Upit | Learn about creating the game Wizard defender with gen AI

/**** * Plugins ****/ var tween = LK.import("@upit/tween.v1"); var storage = LK.import("@upit/storage.v1"); /**** * Classes ****/ var Coin = Container.expand(function () { var self = Container.call(this); var coinGraphics = self.attachAsset('coin', { anchorX: 0.5, anchorY: 0.5 }); self.bobOffset = Math.random() * Math.PI * 2; self.initialY = 0; self.update = function () { if (self.initialY === 0) { self.initialY = self.y; } // Only do bobbing animation and collection if not animating to coin counter if (!self.isAnimating) { // Bobbing animation self.y = self.initialY + Math.sin(LK.ticks * 0.1 + self.bobOffset) * 10; // Check collection by knight if (knight && self.intersects(knight)) { self.collect(); } } }; self.collect = function () { LK.getSound('coinCollect').play(); LK.setScore(LK.getScore() + 5); coinCounter++; coinText.setText('Coins: ' + coinCounter); // Remove from coins array for (var i = coins.length - 1; i >= 0; i--) { if (coins[i] === self) { coins.splice(i, 1); break; } } self.destroy(); }; return self; }); // Game arrays to track objects var Enemy = Container.expand(function () { var self = Container.call(this); // Animation system for skeleton self.currentFrame = 1; self.animationTimer = 0; self.animationSpeed = 15; // Change frame every 15 ticks (250ms at 60fps) self.animationState = 'walking'; // walking, attacking, dying, idle // Create all skeleton graphics frames and store them self.skeletonFrames = []; for (var i = 1; i <= 4; i++) { var frameGraphics = self.attachAsset('esqueleto' + i, { anchorX: 0.5, anchorY: 1.0, scaleX: 2.0, scaleY: 2.0 }); frameGraphics.visible = i === 1; // Only show first frame initially self.skeletonFrames.push(frameGraphics); } // Create invisible hitbox with double size var hitbox = self.attachAsset('esqueleto1', { anchorX: 0.5, anchorY: 1.0, scaleX: 4, scaleY: 4 }); hitbox.alpha = 0; // Make hitbox invisible self.health = 100; self.maxHealth = 100; self.speed = 7; // Note: health, maxHealth and speed will be overridden by difficulty system self.lastX = 0; self.update = function () { // Animation system - cycle through skeleton frames based on state self.animationTimer++; var frameSpeed = self.animationSpeed; if (self.animationState === 'attacking') { frameSpeed = 8; // Faster animation for attacking } else if (self.animationState === 'dying') { frameSpeed = 20; // Slower animation for dying } else if (self.animationState === 'idle') { frameSpeed = 25; // Very slow animation for idle } if (self.animationTimer >= frameSpeed) { self.animationTimer = 0; // Hide current frame self.skeletonFrames[self.currentFrame - 1].visible = false; // Move to next frame based on animation state if (self.animationState === 'walking') { self.currentFrame++; if (self.currentFrame > 4) { self.currentFrame = 1; } } else if (self.animationState === 'attacking') { // Cycle through frames 2-4 for attacking self.currentFrame++; if (self.currentFrame > 4) { self.currentFrame = 2; } } else if (self.animationState === 'dying') { // Play frames 3-4 once for dying if (self.currentFrame < 4) { self.currentFrame++; } } else if (self.animationState === 'idle') { // Cycle between frames 1-2 for idle self.currentFrame = self.currentFrame === 1 ? 2 : 1; } // Show new frame self.skeletonFrames[self.currentFrame - 1].visible = true; } // Progressive speed increase - increase speed by 50% over 10 seconds if (!self.speedTweenStarted) { self.speedTweenStarted = true; var targetSpeed = self.speed * 2.5; // Increase speed by 150% tween(self, { speed: targetSpeed }, { duration: 10000, // 10 seconds easing: tween.easeOut }); } // Move along the assigned path toward the wizard if (wizard && self.pathAngle !== undefined) { // Move along the path direction toward the wizard var moveX = -Math.cos(self.pathAngle) * self.speed; var moveY = -Math.sin(self.pathAngle) * self.speed; self.x += moveX; self.y += moveY; // Face toward the wizard - flip horizontally if enemy is coming from the right if (self.pathIndex === 3 || self.pathIndex === 1) { // Right side path (horizontal) or diagonal right path // Flip all skeleton frames to face left (toward wizard) for (var frameIdx = 0; frameIdx < self.skeletonFrames.length; frameIdx++) { self.skeletonFrames[frameIdx].scaleX = -2.0; // Negative scale flips horizontally } } else { // Ensure normal orientation for other paths for (var frameIdx = 0; frameIdx < self.skeletonFrames.length; frameIdx++) { self.skeletonFrames[frameIdx].scaleX = 2.0; // Positive scale for normal orientation } } } else if (wizard) { // Fallback: move directly toward the wizard if no path assigned var dx = wizard.x - self.x; var dy = wizard.y - self.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance > 0) { // Normalize direction and apply speed self.x += dx / distance * self.speed; self.y += dy / distance * self.speed; // Face toward the wizard - flip horizontally if moving from right to left if (dx < 0) { // Moving toward left (wizard is to the left) for (var frameIdx = 0; frameIdx < self.skeletonFrames.length; frameIdx++) { self.skeletonFrames[frameIdx].scaleX = -2.0; // Flip to face left } } else { for (var frameIdx = 0; frameIdx < self.skeletonFrames.length; frameIdx++) { self.skeletonFrames[frameIdx].scaleX = 2.0; // Normal orientation to face right } } } } else { // Fallback: move down if knight doesn't exist self.y += self.speed; } }; self.takeDamage = function (damage) { self.health -= damage; // Change animation state to attacking when hit self.animationState = 'attacking'; // Flash red when hit LK.effects.flashObject(self, 0xFF0000, 200); // Return to walking animation after brief attacking animation tween({}, {}, { duration: 300, onFinish: function onFinish() { if (self.animationState === 'attacking') { self.animationState = 'walking'; } } }); // Enemies die from any projectile hit self.die(); }; self.down = function (x, y, obj) { // Create projectile from wizard to enemy when enemy is tapped if (wizard && projectiles.length < 10) { // Limit projectiles to prevent spam var projectile = game.addChild(new Projectile()); projectile.x = wizard.x; projectile.y = wizard.y; // Calculate direction from wizard to enemy var dx = self.x - wizard.x; var dy = self.y - wizard.