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= Overview =
= Overview =


[https://nixos.org/nix/ Nix] is a package manager system that allows users to manage their own persistent software environments. At the moment it is only available on SHARCNET systems (i.e., graham and legacy). If you would like this to change, help motivate an expansion by letting us known (it requires some coordination, but isn't too difficult to do).
[https://nixos.org/nix/ Nix] is a software building and composition system that allows users to manage their own persistent software environments. It is only available on SHARCNET systems (i.e., graham and legacy).


* Supports one-off, per-project, and per-user usage of packages
* Supports one-off, per-project, and per-user usage of compositions
* Packages can be built, installed, upgraded, downgraded, and removed as a user
* Compositions can be built, installed, upgraded, downgraded, and removed as a user
* Operations either succeed or fail leaving everything intact (operations are atomic).
* Operations either succeed or fail leaving everything intact (operations are atomic).
* Extremely each to add and share packages
* Extremely easy to add and share compositions
 
Currently nix is building software in a generic manner (e.g., without AVX2 or AVX512 vector instructions support), so module loaded software should be preferred for longer running simulations when it exists.


'''NOTE:''' The message <code>failed to lock thread to CPU XX</code> is a harmless warning that can be ignored.
'''NOTE:''' The message <code>failed to lock thread to CPU XX</code> is a harmless warning that can be ignored.


== Enabling and disabling the Nix environment ==
== Enabling and disabling the nix environment ==


The user’s current Nix environment is enabled by loading the nix module. This creates some ’‘.nix*’’ files and sets some environment variables.
The user’s current nix environment is enabled by loading the nix module. This creates some ''.nix*'' files and sets some environment variables.


<source lang="bash">[name@cluster:~]$ module load nix</source>
<source lang="bash">[name@cluster:~]$ module load nix</source>
It is disabled by unloading the nix module. This unsets the environment variables but leaves the ’‘.nix*’’ files alone.
It is disabled by unloading the nix module. This unsets the environment variables but leaves the ''.nix*'' files alone.


<source lang="bash">[name@cluster:~]$ module unload nix</source>
<source lang="bash">[name@cluster:~]$ module unload nix</source>
== Completely resetting the Nix environment ==
== Completely resetting the nix environment ==


Most operations can be undone with the <code>--rollback</code> option (i.e., <code>nix-env --rollback</code> or <code>nix-channel --rollback</code>). Sometimes it is useful to entirely reset nix though. This is done by unloading the module, erasing all user related nix files, and then reloading the module file.
Most per-user operations can be undone with the <code>--rollback</code> option (i.e., <code>nix-env --rollback</code> or <code>nix-channel --rollback</code>). Sometimes it is useful to entirely reset nix though. This is done by unloading the module, erasing all user related nix files, and then reloading the module file.


<source lang="bash">[name@cluster:~]$ module unload nix
<source lang="bash">[name@cluster:~]$ module unload nix
Line 28: Line 28:
[name@cluster:~]$ rm -fr /nix/var/nix/profiles/per-user/$USER /nix/var/nix/gcroots/per-user/$USER
[name@cluster:~]$ rm -fr /nix/var/nix/profiles/per-user/$USER /nix/var/nix/gcroots/per-user/$USER
[name@cluster:~]$ module load nix</source>
[name@cluster:~]$ module load nix</source>
= Basic package usage =
= Existing compositions =


The <code>nix search</code> command can be used to locate available packages
The <code>nix search</code> command can be used to locate already available compositions


<source lang="bash">[user@cluster:~]$ nix search git
<source lang="bash">[user@cluster:~]$ nix search git
Line 39: Line 39:
Pro tips include
Pro tips include


* you need to specify <code>-u</code> after upgrading your package set (this will take awhile)
* you need to specify <code>-u</code> after upgrading your channel (this will take awhile)
* the search string is actually a regular expression and multiple ones are ANDed together
* the search string is actually a regular expression and multiple ones are ANDed together


Often we want to use a package in one of three ways: a one-time command Individual packages can be access in Nix in a variety of ways
Often our usage of a composition is either a one-off, a per-project, or an all the time situations. Nix supports all three of these cases.


