:quality(85)/https://cdn.frvr.ai/678449bd865fa9216a998ff6.png)
:quality(85)/https://cdn.upit.com/v4f0pp18i9pfczsn4n5pst2n.jpeg)
:quality(85)/https://cdn.frvr.ai/67844a42865fa9216a999003.png)
Creation History
User prompt
Add this to score manager: self.lastMatchTime = 0; // Add this property
User prompt
Update score manager with: self.lastMatchTime = 0; // Add this property self.addToChain = function() { var currentTime = Date.now(); // Only increment chain if less than 2 seconds since last match if (currentTime - self.lastMatchTime < 2000 && self.lastMatchTime !== 0) { self.currentChain++; self.chainMultiplier = Math.min(1 + self.currentChain * 0.5, 5); } else { // Reset chain if it's the first match or too much time has passed self.currentChain = 0; self.chainMultiplier = 1; } self.lastMatchTime = currentTime; };
Code edit (1 edits merged)
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Replace score manager with: var ScoreManager = Container.expand(function () { var self = Container.call(this); // Properties self.currentScore = 0; self.currentChain = 0; self.chainMultiplier = 1; self.BASIC_FLOWER_POINTS = 100; self.HYBRID_FLOWER_POINTS = 200; // Methods need to be defined this way in Container.expand self.getFlowerBasePoints = function(flowerColor) { var hybridColors = ['purple', 'green', 'orange']; return hybridColors.includes(flowerColor) ? self.HYBRID_FLOWER_POINTS : self.BASIC_FLOWER_POINTS; }; self.getMatchMultiplier = function(matchSize) { if (matchSize <= 3) return 1; if (matchSize === 4) return 1.5; if (matchSize === 5) return 2; return 2.5; // 6 or more }; self.addToChain = function() { self.currentChain++; self.chainMultiplier = Math.min(1 + self.currentChain * 0.5, 5); if (self.chainResetTimer) { LK.clearTimeout(self.chainResetTimer); } self.chainResetTimer = LK.setTimeout(function() { self.resetChain(); }, 2000); }; self.resetChain = function() { self.currentChain = 0; self.chainMultiplier = 1; }; self.addScore = function(points) { self.currentScore += Math.floor(points); if (game.scoreDisplay) { game.scoreDisplay.setText(self.currentScore.toString()); } }; return self; });
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Update as needed with: // At the individual flower point display: var flowerPoints = game.scoreManager ? game.scoreManager.getFlowerBasePoints(flower.color) : 100; var pointText = new Text2("+" + (flowerPoints || 0), { size: 100, fill: 0xFFFF00 }); // And in the final score calculation: var totalBase = matches.reduce(function(sum, m) { return sum + (game.scoreManager ? game.scoreManager.getFlowerBasePoints(m.flower.color) : 100); }, 0); var matchMultiplier = game.scoreManager ? game.scoreManager.getMatchMultiplier(matches.length) : 1; var chainMultiplier = game.scoreManager ? game.scoreManager.chainMultiplier : 1; var finalScore = Math.floor(totalBase * matchMultiplier * chainMultiplier);
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Update Flower matcher as needed with: // Inside clearMatches, when showing individual flower points: var flowerPoints = game.scoreManager ? game.scoreManager.getFlowerBasePoints(flower.color) : 100; var pointText = new Text2("+" + (flowerPoints || 0), { size: 100, fill: 0xFFFF00 }); // And in the final score calculation: var totalBase = matches.reduce(function(sum, m) { return sum + (game.scoreManager ? game.scoreManager.getFlowerBasePoints(m.flower.color) : 100); }, 0);
Code edit (3 edits merged)
