/**** 
* Classes
****/ 
var Tile = Container.expand(function () {
	var self = Container.call(this);
	// Properties
	self.type = 'empty';
	self.baseTint = 0x8FBE00;
	self.baseTintLight = 0x5ED000;
	self.maxWaterSize = 260;
	self.flowSpeed = 12;
	self.startFlowTicks = 0;
	self.flow = false;
	self.connections = [];
	self.position = {
		x: 0,
		y: 0
	};
	self.rotation = 0;
	// Methods
	self.setType = function (type, x, y) {
		self.type = type;
		var baseTileAsset = type == 'start' || type == 'end' || puzzleManager && puzzleManager.levelConfigs[puzzleManager.currentLevel].fixedTiles.includes(x + ',' + y) ? 'baseTile' : 'baseMobileTile';
		if (type == 'empty') {
			return;
		}
		// Attach baseTile asset
		self.baseTile = self.attachAsset(baseTileAsset, {
			anchorX: 0.5,
			anchorY: 0.5,
			width: tileSize,
			height: tileSize,
			tint: 0xFFFFFF
		});
		self.width = tileSize;
		self.height = tileSize;
		switch (type) {
			case 'start':
				self.attachAsset('startPipeAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					x: 20,
					y: 55,
					tint: self.baseTint
				});
				self.valve = self.attachAsset('vane', {
					anchorX: 0.5,
					anchorY: 0.5,
					x: 20,
					y: 15,
					tint: self.baseTint
				});
				self.water = self.attachAsset('waterV', {
					anchorX: 0.5,
					anchorY: 0,
					x: -0,
					y: -120,
					height: 0,
					visible: false,
					dir: ''
				});
				break;
			case 'end':
				self.attachAsset('endPipeAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					x: 0,
					y: 55,
					tint: self.baseTint
				});
				self.water = self.attachAsset('waterV', {
					anchorX: 0.5,
					anchorY: 0,
					x: -0,
					y: -120,
					height: 0,
					visible: false,
					dir: ''
				});
				self.fountain = self.attachAsset('fontain', {
					anchorX: 0.5,
					anchorY: 0.5,
					x: 0,
					y: 0,
					width: 0,
					height: 0,
					visible: false
				});
				break;
			case 'crossPipe':
				self.attachAsset('straightPipeHAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					y: -40,
					tint: self.baseTint
				});
				self.attachAsset('straightPipeHAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					scaleY: -1,
					y: 30,
					tint: self.baseTint
				});
				self.attachAsset('straightPipeVAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					x: -30,
					tint: self.baseTint
				});
				self.attachAsset('straightPipeVAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					scaleX: -1,
					x: 30,
					tint: self.baseTint
				});
				self.water = self.attachAsset('waterV', {
					anchorX: 0.5,
					anchorY: 0,
					x: -0,
					y: -120,
					height: 0,
					visible: false,
					dir: ''
				});
				break;
			case 'straightPipeH':
				self.attachAsset('straightPipeHAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					y: -40,
					tint: self.baseTint
				});
				self.attachAsset('straightPipeHAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					scaleY: -1,
					y: 30,
					tint: self.baseTint
				});
				self.water = self.attachAsset('waterH', {
					anchorX: 0,
					anchorY: 0.5,
					x: -130,
					y: -5,
					width: 0,
					visible: false,
					dir: 'lr'
				});
				break;
			case 'straightPipeV':
				self.attachAsset('straightPipeVAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					x: -30,
					tint: self.baseTint
				});
				self.attachAsset('straightPipeVAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					scaleX: -1,
					x: 30,
					tint: self.baseTint
				});
				self.water = self.attachAsset('waterV', {
