3671
Comment:
|
6989
Reorder pip section
|
Deletions are marked like this. | Additions are marked like this. |
Line 1: | Line 1: |
#rev 2020-09-10 bonaccos <<TableOfContents()>> |
|
Line 3: | Line 7: |
We provide as many modules as possible that come with the current Debian GNU/Linux stable release. Nevertheless, that might not be enough for your needs since you may want to use the newest version of some module or one that is not part of Debian. Furthermore you might want to use a different version of Python. | We provide some modules that come with the current Debian GNU/Linux stable release, but usually this is because they are dependencies of an installed software. For python we strongly recommend to build own python environments with the desired python versions and modules. |
Line 5: | Line 9: |
The recommended way to install additional python modules is through {{{pip}}}. Unfortunately, {{{pip}}} does not allow users to install modules in the user context. That means that you will first have to install your own version of python in your home. From that moment on, you can install modules through {{{pip}}}. | Our recommended way to install such environments is trough `conda`, expecially if you want to build a tool or toolchain where the setup will possibly be published in a paper. Alternatively, building an environment via `pyenv` is as possible. |
Line 7: | Line 11: |
For just quickly trying out some python tool a local installation of `pip` is recommended. == Installing your own python environment with Conda == For a detailed overview for conda please follow to the [[Programming/Languages/Conda|Conda documentation]]. |
|
Line 10: | Line 19: |
{{{Pyenv}}} is a collection of tools that allow users to manage different versions of python. In the simplest case you will need it to simply get an installation of python in your user space. Using that custom python installation, you will then be able to install additional modules in a very comfortable way, since you can install them in the "system path" (which is then somewhere within your home). | `Pyenv` is a collection of tools that allow users to manage different versions of python. In the simplest case you will need it to simply get an installation of python in your user space. Using that custom python installation, you will then be able to install additional modules in a very comfortable way, since you can install them in the "system path" (which is then somewhere within your home). |
Line 12: | Line 21: |
Here is a small howto for installing python 2.7.7 in your home: | Documentation on `pyenv` can be found at https://github.com/pyenv/pyenv |
Line 14: | Line 23: |
* Install pyenv: {{{ curl -L https://raw.githubusercontent.com/yyuu/pyenv-installer/master/bin/pyenv-installer | bash}}} |
Here is a small howto for installing python 3.9.1 in your home: |
Line 18: | Line 25: |
* Add the following three lines to your ~/.bashrc: {{{ export PATH="$HOME/.pyenv/bin:$PATH" eval "$(pyenv init -)" eval "$(pyenv virtualenv-init -)"}}} |
* Install pyenv: {{{#!highlight bash numbers=disable curl https://raw.githubusercontent.com/pyenv/pyenv-installer/master/bin/pyenv-installer -o pyenv-installer }}} Check what the script is doing and then execute it: {{{#!highlight bash numbers=disable bash ./pyenv-installer }}} You can remove the installer file afterwards. * Add the following lines to your `~/.profile` before sourcing ~/.bashrc`: {{{#!highlight bash numbers=disable export PYENV_ROOT="$HOME/.pyenv" export PATH="$PYENV_ROOT/bin:$PATH" eval "$(pyenv init --path)" }}} * In the `~/.bashrc`: {{{#!highlight bash numbers=disable eval "$(pyenv init -)" }}} * If you want to pyenv-virtualenv automatically (in the `~/.bashrc`): {{{#!highlight bash numbers=disable eval "$(pyenv virtualenv-init -)" }}} |
Line 24: | Line 44: |
* Restart your shell so the path changes take effect: {{{ exec $SHELL}}} |
* You need a new login shell for all settings to take effect (when logged in on a Desktop environment logoff and login again) |
Line 28: | Line 46: |
* Install some python version, e.g. for python 2.7.7: {{{ pyenv install 2.7.7 |
* Install some python version, e.g. for python 3.9.1: {{{#!highlight bash numbers=disable env PYTHON_CONFIGURE_OPTS="--enable-shared" pyenv install 3.9.1 |
Line 32: | Line 49: |
Note, that settting of `PYTHON_CONFIGURE_OPTS="--enable-shared"` is needed if you need to link against the libpython shared library. | |
Line 33: | Line 51: |
* Make sure that this new python version will be used when you run python. You only need to run this command once: {{{ pyenv global 2.7.7}}} |
* Make sure that this new python version will be used when you run python. You only need to run this command once: {{{#!highlight bash numbers=disable pyenv global 3.9.1}}} |
Line 37: | Line 54: |
* In order to update {{{pyenv}}} run: {{{ |
* In order to update `pyenv` run: {{{#!highlight bash numbers=disable |
Line 42: | Line 58: |
|| Website of pyenv || https://github.com/yyuu/pyenv/ || || Website of pyenv installer || https://github.com/yyuu/pyenv-installer || |
