:quality(85)/https://cdn.frvr.ai/67cb986b9a1a3019c1ad9818.png)
:quality(85)/https://cdn.upit.com/v4f0pp18i9pfczsn4n5pst2n.jpeg)
:quality(85)/https://cdn.frvr.ai/67cb99369a1a3019c1ad982f.png)
#simulation
#strategy
#casual
#empire
#bubbles
#UpitIdleGameContest
#idle
#FaceKit
Creation History
User prompt
Update as needed with: function refreshUpgradeTab(tabName) { // Keep the existing code that clears and recreates upgrade elements // ... // Add this at the end of the function: if (tabName === 'colors') { // Get the active color key var activeColorKey = getActiveColorKey(); // Find all color upgrades that are already purchased tabColumns[tabName].left.concat(tabColumns[tabName].right).forEach(function(upgrade) { var category = upgrade[0]; var key = upgrade[1]; var upgradeConfig = UPGRADE_CONFIG[category][key]; // If this color is active (or auto and this is the highest unlocked) if (upgradeConfig.currentLevel > 0 && (activeColorKey === key || (UPGRADE_CONFIG.gameSettings.activeColor === "auto" && key === activeColorKey))) { // Find the element with this name tabContainers[tabName].children.forEach(function(child) { if (child.text === upgradeConfig.name) { // Create and add "ACTIVE" text next to it var activeText = new Text2("ACTIVE", { size: 64, fill: 0x00FF00, // Bright green stroke: 0x000000, strokeThickness: 2, font: "Impact" }); activeText.x = child.x + 150; // Position to the right of the name activeText.y = child.y; tabContainers[tabName].addChild(activeText); } }); } }); } }
Code edit (1 edits merged)
Please save this source code
User prompt
Remove updatecolorselectionui method
User prompt
Remove createcolorselectionui method
User prompt
Update with: if (category === 'colors' && upgrade.currentLevel > 0 && UPGRADE_CONFIG.gameSettings.activeColor === key) { var activeText = new Text2("ACTIVE", { size: 64, fill: 0x00FF00, // Bright green stroke: 0x000000, strokeThickness: 2, font: "Impact" }); activeText.x = xOffset + 150; // Position to the right of the name activeText.y = yPos; tabContainers[tab].addChild(activeText); }
User prompt
Please fix the bug: 'undefined is not an object (evaluating 'UPGRADE_CONFIG.gameSettings')' in or related to this line: 'if (!UPGRADE_CONFIG.gameSettings) {' Line Number: 565
User prompt
Update with: // Make sure this is added to UPGRADE_CONFIG if not already there if (!UPGRADE_CONFIG.gameSettings) { UPGRADE_CONFIG.gameSettings = { activeColor: "auto" // Default to automatic progression }; }
User prompt
Update with: // Make sure this is added to UPGRADE_CONFIG if not already there if (!UPGRADE_CONFIG.gameSettings) { UPGRADE_CONFIG.gameSettings = { activeColor: "auto" // Default to automatic progression }; }
User prompt
Update with: // Add this next to your showError function game.showMessage = function (message) { var messageText = new Text2(message, { size: 80, fill: 0xFFFFFF, stroke: 0x000000, strokeThickness: 3, font: "Impact" }); // Set the anchor point to center the text messageText.anchor = { x: 0.5, y: 0.5 }; // Position at the center of the screen messageText.x = game.width / 2; messageText.y = game.height / 2; game.addChild(messageText); // Animate the text tween(messageText, { alpha: 0, y: messageText.y - 30 }, { duration: 1000, onFinish: function onFinish() { messageText.destroy(); } }); }; ↪💡 Consider importing and using the following plugins: @upit/tween.v1
User prompt
Update only as needed with: hitContainer.down = function () { var cost = getUpgradeCost(upgrade); // Special handling for colors that are already purchased if (category === 'colors' && upgrade.currentLevel > 0) { // Toggle this color as active if (UPGRADE_CONFIG.gameSettings.activeColor === key) { // If already active, switch to auto UPGRADE_CONFIG.gameSettings.activeColor = "auto"; game.showMessage("Auto color mode"); } else { // Otherwise activate this color UPGRADE_CONFIG.gameSettings.activeColor = key; game.showMessage(upgrade.name + " activated"); } return true; } // Regular upgrade purchase logic follows... if (category === 'colors' && upgrade.requires) { var required = UPGRADE_CONFIG.colors[upgrade.requires]; if (required && required.currentLevel === 0) { game.showError("Unlock " + required.name + " first!"); return true; } } if (game.bp >= cost) { // Existing code for purchasing upgrades... } else { game.showError("Not enough BP!"); } return true; };
User prompt
Update with: // Update this function to properly handle the color tabs function refreshUpgradeTab(tabName) { // Clear all children from the tab container while (tabContainers[tabName].children.length > 0) { tabContainers[tabName].children[0].destroy(); } // Recreate all upgrades for the tab if (tabColumns[tabName] && tabColumns[tabName].left) { tabColumns[tabName].left.forEach(function (upgrade, index) { createUpgradeText(upgrade[0], upgrade[1], index, true, tabName); }); } if (tabColumns[tabName] && tabColumns[tabName].right) { tabColumns[tabName].right.forEach(function (upgrade, index) { createUpgradeText(upgrade[0], upgrade[1], index, false, tabName); }); } // Recreate color selection UI if needed if (tabName === 'colors') { LK.setTimeout(function() { createColorSelectionUI(); }, 1); } }
User prompt
Update as needed with: // Initialize the color selector container var colorSelectContainer = null; // Add this to the switchTab function (or create if it doesn't exist) function switchTab(newTab) { // Hide old tab content, show new tab content tabContainers[currentTab].visible = false; tabContainers[newTab].visible = true; // Update tab button appearance tabButtons[currentTab].alpha = 0.7; tabButtons[newTab].alpha = 1.0; // Initialize color selection UI when switching to colors tab if (newTab === 'colors' && colorSelectContainer === null) { createColorSelectionUI(); } currentTab = newTab; } // Also add this to ensure it's created on game start if colors is the default tab if (currentTab === 'colors') { LK.setTimeout(function() { createColorSelectionUI(); }, 1); }
User prompt
Update with: // Define column assignments for each tab var tabColumns = { bubbles: { left: [['player', 'lungCapacity'], ['player', 'quickBreath'], ['player', 'bubbleRefinement'], ['player', 'twinBubbles']], right: [['player', 'autoPop'], ['player', 'sizeVariance'], ['player', 'bubbleBreath']] }, clams: { left: [['machines', 'basicClam'], ['machines', 'advancedClam'], ['machines', 'premiumClam']], right: [['machine', 'bubbleDurability'], ['machine', 'autoBubbleSpeed'], ['machine', 'bubbleQuality']] }, colors: { left: [ ['colors', 'blueBubbles'], ['colors', 'purpleBubbles'], ['colors', 'greenBubbles'], ['colors', 'orangeBubbles'], ['colors', 'pinkBubbles'] ], right: [ ['colors', 'tealBubbles'], ['colors', 'goldBubbles'], ['colors', 'crimsonBubbles'], ['colors', 'silverBubbles'], ['colors', 'rainbowBubbles'], ['colors', 'prismaticBubbles'] ] }, decorations: { left: [['decorations', 'bubbleCoral']], right: [['decorations', 'sunkenTreasures']] } };
User prompt
Update only as needed with: function createColorSelectionUI() { // Clear previous UI if exists if (colorSelectContainer) { colorSelectContainer.destroy(); } colorSelectContainer = new Container(); colorSelectContainer.y = -200; // Position above upgrade options tabContainers.colors.addChild(colorSelectContainer); // Add label var titleText = new Text2("Active Color:", { size: 80, fill: 0xFFFFFF, stroke: 0x000000, strokeThickness: 2, font: "Impact" }); titleText.x = 0; titleText.y = 0; colorSelectContainer.addChild(titleText); // Create color buttons var buttonWidth = 70; // Smaller buttons to fit more var spacing = 15; var startX = -350; // Start further left var buttonY = 100; var buttonsPerRow = 7; // Organize in rows // Add "Auto" option first createColorButton("auto", "Auto", 0xFFFFFF, startX, buttonY); // Add each unlocked color var colorInfo = [ {key: "blueBubbles", name: "Blue"}, {key: "purpleBubbles", name: "Purple"}, {key: "greenBubbles", name: "Green"}, {key: "orangeBubbles", name: "Orange"}, {key: "pinkBubbles", name: "Pink"}, {key: "tealBubbles", name: "Teal"}, {key: "goldBubbles", name: "Gold"}, {key: "crimsonBubbles", name: "Crimson"}, {key: "silverBubbles", name: "Silver"}, {key: "rainbowBubbles", name: "Rainbow"}, {key: "prismaticBubbles", name: "Prismatic"} ]; var unlockCount = 0; colorInfo.forEach(function(info) { if (UPGRADE_CONFIG.colors[info.key].currentLevel > 0) { // Calculate position based on how many buttons we've already placed var row = Math.floor(unlockCount / buttonsPerRow); var col = unlockCount % buttonsPerRow; var x = startX + (col + 1) * (buttonWidth + spacing); var y = buttonY + row * (buttonWidth + spacing); // Get the color from the upgrade config var buttonColor = (info.key === "rainbowBubbles") ? 0xFFFF00 : // Yellow for rainbow (info.key === "prismaticBubbles") ? 0xFFFFFF : // White for prismatic UPGRADE_CONFIG.colors[info.key].color; // Otherwise use the defined color createColorButton(info.key, "", buttonColor, x, y); unlockCount++; } }); function createColorButton(key, label, color, x, y) { // Button creation code remains the same } }
User prompt
Update with: function getActiveColorKey() { if (UPGRADE_CONFIG.gameSettings.activeColor === "auto") { // Find highest unlocked color in order of value var colorKeys = [ "prismaticBubbles", "rainbowBubbles", "silverBubbles", "crimsonBubbles", "goldBubbles", "tealBubbles", "pinkBubbles", "orangeBubbles", "greenBubbles", "purpleBubbles", "blueBubbles" ]; for (var i = 0; i < colorKeys.length; i++) { if (UPGRADE_CONFIG.colors[colorKeys[i]].currentLevel > 0) { return colorKeys[i]; } } } return UPGRADE_CONFIG.gameSettings.activeColor; }
User prompt
Update with: self.applyColorUpgrade = function() { // Only apply if any color upgrade is active if (UPGRADE_CONFIG.colors.blueBubbles.currentLevel > 0) { var color = 0xFFFFFF; var multiplier = 1.0; // Get active color setting var activeColorKey = getActiveColorKey(); // Apply the selected color if (activeColorKey === "prismaticBubbles") { // Prismatic - constantly shifting color with variable multiplier self.colorPhase += 0.02; var colorValue = Math.sin(self.colorPhase) * 0.5 + 0.5; // 0 to 1 multiplier = 0.8 + colorValue * 1.2; // 0.8x to 2.0x // Generate rainbow color var r = Math.sin(self.colorPhase) * 127 + 128; var g = Math.sin(self.colorPhase + 2) * 127 + 128; var b = Math.sin(self.colorPhase + 4) * 127 + 128; color = (Math.floor(r) << 16) + (Math.floor(g) << 8) + Math.floor(b); } else if (activeColorKey === "rainbowBubbles") { // Rainbow - randomly changes color var rainbowColors = [ 0xFF0000, // Red 0xFFA500, // Orange 0xFFFF00, // Yellow 0x00FF00, // Green 0x0000FF, // Blue 0xFF00FF // Purple ]; var multipliers = [1.5, 1.4, 1.3, 1.2, 1.1, 1.6]; var index = Math.floor(Math.random() * rainbowColors.length); color = rainbowColors[index]; multiplier = multipliers[index]; } else { // Check all single colors in a more maintainable way var colorKeys = [ "silverBubbles", "crimsonBubbles", "goldBubbles", "tealBubbles", "pinkBubbles", "orangeBubbles", "greenBubbles", "purpleBubbles", "blueBubbles" ]; // Find the active color or highest unlocked for (var i = 0; i < colorKeys.length; i++) { var key = colorKeys[i]; if (activeColorKey === key || (activeColorKey === "auto" && UPGRADE_CONFIG.colors[key].currentLevel > 0)) { color = UPGRADE_CONFIG.colors[key].color; multiplier = UPGRADE_CONFIG.colors[key].multiplier; break; } } } // Apply the color and multiplier sprite.tint = color; self.colorTint = color; self.colorMultiplier = multiplier; } };
User prompt
Update with: // In the UPGRADE_CONFIG.colors section colors: { // Tier 1 - Basic blueBubbles: { name: "Blue Bubbles", baseCost: 1000, costScale: 1.0, maxLevel: 1, currentLevel: 0, multiplier: 1.1, color: 0x80C0FF }, // Tier 2 - Common Colors purpleBubbles: { name: "Purple Bubbles", baseCost: 2500, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "blueBubbles", multiplier: 1.15, color: 0x8A2BE2 }, greenBubbles: { name: "Green Bubbles", baseCost: 5000, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "purpleBubbles", multiplier: 1.2, color: 0x00FF80 }, // Tier 3 - Uncommon Colors orangeBubbles: { name: "Orange Bubbles", baseCost: 8000, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "greenBubbles", multiplier: 1.25, color: 0xFFA500 }, pinkBubbles: { name: "Pink Bubbles", baseCost: 12000, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "orangeBubbles", multiplier: 1.3, color: 0xFF80C0 }, // Tier 4 - Rare Colors tealBubbles: { name: "Teal Bubbles", baseCost: 18000, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "pinkBubbles", multiplier: 1.35, color: 0x00CED1 }, goldBubbles: { name: "Gold Bubbles", baseCost: 25000, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "tealBubbles", multiplier: 1.4, color: 0xFFD700 }, // Tier 5 - Epic Colors crimsonBubbles: { name: "Crimson Bubbles", baseCost: 35000, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "goldBubbles", multiplier: 1.45, color: 0xDC143C }, silverBubbles: { name: "Silver Bubbles", baseCost: 45000, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "crimsonBubbles", multiplier: 1.5, color: 0xC0C0C0 }, // Tier 6 - Special Types rainbowBubbles: { name: "Rainbow Bubbles", baseCost: 75000, // Significantly increased costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "silverBubbles", multiplier: 1.6, // Average of the random multipliers }, prismaticBubbles: { name: "Prismatic Bubbles", baseCost: 150000, // Very expensive endgame content costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "rainbowBubbles", multiplier: 1.8, // Average of the shifting values } }
Code edit (1 edits merged)
Please save this source code
User prompt
Add: function createColorSelectionUI() { // Clear previous UI if exists if (colorSelectContainer) { colorSelectContainer.destroy(); } colorSelectContainer = new Container(); colorSelectContainer.y = -150; // Position above upgrade options tabContainers.colors.addChild(colorSelectContainer); // Add label var titleText = new Text2("Active Color:", { size: 80, fill: 0xFFFFFF, stroke: 0x000000, strokeThickness: 2, font: "Impact" }); titleText.x = 0; titleText.y = 0; colorSelectContainer.addChild(titleText); // Create color buttons var buttonWidth = 80; var spacing = 20; var startX = -200; // Add "Auto" option first createColorButton("auto", "Auto", 0xFFFFFF, startX, 80); // Add each unlocked color var colorInfo = [ {key: "blueBubbles", color: 0x80C0FF}, {key: "purpleBubbles", color: 0x8A2BE2}, {key: "greenBubbles", color: 0x00FF80}, {key: "orangeBubbles", color: 0xFFA500}, {key: "pinkBubbles", color: 0xFF80C0}, {key: "rainbowBubbles", color: 0xFFFF00}, // Just use yellow for the button {key: "prismaticBubbles", color: 0xFFFFFF} ]; var unlockCount = 0; colorInfo.forEach(function(info, index) { if (UPGRADE_CONFIG.colors[info.key].currentLevel > 0) { createColorButton(info.key, "", info.color, startX + (unlockCount + 1) * (buttonWidth + spacing), 80); unlockCount++; } }); function createColorButton(key, label, color, x, y) { var isActive = UPGRADE_CONFIG.gameSettings.activeColor === key; // Button background var button = LK.getAsset('blower', { width: buttonWidth, height: buttonWidth, color: color, alpha: isActive ? 1.0 : 0.5, shape: 'circle' }); button.x = x; button.y = y; // Add label if provided if (label) { var labelText = new Text2(label, { size: 60, fill: 0x000000, font: "Impact" }); labelText.anchor = {x: 0.5, y: 0.5}; labelText.x = x; labelText.y = y; colorSelectContainer.addChild(labelText); } // Add active indicator if (isActive) { var indicator = LK.getAsset('blower', { width: buttonWidth + 10, height: buttonWidth + 10, color: 0xFFFFFF, alpha: 0.5, shape: 'circle' }); indicator.x = x; indicator.y = y; colorSelectContainer.addChild(indicator); } // Add click handler button.down = function() { setActiveColor(key); return true; }; colorSelectContainer.addChild(button); } } // Update selection UI when colors change function updateColorSelectionUI() { createColorSelectionUI(); }
User prompt
Update with: self.applyColorUpgrade = function() { // Only apply if any color upgrade is active if (UPGRADE_CONFIG.colors.blueBubbles.currentLevel > 0) { var color = 0xFFFFFF; var multiplier = 1.0; // Get active color setting var activeColorKey = getActiveColorKey(); // Only apply the active color or highest if auto if (activeColorKey === "prismaticBubbles") { // Prismatic code (unchanged) } else if (activeColorKey === "rainbowBubbles") { // Rainbow code (unchanged) } else if (activeColorKey === "pinkBubbles") { color = 0xFF80C0; // Pink multiplier = 1.3; } else if (activeColorKey === "orangeBubbles") { color = 0xFFA500; // Orange multiplier = 1.25; } else if (activeColorKey === "greenBubbles") { color = 0x00FF80; // Green multiplier = 1.2; } else if (activeColorKey === "purpleBubbles") { color = 0x8A2BE2; // Purple multiplier = 1.15; } else if (activeColorKey === "blueBubbles") { color = 0x80C0FF; // Blue multiplier = 1.1; } // Apply the color and multiplier (unchanged) sprite.tint = color; self.colorTint = color; self.colorMultiplier = multiplier; } };
User prompt
Add: // Add function to get current active color function getActiveColorKey() { if (UPGRADE_CONFIG.gameSettings.activeColor === "auto") { // Find highest unlocked color var colorKeys = ["prismaticBubbles", "rainbowBubbles", "pinkBubbles", "orangeBubbles", "greenBubbles", "purpleBubbles", "blueBubbles"]; for (var i = 0; i < colorKeys.length; i++) { if (UPGRADE_CONFIG.colors[colorKeys[i]].currentLevel > 0) { return colorKeys[i]; } } } return UPGRADE_CONFIG.gameSettings.activeColor; }
User prompt
