/**** 
* Plugins
****/ 
var tween = LK.import("@upit/tween.v1");
var storage = LK.import("@upit/storage.v1", {
	score: 0,
	autoClickerCount: 0,
	upgradeMultiplier: 1,
	isMiniGameRunning: 0
});

/**** 
* Classes
****/ 
// AutoClicker class
var AutoClicker = Container.expand(function () {
	var self = Container.call(this);
	self.startAutoClicking = function () {
		self.autoClickerInterval = LK.setInterval(function () {
			if (self.autoClickerCount > 0) {
				bigCake.emit('down'); // Trigger the 'down' event on bigCake to simulate a click
			}
			if (self.autoClickerCount > 1 && self.autoClickerCount < autoClicksPerSecond.length) {
				bigCake.emit('down'); // Trigger the 'down' event on bigCake to simulate a click
				currentScore += upgradeMultiplier[upgradeLevel] * autoClicksPerSecond[self.autoClickerCount]; // Increment score by the upgrade multiplier per click
				score.updateScore(currentScore);
				storage.score = currentScore; // Save the updated score
				storage.timestamp = Date.now(); // Save the current timestamp
			}
		}, 1000);
	};
	// Create a shadow effect by adding a black tinted, semi-transparent duplicate of autoClickerGraphics
	var shadowGraphics = self.attachAsset('autoClicker', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	shadowGraphics.tint = 0x000000; // Tint the shadow black
	shadowGraphics.alpha = 0.5; // Make the shadow semi-transparent
	shadowGraphics.y = 10; // Position the shadow slightly below the autoClicker button
	self.addChild(shadowGraphics);
	var autoClickerGraphics = self.attachAsset('autoClicker', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	// Add 'Worker' text above the auto clicker image
	var workerLabel = new Text2('Worker', {
		size: 60,
		fill: 0x1E90FF,
		// Match price text color
		fontWeight: '900',
		dropShadow: true,
		dropShadowColor: 0x000000,
		dropShadowBlur: 5,
		dropShadowDistance: 5
	});
	workerLabel.anchor.set(0.5, 1); // Center the text horizontally and align it to the bottom
	workerLabel.fill = 0x0000FF; // Change text color to blue
	workerLabel.y = autoClickerGraphics.y - autoClickerGraphics.height / 2 - 10; // Adjust text position to -10 above the auto clicker image
	self.addChild(workerLabel);
	// Attach the toque image on top of the auto clicker button
	var toqueGraphics = self.attachAsset('toque', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	toqueGraphics.y = 0; // Move the toque slightly higher on the auto clicker
	self.addChild(toqueGraphics);
	self.cost = 100; // Initial cost of the auto clicker
	self.autoClickerCount = 0;
	self.stars = []; // Array to store the list of stars
	var priceText = new Text2('$' + self.cost, {
		size: 80,
		fill: 0x1E90FF,
		fontWeight: '900',
		// Make the text bolder
		dropShadow: true,
		// Enable drop shadow
		dropShadowColor: 0x000000,
		// Set drop shadow color to black
		dropShadowBlur: 5,
		// Set drop shadow blur
		dropShadowDistance: 5 // Set drop shadow distance
	});
	priceText.setText('$' + self.cost); // Update the price text to reflect the current cost
	priceText.anchor.set(0.5, 0);
	priceText.x = 0;
	priceText.y = autoClickerGraphics.height / 2 + 0; // Position text below the auto clicker button
	self.addChild(priceText);
	self.updatePriceText = function () {
		priceText.setText(formatPrice(self.cost)); // Update the price text to reflect the current cost
	};
	self.initStars = function () {
		// Clear existing stars
		self.stars.forEach(function (star) {
			star.destroy();
		});
		self.stars = [];
		// Create new stars based on autoClickerCount
		for (var i = 0; i < self.autoClickerCount; i++) {
			var star = self.attachAsset('etoile', {
				anchorX: 0.5,
				anchorY: 0.5
			});
			star.y = toqueGraphics.y + toqueGraphics.height / 2 + star.height / 2;
			self.stars.push(star);
		}
		self.displayStars(); // Update positions of all stars based on the current count
	};
	self.displayStars = function () {
		// Update positions of all stars based on the current count
		self.stars.forEach(function (star, index) {
			if (self.autoClickerCount === 1) {
				star.x = 0; // Position the first star at x = 0
			} else if (self.autoClickerCount === 2) {
				star.x = index === 0 ? -30 : 30; // Position the second star at x = -60 and the third at x = 60
			} else if (self.autoClickerCount === 3) {
				star.x = index === 0 ? -70 : index === 1 ? 0 : 70;
				star.y = index === 0 ? 70 : index === 1 ? 100 : 70;
			} else if (self.autoClickerCount > 3) {
				var angle = index * (Math.PI * 2 / self.autoClickerCount);
				star.x = Math.cos(angle) * 100; // x varies between -100 and 100
				star.y = Math.sin(angle) * 100; // y varies between -100 and 100
			}
		});
	};
	self.onClick = function () {
		if (currentScore >= self.cost && self.autoClickerCount < 9) {
			currentScore -= self.cost; // Deduct the cost from the current score
			score.updateScore(currentScore); // Update the score display
			self.autoClickerCount += 1; // Increase the number of auto clickers
			// Add a star under the toque for each upgrade, up to 3 stars
			if (self.autoClickerCount <= 9) {
				var star = self.attachAsset('etoile', {
					anchorX: 0.5,
					anchorY: 0.5
				});
				star.y = toqueGraphics.y + toqueGraphics.height / 2 + star.height / 2; // Position the star under the toque
				self.stars.push(star); // Add the star to the stars array
			}
			self.displayStars(); // Update positions of all stars based on the current count
			storage.autoClickerCount = self.autoClickerCount; // Save the updated auto clicker count
			if (self.autoClickerCount === 1) {
				self.startAutoClicking(); // Start auto clicking only when the first auto clicker is purchased
			}
			self.cost = autoClickerPrices[Math.min(self.autoClickerCount, autoClickerPrices.length - 1)]; // Update the cost using the autoClickerPrices array
			storage.autoClickerCost = self.cost; // Save the updated auto clicker cost
			self.updatePriceText(); // Update the price text to reflect the new cost
			LK.getSound('buyAutoclickerSound').play(); // Play buyAutoclickerSound when an autoclicker is purchased
			// Animate the autoClicker button
			tween(autoClickerGraphics, {
				scaleX: 0.9,
				scaleY: 0.9
			}, {
				duration: 100,
				easing: tween.easeInOut,
				onFinish: function onFinish() {
					tween(autoClickerGraphics, {
						scaleX: 1,
						scaleY: 1
					}, {
						duration: 100,
						easing: tween.easeInOut
					});
				}
			});
			// Animate the shadowGraphics in the same way
			tween(shadowGraphics, {
				scaleX: 0.9,
				scaleY: 0.9
			}, {
				duration: 100,
				easing: tween.easeInOut,
				onFinish: function onFinish() {
					tween(shadowGraphics, {
						scaleX: 1,
						scaleY: 1
					}, {
						duration: 100,
						easing: tween.easeInOut
					});
				}
			});
			// Animate the toqueGraphics in the same way
			tween(toqueGraphics, {
				scaleX: 0.9,
				scaleY: 0.9
			}, {
				duration: 100,
				easing: tween.easeInOut,
				onFinish: function onFinish() {
					tween(toqueGraphics, {
						scaleX: 1,
						scaleY: 1
					}, {
						duration: 100,
						easing: tween.easeInOut
					});
				}
			});
		} else {
			tween(self, {
				alpha: 0.2
			}, {
				duration: 100,
				easing: tween.easeInOut,
				onFinish: function onFinish() {
					tween(self, {
						alpha: 1
					}, {
						duration: 100,
						easing: tween.easeInOut,
						onFinish: function onFinish() {
							tween(self, {
								alpha: 0.2
							}, {
								duration: 100,
								easing: tween.easeInOut,
								onFinish: function onFinish() {
									tween(self, {
										alpha: 1
									}, {
										duration: 100,
										easing: tween.easeInOut
									});
								}
							});
						}
					});
				}
			});
			LK.getSound('errorsond').play(); // Play error sound
		}
	};
});
// BigCake class
var BigCake = Container.expand(function () {
	var self = Container.call(this);
	var bigCakeGraphics = self.attachAsset('bigCake', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.on('down', function (x, y, obj) {
		// Use ConfettiManager to create confetti effect
		confettiManager.popCakes(self.x, self.y, 5);
		LK.getSound('clickSound').play();
		currentScore += upgradeMultiplier[upgradeLevel]; // Increment score by the upgrade multiplier per click
		score.updateScore(currentScore);
		storage.score = currentScore; // Save the updated score
		storage.timestamp = Date.now(); // Save the current timestamp
		// Add a bump animation