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Update as needed with: self.clearMatches = function (garden, matches) { matches.forEach(function (match, index) { var flower = match.flower; var flowerPoints = game.scoreManager.getFlowerBasePoints(flower.color); LK.setTimeout(function() { // 1. Flower pop 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); } // 2. Create particles self.createPetalBurst(match.x, match.y, match.flower.color); // 3. Show points for this flower var worldPos = garden.gridToWorld(match.x, match.y); var pointText = new Text2("+" + flowerPoints, { size: 100, fill: 0xFFFF00 }); pointText.anchor.set(0.5); pointText.x = worldPos.x; pointText.y = worldPos.y; game.addChild(pointText); tween(pointText, { y: pointText.y - 50, alpha: 0 }, { duration: 1000, onFinish: function onFinish() { pointText.destroy(); } }); } }); } }); }, index * 150); }); // After all flowers, show total score LK.setTimeout(function() { if (game.scoreManager) { game.scoreManager.addToChain(); game.scoreManager.addScore(matches.length * 100); // We can update this calculation later } }, matches.length * 150 + 1000); };
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Update score manager with: var ScoreManager = Container.expand(function () { var self = Container.call(this); self.currentScore = 0; self.currentChain = 0; self.chainMultiplier = 1; self.chainResetTimer = null; // Base point values self.BASIC_FLOWER_POINTS = 100; self.HYBRID_FLOWER_POINTS = 200; // Match size multipliers self.getMatchMultiplier = function(matchSize) { if (matchSize <= 3) return 1; if (matchSize === 4) return 1.5; if (matchSize === 5) return 2; return 2.5; // 6 or more }; // Calculate base points for a flower self.getFlowerBasePoints = function(flowerColor) { const hybridColors = ['purple', 'green', 'orange']; return hybridColors.includes(flowerColor) ? self.HYBRID_FLOWER_POINTS : self.BASIC_FLOWER_POINTS; }; self.addToChain = function() { self.currentChain++; self.chainMultiplier = Math.min(1 + self.currentChain * 0.5, 5); // Cap at 5x // Reset chain after 2 seconds if (self.chainResetTimer) { LK.clearTimeout(self.chainResetTimer); } self.chainResetTimer = LK.setTimeout(function() { self.resetChain(); }, 2000); }; self.resetChain = function() { self.currentChain = 0; self.chainMultiplier = 1; self.chainResetTimer = null; }; self.addScore = function(points) { self.currentScore += Math.floor(points); if (game.scoreDisplay) { game.scoreDisplay.setText(self.currentScore.toString()); } }; return self; });
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Update as needed with: self.clearMatches = function (garden, matches) { matches.forEach(function (match, index) { var flower = match.flower; var baseDelay = index * 150; // Base delay between each flower // First: Flower pop animation LK.setTimeout(function() { 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); } // Second: Particles after pop completes self.createPetalBurst(match.x, match.y, match.flower.color); // Third: Score numbers after particles LK.setTimeout(function() { if (game.scoreManager) { game.scoreManager.addToChain(); var baseScore = matches.length * 100; var multipliedScore = Math.floor(baseScore * game.scoreManager.chainMultiplier); var worldPos = garden.gridToWorld(match.x, match.y); var scorePopup = new Text2("+" + multipliedScore, { size: 150, fill: 0xFFFF00 }); scorePopup.anchor.set(0.5); scorePopup.x = worldPos.x; scorePopup.y = worldPos.y; game.addChild(scorePopup); tween(scorePopup, { y: scorePopup.y - 100, alpha: 0 }, { duration: 2000, onFinish: function onFinish() { return scorePopup.destroy(); } }); if (game.scoreManager.chainMultiplier > 1) { var chainText = new Text2("Chain x" + game.scoreManager.chainMultiplier.toFixed(1), { size: 150, fill: 0x00FFFF }); chainText.anchor.set(0.5); chainText.x = worldPos.x; chainText.y = worldPos.y + 50; game.addChild(chainText); tween(chainText, { y: chainText.y - 50, alpha: 0 }, { duration: 1200, onFinish: function onFinish() { return chainText.destroy(); } }); } } }, 200); // Delay after particles before score appears } }); } }); }, baseDelay); }); };
