Upit | Learn about creating the game Cat Defender with gen AI
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4mo

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Oops! Alien Invasion! District 15 has a UFO problem, aliens have released cloned Rage infected zombie-birds upon the countryside. You must now fulfill your sacred duty to protect your humans and homelands from intergalactic harm. Zap birds using your TAIL (Tactical Assault Incendiary Launcher) to build PURR (Properly Used Retaliatory Rage) ... in this fun, fast-paced, hypercasual game of target practice, zombies birds, and UFOs!
#hypercasual
#arcade
#cat
#reflexes
#adventure
#laser
#ufo
#tree
#bird
#grass
/**** 
* Plugins
****/ 
var tween = LK.import("@upit/tween.v1");

/**** 
* Classes
****/ 
// Branch asset
// Bird1 class to represent the first kind of bird
var Bird1 = Container.expand(function () {
	var self = Container.call(this);
	var birdGraphics = self.attachAsset('bird1-right', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.movement = new Bird1Movement(self, birdGraphics);
});
// Bird2 class to represent the second kind of bird
var Bird2 = Container.expand(function () {
	var self = Container.call(this);
	var birdGraphics = self.attachAsset('bird2-right', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.movement = new Bird2Movement(self, birdGraphics);
});
// Cat class to manage cat behavior
var Cat = Container.expand(function () {
	var self = Container.call(this);
	var catGraphics = self.attachAsset('cat', {
		anchorX: 0.5,
		anchorY: 1
	});
	self.update = function () {
		// Add any specific update logic for the cat here
	};
});
// Cloud class to represent cloud behavior
var Cloud = Container.expand(function () {
	var self = Container.call(this);
	var cloudGraphics = self.attachAsset('cloud', {
		anchorX: 0.5,
		anchorY: 0.5,
		alpha: 0.8 // Set default opacity to 80%
	});
	self.movement = new CloudMovement(self, cloudGraphics);
});
// CloudMovement class to handle cloud movement and fade effects
var CloudMovement = Container.expand(function () {
	var self = Container.call(this);
	var cloudGraphics = self.attachAsset('cloud', {
		anchorX: 0.5,
		anchorY: 0.5,
		alpha: 0.8 // Set default opacity to 80%
	});
	self.speed = Math.random() * 0.55 + 0.25; // Adjust speed to range between 0.25 and 0.8
	self.hasAccelerated = false; // Track if the cloud has already accelerated
	self.direction = Math.random() < 0.5 ? 1 : -1; // Random direction: 1 for right, -1 for left
	self.lastX = self.x; // Track last X position for future checks
	self.lastIntersecting = false; // Initialize lastIntersecting for tracking changes on intersections
	self.update = function () {
		self.x += self.speed * self.direction;
		// If the cloud moves off-screen, reposition it to the opposite side
		if (self.lastX <= 2048 + self.width / 2 && self.x > 2048 + self.width / 2) {
			self.x = -self.width / 2;
		} else if (self.lastX >= -self.width / 2 && self.x < -self.width / 2) {
			self.x = 2048 + self.width / 2;
		}
		// Check for overlap with other clouds
		for (var i = 0; i < clouds.length; i++) {
			if (clouds[i] !== self && self.intersects(clouds[i])) {
				if (!self.hasAccelerated) {
					self.speed *= 1.5; // Increase speed by 50%
					self.hasAccelerated = true; // Mark as accelerated
				}
				break;
			} else if (self.hasAccelerated && !self.intersects(clouds[i])) {
				self.speed /= 1.5; // Reset speed to original
				self.hasAccelerated = false; // Reset acceleration state
			}
		}
		// Check if the cloud intersects with the sun
		if (!self.lastIntersecting && self.intersects(sun)) {
			self.speed *= 2; // Double the speed when touching the sun
			tween(cloudGraphics, {
				alpha: 0.5
			}, {
				duration: 3000,
				easing: tween.linear
			});
		} else if (self.lastIntersecting && !self.intersects(sun)) {
			self.speed /= 2; // Reset speed to original when not touching the sun
			tween(cloudGraphics, {
