private static int SimulateUntilStable(string[] input, bool part1 = true) { var seatingArea = SeatingArea.Create(input); seatingArea.SimulateUntilStable(part1); return(seatingArea.OccupiedSeats()); }
public string PartB() { string filePath = @"Eleven\DayElevenInput.txt"; SeatingArea seatingArea = new SeatingArea(filePath); seatingArea.Run(true); int occupiedSeats = seatingArea.CountOccupiedSeats(); return(occupiedSeats.ToString()); }
public void SeatingArea() { string filePath = @"Eleven\DayElevenTestInputA.txt"; var sut = new SeatingArea(filePath); sut.Run(false); var result = sut.CountOccupiedSeats(); Assert.Equal(37, result); }
public static SeatingArea Parse(string input, int part) { var lines = input.ToLines().ToList(); var width = lines.First().Length; var height = lines.Count; var sa = new SeatingArea(width, height, part); foreach (var(line, y) in lines.WithIndex()) { foreach (var(c, x) in line.WithIndex()) { sa.grid[x, y] = c; } } return(sa); }
public static void ExecuteDay(string fileLocation = "PuzzleInput/Day11.txt") { string alltext = File.ReadAllText(fileLocation); SeatingArea sa = new SeatingArea(alltext); while (sa.Update()) { ; } Logger.LogMessage(LogLevel.ANSWER, "10A: " + sa.NumSeatsOccupied); var sa2 = new SeatingArea(alltext); while (sa2.Update(5, true)) { ; } Logger.LogMessage(LogLevel.ANSWER, "10B: " + sa2.NumSeatsOccupied); }
public SeatFinder(string encodedSeat, PlaneDimension planeSize) { _seatCode = encodedSeat; PlaneSize = planeSize; PossibleSeatingArea = PlaneSize.GetTotalSeatingArea(); }