		tween(self, {
			scaleX: 1.2,
			scaleY: 1.2
		}, {
			duration: 200,
			easing: tween.easeOut,
			onFinish: function onFinish() {
				tween(self, {
					scaleX: 1,
					scaleY: 1
				}, {
					duration: 200,
					easing: tween.easeIn
				});
			}
		});
		// Removed the creation of falling cakes
	});
});
// Board class
var Board = Container.expand(function () {
	var self = Container.call(this);
	self.boardGraphics = self.attachAsset('board', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.boardGraphics.alpha = 1; // Make the board fully opaque
	self.addChild(self.boardGraphics);
});
// BonusCake class
var BonusCake = Container.expand(function () {
	var self = Container.call(this);
	self.speedY = -10; // Initial upward speed
	self.gravity = 0.2; // Gravity effect
	self.speedX = (Math.random() - 0.5) * 10; // Random horizontal speed
	var bonusCakeGraphics = self.attachAsset('bonusCake', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.on('down', function (x, y, obj) {
		LK.setTimeout(function () {
			LK.getSound('cheers').play(); // Play cheers sound after 1 second
		}, 1000);
		// Flash screen white for 500ms when bonus cake is clicked
		LK.effects.flashScreen(0xffffff, 500);
		LK.getSound('bonusSound').play(); // Play bonus sound
		// Define what happens when the bonus cake is clicked
		var clickCount = 0;
		var clickInterval = LK.setInterval(function () {
			if (clickCount < 100) {
				bigCake.emit('down'); // Trigger the 'down' event on bigCake to simulate a click
				clickCount++;
			} else {
				LK.clearInterval(clickInterval);
			}
		}, 100); // 100ms delay between each click
		LK.getSound('clickSound').play(); // Play click sound
		tween(self, {
			scaleX: 20,
			scaleY: 20,
			alpha: 0
		}, {
			duration: 3000,
			easing: tween.easeOut,
			onFinish: function onFinish() {
				self.destroy(); // Remove the bonus cake after animation
			}
		});
	});
	self.update = function () {
		self.rotation += 0.1; // Rotate the bonus cake while it falls
		self.y += self.speedY;
		self.x += self.speedX;
		self.speedY += self.gravity; // Apply gravity
		if (self.y > 2732 + self.height / 2) {
			self.destroy(); // Remove the bonus cake if it goes off-screen
		}
	};
});
var BonusCakeManager = Container.expand(function () {
	var self = Container.call(this);
	self.popBonus = function () {
		LK.getSound('ohoh').play(); // Play 'ohoh' sound when BonusCake appears
		var bonusCake = new BonusCake();
		bonusCake.x = bigCake.x;
		bonusCake.y = bigCake.y;
		foregroundContainer.addChild(bonusCake);
	};
	self.start = function () {
		function triggerPopBonus() {
			self.popBonus();
			var randomInterval = 120000 + Math.random() * 60000; // Random interval between 3min (180000ms) and 6min (360000ms)
			LK.setTimeout(triggerPopBonus, randomInterval);
		}
		triggerPopBonus();
	};
});
// CakeMachine class
var CakeMachine = Container.expand(function () {
	var self = Container.call(this);
	self.canonCake = self.attachAsset('cakePipe', {
		anchorX: 0.5,
		anchorY: 1
	});
	self.canonCake.x = 10;
	self.canonCake.y = -850;
	self.addChild(self.canonCake);
	// Attacher l'asset de la machine à gâteaux
	var cakeMachineGraphics = self.attachAsset('cakeMachine', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	// Attach lightCentral asset
	var lightCentralGraphics = self.attachAsset('lightCentral', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	lightCentralGraphics.x = -5;
	lightCentralGraphics.y = 495;
	self.addChild(lightCentralGraphics);
	var lightUpperGraphics = self.attachAsset('lightCentral', {
		anchorX: 0.5,
		anchorY: 0.5,
		width: 100,
		height: 100
	});
	lightUpperGraphics.x = -3;
	lightUpperGraphics.y = -222;
	self.addChild(lightUpperGraphics);
	// Attach lightSide asset
	var lightSideGraphics1 = self.attachAsset('lightSide', {
		anchorX: 0.5,
		anchorY: 0.5,
		scaleX: -1
	});
	lightSideGraphics1.x = 438;
	lightSideGraphics1.y = 388;
	self.addChild(lightSideGraphics1);
	// Animate lightUpperGraphics transparency and rotation
	function animateLightUpper() {
		tween(lightUpperGraphics, {
			alpha: 0.2,
			rotation: -Math.PI * 4 // Full rotation
		}, {
			duration: 1000,
			easing: tween.easeInOut,
			onFinish: function onFinish() {
				tween(lightUpperGraphics, {
					alpha: 1,
					rotation: 0 // Reset rotation
				}, {
					duration: 1000,
					easing: tween.easeInOut,
					onFinish: animateLightUpper // Restart the animation loop
				});
			}
		});
	}
	animateLightUpper();
	var lightSideGraphics2 = self.attachAsset('lightSide', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	lightSideGraphics2.x = -440;
	lightSideGraphics2.y = 390;
	self.addChild(lightSideGraphics2);
	// État de la machine
	self.isActive = false;
	// Méthode pour activer la machine
	self.activate = function () {
		self.isActive = true;
	};
	// Méthode pour désactiver la machine
	self.deactivate = function () {
		self.isActive = false;
	};
	// Animate lightCentral transparency and rotation
	function animateLightCentral() {
		tween(lightCentralGraphics, {
			alpha: 0.2,
			rotation: Math.PI * 2 // Full rotation
		}, {
			duration: 1000,
			easing: tween.easeInOut,
			onFinish: function onFinish() {
				tween(lightCentralGraphics, {
					alpha: 1,
					rotation: 0 // Reset rotation
				}, {
					duration: 1000,
					easing: tween.easeInOut,
					onFinish: animateLightCentral // Restart the animation loop
				});
			}
		});
	}
	animateLightCentral();
	// Animate lightSide1 transparency
	function animateLightSide1() {
		tween(lightSideGraphics1, {
			alpha: 0.2
		}, {
			duration: 1000,
			easing: tween.easeInOut,
			onFinish: function onFinish() {
				tween(lightSideGraphics1, {
					alpha: 1
				}, {
					duration: 1000,
					easing: tween.easeInOut,
					onFinish: animateLightSide1 // Restart the animation loop
				});
			}
		});
	}
	animateLightSide1();
	// Animate lightSide2 transparency
	function animateLightSide2() {
		tween(lightSideGraphics2, {
			alpha: 0.2
		}, {
			duration: 1000,
			easing: tween.easeInOut,
			onFinish: function onFinish() {
				tween(lightSideGraphics2, {
					alpha: 1
				}, {
					duration: 1000,
					easing: tween.easeInOut,
					onFinish: animateLightSide2 // Restart the animation loop
				});
			}
		});
	}
	animateLightSide2();
	return self;
});
var CakeRainManager = Container.expand(function () {
	var self = Container.call(this);
	self.cakes = [];
	self.spawnCake = function () {
		if (isMiniGameRunning !== 1) {
			return; // Stop updating if not in mini-game mode 1
		}
		var cake = self.attachAsset('cake_' + upgradeLevel, {
			anchorX: 0.5,
			anchorY: 0.5
		});
		cake.scaleX = 1.2;
		cake.scaleY = 1.2;
		cake.x = Math.random() * 2048;
		cake.y = -cake.height / 2;
		cake.speedY = 5 + Math.random() * 5;
		cake.assetId = 'cake_' + upgradeLevel; // Store asset ID for mini cakes
		cake.on('down', function (x, y, obj) {
			var cutEffect = new CutEffect();
			cutEffect.show(cake.x, cake.y);
			miniGameMiddlegroundContainer.addChild(cutEffect);
			var miniCake1 = new MiniCake(cake);
			var miniCake2 = new MiniCake(cake);
			miniCake1.x = cake.x - 20;
			miniCake1.y = cake.y;
			miniCake2.x = cake.x + 20;
			miniCake2.y = cake.y;
			miniGameMiniCakes.push(miniCake1, miniCake2);
			miniGameMiddlegroundContainer.addChild(miniCake1);
			miniGameMiddlegroundContainer.addChild(miniCake2);
			LK.getSound('CutSound').play(); // Play cut sound when a cake is cut
			var index = miniGameCurrentCakes.indexOf(cake);
			if (index !== -1) {
				miniGameCurrentCakes.splice(index, 1);
			}
			cake.destroy();
		});
		var boundingBox = self.attachAsset('boundingBox', {
			anchorX: 0.5,
			anchorY: 0.5,
			alpha: 0
		});
		cake.borderBox = boundingBox;
		cake.addChild(boundingBox);
		self.cakes.push(cake);
		miniGameCurrentCakes.push(cake);
		miniGameMiddlegroundContainer.addChild(cake);
	};
	self.update = function () {
		if (isMiniGameRunning !== 1) {
			return; // Stop updating if not in mini-game mode 1
		}
		for (var i = self.cakes.length - 1; i >= 0; i--) {
			var cake = self.cakes[i];
			cake.y += cake.speedY;
			if (cake.y > 2732 + cake.height / 2) {
				// Trouver et retirer le gâteau du tableau miniGameCurrentCakes
				var index = miniGameCurrentCakes.indexOf(cake);
				if (index !== -1) {
					miniGameCurrentCakes.splice(index, 1);
				}
				cake.destroy();
				self.cakes.splice(i, 1);
			}
		}
	};
	self.start = function () {
		LK.setInterval(self.spawnCake, 1000);
