# Parallel Development Plan (chat gpt :p) | Task | Developer | Dependencies | | ------------------------------------------- | ------------ | ----------------------------------------------- | | Configure I2C (Master/Slave) | **Person A** | None | | Configure GPIOs (Buttons & LEDs) | **Person B** | None | | Implement button interrupt handling | **Person B** | Needs GPIO setup | | Implement LED countdown sequence | **Person B** | Needs GPIO setup | | Implement I2C send & receive functions | **Person A** | Needs I2C setup | | Implement game state transitions | **Person A** | Needs I2C communication & button press handling | | Implement reaction detection & winner logic | **Person A** | Needs game state management & button interrupts | | Implement LED signals for winner/loser | **Person B** | Needs reaction detection | | Implement game reset logic | **Person A** | Needs winner detection | | Sync both MCUs on game start | **Person A** | Needs I2C and button handling | ## How Each Person Works in Parallel ### **Person A: I2C & Game Logic** - Starts with I2C initialization and communication functions. - Implements game state management (waiting, countdown, reaction, result). - Manages synchronization between the two MCUs. - Detects the winner and resets the game. ### **Person B: Buttons & LEDs** - Sets up buttons and interrupts. - Implements debounce mechanism to avoid false triggers. - Handles the countdown sequence using LEDs. - Displays winner/loser using LEDs. ## Collaboration Strategy 1. **Step 1:** Work independently on separate modules. 2. **Step 2:** Integrate button presses with game state transitions. 3. **Step 3:** Test button presses and countdown independently. 4. **Step 4:** Merge both parts and test full game logic with I2C communication.