== One offs ==
== One offs ==


If you just want to use a package once, the easiest was is to use the <code>nix run</code> command. This command will start a shell in which <code>PATH</code> has been extended to include the specified package
If you just want to use a composition once, the easiest was is to use the <code>nix run</code> command. This command will start a shell in which <code>PATH</code> has been extended to include the specified composition


<source lang="bash">[user@cluster:~]$ nix run nixpkg.git
<source lang="bash">[user@cluster:~]$ nix run nixpkg.git
[user@cluster:~]$ git
[user@cluster:~]$ git
[user@cluster:~]$ exit</source>
[user@cluster:~]$ exit</source>
Note that this does not protect the package from being garbage collected overnight (e.g., the package is only guaranteed to be around temporarily for your use until sometime in the wee-morning hours). Pro tips include
Note that this does not protect the composition from being garbage collected overnight (e.g., the composition is only guaranteed to be around temporarily for your use until sometime in the wee-morning hours). Pro tips include


* you can specify more than one package in the same <code>nix run</code> command
* you can specify more than one composition in the same <code>nix run</code> command
* you can specify a command instead of a shell with <code>-c &lt;cmd&gt; &lt;args&gt; ...</code>
* you can specify a command instead of a shell with <code>-c &lt;cmd&gt; &lt;args&gt; ...</code>


== Per-project ==
== Per-project ==


If you want to use a program for a specific project, the easiest way is with the <code>nix build</code> command. This command will create a symbolic link (by default named <code>result</code>) from which you can access the programs <code>bin</code> directory to run it.
If you want to use a program for a specific project, the easiest way is with the <code>nix build</code> command. This command will create a symbolic link (by default named <code>result</code>) from which you can access the programs ''bin'' directory to run it.


<source lang="bash">[user@cluster:~]$ nix build nixpkgs.git
<source lang="bash">[user@cluster:~]$ nix build nixpkgs.git
[user@cluster:~]$ ./result/bin/git</source>
[user@cluster:~]$ ./result/bin/git</source>
Note that (currently) the package will only be protected from overnight garbage collection if you output the symlink into your <code>home</code> directory and do not rename or move it. Pro tips include
Note that (currently) the composition will only be protected from overnight garbage collection if you output the symlink into your ''home'' directory and do not rename or move it. Pro tips include


* you can specify the output symlink name with the <code>-o &lt;name&gt;</code> option
* you can specify the output symlink name with the <code>-o &lt;name&gt;</code> option
* add the <code>bin</code> directory to your <code>PATH</code> to not have to type it in every time
* add the ''bin'' directory to your <code>PATH</code> to not have to type it in every time


== Per-user ==
== Per-user ==


Loading the <code>nix</code> module adds the per-user common <code>~/.nix-profile/bin</code> directory to your <code>PATH</code>. You can add and remove packages from this directory with the <code>nix-env</code> command
Loading the <code>nix</code> module adds the per-user common ''~/.nix-profile/bin'' directory to your <code>PATH</code>. You can add and remove compositions from this directory with the <code>nix-env</code> command


<source lang="bash">[user@cluster:~]$ nix-env --install --attr nixpkgs.git
<source lang="bash">[user@cluster:~]$ nix-env --install --attr nixpkgs.git
Line 91: Line 91:
* <code>nix-env --rollback</code> moves up one generation
* <code>nix-env --rollback</code> moves up one generation
* <code>nix-env --delete-generations &lt;time&gt;</code> deletes environments older than <code>&lt;time&gt;</code> (e.g., <code>30d</code>)
* <code>nix-env --delete-generations &lt;time&gt;</code> deletes environments older than <code>&lt;time&gt;</code> (e.g., <code>30d</code>)
* see our [[nix-env.md|nix-env]] page for a much more in-depth discussion of using <code>nix-env</code>
* see our [[Using Nix: nix-env|nix-env page]] for a much more in-depth discussion of using <code>nix-env</code>


