Development/Python
Introduction
Python is a versatile, easy-to-learn, usually interpreted programming language. It offers a wide range of libraries for scientific tasks and visualization. Python is the de facto standard interface for applications of machine learning. Python can be used in particular as an open source alternative for tasks that have usually been used for Matlab.
Installation and Versions
Python is available on all systems. Either as system Python, which comes bundled with the operating system, or via Lmod software modules. Installation is not required.
System Python
System Python is available in different versions, typically the default system Python is too old for most users and applications. Newer versions are therefore installed alongside the standard version. You can access a specific Python version by specifying the version in the Python command.
On bwUniCluster, different versions are currently available, ls /usr/bin/python[0-9].*[0-9] | sort -V | cut -d"/" -f4 | xargs
results in: python2.7 python3.6 python3.8 python3.9 python3.11
.
Please note, that these exact versions will change over time and differ from site to site!
$ python --version # This is system default Python
Python 3.6.8
$ python3.11 --version
Python 3.11.2
Python Modules
Python is also offered via software modules. Available versions can be identified via:
$ module avail devel/python
A specific version of Python can then be chosen e.g. as follows:
$ module load devel/python/3.12.3_gnu_13.3
$ python --version
Python 3.12.3
Python Distributions
For the usage of Python we strongly recommend not to install own Python versions, e.g. via distributions like Anaconda. However, there are use cases where the use of e.g. conda is beneficial or, depending on the scientific community, a standard approach to distribute Python packages. For the use of conda on bwHPC clusters, please refer to Conda.
Usage
There are two ways to run Python commands:
- Interactive Mode
- Script Mode
In order to start the interactive mode, simply run the python
command.
This starts a Python shell, where all commands are evaluated by the Python interpreter.
Script mode basically means, that all Python commands are stored in a text file with the extension .py.
The program will be executed via
python myProgram.py
For teaching purposes, code prototyping and visualization, the use of Jupyter notebooks is advantageous. Further information about interactive supercomputing and the use of Jupyter can be found at Jupyter.
Package Manager
The functionality of Python is extended via modules. The standard package manager under Python is pip
. It can be used to install, update and delete packages. pip
can be called directly or via python -m pip
. The standard repository from which packages are obtained is PyPI (https://pypi.org/). Package dependencies are automatically installed.
Examples:
pip install matplotlib
installs the visualization library matplotlib and its required dependenciespip uninstall matplotlib
uninstalls matplotlibpip install --upgrade matplotlib
updates the library if necessarypip list
shows the installed packages and their versionspip freeze
shows the installed packages and their versions, the output can be redirected to a `requirements.txt` file. Only recommended if version pinning (https://pip.pypa.io/en/stable/topics/repeatable-installs/) is explicitly desired.
The packages from PyPI usually consist of precompiled libraries. However, pip
is also capable of creating packages from source code. However, this may require the C/C++ compiler and other dependencies needed to build the libraries.
pip install git+https://github.com/matplotlib/matplotlib
obtains the source code of matplotlib from github.com, installs its dependencies, compiles the library and installs it
Several external packages are usually required for a software project. It is advisable to create the file requirements.txt
, i.e. a text file with all dependencies.
pip install -r requirements.txt
installs these packages in one go
Virtual Environments
Virtual environments allow Python packages to be installed separately in a separate installation directory for a specific application instead of installing them globally. This prevents version conflicts, promotes clarity as to which packages are required for which software and prevents the home directory from being cluttered with libraries that are not (or no longer) required.
Creation
The module venv
enables the creation of a virtual environment and is a standard component of Python. Creating a venv
means that a folder is created which contains a separate copy of the Python binary file as well as pip
and setuptools
. After activating the venv
, the binary file in this folder is used when python
or pip
is called. This folder is also the installation target for other Python packages.
Usage
Best Practice
Always use virtual environments
Do's and don'ts