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance > 0) { projectile.direction.x = dx / distance; projectile.direction.y = dy / distance; } projectiles.push(projectile); LK.getSound('spellCast').play(); } }; self.die = function () { // Change animation state to dying self.animationState = 'dying'; self.currentFrame = 3; // Start dying animation from frame 3 // Play pain sound when enemy dies LK.getSound('painSound').play(); // Drop coin var coin = game.addChild(new Coin()); coin.x = self.x; coin.y = self.y - 50; coin.isAnimating = true; coins.push(coin); // Animate coin moving toward coin counter var coinTargetX = 120 + coinText.width / 2; var coinTargetY = 90 + coinText.height / 2; tween(coin, { x: coinTargetX, y: coinTargetY, scaleX: 0.5, scaleY: 0.5 }, { duration: 1000, easing: tween.easeOut, onFinish: function onFinish() { // Increment coin counter after animation coinCounter++; coinText.setText('Coins: ' + coinCounter); // Remove coin from array and destroy for (var i = coins.length - 1; i >= 0; i--) { if (coins[i] === coin) { coins.splice(i, 1); break; } } coin.destroy(); } }); // Increment enemy kill counter enemyKillCounter++; killCountText.setText('Puntuacion: ' + enemyKillCounter); // Add experience to wizard wizard.gainExperience(25); // Life drain upgrade - 5% chance to restore 10 health if (wizard.lifeDrainLevel && wizard.lifeDrainLevel > 0) { var drainChance = Math.random(); if (drainChance < 0.05) { // 5% chance wizard.health = Math.min(wizard.health + 10, wizard.maxHealth); updateHealthBar(); // Visual feedback for life drain LK.effects.flashObject(wizard, 0x00FF00, 300); } } // Remove from enemies array for (var i = enemies.length - 1; i >= 0; i--) { if (enemies[i] === self) { enemies.splice(i, 1); break; } } self.destroy(); LK.setScore(LK.getScore() + 10); }; return self; }); var GameMenu = Container.expand(function () { var self = Container.call(this); // Menu background image instead of cave background var menuBg = self.attachAsset('menuBackground', { anchorX: 0.5, anchorY: 0.5, x: 2048 / 2, y: 2732 / 2, scaleX: 4.0, scaleY: 4.0 }); menuBg.alpha = 1.0; // Title text var titleText = new Text2('WIZARD DEFENDER', { size: 150, fill: 0xFFD700, font: "monospace" }); titleText.anchor.set(0.5, 0.5); titleText.x = 2048 / 2; titleText.y = 800; self.addChild(titleText); // Instructions text var instructionsText = new Text2('TAP PATHS TO CAST SPELLS\nDEFEND YOUR CASTLE!', { size: 80, fill: 0xFFFFFF, font: "monospace" }); instructionsText.anchor.set(0.5, 0.5); instructionsText.x = 2048 / 2; instructionsText.y = 1200; self.addChild(instructionsText); // Start button var startButton = self.attachAsset('wizard1', { anchorX: 0.5, anchorY: 0.5, x: 2048 / 2, y: 1600, scaleX: 2, scaleY: 2 }); var startButtonText = new Text2('START GAME', { size: 100, fill: 0x000000, font: "monospace" }); startButtonText.anchor.set(0.5, 0.5); startButtonText.x = 2048 / 2; startButtonText.y = 1700; self.addChild(startButtonText); // Button interaction self.down = function (x, y, obj) { // Start the game by hiding menu self.startGame(); }; self.startGame = function () { // Hide menu and start game self.visible = false; gameStarted = true; // Show cave background when game starts if (backgroundMap) { backgroundMap.visible = true; } // Show all game elements wizard.visible = true; for (var i = 0; i < paths.length; i++) { paths[i].visible = true; } // Show all stone path segments and make them visible for (var i = 0; i < game.children.length; i++) { var child = game.children[i]; if (child.pathIndex !== undefined && child !== paths[child.pathIndex]) { child.visible = true; // Check if it's a stone path segment or path number if (child.alpha !== undefined && child.setText === undefined) { child.alpha = 0.6; // Make stone paths visible with transparency } } } coinText.visible = true; killCountText.visible = true; tapText.visible = true; healthBarBg.visible = true; healthBar.visible = true; healthText.visible = true; // Start medieval music LK.playMusic('medievalTheme', { volume: 0.7, fade: { start: 0, end: 0.7, duration: 2000 } }); }; return self; }); var Knight = Container.expand(function () { var self = Container.call(this); // Animation system for knight self.currentFrame = 1; self.animationTimer = 0; self.animationSpeed = 22; // Change frame every 22 ticks (367ms at 60fps) self.animationState = 'walking'; // walking, attacking, dying, idle // Create all knight graphics frames and store them self.knightFrames = []; for (var i = 1; i <= 4; i++) { var frameGraphics = self.attachAsset('knight' + i, { anchorX: 0.5, anchorY: 1.0, scaleX: 2.0, scaleY: 2.0 }); frameGraphics.visible = i === 1; // Only show first frame initially self.knightFrames.push(frameGraphics); } // Create invisible hitbox with double size var hitbox = self.attachAsset('knight1', { anchorX: 0.5, anchorY: 1.0, scaleX: 4, scaleY: 4 }); hitbox.alpha = 0; // Make hitbox invisible self.health = 100; self.maxHealth = 100; self.speed = 7; self.hitsToKill = 3; // Knights need 3 hits to die self.hitsTaken = 0; // Note: health, maxHealth and speed will be overridden by difficulty system self.lastX = 0; self.update = function () { // Animation system - cycle through knight frames based on state self.animationTimer++; var frameSpeed = self.animationSpeed; if (self.animationState === 'attacking') { frameSpeed = 12; // Faster animation for attacking } else if (self.animationState === 'dying') { frameSpeed = 28; // Slower animation for dying } else if (self.animationState === 'idle') { frameSpeed = 35; // Very slow animation for idle } if (self.animationTimer >= frameSpeed) { self.animationTimer = 0; // Hide current frame self.knightFrames[self.currentFrame - 1].visible = false; // Move to next frame based on animation state if (self.animationState === 'walking') { self.currentFrame++; if (self.currentFrame > 4) { self.currentFrame = 1; } } else if (self.animationState === 'attacking') { // Cycle through frames 2-4 for attacking self.currentFrame++; if (self.currentFrame > 4) { self.currentFrame = 2; } } else if (self.animationState === 'dying') { // Play frames 3-4 once for dying if (self.currentFrame < 4) { self.currentFrame++; } } else if (self.animationState === 'idle') { // Cycle between frames 1-2 for idle self.currentFrame = self.currentFrame === 1 ? 2 : 1; } // Show new frame self.knightFrames[self.currentFrame - 1].visible = true; } // Progressive speed increase - increase speed by 150% over 10 seconds if (!self.speedTweenStarted) { self.speedTweenStarted = true; var targetSpeed = self.speed * 2.5; // Increase speed by 150% tween(self, { speed: targetSpeed }, { duration: 10000, // 10 seconds easing: tween.easeOut }); } // Move along the assigned path toward the wizard if (wizard && self.pathAngle !== undefined) { // Move along the path direction toward the wizard var moveX = -Math.cos(self.pathAngle) * self.speed; var moveY = -Math.sin(self.pathAngle) * self.speed; self.x += moveX; self.y += moveY; // Face toward the wizard - flip horizontally if knight is coming from the right if (self.pathIndex === 3 || self.pathIndex === 1) { // Right side path (horizontal) or diagonal right path // Flip all knight frames to face left (toward wizard) for (var frameIdx = 0; frameIdx < self.knightFrames.length; frameIdx++) { self.knightFrames[frameIdx].scaleX = -2.0; // Negative scale flips horizontally } } else { // Ensure normal orientation for other paths for (var frameIdx = 0; frameIdx < self.knightFrames.length; frameIdx++) { self.knightFrames[frameIdx].scaleX = 2.0; // Positive scale for normal orientation } } } else if (wizard) { // Fallback: move directly toward the wizard if no path assigned var dx = wizard.x - self.x; var dy = wizard.y - self.