Add: // Add a function to set active color function setActiveColor(colorKey) { if (colorKey === "auto" || UPGRADE_CONFIG.colors[colorKey].currentLevel > 0) { UPGRADE_CONFIG.gameSettings.activeColor = colorKey; // Update visual indicator in UI updateColorSelectionUI(); } else { game.showError("Unlock this color first!"); } }
User prompt
Update with: // Add to UPGRADE_CONFIG section gameSettings: { activeColor: "auto" // Default to automatic progression (highest unlocked) }
User prompt
Update with: // In the UPGRADE_CONFIG.colors section colors: { blueBubbles: { name: "Blue Bubbles", baseCost: 1000, costScale: 1.0, maxLevel: 1, currentLevel: 0 }, purpleBubbles: { // New color name: "Purple Bubbles", baseCost: 2000, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "blueBubbles" }, greenBubbles: { name: "Green Bubbles", baseCost: 3000, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "purpleBubbles" // Changed from blueBubbles }, orangeBubbles: { // New color name: "Orange Bubbles", baseCost: 4500, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "greenBubbles" }, pinkBubbles: { name: "Pink Bubbles", baseCost: 6000, costScale: 1.0, maxLevel: 1, currentLevel: 0, requires: "orangeBubbles" // Changed from greenBubbles }, // Rainbow and prismatic remain the same }
User prompt
Increase the value of the bubbles 100 times
/****
* Plugins
****/
var tween = LK.import("@upit/tween.v1");
var facekit = LK.import("@upit/facekit.v1");
/****
* Classes
****/
// Bubble class to represent each bubble in the game
var Bubble = Container.expand(function () {
var self = Container.call(this);
self.lifetime = 0;
self.hasSplit = false;
self.splitHeight = null;
self.AUTO_POP_SIZE = 40;
self.MIN_SPLIT_SIZE = 30;
self.lastPopTime = 0;
self.visible = false; // Start invisible in pool
var sprite = self.attachAsset('bubble', {
anchorX: 0.5,
anchorY: 0.5,
alpha: 0.8
});
self.colorTint = 0xFFFFFF; // Default white tint
self.colorMultiplier = 1.0; // Default multiplier
self.colorPhase = Math.random() * Math.PI * 2; // Random starting phase
self.size = 100;
self.updateColor = function () {
// Check if color upgrades are active
if (UPGRADE_CONFIG.colors.blueBubbles.currentLevel > 0) {
var color = 0xFFFFFF;
var multiplier = 1.0;
if (UPGRADE_CONFIG.colors.prismaticBubbles.currentLevel > 0) {
// Prismatic - constantly shifting color with variable multiplier
self.colorPhase += 0.02;
var colorValue = Math.sin(self.colorPhase) * 0.5 + 0.5; // 0 to 1
multiplier = 0.8 + colorValue * 1.2; // 0.8x to 2.0x
// Generate rainbow color
var r = Math.sin(self.colorPhase) * 127 + 128;
var g = Math.sin(self.colorPhase + 2) * 127 + 128;
var b = Math.sin(self.colorPhase + 4) * 127 + 128;
color = (Math.floor(r) << 16) + (Math.floor(g) << 8) + Math.floor(b);
} else if (UPGRADE_CONFIG.colors.rainbowBubbles.currentLevel > 0) {
// Rainbow - randomly changes color on activation
var colorChoice = Math.floor(Math.random() * 6);
switch (colorChoice) {
case 0:
color = 0xFF0000;
multiplier = 1.5;
break;
// Red
case 1:
color = 0xFFAA00;
multiplier = 1.4;
break;
// Orange
case 2:
color = 0xFFFF00;
multiplier = 1.3;
break;
// Yellow
case 3:
color = 0x00FF00;
multiplier = 1.2;
break;
// Green
case 4:
color = 0x0000FF;
multiplier = 1.1;
break;
// Blue
case 5:
color = 0xFF00FF;
multiplier = 1.6;
break;
// Purple
}
} else if (UPGRADE_CONFIG.colors.pinkBubbles.currentLevel > 0) {
color = 0xFF80C0; // Pink
multiplier = 1.3;
} else if (UPGRADE_CONFIG.colors.greenBubbles.currentLevel > 0) {
color = 0x00FF80; // Green
multiplier = 1.2;
} else {
// Blue bubbles
color = 0x80C0FF; // Blue
multiplier = 1.1;
}
self.colorTint = color;
self.colorMultiplier = multiplier;
// Apply tint to the sprite
sprite.tint = color; // Try direct assignment
// If that doesn't work, try:
// sprite.color = color;
}
};
self.activate = function (x, y, size, isPlayerBlown) {
// Existing reset code
self.x = x;
self.y = y;
self.size = size;
self.lifetime = 0;
self.hasSplit = false;
self.splitHeight = null;
self.justSplit = false;
self.autoPopDisplayed = false;
self.lastPopTime = 0;
self.verticalVelocity = 0;
self.driftX = (Math.random() * 20 - 10) / 60;
self.floatSpeed = 50 * (120 / size * (0.9 + Math.random() * 0.2)) / 60;
self.initLifetime(); // Always get fresh lifetime
self.visible = true;
// Reset color properties
self.colorTint = 0xFFFFFF; // Reset to default white
self.colorMultiplier = 1.0; // Reset multiplier
self.colorPhase = Math.random() * Math.PI * 2; // Fresh random phase
sprite.tint = 0xFFFFFF; // Reset the sprite tint directly
// Check if color upgrades are active and apply colors
self.applyColorUpgrade();
// Add some debug logs
console.log('Activating bubble:', {
size: self.size,
maxLifetime: self.maxLifetime,
isPlayerBlown: isPlayerBlown
});
};
self.applyColorUpgrade = function () {
// Only apply if any color upgrade is active
if (UPGRADE_CONFIG.colors.blueBubbles.currentLevel > 0) {
var color = 0xFFFFFF;
var multiplier = 1.0;
// Determine the highest active color upgrade
if (UPGRADE_CONFIG.colors.prismaticBubbles.currentLevel > 0) {
// Initial color for prismatic (will change over time)
self.colorPhase = Math.random() * Math.PI * 2;
var r = Math.sin(self.colorPhase) * 127 + 128;
var g = Math.sin(self.colorPhase + 2) * 127 + 128;
var b = Math.sin(self.colorPhase + 4) * 127 + 128;
color = (Math.floor(r) << 16) + (Math.floor(g) << 8) + Math.floor(b);
multiplier = 1.6;
} else if (UPGRADE_CONFIG.colors.rainbowBubbles.currentLevel > 0) {
// Rainbow - pick a random color from set
var rainbowColors = [0xFF0000,
// Red
0xFFAA00,
// Orange
0xFFFF00,
// Yellow
0x00FF00,
// Green
0x0000FF,
// Blue
0xFF00FF // Purple
];
var multipliers = [1.5, 1.4, 1.3, 1.2, 1.1, 1.6];
var index = Math.floor(Math.random() * rainbowColors.length);
color = rainbowColors[index];
multiplier = multipliers[index];
} else if (UPGRADE_CONFIG.colors.pinkBubbles.currentLevel > 0) {
color = 0xFF80C0; // Pink
multiplier = 1.3;
} else if (UPGRADE_CONFIG.colors.greenBubbles.currentLevel > 0) {
color = 0x00FF80; // Green
multiplier = 1.2;
} else {
// Blue bubbles
color = 0x80C0FF; // Blue
multiplier = 1.1;
}
// Apply the color and multiplier
sprite.tint = color;
self.colorTint = color;
self.colorMultiplier = multiplier;
// Log to verify colors are being applied
console.log('Applied bubble color:', color.toString(16), 'multiplier:', multiplier);
}
};
self.deactivate = function () {
self.visible = false;
var index = game.activeBubbles.indexOf(self);
if (index > -1) {
game.activeBubbles.splice(index, 1);
}
// Don't award points here - let the calling function handle it
};
self.initLifetime = function () {
self.maxLifetime = Math.floor(Math.random() * 960 + 1440);
self.maxLifetime *= Math.min(1, self.size / 100);
};
self.initLifetime();
// Subtle size-based variance plus small random factor
var speedMultiplier = 120 / self.size * (0.9 + Math.random() * 0.2); // Just 10% variance
self.floatSpeed = 50 * speedMultiplier / 60;
self.driftX = (Math.random() * 20 - 10) / 60; // Normal drift variance
self.verticalVelocity = 0;
self.down = function (e) {
var currentTime = Date.now();
if (currentTime - self.lastPopTime < 100) {
return true;
}
self.lastPopTime = currentTime;
var points = self.getBP();
game.addBP(points, self.x, self.y, false);
if (self.size > 60 && !self.justSplit) {
var splitCount = 2 + UPGRADE_CONFIG.machine.bubbleDurability.currentLevel;
var newSize = Math.max(self.MIN_SPLIT_SIZE, self.size * 0.6);
for (var i = 0; i < splitCount; i++) {
var angle = i / splitCount * Math.PI * 2;
// Reduce the direction multiplier to 0.5 to make movement more gentle
spawnBubble(self.x, self.y, newSize, Math.cos(angle) * 0.5, false);
}
}
// Check if this bubble is part of twin pair
var twinPair = game.twinBubbles.find(function (pair) {
return pair.bubble1 === self && !pair.popped || pair.bubble2 === self && !pair.popped;
});
if (twinPair) {
// Mark as popped
twinPair.popped = true;
twinPair.timestamp = LK.ticks;
// Find the other bubble in the pair
var otherBubble = twinPair.bubble1 === self ? twinPair.bubble2 : twinPair.bubble1;
// Add bonus for twin pop
var twinLevel = UPGRADE_CONFIG.player.twinBubbles.currentLevel;
var bonusMultiplier = 0.5 + 0.25 * twinLevel; // 50/75/100% bonus
// Pop the other bubble automatically and add bonus points
if (otherBubble.visible) {
var bonusPoints = Math.floor(otherBubble.getBP() * bonusMultiplier);
game.addBP(bonusPoints, otherBubble.x, otherBubble.y, false);
otherBubble.deactivate();
}
}
self.deactivate();
return true;
};
self.getBP = function () {
var baseValue = Math.max(1, Math.floor(Math.pow(self.size, 1.4) * 0.02 * 100));
// Apply Bubble Refinement upgrade
var refinementLevel = UPGRADE_CONFIG.player.bubbleRefinement.currentLevel;
if (refinementLevel > 0) {
baseValue *= 1 + 0.25 * refinementLevel; // +25% per level
}
if (self.fromClam && UPGRADE_CONFIG.machine.bubbleQuality.currentLevel > 0) {
var qualityLevel = UPGRADE_CONFIG.machine.bubbleQuality.currentLevel;
baseValue *= 1 + 0.4 * qualityLevel; // +40% per level
}
// Apply color multiplier
baseValue = Math.floor(baseValue * self.colorMultiplier);
// Apply treasure zone bonus if applicable
baseValue = Math.floor(baseValue * getTreasureBonusMultiplier(self.x, self.y));
return baseValue;
};
self.update = function () {
if (UPGRADE_CONFIG.colors.prismaticBubbles.currentLevel > 0) {
self.colorPhase += 0.02;
var r = Math.sin(self.colorPhase) * 127 + 128;
var g = Math.sin(self.colorPhase + 2) * 127 + 128;
var b = Math.sin(self.colorPhase + 4) * 127 + 128;
var color = (Math.floor(r) << 16) + (Math.floor(g) << 8) + Math.floor(b);
// Update the color value
sprite.tint = color;
self.colorTint = color;
// Make the multiplier oscillate for prismatic
var colorValue = Math.sin(self.colorPhase) * 0.5 + 0.5;
self.colorMultiplier = 0.8 + colorValue * 1.2; // 0.8x to 2.0x
}
// Only increment lifetime if not being actively blown
if (game.growingBubble !== self) {
self.lifetime++;
if (self.lifetime % 60 === 0) {
self.driftX += (Math.random() - 0.5) * 0.8;
}
}
self.x += self.driftX * 1.2;
if (self.lifetime > self.maxLifetime) {
console.log('Bubble dying - lifetime:', self.lifetime, 'maxLifetime:', self.maxLifetime);
if (self.size > 60 && !self.hasSplit) {
self.hasSplit = true;
var newSize = Math.max(self.MIN_SPLIT_SIZE, self.size * 0.6);
for (var i = 0; i < 2; i++) {
var split = spawnBubble(self.x, self.y, newSize, i === 0 ? -1 : 1, true);
if (split) {
split.maxLifetime *= 0.7;
}
}
self.deactivate();
return;
}
self.autoPop();
return;
}
if (self.y < -self.size) {
// Just deactivate, no points
self.visible = false;
var index = game.activeBubbles.indexOf(self);
if (index > -1) {
game.activeBubbles.splice(index, 1);
}
return;
}
self.justSplit = false;
if (self.verticalVelocity < self.floatSpeed) {
self.verticalVelocity += 0.08;
}
self.y -= self.verticalVelocity;
if (Math.abs(self.driftX) > (Math.random() * 20 - 10) / 60) {
self.driftX *= 0.98;
}
self.x += self.driftX;
if (self.x < self.size) {
self.x = self.size;
self.driftX = Math.abs(self.driftX);
} else if (self.x > game.width - self.size) {
self.x = game.width - self.size;
self.driftX = -Math.abs(self.driftX);
}
var scale = self.size / sprite.width;
sprite.scaleX = scale;
sprite.scaleY = scale;
};
self.autoPop = function () {
// Only award points if bubble is on screen
if (!self.autoPopDisplayed && self.y > -self.size) {
var points = Math.floor(self.getBP() * 0.5);
game.addBP(points, self.x, self.y, true);
self.autoPopDisplayed = true;
}
self.deactivate();
return;
};
self.updateColor = function () {
// Check if color upgrades are active
if (UPGRADE_CONFIG.colors.blueBubbles.currentLevel > 0) {
var color = 0xFFFFFF;
var multiplier = 1.0;
if (UPGRADE_CONFIG.colors.prismaticBubbles.currentLevel > 0) {
// Prismatic - constantly shifting color with variable multiplier
self.colorPhase += 0.02;
var colorValue = Math.sin(self.colorPhase) * 0.5 + 0.5; // 0 to 1
multiplier = 0.8 + colorValue * 1.2; // 0.8x to 2.0x
// Generate rainbow color
var r = Math.sin(self.colorPhase) * 127 + 128;
var g = Math.sin(self.colorPhase + 2) * 127 + 128;
var b = Math.sin(self.colorPhase + 4) * 127 + 128;
color = (Math.floor(r) << 16) + (Math.floor(g) << 8) + Math.floor(b);
} else if (UPGRADE_CONFIG.colors.rainbowBubbles.currentLevel > 0) {
// Rainbow - randomly changes color on activation
var colorChoice = Math.floor(Math.random() * 6);
switch (colorChoice) {
case 0:
color = 0xFF0000;
multiplier = 1.5;
break;
// Red
case 1:
color = 0xFFAA00;
multiplier = 1.4;
break;
// Orange
case 2:
color = 0xFFFF00;
multiplier = 1.3;
break;
// Yellow
case 3:
color = 0x00FF00;
multiplier = 1.2;
break;
// Green
case 4:
color = 0x0000FF;
multiplier = 1.1;
break;
// Blue
case 5:
color = 0xFF00FF;
multiplier = 1.6;
break;
// Purple
}
} else if (UPGRADE_CONFIG.colors.pinkBubbles.currentLevel > 0) {
color = 0xFF80C0; // Pink
multiplier = 1.3;
} else if (UPGRADE_CONFIG.colors.greenBubbles.currentLevel > 0) {
color = 0x00FF80; // Green
multiplier = 1.2;
} else {
// Blue bubbles
color = 0x80C0FF; // Blue
multiplier = 1.1;
}
self.colorTint = color;
self.colorMultiplier = multiplier;
// Apply tint to the sprite
sprite.tint = self.colorTint;
}
};
return self;
});
var Fish = Container.expand(function () {
var self = Container.call(this);
var fishTypes = ['redfish', 'bluefish', 'yellowfish'];
var fishType = fishTypes[Math.floor(Math.random() * fishTypes.length)];
// Create fish sprite
var sprite = self.attachAsset(fishType, {
anchorX: 0.5,
anchorY: 0.5
});
// Initialize position and movement
self.fromLeft = Math.random() < 0.5;
self.x = self.fromLeft ? -100 : game.width + 100;
self.y = Math.random() * (game.height * 0.7) + game.height * 0.1;
sprite.scaleX = self.fromLeft ? 1 : -1;
self.speed = 8; // Changed from 4
self.update = function () {
self.x += self.fromLeft ? self.speed : -self.speed;
// Add bubble collision check
game.activeBubbles.forEach(function (bubble) {
if (bubble.visible) {
var dx = self.x - bubble.x;
var dy = self.y - bubble.y;
var distance = Math.sqrt(dx * dx + dy * dy);
if (distance <= bubble.size / 2 + 50) {
// Increased from 30 to 50
// 30px collision radius
var points = bubble.getBP();
game.addBP(points, bubble.x, bubble.y, false); // false = manual pop points
bubble.deactivate();
}
}
});
// Remove when off screen
if (self.fromLeft && self.x > game.width + 100 || !self.fromLeft && self.x < -100) {
self.destroy();
}
};
return self;
});
// Pufferfish mask that follows face
var pufferMask = Container.expand(function () {
var self = Container.call(this);
var sprite = self.attachAsset('pufferfish', {
anchorX: 0.5,
anchorY: 0.5
});
var targetX = 0;
var targetY = 0;
var smoothingFactor = 0.12;
var prevX = null;
var prevY = null;
var targetRotation = 0;
var rotationSmoothingFactor = 0.1;
var targetTilt = 0;
var tiltSmoothingFactor = 0.11; // Reduced from 0.08 for smoother movement
var tiltScaleFactor = 0.09; // Reduced from 0.15 for less tilt
var scaleHistory = new Array(5).fill(0); // Keep last 5 scale values
var scaleIndex = 0;
var baseScale = 1;
var minScale = 0.1;
var maxScale = 3;
self.update = function () {
// Adjust scale based on face size
if (facekit.leftEye && facekit.rightEye && facekit.mouthCenter) {
var eyeDistance = Math.abs(facekit.rightEye.x - facekit.leftEye.x);
var newScale = eyeDistance / 500;
// Update rolling average
scaleHistory[scaleIndex] = newScale;
scaleIndex = (scaleIndex + 1) % scaleHistory.length;
// Calculate average scale
var avgScale = scaleHistory.reduce(function (a, b) {
return a + b;
}, 0) / scaleHistory.length;
// More gentle smoothing
sprite.scaleX = sprite.scaleX * 0.85 + avgScale * 0.15;
sprite.scaleY = sprite.scaleY * 0.85 + avgScale * 0.15;
}
// Follow nose position for main face tracking
if (facekit.noseTip) {
targetX = facekit.noseTip.x;
targetY = facekit.noseTip.y;
// Initialize previous positions if not set
if (prevX === null) {
prevX = targetX;
prevY = targetY;
}
// Weighted average between previous and target position
var newX = prevX * (1 - smoothingFactor) + targetX * smoothingFactor;
var newY = prevY * (1 - smoothingFactor) + targetY * smoothingFactor;
self.x = newX;
self.y = newY;
// Update previous positions
prevX = newX;
prevY = newY;
}
if (facekit.leftEye && facekit.rightEye) {
targetTilt = calculateFaceTilt() * tiltScaleFactor; // Scale down the tilt
// Reduce max rotation to ±15 degrees
targetTilt = Math.max(-15, Math.min(15, targetTilt));
self.rotation += (targetTilt - self.rotation) * tiltSmoothingFactor;
}
};
function calculateFaceTilt() {
if (facekit.leftEye && facekit.rightEye && facekit.mouthCenter) {
// Calculate midpoint between eyes
var eyeMidX = (facekit.leftEye.x + facekit.rightEye.x) / 2;
var eyeMidY = (facekit.leftEye.y + facekit.rightEye.y) / 2;
// Calculate angle between eye midpoint and mouth, negated to fix direction
var dx = facekit.mouthCenter.x - eyeMidX;
var dy = facekit.mouthCenter.y - eyeMidY;
var angle = -(Math.atan2(dx, dy) * (180 / Math.PI));
// Reduced max angle to ±15 degrees and lowered multiplier
return Math.max(-15, Math.min(15, angle * 0.15));
}
return 0; // Default to straight when face points aren't available
}
return self;
});
/****
* Initialize Game
****/
var game = new LK.Game({
backgroundColor: 0x87CEEB // Light blue background to represent the sky
});
/****
* Game Code
****/
function getTreasureBonusMultiplier(x, y) {
if (!game.treasureZones || game.treasureZones.length === 0) {
return 1.0; // No bonus if no treasures
}
// Start with no bonus
var totalBonus = 0;
// Check each treasure zone
game.treasureZones.forEach(function (zone) {
var dx = x - zone.x;
var dy = y - zone.y;
var distance = Math.sqrt(dx * dx + dy * dy);
// If bubble is in zone, add 50% bonus
if (distance <= zone.radius) {
totalBonus += 0.5; // +50% per overlapping zone as specified
}
});
// Return multiplier (1.0 = no bonus, 1.5 = one zone, 2.0 = two zones, etc.)
