Upit | Learn about creating the game PetalPop: Year of the Bee with gen AI

/**** * Plugins ****/ var tween = LK.import("@upit/tween.v1"); /**** * Classes ****/ var BasicFlower = Container.expand(function (color) { var self = Container.call(this); // Store flower color self.color = color || 'red'; // Default to red if no color specified // Map color to asset name var assetMap = { 'red': 'RedFlower', 'blue': 'BlueFlower', 'yellow': 'YellowFlower', 'purple': 'PurpleFlower', 'green': 'GreenFlower', 'orange': 'OrangeFlower' }; // Attach bud asset first var budGraphics = self.attachAsset('Bud', { anchorX: 0.5, anchorY: 0.5 }); // Use correct asset based on color var flowerGraphics = self.attachAsset(assetMap[self.color], { anchorX: 0.5, anchorY: 0.5 }); self.hasActivePollen = false; self.fairyParticles = []; self.FAIRY_COUNT = 3; self.update = function () { var scaleFactor = 1 + Math.sin(LK.ticks * 0.1) * 0.05; flowerGraphics.scale.x = scaleFactor; flowerGraphics.scale.y = scaleFactor; flowerGraphics.rotation = Math.sin(LK.ticks * 0.1) * 0.05; }; self.bloom = function () { // Scale animation self.scale.set(0.3, 0.3); tween(self.scale, { x: 1, y: 1 }, { duration: 1000, onFinish: function onFinish() { // Set active pollen state before checking matches self.hasActivePollen = true; self.pollenCollected = false; // Find position in grid var foundGridPos = false; var gridX = 0; var gridY = 0; for (var y = 0; y < garden.rows; y++) { for (var x = 0; x < garden.cols; x++) { if (garden.grid[y][x] === self) { gridX = x; gridY = y; foundGridPos = true; break; } } if (foundGridPos) { break; } } // Check for matches after bloom completes if (foundGridPos && game.flowerMatcher) { LK.setTimeout(function () { game.flowerMatcher.checkForMatches(garden, gridX, gridY); }, 100); // Short delay to ensure animation completes } } }); LK.setTimeout(function () { if (game.seasonManager && game.seasonManager.currentSeason === game.seasonManager.SEASONS.SPRING) { game.seasonManager.updateFlowerCounts(); } }, 1000); // After bloom animation // Create initial burst particles self.createPollenBurst(self.x, self.y); self.removeFairyParticles = function () { self.fairyParticles.forEach(function (fairy) { self.removeChild(fairy); }); self.fairyParticles = []; }; }; self.createPollenBurst = function (x, y) { for (var i = 0; i < 12; i++) { var particle = new PollenParticle().init('burst'); var angle = i / 12 * Math.PI * 2; particle.x = x; particle.y = y; particle.vx = Math.cos(angle) * 3; particle.vy = Math.sin(angle) * 3; if (self.parent) { self.parent.addChild(particle); } } }; // Initialize pollen status self.pollenCollected = true; // Set to true so pollen can't be collected }); var Bee = Container.expand(function () { var self = Container.call(this); self.currentColor = null; // Add this back // Movement properties var beeSprite = self.attachAsset('Bee', { anchorX: 0.5, anchorY: 0.5 }); // Movement properties self.state = 'free'; // 'free', 'transit' self.targetX = self.x; self.targetY = self.y; self.transitSpeed = 15; // Set bee transit speed to 15 self.arrivalThreshold = 20; // How close we need to be to count as "arrived" self.moveSpeed = 0.1; // Adjust this for faster/slower following self.isMoving = false; // New pollen properties self.maxPollen = 14; // Exactly enough for 2 buds (2 * 7 = 14) self.currentPollen = 0; // Current amount being carried self.pollenTypes = []; // Array to track different pollen colors // Format: [{color: 'red', amount: 30}, ...] // Add trail property self.pollenTrail = new PollenTrail(); game.addChild(self.pollenTrail); // Add to game so it renders behind bee // Pollen collection method self.collectPollen = function (flower) { if (!flower.isSourceFlower) { return; } // Only proceed if it's a source flower if (flower.isSourceFlower) { // Add color mixing check before any other collection logic if (self.currentColor && self.currentColor !== flower.color) { var mixColor; if (self.currentColor === 'red' && flower.color === 'blue' || self.currentColor === 'blue' && flower.color === 'red') { mixColor = 'purple'; } else if (self.currentColor === 'blue' && flower.color === 'yellow' || self.currentColor === 'yellow' && flower.color === 'blue') { mixColor = 'green'; } else if (self.currentColor === 'red' && flower.color === 'yellow' || self.currentColor === 'yellow' && flower.color === 'red') { mixColor = 'orange'; } if (mixColor) { self.pollenTypes = [{ color: mixColor, amount: 14 }]; self.currentPollen = 14; self.currentColor = mixColor; self.pollenTrail.currentColor = mixColor; return; } } else if (self.currentPollen < self.maxPollen) { // Set color first before any other changes self.currentColor = flower.color; self.pollenTrail.currentColor = flower.color; var collectAmount = Math.min(14, self.maxPollen - self.currentPollen); self.pollenTypes = [{ color: flower.color, amount: collectAmount }]; self.currentPollen = collectAmount; } // Only restart trail if we still have pollen if (self.currentPollen > 0) { if (self.pollenTrail) { self.pollenTrail.active = false; self.pollenTrail.startTrail(self.x, self.y, garden, self); } } } }; self.checkFlowerCollision = function () { if (self.state === 'transit') { return; } // Skip collision check during transit // Convert bee position to garden's local space var localPos = garden.toLocal({ x: self.x, y: self.y }, game); // Check source flowers first if (garden.sourceFlowers) { garden.sourceFlowers.children.forEach(function (flower) { var dx = localPos.x - flower.x; var dy = localPos.y - flower.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance < garden.cellSize / 2 && !flower.isBeingCollectedFrom) { flower.isBeingCollectedFrom = true; self.collectPollen(flower); } else if (distance >= garden.cellSize / 2) { flower.isBeingCollectedFrom = false; } }); } // Calculate grid position var gridX = Math.floor(localPos.x / garden.cellSize); var gridY = Math.floor(localPos.y / garden.cellSize); // Check if position is within grid bounds if (gridX >= 0 && gridX < garden.cols && gridY >= 0 && gridY < garden.rows) { var gridItem = garden.grid[gridY][gridX]; if (gridItem) { if (gridItem.isFlower && gridItem.hasActivePollen && gridItem.scale.x >= 1 && gridItem.color === self.currentColor) { // Collect pollen from flower self.collectPollen(gridItem); } else if (gridItem && gridItem.isBud && self.currentPollen > 0) { if (gridItem.isBeingPollinated) { return; } gridItem.isBeingPollinated = true; var pollenColor = self.usePollen(gridItem); if (!pollenColor) { gridItem.isBeingPollinated = false; return; } // Double-check the bud is still there if (garden.grid[gridY][gridX] === gridItem && gridItem.isBud) { // Force remove the bud and clear grid position garden.removeChild(gridItem); garden.grid[gridY][gridX] = null; gridItem.destroy(); // Fully destroy the bud // Only create flower if position is clear if (!garden.grid[gridY][gridX]) { var newFlower = new BasicFlower(pollenColor); newFlower.x = gridItem.x; newFlower.y = gridItem.y; newFlower.isFlower = true; garden.grid[gridY][gridX] = newFlower; garden.addChild(newFlower); newFlower.bloom(); } } else { gridItem.isBeingPollinated = false; } } } } }; self.checkDestinationInteraction = function () { // Convert bee position to garden's local space var localPos = garden.toLocal({ x: self.x, y: self.y }, game); // Check source flowers if (garden.sourceFlowers) { garden.sourceFlowers.children.forEach(function (flower) { var dx = localPos.x - flower.x; var dy = localPos.y - flower.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance < garden.cellSize / 2) { self.collectPollen(flower); } }); } // Check grid position for buds var gridX = Math.floor(localPos.x / garden.cellSize); var gridY = Math.floor(localPos.y / garden.cellSize); if (gridX >= 0 && gridX < garden.cols && gridY >= 0 && gridY < garden.rows) { var gridItem = garden.grid[gridY][gridX]; if (gridItem && gridItem.isBud && self.currentPollen > 0) { self.checkFlowerCollision(); // Use existing collision logic } } }; self.update = function () { if (self.state === 'free' && self.isMoving) { // Existing drag behavior self.x += (self.targetX - self.x) * self.moveSpeed; self.y += (self.targetY - self.y) * self.moveSpeed; } else if (self.state === 'transit') { var dx = self.targetX - self.x; var dy = self.targetY - self.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance > self.arrivalThreshold) { // Normalize movement vector var angle = Math.atan2(dy, dx); self.x += Math.cos(angle) * self.transitSpeed; self.y += Math.sin(angle) * self.transitSpeed; } else { // We've arrived - check for interactions self.checkDestinationInteraction(); self.state = 'free'; } } // Calculate rotation based on movement direction var dx = self.targetX - self.x; var dy = self.targetY - self.y; var angle = Math.atan2(dy, dx); self.rotation = angle + Math.PI / 2; // Update trail when carrying pollen if (self.currentPollen > 0) { // Make sure trail starts if not already active if (!self.pollenTrail.active) { self.pollenTrail.startTrail(self.x, self.y, garden); } self.pollenTrail.updateTrail(self.x, self.y); } // Add collision check self.checkFlowerCollision(); }; // Pollen usage method self.usePollen = function (bud) { // Add debug logs var pollenUsed = 7; if (self.currentPollen > 0 && self.pollenTypes.length > 0) { // If we have less than pollenUsed, use remaining pollen if (self.currentPollen < pollenUsed) { pollenUsed = self.currentPollen; } // Reduce pollen instead of zeroing it self.currentPollen -= pollenUsed; // Update pollen types properly var pType = self.pollenTypes[0]; var color = pType.color; // New line to store color pType.amount -= pollenUsed; if (self.currentPollen <= 0) { self.pollenTypes = []; // Clear all pollen types when empty } // Removed bee UI update call // Only clear type if it's empty if (pType.amount <= 0) { self.pollenTypes.shift(); } // Only end trail if we're actually out of pollen if (self.currentPollen <= 0 || self.pollenTypes.length === 0) { self.pollenTrail.active = false; self.pollenTrail.points = []; // Reset bee's pollen state self.currentColor = null; self.pollenTypes = []; } return color; // Updated to return color } return null; }; return self; }); // Bud class var Bud = Container.expand(function () { var self = Container.call(this); var budGraphics = self.attachAsset('Bud', { anchorX: 0.5, anchorY: 0.5 }); // Timer properties self.bloomTimer = 5 * 60; // 5 seconds (assuming 60fps) self.isBud = true; self.isFlower = false; self.isBeingReplaced = false; // Add this flag // Update now handles timer and auto-bloom self.update = function () { // Basic animation self.rotation = Math.sin(LK.ticks * 0.05) * 0.1; }; self.autoBloom = function () { if (!self.isBud || self.isBeingReplaced) { return; // Prevent double-blooming or if already being replaced } self.isBeingReplaced = true; // Get garden reference from parent var garden = self.parent; if (!garden) { return; } // Get grid position directly from garden for (var gridY = 0; gridY < garden.rows; gridY++) { for (var gridX = 0; gridX < garden.cols; gridX++) { if (garden.grid[gridY][gridX] === self) { // Create random color flower var flowerColors = ['red', 'blue', 'yellow']; var randomColor = flowerColors[Math.floor(Math.random() * flowerColors.length)]; var newFlower = new BasicFlower(randomColor); newFlower.x = self.x; newFlower.y = self.y; newFlower.isFlower = true; newFlower.hasActivePollen = false; // Update grid garden.removeChild(self); garden.grid[gridY][gridX] = newFlower; garden.addChild(newFlower); newFlower.bloom(); return; } } } }; return self; }); // Add BudSpawner to handle progressive difficulty var BudSpawner = Container.expand(function () { var self = Container.call(this); self.enabled = true; self.patterns = { single: [[[0, 0]]], pairs: [[[0, 0], [0, 1]], // horizontal [[0, 0], [1, 0]], // vertical [[0, 0], [1, 1]] // diagonal ], triples: [[[0, 0], [0, 1], [0, 2]], // horizontal [[0, 0], [1, 0], [2, 0]], // vertical [[0, 0], [1, 1], [2, 2]], // diagonal [[0, 0], [0, 1], [1, 0]] // L shape ] }; self.warningTime = 180; // 3 seconds at 60fps self.currentPattern = null; self.warningSprites = []; self.nextSpawnPosition = null; self.createWarning = function (x, y) { var warning = new Container(); var crack = warning.attachAsset('Crack', { anchorX: 0.5, anchorY: 0.5, alpha: 0 }); warning.x = x; warning.y = y; warning.scale.set(0); // Create the growing crack animation tween(warning.scale, { x: 1, y: 1 }, { duration: 1000, ease: 'elasticOut' }); tween(crack, { alpha: 0.8 }, { duration: 500 }); // Add rotation animation warning.update = function () { warning.rotation = Math.sin(LK.ticks * 0.03) * 0.1; }; self.garden.addChild(warning); return warning; }; self.updateWarningEffects = function () { var timeProgress = (180 - self.warningTime) / 180; // 0 to 1 var intensity = Math.sin(timeProgress * Math.PI * 4) * 0.5 + 0.5; // Pulsing effect self.warningSprites.forEach(function (sprite) { // Increase glow and intensity as spawn time approaches sprite.children[0].alpha = 0.3 + intensity * 0.7; sprite.children[0].scale.set(0.8 + intensity * 0.4); // Add subtle shake when close to spawning if (self.warningTime < 60) { // Last second sprite.x += (Math.random() - 0.5) * 2; sprite.y += (Math.random() - 0.5) * 2; } }); }; self.garden = null; self.gameTime = 0; self.init = function (garden) { self.garden = garden; self.gameTime = 0; self.firstBloom = false; // Just set the first bloom timer self.nextBloomTime = 90; // 1.5 seconds for first bloom }; self.findEmptySpot = function () { var validSpots = []; // Match flower removal coordinate system [gridY][gridX] for (var gridY = 0; gridY < self.garden.rows; gridY++) { for (var gridX = 0; gridX < self.garden.cols; gridX++) { if (!self.garden.grid[gridY][gridX]) { validSpots.push({ x: gridX, y: gridY }); } } } if (validSpots.length > 0) { return validSpots[Math.floor(Math.random() * validSpots.length)]; } return null; }; self.selectSpawnPosition = function () { // Count empty spaces var emptySpaces = 0; var emptyPositions = []; for (var row = 0; row < self.garden.rows; row++) { for (var col = 0; col < self.garden.cols; col++) { if (self.garden.grid[row][col] === null) { emptySpaces++; emptyPositions.push({ row: row, col: col }); } } } // No empty spaces if (emptySpaces === 0) { return null; } // Select pattern size based on empty spaces var patternPool; if (emptySpaces >= 3) { patternPool = Math.random() < 0.7 ? self.patterns.triples : self.patterns.pairs; } else if (emptySpaces >= 2) { patternPool = Math.random() < 0.7 ? self.patterns.pairs : self.patterns.single; } else { patternPool = self.patterns.single; } // Find valid positions for selected pattern pool var validPositions = []; for (var _i = 0, _emptyPositions = emptyPositions; _i < _emptyPositions.length; _i++) { var _emptyPositions$_i = _emptyPositions[_i], row = _emptyPositions$_i.row, col = _emptyPositions$_i.col; var _iterator = _createForOfIteratorHelper6(patternPool), _step; try { patternCheck: for (_iterator.s(); !(_step = _iterator.n()).done;) { var pattern = _step.value; // Check if pattern fits at this position var _iterator2 = _createForOfIteratorHelper6(pattern), _step2; try { for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) { var _step2$value = _slicedToArray7(_step2.value, 2), drow = _step2$value[0], dcol = _step2$value[1]; var nrow = row + drow; var ncol = col + dcol; if (nrow >= self.garden.rows || ncol >= self.garden.cols || self.garden.grid[nrow][ncol] !== null) { continue patternCheck; } } } catch (err) { _iterator2.e(err); } finally { _iterator2.f(); } validPositions.push({ row: row, col: col, pattern: pattern }); } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } } // If no patterns fit, fall back to single bud if (validPositions.length === 0 && emptySpaces > 0) { var randomEmpty = emptyPositions[Math.floor(Math.random() * emptyPositions.length)]; return { row: randomEmpty.row, col: randomEmpty.col, pattern: self.patterns.single[0] }; } return validPositions.length > 0 ? validPositions[Math.floor(Math.random() * validPositions.length)] : null; }; self.getSpawnRate = function () { // Keep original timing logic return 16; // Spawn every frame for immediate filling }; self.update = function () { if (!self.enabled) { return; } // Initialize timing trackers if (!self.lastSpawnTime) { self.lastSpawnTime = LK.ticks; self.isFirstSpawn = true; } // Quick first spawn (2 seconds), then 5 seconds for subsequent spawns if (!self.currentPattern) { var requiredDelay = self.isFirstSpawn ? 120 : 240; // 2 seconds vs 4 seconds if (LK.ticks - self.lastSpawnTime < requiredDelay) { return; } // Update spawn time and first spawn flag self.lastSpawnTime = LK.ticks; self.isFirstSpawn = false; // Select new spawn position and pattern var spawnInfo = self.selectSpawnPosition(); if (spawnInfo && spawnInfo.row !== undefined && spawnInfo.col !== undefined) { self.currentPattern = spawnInfo.pattern; self.nextSpawnPosition = { row: parseInt(spawnInfo.row), col: parseInt(spawnInfo.col) }; self.warningTime = 180; // Reset warning timer // Create warning indicators for pattern self.warningSprites = []; if (self.currentPattern) { var _iterator3 = _createForOfIteratorHelper4(self.currentPattern), _step3; try { for (_iterator3.s(); !(_step3 = _iterator3.n()).done;) { var _step3$value = _slicedToArray5(_step3.value, 2), dy = _step3$value[0], dx = _step3$value[1]; if (dx !== undefined && dy !