Upit | Learn about creating the game Rhythm Reactor with gen AI
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Rhythm Reactor is a fast-paced rhythm-like tap-timing game. Players must tap incoming UI markers as they fall down the screen with precise timing, syncing their taps to the notes. The better the timing, the better the score. Too many missed notes and it's game over
#RhythmGame
#MusicGame
#TapTiming
#BeatMaster
#MusicalReflexes
##UpitMusicContest

Creation History

User prompt

set game over if the player misses 10 notes

User prompt

make the hit feedback messages streak play one of the three sounds at random, hitSound2, hitSound3 and streakSound

User prompt

create two more sounds streakSounds that can play for the hit feedback messages, instead of being just one, it can be one of three at random order

User prompt

create two more sounds that can play for the hit feedback messages, instead of being just one, it can be one of three at random order

User prompt

change the position for the hit feedback messages to be in the top third of the screen

User prompt

Together with the hitStreatk messages add above that message another message saying: "Combo:" +"(number of consecutiveHits)", with the same style of animation color and font

User prompt

why are the perfect notes invisible? set it to visible

User prompt

Together with the hitStreatk messages add above that message another message saying: "Combo:" +"(number of consecutiveHits)", with the same style of animation color and font

Code edit (1 edits merged)

Please save this source code

User prompt

create a variable so I can adjust the hitStreak number that the UI should react to

User prompt

make the notes move slower (decrease the difficulty)

User prompt

make the notes move slower in the y axis, and adapt the x axis movement to match the position of the targetsZone at the position of the target zone

User prompt

make the speed of the disks 2 times slower

User prompt

make it 2 times easier

User prompt

make the movement of the notes in the y axis constant

Code edit (1 edits merged)

Please save this source code

User prompt

create and play a new sound for when the player hit each +5 note streak

User prompt

Add a UI feedback system in the game where, everytime the player successfully hits +5 consecutive notes without missing (example: 5, 10, 15, 20, 25, etc), a message appears in the center of the screen displaying one of the following words: 'WOW!', 'AMAZING!!', 'INCREDIBLE!', 'SPECTACULAR!', 'SUPER!!', 'UNSTOPPABLE!!!'. The message should be bold, dynamic, and visually animated to enhance the feeling of achievement and should appear in the middle of the screen with a golden color, and preferably with a different font ↪💡 Consider importing and using the following plugins: @upit/tween.v1

User prompt

it should be game over if its below 40% accuracy or missed the maxConsecutiveMissesAllowed

Code edit (3 edits merged)

Please save this source code

User prompt

add a variable so I can adjust the max number of consecutive misses

User prompt

Make it be game over if it accuracy is below 40% or you miss more than 5 notes in a row

Code edit (1 edits merged)

Please save this source code

/**** 
* Plugins
****/ 
var tween = LK.import("@upit/tween.v1");
var storage = LK.import("@upit/storage.v1", {
	highScore: 0
});