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance > 0) { // Normalize direction and apply speed self.x += dx / distance * self.speed; self.y += dy / distance * self.speed; // Face toward the wizard - flip horizontally if moving from right to left if (dx < 0) { // Moving toward left (wizard is to the left) for (var frameIdx = 0; frameIdx < self.knightFrames.length; frameIdx++) { self.knightFrames[frameIdx].scaleX = -2.0; // Flip to face left } } else { for (var frameIdx = 0; frameIdx < self.knightFrames.length; frameIdx++) { self.knightFrames[frameIdx].scaleX = 2.0; // Normal orientation to face right } } } } else { // Fallback: move down if knight doesn't exist self.y += self.speed; } }; self.takeDamage = function (damage) { self.health -= damage; self.hitsTaken++; // Change animation state to attacking when hit self.animationState = 'attacking'; // Flash red when hit LK.effects.flashObject(self, 0xFF0000, 200); // Return to walking animation after brief attacking animation tween({}, {}, { duration: 500, onFinish: function onFinish() { if (self.animationState === 'attacking') { self.animationState = 'walking'; } } }); // Knights need 3 hits to die if (self.hitsTaken >= self.hitsToKill) { self.die(); } }; self.down = function (x, y, obj) { // Create projectile from wizard to knight when knight is tapped if (wizard && projectiles.length < 10) { // Limit projectiles to prevent spam var projectile = game.addChild(new Projectile()); projectile.x = wizard.x; projectile.y = wizard.y; // Calculate direction from wizard to knight var dx = self.x - wizard.x; var dy = self.y - wizard.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance > 0) { projectile.direction.x = dx / distance; projectile.direction.y = dy / distance; } projectiles.push(projectile); LK.getSound('spellCast').play(); } }; self.die = function () { // Change animation state to dying self.animationState = 'dying'; self.currentFrame = 3; // Start dying animation from frame 3 // Play pain sound when knight dies LK.getSound('painSound').play(); // Drop coin var coin = game.addChild(new Coin()); coin.x = self.x; coin.y = self.y - 50; coin.isAnimating = true; coins.push(coin); // Animate coin moving toward coin counter var coinTargetX = 120 + coinText.width / 2; var coinTargetY = 90 + coinText.height / 2; tween(coin, { x: coinTargetX, y: coinTargetY, scaleX: 0.5, scaleY: 0.5 }, { duration: 1000, easing: tween.easeOut, onFinish: function onFinish() { // Increment coin counter after animation coinCounter++; coinText.setText('Coins: ' + coinCounter); // Remove coin from array and destroy for (var i = coins.length - 1; i >= 0; i--) { if (coins[i] === coin) { coins.splice(i, 1); break; } } coin.destroy(); } }); // Increment enemy kill counter enemyKillCounter++; killCountText.setText('Puntuacion: ' + enemyKillCounter); // Add experience to wizard wizard.gainExperience(25); // Life drain upgrade - 5% chance to restore 10 health if (wizard.lifeDrainLevel && wizard.lifeDrainLevel > 0) { var drainChance = Math.random(); if (drainChance < 0.05) { // 5% chance wizard.health = Math.min(wizard.health + 10, wizard.maxHealth); updateHealthBar(); // Visual feedback for life drain LK.effects.flashObject(wizard, 0x00FF00, 300); } } // Remove from knights array for (var i = knights.length - 1; i >= 0; i--) { if (knights[i] === self) { knights.splice(i, 1); break; } } self.destroy(); LK.setScore(LK.getScore() + 20); }; return self; }); var Ogre = Container.expand(function () { var self = Container.call(this); // Animation system for ogre self.currentFrame = 1; self.animationTimer = 0; self.animationSpeed = 20; // Change frame every 20 ticks (333ms at 60fps) self.animationState = 'walking'; // walking, attacking, dying, idle // Create all ogre graphics frames and store them self.ogreFrames = []; for (var i = 1; i <= 4; i++) { var frameGraphics = self.attachAsset('ogre' + i, { anchorX: 0.5, anchorY: 1.0, scaleX: 2.0, scaleY: 2.0 }); frameGraphics.visible = i === 1; // Only show first frame initially self.ogreFrames.push(frameGraphics); } // Create invisible hitbox with double size var hitbox = self.attachAsset('ogre1', { anchorX: 0.5, anchorY: 1.0, scaleX: 4, scaleY: 4 }); hitbox.alpha = 0; // Make hitbox invisible self.health = 100; self.maxHealth = 100; self.speed = 7; self.hitsToKill = 2; self.hitsTaken = 0; // Note: health, maxHealth and speed will be overridden by difficulty system self.lastX = 0; self.update = function () { // Animation system - cycle through ogre frames based on state self.animationTimer++; var frameSpeed = self.animationSpeed; if (self.animationState === 'attacking') { frameSpeed = 10; // Faster animation for attacking } else if (self.animationState === 'dying') { frameSpeed = 25; // Slower animation for dying } else if (self.animationState === 'idle') { frameSpeed = 30; // Very slow animation for idle } if (self.animationTimer >= frameSpeed) { self.animationTimer = 0; // Hide current frame self.ogreFrames[self.currentFrame - 1].visible = false; // Move to next frame based on animation state if (self.animationState === 'walking') { self.currentFrame++; if (self.currentFrame > 4) { self.currentFrame = 1; } } else if (self.animationState === 'attacking') { // Cycle through frames 2-4 for attacking self.currentFrame++; if (self.currentFrame > 4) { self.currentFrame = 2; } } else if (self.animationState === 'dying') { // Play frames 3-4 once for dying if (self.currentFrame < 4) { self.currentFrame++; } } else if (self.animationState === 'idle') { // Cycle between frames 1-2 for idle self.currentFrame = self.currentFrame === 1 ? 2 : 1; } // Show new frame self.ogreFrames[self.currentFrame - 1].visible = true; } // Progressive speed increase - increase speed by 150% over 10 seconds if (!self.speedTweenStarted) { self.speedTweenStarted = true; var targetSpeed = self.speed * 2.5; // Increase speed by 150% tween(self, { speed: targetSpeed }, { duration: 10000, // 10 seconds easing: tween.easeOut }); } // Move along the assigned path toward the wizard if (wizard && self.pathAngle !== undefined) { // Move along the path direction toward the wizard var moveX = -Math.cos(self.pathAngle) * self.speed; var moveY = -Math.sin(self.pathAngle) * self.speed; self.x += moveX; self.y += moveY; // Face toward the wizard - flip horizontally if ogre is coming from the right if (self.pathIndex === 3 || self.pathIndex === 1) { // Right side path (horizontal) or diagonal right path // Flip all ogre frames to face left (toward wizard) for (var frameIdx = 0; frameIdx < self.ogreFrames.length; frameIdx++) { self.ogreFrames[frameIdx].scaleX = -2.0; // Negative scale flips horizontally } } else { // Ensure normal orientation for other paths for (var frameIdx = 0; frameIdx < self.ogreFrames.length; frameIdx++) { self.ogreFrames[frameIdx].scaleX = 2.0; // Positive scale for normal orientation } } } else if (wizard) { // Fallback: move directly toward the wizard if no path assigned var dx = wizard.x - self.x; var dy = wizard.y - self.