This vignette will discuss
macOS-specific topics. If you’re not using macOS, you can ignore this
vignette, and read the
vignette("b1-setting-up-and-using-rix-on-linux-and-windows")
vignette instead.
When it comes to Nix, there are really only two supported operating systems: macOS and Linux distributions. Windows is “supported” because it is actually running Linux thanks to WSL2. In practice this means that Linux distributions and Windows can be considered one system, and macOS another, separate, system, with its own idiosyncrasies. This vignette details these.
You can use {rix}
to generate Nix expressions even if
you don’t have Nix installed on your system, but obviously, you need to
install Nix if you actually want to build the defined development
environment and use them. Installing (and uninstalling) Nix is quite
simple, thanks to the installer from Determinate
Systems, a company that provides services and tools built on Nix.
Simply open a terminal and run the following line:
curl --proto '=https' --tlsv1.2 -sSf \
-L https://install.determinate.systems/nix | \
sh -s -- install
Once you have Nix installed, you can build the expressions you
generate with {rix}
!
If you have successfully installed Nix, but don’t have yet R
installed on your system, you could install R as you would usually do on
your operating system, and then install the {rix}
package,
and from there, generated project-specific expressions and build them.
But you could also install R using Nix. Running the following line in a
terminal will drop you in an interactive R session that you can use to
start generating expressions:
nix-shell --expr "$(curl -sl https://raw.githubusercontent.com/ropensci/rix/main/inst/extdata/default.nix)"
This should immediately start an R session inside your terminal. You can now run something like this:
rix(r_ver = "latest",
r_pkgs = c("dplyr", "ggplot2"),
system_pkgs = NULL,
git_pkgs = NULL,
ide = "other",
project_path = ".",
overwrite = TRUE)
to generate a default.nix
, and then use that file to
generate an environment with R, {dplyr}
and
{ggplot2}
. If you need to add packages for your project,
rerun the command above, but add the needed packages to
r_pkgs
. This is detailed in the vignettes
vignette("d1-installing-r-packages-in-a-nix-environment")
and
vignette("d2-installing-system-tools-and-texlive-packages-in-a-nix-environment")
.
Once you have R installed, either through the usual installer for your operating system, or through Nix as explained previously, you can now start building project-specific development environments.
On macOS, generating expressions works just like on Linux and
Windows. Start an R session, and install {rix}
if that’s
not already done. Because {rix}
is not yet on CRAN, the
easiest way is to install it from its r-universe:
install.packages("rix", repos = c(
"https://ropensci.r-universe.dev",
"https://cloud.r-project.org"
))
You can then use the {rix}
package to generate
expressions. Consult the next vignette
vignette("c-using-rix-to-build-project-specific-environments")
to learn more.
In Nixpkgs, the M series processors of the ARM64 family, also known
under AArch64, supports R since R version 3.5.3. Earlier versions of R
will not compile on modern Apple processor architectures for the
corresponding Nixpkgs revisions at that time. Hence, the
darwin-aarch64
platform has constrained
backwards-compatibility.
As of writing, RStudio cannot be installed through
nixpkgs
for macOS, and if you wish to use RStudio with a
Nix environment, you have to install it through nixpkgs
.
This means that it is impossible to use RStudio and a Nix environment on
macOS. When you try to generate an expression with
ide = "rstudio"
on macOS, this will raise a warning. Here
are the options you have:
ide =
argument to either
"other"
or "code"
. Use "code"
if
you want to use VS Code and "other"
for any other editor,
like Vim or Emacs. These other editors don’t need to be installed
through nixpkgs
to use Nix environments, unlike
RStudio;{targets}
package, you could run it on Github Actions. This means you could work
on the code on RStudio outside of the Nix environment, as the code will
only be executed on Github Actions runners. See this vignette
vignette("z-advanced-topic-reproducible-analytical-pipelines-with-nix")
for further details;default.nix
at the end with
ide = "other"
with the right version of R for
reproducibility purposes;vignette("z-advanced-topic-running-r-or-shell-code-in-nix-from-r")
;nixpgs
. See here,
the Nix expression for RStudio.We recommend you continue with the next vignette before tackling the
more advanced topics listed above:
vignette("c-using-rix-to-build-project-specific-environments")
.
PATH
When using RStudio Desktop on macOS, you typically launch it from the
Applications folder. However, RStudio currently lacks an option to start
an integrated R session via a shell startup on macOS (see this issue. On
RStudio for Linux flavors, PATH
is properly inherited in R
sessions. As a result, key environmental variables for UNIX systems,
like PATH, are not be properly loaded from your default shell (e.g.,
zsh
, via ~/.zshrc
). Also, RStudio overwrites a
PATH
variable set via .Rprofile
or
.Renviron
with its own defaults, which makes it impossible
to find Nix and standard Nix tools like nix-build
. It’s
worth noting that this doesn’t impact rix::rix()
, which
generates Nix expressions and doesn’t require a Nix installation. As a
workaround, we have added mechanisms in nix_build()
and
with_nix()
that append the path of the Nix store to the
PATH
variable in an active session automatically (via
Sys.setenv()
, when you use RStudio on macOS. You don’t have
to do anything. We have you covered, and you get a friendly message that
informs you. special side effect.