== undefined) { var targetRow = self.nextSpawnPosition.row + dy; var targetCol = self.nextSpawnPosition.col + dx; var worldPos = self.garden.gridToWorld(targetCol, targetRow); var warning = self.createWarning(worldPos.x - 400 + self.garden.cellSize, worldPos.y - 400 - 50); self.warningSprites.push(warning); } } } catch (err) { _iterator3.e(err); } finally { _iterator3.f(); } } } } else if (self.nextSpawnPosition && self.currentPattern) { self.warningTime--; self.updateWarningEffects(); if (self.warningTime <= 0) { // Spawn animation self.warningSprites.forEach(function (sprite) { tween(sprite.scale, { x: 1, y: 1 }, { duration: 300, onFinish: function onFinish() { tween(sprite, { alpha: 0 }, { duration: 200, onFinish: function onFinish() { return sprite.destroy(); } }); } }); }); // Cache spawn position before clearing var spawnRow = self.nextSpawnPosition.row; var spawnCol = self.nextSpawnPosition.col; var pattern = self.currentPattern; // Clear state before spawning to prevent timing issues self.warningSprites = []; self.currentPattern = null; self.nextSpawnPosition = null; // Spawn buds with delay between each pattern.forEach(function (pos, index) { var _pos = _slicedToArray8(pos, 2), dy = _pos[0], dx = _pos[1]; LK.setTimeout(function () { var targetRow = spawnRow + dy; var targetCol = spawnCol + dx; if (targetRow >= 0 && targetRow < self.garden.rows && targetCol >= 0 && targetCol < self.garden.cols && !self.garden.grid[targetRow][targetCol]) { var newBud = new Bud(); var worldPos = self.garden.gridToWorld(targetCol, targetRow); newBud.x = worldPos.x - 400 + self.garden.cellSize; newBud.y = worldPos.y - 400 - 50; newBud.scale.set(0); self.garden.grid[targetRow][targetCol] = newBud; self.garden.addChild(newBud); // Only set up auto-bloom for patterns with multiple buds if (pattern.length > 1 && index === 0) { LK.setTimeout(function () { if (newBud && newBud.parent && newBud.isBud && !newBud.isBeingReplaced) { newBud.autoBloom(); // When first bud blooms, start timer for second bud if (pattern[1]) { LK.setTimeout(function () { var secondBud = self.garden.grid[spawnRow + pattern[1][0]][spawnCol + pattern[1][1]]; if (secondBud && secondBud.isBud && !secondBud.isBeingReplaced) { secondBud.autoBloom(); // When second bud blooms, start timer for third bud if (pattern[2]) { LK.setTimeout(function () { var thirdBud = self.garden.grid[spawnRow + pattern[2][0]][spawnCol + pattern[2][1]]; if (thirdBud && thirdBud.isBud && !thirdBud.isBeingReplaced) { thirdBud.autoBloom(); } }, 6000); // 6 seconds after second bud } } }, 6000); // 6 seconds after first bud } } }, 3000); // 3 seconds for first bud } // Then do scale animation tween(newBud.scale, { x: 1, y: 1 }, { duration: 1000, ease: 'elasticOut' }); } }, index * 200); }); } } }; }); // Simplified FlowerManager - mainly for flower conversion and management var FlowerManager = Container.expand(function () { var self = Container.call(this); // Convert a bud to a flower self.convertBudToFlower = function (bud, garden) { var gridPos = { x: Math.floor((bud.y - garden.y) / garden.cellSize), y: Math.floor((bud.x - garden.x) / garden.cellSize) }; var newFlower = new BasicFlower(); newFlower.x = bud.x; newFlower.y = bud.y; newFlower.isFlower = true; garden.removeChild(bud); garden.grid[gridPos.x][gridPos.y] = newFlower; garden.addChild(newFlower); // When a flower blooms: createPollenBurst(newFlower.x, newFlower.y); return newFlower; }; // Empty touch handler as we're using the new trail system self.handleTouch = function () {}; }); var FlowerMatcher = Container.expand(function () { var self = Container.call(this); self.checkForMatches = function (garden, x, y) { // Only prevent matches in spring if we're not in the matching phase if (game.seasonManager && game.seasonManager.currentSeason === game.seasonManager.SEASONS.SPRING && !game.seasonManager.springMatchingEnabled) { return false; } var matches = self.findMatches(garden, x, y); if (matches.length >= 3) { self.clearMatches(garden, matches); return true; } return false; }; self.findMatches = function (garden, startX, startY) { if (startY < 0 || startY >= garden.rows || startX < 0 || startX >= garden.cols) { return []; } var startFlower = garden.grid[startY][startX]; if (!startFlower || !startFlower.isFlower) { return []; } var flowerColor = startFlower.color; var matches = []; var visited = {}; var _checkFlower = function checkFlower(x, y) { if (x < 0 || x >= garden.cols || y < 0 || y >= garden.rows) { return; } var key = x + ',' + y; if (visited[key]) { return; } visited[key] = true; var flower = garden.grid[y][x]; if (flower && flower.isFlower && !flower.isSourceFlower && flower.scale.x >= 1 && flower.color === flowerColor) { matches.push({ x: x, y: y, flower: flower }); _checkFlower(x + 1, y); _checkFlower(x - 1, y); _checkFlower(x, y + 1); _checkFlower(x, y - 1); } }; _checkFlower(startX, startY); return matches.length >= 3 ? matches : []; }; self.clearMatches = function (garden, matches) { matches.forEach(function (match) { var flower = match.flower; // Expand and pop animation tween(flower.scale, { x: 1.3, y: 1.3 }, { duration: 500, onFinish: function onFinish() { // Check if flower is still in expected position if (garden.grid[match.y][match.x] === flower) { // Create petal burst after animation self.createPetalBurst(match.x, match.y, flower.color); garden.grid[match.y][match.x] = null; garden.removeChild(flower); // Removed new bud creation after clearing matches } } }); }); }; self.createPetalBurst = function (x, y, color) { var colorTints = { 'red': 0xFF0000, 'blue': 0x0000FF, 'yellow': 0xFFFF00, 'purple': 0x800080, 'orange': 0xFFA500, 'green': 0x00FF00 }; var worldPos = garden.gridToWorld(x, y); for (var i = 0; i < 12; i++) { var particle = new PollenParticle().init('burst'); var angle = i / 12 * Math.PI * 2; particle.x = worldPos.x; particle.y = worldPos.y; particle.vx = Math.cos(angle) * 8; particle.vy = Math.sin(angle) * 8; particle.scale.set(0.8); particle.tint = colorTints[color]; game.addChild(particle); } }; return self; }); //<Assets used in the game will automatically appear here> // Garden class to manage the grid of soil var Garden = Container.expand(function () { var self = Container.call(this); // Add new helper method for safe grid updates self.updateGridPosition = function (row, col, item) { if (row >= 0 && row < self.rows && col >= 0 && col < self.cols) { // First clear any existing item var existingItem = self.grid[row][col]; if (existingItem && existingItem.parent) { existingItem.parent.removeChild(existingItem); } // Then set new item self.grid[row][col] = item; return true; } return false; }; self.grid = []; self.rows = 8; self.cols = 8; self.cellSize = 210; self.init = function () { var _this = this; // Add source flowers this.sourceFlowers = new Container(); this.addChild(this.sourceFlowers); // Calculate positions var centerX = this.cols * this.cellSize / 2; // Blue flower at bottom center var blueFlower = new SourceFlower('blue'); blueFlower.x = centerX + 0.03 * 2048; blueFlower.y = self.rows * self.cellSize + self.cellSize * 1.5 - 0.02 * 2732; // Move up by 2% of screen height this.sourceFlowers.addChild(blueFlower); // Red flower under bottom left bud var redFlower = new SourceFlower('red'); redFlower.x = self.cellSize / 2 + 0.02 * 2048; // Move 2% to the right redFlower.y = self.rows * self.cellSize + self.cellSize * 1.5 - 0.02 * 2732; // Move up by 2% of screen height this.sourceFlowers.addChild(redFlower); // Yellow flower under bottom right bud var yellowFlower = new SourceFlower('yellow'); yellowFlower.x = self.cols * self.cellSize - self.cellSize / 2; // Align with last column's center yellowFlower.y = self.rows * self.cellSize + self.cellSize * 1.5 - 0.02 * 2732; // Move up by 2% of screen height this.sourceFlowers.addChild(yellowFlower); // Center the grid on screen self.x = (2048 - self.cols * self.cellSize) / 2; self.y = (2732 - self.rows * self.cellSize) / 2 + 2732 * 0.12 - 400; // Initialize empty grid for (var i = 0; i < self.rows; i++) { self.grid[i] = []; for (var j = 0; j < self.cols; j++) { self.grid[i][j] = null; } } }; // Helper method to convert grid position to world position self.gridToWorld = function (gridX, gridY) { if (typeof gridX !== 'number' || typeof gridY !== 'number') { console.log('Invalid grid coordinates:', gridX, gridY); return { x: self.x, y: self.y }; // Return default position if invalid } return { x: self.x + gridX * self.cellSize + self.cellSize / 2, y: self.y + gridY * self.cellSize + self.cellSize / 2 }; }; // Helper method to convert world position to grid position self.worldToGrid = function (worldX, worldY) { var localX = worldX - self.x; var localY = worldY - self.y; return { x: Math.floor(localX / self.cellSize), y: Math.floor(localY / self.cellSize) }; }; }); // GardenBackground class var GardenBackground = Container.expand(function () { var self = Container.call(this); var gardenSoil = LK.getAsset('GardenSoil', { anchorX: 0.5, anchorY: 0.5, scaleX: 1.02, scaleY: 1.02, x: 2048 / 2, y: 2732 / 2 - 0.02 * 2732 }); self.addChild(gardenSoil); var gardenBackground = LK.getAsset('SpringBackground', { anchorX: 0.5, anchorY: 0.5, scaleX: 1.02, scaleY: 1.02, x: 2048 / 2, y: 2732 / 2 - 0.01 * 2732 }); self.addChild(gardenBackground); }); var Hive = Container.expand(function () { var self = Container.call(this); var hiveSprite = self.attachAsset('Hive', { anchorX: 0.5, anchorY: 0.5 }); self.storedPollen = { 'red': 0, 'blue': 0, 'yellow': 0 }; // Add meter above hive self.pollenMeter = new PollenMeter(); self.pollenMeter.y = -200; self.addChild(self.pollenMeter); // Collection method self.collectFromBee = function (bee) { if (bee.currentPollen > 0) { // Transfer each type of pollen bee.pollenTypes.forEach(function (type) { // Initialize hive's stored pollen for this color if needed if (!self.storedPollen) { self.storedPollen = {}; } if (!self.storedPollen[type.color]) { self.storedPollen[type.color] = 0; } // Add to hive's storage self.storedPollen[type.color] += type.amount; // Removed hive UI update call }); // Create particles spread across the hive's width var particleCount = 20; var hiveWidth = 300; for (var i = 0; i < particleCount; i++) { var particle = new PollenParticle().init('transfer'); particle.x = -hiveWidth / 2 + Math.random() * hiveWidth; particle.y = -200; particle.vx = (Math.random() - 0.5) * 0.5; particle.vy = 1 + Math.random(); particle.twinkleOffset = Math.random() * Math.PI * 2; particle.twinkleSpeed = 0.1 + Math.random() * 0.1; particle.scale.set(0.5); self.addChild(particle); } // Clear bee's pollen bee.currentPollen = 0; bee.pollenTypes = []; // Removed bee UI update call // End bee's trail bee.pollenTrail.active = false; bee.pollenTrail.points = []; } }; return self; }); var PollenMeter = Container.expand(function () { var self = Container.call(this); // Create background bar var background = LK.getAsset('marker', { anchorX: 0.5, anchorY: 0.5, scaleX: 1, scaleY: 0.1 }); self.addChild(background); // Create fill bar var fill = LK.getAsset('marker', { anchorX: 0.5, anchorY: 0.5, scaleX: 0, scaleY: 0.1 }); fill.tint = 0xFFFF00; // Yellow for pollen self.fillBar = fill; self.addChild(fill); // Update method to show current pollen self.updateMeter = function (current, max) { fill.scale.x = current / max; }; return self; }); // PollenParticle class var PollenParticle = Container.expand(function () { var self = Container.call(this); // Particle properties self.velocity = { x: 0, y: 0 }; self.lifespan = 1; // Goes from 1 to 0 self.decayRate = 0.02; // How fast the particle fades self.type = 'trail'; // Can be 'trail' or 'burst' // Create the visual element var assetMap = { 'trail': 'PollenSparkle', 'burst': 'Petal', 'fairy': 'PollenSparkle', 'transfer': 'PollenSparkle' }; var pollenGraphics; // Initialize with random properties for more organic feel self.init = function (type) { self.type = type || 'trail'; if (!pollenGraphics) { pollenGraphics = self.attachAsset(assetMap[self.type], { anchorX: 0.5, anchorY: 0.5 }); } // Set initial scale based on type if (self.type === 'trail') { self.scale.set(0.7 + Math.random() * 0.3); // Larger for trail self.decayRate = 0.03; // Faster decay for trail // Slight random velocity for trail movement self.velocity = { x: (Math.random() - 0.5) * 2, y: (Math.random() - 0.5) * 2 }; } else if (self.type === 'burst') { self.scale.set(0.5 + Math.random() * 0.3); // Smaller initial size for bursts self.decayRate = 0.01; // Slower decay for longer travel // Radial burst velocity var angle = Math.random() * Math.PI * 2; var speed = 3 + Math.random() * 5; // Increased speed for further travel self.velocity = { x: Math.cos(angle) * speed, y: Math.sin(angle) * speed }; } else if (self.type === 'fairy') { self.lifespan = undefined; // Don't fade out self.startAngle = Math.random() * Math.PI * 2; // Random start position self.orbitRadius = 20 + Math.random() * 40; // Increase orbit radius variation self.orbitSpeed = 0.005 + Math.random() * 0.03; // Increase orbit speed variation self.update = function () { var time = LK.ticks * self.orbitSpeed; // Orbit motion self.x = Math.cos(time + self.startAngle) * self.orbitRadius; self.y = Math.sin(time + self.startAngle) * self.orbitRadius; // Add bobbing self.y += Math.sin(time * 2 + self.startAngle) * 10; }; } // Random rotation speed self.rotationSpeed = (Math.random() - 0.5) * 0.2; // Random starting rotation self.rotation = Math.random() * Math.PI * 2; // Add random rotation speed for dynamic movement self.rotationSpeed = (Math.random() - 0.5) * 0.2; // Full opacity to start self.alpha = 1; if (self.type === 'transfer') { self.scale.set(0.5); self.alpha = 1; self.twinkleOffset = 0; // Initialize twinkle offset self.twinkleSpeed = 0.1; // Initialize twinkle speed self.update = function () { // Gentle drift down self.x += self.vx; self.y += self.vy; // Individual twinkle effect self.alpha = 0.6 + Math.sin(LK.ticks * self.twinkleSpeed + self.twinkleOffset) * 0.4; // Remove when below hive if (self.y > 100) { self.destroy(); } }; } return self; }; self.update = function () { // Update position based on velocity self.x += self.velocity.x; self.y += self.velocity.y; // Add rotation self.rotation += self.rotationSpeed; // Slow down velocity over time self.velocity.x *= 0.95; self.velocity.y *= 0.95; // Update lifespan and alpha self.lifespan -= self.decayRate; self.alpha = self.lifespan; // Scale slightly varies with life var scalePulse = 1 + Math.sin(LK.ticks * 0.2) * 0.1; pollenGraphics.scale.set(scalePulse * self.scale.x); // Remove when lifecycle complete if (self.lifespan <= 0) { self.destroy(); } }; }); // First, let's add a PollenTrail class to handle the dragging mechanic var PollenTrail = Container.expand(function () { var self = Container.call(this); self.points = []; self.active = false; self.currentGarden = null; // Store reference to garden self.MAX_SPEED = 15; // Adjust this value for proper feel self.startTrail = function (x, y, garden, bee) { self.active = true; self.points = [{ x: x, y: y, time: Date.now() }]; self.startTime = Date.now(); self.trailStartTime = Date.now(); self.currentGarden = garden; self.bee = bee; // Store bee reference self.lastPoint = { x: x, y: y }; // Initialize lastPoint // Force red on first particle to verify bee storage var particle = new PollenParticle().init('trail'); particle.children[0].tint = 0xFF0000; particle.x = x; particle.y = y; game.addChild(particle); }; self.updateTrail = function (x, y) { if (!self.active) { return; } // Enforce maximum speed var dx = x - self.lastPoint.x; var dy = y - self.lastPoint.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance > self.MAX_SPEED) { var ratio = self.MAX_SPEED / distance; x = self.lastPoint.x + dx * ratio; y = self.lastPoint.y + dy * ratio; } self.points.push({ x: x, y: y, time: Date.now() }); self.lastPoint = { x: x, y: y }; // Create particle effect along trail var particle = new PollenParticle().init('trail'); if (self.bee && self.bee.currentColor) { var color = self.bee.currentColor; if (color === 'red') { particle.children[0].tint = 0xFF0000; } else if (color === 'blue') { particle.children[0].tint = 0x0000FF; } else if (color === 'yellow') { particle.children[0].tint = 0xFFFF00; } else if (color === 'purple') { particle.children[0].tint = 0x800080; } else if (color === 'green') { particle.children[0].tint = 0x00FF00; } else if (color === 'orange') { particle.children[0].tint = 0xFFA500; } } particle.x = x; particle.y = y; game.addChild(particle); }; // Add the burst effect function self.createPollenBurst = function (x, y) { for (var i = 0; i < 12; i++) { var particle = new PollenParticle().init('burst'); var angle = i / 12 * Math.PI * 2; var distance = 30; particle.x = x + Math.cos(angle) * distance; particle.y = y + Math.sin(angle) * distance; // Give particles outward velocity particle.vx = Math.cos(angle) * 3; particle.vy = Math.sin(angle) * 3; game.addChild(particle); } }; self.endTrail = function () { if (!self.active) { return; } var affectedBuds = []; var checkedPositions = {}; self.points.forEach(function (point) { var localPos = self.currentGarden.toLocal({ x: point.x, y: point.y }, game); var gridX = Math.floor(localPos.x / self.currentGarden.cellSize); var gridY = Math.floor(localPos.y / self.currentGarden.cellSize); var posKey = gridX + ',' + gridY; if (!checkedPositions[posKey] && gridX >= 0 && gridX < self.currentGarden.cols && gridY >= 0 && gridY < self.currentGarden.rows) { checkedPositions[posKey] = true; var gridItem = self.currentGarden.grid[gridY][gridX]; // Verify it's a valid bud if (gridItem && gridItem.isBud === true && gridItem.isFlower === false) { affectedBuds.push({ bud: gridItem, gridX: gridX, gridY: gridY }); } } }); if (affectedBuds.length >= 2) { affectedBuds.forEach(function (budInfo) { // IMPORTANT: Clear the grid position first self.currentGarden.grid[budInfo.gridY][budInfo.gridX] = null; // Remove the bud from display list self.currentGarden.removeChild(budInfo.bud); // Create new flower var newFlower = new BasicFlower(); newFlower.x = budInfo.bud.x; newFlower.y = budInfo.bud.y; newFlower.isFlower = true; // Update grid position and add to display list self.currentGarden.grid[budInfo.gridY][budInfo.gridX] = newFlower; self.currentGarden.addChild(newFlower); // Start bloom animation newFlower.bloom(); }); } self.active = false; self.points = []; }; self.update = function () { // Just update particles, no time checks // Update all children particles for (var i = self.children.length - 1; i >= 0; i--) { var particle = self.children[i]; if (particle && particle.update) { particle.update(); } } }; }); // Add ScoreManager to handle chain reactions and scoring var ScoreManager = Container.expand(function () { var self = Container.call(this); self.currentScore = 0; self.currentChain = 0; self.chainMultiplier = 1; self.addToChain = function () { self.currentChain++; self.chainMultiplier = Math.min(1 + self.currentChain * 0.5, 5); // Cap at 5x self.addScore(100 * self.chainMultiplier); }; self.resetChain = function () { self.currentChain = 0; self.chainMultiplier = 1; }; self.addScore = function (points) { self.currentScore += Math.floor(points); // Update score display if (game.scoreDisplay) { game.scoreDisplay.setText(self.currentScore.toString()); } }; }); var SeasonManager = Container.expand(function () { var self = Container.call(this); self.springMatchingEnabled = false; // New flag for spring matching phase // Season constants self.SEASONS = { SPRING: 'spring', SUMMER: 'summer', FALL: 'fall', WINTER: 'winter' }; self.currentSeason = null; self.yearNumber = 1; self.totalScore = 0; self.seasonStartTime = 0; self.init = function () { self.yearNumber = 1; // Start at year 1 return; // Default initialization, no active season set }; self.setActiveSeason = function (season) { // Store previous season's score if (self.currentSeason && game.scoreDisplay) { self.totalScore += parseInt(game.scoreDisplay.text); } self.currentSeason = season; self.transitionToSeason(season); }; self.transitionToSeason = function (season) { // Clear existing particles first self.clearTransitionEffects(); // Create transition effects self.createSeasonTransition(season); // Update game rules and mechanics self.updateGameRules(season); // Show season text self.showSeasonText(season); }; self.clearTransitionEffects = function () { // Remove all existing transition particles game.children.forEach(function (child) { if (child.isTransitionEffect) { game.removeChild(child); } }); }; self.createSeasonTransition = function (season) { var particleConfig = { spring: { asset: 'PollenSparkle', count: 50, tint: 0x88FF88 }, summer: { asset: 'Petal', count: 40, tint: 0xFFFF88 }, fall: { asset: 'Petal', count: 30, tint: 0xFF8844 }, winter: { asset: 'PollenSparkle', count: 60, tint: 0xFFFFFF } }; var config = particleConfig[season]; for (var i = 0; i < config.count; i++) { var particle = new TransitionParticle(config.asset); particle.children[0].tint = config.tint; particle.isTransitionEffect = true; game.addChild(particle); } }; self.updateGameRules = function (season) { // Clear existing timers/rules if (garden.budSpawner && typeof garden.budSpawner.reset === 'function') { garden.budSpawner.reset(); } switch (season) { case self.SEASONS.SPRING: self.initSpringMode(); break; case self.SEASONS.SUMMER: self.initSummerMode(); break; case self.SEASONS.FALL: self.initFallMode(); break; case self.SEASONS.WINTER: self.initWinterMode(); break; } }; self.showSeasonText = function (season) { var texts = { spring: "Spring: Pollinate the garden", summer: "Summer: Match the flowers", fall: "Fall: Clear the leaves", winter: "Winter: Dance to stay warm" }; var seasonText = new Text2(texts[season], { size: 120, fill: 0xFFFFFF, align: 'center' }); seasonText.alpha = 0; seasonText.scale.set(0.5); seasonText.x = 2048 / 2; seasonText.y = 400; seasonText.anchor.set(0.5); game.addChild(seasonText); // Animate in tween(seasonText, { alpha: 1, y: 300 }, { duration: 1000, ease: 'backOut' }); tween(seasonText.scale, { x: 1, y: 1 }, { duration: 1000, ease: 'elasticOut' }); // Remove after delay LK.setTimeout(function () { tween(seasonText, { alpha: 0, y: 200 }, { duration: 500, onFinish: function onFinish() { game.removeChild(seasonText); } }); }, 2000); }; // Initialize each season's specific mechanics self.initSpringMode = function () { // If we're transitioning from a different season to spring, increment the year if (self.currentSeason && self.currentSeason !