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Now that you have the required software installed, it’s to time learn more about declaring and using reproducible inveronments.
The ideal workflow when using {rix}
is to create a new,
separate environment at the start of a project. Let’s say that you wish
to analyse some data set, and need {dplyr}
and
{ggplot2}
. Let’s also suppose that you use VS Code as your
IDE (there will be more discussion on editors in the vignette
vignette("e-interactive-use")
but for now, let’s assume
that you use VS Code). With the rix::rix()
function, you
can easily generate the right default.nix
file. You need to
provide the following inputs to rix()
:
r_ver
: the version of R required. Use “latest” for the
latest version;r_pkgs
: the required R packages. For example “dplyr”
(more on this in the vignette
vignette("d1-installing-r-packages-in-a-nix-environment")
);system_pkgs
: the required system packages, if needed.
For example “quarto”, or a Python interpreter (more on this in the
vignette
vignette("d2-installing-system-tools-and-texlive-packages-in-a-nix-environment")
);git_pkgs
: list of git packages to add (more on this in
the vignette
vignette("d1-installing-r-packages-in-a-nix-environment")
);ide
: the integrated development editor to use (more on
this in the vignette vignette("e-interactive-use")
)path
: the path where to save the
default.nix
file.overwrite
: whether to overwrite the
default.nix
file or not.print
: whether to print the default.nix
file to the console or not.Run the following command to generate the right
default.nix
file:
path_default_nix <- tempdir()
rix(
r_ver = "latest",
r_pkgs = c("dplyr", "ggplot2"),
system_pkgs = NULL,
git_pkgs = NULL,
ide = "code",
project_path = path_default_nix,
overwrite = TRUE,
print = TRUE
)
#> # This file was generated by the {rix} R package v0.7.1 on 2024-07-01
#> # with following call:
#> # >rix(r_ver = "12a9c0004bc987afb1ff511ebb97b67497a68e22",
#> # > r_pkgs = c("dplyr",
#> # > "ggplot2"),
#> # > system_pkgs = NULL,
#> # > git_pkgs = NULL,
#> # > ide = "code",
#> # > project_path = path_default_nix,
#> # > overwrite = TRUE,
#> # > print = TRUE)
#> # It uses nixpkgs' revision 12a9c0004bc987afb1ff511ebb97b67497a68e22 for reproducibility purposes
#> # which will install R version latest.
#> # Report any issues to https://github.com/ropensci/rix
#> let
#> pkgs = import (fetchTarball "https://github.com/NixOS/nixpkgs/archive/12a9c0004bc987afb1ff511ebb97b67497a68e22.tar.gz") {};
#>
#> rpkgs = builtins.attrValues {
#> inherit (pkgs.rPackages)
#> dplyr
#> ggplot2
#> languageserver;
#> };
#>
#> system_packages = builtins.attrValues {
#> inherit (pkgs)
#> R
#> glibcLocales
#> nix;
#> };
#>
#> in
#>
#> pkgs.mkShell {
#> LOCALE_ARCHIVE = if pkgs.system == "x86_64-linux" then "${pkgs.glibcLocales}/lib/locale/locale-archive" else "";
#> LANG = "en_US.UTF-8";
#> LC_ALL = "en_US.UTF-8";
#> LC_TIME = "en_US.UTF-8";
#> LC_MONETARY = "en_US.UTF-8";
#> LC_PAPER = "en_US.UTF-8";
#> LC_MEASUREMENT = "en_US.UTF-8";
#>
#> buildInputs = [ rpkgs system_packages ];
#>
#> }
To start using this environment, open a terminal in the folder
containing default.nix
and use the following Nix
command:
nix-build
nix-build
is a Nix command that builds an environment
according to the specifications found in a default.nix
file. Once the environment is done building, you should find a new file
called result
next to the default.nix
file.
This file is a symlink to the software installed by Nix.
{rix}
also provides a nix_build()
function to
build Nix environments from within an interactive R session, but it is
not always guaranteed to succeed, due to differences in platforms. This
is explained in more detail in the following vignette
vignette("z-advanced-topic-running-r-or-shell-code-in-nix-from-r")
.
In case of doubt, run nix-build
from your usual terminal
application.
To now use the environment, type in the same terminal as before:
nix-shell
This will activate the environment. If you have VS Code installed you
can start it from this environment and VS Code will use this specific R
version library of packages. We will explore this in greater detail in
the vignette vignette("e-interactive-use")
.
