Upit | Learn about creating the game California Rush with gen AI

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California Rush

jjmcarrascosa

CaliforniaRush

153

15d

Playit

Drive your Lamborghini on the roads of California. Enjoy the beach, the palms as you show Karen who is the king of the highway!

#RetroRacing

#ArcadeDriving

#PixelRacer

#SpeedChallenge

#driving

#car

#retro

#pixel

Creation History

User prompt

Ok but I need many more roadlines going left and right so that we simulate the separation of lanes

User prompt

Loading Ok now I want you to add perspective to those roadlines. My road is like this / \ and the road lines are / | \ but the further they are from the bottom, the smaller they are. The closer they get to the bottom the bigger.

User prompt

Ok let the lines start a liiitle bit below 50% on y, like 200 pixels below

Code edit (1 edits merged)

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User prompt

All the roadline should start at that position when spawned! Also don't stop spawning road lines continuosly, but always starting from 50% 50%

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Ok the roadlines, should start on 50% x and 50% height of the screen and then go down

Code edit (1 edits merged)

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User prompt

Implement this, but using mypalm and roadline asset and applied to my game engine and how I have my game now // Create Palms const palms = []; for (let i = 0; i < 8; i++) { const palm = new PIXI.Sprite(palmTexture); palm.anchor.set(0.5, 0.5); palm.x = (i % 2 === 0 ? 200 : 568) + Math.random() * 20 - 10; // Left/right side palm.y = 100 + i * 80; // Staggered vertically palm.scale.set(1 - i * 0.07); // Smaller if farther palm.originalX = palm.x; palms.push(palm); palmGroup.addChild(palm); } // Create Road Lines const roadLines = []; for (let i = 0; i < 10; i++) { const line = new PIXI.Sprite(roadLineTexture); line.anchor.set(0.5, 0.5); line.x = app.screen.width / 2; line.y = i * 80; line.scale.set(0.5, 1); roadLines.push(line); roadLineGroup.addChild(line); } // Sway parameters let swayCounter = 0; // Animation loop - maybe in the update? app.ticker.add((delta) => { swayCounter += delta * 0.1; // Move palms palms.forEach((palm, index) => { palm.y += (index < 3 ? 3 : 1) * delta; // Close palms move faster palm.x = palm.originalX + Math.sin(swayCounter + index) * 5; // Sway effect // Reset palms if (palm.y > app.screen.height + 100) { palm.y = -100; palm.originalX = (index % 2 === 0 ? 200 : 568) + Math.random() * 20 - 10; palm.scale.set(1 - Math.random() * 0.3); } }); // Move road lines roadLines.forEach((line) => { line.y += 5 * delta; if (line.y > app.screen.height) { line.y = -20; } }); }); ↪💡 Consider importing and using the following plugins: @upit/tween.v1

User prompt

Create a "palmGroup" container and a "roadLineGroup" container

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Do it

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Remove the game over conditions

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Instead of using the trafficCar asset, select randomly one from: trafficCar, trafficCar1, trafficCar2 or trafficCar3

Code edit (2 edits merged)

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Ok so the speed perception of the trafficCar is reverse. So what should happen is that the car goes slowly as it spawns but then the closer it is to the bottom the quicker it goes

Code edit (1 edits merged)

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User prompt

The speed of the traffic car should gop from slow to quicker as it progresses in its diagonal movement

Code edit (1 edits merged)

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User prompt

The x movement of the trafficCar is broken. I want them to go in diagonal from center to the specific targetX, but they will reach that targetX only when at the bottom of the screen, so should interpolate ↪💡 Consider importing and using the following plugins: @upit/tween.v1

Code edit (1 edits merged)

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User prompt

The final position of a trafficCar should be something either between 300 and 800 or (1200 and 1800)

User prompt

Change how you move the player car, just follow the mouse x position to move left or right, no click needed

Code edit (5 edits merged)

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User prompt

Scale the traffic cars double compared to how it is right now

User prompt

Don't spawn any more traffic cars untli the existing one has disappear

Code edit (1 edits merged)

