Math Classes
Math classes is a library of abstract interfaces for mathematical structures, such as:
- Algebraic hierarchy (groups, rings, fields, …)
- Relations, orders, …
- Categories, functors, universal algebra, …
- Numbers: N, Z, Q, …
- Operations, (shift, power, abs, …)
It is heavily based on Coq’s new type classes in order to provide: structure inference, multiple inheritance/sharing, convenient algebraic manipulation (e.g. rewriting) and idiomatic use of notations.
Meta
- Author(s):
- Eelis van der Weegen (initial)
- Bas Spitters (initial)
- Robbert Krebbers (initial)
- Coq-community maintainer(s):
- Bas Spitters (@spitters)
- License: MIT License
- Compatible Coq versions: Coq 8.6 or later (use releases for other Coq versions)
- Additional dependencies:
- Coq namespace:
MathClasses - Related publication(s):
Building and installation instructions
The easiest way to install the latest released version of Math Classes is via OPAM:
opam repo add coq-released https://coq.inria.fr/opam/released
opam install coq-math-classesTo instead build and install manually, do:
git clone https://github.com/coq-community/math-classes.git
cd math-classes
./configure.sh
make # or make -j <number-of-cores-on-your-machine>
make installDirectory structure
categories/
Proofs that certain structures form categories.
functors/
interfaces/
Definitions of abstract interfaces/structures.
implementations/
Definitions of concrete data structures and algorithms, and proofs that they are instances of certain structures (i.e. implement certain interfaces).
misc/
Miscellaneous things.
orders/
Theory about orders on different structures.
quote/
Prototype implementation of type class based quoting. To be integrated.
theory/
Proofs of properties of structures.
varieties/
Proofs that certain structures are varieties, and translation to/from type classes dedicated to these structures (defined in interfaces/).
The reason we treat categories and varieties differently from other structures (like groups and rings) is that they are like meta-interfaces whose implementations are not concrete data structures and algorithms but are themselves abstract structures.
To be able to distinguish the various arrows, we recommend using a variable width font.