= Advanced package usage =
= Creating compositions =


Often we require a composition of packages. This can be as simple as having the binaries from multiple packages available in the same <code>bin</code> directory (e.g., <code>make</code>, <code>gcc</code>, and <code>ld</code> to build a simple C program) to as complex as having a python environment setup with all the desired modules installed (e.g., PYTHON_PATH set correctly, etc.).
Often we require our own unique composition. A basic example would be to bundle all the binaries from multiple existing compositions in a common ''bin'' directory (e.g., <code>make</code>, <code>gcc</code>, and <code>ld</code> to build a simple C program). A more complex example would be to bundle python with a set of python libraries by wrapping the python executables with shell scripts to set <code>PYTHON_PATH</code> for the python libraries before running the real python binaries.


All of these have a common format. You write a Nix expression in a <code>.nix</code> file that composes together packages in a file and then you tell the above commands to use that with the <code>-f &lt;nix file&gt;</code> option. For example, say the file <code>python.nix</code> has an expression for a python environment in it, you can create a per-project bin directory with
All of these have a common format. You write a nix expression in a <code>.nix</code> file that composes together existing compositions and then you tell the above commands to use that with the <code>-f &lt;nix file&gt;</code> option. For example, say the file <code>python.nix</code> has an expression for a python environment in it, you can create a per-project ''bin'' directory with


<source lang="bash">[user@cluster:~]$ nix build -f python.nix -o python
<source lang="bash">[user@cluster:~]$ nix build -f python.nix -o python
[user@cluster:~]$ ./python/bin/python</source>
[user@cluster:~]$ ./python/bin/python</source>
The Nix expression you put in the file generally
The nix expression you put in the file generally


* does <code>with import &lt;nixpkgs&gt; {}</code> to bring the set of nixpkgs into scope
* does <code>with import &lt;nixpkgs&gt; {}</code> to bring the set of nixpkgs into scope
* calls an existing package composition functions with a list of space-separated components to include
* calls an existing composition functions with a list of space-separated components to include


The template for doing the second these follows below as it differs slightly across the various eco-systems.
The template for doing the second these follows below as it differs slightly across the various eco-systems.
Line 114: Line 114:
== Generic ==
== Generic ==


Nixpkgs provides a <code>buildEnv</code> function that combine multiple packages into a single ones (by combining their <code>bin</code>, <code>lib</code>, etc. directories). The list of packages are the same as used before minus the leading <code>nixpkgs</code> as it was imported (e.g., <code>git</code> instead of <code>nixpkgs.git</code>).
Nixpkgs provides a <code>buildEnv</code> function that does a basic composition of compositions (by combining their ''bin'', ''lib'', etc. directories). The list of packages are the same as used before minus the leading <code>nixpkgs</code> prefix as it was imported (e.g., <code>git</code> instead of <code>nixpkgs.git</code>).


<source lang="nix">with import <nixpkgs> {};
<source lang="nix">with import <nixpkgs> {};
Line 120: Line 120:
   name = "my environment";
   name = "my environment";
   paths = [
   paths = [
     ... list of packages ...
     ... list of compositions ...
   ];
   ];
}</source>
}</source>
Line 127: Line 127:
Nixpkgs provides the following python related attributes
Nixpkgs provides the following python related attributes


* <code>python&lt;major&gt;&lt;minor&gt;</code> - a package providing the given python
* <code>python&lt;major&gt;&lt;minor&gt;</code> - a composition providing the given python
* <code>python&lt;major&gt;&lt;minor&gt;.pkgs</code> - the set of python packages using the given python
* <code>python&lt;major&gt;&lt;minor&gt;.pkgs</code> - the set of python compositions using the given python
* <code>python&lt;major&gt;&lt;minor&gt;.withPackages</code> - wraps python with <code>PYTHON_PATH</code> set to a given set of packages
* <code>python&lt;major&gt;&lt;minor&gt;.withPackages</code> - wraps python with <code>PYTHON_PATH</code> set to a given set of python packages


We can use the former directly to use the programs provided by python packages
We can use the former directly to use the programs provided by python compositions


