It's dangerous to code alone! Take this.

The Altar of Publication

The following is one possible solution to this challenge.

This one involves project configuration, so downloading the full solution might be worthwhile.

TheAltarOfPublication.csproj

<Project Sdk="Microsoft.NET.Sdk">

  <PropertyGroup>
    <OutputType>Exe</OutputType>
    <TargetFramework>net6.0</TargetFramework>
    <ImplicitUsings>enable</ImplicitUsings>
    <Nullable>enable</Nullable>
  </PropertyGroup>

</Project>

Properties/PublishProfiles/BasicPublish.pubxml

<?xml version="1.0" encoding="utf-8"?>
<!--
https://go.microsoft.com/fwlink/?LinkID=208121. 
-->
<Project ToolsVersion="4.0" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
  <PropertyGroup>
    <Configuration>Release</Configuration>
    <Platform>Any CPU</Platform>
    <PublishDir>bin\Release\net6.0\publish\win-x64\</PublishDir>
    <PublishProtocol>FileSystem</PublishProtocol>
    <TargetFramework>net6.0</TargetFramework>
    <RuntimeIdentifier>win-x64</RuntimeIdentifier>
    <SelfContained>true</SelfContained>
    <PublishSingleFile>True</PublishSingleFile>
    <PublishReadyToRun>True</PublishReadyToRun>
    <PublishTrimmed>False</PublishTrimmed>
  </PropertyGroup>
</Project>

Program.cs

ConsoleHelper.Write("Do you want to play a small, medium, or large game? ", ConsoleColor.White);

Console.ForegroundColor = ConsoleColor.Cyan;
FountainOfObjectsGame game = Console.ReadLine() switch
{
    "small" => CreateSmallGame(),
    "medium" => CreateMediumGame(),
    "large" => CreateLargeGame()
};

DisplayIntro();

game.Run();

// -------------------------------------------------------------------------------
//                                   Methods
// -------------------------------------------------------------------------------

void DisplayIntro()
{
    Console.ForegroundColor = ConsoleColor.White;
    Console.WriteLine("You enter the Cavern of Objects, a maze filled with dangerous pits, in search");
    Console.WriteLine("    of the Fountain of Objects.");
    Console.WriteLine("Light is visible only in the entrance, and no other light is seen anywhere in the caverns.");
    Console.WriteLine("You must navigate the Caverns with your other senses.");
    Console.WriteLine("Find the Fountain of Objects, activate it, and return to the entrance.");
    Console.WriteLine("Look out for pits. You will feel a breeze if a pit is in an adjacent room. If you");
    Console.WriteLine("    enter a room with a pit, you will die.");
    Console.WriteLine("Maelstroms are violent forces of sentient wind. Entering a room with one could transport");
    Console.WriteLine("    you to any other location in the caverns. You will be able to hear their growling and");
    Console.WriteLine("    groaning in nearby rooms.");
    Console.WriteLine("Amaroks roam the caverns. Encountering one is certain death, but they stink and can be");
    Console.WriteLine("    smelled in nearby rooms.");
    Console.WriteLine("You carry with you a bow and a quiver of arrows. You can use them to shoot monsters in the");
    Console.WriteLine("    caverns but be warned: you have a limited supply.");
}

// Creates a small 4x4 game.
FountainOfObjectsGame CreateSmallGame()
{
    Map map = new Map(4, 4);
    Location start = new Location(0, 0);
    map.SetRoomTypeAtLocation(start, RoomType.Entrance);
    map.SetRoomTypeAtLocation(new Location(1, 2), RoomType.Fountain);
    map.SetRoomTypeAtLocation(new Location(3, 2), RoomType.Pit);

    Monster[] monsters = new Monster[]
    {
        new Maelstrom(new Location(2, 0)),
        new Amarok(new Location(0, 3))
    };

    return new FountainOfObjectsGame(map, new Player(start), monsters);
}

// Creates a medium 6x6 game.
FountainOfObjectsGame CreateMediumGame()
{
    Map map = new Map(6, 6);
    Location start = new Location(5, 0);
    map.SetRoomTypeAtLocation(start, RoomType.Entrance);
    map.SetRoomTypeAtLocation(new Location(2, 4), RoomType.Fountain);
    map.SetRoomTypeAtLocation(new Location(3, 0), RoomType.Pit);
    map.SetRoomTypeAtLocation(new Location(0, 2), RoomType.Pit);