|| Website of pyenv || https://github.com/pyenv/pyenv || || Website of pyenv installer || https://github.com/pyenv/pyenv-installer || == Installation of a local pip == `pip` can be installed in a user's environment and work with the `python` version installed on the system. Every module will be installed for the user only in one location, there is no separation with virtual environments.<<BR>> Set up a local pip installation with the following commands: {{{#!highlight bash numbers=disable mkdir -p ~/.local/bin export PYTHONUSERBASE=~/.local export PIP_USER=true export PATH=$PYTHONUSERBASE/bin:$PATH wget https://bootstrap.pypa.io/get-pip.py -O ~/.local/bin/get-pip.py python3 ~/.local/bin/get-pip.py -vvv --user }}} Set default installations to the user's environment permanently (stored in `~/.config/pip/pip.conf`): {{{#!highlight bash numbers=disable pip config set install.user true }}} The exported environment variables will be lost after closing the shell. To enable local pip on demand, add the following function to your `.bashrc`: {{{#!highlight bash numbers=disable function localpip { PYTHONUSERBASE=~/.local PATH=$PYTHONUSERBASE/bin:$PATH export PYTHONUSERBASE PATH } }}} When you open a new shell, entering the command `localpip` will call the function and initialize your local pip installation. === pip cache === `pip` uses a cache which is by default stored under `~/.cache/pip` or `$XDG_CACHE_HOME/pip` if it is set to a non-default location. This cache tends to fill up quickly and should occasionally be cleared with {{{#!highlight bash numbers=disable pip cache purge }}} It is advisable to set the cache's location to the local scratch disk to avoid using up quota: 1. Create a directory for the cache: {{{#!highlight bash numbers=disable mkdir -p /scratch/$USER/pip_cache }}} 1. Temporarily set the environment variable to tell `pip` to use a different cache location: {{{#!highlight bash numbers=disable export PIP_CACHE_DIR=/scratch/$USER/pip_cache/ }}} or store the location permanently (in `~/.config/pip/pip.conf`): {{{#!highlight bash numbers=disable pip config set global.cache-dir /scratch/$USER/pip_cache }}} 1. Check if the cache location is correct: {{{#!highlight bash numbers=disable pip cache info }}} |
Line 46: | Line 106: |
== Installation of additional or newer modules with pip == | === Installation of additional or newer modules with pip === |
Line 48: | Line 108: |
Once you installed your custom python with the explanations given above, you are ready to install additional or newer modules the easy way. The usage of {{{pip}}} is very easy. The following command installs the module {{{numpy}}} {{{ pip install numpy}}} while the next command would upgrade an existing installation of {{{numpy}}} {{{ pip install --upgrade numpy}}} |
Once you installed your custom python with the explanations given above, you are ready to install additional or newer modules the easy way. The usage of `pip` is very easy. The following command installs the module `numpy`. {{{#!highlight bash numbers=disable pip install numpy }}} while the next command would upgrade an existing installation of `numpy` {{{#!highlight bash numbers=disable pip install --upgrade numpy }}} |
Line 55: | Line 117: |
For advanced usage of {{{pip}}}, please consult the manuals: http://pip.readthedocs.org/en/latest/ |
For advanced usage of `pip`, please consult the manuals: https://pip.pypa.io/en/latest/ |
Line 60: | Line 121: |
Here we provide some shell script snippets for installing frequently asked modules which cannot be installed through {{{pip}}}. These scripts just provide an example installation. You might have to adapt some paths in order to make the module work correctly with the version of python you are using (e.g. if you run your custom python provided through {{{pyenv}}}). | Here we provide some shell script snippets for installing frequently asked modules which cannot be installed through `pip`. These scripts just provide an example installation. You might have to adapt some paths in order to make the module work correctly with the version of python you are using (e.g. if you run your custom python provided through `pyenv`). |
Line 63: | Line 124: |
{{{#!highlight bash | {{{#!highlight bash numbers=disable |
Contents
Python
We provide some modules that come with the current Debian GNU/Linux stable release, but usually this is because they are dependencies of an installed software. For python we strongly recommend to build own python environments with the desired python versions and modules.
Our recommended way to install such environments is trough conda, expecially if you want to build a tool or toolchain where the setup will possibly be published in a paper. Alternatively, building an environment via pyenv is as possible.
For just quickly trying out some python tool a local installation of pip is recommended.
Installing your own python environment with Conda
For a detailed overview for conda please follow to the Conda documentation.