				alpha: 1.0
			}, {
				duration: 3000,
				easing: tween.linear
			});
		}
		self.lastIntersecting = self.intersects(sun);
		self.lastX = self.x; // Update lastX after movement
	};
});
// GrassBack class to represent the grass image
var GrassBack = Container.expand(function () {
	var self = Container.call(this);
	var grassGraphics = self.attachAsset('grass-back', {
		anchorX: 0.5,
		anchorY: 1
	});
	self.update = function () {
		// Add any specific update logic for the grass here
		// Example: Slightly move the grass to simulate wind effect
		self.x += Math.sin((LK.ticks + 100) / 90) * 0.15; // Swaying effect, increased speed
	};
	self.addChild(grassGraphics); // Add grass graphics to the container
	self.update = function () {
		// Add any specific update logic for the grass here
		// Example: Slightly move the grass to simulate wind effect
		self.x += Math.sin((LK.ticks + 100) / 90) * 0.15; // Swaying effect, increased speed
	};
});
// GrassFront class to represent the second grass image
var GrassFront = Container.expand(function () {
	var self = Container.call(this);
	var grass2Graphics = self.attachAsset('grass-front', {
		anchorX: 0.5,
		anchorY: 1
	});
	self.lastX = self.x; // Initialize lastX for tracking changes on X
	self.addChild(grass2Graphics); // Add grass2 graphics to the container
	self.update = function () {
		// Add any specific update logic for the grass here
		// Example: Slightly move the grass to simulate wind effect
		self.x += Math.sin((LK.ticks + 50) / 100) * 0.125; // Swaying effect, reduced by 50%
		self.lastX = self.x; // Update lastX after movement
	};
});
// Jet class to represent a jet flying across the screen
var Jet = Container.expand(function () {
	var self = Container.call(this);
	var jetGraphics = self.attachAsset('jet', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	// Add a label to the jet
	var jetLabel = new Text2('Jet', {
		size: 50,
		fill: 0xFFFFFF
	});
	jetLabel.anchor.set(0.5, 0.5); // Center the label on the jet
	jetLabel.y = -60; // Position the label above the jet
	self.addChild(jetLabel);
	// Add a label to the jet
	var jetLabel = new Text2('Jet', {
		size: 50,
		fill: 0xFFFFFF
	});
	jetLabel.anchor.set(0.5, 0.5); // Center the label on the jet
	jetLabel.y = -60; // Position the label above the jet
	self.addChild(jetLabel);
	self.speed = 10; // Set the speed of the jet
	self.direction = Math.random() < 0.5 ? 1 : -1; // Random direction: 1 for right, -1 for left
	self.lastX = self.x; // Track last X position for future checks
	self.x = Math.random() < 0.5 ? 2048 + self.width / 2 : -self.width / 2; // Start from either the far right or left edge of the screen
	self.update = function () {
		self.x += self.speed * self.direction;
		// If the jet moves off-screen, destroy it and set it to null
		if (self.lastX <= 2048 + self.width / 2 && self.x > 2048 + self.width / 2 || self.lastX >= -self.width / 2 && self.x < -self.width / 2) {
			self.destroy();
			game.jet = null;
			game.jetSoundPlayed = false; // Reset the flag when the jet is removed
			// Set a timer to respawn the jet between 10-20 seconds
			LK.setTimeout(function () {
				var jet = new Jet();
				jet.x = Math.random() < 0.5 ? 2048 + jet.width / 2 : -jet.width / 2; // Start from either the far right or left edge of the screen
				jet.y = Math.random() * (2732 - jet.height); // Random initial y position within the screen height
				game.addChild(jet);
				game.jet = jet;
				if (!game.jetSoundPlayed) {
					LK.getSound('jetSound').play(); // Play jet sound when it appears
					game.jetSoundPlayed = true; // Ensure it only plays once
				}
			}, Math.random() * 10000 + 10000); // Random time between 10-20 seconds
		}
		self.lastX = self.x; // Update lastX after movement
	};
});
// Laser class to represent a laser shot from the cat
var Laser = Container.expand(function (startX, startY, targetX, targetY) {
	var self = Container.call(this);
