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

/**** * Plugins ****/ var tween = LK.import("@upit/tween.v1"); /**** * Classes ****/ // Background class to represent the background image var Background = Container.expand(function () { var self = Container.call(this); var backgroundGraphics = self.attachAsset('background', { anchorX: 0.5, anchorY: 0.5 }); self.addChild(backgroundGraphics); }); // 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 = 440; 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 = 40; // 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 self.addChild(scoreText); self.updateScore = function (newScore) { scoreText.setText(newScore); }; }); // Mirror1 class to represent the mirror image var Mirror1 = Container.expand(function () { var self = Container.call(this); var mirror1Graphics = self.attachAsset('mirror1', { anchorX: 0.5, anchorY: 0.5 }); self.addChild(mirror1Graphics); }); // 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); }); // Reticle1 class to represent the reticle image var Reticle1 = Container.expand(function () { var self = Container.call(this); var reticle1Graphics = self.attachAsset('reticle1', { anchorX: 0.5, anchorY: 0.5 }); self.addChild(reticle1Graphics); }); // ScoreImage class to represent the score image var ScoreImage = Container.expand(function () { var self = Container.call(this); var scoreImageGraphics = self.attachAsset('scoreImage', { anchorX: 0.5, anchorY: 0.5 }); self.addChild(scoreImageGraphics); }); // 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 }; }); // Tree2 class to represent the second type of tree var Tree2 = Container.expand(function () { var self = Container.call(this); var tree2Graphics = self.attachAsset('tree2', { anchorX: 0.5, anchorY: 1 }); self.addChild(tree2Graphics); }); // 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); }); // UFO2 class to represent the second type of UFO var UFO2 = Container.expand(function () { var self = Container.call(this); var ufo2Graphics = self.attachAsset('ufo2', { anchorX: 0.5, anchorY: 0.5 }); self.movement = new UFOMovement(self, ufo2Graphics); }); /**** * 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 ****/ // Bird2Movement class to handle Bird2 movement // SunPulse class to handle the pulsating effect for Sun 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 }; }; // Bird1Movement class to handle Bird1 movement 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 }; }; // CloudMovement class to handle cloud movement and fade effects 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 }; }; // 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 }; }; // 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); }; }; // 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); }; }; 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 if (typeof laser !== 'undefined' && game.children.includes(laser)) { game.setChildIndex(laser, game.getChildIndex(ufo) + 1); // Ensure laser is rendered after the UFO for accurate collision detection } } 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 every 15 seconds ufoTimer = LK.setTimeout(arguments.callee, 15000); }, 3000); // Initial interval for UFO appearances 3 seconds after page load game.update = function () { for (var i = 0; i < clouds.length; i++) { clouds[i].update(); } // Ensure at least 3 clouds are visible while (clouds.length < 3) { 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 } } // 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) && child.y < ufo.y) { score += 25; score.updateScore(score); // Calculate random bounce direction for the laser var angle = Math.random() * Math.PI * 2; // Random angle in radians var bounceSpeed = 10; // Speed of the bounce child.vx = Math.cos(angle) * bounceSpeed; child.vy = Math.sin(angle) * bounceSpeed; } 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, index) { bird.update(); // Check for intersections with other birds birds.forEach(function (otherBird, otherIndex) { if (index !== otherIndex && !bird.lastIntersecting && bird.intersects(otherBird)) { // Calculate bounce direction var dx = bird.x - otherBird.x; var dy = bird.y - otherBird.y; var distance = Math.sqrt(dx * dx + dy * dy); var bounceFactor = 5; // Adjust bounce factor for desired effect // Apply bounce with acceleration bird.x += dx / distance * bounceFactor; bird.y += dy / distance * bounceFactor; otherBird.x -= dx / distance * bounceFactor; otherBird.y -= dy / distance * bounceFactor; // Mark as intersecting bird.lastIntersecting = true; otherBird.lastIntersecting = true; } }); // Reset intersection state bird.lastIntersecting = birds.some(function (otherBird, otherIndex) { return index !== otherIndex && bird.intersects(otherBird); }); // 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 - 680; // 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); });

===================================================================
--- original.js
+++ change.js
@@ -944,9 +944,9 @@
 var ufoTimer = LK.setTimeout(function () {
 	addUFO();
 	// Reset the timer for the UFO to reappear every 15 seconds
 	ufoTimer = LK.setTimeout(arguments.callee, 15000);
-}, 15000); // Initial interval for UFO appearances every 15 seconds
+}, 3000); // Initial interval for UFO appearances 3 seconds after page load
 game.update = function () {
 	for (var i = 0; i < clouds.length; i++) {
 		clouds[i].update();
 	}

Creation History

Images

Sounds & Music

Used plugins