	};
});
var Confetti = Container.expand(function (cakeIndex) {
	var self = Container.call(this);
	cakeIndex = cakeIndex ? cakeIndex : 0;
	var confettiGraphics = self.attachAsset('cake_' + Math.max(0, Math.min(cakeIndex, 9)), {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.assetId = 'cake_' + Math.max(0, Math.min(cakeIndex, 9)); // Store asset ID for mini cakes
	self.speedY = -15; // Initial upward speed
	self.speedX = (Math.random() - 0.5) * 10; // Random horizontal speed
	self.gravity = 0.5;
	self.update = function () {
		self.speedY += self.gravity;
		self.y += self.speedY;
		self.x += self.speedX;
		self.rotation += (Math.random() - 0.5) * 0.1;
		if (self.y > 2732 + self.height / 2) {
			self.destroy();
		}
	};
	// Add click/tap event to cut the confetti cake
	self.on('down', function (x, y, obj) {
		// Create cut effect
		var cutEffect = new CutEffect();
		cutEffect.show(self.x, self.y);
		middleContainer.addChild(cutEffect);
		// Create two mini cakes
		var miniCake1 = new MiniCake(self);
		var miniCake2 = new MiniCake(self);
		miniCake1.x = self.x - 20;
		miniCake1.y = self.y;
		miniCake2.x = self.x + 20;
		miniCake2.y = self.y;
		middleContainer.addChild(miniCake1);
		middleContainer.addChild(miniCake2);
		// Play cut sound
		LK.getSound('CutSound').play();
		// Remove the original confetti
		self.destroy();
	});
});
var ConfettiManager = Container.expand(function () {
	var self = Container.call(this);
	self.popCakes = function (x, y, numConfetti) {
		for (var i = 0; i < numConfetti; i++) {
			var confetti = middleContainer.addChild(new Confetti(upgradeLevel));
			confetti.x = x;
			confetti.y = y;
		}
	};
});
var CutEffect = Container.expand(function () {
	var self = Container.call(this);
	var cutEffectGraphics = self.attachAsset('cutEffect', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	cutEffectGraphics.alpha = 0; // Start with the effect invisible
	self.show = function (x, y) {
		self.x = x;
		self.y = y;
		cutEffectGraphics.alpha = 1; // Make the effect visible
		cutEffectGraphics.scaleX = 1.5; // Enlarge the effect horizontally
		cutEffectGraphics.scaleY = 1.5; // Enlarge the effect vertically
		cutEffectGraphics.rotation = (Math.random() - 0.5) * Math.PI / 2; // Randomize rotation within +/- 45 degrees
		tween(cutEffectGraphics, {
			alpha: 0
		}, {
			duration: 500,
			// Fade out over 500ms
			easing: tween.easeOut,
			onFinish: function onFinish() {
				self.destroy(); // Remove the effect after fading out
			}
		});
	};
});
var Dwarf = Container.expand(function (dwarfIndex) {
	var self = Container.call(this);
	// Stocker l'index du nain
	self.dwarfIndex = dwarfIndex || 0;
	// Propriété pour identifier le mini-jeu auquel appartient le nain
	self.miniGame = 1; // Par défaut, appartient au mini-jeu 1
	// Index du gâteau ciblé actuellement (-1 signifie aucun gâteau ciblé)
	self.targetCakeIndex = -1;
	// Attach assets for full and empty states
	var dwarfFullFrame1 = self.attachAsset('dwarf_full_frame_1', {
		anchorX: 0.5,
		anchorY: 1.0
	});
	var dwarfFullFrame2 = self.attachAsset('dwarf_full_frame_2', {
		anchorX: 0.5,
		anchorY: 1.0
	});
	var dwarfEmptyFrame1 = self.attachAsset('dwarf_empty_frame_1', {
		anchorX: 0.5,
		anchorY: 1.0
	});
	var dwarfEmptyFrame2 = self.attachAsset('dwarf_empty_frame_2', {
		anchorX: 0.5,
		anchorY: 1.0
	});
	// Initial visibility
	dwarfEmptyFrame1.visible = false;
	dwarfEmptyFrame2.visible = true;
	dwarfFullFrame1.visible = false;
	dwarfFullFrame2.visible = false;
	// State and animation properties
	self.state = 'empty'; // Initial state
	self.jumpPlayed = false; // Flag to ensure jump animation is played only once
	self.currentFrame = dwarfFullFrame1;
	self.animationCounter = 0;
	self.animationDelay = 3;
	// Movement properties
	var threshold = 50;
	var baseSpeed = 7; // Reduced base speed for smoother movement
	var edgeMargin = 100; // Margin from the edges to prevent trembling
	self.x = 1024;
	self.speedX = 7;
	self.targetX = self.x;
	self.lastX = self.x;
	self.targetCooldown = 0; // Cooldown counter for changing targets
	self.maxTargetCooldown = 60; // 60 frames = 1 seconde à 60 FPS
	self.idleTime = 0; // Compteur pour le temps d'inactivité
	self.maxIdleTime = 30; // Temps maximum d'inactivité avant de chercher activement une cible
	self.waitingAtCenter = false;
	// Update function for movement and animation
	self.update = function () {
		if (isMiniGameRunning !== 1 && isMiniGameRunning !== 2 || self.isSquashing) {
			return;
		} // Only update if the mini-game or third game is active and not being squashed
		// Comportement spécifique au troisième jeu
		if (isMiniGameRunning === 2 && self.miniGame === 2) {
			self.speedX = 10;
			// Animation du nain seulement s'il n'est pas en attente
			if (!self.waitingAtCenter) {
				self.animationCounter++;
				if (self.animationCounter >= self.animationDelay) {
					self.animationCounter = 0;
					if (self.state === 'full') {
						dwarfFullFrame1.visible = !dwarfFullFrame1.visible;
						dwarfFullFrame2.visible = !dwarfFullFrame2.visible;
						dwarfEmptyFrame1.visible = false;
						dwarfEmptyFrame2.visible = false;
					} else {
						dwarfEmptyFrame1.visible = !dwarfEmptyFrame1.visible;
						dwarfEmptyFrame2.visible = !dwarfEmptyFrame2.visible;
						dwarfFullFrame1.visible = false;
						dwarfFullFrame2.visible = false;
					}
				}
			}
			self.currentFrame = dwarfFullFrame1.visible ? dwarfFullFrame1 : dwarfFullFrame2.visible ? dwarfFullFrame2 : dwarfEmptyFrame1.visible ? dwarfEmptyFrame1 : dwarfEmptyFrame2;
			self.currentFrame.scaleX = -1;
			// Gestion du comportement du nain dans le troisième jeu
			if (self.state === 'full') {
				// Le nain se déplace vers x=1024
				if (self.x > 950) {
					self.x -= self.speedX;
				} else if (!self.waitingAtCenter) {
					// Arrivé au centre, attendre 1 seconde
					self.waitingAtCenter = true;
					// Create a miniCake at the dwarf's position
					var miniCake = new MiniCake(self);
					miniCake.x = self.x + 70;
					miniCake.y = self.y - 70;
					thirdGameMiddlegroundContainer.addChild(miniCake);
					// Activate the cake machine when a mini cake is placed
					thirdGameCakeMachine.activate();
					// Animate the miniCake upwards and remove it
					tween(miniCake, {
						y: miniCake.y - 400
					}, {
						duration: 1000,
						easing: tween.easeOut,
						onFinish: function onFinish() {
							tween(miniCake, {
								scaleX: 0,
								// Reduce size to 0
								scaleY: 0,
								// Reduce size to 0
								alpha: 0
							}, {
								duration: 1000,
								easing: tween.easeOut,
								onFinish: function onFinish() {
									miniCake.destroy();
								}
							});
						}
					});
					LK.setTimeout(function () {
						// Après 1 seconde, passer en mode empty et continuer
						self.state = 'empty';
						dwarfFullFrame1.visible = false;
						dwarfFullFrame2.visible = false;
						dwarfEmptyFrame1.visible = true;
						dwarfEmptyFrame2.visible = false;
						self.waitingAtCenter = false;
					}, 1000);
				}
			} else {
				// En mode empty, continuer jusqu'à x=-300
				if (self.x > -300) {
					self.x -= self.speedX;
				} else {
					// Réinitialiser le nain à droite en mode full
					self.x = 2300;
					self.state = 'full';
					dwarfFullFrame1.visible = true;
					dwarfFullFrame2.visible = false;
					dwarfEmptyFrame1.visible = false;
					dwarfEmptyFrame2.visible = false;
				}
			}
			return; // Ne pas exécuter le reste du code pour le mini-jeu
		}
		// Comportement original du mini-jeu (isMiniGameRunning === 1)
		if (isMiniGameRunning === 1 && self.miniGame === 1) {
			// Check if the dwarf reaches x = -300 and switch mode from full to empty
			if (self.x <= -300 && self.state === 'full') {
				self.state = 'empty';
				self.x = 2348;
				self.y = 2732 - 180; // Réinitialiser la position Y
				dwarfEmptyFrame1.visible = true;
				dwarfEmptyFrame2.visible = false;
				dwarfFullFrame1.visible = false;
				dwarfFullFrame2.visible = false;
				self.jumpPlayed = false; // Reset jump animation flag
				self.targetCooldown = 0; // Forcer la recherche d'une nouvelle cible immédiatement
				self.speedX = 7; // Réinitialiser la vitesse
			}
			// Decrement cooldown if active
			if (self.targetCooldown > 0) {
				self.targetCooldown--;
			}
			// Si le nain est immobile, incrémenter le compteur d'inactivité
			if (Math.abs(self.speedX) < 0.1) {
				self.idleTime++;