<source lang="bash">[user@cluster:~]$ nix run python36.pkgs.spambayes
<source lang="bash">[user@cluster:~]$ nix run python36.pkgs.spambayes
[user@cluster:~]$ sb_filter.py --help
[user@cluster:~]$ sb_filter.py --help
[user@cluster:~]$ exit</source>
[user@cluster:~]$ exit</source>
and the later in a <code>.nix</code> file to create a python wrapper to enable a given set of libraries (e.g., a <code>python</code> command we can run and access the given set of python packages from)
and the later in a <code>.nix</code> file to create a python composition that enables a given set of libraries (e.g., a <code>python</code> command we can run and access the given set of python packages from)


<source lang="nix">with import <nixpkgs> { };
<source lang="nix">with import <nixpkgs> { };
Line 148: Line 148:
* the aliases <code>python</code> and <code>python&lt;major&gt;</code> given default <code>python&lt;major&gt;&lt;minor&gt;</code> versions
* the aliases <code>python</code> and <code>python&lt;major&gt;</code> given default <code>python&lt;major&gt;&lt;minor&gt;</code> versions
* the aliases <code>pythonPackages&lt;major&gt;&lt;minor&gt;</code> are short for <code>python&lt;major&gt;&lt;minor&gt;.pkgs</code> (including default version variants)
* the aliases <code>pythonPackages&lt;major&gt;&lt;minor&gt;</code> are short for <code>python&lt;major&gt;&lt;minor&gt;.pkgs</code> (including default version variants)
* the function <code>python&lt;major&gt;&lt;minor&gt;.pkgs.buildPythonPackage</code> can be used to build your own packages
* the function <code>python&lt;major&gt;&lt;minor&gt;.pkgs.buildPythonPackage</code> can be used to build your own python packages


== R ==
== R ==
Line 154: Line 154:
Nixpkgs provides the following R related attributes
Nixpkgs provides the following R related attributes


* <code>R</code> - a package providing R
* <code>R</code> - a composition providing R
* <code>rstudio</code> - a package providing RStudio
* <code>rstudio</code> - a composition providing RStudio
* <code>rPackages</code> - the set of R packages
* <code>rPackages</code> - the set of R packages
* <code>rWrapper</code> - a wrapped R with <code>R_LIBS</code> set to a minimal set of packages
* <code>rWrapper</code> - a composition that wraps R with <code>R_LIBS</code> set to a minimal set of R packages
* <code>rstudioWrapper</code> - a wrapped RStudio with <code>R_LIBS</code> set to a minimal set of packages
* <code>rstudioWrapper</code> - a composition that wrapped RStudio with <code>R_LIBS</code> set to a minimal set of R packages


We can use <code>rPackages</code> directly to examine the content of packages
We can use <code>rPackages</code> directly to examine the content of R packages


<source lang="bash">[user@cluster:~]$ nix build rPackages.exams -o exams
<source lang="bash">[user@cluster:~]$ nix build rPackages.exams -o exams
[user@cluster:~]$ cat exams/library/exams/NEWS
[user@cluster:~]$ cat exams/library/exams/NEWS
[user@cluster:~]$ exit</source>
[user@cluster:~]$ exit</source>
and the latter two can be overridden in a <code>.nix</code> file to create R and RStudio wrappers to enable a given set of libraries (e.g., a <code>R</code> or <code>rstudio</code> command we can run and access the given set of R packages from)
and the latter two can be overridden in a <code>.nix</code> file to create R and RStudio wrappers to create a composition enabling a given set of R libraries (e.g., a <code>R</code> or <code>rstudio</code> command we can run and access the given set of R packages from)


<source lang="nix">with import <nixpkgs> { };
<source lang="nix">with import <nixpkgs> { };
Line 181: Line 181:
Nixpkgs provides the following haskell related attributes
Nixpkgs provides the following haskell related attributes