					anchorX: 0.5,
					anchorY: 0,
					x: -0,
					y: -120,
					height: 0,
					visible: false,
					dir: 'tb'
				});
				break;
			case 'cornerPipe':
				self.attachAsset('cornerPipeAsset', {
					anchorX: 0.5,
					anchorY: 0.5,
					x: -60,
					y: -60,
					tint: self.baseTintLight
				});
				// Corner part of the water
				self.waterCorner = self.attachAsset('waterCorner', {
					anchorX: 1,
					anchorY: 1,
					width: 108,
					height: 108,
					x: -65,
					y: -65,
					rotation: -Math.PI / 2,
					//-Math.PI / 2, at start to -Math.PI,
					visible: false,
					dir: ''
				});
				// Vertical part of the water
				self.waterV = self.attachAsset('waterV', {
					anchorX: 0.5,
					anchorY: 0,
					width: 110,
					x: -120,
					y: -5,
					rotation: -Math.PI / 2,
					height: 0,
					visible: false,
					dir: ''
				});
				// Horizontal part of the water
				self.waterH = self.attachAsset('waterH', {
					anchorX: 0,
					anchorY: 0.5,
					x: -5,
					y: -50,
					//-15,
					width: 0,
					height: 112,
					rotation: -Math.PI / 2,
					visible: false,
					dir: ''
				});
				// Corner part of the water
				self.waterCornerCover = self.attachAsset('waterCorner', {
					anchorX: 1,
					anchorY: 1,
					width: 108,
					height: 108,
					x: -65,
					y: -65,
					rotation: -Math.PI,
					visible: false,
					dir: ''
				});
				break;
		}
	};
	self.updatePosition = function (x, y) {
		self.position.x = x;
		self.position.y = y;
		if (self.baseTile) {
			self.baseTile.width = tileSize;
			self.baseTile.height = tileSize;
		}
		self.x = x * tileSize + gridBoard.x - gridBoard.width / 2 + tileSize / 2 + boardOffsetX;
		self.y = y * tileSize + gridBoard.y - gridBoard.height / 2 + tileSize / 2 + boardOffsetY;
		log('Tile index:', x, y, 'Tile position:', self.x, self.y, 'Tile dimensions:', self.width, self.height, ' self:', self);
	};
	self.setRotation = function (direction) {
		switch (direction) {
			case 'left':
				self.rotation = Math.PI * 0.5;
				break;
			case 'right':
				self.rotation = -Math.PI * 0.5;
				break;
			case 'up':
				self.rotation = 0;
				break;
			case 'down':
				self.rotation = Math.PI;
				break;
		}
		log('Tile position:', self.x, self.y, 'Tile rotation:', self.rotation);
	};
	self.update = function () {
		if (self.flow) {
			if (!self.startFlowTicks) {
				self.startFlowTicks = LK.ticks;
				if (self.water) {
					self.water.visible = true;
				}
				if (self.waterV) {
					self.waterV.visible = true;
				}
				if (self.waterH) {
					self.waterH.visible = true;
				}
			}
			if (self.type === 'start') {
				// Rotate valve for start pipe
				var rotationValue = (LK.ticks - self.startFlowTicks) * 0.1;
				if (self.valve) {
					self.valve.rotation = rotationValue;
				}
				if (rotationValue >= Math.PI * 2) {
					self.flow = false;
				}
			} else if (self.type === 'cornerPipe') {
				// Corner pipe animation
				var progress = (LK.ticks - self.startFlowTicks) * self.flowSpeed; // Accelerate water speed
				var thirdSize = self.maxWaterSize / 3 - 10; // Split animation into three phases
				var sidesSize = self.maxWaterSize / 3; //+ 40;
				if (progress < self.maxWaterSize) {
					// Phase 1: Vertical water grows
					if (progress < thirdSize) {
						if (self.waterV) {
							self.waterV.height = progress;
						}
					}
					// Phase 2: Corner water appears and rotates
					else if (progress < thirdSize * 2) {
						if (self.waterV) {