			} else {
				self.idleTime = 0;
			}
			// Si le nain est inactif depuis trop longtemps, forcer la recherche d'une nouvelle cible
			if (self.idleTime >= self.maxIdleTime) {
				self.targetCooldown = 0;
				self.idleTime = 0;
			}
			// Move the dwarf towards the closest falling cake on the x-axis
			if (self.state === 'full') {
				self.searchForCakeInFullMode();
			} else {
				self.searchForCakeInEmptyMode();
			}
			// Calculate distance to target
			var distanceToTarget = self.targetX - self.x;
			var absDistance = Math.abs(distanceToTarget);
			if (absDistance > threshold) {
				// Gradually adjust speed based on distance for smoother movement
				var direction = distanceToTarget > 0 ? 1 : -1;
				var speedFactor = Math.min(1, absDistance / 200); // Scale speed based on distance
				self.speedX = direction * baseSpeed * speedFactor;
				self.x += self.speedX;
			} else if (absDistance > 0) {
				// Slow down as we approach the target
				var slowSpeed = baseSpeed * 0.5;
				self.speedX = distanceToTarget > 0 ? Math.min(slowSpeed, distanceToTarget) : Math.max(-slowSpeed, distanceToTarget);
				self.x += self.speedX;
			} else {
				// Si le nain est exactement à la position cible, réinitialiser le cooldown
				// pour qu'il cherche une nouvelle cible au prochain cycle
				self.targetCooldown = 0;
			}
			// Check for intersection with miniCakes
			miniGameMiniCakes.forEach(function (miniCake, index) {
				if (self.intersects(miniCake)) {
					LK.getSound('youpi').play(); // Play 'youpi' sound when a dwarf catches a minicake
					// Enter 'full' mode
					self.state = 'full';
					dwarfEmptyFrame1.visible = false;
					dwarfEmptyFrame2.visible = false;
					dwarfFullFrame1.visible = true;
					dwarfFullFrame2.visible = false;
					// Remove the miniCake
					miniCake.destroy();
					miniGameMiniCakes.splice(index, 1);
				}
			});
			// Check for intersection with non-miniCakes
			if (self.state === 'empty' && !self.isSquashing) {
				miniGameCurrentCakes.forEach(function (cake, index) {
					//self.x >= cake.borderBox.x - cake.borderBox.width / 2 && self.x <= cake.borderBox.x + cake.borderBox.width / 2
					if (cake && cake.y < 2500 && !cake.hasSquashed && self.intersects(cake.borderBox)) {
						cake.hasSquashed = true; // Marquer le gâteau comme ayant déjà écrasé un nain
						self.squashAnimation(cake);
						return;
					}
				});
			}
			// Animate frames
			self.animateFrames();
			// Update lastX
			self.lastX = self.x;
		}
	};
	self.searchForCakeInEmptyMode = function () {
		// Chercher une nouvelle cible si le cooldown est terminé ou si la cible actuelle est invalide
		if (self.targetCooldown === 0 || !self.currentTarget || self.currentTarget.y > 2732 + self.currentTarget.height / 2) {
			if (self.currentTarget && Math.abs(self.x - self.currentTarget.x) < threshold) {
				self.performImpatienceAnimation();
			}
			self.currentTarget = self.findClosestMiniCake() || self.findClosestFallingCake();
			if (self.currentTarget) {
				self.targetCooldown = self.maxTargetCooldown; // Reset cooldown
				self.targetX = self.currentTarget.x;
			} else if (miniGameCurrentCakes.length > 0) {
				// S'il y a des gâteaux mais que findClosestFallingCake n'en a pas trouvé,
				// prendre le premier gâteau disponible comme cible de secours
				self.currentTarget = miniGameCurrentCakes[0];
				self.targetX = self.currentTarget.x;
				self.targetCooldown = self.maxTargetCooldown;
			} else {
				// S'il n'y a vraiment aucun gâteau, faire bouger le nain aléatoirement
				// pour éviter qu'il ne reste immobile
				if (self.idleTime > self.maxIdleTime / 2) {
					self.targetX = Math.random() * (2048 - 2 * edgeMargin) + edgeMargin;
				}
			}
		}
	};
	self.searchForCakeInFullMode = function () {
		if (!self.jumpPlayed) {
			tween(self, {
				y: baseDwarfY - 150
			}, {
				duration: 50,
				easing: tween.easeInOut,
				onFinish: function onFinish() {
					tween(self, {
						y: baseDwarfY
					}, {
						duration: 50,
						easing: tween.easeInOut,
						onFinish: function onFinish() {
							self.speedX = 14; // Increase speed to 10 when in full mode
							self.targetX = -300;
							self.jumpPlayed = true; // Mark the jump animation as played
						}
					});
				}
			});
		}
	};
	self.findClosestFallingCake = function () {
		// Vérifier si le gâteau actuellement ciblé existe toujours
		if (self.targetCakeIndex !== -1) {
			// Parcourir le tableau pour trouver si le gâteau avec cet index existe encore
			var cakeStillExists = false;
			for (var i = 0; i < miniGameCurrentCakes.length; i++) {
				if (miniGameCurrentCakes[i].cakeIndex === self.targetCakeIndex) {
					cakeStillExists = true;
					return miniGameCurrentCakes[i]; // Continuer à cibler le même gâteau
				}
			}
			if (!cakeStillExists) {
				self.targetCakeIndex = -1; // Le gâteau n'existe plus, réinitialiser la cible
			}
		}
		// Chercher un nouveau gâteau à cibler
		var availableCakeIndices = [];
		// Parcourir tous les gâteaux disponibles
		for (var i = 0; i < miniGameCurrentCakes.length; i++) {
			var cake = miniGameCurrentCakes[i];
			// Si le gâteau n'a pas d'index, lui en attribuer un
			if (cake.cakeIndex === undefined) {
				cake.cakeIndex = Math.floor(Math.random() * 10000); // Générer un index unique
			}
			// Vérifier si ce gâteau est déjà ciblé par un autre nain
			var isTargeted = false;
			var isTooCrowded = false;
			for (var j = 0; j < miniGameDwarfs.length; j++) {
				var otherDwarf = miniGameDwarfs[j];
				// Ne pas vérifier le nain actuel
				if (otherDwarf.dwarfIndex !== self.dwarfIndex) {
					// Vérifier si le gâteau est déjà ciblé
					if (otherDwarf.targetCakeIndex === cake.cakeIndex) {
						isTargeted = true;
						break;
					}
					// Vérifier si un autre nain est déjà trop proche de ce gâteau
					if (otherDwarf.targetCakeIndex !== -1 && Math.abs(otherDwarf.x - cake.x) < 300) {
						isTooCrowded = true;
						break;
					}
				}
			}
			// Si le gâteau n'est pas ciblé et n'est pas trop proche d'un autre nain, l'ajouter aux gâteaux disponibles
			if (!isTargeted && !isTooCrowded) {
				availableCakeIndices.push(i); // Stocker l'index dans le tableau miniGameCurrentCakes
			}
		}
		// S'il y a des gâteaux disponibles, en choisir un AU HASARD
		if (availableCakeIndices.length > 0) {
			// Sélectionner un gâteau au hasard parmi les disponibles
			var randomIndex = Math.floor(Math.random() * availableCakeIndices.length);
			var selectedCakeIndex = availableCakeIndices[randomIndex];
			var selectedCake = miniGameCurrentCakes[selectedCakeIndex];
			self.targetCakeIndex = selectedCake.cakeIndex;
			return selectedCake;
		}
		// Si tous les gâteaux sont déjà ciblés ou trop proches d'autres nains,
		// essayer de trouver un gâteau qui n'est pas ciblé, même s'il est proche d'un autre nain
		availableCakeIndices = [];
		for (var i = 0; i < miniGameCurrentCakes.length; i++) {
			var cake = miniGameCurrentCakes[i];
			var isTargeted = false;
			for (var j = 0; j < miniGameDwarfs.length; j++) {
				if (miniGameDwarfs[j].dwarfIndex !== self.dwarfIndex && miniGameDwarfs[j].targetCakeIndex === cake.cakeIndex) {
					isTargeted = true;
					break;
				}
			}
			if (!isTargeted) {
				availableCakeIndices.push(i);
			}
		}
		// S'il y a des gâteaux non ciblés, en choisir un au hasard
		if (availableCakeIndices.length > 0) {
			var randomIndex = Math.floor(Math.random() * availableCakeIndices.length);
			var selectedCakeIndex = availableCakeIndices[randomIndex];
			var selectedCake = miniGameCurrentCakes[selectedCakeIndex];
			self.targetCakeIndex = selectedCake.cakeIndex;
			return selectedCake;
		}
		// Si tous les gâteaux sont déjà ciblés, choisir le plus proche
		var closestCake = null;
		var minDistance = Infinity;
		miniGameCurrentCakes.forEach(function (cake) {
			var dx = self.x - cake.x;
			var dy = self.y - cake.y;
			var distance = Math.sqrt(dx * dx + dy * dy);
			if (distance < minDistance) {
				minDistance = distance;
				closestCake = cake;
			}
		});
		if (closestCake) {
			// Si le gâteau n'a pas d'index, lui en attribuer un
			if (closestCake.cakeIndex === undefined) {
				closestCake.cakeIndex = Math.floor(Math.random() * 10000);
			}
			self.targetCakeIndex = closestCake.cakeIndex;
		} else {
			self.targetCakeIndex = -1;
		}
		return closestCake;
	};
	self.findClosestMiniCake = function () {
		var closestMiniCake = null;
		var minDistance = Infinity;