Installing your own python versions with pyenv
Pyenv is a collection of tools that allow users to manage different versions of python. In the simplest case you will need it to simply get an installation of python in your user space. Using that custom python installation, you will then be able to install additional modules in a very comfortable way, since you can install them in the "system path" (which is then somewhere within your home).
Documentation on pyenv can be found at https://github.com/pyenv/pyenv
Here is a small howto for installing python 3.9.1 in your home:
Install pyenv:
curl https://raw.githubusercontent.com/pyenv/pyenv-installer/master/bin/pyenv-installer -o pyenv-installer
Check what the script is doing and then execute it:
You can remove the installer file afterwards.bash ./pyenv-installer
Add the following lines to your ~/.profile before sourcing ~/.bashrc`:
export PYENV_ROOT="$HOME/.pyenv" export PATH="$PYENV_ROOT/bin:$PATH" eval "$(pyenv init --path)"
In the ~/.bashrc:
eval "$(pyenv init -)"
If you want to pyenv-virtualenv automatically (in the ~/.bashrc):
eval "$(pyenv virtualenv-init -)"
- You need a new login shell for all settings to take effect (when logged in on a Desktop environment logoff and login again)
Install some python version, e.g. for python 3.9.1:
env PYTHON_CONFIGURE_OPTS="--enable-shared" pyenv install 3.9.1 pyenv rehash
Note, that settting of PYTHON_CONFIGURE_OPTS="--enable-shared" is needed if you need to link against the libpython shared library.
Make sure that this new python version will be used when you run python. You only need to run this command once:
pyenv global 3.9.1
In order to update pyenv run:
pyenv update
Documentation of pyenv
Website of pyenv
Website of pyenv installer
Installation of a local pip
pip can be installed in a user's environment and work with the python version installed on the system. Every module will be installed for the user only in one location, there is no separation with virtual environments.
Set up a local pip installation with the following commands:
mkdir -p ~/.local/bin
export PYTHONUSERBASE=~/.local
export PIP_USER=true
export PATH=$PYTHONUSERBASE/bin:$PATH
wget https://bootstrap.pypa.io/get-pip.py -O ~/.local/bin/get-pip.py
python3 ~/.local/bin/get-pip.py -vvv --user
Set default installations to the user's environment permanently (stored in ~/.config/pip/pip.conf):
pip config set install.user true
The exported environment variables will be lost after closing the shell. To enable local pip on demand, add the following function to your .bashrc:
function localpip {
PYTHONUSERBASE=~/.local
PATH=$PYTHONUSERBASE/bin:$PATH
export PYTHONUSERBASE PATH
}
When you open a new shell, entering the command localpip will call the function and initialize your local pip installation.
pip cache
pip uses a cache which is by default stored under ~/.cache/pip or $XDG_CACHE_HOME/pip if it is set to a non-default location. This cache tends to fill up quickly and should occasionally be cleared with
pip cache purge
It is advisable to set the cache's location to the local scratch disk to avoid using up quota:
Create a directory for the cache:
mkdir -p /scratch/$USER/pip_cache
Temporarily set the environment variable to tell pip to use a different cache location:
export PIP_CACHE_DIR=/scratch/$USER/pip_cache/
or store the location permanently (in ~/.config/pip/pip.conf):
pip config set global.cache-dir /scratch/$USER/pip_cache
Check if the cache location is correct:
pip cache info
Installation of additional or newer modules with pip
Once you installed your custom python with the explanations given above, you are ready to install additional or newer modules the easy way. The usage of pip is very easy. The following command installs the module numpy.
pip install numpy
while the next command would upgrade an existing installation of numpy
pip install --upgrade numpy
For advanced usage of pip, please consult the manuals: https://pip.pypa.io/en/latest/
Installation of Python modules that are not available in the archives of pip
Here we provide some shell script snippets for installing frequently asked modules which cannot be installed through pip. These scripts just provide an example installation. You might have to adapt some paths in order to make the module work correctly with the version of python you are using (e.g. if you run your custom python provided through pyenv).
nlopt
#!/bin/bash
# Installation script for nlopt library
VERSION=2.3
INSTALLDIR=$HOME/.local
BUILDDIR=/scratch/$USER/nlopt
mkdir -p $BUILDDIR
cd $BUILDDIR
wget "http://ab-initio.mit.edu/nlopt/nlopt-${VERSION}.tar.gz"
tar -xvvzkf nlopt-${VERSION}.tar.gz
cd nlopt-${VERSION}
./configure \
--enable-shared \
--prefix=$INSTALLDIR \
OCT_INSTALL_DIR=$INSTALLDIR/octave/oct \
M_INSTALL_DIR=$INSTALLDIR/octave/m/ \
MEX_INSTALL_DIR=$INSTALLDIR/mex \
GUILE_INSTALL_DIR=$INSTALLDIR/guile
make
make install