							self.waterV.height = thirdSize; // Keep vertical at full first-phase height
						}
						if (self.waterCorner) {
							self.waterCorner.visible = true;
							self.waterCorner.alpha = Math.min(Math.max(0, ((progress - thirdSize) / thirdSize - 0.5) * 2, 0), 1); // Animate alpha from 0 to 1
							// Calculate rotation from -PI/2 to -PI
							var rotationProgress = (progress - thirdSize) / thirdSize; // 0 to 1
							self.waterCorner.rotation = -Math.PI / 2 - rotationProgress * Math.PI / 2;
						}
					}
					// Phase 3: Horizontal water grows
					else {
						if (self.waterV) {
							self.waterV.height = thirdSize;
						}
						if (self.waterCorner) {
							self.waterCorner.visible = true;
							self.waterCorner.alpha = 1;
							self.waterCorner.rotation = -Math.PI; // Keep at final rotation
						}
						if (self.waterH) {
							self.waterH.visible = true;
							self.waterH.width = Math.min(progress - thirdSize * 2, sidesSize);
						}
					}
				} else {
					self.flow = false;
				}
			} else if (self.type === 'end' && self.fountain) {
				// Animate fountain growth
				var sizeValue = (LK.ticks - self.startFlowTicks) * self.flowSpeed;
				if (sizeValue < self.maxWaterSize) {
					self.fountain.width = sizeValue;
					self.fountain.height = sizeValue;
					self.fountain.visible = true;
				} else {
					self.flow = false;
					if (!waterDropInterval) {
						createWaterDrops(self.x, self.y, game);
						waterDropInterval = LK.setInterval(function () {
							createWaterDrops(self.x, self.y, game);
						}, 500 + Math.random() * 500);
					}
				}
			} else if (self.water) {
				// Regular pipe animation
				var heightValue = (LK.ticks - self.startFlowTicks) * self.flowSpeed;
				if (self.water.dir != '' && heightValue < self.maxWaterSize) {
					if (self.water.dir == 'tb') {
						self.water.height = heightValue;
					}
					if (self.water.dir == 'lr') {
						self.water.width = heightValue;
					}
				} else {
					self.flow = false;
				}
			}
		}
		if (self.type === 'end' && self.fountain && self.fountain.visible) {
			self.fountain.rotation += 0.1; // Rotate the fountain indefinitely
		}
	};
	self.setType(self.type);
	return self;
});
var WaterDrop = Container.expand(function () {
	var self = Container.call(this);
	var waterDropGraphics = self.attachAsset('waterDrop', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	// Set initial tint to a random  color
	var rainbowColors = [0xC7ECFE, 0xDDFDFF, 0xF4FFFF, 0xC8F8FF]; // Rainbow [0xFF0000, 0xFF7F00, 0xFFFF00, 0x00FF00, 0x0000FF, 0x4B0082, 0x8B00FF];
	waterDropGraphics.tint = rainbowColors[Math.floor(Math.random() * rainbowColors.length)];
	self.vx = 0;
	self.vy = 0;
	self.life = 0;
	self.size = 7;
	self.alpha = 0.75 + Math.random() * 0.25;
	self.update = function () {
		self.x += self.vx;
		self.y += self.vy;
		self.rotation = Math.atan2(self.vy, self.vx) + Math.PI * 0.55;
		// Animate color between random white to blue tints
		//var randomTint = Math.random() * 0x00FFFF + 0xFFFFFF;
		//waterDropGraphics.tint = randomTint;
		// Animate size from w=5 to w=15 and h=10 to h=30
		var sizeProgress = (120 - self.life) / 120; // Assuming life starts at 120
		waterDropGraphics.width = self.size + sizeProgress * self.size * 2;
		waterDropGraphics.height = self.size * 2 + sizeProgress * self.size * 4;
		self.life--;
		if (self.life <= 0) {
			self.visible = false;
		}
	};
	return self;
});

/**** 
* Initialize Game
****/ 
var game = new LK.Game({
	backgroundColor: 0x000000
});

/**** 
* Game Code
