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A scalable and versatile library to generate representations for atomic-scale learning

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librascal

librascal is a versatile and scalable fingerprint and machine learning code. It focuses on the efficient construction of representations of atomic structures, that can then be fed to any supervised or unsupervised learning algorithm. Simple regression code will be included for testing purposes, but the long-term goal is to develop a separate collection of tools to this end.

librascal is currently considered a standalone code. However, we aim to provide enough flexibility to interface it with other codes such as LAMMPS and PLUMED-2.0. It can be used as a C++ library as well as a python module. To be able to call it from python, we have used the pybind11 library.

Although at the moment is a serial-only code, we aim to write it in MPI so that it will be possible to take advantage of parallelization to speed up the calculations significantly. Parallelization is possible especially over atoms in a structure (for large structures), over structures in a collection (for large collections of small structures), or over components of a representation (for representations with a large number of independent functions or components).

It comes with a GNU Lesser General Public License of version 3, which means that it can be modified and freely distributed, although we take no responsibility for its misuse.

For more information, have a look at the documentation!

Development

The code is currently in the alpha development phase; it is not yet suitable for public use. Nevertheless, there is a significant amount of functionality (including two tutorials) currently working and available to test if you’re feeling adventurous. Feedback and bug reports are welcome, as long as you keep the above in mind.

See Helpers for Developers below for some essential tools if you want to help develop libRascal. Be sure to also read CONTRIBUTING.rst if you plan on making a contribution.

Installation

The installation of the library for python use can be done simply with:

pip install .

assuming that python 3.5 (or higher) and gcc or clang are available.

Dependencies

Before installing librascal, please make sure you have at least the following packages installed:

Package Required version
gcc (g++) 4.9 or higher
clang 4.0 or higher
cmake 2.8 or higher
python 3.6 or higher
numpy 1.13 or higher
ASE 3.18 or higher

Other necessary packages (such as Eigen and PyBind11) are downloaded automatically when compiling Rascal.

The following packages are required for building some optional features:

Feature Package Required version
Documentation pandoc (latest)
  sphinx 2.1.2
  breathe 4.13.1
  nbsphinx (latest)

Compiling

To compile the code it is necessary to have CMake 3.0 and a C++ compiler supporting C++14. During the configuration, it will automatically try to download the external libraries on which it depends:

  • Eigen
  • Pybind11
  • Boost (only the unit test framework library)
  • Python3

And the following libraries to build the documentation:

  • Doxygen
  • Sphinx
  • Breathe

Beware, Python3 is mandatory. The code won’t work with a Python version older than 3.

You can then use pip to install all python packages required for the usage and development of rascal:

pip install -r requirements.txt

To configure and compile the code with the default options, on *nix systems (Windows is not supported):

mkdir build
cd build
cmake ..
make

Customizing the build

The library supports several alternative builds that have additional dependencies. Note that the ncurses GUI for cmake (ccmake) is quite helpful to customize the build options.

Tests

Librascal source code is extensively tested (both c++ and python). The BOOST unit_test_framework is required to build the tests (see BOOST.md for further details on how to install the boost library). To build and run the tests:

cd build
cmake -DBUILD_TESTS=ON ..
make
ctest -V

You can also run the tests with Valgrind (a memory-error checker) by passing -DRASCAL_TESTS_USE_VALGRIND=ON to cmake.

In addition to testing the behaviour of the code, the test suite also check for formatting compliance with the clang-format and autopep8 packages (these dependencies are optional). To install these dependencies on Ubuntu:

sudo apt-get install clang-format
pip3 install autopep8

Build Type

Several build types are available Release (default), Debug and RelWithDebInfo. To build an alternative mode

cd build
cmake -DCMAKE_BUILD_TYPE=Debug
..
make

Or

cd build
cmake -DCMAKE_BUILD_TYPE=RelWithDebInfo  \\
   CMAKE_C_FLAGS_RELWITHDEBUBINFO="-03 -g -DNDEBUG" ..
make

Documentation

The documentation relies on the sphinx (with nbsphinx and breathe extensions), doxygen, pandoc, and graphviz packages. To install them on ubuntu:

pip3 install sphinx sphinx_rtd_theme breathe nbsphinx
sudo apt-get install pandoc doxygen graphviz

Then to build the documentation run:

cd build
cmake -DBUILD_DOC=ON ..
make doc

and open :file:`build/docs/html/index.html` in a browser.

Bindings

Librascal relies on the pybind11 library to automate the generation of the python bindings which are built by default. Nevertheless, to build only the c++ library:

cd build
cmake -DBUILD_BINDINGS=OFF ..
make

Installing rascal

To install the python library with c++ bindings:

pip install .

Helpers for Developers

Deepclean

To remove all the cmake files/folders except for the external library (enable glob and remove):

shopt -s extglob
rm -fr -- !(external|third-party)

Automatic code formatting

To help developers conform their contribution to the coding convention, the formatting of new functionalities can be automated using clang-format (for the c++ files) and autopep8 (for the python files). The .clang-format and .pycodestyle files define common settings to be used.

To enable these functionalities (optional) you can install these tools with:

sudo apt-get install clang-format
pip install autopep8

The automatic formating of the c++ and python files can be trigered by:

cd build
cmake ..
make pretty-cpp
make pretty-python

Please use these tools with caution as they can potentially introduce unwanted changes to the code. If code needs to be specifically excluded from auto formatting, e.g. a matrix which should be human-readable, code comments tells the formatters to ignore lines:

  • C++

    // clang-format off
    SOME CODE TO IGNORE
    // clang-format on
  • python

    SOME LINE TO IGNORE # noqa

    where noqa stands for no quality assurance.

Jupyter notebooks

If you are contributing any code in IPython/Jupyter notebooks, please install the nbstripout extension (available e.g. on github and PyPI). After installing, activate it for this project by running:

nbstripout --install --attributes .gitattributes

from the top-level repository directory. Please note that that nbstripout will not strip output from cells with the metadata fields keep_output or init_cell set to True, so use these fields judiciously. You can ignore these settings with the following command:

git config filter.nbstripout.extrakeys '\
   cell.metadata.keep_output cell.metadata.init_cell'

(The keys metadata.kernel_spec.name and metadata.kernel_spec.display_name may also be useful to reduce diff noise.)

Nonetheless, it is highly discouraged to contribute code in the form of notebooks; even with filters like nbstripout they're a hassle to use in version control. Use them only for tutorials or stable examples that are either meant to be run interactively or are meant to be processed by sphinx (nbsphinx) for inclusion in the tutorials page.

Miscellaneous Information

  • Common cmake flags:
    • -DCMAKE_CXX_COMPILER
    • -DCMAKE_C_COMPILER
    • -DCMAKE_BUILD_TYPE
    • -DBUILD_BINDINGS
    • -DINSTALL_PATH
    • -DBUILD_DOC
    • -DBUILD_TESTS
  • Special flags:
    • -DBUILD_BINDINGS:
      • ON (default) -> build python binding
      • OFF -> does not build python binding
    • -DINSTALL_PATH:
      • empty (default) -> does not install in a custom folder
      • custom string -> root path for the installation

To build librascal as a docker environment:

sudo docker build -t test -f ./docker/install_env.dockerfile  .
sudo docker run -it -v /path/to/repo/:/home/user/  test

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