* <code>haskell.compiler.ghc&lt;major&gt;&lt;minor&gt;&lt;patch&gt;</code> - package providing the given ghc
* <code>haskell.compiler.ghc&lt;major&gt;&lt;minor&gt;&lt;patch&gt;</code> - composition providing the given ghc
* <code>haskell.packages.ghc&lt;major&gt;&lt;minor&gt;&lt;patch&gt;</code> - the set of haskell packages compiled by the given ghc
* <code>haskell.packages.ghc&lt;major&gt;&lt;minor&gt;&lt;patch&gt;</code> - the set of haskell packages compiled by the given ghc
* <code>haskell.packages.ghc&lt;major&gt;&lt;minor&gt;&lt;patch&gt;.withPackages</code> - wraps ghc to enable the given packages
* <code>haskell.packages.ghc&lt;major&gt;&lt;minor&gt;&lt;patch&gt;.ghc.withPackages</code> - composition wrapping ghc to enable the given packages
* <code>haskell.packages.ghc&lt;major&gt;&lt;minor&gt;&lt;patch&gt;.withHoogle</code> - wraps ghc to enable the given packages with hoogle and documentation indices
* <code>haskell.packages.ghc&lt;major&gt;&lt;minor&gt;&lt;patch&gt;.ghc.withHoogle</code> - composition wrapping ghc to enable the given packages with hoogle and documentation indices


We can use the first directly to use programs provided by haskell packages
We can use the first directly to use programs provided by haskell packages
Line 190: Line 190:
<source lang="bash">[user@cluster:~]$ nix run haskell.packages.ghc864.pandoc
<source lang="bash">[user@cluster:~]$ nix run haskell.packages.ghc864.pandoc
[user@cluster:~]$ pandoc --help</source>
[user@cluster:~]$ pandoc --help</source>
and the last two in a <code>.nix</code> file create a ghc environment to enable a given set of package (e.g., a <code>ghci</code> we can run and access the given set of packages from)
and the last two in a <code>.nix</code> file create a ghc environment to enable a given set of haskell package (e.g., a <code>ghci</code> we can run and access the given set of packages from)


<pre>with import &lt;nixpkgs&gt; { };
<pre>with import &lt;nixpkgs&gt; { };
haskell.packages.ghc864.withPackages (packages:
haskell.packages.ghc864.ghc.withPackages (packages:
   with packages; [
   with packages; [
     ... list of Haskell packages ...
     ... list of Haskell packages ...
Line 208: Line 208:
Nixpkgs provides the following emacs related attributes (append a <code>Ng</code> suffix for older versions of nixpkgs, e.g., <code>emacs25Ng</code> and <code>emacs25PackagesNg</code>)
Nixpkgs provides the following emacs related attributes (append a <code>Ng</code> suffix for older versions of nixpkgs, e.g., <code>emacs25Ng</code> and <code>emacs25PackagesNg</code>)


* <code>emacs&lt;major&gt;&lt;minor&gt;</code> - a package providing the given emacs editor
* <code>emacs&lt;major&gt;&lt;minor&gt;</code> - a composition providing the given emacs editor
* <code>emacs&lt;major&gt;&lt;minor&gt;Packages</code> - the set of emacs packages for the given emacs editor
* <code>emacs&lt;major&gt;&lt;minor&gt;Packages</code> - the set of emacs packages for the given emacs editor
* <code>emacs&lt;major&gt;&lt;minor&gt;Packages.emacsWithPackages</code> - wraps emacs to enable the given packages
* <code>emacs&lt;major&gt;&lt;minor&gt;Packages.emacsWithPackages</code> - composition wrapping emacs to enable the given packages


We can use the second directly examine the content of packages
We can use the second directly examine the content of packages
Line 217: Line 217:
[user@cluster:~]$ cat magit/share/emacs/site-lisp/elpa/magit*/AUTHORS.md
[user@cluster:~]$ cat magit/share/emacs/site-lisp/elpa/magit*/AUTHORS.md
[user@cluster:~]$ exit</source>
[user@cluster:~]$ exit</source>
and the last one in a <code>.nix</code> file create an emacs with the given set of packages enabled
and the last one in a <code>.nix</code> file create a composition giving emacs with the given set of packages enabled


<pre>with import &lt;nixpkgs&gt; { };
<pre>with import &lt;nixpkgs&gt; { };

Latest revision as of 18:23, 25 July 2022

Overview

Nix is a software building and composition system that allows users to manage their own persistent software environments. It is only available on SHARCNET systems (i.e., graham and legacy).