/**** 
* Classes
****/ 
var Note = Container.expand(function () {
	var self = Container.call(this);
	self.type = 'normal'; // normal, perfect, good
	self.lane = 0; // 0-3 for different lanes
	self.speed = 10; // Base speed
	self.active = true; // Whether note is still active
	self.scored = false; // Whether note has been scored
	self.noteGraphics = null;
	self.perspective = 0; // 0 = distance, 1 = close to screen
	self.baseWidth = 180; // The base width for perspective scaling
	self.baseHeight = 30; // The base height for perspective scaling
	self.distanceZ = 0; // Z-coordinate for 3D perspective (0 = far, 1 = close)
	self.init = function (noteType, laneNum, noteSpeed) {
		self.type = noteType || 'normal';
		self.lane = laneNum || 0;
		self.speed = noteSpeed || 10;
		self.distanceZ = 0; // Start far away
		self.targetX = null; // Target x position for the lane
		self.xSpeed = null; // How fast to move horizontally per frame
		// Create note graphic based on type
		var assetId = 'note';
		if (self.type === 'perfect') {
			assetId = 'perfectNote';
		} else if (self.type === 'good') {
			assetId = 'goodNote';
		}
		self.noteGraphics = self.attachAsset(assetId, {
			anchorX: 0.5,
			anchorY: 0.5,
			alpha: 0.9
		});
		// Apply initial perspective (start small)
		self.updatePerspective(0);
		return self;
	};
	// Update visual perspective based on distance value (0=far, 1=close)
	self.updatePerspective = function (distanceValue) {
		self.distanceZ = distanceValue;
		// Calculate scale based on distance (smaller when far, normal size when close)
		var scale = 0.3 + distanceValue * 0.7; // Scale from 30% to 100%
		// Apply scale to note
		self.noteGraphics.scale.x = scale;
		self.noteGraphics.scale.y = scale;
		// Adjust alpha to fade in as it gets closer
		self.noteGraphics.alpha = 0.5 + distanceValue * 0.5;
	};
	self.update = function () {
		if (!self.active) {
			return;
		}
		// Move note down
		self.y += self.speed;
		// Store last speed for smooth changes
		self.lastSpeed = self.speed;
		// Move note horizontally towards target lane if xSpeed is defined
		if (self.xSpeed) {
			// Calculate remaining distance to target
			var remainingX = self.targetX - self.x;
			// Move towards target, but don't overshoot
			if (Math.abs(remainingX) < Math.abs(self.xSpeed)) {
				self.x = self.targetX; // Arrived at exact position
			} else {
				self.x += self.xSpeed; // Move towards target
			}
		}
		// Calculate perspective based on y position
		// Map y position from starting position to target (2500) to 0-1 perspective value
		var startPos = 2732 / 2 + noteStartY;
		var targetPos = 2500;
		var totalDistance = targetPos - startPos;
		var perspectiveValue = Math.max(0, Math.min(1, (self.y - startPos) / totalDistance));
		self.updatePerspective(perspectiveValue);
		// Check if note passed through target zone and wasn't scored
		var hitY = targetZones[self.lane].y;
		var targetBottom = hitY + targetBoxSize.height / 2;
		// Track when note passes completely through the target zone 
		if (self.y > targetBottom + 50 && !self.scored) {
			// Note passed through target zone without being hit
			self.miss();
		}
		// Check if note is completely out of bounds and hasn't been scored
		else if (self.y > 2732 + 100 && !self.scored) {
			self.miss();
		}
	};
	self.hit = function (accuracy) {