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Update as needed with: self.clearMatches = function (garden, matches) { // Add to score first - this also handles chain reactions if (game.scoreManager) { game.scoreManager.addToChain(); // Show score popup var baseScore = matches.length * 100; var multipliedScore = Math.floor(baseScore * game.scoreManager.chainMultiplier); // Position popup at center of match group var centerMatch = matches[Math.floor(matches.length / 2)]; var worldPos = garden.gridToWorld(centerMatch.x, centerMatch.y); var scorePopup = new Text2("+" + multipliedScore, { size: 150, fill: 0xFFFF00 }); scorePopup.anchor.set(0.5); scorePopup.x = worldPos.x; scorePopup.y = worldPos.y; game.addChild(scorePopup); // Animate score popup tween(scorePopup, { y: scorePopup.y - 100, alpha: 0 }, { duration: 2000, onFinish: function onFinish() { return scorePopup.destroy(); } }); // Show chain multiplier if greater than 1 if (game.scoreManager.chainMultiplier > 1) { var chainText = new Text2("Chain x" + game.scoreManager.chainMultiplier.toFixed(1), { size: 150, fill: 0x00FFFF }); chainText.anchor.set(0.5); chainText.x = worldPos.x; chainText.y = worldPos.y + 50; game.addChild(chainText); tween(chainText, { y: chainText.y - 50, alpha: 0 }, { duration: 1200, onFinish: function onFinish() { return chainText.destroy(); } }); } } matches.forEach(function (match, index) { var flower = match.flower; LK.setTimeout(function() { tween(flower.scale, { x: 1.5, y: 1.5 }, { duration: 300, onFinish: function onFinish() { tween(flower, { alpha: 0 }, { duration: 200, onFinish: function onFinish() { // Important: Check if flower is still in expected position if (garden.grid[match.y][match.x] === flower) { garden.grid[match.y][match.x] = null; garden.removeChild(flower); } } }); } }); self.createPetalBurst(match.x, match.y, match.flower.color); }, index * 150); }); };
User prompt
Then in `SeasonManager.handleSpringMatch`, we can simplify to just: ```javascript self.handleSpringMatch = function (matches) { // Increase score multiplier for spring finale if (!self.springMultiplier) { self.springMultiplier = 1; } self.springMultiplier += 0.5; // Use the standard matching system game.flowerMatcher.clearMatches(garden, matches); };
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Update as needed in clearMatches with: matches.forEach(function (match, index) { var flower = match.flower; LK.setTimeout(function() { tween(flower.scale, { x: 1.5, y: 1.5 }, { duration: 300, onFinish: function onFinish() { tween(flower, { alpha: 0 }, { duration: 200, onFinish: function onFinish() { garden.removeChild(flower); } }); } }); // Just call the centralized particle creation method self.createPetalBurst(match.x, match.y, match.flower.color); }, index * 150); });
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Find the `createPetalBurst` method in `FlowerMatcher` and update it to include the star particles: ```javascript 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); // Regular petal burst 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); } // Star particles for (var i = 0; i < 8; i++) { var star = new PollenParticle().init('star'); var angle = i / 8 * Math.PI * 2; star.x = worldPos.x; star.y = worldPos.y; game.addChild(star); } };
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Here's the updated `clearMatches` function for the `FlowerMatcher` class: ```javascript self.clearMatches = function (garden, matches) { // Add to score first - this also handles chain reactions in SeasonManager if (game.scoreManager) { game.scoreManager.addToChain(); // Show score popup var baseScore = matches.length * 100; var multipliedScore = Math.floor(baseScore * game.scoreManager.chainMultiplier); // Position popup at center of match group var centerMatch = matches[Math.floor(matches.length / 2)]; var worldPos = garden.gridToWorld(centerMatch.x, centerMatch.y); var scorePopup = new Text2("+" + multipliedScore, { size: 150, fill: 0xFFFF00 }); scorePopup.anchor.set(0.5); scorePopup.x = worldPos.x; scorePopup.y = worldPos.y; game.addChild(scorePopup); // Animate score popup tween(scorePopup, { y: scorePopup.y - 100, alpha: 0 }, { duration: 2000, onFinish: function onFinish() { return scorePopup.destroy(); } }); // Show chain multiplier if greater than 1 if (game.scoreManager.chainMultiplier > 1) { var chainText = new Text2("Chain x" + game.scoreManager.chainMultiplier.toFixed(1), { size: 150, fill: 0x00FFFF }); chainText.anchor.set(0.5); chainText.x = worldPos.x; chainText.y = worldPos.y + 50; game.addChild(chainText); tween(chainText, { y: chainText.y - 50, alpha: 0 }, { duration: 1200, onFinish: function onFinish() { return chainText.destroy(); } }); } } matches.forEach(function (match, index) { var flower = match.flower; LK.setTimeout(function() { tween(flower.scale, { x: 1.5, y: 1.5 }, { duration: 300, onFinish: function onFinish() { tween(flower, { alpha: 0 }, { duration: 200, onFinish: function onFinish() { garden.removeChild(flower); } }); } }); // Create particles for each flower pop var worldPos = garden.gridToWorld(match.x, match.y); var colorTints = { 'red': 0xFF0000, 'blue': 0x0000FF, 'yellow': 0xFFFF00, 'purple': 0x800080, 'orange': 0xFFA500, 'green': 0x00FF00 }; // Regular petal burst 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[match.flower.color]; game.addChild(particle); } // Star particles for (var i = 0; i < 8; i++) { var star = new PollenParticle().init('star'); var angle = i / 8 * Math.PI * 2; star.x = worldPos.x; star.y = worldPos.y; game.addChild(star); } }, index * 150); // 150ms delay between each flower }); };
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Then in the same class, in the `handleSpringMatch` function, find the tween block for flower removal and change it to: ```javascript tween(flower, { alpha: 0 }, { duration: 200, onFinish: function onFinish() { garden.removeChild(flower); } });
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In `SeasonManager`, find the `startMatchingFromBottom` function and modify it to: ```javascript 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; // Immediately clear grid positions matches.forEach(function(match) { if (garden.grid[match.y][match.x] === match.flower) { garden.grid[match.y][match.x] = null; } }); // Handle animation separately LK.setTimeout(function () { self.handleSpringMatch(matches); }, 500); return true; // Exit after finding first match } } } } return matchFound; };
Code edit (1 edits merged)
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Update pollen particle star type with: else if (self.type === 'star') { self.scale.set(0.4 + Math.random() * 0.2); self.decayRate = 0.015; self.rotationSpeed = (Math.random() - 0.5) * 0.4; self.alpha = 1; // Add velocity setup like other particle types var angle = Math.random() * Math.PI * 2; var speed = 12 + Math.random() * 4; // Higher speed for farther travel self.velocity = { x: Math.cos(angle) * speed, y: Math.sin(angle) * speed }; }
Code edit (1 edits merged)
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Update star particles in spring finale with this: // Add star particles with greater velocity for (var i = 0; i < 8; i++) { var star = new PollenParticle().init('star'); var angle = i / 8 * Math.PI * 2; star.x = worldPos.x; star.y = worldPos.y; star.vx = Math.cos(angle) * 12; // Increased from 6 to 12 star.vy = Math.sin(angle) * 12; // Increased from 6 to 12 game.addChild(star); }
Code edit (1 edits merged)
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Also add this to the type switch statement: else if (self.type === 'star') { self.scale.set(0.4 + Math.random() * 0.2); self.decayRate = 0.015; // Slower decay for more visible effect // Add sparkle rotation self.rotationSpeed = (Math.random() - 0.5) * 0.4; // Faster rotation than normal particles self.alpha = 1; }