  • Supports one-off, per-project, and per-user usage of compositions
  • Compositions can be built, installed, upgraded, downgraded, and removed as a user
  • Operations either succeed or fail leaving everything intact (operations are atomic).
  • Extremely easy to add and share compositions

Currently nix is building software in a generic manner (e.g., without AVX2 or AVX512 vector instructions support), so module loaded software should be preferred for longer running simulations when it exists.

NOTE: The message failed to lock thread to CPU XX is a harmless warning that can be ignored.

Enabling and disabling the nix environment

The user’s current nix environment is enabled by loading the nix module. This creates some .nix* files and sets some environment variables.

[name@cluster:~]$ module load nix

It is disabled by unloading the nix module. This unsets the environment variables but leaves the .nix* files alone.

[name@cluster:~]$ module unload nix

Completely resetting the nix environment

Most per-user operations can be undone with the --rollback option (i.e., nix-env --rollback or nix-channel --rollback). Sometimes it is useful to entirely reset nix though. This is done by unloading the module, erasing all user related nix files, and then reloading the module file.

[name@cluster:~]$ module unload nix
[name@cluster:~]$ rm -fr ~/.nix-profile ~/.nix-defexpr ~/.nix-channels ~/.config/nixpkgs
[name@cluster:~]$ rm -fr /nix/var/nix/profiles/per-user/$USER /nix/var/nix/gcroots/per-user/$USER
[name@cluster:~]$ module load nix

Existing compositions

The nix search command can be used to locate already available compositions

[user@cluster:~]$ nix search git
...
* nixpkgs.git (git-minimal-2.19.3)
  Distributed version control system
...

Pro tips include

  • you need to specify -u after upgrading your channel (this will take awhile)
  • the search string is actually a regular expression and multiple ones are ANDed together

Often our usage of a composition is either a one-off, a per-project, or an all the time situations. Nix supports all three of these cases.

One offs

If you just want to use a composition once, the easiest was is to use the nix run command. This command will start a shell in which PATH has been extended to include the specified composition

[user@cluster:~]$ nix run nixpkg.git
[user@cluster:~]$ git
[user@cluster:~]$ exit

Note that this does not protect the composition from being garbage collected overnight (e.g., the composition is only guaranteed to be around temporarily for your use until sometime in the wee-morning hours). Pro tips include

  • you can specify more than one composition in the same nix run command
  • you can specify a command instead of a shell with -c <cmd> <args> ...

Per-project

If you want to use a program for a specific project, the easiest way is with the nix build command. This command will create a symbolic link (by default named result) from which you can access the programs bin directory to run it.

[user@cluster:~]$ nix build nixpkgs.git
[user@cluster:~]$ ./result/bin/git

Note that (currently) the composition will only be protected from overnight garbage collection if you output the symlink into your home directory and do not rename or move it. Pro tips include

  • you can specify the output symlink name with the -o <name> option
  • add the bin directory to your PATH to not have to type it in every time

Per-user

Loading the nix module adds the per-user common ~/.nix-profile/bin directory to your PATH. You can add and remove compositions from this directory with the nix-env command

[user@cluster:~]$ nix-env --install --attr nixpkgs.git
[user@cluster:~]$ nix-env --query
git-minimal-2.19.3
[user@cluster:~]$ nix-env --uninstall git-minimal
uninstalling 'git-minimal-2.19.3'
[user@cluster:~]$ nix-env --query

Each command actually creates a new version, so all prior versions remain and can be used

[user@cluster:~]$ nix-env --list-generations
   1   2020-07-29 13:10:03
   2   2020-07-29 13:11:52   (current)
[user@cluster:~]$ nix-env --switch-generation 1
[user@cluster:~]$ nix-env --query
git-minimal-2.19.3
[user@cluster:~]$ nix-env --switch-generation 2
[user@cluster:~]$ nix-env --query

Pro tips include

  • nix-env --rollback moves up one generation
  • nix-env --delete-generations <time> deletes environments older than <time> (e.g., 30d)
  • see our nix-env page for a much more in-depth discussion of using nix-env

Creating compositions

Often we require our own unique composition. A basic example would be to bundle all the binaries from multiple existing compositions in a common bin directory (e.g., make, gcc, and ld to build a simple C program). A more complex example would be to bundle python with a set of python libraries by wrapping the python executables with shell scripts to set PYTHON_PATH for the python libraries before running the real python binaries.

