package kind2
Multi-engine, parallel, SMT-based automatic model checker for safety properties of Lustre programs
Install
Dune Dependency
Authors
Maintainers
Sources
v2.1.1.tar.gz
md5=1d6cb59c9c73125486be32ce06f07ac4
sha512=92cd29dde9629fac5c2412909208cf435a93a1736b6355a802f6143959f14d0ee3bfa5366dfbf9866dfc42f7986725d711252a1bded5bee04b0ea17843d7d06f
README.rst.html
README.rst
.. DO NOT EDIT, see doc/usr/README.rst for details .. |develop| image:: https://github.com/kind2-mc/kind2/workflows/Kind2%20CI/badge.svg?branch=develop :target: https://github.com/kind2-mc/kind2/actions?query=workflow%3A%22Kind2+CI%22 :align: middle .. |release| image:: https://img.shields.io/github/v/release/kind2-mc/kind2?color=blue :target: https://github.com/kind2-mc/kind2/releases/latest :align: middle .. |license| image:: https://img.shields.io/github/license/kind2-mc/kind2?color=green :target: https://github.com/kind2-mc/kind2/blob/develop/LICENSE.rst :align: middle .. https://stackoverflow.com/a/12145490/8261793 .. |nbsp| unicode:: 0xA0 |develop| |nbsp| |release| |nbsp| |license| Kind 2 ====== `Kind 2 <http://kind.cs.uiowa.edu/>`_ \ is a multi-engine, parallel, SMT-based automatic model checker for safety properties of Lustre programs. Kind 2 is a command-line tool. It takes as input a Lustre file annotated with properties to be proven invariant (see `Lustre Input <https://kind.cs.uiowa.edu/kind2_user_doc/2_input/1_lustre.html>`_), and outputs which of the properties are true for all inputs, as well as an input sequence for those properties that are falsified. To ease processing by external tools, Kind 2 can output its results in JSON and XML formats (see `JSON / XML Output <https://kind.cs.uiowa.edu/kind2_user_doc/3_output/2_machine_readable.html>`_). By default Kind 2 runs a process for bounded model checking (BMC), two processes for k-induction (one for a fixed value of k=2, and other for increasing values of k), several processes for invariant generation, a process for IC3QE, and several processes for IC3IA in parallel on all properties simultaneously. It incrementally outputs counterexamples to properties as well as properties proved invariant. The following command-line options control its operation (run ``kind2 --help`` for a full list). See `Techniques <https://kind.cs.uiowa.edu/kind2_user_doc/1_techniques/1_techniques.html>`_ for configuration examples and more details on each technique. ``--enable {BMC|IND|IND2|IC3QE|IC3IA|INVGEN|INVGENOS|...}`` Select model checking engines By default, all five model checking engines are run in parallel. Give any combination of ``--enable BMC``, ``--enable IND``, ``--enable IND2``, ``--enable IC3QE`` and ``--enable IC3IA`` to select which engines to run. The option ``--enable BMC`` alone will not be able to prove properties valid, choosing ``--enable IND`` and ``--enable IND2`` only (or either of the two alone) will not produce any results. Any other combination is sound (properties claimed to be invariant are indeed invariant) and counterexample-complete (a counterexample will be produced for each property that is not invariant, given enough time and resources). ``--timeout <int>`` (default ``0`` = none) -- Run for the given number of seconds of wall clock time ``--smt_solver {Bitwuzla|cvc5|MathSAT|SMTInterpol|Yices|Yices2|Z3}`` (default ``Z3``\ ) -- Select SMT solver ``--bitwuzla_bin <file>`` -- Executable for Bitwuzla ``--cvc5_bin <file>`` -- Executable for cvc5 ``--mathsat_bin <file>`` -- Executable for MathSAT 5 ``--smtinterpol_jar <file>`` -- JAR of SMTInterpol ``--yices_bin <file>`` -- Executable for Yices 1 (native input) ``--yices2_bin <file>`` -- Executable for Yices 2 (SMT input) ``--z3_bin <file>`` -- Executable for Z3 ``-v`` Output informational messages ``-json`` Output in JSON format ``-xml`` Output in XML format Try Kind 2 Online ----------------- Visit our `web interface <https://kind.cs.uiowa.edu/app/>`_ to try Kind 2 from your browser. Download -------- If you use a Linux or a macOS computer, you can download an executable of the latest version of Kind 2 from `here <https://github.com/kind2-mc/kind2/releases/latest/>`__\. First make sure though that you have the required software described next. Required Software ----------------- To run Kind 2 the following software must be installed on your computer: * Linux or macOS, and * a