****/ 
var waterDrops = [];
var waterDropInterval;
function createWaterDrops(x, y, game) {
	for (var i = 0; i < 10; i++) {
		var waterDrop = waterDrops.find(function (drop) {
			return !drop.visible;
		});
		if (!waterDrop) {
			waterDrop = new WaterDrop();
			waterDrops.push(waterDrop);
			game.addChild(waterDrop);
		}
		waterDrop.x = x;
		waterDrop.y = y;
		var angle = Math.random() * Math.PI * 2;
		var speed = Math.random() * 3 + 3;
		var easeFactor = Math.random() * 0.05 + 0.95; // Random easing factor between 0.95 and 1.0
		waterDrop.vx = Math.cos(angle) * speed * easeFactor;
		waterDrop.vy = Math.sin(angle) * speed * easeFactor;
		waterDrop.life = 120;
		waterDrop.visible = true;
	}
}
var PuzzleManager = function PuzzleManager() {
	var self = this;
	// Properties
	self.currentLevel = 1;
	self.maxLevels = 30;
	self.grid = [];
	self.gridSize = 4;
	self.selectedTile = null;
	self.waterFlowing = false;
	// Level configurations
	self.levelConfigs = {
		1: {
			tiles: [['start', 'straightPipeV', 'straightPipeV', 'cornerPipe'], [null, null, null, 'straightPipeH'], [null, null, 'straightPipeH', null], [null, null, null, 'end']],
			rotations: {
				'0,3': 'left',
				'3,3': 'left'
			},
			fixedTiles: ['0,0', '0,1', '0,2', '0,3', '1,3', '3,3'] // All tiles fixed except 2,2
		},
		2: {
			tiles: [['start', 'straightPipeH', null, null], [null, 'cornerPipe', null, null], [null, 'straightPipeV', 'cornerPipe', null], [null, null, null, 'end']],
			rotations: {
				'0,1': 'right',
				'1,1': 'down',
				'2,2': 'left'
			}
		}
		// Add more levels here
	};
	// Initialize the puzzle for current level
	self.initPuzzle = function () {
		log("Initializing puzzle for level", self.currentLevel);
		// Clear existing grid
		self.grid = [];
		// Get level config
		var config = self.levelConfigs[self.currentLevel];
		if (!config) {
			log("No configuration for level", self.currentLevel);
			return;
		}
		// Initialize grid
		for (var i = 0; i < self.gridSize; i++) {
			self.grid[i] = [];
			for (var j = 0; j < self.gridSize; j++) {
				var tile = new Tile();
				if (config.tiles[i] && config.tiles[i][j]) {
					tile.setType(config.tiles[i][j], i, j);
				}
				tile.updatePosition(i, j);
				self.grid[i][j] = tile;
				game.addChild(tile);
			}
		}
		// Apply rotations
		if (config.rotations) {
			for (var pos in config.rotations) {
				var _pos$split$map = pos.split(',').map(Number),
					x = _pos$split$map[0],
					y = _pos$split$map[1];
				self.grid[x][y].setRotation(config.rotations[pos]);
			}
		}
	};
	// Check if the current puzzle is solved
	self.checkWinCondition = function () {
		// Find start position
		var startX = -1,
			startY = -1;
		for (var i = 0; i < self.gridSize; i++) {
			for (var j = 0; j < self.gridSize; j++) {
				if (self.grid[i][j].type === 'start') {
					startX = i;
					startY = j;
					break;
				}
			}
			if (startX !== -1) {
				break;
			}
		}
		// Use a Set to track visited positions
		var visited = [];
		// Check if we can reach the end tile
		return this.canReachEnd(startX, startY + 1, visited); // Start flowing down from start
	};
	self.canReachEnd = function (x, y, visited) {
		// Check bounds
		if (x < 0 || x >= self.gridSize || y < 0 || y >= self.gridSize) {
			return false;
		}
		// Create position key
		var key = x + ',' + y;
		if (visited.includes(key)) {
			return false;
		}
		visited.push(key);
		var tile = self.grid[x][y];
		if (!tile || tile.type === 'empty') {
			return false;
		}
		// If we reached the end, success!
