- Implemented ArduinoMegaSimulatorPage with detailed specifications, FAQs, and JSON-LD for SEO.
- Created ArduinoSimulatorPage featuring interactive components and a comprehensive FAQ section.
- Developed AtmegaSimulatorPage to simulate ATmega328P with full AVR8 emulation and included relevant FAQs.
- Introduced shared SEOPage.css for consistent styling across all simulator pages.
- Added useSEO utility for managing SEO metadata dynamically across pages.
- Created arduino-nano.svg with detailed PCB, MCU, pins, and components.
- Created arduino-uno.svg with comprehensive design including USB connector, power jack, and pin headers.
- Added board-agnostic sensor registration methods in RP2040Simulator.
- Enhanced ComplexParts to handle LEDC PWM duty updates for ESP32.
- Updated ProtocolParts to check if the simulator handles sensor protocols natively, delegating to backend if applicable.
- Introduced pre-registration of sensors in useSimulatorStore for ESP32 to prevent race conditions.
- Added tests for ESP32 DHT22 sensor registration flow, ensuring proper delegation and fallback mechanisms.
- Created tests for ESP32 Servo and Potentiometer interactions, verifying PWM subscriptions and ADC handling.
- Implemented SensorControlPanel component to allow real-time adjustments of sensor values during simulation.
- Introduced SensorUpdateRegistry for communication between UI and simulation.
- Added configuration for various sensors including sliders and buttons for user interaction.
- Enhanced existing sensor parts to support updates from SensorControlPanel.
- Created CSS styles for the SensorControlPanel layout and controls.
- Introduced a new script `generate_examples.py` to catalog board and sensor combinations, generating TypeScript example stubs for the frontend.
- Updated subproject commit references for `qemu-lcgamboa`, `rp2040js`, and `wokwi-elements` to indicate they are in a dirty state.
- Updated components-metadata.json with new generated timestamp.
- Refactored Esp32C3Simulator.ts to remove unnecessary debug variables and logging, and added support for additional ROM functions.
- Modified useSimulatorStore.ts to clarify bridge usage for ESP32 boards.
- Updated submodules for QEMU and other libraries to indicate dirty state.
- Added test_esp32c3_emulation.py for end-to-end testing of ESP32-C3 emulation, including compilation, flash image merging, and GPIO event checking.
- Added `onPinStateChange` method to `ChipParts` for handling pin state changes in 7-segment displays.
- Updated `useOscilloscopeStore` to allow independent monitoring of multiple boards by adding `boardId` to channels and modifying `addChannel` method.
- Modified `getOscilloscopeCallback` in `useSimulatorStore` to filter channels based on `boardId` and pin number.
- Adjusted component and board position calculations in `useSimulatorStore` to account for wrapper offsets.
- Updated submodule references for `qemu-lcgamboa`, `rp2040js`, and `wokwi-elements` to indicate dirty states.
- Implemented a simple LED blink program in C for the ESP32-C3, targeting RV32IMC architecture.
- Created a linker script to define memory layout for the ESP32-C3.
- Added build script to compile the blink program using the riscv32-esp-elf-gcc toolchain.
- Developed Esp32C3Simulator to emulate ESP32-C3 behavior in the browser, including GPIO and UART functionality.
- Implemented utility functions to parse ESP32 flash images and handle loading of binary data.
- Included disassembly output for debugging purposes.
- Added necessary test fixtures for the blink example.
- Implemented ATtiny85 visual component with DIP-8 layout and built-in LED.
- Added Raspberry Pi Pico W web component using official SVG and pin mapping.
- Created RISC-V Board visual component with SOP-20 style and built-in LED.
- Introduced RiscVCore class for minimal RV32I ISA interpreter with memory model.
- Developed RiscVSimulator class for CH32V003-compatible simulator with UART and GPIO support.
- Updated subproject commits for qemu-lcgamboa, rp2040js, and wokwi-elements to dirty state.
- Add VirtualFileSystem component for managing files and directories.
- Integrate useVfsStore for state management of the virtual file system.
- Implement context menu for file operations: New File, New Folder, Rename, Delete.
- Add upload functionality to send files to Raspberry Pi.
- Create default file structure for new Raspberry Pi boards.
- Enhance editor with board-aware features and compile/run orchestration.
- Introduce CompileAllProgress component for tracking compilation status across boards.
- Redesign SerialMonitor to support multiple boards with tabbed interface.
- Establish Raspberry Pi specific workspace with terminal and file system integration.
David Montero Crespo