supported SMT solver * `Bitwuzla <https://bitwuzla.github.io/>`_ (for inputs with only machine integers), * `cvc5 <https://cvc5.github.io/>`_\ , * `MathSAT 5 <http://mathsat.fbk.eu/index.html>`_\ , * `SMTInterpol <https://ultimate.informatik.uni-freiburg.de/smtinterpol/>`_\ , * `Yices 2 <http://yices.csl.sri.com/>`_\ , * `Yices 1 <https://yices.csl.sri.com/old/download-yices1.html>`_\ , or * `Z3 <https://github.com/Z3Prover/z3>`_ Z3 is the presently recommended SMT solver and the default option. For best results, we recommend using a combination of several solvers. For systems with integer and real variables, we recommend using Z3 as the main solver (``--smt_solver Z3``) and MathSAT as the interpolating solver (``--smt_itp_solver MathSAT``). For systems with only machine integers, we recommend using Bitwuzla as the main solver (``--smt_solver Bitwuzla``), MathSAT as the interpolating solver (``--smt_itp_solver MathSAT``), and Z3 for performing quantifier elimination (``--smt_qe_solver Z3``). VS Code Extension ----------------- You can also install our `extension <https://marketplace.visualstudio.com/items?itemName=kind2-mc.vscode-kind2>`_ for Visual Studio Code which provides support for Kind 2. The extension contains Linux and macOS binaries for Kind 2 and Z3 ready to use. Windows is also supported through WSL2 (see `here <https://github.com/kind2-mc/vscode-kind2#windows-advanced>`__ for more details). Docker ------ Kind 2 is also available on `Docker Hub <https://hub.docker.com/r/kind2/kind2/>`_. Retrieving / updating the image ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ `Install docker <https://www.docker.com/products/docker>`_ and then run .. code-block:: bash docker pull kind2/kind2:dev Docker will retrieve the *layers* corresponding to the latest version of the Kind 2 repository, ``develop`` version. If you are interested in the latest release, run .. code-block:: bash docker pull kind2/kind2 instead. If you want to update your Kind 2 image to latest one, simply re-run the ``docker pull`` command. Running Kind 2 through docker ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ To run Kind 2 on a file on your system, it is recommended to mount the folder in which this file is as a `volume <https://docs.docker.com/engine/tutorials/dockervolumes/#/mount-a-host-directory-as-a-data-volume>`_. In practice, run .. code-block:: bash docker run -v <absolute_path_to_folder>:/lus kind2/kind2:dev <options> /lus/<your_file> where * ``<absolute_path_to_folder>`` is the absolute path to the folder your file is in, * ``<your_file>`` is the lustre file you want to run Kind 2 on, and * ``<options>`` are some Kind 2 options of your choice. **N.B.** * the fact that the path to your folder must be absolute is `a docker constraint <https://docs.docker.com/engine/tutorials/dockervolumes/#/mount-a-host-directory-as-a-data-volume>`_\ ; * mount point ``/lus`` is arbitrary and does not matter as long as it is consistent with the last argument ``/lus/<your_file>``. To avoid name clashes with folders already present in the container however, it is recommended to use ``/lus``\ ; * replace ``kind2:dev`` by ``kind2`` if you want to run the latest release of Kind2 instead of the ``develop`` version; * ``docker run`` does **not** update your local Kind 2 image to the latest one: the appropriate ``docker pull`` command does. Packaging your local version of Kind 2 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ In the ``docker`` directory at the top level of the Kind 2 repository, there is a ``Dockerfile`` you can use to build your own Kind 2 image. To do so, just run .. code-block:: bash docker build -t kind2-local -f ./docker/Dockerfile . at the root of the repository. ``kind2-local`` is given here as an example, feel free to call it whatever you want. Note that building your own local Kind 2 image **does require access to the Internet**. This is because of the packages the build process needs to retrieve, as well as for downloading the z3 and cvc5 solvers. Building and installing ----------------------- If you prefer, you can build Kind 2 directly from sources, either through the OPAM package manager (recommended) or directly using dune. Using OPAM ^^^^^^^^^^ Start by installing `OPAM 2.x <https://opam.ocaml.org/>`_ following the instructions on the website, and make sure OPAM