1 research outputs found
Extending ROOT through Modules
The ROOT software framework is foundational for the HEP ecosystem, providing
capabilities such as IO, a C++ interpreter, GUI, and math libraries. It uses
object-oriented concepts and build-time components to layer between them. We
believe additional layering formalisms will benefit ROOT and its users. We
present the modularization strategy for ROOT which aims to formalize the
description of existing source components, making available the dependencies
and other metadata externally from the build system, and allow post-install
additions of functionality in the runtime environment. components can then be
grouped into packages, installable from external repositories to deliver
post-install step of missing packages. This provides a mechanism for the wider
software ecosystem to interact with a minimalistic install. Reducing
intra-component dependencies improves maintainability and code hygiene. We
believe helping maintain the smallest "base install" possible will help
embedding use cases. The modularization effort draws inspiration from the Java,
Python, and Swift ecosystems. Keeping aligned with the modern C++, this
strategy relies on forthcoming features such as C++ modules. We hope
formalizing the component layer will provide simpler ROOT installs, improve
extensibility, and decrease the complexity of embedding in other ecosystemsComment: 8 pages, 2 figures, 1 listing, CHEP 2018 - 23rd International
Conference on Computing in High Energy and Nuclear Physic