== self.SEASONS.SPRING) { self.yearNumber++; } garden.seasonTimer = 60 * 60; // 60 seconds at 60fps // Create timer display var timerText = new Text2("1:00", { size: 60, fill: 0xFFFFFF }); timerText.anchor.set(1, 0); timerText.x = 400; // Center horizontally timerText.y = 50; // Near top LK.gui.top.addChild(timerText); self.springTimerDisplay = timerText; // Disable normal bud spawning if (garden.budSpawner) { garden.budSpawner.enabled = false; } // Clear and fully populate garden with buds for (var row = 0; row < garden.rows; row++) { for (var col = 0; col < garden.cols; col++) { if (garden.grid[row][col]) { garden.grid[row][col].destroy(); garden.grid[row][col] = null; } var bud = new Bud(); var worldPos = garden.gridToWorld(col, row); bud.x = worldPos.x - 400 + garden.cellSize; bud.y = worldPos.y - 400 - 50; garden.grid[row][col] = bud; garden.addChild(bud); // Scale in animation bud.scale.set(0); tween(bud.scale, { x: 1, y: 1 }, { duration: 500, ease: 'backOut' }); } } // Calculate total flower requirements based on year var totalFlowersNeeded = 15 + (self.yearNumber - 1) * 5; totalFlowersNeeded = Math.min(totalFlowersNeeded, 64); // Cap at 64 total flowers // Set up random distribution of goals var primaryGoals = Math.ceil(totalFlowersNeeded * 0.6); // 60% split between red, blue, yellow var hybridGoals = totalFlowersNeeded - primaryGoals; // Remaining 40% for hybrid colors // Randomly distribute primary colors (should add up to primaryGoals) var redGoal = Math.floor(primaryGoals / 3 + (Math.random() - 0.5) * 2); var blueGoal = Math.floor((primaryGoals - redGoal) / 2 + (Math.random() - 0.5) * 2); var yellowGoal = primaryGoals - redGoal - blueGoal; // Randomly distribute hybrid colors (should add up to hybridGoals) var purpleGoal = Math.floor(hybridGoals / 3 + (Math.random() - 0.5) * 2); var greenGoal = Math.floor((hybridGoals - purpleGoal) / 2 + (Math.random() - 0.5) * 2); var orangeGoal = hybridGoals - purpleGoal - greenGoal; garden.flowerGoals = { red: Math.max(1, redGoal), blue: Math.max(1, blueGoal), yellow: Math.max(1, yellowGoal), purple: Math.max(1, purpleGoal), orange: Math.max(1, orangeGoal), green: Math.max(1, greenGoal) }; garden.currentFlowers = { red: 0, blue: 0, yellow: 0, purple: 0, orange: 0, green: 0 }; // Create flower goal display self.createFlowerGoalDisplay(); // Disable normal bud spawning }; self.createFlowerGoalDisplay = function () { var display = new Container(); display.x = 100 + 0.17 * 2048; display.y = 100; display.scale.set(2, 2); // Increase size by 100% var y = 0; Object.keys(garden.flowerGoals).forEach(function (color) { var row = new Container(); // Create flower icon var flower = new BasicFlower(color); flower.scale.set(0.3); row.addChild(flower); // Create count text var text = new Text2(garden.currentFlowers[color] + "/" + garden.flowerGoals[color], { size: 40, fill: 0xFFFFFF }); text.x = 60; text.y = -20; row.addChild(text); row.y = y; y += 50; display.addChild(row); // Store reference to text for updates garden.currentFlowers[color + "Text"] = text; }); LK.gui.top.addChild(display); garden.goalDisplay = display; }; self.updateFlowerCounts = function () { // Reset ONLY the number counts, not text references Object.keys(garden.currentFlowers).forEach(function (color) { if (typeof garden.currentFlowers[color] === 'number' && !color.includes('Text')) { garden.currentFlowers[color] = 0; } }); // Count all flowers in garden for (var row = 0; row < garden.rows; row++) { for (var col = 0; col < garden.cols; col++) { var item = garden.grid[row][col]; if (item && item.isFlower && !item.isSourceFlower) { garden.currentFlowers[item.color]++; } } } // Update display Object.keys(garden.flowerGoals).forEach(function (color) { if (garden.currentFlowers[color + "Text"]) { var currentCount = garden.currentFlowers[color]; var goalCount = garden.flowerGoals[color]; var text = garden.currentFlowers[color + "Text"]; // Check if goal met if (currentCount >= goalCount) { currentCount = goalCount; // Cap the display at goal amount // Create new green text var newText = new Text2(currentCount + "/" + goalCount, { size: 40, fill: 0x00FF00 }); newText.x = text.x; newText.y = text.y; text.parent.addChild(newText); text.parent.removeChild(text); garden.currentFlowers[color + "Text"] = newText; } else { text.setText(currentCount + "/" + goalCount); } } }); // Check for spring mode completion var allGoalsMet = Object.keys(garden.flowerGoals).every(function (color) { return garden.currentFlowers[color] >= garden.flowerGoals[color]; }); //if (allGoalsMet) { // self.completeSpringMode(); }; self.initSummerMode = function () { // Current game mode - just enable normal spawning garden.budSpawner.enabled = true; garden.budSpawner.init(garden); }; self.initFallMode = function () { // Add leaf obstacles self.addLeafObstacles(); garden.budSpawner.enabled = false; }; self.initWinterMode = function () { garden.warmthMeter = 100; garden.patternSystem = new WinterPatternSystem(); game.addChild(garden.patternSystem); garden.budSpawner.enabled = false; }; self.startSpringFinale = function () { // Clear all spring-specific UI elements if (self.springTimerDisplay && self.springTimerDisplay.parent) { self.springTimerDisplay.parent.removeChild(self.springTimerDisplay); } // Remove goal display if it exists if (garden.goalDisplay && garden.goalDisplay.parent) { garden.goalDisplay.parent.removeChild(garden.goalDisplay); garden.goalDisplay = null; } // Show finale transition text var finaleText = new Text2("Spring Finale: Chain Reaction!", { size: 120, fill: 0x00FF00, align: 'center' }); finaleText.anchor.set(0.5); finaleText.x = 2048 / 2; finaleText.y = 400; finaleText.alpha = 0; game.addChild(finaleText); // Animate text tween(finaleText, { alpha: 1, y: 300 }, { duration: 1000, ease: 'backOut', onFinish: function onFinish() { LK.setTimeout(function () { tween(finaleText, { alpha: 0, y: 200 }, { duration: 500, onFinish: function onFinish() { game.removeChild(finaleText); self.initiateSpringMatching(); } }); }, 1500); } }); // Initialize chain bonus tracking // Initialize chain bonus tracking game.scoreManager = new ScoreManager(); // Make sure score display exists if (!game.scoreDisplay) { game.scoreDisplay = new ScoreDisplay(); game.scoreDisplay.anchor.set(0.5, 0); game.scoreDisplay.x = 2048 / 2; game.scoreDisplay.y = 50; LK.gui.top.addChild(game.scoreDisplay); } self.springMatchingEnabled = true; }; self.initiateSpringMatching = function () { // Start from the bottom row and work up var startMatchingFromBottom = function startMatchingFromBottom() { var matchFound = false; // Start from bottom-right corner for (var row = garden.rows - 1; row >= 0; row--) { for (var col = garden.cols - 1; col >= 0; col--) { var flower = garden.grid[row][col]; if (flower && flower.isFlower) { var matches = game.flowerMatcher.findMatches(garden, col, row); if (matches.length >= 3) { matchFound = true; // Add dramatic pause between matches LK.setTimeout(function () { self.handleSpringMatch(matches); }, 500); return true; // Exit after finding first match } } } } return matchFound; }; // Set up recursive matching with delays var _continueMatching = function continueMatching() { if (startMatchingFromBottom()) { LK.setTimeout(_continueMatching, 1000); } else { self.completeSpringPhase(); } }; _continueMatching(); }; self.handleSpringMatch = function (matches) { // Increase score multiplier for spring finale if (!self.springMultiplier) { self.springMultiplier = 1; } self.springMultiplier += 0.5; // Calculate base score with multiplier var baseScore = matches.length * 100; var multipliedScore = Math.floor(baseScore * self.springMultiplier); // Show score popup var scorePopup = new Text2("+" + multipliedScore, { size: 80, fill: 0xFFFF00 }); scorePopup.anchor.set(0.5); // Position popup at center of match var centerMatch = matches[Math.floor(matches.length / 2)]; var worldPos = garden.gridToWorld(centerMatch.x, centerMatch.y); scorePopup.x = worldPos.x; scorePopup.y = worldPos.y; game.addChild(scorePopup); // Animate score popup tween(scorePopup, { y: scorePopup.y - 100, alpha: 0 }, { duration: 1000, onFinish: function onFinish() { return scorePopup.destroy(); } }); // Add score if (game.scoreManager) { game.scoreManager.addScore(multipliedScore); // Show chain multiplier var chainText = new Text2("Chain x" + game.scoreManager.chainMultiplier.toFixed(1), { size: 60, fill: 0x00FFFF }); chainText.anchor.set(0.5); chainText.x = worldPos.x; chainText.y = worldPos.y + 50; game.addChild(chainText); // Animate chain text tween(chainText, { y: chainText.y - 50, alpha: 0 }, { duration: 800, onFinish: function onFinish() { return chainText.destroy(); } }); } // Create extra dramatic particle effects matches.forEach(function (match) { var worldPos = garden.gridToWorld(match.x, match.y); for (var i = 0; i < 20; i++) { var particle = new PollenParticle().init('burst'); particle.x = worldPos.x; particle.y = worldPos.y; particle.scale.set(1.5); game.addChild(particle); } }); // Clear matches with enhanced animation matches.forEach(function (match) { var flower = match.flower; tween(flower.scale, { x: 1.5, y: 1.5 }, { duration: 300, onFinish: function onFinish() { tween(flower, { alpha: 0 }, { duration: 200, onFinish: function onFinish() { if (garden.grid[match.y][match.x] === flower) { garden.grid[match.y][match.x] = null; garden.removeChild(flower); } } }); } }); }); }; self.completeSpringPhase = function () { // Show completion message var completionText = new Text2("Spring Complete!", { size: 120, fill: 0x00FF00 }); completionText.anchor.set(0.5); completionText.x = 2048 / 2; completionText.y = 2732 / 2; completionText.alpha = 0; game.addChild(completionText); // Animate completion message tween(completionText, { alpha: 1, scaleX: 1.2, scaleY: 1.2 }, { duration: 1000, onFinish: function onFinish() { LK.setTimeout(function () { tween(completionText, { alpha: 0 }, { duration: 500, onFinish: function onFinish() { completionText.destroy(); } }); }, 2000); } }); }; self.update = function () { if (!self.currentSeason) { return; } switch (self.currentSeason) { case self.SEASONS.SPRING: // Timer update if (garden.seasonTimer > 0) { garden.seasonTimer--; var seconds = Math.floor(garden.seasonTimer / 60); var timeText = "0:" + (seconds < 10 ? "0" : "") + seconds; // Create new text with red color if under 10 seconds if (seconds <= 10) { var warningText = new Text2(timeText, { size: 60, fill: 0xFF0000 }); warningText.anchor.set(1, 0); warningText.x = self.springTimerDisplay.x; warningText.y = self.springTimerDisplay.y; // Remove old timer and replace with warning one LK.gui.top.removeChild(self.springTimerDisplay); LK.gui.top.addChild(warningText); self.springTimerDisplay = warningText; } else { self.springTimerDisplay.setText(timeText); } } // Garden check (outside timer check) var fullyPollinated = true; for (var row = 0; row < garden.rows; row++) { for (var col = 0; col < garden.cols; col++) { var _garden$grid$row$col; if (!((_garden$grid$row$col = garden.grid[row][col]) !== null && _garden$grid$row$col !== void 0 && _garden$grid$row$col.isFlower)) { fullyPollinated = false; break; } } if (!fullyPollinated) { break; } } // Check for end conditions if (garden.seasonTimer <= 0 || fullyPollinated) { // Check if goals are met var goalsMet = Object.keys(garden.flowerGoals).every(function (color) { return garden.currentFlowers[color] >= garden.flowerGoals[color]; }); // Disable any normal matching until finale starts self.springMatchingEnabled = false; if (goalsMet) { // Start the spring finale sequence if not already started if (!self.springFinaleStarted) { self.springFinaleStarted = true; self.startSpringFinale(); } } else { // Game Over state var gameOverText = new Text2("GAME OVER - Goals not met!", { size: 60, fill: 0xFF0000 }); gameOverText.anchor.set(1, 0); gameOverText.x = 400; // Center of screen gameOverText.y = 150; // Below timer gameOverText.alpha = 0; // Start with alpha 0 for fade-in effect LK.gui.top.addChild(gameOverText); // Add fade-in animation tween(gameOverText, { alpha: 1 }, { duration: 1000, // 1 second fade-in onFinish: function onFinish() { // Optionally, add a fade-out after a delay LK.setTimeout(function () { tween(gameOverText, { alpha: 0 }, { duration: 1000, // 1 second fade-out onFinish: function onFinish() { LK.gui.top.removeChild(gameOverText); } }); }, 2000); // 2 seconds delay before fade-out } }); } } break; case self.SEASONS.SUMMER: self.updateSummer(); break; case self.SEASONS.FALL: self.updateFall(); break; case self.SEASONS.WINTER: self.updateWinter(); break; } }; return self; }); var SourceFlower = Container.expand(function (color) { var self = Container.call(this); // Store flower color self.color = color; self.isSourceFlower = true; // Flag to identify source flowers // Map color to asset name var assetMap = { 'red': 'RedFlower', 'blue': 'BlueFlower', 'yellow': 'YellowFlower' }; // Create flower sprite var flowerGraphics = self.attachAsset(assetMap[self.color], { anchorX: 0.5, anchorY: 0.5, scaleX: 1.5, scaleY: 1.5 }); // Source flowers always have pollen self.hasActivePollen = true; self.fairyParticles = []; self.FAIRY_COUNT = 3; // Initialize fairy particles for (var i = 0; i < self.FAIRY_COUNT; i++) { var fairy = new PollenParticle().init('fairy'); fairy.scale.set(0.3 + Math.random() * 0.2); fairy.x += (Math.random() - 0.5) * 60; fairy.y += (Math.random() - 0.5) * 60; fairy.rotation = Math.random() * Math.PI * 2; fairy.rotationSpeed = (Math.random() - 0.5) * 0.2; self.addChild(fairy); self.fairyParticles.push(fairy); } // Gentle animation self.update = function () { var scaleFactor = 1.5 + Math.sin(LK.ticks * 0.05) * 0.1; // Adjusted for 1.5x size and increased animation amplitude flowerGraphics.scale.x = scaleFactor; flowerGraphics.scale.y = scaleFactor; flowerGraphics.rotation = Math.sin(LK.ticks * 0.05) * 0.1; // Increased rotation amplitude for larger size // Update fairy particles self.fairyParticles.forEach(function (fairy) { if (fairy && fairy.update) { fairy.update(); } }); }; // Override collection behavior - source flowers regenerate pollen immediately self.pollenCollected = false; self.resetPollen = function () { self.hasActivePollen = true; self.pollenCollected = false; }; self.collectPollen = function () { // Reset immediately to allow continuous collection self.hasActivePollen = true; self.pollenCollected = false; }; return self; }); var TransitionParticle = Container.expand(function (assetName) { var self = Container.call(this); var sprite = self.attachAsset(assetName, { anchorX: 0.5, anchorY: 0.5 }); self.x = Math.random() * 2048; self.y = -50; self.vx = (Math.random() - 0.5) * 5; self.vy = 3 + Math.random() * 2; self.rotationSpeed = (Math.random() - 0.5) * 0.1; self.update = function () { self.x += self.vx; self.y += self.vy; self.rotation += self.rotationSpeed; // Remove if off screen if (self.y > 2732 + 50) { self.destroy(); } }; return self; }); // Score display class var ScoreDisplay = Text2.expand(function () { var self = Text2.call(this, '0', { size: 150, fill: 0xFFFFFF }); }); /**** * Initialize Game ****/ var game = new LK.Game({ backgroundColor: 0x000000 //Init game with black background }); /**** * Game Code ****/ // Declare and initialize flowerManager in global scope function _slicedToArray8(r, e) { return _arrayWithHoles8(r) || _iterableToArrayLimit8(r, e) || _unsupportedIterableToArray8(r, e) || _nonIterableRest8(); } function _nonIterableRest8() { throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _unsupportedIterableToArray8(r, a) { if (r) { if ("string" == typeof r) { return _arrayLikeToArray8(r, a); } var t = {}.toString.call(r).slice(8, -1); return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray8(r, a) : void 0; } } function _arrayLikeToArray8(r, a) { (null == a || a > r.length) && (a = r.length); for (var e = 0, n = Array(a); e < a; e++) { n[e] = r[e]; } return n; } function _iterableToArrayLimit8(r, l) { var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (null != t) { var e, n, i, u, a = [], f = !0, o = !1; try { if (i = (t = t.call(r)).next, 0 === l) { if (Object(t) !== t) { return; } f = !1; } else { for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) { ; } } } catch (r) { o = !0, n = r; } finally { try { if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) { return; } } finally { if (o) { throw n; } } } return a; } } function _arrayWithHoles8(r) { if (Array.isArray(r)) { return r; } } function _slicedToArray7(r, e) { return _arrayWithHoles7(r) || _iterableToArrayLimit7(r, e) || _unsupportedIterableToArray7(r, e) || _nonIterableRest7(); } function _nonIterableRest7() { throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _iterableToArrayLimit7(r, l) { var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (null != t) { var e, n, i, u, a = [], f = !0, o = !1; try { if (i = (t = t.call(r)).next, 0 === l) { if (Object(t) !== t) { return; } f = !1; } else { for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) { ; } } } catch (r) { o = !0, n = r; } finally { try { if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) { return; } } finally { if (o) { throw n; } } } return a; } } function _arrayWithHoles7(r) { if (Array.isArray(r)) { return r; } } function _createForOfIteratorHelper6(r, e) { var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (!t) { if (Array.isArray(r) || (t = _unsupportedIterableToArray7(r)) || e && r && "number" == typeof r.length) { t && (r = t); var _n6 = 0, F = function F() {}; return { s: F, n: function n() { return _n6 >= r.length ? { done: !0 } : { done: !1, value: r[_n6++] }; }, e: function e(r) { throw r; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var o, a = !0, u = !1; return { s: function s() { t = t.call(r); }, n: function n() { var r = t.next(); return a = r.done, r; }, e: function e(r) { u = !0, o = r; }, f: function f() { try { a || null == t["return"] || t["return"](); } finally { if (u) { throw o; } } } }; } function _unsupportedIterableToArray7(r, a) { if (r) { if ("string" == typeof r) { return _arrayLikeToArray7(r, a); } var t = {}.toString.call(r).slice(8, -1); return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray7(r, a) : void 0; } } function _arrayLikeToArray7(r, a) { (null == a || a > r.length) && (a = r.length); for (var e = 0, n = Array(a); e < a; e++) { n[e] = r[e]; } return n; } function _slicedToArray6(r, e) { return _arrayWithHoles6(r) || _iterableToArrayLimit6(r, e) || _unsupportedIterableToArray6(r, e) || _nonIterableRest6(); } function _nonIterableRest6() { throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _iterableToArrayLimit6(r, l) { var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (null != t) { var e, n, i, u, a = [], f = !0, o = !1; try { if (i = (t = t.call(r)).next, 0 === l) { if (Object(t) !