z - Advanced topic: Understanding the rPackages set release cycle and using bleeding edge packages
Source:vignettes/z-bleeding_edge.Rmd
z-bleeding_edge.Rmd
Introduction
It is important to understand the release cycle of the rPackages set
and what steps you should take if you need bleeding edge packages. R
packages on nixpkgs
tend to get updated alongside a new
release of R, and the reason is to ensure a certain level of quality.
The vast majority of CRAN (and Bioconductor) packages are made available
through nixpkgs
in a fully automated way. But some packages
do require some manual intervention to work on Nix, and we only know
this if we try to build these packages, but building packages requires
quite a lot of resources. We can’t build CRAN packages every single day
to see if everything works well on Nix, so we only rebuild the whole
tree whenever there’s a new release of R. Packages get built on a CI
infrastructure called Hydra, and then these packages get cached
on cache.nixos.org so whenever
someone wants to install a package, a pre-built binary gets download
from the cache. This avoids having to build software from source
locally. For packages that don’t need compiling this is not that big of
a time save, but for packages that do need to get compiled it is huge.
Depending on which packages you want to install, if you had to build
everything from source, it could potentially take hours, but if you can
install pre-built binaries it’s just a matter of how quick your internet
connection is.
R packages available through Nix
As explained in the introduction, the rPackages set on
nixpkgs
gets updated shortly after a new release of R. The
process involves first updating the package definitions found here,
and then building the whole tree on a CI platform called Hydra.
Build failures then get fixed by volunteers (to learn how you can
contribute, read the
vignette("z-contributing_to_nixpkgs")
). After the most
important packages have been fixed, the whole rPackages set gets updated
and made available through nixpkgs
master branch.
Essentially this means that if you start a project with
rix using "latest"
as the r_ver
just after the rPackages set got updated, this project will use very
fresh packages. But if instead you start a project just before an R
release, then the environment will be using older packages. In practice
this rarely matters, unless you absolutely need a very recent version of
a specific package because you need a specific feature, or if you need
an environment with bleeding edge packages for development. For cases
like this, we provide the r_ver = "bleeding_edge"
and
r_ver = "frozen_edge"
options that makes it possible to use
the most recent packages for your environment, but at a cost. You must
be aware of this cost which we detail in the next section.
Using bleeding and frozen edge package for your environments
CRAN is continuously getting new or updated packages. When you use R
outside of Nix, running install.packages(pkg)
will install
the latest version of the {pkg}
package available from CRAN
(unless you changed the default repository url). With Nix, packages do
not get downloaded from CRAN but for the nixpkgs
repository
and they may be outdated as explained above. If you require bleeding
edge packages, use the "bleeding_edge"
option to
r_ver
. This will NOT download packages
from the official nixpkgs
repository anymore, but from a
fork that we maintain that you can find here.
This fork gets updated every 12 hours with the latest commits from both
the nixpkgs
repository and CRAN. This means that
environments generated using this fork will contain bleeding packages
for both the CRAN (and Bioconductor) packages as well as system-level
dependencies. Also, be aware that this will generate an expression that
is NOT reproducible! Each time you will rebuild the
environment generated using the "bleeding_edge"
option, you
will get exactly that: an environment with bleeding edge packages at
build time. If you want instead to have bleeding edge packages at the
time you generate the expression, but then want reproducibility (in
other words, building should always result in the same environment),
then use the "frozen_edge"
option instead.
In any case, whatever option you choose, using them comes at a cost of which you must be aware.
First, because these packages are bleeding edge, they have not had the chance to be built by Hydra yet. Hydra periodically builds packages and these get cached. So if you’re using Nix, pre-compiled binaries get used instead of being built from source. This is not the case if you use our fork, unless you also use the cache that we provide, courtesy of cachix.org. Cachix provides a cache for your own projects and works seamlessly with the official Nix cache. However, we are limited in space, and cannot possible cache all the CRAN packages. So only the most popular packages get built and cached, and hopefully the packages you need are part of this limited set. To use the cache, run the following commands on your computer. First, install the Cachix client:
nix-env -iA cachix -f https://cachix.org/api/v1/install
then use the cache:
cachix use rstats-on-nix
that’s it! Packages now not only will get pulled from the official
cache, but also from the dedicated rstats-on-nix
cache. Our
cache also contains the latest version of R, which sometimes can also
lag behind on the official nixpkgs
repository.
Making your own cache
If you need packages that are not included in the
rstats-on-nix
cache, you can very easily roll out your own
binary cache. Simply build the environment once on one machine, and then
push the binaries in a cache for re-use. Refer to the vignette
vignette("z-binary_cache")
to learn how to set up your own
cache.