	var laserGraphics = self.attachAsset('laser2', {
		anchorX: 0.5,
		anchorY: 0.5,
		brightness: 2.0 // Increase brightness by 200%
	});
	// Play the laser1 sound when the laser is created
	LK.getSound('laser1').play();
	// Calculate direction and speed
	var dx = targetX - startX;
	var dy = targetY - startY;
	var distance = Math.sqrt(dx * dx + dy * dy);
	var speed = 60; // Speed of the laser increased by 200%
	self.vx = dx / distance * speed;
	self.vy = dy / distance * speed;
	// Set initial position
	self.x = startX;
	self.y = startY;
	// Update function to move the laser
	self.update = function () {
		self.x += self.vx;
		self.y += self.vy;
		// Remove laser if it goes off-screen
		if (self.x < 0 || self.x > 2048 || self.y < 0 || self.y > 2732) {
			self.destroy();
		}
	};
});
// Light1 class to represent a light object
var Light1 = Container.expand(function () {
	var self = Container.call(this);
	var lightGraphics = self.attachAsset('light1', {
		anchorX: 0.5,
		anchorY: 0.5,
		alpha: 0.2 // Set transparency to 20%
	});
	self.x = 450, self.y = 450;
	self.update = function () {
		// Add any specific update logic for the light here
	};
	self.pulse = new Light1Pulse(lightGraphics);
	self.pulse.startPulsating();
});
// Mirror class to manage score display
var Mirror = Container.expand(function () {
	var self = Container.call(this);
	var scoreGraphics = self.attachAsset('mirror1', {
		anchorX: 0.5,
		anchorY: 0.5,
		rotation: Math.PI / 14 // Rotate image right 15 degrees
	});
	var scoreText = new Text2('0', {
		size: 175,
		fill: 0x800080,
		font: "Courier New, Courier, monospace",
		// Segmented clock style font
		stroke: 0x00FF00,
		strokeThickness: 15,
		dropShadow: true,
		dropShadowColor: 0x000000,
		dropShadowBlur: 5,
		dropShadowAngle: Math.PI / 6,
		dropShadowDistance: 6
	});
	scoreText.y = 50; // Move score text up by 20px
	scoreText.x = -145; // Move score text left by 10px
	scoreText.rotation = Math.PI / 12; // Rotate score text right 15 degrees
	x = 100;
	y = 100;
	self.addChild(scoreText);
	self.updateScore = function (newScore) {
		scoreText.setText(newScore);
	};
});
// Reticle class to manage reticle behavior
var Reticle = Container.expand(function () {
	var self = Container.call(this);
	var reticleGraphics = self.attachAsset('reticle1', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.update = function () {
		// Add any specific update logic for the reticle here
	};
	// Start the pulsating effect for the reticle
	startPulsating(self);
});
// Stack1 class to represent the stack1 image
var Stack1 = Container.expand(function () {
	var self = Container.call(this);
	var stackGraphics = self.attachAsset('stack1', {
		anchorX: 0.5,
		anchorY: 0.5,
		rotation: Math.PI / -12
	});
	self.update = function () {
		// Add any specific update logic for stack1 here
	};
});
// ScoreManager class to manage score logic
// Sun class to represent a sun in the top right corner
var Sun = Container.expand(function () {
	var self = Container.call(this);
	var sunGraphics = self.attachAsset('sun', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.pulse = new SunPulse(sunGraphics);
	self.pulse.startPulsating();
});
// Function to create a pulsating effect
// Tree class to represent a tree with a 9:16 aspect ratio
var Tree = Container.expand(function () {
	var self = Container.call(this);
	var treeGraphics = self.attachAsset('tree', {
		anchorX: 0.5,
		anchorY: 1,
		antialias: true,
		// Apply antialias effect 
		stroke: 0x000000,
		// Add a black stroke 
		strokeThickness: 15 // Set stroke thickness to 15px 
	});
	self.update = function () {
		// Add any specific update logic for the tree here
	};
});
// UFO class to represent a UFO
var UFO = Container.expand(function () {
	var self = Container.call(this);
	var ufoGraphics = self.attachAsset('ufo2', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.movement = new UFOMovement(self, ufoGraphics);
});