return 1.0 + totalBonus;
}
// Function to update treasure decorations
function updateTreasureDecorations() {
// Clear existing treasures
while (treasureContainer.children.length) {
treasureContainer.children[0].destroy();
}
// Clear zone tracking
game.treasureZones = [];
var treasureCount = UPGRADE_CONFIG.decorations.sunkenTreasures.amount;
if (treasureCount <= 0) {
return;
}
// Available treasure types
var treasureTypes = ['treasure1', 'treasure2', 'treasure3'];
// Position treasures at specific spots in the bottom half of screen
var positions = [
// Left side
{
x: game.width * 0.25,
y: game.height * 0.65
},
// Right side
{
x: game.width * 0.75,
y: game.height * 0.65
},
// Middle bottom
{
x: game.width * 0.5,
y: game.height * 0.8
}];
// Place treasures at predetermined spots
for (var i = 0; i < treasureCount; i++) {
// Don't exceed available positions
if (i >= positions.length) {
break;
}
// Choose treasure type based on position
var treasureType = treasureTypes[i % treasureTypes.length];
var pos = positions[i];
// Create circular zone indicator
var zoneRadius = game.width * 0.15;
var zoneIndicator = LK.getAsset('blower', {
width: zoneRadius * 2,
height: zoneRadius * 2,
shape: 'circle',
// Specify circle shape
color: 0xFFFFFF,
alpha: 0.15,
anchorX: 0.5,
anchorY: 0.5,
x: pos.x,
y: pos.y
});
// Add zone to tracking for bonus calculation
game.treasureZones.push({
id: 'treasure_' + i,
x: pos.x,
y: pos.y,
radius: zoneRadius
});
// Create treasure sprite on top of zone
var treasure = LK.getAsset(treasureType, {
anchorX: 0.5,
anchorY: 0.5,
x: pos.x,
y: pos.y,
scaleX: 1.8,
scaleY: 1.8,
alpha: 0.9
});
// Add zone first (so it's behind treasure)
treasureContainer.addChild(zoneIndicator);
treasureContainer.addChild(treasure);
}
}
function updateCoralBubbles() {
if (UPGRADE_CONFIG.decorations.bubbleCoral.amount <= 0) {
return;
}
coralContainer.children.forEach(function (coral) {
// 5% chance per second to spawn bubble (0.083% per frame at 60fps)
if (Math.random() < 0.00083 || LK.ticks - coral.lastBubbleTime > 600) {
// Force spawn after 10 seconds
coral.lastBubbleTime = LK.ticks;
// Calculate bubble size based on player's max size
var bubbleSize = game.maxBubbleSize * (0.5 + Math.random() * 0.3);
// Spawn position slightly above coral
var bubbleX = coral.x + (Math.random() * 30 - 15);
var bubbleY = coral.y - coral.height * 0.3;
var bubble = spawnBubble(bubbleX, bubbleY, bubbleSize, 0, false);
if (bubble) {
// Set moderate upward velocity
bubble.verticalVelocity = -(2 + Math.random() * 3);
bubble.driftX = Math.random() * 2 - 1;
}
}
});
}
function updateCoralDecorations() {
// Clear existing corals
while (coralContainer.children.length) {
coralContainer.children[0].destroy();
}
// Position corals along bottom of screen
var coralCount = UPGRADE_CONFIG.decorations.bubbleCoral.amount;
if (coralCount <= 0) {
return;
}
// Available coral types
var coralTypes = ['coral1', 'coral2', 'coral3', 'coral4'];
// Space corals evenly along bottom
var spacing = game.width / (coralCount + 1);
for (var i = 0; i < coralCount; i++) {
// Choose random coral type
var coralType = coralTypes[Math.floor(Math.random() * coralTypes.length)];
// Create coral sprite
var coral = LK.getAsset(coralType, {
anchorX: 0.5,
anchorY: 1,
x: spacing * (i + 1),
y: game.height - 20,
// Slightly above bottom
scaleX: 1.5 + Math.random() * 0.5,
scaleY: 1.5 + Math.random() * 0.5
});
// Store last bubble spawn time
coral.lastBubbleTime = 0;
coralContainer.addChild(coral);
}
}
function refreshUpgradeTab(tabName) {
// Clear all children from the tab container
while (tabContainers[tabName].children.length > 0) {
tabContainers[tabName].children[0].destroy();
}
// Recreate all upgrades for the tab
if (tabColumns[tabName] && tabColumns[tabName].left) {
tabColumns[tabName].left.forEach(function (upgrade, index) {
createUpgradeText(upgrade[0], upgrade[1], index, true, tabName);
});
}
if (tabColumns[tabName] && tabColumns[tabName].right) {
tabColumns[tabName].right.forEach(function (upgrade, index) {
createUpgradeText(upgrade[0], upgrade[1], index, false, tabName);
});
}
}
game.twinBubbles = [];
game.treasureZones = [];
// Define column assignments for each tab
var tabColumns = {
bubbles: {
left: [['player', 'lungCapacity'], ['player', 'quickBreath'], ['player', 'bubbleRefinement'], ['player', 'twinBubbles']],
right: [['player', 'autoPop'], ['player', 'sizeVariance'], ['player', 'bubbleBreath']]
},
clams: {
left: [['machines', 'basicClam'], ['machines', 'advancedClam'], ['machines', 'premiumClam']],
right: [['machine', 'bubbleDurability'], ['machine', 'autoBubbleSpeed'], ['machine', 'bubbleQuality']]
},
colors: {
left: [['colors', 'blueBubbles'], ['colors', 'greenBubbles'], ['colors', 'pinkBubbles']],
right: [['colors', 'rainbowBubbles'], ['colors', 'prismaticBubbles']]
},
decorations: {
left: [['decorations', 'bubbleCoral']],
right: [['decorations', 'sunkenTreasures']]
}
};
var UPGRADE_EFFECTS = {
lungCapacity: {
baseValue: 160,
// Base max bubble size
incrementPercent: 25 // +25% per level
},
quickBreath: {
baseValue: 1.6,
// Base growth rate
incrementPercent: 25 // +25% per level
},
autoBubbleSpeed: {
decrementPercent: 10 // -10% production time per level
},
bubbleDurability: {
extraSplits: 1 // +1 split per level
},
autoPop: {
timeReduction: 0.8 // Reduces lifetime by 20% per level
}
};
function _slicedToArray3(r, e) {
return _arrayWithHoles3(r) || _iterableToArrayLimit3(r, e) || _unsupportedIterableToArray3(r, e) || _nonIterableRest3();
}
function _nonIterableRest3() {
throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _unsupportedIterableToArray3(r, a) {
if (r) {
if ("string" == typeof r) {
return _arrayLikeToArray3(r, a);
}
var t = {}.toString.call(r).slice(8, -1);
return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray3(r, a) : void 0;
}
}
function _arrayLikeToArray3(r, a) {
(null == a || a > r.length) && (a = r.length);
for (var e = 0, n = Array(a); e < a; e++) {
n[e] = r[e];
}
return n;
}
function _iterableToArrayLimit3(r, l) {
var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
if (null != t) {
var e,
n,
i,
u,
a = [],
f = !0,
o = !1;
try {
if (i = (t = t.call(r)).next, 0 === l) {
if (Object(t) !== t) {
return;
}
f = !1;
} else {
for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
;
}
}
} catch (r) {
o = !0, n = r;
} finally {
try {
if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
return;
}
} finally {
if (o) {
throw n;
}
}
}
return a;
}
}
function _arrayWithHoles3(r) {
if (Array.isArray(r)) {
return r;
}
}
function getUpgradeCost(upgrade) {
if (upgrade.amount !== undefined) {
// For clams
return Math.floor(upgrade.baseCost * Math.pow(upgrade.costScale, upgrade.amount));
} else {
// For regular upgrades
return Math.floor(upgrade.baseCost * Math.pow(upgrade.costScale, upgrade.currentLevel));
}
}
function _slicedToArray2(r, e) {
return _arrayWithHoles2(r) || _iterableToArrayLimit2(r, e) || _unsupportedIterableToArray2(r, e) || _nonIterableRest2();
}
function _nonIterableRest2() {
throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _unsupportedIterableToArray2(r, a) {
if (r) {
if ("string" == typeof r) {
return _arrayLikeToArray2(r, a);
}
var t = {}.toString.call(r).slice(8, -1);
return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray2(r, a) : void 0;
}
}
function _arrayLikeToArray2(r, a) {
(null == a || a > r.length) && (a = r.length);
for (var e = 0, n = Array(a); e < a; e++) {
n[e] = r[e];
}
return n;
}
function _iterableToArrayLimit2(r, l) {
var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
if (null != t) {
var e,
n,
i,
u,
a = [],
f = !0,
o = !1;
try {
if (i = (t = t.call(r)).next, 0 === l) {
if (Object(t) !== t) {
return;
}
f = !1;
} else {
for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
;
}
}
} catch (r) {
o = !0, n = r;
} finally {
try {
if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
return;
}
} finally {
if (o) {
throw n;
}
}
}
return a;
}
}
function _arrayWithHoles2(r) {
if (Array.isArray(r)) {
return r;
}
}
function updateClams() {
if (!game.clamSpawnPoints) {
return;
}
game.clamSpawnPoints.forEach(function (spawnPoint) {
var config = UPGRADE_CONFIG.machines[spawnPoint.type];
// Calculate production time with speed upgrade
var baseTime = config.production * 150; // Convert to frames and further increase base time
var speedMultiplier = Math.pow(1 - UPGRADE_EFFECTS.autoBubbleSpeed.decrementPercent / 100, UPGRADE_CONFIG.machine.autoBubbleSpeed.currentLevel);
var adjustedTime = Math.max(1, Math.floor(baseTime * speedMultiplier));
var qualityLevel = UPGRADE_CONFIG.machine.bubbleQuality.currentLevel;
if (qualityLevel > 0) {
// -10% production rate per level
adjustedTime = Math.floor(adjustedTime * (1 + 0.1 * qualityLevel));
}
if (LK.ticks % adjustedTime === 0) {
// Find first available bubble in pool
var bubble = game.bubblePool.find(function (b) {
return !b.visible;
});
if (bubble && game.activeBubbles.length < game.MAX_BUBBLES) {
bubble.activate(spawnPoint.x, spawnPoint.y, config.bubbleSize, false // not player blown
);
bubble.fromClam = true;
if (UPGRADE_CONFIG.player.sizeVariance.currentLevel > 0) {
var variance = UPGRADE_CONFIG.player.sizeVariance.currentLevel;
var minIncrease = 0.1 * variance; // +10% per level to min size
var maxIncrease = 0.15 * variance; // +15% per level to max size
// Apply size variance
var sizeMultiplier = 1 - minIncrease + Math.random() * (minIncrease + maxIncrease);
bubble.size *= sizeMultiplier;
}
// Set initial velocities for clam bubbles
bubble.verticalVelocity = 0;
bubble.driftX = (spawnPoint.isRight ? -1 : 1) * (Math.random() * 1.5 + 2);
game.activeBubbles.push(bubble);
}
}
});
}
function _slicedToArray(r, e) {
return _arrayWithHoles(r) || _iterableToArrayLimit(r, e) || _unsupportedIterableToArray(r, e) || _nonIterableRest();
}
function _nonIterableRest() {
throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _unsupportedIterableToArray(r, a) {
if (r) {
if ("string" == typeof r) {
return _arrayLikeToArray(r, a);
}
var t = {}.toString.call(r).slice(8, -1);
return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray(r, a) : void 0;
}
}
function _arrayLikeToArray(r, a) {
(null == a || a > r.length) && (a = r.length);
for (var e = 0, n = Array(a); e < a; e++) {
n[e] = r[e];
}
return n;
}
function _iterableToArrayLimit(r, l) {
var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
if (null != t) {
var e,
n,
i,
u,
a = [],
f = !0,
o = !1;
try {
if (i = (t = t.call(r)).next, 0 === l) {
if (Object(t) !== t) {
return;
}
f = !1;
} else {
for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
;
}
}
} catch (r) {
o = !0, n = r;
} finally {
try {
if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
return;
}
} finally {
if (o) {
throw n;
}
}
}
return a;
}
}
function _arrayWithHoles(r) {
if (Array.isArray(r)) {
return r;
}
}
var background = LK.getAsset('background', {
anchorX: 0.5,
anchorY: 0.5,
x: game.width / 2,
y: game.height / 2
});
game.addChild(background);
// Add coral container here
var coralContainer = new Container();
game.addChild(coralContainer);
// Reposition in display list
game.setChildIndex(coralContainer, 1);
var treasureContainer = new Container();
// Add after coralContainer but before clams for proper layering
game.addChild(treasureContainer);
game.setChildIndex(treasureContainer, 2);
var clamContainer = new Container();
game.addChild(clamContainer);
var playerMask = new pufferMask();
game.addChild(playerMask);
var UPGRADE_CONFIG = {
player: {
lungCapacity: {
name: "Lung Capacity",
baseCost: 100,
// About 1-2 max bubbles
costScale: 3.0,
// Steeper scaling
maxLevel: 10,
currentLevel: 0
},
quickBreath: {
name: "Quick Breath",
baseCost: 100,
// 2-3 max bubbles
costScale: 3.0,
// Steeper scaling
maxLevel: 10,
currentLevel: 0
},
autoPop: {
// Moved here from machine section
name: "Fish Friends",
// Updated name
baseCost: 400,
// Changed from 1000
costScale: 3,
maxLevel: 6,
// Changed from 5
currentLevel: 0
},
bubbleRefinement: {
// New upgrade
name: "Bubble Refinement",
baseCost: 2500,
costScale: 2.5,
maxLevel: 5,
currentLevel: 0
},
twinBubbles: {
// New upgrade
name: "Twin Bubbles",
baseCost: 5000,
costScale: 2.3,
maxLevel: 3,
currentLevel: 0
},
sizeVariance: {
// New upgrade
name: "Size Variance",
baseCost: 4000,
costScale: 1.8,
maxLevel: 5,
currentLevel: 0
},
bubbleBreath: {
// New upgrade
name: "Bubble Breath",
baseCost: 12000,
costScale: 2.2,
maxLevel: 4,
currentLevel: 0
}
},
machines: {
basicClam: {
name: "Basic Clam",
baseCost: 300,
// 6-7 max bubbles
costScale: 2,
// Slightly steeper scaling
amount: 0,
production: 3,
bubbleSize: 80
},
advancedClam: {
name: "Advanced Clam",
baseCost: 3000,
// Requires running basic clams for a while
costScale: 3.0,
amount: 0,
production: 2,
bubbleSize: 100,
unlockCost: 3000
},
premiumClam: {
name: "Premium Clam",
baseCost: 20000,
// True end-game content
costScale: 3,
amount: 0,
production: 1,
bubbleSize: 150,
unlockCost: 20000
}
},
machine: {
bubbleDurability: {
name: "Bubble Splitting",
baseCost: 500,
costScale: 5,
// Significant scaling
maxLevel: 3,
currentLevel: 0
},
autoBubbleSpeed: {
name: "Clam Speed",
baseCost: 500,
costScale: 3.5,
maxLevel: 8,
currentLevel: 0
},
bubbleQuality: {
// New upgrade
name: "Bubble Quality",
baseCost: 3000,
costScale: 2.2,
maxLevel: 5,
currentLevel: 0
}
},
colors: {
// New section
blueBubbles: {
name: "Blue Bubbles",
baseCost: 1000,
costScale: 1.0,
// Only one level
maxLevel: 1,
currentLevel: 0
},
greenBubbles: {
name: "Green Bubbles",
baseCost: 3000,
costScale: 1.0,
// Only one level
maxLevel: 1,
currentLevel: 0,
requires: "blueBubbles"
},
pinkBubbles: {
name: "Pink Bubbles",
baseCost: 6000,
costScale: 1.0,
// Only one level
maxLevel: 1,
currentLevel: 0,
requires: "greenBubbles"
},
rainbowBubbles: {
name: "Rainbow Bubbles",
baseCost: 15000,
costScale: 1.0,
// Only one level
maxLevel: 1,
currentLevel: 0,
requires: "pinkBubbles"
},
prismaticBubbles: {
name: "Prismatic Bubbles",
baseCost: 30000,
costScale: 1.0,
// Only one level
maxLevel: 1,
currentLevel: 0,
requires: "rainbowBubbles"
}
},
decorations: {
// New section
bubbleCoral: {
name: "Bubble Coral",
baseCost: 10000,
costScale: 2.0,
amount: 0,
maxAmount: 5
},
sunkenTreasures: {
name: "Sunken Treasures",
baseCost: 25000,
costScale: 2.5,
amount: 0,
maxAmount: 3
}
}
};
game.showError = function (message) {
var errorText = new Text2(message, {
size: 120,
fill: 0xFF0000,
stroke: 0x000000,
strokeThickness: 5,
font: "Impact"
});
// Set the anchor point to center the text
errorText.anchor = {
x: 0.5,
y: 0.5
};
// Position at the center of the screen
errorText.x = game.width / 2;
errorText.y = game.height / 2;
game.addChild(errorText);
// Animate the text
tween(errorText, {
alpha: 0,
y: errorText.y - 50
}, {
duration: 1200,
onFinish: function onFinish() {
errorText.destroy();
}
});
};
var currentTab = 'bubbles'; // Default tab
var menuTabs = ['bubbles', 'clams', 'colors', 'decorations'];
var tabButtons = {}; // Will hold references to tab buttons
// Create upgrade menu elements
// Menu tab (handle)
// First position the panel relative to container at y=0
// Menu panel should be below the tab in the container
var menuTab = LK.getAsset('upgradetab', {
anchorX: 0.5,
anchorY: 1,
// Change to bottom anchor
y: 0,
// Will be at container's position
scaleX: 3,
scaleY: 0.8,
alpha: 0.9
});
var menuPanel = LK.getAsset('upgradetab', {
anchorX: 0.5,
anchorY: 0,
y: -570,
alpha: 0.9,
scaleX: 2048 / 200,
// Use the width of the asset directly
scaleY: game.height * 0.4 / 100.3
});
// Initialize menu structure
// Initialize menu container at the right position
var menuContainer = new Container();
menuContainer.x = game.width / 2;
menuContainer.y = game.height; // Position at bottom
var menuPanel = LK.getAsset('upgradetab', {
anchorX: 0.5,
anchorY: 0,
y: -570,
alpha: 0.9,
scaleX: 2048 / 200,
scaleY: game.height * 0.4 / 100.3
});
var menuTab = LK.getAsset('upgradetab', {
anchorX: 0.5,
anchorY: 1,
y: 0,
scaleX: 3,
scaleY: 0.8,
alpha: 0.9
});
// Add panel first (so it's behind tab)
menuContainer.addChild(menuPanel);
menuContainer.addChild(menuTab);
// Menu text setup - should be good as is
var menuText = new Text2("Upgrades", {
size: 90,
fill: 0xFFFFFF,
stroke: 0x000000,
strokeThickness: 3,
font: "Impact"
});
menuText.anchor = {
x: 0.5,
y: 0.5
};
menuText.x = 0; // Relative to container