		if (tile.type === 'end') {
			return true;
		}
		// Get next possible positions based on current tile type and rotation
		var nextPositions = [];
		switch (tile.type) {
			case 'straightPipeV':
				nextPositions.push([x, y - 1], [x, y + 1]); // Up and down
				break;
			case 'straightPipeH':
				nextPositions.push([x - 1, y], [x + 1, y]); // Left and right
				break;
			case 'cornerPipe':
				// Check rotation to determine flow direction
				if (tile.rotation === Math.PI * 0.5) {
					// Left rotation
					nextPositions.push([x, y - 1], [x + 1, y]); // Up and right
				}
				// Add other rotations as needed
				break;
			case 'crossPipe':
				nextPositions.push([x - 1, y], [x + 1, y], [x, y - 1], [x, y + 1]); // All directions
				break;
		}
		// Try each possible next position
		for (var i = 0; i < nextPositions.length; i++) {
			var nextX = nextPositions[i][0];
			var nextY = nextPositions[i][1];
			if (this.canReachEnd(nextX, nextY, visited)) {
				return true;
			}
		}
		return false;
	};
	// Handle tile selection and movement
	self.selectTile = function (x, y) {
		// Convert screen coordinates to grid coordinates
		if (!isPlaying) {
			return;
		}
		var gridX = Math.floor((x - (gridBoard.x - gridBoard.width / 2 + tileSize / 2)) / tileSize);
		var gridY = Math.floor((y - (gridBoard.y - gridBoard.height / 2 + tileSize / 2)) / tileSize);
		// Check if coordinates are within grid
		if (gridX >= 0 && gridX < self.gridSize && gridY >= 0 && gridY < self.gridSize) {
			var tile = self.grid[gridX][gridY];
			var key = gridX + ',' + gridY;
			// Check if tile exists, is not empty, not start/end, and not fixed
			if (tile && tile.type !== 'empty' && tile.type !== 'start' && tile.type !== 'end' && !self.levelConfigs[self.currentLevel].fixedTiles.includes(key)) {
				self.selectedTile = {
					x: gridX,
					y: gridY,
					tile: tile
				};
				// Check possible moves
				self.checkPossibleMoves();
			}
		}
	};
	self.checkPossibleMoves = function () {
		if (!self.selectedTile) {
			return;
		}
		var x = self.selectedTile.x;
		var y = self.selectedTile.y;
		var possibleMoves = [];
		// Check each direction
		// Right
		if (x < self.gridSize - 1 && self.grid[x + 1][y].type === 'empty') {
			possibleMoves.push('right');
		}
		// Left
		if (x > 0 && self.grid[x - 1][y].type === 'empty') {
			possibleMoves.push('left');
		}
		// Down
		if (y < self.gridSize - 1 && self.grid[x][y + 1].type === 'empty') {
			possibleMoves.push('down');
		}
		// Up
		if (y > 0 && self.grid[x][y - 1].type === 'empty') {
			possibleMoves.push('up');
		}
		self.selectedTile.possibleMoves = possibleMoves;
	};
	self.moveTile = function (direction) {
		if (!isPlaying || !self.selectedTile || !self.selectedTile.possibleMoves.includes(direction)) {
			return;
		}
		var oldX = self.selectedTile.x;
		var oldY = self.selectedTile.y;
		var newX = oldX;
		var newY = oldY;
		// Calculate new position
		switch (direction) {
			case 'right':
				newX++;
				break;
			case 'left':
				newX--;
				break;
			case 'down':
				newY++;
				break;
			case 'up':
				newY--;
				break;
		}
		// Swap tiles
		var movingTile = self.grid[oldX][oldY];
		var emptyTile = self.grid[newX][newY];
		// Update grid
		self.grid[newX][newY] = movingTile;
		self.grid[oldX][oldY] = emptyTile;
		// Update positions
		movingTile.updatePosition(newX, newY);
		emptyTile.updatePosition(oldX, oldY);
		// Clear selection
		self.selectedTile = null;
		// Check if puzzle is solved
		if (self.checkWinCondition()) {
			self.startWaterFlow();
			levelText.setText('Level: ' + self.currentLevel + ' Solved!');
			isPlaying = false;
		}
	};
	self.startWaterFlow = function () {
		// Find start position
		var startX = -1,
			startY = -1;
		for (var i = 0; i < self.gridSize; i++) {
			for (var j = 0; j < self.gridSize; j++) {
				if (self.grid[i][j].type === 'start') {
					startX = i;
					startY = j;