/**** 
* Initialize Game
****/ 
// UFOMovement class to handle UFO movement
/**** 
* Assets
LK.init.shape('branch', {width:50, height:10, color:0x8b4513, shape:'box'})
****/ 
// Initialize clouds array
var game = new LK.Game({
	// No title, no description
	backgroundColor: 0x000000 // Black
});

/**** 
* Game Code
****/ 
// SunPulse class to handle the pulsating effect for Sun
var SunPulse = function SunPulse(sunGraphics) {
	this.sunGraphics = sunGraphics;
	this.startPulsating = function () {
		function pulsate() {
			tween(this.sunGraphics, {
				scaleX: 1.1,
				scaleY: 1.1
			}, {
				duration: 1000,
				easing: tween.easeInOut,
				onFinish: function () {
					tween(this.sunGraphics, {
						scaleX: 1.0,
						scaleY: 1.0
					}, {
						duration: 1000,
						easing: tween.easeInOut,
						onFinish: pulsate.bind(this)
					});
				}.bind(this)
			});
		}
		pulsate.call(this);
	};
};
// Light1Pulse class to handle the pulsating effect for Light1
var Light1Pulse = function Light1Pulse(lightGraphics) {
	this.lightGraphics = lightGraphics;
	this.startPulsating = function () {
		function pulsate() {
			tween(this.lightGraphics, {
				scaleX: 1.6,
				scaleY: 1.6
			}, {
				duration: 1500,
				easing: tween.easeInOut,
				onFinish: function () {
					tween(this.lightGraphics, {
						scaleX: 1.0,
						scaleY: 1.0
					}, {
						duration: 1500,
						easing: tween.easeInOut,
						onFinish: pulsate.bind(this)
					});
				}.bind(this)
			});
		}
		pulsate.call(this);
	};
};
var bird2; // Define bird2 variable in the global scope
// Bird2Effects class to handle effects and animations for Bird2
// Function to create a pulsating effect
function startPulsating(target) {
	var duration = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 888;
	function pulsate() {
		tween(target, {
			scaleX: 1.0,
			scaleY: 1.0
		}, {
			duration: duration,
			easing: tween.easeInOut,
			onFinish: function onFinish() {
				tween(target, {
					scaleX: 1.0,
					scaleY: 1.0
				}, {
					duration: duration,
					easing: tween.easeInOut,
					onFinish: pulsate
				});
			}
		});
	}
	pulsate();
}
// UFOSound class to manage UFO sound effects
// UFOMovement class to handle UFO movement
var UFOMovement = function UFOMovement(ufo, ufoGraphics) {
	this.ufo = ufo;
	this.ufoGraphics = ufoGraphics;
	this.ufo.speed = 3.2; // Decrease speed by 20%
	this.ufo.direction = Math.random() < 0.5 ? 1 : -1; // Random direction: 1 for right, -1 for left
	this.ufo.lastX = this.ufo.x; // Track last X position for future checks
	this.ufo.update = function () {
		this.x += this.speed * this.direction;
		this.y = 100 + Math.sin(this.x / 100) * 250; // Slow down the wave pattern by 50%
		// Stop playing ufo1 sound after UFO leaves the screen
		if (this.lastX <= 2048 + this.width / 2 && this.x > 2048 + this.width / 2 || this.lastX >= -this.width / 2 && this.x < -this.width / 2) {
			this.destroy();
			ufo = null;
			LK.getSound('ufo1').stop();
		}
		this.lastX = this.x; // Update lastX after movement
	};
};
var UFOSound = function UFOSound() {
	this.play = function () {
		LK.getSound('ufo1').play();
	};
};
// BackgroundMusic class to manage background music
var BackgroundMusic = function BackgroundMusic() {
	this.play = function () {
		LK.playMusic('bgm1', {
			loop: true,
			fade: {
				start: 0,
				end: 1,
				duration: 4000
			},
			onEnd: onBgm1End
		});
	};
};
// LaserSound class to manage laser sound effects
var LaserSound = function LaserSound() {
	this.play = function () {
		LK.getSound('laser1').play();
	};
};
var Bird1Movement = function Bird1Movement(bird, birdGraphics) {
	this.bird = bird;
	this.birdGraphics = birdGraphics;
	this.bird.speed = Math.random() * 1.6 + 1;
	this.bird.lastY = this.bird.y; // Initialize lastY for tracking changes on Y
	this.bird.lastX = this.bird.x; // Initialize lastX for tracking changes on X
	this.bird.update = function () {
		this.y += this.speed;
		this.x += Math.sin(this.y / 100) * 6.5; // Increase the swooping motion of the bird's movement by 30%
		// Check if the bird has moved off-screen
		if (this.lastY <= 2732 && this.y > 2732) {
			this.y = -this.height;
			this.x = Math.random() < 0.33 ? Math.random() * 2048 : Math.random() < 0.5 ? 0 : 2048;
		}
		if (this.birdGraphics) {
			if (this.lastX <= this.x) {
				this.birdGraphics.texture = LK.getAsset('bird1-right', {}).texture;
			} else if (this.lastX > this.x) {
				this.birdGraphics.texture = LK.getAsset('bird1-left', {}).texture;
			}
			this.lastX = this.x; // Update lastX after movement
		}
		this.lastY = this.y; // Update lastY after movement
	};
};
var Bird2Movement = function Bird2Movement(bird, birdGraphics) {
	this.bird = bird;
	this.birdGraphics = birdGraphics;
	this.bird.speed = Math.random() * 1.6 + 1;
	this.bird.lastY = this.bird.y; // Initialize lastY for tracking changes on Y
	this.bird.lastX = this.bird.x; // Initialize lastX for tracking changes on X