menuText.y = -menuTab.height / 2; // Position relative to container bottom
menuContainer.addChild(menuText);
// Add to game
game.addChild(menuContainer);
// Add this after the menuPanel is created but before upgradeTexts are created
// Create text container AFTER panel scaling
var menuTextContainer = new Container();
menuContainer.addChild(menuTextContainer);
var tabContainers = {};
menuTabs.forEach(function (tab) {
var contentContainer = new Container();
contentContainer.visible = tab === currentTab;
tabContainers[tab] = contentContainer;
menuTextContainer.addChild(contentContainer);
});
// Create text container AFTER panel scaling
var menuTextContainer = new Container();
menuContainer.addChild(menuTextContainer);
// Create tab container (only visible when menu is open)
var tabsContainer = new Container();
// Position tabsContainer at the bottom of the panel
tabsContainer.x = menuPanel.width * menuPanel.scaleX / 2 - 850; // Center horizontally
tabsContainer.y = 0;
menuContainer.addChild(tabsContainer);
// Define tab dimensions
var tabWidth = menuPanel.width * 0.8 * menuPanel.scaleX / menuTabs.length;
var tabHeight = 120;
// Create tabs
menuTabs.forEach(function (tab, index) {
// Create tab button
var tabButton = LK.getAsset('upgradetab', {
anchorX: 0.5,
anchorY: 0,
// Anchor to top
// Position evenly across panel width
x: -menuPanel.width * menuPanel.scaleX / 2 + (index + 0.5) * tabWidth,
y: 0,
// Start at the container's position
scaleX: tabWidth / 200,
scaleY: tabHeight / 299,
// Updated for new height
alpha: tab === currentTab ? 1.0 : 0.7
});
// Add hit detection to the tab button
tabButton.down = function () {
// Only do something if this isn't already the current tab
if (tab !== currentTab) {
// Update tab appearance
Object.keys(tabButtons).forEach(function (t) {
if (tabButtons[t]) {
tabButtons[t].alpha = t === tab ? 1.0 : 0.7;
}
});
// Hide current tab content, show new tab content
if (tabContainers[currentTab]) {
tabContainers[currentTab].visible = false;
}
if (tabContainers[tab]) {
tabContainers[tab].visible = true;
}
// Update current tab
currentTab = tab;
}
// Return true to indicate the event was handled
return true;
};
// Store reference to the button
tabButtons[tab] = tabButton;
// Add text to tab
var tabText = new Text2(tab.charAt(0).toUpperCase() + tab.slice(1), {
// Capitalize first letter
size: 80,
// Increased from 50
fill: 0xFFFFFF,
stroke: 0x000000,
strokeThickness: 3,
// Slightly thicker for larger text
font: "Impact"
});
tabText.anchor = {
x: 0.5,
y: 0.5
};
tabText.x = tabButton.x;
tabText.y = tabHeight / 2;
// Add to container
tabsContainer.addChild(tabButton);
tabsContainer.addChild(tabText);
});
// Function to switch between tabs
function switchTab(newTab) {
// Hide old tab content, show new tab content
tabContainers[currentTab].visible = false;
tabContainers[newTab].visible = true;
// Update tab button appearance
tabButtons[currentTab].alpha = 0.7;
tabButtons[newTab].alpha = 1.0;
currentTab = newTab;
}
// Add upgrade texts to text container instead of panel
var upgradeTexts = [];
var startY = 150;
var upgradeSpacing = 250;
var columnWidth = 1024;
// Create arrays to hold upgrade categories in desired order
var leftColumnUpgrades = [['player', 'lungCapacity'], ['player', 'quickBreath'], ['player', 'autoPop']];
var rightColumnUpgrades = [['machines', 'basicClam'], ['machines', 'advancedClam'], ['machines', 'premiumClam'], ['machine', 'bubbleDurability'], ['machine', 'autoBubbleSpeed']];
// Function to determine which tab an upgrade belongs to
function getTabForUpgrade(category, key) {
if (category === 'player') {
return 'bubbles';
}
if (category === 'machines' || category === 'machine') {
return 'clams';
}
if (category === 'colors') {
return 'colors';
}
if (category === 'decorations') {
return 'decorations';
}
return 'bubbles'; // Default
}
// Function to create upgrade text
function createUpgradeText(category, key, index, isLeftColumn, tab) {
var upgrade = UPGRADE_CONFIG[category][key];
if (!upgrade) {
return;
} // Skip if upgrade doesn't exist
var xOffset = isLeftColumn ? -750 : 200; // Changed from -550 and 100
var yPos = startY + index * upgradeSpacing + 120; // Added 120 to move everything down
// Create hit container
var hitContainer = new Container();
var hitArea = LK.getAsset('blower', {
width: 400,
height: 150,
color: 0xFFFFFF,
alpha: 0.0
});
hitContainer.addChild(hitArea);
hitContainer.x = xOffset;
hitContainer.y = yPos;
hitArea.x = 0;
hitArea.y = -40;
// Create name text
var nameText = new Text2(upgrade.name, {
size: 96,
fill: 0xFFFFFF,
stroke: 0x000000,
strokeThickness: 2,
font: "Impact"
});
nameText.x = xOffset;
nameText.y = yPos;
// Create cost text
var cost = getUpgradeCost(upgrade);
var costText;
if (category === 'colors' && upgrade.currentLevel >= upgrade.maxLevel) {
// Create "SOLD OUT" text for maxed out color upgrades
costText = new Text2("SOLD OUT", {
size: 96,
fill: 0x888888,
// Gray color
stroke: 0x000000,
strokeThickness: 2,
font: "Impact"
});
} else if (category === 'colors' && upgrade.requires) {
var required = UPGRADE_CONFIG.colors[upgrade.requires];
if (required && required.currentLevel === 0) {
// Create "LOCKED" text for locked upgrades
costText = new Text2("LOCKED", {
size: 96,
fill: 0x888888,
// Gray color
stroke: 0x000000,
strokeThickness: 2,
font: "Impact"
});
} else {
// Normal cost text
costText = new Text2(cost + " BP", {
size: 96,
fill: 0xFFFF00,
stroke: 0x000000,
strokeThickness: 2,
font: "Impact"
});
}
} else {
// Normal cost text for non-color upgrades
costText = new Text2(cost + " BP", {
size: 96,
fill: 0xFFFF00,
stroke: 0x000000,
strokeThickness: 2,
font: "Impact"
});
}
costText.x = xOffset;
costText.y = yPos + 100;
// Add click handler
hitContainer.down = function () {
var cost = getUpgradeCost(upgrade);
// Check if this is a locked color upgrade
if (category === 'colors' && upgrade.requires) {
var required = UPGRADE_CONFIG.colors[upgrade.requires];
if (required && required.currentLevel === 0) {
game.showError("Unlock " + required.name + " first!");
return true;
}
}
if (game.bp >= cost) {
if (upgrade.amount !== undefined) {
// For clams and decorations with amount
if (upgrade.amount < (upgrade.maxAmount || 999)) {
upgrade.amount++;
game.bp -= cost;
bpText.setText(formatBP(game.bp) + " BP");
costText.setText(getUpgradeCost(upgrade) + " BP");
// Update clam visuals if needed
if (category === 'machines') {
updateClamVisuals();
}
// Update decoration visuals if implemented
if (category === 'decorations') {
if (key === 'bubbleCoral') {
updateCoralDecorations();
} else if (key === 'sunkenTreasures') {
updateTreasureDecorations();
}
// Future decoration handlers would go here
}
}
} else if (upgrade.currentLevel < upgrade.maxLevel) {
// For regular upgrades with levels
upgrade.currentLevel++;
game.bp -= cost;
bpText.setText(formatBP(game.bp) + " BP");
// If this is a color upgrade, update the UI to reflect dependency status
if (category === 'colors') {
upgrade.currentLevel++;
game.bp -= cost;
bpText.setText(formatBP(game.bp) + " BP");
refreshUpgradeTab('colors');
return true;
}
// Update cost text
if (upgrade.currentLevel >= upgrade.maxLevel) {
costText.setText("SOLD OUT");
} else {
costText.setText(getUpgradeCost(upgrade) + " BP");
}
// Handle specific upgrade effects
if (category === 'player') {
if (key === 'lungCapacity') {
var baseSize = UPGRADE_EFFECTS.lungCapacity.baseValue;
var increasePercent = UPGRADE_EFFECTS.lungCapacity.incrementPercent;
var multiplier = 1 + increasePercent / 100 * upgrade.currentLevel;
game.maxBubbleSize = baseSize * multiplier;
} else if (key === 'quickBreath') {
game.growthRate = UPGRADE_EFFECTS.quickBreath.baseValue * (1 + UPGRADE_EFFECTS.quickBreath.incrementPercent / 100 * upgrade.currentLevel);
}
// Other upgrade effects will be implemented later
}
}
} else {
game.showError("Not enough BP!");
}
return true;
};
// Add elements to the appropriate tab container
tabContainers[tab].addChild(hitContainer);
tabContainers[tab].addChild(nameText);
tabContainers[tab].addChild(costText);
}
// Replace the existing code for creating upgrade texts with this:
Object.keys(tabContainers).forEach(function (tab) {
// Clear any existing content
while (tabContainers[tab].children.length > 0) {
tabContainers[tab].children[0].destroy();
}
// Create left column for this tab
if (tabColumns[tab] && tabColumns[tab].left) {
tabColumns[tab].left.forEach(function (upgrade, index) {
createUpgradeText(upgrade[0], upgrade[1], index, true, tab);
});
}
// Create right column for this tab
if (tabColumns[tab] && tabColumns[tab].right) {
tabColumns[tab].right.forEach(function (upgrade, index) {
createUpgradeText(upgrade[0], upgrade[1], index, false, tab);
});
}
});
// Move the entire text container down by adjusting its Y position
menuTextContainer.y = 0; // This should align it with the top of the panel instead of being above it
menuTextContainer.x = 0; // Center in panel
// Menu state and animation
var menuOpen = false;
var menuTargetY = game.height;
function updateClamVisuals() {
while (clamContainer.children.length) {
clamContainer.children[0].destroy();
}
var leftStart = game.width * 0.1; // Moved further left from 0.15
var rightStart = game.width * 0.9; // Moved further right from 0.85
var spacing = 250; // Increased from 150
var y = game.height - 100;
// We'll store type of each clam position (0-3)
var clamTypes = [];
// Fill with basic clams first
for (var i = 0; i < UPGRADE_CONFIG.machines.basicClam.amount; i++) {
clamTypes.push('basicClam');
}
// Replace some with advanced
for (var i = 0; i < UPGRADE_CONFIG.machines.advancedClam.amount; i++) {
if (clamTypes[i]) {
clamTypes[i] = 'advancedClam';
}
}
// Replace some with premium
for (var i = 0; i < UPGRADE_CONFIG.machines.premiumClam.amount; i++) {
if (clamTypes[i]) {
clamTypes[i] = 'premiumClam';
}
}
// Place clams
game.clamSpawnPoints = [];
clamTypes.forEach(function (type, i) {
var isRight = i % 2 === 1;
var baseX = isRight ? rightStart : leftStart;
var direction = isRight ? -1 : 1;
var position = Math.floor(i / 2);
var x = baseX + direction * position * spacing;
var sprite = LK.getAsset(type, {
anchorX: 0.5,
anchorY: 1,
x: x,
y: y,
scaleX: isRight ? -0.5 : 0.5,
// Flip right-side clams
scaleY: 0.5
});
// Store spawn point for this clam
game.clamSpawnPoints.push({
x: x + (isRight ? -75 : 75),
// 25% from edge
y: y - 50,
// Slightly above clam
type: type,
isRight: isRight
});
clamContainer.addChild(sprite);
});
}
updateClamVisuals();
updateCoralDecorations();
updateTreasureDecorations();
// Add this to the end of the game initialization code, after updating the clam visuals
function updateAllUpgradeTexts() {
// Process left column upgrades
leftColumnUpgrades.forEach(function (upgrade) {
var category = upgrade[0];
var key = upgrade[1];
var upgradeConfig = UPGRADE_CONFIG[category][key];
// Find the cost text for this upgrade
Object.values(tabContainers).forEach(function (tabContainer) {
tabContainer.children.forEach(function (child) {
if (child.text && child.text.includes("BP") && child.y > tabContainer.children.find(function (c) {
return c.text === upgradeConfig.name;
}).y) {
// Check if max level reached
if (upgradeConfig.currentLevel >= upgradeConfig.maxLevel) {
child.setText("SOLD OUT");
}
}
});
});
});
// Process right column upgrades
rightColumnUpgrades.forEach(function (upgrade) {
var category = upgrade[0];
var key = upgrade[1];
if (category === 'machines') {
var upgradeConfig = UPGRADE_CONFIG[category][key];
var totalClams = UPGRADE_CONFIG.machines.basicClam.amount + UPGRADE_CONFIG.machines.advancedClam.amount + UPGRADE_CONFIG.machines.premiumClam.amount;
// Find the cost text for this upgrade
Object.values(tabContainers).forEach(function (tabContainer) {
tabContainer.children.forEach(function (child) {
if (child.text && child.text.includes("BP") && child.y > tabContainer.children.find(function (c) {
return c.text === upgradeConfig.name;
}).y) {
// Check if sold out based on clam logic
if (totalClams >= 4 && key === 'basicClam' || UPGRADE_CONFIG.machines.basicClam.amount <= UPGRADE_CONFIG.machines.advancedClam.amount && key === 'advancedClam' || UPGRADE_CONFIG.machines.advancedClam.amount <= UPGRADE_CONFIG.machines.premiumClam.amount && key === 'premiumClam') {
child.setText("SOLD OUT");
}
}
});
});
} else if (category === 'machine') {
var upgradeConfig = UPGRADE_CONFIG[category][key];
// Find the cost text for this upgrade
Object.values(tabContainers).forEach(function (tabContainer) {
tabContainer.children.forEach(function (child) {
if (child.text && child.text.includes("BP") && child.y > tabContainer.children.find(function (c) {
return c.text === upgradeConfig.name;
}).y) {
// Check if max level reached
if (upgradeConfig.currentLevel >= upgradeConfig.maxLevel) {
child.setText("SOLD OUT");
}
}
});
});
}
});
}
// Call the function after creating all upgrades
updateAllUpgradeTexts();
// Initialize game variables
game.growingBubble = null;
game.lastMouthState = false; // Track previous mouth state
game.mouthOpenDuration = 0; // Track how long mouth has been open
game.MOUTH_OPEN_THRESHOLD = 10; // Frames required with mouth open to start bubble
game.MIN_SPAWN_SIZE = 25; // Minimum initial bubble size
game.blowCooldown = 0; // Cooldown timer between bubble starts
game.BLOW_COOLDOWN_TIME = 15; // Frames to wait between new bubbles
game.maxBubbleSize = 120; // Increased by 30%
game.growthRate = UPGRADE_EFFECTS.quickBreath.baseValue * (1 + UPGRADE_EFFECTS.quickBreath.incrementPercent / 100 * UPGRADE_CONFIG.player.quickBreath.currentLevel);
game.bubblePool = Array(250).fill(null).map(function () {
return new Bubble();
});
game.activeBubbles = [];
game.MAX_BUBBLES = 200; // Active bubble limit
game.bubblePool.forEach(function (bubble) {
game.addChild(bubble);
});
game.baseSpawnRate = 180; // Every 3 seconds
function spawnBubble(x, y, size) {
var direction = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : 0;
var isAutoPop = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : false;
if (game.activeBubbles.length >= game.MAX_BUBBLES) {
return null;
}
// Find first available bubble in pool
var bubble = game.bubblePool.find(function (b) {
return !b.visible;
});
if (!bubble) {
return null;
}
bubble.activate(x, y, size);
if (isAutoPop) {
bubble.verticalVelocity = bubble.floatSpeed;
bubble.driftX = direction * (Math.random() * 0.8 + 0.5);
} else {
bubble.verticalVelocity = -(Math.random() * 2 + 4);
bubble.driftX = direction * (Math.random() * 1.5 + 2);
}
game.activeBubbles.push(bubble);
return bubble;
}
// Initialize game variables
//<Assets used in the game will automatically appear here>
game.bp = 0; // Track total BP
game.combo = 0;
game.lastPopTime = 0;
game.COMBO_WINDOW = 60; // 1 second in frames
function formatBP(value) {
var units = ['', 'K', 'M', 'B', 'T'];
var unitIndex = 0;
while (value >= 1000 && unitIndex < units.length - 1) {
value /= 1000;
unitIndex++;
}
return Math.floor(value * 10) / 10 + units[unitIndex];
}
// Create BP display text (add near game initialization)
var bpText = new Text2("0 BP", {
size: 120,
fill: 0xFFFFFF,
stroke: 0x33caf8,
strokeThickness: 4,
font: "Impact",
fontWeight: "bold"
});
bpText.anchor.set(1, 0);
bpText.x = game.width - 20;
bpText.y = 20;
game.addChild(bpText);
game.addBP = function (points, x, y, isAutoPop) {
var currentTime = LK.ticks;
// Only update combo if it's not an auto-pop
if (!isAutoPop) {
if (currentTime - game.lastPopTime < game.COMBO_WINDOW) {
game.combo++;
points *= 1 + game.combo * 0.1; // 10% bonus per combo
} else {
game.combo = 0;
}
game.lastPopTime = currentTime;
}
// Ensure points is at least 1
points = Math.max(1, Math.floor(points));
game.bp += points;
bpText.setText(formatBP(game.bp) + " BP");
// Set size and color based on point value
var textSize = 96;
var textColor = 0xFFFF00; // Default yellow
if (points > 100) {
textSize = 120;
textColor = 0xFF0000; // Red for >100
} else if (points > 50) {
textSize = 108;
textColor = 0xFFA500; // Orange for 51-100
}
// Always show point text regardless of auto or manual pop
var pointText = new Text2("+" + points, {
size: textSize,
fill: textColor,
font: "Impact",
fontWeight: 'bold'
});
pointText.anchorX = 0.5;
pointText.anchorY = 0.5;
pointText.x = x;
pointText.y = y;
game.addChild(pointText);
tween(pointText, {
y: pointText.y - 100,
alpha: 0
}, {
duration: 1200,
onFinish: function onFinish() {
