- 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.
- Updated wire structure to replace control points with waypoints for better handling of wire paths.
- Introduced new utility functions for wire hit detection and rendering segments.
- Enhanced wire creation process to support dynamic waypoints and color assignment.
- Implemented a new ESP32 worker for improved simulation handling.
- Added utility functions for generating orthogonal paths and auto-coloring wires based on pin names.
- Improved compatibility with existing projects by ensuring backward compatibility with wire data structures.
- Added detailed logging for GPIO changes, system events, and errors in simulation websocket.
- Improved ESP32 firmware handling by merging individual binaries into a single 4MB flash image.
- Updated ESP32 bridge to handle serial output and GPIO changes with appropriate logging.
- Introduced integration test for ESP32 emulation, covering compilation, WebSocket connection, and event handling.
- Enhanced examples to include ESP32 projects and updated the examples gallery to reflect new board types.
- Refactored simulator store to manage ESP32 bridge and simulator instances more effectively.
- Updated requirements to include esptool for ESP32 firmware management.
- Added ESP32 emulation plan and architecture documentation.
- Created `esp_qemu_manager.py` for managing ESP32 QEMU instances.
- Modified backend API routes to support ESP32 firmware loading and GPIO handling.
- Introduced `Esp32Bridge.ts` for frontend communication with ESP32 instances.
- Refactored simulator store to support multiple boards, including Raspberry Pi and Arduino.
- Created `RaspberryPi3Bridge.ts` for WebSocket communication between frontend and backend for Raspberry Pi.
- Updated QEMU manager to handle multiple serial ports for Raspberry Pi GPIO communication.
- Enhanced SimulatorCanvas to render multiple boards and manage wire routing between them.
- Implemented board picker modal for selecting and adding boards to the canvas.
- Updated editor to support multiple file groups per board.
- Added migration logic for loading old project formats into the new multi-board structure.
- Ensured backward compatibility with existing components and functionality.
- Introduced new BoardKind types for Raspberry Pi 3B and updated BoardInstance interface.
- Added BOARD_KIND_LABELS and BOARD_KIND_FQBN mappings for new board types.
- Implemented physical to BCM GPIO mapping for Raspberry Pi 3B in boardPinMapping utility.
- Updated BOARD_COMPONENT_IDS to include Raspberry Pi 3B.
- Enhanced isBoardComponent function to support new board type.
- Modified boardPinToNumber function to handle pin mapping for Raspberry Pi 3B.
- Created a new DocsPage component for project documentation with links to GitHub and Discord.
- Added Arduino sketch for serial communication test between Raspberry Pi and Arduino.
- Implemented avr_runner.js to emulate ATmega328P and bridge serial communication over TCP.
- Developed a Python test script to validate the serial integration between the emulated Raspberry Pi and Arduino.
- Add useOscilloscopeStore with ring-buffer sample storage and channel management
- Add onPinChangeWithTime callback to AVRSimulator (fires on every bit transition with cycle-derived timestamp)
- Add onPinChangeWithTime callback to RP2040Simulator (fires on GPIO state change)
- Wire oscilloscope callbacks in useSimulatorStore (initSimulator + setBoardType)
- Create Oscilloscope React component with canvas-based waveform rendering
- Add oscilloscope panel to EditorPage (resizable bottom panel, same as SerialMonitor)
- Add 'Scope' toggle button to SimulatorCanvas toolbar
Co-authored-by: davidmonterocrespo24 <47928504+davidmonterocrespo24@users.noreply.github.com>
- Introduced ArduinoMega component for rendering in the simulator.
- Updated SimulatorCanvas to handle Arduino Mega board type.
- Enhanced AVRSimulator to support ATmega2560 architecture, including PWM pin mapping and port management.
- Modified PinManager to accommodate Mega's non-linear pin mapping.
- Updated boardPinMapping utility to include Mega analog pins.
- Adjusted Wokwi import/export functionality to recognize and handle Arduino Mega.
- Updated useSimulatorStore to initialize AVRSimulator with the correct board variant.
- Simplified serial data handling in `useSimulatorStore` for both AVR and RP2040 simulators.
- Introduced `boardPinMapping.ts` to map wokwi-element pin names to simulator GPIO/pin numbers for Arduino Uno and Nano RP2040.
- Added `compilationLogger.ts` to parse compile results into structured log entries for better console output.
- Implemented SerialMonitor component to display serial output and allow user input.
- Enhanced AVRSimulator to handle USART communication and transmit serial data.
- Updated useSimulatorStore to manage serial output state and toggle visibility of the Serial Monitor.
- Added example Arduino sketches for serial communication, including Serial Echo and Serial LED Control.
- Introduced I2CBusManager to manage virtual I2C devices and integrated with AVRSimulator.
- Updated components-metadata.json with new generation timestamp.
- Added event handling for button presses and releases in DynamicComponent.
- Improved ExamplesGallery with new styles for placeholders and previews.
- Introduced LCD 20x4 display example with corresponding code and wiring.
- Enhanced SimulatorCanvas to subscribe components to pin changes.
- Implemented PartSimulationRegistry for managing component simulation logic.
- Added basic and complex parts simulation including pushbuttons, LEDs, and LCDs.
- Created utility functions for capturing canvas previews and generating SVG previews for example projects.
- Created a new TypeScript file for component metadata types defining structure for dynamically loaded components.
- Implemented a metadata generator script that scans the wokwi-elements repository to extract component information, including properties and categories.
- Added package.json and package-lock.json for dependency management, including TypeScript and related tools.
- Introduced a new file to log ping statistics for testing purposes.
- Implemented a comprehensive backend test suite in `test_compilation.py` to validate the Arduino CLI installation, AVR core presence, compilation service, and API endpoint functionality.
- Created a frontend test suite in `simulation.test.ts` to test the `PinManager` and `AVRSimulator` components, ensuring proper functionality and integration.
- Introduced new components for wire management in the simulator, including `PinOverlay`, `WireInProgressRenderer`, `WireLayer`, and `WireRenderer`, enhancing the visual wiring system.
- Developed utility functions for pin position calculations and wire color management, ensuring accurate connections and visual representation.
- Added types for wire management in `wire.ts`, defining structures for wire endpoints, control points, and signal types.
- Added SimulatorCanvas component for rendering the simulator interface.
- Integrated Wokwi components (Arduino, LED, Resistor, Pushbutton, Potentiometer) into the simulator.
- Created PinManager to handle pin state changes and notifications.
- Developed AVRSimulator class for emulating Arduino Uno functionality.
- Implemented hex file loading and compilation service.
- Added CSS styles for the simulator interface.
- Established Zustand stores for managing editor and simulator states.
- Created utility functions for parsing Intel HEX format.
- Set up Vite configuration for the frontend project.
- Added batch scripts for starting backend and frontend servers, and updating Wokwi libraries.
David Montero Crespo
copilot-swe-agent[bot]