	this.bird.update = function () {
		this.y += this.speed;
		this.x += Math.sin(this.y / 100) * 6.5; // Increase the swooping motion of the bird's movement by 30%
		if (this.birdGraphics) {
			if (this.lastX <= this.x) {
				this.birdGraphics.texture = LK.getAsset('bird2-right', {}).texture;
			} else if (this.lastX > this.x) {
				this.birdGraphics.texture = LK.getAsset('bird2-left', {}).texture;
			}
			this.lastX = this.x; // Update lastX after movement
		}
		// Check if the bird has moved off-screen
		if (this.lastY <= 2732 && this.y > 2732) {
			this.y = Math.random() * 2732; // Random initial y position within the screen height
			this.x = Math.random() < 0.5 ? 0 : 2048; // Start from either the left or right side
		}
		this.lastY = this.y; // Update lastY after movement
	};
};
var CloudMovement = function CloudMovement(cloud, cloudGraphics) {
	this.cloud = cloud;
	this.cloudGraphics = cloudGraphics;
	this.cloud.speed = Math.random() * 0.55 + 0.25; // Adjust speed to range between 0.25 and 0.8
	this.cloud.hasAccelerated = false; // Track if the cloud has already accelerated
	this.cloud.direction = Math.random() < 0.5 ? 1 : -1; // Random direction: 1 for right, -1 for left
	this.cloud.lastX = this.cloud.x; // Track last X position for future checks
	this.cloud.lastIntersecting = false; // Initialize lastIntersecting for tracking changes on intersections
	this.cloud.update = function () {
		this.x += this.speed * this.direction;
		// If the cloud moves off-screen, reposition it to the opposite side
		if (this.lastX <= 2048 + this.width / 2 && this.x > 2048 + this.width / 2) {
			this.x = -this.width / 2;
		} else if (this.lastX >= -this.width / 2 && this.x < -this.width / 2) {
			this.x = 2048 + this.width / 2;
		}
		// Check for overlap with other clouds
		for (var i = 0; i < clouds.length; i++) {
			if (clouds[i] !== this && this.intersects(clouds[i])) {
				if (!this.hasAccelerated) {
					this.speed *= 1.5; // Increase speed by 50%
					this.hasAccelerated = true; // Mark as accelerated
				}
				break;
			} else if (this.hasAccelerated && !this.intersects(clouds[i])) {
				this.speed /= 1.5; // Reset speed to original
				this.hasAccelerated = false; // Reset acceleration state
			}
		}
		// Check if the cloud intersects with the sun
		if (!this.lastIntersecting && this.intersects(sun)) {
			this.speed *= 2; // Double the speed when touching the sun
			if (this.cloudGraphics) {
				tween(this.cloudGraphics, {
					alpha: 0.5
				}, {
					duration: 3000,
					easing: tween.linear
				});
			}
		} else if (this.lastIntersecting && !this.intersects(sun)) {
			this.speed /= 2; // Reset speed to original when not touching the sun
			if (this.cloudGraphics) {
				tween(this.cloudGraphics, {
					alpha: 1.0
				}, {
					duration: 3000,
					easing: tween.linear
				});
			}
		}
		this.lastIntersecting = this.intersects(sun);
		this.lastX = this.x; // Update lastX after movement
	};
};
var Bird2Effects = function Bird2Effects(bird) {
	this.bird = bird;
	this.applyEffects = function () {
		// Add any specific effects or animations for Bird2 here
	};
};
// Bird1Effects class to handle effects and animations for Bird1
var Bird1Effects = function Bird1Effects(bird) {
	this.bird = bird;
	this.applyEffects = function () {
		// Add any specific effects or animations for Bird1 here
	};
};
var background = LK.getAsset('background', {
	anchorX: 0.5,
	anchorY: 0.5
});
background.x = 2048 / 2;
background.y = 2732 / 2 - 100;
game.addChild(background);
// ScoreManager class to manage score logic
var ScoreManager = function ScoreManager() {
	var self = this;
	self.score = 0;
	self.addScore = function (points) {
		self.score += points;
		return self.score;
	};
	self.resetScore = function () {
		self.score = 0;
	};
	self.getScore = function () {
		return self.score;
	};
};
var ScoreManager = function ScoreManager() {
	var self = this;
	self.score = 0;
	self.addScore = function (points) {
		self.score += points;
		return self.score;
	};
	self.resetScore = function () {
		self.score = 0;
	};
	self.getScore = function () {
		return self.score;
	};
};
var birds = [];
game.down = function (x, y, obj) {
	if (!game.reticle) {
		game.reticle = game.addChild(new Reticle());
		if (game.children.includes(game.reticle)) {
			game.setChildIndex(game.reticle, 7); // Set reticle to be rendered after the tree
		}
	}
	game.reticle.x = x;
	game.reticle.y = y;
	var laser = new Laser(cat.x - 140, cat.y - 440, x, y); // laser starting point
	game.addChild(laser);
	if (game.children.includes(laser) && game.children.includes(game.reticle)) {
		game.setChildIndex(laser, game.getChildIndex(game.reticle) + 1); // Ensure laser is rendered after the reticle
	}
};
var VOLUME_BGM1 = 0.02;
var VOLUME_BREEZE1 = 0.02;
var VOLUME_CRICKET1 = 0.02;
var VOLUME_FROG1 = 0.02;
var VOLUME_SONGBIRD1 = 0.02;
var VOLUME_UFO1 = 0.02;
