package libabsolute
Install
Dune Dependency
Authors
Maintainers
Sources
md5=7fa3ddb22997078b47f517ada5f6cb96
sha512=43aff8a0f05022b90ff89f0b2feacdc829e9e6da9be88f802254aff383823b2d8f3dc4e3a694a9d534493d3e60b8a98de9c45a4690c3275b58a6a9dba476e133
Description
Libabsolute is a constraint programming library based on abstract domains from the theory of abstract interpretation. It is used and distributed with the AbSolute constraint solver.
Published: 13 Dec 2022
README
AbSolute
AbSolute is a constraint solver based on abstract domains from the theory of abstract interpretation. It implements the solving method presented in: "A Constraint Solver Based on Abstract Domains".
This repository provides code for two packages: the AbSolute solver and the libabsolute library. You can use the later from you OCaml programs, its documentation is available here.
AbSolute is still in developpement, and have not been fully tested. Feel free to fill an issue or contact any member of the developpement team if you want to report a bug or suggest a feature.
Contributors: Marie Pelleau, Ghiles Ziat, Alexandre Marechal, Pierre Talbot, Antoine Miné, Charlotte Truchet. Supported by ANR CoVerif.
The AbSolute Solver
introductory example
In AbSolute, you first declare your variables in the init
section, and then the constraints on these variables in the constraints
section:
/* simple example with sinus and cosinus */
init{
real x = [-10;10];
real y = [-5;5];
}
constraints{
y < sin(x) + 1;
y > cos(x) - 1;
}
This model is saved into a file that can be fed into the AbSolute solver. You can checkout our Emacs mode for a more convenient use1. We also have nice graphics showing how the problem was solved:
You can see other examples of problems in the problems directory. Please also consult our documentation for more information.
Getting Started
The installation process should be easy, if you have any problem, see the Section Troubleshooting
, fill an issue or email us directly.
Installation
The easiest way to install AbSolute is through the OCaml package manager opam. You will have to install it if you do not have it. For example:
apt-get install opam # on Debian, see opam documentation for other distributions.
opam init --comp 4.09.0 # Initialize ~/.opam with a freshly compiled OCaml 4.09.0
The next step is to download and build AbSolute. If you intent to modify the source code and possibly contribute to the project, jump to the "Developpers" section. Otherwise, you can install it from opam
:
opam repo add absolute https://raw.githubusercontent.com/mpelleau/AbSolute/master
opam install absolute
# Retrieve a model file
wget https://raw.githubusercontent.com/mpelleau/AbSolute/master/problems/booth.abs
# Test the file with your fresh installation
absolute booth.abs
# Display solver options
absolute --help
Developpers
See the CONTIBUTING.md
Results
Beside the ouptut, AbSolute uses the following return code to describe the results.
1 for an internal error
2 misuse of options
3 the problem is unsatisfiable
4 the problem may admit solutions but the solver failed to find one
5 the problem is satisfiable
Troubleshooting
For some reason, having both packages
libapron
andlibapron-dev
installed will make the building of AbSolute fail. Therefore, the easiest way to deal with apron is to install it with and only with opam : https://opam.ocaml.org/packages/
Citing AbSolute:
@inproceedings{DBLP:conf/vmcai/PelleauMTB13,
author = {Marie Pelleau and
Antoine Min{\'{e}} and
Charlotte Truchet and
Fr{\'{e}}d{\'{e}}ric Benhamou},
title = {A Constraint Solver Based on Abstract Domains},
booktitle = {Verification, Model Checking, and Abstract Interpretation, 14th International
Conference, {VMCAI} 2013, Rome, Italy, January 20-22, 2013. Proceedings},
pages = {434--454},
year = {2013},
crossref = {DBLP:conf/vmcai/2013},
url = {https://doi.org/10.1007/978-3-642-35873-9\_26},
doi = {10.1007/978-3-642-35873-9\_26},
timestamp = {Wed, 24 May 2017 08:30:31 +0200},
biburl = {https://dblp.org/rec/bib/conf/vmcai/PelleauMTB13},
bibsource = {dblp computer science bibliography, https://dblp.org}
}
1. A simple emacs mode for editing AbSolute problem description files↩:
You can simply add the following to your .emacs:
(require 'generic-x) ;; you will need this
(define-generic-mode 'absolute-mode ;; name of the mode
'("/*" "*/") ;; comments start with '/*' and end with '*/'
'("init" "constraints" "solutions"
"real" "int" "in" "notin") ;; keywords
'(("\\(?:cos\\|exp\\|s\\(?:in\\|qrt\\)\\)"
. 'font-lock-function-name-face)) ;; function names
'("\\.abs$") ;; files for which to activate this mode
nil ;; other actions to perform
"A mode for AbSolute files" ;; doc string
)