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance > 0) { // Normalize direction and apply speed self.x += dx / distance * self.speed; self.y += dy / distance * self.speed; // Face toward the wizard - flip horizontally if moving from right to left if (dx < 0) { // Moving toward left (wizard is to the left) for (var frameIdx = 0; frameIdx < self.ogreFrames.length; frameIdx++) { self.ogreFrames[frameIdx].scaleX = -2.0; // Flip to face left } } else { for (var frameIdx = 0; frameIdx < self.ogreFrames.length; frameIdx++) { self.ogreFrames[frameIdx].scaleX = 2.0; // Normal orientation to face right } } } } else { // Fallback: move down if knight doesn't exist self.y += self.speed; } }; self.takeDamage = function (damage) { self.health -= damage; self.hitsTaken++; // Change animation state to attacking when hit self.animationState = 'attacking'; // Flash red when hit LK.effects.flashObject(self, 0xFF0000, 200); // Return to walking animation after brief attacking animation tween({}, {}, { duration: 400, onFinish: function onFinish() { if (self.animationState === 'attacking') { self.animationState = 'walking'; } } }); // Ogres need 2 hits to die if (self.hitsTaken >= self.hitsToKill) { self.die(); } }; self.down = function (x, y, obj) { // Create projectile from wizard to ogre when ogre is tapped if (wizard && projectiles.length < 10) { // Limit projectiles to prevent spam var projectile = game.addChild(new Projectile()); projectile.x = wizard.x; projectile.y = wizard.y; // Calculate direction from wizard to ogre var dx = self.x - wizard.x; var dy = self.y - wizard.y; var distance = Math.sqrt(dx * dx + dy * dy); if (distance > 0) { projectile.direction.x = dx / distance; projectile.direction.y = dy / distance; } projectiles.push(projectile); LK.getSound('spellCast').play(); } }; self.die = function () { // Change animation state to dying self.animationState = 'dying'; self.currentFrame = 3; // Start dying animation from frame 3 // Play pain sound when ogre dies LK.getSound('painSound').play(); // Drop coin var coin = game.addChild(new Coin()); coin.x = self.x; coin.y = self.y - 50; coin.isAnimating = true; coins.push(coin); // Animate coin moving toward coin counter var coinTargetX = 120 + coinText.width / 2; var coinTargetY = 90 + coinText.height / 2; tween(coin, { x: coinTargetX, y: coinTargetY, scaleX: 0.5, scaleY: 0.5 }, { duration: 1000, easing: tween.easeOut, onFinish: function onFinish() { // Increment coin counter after animation coinCounter++; coinText.setText('Coins: ' + coinCounter); // Remove coin from array and destroy for (var i = coins.length - 1; i >= 0; i--) { if (coins[i] === coin) { coins.splice(i, 1); break; } } coin.destroy(); } }); // Increment enemy kill counter enemyKillCounter++; killCountText.setText('Puntuacion: ' + enemyKillCounter); // Add experience to wizard wizard.gainExperience(25); // Life drain upgrade - 5% chance to restore 10 health if (wizard.lifeDrainLevel && wizard.lifeDrainLevel > 0) { var drainChance = Math.random(); if (drainChance < 0.05) { // 5% chance wizard.health = Math.min(wizard.health + 10, wizard.maxHealth); updateHealthBar(); // Visual feedback for life drain LK.effects.flashObject(wizard, 0x00FF00, 300); } } // Remove from ogres array for (var i = ogres.length - 1; i >= 0; i--) { if (ogres[i] === self) { ogres.splice(i, 1); break; } } self.destroy(); LK.setScore(LK.getScore() + 15); }; return self; }); var Projectile = Container.expand(function () { var self = Container.call(this); // Create glowing light effect behind projectile var lightGlow = self.attachAsset('projectileGlow', { anchorX: 0.5, anchorY: 0.5, scaleX: 2.0, scaleY: 2.0 }); lightGlow.alpha = 0.15; lightGlow.tint = 0x44aaff; // Blue-white glow // Animate the glow effect tween(lightGlow, { scaleX: 3.5, scaleY: 3.5, alpha: 0.05 }, { duration: 800, easing: tween.easeInOut }); tween(lightGlow, { rotation: Math.PI * 4 }, { duration: 1000, easing: tween.linear }); var projectileGraphics = self.attachAsset('projectile', { anchorX: 0.5, anchorY: 0.5, scaleX: 3.0, scaleY: 3.0 }); self.speed = 50; self.direction = { x: 0, y: 0 }; self.lastIntersecting = {}; self.update = function () { // Move projectile self.x += self.direction.x * self.speed; self.y += self.direction.y * self.speed; // Rotate projectile to point towards movement direction var angle = Math.atan2(self.direction.y, self.direction.x); projectileGraphics.rotation = angle + Math.PI / 2; // Add 90 degrees so top points forward // Add pulsing light effect if (lightGlow && lightGlow.parent) { var pulse = 1 + Math.sin(LK.ticks * 0.3) * 0.4; lightGlow.scaleX = 2.0 * pulse; lightGlow.scaleY = 2.0 * pulse; var alphaFlicker = 0.1 + Math.sin(LK.ticks * 0.5) * 0.08; lightGlow.alpha = alphaFlicker; } // Remove if off screen if (self.x < -50 || self.x > 2098 || self.y < -50 || self.y > 2782) { self.removeFromGame(); return; } // Check collision with enemies for (var i = enemies.length - 1; i >= 0; i--) { var enemy = enemies[i]; if (!self.lastIntersecting[i]) { self.lastIntersecting[i] = false; } var currentIntersecting = self.intersects(enemy); if (!self.lastIntersecting[i] && currentIntersecting) { // Hit enemy enemy.takeDamage(50); self.removeFromGame(); return; } self.lastIntersecting[i] = currentIntersecting; } // Check collision with ogres for (var i = ogres.length - 1; i >= 0; i--) { var ogre = ogres[i]; var ogreKey = 'ogre_' + i; if (!self.lastIntersecting[ogreKey]) { self.lastIntersecting[ogreKey] = false; } var currentOgreIntersecting = self.intersects(ogre); if (!self.lastIntersecting[ogreKey] && currentOgreIntersecting) { // Hit ogre ogre.takeDamage(50); self.removeFromGame(); return; } self.lastIntersecting[ogreKey] = currentOgreIntersecting; } // Check collision with knights for (var i = knights.length - 1; i >= 0; i--) { var knight = knights[i]; var knightKey = 'knight_' + i; if (!self.lastIntersecting[knightKey]) { self.lastIntersecting[knightKey] = false; } var currentKnightIntersecting = self.intersects(knight); if (!self.lastIntersecting[knightKey] && currentKnightIntersecting) { // Hit knight knight.takeDamage(50); self.removeFromGame(); return; } self.lastIntersecting[knightKey] = currentKnightIntersecting; } }; self.removeFromGame = function () { // Remove from projectiles array for (var i = projectiles.length - 1; i >= 0; i--) { if (projectiles[i] === self) { projectiles.splice(i, 1); break; } } self.destroy(); }; return self; }); var UpgradeMenu = Container.expand(function () { var self = Container.call(this); // Set high z-index to ensure menu appears above all game elements self.zIndex = 1000; // Cooldown system for upgrade menu self.cooldownDuration = 120; // 2 seconds at 60fps self.cooldownTimer = 0; // Background removed - no overlay needed // Title text var titleText = new Text2('UPGRADES', { size: 120, fill: 0xFFD700, font: "monospace" }); titleText.anchor.set(0.5, 0.5); titleText.x = 2048 / 2; titleText.y = 1050; self.addChild(titleText); // Upgrade options var upgradeOptions = [{ name: 'SHIELD', description: 'Block 1 attack' }, { name: 'HEALTH BOOST', description: 'More health' }, { name: 'LIFE DRAIN', description: '5% chance +10 HP' }]; // Create upgrade buttons for (var i = 0; i < upgradeOptions.length; i++) { var upgrade = upgradeOptions[i]; var xPos = 2048 / 2 - 400 + i * 400; // Center the 3 upgrades horizontally var yPos = 1300; // Same Y position for all // Upgrade button background var upgradeBtn = self.attachAsset('pathSelector', { anchorX: 0.5, anchorY: 0.5, x: xPos, y: yPos, scaleX: 6, scaleY: 4 }); upgradeBtn.upgradeIndex = i; upgradeBtn.tint = 0x8B008B; // Upgrade text var upgradeText = new Text2(upgrade.name + '\n' + upgrade.description + '\nCost: 10 coins', { size: 45, fill: 0xFFFFFF, font: "monospace" }); upgradeText.anchor.set(0.5, 0.5); upgradeText.x = xPos; upgradeText.y = yPos; self.addChild(upgradeText); } // Close button var closeBtn = self.attachAsset('coin', { anchorX: 0.5, anchorY: 0.5, x: 2048 / 2, y: 1600, scaleX: 2, scaleY: 2 }); closeBtn.tint = 0xFF0000; var closeText = new Text2('CLOSE', { size: 80, fill: 0xFFFFFF, font: "monospace" }); closeText.anchor.set(0.5, 0.5); closeText.x = 2048 / 2; closeText.y = 1600; self.addChild(closeText); // Update method for cooldown timer self.update = function () { if (self.cooldownTimer > 0) { self.cooldownTimer--; // Apply visual feedback during cooldown var cooldownAlpha = 0.3 + self.cooldownTimer / self.cooldownDuration * 0.7; self.alpha = cooldownAlpha; } else { self.alpha = 1.0; // Full opacity when cooldown is over } }; // Handle upgrade purchases self.down = function (x, y, obj) { // Check if cooldown is active if (self.cooldownTimer > 0) { // Flash red to indicate cooldown is active LK.effects.flashScreen(0xFF0000, 200); return; // Exit early if cooldown is active } // Determine which upgrade was clicked based on X position (horizontal layout) var upgradeIndex = -1; if (x >= 424 && x <= 724 && y >= 1150 && y <= 1450) { upgradeIndex = 0; // Shield } else if (x >= 824 && x <= 1124 && y >= 1150 && y <= 1450) { upgradeIndex = 1; // Health Boost } else if (x >= 1224 && x <= 1524 && y >= 1150 && y <= 1450) { upgradeIndex = 2; // Life Drain } // Check if upgrade button was clicked if (upgradeIndex !== -1) { // Close menu immediately when any upgrade option is selected self.closeMenu(); if (coinCounter >= 10) { coinCounter -= 10; coinText.setText('Coins: ' + coinCounter); // Apply upgrade based on index switch (upgradeIndex) { case 0: // Shield - give one-time protection if (!wizard.shieldActive) { wizard.shieldActive = false; } wizard.shieldActive = true; // Visual feedback for shield activation LK.effects.flashObject(wizard, 0x00BFFF, 500); // Add shield activation animation effect tween(wizard.shieldGraphics, { scaleX: 5, scaleY: 5, alpha: 1.0 }, { duration: 400, easing: tween.easeOut, onFinish: function onFinish() { tween(wizard.shieldGraphics, { scaleX: 3, scaleY: 3, alpha: 0.7 }, { duration: 300, easing: tween.easeIn }); } }); break; case 1: // Health Boost wizard.maxHealth += 25; wizard.health = Math.min(wizard.health + 25, wizard.maxHealth); updateHealthBar(); break; case 2: // Life Drain - enable health restoration on kill if (!wizard.lifeDrainLevel) { wizard.lifeDrainLevel = 0; } wizard.lifeDrainLevel++; break; } // Visual feedback - flash the upgrade area green LK.effects.flashScreen(0x00FF00, 300); } else { // Not enough coins - flash red LK.effects.flashScreen(0xFF0000, 300); } } else if (y >= 1450 && y <= 1750) { // Close button area clicked self.closeMenu(); } }; self.closeMenu = function () { self.visible = false; gameStarted = true; // Resume appropriate music based on game progress if (enemyKillCounter >= 25) { LK.playMusic('mysticalAmbient', { volume: 0.6, fade: { start: 0, end: 0.6, duration: 1000 } }); } else if (enemyKillCounter >= 10) { LK.playMusic('epicBattle', { volume: 0.8, fade: { start: 0, end: 0.8, duration: 1000 } }); } else { LK.playMusic('medievalTheme', { volume: 0.7, fade: { start: 0, end: 0.7, duration: 1000 } }); } }; return self; }); var Wizard = Container.expand(function () { var self = Container.call(this); // Animation system for wizard self.currentFrame = 1; self.animationTimer = 0; self.animationSpeed = 18; // Change frame every 18 ticks (300ms at 60fps) // Create all wizard graphics frames and store them self.wizardFrames = []; for (var i = 1; i <= 4; i++) { var frameGraphics = self.attachAsset('wizard' + i, { anchorX: 0.5, anchorY: 1.0, scaleX: 2.5, scaleY: 2.5 }); frameGraphics.visible = i === 1; // Only show first frame initially self.wizardFrames.push(frameGraphics); } // Create shield visual effect self.shieldGraphics = self.attachAsset('shield', { anchorX: 0.5, anchorY: 0.5, scaleX: 3, scaleY: 3 }); self.shieldGraphics.alpha = 0.7; self.shieldGraphics.visible = false; self.attackCooldown = 0; self.level = 1; self.experience = 0; self.health = 100; self.maxHealth = 100; self.spellPowerLevel = 0; // Track spell power upgrades self.shieldActive = false; // Track shield status self.update = function () { if (self.attackCooldown > 0) { self.attackCooldown--; } // Update shield visibility based on shield status self.shieldGraphics.visible = self.shieldActive; if (self.shieldActive) { // Animate shield with pulsing effect var pulse = 1 + Math.sin(LK.ticks * 0.15) * 0.2; self.shieldGraphics.scaleX = 3 * pulse; self.shieldGraphics.scaleY = 3 * pulse; // Slowly rotate shield self.shieldGraphics.rotation += 0.03; // Add glowing effect self.shieldGraphics.alpha = 0.6 + Math.sin(LK.ticks * 0.1) * 0.2; } // Animation system - cycle through wizard frames self.animationTimer++; if (self.animationTimer >= self.animationSpeed) { self.animationTimer = 0; // Hide current frame self.wizardFrames[self.currentFrame - 1].visible = false; // Move to next frame self.currentFrame++; if (self.currentFrame > 4) { self.currentFrame = 1; } // Show new frame self.wizardFrames[self.currentFrame - 1].visible = true; } }; self.attack = function (direction) { if (self.attackCooldown <= 0) { // Default direction if none specified if (direction === undefined) { direction = 0; // Default to center path } // Get attack angle based on path direction var attackAngle = pathAngles[direction]; var attackDistance = 100; // Calculate spell position based on attack direction var spellX = self.x + Math.cos(attackAngle) * attackDistance; var spellY = self.y + Math.sin(attackAngle) * attackDistance; // Create spell effect var spell = game.addChild(LK.getAsset('spell', { anchorX: 0.5, anchorY: 0.5, x: spellX, y: spellY, scaleX: 0.5, scaleY: 0.5 })); // Animate spell with magical effects tween(spell, { scaleX: 2, scaleY: 2, alpha: 0 }, { duration: 500, easing: tween.easeOut, onFinish: function onFinish() { spell.destroy(); } }); // Add rotation animation to spell tween(spell, { rotation: Math.PI * 2 }, { duration: 500, easing: tween.linear }); self.attackCooldown = 30; // 0.5 seconds at 60fps LK.getSound('spellCast').play(); // Base damage without spell power upgrades var totalDamage = 50; // Attack enemies in the specified direction/path for (var i = enemies.length - 1; i >= 0; i--) { var enemy = enemies[i]; if (enemy.pathIndex === direction) { // Only hit enemies on exact same path - no distance validation enemy.takeDamage(totalDamage); } } // Attack ogres in the specified direction/path for (var i = ogres.length - 1; i >= 0; i--) { var ogre = ogres[i]; if (ogre.pathIndex === direction) { // Only hit ogres on exact same path - no distance validation ogre.takeDamage(totalDamage); } } // Attack knights in the specified direction/path for (var i = knights.length - 1; i >= 0; i--) { var knight = knights[i]; if (knight.pathIndex === direction) { // Only hit knights on exact same path - no distance validation knight.takeDamage(totalDamage); } } return true; } return false; }; self.gainExperience = function (amount) { self.experience += amount; var expNeeded = self.level * 100; if (self.experience >= expNeeded) { self.levelUp(); } }; self.levelUp = function () { self.level++; self.experience = 0; // Visual level up effect LK.effects.flashObject(self, 0xFFD700, 500); }; self.takeDamage = function (damage) { // Check if shield is active if (self.shieldActive) { // Shield blocks the damage self.shieldActive = false; // Visual feedback for shield use LK.effects.flashObject(self, 0x00BFFF, 300); // Start shield regeneration timer (10 seconds) tween({}, {}, { duration: 10000, // 10 seconds onFinish: function onFinish() { // Regenerate shield after 10 seconds self.shieldActive = true; // Visual feedback for shield regeneration LK.effects.flashObject(self, 0x00BFFF, 500); // Add shield regeneration animation tween(self.shieldGraphics, { scaleX: 5, scaleY: 5, alpha: 1.0 }, { duration: 600, easing: tween.easeOut, onFinish: function onFinish() { tween(self.shieldGraphics, { scaleX: 3, scaleY: 3, alpha: 0.7 }, { duration: 400, easing: tween.easeIn }); } }); } }); // No damage taken, shield absorbed it return; } self.health -= damage; if (self.health <= 0) { self.health = 0; // Game over when health reaches 0 LK.effects.flashScreen(0xFF0000, 1000); LK.showGameOver(); } // Update health bar updateHealthBar(); // Flash red when hit LK.effects.flashObject(self, 0xFF0000, 200); }; return self; }); /**** * Initialize Game ****/ var game = new LK.Game({ backgroundColor: 0x000000 // Black background for pixel art }); /**** * Game Code ****/ // Game state variables var gameStarted = false; var gameMenu; var upgradeMenu; var upgradeMenuShown = false; var secondUpgradeMenuShown = false; // Game arrays to track objects var enemies = []; var ogres = []; var knights = []; var coins = []; var projectiles = []; // Create and show game menu gameMenu = game.addChild(new GameMenu()); // Create upgrade menu (initially hidden) upgradeMenu = game.addChild(new UpgradeMenu()); upgradeMenu.visible = false; // Create 5 stone paths leading toward the wizard position var paths = []; var knightX = 2048 / 2; var knightY = 2732 - 250; // Create paths: all pointing toward the wizard position var pathAngles = [-Math.PI / 2, // Center (straight down toward wizard) -Math.PI / 3, // Diagonal right toward wizard -2 * Math.PI / 3, // Diagonal left toward wizard -Math.PI / 6, // Right side angled toward wizard -5 * Math.PI / 6 // Left side angled toward wizard ]; // 5 paths: all directed toward wizard position // Create multiple stone segments for each path to form visible stone roads for (var p = 0; p < 5; p++) { var angle = pathAngles[p]; // Calculate distance from spawn point to wizard position var wizardX = knightX; var wizardY = 2732 - 600; // Wizard position var spawnDistance = p === 0 ? 2000 : p === 3 || p === 4 ? 1200 : 1800; // Distance from wizard to spawn point var spawnX = wizardX + Math.cos(angle) * spawnDistance; var spawnY = wizardY + Math.sin(angle) * spawnDistance; // Move side paths down to match collision paths if (p === 3 || p === 4) { // Right side and left side paths spawnY += 150; // Move spawn point down by 150 pixels } // Calculate actual path length from spawn point to wizard var actualPathLength = Math.sqrt((spawnX - wizardX) * (spawnX - wizardX) + (spawnY - wizardY) * (spawnY - wizardY)); var segmentSize = 120; // Size of each stone segment var numSegments = Math.floor(actualPathLength / segmentSize); // Create individual stone segments along the path from spawn point toward wizard for (var s = 0; s < numSegments; s++) { var segmentDistance = s * segmentSize + segmentSize / 2; var segmentX = spawnX - Math.cos(angle) * segmentDistance; var segmentY = spawnY - Math.sin(angle) * segmentDistance; // Only create segments that are within the visible game area if (segmentX >= -100 && segmentX <= 2148 && segmentY >= -100 && segmentY <= 2832) { // Create stone path segment var stoneSegment = game.addChild(LK.getAsset('stonePath', { anchorX: 0.5, anchorY: 0.5, x: segmentX, y: segmentY, scaleX: 2.0, scaleY: 2.0, rotation: angle + Math.PI / 2 // Rotate stone to align with path })); // Make stones visible with semi-transparent appearance stoneSegment.alpha = 0.6; // Make visible but semi-transparent stoneSegment.visible = false; // Initially hidden, will be shown when game starts stoneSegment.pathIndex = p; } } } // Create invisible path collision areas for touch detection for (var p = 0; p < 5; p++) { var angle = pathAngles[p]; // Calculate distance from spawn point to wizard position var wizardX = knightX; var wizardY = 2732 - 600; // Wizard position var spawnDistance = p === 0 ? 3000 : p === 3 || p === 4 ? 1200 : 1800; // Distance from wizard to spawn point var spawnX = wizardX + Math.cos(angle) * spawnDistance; var spawnY = wizardY + Math.sin(angle) * spawnDistance; // Calculate actual path length from spawn point to wizard var actualPathLength = Math.sqrt((spawnX - wizardX) * (spawnX - wizardX) + (spawnY - wizardY) * (spawnY - wizardY)); var centerX = (spawnX + wizardX) / 2; var centerY = (spawnY + wizardY) / 2; // Move side paths (left and right) down a bit if (p === 3 || p === 4) { // Right side and left side paths centerY += 150; // Move down by 150 pixels } // Create invisible collision path var path = game.addChild(LK.getAsset('pathSelector', { anchorX: 0.5, anchorY: 0.5, x: centerX, y: centerY, scaleX: 4, scaleY: actualPathLength / 60, rotation: angle + Math.PI / 2 })); // Make collision path completely invisible path.alpha = 0; path.visible = false; path.pathIndex = p; // Add numbered text label for each path var pathNumber = new Text2((p + 1).toString(), { size: 120, fill: 0xFFD700, font: "monospace" }); pathNumber.anchor.set(0.5, 0.5); // Position number at the start of each path (near spawn point) pathNumber.x = spawnX - Math.cos(angle) * 200; // Position closer to spawn pathNumber.y = spawnY - Math.sin(angle) * 200; pathNumber.visible = false; // Initially hidden, will be shown when game starts pathNumber.pathIndex = p; game.addChild(pathNumber); // Add touch handler for directional attacks path.down = function (x, y, obj) { // Attack in this path's direction wizard.attack(obj.pathIndex); // Visual feedback - no flash for invisible paths // Paths remain invisible when tapped }; paths.push(path); } // Pixel art scaling handled by engine automatically // Set fondodelacueva as the actual game background var backgroundMap = game.addChild(LK.getAsset('fondodelacueva', { anchorX: 0, anchorY: 0, scaleX: 19.5, scaleY: 26.0, x: 0, y: 0 })); // Send background to the back but use a less extreme z-index backgroundMap.zIndex = -100; // Hide background initially during menu backgroundMap.visible = false; backgroundMap.alpha = 1.0; // Create wizard var wizard = game.addChild(new Wizard()); wizard.x = knightX; wizard.y = 2732 - 600; // Position wizard higher on screen wizard.visible = false; // UI Elements // Removed scoreText and levelText