var VOLUME_WINGS1 = 0.02;
game.move = function (x, y, obj) {
	if (!game.reticle) {
		game.reticle = game.addChild(new Reticle());
	}
	if (obj.event) {
		var x = obj.event.x;
		var y = obj.event.y;
	}
	game.reticle.x = x;
	game.reticle.y = y;
};
// Add a sun to the game in the top left corner
var sun = game.addChild(new Sun());
sun.x = 480;
sun.y = 680;
// Ensure sun is added to the game before setting its index
if (game.children.includes(sun)) {
	game.setChildIndex(sun, 1); // Set sun to be rendered after the background
}
var light1 = game.addChild(new Light1());
light1.x = 530; // Move light1 right by 50px
light1.y = 1500; // Move light1 down by 210px
// Ensure light1 is added to the game before setting its index
if (game.children.includes(light1)) {
	game.setChildIndex(light1, 2); // Set light1 to be rendered after the sun
}
// Function to add a UFO to the game
function addUFO() {
	var ufo = new UFO();
	game.addChild(ufo);
	// Ensure UFO is added to the game before setting its index
	if (game.children.includes(ufo) && game.children.includes(clouds[0])) {
		game.setChildIndex(ufo, game.getChildIndex(clouds[0]) + 1); // Set UFO to be rendered after the first cloud
	}
	ufo.x = Math.random() < 0.5 ? 2048 + ufo.width / 2 : -ufo.width / 2; // Start from either the far right or left edge of the screen
	ufo.y = Math.random() * (2732 / 2 - ufo.height); // Random initial y position within the top half of the screen
	ufo.customUpdate = function () {
		ufo.update();
	};
	// Removed ufo sound playing at startup
	return ufo;
}
// Initialize clouds array
var clouds = [];
for (var i = 0; i < 4; i++) {
	// Add 3 clouds for variety
	var cloud = new Cloud();
	cloud.x = Math.random() * 2048;
	cloud.y = Math.random() * (2732 / 2); // Position clouds in the upper half of the screen
	clouds.push(cloud);
	game.addChild(cloud);
	// Ensure cloud is added to the game before setting its index
	if (game.children.includes(cloud)) {
		game.setChildIndex(cloud, 2); // Set clouds to be rendered after the sun
	}
}
var bird1; // Define bird1 variable in the global scope
// Initialize birds
spawnBird1();
spawnBird2();
spawnBird2();
// Initialize a timer to add a UFO at a random time between 20 and 30 seconds
var ufo; // Define the ufo variable in the global scope
var laser; // Define the laser variable in the global scope
var ufoTimer = LK.setTimeout(function () {
	addUFO();
	// Reset the timer for the UFO to reappear between 10-20 seconds
	ufoTimer = LK.setTimeout(arguments.callee, Math.random() * 10000 + 10000);
}, Math.random() * 10000 + 10000); // Initial interval for UFO appearances between 10 to 20 seconds
game.update = function () {
	for (var i = 0; i < clouds.length; i++) {
		clouds[i].update();
	}
	// Add a jet to the game
	if (!game.jet) {
		var jet = new Jet();
		jet.x = Math.random() < 0.5 ? 2048 + jet.width / 2 : -jet.width / 2; // Start from either the far right or left edge of the screen
		jet.y = Math.random() * (2732 - jet.height); // Random initial y position within the screen height
		game.addChild(jet);
		if (game.children.includes(jet)) {
			game.setChildIndex(jet, game.children.length - 1); // Bring the jet to the front by setting its index to the highest value
		}
		game.jet = jet;
		if (!game.jetSoundPlayed) {
			LK.getSound('jetSound').play(); // Play jet sound when it appears
			game.jetSoundPlayed = true; // Ensure it only plays once
		}
	}
	// Update jet
	if (game.jet) {
		game.jet.update();
		if (game.jet.lastX <= 2048 + game.jet.width / 2 && game.jet.x > 2048 + game.jet.width / 2 || game.jet.lastX >= -game.jet.width / 2 && game.jet.x < -game.jet.width / 2) {
			game.jet.destroy();
			game.jet = null;
			game.jetSoundPlayed = false; // Reset the flag when the jet is removed
			// Set a timer to respawn the jet between 10-20 seconds
			LK.setTimeout(function () {
				var jet = new Jet();
				jet.x = Math.random() < 0.5 ? 2048 + jet.width / 2 : -jet.width / 2; // Start from either the far right or left edge of the screen
				jet.y = Math.random() * (2732 - jet.height); // Random initial y position within the screen height
				game.addChild(jet);
				game.jet = jet;
				if (!game.jetSoundPlayed) {
					LK.getSound('jetSound').play(); // Play jet sound when it appears
					game.jetSoundPlayed = true; // Ensure it only plays once
				}
			}, Math.random() * 10000 + 10000); // Random time between 10-20 seconds
		}
	}
	if (ufo) {
		ufo.customUpdate();
		// Update each laser
		game.children.forEach(function (child) {
			if (child instanceof Laser) {
				child.update();
				// Check for intersections with birds and UFO
				birds.forEach(function (bird) {
					if (!child.lastIntersecting && child.intersects(bird)) {
						if (bird instanceof Bird1) {
							score += 5;
						} else if (bird instanceof Bird2 || bird instanceof Bird3) {
							score += 1;
						}
						scoreDisplay.updateScore(score); // Update the score display