		if (!self.active || self.scored) {
			return;
		}
		self.scored = true;
		self.active = false;
		// Create hit effect
		LK.effects.flashObject(self, 0xFFFFFF, 300);
		if (accuracy === 'perfect') {
			LK.getSound('perfectSound').play();
			tween(self.noteGraphics, {
				alpha: 0,
				scaleX: 1.5,
				scaleY: 1.5
			}, {
				duration: 300,
				onFinish: function onFinish() {
					self.destroy();
				}
			});
		} else if (accuracy === 'good') {
			LK.getSound('hitSound').play();
			tween(self.noteGraphics, {
				alpha: 0,
				scaleX: 1.3,
				scaleY: 1.3
			}, {
				duration: 300,
				onFinish: function onFinish() {
					self.destroy();
				}
			});
		} else {
			LK.getSound('hitSound').play();
			tween(self.noteGraphics, {
				alpha: 0
			}, {
				duration: 200,
				onFinish: function onFinish() {
					self.destroy();
				}
			});
		}
	};
	self.miss = function () {
		if (!self.active || self.scored) {
			return;
		}
		self.scored = true;
		self.active = false;
		// Increment missedNotes counter only if the note passed through target zone
		var hitY = targetZones[self.lane].y;
		var targetTop = hitY - targetBoxSize.height / 2;
		var targetBottom = hitY + targetBoxSize.height / 2;
		var wasInTargetZone = self.y >= targetTop && self.y <= targetBottom;
		if (wasInTargetZone || self.y > targetBottom) {
			// Only count as missed if it was in or passed the target zone
			missedNotes++;
		}
		// Update accuracy display when a note is missed
		scoreDisplay.updateAccuracy(calculateAccuracy());
		scoreDisplay.showFeedback('miss');
		LK.getSound('missSound').play();
		// Change to missed note appearance
		if (self.noteGraphics) {
			self.removeChild(self.noteGraphics);
		}
		self.noteGraphics = self.attachAsset('missedNote', {
			anchorX: 0.5,
			anchorY: 0.5,
			alpha: 0.5
		});
		tween(self.noteGraphics, {
			alpha: 0
		}, {
			duration: 200,
			onFinish: function onFinish() {
				self.destroy();
			}
		});
	};
	return self;
});
var ScoreDisplay = Container.expand(function () {
	var self = Container.call(this);
	self.scoreText = null;
	self.comboText = null;
	self.accuracyText = null;
	self.feedbackText = null;
	self.init = function () {
		// Create score text
		self.scoreText = new Text2('Score: 0', {
			size: 80,
			fill: 0xFFFFFF
		});
		self.scoreText.anchor.set(0.5, 0);
		self.addChild(self.scoreText);
		// Create high score text
		self.highScoreText = new Text2('High Score: ' + highScore, {
			size: 40,
			fill: 0xFFAA00
		});
		self.highScoreText.anchor.set(0.5, 0);
		self.highScoreText.y = 100;
		self.addChild(self.highScoreText);
		// Create accuracy text
		self.accuracyText = new Text2('Accuracy: 0%', {
			size: 40,
			fill: 0xDDDDDD
		});
		self.accuracyText.anchor.set(0.5, 0);
		self.accuracyText.y = 160;
		self.addChild(self.accuracyText);
		// Create feedback text for "Perfect!", "Good!", "Miss!"
		self.feedbackText = new Text2('', {
			size: 90,
			fill: 0xFFFFFF
		});
		self.feedbackText.anchor.set(0.5, 0.5);
		self.feedbackText.y = 300;
		self.addChild(self.feedbackText);
		return self;
	};
	self.updateScore = function (score) {
		self.scoreText.setText('Score: ' + score);
	};
	// Combo update method removed
	self.updateAccuracy = function (accuracy) {
		// Color code the accuracy based on performance
		var color = "#DDDDDD"; // Default color
		if (accuracy >= 90) {
