Upit | Learn about creating the game Max vs Monsters with gen AI

/**** * Plugins ****/ var tween = LK.import("@upit/tween.v1"); /**** * Classes ****/ var Arrow = Container.expand(function () { var self = Container.call(this); self.sprite = self.attachAsset('arrow', { anchorX: 0.5, anchorY: 0.5 }); self.speed = 25; self.damage = 1; self.update = function () { self.x += self.speed; // Destroy if off screen if (self.x > GAME_WIDTH + 100) { self.destroy(); } }; self.getBounds = function () { return { left: self.x - 40, right: self.x + 40, top: self.y - 10, bottom: self.y + 10 }; }; self.updateAmmo = function (amount) { self.ammoText.setText('x' + amount); // Adjust position based on digit count if (amount >= 10) { self.ammoText.x = -150; } else { self.ammoText.x = -100; } }; return self; }); var ArrowPickup = Container.expand(function () { var self = Container.call(this); self.sprite = self.attachAsset('arrow', { anchorX: 0.5, anchorY: 0.7, scaleX: 1.2, scaleY: 1.2 }); // Initialize physics properties CollectibleBehavior.initPhysics(self); self.collect = function () { if (!self.collected) { self.collected = true; player.ammoCount += 1; scoreManager.updateAmmo(player.ammoCount); // Create arrow popup var popup = LK.getAsset('arrow', { anchorX: 0.5, anchorY: 0.5, scaleX: 0.8, scaleY: 0.8 }); popup.x = self.x; popup.y = self.y - 30; popup.velocityY = -3; popup.lifespan = 45; popup.update = function () { this.y += this.velocityY; this.lifespan--; if (this.lifespan < 15) { this.alpha -= 0.07; } if (this.alpha <= 0 || this.lifespan <= 0) { this.destroy(); } }; game.addChild(popup); self.destroy(); } }; self.update = function () { CollectibleBehavior.standardUpdate(self); }; return self; }); // Refactored classes - keeping original Container.expand pattern var Coin = Container.expand(function (type) { var self = Container.call(this); // Set type and create sprite self.type = type || 'coin'; self.sprite = self.attachAsset(self.type, { anchorX: 0.5, anchorY: 0.5, tint: 0xFFFFFF }); // Initialize physics properties CollectibleBehavior.initPhysics(self); // Get value based on type self.getValue = function () { switch (self.type) { case 'diamond': return 10; case 'emerald': return 5; case 'ruby': return 3; default: return 1; } }; // Collection functionality self.collect = function () { if (!self.collected) { self.collected = true; var value = self.getValue(); scoreManager.addScore(value, self.x, self.y); LK.getSound('coincollect').play(); self.destroy(); } }; // Standard update method using shared behavior self.update = function () { CollectibleBehavior.standardUpdate(self); }; self.checkPlatformCollision = function () { return GameUtils.checkPlatformCollision(self, 80, true) != null; }; return self; }); // Enemy class with refactored animation management var Enemy = Container.expand(function (type) { var self = Container.call(this); // Enemy properties self.type = type || 'basic'; self.speed = 7; self.isOnGround = true; self.velocityY = 0; self.currentPlatform = null; self.groundY = GAME_HEIGHT / 1.5; self.isHit = false; self.isDying = false; self.deathTimer = 0; self.throwBackSpeed = 15; self.throwBackDistance = 0; self.maxThrowBack = 200; self.hitType = 'none'; // Can be 'none', 'attack', or 'slide' // Hitbox properties self.hitboxWidth = 200; self.hitboxHeight = self.type === 'eyeball' ? 90 : 260; // Animation properties self.sprites = []; self.animationCounter = 0; self.animationSpeed = 0.08; // Define all animation arrays based on enemy type if (self.type === 'eyeball') { // Eyeball-specific properties self.isFlying = true; self.flyingHeight = 0; self.verticalSpeed = 2; self.maxVerticalSpeed = 4; self.homingDelay = 80; self.homingTimer = 0; self.flyFrame = 0; // Animation frames self.flyAnimation = ['eyefly1', 'eyefly2', 'eyefly3', 'eyefly4', 'eyefly5', 'eyefly6', 'eyefly7', 'eyefly8']; self.hitAnimation = ['eyedie1', 'eyedie2']; self.dieAnimation = ['eyedie3', 'eyedie4', 'eyedie5']; } else if (self.type === 'goblin') { // Goblin-specific properties self.runFrame = 0; // Animation frames self.runAnimation = ['goblinrun1', 'goblinrun2', 'goblinrun3', 'goblinrun4', 'goblinrun5', 'goblinrun6', 'goblinrun7', 'goblinrun8']; self.hitAnimation = ['goblinhit1']; self.dieAnimation = ['goblindie1', 'goblindie2', 'goblindie3', 'goblindie4']; } // Initialize animation sprites for eyeball self.initEyeballSprites = function () { // Add fly animations for (var i = 0; i < self.flyAnimation.length; i++) { var sprite = self.attachAsset(self.flyAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = i === 0 ? 1 : 0; self.sprites.push(sprite); } // Add hit animations for (var i = 0; i < self.hitAnimation.length; i++) { var sprite = self.attachAsset(self.hitAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } // Add die animations for (var i = 0; i < self.dieAnimation.length; i++) { var sprite = self.attachAsset(self.dieAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } }; // Initialize animation sprites for goblin self.initGoblinSprites = function () { // Add run animations for (var i = 0; i < self.runAnimation.length; i++) { var sprite = self.attachAsset(self.runAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = i === 0 ? 1 : 0; self.sprites.push(sprite); } // Add hit animations for (var i = 0; i < self.hitAnimation.length; i++) { var sprite = self.attachAsset(self.hitAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } // Add die animations for (var i = 0; i < self.dieAnimation.length; i++) { var sprite = self.attachAsset(self.dieAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } }; // Hide all animation sprites self.hideAllSprites = function () { for (var i = 0; i < self.sprites.length; i++) { self.sprites[i].alpha = 0; } }; // Update eyeball hit/die animation - fixed to allow falling without platform collision self.updateEyeballDamageState = function () { if (self.isHit) { var hitOffset = self.flyAnimation.length; self.throwBackDistance += Math.abs(self.throwBackSpeed); self.x += self.throwBackSpeed; // Apply vertical velocity without any dampening on the first few frames // to ensure the eyeball gets significant vertical movement if (self.hitTimer > 30) { // Apply full vertical movement without reduction for initial frames self.y += self.velocityY; } else { // After initial frames, gradually reduce the vertical movement self.y += self.velocityY; self.velocityY *= 0.8; // Less aggressive dampening to maintain vertical motion } self.throwBackSpeed *= 0.95; // Show hit animation var hitFrame = Math.floor(self.hitTimer / 100) % 2; self.sprites[hitOffset + hitFrame].alpha = 1; self.hitTimer--; if (self.hitTimer <= 0) { self.isHit = false; if (self.hitType === 'attack') { // Only start dying if it was a regular attack self.isDying = true; self.deathTimer = 180; self.deathFrame = 0; // Add dropLoot here when transitioning to dying state self.dropLoot(); } self.hitType = 'none'; } } else if (self.isDying) { var dieOffset = self.flyAnimation.length + self.hitAnimation.length; // Apply gravity without platform collision - this ensures constant falling self.velocityY += 0.5; self.y += self.velocityY; // Keep moving horizontally during fall self.x -= PLATFORM_SPEED * 0.5; // Progress through death frames if (self.deathTimer > 120) { self.sprites[dieOffset].alpha = 1; // eyedie3 } else if (self.deathTimer > 60) { self.sprites[dieOffset + 1].alpha = 1; // eyedie4 } else { self.sprites[dieOffset + 2].alpha = 1; // eyedie5 } self.deathTimer--; if (self.deathTimer <= 0) { self.alpha -= 0.05; if (self.alpha <= 0) { self.destroy(); } } } }; // Update eyeball normal movement self.updateEyeballNormalState = function () { self.x -= self.speed * gameSpeedMultiplier; // Only start homing after delay if (self.homingTimer >= self.homingDelay) { // Home toward player var deltaY = player.y - self.y; self.velocityY += deltaY > 0 ? 0.2 : -0.2; self.velocityY = Math.max(-self.maxVerticalSpeed, Math.min(self.maxVerticalSpeed, self.velocityY)); } else { // Before homing, maintain height with slight wave motion self.velocityY = Math.sin(self.homingTimer * 0.05) * 2; self.homingTimer++; } self.y += self.velocityY; // Animate self.animationCounter += self.animationSpeed; if (self.animationCounter >= 1) { self.animationCounter = 0; self.flyFrame = (self.flyFrame + 1) % self.flyAnimation.length; } self.sprites[self.flyFrame].alpha = 1; }; // Update goblin hit animation self.updateGoblinHitState = function () { // Handle throw back motion self.x += self.throwBackSpeed; self.throwBackDistance += Math.abs(self.throwBackSpeed); self.throwBackSpeed *= 0.95; // Show hit animation var hitOffset = self.runAnimation.length; self.sprites[hitOffset].alpha = 1; // Decrease hit timer self.hitTimer--; // Once hit timer expires, check hit type if (self.hitTimer <= 0) { self.isHit = false; if (self.hitType === 'attack') { // Only start death animation if it was a regular attack self.isDying = true; self.deathTimer = 60; self.deathFrame = 0; // Add dropLoot here when transitioning to dying state self.dropLoot(); } self.hitType = 'none'; } }; // Update goblin dying animation self.updateGoblinDyingState = function () { // Continue throw back during death self.x += self.throwBackSpeed; // After halfway through death animation, match platform speed if (self.deathFrame >= 2) { self.x -= PLATFORM_SPEED; } self.throwBackSpeed *= 0.95; // Handle death animation var dieOffset = self.runAnimation.length + self.hitAnimation.length; // Progress frame every 15 frames if (self.deathTimer % 15 === 0 && self.deathFrame < self.dieAnimation.length - 1) { self.deathFrame++; } self.sprites[dieOffset + self.deathFrame].alpha = 1; // Count down death timer self.deathTimer--; // After timer expires, fade out if (self.deathTimer <= 0) { self.alpha -= 0.1; if (self.alpha <= 0) { self.destroy(); } } }; // Update goblin normal movement self.updateGoblinNormalState = function () { // Move left with speed multiplier self.x -= self.speed * gameSpeedMultiplier; // Platform and gravity code if (!self.isOnGround) { self.velocityY += 0.7; self.y += self.velocityY; self.checkPlatformCollision(); } // Ensure goblin stays on platform if (self.currentPlatform) { var stillOnPlatform = self.x >= self.currentPlatform.x - PLATFORM_HALF_WIDTH && self.x <= self.currentPlatform.x + PLATFORM_HALF_WIDTH; if (!stillOnPlatform) { var foundAnotherPlatform = false; // Check for another platform for (var i = 0; i < platforms.length; i++) { var otherPlatform = platforms[i]; if (otherPlatform === self.currentPlatform) { continue; } if (self.x >= otherPlatform.x - PLATFORM_HALF_WIDTH && self.x <= otherPlatform.x + PLATFORM_HALF_WIDTH && Math.abs(self.y - (otherPlatform.y - ENEMY_PLATFORM_OFFSET)) < 5) { self.currentPlatform = otherPlatform; foundAnotherPlatform = true; break; } } // Start falling if no other platform found if (!foundAnotherPlatform) { self.isOnGround = false; self.currentPlatform = null; if (self.velocityY === 0) { self.velocityY = 0.1; } } } } // Animate running self.animationCounter += self.animationSpeed; if (self.animationCounter >= 1) { self.animationCounter = 0; self.runFrame = (self.runFrame + 1) % self.runAnimation.length; } self.sprites[self.runFrame].alpha = 1; }; // Check platform collision self.checkPlatformCollision = function () { var onAnyPlatform = false; for (var i = 0; i < platforms.length; i++) { var platform = platforms[i]; var leftEdge = platform.x - PLATFORM_HALF_WIDTH; var rightEdge = platform.x + PLATFORM_HALF_WIDTH; // Check if we're on a platform (exact position check) if (self.x >= leftEdge && self.x <= rightEdge) { if (Math.abs(self.y - (platform.y - ENEMY_PLATFORM_OFFSET)) < 5) { onAnyPlatform = true; self.currentPlatform = platform; self.y = platform.y - ENEMY_PLATFORM_OFFSET; self.isOnGround = true; self.velocityY = 0; return true; } // Check for passing through platform during fall if (self.velocityY > 0 && self.y < platform.y - ENEMY_PLATFORM_OFFSET && self.y + self.velocityY >= platform.y - ENEMY_PLATFORM_OFFSET) { self.y = platform.y - ENEMY_PLATFORM_OFFSET; self.velocityY = 0; self.isOnGround = true; self.currentPlatform = platform; return true; } } } if (!onAnyPlatform) { self.isOnGround = false; self.currentPlatform = null; } return false; }; // Get collision bounds self.getBounds = function () { return { left: self.x - self.hitboxWidth / 2, right: self.x + self.hitboxWidth / 2, top: self.y - self.hitboxHeight / 2, bottom: self.y + self.hitboxHeight / 2 }; }; self.slideHit = function () { if (!self.isHit && !self.isDying) { self.isHit = true; self.hitType = 'slide'; // Specify this is a slide hit self.throwBackSpeed = 25; self.throwBackDistance = 0; self.hitTimer = 30; // Add vertical trajectory for eyeball hits based on Y position comparison with player var verticalTrajectory; if (self.type === 'eyeball') { var yDifference = self.y - player.y; var heightThreshold = 100; // Adjust this value to control the size of the middle zone if (yDifference < -heightThreshold) { // Eyeball is well above player, push upward strongly verticalTrajectory = -20; } else if (yDifference > heightThreshold) { // Eyeball is well below player, push downward strongly verticalTrajectory = 14; } else { // Eyeball is in middle zone, small upward push verticalTrajectory = -2; } // Immediately apply the full vertical trajectory when hit with no reduction self.velocityY = verticalTrajectory; // Set the velocity for the eyeball } // Add particle effect var particleOffset = self.type === 'eyeball' ? 175 : 250; particleSystem.emitFromHit(self.x + particleOffset, self.y, player.x, verticalTrajectory); } }; // Hit handling self.hit = function () { if (!self.isHit && !self.isDying) { self.isHit = true; self.hitType = 'attack'; // Specify this is a regular attack hit self.throwBackSpeed = 25; self.throwBackDistance = 0; self.hitTimer = 35; // Calculate vertical trajectory for eyeball hits based on Y position comparison with player var verticalTrajectory; if (self.type === 'eyeball') { var yDifference = self.y - player.y; var heightThreshold = 100; // Adjust this value to control the size of the middle zone if (yDifference < -heightThreshold) { // Eyeball is well above player, push upward strongly verticalTrajectory = -20; } else if (yDifference > heightThreshold) { // Eyeball is well below player, push downward strongly verticalTrajectory = 14; } else { // Eyeball is in middle zone, small upward push verticalTrajectory = -2; } // Immediately apply the vertical trajectory with stronger values self.velocityY = verticalTrajectory; // Set the velocity for the eyeball } else { self.velocityY = 0; // Reset vertical velocity for new hit for non-eyeball enemies } // Add particle effect var particleOffset = self.type === 'eyeball' ? 175 : 250; particleSystem.emitFromHit(self.x + particleOffset, self.y, player.x, verticalTrajectory); } }; self.dropLoot = function () { // Determine number of coins to drop (1-5) var coinCount = Math.floor(GameUtils.randomRange(1, 6)); // Small chance for jewels (2% each) var dropJewel = Math.random(); if (dropJewel < 0.02) { // Diamond (rarest) var diamond = new Coin('diamond'); diamond.x = self.x; diamond.y = self.y; diamond.velocityX = GameUtils.randomRange(-2, 2); // Reduced horizontal velocity diamond.velocityY = -GameUtils.randomRange(6, 10); // Reduced vertical velocity game.addChild(diamond); coins.push(diamond); } else if (dropJewel < 0.04) { // Emerald var emerald = new Coin('emerald'); emerald.x = self.x; emerald.y = self.y; emerald.velocityX = GameUtils.randomRange(-2, 2); // Reduced horizontal velocity emerald.velocityY = -GameUtils.randomRange(6, 10); // Reduced vertical velocity game.addChild(emerald); coins.push(emerald); } else if (dropJewel < 0.06) { // Ruby var ruby = new Coin('ruby'); ruby.x = self.x; ruby.y = self.y; ruby.velocityX = GameUtils.randomRange(-2, 2); // Reduced horizontal velocity ruby.velocityY = -GameUtils.randomRange(6, 10); // Reduced vertical velocity game.addChild(ruby); coins.push(ruby); } // Drop regular coins for (var i = 0; i < coinCount; i++) { var coin = new Coin(); coin.x = self.x; coin.y = self.y; coin.velocityX = GameUtils.randomRange(-2, 2); // Reduced horizontal velocity coin.velocityY = -GameUtils.randomRange(6, 10); // Reduced vertical velocity game.addChild(coin); coins.push(coin); } }; // Main update method self.update = function () { // Hide all sprites first self.hideAllSprites(); // Handle different enemy types and states if (self.type === 'eyeball') { if (self.isHit || self.isDying) { self.updateEyeballDamageState(); } else { self.updateEyeballNormalState(); } } else { // Goblin logic if (self.isHit) { self.updateGoblinHitState(); } else if (self.isDying) { self.updateGoblinDyingState(); } else { self.updateGoblinNormalState(); } } // Destroy if off screen if (self.x < -50 || self.y > GAME_HEIGHT) { self.destroy(); } }; // Initialize based on enemy type AFTER defining the methods if (self.type === 'eyeball') { self.initEyeballSprites(); } else if (self.type === 'goblin') { self.initGoblinSprites(); } else { // Basic enemy var enemyGraphics = self.attachAsset('enemy', { anchorX: 0.5, anchorY: 0.5 }); } return self; }); var HealthPotion = Container.expand(function () { var self = Container.call(this); // Create sprite self.sprite = self.attachAsset('healthpotion', { anchorX: 0.5, anchorY: 0.8 }); // Initialize physics properties CollectibleBehavior.initPhysics(self); // Collection functionality self.collect = function () { if (!self.collected && player.currentHealth < player.maxHealth) { self.collected = true; player.currentHealth++; player.heartContainer.updateHealth(player.currentHealth); player.heartContainer.alpha = 1; player.heartVisibilityTimer = player.heartVisibilityDuration; // Create heart popup var popup = LK.getAsset('heart', { anchorX: 0.5, anchorY: 0.5, tint: 0xFF0000 }); popup.scaleX = 1.6; // Adjust scale to match original size popup.scaleY = 1.6; popup.x = self.x; popup.y = self.y - 30; popup.velocityY = -3; popup.lifespan = 45; popup.update = function () { this.y += this.velocityY; this.lifespan--; if (this.lifespan < 15) { this.alpha -= 0.07; } if (this.alpha <= 0 || this.lifespan <= 0) { this.destroy(); } }; game.addChild(popup); LK.getSound('potion').play(); self.destroy(); } }; // Standard update using shared behavior self.update = function () { CollectibleBehavior.standardUpdate(self); }; self.checkPlatformCollision = function () { return GameUtils.checkPlatformCollision(self, 80, true) != null; }; return self; }); var HeartContainer = Container.expand(function () { var self = Container.call(this); self.maxHealth = 3; self.currentHealth = 3; self.hearts = []; // Calculate total width of heart