pointText.destroy();
}
});
// Only show combo text if it's a manual pop and we have a combo
if (!isAutoPop && game.combo > 0) {
var comboText = new Text2("x" + (game.combo + 1), {
size: 96,
fill: 0xFFA500,
stroke: 0x000000,
strokeThickness: 4,
fontWeight: 'bold'
});
comboText.anchorX = 0.5;
comboText.anchorY = 0;
comboText.x = game.width / 2;
comboText.y = 20;
game.addChild(comboText);
tween(comboText, {
alpha: 0
}, {
duration: 500,
onFinish: function onFinish() {
comboText.destroy();
}
});
}
};
game.update = function () {
updateCoralBubbles();
// Update mouth state and duration
if (!game.lastMouthState) {
game.mouthOpenDuration = 0;
}
if (facekit.mouthOpen) {
game.mouthOpenDuration++;
} else {
game.mouthOpenDuration = 0;
}
// Only allow bubble creation if menu is closed and mouth has been open long enough
if (!menuOpen && facekit.mouthOpen && game.mouthOpenDuration >= game.MOUTH_OPEN_THRESHOLD) {
// Only allow new bubbles after cooldown
if (!game.growingBubble && game.blowCooldown <= 0) {
var spawnX = playerMask.x;
var spawnY = playerMask.y + playerMask.height * 0.15;
var sizeVarianceLevel = UPGRADE_CONFIG.player.sizeVariance.currentLevel;
var minSizeMultiplier = 1 + 0.1 * sizeVarianceLevel;
var adjustedMinSize = game.MIN_SPAWN_SIZE * minSizeMultiplier;
game.growingBubble = spawnBubble(spawnX, spawnY, adjustedMinSize, 0, false);
if (game.growingBubble) {
game.blowCooldown = game.BLOW_COOLDOWN_TIME;
}
}
if (game.growingBubble) {
game.growingBubble.x = playerMask.x;
game.growingBubble.y = playerMask.y + playerMask.height * 0.15;
game.growingBubble.size = Math.min(game.growingBubble.size + game.growthRate, game.maxBubbleSize);
game.growingBubble.verticalVelocity = 0;
game.growingBubble.driftX = 0;
}
} else {
if (game.growingBubble) {
// Recalculate float speed and lifetime based on final size
game.growingBubble.floatSpeed = 50 * (120 / game.growingBubble.size * (0.9 + Math.random() * 0.2)) / 60;
game.growingBubble.initLifetime();
// Then apply the release velocity
game.growingBubble.verticalVelocity = -10;
game.growingBubble.driftX = (Math.random() * 2 - 1) * 2.5;
var twinLevel = UPGRADE_CONFIG.player.twinBubbles.currentLevel;
if (twinLevel > 0 && Math.random() < twinLevel * 0.05) {
// 5/10/15% chance based on level
var twinBubble = spawnBubble(game.growingBubble.x + (Math.random() * 40 - 20), game.growingBubble.y + (Math.random() * 40 - 20), game.growingBubble.size * 0.9, game.growingBubble.driftX * 0.8, false);
if (twinBubble) {
// Link the bubbles
game.twinBubbles.push({
bubble1: game.growingBubble,
bubble2: twinBubble,
popped: false,
timestamp: LK.ticks
});
}
}
game.growingBubble = null;
var breathLevel = UPGRADE_CONFIG.player.bubbleBreath.currentLevel;
if (breathLevel > 0) {
// Calculate chances for extra bubbles
var extraBubbles = 0;
// Level 1: 20% for +1
// Level 2: 40% for +1
// Level 3: 60% for +1, 20% for +2
// Level 4: 80% for +1, 40% for +2
var rand = Math.random();
if (rand < breathLevel * 0.2) {
extraBubbles++;
// Check for 2nd extra bubble at level 3-4
if (breathLevel >= 3 && rand < (breathLevel - 2) * 0.2) {
extraBubbles++;
}
}
// Spawn extra bubbles
for (var i = 0; i < extraBubbles; i++) {
var angle = Math.random() * Math.PI * 2;
var distance = 20 + Math.random() * 30;
var extraX = playerMask.x + Math.cos(angle) * distance;
var extraY = playerMask.y + playerMask.height * 0.15 + Math.sin(angle) * distance;
var extraSize = Math.max(game.MIN_SPAWN_SIZE, game.growingBubble.size * (0.6 + Math.random() * 0.2));
var extraBubble = spawnBubble(extraX, extraY, extraSize, 0, false);
if (extraBubble) {
extraBubble.verticalVelocity = -8 - Math.random() * 4;
extraBubble.driftX = Math.random() * 4 - 2;
}
}
}
game.mouthOpenDuration = 0;
}
}
// Update cooldown timer
if (game.blowCooldown > 0) {
game.blowCooldown--;
}
game.lastMouthState = facekit.mouthOpen;
updateClams();
// Inside game.update, after other updates
if (UPGRADE_CONFIG.player.autoPop.currentLevel > 0) {
// 8 seconds (480 frames) base, reduced by 2 seconds (120 frames) per level
if (LK.ticks % Math.max(60, 660 - UPGRADE_CONFIG.player.autoPop.currentLevel * 120) === 0) {
var fish = new Fish();
game.addChild(fish);
}
}
if (game.activeBubbles.length < game.MAX_BUBBLES) {
if (LK.ticks % game.baseSpawnRate == 0) {
var x = Math.random() * (game.width - 200) + 100;
spawnBubble(x, game.height + 100, 100, 0, true);
}
}
// Clean up old twin bubble pairs
game.twinBubbles = game.twinBubbles.filter(function (pair) {
// Remove pairs where both bubbles are gone or time expired (60 frames = 1 second)
if (!pair.bubble1.visible || !pair.bubble2.visible || pair.popped && LK.ticks - pair.timestamp > 60) {
return false;
}
return true;
});
game.activeBubbles.forEach(function (bubble) {
if (bubble.update) {
bubble.update();
}
});
};
// Handle touch/mouse events for the game
game.down = function (x, y, obj) {
var localX = x - menuContainer.x;
var localY = y - menuContainer.y;
// Tab click handling
var tabBounds = {
x: -menuTab.width * menuTab.scaleX / 2,
y: -menuTab.height * menuTab.scaleY,
width: menuTab.width * menuTab.scaleX,
height: menuTab.height * menuTab.scaleY
};
if (localX >= tabBounds.x && localX <= tabBounds.x + tabBounds.width && localY >= tabBounds.y && localY <= tabBounds.y + tabBounds.height) {
menuOpen = !menuOpen;
var targetY = menuOpen ? menuTab.height : game.height;
if (menuOpen) {
game.setChildIndex(menuContainer, game.children.length - 1);
}
tween(menuContainer, {
y: targetY //{9O.1}
}, {
//{9O.2}
duration: 300,
//{9O.3}
easing: tween.easeOutBack,
//{9O.4}
onFinish: function onFinish() {
tabsContainer.visible = menuOpen; // Show/hide tabs based on menu state //{9Q.1}
if (!menuOpen) {
//{9Q.2}
game.setChildIndex(menuContainer, 1); //{9Q.3}
} //{9Q.4}
} //{9Q.5}
});
return true;
}
if (menuOpen) {
return true; // Let containers handle their own clicks
}
// Bubble popping logic remains the same
var popped = false;
// NEW:
for (var i = game.activeBubbles.length - 1; i >= 0; i--) {
var bubble = game.activeBubbles[i];
var dx = x - bubble.x;
var dy = y - bubble.y;
var distance = Math.sqrt(dx * dx + dy * dy);
if (!popped && distance <= bubble.size / 2 + 30 && bubble.down) {
bubble.down();
popped = true;
break;
}
}
}; /****
* Plugins
****/
var tween = LK.import("@upit/tween.v1");
var facekit = LK.import("@upit/facekit.v1");
/****
* Classes
****/
// Bubble class to represent each bubble in the game
var Bubble = Container.expand(function () {
var self = Container.call(this);
self.lifetime = 0;
self.hasSplit = false;
self.splitHeight = null;
self.AUTO_POP_SIZE = 40;
self.MIN_SPLIT_SIZE = 30;
self.lastPopTime = 0;
self.visible = false; // Start invisible in pool
var sprite = self.attachAsset('bubble', {
anchorX: 0.5,
anchorY: 0.5,
alpha: 0.8
});
self.colorTint = 0xFFFFFF; // Default white tint
self.colorMultiplier = 1.0; // Default multiplier
self.colorPhase = Math.random() * Math.PI * 2; // Random starting phase
self.size = 100;
self.updateColor = function () {
// Check if color upgrades are active
if (UPGRADE_CONFIG.colors.blueBubbles.currentLevel > 0) {
var color = 0xFFFFFF;
var multiplier = 1.0;
if (UPGRADE_CONFIG.colors.prismaticBubbles.currentLevel > 0) {
// Prismatic - constantly shifting color with variable multiplier
self.colorPhase += 0.02;
var colorValue = Math.sin(self.colorPhase) * 0.5 + 0.5; // 0 to 1
multiplier = 0.8 + colorValue * 1.2; // 0.8x to 2.0x
// Generate rainbow color
var r = Math.sin(self.colorPhase) * 127 + 128;
var g = Math.sin(self.colorPhase + 2) * 127 + 128;
var b = Math.sin(self.colorPhase + 4) * 127 + 128;
color = (Math.floor(r) << 16) + (Math.floor(g) << 8) + Math.floor(b);
} else if (UPGRADE_CONFIG.colors.rainbowBubbles.currentLevel > 0) {
// Rainbow - randomly changes color on activation
var colorChoice = Math.floor(Math.random() * 6);
switch (colorChoice) {
case 0:
color = 0xFF0000;
multiplier = 1.5;
break;
// Red
case 1:
color = 0xFFAA00;
multiplier = 1.4;
break;
// Orange
case 2:
color = 0xFFFF00;
multiplier = 1.3;
break;
// Yellow
case 3:
color = 0x00FF00;
multiplier = 1.2;
break;
// Green
case 4:
color = 0x0000FF;
multiplier = 1.1;
break;
// Blue
case 5:
color = 0xFF00FF;
multiplier = 1.6;
break;
// Purple
}
} else if (UPGRADE_CONFIG.colors.pinkBubbles.currentLevel > 0) {
color = 0xFF80C0; // Pink
multiplier = 1.3;
} else if (UPGRADE_CONFIG.colors.greenBubbles.currentLevel > 0) {
color = 0x00FF80; // Green
multiplier = 1.2;
} else {
// Blue bubbles
color = 0x80C0FF; // Blue
multiplier = 1.1;
}
self.colorTint = color;
self.colorMultiplier = multiplier;
// Apply tint to the sprite
sprite.tint = color; // Try direct assignment
// If that doesn't work, try:
// sprite.color = color;
}
};
self.activate = function (x, y, size, isPlayerBlown) {
// Existing reset code
self.x = x;
self.y = y;
self.size = size;
self.lifetime = 0;
self.hasSplit = false;
self.splitHeight = null;
self.justSplit = false;
self.autoPopDisplayed = false;
self.lastPopTime = 0;
self.verticalVelocity = 0;
self.driftX = (Math.random() * 20 - 10) / 60;
self.floatSpeed = 50 * (120 / size * (0.9 + Math.random() * 0.2)) / 60;
self.initLifetime(); // Always get fresh lifetime
self.visible = true;
// Reset color properties
self.colorTint = 0xFFFFFF; // Reset to default white
self.colorMultiplier = 1.0; // Reset multiplier
self.colorPhase = Math.random() * Math.PI * 2; // Fresh random phase
sprite.tint = 0xFFFFFF; // Reset the sprite tint directly
// Check if color upgrades are active and apply colors
self.applyColorUpgrade();
// Add some debug logs
console.log('Activating bubble:', {
size: self.size,
maxLifetime: self.maxLifetime,
isPlayerBlown: isPlayerBlown
});
};
self.applyColorUpgrade = function () {
// Only apply if any color upgrade is active
if (UPGRADE_CONFIG.colors.blueBubbles.currentLevel > 0) {
var color = 0xFFFFFF;
var multiplier = 1.0;
// Determine the highest active color upgrade
if (UPGRADE_CONFIG.colors.prismaticBubbles.currentLevel > 0) {
// Initial color for prismatic (will change over time)
self.colorPhase = Math.random() * Math.PI * 2;
var r = Math.sin(self.colorPhase) * 127 + 128;
var g = Math.sin(self.colorPhase + 2) * 127 + 128;
var b = Math.sin(self.colorPhase + 4) * 127 + 128;
color = (Math.floor(r) << 16) + (Math.floor(g) << 8) + Math.floor(b);
multiplier = 1.6;
} else if (UPGRADE_CONFIG.colors.rainbowBubbles.currentLevel > 0) {
// Rainbow - pick a random color from set
var rainbowColors = [0xFF0000,
// Red
0xFFAA00,
// Orange
0xFFFF00,
// Yellow
0x00FF00,
// Green
0x0000FF,
// Blue
0xFF00FF // Purple
];
var multipliers = [1.5, 1.4, 1.3, 1.2, 1.1, 1.6];
var index = Math.floor(Math.random() * rainbowColors.length);
color = rainbowColors[index];
multiplier = multipliers[index];
} else if (UPGRADE_CONFIG.colors.pinkBubbles.currentLevel > 0) {
color = 0xFF80C0; // Pink
multiplier = 1.3;
} else if (UPGRADE_CONFIG.colors.greenBubbles.currentLevel > 0) {
color = 0x00FF80; // Green
multiplier = 1.2;
} else {
// Blue bubbles
color = 0x80C0FF; // Blue
multiplier = 1.1;
}
// Apply the color and multiplier
sprite.tint = color;
self.colorTint = color;
self.colorMultiplier = multiplier;
// Log to verify colors are being applied
console.log('Applied bubble color:', color.toString(16), 'multiplier:', multiplier);
}
};
self.deactivate = function () {
self.visible = false;
var index = game.activeBubbles.indexOf(self);
if (index > -1) {
game.activeBubbles.splice(index, 1);
}
// Don't award points here - let the calling function handle it
};
self.initLifetime = function () {
self.maxLifetime = Math.floor(Math.random() * 960 + 1440);
self.maxLifetime *= Math.min(1, self.size / 100);
};
self.initLifetime();
// Subtle size-based variance plus small random factor
var speedMultiplier = 120 / self.size * (0.9 + Math.random() * 0.2); // Just 10% variance
self.floatSpeed = 50 * speedMultiplier / 60;
self.driftX = (Math.random() * 20 - 10) / 60; // Normal drift variance
self.verticalVelocity = 0;
self.down = function (e) {
var currentTime = Date.now();
if (currentTime - self.lastPopTime < 100) {
return true;
}
self.lastPopTime = currentTime;
var points = self.getBP();
game.addBP(points, self.x, self.y, false);
if (self.size > 60 && !self.justSplit) {
var splitCount = 2 + UPGRADE_CONFIG.machine.bubbleDurability.currentLevel;
var newSize = Math.max(self.MIN_SPLIT_SIZE, self.size * 0.6);
for (var i = 0; i < splitCount; i++) {
var angle = i / splitCount * Math.PI * 2;
// Reduce the direction multiplier to 0.5 to make movement more gentle
spawnBubble(self.x, self.y, newSize, Math.cos(angle) * 0.5, false);
}
}
// Check if this bubble is part of twin pair
var twinPair = game.twinBubbles.find(function (pair) {
return pair.bubble1 === self && !pair.popped || pair.bubble2 === self && !pair.popped;
});
if (twinPair) {
// Mark as popped
twinPair.popped = true;
twinPair.timestamp = LK.ticks;
// Find the other bubble in the pair
var otherBubble = twinPair.bubble1 === self ? twinPair.bubble2 : twinPair.bubble1;
// Add bonus for twin pop
var twinLevel = UPGRADE_CONFIG.player.twinBubbles.currentLevel;
var bonusMultiplier = 0.5 + 0.25 * twinLevel; // 50/75/100% bonus
// Pop the other bubble automatically and add bonus points
if (otherBubble.visible) {
var bonusPoints = Math.floor(otherBubble.getBP() * bonusMultiplier);
game.addBP(bonusPoints, otherBubble.x, otherBubble.y, false);
otherBubble.deactivate();
}
}
self.deactivate();
return true;
};
self.getBP = function () {
var baseValue = Math.max(1, Math.floor(Math.pow(self.size, 1.4) * 0.02 * 100));
// Apply Bubble Refinement upgrade
var refinementLevel = UPGRADE_CONFIG.player.bubbleRefinement.currentLevel;
if (refinementLevel > 0) {
baseValue *= 1 + 0.25 * refinementLevel; // +25% per level
}
if (self.fromClam && UPGRADE_CONFIG.machine.bubbleQuality.currentLevel > 0) {
var qualityLevel = UPGRADE_CONFIG.machine.bubbleQuality.currentLevel;
baseValue *= 1 + 0.4 * qualityLevel; // +40% per level
}
// Apply color multiplier
baseValue = Math.floor(baseValue * self.colorMultiplier);
// Apply treasure zone bonus if applicable
baseValue = Math.floor(baseValue * getTreasureBonusMultiplier(self.x, self.y));
return baseValue;
};
self.update = function () {
if (UPGRADE_CONFIG.colors.prismaticBubbles.currentLevel > 0) {
self.colorPhase += 0.02;
var r = Math.sin(self.colorPhase) * 127 + 128;
var g = Math.sin(self.colorPhase + 2) * 127 + 128;
var b = Math.sin(self.colorPhase + 4) * 127 + 128;
var color = (Math.floor(r) << 16) + (Math.floor(g) << 8) + Math.floor(b);
// Update the color value
sprite.tint = color;
self.colorTint = color;
// Make the multiplier oscillate for prismatic
var colorValue = Math.sin(self.colorPhase) * 0.5 + 0.5;
self.colorMultiplier = 0.8 + colorValue * 1.2; // 0.8x to 2.0x
}
// Only increment lifetime if not being actively blown
if (game.growingBubble !== self) {
self.lifetime++;
if (self.lifetime % 60 === 0) {
self.driftX += (Math.random() - 0.5) * 0.8;
}
}
self.x += self.driftX * 1.2;
if (self.lifetime > self.maxLifetime) {
console.log('Bubble dying - lifetime:', self.lifetime, 'maxLifetime:', self.maxLifetime);
if (self.size > 60 && !self.hasSplit) {
self.hasSplit = true;
var newSize = Math.max(self.MIN_SPLIT_SIZE, self.size * 0.6);
for (var i = 0; i < 2; i++) {
var split = spawnBubble(self.x, self.y, newSize, i === 0 ? -1 : 1, true);
if (split) {
split.maxLifetime *= 0.7;
}
}
self.deactivate();
return;
}
self.autoPop();
return;
}
if (self.y < -self.size) {
// Just deactivate, no points
self.visible = false;
var index = game.activeBubbles.indexOf(self);
if (index > -1) {
game.activeBubbles.splice(index, 1);
}
return;
}
self.justSplit = false;
if (self.verticalVelocity < self.floatSpeed) {
self.verticalVelocity += 0.08;
}
self.y -= self.verticalVelocity;
if (Math.abs(self.driftX) > (Math.random() * 20 - 10) / 60) {
self.driftX *= 0.98;
}
self.x += self.driftX;
if (self.x < self.size) {
self.x = self.size;
self.driftX = Math.abs(self.driftX);
} else if (self.x > game.width - self.size) {
self.x = game.width - self.size;
self.driftX = -Math.abs(self.driftX);
}
var scale = self.size / sprite.width;
sprite.scaleX = scale;
sprite.scaleY = scale;
};
self.autoPop = function () {
// Only award points if bubble is on screen
if (!self.autoPopDisplayed && self.y > -self.size) {
var points = Math.floor(self.getBP() * 0.5);
game.addBP(points, self.x, self.y, true);
self.autoPopDisplayed = true;
}
self.deactivate();
return;
};
self.updateColor = function () {
// Check if color upgrades are active
if (UPGRADE_CONFIG.colors.blueBubbles.currentLevel > 0) {
var color = 0xFFFFFF;
var multiplier = 1.0;
if (UPGRADE_CONFIG.colors.prismaticBubbles.currentLevel > 0) {
// Prismatic - constantly shifting color with variable multiplier
self.colorPhase += 0.02;
var colorValue = Math.sin(self.colorPhase) * 0.5 + 0.5; // 0 to 1
multiplier = 0.8 + colorValue * 1.2; // 0.8x to 2.0x
// Generate rainbow color
var r = Math.sin(self.colorPhase) * 127 + 128;
var g = Math.sin(self.colorPhase + 2) * 127 + 128;
var b = Math.sin(self.colorPhase + 4) * 127 + 128;
color = (Math.floor(r) << 16) + (Math.floor(g) << 8) + Math.floor(b);
} else if (UPGRADE_CONFIG.colors.rainbowBubbles.currentLevel > 0) {
// Rainbow - randomly changes color on activation
var colorChoice = Math.floor(Math.random() * 6);
switch (colorChoice) {
case 0:
color = 0xFF0000;
multiplier = 1.5;
break;
// Red
case 1:
color = 0xFFAA00;
multiplier = 1.4;
break;
// Orange
case 2:
color = 0xFFFF00;
multiplier = 1.3;
break;
// Yellow
case 3:
color = 0x00FF00;
multiplier = 1.2;
break;
// Green
case 4:
color = 0x0000FF;
multiplier = 1.1;
break;
// Blue
case 5:
color = 0xFF00FF;
multiplier = 1.6;
break;
// Purple
}
} else if (UPGRADE_CONFIG.colors.pinkBubbles.currentLevel > 0) {
color = 0xFF80C0; // Pink
multiplier = 1.3;
} else if (UPGRADE_CONFIG.colors.greenBubbles.currentLevel > 0) {
color = 0x00FF80; // Green
multiplier = 1.2;
} else {
// Blue bubbles
color = 0x80C0FF; // Blue
multiplier = 1.1;
}
self.colorTint = color;
self.colorMultiplier = multiplier;
// Apply tint to the sprite
sprite.tint = self.colorTint;
}
};
return self;
});
var Fish = Container.expand(function () {
var self = Container.call(this);
var fishTypes = ['redfish', 'bluefish', 'yellowfish'];
var fishType = fishTypes[Math.floor(Math.random() * fishTypes.length)];
// Create fish sprite
var sprite = self.attachAsset(fishType, {
anchorX: 0.5,
anchorY: 0.5
});
// Initialize position and movement
self.fromLeft = Math.random() < 0.5;
self.x = self.fromLeft ? -100 : game.width + 100;
self.y = Math.random() * (game.height * 0.7) + game.height * 0.1;
sprite.scaleX = self.fromLeft ? 1 : -1;
self.speed = 8; // Changed from 4
self.update = function () {
self.x += self.fromLeft ? self.speed : -self.speed;
// Add bubble collision check
game.activeBubbles.forEach(function (bubble) {
if (bubble.visible) {
var dx = self.x - bubble.x;
var dy = self.y - bubble.y;
var distance = Math.sqrt(dx * dx + dy * dy);
if (distance <= bubble.size / 2 + 50) {
// Increased from 30 to 50
// 30px collision radius
var points = bubble.getBP();
game.addBP(points, bubble.x, bubble.y, false); // false = manual pop points
bubble.deactivate();
}
}
});
// Remove when off screen
if (self.fromLeft && self.x > game.width + 100 || !self.fromLeft && self.x < -100) {
self.destroy();
}
};
return self;
});
// Pufferfish mask that follows face
var pufferMask = Container.expand(function () {
var self = Container.call(this);
var sprite = self.attachAsset('pufferfish', {
anchorX: 0.5,
anchorY: 0.5
});
var targetX = 0;
var targetY = 0;
var smoothingFactor = 0.12;
var prevX = null;
var prevY = null;
var targetRotation = 0;
var rotationSmoothingFactor = 0.1;
var targetTilt = 0;
var tiltSmoothingFactor = 0.11; // Reduced from 0.08 for smoother movement
var tiltScaleFactor = 0.09; // Reduced from 0.15 for less tilt
var scaleHistory = new Array(5).fill(0); // Keep last 5 scale values
var scaleIndex = 0;
var baseScale = 1;
var minScale = 0.1;
var maxScale = 3;
self.update = function () {
// Adjust scale based on face size
if (facekit.leftEye && facekit.rightEye && facekit.mouthCenter) {
var eyeDistance = Math.abs(facekit.rightEye.x - facekit.leftEye.x);
var newScale = eyeDistance / 500;
// Update rolling average
scaleHistory[scaleIndex] = newScale;
scaleIndex = (scaleIndex + 1) % scaleHistory.length;
// Calculate average scale
var avgScale = scaleHistory.reduce(function (a, b) {
return a + b;
}, 0) / scaleHistory.length;
// More gentle smoothing
sprite.scaleX = sprite.scaleX * 0.85 + avgScale * 0.15;
sprite.scaleY = sprite.scaleY * 0.85 + avgScale * 0.15;
}
// Follow nose position for main face tracking
if (facekit.noseTip) {
targetX = facekit.noseTip.x;
targetY = facekit.noseTip.y;
// Initialize previous positions if not set
if (prevX === null) {
prevX = targetX;
prevY = targetY;
}
// Weighted average between previous and target position
var newX = prevX * (1 - smoothingFactor) + targetX * smoothingFactor;
var newY = prevY * (1 - smoothingFactor) + targetY * smoothingFactor;
self.x = newX;
self.y = newY;
// Update previous positions
prevX = newX;
prevY = newY;
}
if (facekit.leftEye && facekit.rightEye) {
targetTilt = calculateFaceTilt() * tiltScaleFactor; // Scale down the tilt
// Reduce max rotation to ±15 degrees
targetTilt = Math.max(-15, Math.min(15, targetTilt));
self.rotation += (targetTilt - self.rotation) * tiltSmoothingFactor;
}
};
function calculateFaceTilt() {
if (facekit.leftEye && facekit.rightEye && facekit.mouthCenter) {
// Calculate midpoint between eyes
var eyeMidX = (facekit.leftEye.x + facekit.rightEye.x) / 2;
var eyeMidY = (facekit.leftEye.y + facekit.rightEye.y) / 2;
// Calculate angle between eye midpoint and mouth, negated to fix direction
var dx = facekit.mouthCenter.x - eyeMidX;
var dy = facekit.mouthCenter.y - eyeMidY;
var angle = -(Math.atan2(dx, dy) * (180 / Math.PI));
// Reduced max angle to ±15 degrees and lowered multiplier
return Math.max(-15, Math.min(15, angle * 0.15));
}
return 0; // Default to straight when face points aren't available
}
return self;
});
/****
* Initialize Game
****/
var game = new LK.Game({
backgroundColor: 0x87CEEB // Light blue background to represent the sky
});
/****
* Game Code
****/
function getTreasureBonusMultiplier(x, y) {
if (!game.treasureZones || game.treasureZones.length === 0) {
return 1.0; // No bonus if no treasures
}
// Start with no bonus
var totalBonus = 0;
// Check each treasure zone
game.treasureZones.forEach(function (zone) {
var dx = x - zone.x;
var dy = y - zone.y;
var distance = Math.sqrt(dx * dx + dy * dy);
// If bubble is in zone, add 50% bonus
if (distance <= zone.radius) {
totalBonus += 0.5; // +50% per overlapping zone as specified
}
});
// Return multiplier (1.0 = no bonus, 1.5 = one zone, 2.0 = two zones, etc.)
return 1.0 + totalBonus;
}
// Function to update treasure decorations
function updateTreasureDecorations() {
// Clear existing treasures
while (treasureContainer.children.length) {
treasureContainer.children[0].destroy();
}
// Clear zone tracking
game.treasureZones = [];
var treasureCount = UPGRADE_CONFIG.decorations.sunkenTreasures.amount;
if (treasureCount <= 0) {
return;
}
// Available treasure types
var treasureTypes = ['treasure1', 'treasure2', 'treasure3'];
// Position treasures at specific spots in the bottom half of screen
var positions = [
// Left side
{
x: game.width * 0.25,
y: game.height * 0.65
},
// Right side
{
x: game.width * 0.75,
y: game.height * 0.65
},
// Middle bottom
{
x: game.width * 0.5,
y: game.height * 0.8
}];
// Place treasures at predetermined spots
for (var i = 0; i < treasureCount; i++) {
// Don't exceed available positions
if (i >= positions.length) {
break;
}
// Choose treasure type based on position
var treasureType = treasureTypes[i % treasureTypes.length];
var pos = positions[i];
// Create circular zone indicator
var zoneRadius = game.width * 0.15;
var zoneIndicator = LK.getAsset('blower', {
width: zoneRadius * 2,
height: zoneRadius * 2,
shape: 'circle',
// Specify circle shape
color: 0xFFFFFF,
alpha: 0.15,
anchorX: 0.5,
anchorY: 0.5,
x: pos.x,
y: pos.y
});
// Add zone to tracking for bonus calculation
game.treasureZones.push({
id: 'treasure_' + i,
x: pos.x,
y: pos.y,
radius: zoneRadius
});
// Create treasure sprite on top of zone
var treasure = LK.getAsset(treasureType, {
anchorX: 0.5,
anchorY: 0.5,
x: pos.x,
y: pos.y,
scaleX: 1.8,
scaleY: 1.8,
alpha: 0.9
});
// Add zone first (so it's behind treasure)
treasureContainer.addChild(zoneIndicator);
treasureContainer.addChild(treasure);
}
}
function updateCoralBubbles() {
if (UPGRADE_CONFIG.decorations.bubbleCoral.amount <= 0) {
return;
}
coralContainer.children.forEach(function (coral) {
// 5% chance per second to spawn bubble (0.083% per frame at 60fps)
if (Math.random() < 0.00083 || LK.ticks - coral.lastBubbleTime > 600) {
// Force spawn after 10 seconds
coral.lastBubbleTime = LK.ticks;
// Calculate bubble size based on player's max size
var bubbleSize = game.maxBubbleSize * (0.5 + Math.random() * 0.3);
// Spawn position slightly above coral
var bubbleX = coral.x + (Math.random() * 30 - 15);
var bubbleY = coral.y - coral.height * 0.3;
var bubble = spawnBubble(bubbleX, bubbleY, bubbleSize, 0, false);
if (bubble) {
// Set moderate upward velocity
bubble.verticalVelocity = -(2 + Math.random() * 3);
bubble.driftX = Math.random() * 2 - 1;
}
}
});
}
function updateCoralDecorations() {
// Clear existing corals
while (coralContainer.children.length) {
coralContainer.children[0].destroy();
}
// Position corals along bottom of screen
var coralCount = UPGRADE_CONFIG.decorations.bubbleCoral.amount;
if (coralCount <= 0) {
return;
}
// Available coral types
var coralTypes = ['coral1', 'coral2', 'coral3', 'coral4'];
// Space corals evenly along bottom
var spacing = game.width / (coralCount + 1);
for (var i = 0; i < coralCount; i++) {
// Choose random coral type
var coralType = coralTypes[Math.floor(Math.random() * coralTypes.length)];
// Create coral sprite
var coral = LK.getAsset(coralType, {
anchorX: 0.5,
anchorY: 1,
x: spacing * (i + 1),
y: game.height - 20,
// Slightly above bottom
scaleX: 1.5 + Math.random() * 0.5,
scaleY: 1.5 + Math.random() * 0.5
});
// Store last bubble spawn time
coral.lastBubbleTime = 0;
coralContainer.addChild(coral);
}
}
function refreshUpgradeTab(tabName) {
// Clear all children from the tab container
while (tabContainers[tabName].children.length > 0) {
tabContainers[tabName].children[0].destroy();
}
// Recreate all upgrades for the tab
if (tabColumns[tabName] && tabColumns[tabName].left) {
tabColumns[tabName].left.forEach(function (upgrade, index) {
createUpgradeText(upgrade[0], upgrade[1], index, true, tabName);
});
}
if (tabColumns[tabName] && tabColumns[tabName].right) {
tabColumns[tabName].right.forEach(function (upgrade, index) {
createUpgradeText(upgrade[0], upgrade[1], index, false, tabName);
});
}
}
game.twinBubbles = [];
game.treasureZones = [];
// Define column assignments for each tab
var tabColumns = {
bubbles: {
left: [['player', 'lungCapacity'], ['player', 'quickBreath'], ['player', 'bubbleRefinement'], ['player', 'twinBubbles']],
right: [['player', 'autoPop'], ['player', 'sizeVariance'], ['player', 'bubbleBreath']]
},
clams: {
left: [['machines', 'basicClam'], ['machines', 'advancedClam'], ['machines', 'premiumClam']],
right: [['machine', 'bubbleDurability'], ['machine', 'autoBubbleSpeed'], ['machine', 'bubbleQuality']]
},
colors: {
left: [['colors', 'blueBubbles'], ['colors', 'greenBubbles'], ['colors', 'pinkBubbles']],
right: [['colors', 'rainbowBubbles'], ['colors', 'prismaticBubbles']]
},
decorations: {
left: [['decorations', 'bubbleCoral']],
right: [['decorations', 'sunkenTreasures']]
}
};
var UPGRADE_EFFECTS = {
lungCapacity: {
baseValue: 160,
// Base max bubble size
incrementPercent: 25 // +25% per level
},
quickBreath: {
baseValue: 1.6,
// Base growth rate
incrementPercent: 25 // +25% per level
},
autoBubbleSpeed: {
decrementPercent: 10 // -10% production time per level
},
bubbleDurability: {
extraSplits: 1 // +1 split per level
},
autoPop: {
timeReduction: 0.8 // Reduces lifetime by 20% per level
}
};
function _slicedToArray3(r, e) {
return _arrayWithHoles3(r) || _iterableToArrayLimit3(r, e) || _unsupportedIterableToArray3(r, e) || _nonIterableRest3();
}
function _nonIterableRest3() {
throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _unsupportedIterableToArray3(r, a) {
if (r) {
if ("string" == typeof r) {
return _arrayLikeToArray3(r, a);
}
var t = {}.toString.call(r).slice(8, -1);
return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray3(r, a) : void 0;
}
}
function _arrayLikeToArray3(r, a) {
(null == a || a > r.length) && (a = r.length);
for (var e = 0, n = Array(a); e < a; e++) {
n[e] = r[e];
}
return n;
}
function _iterableToArrayLimit3(r, l) {
var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
if (null != t) {
var e,
n,
i,
u,
a = [],
f = !0,
o = !1;
try {
if (i = (t = t.call(r)).next, 0 === l) {
if (Object(t) !== t) {
return;
}
f = !1;
} else {
for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
;
}
}
} catch (r) {
o = !0, n = r;
} finally {
try {
if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
return;
}
} finally {
if (o) {
throw n;
}
}
}
return a;
}
}
function _arrayWithHoles3(r) {
if (Array.isArray(r)) {
return r;
}
}
function getUpgradeCost(upgrade) {
if (upgrade.amount !== undefined) {
// For clams
return Math.floor(upgrade.baseCost * Math.pow(upgrade.costScale, upgrade.amount));
} else {
// For regular upgrades
return Math.floor(upgrade.baseCost * Math.pow(upgrade.costScale, upgrade.currentLevel));
}
}
function _slicedToArray2(r, e) {
return _arrayWithHoles2(r) || _iterableToArrayLimit2(r, e) || _unsupportedIterableToArray2(r, e) || _nonIterableRest2();
}
function _nonIterableRest2() {
throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _unsupportedIterableToArray2(r, a) {
if (r) {
if ("string" == typeof r) {
return _arrayLikeToArray2(r, a);
}
var t = {}.toString.call(r).slice(8, -1);
return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray2(r, a) : void 0;
}
}
function _arrayLikeToArray2(r, a) {
(null == a || a > r.length) && (a = r.length);
for (var e = 0, n = Array(a); e < a; e++) {
n[e] = r[e];
}
return n;
}
function _iterableToArrayLimit2(r, l) {
var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
if (null != t) {
var e,
n,
i,
u,
a = [],
f = !0,
o = !1;
try {
if (i = (t = t.call(r)).next, 0 === l) {
if (Object(t) !== t) {
return;
}
f = !1;
} else {
for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
;
}
}
} catch (r) {
o = !0, n = r;
} finally {
try {
if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
return;
}
} finally {
if (o) {
throw n;
}
}
}
return a;
}
}
function _arrayWithHoles2(r) {
if (Array.isArray(r)) {
return r;
}
}
function updateClams() {
if (!game.clamSpawnPoints) {
return;
}
game.clamSpawnPoints.forEach(function (spawnPoint) {
var config = UPGRADE_CONFIG.machines[spawnPoint.type];
// Calculate production time with speed upgrade
var baseTime = config.production * 150; // Convert to frames and further increase base time
var speedMultiplier = Math.pow(1 - UPGRADE_EFFECTS.autoBubbleSpeed.decrementPercent / 100, UPGRADE_CONFIG.machine.autoBubbleSpeed.currentLevel);
var adjustedTime = Math.max(1, Math.floor(baseTime * speedMultiplier));
var qualityLevel = UPGRADE_CONFIG.machine.bubbleQuality.currentLevel;
if (qualityLevel > 0) {
// -10% production rate per level
adjustedTime = Math.floor(adjustedTime * (1 + 0.1 * qualityLevel));
}
if (LK.ticks % adjustedTime === 0) {
// Find first available bubble in pool
var bubble = game.bubblePool.find(function (b) {
return !b.visible;
});
if (bubble && game.activeBubbles.length < game.MAX_BUBBLES) {
bubble.activate(spawnPoint.x, spawnPoint.y, config.bubbleSize, false // not player blown
);
bubble.fromClam = true;
if (UPGRADE_CONFIG.player.sizeVariance.currentLevel > 0) {
var variance = UPGRADE_CONFIG.player.sizeVariance.currentLevel;
var minIncrease = 0.1 * variance; // +10% per level to min size
var maxIncrease = 0.15 * variance; // +15% per level to max size
// Apply size variance
var sizeMultiplier = 1 - minIncrease + Math.random() * (minIncrease + maxIncrease);
bubble.size *= sizeMultiplier;
}
// Set initial velocities for clam bubbles
bubble.verticalVelocity = 0;
bubble.driftX = (spawnPoint.isRight ? -1 : 1) * (Math.random() * 1.5 + 2);
game.activeBubbles.push(bubble);
}
}
});
}
function _slicedToArray(r, e) {
return _arrayWithHoles(r) || _iterableToArrayLimit(r, e) || _unsupportedIterableToArray(r, e) || _nonIterableRest();
}
function _nonIterableRest() {
throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _unsupportedIterableToArray(r, a) {
if (r) {
if ("string" == typeof r) {