						bird.destroy(); // Remove the bird when hit by a laser
						birds.splice(birds.indexOf(bird), 1); // Remove bird from the array
						child.destroy();
					}
					child.lastIntersecting = birds.some(function (bird) {
						return child.intersects(bird);
					});
				});
				if (ufo && !child.lastIntersecting && child.intersects(ufo)) {
					score += 25;
					score.updateScore(score);
					child.destroy();
				}
				child.lastIntersecting = birds.some(function (bird) {
					return child.intersects(bird);
				}) || ufo && child.intersects(ufo);
			}
		});
		// Check for intersections between UFO and birds
		birds.forEach(function (bird) {
			if (!ufo.lastIntersecting && ufo.intersects(bird)) {
				bird.destroy(); // Remove the bird when touched by the UFO
				birds.splice(birds.indexOf(bird), 1); // Remove bird from the array
				LK.getSound('electro').play(); // Play the 'electro' sound
			}
			ufo.lastIntersecting = birds.some(function (bird) {
				return ufo.intersects(bird);
			});
		});
		if (ufo.lastX <= 2048 + ufo.width / 2 && ufo.x > 2048 + ufo.width / 2 || ufo.lastX >= -ufo.width / 2 && ufo.x < -ufo.width / 2) {
			// Destroy the UFO and set it to null
			ufo.destroy();
			ufo = null;
			// Start a timer for the UFO to reappear between 30-50 seconds
			ufoTimer = LK.setTimeout(function () {
				ufo = addUFO();
			}, Math.random() * 20000 + 30000);
		} else {}
		ufo.lastX = ufo.x; // Update lastX for the UFO
	}
	// Removed auto-targeting update function
};
// Function to spawn a third kind of bird
function spawnBird1() {
	var bird1 = new Bird1();
	bird1.x = Math.random() * 2048;
	bird1.y = -bird1.height;
	bird1.speed = 1 + Math.random() * 0.6;
	bird1.lastIntersecting = false;
	bird1.type = 'bird1'; // Specific property for Bird1
	bird1.color = 0x746130; // Specific color for Bird1
	LK.setTimeout(function () {
		game.addChild(bird1);
		// Ensure bird1 is added to the game before setting its index
		if (game.children.includes(bird1)) {
			if (game.children.includes(bird1) && game.children.includes(tree)) {
				game.setChildIndex(bird1, game.getChildIndex(tree)); // Set Bird1 to be rendered before tree
			}
		}
		birds.push(bird1);
	}, 2000);
}
function spawnBird2() {
	var bird = new Bird2();
	bird.y = Math.random() * (2732 / 2); // Random initial y position in the top half
	bird.x = Math.random() < 0.5 ? 0 : 2048; // Start from either the left or right side
	bird.speed = 1 + Math.random() * 0.6;
	bird.lastIntersecting = false;
	bird.type = 'bird2'; // Specific property for Bird2
	bird.color = 0xFFFFFF; // Specific color for Bird2
	LK.setTimeout(function () {
		game.addChild(bird);
		// Ensure bird is added to the game before setting its index
		if (game.children.includes(bird)) {
			game.setChildIndex(bird, game.getChildIndex(stack1) + 1); // Set Bird2 to be rendered after stack1
		}
		birds.push(bird);
	}, 2000);
}
// Ensure there are always 3 birds on screen
game.update = function () {
	// Update each bird
	birds.forEach(function (bird) {
		bird.update();
		// Check if the bird has moved off-screen
		if (bird.lastY <= 2732 && bird.y > 2732) {
			bird.y = -bird.height; // Respawn the bird at the top
			bird.x = Math.random() * 2048; // Randomize the x position
			bird.speed = 1 + Math.random() * 0.6; // Reset speed for new bird
		}
	});
};
// Add a tree to the game
var tree = game.addChild(new Tree());
tree.x = 2048 / 2 + 600; // Move the tree 500px to the right
tree.y = 2500; // Position the tree on the grass
// Ensure tree is added to the game before setting its index
if (game.children.includes(tree) && game.children.includes(bird1)) {
	game.setChildIndex(tree, game.getChildIndex(bird1) + 1); // Set tree to be rendered after bird1
}
var score = 0;
// Add stack1 image to the game
var stack1 = game.addChild(new Stack1());
stack1.x = 1650; // Move 500px to the right
stack1.y = 2300; // Move down by 800px
// Ensure stack1 is added to the game before setting its index
if (game.children.includes(stack1) && game.children.includes(tree)) {
	game.setChildIndex(stack1, game.getChildIndex(tree) + 1); // Set stack1 to be rendered after tree
}
// Add the grass floor to the game
var grassBack = new GrassBack();
grassBack.x = 1020;
grassBack.y = 2735; // Position grassBack at the bottom
game.addChild(grassBack);
// Ensure grassBack is added to the game before setting its index
if (game.children.includes(grassBack)) {
	game.setChildIndex(grassBack, 5); // Set grassBack to be rendered after Bird3
}
var grassFront = new GrassFront();
grassFront.x = 1020;
grassFront.y = 2785; // Position grassFront at the bottom, moved down by 50px
game.addChild(grassFront);
// Ensure grassFront is added to the game before setting its index
if (game.children.includes(grassFront) && game.children.includes(bird2)) {
	game.setChildIndex(grassFront, game.getChildIndex(bird2) + 1); // Set grassFront to be rendered after bird2
}