== t) { return; } f = !1; } else { for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) { ; } } } catch (r) { o = !0, n = r; } finally { try { if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) { return; } } finally { if (o) { throw n; } } } return a; } } function _arrayWithHoles6(r) { if (Array.isArray(r)) { return r; } } function _createForOfIteratorHelper5(r, e) { var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (!t) { if (Array.isArray(r) || (t = _unsupportedIterableToArray6(r)) || e && r && "number" == typeof r.length) { t && (r = t); var _n5 = 0, F = function F() {}; return { s: F, n: function n() { return _n5 >= r.length ? { done: !0 } : { done: !1, value: r[_n5++] }; }, e: function e(r) { throw r; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var o, a = !0, u = !1; return { s: function s() { t = t.call(r); }, n: function n() { var r = t.next(); return a = r.done, r; }, e: function e(r) { u = !0, o = r; }, f: function f() { try { a || null == t["return"] || t["return"](); } finally { if (u) { throw o; } } } }; } function _unsupportedIterableToArray6(r, a) { if (r) { if ("string" == typeof r) { return _arrayLikeToArray6(r, a); } var t = {}.toString.call(r).slice(8, -1); return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray6(r, a) : void 0; } } function _arrayLikeToArray6(r, a) { (null == a || a > r.length) && (a = r.length); for (var e = 0, n = Array(a); e < a; e++) { n[e] = r[e]; } return n; } function _slicedToArray5(r, e) { return _arrayWithHoles5(r) || _iterableToArrayLimit5(r, e) || _unsupportedIterableToArray5(r, e) || _nonIterableRest5(); } function _nonIterableRest5() { throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _iterableToArrayLimit5(r, l) { var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (null != t) { var e, n, i, u, a = [], f = !0, o = !1; try { if (i = (t = t.call(r)).next, 0 === l) { if (Object(t) !== t) { return; } f = !1; } else { for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) { ; } } } catch (r) { o = !0, n = r; } finally { try { if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) { return; } } finally { if (o) { throw n; } } } return a; } } function _arrayWithHoles5(r) { if (Array.isArray(r)) { return r; } } function _createForOfIteratorHelper4(r, e) { var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (!t) { if (Array.isArray(r) || (t = _unsupportedIterableToArray5(r)) || e && r && "number" == typeof r.length) { t && (r = t); var _n4 = 0, F = function F() {}; return { s: F, n: function n() { return _n4 >= r.length ? { done: !0 } : { done: !1, value: r[_n4++] }; }, e: function e(r) { throw r; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var o, a = !0, u = !1; return { s: function s() { t = t.call(r); }, n: function n() { var r = t.next(); return a = r.done, r; }, e: function e(r) { u = !0, o = r; }, f: function f() { try { a || null == t["return"] || t["return"](); } finally { if (u) { throw o; } } } }; } function _unsupportedIterableToArray5(r, a) { if (r) { if ("string" == typeof r) { return _arrayLikeToArray5(r, a); } var t = {}.toString.call(r).slice(8, -1); return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray5(r, a) : void 0; } } function _arrayLikeToArray5(r, a) { (null == a || a > r.length) && (a = r.length); for (var e = 0, n = Array(a); e < a; e++) { n[e] = r[e]; } return n; } function _slicedToArray4(r, e) { return _arrayWithHoles4(r) || _iterableToArrayLimit4(r, e) || _unsupportedIterableToArray4(r, e) || _nonIterableRest4(); } function _nonIterableRest4() { throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _unsupportedIterableToArray4(r, a) { if (r) { if ("string" == typeof r) { return _arrayLikeToArray4(r, a); } var t = {}.toString.call(r).slice(8, -1); return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray4(r, a) : void 0; } } function _arrayLikeToArray4(r, a) { (null == a || a > r.length) && (a = r.length); for (var e = 0, n = Array(a); e < a; e++) { n[e] = r[e]; } return n; } function _iterableToArrayLimit4(r, l) { var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (null != t) { var e, n, i, u, a = [], f = !0, o = !1; try { if (i = (t = t.call(r)).next, 0 === l) { if (Object(t) !== t) { return; } f = !1; } else { for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) { ; } } } catch (r) { o = !0, n = r; } finally { try { if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) { return; } } finally { if (o) { throw n; } } } return a; } } function _arrayWithHoles4(r) { if (Array.isArray(r)) { return r; } } function _slicedToArray3(r, e) { return _arrayWithHoles3(r) || _iterableToArrayLimit3(r, e) || _unsupportedIterableToArray3(r, e) || _nonIterableRest3(); } function _nonIterableRest3() { throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _iterableToArrayLimit3(r, l) { var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (null != t) { var e, n, i, u, a = [], f = !0, o = !1; try { if (i = (t = t.call(r)).next, 0 === l) { if (Object(t) !== t) { return; } f = !1; } else { for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) { ; } } } catch (r) { o = !0, n = r; } finally { try { if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) { return; } } finally { if (o) { throw n; } } } return a; } } function _arrayWithHoles3(r) { if (Array.isArray(r)) { return r; } } function _createForOfIteratorHelper3(r, e) { var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (!t) { if (Array.isArray(r) || (t = _unsupportedIterableToArray3(r)) || e && r && "number" == typeof r.length) { t && (r = t); var _n3 = 0, F = function F() {}; return { s: F, n: function n() { return _n3 >= r.length ? { done: !0 } : { done: !1, value: r[_n3++] }; }, e: function e(r) { throw r; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var o, a = !0, u = !1; return { s: function s() { t = t.call(r); }, n: function n() { var r = t.next(); return a = r.done, r; }, e: function e(r) { u = !0, o = r; }, f: function f() { try { a || null == t["return"] || t["return"](); } finally { if (u) { throw o; } } } }; } function _unsupportedIterableToArray3(r, a) { if (r) { if ("string" == typeof r) { return _arrayLikeToArray3(r, a); } var t = {}.toString.call(r).slice(8, -1); return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray3(r, a) : void 0; } } function _arrayLikeToArray3(r, a) { (null == a || a > r.length) && (a = r.length); for (var e = 0, n = Array(a); e < a; e++) { n[e] = r[e]; } return n; } function _slicedToArray2(r, e) { return _arrayWithHoles2(r) || _iterableToArrayLimit2(r, e) || _unsupportedIterableToArray2(r, e) || _nonIterableRest2(); } function _nonIterableRest2() { throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _iterableToArrayLimit2(r, l) { var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (null != t) { var e, n, i, u, a = [], f = !0, o = !1; try { if (i = (t = t.call(r)).next, 0 === l) { if (Object(t) !== t) { return; } f = !1; } else { for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) { ; } } } catch (r) { o = !0, n = r; } finally { try { if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) { return; } } finally { if (o) { throw n; } } } return a; } } function _arrayWithHoles2(r) { if (Array.isArray(r)) { return r; } } function _createForOfIteratorHelper2(r, e) { var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (!t) { if (Array.isArray(r) || (t = _unsupportedIterableToArray2(r)) || e && r && "number" == typeof r.length) { t && (r = t); var _n2 = 0, F = function F() {}; return { s: F, n: function n() { return _n2 >= r.length ? { done: !0 } : { done: !1, value: r[_n2++] }; }, e: function e(r) { throw r; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var o, a = !0, u = !1; return { s: function s() { t = t.call(r); }, n: function n() { var r = t.next(); return a = r.done, r; }, e: function e(r) { u = !0, o = r; }, f: function f() { try { a || null == t["return"] || t["return"](); } finally { if (u) { throw o; } } } }; } function _unsupportedIterableToArray2(r, a) { if (r) { if ("string" == typeof r) { return _arrayLikeToArray2(r, a); } var t = {}.toString.call(r).slice(8, -1); return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray2(r, a) : void 0; } } function _arrayLikeToArray2(r, a) { (null == a || a > r.length) && (a = r.length); for (var e = 0, n = Array(a); e < a; e++) { n[e] = r[e]; } return n; } function _slicedToArray(r, e) { return _arrayWithHoles(r) || _iterableToArrayLimit(r, e) || _unsupportedIterableToArray(r, e) || _nonIterableRest(); } function _nonIterableRest() { throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _iterableToArrayLimit(r, l) { var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (null != t) { var e, n, i, u, a = [], f = !0, o = !1; try { if (i = (t = t.call(r)).next, 0 === l) { if (Object(t) !== t) { return; } f = !1; } else { for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) { ; } } } catch (r) { o = !0, n = r; } finally { try { if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) { return; } } finally { if (o) { throw n; } } } return a; } } function _arrayWithHoles(r) { if (Array.isArray(r)) { return r; } } function _createForOfIteratorHelper(r, e) { var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"]; if (!t) { if (Array.isArray(r) || (t = _unsupportedIterableToArray(r)) || e && r && "number" == typeof r.length) { t && (r = t); var _n = 0, F = function F() {}; return { s: F, n: function n() { return _n >= r.length ? { done: !0 } : { done: !1, value: r[_n++] }; }, e: function e(r) { throw r; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var o, a = !0, u = !1; return { s: function s() { t = t.call(r); }, n: function n() { var r = t.next(); return a = r.done, r; }, e: function e(r) { u = !0, o = r; }, f: function f() { try { a || null == t["return"] || t["return"](); } finally { if (u) { throw o; } } } }; } function _unsupportedIterableToArray(r, a) { if (r) { if ("string" == typeof r) { return _arrayLikeToArray(r, a); } var t = {}.toString.call(r).slice(8, -1); return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray(r, a) : void 0; } } function _arrayLikeToArray(r, a) { (null == a || a > r.length) && (a = r.length); for (var e = 0, n = Array(a); e < a; e++) { n[e] = r[e]; } return n; } var flowerManager = new FlowerManager(); var titleScreen = new Container(); var background = LK.getAsset('titlebackground', { anchorX: 0.5, anchorY: 0.5, x: 2048 / 2, y: 2732 / 2 }); titleScreen.addChild(background); var logo = LK.getAsset('logo', { anchorX: 0.5, anchorY: 0.5, x: 2048 / 2, y: 2732 / 2 }); titleScreen.addChild(logo); var playButton = LK.getAsset('playButton', { anchorX: 0.5, anchorY: 0.5, x: 2048 / 2, y: 2732 / 2 + 200 }); titleScreen.addChild(playButton); var tutorialButton = LK.getAsset('tutorialButton', { anchorX: 0.5, anchorY: 0.5, x: 2048 / 2, y: 2732 / 2 + 400 }); titleScreen.addChild(tutorialButton); game.addChild(titleScreen); playButton.down = function (x, y, obj) { game.removeChild(titleScreen); var gardenBackground = new GardenBackground(); game.addChild(gardenBackground); garden = new Garden(); garden.init(); game.addChild(garden); var flowerManager = new FlowerManager(); // Initialize score manager game.scoreManager = new ScoreManager(); game.addChild(game.scoreManager); game.seasonManager = new SeasonManager(); game.seasonManager.init(); game.flowerMatcher = new FlowerMatcher(); game.addChild(game.flowerMatcher); var pollenTrail = new PollenTrail(); game.addChild(pollenTrail); // Create bee and position above hive var bee = new Bee(); bee.x = 2048 / 2; bee.y = 2732 / 2; game.addChild(bee); // Ensure pollen particles are rendered on top by adding them last game.setChildIndex(pollenTrail, game.children.length - 1); // Initialize bud spawner garden.budSpawner = new BudSpawner(); garden.budSpawner.init(garden); game.addChild(garden.budSpawner); // Touch handlers game.down = function (x, y, obj) { function showDebugText(message, color) { var debugText = new Text2(message, { size: 120, fill: color }); // Start with no anchor adjustment debugText.anchor.set(1, 0); // Try positioning at 0,0 first just to see where it appears debugText.x = 400; debugText.y = 400; LK.gui.top.addChild(debugText); tween(debugText, { alpha: 0 }, { duration: 1000, onFinish: function onFinish() { LK.gui.top.removeChild(debugText); } }); } // Debug zones same as before if (x > 824 && x < 1224 && y < 200) { showDebugText("SPRING MODE", 0x00FF00); game.seasonManager.setActiveSeason(game.seasonManager.SEASONS.SPRING); return; } if (x > 1848 && y < 200) { showDebugText("SUMMER MODE", 0xFFFF00); return; } if (x < 200 && y > 2532) { showDebugText("FALL MODE", 0xFF6600); return; } if (x > 1848 && y > 2532) { showDebugText("WINTER MODE", 0x00FFFF); return; } // Convert touch position to world space var touchPos = game.toLocal({ x: x, y: y }, LK.stage); // Check if touch is on bee var dx = touchPos.x - bee.x; var dy = touchPos.y - bee.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance < 100) { // Increased from 50 to 100 // Adjust radius as needed bee.state = 'free'; bee.isMoving = true; // Set initial target to current position to prevent jumping bee.targetX = bee.x; bee.targetY = bee.y; // Then update target to the current touch position bee.targetX = touchPos.x; bee.targetY = touchPos.y; } else { bee.state = 'transit'; bee.targetX = touchPos.x; bee.targetY = touchPos.y; } }; game.move = function (x, y, obj) { if (bee.isMoving) { bee.targetX = x; bee.targetY = y - 200; } }; game.up = function (x, y, obj) { bee.isMoving = false; }; // Initialize score display var scoreDisplay = new ScoreDisplay(); scoreDisplay.anchor.set(0.5, 0); LK.gui.top.addChild(scoreDisplay); game.scoreDisplay = scoreDisplay; // Add the main update loop game.update = function () { // Update spawning system if (game.budSpawner) { game.budSpawner.update(); } // Update trail system if (pollenTrail) { pollenTrail.update(); } // Update garden elements if (garden) { // Update all flowers and buds in the grid for (var i = 0; i < garden.rows; i++) { for (var j = 0; j < garden.cols; j++) { var gridItem = garden.grid[i][j]; if (gridItem && gridItem.update) { gridItem.update(); } } } } // Update all children that have update methods for (var i = 0; i < game.children.length; i++) { var child = game.children[i]; if (child && child.update) { child.update(); } } // Update bee if (bee && bee.update) { bee.update(); } if (game.seasonManager) { game.seasonManager.update(); } }; }; tutorialButton.down = function (x, y, obj) { // Open tutorial }; // Removed duplicate playPollenPatternAnimation method

/**** 
* Plugins
****/ 
var tween = LK.import("@upit/tween.v1");

/**** 
* Classes
****/ 
var BasicFlower = Container.expand(function (color) {
	var self = Container.call(this);
	// Store flower color
	self.color = color || 'red'; // Default to red if no color specified
	// Map color to asset name
	var assetMap = {
		'red': 'RedFlower',
		'blue': 'BlueFlower',
		'yellow': 'YellowFlower',
		'purple': 'PurpleFlower',
		'green': 'GreenFlower',
		'orange': 'OrangeFlower'
	};
	// Attach bud asset first
	var budGraphics = self.attachAsset('Bud', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	// Use correct asset based on color
	var flowerGraphics = self.attachAsset(assetMap[self.color], {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.hasActivePollen = false;
	self.fairyParticles = [];
	self.FAIRY_COUNT = 3;
	self.update = function () {
		var scaleFactor = 1 + Math.sin(LK.ticks * 0.1) * 0.05;
		flowerGraphics.scale.x = scaleFactor;
		flowerGraphics.scale.y = scaleFactor;
		flowerGraphics.rotation = Math.sin(LK.ticks * 0.1) * 0.05;
	};
	self.bloom = function () {
		// Scale animation
		self.scale.set(0.3, 0.3);
		tween(self.scale, {
			x: 1,
			y: 1
		}, {
			duration: 1000,
			onFinish: function onFinish() {
				// Set active pollen state before checking matches
				self.hasActivePollen = true;
				self.pollenCollected = false;
				// Find position in grid
				var foundGridPos = false;
				var gridX = 0;
				var gridY = 0;
				for (var y = 0; y < garden.rows; y++) {
					for (var x = 0; x < garden.cols; x++) {
						if (garden.grid[y][x] === self) {
							gridX = x;
							gridY = y;
							foundGridPos = true;
							break;
						}
					}
					if (foundGridPos) {
						break;
					}
				}
				// Check for matches after bloom completes
				if (foundGridPos && game.flowerMatcher) {
					LK.setTimeout(function () {
						game.flowerMatcher.checkForMatches(garden, gridX, gridY);
					}, 100); // Short delay to ensure animation completes
				}
			}
		});
		LK.setTimeout(function () {
			if (game.seasonManager && game.seasonManager.currentSeason === game.seasonManager.SEASONS.SPRING) {
				game.seasonManager.updateFlowerCounts();
			}
		}, 1000); // After bloom animation
		// Create initial burst particles
		self.createPollenBurst(self.x, self.y);
		self.removeFairyParticles = function () {
			self.fairyParticles.forEach(function (fairy) {
				self.removeChild(fairy);
			});
			self.fairyParticles = [];
		};
	};
	self.createPollenBurst = function (x, y) {
		for (var i = 0; i < 12; i++) {
			var particle = new PollenParticle().init('burst');
			var angle = i / 12 * Math.PI * 2;
			particle.x = x;
			particle.y = y;
			particle.vx = Math.cos(angle) * 3;
			particle.vy = Math.sin(angle) * 3;
			if (self.parent) {
				self.parent.addChild(particle);
			}
		}
	};
	// Initialize pollen status
	self.pollenCollected = true; // Set to true so pollen can't be collected
});
var Bee = Container.expand(function () {
	var self = Container.call(this);
	self.currentColor = null; // Add this back
	// Movement properties 
	var beeSprite = self.attachAsset('Bee', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	// Movement properties
	self.state = 'free'; // 'free', 'transit'
	self.targetX = self.x;
	self.targetY = self.y;
	self.transitSpeed = 15; // Set bee transit speed to 15 
	self.arrivalThreshold = 20; // How close we need to be to count as "arrived"
	self.moveSpeed = 0.1; // Adjust this for faster/slower following
	self.isMoving = false;
	// New pollen properties
	self.maxPollen = 14; // Exactly enough for 2 buds (2 * 7 = 14)
	self.currentPollen = 0; // Current amount being carried
	self.pollenTypes = []; // Array to track different pollen colors
	// Format: [{color: 'red', amount: 30}, ...]