		miniGameMiniCakes.forEach(function (miniCake, index) {
			// Ignore mini cakes that are within 50px of the screen edges
			if (miniCake.x < 50 || miniCake.x > 2048 - 50) {
				return;
			}
			var dx = self.x - miniCake.x;
			var dy = self.y - miniCake.y;
			var distance = Math.sqrt(dx * dx + dy * dy);
			if (distance < minDistance) {
				minDistance = distance;
				closestMiniCake = miniCake;
			}
		});
		return closestMiniCake;
	};
	// Function to alternate frames for animation
	self.animateFrames = function () {
		if (self.x !== self.lastX && !self.isSquashing) {
			self.animationCounter++;
			if (self.animationCounter >= self.animationDelay) {
				if (self.state === 'full') {
					if (dwarfFullFrame1.visible) {
						dwarfFullFrame1.visible = false;
						dwarfFullFrame2.visible = true;
					} else {
						dwarfFullFrame2.visible = false;
						dwarfFullFrame1.visible = true;
					}
				} else {
					if (dwarfEmptyFrame1.visible) {
						dwarfEmptyFrame1.visible = false;
						dwarfEmptyFrame2.visible = true;
					} else {
						dwarfEmptyFrame2.visible = false;
						dwarfEmptyFrame1.visible = true;
					}
				}
				self.animationCounter = 0;
			}
		}
		self.currentFrame = dwarfFullFrame1.visible ? dwarfFullFrame1 : dwarfFullFrame2.visible ? dwarfFullFrame2 : dwarfEmptyFrame1.visible ? dwarfEmptyFrame1 : dwarfEmptyFrame2;
		self.currentFrame.scaleX = self.speedX ? Math.sign(self.speedX) : 1;
	};
	self.squashAnimation = function (cake) {
		if (self.isSquashing) {
			return;
		} // Prevent re-triggering if already squashing
		self.isSquashing = true; // Set flag to indicate squash is in progress
		LK.getSound('squashingSound').play(); // Play squashing sound when a dwarf gets squashed
		tween(self.currentFrame, {
			scaleY: 0
		}, {
			duration: 400,
			easing: tween.easeInOut,
			onFinish: function onFinish() {
				// Repositionner le nain à droite de l'écran
				self.x = 2300 + Math.floor(Math.random() * 100);
				// Arrêter et faire disparaître le gâteau
				cake.speedY = 0;
				tween(cake, {
					alpha: 0
				}, {
					duration: 600,
					easing: tween.easeOut,
					onFinish: function onFinish() {
						var index = miniGameCurrentCakes.indexOf(cake);
						if (index !== -1) {
							miniGameCurrentCakes.splice(index, 1);
						}
						cake.destroy(); // Remove the cake after it fades out
						// Réinitialiser l'état du nain
						self.state = 'empty';
						self.targetCakeIndex = -1;
						self.targetCooldown = 0;
						self.animationCounter = 0;
						self.speedX = 7;
						// Réinitialiser les frames d'animation
						dwarfFullFrame1.visible = false;
						dwarfFullFrame2.visible = false;
						dwarfEmptyFrame1.visible = true;
						dwarfEmptyFrame2.visible = false;
						// Réinitialiser l'échelle du nain
						tween(self.currentFrame, {
							scaleY: 1
						}, {
							duration: 10,
							easing: tween.easeInOut,
							onFinish: function onFinish() {
								// Réinitialiser le flag d'écrasement seulement après que l'animation soit complètement terminée
								self.isSquashing = false;
							}
						});
					}
				});
			}
		});
	};
	self.performImpatienceAnimation = function () {
		// Randomly set the direction of the Dwarf
		if (!self.isImpatient) {
			self.isImpatient = true;
			var baseScaleX = self.scaleX;
			var changeScale = Math.random() < 0.1 ? -1 : 1;
			tween(self, {
				y: baseDwarfY - 20,
				scaleX: changeScale * baseScaleX
			}, {
				duration: 100,
				easing: tween.easeInOut,
				onFinish: function onFinish() {
					tween(self, {
						y: baseDwarfY
					}, {
						duration: 100,
						easing: tween.easeInOut,
						onFinish: function onFinish() {
							self.isImpatient = false;
							self.scaleX = baseScaleX;
						}
					});
				}
			});
		}
	};
});
var MiniCake = Container.expand(function (originalCake) {
	var self = Container.call(this);
	var assetId = originalCake.assetId || 'cake_0'; // Default to 'cake_0' if assetId is undefined
	var miniCakeGraphics = self.attachAsset(assetId, {
		anchorX: 0.5,
		anchorY: 0.5
	});
	miniCakeGraphics.scaleX = 0.5;
	miniCakeGraphics.scaleY = 0.5;
	self.speedY = -5;
	self.speedX = (Math.random() - 0.5) * 10;
	self.isInMiniGame = typeof isMiniGameRunning !== 'undefined' && isMiniGameRunning == 1;
	self.update = function () {
		if (isMiniGameRunning === 2) {
			return;
		}
		if (self.lastY === undefined) {
			self.lastY = self.y;
		}
		self.y += self.speedY;
		self.x += self.speedX;
		self.rotation += (Math.random() - 0.5) * 0.1; // Add random rotation to mini cakes
		self.speedY += 0.2; // Apply gravity
		if (self.lastY <= self.y - 20 && self.y > self.lastY - 20) {
			tween(self, {
				y: self.y - 20
			}, {
				duration: 500,
				easing: tween.easeOut
			});
		}
		if (self.y > 2732 + self.height / 2) {
			if (self.isInMiniGame) {
				var index = miniGameMiniCakes.indexOf(self);
				if (index !== -1) {
					miniGameMiniCakes.splice(index, 1);
				}
			}
			self.destroy();
		}
		self.lastY = self.y;
	};
});
// ResetButton class
var ResetButton = Container.expand(function () {
	var self = Container.call(this);
	var resetButtonGraphics = self.attachAsset('resetButton', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.on('down', function (x, y, obj) {
		if (isResetConfirmationDisplayed) {
			return;
		} // Prevent re-clicking if confirmation is already displayed
		LK.getSound('resetSound').play(); // Play reset sound
		isResetConfirmationDisplayed = true; // Set to true when reset confirmation is shown
		// Create a mask to prevent clicking elsewhere during confirmation
		var mask = foregroundContainer.addChild(LK.getAsset('masque', {
			anchorX: 0.5,
			anchorY: 0.5
		}));
		mask.x = 2048 / 2;
		mask.y = 2732 / 2;
		mask.alpha = 0.5; // Make the mask semi-transparent
		// Create a new board behind the yes and no buttons for confirmation
		var confirmationBoard = foregroundContainer.addChild(new Board());
		confirmationBoard.x = 2048 / 2 - 80;
		confirmationBoard.y = 2732 / 2 - 100;
		confirmationBoard.scaleX = -1.5; // Mirror the board horizontally and make it wider
		confirmationBoard.alpha = 1; // Make the board opaque
		// Add a text above the yes and no buttons
		var restartText = new Text2('Restart from Zero?', {
			size: 120,
			// Increase the size of the text
			fill: 0xFF0000,
			// Change color to red
			fontWeight: 'bold',
			dropShadow: true,
			dropShadowColor: 0x000000,
			dropShadowBlur: 10,
			// Increase shadow blur for more pronounced effect
			dropShadowDistance: 5
		});
		restartText.anchor.set(0.5, 1); // Center the text horizontally and align it to the bottom
		restartText.x = 2048 / 2; // Center horizontally
		restartText.y = 2732 / 2 - 500; // Position above the buttons
		foregroundContainer.addChild(restartText);
		// Create yes and no buttons for confirmation
		var yesButton = foregroundContainer.addChild(LK.getAsset('yesButton', {
			anchorX: 0.5,
			anchorY: 0.5
		}));
		yesButton.x = 2048 / 3; // Position yes button one-third from the left
		yesButton.y = 2732 / 2; // Center vertically
		var noButton = foregroundContainer.addChild(LK.getAsset('noButton', {
			anchorX: 0.5,
			anchorY: 0.5
		}));
		noButton.x = 2048 * 2 / 3; // Position no button two-thirds from the left
		noButton.y = 2732 / 2; // Center vertically
		// Event listener for yes button
		yesButton.on('down', function () {
			LK.getSound('clearedSound').play(); // Play cleared sound when yes is pressed
			currentScore = 0; // Reset the score to zero
			upgradeLevel = 0; // Reset the upgrade level to zero
			score.updateScore(currentScore);
			autoClicker.cost = 100; // Reset auto clicker cost to initial value
			autoClicker.autoClickerCount = 0; // Reset auto clicker count
			autoClicker.updatePriceText(); // Update the price text to reflect the new cost
			autoClicker.initStars(); // Update stars when the game is reset
			upgrade.cost = 10; // Reset upgrade cost to initial value
			upgrade.multiplier = 1; // Reset upgrade multiplier
			upgrade.updateUpgradeText(); // Update the upgrade price text
			upgrade.updateCakeGraphics(); // Update cake graphics based on new upgrade level
			storage.score = currentScore; // Save the reset score
			storage.autoClickerCount = autoClicker.autoClickerCount; // Save the reset auto clicker count
			storage.autoClickerCost = autoClicker.cost; // Save the reset auto clicker cost
			storage.upgradeMultiplier = upgrade.multiplier; // Save the reset upgrade multiplier