			color = "#00FF00"; // Excellent (green)
		} else if (accuracy >= 75) {
			color = "#FFFF00"; // Good (yellow)
		} else if (accuracy >= 50) {
			color = "#FFA500"; // Fair (orange)
		} else {
			color = "#FF0000"; // Poor (red)
		}
		self.accuracyText.setText('Accuracy: ' + accuracy + '%', {
			fill: color
		});
	};
	self.updateHighScore = function (newHighScore) {
		self.highScoreText.setText('High Score: ' + newHighScore);
	};
	self.showFeedback = function (type) {
		// Clear any existing animations
		tween.stop(self.feedbackText, {
			alpha: true,
			scaleX: true,
			scaleY: true
		});
		var color = "#FFFFFF";
		var text = "";
		if (type === 'perfect') {
			text = "Perfect!";
			color = "#FF4500";
		} else if (type === 'good') {
			text = "Good!";
			color = "#32CD32";
		} else if (type === 'miss') {
			text = "Miss!";
			color = "#888888";
		}
		self.feedbackText.setText(text);
		// Set the text with the new color in the style
		self.feedbackText.setText(text, {
			fill: color
		});
		self.feedbackText.alpha = 1;
		self.feedbackText.scale.set(1.3, 1.3);
		tween(self.feedbackText, {
			alpha: 0,
			scaleX: 1,
			scaleY: 1
		}, {
			duration: 600,
			easing: tween.easeOut
		});
	};
	return self;
});
var TargetZone = Container.expand(function () {
	var self = Container.call(this);
	self.lane = 0;
	self.zoneGraphics = null;
	self.active = false;
	self.pulseTimer = 0;
	self.perspectiveLines = null;
	self.init = function (laneNum) {
		self.lane = laneNum || 0;
		// Create target zone with 3D perspective appearance
		self.zoneGraphics = self.attachAsset('targetZone', {
			anchorX: 0.5,
			anchorY: 0.5,
			alpha: 0.4,
			width: targetBoxSize.width,
			// Use the target box size variable here
			height: targetBoxSize.height
		});
		// Create perspective guide elements to enhance 3D effect
		self.createPerspectiveGuides();
		return self;
	};
	// Add perspective guides to enhance 3D effect
	self.createPerspectiveGuides = function () {
		self.perspectiveLines = new Container();
		self.addChild(self.perspectiveLines);
		// Create 3D perspective indicator lines in the lane
		for (var i = 1; i <= 3; i++) {
			var depth = i * 0.25; // 0.25, 0.5, 0.75 positions
			var lineSize = targetBoxSize.width * (0.4 + depth * 0.6); // Gets larger as it gets closer
			var opacity = 0.15 + (1 - depth) * 0.1; // Fades as it gets closer
			var line = LK.getAsset('targetZone', {
				anchorX: 0.5,
				anchorY: 0.5,
				width: lineSize,
				height: 5,
				alpha: opacity
			});
			// Position lines above the target zone
			line.y = -(400 * depth);
			self.perspectiveLines.addChild(line);
		}
	};
	self.update = function () {
		// Subtle pulsing effect when not active
		if (!self.active) {
			self.pulseTimer += 0.05;
			self.zoneGraphics.alpha = 0.3 + Math.sin(self.pulseTimer) * 0.1;
		}
	};
	self.activate = function () {
		if (self.active) {
			return;
		}
		self.active = true;
		tween(self.zoneGraphics, {
			alpha: 0.8,
			scaleX: 1.1,
			scaleY: 1.1
		}, {
			duration: 100,
			onFinish: function onFinish() {
				self.deactivate();
			}
		});
	};
	self.deactivate = function () {
		self.active = false;
		tween(self.zoneGraphics, {
			alpha: 0.4,
			scaleX: 1.0,
			scaleY: 1.0
		}, {
			duration: 200
		});
	};
	self.down = function (x, y, obj) {
		self.activate();
	};
	return self;
});