	// Add trail property
	self.pollenTrail = new PollenTrail();
	game.addChild(self.pollenTrail); // Add to game so it renders behind bee
	// Pollen collection method
	self.collectPollen = function (flower) {
		if (!flower.isSourceFlower) {
			return;
		} // Only proceed if it's a source flower
		if (flower.isSourceFlower) {
			// Add color mixing check before any other collection logic
			if (self.currentColor && self.currentColor !== flower.color) {
				var mixColor;
				if (self.currentColor === 'red' && flower.color === 'blue' || self.currentColor === 'blue' && flower.color === 'red') {
					mixColor = 'purple';
				} else if (self.currentColor === 'blue' && flower.color === 'yellow' || self.currentColor === 'yellow' && flower.color === 'blue') {
					mixColor = 'green';
				} else if (self.currentColor === 'red' && flower.color === 'yellow' || self.currentColor === 'yellow' && flower.color === 'red') {
					mixColor = 'orange';
				}
				if (mixColor) {
					self.pollenTypes = [{
						color: mixColor,
						amount: 14
					}];
					self.currentPollen = 14;
					self.currentColor = mixColor;
					self.pollenTrail.currentColor = mixColor;
					return;
				}
			} else if (self.currentPollen < self.maxPollen) {
				// Set color first before any other changes
				self.currentColor = flower.color;
				self.pollenTrail.currentColor = flower.color;
				var collectAmount = Math.min(14, self.maxPollen - self.currentPollen);
				self.pollenTypes = [{
					color: flower.color,
					amount: collectAmount
				}];
				self.currentPollen = collectAmount;
			}
			// Only restart trail if we still have pollen
			if (self.currentPollen > 0) {
				if (self.pollenTrail) {
					self.pollenTrail.active = false;
					self.pollenTrail.startTrail(self.x, self.y, garden, self);
				}
			}
		}
	};
	self.checkFlowerCollision = function () {
		if (self.state === 'transit') {
			return;
		} // Skip collision check during transit
		// Convert bee position to garden's local space
		var localPos = garden.toLocal({
			x: self.x,
			y: self.y
		}, game);
		// Check source flowers first
		if (garden.sourceFlowers) {
			garden.sourceFlowers.children.forEach(function (flower) {
				var dx = localPos.x - flower.x;
				var dy = localPos.y - flower.y;
				var distance = Math.sqrt(dx * dx + dy * dy);
				if (distance < garden.cellSize / 2 && !flower.isBeingCollectedFrom) {
					flower.isBeingCollectedFrom = true;
					self.collectPollen(flower);
				} else if (distance >= garden.cellSize / 2) {
					flower.isBeingCollectedFrom = false;
				}
			});
		}
		// Calculate grid position
		var gridX = Math.floor(localPos.x / garden.cellSize);
		var gridY = Math.floor(localPos.y / garden.cellSize);
		// Check if position is within grid bounds
		if (gridX >= 0 && gridX < garden.cols && gridY >= 0 && gridY < garden.rows) {
			var gridItem = garden.grid[gridY][gridX];
			if (gridItem) {
				if (gridItem.isFlower && gridItem.hasActivePollen && gridItem.scale.x >= 1 && gridItem.color === self.currentColor) {
					// Collect pollen from flower
					self.collectPollen(gridItem);
				} else if (gridItem && gridItem.isBud && self.currentPollen > 0) {
					if (gridItem.isBeingPollinated) {
						return;
					}
					gridItem.isBeingPollinated = true;
					var pollenColor = self.usePollen(gridItem);
					if (!pollenColor) {
						gridItem.isBeingPollinated = false;
						return;
					}
					// Double-check the bud is still there
					if (garden.grid[gridY][gridX] === gridItem && gridItem.isBud) {
						// Force remove the bud and clear grid position
						garden.removeChild(gridItem);
						garden.grid[gridY][gridX] = null;
						gridItem.destroy(); // Fully destroy the bud
						// Only create flower if position is clear
						if (!garden.grid[gridY][gridX]) {
							var newFlower = new BasicFlower(pollenColor);
							newFlower.x = gridItem.x;
							newFlower.y = gridItem.y;
							newFlower.isFlower = true;
							garden.grid[gridY][gridX] = newFlower;
							garden.addChild(newFlower);
							newFlower.bloom();
						}
					} else {
						gridItem.isBeingPollinated = false;
					}
				}
			}
		}
	};
	self.checkDestinationInteraction = function () {
		// Convert bee position to garden's local space
		var localPos = garden.toLocal({
			x: self.x,
			y: self.y
		}, game);
		// Check source flowers
		if (garden.sourceFlowers) {
			garden.sourceFlowers.children.forEach(function (flower) {
				var dx = localPos.x - flower.x;
				var dy = localPos.y - flower.y;
				var distance = Math.sqrt(dx * dx + dy * dy);
				if (distance < garden.cellSize / 2) {
					self.collectPollen(flower);
				}
			});
		}
		// Check grid position for buds
		var gridX = Math.floor(localPos.x / garden.cellSize);
		var gridY = Math.floor(localPos.y / garden.cellSize);
		if (gridX >= 0 && gridX < garden.cols && gridY >= 0 && gridY < garden.rows) {
			var gridItem = garden.grid[gridY][gridX];
			if (gridItem && gridItem.isBud && self.currentPollen > 0) {
				self.checkFlowerCollision(); // Use existing collision logic
			}
		}
	};
	self.update = function () {
		if (self.state === 'free' && self.isMoving) {
			// Existing drag behavior
			self.x += (self.targetX - self.x) * self.moveSpeed;
			self.y += (self.targetY - self.y) * self.moveSpeed;
		} else if (self.state === 'transit') {
			var dx = self.targetX - self.x;
			var dy = self.targetY - self.y;
			var distance = Math.sqrt(dx * dx + dy * dy);
			if (distance > self.arrivalThreshold) {
				// Normalize movement vector
				var angle = Math.atan2(dy, dx);
				self.x += Math.cos(angle) * self.transitSpeed;
				self.y += Math.sin(angle) * self.transitSpeed;
			} else {
				// We've arrived - check for interactions
				self.checkDestinationInteraction();
				self.state = 'free';
			}
		}
		// Calculate rotation based on movement direction
		var dx = self.targetX - self.x;
		var dy = self.targetY - self.y;
		var angle = Math.atan2(dy, dx);
		self.rotation = angle + Math.PI / 2;
		// Update trail when carrying pollen
		if (self.currentPollen > 0) {
			// Make sure trail starts if not already active
			if (!self.pollenTrail.active) {
				self.pollenTrail.startTrail(self.x, self.y, garden);
			}
			self.pollenTrail.updateTrail(self.x, self.y);
		}
		// Add collision check
		self.checkFlowerCollision();
	};
	// Pollen usage method
	self.usePollen = function (bud) {
		// Add debug logs
		var pollenUsed = 7;
		if (self.currentPollen > 0 && self.pollenTypes.length > 0) {
			// If we have less than pollenUsed, use remaining pollen
			if (self.currentPollen < pollenUsed) {
				pollenUsed = self.currentPollen;
			}
			// Reduce pollen instead of zeroing it
			self.currentPollen -= pollenUsed;
			// Update pollen types properly
			var pType = self.pollenTypes[0];
			var color = pType.color; // New line to store color
			pType.amount -= pollenUsed;
			if (self.currentPollen <= 0) {
				self.pollenTypes = []; // Clear all pollen types when empty
			}
			// Removed bee UI update call
			// Only clear type if it's empty
			if (pType.amount <= 0) {
				self.pollenTypes.shift();
			}
			// Only end trail if we're actually out of pollen
			if (self.currentPollen <= 0 || self.pollenTypes.length === 0) {
				self.pollenTrail.active = false;
				self.pollenTrail.points = [];
				// Reset bee's pollen state
				self.currentColor = null;
				self.pollenTypes = [];
			}
			return color; // Updated to return color
		}
		return null;
	};
	return self;
});
// Bud class
var Bud = Container.expand(function () {
	var self = Container.call(this);
	var budGraphics = self.attachAsset('Bud', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	// Timer properties
	self.bloomTimer = 5 * 60; // 5 seconds (assuming 60fps)
	self.isBud = true;
	self.isFlower = false;
	self.isBeingReplaced = false; // Add this flag
	// Update now handles timer and auto-bloom
	self.update = function () {
		// Basic animation
		self.rotation = Math.sin(LK.ticks * 0.05) * 0.1;
	};
	self.autoBloom = function () {
		if (!self.isBud || self.isBeingReplaced) {
			return; // Prevent double-blooming or if already being replaced
		}
		self.isBeingReplaced = true;
		// Get garden reference from parent
		var garden = self.parent;
		if (!garden) {
			return;
		}
		// Get grid position directly from garden
		for (var gridY = 0; gridY < garden.rows; gridY++) {
			for (var gridX = 0; gridX < garden.cols; gridX++) {
				if (garden.grid[gridY][gridX] === self) {
					// Create random color flower
					var flowerColors = ['red', 'blue', 'yellow'];
					var randomColor = flowerColors[Math.floor(Math.random() * flowerColors.length)];
					var newFlower = new BasicFlower(randomColor);
					newFlower.x = self.x;
					newFlower.y = self.y;
					newFlower.isFlower = true;
					newFlower.hasActivePollen = false;
					// Update grid
					garden.removeChild(self);
					garden.grid[gridY][gridX] = newFlower;
					garden.addChild(newFlower);
					newFlower.bloom();
					return;
				}
			}
		}
	};
	return self;
});
// Add BudSpawner to handle progressive difficulty
var BudSpawner = Container.expand(function () {
	var self = Container.call(this);
	self.enabled = true;
	self.patterns = {
		single: [[[0, 0]]],
		pairs: [[[0, 0], [0, 1]],
		// horizontal
		[[0, 0], [1, 0]],
		// vertical
		[[0, 0], [1, 1]] // diagonal
		],
		triples: [[[0, 0], [0, 1], [0, 2]],
		// horizontal
		[[0, 0], [1, 0], [2, 0]],
		// vertical
		[[0, 0], [1, 1], [2, 2]],
		// diagonal
		[[0, 0], [0, 1], [1, 0]] // L shape
		]
	};
	self.warningTime = 180; // 3 seconds at 60fps
	self.currentPattern = null;
	self.warningSprites = [];
	self.nextSpawnPosition = null;
	self.createWarning = function (x, y) {
		var warning = new Container();
		var crack = warning.attachAsset('Crack', {
			anchorX: 0.5,
			anchorY: 0.5,
			alpha: 0
		});
		warning.x = x;
		warning.y = y;
		warning.scale.set(0);
		// Create the growing crack animation
		tween(warning.scale, {
			x: 1,
			y: 1
		}, {
			duration: 1000,
			ease: 'elasticOut'
		});
		tween(crack, {
			alpha: 0.8
		}, {
			duration: 500
		});
		// Add rotation animation
		warning.update = function () {
			warning.rotation = Math.sin(LK.ticks * 0.03) * 0.1;
		};
		self.garden.addChild(warning);
		return warning;
	};
	self.updateWarningEffects = function () {
		var timeProgress = (180 - self.warningTime) / 180; // 0 to 1
		var intensity = Math.sin(timeProgress * Math.PI * 4) * 0.5 + 0.5; // Pulsing effect
		self.warningSprites.forEach(function (sprite) {
			// Increase glow and intensity as spawn time approaches
			sprite.children[0].alpha = 0.3 + intensity * 0.7;
			sprite.children[0].scale.set(0.8 + intensity * 0.4);
			// Add subtle shake when close to spawning
			if (self.warningTime < 60) {
				// Last second
				sprite.x += (Math.random() - 0.5) * 2;
				sprite.y += (Math.random() - 0.5) * 2;
			}
		});
	};
	self.garden = null;
	self.gameTime = 0;
	self.init = function (garden) {
		self.garden = garden;
		self.gameTime = 0;
		self.firstBloom = false;
		// Just set the first bloom timer
		self.nextBloomTime = 90; // 1.5 seconds for first bloom
	};
	self.findEmptySpot = function () {
		var validSpots = [];
		// Match flower removal coordinate system [gridY][gridX]
		for (var gridY = 0; gridY < self.garden.rows; gridY++) {
			for (var gridX = 0; gridX < self.garden.cols; gridX++) {
				if (!self.garden.grid[gridY][gridX]) {
					validSpots.push({
						x: gridX,
						y: gridY
					});
				}
			}
		}
		if (validSpots.length > 0) {
			return validSpots[Math.floor(Math.random() * validSpots.length)];
		}
		return null;
	};
	self.selectSpawnPosition = function () {
		// Count empty spaces
		var emptySpaces = 0;
		var emptyPositions = [];
		for (var row = 0; row < self.garden.rows; row++) {
			for (var col = 0; col < self.garden.cols; col++) {
				if (self.garden.grid[row][col] === null) {
					emptySpaces++;
					emptyPositions.push({
						row: row,
						col: col
					});
				}
			}
		}
		// No empty spaces
		if (emptySpaces === 0) {
			return null;
		}
		// Select pattern size based on empty spaces
		var patternPool;
		if (emptySpaces >= 3) {
			patternPool = Math.random() < 0.7 ? self.patterns.triples : self.patterns.pairs;
		} else if (emptySpaces >= 2) {
			patternPool = Math.random() < 0.7 ? self.patterns.pairs : self.patterns.single;
		} else {
			patternPool = self.patterns.single;
		}
		// Find valid positions for selected pattern pool
		var validPositions = [];
		for (var _i = 0, _emptyPositions = emptyPositions; _i < _emptyPositions.length; _i++) {
			var _emptyPositions$_i = _emptyPositions[_i],
				row = _emptyPositions$_i.row,
				col = _emptyPositions$_i.col;
			var _iterator = _createForOfIteratorHelper6(patternPool),
				_step;
			try {
				patternCheck: for (_iterator.s(); !(_step = _iterator.n()).done;) {
					var pattern = _step.value;
					// Check if pattern fits at this position
					var _iterator2 = _createForOfIteratorHelper6(pattern),
						_step2;
					try {
						for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) {
							var _step2$value = _slicedToArray7(_step2.value, 2),
								drow = _step2$value[0],
								dcol = _step2$value[1];
							var nrow = row + drow;
							var ncol = col + dcol;
							if (nrow >= self.garden.rows || ncol >= self.garden.cols || self.garden.grid[nrow][ncol] !== null) {
								continue patternCheck;
							}
						}
					} catch (err) {
						_iterator2.e(err);
					} finally {
						_iterator2.f();
					}
					validPositions.push({
						row: row,
						col: col,
						pattern: pattern
					});
				}
			} catch (err) {
				_iterator.e(err);
			} finally {
				_iterator.f();
			}
		}
		// If no patterns fit, fall back to single bud
		if (validPositions.length === 0 && emptySpaces > 0) {
			var randomEmpty = emptyPositions[Math.floor(Math.random() * emptyPositions.length)];
			return {
				row: randomEmpty.row,
				col: randomEmpty.col,
				pattern: self.patterns.single[0]
			};
		}
		return validPositions.length > 0 ? validPositions[Math.floor(Math.random() * validPositions.length)] : null;
	};
	self.getSpawnRate = function () {
		// Keep original timing logic
		return 16; // Spawn every frame for immediate filling
	};
	self.update = function () {
		if (!self.enabled) {
			return;
		}
		// Initialize timing trackers
		if (!self.lastSpawnTime) {
			self.lastSpawnTime = LK.ticks;
			self.isFirstSpawn = true;
		}
		// Quick first spawn (2 seconds), then 5 seconds for subsequent spawns
		if (!self.currentPattern) {
			var requiredDelay = self.isFirstSpawn ? 120 : 240; // 2 seconds vs 4 seconds 
			if (LK.ticks - self.lastSpawnTime < requiredDelay) {
				return;
			}
			// Update spawn time and first spawn flag
			self.lastSpawnTime = LK.ticks;
			self.isFirstSpawn = false;
			// Select new spawn position and pattern
			var spawnInfo = self.selectSpawnPosition();
			if (spawnInfo && spawnInfo.row !== undefined && spawnInfo.col !== undefined) {
				self.currentPattern = spawnInfo.pattern;
				self.nextSpawnPosition = {
					row: parseInt(spawnInfo.row),
					col: parseInt(spawnInfo.col)
				};
				self.warningTime = 180; // Reset warning timer
				// Create warning indicators for pattern
				self.warningSprites = [];
				if (self.currentPattern) {
					var _iterator3 = _createForOfIteratorHelper4(self.currentPattern),
						_step3;
					try {
						for (_iterator3.s(); !(_step3 = _iterator3.n()).done;) {
							var _step3$value = _slicedToArray5(_step3.value, 2),
								dy = _step3$value[0],
								dx = _step3$value[1];
							if (dx !== undefined && dy !== undefined) {
								var targetRow = self.nextSpawnPosition.row + dy;
								var targetCol = self.nextSpawnPosition.col + dx;
								var worldPos = self.garden.gridToWorld(targetCol, targetRow);
								var warning = self.createWarning(worldPos.x - 400 + self.garden.cellSize, worldPos.y - 400 - 50);
								self.warningSprites.push(warning);
							}
						}
					} catch (err) {
						_iterator3.e(err);
					} finally {
						_iterator3.f();
					}
				}
			}
		} else if (self.nextSpawnPosition && self.currentPattern) {
			self.warningTime--;
			self.updateWarningEffects();
			if (self.warningTime <= 0) {
				// Spawn animation
				self.warningSprites.forEach(function (sprite) {
					tween(sprite.scale, {
						x: 1,
						y: 1
					}, {
						duration: 300,
						onFinish: function onFinish() {
							tween(sprite, {
								alpha: 0
							}, {
								duration: 200,
								onFinish: function onFinish() {
									return sprite.destroy();
								}
							});
						}
					});
				});
				// Cache spawn position before clearing
				var spawnRow = self.nextSpawnPosition.row;
				var spawnCol = self.nextSpawnPosition.col;
				var pattern = self.currentPattern;
				// Clear state before spawning to prevent timing issues
				self.warningSprites = [];
				self.currentPattern = null;
				self.nextSpawnPosition = null;
				// Spawn buds with delay between each
				pattern.forEach(function (pos, index) {
					var _pos = _slicedToArray8(pos, 2),
						dy = _pos[0],
						dx = _pos[1];
					LK.setTimeout(function () {
						var targetRow = spawnRow + dy;
						var targetCol = spawnCol + dx;
						if (targetRow >= 0 && targetRow < self.garden.rows && targetCol >= 0 && targetCol < self.garden.cols && !self.garden.grid[targetRow][targetCol]) {
							var newBud = new Bud();
							var worldPos = self.garden.gridToWorld(targetCol, targetRow);
							newBud.x = worldPos.x - 400 + self.garden.cellSize;
							newBud.y = worldPos.y - 400 - 50;
							newBud.scale.set(0);
							self.garden.grid[targetRow][targetCol] = newBud;
							self.garden.addChild(newBud);
							// Only set up auto-bloom for patterns with multiple buds 
							if (pattern.length > 1 && index === 0) {
								LK.setTimeout(function () {
									if (newBud && newBud.parent && newBud.isBud && !newBud.isBeingReplaced) {
										newBud.autoBloom();
										// When first bud blooms, start timer for second bud 
										if (pattern[1]) {
											LK.setTimeout(function () {
												var secondBud = self.garden.grid[spawnRow + pattern[1][0]][spawnCol + pattern[1][1]];
												if (secondBud && secondBud.isBud && !secondBud.isBeingReplaced) {
													secondBud.autoBloom();
													// When second bud blooms, start timer for third bud 
													if (pattern[2]) {
														LK.setTimeout(function () {
															var thirdBud = self.garden.grid[spawnRow + pattern[2][0]][spawnCol + pattern[2][1]];
															if (thirdBud && thirdBud.isBud && !thirdBud.isBeingReplaced) {
																thirdBud.autoBloom();
															}
														}, 6000); // 6 seconds after second bud 
													}
												}
											}, 6000); // 6 seconds after first bud 
										}
									}
								}, 3000); // 3 seconds for first bud 
							}
							// Then do scale animation 
							tween(newBud.scale, {
								x: 1,
								y: 1
							}, {
								duration: 1000,
								ease: 'elasticOut'
							});
						}
					}, index * 200);
				});
			}
		}
	};
});
// Simplified FlowerManager - mainly for flower conversion and management
var FlowerManager = Container.expand(function () {
	var self = Container.call(this);
	// Convert a bud to a flower
	self.convertBudToFlower = function (bud, garden) {
		var gridPos = {
			x: Math.floor((bud.y - garden.y) / garden.cellSize),
			y: Math.floor((bud.x - garden.x) / garden.cellSize)
		};
		var newFlower = new BasicFlower();
		newFlower.x = bud.x;
		newFlower.y = bud.y;
		newFlower.isFlower = true;
		garden.removeChild(bud);