			storage.upgradeCost = upgrade.cost; // Save the reset upgrade cost
			// Remove confirmation buttons
			yesButton.destroy();
			mask.destroy(); // Remove the mask
			noButton.destroy();
			confirmationBoard.destroy(); // Hide the confirmation board
			restartText.destroy(); // Remove the 'Restart from Zero?' text
			isResetConfirmationDisplayed = false; // Set to false when reset confirmation is dismissed
		});
		// Event listener for no button
		noButton.on('down', function () {
			LK.getSound('resetSound').play(); // Play reset sound
			// Remove confirmation buttons without resetting
			yesButton.destroy();
			mask.destroy(); // Remove the mask
			noButton.destroy();
			confirmationBoard.destroy(); // Hide the confirmation board
			restartText.destroy(); // Remove the 'Restart from Zero?' text
			isResetConfirmationDisplayed = false; // Set to false when reset confirmation is dismissed
		});
	});
});
// Score class
var Score = Container.expand(function () {
	var self = Container.call(this);
	var scoreText = new Text2('0', {
		size: 200,
		fill: 0xFFFDD0,
		dropShadow: true,
		// Enable drop shadow
		dropShadowColor: 0x000000,
		// Set drop shadow color to black
		dropShadowBlur: 5,
		// Set drop shadow blur
		dropShadowDistance: 5 // Set drop shadow distance
	});
	scoreText.anchor.set(0.5, 0);
	self.addChild(scoreText);
	self.updateScore = function (newScore) {
		scoreText.setText('$' + newScore.toString());
	};
});
// SwitchButton class
var SwitchButton = Container.expand(function () {
	var self = Container.call(this);
	var switchButtonGraphics = self.attachAsset('buttonSwitch', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	// Add any additional properties or methods for the switch button here
	self.on('down', function (x, y, obj) {
		toggleMiniGame();
	});
});
// ThirdDwarfManager class for the third game
var ThirdDwarfManager = Container.expand(function () {
	var self = Container.call(this);
	self.spawnDwarf = function (dwarfIndex) {
		var dwarf = new Dwarf(dwarfIndex);
		dwarf.miniGame = 2; // Définir que ce nain appartient au mini-jeu 2
		dwarf.x = 2300 + dwarfIndex * 1024; // Position initiale décalée selon l'index
		dwarf.y = 2732 - 180; // Base y position
		dwarf.speedX = 5; // Vitesse fixe pour un mouvement uniforme
		dwarf.state = 'full'; // Commencer en mode full
		// Configurer explicitement les frames pour le mode full
		dwarf.children[0].visible = true; // dwarfFullFrame1
		dwarf.children[1].visible = false; // dwarfFullFrame2
		dwarf.children[2].visible = false; // dwarfEmptyFrame1
		dwarf.children[3].visible = false; // dwarfEmptyFrame2
		thirdGameDwarfs.push(dwarf); // Ajouter au tableau global thirdGameDwarfs
		thirdGameMiddlegroundContainer.addChild(dwarf);
	};
	self.start = function () {
		// Vider le tableau des nains du troisième jeu
		thirdGameDwarfs = [];
		// Spawn exactly 3 dwarfs with unique indices
		for (var i = 0; i < 3; i++) {
			self.spawnDwarf(i);
		}
	};
	return self;
});
// Upgrade class
var Upgrade = Container.expand(function () {
	var self = Container.call(this);
	// Create a shadow effect by adding a black tinted, semi-transparent duplicate of upgradeGraphics
	var shadowGraphics = self.attachAsset('upgrade', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	shadowGraphics.tint = 0x000000; // Tint the shadow black
	shadowGraphics.alpha = 0.5; // Make the shadow semi-transparent
	shadowGraphics.y = 10; // Position the shadow slightly below the upgrade button
	self.addChild(shadowGraphics);
	var upgradeGraphics = self.attachAsset('upgrade', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	// Attach the cake_1 image on top of the upgrade button
	self.cakeGraphics = self.attachAsset('cake_1', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.cakeGraphics.y = -10; // Move the cake slightly higher on the upgrade button
	self.addChild(self.cakeGraphics);
	var upgradesLabel = new Text2('Upgrades', {
		size: 60,
		fill: 0x808080,
		// Gray color
		fontWeight: '900'
	});
	upgradesLabel.anchor.set(0.5, 1); // Center the text horizontally and align it to the bottom
	upgradesLabel.y = self.cakeGraphics.y - self.cakeGraphics.height / 2 - 160; // Move text slightly higher above the cake image
	upgradesLabel.fill = 0x808080; // Change text color to gray
	self.addChild(upgradesLabel);
	var upgradeLabel = new Text2('Cake', {
		size: 60,
		fill: 0xFF8C00,
		// Dark orange color
		fontWeight: '900',
		dropShadow: true,
		dropShadowColor: 0x000000,
		dropShadowBlur: 5,
		dropShadowDistance: 5
	});
	upgradeLabel.anchor.set(0.5, 1); // Center the text horizontally and align it to the bottom
	upgradeLabel.y = self.cakeGraphics.y - self.cakeGraphics.height / 2 - 50; // Position text even higher above the cake image
	self.addChild(upgradeLabel);
	self.cost = 10; // Initial cost of the upgrade
	self.multiplier = 1; // Score multiplier
	self.updateCost = function () {
		self.cost = upgradePrices[Math.min(upgradeLevel + 1, upgradePrices.length - 1)]; // Update the cost using the upgradePrices array
		storage.upgradeCost = self.cost; // Save the updated upgrade cost
	};
	self.increaseMultiplier = function () {
		self.multiplier += 1; // Increase the multiplier by 1
	};
	var upgradeText = new Text2('$' + self.cost, {
		size: 80,
		fill: 0xFFA500,
		// Orange color
		fontWeight: '900',
		dropShadow: true,
		dropShadowColor: 0x000000,
		dropShadowBlur: 5,
		dropShadowDistance: 5
	});
	upgradeText.anchor.set(0.5, 0);
	upgradeText.x = 0;
	upgradeText.y = upgradeGraphics.height / 2 + 20; // Position text below the upgrade button
	self.addChild(upgradeText);
	self.updateUpgradeText = function () {
		upgradeText.setText(formatPrice(self.cost));
	};
	self.updateCakeGraphics = function () {
		var cakeIndex = Math.min(upgradeLevel + 1, 9);
		tween(self.cakeGraphics, {
			alpha: 0
		}, {
			duration: 500,
			easing: tween.easeOut,
			onFinish: function onFinish() {
				self.removeChild(self.cakeGraphics);
				self.cakeGraphics = self.attachAsset('cake_' + cakeIndex, {
					anchorX: 0.5,
					anchorY: 0.5
				});
				self.cakeGraphics.y = -10;
				self.cakeGraphics.alpha = 0;
				self.addChild(self.cakeGraphics);
				tween(self.cakeGraphics, {
					alpha: 1
				}, {
					duration: 500,
					easing: tween.easeIn
				});
			}
		});
	};
	self.onClick = function () {
		if (currentScore >= self.cost) {
			currentScore -= self.cost; // Deduct the cost from the current score
			score.updateScore(currentScore); // Update the score display
			self.updateCost(); // Update the cost for the next upgrade
			storage.upgradeMultiplier = self.multiplier; // Save the updated multiplier
			self.increaseMultiplier(); // Increase the score multiplier
			self.updateUpgradeText(); // Update the upgrade text
			upgradeLevel = Math.min(upgradeLevel + 1, 9); // Increment upgrade level, max 9
			storage.upgradeLevel = upgradeLevel; // Save the updated upgrade level
			self.updateCakeGraphics(); // Update cake graphics based on new upgrade level
			confettiManager.popCakes(bigCake.x, bigCake.y, 5); // Call popCakes using bigCake's coordinates
			LK.getSound('buySound').play(); // Play buy sound when upgrade is purchased
			// Animate the upgrade button
			tween(upgradeGraphics, {
				scaleX: 0.9,
				scaleY: 0.9
			}, {
				duration: 100,
				easing: tween.easeInOut,
				onFinish: function onFinish() {
					tween(upgradeGraphics, {
						scaleX: 1,
						scaleY: 1
					}, {
						duration: 100,
						easing: tween.easeInOut
					});
				}
			});
			// Animate the shadowGraphics in the same way
			tween(shadowGraphics, {
				scaleX: 0.9,
				scaleY: 0.9
			}, {
				duration: 100,
				easing: tween.easeInOut,
				onFinish: function onFinish() {
					tween(shadowGraphics, {
						scaleX: 1,
						scaleY: 1
					}, {
						duration: 100,
						easing: tween.easeInOut
					});
				}
			});
			// Animate the cakeGraphics in the same way
			tween(self.cakeGraphics, {
				scaleX: 0.9,
				scaleY: 0.9
			}, {
				duration: 100,
				easing: tween.easeInOut,
				onFinish: function onFinish() {
					tween(self.cakeGraphics, {
						scaleX: 1,
						scaleY: 1
					}, {
						duration: 100,
						easing: tween.easeInOut
					});
				}
			});
		} else {
			tween(self, {
				alpha: 0.2
			}, {
				duration: 100,
				easing: tween.easeInOut,
				onFinish: function onFinish() {
					tween(self, {
						alpha: 1
					}, {
						duration: 100,