var mirror = new Mirror();
mirror.x = 2048 / 2 + 400; // Move the score display 400px to the right
mirror.y = 2732 - 185 - 80 - 390; // Move the score display up by an additional 80px
game.addChild(mirror);
// Ensure mirror is added to the game before setting its index
if (game.children.includes(mirror) && game.children.includes(stack1)) {
	game.setChildIndex(mirror, game.getChildIndex(stack1) + 1); // Set mirror to be rendered after stack1
}
// Ensure laser is added to the game before setting mirror's index
if (game.children.includes(laser) && game.children.includes(mirror)) {
	game.setChildIndex(mirror, game.getChildIndex(laser) + 1); // Set mirror to be rendered after the laser
}
// Function to handle bgm1 end event
function onBgm1End() {
	// Set a timer to replay bgm1 after 50-80 seconds
	var bgmTimer = LK.setTimeout(function () {
		LK.playMusic('bgm1', {
			loop: true,
			fade: {
				start: 0,
				end: 1,
				duration: 4000
			},
			onEnd: onBgm1End
		});
	}, Math.random() * 30000 + 50000);
}
;
// Add the cat to the game
var cat = game.addChild(new Cat());
cat.x = 230; // Move the cat 20px to the left
cat.y = 2732; // Position the cat at the bottom of the screen
// Ensure cat is added to the game before setting its index
if (game.children.includes(cat)) {
	game.setChildIndex(cat, game.children.length - 1); // Bring the cat to the front by setting its index to the highest value
}
// Play bgm1 once on load and set a timer to replay it every 20-50 seconds
LK.playMusic('bgm1', {
	loop: false,
	// Play once
	fade: {
		start: 0,
		end: 0.02,
		// Set to the lowest volume
		duration: 4000
	},
	onEnd: function onEnd() {
		// Set a timer to replay bgm1 every 20-50 seconds
		LK.setTimeout(function () {
			LK.playMusic('bgm1', {
				loop: false,
				// Play once
				fade: {
					start: 0,
					end: 0.5,
					// Set to the lowest volume
					duration: 4000
				},
				onEnd: onEnd // Set the onEnd function to replay bgm1
			});
		}, Math.random() * 30000 + 20000); // Random time between 20-50 seconds
	}
});
// Initialize a timer to play the wings1 sound at a random time between 10 and 30 seconds
var wingsTimer = LK.setTimeout(function () {
	LK.getSound('wings1').play();
	wingsTimer = LK.setTimeout(arguments.callee, Math.random() * 20000 + 10000);
}, Math.random() * 20000 + 10000);
// Create an array for all sounds except ufo1, including all birdsong sounds
var sounds = ['cricket1', 'frog1', 'wings1', 'songbird1'];
var currentAmbientSound = null;
// Initialize random timers for each sound to play between 30-50 seconds
sounds.forEach(function (soundId) {
	var sound = LK.getSound(soundId);
	var ambientSoundTimer = LK.setTimeout(function () {
		if (currentAmbientSound) {
			currentAmbientSound.stop(); // Stop the currently playing ambient sound
		}
		sound.play();
		currentAmbientSound = sound; // Set the current ambient sound
		// Set a timeout to reset the current ambient sound after it finishes playing
		LK.setTimeout(function () {
			currentAmbientSound = null;
		}, sound.duration * 1000); // Convert duration from seconds to milliseconds
		// Reset the timer to play the sound again between 30-50 seconds, plus an additional 5 seconds
		ambientSoundTimer = LK.setTimeout(arguments.callee, Math.random() * 20000 + 30000 + 5000);
	}, Math.random() * 20000 + 30000);
});
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Images

an orange and white cat facing away from the camera. the cat is sitting straight up and looking up, ready to pounce. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows remove black box fluffy translucent cloud. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows bright sun with wincing cartoon face and a black eye. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows a goofy ufo. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows red gaming reticle. Minimal. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows sunny day, hilly landscape. there is an alien invasion taking place in the distance. cities burning. large AUTUMN SHADES tree with sparse bunches of leaves. branches are exposed, but the tree is tough and old.. true-color, realistic, Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows glowing orange sphere. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows sideway view of a fighter jet. . . In-Game 2d asset. transparent background. horizontal. No shadows. shiny purple and black attack ufo.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows

Sounds & Music

🎵

wings1

Sound effect

🎵

ufo1

Sound effect

🎵

cricket1

Sound effect

🎵

frog1

Sound effect

🎶

bgm1

Music

🎵

breeze1

Sound effect

🎵

songbird1

Sound effect

🎵

laser1

Sound effect

🎵

teslacoil

Sound effect

🎵

chitter

Sound effect

🎵

laser2

Sound effect

🎵

dead1

Sound effect

🎵

electro

Sound effect

Used plugins

@upit/tween
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