Utils for Synthesis Planning
SynUtils is a collection of tools designed to support the planning and execution of chemical synthesis.
Our tools are tailored to assist researchers and chemists in navigating complex chemical reactions and synthesis pathways, leveraging the power of modern computational chemistry. Whether you're designing novel compounds or optimizing existing processes, SynUtils aims to provide the critical tools you need.
For more details on each utility within the repository, please refer to the documentation provided in the respective folders.
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Python Installation: Ensure that Python 3.11 or later is installed on your system. You can download it from python.org.
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Creating a Virtual Environment (Optional but Recommended): It's recommended to use a virtual environment to avoid conflicts with other projects or system-wide packages. Use the following commands to create and activate a virtual environment:
python -m venv synutils-env
source synutils-env/bin/activate Or Conda
conda create --name synutils-env python=3.11
conda activate synutils-env- Install from PyPi: The easiest way to use SynTemp is by installing the PyPI package synutility.
pip install synutility
Optional if you want to install full version
pip install synutility[all]
We're welcoming new contributors to build this project better. Please not hesitate to inquire me via [email][tieu@bioinf.uni-leipzig.de].
Before you start, ensure your local development environment is set up correctly. Pull the latest version of the main branch to start with the most recent stable code.
git checkout main
git pull-
Create a New Branch:
For every new feature or bug fix, create a new branch from themainbranch. Name your branch meaningfully, related to the feature or fix you are working on.git checkout -b feature/your-feature-name
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Develop and Commit Changes:
Make your changes locally, commit them to your branch. Keep your commits small and focused; each should represent a logical unit of work.git commit -m "Describe the change" -
Run Quality Checks:
Before finalizing your feature, run the following commands to ensure your code meets our formatting standards and passes all tests:./lint.sh # Check code format pytest Test # Run tests
Fix any issues or errors highlighted by these checks.
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Rebase onto Staging:
Once your feature is complete and tests pass, rebase your changes onto thestagingbranch to prepare for integration.git fetch origin git rebase origin/staging
Carefully resolve any conflicts that arise during the rebase.
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Push to Your Feature Branch: After successfully rebasing, push your branch to the remote repository.
git push origin feature/your-feature-name
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Create a Pull Request: Open a pull request from your feature branch to the
staggingbranch. Ensure the pull request description clearly describes the changes and any additional context necessary for review.
We plan to update new version quarterly.
This project is licensed under MIT License - see the License file for details.
This project has received funding from the European Unions Horizon Europe Doctoral Network programme under the Marie-Skłodowska-Curie grant agreement No 101072930 (TACsy -- Training Alliance for Computational)