nixpkgs/doc/languages-frameworks/r.section.md
V 7616206b77
doc: add function argument order convention (#110060)
* doc: add function argument order convention

Ordering by usage is the de facto ordering given to arguments. It's
logical, and makes finding argument usage easier. Putting lib first is
common in NixOS modules, so it's reasonable to mirror this in nixpkgs
proper. Additionally, it's not a package as such, has zero dependencies,
and can be found used anywhere in a derivation.

* doc: clean up usage of lib
2021-01-20 19:07:16 -05:00

3.1 KiB

R

Installation

Define an environment for R that contains all the libraries that you'd like to use by adding the following snippet to your $HOME/.config/nixpkgs/config.nix file:

{
    packageOverrides = super: let self = super.pkgs; in
    {

        rEnv = super.rWrapper.override {
            packages = with self.rPackages; [
                devtools
                ggplot2
                reshape2
                yaml
                optparse
                ];
        };
    };
}

Then you can use nix-env -f "<nixpkgs>" -iA rEnv to install it into your user profile. The set of available libraries can be discovered by running the command nix-env -f "<nixpkgs>" -qaP -A rPackages. The first column from that output is the name that has to be passed to rWrapper in the code snipped above.

However, if you'd like to add a file to your project source to make the environment available for other contributors, you can create a default.nix file like so:

with import <nixpkgs> {};
{
  myProject = stdenv.mkDerivation {
    name = "myProject";
    version = "1";
    src = if lib.inNixShell then null else nix;

    buildInputs = with rPackages; [
      R
      ggplot2
      knitr
    ];
  };
}

and then run nix-shell . to be dropped into a shell with those packages available.

RStudio

RStudio uses a standard set of packages and ignores any custom R environments or installed packages you may have. To create a custom environment, see rstudioWrapper, which functions similarly to rWrapper:

{
    packageOverrides = super: let self = super.pkgs; in
    {

        rstudioEnv = super.rstudioWrapper.override {
            packages = with self.rPackages; [
                dplyr
                ggplot2
                reshape2
                ];
        };
    };
}

Then like above, nix-env -f "<nixpkgs>" -iA rstudioEnv will install this into your user profile.

Alternatively, you can create a self-contained shell.nix without the need to modify any configuration files:

{ pkgs ? import <nixpkgs> {}
}:

pkgs.rstudioWrapper.override {
  packages = with pkgs.rPackages; [ dplyr ggplot2 reshape2 ];
}

Executing nix-shell will then drop you into an environment equivalent to the one above. If you need additional packages just add them to the list and re-enter the shell.

Updating the package set

nix-shell generate-shell.nix

Rscript generate-r-packages.R cran  > cran-packages.nix.new
mv cran-packages.nix.new cran-packages.nix

Rscript generate-r-packages.R bioc  > bioc-packages.nix.new
mv bioc-packages.nix.new bioc-packages.nix

Rscript generate-r-packages.R bioc-annotation > bioc-annotation-packages.nix.new
mv bioc-annotation-packages.nix.new bioc-annotation-packages.nix

Rscript generate-r-packages.R bioc-experiment > bioc-experiment-packages.nix.new
mv bioc-experiment-packages.nix.new bioc-experiment-packages.nix

generate-r-packages.R <repo> reads <repo>-packages.nix, therefor the renaming.

Testing if the Nix-expression could be evaluated

nix-build test-evaluation.nix --dry-run

If this exits fine, the expression is ok. If not, you have to edit default.nix