Files
LocalAI/backend/python
Ettore Di Giacinto 4bf73a7e22 fix(python-backends): parse tool-call arguments for chat templates and split implicit reasoning blocks
Two bugs broke OpenAI-style tool calling on the MLX backend (and any
Python backend sharing backend/python/common), reproduced end-to-end on
LocalAI v4.5.5 with the metal-mlx backend and
mlx-community/Qwen3.5-2B-MLX-8bit.

messages_to_dicts left each tool call's function.arguments as the raw
OpenAI-wire JSON string. HuggingFace chat templates (e.g. Qwen3.5)
iterate arguments as a mapping (.items()), so any request whose history
contained a prior assistant tool_calls message failed with HTTP 500
"Generation failed: Can only get item pairs from a mapping." — breaking
every agent loop on its second turn. Decode the string back into a dict
so the template sees a mapping.

split_reasoning returned ("", text) whenever the opening think tag was
absent. Models like Qwen3.5 open the assistant turn already inside
thinking, so the generated text carries only the closing </think>; the
whole chain-of-thought leaked into content. When the opener is missing
but the closer is present, treat everything before the closer as
reasoning.

Adds platform-independent unit tests under backend/python/common
(stdlib-only, no MLX/venv required, following parent_watch_test.py).

Assisted-by: Claude Code:claude-opus-4-8
2026-07-03 08:06:59 +00:00
..
2026-04-12 08:51:30 +02:00
2026-04-12 08:51:30 +02:00
2026-04-12 08:51:30 +02:00
2026-04-12 08:51:30 +02:00
2026-04-12 08:51:30 +02:00

Python Backends for LocalAI

This directory contains Python-based AI backends for LocalAI, providing support for various AI models and hardware acceleration targets.

Overview

The Python backends use a unified build system based on libbackend.sh that provides:

  • Automatic virtual environment management with support for both uv and pip
  • Hardware-specific dependency installation (CPU, CUDA, Intel, MLX, etc.)
  • Portable Python support for standalone deployments
  • Consistent backend execution across different environments

Available Backends

Core AI Models

  • transformers - Hugging Face Transformers framework (PyTorch-based)
  • vllm - High-performance LLM inference engine
  • mlx - Apple Silicon optimized ML framework

Audio & Speech

  • coqui - Coqui TTS models
  • faster-whisper - Fast Whisper speech recognition
  • kitten-tts - Lightweight TTS
  • mlx-audio - Apple Silicon audio processing
  • chatterbox - TTS model
  • kokoro - TTS models

Computer Vision

  • diffusers - Stable Diffusion and image generation
  • mlx-vlm - Vision-language models for Apple Silicon
  • rfdetr - Object detection models

Specialized

  • rerankers - Text reranking models

Quick Start

Prerequisites

  • Python 3.10+ (default: 3.10.18)
  • uv package manager (recommended) or pip
  • Appropriate hardware drivers for your target (CUDA, Intel, etc.)

Installation

Each backend can be installed individually:

# Navigate to a specific backend
cd backend/python/transformers

# Install dependencies
make transformers
# or
bash install.sh

# Run the backend
make run
# or
bash run.sh

Using the Unified Build System

The libbackend.sh script provides consistent commands across all backends:

# Source the library in your backend script
source $(dirname $0)/../common/libbackend.sh

# Install requirements (automatically handles hardware detection)
installRequirements

# Start the backend server
startBackend $@

# Run tests
runUnittests

Hardware Targets

The build system automatically detects and configures for different hardware:

  • CPU - Standard CPU-only builds
  • CUDA - NVIDIA GPU acceleration (supports CUDA 12/13)
  • Intel - Intel XPU/GPU optimization
  • MLX - Apple Silicon (M1/M2/M3) optimization
  • HIP - AMD GPU acceleration

Target-Specific Requirements

Backends can specify hardware-specific dependencies:

  • requirements.txt - Base requirements
  • requirements-cpu.txt - CPU-specific packages
  • requirements-cublas12.txt - CUDA 12 packages
  • requirements-cublas13.txt - CUDA 13 packages
  • requirements-intel.txt - Intel-optimized packages
  • requirements-mps.txt - Apple Silicon packages

Configuration Options

Environment Variables

  • PYTHON_VERSION - Python version (default: 3.10)
  • PYTHON_PATCH - Python patch version (default: 18)
  • BUILD_TYPE - Force specific build target
  • USE_PIP - Use pip instead of uv (default: false)
  • PORTABLE_PYTHON - Enable portable Python builds
  • LIMIT_TARGETS - Restrict backend to specific targets

Example: CUDA 12 Only Backend

# In your backend script
LIMIT_TARGETS="cublas12"
source $(dirname $0)/../common/libbackend.sh

Example: Intel-Optimized Backend

# In your backend script
LIMIT_TARGETS="intel"
source $(dirname $0)/../common/libbackend.sh

Development

Adding a New Backend

  1. Create a new directory in backend/python/
  2. Copy the template structure from common/template/
  3. Implement your backend.py with the required gRPC interface
  4. Add appropriate requirements files for your target hardware
  5. Use libbackend.sh for consistent build and execution

Testing

# Run backend tests
make test
# or
bash test.sh

Building

# Install dependencies
make <backend-name>

# Clean build artifacts
make clean

Architecture

Each backend follows a consistent structure:

backend-name/
├── backend.py          # Main backend implementation
├── requirements.txt    # Base dependencies
├── requirements-*.txt  # Hardware-specific dependencies
├── install.sh         # Installation script
├── run.sh            # Execution script
├── test.sh           # Test script
├── Makefile          # Build targets
└── test.py           # Unit tests

Troubleshooting

Common Issues

  1. Missing dependencies: Ensure all requirements files are properly configured
  2. Hardware detection: Check that BUILD_TYPE matches your system
  3. Python version: Verify Python 3.10+ is available
  4. Virtual environment: Use ensureVenv to create/activate environments

Contributing

When adding new backends or modifying existing ones:

  1. Follow the established directory structure
  2. Use libbackend.sh for consistent behavior
  3. Include appropriate requirements files for all target hardware
  4. Add comprehensive tests
  5. Update this README if adding new backend types