Upit | Learn about creating the game Piano Peng with gen AI

/**** * Plugins ****/ var tween = LK.import("@upit/tween.v1"); /**** * Classes ****/ /** * BeatCell * Responsibility: To model the state of a single cell on the beat grid. It no longer * handles its own graphics updates directly, this is delegated to the GridService. */ var BeatCell = Container.expand(function (row) { var self = Container.call(this); self.active = false; self.row = row; // Know its row for external logic to interpret // Initialize with appropriate beat tile at 20% transparency var assetId = 'cell'; if (row === 0) { assetId = 'cellActive'; } else if (row === 1) { assetId = 'cellLeft'; } else if (row === 2) { assetId = 'cellRight'; } else if (row === 3) { assetId = 'cellDown'; } self.gfx = self.attachAsset(assetId, { anchorX: 0.5, anchorY: 0.5, alpha: 0.1 }); self.toggle = function () { self.active = !self.active; }; self.setActive = function (val) { if (self.active !== val) { self.toggle(); } }; // The `down` event is removed and is now handled by the central InputService. return self; }); /** * Coin * Responsibility: Collectible coin that can be picked up by the hero */ var Coin = Container.expand(function () { var self = Container.call(this); self.gfx = self.attachAsset('coin', { anchorX: 0.5, anchorY: 0.5 }); self.collected = false; // Add wobble animation with random offset self.wobbleOffset = Math.random() * Math.PI * 2; // Random starting phase self.wobbleSpeed = 0.0015 + Math.random() * 0.001; // Slightly varied speed self.wobbleAmount = 0.05 + Math.random() * 0.02; // 5-7 degrees in radians self.wobbleDirection = Math.random() > 0.5 ? 1 : -1; // Random initial direction self.baseRotation = 0; self.update = function () { if (!self.collected) { // Calculate wobble using sine wave var time = Date.now() * self.wobbleSpeed + self.wobbleOffset; self.gfx.rotation = self.baseRotation + Math.sin(time) * self.wobbleAmount * self.wobbleDirection; } }; self.collect = function () { if (!self.collected) { self.collected = true; tween(self, { scaleX: 1.5, scaleY: 1.5, alpha: 0 }, { duration: 300, easing: tween.cubicOut, onComplete: function onComplete() { self.destroy(); // checkRoundCompletion(); // removed: collecting a coin no longer completes the level } }); } }; return self; }); /** * AntiCheatService * Responsibility: Manages disabling random cells from each beat layer each round */ /** * Hero * Responsibility: To model the player character. It manages its own state and animations, * but no longer triggers its own sound effects. */ var Hero = Container.expand(function () { var self = Container.call(this); self.gfx = self.attachAsset('hero', { anchorX: 0.5, anchorY: 0.5 }); self.currentCol = 0; self.gridRow = GameConstants.CHAR_ROW; // Track last direction and up-walk alternation self.lastDirection = "down"; // "left", "right", "up", "down" self.lastEat = false; self.upWalkAlt = false; // toggles for up-walk alternation // Helper to set hero frame based on direction and eating state self.setFrame = function (direction, isEating, isUpWalkAlt) { // Only update if changed var assetId = "hero"; if (direction === "left") { assetId = isEating ? "Hero_Left_Eat" : "Hero_Left_Walk"; } else if (direction === "right") { assetId = isEating ? "Hero_Right_Eat" : "Hero_Right_Walk"; } else if (direction === "up") { assetId = isUpWalkAlt ? "Hero_Back_Walk_2" : "Hero_Back_Walk"; } else if (direction === "down") { assetId = "hero"; } // Only swap if different if (!self.gfx.assetId || self.gfx.assetId !== assetId) { if (self.gfx) { self.gfx.destroy(); } self.gfx = self.attachAsset(assetId, { anchorX: 0.5, anchorY: 0.5 }); self.gfx.assetId = assetId; // Track for future checks } self.lastDirection = direction; self.lastEat = isEating; if (direction === "up") { self.upWalkAlt = isUpWalkAlt; } }; self.moveTo = function (nx, ny, duration) { tween(self, { x: nx, y: ny }, { duration: duration || 180, easing: tween.cubicOut }); }; return self; }); /** * Key * Responsibility: Static visual marker for the key */ var Key = Container.expand(function () { var self = Container.call(this); self.gfx = self.attachAsset('key', { anchorX: 0.5, anchorY: 0.5 }); return self; }); /** * Princess * Responsibility: Static visual marker for the princess goal */ var Princess = Container.expand(function () { var self = Container.call(this); self.gfx = self.attachAsset('princess', { anchorX: 0.5, anchorY: 0.5 }); return self; }); /**** * Initialize Game ****/ /************************* * SERVICES *************************/ /** * AudioService * Responsibility: To handle all requests to play sounds and music. */ /************************* * INITIALIZE & RUN GAME *************************/ // 1. Create Game Instance var game = new LK.Game({ backgroundColor: 0x181830 }); /**** * Game Code ****/ // --- Ava: Add flag to delay life removal until after first beat is placed --- /************************* * CORE GAME OBJECTS *************************/ /** * GameGrid * Responsibility: Centralizes the entire grid (playable + beat area) into a single class. * Provides accessors for both the playable area and the beat grid, and manages their state. */ var hasPlacedFirstBeat = false; // Set to true after the player places their first beat // 2. Instantiate All Services /************************* * ASSETS & PLUGINS *************************/ // Assets (Unchanged) // Plugins (Unchanged) /************************* * GAME CONFIGURATION *************************/ /** * GameConstants * Responsibility: To hold all static configuration and magic numbers in one place * for easy tuning and maintenance. */ /** * AntiCheatService * Responsibility: Manages disabling random cells from each beat layer each round */ function AntiCheatService(gridService, gameGrid) { this.gridService = gridService; this.gameGrid = gameGrid; this.disabledCells = []; // Array to store currently disabled cells this.prevDisabledCells = []; // Track previously disabled cells for re-enabling this.cellsPerLayer = 2; // Number of cells to disable per layer this.initialize = function () { // Disable initial cells for round 1 this.disableRandomCells(); }; this.disableRandomCells = function () { // Store previously disabled cells this.prevDisabledCells = this.disabledCells.slice(); this.disabledCells = []; // Process rows in order: up (0), left (1), right (2), down (3) for (var r = 0; r < GameConstants.BEAT_ROWS; r++) { var availableCols = []; // Get all columns for this row, excluding previously disabled ones for (var c = 0; c < GameConstants.GRID_COLS; c++) { var isValid = true; // Check if this column was previously disabled for this row for (var p = 0; p < this.prevDisabledCells.length; p++) { if (this.prevDisabledCells[p].row === r && this.prevDisabledCells[p].col === c) { isValid = false; break; } } // Check minimum distance constraint from already disabled cells in this row for (var d = 0; d < this.disabledCells.length; d++) { if (this.disabledCells[d].row === r) { var distance = Math.abs(this.disabledCells[d].col - c); if (distance < 3) { // Minimum 2 tiles between disabled cells isValid = false; break; } } } // Check diagonal constraint for rows below the first if (r > 0) { // Only check the immediately previous row for diagonal constraints var prevRow = r - 1; for (var d = 0; d < this.disabledCells.length; d++) { if (this.disabledCells[d].row === prevRow) { var prevCol = this.disabledCells[d].col; // Check if this column is diagonally adjacent to a disabled cell in the previous row if (c === prevCol - 1 || c === prevCol || c === prevCol + 1) { isValid = false; break; } } } } if (isValid) { availableCols.push(c); } } // Select cells with minimum distance constraint var selectedCols = []; var attempts = 0; while (selectedCols.length < this.cellsPerLayer && availableCols.length > 0 && attempts < 100) { attempts++; // Pick a random column from available var randomIndex = Math.floor(Math.random() * availableCols.length); var col = availableCols[randomIndex]; // Check if this column maintains minimum distance from already selected var validChoice = true; for (var s = 0; s < selectedCols.length; s++) { if (Math.abs(selectedCols[s] - col) < 3) { validChoice = false; break; } } if (validChoice) { selectedCols.push(col); // Remove this column and nearby columns from available availableCols = availableCols.filter(function (c) { return Math.abs(c - col) >= 3; }); } else { // Remove this column as it's too close availableCols.splice(randomIndex, 1); } } // Disable the selected columns for (var i = 0; i < selectedCols.length; i++) { var col = selectedCols[i]; var cell = this.gameGrid.getBeatCell(r, col); if (cell) { this.disabledCells.push({ row: r, col: col, cell: cell }); // Hide the cell cell.visible = false; } } } }; this.reset = function () { // First, enable ALL cells in the beat grid for (var r = 0; r < GameConstants.BEAT_ROWS; r++) { for (var c = 0; c < GameConstants.GRID_COLS; c++) { var cell = this.gameGrid.getBeatCell(r, c); if (cell) { cell.visible = true; } } } // Clear both arrays to start fresh this.prevDisabledCells = []; this.disabledCells = []; // Disable new random cells with a completely new pattern this.disableRandomCells(); }; // Check if a cell is disabled this.isCellDisabled = function (beatRow, col) { for (var i = 0; i < this.disabledCells.length; i++) { var disabled = this.disabledCells[i]; if (disabled.row === beatRow && disabled.col === col) { return true; } } return false; }; } function GameGrid(game) { this.game = game; this.rows = GameConstants.TOTAL_ROWS; this.cols = GameConstants.GRID_COLS; this.grid = []; // 2D array: [row][col] for all rows (playable + beat) this.beatRows = GameConstants.BEAT_ROWS; this.playableRows = this.rows - this.beatRows; // Initialize grid with nulls for (var r = 0; r < this.rows; r++) { this.grid[r] = []; for (var c = 0; c < this.cols; c++) { this.grid[r][c] = null; } } // Create background visuals for all cells this.initBackground = function () { for (var r = 0; r < this.rows; r++) { for (var c = 0; c < this.cols; c++) { var bgCell = LK.getAsset('emptycell', { anchorX: 0.5, anchorY: 0.5, alpha: 0.3 }); bgCell.x = GameConstants.GRID_LEFT + c * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; bgCell.y = GameConstants.GRID_TOP + r * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; this.game.addChild(bgCell); // No coin creation here } } // No return value needed }; // Create BeatCell objects for the beat grid (bottom rows) this.initBeatGrid = function () { for (var r = 0; r < this.beatRows; r++) { var gridRow = this.playableRows + r; for (var c = 0; c < this.cols; c++) { var cell = new BeatCell(r); cell.x = GameConstants.GRID_LEFT + c * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; cell.y = GameConstants.GRID_TOP + gridRow * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; this.game.addChild(cell); this.grid[gridRow][c] = cell; } } }; // Returns the BeatCell at a given (beatRow, col) in the beat grid this.getBeatCell = function (beatRow, col) { var gridRow = this.playableRows + beatRow; return this.grid[gridRow][col]; }; // Returns the BeatCell at a given (x, y) screen coordinate, or null if not in beat grid this.getBeatCellAt = function (x, y) { for (var r = 0; r < this.beatRows; r++) { var gridRow = this.playableRows + r; for (var c = 0; c < this.cols; c++) { var cell = this.grid[gridRow][c]; if (!cell) { continue; } var cx = GameConstants.GRID_LEFT + c * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; var cy = GameConstants.GRID_TOP + gridRow * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; if (x >= cx - GameConstants.CELL_SIZE / 2 && x <= cx + GameConstants.CELL_SIZE / 2 && y >= cy - GameConstants.CELL_SIZE / 2 && y <= cy + GameConstants.CELL_SIZE / 2) { return cell; } } } return null; }; // Returns true if (row, col) is in the playable area this.isPlayableCell = function (row, col) { return row >= 0 && row < this.playableRows && col >= 0 && col < this.cols; }; // Returns true if (row, col) is in the beat grid this.isBeatCell = function (row, col) { return row >= this.playableRows && row < this.rows && col >= 0 && col < this.cols; }; // Returns the BeatCell 2D array for the beat grid (bottom rows) this.getBeatGrid = function () { var arr = []; for (var r = 0; r < this.beatRows; r++) { arr[r] = []; for (var c = 0; c < this.cols; c++) { arr[r][c] = this.getBeatCell(r, c); } } return arr; }; // Returns the playable area as a 2D array (nulls, or game objects if you want to add them) this.getPlayableGrid = function () { var arr = []; for (var r = 0; r < this.playableRows; r++) { arr[r] = []; for (var c = 0; c < this.cols; c++) { arr[r][c] = this.grid[r][c]; } } return arr; }; // Reset the playable grid with coins in all cells (no hero logic) this.resetGridWithCoins = function () { // Clear existing coins and enemies for (var r = 0; r < this.playableRows; r++) { for (var c = 0; c < this.cols; c++) { if (this.grid[r][c]) { this.grid[r][c].destroy(); this.grid[r][c] = null; } } } // Add new coins to all playable cells var coinCount = 0; for (var r = 0; r < this.playableRows; r++) { for (var c = 0; c < this.cols; c++) { var coin = new Coin(); coin.x = GameConstants.GRID_LEFT + c * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; coin.y = GameConstants.GRID_TOP + r * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; this.game.addChild(coin); this.grid[r][c] = coin; coinCount++; } } return coinCount; }; // Call this to initialize all visuals this.initialize = function () { this.initBeatGrid(); }; // Destroys ALL objects currently managed by the grid (playable and beat) this.destroyAll = function () { for (var r = 0; r < this.rows; r++) { for (var c = 0; c < this.cols; c++) { if (this.grid[r][c] && typeof this.grid[r][c].destroy === 'function') { this.grid[r][c].destroy(); } this.grid[r][c] = null; // Clear the reference } } }; } var GameConstants = { GRID_COLS: 8, TOTAL_ROWS: 10, // Reduced from 11 to remove top row BEAT_ROWS: 4, // +1 for new down row CHAR_ROW: 3, // hero now starts at row 3 (was 4) due to removed top row JUMP_ROW: 2, // up movement now at row 2 (was 3) due to removed top row DOWN_ROW: 1, // new down movement row 1 (was 2) due to removed top row GRID_MARGIN_X: 40, get CELL_SIZE() { return Math.floor((2048 - 2 * this.GRID_MARGIN_X) / this.GRID_COLS); }, get GRID_HEIGHT() { return this.TOTAL_ROWS * this.CELL_SIZE; }, get GRID_TOP() { return 2732 - this.GRID_HEIGHT - 10; }, get GRID_LEFT() { return this.GRID_MARGIN_X; }, get HERO_MIN_X() { return this.GRID_LEFT + this.CELL_SIZE / 2; }, get HERO_MAX_X() { return this.GRID_LEFT + (this.GRID_COLS - 1) * this.CELL_SIZE + this.CELL_SIZE / 2; }, get HERO_START_COL() { return Math.floor(this.GRID_COLS / 2); }, get HERO_START_X() { return this.GRID_LEFT + this.HERO_START_COL * this.CELL_SIZE + this.CELL_SIZE / 2; }, get HERO_START_Y() { return this.GRID_TOP + this.CHAR_ROW * this.CELL_SIZE + this.CELL_SIZE / 2; }, STEP_INTERVAL: 400, // ms per step (150bpm) COIN_SPAWN_BEATS: 8, COIN_SPAWN_CHANCE: 0.25 }; /************************* * SERVICES *************************/ /** * AudioService * Responsibility: To handle all requests to play sounds and music. */ var AudioService = { playBeat: function playBeat() { LK.getSound('beat').play(); }, playBeatUp: function playBeatUp() { LK.getSound('Sound_Up').play(); }, playBeatLeft: function playBeatLeft() { LK.getSound('Sound_Left').play(); }, playBeatRight: function playBeatRight() { LK.getSound('Sound_Right').play(); }, playBeatDown: function playBeatDown() { LK.getSound('Sound_Down').play(); }, playMove: function playMove() { LK.getSound('moveSnd').play(); }, playCoinCollect: function playCoinCollect() { LK.getSound('coinCollect').play(); }, playNewLevel: function playNewLevel() { LK.getSound('NewLevel').play(); }, startMusic: function startMusic() { LK.playMusic('bgmusic', { fade: { start: 0, end: 0.3, duration: 1200 } }); } }; /** * UIService * Responsibility: To create and manage all non-game-grid UI elements, such * as the score text and the step indicators. */ function UIService(game) { this.game = game; this.scoreTxt = null; this.livesTxt = null; // Add property for lives text this.initialize = function () { // Score Text this.scoreTxt = new Text2('0', { size: 100, fill: "#fff" }); this.scoreTxt.anchor.set(0.5, 0); LK.gui.top.addChild(this.scoreTxt); // Lives Icons UI this.livesIcons = []; var iconSpacing = 50; var iconStartX = 120; // leave 100px for menu, then some padding var iconY = 20; for (var i = 0; i < 5; i++) { // Place icons from left to right: leftmost is the first to go, rightmost is the last var icon = LK.getAsset('Live', { anchorX: 0.5, anchorY: 0.5, x: iconStartX + i * iconSpacing, y: iconY, scaleX: 1.0, scaleY: 1.0, alpha: 1.0 }); LK.gui.topLeft.addChild(icon); this.livesIcons.push(icon); } // Create columnHighlights for beat grid rows this.columnHighlights = []; for (var r = 0; r < GameConstants.BEAT_ROWS; r++) { var highlight = LK.getAsset('cellWhite', { anchorX: 0.5, anchorY: 0.5, alpha: 0 // invisible by default }); // Position highlight at the leftmost column, correct row in the beat grid var gridRow = GameConstants.TOTAL_ROWS - GameConstants.BEAT_ROWS + r; highlight.x = GameConstants.GRID_LEFT + GameConstants.CELL_SIZE / 2; highlight.y = GameConstants.GRID_TOP + gridRow * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; highlight.alpha = 0; // invisible by default, semi-transparent when shown this.game.addChild(highlight); this.columnHighlights.push(highlight); } // Hide all highlights at start for (var i = 0; i < this.columnHighlights.length; i++) { this.columnHighlights[i].alpha = 0; } }; this.updateScore = function (newScore) { this.scoreTxt.setText(newScore); }; // Add method to update lives UI this.updateLivesUI = function (currentLives) { // Show only the number of lives left, remove from left to right (leftmost is first to go) for (var i = 0; i < this.livesIcons.length; i++) { // The leftmost icon (index 0) is the first to go, rightmost (index 4) is the last if (i < currentLives) { this.livesIcons[i].alpha = 1.0; this.livesIcons[i].scaleX = 1.0; this.livesIcons[i].scaleY = 1.0; } else { // Animate fade out and shrink for lost life if (this.livesIcons[i].alpha !== 0) { tween(this.livesIcons[i], { alpha: 0, scaleX: 0.5, scaleY: 0.5 }, { duration: 200, easing: tween.cubicIn }); } } } }; // Main Highlighting Logic: highlights inactive cells in the current column this.updateColumnHighlight = function (currentColumnIndex) { // Hide all highlights first for (var i = 0; i < this.columnHighlights.length; i++) { this.columnHighlights[i].alpha = 0; } // Get active states for the current column var activeStates = gridService.getActiveStatesForColumn(currentColumnIndex); // Loop through each row in the beat grid for (var i = 0; i < GameConstants.BEAT_ROWS; i++) { if (!activeStates[i]) { // Position the highlight at the correct cell var gridRow = GameConstants.TOTAL_ROWS - GameConstants.BEAT_ROWS + i; this.columnHighlights[i].x = GameConstants.GRID_LEFT + currentColumnIndex * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; this.columnHighlights[i].y = GameConstants.GRID_TOP + gridRow * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; this.columnHighlights[i].alpha = 0.2; // semi-transparent highlight } } }; } /** * GridService * Responsibility: To create, manage the state of, and update the visuals of the beat grid. */ function GridService(game, gameGrid, antiCheatService) { this.game = game; this.gameGrid = gameGrid; // Centralized grid this.antiCheatService = antiCheatService; this.initialize = function () { this.gameGrid.initialize(); }; // Returns the BeatCell at a given (x, y) screen coordinate, or null if not in beat grid this.getCellAt = function (x, y) { var cell = this.gameGrid.getBeatCellAt(x, y); // Check if cell is disabled by anti-cheat if (cell && this.antiCheatService) { // Find the beat row of this cell var beatRow = cell.row; var col = -1; // Find column for (var c = 0; c < GameConstants.GRID_COLS; c++) { if (this.gameGrid.getBeatCell(beatRow, c) === cell) { col = c; break; } } if (col !== -1 && this.antiCheatService.isCellDisabled(beatRow, col)) { return null; // Return null if cell is disabled } } return cell; }; // Returns an array of booleans representing the active state of each BeatCell in the given column this.getActiveStatesForColumn = function (columnIndex) { var states = []; for (var r = 0; r < GameConstants.BEAT_ROWS; r++) { var gridRow = GameConstants.TOTAL_ROWS - GameConstants.BEAT_ROWS + r; var cell = this.gameGrid.grid[gridRow][columnIndex]; // Check if cell is disabled by anti-cheat var isDisabled = this.antiCheatService && this.antiCheatService.isCellDisabled(r, columnIndex); states.push(cell && cell.active && !isDisabled ? true : false); } return states; }; // Toggle a beat cell, ensuring only one beat per layer per column this.toggleCell = function (cell, mode) { var needsChange = mode === 'add' && !cell.active || mode === 'remove' && cell.active; if (needsChange) { // If adding, remove any other active beat in this column (same col, different row) if (mode === 'add') { var col = null; // Find the column index of this cell for (var c = 0; c < GameConstants.GRID_COLS; c++) { // cell.row is the beat row (0..BEAT_ROWS-1), but grid is [playableRows+row][col] var gridRow = GameConstants.TOTAL_ROWS - GameConstants.BEAT_ROWS + cell.row; if (this.gameGrid.grid[gridRow][c] === cell) { col = c; break; } } if (col !== null) { for (var r = 0; r < GameConstants.BEAT_ROWS; r++) { var gridRow = GameConstants.TOTAL_ROWS - GameConstants.BEAT_ROWS + r; var otherCell = this.gameGrid.grid[gridRow][col]; if (r !== cell.row && otherCell && otherCell.active) { otherCell.setActive(false); this.updateCellVisual(otherCell); } } } } cell.toggle(); this.updateCellVisual(cell); } }; this.updateCellVisual = function (cell) { cell.gfx.destroy(); var assetId = 'cell'; var alpha = 1.0; // Always show the appropriate beat tile based on row if (cell.row === 0) { assetId = 'cellActive'; } else if (cell.row === 1) { assetId = 'cellLeft'; } else if (cell.row === 2) { assetId = 'cellRight'; } else if (cell.row === 3) { assetId = 'cellDown'; } // Set transparency based on active state if (!cell.active) { alpha = 0.1; } cell.gfx = cell.attachAsset(assetId, { anchorX: 0.5, anchorY: 0.5, alpha: alpha }); }; // Returns the actions for a given step (column) by checking the beat grid this.getActiveActionsForStep = function (step) { // The beat grid is in the bottom rows of the grid var actions = { up: false, left: false, right: false, down: false }; for (var r = 0; r < GameConstants.BEAT_ROWS; r++) { var gridRow = GameConstants.TOTAL_ROWS - GameConstants.BEAT_ROWS + r; var cell = this.gameGrid.grid[gridRow][step]; if (!cell) { continue; } // Check if cell is disabled by anti-cheat var isDisabled = this.antiCheatService && this.antiCheatService.isCellDisabled(r, step); if (r === 0) { actions.up = cell.active && !isDisabled; } else if (r === 1) { actions.left = cell.active && !isDisabled; } else if (r === 2) { actions.right = cell.active && !isDisabled; } else if (r === 3) { actions.down = cell.active && !isDisabled; } } return actions; }; } /** * PlayerService * Responsibility: To create and manage the Hero instance, its state, and its actions. * It translates logical actions ("move left") into animations and sound calls. */ function PlayerService(game, gameGrid) { this.game = game; this.gameGrid = gameGrid; this.hero = null; this.reset = function () { if (this.hero) { this.hero.destroy(); this.hero = null; } }; this.initialize = function () { if (this.hero) { this.hero.destroy(); // Destroy old one if it exists } this.hero = new Hero(); // DO NOT set position here. DO NOT add to game here. // That will be handled by startNextRound. }; this.getHeroInstance = function () { return this.hero; }; this.handleDrag = function (x) { this.hero.x = Math.max(GameConstants.HERO_MIN_X, Math.min(GameConstants.HERO_MAX_X, x)); }; this.performActions = function (actions) { var didAction = false; var horizontalMove = 0; var hero = this.hero; var direction = "down"; var isEating = false; var isUpWalkAlt = hero.upWalkAlt || false; if (actions.left && !actions.right) { horizontalMove = -1; direction = "left"; } if (actions.right && !actions.left) { horizontalMove = 1; direction = "right"; } if (actions.up && !actions.down) { direction = "up"; // Alternate up-walk frame isUpWalkAlt = !hero.upWalkAlt; if (horizontalMove !== 0) { this.move(horizontalMove); } this.moveVertical(-1); // Move up didAction = true; } else if (actions.down && !actions.up) { direction = "down"; hero.upWalkAlt = false; // Reset alternation on down if (horizontalMove !== 0) { this.move(horizontalMove); } this.moveVertical(1); // Move down didAction = true; } else if (horizontalMove !== 0) { // Only horizontal direction = horizontalMove === -1 ? "left" : "right"; hero.upWalkAlt = false; // Reset alternation on horizontal this.move(horizontalMove); didAction = true; } // Set hero frame for movement (not eating) hero.setFrame(direction, false, isUpWalkAlt); if (didAction) { // Pop animation: scale up to 1.18, then back to 1.0 tween.stop(hero, { scaleX: true, scaleY: true }); hero.scaleX = 1.0; hero.scaleY = 1.0; tween(hero, { scaleX: 1.1, scaleY: 1.1 }, { duration: 75, easing: tween.cubicOut, onFinish: function onFinish() { tween(hero, { scaleX: 1.0, scaleY: 1.0 }, { duration: 125, easing: tween.cubicIn }); } }); AudioService.playBeat(); } }; this.move = function (direction) { var newCol = this.hero.currentCol + direction; if (newCol < 0) { newCol = GameConstants.GRID_COLS - 1; } if (newCol >= GameConstants.GRID_COLS) { newCol = 0; } this.hero.currentCol = newCol; var nx = GameConstants.GRID_LEFT + newCol * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; this.hero.moveTo(nx, this.hero.y, 180); AudioService.playMove(); }; // Move up or down by 1 row, with vertical teleport at edges of playable area this.moveVertical = function (direction) { var minRow = 0; var maxRow = this.gameGrid.playableRows - 1; // Only teleport within playable area (rows 0-5 after removing top row) var newRow = this.hero.gridRow !== undefined ? this.hero.gridRow : GameConstants.CHAR_ROW; newRow += direction; // Teleport vertically if out of bounds if (newRow < minRow) { newRow = maxRow; } else if (newRow > maxRow) { newRow = minRow; } this.hero.gridRow = newRow; var ny = GameConstants.GRID_TOP + newRow * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; this.hero.moveTo(this.hero.x, ny, 180); AudioService.playMove(); // No longer update GameConstants.CHAR_ROW here; hero.gridRow is the source of truth }; } /** * InputService * Responsibility: To handle all raw user input (down, up, move) and delegate * the appropriate actions to other services (GridService, PlayerService). */ function InputService(gridService, playerService) { this.gridService = gridService; this.playerService = playerService; this.isPainting = false; this.paintMode = null; this.lastPaintedCell = null; this.dragHero = false; this.handleDown = function (x, y) { var cell = this.gridService.getCellAt(x, y); if (cell) { this.isPainting = true; this.paintMode = cell.active ? 'remove' : 'add'; this.lastPaintedCell = cell; this.gridService.toggleCell(cell, this.paintMode); // --- Ava: Set hasPlacedFirstBeat to true on first beat placement --- if (!hasPlacedFirstBeat) { hasPlacedFirstBeat = true; } } else { var hero = this.playerService.getHeroInstance(); var dx = x - hero.x, dy = y - hero.y; if (dx * dx + dy * dy < 200 * 200) { this.dragHero = true; } } }; this.handleUp = function () { this.isPainting = false; this.paintMode = null; this.lastPaintedCell = null; this.dragHero = false; }; this.handleMove = function (x, y) { if (this.isPainting) { var cell = this.gridService.getCellAt(x, y); if (cell && cell !== this.lastPaintedCell) { this.lastPaintedCell = cell; this.gridService.toggleCell(cell, this.paintMode); } } else if (this.dragHero) { this.playerService.handleDrag(x); } }; } /** * SequencerService * Responsibility: To manage the main game loop timing (the "beat"). On each step, * it orchestrates calls to the other services to update the game state. */ function SequencerService(gridService, playerService, uiService) { this.gridService = gridService; this.playerService = playerService; this.uiService = uiService; this.currentStep = 0; this.lastStepTime = 0; this.playing = true; this.comboMultiplier = 1; this.collectedThisBeat = false; this.prevComboMultiplier = 1; // Previous Fibonacci number this.comboCount = 0; // Track position in Fibonacci sequence this.enemyCellRow = undefined; // Track enemy cell position this.enemyCellCol = undefined; // Track enemy cell position this.levelTransitioning = false; // Add this new flag // --- Life system state --- this.lives = 5; this.collectedInSequence = false; // Tracks if a coin was collected in the current 8-beat loop this.initialize = function () { this.lastStepTime = Date.now(); }; this.update = function () { var now = Date.now(); if (this.playing && now - this.lastStepTime >= GameConstants.STEP_INTERVAL) { this.lastStepTime = now; // 1. UPDATE HIGHLIGHT FIRST for the current step this.uiService.updateColumnHighlight(this.currentStep); // 2. THEN, advance the step to the next beat this.currentStep = (this.currentStep + 1) % GameConstants.GRID_COLS; // 3. FINALLY, perform actions for the new step. this.doStepActions(); } }; this.doStepActions = function () { // Reset collection flag for this beat this.collectedThisBeat = false; // Get actions for the PREVIOUS step (the one the highlight just left) var previousStep = (this.currentStep - 1 + GameConstants.GRID_COLS) % GameConstants.GRID_COLS; // --- NEW LIFE LOGIC --- // Check if a full sequence has just ended (i.e., we're about to play beat 0) if (previousStep === GameConstants.GRID_COLS - 1) { // --- Ava: Only start life removal after the first beat has been placed AND the first sequence after that has ended --- if (hasPlacedFirstBeat) { // Use a new flag to delay life removal until the sequence AFTER the first beat is placed if (typeof this.hasStartedLifeCounting === "undefined") { this.hasStartedLifeCounting = false; } if (!this.hasStartedLifeCounting) { // The first sequence after placing a beat, just set the flag, don't deduct a life this.hasStartedLifeCounting = true; } else { if (!this.collectedInSequence) { // Player failed to collect a coin in the last 8 beats. Deduct a life. this.lives--; uiService.updateLivesUI(this.lives); // Update the visual display if (this.lives <= 0) { // Wait for the last Live icon to finish its animation before showing game over var lastIcon = uiService.livesIcons[uiService.livesIcons.length - 1]; // Defensive: If already invisible, just show game over immediately if (lastIcon.alpha === 0) { LK.showGameOver(); return; // Stop the game } else { // Animate the last icon out, then trigger game over in the onComplete tween(lastIcon, { alpha: 0, scaleX: 0.5, scaleY: 0.5 }, { duration: 200, easing: tween.cubicIn, onComplete: function onComplete() { LK.showGameOver(); } }); return; // Stop the game } } } } } // Reset the flag for the new sequence. this.collectedInSequence = false; } // --- END NEW LIFE LOGIC --- var actions = this.gridService.getActiveActionsForStep(previousStep); // Play beat sounds for the previous step if (actions.up) { AudioService.playBeatUp(); } else if (actions.left) { AudioService.playBeatLeft(); } else if (actions.right) { AudioService.playBeatRight(); } else if (actions.down) { AudioService.playBeatDown(); } else { AudioService.playBeat(); } // Animate active beat cells for the previous step for (var r = 0; r < GameConstants.BEAT_ROWS; r++) { var cell = gameGrid.getBeatCell(r, previousStep); if (cell && cell.active && !antiCheatService.isCellDisabled(r, previousStep)) { // Create bump animation: scale up to 110% then back to 100% tween(cell, { scaleX: 1.1, scaleY: 1.1 }, { duration: 100, easing: tween.easeOut, onFinish: function (targetCell) { return function () { tween(targetCell, { scaleX: 1.0, scaleY: 1.0 }, { duration: 100, easing: tween.easeIn }); }; }(cell) }); } } // Store hero's previous position before performing actions var hero = this.playerService.getHeroInstance(); var prevHeroRow = hero.gridRow; var prevHeroCol = hero.currentCol; // Perform actions for the previous step this.playerService.performActions(actions); // Check if hero was on an enemy cell and has now moved away if (this.enemyCellRow !== undefined && this.enemyCellCol !== undefined) { // Check if hero has moved to a different cell if (hero.gridRow !== this.enemyCellRow || hero.currentCol !== this.enemyCellCol) { // Hero has left the enemy cell - trigger game over LK.showGameOver(); return; // Exit early } } // Check for coin collection, key, princess, or enemy collision at current position var heroRow = hero.gridRow; var heroCol = hero.currentCol; var entity = gameGrid.grid[heroRow][heroCol]; if (entity) { // --- Key logic --- if (entity instanceof Key) { playerHasKey = true; AudioService.playNewLevel(); // Play a special sound for key collection (reuse NewLevel for now) entity.destroy(); gameGrid.grid[heroRow][heroCol] = null; // --- Treat key as coin for score and sequencer logic --- this.collectedInSequence = true; // Mark as collected for life logic collectedCoins++; // Increment collected coins // Apply combo multiplier to score (incremental: 1,2,3...) var points = this.comboMultiplier; LK.setScore(LK.getScore() + points); uiService.updateScore(LK.getScore()); // Combo logic this.collectedThisBeat = true; this.comboMultiplier++; this.comboCount++; } // --- Princess logic --- else if (entity instanceof Princess) { if (playerHasKey && !this.levelTransitioning) { this.levelTransitioning = true; // Animate hero moving into the princess cell before starting next round var princessX = entity.x; var princessY = entity.y; var hero = this.playerService.getHeroInstance(); // Move hero to princess cell with a short tween, then start next round tween(hero, { x: princessX, y: princessY }, { duration: 220, easing: tween.cubicOut, onComplete: function onComplete() { startNextRound(); } }); return; } // If player doesn't have key, do nothing (can't win yet) } // --- Coin logic --- else if (entity.collect) { // It's a coin - clear any enemy tracking this.enemyCellRow = undefined; this.enemyCellCol = undefined; entity.collect(); this.collectedInSequence = true; // <-- ADD THIS LINE gameGrid.grid[heroRow][heroCol] = null; // Track collected coins collectedCoins++; // We need to manually track collected coins again // --- NEW PRINCESS SPAWNING LOGIC --- // Check if we've collected enough coins AND the princess hasn't spawned yet AND player has the key. if (!princessHasSpawned && totalCoins > 0 && collectedCoins / totalCoins > 0.51 && playerHasKey) { princessHasSpawned = true; // Set flag immediately to prevent multiple spawns // Find a random empty cell to spawn the princess var emptyCells = []; for (var r = 0; r < gameGrid.playableRows; r++) { for (var c = 0; c < GameConstants.GRID_COLS; c++) { // An empty cell has no object in it if (gameGrid.grid[r][c] === null) { emptyCells.push({ row: r, col: c }); } } } if (emptyCells.length > 0) { var spawnCell = emptyCells[Math.floor(Math.random() * emptyCells.length)]; var princess = new Princess(); princess.x = GameConstants.GRID_LEFT + spawnCell.col * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; princess.y = GameConstants.GRID_TOP + spawnCell.row * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; game.addChild(princess); gameGrid.grid[spawnCell.row][spawnCell.col] = princess; // Optional: Play a special sound effect here AudioService.playNewLevel(); } } // --- END NEW PRINCESS SPAWNING LOGIC --- // Apply combo multiplier to score (incremental: 1,2,3...) var points = this.comboMultiplier; LK.setScore(LK.getScore() + points); uiService.updateScore(LK.getScore()); AudioService.playCoinCollect(); // Set hero frame to Eat variant for this direction var eatDirection = hero.lastDirection || "down"; var eatUpWalkAlt = hero.upWalkAlt || false; if (eatDirection === "down") { // Show hero_2 when eating facing camera, then revert to hero hero.gfx.destroy(); hero.gfx = hero.attachAsset('hero_2', { anchorX: 0.5, anchorY: 0.5 }); hero.gfx.assetId = "hero_2"; LK.setTimeout(function () { hero.setFrame("down", false, false); }, 299); } else { hero.setFrame(eatDirection, true, eatUpWalkAlt); // After 299ms, revert to walk frame (not eating) LK.setTimeout(function () { hero.setFrame(eatDirection, false, eatUpWalkAlt); }, 299); } // Mark that we collected a coin this beat this.collectedThisBeat = true; // Increment combo multiplier by 1 for each consecutive coin this.comboMultiplier++; this.comboCount++; // Do NOT call checkRoundCompletion here! Only call it when the coin is actually destroyed by the projectile or collected by the hero. } } else { // No entity at current position - clear any enemy tracking this.enemyCellRow = undefined; this.enemyCellCol = undefined; // No coin collected - reset combo if we had one if (this.comboMultiplier > 1) { this.comboMultiplier = 1; this.comboCount = 0; } } }; } var currentRound = 1; var totalCoins = 0; var collectedCoins = 0; var playerHasKey = false; // Track if player has the key for win condition var princessHasSpawned = false; // Ensure princess only spawns once per round // (Projectile Counter UI removed) /** * Resets the game state and starts the next round. */ function startNextRound() { // --- Step A: Full System Reset --- // 1. Destroy ALL objects on the grid (playable AND beat cells). gameGrid.destroyAll(); // 2. Destroy the old hero. playerService.reset(); // --- Step B: Reset Game State --- currentRound++; collectedCoins = 0; totalCoins = 0; playerHasKey = false; hasPlacedFirstBeat = false; // Ava: Reset flag for new round if (sequencerService && typeof sequencerService.hasStartedLifeCounting !== "undefined") { sequencerService.hasStartedLifeCounting = false; } // --- Ava: Reset lives to full at the start of each round --- if (sequencerService) { sequencerService.lives = 5; if (uiService && typeof uiService.updateLivesUI === "function") { uiService.updateLivesUI(5); } } // --- Step C & D: Create and Shuffle the Cell Pool --- var cellPool = []; for (var r = 0; r < gameGrid.playableRows; r++) { for (var c = 0; c < GameConstants.GRID_COLS; c++) { cellPool.push({ row: r, col: c }); } } // Shuffle the pool for (var i = cellPool.length - 1; i > 0; i--) { var j = Math.floor(Math.random() * (i + 1)); var temp = cellPool[i]; cellPool[i] = cellPool[j]; cellPool[j] = temp; } // --- Step E: Rebuild the World --- // 1. Re-initialize the background graphics. This must happen first. gameGrid.initBackground(); // 2. Re-initialize the NEW beat grid. gameGrid.initBeatGrid(); // 3. Initialize the NEW hero and get a reference to it. playerService.initialize(); var hero = playerService.getHeroInstance(); // 4. Place the Hero. (We need to update playerService.initialize to not place it randomly) var heroCell = cellPool.shift(); hero.gridRow = heroCell.row; hero.currentCol = heroCell.col; hero.x = GameConstants.GRID_LEFT + heroCell.col * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; hero.y = GameConstants.GRID_TOP + heroCell.row * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; game.addChild(hero); // Place the Key var keyCell = cellPool.shift(); var key = new Key(); // Reset princessHasSpawned for the new round princessHasSpawned = false; key.x = GameConstants.GRID_LEFT + keyCell.col * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; key.y = GameConstants.GRID_TOP + keyCell.row * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; game.addChild(key); gameGrid.grid[keyCell.row][keyCell.col] = key; // --- Step F: Fill the Rest with Coins --- // Place a coin in every empty playable cell (not occupied by hero, princess, key, or enemy) totalCoins = 0; for (var r = 0; r < gameGrid.playableRows; r++) { for (var c = 0; c < GameConstants.GRID_COLS; c++) { // Prevent coin from spawning in the hero's cell if (!gameGrid.grid[r][c] && !(r === heroCell.row && c === heroCell.col)) { var coin = new Coin(); coin.x = GameConstants.GRID_LEFT + c * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; coin.y = GameConstants.GRID_TOP + r * GameConstants.CELL_SIZE + GameConstants.CELL_SIZE / 2; game.addChild(coin); gameGrid.grid[r][c] = coin; totalCoins++; } else if (gameGrid.grid[r][c] && gameGrid.grid[r][c].collect && !gameGrid.grid[r][c].collected) { totalCoins++; } } } // 1. Reset the Anti-Cheat Service for the new grid layout. antiCheatService.reset(); // 2. Reset all beat grid cells to inactive so no beats remain from the previous level. for (var r = 0; r < GameConstants.BEAT_ROWS; r++) { for (var c = 0; c < GameConstants.GRID_COLS; c++) { var cell = gameGrid.getBeatCell(r, c); if (cell && cell.active) { cell.setActive(false); gridService.updateCellVisual(cell); } } } // 3. Play the sound. sequencerService.levelTransitioning = false; // <-- RESET THE FLAG AudioService.playNewLevel(); } /** * Checks if the round is complete and triggers the next round if it is. * This function will be called whenever a coin is collected. */ function checkRoundCompletion() { // No longer used for level completion } // --- Patch coin collection logic to update counter and reset on projectile fire --- // We'll patch the doStepActions method in SequencerService below var uiService = new UIService(game); var gameGrid = new GameGrid(game); var antiCheatService = new AntiCheatService(null, gameGrid); // Initialize before gridService var gridService = new GridService(game, gameGrid, antiCheatService); var playerService = new PlayerService(game, gameGrid); // Do NOT call playerService.initialize() here; hero creation is handled in startNextRound only. var inputService = new InputService(gridService, playerService); var sequencerService = new SequencerService(gridService, playerService, uiService); // 3. Initialize Services in correct order uiService.initialize(); sequencerService.initialize(); antiCheatService.initialize(); // Set currentRound to 0 so first call to startNextRound makes it 1 currentRound = 0; startNextRound(); // 4. Connect Input Handlers to the Input Service game.down = function (x, y) { inputService.handleDown(x, y); }; game.up = function (x, y) { inputService.handleUp(x, y); }; game.move = function (x, y) { inputService.handleMove(x, y); }; // 5. Set Main Game Loop to the Sequencer Service game.update = function () { sequencerService.update(); }; // 6. Start background music AudioService.startMusic(); ; ; // End of file. All round/game start logic is now centralized in startNextRound.

===================================================================
--- original.js
+++ change.js
@@ -595,13 +595,13 @@
 		var iconSpacing = 50;
 		var iconStartX = 120; // leave 100px for menu, then some padding
 		var iconY = 20;
 		for (var i = 0; i < 5; i++) {
-			// Place icons from right to left: rightmost is the last to go
+			// Place icons from left to right: leftmost is the first to go, rightmost is the last
 			var icon = LK.getAsset('Live', {
 				anchorX: 0.5,
 				anchorY: 0.5,
-				x: iconStartX + (4 - i) * iconSpacing,
+				x: iconStartX + i * iconSpacing,
 				y: iconY,
 				scaleX: 1.0,
 				scaleY: 1.0,
 				alpha: 1.0
@@ -637,9 +637,9 @@
 	this.updateLivesUI = function (currentLives) {
 		// Show only the number of lives left, remove from left to right (leftmost is first to go)
 		for (var i = 0; i < this.livesIcons.length; i++) {
 			// The leftmost icon (index 0) is the first to go, rightmost (index 4) is the last
-			if (i >= 5 - currentLives) {
+			if (i < currentLives) {
 				this.livesIcons[i].alpha = 1.0;
 				this.livesIcons[i].scaleX = 1.0;
 				this.livesIcons[i].scaleY = 1.0;
 			} else {

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