{rix} is an R package that leverages Nix, a package manager focused on
reproducible builds. With Nix, you can create project-specific
environments with a custom version of R, its packages, and all system
dependencies (e.g., GDAL). Nix ensures full
reproducibility, which is crucial for research and development
projects.
Use cases include running web apps (e.g., Shiny,
{plumber} APIs) or {targets} pipelines with a
controlled R environment. Unlike {renv}, which snapshots
package versions, {rix} provides an entire ecosystem
snapshot, including system-level dependencies.
Important sidenote: as it so happened, there is currently a bug
in the released CRAN version that we thought we had solved, which we
did, but only partially. When running rix::rix() two files
should be generated: a default.nix and an
.Rprofile for your project. It turns out that this file can
be empty. If it is, run
rix::rix_init(rprofile_action = "overwrite") to generate a
proper .Rprofile. This is important, especially on Mac or
if you have a system-wide library of packages! We will submit a fix
asap.
While Nix has a steep learning curve, {rix}
If you want to watch a 5-Minute video introduction click here.
Nix includes nearly all CRAN and Bioconductor packages, with the ability to install specific package versions or GitHub snapshots. Nix also includes Python, Julia (and many of their respective packages) as well as many, many other tools (up to 100’000 pieces of software as of writing).
If you have R installed, you can start straight away from your R
session by first installing {rix}:
install.packages("rix", repos = c(
"https://ropensci.r-universe.dev",
"https://cloud.r-project.org"
))
library("rix")Now try to generate an expression using rix():
# Choose the path to your project
# This will create two files: .Rprofile and default.nix
path_default_nix <- "."
rix(
r_ver = "4.3.3",
r_pkgs = c("dplyr", "ggplot2"),
system_pkgs = NULL,
git_pkgs = NULL,
ide = "code",
project_path = path_default_nix,
overwrite = TRUE,
print = TRUE
)This will generate two files, default.nix and
.Rprofile in project_default_nix.
default.nix is the environment definition written in the
Nix programming language, and .Rprofile prevents conflicts
with library paths from system-installed R versions, offering better
control over your environment and improving isolation of Nix
environments. .Rprofile is created by
rix_init() which is called automatically by the main
function, rix().
If you’re already familiar with Nix and {rix}, install
Nix using the Determinate
Systems installer:
curl --proto '=https' --tlsv1.2 -sSf -L https://install.determinate.systems/nix | sh -s -- installYou can then use {rix} to build and enter a Nix-based R
environment:
library(rix)
path_default_nix <- "."
rix(
r_ver = "4.3.3",
r_pkgs = c("dplyr", "ggplot2"),
system_pkgs = NULL,
git_pkgs = NULL,
ide = "code",
project_path = path_default_nix,
overwrite = TRUE,
print = TRUE
)# nix_build() is a wrapper around the command line tool `nix-build`
nix_build(project_path = ".")If you don’t have R installed, but have the Nix package manager
installed, you can run a temporary R session with R using this command
(it will build an environment with the latest development version of
{rix} ):
nix-shell --expr "$(curl -sl https://raw.githubusercontent.com/ropensci/rix/main/inst/extdata/default.nix)"New to {rix} and Nix? Start by reading the
vignette("a-getting-started") (online
documentation). to learn how to set up and use Nix smoothly.
Try Nix inside Docker by following this
vignette("z-advanced-topic-using-nix-inside-docker") vignette.
Docker and {renv} provide robust reproducibility by combining package snapshots with system-level dependencies. However, for long-term reproducibility, Nix offers a simpler approach by bundling everything (R, packages, and dependencies) in a single environment.
Conda is similar to Nix, but Nix offers immutable environments, making it more reliable for preventing accidental changes. Nix also supports nearly all CRAN and Bioconductor packages, which Conda lacks.
Guix, like Nix, focuses on reproducibility, but Nix supports more CRAN/Bioconductor packages and works across Windows, macOS, and Linux.
No, there are other tools that you might want to check out,
especially if you want to set up polyglot environments (even though it
is possible to use {rix} to set up an environment with R
and Python packages for example).
Take a look at https://devenv.sh/ and https://prefix.dev/ if you want to explore other tools that make using Nix easier!
Refer to Contributing.md to learn how to contribute to
the package.
Please note that this package is released with a Contributor Code of Conduct. By contributing to this project, you agree to abide by its terms.
Thanks to the Nix community for making Nix possible, and thanks to the community of R users on Nix for their work packaging R and CRAN/Bioconductor packages for Nix (in particular Justin Bedő, Rémi Nicole, nviets, Chris Hammill, László Kupcsik, Simon Lackerbauer, MrTarantoga and every other person from the Matrix Nixpkgs R channel).
Finally, thanks to David
Solito for creating {rix}’s logo!