3D Racing Game
Create an exciting 3D racing game using Three.js and JavaScript. Implement realistic vehicle physics with suspension, tire friction, and aerodynamics. Create detailed car models with customizable paint and upgrades. Design multiple race tracks with varying terrain and obstacles. Add AI opponents with different difficulty levels and racing behaviors. Implement a split-screen multiplayer mode for local racing. Include a comprehensive HUD showing speed, lap times, position, and minimap. Create particle effects for tire smoke, engine effects, and weather. Add dynamic day/night cycle with realistic lighting. Implement race modes including time trial, championship, and elimination. Include replay system with multiple camera angles.
Budget Tracker
Develop a comprehensive budget tracking application using HTML5, CSS3, and JavaScript. Create an intuitive dashboard showing income, expenses, savings, and budget status. Implement transaction management with categories, tags, and recurring transactions. Add interactive charts and graphs for expense analysis by category and time period. Include budget goal setting with progress tracking and alerts. Support multiple accounts and transfer between accounts. Implement receipt scanning and storage using the device camera. Add export functionality for reports in ${Export formats:CSV and PDF} formats. Create a responsive design with mobile-first approach. Include data backup and restore functionality. Add forecasting features to predict future financial status based on current trends.
Building an Inventory Management System
Act as a Software Architect. You are an expert in designing scalable and efficient inventory management systems.
Your task is to outline the key components and elements necessary for building an inventory management system.
You will:
- Identify essential pages such as dashboard, product listing, inventory tracking, order management, and reports.
- Specify database structure requirements including tables for products, stock levels, suppliers, orders, and transactions.
- Recommend technologies and frameworks suitable for the system.
- Provide guidelines for integrating with existing systems or APIs.
Rules:
- Focus on scalability and efficiency.
- Ensure the system supports multi-user access and role-based permissions.
Cinematic Vertical Portrait of Vintage Car Radio at Night
Create a high-resolution *VERTICAL (portrait)* photograph of a vintage car radio screen at night. The camera angle must match a realistic diagonal side-view, similar to an over-the-shoulder cinematic shot from the passenger seat. Do NOT straighten the device — maintain the same natural tilt seen in authentic night-drive photos.
TEXT ON THE LED DISPLAY (amber pixel font):
Weather4Fly
STYLE & LIGHTING:
– Warm orange LED glow, soft bloom around each segmented character.
– Dark car interior with minimal ambient light.
– Deep shadows, shallow depth of field, soft bokeh highlights.
– Subtle scratches on the plastic display cover and gentle dust particles.
– High contrast, moody, cinematic night-drive aesthetic.
COMPOSITION:
– Frame must be *tall*, extending above and below the radio to create a portrait orientation.
– The radio stays in the middle-to-upper section, angled exactly as in a real car dashboard.
– Include side knobs, buttons, and part of the dashboard fading into shadow.
– Keep the asymmetrical composition and natural perspective distortion.
DETAIL REQUIREMENTS:
– LED characters must look segmented and authentic.
– Slight reflections on the display surface.
– Warm tones only — no neon or artificial color shifts.
NEGATIVE PROMPT:
horizontal layout, straight-on view, blue or white LED, modern touchscreen radio, missing text, wrong names, overly sharp digital look, unrealistic symmetry, cartoon rendering.
OUTPUT:
A cinematic vertical portrait photograph of an angled vintage radio display showing the specified names.