		garden.grid[gridPos.x][gridPos.y] = newFlower;
		garden.addChild(newFlower);
		// When a flower blooms:
		createPollenBurst(newFlower.x, newFlower.y);
		return newFlower;
	};
	// Empty touch handler as we're using the new trail system
	self.handleTouch = function () {};
});
var FlowerMatcher = Container.expand(function () {
	var self = Container.call(this);
	self.checkForMatches = function (garden, x, y) {
		// Only prevent matches in spring if we're not in the matching phase
		if (game.seasonManager && game.seasonManager.currentSeason === game.seasonManager.SEASONS.SPRING && !game.seasonManager.springMatchingEnabled) {
			return false;
		}
		var matches = self.findMatches(garden, x, y);
		if (matches.length >= 3) {
			self.clearMatches(garden, matches);
			return true;
		}
		return false;
	};
	self.findMatches = function (garden, startX, startY) {
		if (startY < 0 || startY >= garden.rows || startX < 0 || startX >= garden.cols) {
			return [];
		}
		var startFlower = garden.grid[startY][startX];
		if (!startFlower || !startFlower.isFlower) {
			return [];
		}
		var flowerColor = startFlower.color;
		var matches = [];
		var visited = {};
		var _checkFlower = function checkFlower(x, y) {
			if (x < 0 || x >= garden.cols || y < 0 || y >= garden.rows) {
				return;
			}
			var key = x + ',' + y;
			if (visited[key]) {
				return;
			}
			visited[key] = true;
			var flower = garden.grid[y][x];
			if (flower && flower.isFlower && !flower.isSourceFlower && flower.scale.x >= 1 && flower.color === flowerColor) {
				matches.push({
					x: x,
					y: y,
					flower: flower
				});
				_checkFlower(x + 1, y);
				_checkFlower(x - 1, y);
				_checkFlower(x, y + 1);
				_checkFlower(x, y - 1);
			}
		};
		_checkFlower(startX, startY);
		return matches.length >= 3 ? matches : [];
	};
	self.clearMatches = function (garden, matches) {
		matches.forEach(function (match) {
			var flower = match.flower;
			// Expand and pop animation
			tween(flower.scale, {
				x: 1.3,
				y: 1.3
			}, {
				duration: 500,
				onFinish: function onFinish() {
					// Check if flower is still in expected position
					if (garden.grid[match.y][match.x] === flower) {
						// Create petal burst after animation
						self.createPetalBurst(match.x, match.y, flower.color);
						garden.grid[match.y][match.x] = null;
						garden.removeChild(flower);
						// Removed new bud creation after clearing matches
					}
				}
			});
		});
	};
	self.createPetalBurst = function (x, y, color) {
		var colorTints = {
			'red': 0xFF0000,
			'blue': 0x0000FF,
			'yellow': 0xFFFF00,
			'purple': 0x800080,
			'orange': 0xFFA500,
			'green': 0x00FF00
		};
		var worldPos = garden.gridToWorld(x, y);
		for (var i = 0; i < 12; i++) {
			var particle = new PollenParticle().init('burst');
			var angle = i / 12 * Math.PI * 2;
			particle.x = worldPos.x;
			particle.y = worldPos.y;
			particle.vx = Math.cos(angle) * 8;
			particle.vy = Math.sin(angle) * 8;
			particle.scale.set(0.8);
			particle.tint = colorTints[color];
			game.addChild(particle);
		}
	};
	return self;
});
//<Assets used in the game will automatically appear here>
// Garden class to manage the grid of soil
var Garden = Container.expand(function () {
	var self = Container.call(this);
	// Add new helper method for safe grid updates
	self.updateGridPosition = function (row, col, item) {
		if (row >= 0 && row < self.rows && col >= 0 && col < self.cols) {
			// First clear any existing item
			var existingItem = self.grid[row][col];
			if (existingItem && existingItem.parent) {
				existingItem.parent.removeChild(existingItem);
			}
			// Then set new item
			self.grid[row][col] = item;
			return true;
		}
		return false;
	};
	self.grid = [];
	self.rows = 8;
	self.cols = 8;
	self.cellSize = 210;
	self.init = function () {
		var _this = this;
		// Add source flowers
		this.sourceFlowers = new Container();
		this.addChild(this.sourceFlowers);
		// Calculate positions
		var centerX = this.cols * this.cellSize / 2;
		// Blue flower at bottom center
		var blueFlower = new SourceFlower('blue');
		blueFlower.x = centerX + 0.03 * 2048;
		blueFlower.y = self.rows * self.cellSize + self.cellSize * 1.5 - 0.02 * 2732; // Move up by 2% of screen height
		this.sourceFlowers.addChild(blueFlower);
		// Red flower under bottom left bud
		var redFlower = new SourceFlower('red');
		redFlower.x = self.cellSize / 2 + 0.02 * 2048; // Move 2% to the right
		redFlower.y = self.rows * self.cellSize + self.cellSize * 1.5 - 0.02 * 2732; // Move up by 2% of screen height
		this.sourceFlowers.addChild(redFlower);
		// Yellow flower under bottom right bud
		var yellowFlower = new SourceFlower('yellow');
		yellowFlower.x = self.cols * self.cellSize - self.cellSize / 2; // Align with last column's center
		yellowFlower.y = self.rows * self.cellSize + self.cellSize * 1.5 - 0.02 * 2732; // Move up by 2% of screen height
		this.sourceFlowers.addChild(yellowFlower);
		// Center the grid on screen
		self.x = (2048 - self.cols * self.cellSize) / 2;
		self.y = (2732 - self.rows * self.cellSize) / 2 + 2732 * 0.12 - 400;
		// Initialize empty grid
		for (var i = 0; i < self.rows; i++) {
			self.grid[i] = [];
			for (var j = 0; j < self.cols; j++) {
				self.grid[i][j] = null;
			}
		}
	};
	// Helper method to convert grid position to world position
	self.gridToWorld = function (gridX, gridY) {
		if (typeof gridX !== 'number' || typeof gridY !== 'number') {
			console.log('Invalid grid coordinates:', gridX, gridY);
			return {
				x: self.x,
				y: self.y
			}; // Return default position if invalid
		}
		return {
			x: self.x + gridX * self.cellSize + self.cellSize / 2,
			y: self.y + gridY * self.cellSize + self.cellSize / 2
		};
	};
	// Helper method to convert world position to grid position
	self.worldToGrid = function (worldX, worldY) {
		var localX = worldX - self.x;
		var localY = worldY - self.y;
		return {
			x: Math.floor(localX / self.cellSize),
			y: Math.floor(localY / self.cellSize)
		};
	};
});
// GardenBackground class
var GardenBackground = Container.expand(function () {
	var self = Container.call(this);
	var gardenSoil = LK.getAsset('GardenSoil', {
		anchorX: 0.5,
		anchorY: 0.5,
		scaleX: 1.02,
		scaleY: 1.02,
		x: 2048 / 2,
		y: 2732 / 2 - 0.02 * 2732
	});
	self.addChild(gardenSoil);
	var gardenBackground = LK.getAsset('SpringBackground', {
		anchorX: 0.5,
		anchorY: 0.5,
		scaleX: 1.02,
		scaleY: 1.02,
		x: 2048 / 2,
		y: 2732 / 2 - 0.01 * 2732
	});
	self.addChild(gardenBackground);
});
var Hive = Container.expand(function () {
	var self = Container.call(this);
	var hiveSprite = self.attachAsset('Hive', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.storedPollen = {
		'red': 0,
		'blue': 0,
		'yellow': 0
	};
	// Add meter above hive
	self.pollenMeter = new PollenMeter();
	self.pollenMeter.y = -200;
	self.addChild(self.pollenMeter);
	// Collection method
	self.collectFromBee = function (bee) {
		if (bee.currentPollen > 0) {
			// Transfer each type of pollen
			bee.pollenTypes.forEach(function (type) {
				// Initialize hive's stored pollen for this color if needed
				if (!self.storedPollen) {
					self.storedPollen = {};
				}
				if (!self.storedPollen[type.color]) {
					self.storedPollen[type.color] = 0;
				}
				// Add to hive's storage
				self.storedPollen[type.color] += type.amount;
				// Removed hive UI update call
			});
			// Create particles spread across the hive's width
			var particleCount = 20;
			var hiveWidth = 300;
			for (var i = 0; i < particleCount; i++) {
				var particle = new PollenParticle().init('transfer');
				particle.x = -hiveWidth / 2 + Math.random() * hiveWidth;
				particle.y = -200;
				particle.vx = (Math.random() - 0.5) * 0.5;
				particle.vy = 1 + Math.random();
				particle.twinkleOffset = Math.random() * Math.PI * 2;
				particle.twinkleSpeed = 0.1 + Math.random() * 0.1;
				particle.scale.set(0.5);
				self.addChild(particle);
			}
			// Clear bee's pollen
			bee.currentPollen = 0;
			bee.pollenTypes = [];
			// Removed bee UI update call
			// End bee's trail
			bee.pollenTrail.active = false;
			bee.pollenTrail.points = [];
		}
	};
	return self;
});
var PollenMeter = Container.expand(function () {
	var self = Container.call(this);
	// Create background bar
	var background = LK.getAsset('marker', {
		anchorX: 0.5,
		anchorY: 0.5,
		scaleX: 1,
		scaleY: 0.1
	});
	self.addChild(background);
	// Create fill bar
	var fill = LK.getAsset('marker', {
		anchorX: 0.5,
		anchorY: 0.5,
		scaleX: 0,
		scaleY: 0.1
	});
	fill.tint = 0xFFFF00; // Yellow for pollen
	self.fillBar = fill;
	self.addChild(fill);
	// Update method to show current pollen
	self.updateMeter = function (current, max) {
		fill.scale.x = current / max;
	};
	return self;
});
// PollenParticle class
var PollenParticle = Container.expand(function () {
	var self = Container.call(this);
	// Particle properties
	self.velocity = {
		x: 0,
		y: 0
	};
	self.lifespan = 1; // Goes from 1 to 0
	self.decayRate = 0.02; // How fast the particle fades
	self.type = 'trail'; // Can be 'trail' or 'burst'
	// Create the visual element
	var assetMap = {
		'trail': 'PollenSparkle',
		'burst': 'Petal',
		'fairy': 'PollenSparkle',
		'transfer': 'PollenSparkle'
	};
	var pollenGraphics;
	// Initialize with random properties for more organic feel
	self.init = function (type) {
		self.type = type || 'trail';
		if (!pollenGraphics) {
			pollenGraphics = self.attachAsset(assetMap[self.type], {
				anchorX: 0.5,
				anchorY: 0.5
			});
		}
		// Set initial scale based on type
		if (self.type === 'trail') {
			self.scale.set(0.7 + Math.random() * 0.3); // Larger for trail
			self.decayRate = 0.03; // Faster decay for trail
			// Slight random velocity for trail movement
			self.velocity = {
				x: (Math.random() - 0.5) * 2,
				y: (Math.random() - 0.5) * 2
			};
		} else if (self.type === 'burst') {
			self.scale.set(0.5 + Math.random() * 0.3); // Smaller initial size for bursts
			self.decayRate = 0.01; // Slower decay for longer travel
			// Radial burst velocity
			var angle = Math.random() * Math.PI * 2;
			var speed = 3 + Math.random() * 5; // Increased speed for further travel
			self.velocity = {
				x: Math.cos(angle) * speed,
				y: Math.sin(angle) * speed
			};
		} else if (self.type === 'fairy') {
			self.lifespan = undefined; // Don't fade out
			self.startAngle = Math.random() * Math.PI * 2; // Random start position
			self.orbitRadius = 20 + Math.random() * 40; // Increase orbit radius variation
			self.orbitSpeed = 0.005 + Math.random() * 0.03; // Increase orbit speed variation
			self.update = function () {
				var time = LK.ticks * self.orbitSpeed;
				// Orbit motion
				self.x = Math.cos(time + self.startAngle) * self.orbitRadius;
				self.y = Math.sin(time + self.startAngle) * self.orbitRadius;
				// Add bobbing
				self.y += Math.sin(time * 2 + self.startAngle) * 10;
			};
		}
		// Random rotation speed
		self.rotationSpeed = (Math.random() - 0.5) * 0.2;
		// Random starting rotation
		self.rotation = Math.random() * Math.PI * 2;
		// Add random rotation speed for dynamic movement
		self.rotationSpeed = (Math.random() - 0.5) * 0.2;
		// Full opacity to start
		self.alpha = 1;
		if (self.type === 'transfer') {
			self.scale.set(0.5);
			self.alpha = 1;
			self.twinkleOffset = 0; // Initialize twinkle offset 
			self.twinkleSpeed = 0.1; // Initialize twinkle speed 
			self.update = function () {
				// Gentle drift down 
				self.x += self.vx;
				self.y += self.vy;
				// Individual twinkle effect 
				self.alpha = 0.6 + Math.sin(LK.ticks * self.twinkleSpeed + self.twinkleOffset) * 0.4;
				// Remove when below hive 
				if (self.y > 100) {
					self.destroy();
				}
			};
		}
		return self;
	};
	self.update = function () {
		// Update position based on velocity
		self.x += self.velocity.x;
		self.y += self.velocity.y;
		// Add rotation
		self.rotation += self.rotationSpeed;
		// Slow down velocity over time
		self.velocity.x *= 0.95;
		self.velocity.y *= 0.95;
		// Update lifespan and alpha
		self.lifespan -= self.decayRate;
		self.alpha = self.lifespan;
		// Scale slightly varies with life
		var scalePulse = 1 + Math.sin(LK.ticks * 0.2) * 0.1;
		pollenGraphics.scale.set(scalePulse * self.scale.x);
		// Remove when lifecycle complete
		if (self.lifespan <= 0) {
			self.destroy();
		}
	};
});
// First, let's add a PollenTrail class to handle the dragging mechanic
var PollenTrail = Container.expand(function () {
	var self = Container.call(this);
	self.points = [];
	self.active = false;
	self.currentGarden = null; // Store reference to garden
	self.MAX_SPEED = 15; // Adjust this value for proper feel
	self.startTrail = function (x, y, garden, bee) {
		self.active = true;
		self.points = [{
			x: x,
			y: y,
			time: Date.now()
		}];
		self.startTime = Date.now();
		self.trailStartTime = Date.now();
		self.currentGarden = garden;
		self.bee = bee; // Store bee reference
		self.lastPoint = {
			x: x,
			y: y
		}; // Initialize lastPoint
		// Force red on first particle to verify bee storage
		var particle = new PollenParticle().init('trail');
		particle.children[0].tint = 0xFF0000;
		particle.x = x;
		particle.y = y;
		game.addChild(particle);
	};
	self.updateTrail = function (x, y) {
		if (!self.active) {
			return;
		}
		// Enforce maximum speed
		var dx = x - self.lastPoint.x;
		var dy = y - self.lastPoint.y;
		var distance = Math.sqrt(dx * dx + dy * dy);
		if (distance > self.MAX_SPEED) {
			var ratio = self.MAX_SPEED / distance;
			x = self.lastPoint.x + dx * ratio;
			y = self.lastPoint.y + dy * ratio;
		}
		self.points.push({
			x: x,
			y: y,
			time: Date.now()
		});
		self.lastPoint = {
			x: x,
			y: y
		};
		// Create particle effect along trail
		var particle = new PollenParticle().init('trail');
		if (self.bee && self.bee.currentColor) {
			var color = self.bee.currentColor;
			if (color === 'red') {
				particle.children[0].tint = 0xFF0000;
			} else if (color === 'blue') {
				particle.children[0].tint = 0x0000FF;
			} else if (color === 'yellow') {
				particle.children[0].tint = 0xFFFF00;
			} else if (color === 'purple') {
				particle.children[0].tint = 0x800080;
			} else if (color === 'green') {
				particle.children[0].tint = 0x00FF00;
			} else if (color === 'orange') {
				particle.children[0].tint = 0xFFA500;
			}
		}
		particle.x = x;
		particle.y = y;
		game.addChild(particle);
	};
	// Add the burst effect function
	self.createPollenBurst = function (x, y) {
		for (var i = 0; i < 12; i++) {
			var particle = new PollenParticle().init('burst');
			var angle = i / 12 * Math.PI * 2;
			var distance = 30;
			particle.x = x + Math.cos(angle) * distance;
			particle.y = y + Math.sin(angle) * distance;
			// Give particles outward velocity
			particle.vx = Math.cos(angle) * 3;
			particle.vy = Math.sin(angle) * 3;
			game.addChild(particle);
		}
	};
	self.endTrail = function () {
		if (!self.active) {
			return;
		}
		var affectedBuds = [];
		var checkedPositions = {};
		self.points.forEach(function (point) {
			var localPos = self.currentGarden.toLocal({
				x: point.x,
				y: point.y
			}, game);
			var gridX = Math.floor(localPos.x / self.currentGarden.cellSize);
			var gridY = Math.floor(localPos.y / self.currentGarden.cellSize);
			var posKey = gridX + ',' + gridY;
			if (!checkedPositions[posKey] && gridX >= 0 && gridX < self.currentGarden.cols && gridY >= 0 && gridY < self.currentGarden.rows) {
				checkedPositions[posKey] = true;
				var gridItem = self.currentGarden.grid[gridY][gridX];
				// Verify it's a valid bud
				if (gridItem && gridItem.isBud === true && gridItem.isFlower === false) {
					affectedBuds.push({
						bud: gridItem,
						gridX: gridX,
						gridY: gridY
					});
				}
			}
		});
		if (affectedBuds.length >= 2) {
			affectedBuds.forEach(function (budInfo) {
				// IMPORTANT: Clear the grid position first
				self.currentGarden.grid[budInfo.gridY][budInfo.gridX] = null;
				// Remove the bud from display list
				self.currentGarden.removeChild(budInfo.bud);
				// Create new flower
				var newFlower = new BasicFlower();
				newFlower.x = budInfo.bud.x;
				newFlower.y = budInfo.bud.y;
				newFlower.isFlower = true;
				// Update grid position and add to display list
				self.currentGarden.grid[budInfo.gridY][budInfo.gridX] = newFlower;
				self.currentGarden.addChild(newFlower);
				// Start bloom animation
				newFlower.bloom();
			});
		}
		self.active = false;
		self.points = [];
	};
	self.update = function () {
		// Just update particles, no time checks
		// Update all children particles
		for (var i = self.children.length - 1; i >= 0; i--) {
			var particle = self.children[i];
			if (particle && particle.update) {
				particle.update();
			}
		}
	};
});
// Add ScoreManager to handle chain reactions and scoring
var ScoreManager = Container.expand(function () {
	var self = Container.call(this);
	self.currentScore = 0;
	self.currentChain = 0;
	self.chainMultiplier = 1;
	self.addToChain = function () {
		self.currentChain++;
		self.chainMultiplier = Math.min(1 + self.currentChain * 0.5, 5); // Cap at 5x
		self.addScore(100 * self.chainMultiplier);
	};
	self.resetChain = function () {
		self.currentChain = 0;
		self.chainMultiplier = 1;
	};
	self.addScore = function (points) {
		self.currentScore += Math.floor(points);
		// Update score display
		if (game.scoreDisplay) {
			game.scoreDisplay.setText(self.currentScore.toString());
		}
	};
});
var SeasonManager = Container.expand(function () {
	var self = Container.call(this);
	self.springMatchingEnabled = false; // New flag for spring matching phase
	// Season constants
	self.SEASONS = {
		SPRING: 'spring',
		SUMMER: 'summer',
		FALL: 'fall',
		WINTER: 'winter'
	};
	self.currentSeason = null;
	self.yearNumber = 1;
	self.totalScore = 0;
	self.seasonStartTime = 0;
	self.init = function () {
		self.yearNumber = 1; // Start at year 1
		return; // Default initialization, no active season set
	};
	self.setActiveSeason = function (season) {
		// Store previous season's score
		if (self.currentSeason && game.scoreDisplay) {
			self.totalScore += parseInt(game.scoreDisplay.text);
		}
		self.currentSeason = season;
		self.transitionToSeason(season);
	};
	self.transitionToSeason = function (season) {
		// Clear existing particles first
		self.clearTransitionEffects();
		// Create transition effects
		self.createSeasonTransition(season);
		// Update game rules and mechanics
		self.updateGameRules(season);
		// Show season text
		self.showSeasonText(season);
	};
	self.clearTransitionEffects = function () {
		// Remove all existing transition particles
		game.children.forEach(function (child) {
			if (child.isTransitionEffect) {
				game.removeChild(child);
			}
		});
	};
	self.createSeasonTransition = function (season) {
		var particleConfig = {
			spring: {
				asset: 'PollenSparkle',
				count: 50,
				tint: 0x88FF88
			},
			summer: {
				asset: 'Petal',
				count: 40,
				tint: 0xFFFF88
			},
			fall: {
				asset: 'Petal',
				count: 30,
				tint: 0xFF8844
			},
			winter: {
				asset: 'PollenSparkle',
				count: 60,
				tint: 0xFFFFFF
			}
		};
		var config = particleConfig[season];
		for (var i = 0; i < config.count; i++) {
			var particle = new TransitionParticle(config.asset);
			particle.children[0].tint = config.tint;
			particle.isTransitionEffect = true;
			game.addChild(particle);
		}
	};
	self.updateGameRules = function (season) {
		// Clear existing timers/rules
		if (garden.budSpawner && typeof garden.budSpawner.reset === 'function') {
			garden.budSpawner.reset();
		}
		switch (season) {