						easing: tween.easeInOut,
						onFinish: function onFinish() {
							tween(self, {
								alpha: 0.2
							}, {
								duration: 100,
								easing: tween.easeInOut,
								onFinish: function onFinish() {
									tween(self, {
										alpha: 1
									}, {
										duration: 100,
										easing: tween.easeInOut
									});
								}
							});
						}
					});
				}
			});
			LK.getSound('errorsond').play(); // Play error sound
		}
	};
});

/**** 
* Initialize Game
****/ 
/**** 
* Initialize Game
* Set up the game environment and initial configurations
****/ 
var game = new LK.Game({
	// No title, no description
	// Always backgroundColor is black
	backgroundColor: 0x000000
});

/**** 
* Game Code
****/ 
// Global array for upgrade prices
var upgradePrices = [10,
// $10
100,
// $100
1000,
// $1,000
10000,
// $10,000
100000,
// $100,000
1000000,
// $1,000,000
10000000,
// $10,000,000
100000000,
// $100,000,000
1000000000,
// $1,000,000,000
10000000000 // $10,000,000,000
];
// Global array for auto clicker prices
var autoClickerPrices = [100,
// $100
1000,
// $1,000
20000,
// $10,000
300000,
// $100,000
4000000,
// $1,000,000
50000000,
// $10,000,000
600000000,
// $100,000,000
7000000000,
// $1,000,000,000
80000000000,
// $10,000,000,000
900000000000 // $100,000,000,000
];
// Global array for the number of auto clicks per second
var autoClicksPerSecond = [1,
// 0
10,
// 1
50,
// 2
150,
// 3
500,
// 4
1500,
// 5
5000,
// 6
20000,
// 7
100000,
// 8
500000 // 9
];
// Global array for upgrade multipliers
var upgradeMultiplier = [1,
// Niveau 0
2,
// Niveau 1
5,
// Niveau 2
10,
// Niveau 3
20,
// Niveau 4
50,
// Niveau 5
100,
// Niveau 6
200,
// Niveau 7
500,
// Niveau 8
1000 // Niveau 9
];
/**** 
* Game Code
* Main game logic and event handling
****/ 
/**** 
* Assets
* Initialize all game assets including images, sounds, and music
****/ 
// Declare game variables
var bonusCakeManager; // Declare bonusCakeManager globally
var cakeList = ['cake_0', 'cake_1', 'cake_2', 'cake_3', 'cake_4', 'cake_5', 'cake_6', 'cake_8', 'cake_9'];
var isResetConfirmationDisplayed = false; // Track if reset confirmation is displayed
var upgradeLevel = storage.upgradeLevel || 0; // Load saved upgrade level or default to 0
var confettiManager; // Declare confettiManager globally
// Sounds
// Music
/**** 
* Plugins
* Import necessary plugins for tweening animations and storage management
****/ 
// Function to format prices
function formatPrice(value) {
	if (value >= 1e18) {
		// Quintillion
		return '$' + (value / 1e18).toFixed(1) + 'Q';
	} else if (value >= 1e15) {
		// Quadrillion
		return '$' + (value / 1e15).toFixed(1) + 'Qa';
	} else if (value >= 1e12) {
		// Trillion
		return '$' + (value / 1e12).toFixed(1) + 'T';
	} else if (value >= 1e9) {
		// Billion
		return '$' + (value / 1e9).toFixed(1) + 'B';
	} else if (value >= 1e6) {
		// Million
		return '$' + (value / 1e6).toFixed(1) + 'M';
	} else {
		return '$' + value;
	}
}
if (typeof newCakeButton !== 'undefined' && newCakeButton.newCake) {
	newCakeButton.newCake.on('down', function (x, y, obj) {
		newCakeButton.newCake.onClick();
	});
}
// Declare game variables
var mainGameContainer;
var backgroundContainer;
var middleContainer;
var foregroundContainer;
var currentScore;
var score;
var lastTimestamp;
var timeElapsed;
var clicksSinceLastSession;
var autoClicker;
var upgrade;
var bigCake;
var resetButton;
var switchButton;
var board;
var thirdGameCakeMachine; // Variable globale pour la machine à gâteaux du troisième jeu
//////////////////////////////////////////////////////////////////////// 
////////////////////////// MINI GAME CODE  ///////////////////////////// 
//////////////////////////////////////////////////////////////////////// 
var isMiniGameRunning = 0;
var miniGameContainer;
var miniGameBackgroundContainer;
var miniGameMiddlegroundContainer;
var miniGameForegroundContainer;
var miniGamebackground;
var switchButtonMini;
var chef;
var miniGameDwarfs = []; // Variable globale pour stocker les nains
var miniGameDwarfCount = 7; // Nombre de nains à créer
var miniGameCurrentCakes = []; // Global array to store falling cakes
var miniGameMiniCakes = []; // Global array to track mini cakes
var baseDwarfY = 2732 - 180;
// Variables pour le thirdGame
var thirdGameContainer;
var thirdGameBackgroundContainer;
var thirdGameMiddlegroundContainer;
var thirdGameForegroundContainer;
var thirdGameBackground;
var switchButtonThird;
var isTransitioning = false; // Flag to prevent multiple calls during transitions
var thirdDwarfManager; // Variable globale pour le ThirdDwarfManager
var thirdGameDwarfs = []; // Variable globale pour stocker les nains du troisième jeu
function toggleMiniGame() {
	if (isTransitioning) {
		return;
	} // Exit if a transition is already in progress
	isTransitioning = true; // Set flag to indicate a transition is starting
	// Gestion des transitions entre les différents jeux
	if (isMiniGameRunning === 0) {
		// Passage du jeu principal au minijeu (slide vers le bas)
		isMiniGameRunning = 1;
		storage.isMiniGameRunning = 1; // Update storage
		miniGameContainer.x = 0;
		miniGameContainer.y = 2732; // Positionner au-dessus pour l'animation
		miniGameContainer.visible = true;
		// Animation du jeu principal vers le bas
		tween(mainGameContainer, {
			y: -2732
		}, {
			duration: 1000,
			easing: tween.easeInOut,
			onFinish: function onFinish() {
				mainGameContainer.visible = false;
				isTransitioning = false; // Reset flag after transition
			}
		});
		// Animation du minijeu vers le bas
		tween(miniGameContainer, {
			y: 0
		}, {
			duration: 1000,
			easing: tween.easeInOut
		});
	} else if (isMiniGameRunning === 1) {
		thirdGameCakeMachine.deactivate(); // Set the cake machine to inactive when entering mini game 2
		// Passage du minijeu au thirdGame (slide vers la gauche)
		isMiniGameRunning = 2;
		storage.isMiniGameRunning = 2; // Update storage
		thirdGameContainer.x = -2048; // Positionner à droite pour l'animation
		thirdGameContainer.y = 0;
		thirdGameContainer.visible = true;
		// Animation du minijeu vers la gauche
		tween(miniGameContainer, {
			x: 2048
		}, {
			duration: 1000,
			easing: tween.easeInOut,
			onFinish: function onFinish() {
				miniGameContainer.visible = false;
				isTransitioning = false; // Reset flag after transition
			}
		});
		// Animation du thirdGame vers la gauche
		tween(thirdGameContainer, {
			x: 0
		}, {
			duration: 1000,
			easing: tween.easeInOut
		});
	} else if (isMiniGameRunning === 2) {
		// Retour au jeu principal depuis le thirdGame (slide vers le haut)
		isMiniGameRunning = 0;
		storage.isMiniGameRunning = 0; // Update storage
		mainGameContainer.x = 0; // Positionner en bas pour l'animation
		mainGameContainer.y = -2732; // Positionner en bas pour l'animation
		mainGameContainer.visible = true;
		// Animation du thirdGame vers le haut
		tween(thirdGameContainer, {
			y: 2732
		}, {
			duration: 1000,
			easing: tween.easeInOut,
			onFinish: function onFinish() {
				thirdGameContainer.visible = false;
				isTransitioning = false; // Reset flag after transition
			}
		});
		// Animation du jeu principal vers le haut
		tween(mainGameContainer, {
			y: 0
		}, {
			duration: 1000,
			easing: tween.easeInOut
		});
	}
}
game.down = function (x, y, obj) {
	if (isMiniGameRunning === 1) {
		// Code spécifique au minijeu
	} else if (isMiniGameRunning === 2) {
		// Code spécifique au thirdGame
	}
};
//////////////////////////////////////////////////////////////////////// 
// Initialize game variables
function initializeGameVariables() {
	mainGameContainer = new Container();
	game.addChild(mainGameContainer);
	backgroundContainer = new Container();
	mainGameContainer.addChild(backgroundContainer);
	// Initialize middleContainer
	middleContainer = new Container();
	mainGameContainer.addChild(middleContainer);
	// Initialize foregroundContainer
	foregroundContainer = new Container();
	mainGameContainer.addChild(foregroundContainer);
	background = backgroundContainer.addChild(LK.getAsset('background', {
		anchorX: 0.5,
		anchorY: 0.5
	}));
	background.x = 2048 / 2;
	background.y = 2732 / 2;
	background.scaleX = 2048 / background.width; // Scale background to fit the game width
	background.scaleY = 2732 / background.height; // Scale background to fit the game height
	// Initialize board
	board = foregroundContainer.addChild(new Board());
	board.x = 2240;