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

/**** 
* Classes
****/ 
var PlayerCar = Container.expand(function () {
	var self = Container.call(this);
	var carGraphics = self.attachAsset('playerCar', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.width = carGraphics.width;
	self.height = carGraphics.height;
	self.speed = 0;
	self.maxSpeed = 15;
	self.steering = 0;
	self.crashed = false;
	self.crash = function () {
		if (!self.crashed) {
			self.crashed = true;
			LK.getSound('crash').play();
			LK.effects.flashObject(self, 0xFF0000, 1000);
			// Reduce speed on crash
			self.speed = Math.max(0, self.speed - 5);
			// Reset crash state after 1 second
			LK.setTimeout(function () {
				self.crashed = false;
			}, 1000);
		}
	};
	self.update = function () {
		// Handle car physics
		if (!self.crashed) {
			self.speed = Math.min(self.maxSpeed, self.speed + 0.1);
		}
		// Apply steering if not crashed
		if (!self.crashed) {
			self.x += self.steering;
		}
		// Keep car within bounds
		if (self.x < self.width / 2) {
			self.x = self.width / 2;
		}
		if (self.x > 2048 - self.width / 2) {
			self.x = 2048 - self.width / 2;
		}
	};
	return self;
});
var TrafficCar = Container.expand(function () {
	var self = Container.call(this);
	var carGraphics = self.attachAsset('trafficCar', {
		anchorX: 0.5,
		anchorY: 0.5
	});
	self.width = carGraphics.width;
	self.height = carGraphics.height;
	self.speed = 5;
	self.direction = Math.random() > 0.5 ? 1 : -1; // Random direction: -1 = left, 1 = right
	self.startY = 1700; // Starting Y position (further up the screen)
	self.targetY = 2732 + self.height; // Y position when fully off-screen (bottom)
	self.initialScale = 0.1;
	self.targetScale = 2.0;
	// Set target X position in one of the specified ranges
	self.targetX = Math.random() > 0.5 ? Math.random() * 500 + 1500 : Math.random() * 500 + 200;
	// Set initial scale
	self.scale.set(self.initialScale);
	self.update = function () {
		// Calculate progress towards target Y
		var progress = (self.y - self.startY) / (self.targetY - self.startY);
		progress = Math.max(0, Math.min(1, progress)); // Clamp between 0 and 1
		// Interpolate scale based on progress
		var currentScale = self.initialScale + (self.targetScale - self.initialScale) * progress;
		self.scale.set(currentScale);
		// Calculate X position based on progress (linear interpolation)
		var startX = 2048 / 2; // Center of screen
		self.x = startX + (self.targetX - startX) * progress;
		// Update Y position
		self.y += gameSpeed - self.speed;
		// Destroy if off screen
		if (self.y > self.targetY) {
			// Check against targetY
			// Find and remove self from trafficCars array
			var index = trafficCars.indexOf(self);
			if (index > -1) {
				trafficCars.splice(index, 1);
			}
			self.destroy();
		}
	};
	return self;
});

/**** 
* Initialize Game
****/ 
var game = new LK.Game({
	backgroundColor: 0x000000
});

