slackbuilds_ponce/academic/abella
B. Watson 05f8290614
academic/abella: Reflow README.
Signed-off-by: B. Watson <yalhcru@gmail.com>
2020-02-01 09:00:28 +07:00
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abella.info
abella.SlackBuild
README
slack-desc

Abella is an interactive theorem prover based on lambda-tree syntax.

This means that Abella is well-suited for reasoning about the meta-theory
of programming languages and other logical systems which manipulate
objects with binding. For example, the following applications are included
in the distribution of Abella.

* Various results on the lambda calculus involving big-step evaluation, small-step evaluation, and typing judgments
* Cut-admissibility for a sequent calculus
* Part 1a and Part 2a of the POPLmark challenge
* Takahashi's proof of the Church-Rosser theorem
* Tait's logical relations argument for weak normalization of the simply-typed lambda calculus
* Girard's proof of strong normalization of the simply-typed lambda calculus
* Some ?-calculus meta-theory
* Relation between ?-reduction and paths in A-calculus

For Full List:
http://abella-prover.org/examples/index.html

Abella uses a two-level logic approach to reasoning. Specifications
are made in the logic of second-order hereditary Harrop formulas using
lambda-tree syntax. This logic is executable and is a subset of the
AProlog language (see the Teyjus system for an implementation of this
language).

The reasoning logic of Abella is the culmination of a series of extensions
to proof theory for the treatment of definitions, lambda-tree syntax,
and generic judgments. The reasoning logic of Abella is able to encode
the semantics of our specification logic as a definition and thereby
reason over specifications in that logic.