{ fetchurl, stdenv, gmpxx, perl, gnum4 }: let version = "1.0"; in stdenv.mkDerivation rec { name = "ppl-${version}"; src = fetchurl { url = "http://bugseng.com/products/ppl/download/ftp/releases/${version}/ppl-${version}.tar.bz2"; sha256 = "0m0b6dzablci8mlavpsmn5w1v3r46li0wpjwvsybgxx0p1ifjsf1"; }; nativeBuildInputs = [ perl gnum4 ]; propagatedBuildInputs = [ gmpxx ]; configureFlags = [ "--disable-watchdog" ] ++ stdenv.lib.optionals stdenv.isDarwin [ "CPPFLAGS=-fexceptions" "--disable-ppl_lcdd" "--disable-ppl_lpsol" "--disable-ppl_pips" ]; patches = [ ./upstream-based.patch ]; # Beware! It took ~6 hours to compile PPL and run its tests on a 1.2 GHz # x86_64 box. Nevertheless, being a dependency of GCC, it probably ought # to be tested. doCheck = false; enableParallelBuilding = true; meta = { description = "PPL: The Parma Polyhedra Library"; longDescription = '' The Parma Polyhedra Library (PPL) provides numerical abstractions especially targeted at applications in the field of analysis and verification of complex systems. These abstractions include convex polyhedra, defined as the intersection of a finite number of (open or closed) halfspaces, each described by a linear inequality (strict or non-strict) with rational coefficients; some special classes of polyhedra shapes that offer interesting complexity/precision tradeoffs; and grids which represent regularly spaced points that satisfy a set of linear congruence relations. The library also supports finite powersets and products of (any kind of) polyhedra and grids and a mixed integer linear programming problem solver using an exact-arithmetic version of the simplex algorithm. ''; homepage = http://bugseng.com/products/ppl/; license = stdenv.lib.licenses.gpl3Plus; maintainers = [ ]; }; }