/**** 
* Game Code
****/ 
// Game state variables
var gameSpeed = 10;
var gameStarted = false;
var gameTime = 30; // Initial time in seconds
var distance = 0;
var level = 1;
var checkpointDistance = 500; // Distance between checkpoints
var nextCheckpointAt = checkpointDistance;
var trafficCars = [];
var obstacles = [];
var checkpoints = [];
var timeBonuses = [];
var difficultyTimer;
// Create road
var road = LK.getAsset('road', {
	anchorX: 0.5,
	anchorY: 0.5,
	x: 2048 / 2,
	y: 2732 / 2
});
game.addChild(road);
// Create player car
var player = new PlayerCar();
player.x = 2048 / 2;
player.y = 2732 - 300;
game.addChild(player);
// Create UI elements
var timeText = new Text2('Time: 30', {
	size: 80,
	fill: 0xFFFFFF
});
timeText.anchor.set(0, 0);
LK.gui.topRight.addChild(timeText);
timeText.x = -250; // Offset from right edge
var scoreText = new Text2('Score: 0', {
	size: 80,
	fill: 0xFFFFFF
});
scoreText.anchor.set(0, 0);
LK.gui.top.addChild(scoreText);
var levelText = new Text2('Level: 1', {
	size: 80,
	fill: 0xFFFFFF
});
levelText.anchor.set(0, 0);
LK.gui.topRight.addChild(levelText);
levelText.y = 100; // Offset below time
levelText.x = -250; // Offset from right edge
var startText = new Text2('TAP TO START', {
	size: 120,
	fill: 0xFFFFFF
});
startText.anchor.set(0.5, 0.5);
LK.gui.center.addChild(startText);
// Functions to spawn game elements
function spawnTrafficCar() {
	// Only spawn a new car if there are no cars on screen
	if (trafficCars.length === 0) {
		var car = new TrafficCar();
		car.x = 2048 / 2; // Start in the middle of the screen
		car.y = car.startY; // Start at the defined startY
		car.speed = 3 + Math.random() * 5; // Random speed
		trafficCars.push(car);
		game.addChild(car);
	}
	// Schedule next check for spawning
	var nextSpawnTime = 1000; // Check every second
	LK.setTimeout(spawnTrafficCar, nextSpawnTime);
}
// Start game function
function startGame() {
	gameStarted = true;
	gameTime = 30;
	distance = 0;
	level = 1;
	gameSpeed = 10;
	nextCheckpointAt = checkpointDistance;
	LK.setScore(0);
	// Update UI
	scoreText.setText('Score: 0');
	timeText.setText('Time: ' + Math.ceil(gameTime));
	levelText.setText('Level: ' + level);
	// Remove start text
	LK.gui.center.removeChild(startText);
	// Start spawning game elements
	spawnTrafficCar();
	// Set timer to increase difficulty
	difficultyTimer = LK.setInterval(function () {
		if (gameStarted) {
			level++;
			gameSpeed += 1;
			levelText.setText('Level: ' + level);
		}
	}, 30000); // Increase difficulty every 30 seconds
	// Play background music
	LK.playMusic('bgmusic');
}
// Handle touch input
game.down = function (x, y) {
	if (!gameStarted) {
		startGame();
		return;
	}
};
game.move = function (x, y) {
	if (!gameStarted) {
		return;
	}
	// Move player car directly to mouse X position
	var targetX = x;
	// Apply smooth movement by calculating the difference
	var deltaX = targetX - player.x;
	player.steering = deltaX * 0.1; // Smooth movement factor
};
game.up = function () {
	if (gameStarted) {
		// No need to reset steering as we'll continue to follow mouse
	}
};
// Main game update function
game.update = function () {
	if (!gameStarted) {
		return;
	}
	// Update game time
	gameTime -= 1 / 60; // Assuming 60 FPS
	timeText.setText('Time: ' + Math.ceil(gameTime));
	// Update distance
	if (gameStarted) {
		distance += gameSpeed;
		LK.setScore(Math.floor(distance / 10));
		scoreText.setText('Score: ' + LK.getScore());
	}
	// Check for game over
	if (gameTime <= 0) {
		endGame();
		return;
	}
	// Check collisions with traffic cars
	for (var i = trafficCars.length - 1; i >= 0; i--) {
		var car = trafficCars[i];
		if (player.intersects(car) && !player.crashed) {
			player.crash();
			trafficCars.splice(i, 1);
			car.destroy();
		}
	}
};
function endGame() {
	if (!gameStarted) {
		return;
	}
	gameStarted = false;
	// Save high score
	if (LK.getScore() > storage.highScore) {
		storage.highScore = LK.getScore();
	}
	// Clear any intervals
	LK.clearInterval(difficultyTimer);
	// Show game over
	LK.showGameOver();
}

===================================================================
--- original.js
+++ change.js
@@ -67,9 +67,9 @@
 	self.targetY = 2732 + self.height; // Y position when fully off-screen (bottom)
 	self.initialScale = 0.1;
 	self.targetScale = 2.0;
 	// Set target X position in one of the specified ranges
-	self.targetX = Math.random() > 0.5 ? Math.random() * 500 + 1300 : Math.random() * 500 + 300;
+	self.targetX = Math.random() > 0.5 ? Math.random() * 500 + 1500 : Math.random() * 500 + 200;
 	// Set initial scale
 	self.scale.set(self.initialScale);
 	self.update = function () {
 		// Calculate progress towards target Y