display var heartSpacing = 80; var totalWidth = (self.maxHealth - 1) * heartSpacing; // Initialize hearts with centered positioning for (var i = 0; i < self.maxHealth; i++) { var heart = self.attachAsset('heart', { anchorX: 0.5, anchorY: 0.5, tint: 0xCC0000 }); heart.x = i * heartSpacing - totalWidth / 2; heart.y = 0; self.hearts.push(heart); } // Start invisible self.alpha = 0; self.updateHealth = function (newHealth) { self.currentHealth = newHealth; // Update heart display for (var i = 0; i < self.maxHealth; i++) { if (i < newHealth) { // Full heart self.hearts[i].tint = 0xFF0000; self.hearts[i].alpha = 1; } else { // Empty heart self.hearts[i].tint = 0x000000; self.hearts[i].alpha = 0.5; } } }; return self; }); var Jar = Container.expand(function () { var self = Container.call(this); // Attach jar sprite self.sprite = self.attachAsset('jar', { anchorX: 0.5, anchorY: 0.5, tint: 0xC0C0C0 }); // Initialize as breakable BreakableBehavior.initBreakable(self); // Break functionality self["break"] = function () { BreakableBehavior.standardBreak(self, JarPiece, 4, function (jar) { // Spawn health potion with low chance if (Math.random() < 0.05) { var potion = new HealthPotion(); potion.x = jar.x; potion.y = jar.y; potion.velocityX = GameUtils.randomRange(2, 6); // Reduced horizontal velocity potion.velocityY = -GameUtils.randomRange(8, 14); // Reduced vertical velocity game.addChild(potion); coins.push(potion); } // Add chance for arrow (10%) if (Math.random() < 0.1) { var arrow = new ArrowPickup(); arrow.x = jar.x; arrow.y = jar.y; arrow.velocityX = GameUtils.randomRange(2, 6); arrow.velocityY = -GameUtils.randomRange(8, 14); // Set rotation to 90 degrees counterclockwise arrow.sprite.rotation = -Math.PI / 2; game.addChild(arrow); coins.push(arrow); } // Spawn coins var coinCount = Math.floor(GameUtils.randomRange(1, 9)); for (var i = 0; i < coinCount; i++) { var coin = new Coin(); coin.x = jar.x; coin.y = jar.y; coin.velocityX = GameUtils.randomRange(2, 6); // Reduced horizontal velocity coin.velocityY = -GameUtils.randomRange(8, 14); // Reduced vertical velocity game.addChild(coin); coins.push(coin); } LK.getSound('jarbreak').play(); }); }; return self; }); var JarPiece = Container.expand(function (pieceNum) { var self = Container.call(this); // Attach piece sprite self.sprite = self.attachAsset('jarpiece' + pieceNum, { anchorX: 0.5, anchorY: 0.5, tint: 0xC0C0C0 }); // Initialize as piece PieceBehavior.initPiece(self); // Update method self.update = function () { PieceBehavior.standardUpdate(self); }; self.checkPlatformCollision = function () { return GameUtils.checkPlatformCollision(self, 80, true) != null; }; return self; }); var ParticlePool = Container.expand(function (maxParticles) { var self = Container.call(this); self.particles = []; self.activeParticles = []; self.redTints = [0xff0000, 0xff3333, 0xcc0000]; for (var i = 0; i < maxParticles; i++) { var particle = self.attachAsset('pixel', { anchorX: 0.5, anchorY: 0.5, scaleX: 0.2, scaleY: 0.2 }); particle.alpha = 0; particle.velocityX = 0; particle.velocityY = 0; particle.lifespan = 0; particle.fadeSpeed = 0; self.particles.push(particle); } self.emitFromHit = function (x, y, playerX, verticalTrajectory) { var directionX = x - playerX; var directionSign = Math.sign(directionX); for (var i = 0; i < 20; i++) { if (self.particles.length === 0) { break; } var particle = self.particles.pop(); self.activeParticles.push(particle); particle.x = x; particle.y = y; particle.alpha = 1; particle.tint = self.redTints[Math.floor(Math.random() * self.redTints.length)]; // Set scale var particleSize = Math.random() * 0.2 + 0.2; particle.scaleX = particleSize; particle.scaleY = particleSize; var angle = Math.random() * Math.PI / 2 - Math.PI / 4; var speed = Math.random() * 5 + 10; particle.velocityX = Math.cos(angle) * speed * directionSign; // Use provided vertical trajectory if available, otherwise use default calculation if (verticalTrajectory !== undefined) { // Add some randomness while maintaining the general direction var randomFactor = Math.random() * 0.5 + 0.75; // 0.75 to 1.25 range particle.velocityY = verticalTrajectory * randomFactor; } else { particle.velocityY = Math.sin(angle) * speed; } particle.lifespan = 100; particle.fadeSpeed = 1 / 60; } }; self.update = function () { for (var i = self.activeParticles.length - 1; i >= 0; i--) { var particle = self.activeParticles[i]; particle.x += particle.velocityX; particle.y += particle.velocityY; particle.alpha -= particle.fadeSpeed; particle.lifespan--; if (particle.lifespan <= 0 || particle.alpha <= 0) { particle.alpha = 0; self.activeParticles.splice(i, 1); self.particles.push(particle); } } }; return self; }); var Platform = Container.expand(function () { var self = Container.call(this); var platformGraphics = self.attachAsset('platform', { anchorX: 0.5, anchorY: 0.5 }); self.speed = PLATFORM_SPEED; self.passed = false; self.update = function () { self.x -= PLATFORM_SPEED * gameSpeedMultiplier; if (self.x < -500) { self.destroy(); } }; return self; }); // Player class with refactored animation management var Player = Container.expand(function () { var self = Container.call(this); // Animation properties self.runAnimation = ['playerrun1', 'playerrun2', 'playerrun3', 'playerrun4', 'playerrun5', 'playerrun6']; self.jumpAnimation = ['playerjump1', 'playerjump2', 'playerjump3']; self.attackAnimation = ['playerattack1', 'playerattack2', 'playerattack3', 'playerattack4', 'playerattack5']; self.airAttackAnimation = ['playerairattack1', 'playerairattack2', 'playerairattack3', 'playerairattack4']; self.slideAnimation = ['playerslide1', 'playerslide2']; self.standUpAnimation = ['playerstand1', 'playerstand2', 'playerstand3']; self.deathAnimation = ['playerdie1', 'playerdie2', 'playerdie3', 'playerdie4', 'playerdie5', 'playerdie6', 'playerdie7']; self.bowAnimation = ['playerbow4', 'playerbow5', 'playerbow6', 'playerbow7', 'playerbow8', 'playerbow9']; // Bow properties self.isShooting = false; self.bowFrame = 0; self.bowCooldown = 20; // Frames of cooldown self.bowCooldownTimer = 0; self.ammoCount = 3; // Animation states self.isAttacking = false; self.attackFrame = 0; self.runFrame = 0; self.animationSpeed = 0.08; self.attackAnimationSpeed = 0.15; self.animationCounter = 0; self.sprites = []; // Death animation properties self.isDying = false; self.deathFrame = 0; self.deathTimer = 0; self.deathDuration = 100; self.deathAnimationSpeed = 0.1; // Physics properties self.groundY = GAME_HEIGHT * 0.9; self.hitboxWidth = 150; self.hitboxHeight = 300; self.attackHitboxWidth = 200; self.attackHitboxHeight = 400; self.attackHitboxOffset = 50; // Platform collision properties self.isOnGround = true; self.currentPlatform = null; // Health properties self.heartContainer = heartContainer; self.maxHealth = 3; self.currentHealth = 3; self.isInvulnerable = false; self.invulnerabilityDuration = 90; self.invulnerabilityTimer = 0; self.heartVisibilityTimer = 0; self.heartVisibilityDuration = 120; // Movement properties self.speed = 5; self.jumpHeight = 40; self.isJumping = false; self.velocityY = 0; self.jumpState = "none"; self.jumpStartTime = 0; self.isSliding = false; self.slideTimer = 0; self.slideDuration = 90; self.standUpDuration = 30; self.slideCooldown = 30; self.lastSlideTime = 0; self.slideSpeedMultiplier = 1.75; self.normalHitboxHeight = self.hitboxHeight; // Store original height self.slideHitboxHeight = 200; // Make it taller self.slideHitboxYOffset = 150; // Move it much lower // Initialize animation sprites self.initAnimations = function () { // Run animations for (var i = 0; i < self.runAnimation.length; i++) { var sprite = self.attachAsset(self.runAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = i === 0 ? 1 : 0; self.sprites.push(sprite); } // Jump animations for (var i = 0; i < self.jumpAnimation.length; i++) { var sprite = self.attachAsset(self.jumpAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } // Attack animations for (var i = 0; i < self.attackAnimation.length; i++) { var sprite = self.attachAsset(self.attackAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } // Air attack animations for (var i = 0; i < self.airAttackAnimation.length; i++) { var sprite = self.attachAsset(self.airAttackAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } // Add slide animations for (var i = 0; i < self.slideAnimation.length; i++) { var sprite = self.attachAsset(self.slideAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } // Add stand up animations for (var i = 0; i < self.standUpAnimation.length; i++) { var sprite = self.attachAsset(self.standUpAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } // Add death animations for (var i = 0; i < self.deathAnimation.length; i++) { var sprite = self.attachAsset(self.deathAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } // Add bow animations for (var i = 0; i < self.bowAnimation.length; i++) { var sprite = self.attachAsset(self.bowAnimation[i], { anchorX: 0.5, anchorY: 0.5 }); sprite.alpha = 0; self.sprites.push(sprite); } }; // Call initialization self.initAnimations(); // Get collision bounds self.getBounds = function () { // For collecting items, always use the full-size hitbox return { left: self.x - self.hitboxWidth / 2, right: self.x + self.hitboxWidth / 2, top: self.y - self.normalHitboxHeight / 2, bottom: self.y + self.normalHitboxHeight / 2 }; }; // Get attack hitbox self.getAttackBounds = function () { if (!self.isAttacking || self.isSliding) { // Add sliding check here return null; } return { left: self.x + (self.attackHitboxOffset - self.attackHitboxWidth / 2), right: self.x + (self.attackHitboxOffset + self.attackHitboxWidth / 2), top: self.y - self.attackHitboxHeight / 2, bottom: self.y + self.attackHitboxHeight / 2 }; }; self.getSlideAttackBounds = function () { if (!self.isSliding) { return null; } return { left: self.x + self.hitboxWidth / 2, // Extend hitbox forward during slide right: self.x + self.hitboxWidth / 2 + 100, // Adjust width as needed top: self.y - self.slideHitboxHeight / 2 + self.slideHitboxYOffset, bottom: self.y + self.slideHitboxHeight / 2 + self.slideHitboxYOffset }; }; self.getCollisionBounds = function () { if (self.isSliding) { return { left: self.x - self.hitboxWidth / 2, right: self.x + self.hitboxWidth / 2, top: self.y - self.slideHitboxHeight / 2 + self.slideHitboxYOffset, bottom: self.y + self.slideHitboxHeight / 2 + self.slideHitboxYOffset }; } return self.getBounds(); }; // Update heart container self.updateHeartContainer = function () { self.heartContainer.x = self.x + 80; self.heartContainer.y = self.y - 200; // Handle heart visibility if (self.heartVisibilityTimer > 0) { self.heartVisibilityTimer--; if (self.heartVisibilityTimer <= 0) { self.heartContainer.alpha = 0; } } }; // Update invulnerability state self.updateInvulnerability = function () { if (self.isInvulnerable) { self.invulnerabilityTimer--; // Flash only the player, not the hearts self.alpha = self.invulnerabilityTimer % 10 < 5 ? 0.5 : 1; if (self.invulnerabilityTimer <= 0) { self.isInvulnerable = false; self.alpha = 1; } } }; // Handle platform collision self.handlePlatformCollision = function () { // Check if on any platform var onAnyPlatform = false; for (var i = 0; i < platforms.length; i++) { var platform = platforms[i]; var leftEdge = platform.x - PLATFORM_HALF_WIDTH + 20; var rightEdge = platform.x + PLATFORM_HALF_WIDTH + 20; // Check if player is within horizontal bounds of platform if (self.x >= leftEdge && self.x <= rightEdge) { // If we're at platform height and not jumping if (Math.abs(self.y - (platform.y - PLAYER_PLATFORM_OFFSET)) < 5 && !self.isJumping) { onAnyPlatform = true; self.currentPlatform = platform; self.y = platform.y - PLAYER_PLATFORM_OFFSET; self.isOnGround = true; self.velocityY = 0; break; } } } // Handle falling state if (!onAnyPlatform && !self.isJumping) { self.isOnGround = false; self.currentPlatform = null; // Apply gravity if (self.velocityY === 0) { self.velocityY = 0.1; } } // If on a platform, check if still above it if (self.currentPlatform) { var stillOnPlatform = self.x > self.currentPlatform.x - PLATFORM_HALF_WIDTH && self.x < self.currentPlatform.x + PLATFORM_HALF_WIDTH; if (!stillOnPlatform) { var foundAnotherPlatform = false; for (var i = 0; i < platforms.length; i++) { var otherPlatform = platforms[i]; if (otherPlatform === self.currentPlatform) { continue; } if (self.x > otherPlatform.x - PLATFORM_HALF_WIDTH && self.x < otherPlatform.x + PLATFORM_HALF_WIDTH) { // Found another platform self.currentPlatform = otherPlatform; foundAnotherPlatform = true; break; } } // Fall if no other platform found if (!foundAnotherPlatform) { self.isOnGround = false; self.currentPlatform = null; self.velocityY = 0.1; } } } }; // Apply physics (separated from animation) - fixed to check collisions for ALL falling cases self.applyPhysics = function () { // Apply gravity and velocity to position if (!self.isOnGround || self.isJumping) { // Apply velocity and gravity self.y += self.velocityY; self.velocityY += 0.7; // Check for landing on platforms var hitPlatform = self.checkPlatformCollision(); // REMOVE THE GROUND CHECK - No invisible ground at the bottom! // We only want to land on actual platforms } // Check for falling off screen - moved this check here to ensure it happens // immediately after physics update if (self.y > GAME_HEIGHT) { LK.effects.flashScreen(0xff0000, 1000); LK.showGameOver(); } }; // Update attack animation self.updateAttackAnimation = function () { var attackOffset = self.runAnimation.length + self.jumpAnimation.length; self.animationCounter += self.attackAnimationSpeed; if (self.animationCounter >= 1) { self.animationCounter = 0; self.attackFrame++; if (self.attackFrame >= self.attackAnimation.length) { self.isAttacking = false; self.attackFrame = 0; } } self.sprites[attackOffset + self.attackFrame].alpha = 1; }; // Update air attack animation self.updateAirAttackAnimation = function () { var airAttackOffset = self.runAnimation.length + self.jumpAnimation.length + self.attackAnimation.length; self.animationCounter += self.attackAnimationSpeed; if (self.animationCounter >= 1) { self.animationCounter = 0; self.attackFrame++; if (self.attackFrame >= self.airAttackAnimation.length) { self.isAttacking = false; self.attackFrame = 0; } } self.sprites[airAttackOffset + self.attackFrame].alpha = 1; }; // Update jump animation (only animation, not physics) self.updateJumpAnimation = function () { var jumpOffset = self.runAnimation.length; var currentTime = Date.now(); // Show appropriate jump frame if (currentTime - self.jumpStartTime < 100) { self.sprites[jumpOffset + 0].alpha = 1; } else if (self.velocityY < 0) { self.sprites[jumpOffset + 1].alpha = 1; } else if (self.velocityY > 0) { self.sprites[jumpOffset + 2].alpha = 1; } }; // Update slide animation self.updateSlideAnimation = function () { var slideOffset = self.runAnimation.length + self.jumpAnimation.length + self.attackAnimation.length + self.airAttackAnimation.length; var standUpOffset = slideOffset + self.slideAnimation.length; self.slideTimer--; if (self.slideTimer > self.standUpDuration) { // Main slide animation (alternate between first two frames) self.animationCounter += self.animationSpeed; if (self.animationCounter >= 1) { self.animationCounter = 0; } var slideFrame = Math.floor(self.animationCounter * 2); self.sprites[slideOffset + slideFrame].alpha = 1; } else if (self.slideTimer > 0) { // Stand up animation var standUpFrame = Math.floor((self.standUpDuration - self.slideTimer) / (self.standUpDuration / self.standUpAnimation.length)); self.sprites[standUpOffset + standUpFrame].alpha = 1; } else { // End slide if (self.slideTimer <= 0) { self.isSliding = false; self.hitboxHeight = self.normalHitboxHeight; self.lastSlideTime = Date.now(); // Reset speed multiplier instead of base speed gameSpeedMultiplier = 1.0; } } }; self.updateBowAnimation = function () { var bowOffset = self.runAnimation.length + self.jumpAnimation.length + self.attackAnimation.length + self.airAttackAnimation.length + self.slideAnimation.length + self.standUpAnimation.length + self.deathAnimation.length; self.animationCounter += self.attackAnimationSpeed; if (self.animationCounter >= 1) { self.animationCounter = 0; self.bowFrame++; // Spawn arrow at frame 5 if ammo is available if (self.bowFrame === 5 && self.ammoCount > 0) { var arrow = new Arrow(); arrow.x = self.x + 100; arrow.y = self.y; game.addChild(arrow); arrows.push(arrow); // Add to global arrows array self.ammoCount--; scoreManager.updateAmmo(self.ammoCount); // Play arrow fire sound effect LK.getSound('arrowfire').play(); } if (self.bowFrame >= self.bowAnimation.length) { self.isShooting = false; self.bowFrame = 0; self.bowCooldownTimer = self.bowCooldown; } } self.sprites[bowOffset + self.bowFrame].alpha = 1; }; // Update death animation self.updateDeathAnimation = function () { // Calculate offset to find the death animation sprites var deathOffset = self.runAnimation.length + self.jumpAnimation.length + self.attackAnimation.length + self.airAttackAnimation.length + self.slideAnimation.length + self.standUpAnimation.length; // Progress timer self.deathTimer++; // Calculate frame based on timer // We want the animation to play through all frames over the death duration var frameProgress = self.deathTimer / self.deathDuration * self.deathAnimation.length; var newFrame = Math.min(Math.floor(frameProgress), self.deathAnimation.length - 1); // Update frame if it's changed if (newFrame != self.deathFrame) { self.deathFrame = newFrame; } // Show current frame self.sprites[deathOffset + self.deathFrame].alpha = 1; // Death animation is complete, but game over is handled by the timeout if (self.deathTimer >= self.deathDuration) { // Game over is now triggered by the timeout in takeDamage } }; // Update run animation self.updateRunAnimation = function () { self.animationCounter += self.animationSpeed; if (self.animationCounter >= 1) { self.animationCounter = 0; self.runFrame = (self.runFrame + 1) % self.runAnimation.length; } self.sprites[self.runFrame].alpha = 1; }; self.checkPlatformBelow = function () { if (!self.currentPlatform) { return null; } // Get current platform height var currentHeight = self.currentPlatform.y; // Find the closest platform below current one var platformBelow = null; var minDistance = Infinity; for (var i = 0; i < platforms.length; i++) { var platform = platforms[i]; // Skip if it's not below us or if it's our current platform if (platform === self.currentPlatform || platform.y <= currentHeight) { continue; } // Check if we're within platform width bounds if (Math.abs(platform.x - self.x) < PLATFORM_HALF_WIDTH) { var distance = platform.y - currentHeight; if (distance < minDistance) { minDistance = distance; platformBelow = platform; } } } return platformBelow; }; // Check platform collision - fix to properly detect platforms when falling self.checkPlatformCollision = function () { for (var i = 0; i < platforms.length; i++) { var platform = platforms[i]; // Increase vertical tolerance from 15 to 20 pixels // Add larger horizontal buffer (30 pixels) on each side for more forgiving landings if (self.velocityY > 0 && self.y < platform.y - PLAYER_PLATFORM_OFFSET && self.y + self.velocityY >= platform.y - PLAYER_PLATFORM_OFFSET - 20 && self.x > platform.x - (PLATFORM_HALF_WIDTH + 60) && self.x < platform.x + (PLATFORM_HALF_WIDTH + 60)) { // Snap to platform more precisely self.y = platform.y - PLAYER_PLATFORM_OFFSET; self.velocityY = 0; self.isJumping = false; self.isOnGround = true; self.currentPlatform = platform; return true; } } return false; }; // Hide all sprites self.hideAllSprites = function () { for (var i = 0; i < self.sprites.length; i++) { self.sprites[i].alpha = 0; } }; self.checkCollectibles = function () { // Always check for collectibles regardless of state for (var i = 0; i < coins.length; i++) { var coin = coins[i]; var itemBounds = { left: coin.x - 25, right: coin.x + 25, top: coin.y - 25, bottom: coin.y + 25 }; if (GameUtils.checkCollision(self.getBounds(), itemBounds)) { coin.collect(); } } }; // Jump method self.jump = function () { if (self.isSliding || self.isShooting && self.bowFrame < 2) { // Only prevent jumps at start of bow animation return; } if (self.isOnGround) { self.isJumping = true; self.isOnGround = false; self.velocityY = -self.jumpHeight; self.jumpState = "start"; self.jumpStartTime = Date.now(); LK.getSound('playerjump').play(); self.currentPlatform = null; } else if (self.isJumping && self.velocityY < 10) { // Small double-jump to reach higher platforms self.velocityY = -self.jumpHeight * 0.7; self.jumpStartTime = Date.now(); } }; // Add slide method self.slide = function () { var currentTime = Date.now(); if (!self.isSliding && self.isOnGround && !self.isJumping && !self.isAttacking && currentTime - self.lastSlideTime > self.slideCooldown) { self.isSliding = true; self.slideTimer = self.slideDuration; self.hitboxHeight = self.slideHitboxHeight; self.animationCounter = 0; // Adjust game speed multiplier instead of base speed gameSpeedMultiplier = self.slideSpeedMultiplier; } }; // Attack method self.attack = function () { if (!self.isAttacking && !self.isSliding) { // Add sliding check here self.isAttacking = true; self.attackFrame = 0; self.animationCounter = 0; LK.getSound('swordslash').play(); } }; self.fallThrough = function () { if (self.isOnGround && !self.isJumping && !self.isSliding && !self.isAttacking) { var platformBelow = self.checkPlatformBelow(); if (platformBelow) { // Disable platform collision temporarily self.isOnGround = false; self.currentPlatform = null; self.velocityY = 5; // Start with a small downward velocity // Re-enable platform collision after a short delay LK.setTimeout(function () { self.checkPlatformCollision = self.originalCheckPlatformCollision; }, 250); // Adjust timing as needed // Store the original collision check and temporarily disable it self.originalCheckPlatformCollision = self.checkPlatformCollision; self.checkPlatformCollision = function () { return null; }; } } }; self.shoot = function () { if (!self.isShooting && !self.isSliding && self.bowCooldownTimer <= 0) { if (self.isOnGround || !self.isOnGround) { // Allow shooting in air or ground self.isShooting = true; self.bowFrame = 0; self.animationCounter = 0; // If in air, pause vertical movement if (!self.isOnGround) { self.velocityY = 0; } } } }; // Take damage method self.takeDamage = function () { if (!self.isInvulnerable && !self.isDying) { LK.getSound('playerouch').play(); self.currentHealth--; self.heartContainer.updateHealth(self.currentHealth); // Show hearts and set visibility timer self.heartContainer.alpha = 1; self.heartVisibilityTimer = self.heartVisibilityDuration; // Visual feedback self.isInvulnerable = true; self.invulnerabilityTimer = self.invulnerabilityDuration; // Flash player red self.tint = 0xFF0000; tween(self, { tint: 0xFFFFFF }, { duration: 500, easing: tween.easeOut }); // Add red screen flash LK.effects.flashScreen(0xff0000, 300); // Add screen shake effect applyScreenShake(); if (self.currentHealth <= 0) { // If in the air, find the nearest platform to fall to if (!self.isOnGround) { // Start the dying sequence but let them fall first self.dyingInAir = true; // Find the closest platform below the player var closestPlatform = null; var closestDistance = Infinity; for (var i = 0; i < platforms.length; i++) { var platform = platforms[i]; // Check if platform is below player and within horizontal range if (platform.y > self.y && Math.abs(platform.x - self.x) < PLATFORM_HALF_WIDTH) { var distance = platform.y - self.y; if (distance < closestDistance) { closestDistance = distance; closestPlatform = platform; } } } // If we found a platform, let player fall to it naturally // Otherwise proceed with normal death sequence if (!closestPlatform) { startDeathSequence(); } // Player will continue falling until they hit a platform or go off screen // The death sequence will be triggered in the update method } else { // Start death sequence immediately if already on ground startDeathSequence(); } } } function startDeathSequence() { // Start death animation self.isDying = true; self.deathTimer = 0; self.deathFrame = 0; // Set game speed multiplier to 0 when player dies gameSpeedMultiplier = 0; // Flash screen LK.effects.flashScreen(0xff0000, 1000); // Apply one final screen shake for dramatic effect applyScreenShake(); // Schedule game over call after 2 seconds LK.setTimeout(function () { LK.showGameOver(); }, 2000); } }; // Main update method self.update = function () { // Update heart container self.updateHeartContainer(); // Hide all sprites self.hideAllSprites(); // If player is dying but still in the air, apply physics to let them fall if (self.dyingInAir) { // Apply physics for falling self.applyPhysics(); // Check if they've landed on a platform if (self.isOnGround) { // They've landed, now start the death sequence self.dyingInAir = false; self.isDying = true; self.deathTimer = 0; self.deathFrame = 0; gameSpeedMultiplier = 0; LK.effects.flashScreen(0xff0000, 1000); applyScreenShake(); LK.setTimeout(function () { LK.showGameOver(); }, 2000); } // Show falling animation var jumpOffset = self.runAnimation.length; self.sprites[jumpOffset + 2].alpha = 1; // Show falling frame return; } // If player is dying normally, only update death animation if (self.isDying) { self.updateDeathAnimation(); return; } // Update bow cooldown if (self.bowCooldownTimer > 0) { self.bowCooldownTimer--; } // Apply physics FIRST - this now happens regardless of animation state self.applyPhysics(); // Handle platform collision and falling self.handlePlatformCollision(); // Handle invulnerability self.updateInvulnerability(); // Update animations based on state if (self.isShooting) { self.updateBowAnimation(); } else if (self.isSliding) { self.updateSlideAnimation(); self.checkCollectibles(); // Explicitly check during slide } else if (self.isAttacking) { if (self.isJumping || !self.isOnGround && !self.isSliding) { self.updateAirAttackAnimation(); } else { self.updateAttackAnimation(); } } else if (self.isJumping || !self.isOnGround) { self.updateJumpAnimation(); } else if (self.isOnGround) { self.updateRunAnimation(); } // Check for falling off screen if (self.y > GAME_HEIGHT && !self.isDying) { // Start death animation instead of immediately showing game over self.isDying = true; self.deathTimer = 0; self.deathFrame = 0; LK.effects.flashScreen(0xff0000, 1000); } }; return self; }); var ScorePopup = Container.expand(function (x, y, amount) { var self = Container.call(this); // Create the text self.text = new Text2('+' + amount, { size: 80, fill: 0xFFFFFF, anchorX: 0.5, anchorY: 0.5 }); self.addChild(self.text); self.x = x; self.y = y; self.velocityY = -3; self.lifespan = 45; self.update = function () { self.y += self.velocityY; self.lifespan--; if (self.lifespan < 15) { self.alpha -= 0.07; } if (self.alpha <= 0 || self.lifespan <= 0) { self.destroy(); } }; return self; }); /**** * Constants ****/ var Torch = Container.expand(function () { var self = Container.call(this); // Create base torch sprite self.base = self.attachAsset('torch', { anchorX: 0.5, anchorY: 1 }); // Create flame sprite self.flame = self.attachAsset('torchflame', { anchorX: 0.5, anchorY: 1, y: -180 }); // Create aura sprite self.aura = self.attachAsset('torchaura', { anchorX: 0.5, anchorY: 0.5, alpha: 0.3, y: -250 }); // Animation properties self.flameTime = Math.random() * Math.PI * 2; self.auraTime = Math.random() * Math.PI * 2; self.flameSpeed = 0.05; self.auraSpeed = 0.03; // Update animation self.update = function () { // Animate flame scale self.flameTime += self.flameSpeed; var flameScale = 1 + Math.sin(self.flameTime) * 0.2; self.flame.scaleY = flameScale; // Random flip chance for flame if (Math.random() < 0.02) { self.flame.scaleX *= -1; } // Animate aura alpha self.auraTime += self.auraSpeed; var auraAlpha = 0.3 + Math.sin(self.auraTime) * 0.15; self.aura.alpha = auraAlpha; }; return self; }); var TreasureChest = Container.expand(function () { var self = Container.call(this); // Attach chest sprite self.sprite = self.attachAsset('treasurechest', { anchorX: 0.5, anchorY: 0.5, tint: 0xC0C0C0 }); // Initialize as breakable BreakableBehavior.initBreakable(self); // Break functionality self["break"] = function () { BreakableBehavior.standardBreak(self, TreasureChestPiece, 4, function (chest) { // Spawn health potion with medium chance if (Math.random() < 0.25) { var potion = new HealthPotion(); potion.x = chest.x; potion.y = chest.y; potion.velocityX = GameUtils.randomRange(1, 6); // Reduced horizontal velocity potion.velocityY = -GameUtils.randomRange(8, 16); // Reduced vertical velocity game.addChild(potion); coins.push(potion); } // Higher chance for arrows (25%) if (Math.random() < 0.30) { var arrowCount = Math.floor(GameUtils.randomRange(1, 4)); for (var i = 0; i < arrowCount; i++) { var arrow = new ArrowPickup(); arrow.x = chest.x; arrow.y = chest.y; arrow.velocityX = GameUtils.randomRange(1, 6); arrow.velocityY = -GameUtils.randomRange(8, 16); // Set rotation to 90 degrees counterclockwise arrow.sprite.rotation = -Math.PI / 2; game.addChild(arrow); coins.push(arrow); } } // Spawn valuable items var totalItems = Math.floor(GameUtils.randomRange(3, 9)); for (var i = 0; i < totalItems; i++) { // Random chance for different gems var rand = Math.random(); var item; if (rand < 0.05) { // 5% diamond item = new Coin('diamond'); } else if (rand < 0.15) { // 10% emerald item = new Coin('emerald'); } else if (rand < 0.30) { // 15% ruby item = new Coin('ruby'); } else { // 70% gold coin item = new Coin('coin'); } item.x = chest.x; item.y = chest.y; item.velocityX = GameUtils.randomRange(1, 6); // Reduced horizontal velocity item.velocityY = -GameUtils.randomRange(8, 16); // Reduced vertical velocity game.addChild(item); coins.push(item); } LK.getSound('woodbreak').play(); }); }; return self; }); var TreasureChestPiece = Container.expand(function (pieceNum) { var self = Container.call(this); // Attach piece sprite self.sprite = self.attachAsset('treasurechestpiece' + pieceNum, { anchorX: 0.5, anchorY: 0.5, tint: 0xC0C0C0 }); // Initialize as piece PieceBehavior.initPiece(self); // Update method self.update = function () { PieceBehavior.standardUpdate(self); }; self.checkPlatformCollision = function () { return GameUtils.checkPlatformCollision(self, 80, true) != null; }; return self; }); /**** * Initialize Game ****/ /**** * Game Initialization ****/ var game = new LK.Game({ backgroundColor: 0x000000 }); /**** * Game Code ****/ /**** * Game Management ****/ // Base collectible behavior for items that can be collected var CollectibleBehavior = { initPhysics: function initPhysics(self) { self.velocityX = 0; self.velocityY = 0; self.collected = false; self.bounceCount = 0; self.maxBounces = 2; }, standardUpdate: function standardUpdate(self) { if (self.collected) { return; } // Apply physics self.velocityY += 0.5; // gravity self.x += self.velocityX; // Original throw physics self.y += self.velocityY; self.x -= PLATFORM_SPEED * (gameSpeedMultiplier - 1); // Only apply the extra speed from sliding // Check for platform collision with bounce if (self.velocityY > 0) { GameUtils.checkPlatformCollision(self, 80, true); } // Check if off screen if (self.x < -50 || self.y > GAME_HEIGHT) { self.destroy(); return; } // Player collection detection - use slide hitbox height if sliding var playerBounds = { left: player.x - player.hitboxWidth / 2, right: player.x + player.hitboxWidth / 2, top: player.y - player.hitboxHeight / 2, bottom: player.y + player.hitboxHeight / 2 }; var itemBounds = { left: self.x - 25, right: self.x + 25, top: self.y - 25, bottom: self.y + 25 }; if (GameUtils.checkCollision(playerBounds, itemBounds)) { self.collect(); } } }; // Base behavior for breakable objects var BreakableBehavior = { initBreakable: function initBreakable(self) { self.isBreaking = false; self.currentPlatform = null; }, standardBreak: function standardBreak(self, pieceClass, pieceCount, itemSpawnCallback) { if (self.isBreaking) { return; } self.isBreaking = true; // Spawn pieces for (var i = 1; i <= pieceCount; i++) { var piece = new pieceClass(i); piece.x = self.x; piece.y = self.y; piece.velocityX = GameUtils.randomRange(-6, 6); piece.velocityY = -GameUtils.randomRange(6, 12); piece.rotationSpeed = GameUtils.randomRange(-0.1, 0.1); game.addChild(piece); } // Call the custom item spawn callback if (itemSpawnCallback) { itemSpawnCallback(self); } self.destroy(); } }; // Base behavior for pieces of broken objects var PieceBehavior = { initPiece: function initPiece(self) { self.velocityX = 0; self.velocityY = 0; self.rotationSpeed = 0; self.fadeSpeed = 0.02; self.bounceCount = 0; self.maxBounces = 2; }, standardUpdate: function standardUpdate(self) { // Apply physics self.velocityY += 0.5; // gravity self.x += self.velocityX; self.y += self.velocityY; self.rotation += self.rotationSpeed; // Check for platform collision var platformCollision = GameUtils.checkPlatformCollision(self, 80, self.bounceCount < self.maxBounces); if (platformCollision && self.bounceCount >= self.maxBounces) { // Start fading after max bounces self.velocityY = 0; self.velocityX = -PLATFORM_SPEED; self.alpha -= self.fadeSpeed; if (self.alpha <= 0) { self.destroy(); } } // Destroy if off screen if (self.x < -50 || self.y > GAME_HEIGHT) { self.destroy(); } } }; /**** * Constants ****/ var GAME_WIDTH = 2048; var GAME_HEIGHT = 2732; var PLATFORM_WIDTH = 1000; var PLATFORM_HALF_WIDTH = PLATFORM_WIDTH / 2; var PLATFORM_OVERLAP = 50; var PLATFORM_SPEED = 5; var GAP_START_TIME = 90000; // 1.5 minutes in milliseconds var ENEMY_PLATFORM_OFFSET = 225; var PLAYER_PLATFORM_OFFSET = 250; var MIN_PLATFORMS_IN_SEQUENCE = 2; var MAX_PLATFORMS_IN_SEQUENCE = 5; var JUMP_COOLDOWN = 200; var MOVE_THRESHOLD = 90; var SLIDE_MOVE_THRESHOLD = 300; var VERTICAL_DEADZONE = 30; /**** * Utilities ****/ var GameUtils = { // Check for collision between two rectangular bounds checkCollision: function checkCollision(bounds1, bounds2) { return bounds1.left < bounds2.right && bounds1.right > bounds2.left && bounds1.top < bounds2.bottom && bounds1.bottom > bounds2.top; }, // Check platform collision with standard offset checkPlatformCollision: function checkPlatformCollision(obj, offsetY, bounceOnCollision) { for (var i = 0; i < platforms.length; i++) { var platform = platforms[i]; if (Math.abs(obj.y - (platform.y - offsetY)) < 10 && obj.x > platform.x - PLATFORM_HALF_WIDTH && obj.x < platform.x + PLATFORM_HALF_WIDTH) { obj.y = platform.y - offsetY; if (bounceOnCollision && obj.bounceCount < obj.maxBounces) { LK.getSound('coinbounce').play(); var impactSpeed = Math.abs(obj.velocityY); obj.velocityY = -(impactSpeed * 0.5); obj.velocityX *= 0.8; obj.bounceCount++; return true; } else if (bounceOnCollision) { obj.velocityY = 0; obj.velocityX = -PLATFORM_SPEED; } return platform; } } return null; }, // Get random value within range randomRange: function randomRange(min, max) { return Math.random() * (max - min) + min; }, // Check if position is clear for spawning canSpawnAtPosition: function canSpawnAtPosition(x) { var safeDistance = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 200; for (var i = 0; i < collectibles.length; i++) { if (Math.abs(collectibles[i].x - x) < safeDistance) { return false; } } return true; } }; var ScoreManager = function ScoreManager() { var self = {}; // Initialize score and UI self.score = 0; self.scoreText = new Text2('0', { size: 160, fill: 0xFFFFFF, anchorX: 1, anchorY: 0.5 }); self.coinIcon = LK.getAsset('coin', { anchorX: 0, anchorY: 0.5, scaleX: 2, scaleY: 2 }); // New ammo display self.ammoText = new Text2('0x', { size: 160, fill: 0xFFFFFF, anchorX: 1, anchorY: 0.5 }); self.ammoIcon = LK.getAsset('arrow', { anchorX: 0, anchorY: 0.5, scaleX: 1.4, scaleY: 1.4, rotation: -Math.PI / 2 // Rotate 90 degrees counterclockwise }); // Initialize container self.container = new Container(); self.container.addChild(self.scoreText); self.container.addChild(self.coinIcon); self.container.addChild(self.ammoText); self.container.addChild(self.ammoIcon); // Position container self.container.x = GAME_WIDTH - 100; self.container.y = 100; // Position elements self.scoreText.x = -100; self.scoreText.y = -100; self.coinIcon.x = 0; self.coinIcon.y = 0; self.ammoText.x = -150; self.ammoText.y = 60; // Place below coin display self.ammoIcon.x = 55; self.ammoIcon.y = 220; // Place below coin display // Add ammo update method self.updateAmmo = function (amount) { self.ammoText.setText(amount + 'x'); // Adjust position based on digit count if (amount >= 10) { self.ammoText.x = -200; } else { self.ammoText.x = -150; } }; // Getter and setter for score self.getScore = function () { return self.score; }; self.setScore = function (newScore) { self.score = newScore; self.scoreText.setText(newScore); // Adjust position based on digit count if (newScore >= 10 && newScore < 100) { self.scoreText.x = -200; } else if (newScore >= 100 && newScore < 1000) { self.scoreText.x = -300; } else if (newScore >= 1000) { self.scoreText.x = -400; } else { self.scoreText.x = -100; } }; // Add score and display popup self.addScore = function (amount, x, y) { self.setScore(self.score + amount); LK.setScore(self.score); // Create score popup if position is provided if (x !