WindMouse is a Python library that generates human-like mouse movements to avoid bot detection in automation scripts. It implements the WindMouse algorithm, which creates realistic, non-linear trajectories with variable speed—mimicking natural human mouse behavior.
Traditional automation tools move the mouse in straight lines at constant speeds, making them easy to detect. WindMouse solves this by:
- ✨ Generating curved, natural-looking paths instead of straight lines
- ⚡ Varying movement speed dynamically throughout the trajectory
- 🎯 Supporting multiple backends: AutoHotkey (Windows) and PyAutoGUI (cross-platform)
- 🧩 Offering fine-grained control over movement physics (gravity, wind, damping)
Perfect for web scraping, game automation, UI testing, or any scenario where you need to simulate realistic human interaction.
Demonstration of the WindMouse algorithm in action.
pip install windmouseuv add windmouseWindMouse supports multiple backends. Choose the one that fits your needs:
For PyAutoGUI (cross-platform):
pip install windmouse[pyautogui]
# or with uv:
uv add "windmouse[pyautogui]"For AutoHotkey (Windows only):
pip install windmouse[ahk]
# or with uv:
uv add "windmouse[ahk]"Install all backends:
pip install windmouse[all]
# or with uv:
uv add "windmouse[all]"Note for Windows + AHK users: You must have AutoHotkey installed on your system to use the
ahkbackend.
from windmouse.pyautogui_controller import PyautoguiMouseController
from windmouse import Coordinate
# Initialize the controller
mouse = PyautoguiMouseController()
# Set destination coordinates
mouse.dest_position = (Coordinate(800), Coordinate(600))
# Move the mouse using WindMouse algorithm
mouse.move_to_target(
tick_delay=0.005, # Small delay between steps
step_duration=0.1 # Duration of each movement step
)from ahk import AHK
from windmouse.ahk_controller import AHKMouseController
from windmouse import Coordinate
# Initialize AHK and controller
ahk = AHK()
mouse = AHKMouseController(ahk)
# Set destination coordinates
mouse.dest_position = (Coordinate(800), Coordinate(600))
# Move the mouse using WindMouse algorithm
mouse.move_to_target(
tick_delay=0.005,
step_duration=0.1
)You can customize the physics of the mouse movement:
from windmouse.pyautogui_controller import PyautoguiMouseController
from windmouse import Coordinate
mouse = PyautoguiMouseController(
gravity_magnitude=9, # Strength of attraction to target (default: 9)
wind_magnitude=3, # Randomness/curvature of path (default: 3)
max_step=15, # Maximum speed (default: 15)
damped_distance=12 # Distance where movement starts to slow (default: 12)
)
mouse.dest_position = (Coordinate(1000), Coordinate(500))
mouse.move_to_target()Hold a mouse button while moving (useful for drag-and-drop operations):
from windmouse import HoldMouseButton
mouse.dest_position = (Coordinate(500), Coordinate(300))
mouse.move_to_target(hold_button=HoldMouseButton.LEFT)📖 Read the Full Documentation on ReadTheDocs
The documentation includes:
- Detailed algorithm explanation and mathematical background
- API reference for all classes and methods
- Advanced usage examples and best practices
- Performance tuning guide
Contributions are welcome! Whether it's bug reports, feature requests, or pull requests—your input helps make WindMouse better.
To contribute:
- Fork the repository
- Create a feature branch (
git checkout -b feature/amazing-feature) - Commit your changes (
git commit -m 'feat: Add amazing feature') - Push to the branch (
git push origin feature/amazing-feature) - Open a Pull Request
Please ensure your code follows the project's style guidelines and includes appropriate tests.
This project is licensed under the MIT License. See the LICENSE file for details.
The WindMouse algorithm is inspired by research on human-computer interaction and originally designed to prevent bot detection in automation scenarios. This implementation brings that algorithm to the Python ecosystem with a clean, extensible API.