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Update pollen particle with: var assetMap = { 'trail': 'PollenSparkle', 'burst': 'Petal', 'fairy': 'PollenSparkle', 'transfer': 'PollenSparkle', 'star': 'StarParticle' // Add this line
Code edit (1 edits merged)
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/****
* 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, index) {
var flower = match.flower;
var flowerPoints = game.scoreManager.getFlowerBasePoints(flower.color); // Calculate flower points
LK.setTimeout(function () {
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);
}
// Second: Particles after pop completes
self.createPetalBurst(match.x, match.y, match.flower.color);
// Third: Show points for this flower
var worldPos = garden.gridToWorld(match.x, match.y);
var pointText = new Text2("+" + flowerPoints, {
size: 100,
fill: 0xFFFF00
});
pointText.anchor.set(0.5);
pointText.x = worldPos.x;
pointText.y = worldPos.y;
game.addChild(pointText);
tween(pointText, {
y: pointText.y - 50,
alpha: 0
}, {
duration: 1000,
onFinish: function onFinish() {
pointText.destroy();
}
});
}
});
}
});
}, index * 150);
});
// After all flowers, show total score
LK.setTimeout(function () {
if (game.scoreManager) {
game.scoreManager.addToChain();
// Calculate total with multipliers
var totalBase = matches.reduce(function (sum, m) {
return sum + game.scoreManager.getFlowerBasePoints(m.flower.color);
}, 0);
var matchMultiplier = game.scoreManager.getMatchMultiplier(matches.length);
var finalScore = Math.floor(totalBase * matchMultiplier * game.scoreManager.chainMultiplier);
// Show final score floating up
var totalText = new Text2("+" + finalScore, {
size: 150,
fill: 0x00FFFF
});
totalText.anchor.set(0.5);
totalText.x = 2048 / 2;
totalText.y = 2732 / 2;
game.addChild(totalText);
tween(totalText, {
y: 100,
alpha: 0
}, {
duration: 1500,
onFinish: function onFinish() {
totalText.destroy();
game.scoreManager.addScore(finalScore);
}
});
// Show multiplier text if applicable
if (matchMultiplier > 1 || game.scoreManager.chainMultiplier > 1) {
var multiplierText = new Text2("Match x" + matchMultiplier.toFixed(1) + (game.scoreManager.chainMultiplier > 1 ? " Chain x" + game.scoreManager.chainMultiplier.toFixed(1) : ""), {
size: 120,
fill: 0x00FFFF
});
multiplierText.anchor.set(0.5);
multiplierText.x = 2048 / 2;
multiplierText.y = 2732 / 2 + 100;
game.addChild(multiplierText);
tween(multiplierText, {
y: multiplierText.y - 50,
alpha: 0
}, {
duration: 1200,
onFinish: function onFinish() {
multiplierText.destroy();
}
});
}
}
}, matches.length * 150 + 1000);
};
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);
}
// Star particles
for (var i = 0; i < 8; i++) {
var star = new PollenParticle().init('star');
var angle = i / 8 * Math.PI * 2;
star.x = worldPos.x;
star.y = worldPos.y;
game.addChild(star);
}
};
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 + 0.02 * 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',
'star': 'StarParticle' // Add this line
};
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;
};
} else if (self.type === 'star') {
self.scale.set(1 + Math.random() * 0.2);
self.decayRate = 0.015; // Slower decay for more visible effect
// Add sparkle rotation
self.rotationSpeed = (Math.random() - 0.5) * 0.4; // Faster rotation than normal particles
self.alpha = 1;
// Add velocity setup like other particle types
var angle = Math.random() * Math.PI * 2;
var speed = 12 + Math.random() * 4; // Higher speed for farther travel
self.velocity = {
x: Math.cos(angle) * speed,
y: Math.sin(angle) * speed
};
}
// 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
// Reset chain after 2 seconds
if (self.chainResetTimer) {
LK.clearTimeout(self.chainResetTimer);
}
self.chainResetTimer = LK.setTimeout(function () {
self.resetChain();
}, 2000);
};
self.resetChain = function () {
