Difference between revisions of "How to virtual environments"
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* '''Advantages:''' Virtual environments prevent conflicts between different projects by keeping dependencies isolated. They also make it easier to manage dependencies and ensure reproducibility across different environments. | * '''Advantages:''' Virtual environments prevent conflicts between different projects by keeping dependencies isolated. They also make it easier to manage dependencies and ensure reproducibility across different environments. | ||
<li>'''Installing Virtual Environment Tools:''' | <li>'''Installing Virtual Environment Tools:''' | ||
| − | * '''Virtualenv:''' One of the most popular tools for creating virtual environments. Install it using pip: | + | * '''Virtualenv:''' One of the most popular tools for creating virtual environments. Install it using pip: <code>pip install virtualenv</code> |
* '''venv''' (Python 3.3+): A built-in module in Python for creating virtual environments. No need to install separately, but ensure you're using Python 3.3 or later. | * '''venv''' (Python 3.3+): A built-in module in Python for creating virtual environments. No need to install separately, but ensure you're using Python 3.3 or later. | ||
* '''Conda:''' A package manager, environment manager, and distribution of Python and other software packages for scientific computing. Install Anaconda or Miniconda from the official website: [https://conda.io/projects/conda/en/latest/user-guide/install/index.html Anaconda] or [https://docs.anaconda.com/free/miniconda/Miniconda Miniconda]. | * '''Conda:''' A package manager, environment manager, and distribution of Python and other software packages for scientific computing. Install Anaconda or Miniconda from the official website: [https://conda.io/projects/conda/en/latest/user-guide/install/index.html Anaconda] or [https://docs.anaconda.com/free/miniconda/Miniconda Miniconda]. | ||
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<li>'''Installing Packages:''' Use `pip` to install packages within the activated virtual environment. | <li>'''Installing Packages:''' Use `pip` to install packages within the activated virtual environment. | ||
* '''Use `pip` to install packages within virtualenv or venv:''' <code>pip install package_name</code> | * '''Use `pip` to install packages within virtualenv or venv:''' <code>pip install package_name</code> | ||
| − | * '''Use `pip` or `conda` to install packages within Conda:''' <code>pip install package_name | + | * '''Use `pip` or `conda` to install packages within Conda:''' <code>pip install package_name</code> or <code>conda install package_name</code> |
<li>'''Freezing Dependencies:''' | <li>'''Freezing Dependencies:''' | ||
* After installing packages, freeze the dependencies into a `requirements.txt` file with virtualenv or venv: <code>pip freeze > requirements.txt</code> | * After installing packages, freeze the dependencies into a `requirements.txt` file with virtualenv or venv: <code>pip freeze > requirements.txt</code> | ||
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* To deactivate the virtual environment and return to the global Python environment: | * To deactivate the virtual environment and return to the global Python environment: | ||
** '''virtualenv or venv''': <code>deactivate</code> | ** '''virtualenv or venv''': <code>deactivate</code> | ||
| − | ** '''Conda''': < | + | ** '''Conda''': <code>conda deactivate</code> |
<li>'''Version Control:''' | <li>'''Version Control:''' | ||
* Include the `requirements.txt` file (if using virtualenv or venv) or `environment.yml` file (if using Conda) in your version control system (e.g., Git) to ensure that all collaborators can recreate the same environment. | * Include the `requirements.txt` file (if using virtualenv or venv) or `environment.yml` file (if using Conda) in your version control system (e.g., Git) to ensure that all collaborators can recreate the same environment. | ||
Latest revision as of 14:56, 17 September 2024
One possiblity to get access to to python packages on your HPC system that are not installed sytem wide is the local installation into you own virtual environment.
- Understanding Virtual Environments:
- Definition: A virtual environment is an isolated Python environment that allows you to install and manage dependencies separately for each project.
- Advantages: Virtual environments prevent conflicts between different projects by keeping dependencies isolated. They also make it easier to manage dependencies and ensure reproducibility across different environments.
- Installing Virtual Environment Tools:
- Virtualenv: One of the most popular tools for creating virtual environments. Install it using pip:
pip install virtualenv - venv (Python 3.3+): A built-in module in Python for creating virtual environments. No need to install separately, but ensure you're using Python 3.3 or later.
- Conda: A package manager, environment manager, and distribution of Python and other software packages for scientific computing. Install Anaconda or Miniconda from the official website: Anaconda or Miniconda.
- Virtualenv: One of the most popular tools for creating virtual environments. Install it using pip:
- Creating a Virtual Environment:
- Using virtualenv:
virtualenv myenv - Using venv:
python -m venv myenv - Using Conda:
conda create --name myenv
- Using virtualenv:
- Activating the Virtual Environment:
- virtualenv or venv:
source myenv/bin/activate - Conda:
conda activate myenv
- virtualenv or venv:
- Installing Packages: Use `pip` to install packages within the activated virtual environment.
- Use `pip` to install packages within virtualenv or venv:
pip install package_name - Use `pip` or `conda` to install packages within Conda:
pip install package_nameorconda install package_name
- Use `pip` to install packages within virtualenv or venv:
- Freezing Dependencies:
- After installing packages, freeze the dependencies into a `requirements.txt` file with virtualenv or venv:
pip freeze > requirements.txt - Conda automatically manages dependencies in its environment and does not require a separate requirements.txt file.
- After installing packages, freeze the dependencies into a `requirements.txt` file with virtualenv or venv:
- Deactivating the Virtual Environment:
- To deactivate the virtual environment and return to the global Python environment:
- virtualenv or venv:
deactivate - Conda:
conda deactivate
- virtualenv or venv:
- To deactivate the virtual environment and return to the global Python environment:
- Version Control:
- Include the `requirements.txt` file (if using virtualenv or venv) or `environment.yml` file (if using Conda) in your version control system (e.g., Git) to ensure that all collaborators can recreate the same environment.
- Ignore the virtual environment directory (e.g., `myenv/`) to avoid cluttering the repository.
- Updating Packages:
- Regularly update packages within the virtual environment:
- With virtualenv or venv:
pip install --upgrade package_name - With Conda:
conda update package_name
- With virtualenv or venv:
- Regularly update packages within the virtual environment:
- Cleaning Up:
- Periodically clean up unused packages and their dependencies:
- With virtualenv or venv:
pip autoremove - With Conda:
conda clean --all
- With virtualenv or venv:
- Periodically clean up unused packages and their dependencies:
Following these best practices ensures a clean and organized workflow when working with Python packages via virtual environments. It promotes reproducibility, simplifies dependency management, and helps avoid compatibility issues across different projects.