== undefined && y !== undefined) { var popup = new ScorePopup(x, y - 30, amount); game.addChild(popup); } }; return self; }; /**** * Game Variables ****/ // Containers var backgroundContainer = game.addChild(new Container()); var midgroundContainer = game.addChild(new Container()); var foregroundContainer = game.addChild(new Container()); var scoreManager = new ScoreManager(); game.addChild(scoreManager.container); var scoreContainer = game.addChild(new Container()); // Game state var gameStarted = false; var titleScreen; var playButton; var gameStartTime; // Platform management var platforms = []; var gameSpeedMultiplier = 1.0; var platformSpawnCounter = 0; var platformsUntilNextChange = 0; var lowPlatformHeight = GAME_HEIGHT / 1.5 + PLAYER_PLATFORM_OFFSET - 100; var highPlatformHeight = lowPlatformHeight - 600; var HIGHEST_PLATFORM_HEIGHT = highPlatformHeight - 600; var LOWEST_PLATFORM_HEIGHT = lowPlatformHeight + 600; var currentPlatformHeight = lowPlatformHeight; var lastPlatformHeight = lowPlatformHeight; var lastPlatformX = 0; var currentPlatformPattern = 'A'; // 'A' for 1&3, 'B' for 2&4 var currentStraightHeight; // Touch controls var touchStartX = 0; var touchStartY = 0; var touchEndX = 0; var touchEndY = 0; var lastMoveY = 0; var lastJumpTime = 0; // Game objects var jars = []; var coins = []; var collectibles = []; var arrows = []; var jarSpawnCounter = 0; var jarSpawnInterval = 10; var chestSpawnCounter = 0; var chestSpawnInterval = 75; var enemies = []; var enemySpawnInterval = 100; var goblinSpawnCounter = 0; var goblinSpawnInterval = 100; var eyeballSpawnCounter = 150; var eyeballSpawnInterval = 500; var particleSystem; var heartContainer = new HeartContainer(); var player; // Background elements var bg1 = backgroundContainer.addChild(LK.getAsset('background', { anchorX: 0, anchorY: 1 })); var bg2 = backgroundContainer.addChild(LK.getAsset('background', { anchorX: 0, anchorY: 1 })); bg1.y = GAME_HEIGHT; bg2.y = GAME_HEIGHT; bg2.x = GAME_WIDTH; // Midground elements var mg1 = midgroundContainer.addChild(LK.getAsset('midground', { anchorX: 0, anchorY: 1 })); var mg2 = midgroundContainer.addChild(LK.getAsset('midground', { anchorX: 0, anchorY: 1 })); mg1.y = GAME_HEIGHT; mg2.y = GAME_HEIGHT; mg2.x = GAME_WIDTH; // Foreground elements var fg1 = foregroundContainer.addChild(LK.getAsset('foreground', { anchorX: 0, anchorY: 1 })); var fg2 = foregroundContainer.addChild(LK.getAsset('foreground', { anchorX: 0, anchorY: 1 })); fg1.y = GAME_HEIGHT * 1.25; fg2.y = GAME_HEIGHT * 1.25; fg1.x = 0; fg2.x = GAME_WIDTH; /**** * Game Functions ****/ // Screen shake effect function function applyScreenShake() { var shakeIntensity = 30; var shakeDuration = 400; var shakeCount = 8; var originalX = game.x; var originalY = game.y; // Stop any existing shake tween.stop(game, { x: true, y: true }); // Reset position to ensure we start from 0,0 game.x = 0; game.y = 0; // Recursive function to create multiple shakes function createShake(count) { if (count <= 0) { // Final tween to settle back to original position tween(game, { x: originalX, y: originalY }, { duration: shakeDuration / 4, easing: tween.easeOut }); return; } // Calculate decreasing intensity var currentIntensity = shakeIntensity * (count / shakeCount); // Random offset direction var offsetX = (Math.random() - 0.5) * 2 * currentIntensity; var offsetY = (Math.random() - 0.5) * 2 * currentIntensity; // Apply shake movement tween(game, { x: offsetX, y: offsetY }, { duration: shakeDuration / shakeCount, easing: tween.linear, onFinish: function onFinish() { createShake(count - 1); } }); } // Start the shake sequence createShake(shakeCount); } // Create the title screen function createTitleScreen() { titleScreen = new Container(); game.addChild(titleScreen); // Add title image with fade-in var titleImage = titleScreen.attachAsset('title', { anchorX: 0.5, anchorY: 0.5, alpha: 0 }); titleImage.x = GAME_WIDTH / 2; titleImage.y = GAME_HEIGHT / 2.7; // Fade in title tween(titleImage, { alpha: 1 }, { duration: 1000, easing: tween.easeIn }); // Add play button playButton = titleScreen.attachAsset('playbutton', { anchorX: 0.5, anchorY: 0.5 }); playButton.x = GAME_WIDTH / 2; playButton.y = GAME_HEIGHT / 1.3; // Add flashing animation function flashPlayButton() { tween(playButton, { alpha: 0 }, { duration: 250, easing: tween.linear, onFinish: function onFinish() { tween(playButton, { alpha: 1 }, { duration: 250, easing: tween.linear }); } }); } // Flash every 2 seconds LK.setInterval(flashPlayButton, 2000); // Initialize torch decorations initializeTorches(); } // Place torches in the scene function initializeTorches() { // Create torches for the two background sections var torch1 = new Torch(); torch1.x = 25; torch1.y = GAME_HEIGHT * 0.7; midgroundContainer.addChild(torch1); var torch2 = new Torch(); torch2.x = GAME_WIDTH + 25; torch2.y = GAME_HEIGHT * 0.7; midgroundContainer.addChild(torch2); } // Initialize game elements function initializeGame() { // Create player player = game.addChild(new Player()); player.x = GAME_WIDTH / 4.5; player.y = GAME_HEIGHT / 1.5 - 100; game.addChild(heartContainer); scoreManager.updateAmmo(player.ammoCount); // Create initial platforms at the low level for (var i = 0; i < 5; i++) { var platform = new Platform(); if (i === 0) { // First platform centered on player platform.x = player.x; } else { // Position with slight overlap platform.x = lastPlatformX + PLATFORM_WIDTH - PLATFORM_OVERLAP; } platform.y = lowPlatformHeight; platforms.push(platform); game.addChild(platform); lastPlatformX = platform.x; } lastPlatformHeight = lowPlatformHeight; currentPlatformPattern = 'A'; platformsUntilNextChange = 0; // This will trigger new sequence immediately after initial platforms player.isOnGround = true; player.currentPlatform = platforms[0]; } // Start the game function startGame() { gameStarted = true; gameStartTime = Date.now(); titleScreen.destroy(); initializeGame(); // Initialize particle system particleSystem = new ParticlePool(100); game.addChild(particleSystem); // Show health player.heartContainer.alpha = 1; player.heartVisibilityTimer = 120; // Play background music LK.playMusic('backgroundmusic1', { fade: { start: 0, end: 0.7, duration: 1000 } }); } // Update background layers function updateBackgrounds() { // Background layer (slowest) bg1.x -= PLATFORM_SPEED * 0.3 * gameSpeedMultiplier; bg2.x -= PLATFORM_SPEED * 0.3 * gameSpeedMultiplier; if (bg1.x <= -GAME_WIDTH) { bg1.x = bg2.x + GAME_WIDTH; } if (bg2.x <= -GAME_WIDTH) { bg2.x = bg1.x + GAME_WIDTH; } // Midground layer mg1.x -= PLATFORM_SPEED * 0.6 * gameSpeedMultiplier; mg2.x -= PLATFORM_SPEED * 0.6 * gameSpeedMultiplier; if (mg1.x <= -GAME_WIDTH) { mg1.x = mg2.x + GAME_WIDTH; } if (mg2.x <= -GAME_WIDTH) { mg2.x = mg1.x + GAME_WIDTH; } // Foreground layer (fastest) fg1.x -= PLATFORM_SPEED * gameSpeedMultiplier; fg2.x -= PLATFORM_SPEED * gameSpeedMultiplier; if (fg1.x <= -GAME_WIDTH) { fg1.x = fg2.x + GAME_WIDTH; } if (fg2.x <= -GAME_WIDTH) { fg2.x = fg1.x + GAME_WIDTH; } // Update torches for (var i = 0; i < midgroundContainer.children.length; i++) { var child = midgroundContainer.children[i]; if (child instanceof Torch) { child.update(); child.x -= PLATFORM_SPEED * 0.6 * gameSpeedMultiplier; if (child.x <= -GAME_WIDTH) { child.x = child.x + GAME_WIDTH * 2; } } } } // Update and spawn platforms function updatePlatforms() { var lastPlatform = platforms[platforms.length - 1]; if (lastPlatform && lastPlatform.x < GAME_WIDTH + 500) { // Special case for first platform after initial sequence if (!currentPlatformPattern) { currentPlatformPattern = 'A'; platformsUntilNextChange = Math.floor(Math.random() * (MAX_PLATFORMS_IN_SEQUENCE - MIN_PLATFORMS_IN_SEQUENCE + 1)) + MIN_PLATFORMS_IN_SEQUENCE; } if (platformsUntilNextChange <= 0) { // Add chance to switch to pattern C (straight section) var patternChance = Math.random(); if (patternChance < 0.1) { currentPlatformPattern = 'C'; platformsUntilNextChange = Math.floor(Math.random() * 4) + 6; currentStraightHeight = Math.random() < 0.5 ? highPlatformHeight : lowPlatformHeight; } else { currentPlatformPattern = currentPlatformPattern === 'A' ? 