public void TestAdd_SomeQueue_SizeIncreasedOne() { var p = new PiecesQueue(); Assert.That(!p.Any()); p.Add(_piece); Assert.That(p.Count() == 1, "Size was " + p.Count()); }
public void TestValidSet_ValidIndexer_ItemReplaced() { var q = new PiecesQueue { _piece }; q[0] = new Piece(PieceType.Flower, Color.Red, Color.White); Assert.That(q[0].OuterColor == Color.Red); }
public void ContainsShovel_HasShovel_ReturnTrue() { var p = new PiecesQueue { _piece, new Piece(PieceType.Shovel, Color.None, Color.None) }; Assert.That(p.ContainsShovel()); }
void Awake() { if (Instance == null) //singleton for leveldata { Instance = this; } for (int i = 0; i < _pieces.Count; i++) { PiecesQueue.Enqueue(_pieces[i]); } }
public void TestSplitByShovel_OneShovelAtFront_OneList() { var p = new PiecesQueue { new Piece(PieceType.Shovel, Color.None, Color.None), new Piece(PieceType.Flower, Color.Blue, Color.Pink), //0 new Piece(PieceType.Flower, Color.Blue, Color.Red), //1 new Piece(PieceType.Flower, Color.Yellow, Color.Red) //2 }; var splitQueue = p.SplitByShovel(); Assert.That(splitQueue.Count == 1); TestHelper(splitQueue[0][0], PieceType.Flower, Color.Blue, Color.Pink); TestHelper(splitQueue[0][1], PieceType.Flower, Color.Blue, Color.Red); TestHelper(splitQueue[0][2], PieceType.Flower, Color.Yellow, Color.Red); }
public MoveList Solve(Board board, PiecesQueue queue) { if (queue == null) { throw new ArgumentNullException("queue"); } if (board == null) { throw new ArgumentNullException("board"); } PiecesQueue = queue; Board = board; return(Solve()); }
private static PiecesQueue TranslateToPiecesQueue(IEnumerable <Flowerz.Model.Piece> queue) { var q = new PiecesQueue(); foreach (var flower in queue) { q.Add(new Flowerz.SolverModel.Piece(flower)); } Console.WriteLine("Queue info: "); foreach (var piece in q) { Console.Write(piece + ", "); } Console.WriteLine(); return(q); }
public void TestSplitByShovel_OneShovel_TwoLists() { var p = new PiecesQueue { new Piece(PieceType.Flower, Color.Blue, Color.Pink), //0 new Piece(PieceType.Flower, Color.Blue, Color.Red), //1 new Piece(PieceType.Flower, Color.Yellow, Color.Red), //2 new Piece(PieceType.Shovel, Color.None, Color.None), //3 new Piece(PieceType.Flower, Color.Pink, Color.Cyan), //4 new Piece(PieceType.Flower, Color.Cyan, Color.White), //5 }; var splitQueue = p.SplitByShovel(); Assert.That(splitQueue.Count == 2); Assert.That(splitQueue[0].Count == 3); Assert.That(splitQueue[1].Count == 2); TestHelper(splitQueue[0][0], PieceType.Flower, Color.Blue, Color.Pink); TestHelper(splitQueue[0][1], PieceType.Flower, Color.Blue, Color.Red); TestHelper(splitQueue[0][2], PieceType.Flower, Color.Yellow, Color.Red); TestHelper(splitQueue[1][0], PieceType.Flower, Color.Pink, Color.Cyan); TestHelper(splitQueue[1][1], PieceType.Flower, Color.Cyan, Color.White); }
public void TestInvalidIndexer_Set_IndexerTooLow() { var p = new PiecesQueue(); p[-1] = new Piece(PieceType.Flower, Color.Red, Color.White); }
public void TestInvalidIndexer_GetIndexerTooLow_Exception() { var p = new PiecesQueue(); var x = p[-1]; }
public void TestInvalidIndexer_GetIndexerTooHigh_Exception() { var p = new PiecesQueue(); var x = p[10]; }