# rabbitizer [![PyPI - Downloads](https://img.shields.io/pypi/dm/rabbitizer)](https://pypi.org/project/rabbitizer/) ![GitHub](https://img.shields.io/github/license/Decompollaborate/rabbitizer) ![GitHub release (latest SemVer)](https://img.shields.io/github/v/release/Decompollaborate/rabbitizer) ![PyPI](https://img.shields.io/pypi/v/rabbitizer) ![crate.io](https://img.shields.io/crates/dv/rabbitizer) ![GitHub contributors](https://img.shields.io/github/contributors/Decompollaborate/rabbitizer?logo=purple) MIPS instruction decoder API. ## Features - Should produce matching assembly. - Fully written in C for fast decoding. - The library is completely allocation-less, in other words `rabbitizer` doesn't allocate in anything in the heap by itself. - Other language bindings supported in this repo: - Python bindings - The minimal Python version is 3.7, older versions are not guaranteed to work. - C++ bindings - Rust bindings - Simple per-word instruction decoding. - The library doesn't try to be too smart by processing multiple instructions at a time. - Can perform validation checks for instructions. - Provides many examination/grouping functions for instructions, allowing to simplify checking characteristics of an instruction and minimizing the need to check for specific instructions in a hardcoded way. - Includes some minor tools to build your own pointer/symbol detection. - Configurable, many features can be turned on and off. - MIPS instructions features: - Named registers for MIPS VR4300's coprocessors. - Support for many pseudo-instructions. - Properly handle move to/from coprocessor instructions. - Support for numeric, o32, n32 and n64 ABI register names. - Some workarounds for some specific compilers/assemblers: - `SN64`: - `div`/`divu` fix: tweaks a bit the produced `div`, `divu` and `break` instructions. - Multiple MIPS architectures are supported: - Main focus on MIPS I, II and III architectures. Partial support for MIPS IV too. - N64 RSP instruction decoding support. - RSP decoding has been tested to build back to matching assemblies with [armips](https://github.com/Kingcom/armips/). - R5900 (PS2's Emotion Engine processor) decoding support. ## Non-features In order to keep it simple and fast the following features will not be added: - Pseudo-instructions which expands to more than one instruction. ## Installing ### Python bindings The recommended way to install is using from the PyPi release, via `pip`: ```bash pip install rabbitizer ``` In case you want to mess with the latest development version without wanting to clone the repository, then you could use the following command: ```bash pip install git+https://github.com/Decompollaborate/rabbitizer.git@develop ``` NOTE: Installing the development version is not recommended. Proceed at your own risk. See this package at . ### Rust bindings Add this crate to your project with Cargo: ```bash cargo add rabbitizer ``` Or you can add it manually to your `Cargo.toml`: ```toml rabbitizer = "1.8.0" ``` See this crate at . ## References - MIPS CPU: - MIPS IV Instruction Set (Revision 3.2): - MIPS Calling Convention Summary: - mipt-mips pseudo instructions: - N64's RSP (Reality Signal Processor): - Nintendo Ultra64 RSP Programmer’s Guide: - N64brew Reality Signal Processor/CPU Core: - R3000 GTE: - PSYQ SDK headers: - no$psx documentation: - no$psx documentation: - - R5900: - EmotionEngine instruction decoding: - Official documentation from Toshiba: - VU instruction manual: - GNU binutils: