/// <summary> /// Konstruktor. Wywołuje konstruktor bazowy. /// </summary> /// <param name="type">Typ gracza.</param> protected Player(Enums.PlayerType type) { ActualColumns.Add(0); ActualRows.Add(0); X = Y = 0; _blinking = false; _dieTimer = new DispatcherTimer { Interval = TimeSpan.FromSeconds(3), }; _dieTimer.Tick += DieTimer_Tick; switch (type) { case Enums.PlayerType.Agile: _speed = GameConst.PlayerSpeed; Fill = CreateImageBrush(GameConst.PlayerAgile); break; case Enums.PlayerType.Fast: _speed = GameConst.FastSpeed; Fill = CreateImageBrush(GameConst.PlayerFast); break; case Enums.PlayerType.Shy: _speed = GameConst.PlayerSpeed; Fill = CreateImageBrush(GameConst.PlayerShy); break; } switch (Difficulty) { case Enums.LevelDifficulty.Easy: RemainingLifes = GameConst.EasyLifes; break; case Enums.LevelDifficulty.Medium: RemainingLifes = GameConst.MediumLifes; break; case Enums.LevelDifficulty.Hard: RemainingLifes = GameConst.HardLifes; break; } RemainingBombs = GameConst.BombCount; _firingRange = GameConst.PlayerFiringRange; _scores = 0; _actualBonuses = new List <Bonus>(); StartTimer(); _bombNotSetOrExploded = true; _bomb = new Bomb(); GameParameters.ActualBomb = _bomb; _bomb.BombBoom += Boom; }
/// <summary> /// Ustawia wroga w losowej (dostępnej) pozycji na planszy. /// </summary> private void SetRandomPosition() { var i = StaticRandom.Rand.Next() % GameParameters.EmptyTiles.Count; var row = GameParameters.EmptyTiles[i].Item1; var column = GameParameters.EmptyTiles[i].Item2; X = TileSize * column; Y = TileSize * row; ActualRows.Add(row); ActualColumns.Add(column); Draw(); }
/// <summary> /// Porusza graczem uwzględniając możliwe kierunki ruchu zawarte w parametrze wejściowym. /// </summary> /// <param name="moves">Poprawne kierunki ruchu.</param> protected virtual void Move(byte moves) { if (ActualRows.Count != 0) { ActualRows.Clear(); } if (ActualColumns.Count != 0) { ActualColumns.Clear(); } if (Keyboard.IsKeyDown(Key.Left) && (moves & Left) == Left) { X -= _speed; } else if (Keyboard.IsKeyDown(Key.Right) && (moves & Right) == Right) { X += _speed; } else if (Keyboard.IsKeyDown(Key.Up) && (moves & Up) == Up) { Y -= _speed; } else if (Keyboard.IsKeyDown(Key.Down) && (moves & Down) == Down) { Y += _speed; } ActualRows.Add((int)(Y / TileSize)); if ((int)((Y + ObjectSize) / TileSize) != ActualRows.FirstOrDefault()) { ActualRows.Add((int)((Y + ObjectSize) / TileSize)); } ActualColumns.Add((int)(X / TileSize)); if ((int)((X + ObjectSize) / TileSize) != ActualColumns.FirstOrDefault()) { ActualColumns.Add((int)((X + ObjectSize) / TileSize)); } }
/// <summary> /// Wykonuje ruch wroga biorąc pod uwagę dostępne aktualnie ruchy. /// </summary> /// <param name="moves">Dostępne aktualnie kierunki ruchów.</param> protected virtual void Move(byte moves) { if (ActualRows.Count != 0) { ActualRows.Clear(); } if (ActualColumns.Count != 0) { ActualColumns.Clear(); } if ((moves & _direction) == _direction) { switch (_direction) { case Right: if ((moves & Right) == Right) { X += 1; } break; case Left: if ((moves & Left) == Left) { X -= 1; } break; case Up: if ((moves & Up) == Up) { Y -= 1; } break; case Down: if ((moves & Down) == Down) { Y += 1; } break; } } else { var direction = StaticRandom.Rand.Next() % 4; switch (direction) { case 0: _direction = Right; break; case 1: _direction = Left; break; case 2: _direction = Up; break; case 3: _direction = Down; break; } } ActualRows.Add((int)(Y / TileSize)); if ((int)((Y + ObjectSize) / TileSize) != ActualRows.FirstOrDefault()) { ActualRows.Add((int)((Y + ObjectSize) / TileSize)); } ActualColumns.Add((int)(X / TileSize)); if ((int)((X + ObjectSize) / TileSize) != ActualColumns.FirstOrDefault()) { ActualColumns.Add((int)((X + ObjectSize) / TileSize)); } }