self.currentChain = 0;
self.chainMultiplier = 1;
};
self.getFlowerBasePoints = function (flowerColor) {
var hybridColors = ['purple', 'green', 'orange'];
return hybridColors.includes(flowerColor) ? self.HYBRID_FLOWER_POINTS : self.BASIC_FLOWER_POINTS;
};
self.getMatchMultiplier = function (matchSize) {
if (matchSize <= 3) {
return 1;
}
if (matchSize === 4) {
return 1.5;
}
if (matchSize === 5) {
return 2;
}
return 2.5; // 6 or more
};
self.addScore = function (points) {
self.currentScore += Math.floor(points);
if (game.scoreDisplay) {
game.scoreDisplay.setText(self.currentScore.toString());
}
};
self.calculateScore = function (matches) {
matches.forEach(function (match) {
var basePoints = self.getFlowerBasePoints(match.flower.color);
var matchMultiplier = self.getMatchMultiplier(matches.length);
var totalPoints = basePoints * matchMultiplier * self.chainMultiplier;
self.addScore(totalPoints);
});
};
});
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;
// Immediately clear grid positions
matches.forEach(function (match) {
if (garden.grid[match.y][match.x] === match.flower) {
garden.grid[match.y][match.x] = null;
}
});
// Handle animation separately
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;
// Use the standard matching system
game.flowerMatcher.clearMatches(garden, matches);
};
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 ===================================================================
--- original.js
+++ change.js
@@ -837,9 +837,53 @@
// After all flowers, show total score
LK.setTimeout(function () {
if (game.scoreManager) {
game.scoreManager.addToChain();
- game.scoreManager.addScore(matches.length * 100); // We can update this calculation later
+ // Calculate total with multipliers
+ var totalBase = matches.reduce(function (sum, m) {
+ return sum + game.scoreManager.getFlowerBasePoints(m.flower.color);
+ }, 0);
+ var matchMultiplier = game.scoreManager.getMatchMultiplier(matches.length);
+ var finalScore = Math.floor(totalBase * matchMultiplier * game.scoreManager.chainMultiplier);
+ // Show final score floating up
+ var totalText = new Text2("+" + finalScore, {
+ size: 150,
+ fill: 0x00FFFF
+ });
+ totalText.anchor.set(0.5);
+ totalText.x = 2048 / 2;
+ totalText.y = 2732 / 2;
+ game.addChild(totalText);
+ tween(totalText, {
+ y: 100,
+ alpha: 0
+ }, {
+ duration: 1500,
+ onFinish: function onFinish() {
+ totalText.destroy();
+ game.scoreManager.addScore(finalScore);
+ }
+ });
+ // Show multiplier text if applicable
+ if (matchMultiplier > 1 || game.scoreManager.chainMultiplier > 1) {
+ var multiplierText = new Text2("Match x" + matchMultiplier.toFixed(1) + (game.scoreManager.chainMultiplier > 1 ? " Chain x" + game.scoreManager.chainMultiplier.toFixed(1) : ""), {
+ size: 120,
+ fill: 0x00FFFF
+ });
+ multiplierText.anchor.set(0.5);
+ multiplierText.x = 2048 / 2;
+ multiplierText.y = 2732 / 2 + 100;
+ game.addChild(multiplierText);
+ tween(multiplierText, {
+ y: multiplierText.y - 50,
+ alpha: 0
+ }, {
+ duration: 1200,
+ onFinish: function onFinish() {
+ multiplierText.destroy();
+ }
+ });
+ }
}
}, matches.length * 150 + 1000);
};
self.createPetalBurst = function (x, y, color) {
Images
:quality(85)/https://cdn.frvr.ai/675fb3c1eb1e8cb9a4112fb4.png%3F3)
:quality(85)/https://cdn.frvr.ai/67604e69394bb361d165758f.png%3F3)
:quality(85)/https://cdn.frvr.ai/676638cb4ce3d4700e55cef8.png%3F3)
:quality(85)/https://cdn.frvr.ai/6768bb993969eb2f8c9d5781.png%3F3)
:quality(85)/https://cdn.frvr.ai/676ad857dfc38c00f0691876.png%3F3)
:quality(85)/https://cdn.frvr.ai/6771a7b0be357fedb13ec613.png%3F3)
:quality(85)/https://cdn.frvr.ai/677424ee0b06d268b311d6de.png%3F3)
:quality(85)/https://cdn.frvr.ai/677459fb8856ec591856c24d.png%3F3)
:quality(85)/https://cdn.frvr.ai/6774986f14fadecad08c78ff.png%3F3)