return _arrayLikeToArray(r, a);
}
var t = {}.toString.call(r).slice(8, -1);
return "Object" === t && r.constructor && (t = r.constructor.name), "Map" === t || "Set" === t ? Array.from(r) : "Arguments" === t || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(t) ? _arrayLikeToArray(r, a) : void 0;
}
}
function _arrayLikeToArray(r, a) {
(null == a || a > r.length) && (a = r.length);
for (var e = 0, n = Array(a); e < a; e++) {
n[e] = r[e];
}
return n;
}
function _iterableToArrayLimit(r, l) {
var t = null == r ? null : "undefined" != typeof Symbol && r[Symbol.iterator] || r["@@iterator"];
if (null != t) {
var e,
n,
i,
u,
a = [],
f = !0,
o = !1;
try {
if (i = (t = t.call(r)).next, 0 === l) {
if (Object(t) !== t) {
return;
}
f = !1;
} else {
for (; !(f = (e = i.call(t)).done) && (a.push(e.value), a.length !== l); f = !0) {
;
}
}
} catch (r) {
o = !0, n = r;
} finally {
try {
if (!f && null != t["return"] && (u = t["return"](), Object(u) !== u)) {
return;
}
} finally {
if (o) {
throw n;
}
}
}
return a;
}
}
function _arrayWithHoles(r) {
if (Array.isArray(r)) {
return r;
}
}
var background = LK.getAsset('background', {
anchorX: 0.5,
anchorY: 0.5,
x: game.width / 2,
y: game.height / 2
});
game.addChild(background);
// Add coral container here
var coralContainer = new Container();
game.addChild(coralContainer);
// Reposition in display list
game.setChildIndex(coralContainer, 1);
var treasureContainer = new Container();
// Add after coralContainer but before clams for proper layering
game.addChild(treasureContainer);
game.setChildIndex(treasureContainer, 2);
var clamContainer = new Container();
game.addChild(clamContainer);
var playerMask = new pufferMask();
game.addChild(playerMask);
var UPGRADE_CONFIG = {
player: {
lungCapacity: {
name: "Lung Capacity",
baseCost: 100,
// About 1-2 max bubbles
costScale: 3.0,
// Steeper scaling
maxLevel: 10,
currentLevel: 0
},
quickBreath: {
name: "Quick Breath",
baseCost: 100,
// 2-3 max bubbles
costScale: 3.0,
// Steeper scaling
maxLevel: 10,
currentLevel: 0
},
autoPop: {
// Moved here from machine section
name: "Fish Friends",
// Updated name
baseCost: 400,
// Changed from 1000
costScale: 3,
maxLevel: 6,
// Changed from 5
currentLevel: 0
},
bubbleRefinement: {
// New upgrade
name: "Bubble Refinement",
baseCost: 2500,
costScale: 2.5,
maxLevel: 5,
currentLevel: 0
},
twinBubbles: {
// New upgrade
name: "Twin Bubbles",
baseCost: 5000,
costScale: 2.3,
maxLevel: 3,
currentLevel: 0
},
sizeVariance: {
// New upgrade
name: "Size Variance",
baseCost: 4000,
costScale: 1.8,
maxLevel: 5,
currentLevel: 0
},
bubbleBreath: {
// New upgrade
name: "Bubble Breath",
baseCost: 12000,
costScale: 2.2,
maxLevel: 4,
currentLevel: 0
}
},
machines: {
basicClam: {
name: "Basic Clam",
baseCost: 300,
// 6-7 max bubbles
costScale: 2,
// Slightly steeper scaling
amount: 0,
production: 3,
bubbleSize: 80
},
advancedClam: {
name: "Advanced Clam",
baseCost: 3000,
// Requires running basic clams for a while
costScale: 3.0,
amount: 0,
production: 2,
bubbleSize: 100,
unlockCost: 3000
},
premiumClam: {
name: "Premium Clam",
baseCost: 20000,
// True end-game content
costScale: 3,
amount: 0,
production: 1,
bubbleSize: 150,
unlockCost: 20000
}
},
machine: {
bubbleDurability: {
name: "Bubble Splitting",
baseCost: 500,
costScale: 5,
// Significant scaling
maxLevel: 3,
currentLevel: 0
},
autoBubbleSpeed: {
name: "Clam Speed",
baseCost: 500,
costScale: 3.5,
maxLevel: 8,
currentLevel: 0
},
bubbleQuality: {
// New upgrade
name: "Bubble Quality",
baseCost: 3000,
costScale: 2.2,
maxLevel: 5,
currentLevel: 0
}
},
colors: {
// New section
blueBubbles: {
name: "Blue Bubbles",
baseCost: 1000,
costScale: 1.0,
// Only one level
maxLevel: 1,
currentLevel: 0
},
greenBubbles: {
name: "Green Bubbles",
baseCost: 3000,
costScale: 1.0,
// Only one level
maxLevel: 1,
currentLevel: 0,
requires: "blueBubbles"
},
pinkBubbles: {
name: "Pink Bubbles",
baseCost: 6000,
costScale: 1.0,
// Only one level
maxLevel: 1,
currentLevel: 0,
requires: "greenBubbles"
},
rainbowBubbles: {
name: "Rainbow Bubbles",
baseCost: 15000,
costScale: 1.0,
// Only one level
maxLevel: 1,
currentLevel: 0,
requires: "pinkBubbles"
},
prismaticBubbles: {
name: "Prismatic Bubbles",
baseCost: 30000,
costScale: 1.0,
// Only one level
maxLevel: 1,
currentLevel: 0,
requires: "rainbowBubbles"
}
},
decorations: {
// New section
bubbleCoral: {
name: "Bubble Coral",
baseCost: 10000,
costScale: 2.0,
amount: 0,
maxAmount: 5
},
sunkenTreasures: {
name: "Sunken Treasures",
baseCost: 25000,
costScale: 2.5,
amount: 0,
maxAmount: 3
}
}
};
game.showError = function (message) {
var errorText = new Text2(message, {
size: 120,
fill: 0xFF0000,
stroke: 0x000000,
strokeThickness: 5,
font: "Impact"
});
// Set the anchor point to center the text
errorText.anchor = {
x: 0.5,
y: 0.5
};
// Position at the center of the screen
errorText.x = game.width / 2;
errorText.y = game.height / 2;
game.addChild(errorText);
// Animate the text
tween(errorText, {
alpha: 0,
y: errorText.y - 50
}, {
duration: 1200,
onFinish: function onFinish() {
errorText.destroy();
}
});
};
var currentTab = 'bubbles'; // Default tab
var menuTabs = ['bubbles', 'clams', 'colors', 'decorations'];
var tabButtons = {}; // Will hold references to tab buttons
// Create upgrade menu elements
// Menu tab (handle)
// First position the panel relative to container at y=0
// Menu panel should be below the tab in the container
var menuTab = LK.getAsset('upgradetab', {
anchorX: 0.5,
anchorY: 1,
// Change to bottom anchor
y: 0,
// Will be at container's position
scaleX: 3,
scaleY: 0.8,
alpha: 0.9
});
var menuPanel = LK.getAsset('upgradetab', {
anchorX: 0.5,
anchorY: 0,
y: -570,
alpha: 0.9,
scaleX: 2048 / 200,
// Use the width of the asset directly
scaleY: game.height * 0.4 / 100.3
});
// Initialize menu structure
// Initialize menu container at the right position
var menuContainer = new Container();
menuContainer.x = game.width / 2;
menuContainer.y = game.height; // Position at bottom
var menuPanel = LK.getAsset('upgradetab', {
anchorX: 0.5,
anchorY: 0,
y: -570,
alpha: 0.9,
scaleX: 2048 / 200,
scaleY: game.height * 0.4 / 100.3
});
var menuTab = LK.getAsset('upgradetab', {
anchorX: 0.5,
anchorY: 1,
y: 0,
scaleX: 3,
scaleY: 0.8,
alpha: 0.9
});
// Add panel first (so it's behind tab)
menuContainer.addChild(menuPanel);
menuContainer.addChild(menuTab);
// Menu text setup - should be good as is
var menuText = new Text2("Upgrades", {
size: 90,
fill: 0xFFFFFF,
stroke: 0x000000,
strokeThickness: 3,
font: "Impact"
});
menuText.anchor = {
x: 0.5,
y: 0.5
};
menuText.x = 0; // Relative to container
menuText.y = -menuTab.height / 2; // Position relative to container bottom
menuContainer.addChild(menuText);
// Add to game
game.addChild(menuContainer);
// Add this after the menuPanel is created but before upgradeTexts are created
// Create text container AFTER panel scaling
var menuTextContainer = new Container();
menuContainer.addChild(menuTextContainer);
var tabContainers = {};
menuTabs.forEach(function (tab) {
var contentContainer = new Container();
contentContainer.visible = tab === currentTab;
tabContainers[tab] = contentContainer;
menuTextContainer.addChild(contentContainer);
});
// Create text container AFTER panel scaling
var menuTextContainer = new Container();
menuContainer.addChild(menuTextContainer);
// Create tab container (only visible when menu is open)
var tabsContainer = new Container();
// Position tabsContainer at the bottom of the panel
tabsContainer.x = menuPanel.width * menuPanel.scaleX / 2 - 850; // Center horizontally
tabsContainer.y = 0;
menuContainer.addChild(tabsContainer);
// Define tab dimensions
var tabWidth = menuPanel.width * 0.8 * menuPanel.scaleX / menuTabs.length;
var tabHeight = 120;
// Create tabs
menuTabs.forEach(function (tab, index) {
// Create tab button
var tabButton = LK.getAsset('upgradetab', {
anchorX: 0.5,
anchorY: 0,
// Anchor to top
// Position evenly across panel width
x: -menuPanel.width * menuPanel.scaleX / 2 + (index + 0.5) * tabWidth,
y: 0,
// Start at the container's position
scaleX: tabWidth / 200,
scaleY: tabHeight / 299,
// Updated for new height
alpha: tab === currentTab ? 1.0 : 0.7
});
// Add hit detection to the tab button
tabButton.down = function () {
// Only do something if this isn't already the current tab
if (tab !== currentTab) {
// Update tab appearance
Object.keys(tabButtons).forEach(function (t) {
if (tabButtons[t]) {
tabButtons[t].alpha = t === tab ? 1.0 : 0.7;
}
});
// Hide current tab content, show new tab content
if (tabContainers[currentTab]) {
tabContainers[currentTab].visible = false;
}
if (tabContainers[tab]) {
tabContainers[tab].visible = true;
}
// Update current tab
currentTab = tab;
}
// Return true to indicate the event was handled
return true;
};
// Store reference to the button
tabButtons[tab] = tabButton;
// Add text to tab
var tabText = new Text2(tab.charAt(0).toUpperCase() + tab.slice(1), {
// Capitalize first letter
size: 80,
// Increased from 50
fill: 0xFFFFFF,
stroke: 0x000000,
strokeThickness: 3,
// Slightly thicker for larger text
font: "Impact"
});
tabText.anchor = {
x: 0.5,
y: 0.5
};
tabText.x = tabButton.x;
tabText.y = tabHeight / 2;
// Add to container
tabsContainer.addChild(tabButton);
tabsContainer.addChild(tabText);
});
// Function to switch between tabs
function switchTab(newTab) {
// Hide old tab content, show new tab content
tabContainers[currentTab].visible = false;
tabContainers[newTab].visible = true;
// Update tab button appearance
tabButtons[currentTab].alpha = 0.7;
tabButtons[newTab].alpha = 1.0;
currentTab = newTab;
}
// Add upgrade texts to text container instead of panel
var upgradeTexts = [];
var startY = 150;
var upgradeSpacing = 250;
var columnWidth = 1024;
// Create arrays to hold upgrade categories in desired order
var leftColumnUpgrades = [['player', 'lungCapacity'], ['player', 'quickBreath'], ['player', 'autoPop']];
var rightColumnUpgrades = [['machines', 'basicClam'], ['machines', 'advancedClam'], ['machines', 'premiumClam'], ['machine', 'bubbleDurability'], ['machine', 'autoBubbleSpeed']];
// Function to determine which tab an upgrade belongs to
function getTabForUpgrade(category, key) {
if (category === 'player') {
return 'bubbles';
}
if (category === 'machines' || category === 'machine') {
return 'clams';
}
if (category === 'colors') {
return 'colors';
}
if (category === 'decorations') {
return 'decorations';
}
return 'bubbles'; // Default
}
// Function to create upgrade text
function createUpgradeText(category, key, index, isLeftColumn, tab) {
var upgrade = UPGRADE_CONFIG[category][key];
if (!upgrade) {
return;
} // Skip if upgrade doesn't exist
var xOffset = isLeftColumn ? -750 : 200; // Changed from -550 and 100
var yPos = startY + index * upgradeSpacing + 120; // Added 120 to move everything down
// Create hit container
var hitContainer = new Container();
var hitArea = LK.getAsset('blower', {
width: 400,
height: 150,
color: 0xFFFFFF,
alpha: 0.0
});
hitContainer.addChild(hitArea);
hitContainer.x = xOffset;
hitContainer.y = yPos;
hitArea.x = 0;
hitArea.y = -40;
// Create name text
var nameText = new Text2(upgrade.name, {
size: 96,
fill: 0xFFFFFF,
stroke: 0x000000,
strokeThickness: 2,
font: "Impact"
});
nameText.x = xOffset;
nameText.y = yPos;
// Create cost text
var cost = getUpgradeCost(upgrade);
var costText;
if (category === 'colors' && upgrade.currentLevel >= upgrade.maxLevel) {
// Create "SOLD OUT" text for maxed out color upgrades
costText = new Text2("SOLD OUT", {
size: 96,
fill: 0x888888,
// Gray color
stroke: 0x000000,
strokeThickness: 2,
font: "Impact"
});
} else if (category === 'colors' && upgrade.requires) {
var required = UPGRADE_CONFIG.colors[upgrade.requires];
if (required && required.currentLevel === 0) {
// Create "LOCKED" text for locked upgrades
costText = new Text2("LOCKED", {
size: 96,
fill: 0x888888,
// Gray color
stroke: 0x000000,
strokeThickness: 2,
font: "Impact"
});
} else {
// Normal cost text
costText = new Text2(cost + " BP", {
size: 96,
fill: 0xFFFF00,
stroke: 0x000000,
strokeThickness: 2,
font: "Impact"
});
}
} else {
// Normal cost text for non-color upgrades
costText = new Text2(cost + " BP", {
size: 96,
fill: 0xFFFF00,
stroke: 0x000000,
strokeThickness: 2,
font: "Impact"
});
}
costText.x = xOffset;
costText.y = yPos + 100;
// Add click handler
hitContainer.down = function () {
var cost = getUpgradeCost(upgrade);
// Check if this is a locked color upgrade
if (category === 'colors' && upgrade.requires) {
var required = UPGRADE_CONFIG.colors[upgrade.requires];
if (required && required.currentLevel === 0) {
game.showError("Unlock " + required.name + " first!");
return true;
}
}
if (game.bp >= cost) {
if (upgrade.amount !== undefined) {
// For clams and decorations with amount
if (upgrade.amount < (upgrade.maxAmount || 999)) {
upgrade.amount++;
game.bp -= cost;
bpText.setText(formatBP(game.bp) + " BP");
costText.setText(getUpgradeCost(upgrade) + " BP");
// Update clam visuals if needed
if (category === 'machines') {
updateClamVisuals();
}
// Update decoration visuals if implemented
if (category === 'decorations') {
if (key === 'bubbleCoral') {
updateCoralDecorations();
} else if (key === 'sunkenTreasures') {
updateTreasureDecorations();
}
// Future decoration handlers would go here
}
}
} else if (upgrade.currentLevel < upgrade.maxLevel) {
// For regular upgrades with levels
upgrade.currentLevel++;
game.bp -= cost;
bpText.setText(formatBP(game.bp) + " BP");
// If this is a color upgrade, update the UI to reflect dependency status
if (category === 'colors') {
upgrade.currentLevel++;
game.bp -= cost;
bpText.setText(formatBP(game.bp) + " BP");
refreshUpgradeTab('colors');
return true;
}
// Update cost text
if (upgrade.currentLevel >= upgrade.maxLevel) {
costText.setText("SOLD OUT");
} else {
costText.setText(getUpgradeCost(upgrade) + " BP");
}
// Handle specific upgrade effects
if (category === 'player') {
if (key === 'lungCapacity') {
var baseSize = UPGRADE_EFFECTS.lungCapacity.baseValue;
var increasePercent = UPGRADE_EFFECTS.lungCapacity.incrementPercent;
var multiplier = 1 + increasePercent / 100 * upgrade.currentLevel;
game.maxBubbleSize = baseSize * multiplier;
} else if (key === 'quickBreath') {
game.growthRate = UPGRADE_EFFECTS.quickBreath.baseValue * (1 + UPGRADE_EFFECTS.quickBreath.incrementPercent / 100 * upgrade.currentLevel);
}
// Other upgrade effects will be implemented later
}
}
} else {
game.showError("Not enough BP!");
}
return true;
};
// Add elements to the appropriate tab container
tabContainers[tab].addChild(hitContainer);
tabContainers[tab].addChild(nameText);
tabContainers[tab].addChild(costText);
}
// Replace the existing code for creating upgrade texts with this:
Object.keys(tabContainers).forEach(function (tab) {
// Clear any existing content
while (tabContainers[tab].children.length > 0) {
tabContainers[tab].children[0].destroy();
}
// Create left column for this tab
if (tabColumns[tab] && tabColumns[tab].left) {
tabColumns[tab].left.forEach(function (upgrade, index) {
createUpgradeText(upgrade[0], upgrade[1], index, true, tab);
});
}
// Create right column for this tab
if (tabColumns[tab] && tabColumns[tab].right) {
tabColumns[tab].right.forEach(function (upgrade, index) {
createUpgradeText(upgrade[0], upgrade[1], index, false, tab);
});
}
});
// Move the entire text container down by adjusting its Y position
menuTextContainer.y = 0; // This should align it with the top of the panel instead of being above it
menuTextContainer.x = 0; // Center in panel
// Menu state and animation
var menuOpen = false;
var menuTargetY = game.height;
function updateClamVisuals() {
while (clamContainer.children.length) {
clamContainer.children[0].destroy();
}
var leftStart = game.width * 0.1; // Moved further left from 0.15
var rightStart = game.width * 0.9; // Moved further right from 0.85
var spacing = 250; // Increased from 150
var y = game.height - 100;
// We'll store type of each clam position (0-3)
var clamTypes = [];
// Fill with basic clams first
for (var i = 0; i < UPGRADE_CONFIG.machines.basicClam.amount; i++) {
clamTypes.push('basicClam');
}
// Replace some with advanced
for (var i = 0; i < UPGRADE_CONFIG.machines.advancedClam.amount; i++) {
if (clamTypes[i]) {
clamTypes[i] = 'advancedClam';
}
}
// Replace some with premium
for (var i = 0; i < UPGRADE_CONFIG.machines.premiumClam.amount; i++) {