					break;
				}
			}
			if (startX !== -1) {
				break;
			}
		}
		// Start the flow animation from the start tile
		self.flowThroughPipe(startX, startY, []);
	};
	self.flowThroughPipe = function (x, y, visited) {
		var key = x + ',' + y;
		if (visited.includes(key)) {
			log('Already visited tile at', x, y);
			return;
		}
		visited.push(key);
		var tile = self.grid[x][y];
		if (!tile || tile.type === 'empty') {
			log('Invalid or empty tile at', x, y);
			return;
		}
		log('Flowing through tile:', tile.type, 'at position:', x, y);
		// Enable flow for current tile and set water direction
		tile.flow = true;
		if (tile.water) {
			tile.water.visible = true;
			// Set water direction based on tile type
			switch (tile.type) {
				case 'start':
				case 'straightPipeV':
					//tile.water.dir = 'tb';
					break;
				case 'straightPipeH':
					//tile.water.dir = 'lr';
					break;
				case 'cornerPipe':
					// Set direction based on rotation
					if (tile.rotation === Math.PI * 0.5) {
						//tile.water.dir = 'tr'; // top to right
					}
					// Add other rotation cases here
					break;
				case 'crossPipe':
					// Set direction based on where water came from
					if (self.grid[x][y - 1] && self.grid[x][y - 1].flow) {
						//tile.water.dir = 'tb';
					} else if (self.grid[x - 1][y] && self.grid[x - 1][y].flow) {
						//tile.water.dir = 'lr';
					}
					break;
			}
			log('Set water direction for tile at', x, y, 'to:', tile.water.dir);
		} else {
			log('Warning: No water asset found for tile at', x, y);
		}
		// Wait for flow animation to complete before moving to next tile
		LK.setTimeout(function () {
			// Get next tile position based on current tile type
			var nextPos = self.getNextPosition(x, y, tile);
			if (nextPos) {
				log('Moving to next tile at:', nextPos[0], nextPos[1]);
				self.flowThroughPipe(nextPos[0], nextPos[1], visited);
			} else {
				log('No next position found for tile at', x, y);
			}
		}, 300); // Wait 500ms before flowing to next tile
	};
	self.getNextPosition = function (x, y, tile) {
		log('Getting next position for tile:', tile.type, 'at', x, y);
		switch (tile.type) {
			case 'start':
				log('Start tile - flowing down');
				return [x, y + 1];
			// Flow down from start
			case 'straightPipeV':
				// Always flow downward if we came from above
				if (y > 0 && self.grid[x][y - 1] && self.grid[x][y - 1].flow) {
					log('Vertical pipe - flowing down');
					return [x, y + 1];
				}
				// Flow upward if we came from below
				if (y < self.gridSize - 1 && self.grid[x][y + 1] && self.grid[x][y + 1].flow) {
					log('Vertical pipe - flowing up');
					return [x, y - 1];
				}
				// If no previous flow, default to flowing down
				log('Vertical pipe - default flow down');
				return [x, y + 1];
			case 'straightPipeH':
				// Always flow right if we came from left
				if (x > 0 && self.grid[x - 1][y] && self.grid[x - 1][y].flow) {
					log('Horizontal pipe - flowing right');
					return [x + 1, y];
				}
				// Flow left if we came from right
				if (x < self.gridSize - 1 && self.grid[x + 1][y] && self.grid[x + 1][y].flow) {
					log('Horizontal pipe - flowing left');
					return [x - 1, y];
				}
				// If no previous flow, default to flowing right
				log('Horizontal pipe - default flow right');
				return [x + 1, y];
			case 'cornerPipe':
				// For corner pipe at π/2 (90 degrees), when water comes from above, flow right
				if (Math.abs(tile.rotation - Math.PI * 0.5) < 0.01) {
					// Use approximate equality for floating point
					if (y > 0 && self.grid[x][y - 1] && self.grid[x][y - 1].flow) {
						log('Corner pipe π/2 - water from above, flowing right');
						return [x + 1, y];
					}
					// Default to flowing right if no previous flow (shouldn't happen in normal gameplay)
					log('Corner pipe π/2 - default flowing right');
					return [x + 1, y];
