public void TestShuffeledMatrix()
{
List <Tile> templateMatrix = new List <Tile>();
templateMatrix.Add(new Tile("1", 0));
templateMatrix.Add(new Tile("2", 1));
templateMatrix.Add(new Tile("3", 2));
templateMatrix.Add(new Tile("4", 3));
templateMatrix.Add(new Tile("5", 4));
templateMatrix.Add(new Tile("6", 5));
templateMatrix.Add(new Tile("7", 6));
templateMatrix.Add(new Tile("8", 7));
templateMatrix.Add(new Tile("9", 8));
templateMatrix.Add(new Tile("10", 9));
templateMatrix.Add(new Tile("11", 10));
templateMatrix.Add(new Tile("12", 11));
templateMatrix.Add(new Tile("13", 12));
templateMatrix.Add(new Tile("14", 13));
templateMatrix.Add(new Tile("15", 14));
templateMatrix.Add(new Tile(string.Empty, 15));
List <Tile> generatedMatrix = MatrixGenerator.GenerateMatrix();
generatedMatrix = MatrixGenerator.ShuffleMatrix(generatedMatrix);
Assert.IsFalse(this.CompareTileLists(templateMatrix, generatedMatrix), "Matrix is not shuffeled.");
}
public void TestGetEmptyTile()
{
List <Tile> templateMatrix = new List <Tile>();
templateMatrix.Add(new Tile("1", 0));
templateMatrix.Add(new Tile("2", 1));
templateMatrix.Add(new Tile("3", 2));
templateMatrix.Add(new Tile("4", 3));
templateMatrix.Add(new Tile("5", 4));
templateMatrix.Add(new Tile("6", 5));
templateMatrix.Add(new Tile("7", 6));
templateMatrix.Add(new Tile("8", 7));
templateMatrix.Add(new Tile("9", 8));
templateMatrix.Add(new Tile("10", 9));
templateMatrix.Add(new Tile("11", 10));
templateMatrix.Add(new Tile(string.Empty, 11));
templateMatrix.Add(new Tile("12", 12));
templateMatrix.Add(new Tile("13", 13));
templateMatrix.Add(new Tile("14", 14));
templateMatrix.Add(new Tile("15", 15));
Tile emptyTile = MatrixGenerator.GetEmptyTile(templateMatrix);
Assert.AreEqual(string.Empty, emptyTile.Label, "Empty tile is not empty");
}
public void TestAreNotValidNeighbours()
{
Tile emptyTile = new Tile(string.Empty, 3);
Tile currentTile = new Tile("12", 5);
Assert.IsFalse(MatrixGenerator.AreValidNeighbours(emptyTile, currentTile), "Empty tile are not neighbours.");
}
public void TestAreValidNeighboursRight()
{
Tile emptyTile = new Tile(string.Empty, 7);
Tile currentTile = new Tile("12", 6);
Assert.IsTrue(MatrixGenerator.AreValidNeighbours(emptyTile, currentTile), "Empty tile are not neighbours.");
}
public void TestGenerateOrderedMatrix()
{
List <Tile> templateMatrix = new List <Tile>();
templateMatrix.Add(new Tile("1", 0));
templateMatrix.Add(new Tile("2", 1));
templateMatrix.Add(new Tile("3", 2));
templateMatrix.Add(new Tile("4", 3));
templateMatrix.Add(new Tile("5", 4));
templateMatrix.Add(new Tile("6", 5));
templateMatrix.Add(new Tile("7", 6));
templateMatrix.Add(new Tile("8", 7));
templateMatrix.Add(new Tile("9", 8));
templateMatrix.Add(new Tile("10", 9));
templateMatrix.Add(new Tile("11", 10));
templateMatrix.Add(new Tile("12", 11));
templateMatrix.Add(new Tile("13", 12));
templateMatrix.Add(new Tile("14", 13));
templateMatrix.Add(new Tile("15", 14));
templateMatrix.Add(new Tile(string.Empty, 15));
List <Tile> generatedMatrix = MatrixGenerator.GenerateMatrix();
Assert.IsTrue(this.CompareTileLists(templateMatrix, generatedMatrix));
}
public void TestGetEmptyTileException()
{
List <Tile> templateMatrix = new List <Tile>();
templateMatrix.Add(new Tile("1", 0));
templateMatrix.Add(new Tile("2", 1));
templateMatrix.Add(new Tile("3", 2));
templateMatrix.Add(new Tile("4", 3));
templateMatrix.Add(new Tile("5", 4));
templateMatrix.Add(new Tile("6", 5));
templateMatrix.Add(new Tile("7", 6));
templateMatrix.Add(new Tile("8", 7));
templateMatrix.Add(new Tile("9", 8));
templateMatrix.Add(new Tile("10", 9));
templateMatrix.Add(new Tile("11", 10));
templateMatrix.Add(new Tile("12", 11));
templateMatrix.Add(new Tile("13", 12));
templateMatrix.Add(new Tile("14", 13));
templateMatrix.Add(new Tile("15", 14));
Tile emptyTile = MatrixGenerator.GetEmptyTile(templateMatrix);
}
private static void Menu()
{
List <Tile> tiles = new List <Tile>();
int cnt = 0;
string s = "restart";
bool flag = false;
while (s != "exit")
{
if (!flag)
{
switch (s)
{
case "restart":
{
string welcomeMessage = "Welcome to the game “15”. Please try to arrange the numbers sequentially. ";
welcomeMessage = welcomeMessage + "\nUse 'top' to view the top scoreboard, 'restart' to start a new game and 'exit'";
welcomeMessage = welcomeMessage + " \nto quit the game.";
Console.WriteLine();
Console.WriteLine(welcomeMessage);
tiles = MatrixGenerator.GenerateMatrix();
tiles = MatrixGenerator.ShuffleMatrix(tiles);
flag = Gameplay.IsMatrixSolved(tiles);
Gameplay.PrintMatrix(tiles);
break;
}
case "top":
{
Scoreboard.PrintScoreboard();
break;
}
}
if (!flag)
{
Console.Write("Enter a number to move: ");
s = Console.ReadLine();
int destinationTileValue;
bool isSuccessfulParsing = Int32.TryParse(s, out destinationTileValue);
if (isSuccessfulParsing)
{
try
{
Gameplay.MoveTiles(tiles, destinationTileValue);
cnt++;
Gameplay.PrintMatrix(tiles);
flag = Gameplay.IsMatrixSolved(tiles);
}
catch (Exception exception)
{
Console.WriteLine(exception.Message);
}
}
else
{
try
{
s = Command.CommandType(s);
}
catch (ArgumentException exception)
{
Console.WriteLine(exception.Message);
}
}
}
}
else
{
if (cnt == 0)
{
Console.WriteLine("Your matrix was solved by default :) Come on - NEXT try");
}
else
{
Console.WriteLine("Congratulations! You won the game in {0} moves.", cnt);
Console.Write("Please enter your name for the top scoreboard: ");
string playerName = Console.ReadLine();
Player player = new Player(playerName, cnt);
Scoreboard.AddPlayer(player);
Scoreboard.PrintScoreboard();
}
s = "restart";
flag = false;
cnt = 0;
}
}
}