/**** 
* Initialize Game
****/ 
var game = new LK.Game({
	backgroundColor: 0x111133
});

/**** 
* Game Code
****/ 
// Default size, will be overridden when initialized
// Game configuration
var laneCount = 4;
var laneWidth = 2048 / laneCount;
var targetBoxSize = {
	width: 500,
	height: 400
}; // Adjustable target zone dimensions
var noteStartY = -800; // Adjustable starting position for notes, default is 200 above screen center
var minNoteSpeed = 5; // Minimum speed of notes at game start
var maxNoteSpeed = 40; // Maximum speed notes can reach
var speedRampUpTime = 60 * 180; // Time in frames to reach max speed (30 seconds at 60fps)
var gameSpeed = minNoteSpeed; // Starting game speed uses minNoteSpeed
var currentLevel = 1;
var difficultyMultiplier = 1.0;
var speedIncreaseInterval = 300; // Frames between speed increases (5 seconds at 60fps)
var speedIncreaseAmount = 0.05; // How much to increase speed each interval
var speedIncreaseMax = maxNoteSpeed / minNoteSpeed; // Maximum speed multiplier derived from min/max speed
var lastSpeedIncreaseTime = 0; // Track last time speed was increased
var beatFrequency = 60; // Frames between beat patterns
var beatVariance = 10; // Random variation in beat timing
var nextBeatFrame = 20; // When to spawn the next beat
var perspectiveEnabled = true; // Enable the perspective effect
var perspectiveHeight = 2000; // Visual height of the 3D perspective lane
// Note spawning configuration
var minNotesPerSecond = 0.05; // Minimum notes per second at game start (at 60fps)
var maxNotesPerSecond = 2.5; // Maximum notes per second the game can reach
var noteRampUpTime = 60 * 240; // Time in frames to reach max notes per second (4 minutes at 60fps)
var currentNotesPerSecond = minNotesPerSecond; // Current notes per second rate
var noteSpawnCounter = 0; // Counter for note spawning logic
// Game state
var score = 0;
var combo = 0;
var maxCombo = 0;
var totalNotes = 0;
var hitNotes = 0;
var missedNotes = 0; // Track notes that passed through target zone and were missed
var perfectHits = 0;
var activeNotes = [];
var targetZones = [];
var gameStarted = false;
var gameOver = false;
var highScore = storage.highScore || 0;
// UI elements
var scoreDisplay;
var startText;
var backgroundShape;
// Add background layers
// First add the back background layer
var backgroundBackShape = game.addChild(LK.getAsset('backgroundBack', {
	anchorX: 0,
	anchorY: 0,
	width: 2048,
	height: 2732
}));
// Background image removed
// Make sure backgroundBackShape is at the bottom of the display stack
game.setChildIndex(backgroundBackShape, 0);
// Create perspective lanes and target zones
function createPerspectiveLane(laneNum) {
	var container = new Container();
	var laneX = laneWidth * (laneNum + 0.5);
	// Add the lane image
	var laneImage = LK.getAsset('noteLane', {
		anchorX: 0.5,
		anchorY: 0,
		alpha: 0.6,
		width: targetBoxSize.width * 0.9 // Make it slightly narrower than target box
	});
	// Position the lane image
	laneImage.y = 500; // Start position
	laneImage.height = perspectiveHeight; // Set lane height
	// Add some subtle perspective effect with gradual fade
	var gradient = [];
	for (var i = 1; i <= 5; i++) {
		var distance = i / 5; // 0.2 to 1.0
		var y = 500 + distance * 1800; // Map to y positions
		var lineOpacity = 0.05 + (1 - distance) * 0.1; // Fade with distance
		// Create lane markers as subtle horizontal lines
		var marker = LK.getAsset('targetZone', {
			anchorX: 0.5,
			anchorY: 0.5,
			width: targetBoxSize.width * (0.4 + distance * 0.6),
			height: 2,
			alpha: lineOpacity
		});
		marker.y = y;
		gradient.push(marker);
		container.addChild(marker);
	}
	// Add lane image last so it appears on top of markers
	container.addChild(laneImage);
	container.x = laneX;
	return container;
}
// Create perspective lanes - use a single lane image background instead of multiple lanes
if (perspectiveEnabled) {
	// Add a single noteLane image spanning the entire width of the game
	var fullLaneImage = LK.getAsset('noteLane', {
		anchorX: 0.5,
		anchorY: 0,
		alpha: 0.6,
		width: 2048,
		// Full game width