    Monster[] monsters = new Monster[]
    {
        new Maelstrom(new Location(2, 2)),
        new Amarok(new Location(5, 3)),
        new Amarok(new Location(1, 0))
    };

    return new FountainOfObjectsGame(map, new Player(start), monsters);
}

// Creates a large 8x8 game.
FountainOfObjectsGame CreateLargeGame()
{
    Map map = new Map(8, 8);
    Location start = new Location(3, 7);
    map.SetRoomTypeAtLocation(start, RoomType.Entrance);
    map.SetRoomTypeAtLocation(new Location(4, 2), RoomType.Fountain);
    map.SetRoomTypeAtLocation(new Location(7, 0), RoomType.Pit);
    map.SetRoomTypeAtLocation(new Location(4, 5), RoomType.Pit);
    map.SetRoomTypeAtLocation(new Location(3, 2), RoomType.Pit);
    map.SetRoomTypeAtLocation(new Location(0, 5), RoomType.Pit);

    Monster[] monsters = new Monster[]
    {
        new Maelstrom(new Location(1, 3)),
        new Maelstrom(new Location(5, 5)),
        new Amarok(new Location(7, 5)),
        new Amarok(new Location(5, 2)),
        new Amarok(new Location(1, 1))
    };

    return new FountainOfObjectsGame(map, new Player(start), monsters);
}

// -------------------------------------------------------------------------------
//                                 Type definitions
// -------------------------------------------------------------------------------

// The beating heart of the Fountain of Objects game. Tracks the progression of a single
// round of gameplay.
public class FountainOfObjectsGame
{
    // The map being used by the game.
    public Map Map { get; }

    // The player playing the game.
    public Player Player { get; }

    // The list of monsters in the game.
    public Monster[] Monsters { get; }

    // Whether the player has turned on the fountain yet or not. (Defaults to `false`.)
    public bool IsFountainOn { get; set; }

    // A list of senses that the player can detect. Add to this collection in the constructor.
    private readonly ISense[] _senses;

    // Initializes a new game round with a specific map and player.
    public FountainOfObjectsGame(Map map, Player player, Monster[] monsters)
    {
        Map = map;
        Player = player;
        Monsters = monsters;

        // Each of these senses will be used during the game. Add new senses here.
        _senses = new ISense[]
        {
            new LightInEntranceSense(),
            new FountainSense(),
            new PitBreezeSense(),
            new MaelstromSense(),
            new AmarokSense()
        };
    }

    // Runs the game one turn at a time.
    public void Run()
    {
        // This is the "game loop." Each turn runs through this `while` loop once.
        while (!HasWon && Player.IsAlive)
        {
            DisplayStatus();
            ICommand command = GetCommand();
            command.Execute(this);

            foreach (Monster monster in Monsters)
                if (monster.Location == Player.Location && monster.IsAlive) monster.Activate(this);

            if (CurrentRoom == RoomType.Pit)
                Player.Kill("You have fallen into a pit and died.");
        }

        if (HasWon)
        {
            ConsoleHelper.WriteLine("The Fountain of Objects has been reactivated, and you have escaped with your life!", ConsoleColor.DarkGreen);
            ConsoleHelper.WriteLine("You win!", ConsoleColor.DarkGreen);
        }
        else
        {
            ConsoleHelper.WriteLine(Player.CauseOfDeath, ConsoleColor.Red);
            ConsoleHelper.WriteLine("You lost.", ConsoleColor.Red);
        }
    }

    // Displays the status to the player, including what room they are in and asks each sense to display itself
    // if it is currently relevant.
    private void DisplayStatus()
    {
        ConsoleHelper.WriteLine("--------------------------------------------------------------------------------", ConsoleColor.Gray);
        ConsoleHelper.WriteLine($"You are in the room at (Row={Player.Location.Row}, Column={Player.Location.Column}).", ConsoleColor.Gray);
        ConsoleHelper.WriteLine($"You have {Player.ArrowsRemaining} arrows remaining.", ConsoleColor.Gray);

        foreach (ISense sense in _senses)
            if (sense.CanSense(this))
                sense.DisplaySense(this);
    }

