nixpkgs/pkgs/development/tools/misc/coccinelle/default.nix
2014-07-28 11:31:14 +02:00

63 lines
2.1 KiB
Nix

{ fetchurl, stdenv, python, ncurses, ocamlPackages, pkgconfig, makeWrapper }:
let
name = "coccinelle-1.0.0-rc15";
sha256 = "07fab4e17512925b958890bb13c0809797074f2e44a1107b0074bdcc156b9596";
in stdenv.mkDerivation {
inherit name;
src = fetchurl {
url = "http://coccinelle.lip6.fr/distrib/${name}.tgz";
inherit sha256;
};
buildInputs = with ocamlPackages; [
ocaml findlib menhir
ocaml_pcre pycaml
python ncurses pkgconfig
makeWrapper
];
# TODO: is the generation of this wrapper truly/still needed?
# I don't have a non-NixOS system, so I cannot verify this, but shouldn't
# libpython know where to find its modules? (the path is for example in
# its Sys-module).
postInstall =
# On non-NixOS systems, Coccinelle would end up looking up Python modules
# in the wrong directory.
'' for p in "$out/bin/"*
do
wrapProgram "$p" \
--prefix "PYTHONPATH" ":" "${python}/lib/python${python.majorVersion}"
done
'';
configureFlags = "--enable-release";
meta = {
description = "Coccinelle, a program to apply C code semantic patches";
longDescription =
'' Coccinelle is a program matching and transformation engine which
provides the language SmPL (Semantic Patch Language) for specifying
desired matches and transformations in C code. Coccinelle was
initially targeted towards performing collateral evolutions in
Linux. Such evolutions comprise the changes that are needed in
client code in response to evolutions in library APIs, and may
include modifications such as renaming a function, adding a function
argument whose value is somehow context-dependent, and reorganizing
a data structure. Beyond collateral evolutions, Coccinelle is
successfully used (by us and others) for finding and fixing bugs in
systems code.
'';
homepage = http://coccinelle.lip6.fr/;
license = stdenv.lib.licenses.gpl2;
maintainers = [ ];
platforms = stdenv.lib.platforms.gnu; # arbitrary choice
};
}