		height: perspectiveHeight
	});
	// Position the lane image
	fullLaneImage.x = 2048 / 2; // Center horizontally
	fullLaneImage.y = 500; // Start position
	game.addChild(fullLaneImage);
	// Add subtle lane markers to help with visual guidance
	for (var i = 1; i <= laneCount - 1; i++) {
		// Create divider lines between lanes
		var divider = LK.getAsset('targetZone', {
			anchorX: 0.5,
			anchorY: 0,
			width: 2,
			height: perspectiveHeight,
			alpha: 0.3
		});
		divider.x = laneWidth * i; // Position at lane dividers
		divider.y = 500;
		game.addChild(divider);
	}
}
// Create target zones
for (var i = 0; i < laneCount; i++) {
	var zone = new TargetZone().init(i);
	zone.x = laneWidth * (i + 0.5);
	zone.y = 2500; // Bottom of screen
	targetZones.push(zone);
	game.addChild(zone);
}
// Create and position score display
scoreDisplay = new ScoreDisplay().init();
scoreDisplay.x = 2048 / 2;
scoreDisplay.y = 150;
game.addChild(scoreDisplay);
// Create start text
startText = new Text2('Tap to Start', {
	size: 120,
	fill: 0xFFFFFF
});
startText.anchor.set(0.5, 0.5);
startText.x = 2048 / 2;
startText.y = 2732 / 2;
game.addChild(startText);
// Calculate accuracy as a percentage
function calculateAccuracy() {
	// Base case: if no notes have reached the target zone yet
	if (hitNotes + missedNotes === 0) {
		return 100;
	}
	// Calculate the actual percentage of notes hit versus total notes that passed through the target zone
	return Math.floor(hitNotes / (hitNotes + missedNotes) * 100);
}
// Spawn a new note
function spawnNote() {
	var laneNum = Math.floor(Math.random() * laneCount);
	var noteType = 'normal';
	// 20% chance for a "perfect" note, 30% chance for a "good" note
	var rand = Math.random();
	if (rand < 0.2) {
		noteType = 'perfect';
	} else if (rand < 0.5) {
		noteType = 'good';
	}
	// Use the current game speed (which changes over time) multiplied by difficulty
	var noteSpeed = gameSpeed * difficultyMultiplier;
	var note = new Note().init(noteType, laneNum, noteSpeed);
	note.x = 2048 / 2; // Start at the center of the screen on x axis
	note.y = 2732 / 2 + noteStartY; // Start above center of the screen based on noteStartY variable
	note.targetX = laneWidth * (laneNum + 0.5); // Store target x position
	// Calculate distance to travel in x axis
	var xDistance = note.targetX - note.x;
	// Calculate time to reach target zone based on y distance and speed
	var timeToTarget = (2500 - (2732 / 2 + noteStartY)) / noteSpeed;
	// Calculate how much to move per frame to reach target at the same time as reaching target zone
	note.xSpeed = xDistance / timeToTarget;
	// No immediate tween - will move gradually in update function
	// Apply perspective effect
	if (perspectiveEnabled) {
		// Start with small scale to create distance effect
		note.updatePerspective(0); // 0 = far away
		// Apply entrance animation for perspective effect
		note.noteGraphics.alpha = 0.4; // Start more transparent
		// Apply a grow animation to the note as it appears
		tween(note.noteGraphics, {
			alpha: 0.9
		}, {
			duration: 300,
			easing: tween.easeOut
		});
	}
	activeNotes.push(note);
	game.addChild(note);
	totalNotes++;
	return note;
}
// Generate beat pattern
function generateBeatPattern() {
	var patternLength = Math.min(4, 1 + Math.floor(currentLevel / 2));
	for (var i = 0; i < patternLength; i++) {
		// Stagger notes based on pattern position
		LK.setTimeout(function () {
			if (!gameOver && gameStarted) {
				spawnNote();
			}
		}, i * (200 / difficultyMultiplier));
	}
}
// Check if a note is in the hit zone
function checkNoteHit(laneNum) {
	var hitZone = targetZones[laneNum];
	var hitY = hitZone.y;
	var hitFound = false;
	// Find notes in this lane
	for (var i = 0; i < activeNotes.length; i++) {
		var note = activeNotes[i];
		if (note.lane === laneNum && note.active && !note.scored) {
			// Check if note is inside target zone bounds
			var targetTop = hitY - targetBoxSize.height / 2;
			var targetBottom = hitY + targetBoxSize.height / 2;
			var isInsideTargetZone = note.y >= targetTop && note.y <= targetBottom;
			if (isInsideTargetZone) {