A background image for a puzzle video game depicting the season of summer. Cartoon. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/6774991214fadecad08c7913.png%3F3)
A background image for a puzzle video game depicting the season of fall. Cartoon. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/677623decabf43fc38e2887a.png%3F3)
A background image for a puzzle video game depicting the season of winter. Cartoon. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/6776e9a73ed42f57c4b74dd0.png%3F3)
:quality(85)/https://cdn.frvr.ai/6777f8a8c2eb664b159d0229.png%3F3)
:quality(85)/https://cdn.frvr.ai/6778722c19c320b36882d4c9.png%3F3)
:quality(85)/https://cdn.frvr.ai/6779f4303996aa5d31f12c97.png%3F3)
:quality(85)/https://cdn.frvr.ai/677a1037bbf1781eb1f79033.png%3F3)
:quality(85)/https://cdn.frvr.ai/677aa8fba48fbad28469aaca.png%3F3)
:quality(85)/https://cdn.frvr.ai/677aa92aa48fbad28469aacf.png%3F3)
:quality(85)/https://cdn.frvr.ai/677aa953a48fbad28469aad3.png%3F3)
:quality(85)/https://cdn.frvr.ai/677dd360dfb83faebb9c5c84.png%3F3)
Multiple stylized texts with phrases that include “Hurry!” “Time’s up!” Cartoon style.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/6781ec79024f02776bf3bea3.png%3F3)
:quality(85)/https://cdn.frvr.ai/6782a5c68ba7f8daef32bc2a.png%3F3)
Create a SVG text design in bold cartoon style: "SPRING" in chunky rounded letters with floral accents and vines. Use spring pastels.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/6782a6e18ba7f8daef32bc39.png%3F3)
Create an SVG text design for "SUMMER" in bold cartoon style with chunky rounded letters. Add sun rays and small flower details in warm, vibrant colors.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/6782a7468ba7f8daef32bc44.png%3F3)
Create an SVG text design for "FALL" in bold cartoon style with chunky rounded letters. Add small falling leaves and acorn accents in warm autumn colors.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/6782aa9d8ba7f8daef32bd29.png%3F3)
Create an SVG text design for "WINTER" in bold cartoon style with chunky rounded letters. Add small snowflake accents and icy details in cool, frosty blues and white.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/6782e460575eaeb89beab841.png%3F3)
Create a SVG text design in bold cartoon style: “Bloom the garden" in chunky rounded letters with floral accents and vines. Use spring pastels.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/6782e837575eaeb89beab933.png%3F3)
Create an SVG text design for "Match the blooms" in bold cartoon style with chunky rounded letters. Add sun rays and small flower details in warm, vibrant colors.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/6782eb9a575eaeb89beab9d8.png%3F3)
Create an SVG text design for "Match to clear leaves" in bold cartoon style with chunky rounded letters. Add small falling leaves and acorn accents in warm autumn colors.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/6782ee12575eaeb89beaba56.png%3F3)
Create an SVG text design for "DANCE TO STAY WARM" in bold cartoon style with chunky rounded letters. Add small snowflake accents and icy details in cool, frosty blues and white.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
:quality(85)/https://cdn.frvr.ai/678430171ed441515be1329e.png%3F3)
:quality(85)/https://cdn.frvr.ai/678816b46a5f22f0ab8d83c1.png%3F3)
:quality(85)/https://cdn.frvr.ai/6788183d6a5f22f0ab8d83e6.png%3F3)
:quality(85)/https://cdn.frvr.ai/67881afa6a5f22f0ab8d8411.png%3F3)
:quality(85)/https://cdn.frvr.ai/67881e286a5f22f0ab8d846e.png%3F3)
:quality(85)/https://cdn.frvr.ai/678820736a5f22f0ab8d848c.png%3F3)
:quality(85)/https://cdn.frvr.ai/67883ab06a5f22f0ab8d84bc.png%3F3)
:quality(85)/https://cdn.frvr.ai/678be9537acf69d38a885dbf.png%3F3)
Create a SVG text design in bold cartoon style: "SEASON COMPLETE!" in chunky rounded letters with stars around it . Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.