    // Gets an `ICommand` object that represents the player's desires.
    private ICommand GetCommand()
    {
        while (true) // Until we get a legitimate command, keep asking.
        {
            ConsoleHelper.Write("What do you want to do? ", ConsoleColor.White);
            Console.ForegroundColor = ConsoleColor.Cyan;
            string? input = Console.ReadLine();

            // Check for a match with each known command.
            if (input == "move north") return new MoveCommand(Direction.North);
            if (input == "move south") return new MoveCommand(Direction.South);
            if (input == "move east") return new MoveCommand(Direction.East);
            if (input == "move west") return new MoveCommand(Direction.West);
            if (input == "shoot north") return new ShootCommand(Direction.North);
            if (input == "shoot south") return new ShootCommand(Direction.South);
            if (input == "shoot east") return new ShootCommand(Direction.East);
            if (input == "shoot west") return new ShootCommand(Direction.West);
            if (input == "enable fountain") return new EnableFountainCommand();
            if (input == "help") return new HelpCommand();
            // More commands go here.

            // If none of the above were a match, we have no clue what the command was. Try again.
            ConsoleHelper.WriteLine($"I did not understand '{input}'.", ConsoleColor.Red);
        }
    }

    // Indicates if the player has won or not.
    public bool HasWon => CurrentRoom == RoomType.Entrance && IsFountainOn;

    // Looks up what room type the player is currently in.
    public RoomType CurrentRoom => Map.GetRoomTypeAtLocation(Player.Location);
}

// Represents the map and what each room is made out of.
public class Map
{
    // Stores which room type each room in the world is. The default is `Normal` because that is the first
    // member in the enumeration list.
    private readonly RoomType[,] _rooms;

    // The total number of rows in this specific game world.
    public int Rows { get; }

    // The total number of columns in this specific game world.
    public int Columns { get; }


    // Creates a new map with a specific size.
    public Map(int rows, int columns)
    {
        Rows = rows;
        Columns = columns;
        _rooms = new RoomType[rows, columns];
    }

    // Returns what type a room at a specific location is.
    public RoomType GetRoomTypeAtLocation(Location location) => IsOnMap(location) ? _rooms[location.Row, location.Column] : RoomType.OffTheMap;

    // Determines if a neighboring room is of the given type.
    public bool HasNeighborWithType(Location location, RoomType roomType)
    {
        if (GetRoomTypeAtLocation(new Location(location.Row - 1, location.Column - 1)) == roomType) return true;
        if (GetRoomTypeAtLocation(new Location(location.Row - 1, location.Column)) == roomType) return true;
        if (GetRoomTypeAtLocation(new Location(location.Row - 1, location.Column + 1)) == roomType) return true;
        if (GetRoomTypeAtLocation(new Location(location.Row, location.Column - 1)) == roomType) return true;
        if (GetRoomTypeAtLocation(new Location(location.Row, location.Column)) == roomType) return true;
        if (GetRoomTypeAtLocation(new Location(location.Row, location.Column + 1)) == roomType) return true;
        if (GetRoomTypeAtLocation(new Location(location.Row + 1, location.Column - 1)) == roomType) return true;
        if (GetRoomTypeAtLocation(new Location(location.Row + 1, location.Column)) == roomType) return true;
        if (GetRoomTypeAtLocation(new Location(location.Row + 1, location.Column + 1)) == roomType) return true;
        return false;
    }

    // Indicates whether a specific location is actually on the map or not.
    public bool IsOnMap(Location location) =>
        location.Row >= 0 &&
        location.Row < _rooms.GetLength(0) &&
        location.Column >= 0 &&
        location.Column < _rooms.GetLength(1);

    // Changes the type of room at a specific spot in the world to a new type.
    public void SetRoomTypeAtLocation(Location location, RoomType type) => _rooms[location.Row, location.Column] = type;
}