				// Calculate distance from perfect hit position as a percentage of target box height
				var distance = Math.abs(note.y - hitY);
				var distancePercent = distance / (targetBoxSize.height / 2);
				// Different hit zones based on percentage of target box height
				if (distancePercent < 0.3) {
					// Perfect hit - center 30% of target zone
					score += 100;
					hitNotes++;
					perfectHits++;
					note.hit('perfect');
					scoreDisplay.showFeedback('perfect');
					hitFound = true;
					break;
				} else if (distancePercent < 0.7) {
					// Good hit - middle 40% of target zone
					score += 50;
					hitNotes++;
					note.hit('good');
					scoreDisplay.showFeedback('good');
					hitFound = true;
					break;
				} else {
					// Within bounds but not centered - early/late hit at edges of target zone
					score += 10;
					hitNotes++;
					note.hit('early');
					scoreDisplay.showFeedback('good');
					hitFound = true;
					break;
				}
			}
		}
	}
	// If we didn't hit any notes, it's a miss
	if (!hitFound) {
		scoreDisplay.showFeedback('miss');
	}
	// Update score display
	var roundedScore = Math.floor(score);
	scoreDisplay.updateScore(roundedScore);
	maxCombo = Math.max(maxCombo, combo);
	// Check and update high score
	if (roundedScore > highScore) {
		highScore = roundedScore;
		storage.highScore = highScore;
		scoreDisplay.updateHighScore(highScore);
		// Flash high score when new record is set
		if (roundedScore > 0) {
			scoreDisplay.showFeedback("New High Score!");
			LK.effects.flashObject(scoreDisplay.highScoreText, 0xFFFF00, 500);
		}
	}
	// Update accuracy after every note hit
	var accuracy = calculateAccuracy();
	scoreDisplay.updateAccuracy(accuracy);
	return hitFound;
}
// Handle tap on a lane
function handleLaneTap(laneNum) {
	if (!gameStarted || gameOver) {
		return;
	}
	targetZones[laneNum].activate();
	return checkNoteHit(laneNum);
}
// Start the game
function startGame() {
	if (gameStarted) {
		return;
	}
	gameStarted = true;
	game.removeChild(startText);
	// Reset game state
	score = 0;
	combo = 0;
	maxCombo = 0;
	totalNotes = 0;
	hitNotes = 0;
	missedNotes = 0; // Reset missed notes counter
	perfectHits = 0;
	currentLevel = 1;
	difficultyMultiplier = 1.0;
	gameSpeed = minNoteSpeed; // Reset base speed to minimum
	lastSpeedIncreaseTime = 0;
	// Reset note spawning variables
	currentNotesPerSecond = minNotesPerSecond;
	noteSpawnCounter = 0;
	gameOver = false;
	// Update UI
	scoreDisplay.updateScore(score);
	// Initialize accuracy with default 100% at game start
	scoreDisplay.updateAccuracy(100);
	scoreDisplay.updateHighScore(highScore);
	// Initial speed up message
	scoreDisplay.showFeedback("Get Ready!");
	// Start music
	LK.playMusic('gameMusic', {
		fade: {
			start: 0,
			end: 1,
			duration: 1000
		}
	});
	// Set the first beat to spawn soon
	nextBeatFrame = 60;
}
// Check if game should end (based on time or score)
function checkGameOver() {
	// For demo purposes, end game after reaching level 10
	if (currentLevel >= 10 && score >= 10000) {
		endGame(true); // Win
	}
	// Player loses if accuracy drops too low
	if (totalNotes > 20 && calculateAccuracy() < 40) {
		endGame(false); // Lose
	}
}
// End the game
function endGame(win) {
	gameOver = true;
	// Fade out music
	LK.playMusic('gameMusic', {
		fade: {
			start: 1,
			end: 0,
			duration: 800
		}
	});
	// Save high score to storage
	if (score > highScore) {
		highScore = Math.floor(score);
		storage.highScore = highScore;
	}
	// Show game over or win screen based on performance
	if (win) {
		LK.showYouWin();
	} else {
		LK.showGameOver();
	}
}
// Handle lane tap detection - we'll divide the screen into lanes
function getLaneFromPosition(x) {
	return Math.floor(x / laneWidth);
}
// Handle touch events
game.down = function (x, y, obj) {
	if (!gameStarted) {
		startGame();
	} else {
		var lane = getLaneFromPosition(x);
		if (lane >= 0 && lane < laneCount) {
			handleLaneTap(lane);
		}
	}
};
game.update = function () {
	if (!gameStarted) {
		return;
	}
	// Update all active notes
	for (var i = activeNotes.length - 1; i >= 0; i--) {
		var note = activeNotes[i];
