rootpy: Pythonic ROOT

Python has become the language of choice for high-level applications where fast prototyping and efficient development are important, while glueing together low-level libraries for performance-critical tasks. The PyROOT bindings introduced ROOT into the world of Python, however, interacting with ROOT in Python should not feel like you are still writing C++.

The rootpy project is a community-driven initiative aiming to provide a more pythonic interface with ROOT on top of the existing PyROOT bindings. Given Python’s reflective and dynamic nature, rootpy also aims to improve ROOT design flaws and supplement existing ROOT functionality. The scientific Python community also offers a multitude of powerful packages such as SciPy, NumPy, matplotlib, scikit-learn, and PyTables, but a suitable interface between them and ROOT has been lacking. rootpy provides the interfaces and conversion mechanisms required to liberate your data and to take advantage of these alternatives if needed.

Key features include:

  • Improvements to help you create and manipulate trees, histograms, cuts and vectors.
  • Dictionaries for STL types are compiled for you automatically.
  • Redirect ROOT’s messages through Python’s logging system.
  • Optionally turn ROOT errors into Python exceptions.
  • Get and Set methods on ROOT objects are also properties.
  • Easy navigation through ROOT files. You can now access objects with my_file.some_directory.tree_name, for example.
  • Colours and other style attributes can be referred to by descriptive strings.
  • Provides a way of mapping ROOT trees onto python objects and collections.
  • Plot your ROOT histograms or graphs with matplotlib.
  • Conversion of ROOT trees into NumPy ndarrays and recarrays through the related root_numpy package.
  • Conversion of ROOT files containing trees into HDF5 format with PyTables.
  • roosh, a Bash-like shell environment for the ROOT file, very useful for quick ROOT file inspection and interactive plotting.
  • rootpy, a command for common tasks such as summing histograms or drawing tree expressions over multiple files, listing the contents of a file, or inspecting tree branches and their sizes and types.

Command Reference