// Represents a location in the 2D game world, based on its row and column.
public record Location(int Row, int Column);

// Represents the player in the game.
public class Player
{
    // The player's current location.
    public Location Location { get; set; }

    // Indicates whether the player is alive or not.
    public bool IsAlive { get; private set; } = true;

    // Explains why a player died. Empty string until the player dies.
    public string CauseOfDeath { get; private set; } = "";

    // Indicates how many arrows the player has left.
    public int ArrowsRemaining { get; set; } = 5;

    // Creates a new player that starts at the given location.
    public Player(Location start) => Location = start;

    public void Kill(string cause)
    {
        IsAlive = false;
        CauseOfDeath = cause;
    }
}

/// <summary>
/// Represents one of the several monster types in the game.
/// </summary>
public abstract class Monster
{
    // The monster's current location.
    public Location Location { get; set; }

    // Whether the monster is alive or not.
    public bool IsAlive { get; set; } = true;

    // Creates a monster at the given location.
    public Monster(Location start) => Location = start;

    // Called when the monster and the player are both in the same room. Gives
    // the monster a chance to do its thing.
    public abstract void Activate(FountainOfObjectsGame game);
}

// Represents a maelstrom in the game.
public class Maelstrom : Monster
{
    // Creates a new maelstrom at a specific starting location.
    public Maelstrom(Location start) : base(start) { }

    // When activated, this moves the player two spaces east (+2 columns) and one space north (-1 row)
    // and the maelstrom moves two spaces west (-2 columns) and one space south (+1 row). However,
    // it ensures both player and maelstrom stay within the boundaries of the map.
    public override void Activate(FountainOfObjectsGame game)
    {
        ConsoleHelper.WriteLine("You have encountered a maelstrom and have been swept away to another room!", ConsoleColor.Magenta);
        game.Player.Location = Clamp(new Location(game.Player.Location.Row - 1, game.Player.Location.Column + 2), game.Map.Rows, game.Map.Columns);
        Location = Clamp(new Location(Location.Row + 1, Location.Column - 2), game.Map.Rows, game.Map.Columns);
    }

    // Takes a location and a map size, and produces a new location that is as much the same
    // as possible, but guarantees it is on the map.
    private Location Clamp(Location location, int totalRows, int totalColumns)
    {
        int row = location.Row;
        if (row < 0) row = 0;
        if (row >= totalRows) row = totalRows - 1;

        int column = location.Column;
        if (column < 0) column = 0;
        if (column >= totalColumns) column = totalColumns - 1;

        return new Location(row, column);
    }
}

// Represents an amarok in the game.
public class Amarok : Monster
{
    // Creates a new amarok at a specific starting location.
    public Amarok(Location start) : base(start) { }

    // When activated, kills the player.
    public override void Activate(FountainOfObjectsGame game) => game.Player.Kill("You have encountered an amarok and have died.");
}

// An interface to represent one of many commands in the game. Each new command should
// implement this interface.
public interface ICommand
{
    void Execute(FountainOfObjectsGame game);
}

public class HelpCommand : ICommand
{
    public void Execute(FountainOfObjectsGame game)
    {
        ConsoleHelper.WriteLine("help", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("    Displays this help information.", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("enable fountain", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("    Turns on the Fountain of Objects if you are in the fountain room, or does nothing if you are not.", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("move north", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("    Moves to the room directly north of the current room, as long as there are no walls.", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("move south", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("    Moves to the room directly south of the current room, as long as there are no walls.", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("move east", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("    Moves to the room directly east of the current room, as long as there are no walls.", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("move west", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("    Moves to the room directly west of the current room, as long as there are no walls.", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("shoot north", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("    Fires an arrow into the room to the north, killing any monster in that room.", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("shoot south", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("    Fires an arrow into the room to the south, killing any monster in that room.", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("shoot east", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("    Fires an arrow into the room to the east, killing any monster in that room.", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("shoot west", ConsoleColor.Gray);
        ConsoleHelper.WriteLine("    Fires an arrow into the room to the west, killing any monster in that room.", ConsoleColor.Gray);
    }
}