The example below shows how to create a default.nix
with
instructions to build an environment with R version 4.2.1, the
{dplyr}
and {janitor}
packages and no specific
IDE:
path_default_nix <- tempdir()
rix(
r_ver = "4.2.1",
r_pkgs = c("dplyr", "janitor"),
system_pkgs = c("quarto"),
git_pkgs = NULL,
ide = "other",
project_path = path_default_nix,
overwrite = TRUE
)
The file looks like this:
#> # This file was generated by the {rix} R package v0.7.1 on 2024-07-01
#> # with following call:
#> # >rix(r_ver = "79b3d4bcae8c7007c9fd51c279a8a67acfa73a2a",
#> # > r_pkgs = c("dplyr",
#> # > "janitor"),
#> # > system_pkgs = c("quarto"),
#> # > git_pkgs = NULL,
#> # > ide = "other",
#> # > project_path = path_default_nix,
#> # > overwrite = TRUE)
#> # It uses nixpkgs' revision 79b3d4bcae8c7007c9fd51c279a8a67acfa73a2a for reproducibility purposes
#> # which will install R version 4.2.1.
#> # Report any issues to https://github.com/ropensci/rix
#> let
#> pkgs = import (fetchTarball "https://github.com/NixOS/nixpkgs/archive/79b3d4bcae8c7007c9fd51c279a8a67acfa73a2a.tar.gz") {};
#>
#> rpkgs = builtins.attrValues {
#> inherit (pkgs.rPackages)
#> dplyr
#> janitor;
#> };
#>
#> system_packages = builtins.attrValues {
#> inherit (pkgs)
#> quarto
#> R
#> glibcLocales
#> nix;
#> };
#>
#> in
#>
#> pkgs.mkShell {
#> LOCALE_ARCHIVE = if pkgs.system == "x86_64-linux" then "${pkgs.glibcLocales}/lib/locale/locale-archive" else "";
#> LANG = "en_US.UTF-8";
#> LC_ALL = "en_US.UTF-8";
#> LC_TIME = "en_US.UTF-8";
#> LC_MONETARY = "en_US.UTF-8";
#> LC_PAPER = "en_US.UTF-8";
#> LC_MEASUREMENT = "en_US.UTF-8";
#>
#> buildInputs = [ rpkgs system_packages ];
#>
#> }
The first line is quite important, as it shows which
revision of nixpkgs
is being used for this
environment. The revision is the commit hash of that particular
release of nixpkgs
, here: 79b3d4bcae8
. This
revision of nixpkgs
is the one that shipped version 4.2.1
of R, so the {dplyr}
and {janitor}
packages
that will get installed will be the versions available in that revision
as well. This means that R versions and package versions are always
coupled when using Nix. However, if you need a specific version of R,
but also a specific version of a package that is not available in that
particular Nix revision, one solution is to install that package from
Github or fro the CRAN archives. Read the vignette
vignette("d1-installing-r-packages-in-a-nix-environment")
to know more about this. To know which versions of R are available, read
the documention of available_r()
.
You could create a bash script that you put in the path to make the
process of launching your editor from that environment more streamlined.
For example, if your project is called housing
, you could
create this script and execute it to start your project:
#!/bin/bash
nix-shell /absolute/path/to/housing/default.nix --run code
This will execute VS Code in the environment for the
housing
project. If you use {targets}
you
could execute the pipeline in the environment by running:
cd /absolute/path/to/housing/ && nix-shell default.nix --run "Rscript -e 'targets::tar_make()'"
It is also possible to run single functions in an isolated
environment from an active R session using with_nix()
and
get the output of that function loaded into the current session. Refer
to this vignette
vignette("z-advanced-topic-running-r-or-shell-code-in-nix-from-r")
for more details on how to achieve this. Concretely this means that you
could be running R version 4.3.2 (installed via Nix, or not), and
execute a function on R version 4.0.0 for example in a subshell (or
execute a function that requires an old version of a package in that
subshell), and get the result of the computation back into the main R
session.
It is important to know that an environment built by Nix is not
totally isolated from the rest of the system. Suppose that you have the
program sl
installed on your system, and suppose you build
a Nix environment that also comes with sl
. If you activate
that environment, the version of sl
that will run when
called is the one included in the Nix environment. If, however, you
start sl
in a Nix environment that does not come with it,
then your system’s sl
will get used instead.
In the context of the R programming language, this means that if you
have a user or system library of packages (meaning, a library of
packages generated by a regular installation of R), these packages may
be loaded by an R version running from a Nix shell. To avoid issues with
this, calling rix()
automatically runs
rix_init()
as well, which generates a custom
.Rprofile
file in the project’s directory. This way, your
regular user library of packages will not interfere with R environments
managed by Nix. Moreover, this custom .Rprofile
also
redefines install.packages()
and makes it throw an error:
indeed, if you wish to add packages to your an R environment managed by
Nix, you should add these packages to the default.nix
file
instead, and rebuild the environment.
If you want to even make other programs inaccessible to a running Nix
environment, you can drop into it using nix-shell --pure
instead of only nix-shell
.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.