* xrefresh server on Linux (only paths config option is honored)
* sup can be started without hacks now :)
* rubygems update 1.3.5
* fix handling of /bin/* ruby scripts
* only recognize runtime dependencies when creating nix derivations.
Some development dependencies are no longer available.
* make ruby lib ffy compile by using NIX_POST_EXTRACT_FILES_HOOK
* update rubygems patch: Even if there is a missing dep create attr
item. Maybe this missing source can be fixed manually.
svn path=/nixpkgs/trunk/; revision=19470
source regions which are substituded by the tool nix-repository-manager.
See http://github.com/MarcWeber/nix-repository-manager/raw/master/README.
sourceByName is called sourceFromHead now.
updates: MPlayerTrunk, haxe, neko, netsurf, cinelerra, ctags
cinelerra does no longer build due to Xorg update
svn path=/nixpkgs/trunk/; revision=18894
* Dropped "nolongdouble.patch". The patch no longer applies to Python 2.6, and
apparently isn't required anymore either.
* Added access to native Darwin arch utility. Python tries to run 'arch' in
the configure stage, but that binary reside in /usr/bin. To make it
available to the expression, the small wrapper darwinArchUtility is added as
a buildInput if appropriate.
* Don't pass --enable-shared. The build fails if we try to enable building of
shared libraries, apparently because some required libraries aren't linked,
i.e. the linker call isn't right.
TODO:
* Figure out how to enable shared linking.
* The resulting binary on Darwin seem to lack the binascii module.
svn path=/nixpkgs/trunk/; revision=17894
The build succeeds on i686-linux. Other platforms look good, too,
because there were hardly any changes necessary to update the expression
from 2.5.
svn path=/nixpkgs/trunk/; revision=17889
On MacOS X, we used to use the native perl interpreter from /usr/bin.
Unfortunately, that interpreter fails to build a number of packages
(Subversion, Git, etc. ...), because it assumes knowledge about the
underlying C compiler that is not valid for the compiler used by Nix.
For example, /usr/bin/perl assumes that the compiler can build binaries
for both the ppc and the x86 architecture. /usr/bin/gcc can do that, but
the gcc from Nix can't.
The solution is to compile Perl 5.10 in Nix so that the ./configure
phase can properly detect the system's capabilities. However, note that
the resulting binary is impure: it will find headers in /usr/include and
libraries in /usr/lib. In this respect, the Nix-compiled perl binary is
no different than the native one in /usr/bin -- it's just configured
more accurately.
svn path=/nixpkgs/trunk/; revision=17870
On MacOS X, we used to use the native perl interpreter from /usr/bin.
Unfortunately, that interpreter fails to build a number of packages
(Subversion, Git, etc. ...), because it assumes knowledge about the underlying
C compiler that is not valid for the compiler used by Nix. For example,
/usr/bin/perl assumes that the compiler can build binaries for both the ppc and
the x86 architecture. /usr/bin/FCC can do that, but the gcc from Nix can't.
The solution is to compile Perl 5.10 via Nix so that it can properly configure
itself. However, note that the resulting binary is impure: it will find headers
in /usr/include and libraries in /usr/lib -- something a pure perl binary
wouldn't do. In this respect our Nix-compiled perl binary is not better than
the native one from /usr/bin -- it's just more accurately configured.
svn path=/nixpkgs/trunk/; revision=17618
ACL2 = A Computational Logic for Applicative Common Lisp. It is
a Lisp sublanguage and a correctness prover for it.
svn path=/nixpkgs/trunk/; revision=16708
I thought I didn't change stdenv, but I did. This will go soon into the stdenv
branch then.
Reverse-merging r16467 through r16465.
svn path=/nixpkgs/trunk/; revision=16468