Installing pysteps

Dependencies

The pysteps package needs the following dependencies

Additionally, the following packages can be installed for better computational efficiency:

  • dask and toolz (for code parallelisation)
  • pyfftw (for faster FFT computation)

Other optional dependencies include:

  • cartopy or basemap (for georeferenced visualization)
  • h5py (for importing HDF5 data)
  • pywavelets (for intensity-scale verification)
  • cython (for the variational echo tracking method)

Note that cython also requires a C compiler. See https://cython.readthedocs.io/en/latest/src/quickstart/install.html for instructions.

We recommend that you create a conda environment using the available environment.yml file to install the most important dependencies:

conda env create -f environment.yml
conda activate pysteps

This will allow running pysteps with the basic functionality.

Install from source

IMPORTANT: installing from source requires numpy to be installed.

OSX users

Pysteps uses Cython extensions that need to be compiled with multi-threading support enabled. The default Apple Clang compiler does not support OpenMP, so using the default compiler would have disabled multi-threading and you will get the following error during the installation:

clang: error: unsupported option '-fopenmp'
error: command 'gcc' failed with exit status 1

To solve this issue, obtain the lastest gcc version with Homebrew that has multi-threading enabled:

brew install gcc

To make sure that the installer uses the homebrew’s gcc, export the following environmental variables in the terminal (supposing that gcc version 8 was installed):

export CC=gcc-8
export CXX=g++-8

First, check that the homebrew’s gcc is detected:

which gcc-8

This should point to the homebrew’s gcc installation. Under certain circunstances, homebrew does not add the symbolic links for the gcc executables under /usr/local/bin. If that is the case, specify the CC and CCX variables using the full path to the homebrew installation. For example:

export CC=/usr/local/Cellar/gcc/8.3.0/bin/gcc-8
export CXX=/usr/local/Cellar/gcc/8.3.0/bin/g++-8

Then, you can continue with the normal installation procedure.

Installation

The installer needs numpy to compile the Cython extensions. If numpy is not installed you can run in a terminal:

pip install numpy

The latest pysteps version in the repository can be installed using pip by simply running in a terminal:

pip install git+https://github.com/pySTEPS/pysteps

Or, to install it using setup.py run (global installation):

git clone https://github.com/pySTEPS/pysteps
cd pysteps
python setup.py install

For user installation:

python setup.py install --user

If you want to install the package in a specific directory run:

python setup.py install --prefix=/path/to/local/dir

Non-anaconda users or minimal anaconda environments

The installation using setup.py will try to to install the minimum dependencies needed to run the program correctly. If you are not using the recommended conda environment (defined in environment.yml) or you are working with a minimal python distribution, you may get the following error during the installation:

ModuleNotFoundError: No module named 'Cython'

This means that Cython is not installed, which is needed to build some of the dependencies of pysteps.

For non-anaconda users, you can install Cython using:

pip install Cython

Anaconda users can install Cython using:

conda install cython

Setting up the user-defined configuration file

The pysteps package allows the users to customize the default settings and configuration. The configuration parameters used by default are stored in pysteps.rcparams AttrDict, which are loaded from a pystepsrc JSON file located in the system. The configuration parameters can be accessed as attributes or as items in a dictionary. For e.g., to retrieve the default parameters the following ways are equivalent:

import pysteps

# Retrieve the colorscale for plots
colorscale = pysteps.rcparams['plot']['colorscale']
colorscale = pysteps.rcparams.plot.colorscale

# Retrieve the the root directory of the fmi data
pysteps.rcparams['data_sources']['fmi']['root_path']
pysteps.rcparams.data_sources.fmi.root_path

# -----------------------------------------------------------------
# A less wordy alternative
# -----------------------------------------------------------------
from pysteps import rcparams
colorscale = rcparams['plot']['colorscale']
colorscale = rcparams.plot.colorscale

fmi_root_path = rcparams['data_sources']['fmi']['root_path']
fmi_root_path = rcparams.data_sources.fmi.root_path

When the pysteps package imported, it looks for pystepsrc file in the following order:

  • $PWD/pystepsrc : Looks for the file in the current directory
  • $PYSTEPSRC : If the system variable $PYSTEPSRC is defined and it points to a file, it is used.
  • $PYSTEPSRC/pystepsrc : If $PYSTEPSRC points to a directory, it looks for the pystepsrc file inside that directory.
  • $HOME/.pysteps/pystepsrc (unix and Mac OS X) : If the system variable $HOME is defined, it looks for the configuration file in this path.
  • $USERPROFILE/pysteps/pystepsrc (windows only): It looks for the configuration file in the pysteps directory located user’s home directory.
  • Lastly, it looks inside the library in pysteps/pystepsrc for a system-defined copy.

The recommended method to setup the configuration files is to edit a copy of the default pystepsrc file that is distributed with the package and place that copy inside the user home folder.

Linux and OSX users

For Linux and OSX users, the recommended way to customize the pysteps configuration is place the pystepsrc parameters file in the users home folder ${HOME} in the following path: ${HOME}/.pysteps/pystepsrc

This are the steps to setup up the configuration file in that directory:

  1. Create the directory if it does not exist. Type in a terminal:

    $> mkdir -p ${HOME}/.pysteps
    

2. Find the location of the library’s pystepsrc file used at the moment. When we import pysteps in a python interpreter, the configuration file loaded is shown:

import pysteps
"Pysteps configuration file found at: /path/to/pysteps/library/pystepsrc"

3.Copy the library’s default rc file to that directory. In a terminal type:

$> cp /path/to/pysteps/library/pystepsrc ${HOME}/.pysteps/pystepsrc
  1. Edit the file with the text editor of your preference

  2. Check that the location of the library’s pystepsrc file used at the moment.:

    import pysteps
    "Pysteps configuration file found at: /home/user_name/.pysteps/pystepsrc"
    

Windows

For windows users, the recommended way to customize the pysteps configuration is place the pystepsrc parameters file in the users folder (defined in the %USERPROFILE% environment variable) in the following path: %USERPROFILE%/pysteps/pystepsrc

The following steps are needed to setup up the configuration file in that directory:

  1. Create the directory if it does not exist. Type in a terminal:

    $> mkdir -p %USERPROFILE%/pysteps
    

2. Find the location of the library’s pystepsrc file used at the moment. When the pystep is imported, the configuration file loaded is shown:

import pysteps
"Pysteps configuration file found at: /path/to/pysteps/library/pystepsrc"

3.Copy the library’s default rc file to that directory. In a terminal type:

$> cp /path/to/pysteps/library/pystepsrc %USERPROFILE%/pysteps/pystepsrc
  1. Edit the file with the text editor of your preference

  2. Check that the location of the library’s pystepsrc file used at the moment:

    import pysteps
    "Pysteps configuration file found at: /home/user_name/.pysteps/pystepsrc"