'B' : 'A'; platformsUntilNextChange = Math.floor(Math.random() * (MAX_PLATFORMS_IN_SEQUENCE - MIN_PLATFORMS_IN_SEQUENCE + 1)) + MIN_PLATFORMS_IN_SEQUENCE; } } // Calculate gap probability var timeSinceStart = Date.now() - gameStartTime; var baseGapChance = 0.025; var additionalChance = Math.min(0.10, timeSinceStart / 600000); var totalGapChance = baseGapChance + additionalChance; if (currentPlatformPattern === 'C') { // Single platform for straight sections, using stored height var platform = new Platform(); if (Math.random() < totalGapChance) { platform.x = lastPlatform.x + (PLATFORM_WIDTH + 400); } else { platform.x = lastPlatform.x + (PLATFORM_WIDTH - PLATFORM_OVERLAP); } platform.y = currentStraightHeight; platforms.push(platform); game.addChild(platform); } else { // Regular dual platform patterns with possible double gaps var platformUpper = new Platform(); var platformLower = new Platform(); // Determine gap type with random chance var gapChance = Math.random(); var hasDoubleGap = gapChance < totalGapChance * 0.3; // 30% of gap chance is double gap var hasSingleGap = !hasDoubleGap && gapChance < totalGapChance; // Remaining gap chance is single gap // If single gap, randomly choose which platform gets it var upperGap = hasDoubleGap || hasSingleGap && Math.random() < 0.5; var lowerGap = hasDoubleGap || hasSingleGap && !upperGap; // Position upper platform if (upperGap) { platformUpper.x = lastPlatform.x + (PLATFORM_WIDTH + 400); } else { platformUpper.x = lastPlatform.x + (PLATFORM_WIDTH - PLATFORM_OVERLAP); } // Position lower platform if (lowerGap) { platformLower.x = lastPlatform.x + (PLATFORM_WIDTH + 400); } else { platformLower.x = lastPlatform.x + (PLATFORM_WIDTH - PLATFORM_OVERLAP); } if (currentPlatformPattern === 'A') { platformUpper.y = HIGHEST_PLATFORM_HEIGHT; platformLower.y = lowPlatformHeight; } else { platformUpper.y = highPlatformHeight; platformLower.y = LOWEST_PLATFORM_HEIGHT; } platforms.push(platformUpper); platforms.push(platformLower); game.addChild(platformUpper); game.addChild(platformLower); } platformsUntilNextChange--; } // Update platforms for (var i = platforms.length - 1; i >= 0; i--) { platforms[i].update(); if (platforms[i].destroyed) { platforms.splice(i, 1); } } } // Update and spawn collectibles function updateCollectibles() { // Jar spawning jarSpawnCounter++; if (jarSpawnCounter >= jarSpawnInterval) { var availablePlatforms = platforms.filter(function (p) { return p.x > GAME_WIDTH && p.x < GAME_WIDTH + 300; }); // Try to spawn on multiple platforms availablePlatforms.forEach(function (platform) { if (Math.random() < 0.25 && GameUtils.canSpawnAtPosition(platform.x)) { // Adjusted probability var jar = new Jar(); jar.x = platform.x; jar.y = platform.y - 130; jar.currentPlatform = platform; collectibles.push(jar); game.addChild(jar); } }); jarSpawnCounter = 0; } // Treasure chest spawning chestSpawnCounter++; if (chestSpawnCounter >= chestSpawnInterval) { var availablePlatforms = platforms.filter(function (p) { return p.x > GAME_WIDTH && p.x < GAME_WIDTH + 300; }); availablePlatforms.forEach(function (platform) { if (Math.random() < 0.12 && GameUtils.canSpawnAtPosition(platform.x)) { // Adjusted probability var chest = new TreasureChest(); chest.x = platform.x; chest.y = platform.y - 130; chest.currentPlatform = platform; collectibles.push(chest); game.addChild(chest); } }); chestSpawnCounter = 0; } // Update existing collectibles for (var i = collectibles.length - 1; i >= 0; i--) { var collectible = collectibles[i]; if (collectible.currentPlatform) { collectible.x = collectible.currentPlatform.x; } var attackBounds = player.getAttackBounds(); var slideAttackBounds = player.getSlideAttackBounds(); var itemBounds = { left: collectible.x - 50, right: collectible.x + 50, top: collectible.y - 75, bottom: collectible.y + 75 }; if (attackBounds && GameUtils.checkCollision(attackBounds, itemBounds) || slideAttackBounds && GameUtils.checkCollision(slideAttackBounds, itemBounds)) { collectible["break"](); collectibles.splice(i, 1); continue; } if (collectible.x < -50) { collectible.destroy(); collectibles.splice(i, 1); } } // Update coins and other collectibles for (var i = coins.length - 1; i >= 0; i--) { coins[i].update(); if (coins[i].destroyed) { coins.splice(i, 1); } } // Update score popups for (var i = game.children.length - 1; i >= 0; i--) { var child = game.children[i]; if (child instanceof ScorePopup) { child.update(); } } } // Update and spawn enemies function updateEnemies() { // Goblin spawning goblinSpawnCounter++; if (goblinSpawnCounter >= goblinSpawnInterval) { var availablePlatforms = platforms.filter(function (p) { return p.x > GAME_WIDTH - 100 && p.x < GAME_WIDTH + 300; }); if (availablePlatforms.length > 0) { var enemy = new Enemy('goblin'); var platform = availablePlatforms[Math.floor(Math.random() * availablePlatforms.length)]; enemy.x = platform.x; enemy.y = platform.y - ENEMY_PLATFORM_OFFSET; enemy.currentPlatform = platform; enemies.push(enemy); game.addChild(enemy); goblinSpawnInterval = Math.floor(Math.random() * 150) + 100; goblinSpawnCounter = 0; } else { goblinSpawnCounter = Math.max(0, goblinSpawnCounter - 20); } } // Eyeball spawning - updated height range eyeballSpawnCounter++; if (eyeballSpawnCounter >= eyeballSpawnInterval) { var enemy = new Enemy('eyeball'); var heightRange = LOWEST_PLATFORM_HEIGHT - HIGHEST_PLATFORM_HEIGHT; var randomHeight = Math.random() * heightRange; enemy.x = GAME_WIDTH + 100; enemy.y = HIGHEST_PLATFORM_HEIGHT + randomHeight; // Spawn anywhere between highest and lowest enemies.push(enemy); game.addChild(enemy); eyeballSpawnInterval = Math.floor(Math.random() * 300) + 150; eyeballSpawnCounter = 0; } // Update enemies and check collisions for (var j = enemies.length - 1; j >= 0; j--) { enemies[j].update(); // Skip if enemy is far behind player if (enemies[j].x < player.x - 100) { continue; } var playerBounds = player.getCollisionBounds(); var enemyBounds = enemies[j].getBounds(); var attackBounds = player.getAttackBounds(); var slideAttackBounds = player.getSlideAttackBounds(); // Check for attack collision first if (attackBounds && !enemies[j].isHit && !enemies[j].isDying) { if (enemies[j].x > player.x && GameUtils.checkCollision(attackBounds, enemyBounds)) { enemies[j].hit(); if (enemies[j].type === 'eyeball') { LK.getSound('eyeballhit').play(); } else { LK.getSound('enemyhit').play(); } continue; } } // In the updateEnemies() function, inside the enemy update loop for (var i = arrows.length - 1; i >= 0; i--) { var arrow = arrows[i]; if (GameUtils.checkCollision(arrow.getBounds(), enemyBounds)) { enemies[j].hit(); arrow.destroy(); arrows.splice(i, 1); if (enemies[j].type === 'eyeball') { LK.getSound('eyeballhit').play(); } else { LK.getSound('enemyhit').play(); } break; } } // Check for slide collision if (slideAttackBounds && !enemies[j].isHit && !enemies[j].isDying) { if (enemies[j].x > player.x && GameUtils.checkCollision(slideAttackBounds, enemyBounds)) { enemies[j].slideHit(); continue; } } if (GameUtils.checkCollision(playerBounds, enemyBounds)) { if (!enemies[j].isHit && !enemies[j].isDying) { player.takeDamage(); } } } } // Create the initial title screen createTitleScreen(); /**** * Game Loop & Input Handlers ****/ // Main game update loop game.update = function () { // Always update backgrounds for visual effect updateBackgrounds(); // If game hasn't started, don't update gameplay if (!gameStarted) { return; } // Update game entities player.update(); if (particleSystem) { particleSystem.update(); } // Update arrows for (var i = arrows.length - 1; i >= 0; i--) { arrows[i].update(); if (arrows[i].destroyed) { arrows.splice(i, 1); } } // Update game world updatePlatforms(); updateCollectibles(); updateEnemies(); }; // Handle touch/click events game.down = function (x, y, obj) { touchStartX = x; touchStartY = y; }; game.up = function (x, y, obj) { if (!gameStarted) { var buttonBounds = { left: playButton.x - playButton.width / 2, right: playButton.x + playButton.width / 2, top: playButton.y - playButton.height / 2, bottom: playButton.y + playButton.height / 2 }; if (x >= buttonBounds.left && x <= buttonBounds.right && y >= buttonBounds.top && y <= buttonBounds.bottom) { startGame(); } return; } touchEndX = x; touchEndY = y; var deltaY = touchEndY - touchStartY; var deltaX = touchEndX - touchStartX; // Ignore very small movements if (Math.abs(deltaY) < VERTICAL_DEADZONE && Math.abs(deltaX) < VERTICAL_DEADZONE) { player.attack(); // Just treat as tap/attack return; } if (Math.abs(deltaX) > Math.abs(deltaY)) { // Horizontal swipe if (deltaX > 70) { // Right swipe - trigger slide player.slide(); } else if (deltaX < -70) { // Left swipe - trigger bow shot player.shoot(); } } else if (deltaY > 120) { // Downward swipe player.fallThrough(); } else if (deltaY < -120) { // Upward swipe - existing jump code var currentTime = Date.now(); if (currentTime - lastJumpTime > JUMP_COOLDOWN) { player.jump(); lastJumpTime = currentTime; } } else { // Tap - existing attack code player.attack(); } }; game.move = function (x, y, obj) { if (!gameStarted) { return; } var deltaX = x - touchStartX; if (Math.abs(deltaX) > Math.abs(y - touchStartY)) { if (deltaX > SLIDE_MOVE_THRESHOLD) { player.slide(); } else if (deltaX < -SLIDE_MOVE_THRESHOLD) { player.shoot(); } } // Check for downward swipe var deltaY = y - touchStartY; if (deltaY > SLIDE_MOVE_THRESHOLD) { player.fallThrough(); } if (lastMoveY !== 0) { var deltaY = y - lastMoveY; var currentTime = Date.now(); if (deltaY < -MOVE_THRESHOLD && currentTime - lastJumpTime > JUMP_COOLDOWN) { player.jump(); lastJumpTime = currentTime; } } lastMoveY = y; };

===================================================================
--- original.js
+++ change.js
@@ -43,9 +43,9 @@
 var ArrowPickup = Container.expand(function () {
 	var self = Container.call(this);
 	self.sprite = self.attachAsset('arrow', {
 		anchorX: 0.5,
-		anchorY: 0.5,
+		anchorY: 0.7,
 		scaleX: 1.2,
 		scaleY: 1.2
 	});
 	// Initialize physics properties
@@ -1724,12 +1724,12 @@
 
 /**** 
 * Game Code
 ****/ 
-// Base collectible behavior for items that can be collected
 /**** 
 * Game Management
 ****/ 
+// Base collectible behavior for items that can be collected
 var CollectibleBehavior = {
 	initPhysics: function initPhysics(self) {
 		self.velocityX = 0;
 		self.velocityY = 0;

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