{ stdenv, fetchurl, sbcl, texinfo, perl, makeWrapper, rlwrap ? null, tk ? null, gnuplot ? null }: let name = "maxima"; version = "5.27.0"; searchPath = stdenv.lib.makeSearchPath "bin" (stdenv.lib.filter (x: x != null) [ sbcl rlwrap tk gnuplot ]); in stdenv.mkDerivation { name = "${name}-${version}"; src = fetchurl { url = "mirror://sourceforge/${name}/${name}-${version}.tar.gz"; sha256 = "9006803714f1385221c4395697fad53f125a13d29b50b188d045d08e25f8dca7"; }; buildInputs = [sbcl texinfo perl makeWrapper]; postInstall = '' # Make sure that maxima can find its runtime dependencies. for prog in "$out/bin/"*; do wrapProgram "$prog" --prefix PATH ":" "${searchPath}" done # Move emacs modules and documentation into the right place. mkdir -p $out/share/emacs $out/share/doc ln -s ../maxima/${version}/emacs $out/share/emacs/site-lisp ln -s ../maxima/${version}/doc $out/share/doc/maxima ''; # Failures in the regression test suite are not going to abort the # build process. We run the suite mostly so that potential errors show # up in the build log. See also: # . doCheck = true; enableParallelBuilding = true; meta = { description = "Maxima computer algebra system"; homepage = "http://maxima.sourceforge.net"; license = "GPLv2"; longDescription = '' Maxima is a fairly complete computer algebra system written in lisp with an emphasis on symbolic computation. It is based on DOE-MACSYMA and licensed under the GPL. Its abilities include symbolic integration, 3D plotting, and an ODE solver. ''; platforms = stdenv.lib.platforms.unix; maintainers = [ stdenv.lib.maintainers.simons ]; }; }