to eliminate stray characters in top right var coinCounter = 0; var enemyKillCounter = 0; var coinText = new Text2('Coins: 0', { size: 60, fill: 0xFFD700, font: "monospace" }); coinText.anchor.set(0, 0); LK.gui.topLeft.addChild(coinText); coinText.x = 120; coinText.y = 90; coinText.visible = false; var killCountText = new Text2('Puntuacion: 0', { size: 60, fill: 0xFF6B6B, font: "monospace" }); killCountText.anchor.set(0, 0); LK.gui.topLeft.addChild(killCountText); killCountText.x = 120; killCountText.y = 150; killCountText.visible = false; var tapText = new Text2('TAP TO CAST SPELLS!', { size: 100, fill: 0xFF6B6B, font: "monospace" }); tapText.anchor.set(0.5, 0.5); LK.gui.center.addChild(tapText); tapText.y = -200; tapText.visible = false; // Health bar UI var healthBarBg = LK.getAsset('healthBarBg', { anchorX: 0, anchorY: 0 }); LK.gui.topLeft.addChild(healthBarBg); healthBarBg.x = 120; healthBarBg.y = 20; healthBarBg.visible = false; var healthBar = LK.getAsset('healthBar', { anchorX: 0, anchorY: 0 }); LK.gui.topLeft.addChild(healthBar); healthBar.x = 120; healthBar.y = 20; healthBar.visible = false; var healthText = new Text2('Health: 100/100', { size: 50, fill: 0xFFFFFF, font: "monospace" }); healthText.anchor.set(0, 0); LK.gui.topLeft.addChild(healthText); healthText.x = 120; healthText.y = 50; healthText.visible = false; function updateHealthBar() { var healthPercent = wizard.health / wizard.maxHealth; healthBar.scaleX = healthPercent; healthText.setText('Health: ' + wizard.health + '/' + wizard.maxHealth); // Change color based on health if (healthPercent > 0.6) { healthBar.tint = 0x00ff00; // Green } else if (healthPercent > 0.3) { healthBar.tint = 0xffff00; // Yellow } else { healthBar.tint = 0xff0000; // Red } } // Enemy spawning variables var enemySpawnTimer = 0; var lastSpawnedPath = -1; // Track the last spawned path var consecutiveSpawns = 0; // Track consecutive spawns from same path // Cooldown system variables var pathLastSpawnTime = [-1, -1, -1, -1, -1]; // Track last spawn time for each path var pathConsecutiveSpawns = [0, 0, 0, 0, 0]; // Track consecutive spawns per path var pathCooldownDuration = 300; // 5 seconds at 60fps // Game input handling game.down = function (x, y, obj) { // Check if a path was tapped for directional attack var pathTapped = false; for (var p = 0; p < paths.length; p++) { var path = paths[p]; // Convert tap position to path's local coordinates var localPos = path.toLocal({ x: x, y: y }); // Check if tap is within path bounds if (Math.abs(localPos.x) < path.width / 2 && Math.abs(localPos.y) < path.height / 2) { // Attack in this path's direction wizard.attack(path.pathIndex); pathTapped = true; break; } } // No default attack - player must tap a path to attack }; // Main game update loop game.update = function () { // Sort children by z-index to ensure proper rendering order game.children.sort(function (a, b) { return (a.zIndex || 0) - (b.zIndex || 0); }); // Only update game logic if game has started if (!gameStarted) { return; } // Change music to epic battle theme at 10 enemies killed if (enemyKillCounter === 10) { LK.playMusic('epicBattle', { volume: 0.8, fade: { start: 0, end: 0.8, duration: 1500 } }); } // Change to mystical ambient music at 25 enemies killed if (enemyKillCounter === 25) { LK.playMusic('mysticalAmbient', { volume: 0.6, fade: { start: 0, end: 0.6, duration: 2000 } }); } // Show upgrade menu after 12 enemies are killed if (enemyKillCounter >= 12 && !upgradeMenuShown) { upgradeMenuShown = true; upgradeMenu.visible = true; upgradeMenu.cooldownTimer = upgradeMenu.cooldownDuration; // Start 2-second cooldown gameStarted = false; // Pause game while menu is open LK.stopMusic(); // Pause music // Clear all enemies on screen when upgrade menu is shown for (var i = enemies.length - 1; i >= 0; i--) { var enemy = enemies[i]; enemies.splice(i, 1); enemy.destroy(); } // Clear all ogres on screen when upgrade menu is shown for (var i = ogres.length - 1; i >= 0; i--) { var ogre = ogres[i]; ogres.splice(i, 1); ogre.destroy(); } // Clear all knights on screen when upgrade menu is shown for (var i = knights.length - 1; i >= 0; i--) { var knight = knights[i]; knights.splice(i, 1); knight.destroy(); } } // Show upgrade menu again after 35 enemies are killed if (enemyKillCounter >= 35 && upgradeMenuShown && !secondUpgradeMenuShown) { secondUpgradeMenuShown = true; upgradeMenu.visible = true; upgradeMenu.cooldownTimer = upgradeMenu.cooldownDuration; // Start 2-second cooldown gameStarted = false; // Pause game while menu is open LK.stopMusic(); // Pause music // Clear all enemies on screen when upgrade menu is shown for (var i = enemies.length - 1; i >= 0; i--) { var enemy = enemies[i]; enemies.splice(i, 1); enemy.destroy(); } // Clear all ogres on screen when upgrade menu is shown for (var i = ogres.length - 1; i >= 0; i--) { var ogre = ogres[i]; ogres.splice(i, 1); ogre.destroy(); } // Clear all knights on screen when upgrade menu is shown for (var i = knights.length - 1; i >= 0; i--) { var knight = knights[i]; knights.splice(i, 1); knight.destroy(); } } // Reset consecutive spawns for paths that have cooled down (runs every frame) for (var pathIdx = 0; pathIdx < 5; pathIdx++) { // Check if enough time has passed since last spawn (cooldown expired) if (pathLastSpawnTime[pathIdx] !== -1 && LK.ticks - pathLastSpawnTime[pathIdx] > pathCooldownDuration) { // Reset consecutive spawns for this path due to cooldown pathConsecutiveSpawns[pathIdx] = 0; } } // Progressive difficulty system based on kills var difficultyLevel = Math.floor(enemyKillCounter / 10); // Every 10 kills increases difficulty var currentSpawnRate = Math.max(30, 90 - difficultyLevel * 8); // Faster spawning over time var enemyHealthMultiplier = 1 + difficultyLevel * 0.3; // 30% more health per difficulty level var enemySpeedMultiplier = 1 + difficultyLevel * 0.35; // 35% faster per difficulty level // Spawn enemies enemySpawnTimer++; if (enemySpawnTimer >= currentSpawnRate) { enemySpawnTimer = 0; var enemy = game.addChild(new Enemy()); // Apply difficulty scaling to enemy stats enemy.health = Math.floor(100 * enemyHealthMultiplier); enemy.maxHealth = enemy.health; enemy.speed = 3 * enemySpeedMultiplier; // Spawn enemy at a random path entrance var randomPathIndex; if (enemyKillCounter < 5) { // First 5 enemies spawn from center path only randomPathIndex = 0; // Center path } else { // After 5 enemies, spawn from any path but limit consecutive spawns with cooldown system // Build available paths list var availablePaths = []; for (var pathIdx = 0; pathIdx < 5; pathIdx++) { // If path has spawned less than 2 consecutive times, it's available if (pathConsecutiveSpawns[pathIdx] < 2) { availablePaths.push(pathIdx); } } // If no paths available, reset ALL paths to ensure balanced distribution if (availablePaths.length === 0) { // Reset all paths' consecutive spawn counters for (var pathIdx = 0; pathIdx < 5; pathIdx++) { pathConsecutiveSpawns[pathIdx] = 0; availablePaths.push(pathIdx); } } randomPathIndex = availablePaths[Math.floor(Math.random() * availablePaths.length)]; } // Update path-specific spawn tracking // Always increment consecutive spawns for the selected path pathConsecutiveSpawns[randomPathIndex]++; // Update path spawn time and global tracking pathLastSpawnTime[randomPathIndex] = LK.ticks; lastSpawnedPath = randomPathIndex; consecutiveSpawns = pathConsecutiveSpawns[randomPathIndex]; var pathAngle = pathAngles[randomPathIndex]; // Store the path information on the enemy enemy.pathIndex = randomPathIndex; enemy.pathAngle = pathAngle; // Calculate spawn position at the far end of the path (screen edge) var pathLength = randomPathIndex === 0 ? 