1][x])) { dir = EDirections.eUp; } else if ((maze[y + 1][x] == '|') || char.IsLetter(maze[y + 1][x])) { dir = EDirections.eDown; } break; } } else if (maze[y][x] == ' ') // Reached end of maze { break; } else { if (char.IsLetter(maze[y][x])) { sb.Append(maze[y][x]); } } } Console.WriteLine(string.Format("Passed letters: {0}", sb.ToString())); Console.WriteLine(string.Format("Steps taken: {0}", steps)); Console.ReadLine(); }