			case self.SEASONS.SPRING:
				self.initSpringMode();
				break;
			case self.SEASONS.SUMMER:
				self.initSummerMode();
				break;
			case self.SEASONS.FALL:
				self.initFallMode();
				break;
			case self.SEASONS.WINTER:
				self.initWinterMode();
				break;
		}
	};
	self.showSeasonText = function (season) {
		var texts = {
			spring: "Spring: Pollinate the garden",
			summer: "Summer: Match the flowers",
			fall: "Fall: Clear the leaves",
			winter: "Winter: Dance to stay warm"
		};
		var seasonText = new Text2(texts[season], {
			size: 120,
			fill: 0xFFFFFF,
			align: 'center'
		});
		seasonText.alpha = 0;
		seasonText.scale.set(0.5);
		seasonText.x = 2048 / 2;
		seasonText.y = 400;
		seasonText.anchor.set(0.5);
		game.addChild(seasonText);
		// Animate in
		tween(seasonText, {
			alpha: 1,
			y: 300
		}, {
			duration: 1000,
			ease: 'backOut'
		});
		tween(seasonText.scale, {
			x: 1,
			y: 1
		}, {
			duration: 1000,
			ease: 'elasticOut'
		});
		// Remove after delay
		LK.setTimeout(function () {
			tween(seasonText, {
				alpha: 0,
				y: 200
			}, {
				duration: 500,
				onFinish: function onFinish() {
					game.removeChild(seasonText);
				}
			});
		}, 2000);
	};
	// Initialize each season's specific mechanics
	self.initSpringMode = function () {
		// If we're transitioning from a different season to spring, increment the year
		if (self.currentSeason && self.currentSeason !== self.SEASONS.SPRING) {
			self.yearNumber++;
		}
		garden.seasonTimer = 60 * 60; // 60 seconds at 60fps 
		// Create timer display
		var timerText = new Text2("1:00", {
			size: 60,
			fill: 0xFFFFFF
		});
		timerText.anchor.set(1, 0);
		timerText.x = 400; // Center horizontally
		timerText.y = 50; // Near top
		LK.gui.top.addChild(timerText);
		self.springTimerDisplay = timerText;
		// Disable normal bud spawning
		if (garden.budSpawner) {
			garden.budSpawner.enabled = false;
		}
		// Clear and fully populate garden with buds
		for (var row = 0; row < garden.rows; row++) {
			for (var col = 0; col < garden.cols; col++) {
				if (garden.grid[row][col]) {
					garden.grid[row][col].destroy();
					garden.grid[row][col] = null;
				}
				var bud = new Bud();
				var worldPos = garden.gridToWorld(col, row);
				bud.x = worldPos.x - 400 + garden.cellSize;
				bud.y = worldPos.y - 400 - 50;
				garden.grid[row][col] = bud;
				garden.addChild(bud);
				// Scale in animation
				bud.scale.set(0);
				tween(bud.scale, {
					x: 1,
					y: 1
				}, {
					duration: 500,
					ease: 'backOut'
				});
			}
		}
		// Calculate total flower requirements based on year
		var totalFlowersNeeded = 15 + (self.yearNumber - 1) * 5;
		totalFlowersNeeded = Math.min(totalFlowersNeeded, 64); // Cap at 64 total flowers
		// Set up random distribution of goals
		var primaryGoals = Math.ceil(totalFlowersNeeded * 0.6); // 60% split between red, blue, yellow
		var hybridGoals = totalFlowersNeeded - primaryGoals; // Remaining 40% for hybrid colors
		// Randomly distribute primary colors (should add up to primaryGoals)
		var redGoal = Math.floor(primaryGoals / 3 + (Math.random() - 0.5) * 2);
		var blueGoal = Math.floor((primaryGoals - redGoal) / 2 + (Math.random() - 0.5) * 2);
		var yellowGoal = primaryGoals - redGoal - blueGoal;
		// Randomly distribute hybrid colors (should add up to hybridGoals)
		var purpleGoal = Math.floor(hybridGoals / 3 + (Math.random() - 0.5) * 2);
		var greenGoal = Math.floor((hybridGoals - purpleGoal) / 2 + (Math.random() - 0.5) * 2);
		var orangeGoal = hybridGoals - purpleGoal - greenGoal;
		garden.flowerGoals = {
			red: Math.max(1, redGoal),
			blue: Math.max(1, blueGoal),
			yellow: Math.max(1, yellowGoal),
			purple: Math.max(1, purpleGoal),
			orange: Math.max(1, orangeGoal),
			green: Math.max(1, greenGoal)
		};
		garden.currentFlowers = {
			red: 0,
			blue: 0,
			yellow: 0,
			purple: 0,
			orange: 0,
			green: 0
		};
		// Create flower goal display
		self.createFlowerGoalDisplay();
		// Disable normal bud spawning
	};
	self.createFlowerGoalDisplay = function () {
		var display = new Container();
		display.x = 100 + 0.17 * 2048;
		display.y = 100;
		display.scale.set(2, 2); // Increase size by 100%
		var y = 0;
		Object.keys(garden.flowerGoals).forEach(function (color) {
			var row = new Container();
			// Create flower icon
			var flower = new BasicFlower(color);
			flower.scale.set(0.3);
			row.addChild(flower);
			// Create count text
			var text = new Text2(garden.currentFlowers[color] + "/" + garden.flowerGoals[color], {
				size: 40,
				fill: 0xFFFFFF
			});
			text.x = 60;
			text.y = -20;
			row.addChild(text);
			row.y = y;
			y += 50;
			display.addChild(row);
			// Store reference to text for updates
			garden.currentFlowers[color + "Text"] = text;
		});
		LK.gui.top.addChild(display);
		garden.goalDisplay = display;
	};
	self.updateFlowerCounts = function () {
		// Reset ONLY the number counts, not text references
		Object.keys(garden.currentFlowers).forEach(function (color) {
			if (typeof garden.currentFlowers[color] === 'number' && !color.includes('Text')) {
				garden.currentFlowers[color] = 0;
			}
		});
		// Count all flowers in garden
		for (var row = 0; row < garden.rows; row++) {
			for (var col = 0; col < garden.cols; col++) {
				var item = garden.grid[row][col];
				if (item && item.isFlower && !item.isSourceFlower) {
					garden.currentFlowers[item.color]++;
				}
			}
		}
		// Update display
		Object.keys(garden.flowerGoals).forEach(function (color) {
			if (garden.currentFlowers[color + "Text"]) {
				var currentCount = garden.currentFlowers[color];
				var goalCount = garden.flowerGoals[color];
				var text = garden.currentFlowers[color + "Text"];
				// Check if goal met
				if (currentCount >= goalCount) {
					currentCount = goalCount; // Cap the display at goal amount
					// Create new green text
					var newText = new Text2(currentCount + "/" + goalCount, {
						size: 40,
						fill: 0x00FF00
					});
					newText.x = text.x;
					newText.y = text.y;
					text.parent.addChild(newText);
					text.parent.removeChild(text);
					garden.currentFlowers[color + "Text"] = newText;
				} else {
					text.setText(currentCount + "/" + goalCount);
				}
			}
		});
		// Check for spring mode completion
		var allGoalsMet = Object.keys(garden.flowerGoals).every(function (color) {
			return garden.currentFlowers[color] >= garden.flowerGoals[color];
		});
		//if (allGoalsMet) {
		//	self.completeSpringMode();
	};
	self.initSummerMode = function () {
		// Current game mode - just enable normal spawning
		garden.budSpawner.enabled = true;
		garden.budSpawner.init(garden);
	};
	self.initFallMode = function () {
		// Add leaf obstacles
		self.addLeafObstacles();
		garden.budSpawner.enabled = false;
	};
	self.initWinterMode = function () {
		garden.warmthMeter = 100;
		garden.patternSystem = new WinterPatternSystem();
		game.addChild(garden.patternSystem);
		garden.budSpawner.enabled = false;
	};
	self.startSpringFinale = function () {
		// Clear all spring-specific UI elements
		if (self.springTimerDisplay && self.springTimerDisplay.parent) {
			self.springTimerDisplay.parent.removeChild(self.springTimerDisplay);
		}
		// Remove goal display if it exists
		if (garden.goalDisplay && garden.goalDisplay.parent) {
			garden.goalDisplay.parent.removeChild(garden.goalDisplay);
			garden.goalDisplay = null;
		}
		// Show finale transition text
		var finaleText = new Text2("Spring Finale: Chain Reaction!", {
			size: 120,
			fill: 0x00FF00,
			align: 'center'
		});
		finaleText.anchor.set(0.5);
		finaleText.x = 2048 / 2;
		finaleText.y = 400;
		finaleText.alpha = 0;
		game.addChild(finaleText);
		// Animate text
		tween(finaleText, {
			alpha: 1,
			y: 300
		}, {
			duration: 1000,
			ease: 'backOut',
			onFinish: function onFinish() {
				LK.setTimeout(function () {
					tween(finaleText, {
						alpha: 0,
						y: 200
					}, {
						duration: 500,
						onFinish: function onFinish() {
							game.removeChild(finaleText);
							self.initiateSpringMatching();
						}
					});
				}, 1500);
			}
		});
		// Initialize chain bonus tracking
		// Initialize chain bonus tracking
		game.scoreManager = new ScoreManager();
		// Make sure score display exists
		if (!game.scoreDisplay) {
			game.scoreDisplay = new ScoreDisplay();
			game.scoreDisplay.anchor.set(0.5, 0);
			game.scoreDisplay.x = 2048 / 2;
			game.scoreDisplay.y = 50;
			LK.gui.top.addChild(game.scoreDisplay);
		}
		self.springMatchingEnabled = true;
	};
	self.initiateSpringMatching = function () {
		// Start from the bottom row and work up
		var startMatchingFromBottom = function startMatchingFromBottom() {
			var matchFound = false;
			// Start from bottom-right corner
			for (var row = garden.rows - 1; row >= 0; row--) {
				for (var col = garden.cols - 1; col >= 0; col--) {
					var flower = garden.grid[row][col];
					if (flower && flower.isFlower) {
						var matches = game.flowerMatcher.findMatches(garden, col, row);
						if (matches.length >= 3) {
							matchFound = true;
							// Add dramatic pause between matches
							LK.setTimeout(function () {
								self.handleSpringMatch(matches);
							}, 500);
							return true; // Exit after finding first match
						}
					}
				}
			}
			return matchFound;
		};
		// Set up recursive matching with delays
		var _continueMatching = function continueMatching() {
			if (startMatchingFromBottom()) {
				LK.setTimeout(_continueMatching, 1000);
			} else {
				self.completeSpringPhase();
			}
		};
		_continueMatching();
	};
	self.handleSpringMatch = function (matches) {
		// Increase score multiplier for spring finale
		if (!self.springMultiplier) {
			self.springMultiplier = 1;
		}
		self.springMultiplier += 0.5;
		// Calculate base score with multiplier
		var baseScore = matches.length * 100;
		var multipliedScore = Math.floor(baseScore * self.springMultiplier);
		// Show score popup
		var scorePopup = new Text2("+" + multipliedScore, {
			size: 80,
			fill: 0xFFFF00
		});
		scorePopup.anchor.set(0.5);
		// Position popup at center of match
		var centerMatch = matches[Math.floor(matches.length / 2)];
		var worldPos = garden.gridToWorld(centerMatch.x, centerMatch.y);
		scorePopup.x = worldPos.x;
		scorePopup.y = worldPos.y;
		game.addChild(scorePopup);
		// Animate score popup
		tween(scorePopup, {
			y: scorePopup.y - 100,
			alpha: 0
		}, {
			duration: 1000,
			onFinish: function onFinish() {
				return scorePopup.destroy();
			}
		});
		// Add score
		if (game.scoreManager) {
			game.scoreManager.addScore(multipliedScore);
			// Show chain multiplier
			var chainText = new Text2("Chain x" + game.scoreManager.chainMultiplier.toFixed(1), {
				size: 60,
				fill: 0x00FFFF
			});
			chainText.anchor.set(0.5);
			chainText.x = worldPos.x;
			chainText.y = worldPos.y + 50;
			game.addChild(chainText);
			// Animate chain text
			tween(chainText, {
				y: chainText.y - 50,
				alpha: 0
			}, {
				duration: 800,
				onFinish: function onFinish() {
					return chainText.destroy();
				}
			});
		}
		// Create extra dramatic particle effects
		matches.forEach(function (match) {
			var worldPos = garden.gridToWorld(match.x, match.y);
			for (var i = 0; i < 20; i++) {
				var particle = new PollenParticle().init('burst');
				particle.x = worldPos.x;
				particle.y = worldPos.y;
				particle.scale.set(1.5);
				game.addChild(particle);
			}
		});
		// Clear matches with enhanced animation
		matches.forEach(function (match) {
			var flower = match.flower;
			tween(flower.scale, {
				x: 1.5,
				y: 1.5
			}, {
				duration: 300,
				onFinish: function onFinish() {
					tween(flower, {
						alpha: 0
					}, {
						duration: 200,
						onFinish: function onFinish() {
							if (garden.grid[match.y][match.x] === flower) {
								garden.grid[match.y][match.x] = null;
								garden.removeChild(flower);
							}
						}
					});
				}
			});
		});
	};
	self.completeSpringPhase = function () {
		// Show completion message
		var completionText = new Text2("Spring Complete!", {
			size: 120,
			fill: 0x00FF00
		});
		completionText.anchor.set(0.5);
		completionText.x = 2048 / 2;
		completionText.y = 2732 / 2;
		completionText.alpha = 0;
		game.addChild(completionText);
		// Animate completion message
		tween(completionText, {
			alpha: 1,
			scaleX: 1.2,
			scaleY: 1.2
		}, {
			duration: 1000,
			onFinish: function onFinish() {
				LK.setTimeout(function () {
					tween(completionText, {
						alpha: 0
					}, {
						duration: 500,
						onFinish: function onFinish() {
							completionText.destroy();
						}
					});
				}, 2000);
			}
		});
	};
	self.update = function () {
		if (!self.currentSeason) {
			return;
		}
		switch (self.currentSeason) {
			case self.SEASONS.SPRING:
				// Timer update
				if (garden.seasonTimer > 0) {
					garden.seasonTimer--;
					var seconds = Math.floor(garden.seasonTimer / 60);
					var timeText = "0:" + (seconds < 10 ? "0" : "") + seconds;
					// Create new text with red color if under 10 seconds
					if (seconds <= 10) {
						var warningText = new Text2(timeText, {
							size: 60,
							fill: 0xFF0000
						});
						warningText.anchor.set(1, 0);
						warningText.x = self.springTimerDisplay.x;
						warningText.y = self.springTimerDisplay.y;
						// Remove old timer and replace with warning one
						LK.gui.top.removeChild(self.springTimerDisplay);
						LK.gui.top.addChild(warningText);
						self.springTimerDisplay = warningText;
					} else {
						self.springTimerDisplay.setText(timeText);
					}
				}
				// Garden check (outside timer check)
				var fullyPollinated = true;
				for (var row = 0; row < garden.rows; row++) {
					for (var col = 0; col < garden.cols; col++) {
						var _garden$grid$row$col;
						if (!((_garden$grid$row$col = garden.grid[row][col]) !== null && _garden$grid$row$col !== void 0 && _garden$grid$row$col.isFlower)) {
							fullyPollinated = false;
							break;
						}
					}
					if (!fullyPollinated) {
						break;
					}
				}
				// Check for end conditions
				if (garden.seasonTimer <= 0 || fullyPollinated) {
					// Check if goals are met
					var goalsMet = Object.keys(garden.flowerGoals).every(function (color) {
						return garden.currentFlowers[color] >= garden.flowerGoals[color];
					});
					// Disable any normal matching until finale starts
					self.springMatchingEnabled = false;
					if (goalsMet) {
						// Start the spring finale sequence if not already started
						if (!self.springFinaleStarted) {
							self.springFinaleStarted = true;
							self.startSpringFinale();
						}
					} else {
						// Game Over state
						var gameOverText = new Text2("GAME OVER - Goals not met!", {
							size: 60,
							fill: 0xFF0000
						});
						gameOverText.anchor.set(1, 0);
						gameOverText.x = 400; // Center of screen
						gameOverText.y = 150; // Below timer
						gameOverText.alpha = 0; // Start with alpha 0 for fade-in effect
						LK.gui.top.addChild(gameOverText);
						// Add fade-in animation
						tween(gameOverText, {
							alpha: 1
						}, {
							duration: 1000,
							// 1 second fade-in
							onFinish: function onFinish() {
								// Optionally, add a fade-out after a delay
								LK.setTimeout(function () {
									tween(gameOverText, {
										alpha: 0
									}, {
										duration: 1000,
										// 1 second fade-out
										onFinish: function onFinish() {
											LK.gui.top.removeChild(gameOverText);
										}
									});
								}, 2000); // 2 seconds delay before fade-out
							}
						});
					}
				}
				break;
			case self.SEASONS.SUMMER:
				self.updateSummer();
				break;
			case self.SEASONS.FALL:
				self.updateFall();
				break;
			case self.SEASONS.WINTER:
				self.updateWinter();
				break;
		}
	};
	return self;
});
var SourceFlower = Container.expand(function (color) {
	var self = Container.call(this);
	// Store flower color
	self.color = color;
	self.isSourceFlower = true; // Flag to identify source flowers
	// Map color to asset name
	var assetMap = {
		'red': 'RedFlower',
		'blue': 'BlueFlower',
		'yellow': 'YellowFlower'
	};
	// Create flower sprite
	var flowerGraphics = self.attachAsset(assetMap[self.color], {
		anchorX: 0.5,
		anchorY: 0.5,
		scaleX: 1.5,
		scaleY: 1.5
	});
	// Source flowers always have pollen
	self.hasActivePollen = true;
	self.fairyParticles = [];
	self.FAIRY_COUNT = 3;
	// Initialize fairy particles
	for (var i = 0; i < self.FAIRY_COUNT; i++) {
		var fairy = new PollenParticle().init('fairy');
		fairy.scale.set(0.3 + Math.random() * 0.2);
		fairy.x += (Math.random() - 0.5) * 60;
		fairy.y += (Math.random() - 0.5) * 60;
		fairy.rotation = Math.random() * Math.PI * 2;
		fairy.rotationSpeed = (Math.random() - 0.5) * 0.2;
		self.addChild(fairy);
		self.fairyParticles.push(fairy);
	}
	// Gentle animation
	self.update = function () {
		var scaleFactor = 1.5 + Math.sin(LK.ticks * 0.05) * 0.1; // Adjusted for 1.5x size and increased animation amplitude
		flowerGraphics.scale.x = scaleFactor;
		flowerGraphics.scale.y = scaleFactor;
		flowerGraphics.rotation = Math.sin(LK.ticks * 0.05) * 0.1; // Increased rotation amplitude for larger size
		// Update fairy particles
		self.fairyParticles.forEach(function (fairy) {
			if (fairy && fairy.update) {
				fairy.update();
			}
		});
	};
	// Override collection behavior - source flowers regenerate pollen immediately
	self.pollenCollected = false;
	self.resetPollen = function () {
		self.hasActivePollen = true;
		self.pollenCollected = false;
	};
	self.collectPollen = function () {
		// Reset immediately to allow continuous collection
		self.hasActivePollen = true;
		self.pollenCollected = false;
	};
	return self;
});
var TransitionParticle = Container.expand(function (assetName) {
	var self = Container.call(this);
	var sprite = self.attachAsset(assetName, {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.x = Math.random() * 2048;
	self.y = -50;
	self.vx = (Math.random() - 0.5) * 5;
	self.vy = 3 + Math.random() * 2;
	self.rotationSpeed = (Math.random() - 0.5) * 0.1;
	self.update = function () {
		self.x += self.vx;
		self.y += self.vy;
		self.rotation += self.rotationSpeed;
		// Remove if off screen
		if (self.y > 2732 + 50) {
			self.destroy();
		}
	};
	return self;
});
// Score display class
var ScoreDisplay = Text2.expand(function () {
	var self = Text2.call(this, '0', {
		size: 150,
		fill: 0xFFFFFF
	});
});

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

/**** 
* Game Code
****/ 
// Declare and initialize flowerManager in global scope
function _slicedToArray8(r, e) {
	return _arrayWithHoles8(r) || _iterableToArrayLimit8(r, e) || _unsupportedIterableToArray8(r, e) || _nonIterableRest8();
}
function _nonIterableRest8() {
	throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _unsupportedIterableToArray8(r, a) {
	if (r) {
		if ("string" == typeof r) {
			return _arrayLikeToArray8(r, a);
		}
		var t = {}.toString.call(r).slice(8, -1);
		return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray8(r, a) : void 0;
	}
}
function _arrayLikeToArray8(r, a) {
	(null == a || a > r.length) && (a = r.length);
	for (var e = 0, n = Array(a); e < a; e++) {
		n[e] = r[e];
	}
	return n;
}
function _iterableToArrayLimit8(r, l) {
	var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (null != t) {
		var e,
			n,
			i,
			u,
			a = [],
			f = !0,
			o = !1;
		try {
			if (i = (t = t.call(r)).next, 0 === l) {
				if (Object(t) !== t) {
					return;
				}
				f = !1;
			} else {
				for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