2500 : randomPathIndex === 3 || randomPathIndex === 4 ? 1400 : 1800; // Path 1 longer spawn distance, paths 4&5 shorter var spawnDistance = pathLength * 0.8; // Spawn farther away - 80% of path length enemy.x = knightX + Math.cos(pathAngle) * spawnDistance; enemy.y = knightY + Math.sin(pathAngle) * spawnDistance; // Make sure enemies spawn within screen bounds enemy.x = Math.max(50, Math.min(1998, enemy.x)); enemy.y = Math.max(-200, Math.min(2732 + 100, enemy.y)); enemy.lastX = enemy.x; enemies.push(enemy); } // Spawn ogres after 15 seconds (900 ticks at 60fps) if (LK.ticks >= 900 && LK.ticks % 180 === 0) { // Every 3 seconds after 15 seconds var ogre = game.addChild(new Ogre()); // Apply difficulty scaling to ogre stats ogre.health = Math.floor(150 * enemyHealthMultiplier); // Ogres have more base health ogre.maxHealth = ogre.health; ogre.speed = 2.5 * enemySpeedMultiplier; // Ogres are slightly slower // Spawn ogre at a random path entrance var ogrePathIndex = Math.floor(Math.random() * 5); var ogrePathAngle = pathAngles[ogrePathIndex]; // Store the path information on the ogre ogre.pathIndex = ogrePathIndex; ogre.pathAngle = ogrePathAngle; // Calculate spawn position at the far end of the path (screen edge) var ogrePathLength = ogrePathIndex === 0 ? 2000 : ogrePathIndex === 3 || ogrePathIndex === 4 ? 1400 : 1800; var ogreSpawnDistance = ogrePathLength * 0.8; ogre.x = knightX + Math.cos(ogrePathAngle) * ogreSpawnDistance; ogre.y = knightY + Math.sin(ogrePathAngle) * ogreSpawnDistance; // Make sure ogres spawn within screen bounds ogre.x = Math.max(50, Math.min(1998, ogre.x)); ogre.y = Math.max(-200, Math.min(2732 + 100, ogre.y)); ogre.lastX = ogre.x; ogres.push(ogre); } // Spawn knights after 30 enemies killed if (enemyKillCounter >= 30 && LK.ticks % 300 === 0) { // Every 5 seconds after 30th enemy var knight = game.addChild(new Knight()); // Apply difficulty scaling to knight stats knight.health = Math.floor(200 * enemyHealthMultiplier); // Knights have highest base health knight.maxHealth = knight.health; knight.speed = 2 * enemySpeedMultiplier; // Knights are slowest // Spawn knight at a random path entrance var knightPathIndex = Math.floor(Math.random() * 5); var knightPathAngle = pathAngles[knightPathIndex]; // Store the path information on the knight knight.pathIndex = knightPathIndex; knight.pathAngle = knightPathAngle; // Calculate spawn position at the far end of the path (screen edge) var knightPathLength = knightPathIndex === 0 ? 2000 : knightPathIndex === 3 || knightPathIndex === 4 ? 1400 : 1800; var knightSpawnDistance = knightPathLength * 0.8; knight.x = knightX + Math.cos(knightPathAngle) * knightSpawnDistance; knight.y = knightY + Math.sin(knightPathAngle) * knightSpawnDistance; // Make sure knights spawn within screen bounds knight.x = Math.max(50, Math.min(1998, knight.x)); knight.y = Math.max(-200, Math.min(2732 + 100, knight.y)); knight.lastX = knight.x; knights.push(knight); } // Check enemy-knight collisions and cleanup off-screen enemies for (var i = enemies.length - 1; i >= 0; i--) { var enemy = enemies[i]; // Remove enemies that went off-screen at bottom if (enemy.y > 2732 + 100) { enemies.splice(i, 1); enemy.destroy(); continue; } // Initialize lastIntersecting if not set if (enemy.lastIntersecting === undefined) { enemy.lastIntersecting = false; } // Check for collision transition var currentIntersecting = enemy.intersects(wizard); if (!enemy.lastIntersecting && currentIntersecting) { // Damage wizard when enemy touches for the first time wizard.takeDamage(20); // Remove enemy after dealing damage enemies.splice(i, 1); enemy.destroy(); continue; } // Update last intersecting state enemy.lastIntersecting = currentIntersecting; } // Check ogre-wizard collisions and cleanup off-screen ogres for (var i = ogres.length - 1; i >= 0; i--) { var ogre = ogres[i]; // Remove ogres that went off-screen at bottom if (ogre.y > 2732 + 100) { ogres.splice(i, 1); ogre.destroy(); continue; } // Initialize lastIntersecting if not set if (ogre.lastIntersecting === undefined) { ogre.lastIntersecting = false; } // Check for collision transition var currentOgreIntersecting = ogre.intersects(wizard); if (!ogre.lastIntersecting && currentOgreIntersecting) { // Damage wizard when ogre touches for the first time wizard.takeDamage(30); // Ogres deal 30 damage // Remove ogre after dealing damage ogres.splice(i, 1); ogre.destroy(); continue; } // Update last intersecting state ogre.lastIntersecting = currentOgreIntersecting; } // Check knight-wizard collisions and cleanup off-screen knights for (var i = knights.length - 1; i >= 0; i--) { var knight = knights[i]; // Remove knights that went off-screen at bottom if (knight.y > 2732 + 100) { knights.splice(i, 1); knight.destroy(); continue; } // Initialize lastIntersecting if not set if (knight.lastIntersecting === undefined) { knight.lastIntersecting = false; } // Check for collision transition var currentKnightIntersecting = knight.intersects(wizard); if (!knight.lastIntersecting && currentKnightIntersecting) { // Damage wizard when knight touches for the first time wizard.takeDamage(40); // Knights deal 40 damage // Remove knight after dealing damage knights.splice(i, 1); knight.destroy(); continue; } // Update last intersecting state knight.lastIntersecting = currentKnightIntersecting; } // Make tap text pulse var pulse = 1 + Math.sin(LK.ticks * 0.1) * 0.2; tapText.scale.set(pulse, pulse); }; // Remove tap text after 5 seconds tween({}, {}, { duration: 5000, onFinish: function onFinish() { if (tapText && tapText.parent) { tapText.destroy(); } } });

===================================================================
--- original.js
+++ change.js
@@ -854,15 +854,15 @@
 		anchorY: 0.5,
 		scaleX: 2.0,
 		scaleY: 2.0
 	});
-	lightGlow.alpha = 0.3;
+	lightGlow.alpha = 0.15;
 	lightGlow.tint = 0x44aaff; // Blue-white glow
 	// Animate the glow effect
 	tween(lightGlow, {
 		scaleX: 3.5,
 		scaleY: 3.5,
-		alpha: 0.1
+		alpha: 0.05
 	}, {
 		duration: 800,
 		easing: tween.easeInOut
 	});
@@ -895,9 +895,9 @@
 		if (lightGlow && lightGlow.parent) {
 			var pulse = 1 + Math.sin(LK.ticks * 0.3) * 0.4;
 			lightGlow.scaleX = 2.0 * pulse;
 			lightGlow.scaleY = 2.0 * pulse;
-			var alphaFlicker = 0.2 + Math.sin(LK.ticks * 0.5) * 0.15;
+			var alphaFlicker = 0.1 + Math.sin(LK.ticks * 0.5) * 0.08;
 			lightGlow.alpha = alphaFlicker;
 		}
 		// Remove if off screen
 		if (self.x < -50 || self.x > 2098 || self.y < -50 || self.y > 2782) {

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