has been initialized by running ``opam init``. If you want to build the development version of Kind 2 that includes the most recent changes, as opposed to the latest release, then run .. code-block:: bash opam pin add -n kind2 https://github.com/kind2-mc/kind2.git (You can always undo this change later using this command ``opam unpin kind2``). Otherwise, skip the step above and either run .. code-block:: bash opam install --update-invariant kind2 if you have OPAM 2.1 or later installed on your system, or run .. code-block:: bash opam depext kind2 opam install --unlock-base kind2 if you have an older version of OPAM (you can run ``opam --version`` to check the version). This guides the installation of the ZeroMQ C library and any other required external dependencies using the default package manager for your OS (may ask sudo permission). It also builds and installs a compatible version of the OCaml compiler and libraries, and the ``kind2`` binary. Now you can start using ``kind2``. Other options using OPAM """""""""""""""""""""""" By default, ``kind2`` will be installed into the bin directory of your current OPAM switch. Run .. code-block:: bash opam install kind2 --destdir=<DIR> to install the Kind 2 binary into ``<DIR>/bin``. This will also create directories ``<DIR>/doc`` and ``<DIR>/lib``. In alternative, you can clone https://github.com/kind2-mc/kind2.git, move to its top-level directory, and run .. code-block:: bash make install to have OPAM install ``kind2`` and its dependencies. Note that z3 is available in OPAM so it is possible to install it too with OPAM by running: .. code-block:: bash opam install z3 Be aware, however, that this takes quite a bit of time (up to 25 minutes). Direct Installation Using Dune ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ To build directly from sources you will also need the following software first: * OCaml 4.09 or later, * `Dune 2.7 or later <https://github.com/ocaml/dune>`_\, * dune-build-info, * `OCaml bindings for ZMQ <https://github.com/issuu/ocaml-zmq>`_\, * `Yojson <https://github.com/ocaml-community/yojson>`_\, * `num <https://github.com/ocaml/num>`_\, * `Menhir <http://gallium.inria.fr/~fpottier/menhir/>`_ parser generator First install this software on your system using your preferred method. Then clone the `Kind 2 git repository <https://github.com/kind2-mc/kind2>`_, move to the top-level directory of the repository, and run .. code-block:: bash dune build src @install dune install --sections=bin --prefix <DIR> to install the Kind 2 binary into ``<DIR>/bin``. You need a supported SMT solver in your PATH environment variable when running ``kind2``. Development ----------- With OPAM 2.x you can create a local switch which will install all dependencies automatically. .. code-block:: bash opam switch create . make Alternatively, you can install all dependencies in your current switch by running: .. code-block:: bash opam install . --deps-only make For running the unit tests for front end, you can install ounit2 library using opam by running: .. code-block:: bash opam install ounit2 To run the ounit tests, you can use the following dune command: .. code-block:: bash dune test Documentation ------------- Documentation is available online in `HTML <http://kind.cs.uiowa.edu/kind2_user_doc/>`_ or `PDF <http://kind.cs.uiowa.edu/kind2_user_doc/doc.pdf>`_ forms. In order to generate the documentation locally, you need: * A GNU version of ``sed`` (``gsed`` on OSX) * `Python v3.5 or later <https://www.python.org/downloads/>`_ * `Sphinx <https://www.sphinx-doc.org/en/master/usage/installation.html>`_ For HTML documentation, you additionally need: * `sphinx-press-theme <https://pypi.org/project/sphinx-press-theme/>`_ For PDF documentation, you additionally need: * `latexmk <https://personal.psu.edu/~jcc8/software/latexmk/>`_ * `XeTeX <https://xetex.sourceforge.net>`_ * `lmodern <https://www.gust.org.pl/projects/e-foundry/latin-modern>`_ If you're on Debian/Ubuntu, assuming you have Python 3 installed, you can run the following: .. code-block:: bash sudo apt-get install python3-sphinx latexmk texlive-xetex lmodern pip3 install sphinx_press_theme See ``doc/usr/README.rst`` for more information.
sectionYPositions = computeSectionYPositions($el), 10)"
x-init="setTimeout(() => sectionYPositions = computeSectionYPositions($el), 10)"
>