if (clamTypes[i]) {
clamTypes[i] = 'premiumClam';
}
}
// Place clams
game.clamSpawnPoints = [];
clamTypes.forEach(function (type, i) {
var isRight = i % 2 === 1;
var baseX = isRight ? rightStart : leftStart;
var direction = isRight ? -1 : 1;
var position = Math.floor(i / 2);
var x = baseX + direction * position * spacing;
var sprite = LK.getAsset(type, {
anchorX: 0.5,
anchorY: 1,
x: x,
y: y,
scaleX: isRight ? -0.5 : 0.5,
// Flip right-side clams
scaleY: 0.5
});
// Store spawn point for this clam
game.clamSpawnPoints.push({
x: x + (isRight ? -75 : 75),
// 25% from edge
y: y - 50,
// Slightly above clam
type: type,
isRight: isRight
});
clamContainer.addChild(sprite);
});
}
updateClamVisuals();
updateCoralDecorations();
updateTreasureDecorations();
// Add this to the end of the game initialization code, after updating the clam visuals
function updateAllUpgradeTexts() {
// Process left column upgrades
leftColumnUpgrades.forEach(function (upgrade) {
var category = upgrade[0];
var key = upgrade[1];
var upgradeConfig = UPGRADE_CONFIG[category][key];
// Find the cost text for this upgrade
Object.values(tabContainers).forEach(function (tabContainer) {
tabContainer.children.forEach(function (child) {
if (child.text && child.text.includes("BP") && child.y > tabContainer.children.find(function (c) {
return c.text === upgradeConfig.name;
}).y) {
// Check if max level reached
if (upgradeConfig.currentLevel >= upgradeConfig.maxLevel) {
child.setText("SOLD OUT");
}
}
});
});
});
// Process right column upgrades
rightColumnUpgrades.forEach(function (upgrade) {
var category = upgrade[0];
var key = upgrade[1];
if (category === 'machines') {
var upgradeConfig = UPGRADE_CONFIG[category][key];
var totalClams = UPGRADE_CONFIG.machines.basicClam.amount + UPGRADE_CONFIG.machines.advancedClam.amount + UPGRADE_CONFIG.machines.premiumClam.amount;
// Find the cost text for this upgrade
Object.values(tabContainers).forEach(function (tabContainer) {
tabContainer.children.forEach(function (child) {
if (child.text && child.text.includes("BP") && child.y > tabContainer.children.find(function (c) {
return c.text === upgradeConfig.name;
}).y) {
// Check if sold out based on clam logic
if (totalClams >= 4 && key === 'basicClam' || UPGRADE_CONFIG.machines.basicClam.amount <= UPGRADE_CONFIG.machines.advancedClam.amount && key === 'advancedClam' || UPGRADE_CONFIG.machines.advancedClam.amount <= UPGRADE_CONFIG.machines.premiumClam.amount && key === 'premiumClam') {
child.setText("SOLD OUT");
}
}
});
});
} else if (category === 'machine') {
var upgradeConfig = UPGRADE_CONFIG[category][key];
// Find the cost text for this upgrade
Object.values(tabContainers).forEach(function (tabContainer) {
tabContainer.children.forEach(function (child) {
if (child.text && child.text.includes("BP") && child.y > tabContainer.children.find(function (c) {
return c.text === upgradeConfig.name;
}).y) {
// Check if max level reached
if (upgradeConfig.currentLevel >= upgradeConfig.maxLevel) {
child.setText("SOLD OUT");
}
}
});
});
}
});
}
// Call the function after creating all upgrades
updateAllUpgradeTexts();
// Initialize game variables
game.growingBubble = null;
game.lastMouthState = false; // Track previous mouth state
game.mouthOpenDuration = 0; // Track how long mouth has been open
game.MOUTH_OPEN_THRESHOLD = 10; // Frames required with mouth open to start bubble
game.MIN_SPAWN_SIZE = 25; // Minimum initial bubble size
game.blowCooldown = 0; // Cooldown timer between bubble starts
game.BLOW_COOLDOWN_TIME = 15; // Frames to wait between new bubbles
game.maxBubbleSize = 120; // Increased by 30%
game.growthRate = UPGRADE_EFFECTS.quickBreath.baseValue * (1 + UPGRADE_EFFECTS.quickBreath.incrementPercent / 100 * UPGRADE_CONFIG.player.quickBreath.currentLevel);
game.bubblePool = Array(250).fill(null).map(function () {
return new Bubble();
});
game.activeBubbles = [];
game.MAX_BUBBLES = 200; // Active bubble limit
game.bubblePool.forEach(function (bubble) {
game.addChild(bubble);
});
game.baseSpawnRate = 180; // Every 3 seconds
function spawnBubble(x, y, size) {
var direction = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : 0;
var isAutoPop = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : false;
if (game.activeBubbles.length >= game.MAX_BUBBLES) {
return null;
}
// Find first available bubble in pool
var bubble = game.bubblePool.find(function (b) {
return !b.visible;
});
if (!bubble) {
return null;
}
bubble.activate(x, y, size);
if (isAutoPop) {
bubble.verticalVelocity = bubble.floatSpeed;
bubble.driftX = direction * (Math.random() * 0.8 + 0.5);
} else {
bubble.verticalVelocity = -(Math.random() * 2 + 4);
bubble.driftX = direction * (Math.random() * 1.5 + 2);
}
game.activeBubbles.push(bubble);
return bubble;
}
// Initialize game variables
//<Assets used in the game will automatically appear here>
game.bp = 0; // Track total BP
game.combo = 0;
game.lastPopTime = 0;
game.COMBO_WINDOW = 60; // 1 second in frames
function formatBP(value) {
var units = ['', 'K', 'M', 'B', 'T'];
var unitIndex = 0;
while (value >= 1000 && unitIndex < units.length - 1) {
value /= 1000;
unitIndex++;
}
return Math.floor(value * 10) / 10 + units[unitIndex];
}
// Create BP display text (add near game initialization)
var bpText = new Text2("0 BP", {
size: 120,
fill: 0xFFFFFF,
stroke: 0x33caf8,
strokeThickness: 4,
font: "Impact",
fontWeight: "bold"
});
bpText.anchor.set(1, 0);
bpText.x = game.width - 20;
bpText.y = 20;
game.addChild(bpText);
game.addBP = function (points, x, y, isAutoPop) {
var currentTime = LK.ticks;
// Only update combo if it's not an auto-pop
if (!isAutoPop) {
if (currentTime - game.lastPopTime < game.COMBO_WINDOW) {
game.combo++;
points *= 1 + game.combo * 0.1; // 10% bonus per combo
} else {
game.combo = 0;
}
game.lastPopTime = currentTime;
}
// Ensure points is at least 1
points = Math.max(1, Math.floor(points));
game.bp += points;
bpText.setText(formatBP(game.bp) + " BP");
// Set size and color based on point value
var textSize = 96;
var textColor = 0xFFFF00; // Default yellow
if (points > 100) {
textSize = 120;
textColor = 0xFF0000; // Red for >100
} else if (points > 50) {
textSize = 108;
textColor = 0xFFA500; // Orange for 51-100
}
// Always show point text regardless of auto or manual pop
var pointText = new Text2("+" + points, {
size: textSize,
fill: textColor,
font: "Impact",
fontWeight: 'bold'
});
pointText.anchorX = 0.5;
pointText.anchorY = 0.5;
pointText.x = x;
pointText.y = y;
game.addChild(pointText);
tween(pointText, {
y: pointText.y - 100,
alpha: 0
}, {
duration: 1200,
onFinish: function onFinish() {
pointText.destroy();
}
});
// Only show combo text if it's a manual pop and we have a combo
if (!isAutoPop && game.combo > 0) {
var comboText = new Text2("x" + (game.combo + 1), {
size: 96,
fill: 0xFFA500,
stroke: 0x000000,
strokeThickness: 4,
fontWeight: 'bold'
});
comboText.anchorX = 0.5;
comboText.anchorY = 0;
comboText.x = game.width / 2;
comboText.y = 20;
game.addChild(comboText);
tween(comboText, {
alpha: 0
}, {
duration: 500,
onFinish: function onFinish() {
comboText.destroy();
}
});
}
};
game.update = function () {
updateCoralBubbles();
// Update mouth state and duration
if (!game.lastMouthState) {
game.mouthOpenDuration = 0;
}
if (facekit.mouthOpen) {
game.mouthOpenDuration++;
} else {
game.mouthOpenDuration = 0;
}
// Only allow bubble creation if menu is closed and mouth has been open long enough
if (!menuOpen && facekit.mouthOpen && game.mouthOpenDuration >= game.MOUTH_OPEN_THRESHOLD) {
// Only allow new bubbles after cooldown
if (!game.growingBubble && game.blowCooldown <= 0) {
var spawnX = playerMask.x;
var spawnY = playerMask.y + playerMask.height * 0.15;
var sizeVarianceLevel = UPGRADE_CONFIG.player.sizeVariance.currentLevel;
var minSizeMultiplier = 1 + 0.1 * sizeVarianceLevel;
var adjustedMinSize = game.MIN_SPAWN_SIZE * minSizeMultiplier;
game.growingBubble = spawnBubble(spawnX, spawnY, adjustedMinSize, 0, false);
if (game.growingBubble) {
game.blowCooldown = game.BLOW_COOLDOWN_TIME;
}
}
if (game.growingBubble) {
game.growingBubble.x = playerMask.x;
game.growingBubble.y = playerMask.y + playerMask.height * 0.15;
game.growingBubble.size = Math.min(game.growingBubble.size + game.growthRate, game.maxBubbleSize);
game.growingBubble.verticalVelocity = 0;
game.growingBubble.driftX = 0;
}
} else {
if (game.growingBubble) {
// Recalculate float speed and lifetime based on final size
game.growingBubble.floatSpeed = 50 * (120 / game.growingBubble.size * (0.9 + Math.random() * 0.2)) / 60;
game.growingBubble.initLifetime();
// Then apply the release velocity
game.growingBubble.verticalVelocity = -10;
game.growingBubble.driftX = (Math.random() * 2 - 1) * 2.5;
var twinLevel = UPGRADE_CONFIG.player.twinBubbles.currentLevel;
if (twinLevel > 0 && Math.random() < twinLevel * 0.05) {
// 5/10/15% chance based on level
var twinBubble = spawnBubble(game.growingBubble.x + (Math.random() * 40 - 20), game.growingBubble.y + (Math.random() * 40 - 20), game.growingBubble.size * 0.9, game.growingBubble.driftX * 0.8, false);
if (twinBubble) {
// Link the bubbles
game.twinBubbles.push({
bubble1: game.growingBubble,
bubble2: twinBubble,
popped: false,
timestamp: LK.ticks
});
}
}
game.growingBubble = null;
var breathLevel = UPGRADE_CONFIG.player.bubbleBreath.currentLevel;
if (breathLevel > 0) {
// Calculate chances for extra bubbles
var extraBubbles = 0;
// Level 1: 20% for +1
// Level 2: 40% for +1
// Level 3: 60% for +1, 20% for +2
// Level 4: 80% for +1, 40% for +2
var rand = Math.random();
if (rand < breathLevel * 0.2) {
extraBubbles++;
// Check for 2nd extra bubble at level 3-4
if (breathLevel >= 3 && rand < (breathLevel - 2) * 0.2) {
extraBubbles++;
}
}
// Spawn extra bubbles
for (var i = 0; i < extraBubbles; i++) {
var angle = Math.random() * Math.PI * 2;
var distance = 20 + Math.random() * 30;
var extraX = playerMask.x + Math.cos(angle) * distance;
var extraY = playerMask.y + playerMask.height * 0.15 + Math.sin(angle) * distance;
var extraSize = Math.max(game.MIN_SPAWN_SIZE, game.growingBubble.size * (0.6 + Math.random() * 0.2));
var extraBubble = spawnBubble(extraX, extraY, extraSize, 0, false);
if (extraBubble) {
extraBubble.verticalVelocity = -8 - Math.random() * 4;
extraBubble.driftX = Math.random() * 4 - 2;
}
}
}
game.mouthOpenDuration = 0;
}
}
// Update cooldown timer
if (game.blowCooldown > 0) {
game.blowCooldown--;
}
game.lastMouthState = facekit.mouthOpen;
updateClams();
// Inside game.update, after other updates
if (UPGRADE_CONFIG.player.autoPop.currentLevel > 0) {
// 8 seconds (480 frames) base, reduced by 2 seconds (120 frames) per level
if (LK.ticks % Math.max(60, 660 - UPGRADE_CONFIG.player.autoPop.currentLevel * 120) === 0) {
var fish = new Fish();
game.addChild(fish);
}
}
if (game.activeBubbles.length < game.MAX_BUBBLES) {
if (LK.ticks % game.baseSpawnRate == 0) {
var x = Math.random() * (game.width - 200) + 100;
spawnBubble(x, game.height + 100, 100, 0, true);
}
}
// Clean up old twin bubble pairs
game.twinBubbles = game.twinBubbles.filter(function (pair) {
// Remove pairs where both bubbles are gone or time expired (60 frames = 1 second)
if (!pair.bubble1.visible || !pair.bubble2.visible || pair.popped && LK.ticks - pair.timestamp > 60) {
return false;
}
return true;
});
game.activeBubbles.forEach(function (bubble) {
if (bubble.update) {
bubble.update();
}
});
};
// Handle touch/mouse events for the game
game.down = function (x, y, obj) {
var localX = x - menuContainer.x;
var localY = y - menuContainer.y;
// Tab click handling
var tabBounds = {
x: -menuTab.width * menuTab.scaleX / 2,
y: -menuTab.height * menuTab.scaleY,
width: menuTab.width * menuTab.scaleX,
height: menuTab.height * menuTab.scaleY
};
if (localX >= tabBounds.x && localX <= tabBounds.x + tabBounds.width && localY >= tabBounds.y && localY <= tabBounds.y + tabBounds.height) {
menuOpen = !menuOpen;
var targetY = menuOpen ? menuTab.height : game.height;
if (menuOpen) {
game.setChildIndex(menuContainer, game.children.length - 1);
}
tween(menuContainer, {
y: targetY //{9O.1}
}, {
//{9O.2}
duration: 300,
//{9O.3}
easing: tween.easeOutBack,
//{9O.4}
onFinish: function onFinish() {
tabsContainer.visible = menuOpen; // Show/hide tabs based on menu state //{9Q.1}
if (!menuOpen) {
//{9Q.2}
game.setChildIndex(menuContainer, 1); //{9Q.3}
} //{9Q.4}
} //{9Q.5}
});
return true;
}
if (menuOpen) {
return true; // Let containers handle their own clicks
}
// Bubble popping logic remains the same
var popped = false;
// NEW:
for (var i = game.activeBubbles.length - 1; i >= 0; i--) {
var bubble = game.activeBubbles[i];
var dx = x - bubble.x;
var dy = y - bubble.y;
var distance = Math.sqrt(dx * dx + dy * dy);
if (!popped && distance <= bubble.size / 2 + 30 && bubble.down) {
bubble.down();
popped = true;
break;
}
}
};
Images
:quality(85)/https://cdn.frvr.ai/67ba4b7d38fe57e0d4bf9475.png%3F3)
A white bubble with a black outline Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows
:quality(85)/https://cdn.frvr.ai/67bfab127754338fc503f264.png%3F3)
:quality(85)/https://cdn.frvr.ai/67c22f097033e124bf42ebe7.png%3F3)
A filled in white circle.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows
:quality(85)/https://cdn.frvr.ai/67c240d2f2b58146864d0ea7.png%3F3)
A yellow star. Cartoon.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows
:quality(85)/https://cdn.frvr.ai/67c33edae3ef98e836e2092f.png%3F3)
a game logo for a game called 'Bubble Blower Tycoon' about a happy purple pufferfish with yellow fins and spines that builds an underwater empire of bubbles. Cartoon. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows
:quality(85)/https://cdn.frvr.ai/67c34097e3ef98e836e2095a.png%3F3)
an SVG of the word 'Start'. word should be yellow and the font should look like its made out of bubbles. cartoon. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows
:quality(85)/https://cdn.frvr.ai/67c52c6b3591963c82f8bf83.png%3F3)
:quality(85)/https://cdn.frvr.ai/67cb3ceb2dbb4136c61192f7.png%3F3)
A outstretched straight octopus tentacle. Green with purple suckers. Cartoon.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows
:quality(85)/https://cdn.frvr.ai/67cb782f9a1a3019c1ad978e.png%3F3)
:quality(85)/https://cdn.frvr.ai/67cb789e9a1a3019c1ad9792.png%3F3)
:quality(85)/https://cdn.frvr.ai/67cb790e9a1a3019c1ad9796.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e08245e50564a967e16f72.png%3F3)
A colorful underwater coral reef background. Cartoon Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows
:quality(85)/https://cdn.frvr.ai/67e0b732e50564a967e16fe5.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0b774e50564a967e16fe9.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0b7b4e50564a967e16fed.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0b83be50564a967e16ff5.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0b8b7e50564a967e17001.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0b8fee7971efb59b948a3.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0b906e50564a967e17005.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0b94ae50564a967e17009.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0b987e50564a967e1700d.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0b9b1e50564a967e17011.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0b9e5e50564a967e17015.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0ba09e50564a967e17019.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0ba34e50564a967e1701d.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0ba60e50564a967e17021.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0ba8de50564a967e17025.png%3F3)
:quality(85)/https://cdn.frvr.ai/67e0bbe2e50564a967e17062.png%3F3)
A white bubble with a black outline. Pixel art.. Single Game Texture. In-Game asset. 2d. Blank background. High contrast. No shadows
:quality(85)/https://cdn.frvr.ai/67e0bc03e50564a967e17067.png%3F3)
Sounds & Music
🎵
bubblelow
Sound effect
🎶
backgroundmusic
Music
🎵
bubblehigh
Sound effect
🎵
bubble1
Sound effect
🎵
bubble2
Sound effect
🎵
bubble3
Sound effect
🎵
bubble4
Sound effect
🎵
blowing
Sound effect
🎵
bubbleshoot
Sound effect
🎵
fishtank
Sound effect
🎵
menuopen
Sound effect
🎵
upgrade
Sound effect
🎵
jellyfish
Sound effect
🎶
titlemusic
Music
🎵
startbutton
Sound effect
Used plugins
@upit/tween@upit/storage
