{ lib, stdenv, fetchurl, rsync, ocamlPackages }: stdenv.mkDerivation rec { pname = "abella"; version = "2.0.8"; src = fetchurl { url = "http://abella-prover.org/distributions/${pname}-${version}.tar.gz"; sha256 = "sha256-80b/RUpE3KRY0Qu8eeTxAbk6mwGG6jVTPOP0qFjyj2M="; }; strictDeps = true; nativeBuildInputs = [ rsync ] ++ (with ocamlPackages; [ ocaml dune_3 menhir findlib ]); buildInputs = with ocamlPackages; [ cmdliner yojson ]; installPhase = '' mkdir -p $out/bin rsync -av _build/default/src/abella.exe $out/bin/abella mkdir -p $out/share/emacs/site-lisp/abella/ rsync -av emacs/ $out/share/emacs/site-lisp/abella/ mkdir -p $out/share/abella/examples rsync -av examples/ $out/share/abella/examples/ ''; meta = { description = "Interactive theorem prover"; longDescription = '' 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. ''; homepage = "http://abella-prover.org/"; license = lib.licenses.gpl3; maintainers = with lib.maintainers; [ bcdarwin ciil ]; platforms = lib.platforms.unix; }; }