	board.y = 1230; // Center board vertically
	board.boardGraphics.alpha = 0.8; // Set transparency of the right board to 0.8
	// Initialize bigCake
	bigCake = middleContainer.addChild(new BigCake());
	bigCake.x = 2048 / 2;
	bigCake.y = 2732 / 2;
	// Initialize score
	score = foregroundContainer.addChild(new Score());
	score.x = 2048 / 2;
	score.y = 30; // Position score even higher at the top center
	currentScore = storage.score || 0; // Load saved score or default to 0
	score.updateScore(currentScore); // Refresh the score display with the loaded score
	// Calculate the number of clicks since the last session
	lastTimestamp = storage.timestamp || Date.now();
	timeElapsed = Date.now() - lastTimestamp;
	clicksSinceLastSession = Math.floor(timeElapsed / 1000); // Assuming 1 click per second as a baseline
	console.log("Clicks since last session: ", clicksSinceLastSession);
	currentScore += clicksSinceLastSession; // Add clicks since last session to the current score
	score.updateScore(currentScore); // Update the score display with the new score
	storage.score = currentScore; // Save the updated score
	// Initialize auto clicker
	autoClicker = foregroundContainer.addChild(new AutoClicker());
	autoClicker.autoClickerCount = storage.autoClickerCount || 0; // Load saved auto clicker count or default to 0
	autoClicker.cost = storage.autoClickerCost || autoClickerPrices[0]; // Load saved auto clicker cost or default to initial cost from autoClickerPrices array
	autoClicker.updatePriceText(); // Update the price text to reflect the loaded cost
	autoClicker.initStars(); // Initialize and update the display of stars based on the current autoClickerCount
	if (autoClicker.autoClickerCount > 0) {
		autoClicker.startAutoClicking(); // Start auto-clicking if there are saved auto-clickers
	}
	// Initialize upgrade
	upgrade = foregroundContainer.addChild(new Upgrade());
	upgrade.multiplier = storage.upgradeMultiplier || 1; // Load saved upgrade multiplier or default to 1
	upgrade.cost = storage.upgradeCost || upgradePrices[0]; // Load saved upgrade cost or default to initial cost from upgradePrices array
	upgrade.updateUpgradeText(); // Update the upgrade price text to reflect the loaded cost
	upgrade.updateCakeGraphics(); // Update cake graphics based on new upgrade level
	upgrade.x = 2048 - upgrade.width / 2 - 10; // Position upgrade button on the right side of the screen
	upgrade.y = 2732 / 2 - upgrade.height + 140; // Position upgrade button slightly lower on the screen
	// Event listener for upgrade button clicks
	upgrade.on('down', function (x, y, obj) {
		upgrade.onClick();
	});
	// Initialize reset button
	resetButton = backgroundContainer.addChild(new ResetButton());
	// Initialize confetti manager
	confettiManager = new ConfettiManager();
	// Initialize bonus cake manager
	bonusCakeManager = new BonusCakeManager();
	LK.setTimeout(function () {
		bonusCakeManager.start(); // Start the bonus cake manager after 1 minute
	}, 60000);
	resetButton.x = 2048 - resetButton.width / 2 - 40; // Add margin to the right edge
	resetButton.y = score.y + score.height / 2 + 10; // Adjust reset button position to be slightly higher
	autoClicker.x = 2048 - autoClicker.width / 2 - 10; // Position auto clicker button on the right side of the screen
	autoClicker.y = 2732 / 2 + 160; // Position auto clicker button slightly lower on the screen
	// Event listener for auto clicker clicks
	autoClicker.on('down', function (x, y, obj) {
		autoClicker.onClick();
	});
	switchButton = new SwitchButton();
	switchButton.x = 1024;
	switchButton.y = 2732 - switchButton.height * 0.5;
	foregroundContainer.addChild(switchButton);
	// Play bakery music in a loop throughout the game
	LK.playMusic('musiqueclicker', {
		loop: true
	});
	isMiniGameRunning = 0;
	storage.isMiniGameRunning = 0;
	/*
	// Restaurer l'état du jeu selon la valeur de storage.isMiniGameRunning
	LK.setTimeout(function () {
	// Récupérer l'état sauvegardé
	isMiniGameRunning = storage.isMiniGameRunning || 0;
	// Configurer les containers selon l'état sauvegardé
	if (isMiniGameRunning === 1) {
	// Si le joueur était dans le minijeu
	mainGameContainer.visible = false;
	mainGameContainer.y = 2732;
	miniGameContainer.visible = true;
	miniGameContainer.y = 0;
	thirdGameContainer.visible = false;
	} else if (isMiniGameRunning === 2) {
	// Si le joueur était dans le thirdGame
	mainGameContainer.visible = false;
	miniGameContainer.visible = false;
	miniGameContainer.x = -2048;
	thirdGameContainer.visible = true;
	thirdGameContainer.x = 0;
	thirdGameContainer.y = 0;
	} else {
	// Si le joueur était dans le jeu principal (ou valeur par défaut)
	mainGameContainer.visible = true;
	mainGameContainer.y = 0;
	miniGameContainer.visible = false;
	thirdGameContainer.visible = false;
	}
	}, 100);
	*/
}
function initializeminiGameVariables() {
	miniGameContainer = new Container();
	miniGameContainer.x = 0;
	miniGameContainer.y = 2732; // Position initiale hors écran
	game.addChild(miniGameContainer);
	miniGameContainer.visible = false;
	miniGameBackgroundContainer = new Container();
	miniGameContainer.addChild(miniGameBackgroundContainer);
	miniGameMiddlegroundContainer = new Container();
	miniGameContainer.addChild(miniGameMiddlegroundContainer);
	miniGameForegroundContainer = new Container();
	miniGameContainer.addChild(miniGameForegroundContainer);
	miniGamebackground = miniGameBackgroundContainer.addChild(LK.getAsset('miniGameBackground', {
		anchorX: 0.5,
		anchorY: 0.5
	}));
	miniGamebackground.x = 2048 / 2;
	miniGamebackground.y = 2732 / 2;
	miniGamebackground.scaleX = 2048 / miniGamebackground.width; // Scale background to fit the game width
	miniGamebackground.scaleY = 2732 / miniGamebackground.height; // Scale background to fit the game height
	switchButtonMini = new SwitchButton();
	switchButtonMini.x = switchButtonMini.width * 0.25;
	switchButtonMini.y = 1366;
	switchButtonMini.rotation = -Math.PI / 2;
	switchButtonMini.scale.y = -1;
	miniGameForegroundContainer.addChild(switchButtonMini);
	// Dwarfs
	miniGameDwarfs = []; // Réinitialiser le tableau des nains
	for (var i = 0; i < miniGameDwarfCount; i++) {
		var dwarf = new Dwarf(i);
		// Répartir les nains sur toute la largeur de l'écran
		dwarf.x = 500 + Math.floor((2048 - 1000) * (i / (miniGameDwarfCount - 1 || 1)));
		dwarf.y = 2732 - 180;
		miniGameMiddlegroundContainer.addChild(dwarf);
		miniGameDwarfs.push(dwarf);
	}
	var cakeRainManager = new CakeRainManager();
	miniGameMiddlegroundContainer.addChild(cakeRainManager);
	cakeRainManager.start();
}
function initializeThirdGameVariables() {
	thirdGameContainer = new Container();
	thirdGameContainer.x = -2048; // Position initiale hors écran (à droite)
	thirdGameContainer.y = 0;
	game.addChild(thirdGameContainer);
	thirdGameContainer.visible = false;
	thirdGameBackgroundContainer = new Container();
	thirdGameContainer.addChild(thirdGameBackgroundContainer);
	thirdGameMiddlegroundContainer = new Container();
	thirdGameContainer.addChild(thirdGameMiddlegroundContainer);
	thirdGameForegroundContainer = new Container();
	thirdGameContainer.addChild(thirdGameForegroundContainer);
	// Utiliser le même fond que le miniGame pour le moment
	thirdGameBackground = thirdGameBackgroundContainer.addChild(LK.getAsset('miniGameBackground', {
		anchorX: 0.5,
		anchorY: 0.5
	}));
	thirdGameBackground.x = 2048 / 2;
	thirdGameBackground.y = 2732 / 2;
	thirdGameBackground.scaleX = -2048 / thirdGameBackground.width; // Scale background to fit the game width
	thirdGameBackground.scaleY = 2732 / thirdGameBackground.height; // Scale background to fit the game height
	// Ajouter uniquement le bouton de changement de jeu
	switchButtonThird = new SwitchButton();
	switchButtonThird.x = 1024;
	switchButtonThird.y = switchButtonThird.height * 0.5;
	switchButtonThird.scale.y = -1;
	thirdGameForegroundContainer.addChild(switchButtonThird);
	// Initialize thirdGameCakeMachine
	thirdGameCakeMachine = new CakeMachine();
	thirdGameMiddlegroundContainer.addChild(thirdGameCakeMachine);
	thirdGameCakeMachine.x = 1024;
	thirdGameCakeMachine.y = 1600;
	// Create and start the ThirdDwarfManager
	thirdDwarfManager = new ThirdDwarfManager();
	thirdGameMiddlegroundContainer.addChild(thirdDwarfManager);
	thirdDwarfManager.start();
}
// Call the function to initialize game variables
initializeGameVariables();
initializeminiGameVariables();
initializeThirdGameVariables();