		// Remove notes that have been scored and faded out
		if (!note.active && note.scored) {
			activeNotes.splice(i, 1);
		}
	}
	// Update target zones
	for (var j = 0; j < targetZones.length; j++) {
		targetZones[j].update();
	}
	// Calculate note spawning rate based on progress
	if (gameStarted && !gameOver) {
		// Calculate progress for notes per second (separate from speed progress)
		var progressToMaxNoteRate = Math.min(1.0, LK.ticks / noteRampUpTime);
		// Calculate new notes per second rate based on progress between min and max
		currentNotesPerSecond = minNotesPerSecond + (maxNotesPerSecond - minNotesPerSecond) * progressToMaxNoteRate;
		// Calculate frames between notes based on notes per second
		var framesBetweenNotes = Math.floor(60 / currentNotesPerSecond);
		// Spawn notes based on the current rate
		noteSpawnCounter++;
		if (noteSpawnCounter >= framesBetweenNotes) {
			spawnNote();
			noteSpawnCounter = 0;
			// Visual feedback when note rate increases significantly
			if (LK.ticks % 600 === 0 && progressToMaxNoteRate > 0.2) {
				scoreDisplay.showFeedback("More Notes!");
			}
		}
	}
	// Generate new beat patterns at intervals - this is now supplementary to the base note spawning
	if (gameStarted && !gameOver) {
		if (LK.ticks >= nextBeatFrame) {
			generateBeatPattern();
			// Calculate next beat timing with some variance
			var interval = beatFrequency - currentLevel * 5;
			interval = Math.max(interval, 30); // Don't go too fast
			var variance = Math.floor(Math.random() * beatVariance) - beatVariance / 2;
			nextBeatFrame = LK.ticks + interval + variance;
			// Increase difficulty over time
			if (LK.ticks % 600 === 0) {
				// Every 10 seconds
				currentLevel++;
				difficultyMultiplier = 1.0 + currentLevel * 0.2; // Increased from 0.1 to 0.2 for faster speed growth
				// Dynamically increase speed of existing notes
				for (var i = 0; i < activeNotes.length; i++) {
					var note = activeNotes[i];
					if (note.active) {
						// Gradually increase speed over 1 second
						tween(note, {
							speed: gameSpeed * difficultyMultiplier
						}, {
							duration: 1000,
							easing: tween.easeOut
						});
					}
				}
			}
		}
	}
	// Apply continuous speed increase based on game time
	if (gameStarted && !gameOver) {
		// Calculate progress based on time elapsed since start
		var progressToMaxSpeed = Math.min(1.0, LK.ticks / speedRampUpTime);
		// Calculate new game speed based on progress between min and max
		var newGameSpeed = minNoteSpeed + (maxNoteSpeed - minNoteSpeed) * progressToMaxSpeed;
		// Only update if speed changed significantly
		if (Math.abs(gameSpeed - newGameSpeed) > 0.1) {
			// Update game speed
			gameSpeed = newGameSpeed;
			// Update all active notes with tween for smooth speed transition
			for (var k = 0; k < activeNotes.length; k++) {
				var activeNote = activeNotes[k];
				if (activeNote.active) {
					// Apply new speed with smooth tween transition
					tween(activeNote, {
						speed: gameSpeed * difficultyMultiplier
					}, {
						duration: 500,
						easing: tween.easeInOut
					});
				}
			}
			// Visual feedback when speed increases significantly
			if (LK.ticks % 300 === 0) {
				scoreDisplay.showFeedback("Speed Up!");
				// Flash effect on target zones to indicate increased speed
				for (var i = 0; i < targetZones.length; i++) {
					LK.effects.flashObject(targetZones[i], 0xFF4500, 300);
				}
			}
		}
	}
	// Check for game over conditions
	checkGameOver();
};
Showing 1 to 25 of 74
123

Images

A neon circle with glow. In-Game asset. 2d. High contrast. No shadows Minimalistic Neon path like tron and some minimalistic mountains with a gradient. In-Game asset. 2d. High contrast. No shadows a vertical neon lane with perspective. In-Game asset. 2d. High contrast. No shadows

Sounds & Music

🎵

missSound

Sound effect

🎶

gameMusic

Music

🎵

perfectSound

Sound effect

🎵

hitSound

Sound effect

🎵

streakSound

Sound effect

🎵

hitSound2

Sound effect

🎵

hitSound3

Sound effect

Used plugins

@upit/tween@upit/storage
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