					;
				}
			}
		} catch (r) {
			o = !0, n = r;
		} finally {
			try {
				if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
					return;
				}
			} finally {
				if (o) {
					throw n;
				}
			}
		}
		return a;
	}
}
function _arrayWithHoles8(r) {
	if (Array.isArray(r)) {
		return r;
	}
}
function _slicedToArray7(r, e) {
	return _arrayWithHoles7(r) || _iterableToArrayLimit7(r, e) || _unsupportedIterableToArray7(r, e) || _nonIterableRest7();
}
function _nonIterableRest7() {
	throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _iterableToArrayLimit7(r, l) {
	var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (null != t) {
		var e,
			n,
			i,
			u,
			a = [],
			f = !0,
			o = !1;
		try {
			if (i = (t = t.call(r)).next, 0 === l) {
				if (Object(t) !== t) {
					return;
				}
				f = !1;
			} else {
				for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
					;
				}
			}
		} catch (r) {
			o = !0, n = r;
		} finally {
			try {
				if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
					return;
				}
			} finally {
				if (o) {
					throw n;
				}
			}
		}
		return a;
	}
}
function _arrayWithHoles7(r) {
	if (Array.isArray(r)) {
		return r;
	}
}
function _createForOfIteratorHelper6(r, e) {
	var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (!t) {
		if (Array.isArray(r) || (t = _unsupportedIterableToArray7(r)) || e && r && "number" == typeof r.length) {
			t && (r = t);
			var _n6 = 0,
				F = function F() {};
			return {
				s: F,
				n: function n() {
					return _n6 >= r.length ? {
						done: !0
					} : {
						done: !1,
						value: r[_n6++]
					};
				},
				e: function e(r) {
					throw r;
				},
				f: F
			};
		}
		throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
	}
	var o,
		a = !0,
		u = !1;
	return {
		s: function s() {
			t = t.call(r);
		},
		n: function n() {
			var r = t.next();
			return a = r.done, r;
		},
		e: function e(r) {
			u = !0, o = r;
		},
		f: function f() {
			try {
				a || null == t["return"] || t["return"]();
			} finally {
				if (u) {
					throw o;
				}
			}
		}
	};
}
function _unsupportedIterableToArray7(r, a) {
	if (r) {
		if ("string" == typeof r) {
			return _arrayLikeToArray7(r, a);
		}
		var t = {}.toString.call(r).slice(8, -1);
		return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray7(r, a) : void 0;
	}
}
function _arrayLikeToArray7(r, a) {
	(null == a || a > r.length) && (a = r.length);
	for (var e = 0, n = Array(a); e < a; e++) {
		n[e] = r[e];
	}
	return n;
}
function _slicedToArray6(r, e) {
	return _arrayWithHoles6(r) || _iterableToArrayLimit6(r, e) || _unsupportedIterableToArray6(r, e) || _nonIterableRest6();
}
function _nonIterableRest6() {
	throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _iterableToArrayLimit6(r, l) {
	var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (null != t) {
		var e,
			n,
			i,
			u,
			a = [],
			f = !0,
			o = !1;
		try {
			if (i = (t = t.call(r)).next, 0 === l) {
				if (Object(t) !== t) {
					return;
				}
				f = !1;
			} else {
				for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
					;
				}
			}
		} catch (r) {
			o = !0, n = r;
		} finally {
			try {
				if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
					return;
				}
			} finally {
				if (o) {
					throw n;
				}
			}
		}
		return a;
	}
}
function _arrayWithHoles6(r) {
	if (Array.isArray(r)) {
		return r;
	}
}
function _createForOfIteratorHelper5(r, e) {
	var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (!t) {
		if (Array.isArray(r) || (t = _unsupportedIterableToArray6(r)) || e && r && "number" == typeof r.length) {
			t && (r = t);
			var _n5 = 0,
				F = function F() {};
			return {
				s: F,
				n: function n() {
					return _n5 >= r.length ? {
						done: !0
					} : {
						done: !1,
						value: r[_n5++]
					};
				},
				e: function e(r) {
					throw r;
				},
				f: F
			};
		}
		throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
	}
	var o,
		a = !0,
		u = !1;
	return {
		s: function s() {
			t = t.call(r);
		},
		n: function n() {
			var r = t.next();
			return a = r.done, r;
		},
		e: function e(r) {
			u = !0, o = r;
		},
		f: function f() {
			try {
				a || null == t["return"] || t["return"]();
			} finally {
				if (u) {
					throw o;
				}
			}
		}
	};
}
function _unsupportedIterableToArray6(r, a) {
	if (r) {
		if ("string" == typeof r) {
			return _arrayLikeToArray6(r, a);
		}
		var t = {}.toString.call(r).slice(8, -1);
		return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray6(r, a) : void 0;
	}
}
function _arrayLikeToArray6(r, a) {
	(null == a || a > r.length) && (a = r.length);
	for (var e = 0, n = Array(a); e < a; e++) {
		n[e] = r[e];
	}
	return n;
}
function _slicedToArray5(r, e) {
	return _arrayWithHoles5(r) || _iterableToArrayLimit5(r, e) || _unsupportedIterableToArray5(r, e) || _nonIterableRest5();
}
function _nonIterableRest5() {
	throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _iterableToArrayLimit5(r, l) {
	var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (null != t) {
		var e,
			n,
			i,
			u,
			a = [],
			f = !0,
			o = !1;
		try {
			if (i = (t = t.call(r)).next, 0 === l) {
				if (Object(t) !== t) {
					return;
				}
				f = !1;
			} else {
				for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
					;
				}
			}
		} catch (r) {
			o = !0, n = r;
		} finally {
			try {
				if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
					return;
				}
			} finally {
				if (o) {
					throw n;
				}
			}
		}
		return a;
	}
}
function _arrayWithHoles5(r) {
	if (Array.isArray(r)) {
		return r;
	}
}
function _createForOfIteratorHelper4(r, e) {
	var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (!t) {
		if (Array.isArray(r) || (t = _unsupportedIterableToArray5(r)) || e && r && "number" == typeof r.length) {
			t && (r = t);
			var _n4 = 0,
				F = function F() {};
			return {
				s: F,
				n: function n() {
					return _n4 >= r.length ? {
						done: !0
					} : {
						done: !1,
						value: r[_n4++]
					};
				},
				e: function e(r) {
					throw r;
				},
				f: F
			};
		}
		throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
	}
	var o,
		a = !0,
		u = !1;
	return {
		s: function s() {
			t = t.call(r);
		},
		n: function n() {
			var r = t.next();
			return a = r.done, r;
		},
		e: function e(r) {
			u = !0, o = r;
		},
		f: function f() {
			try {
				a || null == t["return"] || t["return"]();
			} finally {
				if (u) {
					throw o;
				}
			}
		}
	};
}
function _unsupportedIterableToArray5(r, a) {
	if (r) {
		if ("string" == typeof r) {
			return _arrayLikeToArray5(r, a);
		}
		var t = {}.toString.call(r).slice(8, -1);
		return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray5(r, a) : void 0;
	}
}
function _arrayLikeToArray5(r, a) {
	(null == a || a > r.length) && (a = r.length);
	for (var e = 0, n = Array(a); e < a; e++) {
		n[e] = r[e];
	}
	return n;
}
function _slicedToArray4(r, e) {
	return _arrayWithHoles4(r) || _iterableToArrayLimit4(r, e) || _unsupportedIterableToArray4(r, e) || _nonIterableRest4();
}
function _nonIterableRest4() {
	throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _unsupportedIterableToArray4(r, a) {
	if (r) {
		if ("string" == typeof r) {
			return _arrayLikeToArray4(r, a);
		}
		var t = {}.toString.call(r).slice(8, -1);
		return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray4(r, a) : void 0;
	}
}
function _arrayLikeToArray4(r, a) {
	(null == a || a > r.length) && (a = r.length);
	for (var e = 0, n = Array(a); e < a; e++) {
		n[e] = r[e];
	}
	return n;
}
function _iterableToArrayLimit4(r, l) {
	var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (null != t) {
		var e,
			n,
			i,
			u,
			a = [],
			f = !0,
			o = !1;
		try {
			if (i = (t = t.call(r)).next, 0 === l) {
				if (Object(t) !== t) {
					return;
				}
				f = !1;
			} else {
				for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
					;
				}
			}
		} catch (r) {
			o = !0, n = r;
		} finally {
			try {
				if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
					return;
				}
			} finally {
				if (o) {
					throw n;
				}
			}
		}
		return a;
	}
}
function _arrayWithHoles4(r) {
	if (Array.isArray(r)) {
		return r;
	}
}
function _slicedToArray3(r, e) {
	return _arrayWithHoles3(r) || _iterableToArrayLimit3(r, e) || _unsupportedIterableToArray3(r, e) || _nonIterableRest3();
}
function _nonIterableRest3() {
	throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _iterableToArrayLimit3(r, l) {
	var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (null != t) {
		var e,
			n,
			i,
			u,
			a = [],
			f = !0,
			o = !1;
		try {
			if (i = (t = t.call(r)).next, 0 === l) {
				if (Object(t) !== t) {
					return;
				}
				f = !1;
			} else {
				for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
					;
				}
			}
		} catch (r) {
			o = !0, n = r;
		} finally {
			try {
				if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
					return;
				}
			} finally {
				if (o) {
					throw n;
				}
			}
		}
		return a;
	}
}
function _arrayWithHoles3(r) {
	if (Array.isArray(r)) {
		return r;
	}
}
function _createForOfIteratorHelper3(r, e) {
	var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (!t) {
		if (Array.isArray(r) || (t = _unsupportedIterableToArray3(r)) || e && r && "number" == typeof r.length) {
			t && (r = t);
			var _n3 = 0,
				F = function F() {};
			return {
				s: F,
				n: function n() {
					return _n3 >= r.length ? {
						done: !0
					} : {
						done: !1,
						value: r[_n3++]
					};
				},
				e: function e(r) {
					throw r;
				},
				f: F
			};
		}
		throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
	}
	var o,
		a = !0,
		u = !1;
	return {
		s: function s() {
			t = t.call(r);
		},
		n: function n() {
			var r = t.next();
			return a = r.done, r;
		},
		e: function e(r) {
			u = !0, o = r;
		},
		f: function f() {
			try {
				a || null == t["return"] || t["return"]();
			} finally {
				if (u) {
					throw o;
				}
			}
		}
	};
}
function _unsupportedIterableToArray3(r, a) {
	if (r) {
		if ("string" == typeof r) {
			return _arrayLikeToArray3(r, a);
		}
		var t = {}.toString.call(r).slice(8, -1);
		return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray3(r, a) : void 0;
	}
}
function _arrayLikeToArray3(r, a) {
	(null == a || a > r.length) && (a = r.length);
	for (var e = 0, n = Array(a); e < a; e++) {
		n[e] = r[e];
	}
	return n;
}
function _slicedToArray2(r, e) {
	return _arrayWithHoles2(r) || _iterableToArrayLimit2(r, e) || _unsupportedIterableToArray2(r, e) || _nonIterableRest2();
}
function _nonIterableRest2() {
	throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _iterableToArrayLimit2(r, l) {
	var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (null != t) {
		var e,
			n,
			i,
			u,
			a = [],
			f = !0,
			o = !1;
		try {
			if (i = (t = t.call(r)).next, 0 === l) {
				if (Object(t) !== t) {
					return;
				}
				f = !1;
			} else {
				for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
					;
				}
			}
		} catch (r) {
			o = !0, n = r;
		} finally {
			try {
				if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
					return;
				}
			} finally {
				if (o) {
					throw n;
				}
			}
		}
		return a;
	}
}
function _arrayWithHoles2(r) {
	if (Array.isArray(r)) {
		return r;
	}
}
function _createForOfIteratorHelper2(r, e) {
	var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (!t) {
		if (Array.isArray(r) || (t = _unsupportedIterableToArray2(r)) || e && r && "number" == typeof r.length) {
			t && (r = t);
			var _n2 = 0,
				F = function F() {};
			return {
				s: F,
				n: function n() {
					return _n2 >= r.length ? {
						done: !0
					} : {
						done: !1,
						value: r[_n2++]
					};
				},
				e: function e(r) {
					throw r;
				},
				f: F
			};
		}
		throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
	}
	var o,
		a = !0,
		u = !1;
	return {
		s: function s() {
			t = t.call(r);
		},
		n: function n() {
			var r = t.next();
			return a = r.done, r;
		},
		e: function e(r) {
			u = !0, o = r;
		},
		f: function f() {
			try {
				a || null == t["return"] || t["return"]();
			} finally {
				if (u) {
					throw o;
				}
			}
		}
	};
}
function _unsupportedIterableToArray2(r, a) {
	if (r) {
		if ("string" == typeof r) {
			return _arrayLikeToArray2(r, a);
		}
		var t = {}.toString.call(r).slice(8, -1);
		return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray2(r, a) : void 0;
	}
}
function _arrayLikeToArray2(r, a) {
	(null == a || a > r.length) && (a = r.length);
	for (var e = 0, n = Array(a); e < a; e++) {
		n[e] = r[e];
	}
	return n;
}
function _slicedToArray(r, e) {
	return _arrayWithHoles(r) || _iterableToArrayLimit(r, e) || _unsupportedIterableToArray(r, e) || _nonIterableRest();
}
function _nonIterableRest() {
	throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _iterableToArrayLimit(r, l) {
	var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (null != t) {
		var e,
			n,
			i,
			u,
			a = [],
			f = !0,
			o = !1;
		try {
			if (i = (t = t.call(r)).next, 0 === l) {
				if (Object(t) !== t) {
					return;
				}
				f = !1;
			} else {
				for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
					;
				}
			}
		} catch (r) {
			o = !0, n = r;
		} finally {
			try {
				if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
					return;
				}
			} finally {
				if (o) {
					throw n;
				}
			}
		}
		return a;
	}
}
function _arrayWithHoles(r) {
	if (Array.isArray(r)) {
		return r;
	}
}
function _createForOfIteratorHelper(r, e) {
	var t = "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
	if (!t) {
		if (Array.isArray(r) || (t = _unsupportedIterableToArray(r)) || e && r && "number" == typeof r.length) {
			t && (r = t);
			var _n = 0,
				F = function F() {};
			return {
				s: F,
				n: function n() {
					return _n >= r.length ? {
						done: !0
					} : {
						done: !1,
						value: r[_n++]
					};
				},
				e: function e(r) {
					throw r;
				},
				f: F
			};
		}
		throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
	}
	var o,
		a = !0,
		u = !1;
	return {
		s: function s() {
			t = t.call(r);
		},
		n: function n() {
			var r = t.next();
			return a = r.done, r;
		},
		e: function e(r) {
			u = !0, o = r;
		},
		f: function f() {
			try {
				a || null == t["return"] || t["return"]();
			} finally {
				if (u) {
					throw o;
				}
			}
		}
	};
}
function _unsupportedIterableToArray(r, a) {
	if (r) {
		if ("string" == typeof r) {
			return _arrayLikeToArray(r, a);
		}
		var t = {}.toString.call(r).slice(8, -1);
		return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray(r, a) : void 0;
	}
}
function _arrayLikeToArray(r, a) {
	(null == a || a > r.length) && (a = r.length);
	for (var e = 0, n = Array(a); e < a; e++) {
		n[e] = r[e];
	}
	return n;
}
var flowerManager = new FlowerManager();
var titleScreen = new Container();
var background = LK.getAsset('titlebackground', {
	anchorX: 0.5,
	anchorY: 0.5,
	x: 2048 / 2,
	y: 2732 / 2
});
titleScreen.addChild(background);
var logo = LK.getAsset('logo', {
	anchorX: 0.5,
	anchorY: 0.5,
	x: 2048 / 2,
	y: 2732 / 2
});
titleScreen.addChild(logo);
var playButton = LK.getAsset('playButton', {
	anchorX: 0.5,
	anchorY: 0.5,
	x: 2048 / 2,
	y: 2732 / 2 + 200
});
titleScreen.addChild(playButton);
var tutorialButton = LK.getAsset('tutorialButton', {
	anchorX: 0.5,
	anchorY: 0.5,
	x: 2048 / 2,
	y: 2732 / 2 + 400
});
titleScreen.addChild(tutorialButton);
game.addChild(titleScreen);
playButton.down = function (x, y, obj) {
	game.removeChild(titleScreen);
	var gardenBackground = new GardenBackground();
	game.addChild(gardenBackground);
	garden = new Garden();
	garden.init();
	game.addChild(garden);
	var flowerManager = new FlowerManager();
	// Initialize score manager
	game.scoreManager = new ScoreManager();
	game.addChild(game.scoreManager);
	game.seasonManager = new SeasonManager();
	game.seasonManager.init();
	game.flowerMatcher = new FlowerMatcher();
	game.addChild(game.flowerMatcher);
	var pollenTrail = new PollenTrail();
	game.addChild(pollenTrail);
	// Create bee and position above hive
	var bee = new Bee();
	bee.x = 2048 / 2;
	bee.y = 2732 / 2;
	game.addChild(bee);
	// Ensure pollen particles are rendered on top by adding them last
	game.setChildIndex(pollenTrail, game.children.length - 1);
	// Initialize bud spawner
	garden.budSpawner = new BudSpawner();
	garden.budSpawner.init(garden);
	game.addChild(garden.budSpawner);
	// Touch handlers
	game.down = function (x, y, obj) {
		function showDebugText(message, color) {
			var debugText = new Text2(message, {
				size: 120,
				fill: color
			});
			// Start with no anchor adjustment
			debugText.anchor.set(1, 0);
			// Try positioning at 0,0 first just to see where it appears
			debugText.x = 400;
			debugText.y = 400;
			LK.gui.top.addChild(debugText);
			tween(debugText, {
				alpha: 0
			}, {
				duration: 1000,
				onFinish: function onFinish() {
					LK.gui.top.removeChild(debugText);
				}
			});
		}
		// Debug zones same as before
		if (x > 824 && x < 1224 && y < 200) {
			showDebugText("SPRING MODE", 0x00FF00);
			game.seasonManager.setActiveSeason(game.seasonManager.SEASONS.SPRING);
			return;
		}
		if (x > 1848 && y < 200) {
			showDebugText("SUMMER MODE", 0xFFFF00);
			return;
		}
		if (x < 200 && y > 2532) {
			showDebugText("FALL MODE", 0xFF6600);
			return;
		}
		if (x > 1848 && y > 2532) {
			showDebugText("WINTER MODE", 0x00FFFF);
			return;
		}
		// Convert touch position to world space
		var touchPos = game.toLocal({
			x: x,
			y: y
		}, LK.stage);
		// Check if touch is on bee
		var dx = touchPos.x - bee.x;
		var dy = touchPos.y - bee.y;
		var distance = Math.sqrt(dx * dx + dy * dy);
		if (distance < 100) {
			// Increased from 50 to 100 
			// Adjust radius as needed
			bee.state = 'free';
			bee.isMoving = true;
			// Set initial target to current position to prevent jumping
			bee.targetX = bee.x;
			bee.targetY = bee.y;
			// Then update target to the current touch position
			bee.targetX = touchPos.x;
			bee.targetY = touchPos.y;
		} else {
			bee.state = 'transit';
			bee.targetX = touchPos.x;
			bee.targetY = touchPos.y;
		}
	};
	game.move = function (x, y, obj) {
		if (bee.isMoving) {
			bee.targetX = x;
			bee.targetY = y - 200;
		}
	};
	game.up = function (x, y, obj) {
		bee.isMoving = false;
	};
	// Initialize score display
	var scoreDisplay = new ScoreDisplay();
	scoreDisplay.anchor.set(0.5, 0);
	LK.gui.top.addChild(scoreDisplay);
	game.scoreDisplay = scoreDisplay;
	// Add the main update loop
	game.update = function () {
		// Update spawning system
		if (game.budSpawner) {
			game.budSpawner.update();
		}
		// Update trail system
		if (pollenTrail) {
			pollenTrail.update();
		}
		// Update garden elements
		if (garden) {
			// Update all flowers and buds in the grid
			for (var i = 0; i < garden.rows; i++) {
				for (var j = 0; j < garden.cols; j++) {
					var gridItem = garden.grid[i][j];
					if (gridItem && gridItem.update) {
						gridItem.update();
					}
				}
			}
		}
		// Update all children that have update methods
		for (var i = 0; i < game.children.length; i++) {
			var child = game.children[i];
			if (child && child.update) {
				child.update();
			}
		}
		// Update bee
		if (bee && bee.update) {
			bee.update();
		}
		if (game.seasonManager) {
			game.seasonManager.update();
		}
	};
};
tutorialButton.down = function (x, y, obj) {
	// Open tutorial
};
// Removed duplicate playPollenPatternAnimation method

Creation History

Images

Sounds & Music