// Represents a movement command, along with a specific direction to move.
public class MoveCommand : ICommand
{
    // The direction to move.
    public Direction Direction { get; }

    // Creates a new movement command with a specific direction to move.
    public MoveCommand(Direction direction)
    {
        Direction = direction;
    }

    // Causes the player's position to be updated with a new position, shifted in the intended direction,
    // but only if the destination stays on the map. Otherwise, nothing happens.
    public void Execute(FountainOfObjectsGame game)
    {
        Location currentLocation = game.Player.Location;
        Location newLocation = Direction switch
        {
            Direction.North => new Location(currentLocation.Row - 1, currentLocation.Column),
            Direction.South => new Location(currentLocation.Row + 1, currentLocation.Column),
            Direction.West => new Location(currentLocation.Row, currentLocation.Column - 1),
            Direction.East => new Location(currentLocation.Row, currentLocation.Column + 1)
        };

        if (game.Map.IsOnMap(newLocation))
            game.Player.Location = newLocation;
        else
            ConsoleHelper.WriteLine("There is a wall there.", ConsoleColor.Red);
    }
}

// Represents a shoot command, along with a specific direction to shoot an arrow.
public class ShootCommand : ICommand
{
    // The direction to shoot.
    public Direction Direction { get; }

    // Creates a new shoot command with a specific direction to fire.
    public ShootCommand(Direction direction)
    {
        Direction = direction;
    }

    // If the player has any arrows left, this will fire an arrow in the direction indicated.
    public void Execute(FountainOfObjectsGame game)
    {
        if (game.Player.ArrowsRemaining == 0)
        {
            ConsoleHelper.WriteLine("You don't have any arrows left!", ConsoleColor.Red);
            return;
        }

        Location currentLocation = game.Player.Location;
        Location targetLocation = Direction switch
        {
            Direction.North => new Location(currentLocation.Row - 1, currentLocation.Column),
            Direction.South => new Location(currentLocation.Row + 1, currentLocation.Column),
            Direction.West => new Location(currentLocation.Row, currentLocation.Column - 1),
            Direction.East => new Location(currentLocation.Row, currentLocation.Column + 1)
        };

        bool foundSomething = false;
        foreach (Monster monster in game.Monsters)
        {
            if (monster.Location == targetLocation && monster.IsAlive)
            {
                monster.IsAlive = false;
                foundSomething = true;
            }
        }

        if (foundSomething) ConsoleHelper.WriteLine("You fire an arrow and hit something!", ConsoleColor.Green);
        else ConsoleHelper.WriteLine("You fire an arrow and missed.", ConsoleColor.Magenta);

        game.Player.ArrowsRemaining--;
    }
}

// A command that represents a request to turn the fountain on.
public class EnableFountainCommand : ICommand
{
    // Turns the fountain on if the player is in the room with the fountain. Otherwise, nothing happens.
    public void Execute(FountainOfObjectsGame game)
    {
        if (game.Map.GetRoomTypeAtLocation(game.Player.Location) == RoomType.Fountain) game.IsFountainOn = true;
        else ConsoleHelper.WriteLine("The fountain is not in this room. There was no effect.", ConsoleColor.Red);
    }
}

// Represents one of the four directions of movement.
public enum Direction { North, South, West, East }


// Represents something that the player can sense as they wander the caverns.
public interface ISense
{
    // Returns whether the player should be able to sense the thing in question.
    bool CanSense(FountainOfObjectsGame game);

    // Displays the sensed information. (Assumes `CanSense` was called first and returned `true`.)
    void DisplaySense(FountainOfObjectsGame game);
}

// Represents the player's ability to sense the light in the entrance room.
public class LightInEntranceSense : ISense
{
    // Returns `true` if the player is in the entrance room.
    public bool CanSense(FountainOfObjectsGame game) => game.Map.GetRoomTypeAtLocation(game.Player.Location) == RoomType.Entrance;

    // Displays the appropriate message if the player can see the light from outside the caverns.
    public void DisplaySense(FountainOfObjectsGame game) => ConsoleHelper.WriteLine("You see light in this room coming from outside the cavern. This is the entrance.", ConsoleColor.Yellow);
}