				} else if (Math.abs(tile.rotation - Math.PI) < 0.01) {
					// π (180 degrees)
					if (y > 0 && self.grid[x][y - 1] && self.grid[x][y - 1].flow) {
						log('Corner pipe π - water from above, flowing left');
						return [x - 1, y];
					}
				} else if (Math.abs(tile.rotation - Math.PI * 1.5) < 0.01) {
					// 3π/2 (270 degrees)
					if (y < self.gridSize - 1 && self.grid[x][y + 1] && self.grid[x][y + 1].flow) {
						log('Corner pipe 3π/2 - water from below, flowing left');
						return [x - 1, y];
					}
				} else {
					// 0 or default rotation
					if (x > 0 && self.grid[x - 1][y] && self.grid[x - 1][y].flow) {
						log('Corner pipe 0 - water from left, flowing up');
						return [x, y - 1];
					}
				}
				break;
			case 'crossPipe':
				// For cross pipe, continue in the same direction we came from
				if (y > 0 && self.grid[x][y - 1] && self.grid[x][y - 1].flow) {
					log('Cross pipe - flowing down');
					return [x, y + 1];
				}
				if (y < self.gridSize - 1 && self.grid[x][y + 1] && self.grid[x][y + 1].flow) {
					log('Cross pipe - flowing up');
					return [x, y - 1];
				}
				if (x > 0 && self.grid[x - 1][y] && self.grid[x - 1][y].flow) {
					log('Cross pipe - flowing right');
					return [x + 1, y];
				}
				if (x < self.gridSize - 1 && self.grid[x + 1][y] && self.grid[x + 1][y].flow) {
					log('Cross pipe - flowing left');
					return [x - 1, y];
				}
				break;
			case 'end':
				log('Reached end tile');
				return null;
		}
		log('No valid next position found');
		return null;
	};
	return self;
};
var debug = true;
function log() {
	if (debug) {
		console.log.apply(console, arguments);
	}
}
// Game constants
var tileSize = 400;
var boardOffsetX = 90;
var boardOffsetY = 90;
// Game state
var isPlaying = true;
var gridBoard;
var puzzleManager;
var isMouseDown = false;
var startX = 0;
var startY = 0;
var selectedTile = null;
var dragThreshold = 20;
// Initialize game board
gridBoard = LK.getAsset('gridBoard', {
	anchorX: 0.5,
	anchorY: 0.5
});
gridBoard.x = 2048 / 2;
gridBoard.y = 2732 / 2;
game.addChild(gridBoard);
// Event handlers
game.down = function (x, y, obj) {
	startX = x;
	startY = y;
	isMouseDown = true;
	if (puzzleManager) {
		puzzleManager.selectTile(x, y);
	}
};
game.move = function (x, y, obj) {
	if (!isPlaying || !isMouseDown || !puzzleManager || !puzzleManager.selectedTile) {
		return;
	}
	var deltaX = x - startX;
	var deltaY = y - startY;
	// Only move if drag distance exceeds threshold
	if (Math.abs(deltaX) > dragThreshold || Math.abs(deltaY) > dragThreshold) {
		var direction = null;
		if (Math.abs(deltaX) > Math.abs(deltaY)) {
			direction = deltaX > 0 ? 'right' : 'left';
		} else {
			direction = deltaY > 0 ? 'down' : 'up';
		}
		puzzleManager.moveTile(direction);
		isMouseDown = false; // Reset after move
	}
};
game.up = function (x, y, obj) {
	isMouseDown = false;
	if (puzzleManager) {
		puzzleManager.selectedTile = null;
	}
};
var levelText;
// Initialize game
function initializeGame() {
	puzzleManager = new PuzzleManager();
	puzzleManager.initPuzzle();
	// Create a text element to display the current level number
	levelText = new Text2('Level: ' + puzzleManager.currentLevel, {
		size: 100,
		fill: "#ffffff"
	});
	// Set the position of the level text under the board
	levelText.anchor.set(0.5, 0);
	levelText.x = gridBoard.x;
	levelText.y = gridBoard.y + gridBoard.height / 2 + 50;
	// Add the level text to the game
	game.addChild(levelText);
}
// Start the game
initializeGame();

===================================================================
--- original.js
+++ change.js
@@ -376,9 +376,9 @@
 	waterDropGraphics.tint = rainbowColors[Math.floor(Math.random() * rainbowColors.length)];
 	self.vx = 0;
 	self.vy = 0;
 	self.life = 0;
-	self.size = 10;
+	self.size = 7;
 	self.alpha = 0.75 + Math.random() * 0.25;
 	self.update = function () {
 		self.x += self.vx;
 		self.y += self.vy;