// Represents the player's ability to sense the dripping of a deactivated fountain or rushing waters of an activated fountain.
public class FountainSense : ISense
{
    // Returns `true` if the player is in the fountain room.
    public bool CanSense(FountainOfObjectsGame game) => game.Map.GetRoomTypeAtLocation(game.Player.Location) == RoomType.Fountain;

    // Displays the appropriate message depending on whether the fountain is enabled or disabled.
    public void DisplaySense(FountainOfObjectsGame game)
    {
        if (game.IsFountainOn) ConsoleHelper.WriteLine("You hear the rushing waters from the Fountain of Objects. It has been reactivated!", ConsoleColor.DarkCyan);
        else ConsoleHelper.WriteLine("You hear water dripping in this room. The Fountain of Objects is here!", ConsoleColor.DarkCyan);
    }
}

// Represents the player's ability to sense a breeze in an adjacent pit room.
public class PitBreezeSense : ISense
{
    // Returns `true` if the player is next to (including diagonally) a pit.
    public bool CanSense(FountainOfObjectsGame game) => game.Map.HasNeighborWithType(game.Player.Location, RoomType.Pit);

    // Displays the appropriate message to warn the player.
    public void DisplaySense(FountainOfObjectsGame game) => ConsoleHelper.WriteLine("You feel a draft. There is a pit in a nearby room.", ConsoleColor.DarkGray);
}

// Represents the player's ability to hear maelstroms in adjacent rooms.
public class MaelstromSense : ISense
{
    public bool CanSense(FountainOfObjectsGame game)
    {
        foreach (Monster monster in game.Monsters)
        {
            if (monster is Maelstrom && monster.IsAlive) // Only consider monsters that are maelstroms and only those that are alive.
            {
                // The absolute value will turn negative numbers into their positive counterparts,
                // allowing us to easily check if they are within 1 space of it.
                int rowDifference = Math.Abs(monster.Location.Row - game.Player.Location.Row);
                int columnDifference = Math.Abs(monster.Location.Column - game.Player.Location.Column);

                // If we find one close enough, return `true`.
                if (rowDifference <= 1 && columnDifference <= 1) return true;
            }
        }

        // If we get through them all without finding one, return `false`.
        return false;
    }

    public void DisplaySense(FountainOfObjectsGame game) => Console.WriteLine("You hear the growling and groaning of a maelstrom nearby.");
}

// Represents the player's ability to smell amaroks in adjacent rooms.
public class AmarokSense : ISense
{
    public bool CanSense(FountainOfObjectsGame game)
    {
        foreach (Monster monster in game.Monsters)
        {
            if (monster is Amarok && monster.IsAlive) // Only consider monsters that are amaroks.
            {
                // The absolute value will turn negative numbers into their positive counterparts,
                // allowing us to easily check if they are within 1 space of it.
                int rowDifference = Math.Abs(monster.Location.Row - game.Player.Location.Row);
                int columnDifference = Math.Abs(monster.Location.Column - game.Player.Location.Column);

                // If we find one close enough, return `true`.
                if (rowDifference <= 1 && columnDifference <= 1) return true;
            }
        }

        // If we get through them all without finding one, return `false`.
        return false;
    }

    public void DisplaySense(FountainOfObjectsGame game) => ConsoleHelper.WriteLine("You smell the stench of an amarok nearby.", ConsoleColor.DarkRed);
}


// A collection of helper methods for writing text to the console using specific colors.
public static class ConsoleHelper
{
    // Changes to the specified color and then displays the text on its own line.
    public static void WriteLine(string text, ConsoleColor color)
    {
        Console.ForegroundColor = color;
        Console.WriteLine(text);
    }

    // Changes to the specified color and then displays the text without moving to the next line.
    public static void Write(string text, ConsoleColor color)
    {
        Console.ForegroundColor = color;
        Console.Write(text);
    }
}

// Represents one of the different types of rooms in the game.
public enum RoomType { Normal, Entrance, Fountain, Pit, OffTheMap }