All of these have a common format. You write a nix expression in a .nix file that composes together existing compositions and then you tell the above commands to use that with the -f <nix file> option. For example, say the file python.nix has an expression for a python environment in it, you can create a per-project bin directory with

[user@cluster:~]$ nix build -f python.nix -o python
[user@cluster:~]$ ./python/bin/python

The nix expression you put in the file generally

  • does with import <nixpkgs> {} to bring the set of nixpkgs into scope
  • calls an existing composition functions with a list of space-separated components to include

The template for doing the second these follows below as it differs slightly across the various eco-systems.

A pro tip is

Generic

Nixpkgs provides a buildEnv function that does a basic composition of compositions (by combining their bin, lib, etc. directories). The list of packages are the same as used before minus the leading nixpkgs prefix as it was imported (e.g., git instead of nixpkgs.git).

with import <nixpkgs> {};
buildEnv {
  name = "my environment";
  paths = [
    ... list of compositions ...
  ];
}

Python

Nixpkgs provides the following python related attributes

  • python<major><minor> - a composition providing the given python
  • python<major><minor>.pkgs - the set of python compositions using the given python
  • python<major><minor>.withPackages - wraps python with PYTHON_PATH set to a given set of python packages

We can use the former directly to use the programs provided by python compositions

[user@cluster:~]$ nix run python36.pkgs.spambayes
[user@cluster:~]$ sb_filter.py --help
[user@cluster:~]$ exit

and the later in a .nix file to create a python composition that enables a given set of libraries (e.g., a python command we can run and access the given set of python packages from)

with import <nixpkgs> { };
python.withPackages (packages:
  with packages; [
    ... list of python packages ...
  ]
)

Some pro tips are

  • the aliases python and python<major> given default python<major><minor> versions
  • the aliases pythonPackages<major><minor> are short for python<major><minor>.pkgs (including default version variants)
  • the function python<major><minor>.pkgs.buildPythonPackage can be used to build your own python packages

R

Nixpkgs provides the following R related attributes

  • R - a composition providing R
  • rstudio - a composition providing RStudio
  • rPackages - the set of R packages
  • rWrapper - a composition that wraps R with R_LIBS set to a minimal set of R packages
  • rstudioWrapper - a composition that wrapped RStudio with R_LIBS set to a minimal set of R packages

We can use rPackages directly to examine the content of R packages

[user@cluster:~]$ nix build rPackages.exams -o exams
[user@cluster:~]$ cat exams/library/exams/NEWS
[user@cluster:~]$ exit

and the latter two can be overridden in a .nix file to create R and RStudio wrappers to create a composition enabling a given set of R libraries (e.g., a R or rstudio command we can run and access the given set of R packages from)

with import <nixpkgs> { };
rWrapper.override {
  packages = with rPackages; [
    ... list of R packages ...
  ];
}

A pro tips is

  • the function rPackages.buildRPackage can be used to build your own R packages

Haskell

Nixpkgs provides the following haskell related attributes

  • haskell.compiler.ghc<major><minor><patch> - composition providing the given ghc
  • haskell.packages.ghc<major><minor><patch> - the set of haskell packages compiled by the given ghc
  • haskell.packages.ghc<major><minor><patch>.ghc.withPackages - composition wrapping ghc to enable the given packages
  • haskell.packages.ghc<major><minor><patch>.ghc.withHoogle - composition wrapping ghc to enable the given packages with hoogle and documentation indices

We can use the first directly to use programs provided by haskell packages

[user@cluster:~]$ nix run haskell.packages.ghc864.pandoc
[user@cluster:~]$ pandoc --help

and the last two in a .nix file create a ghc environment to enable a given set of haskell package (e.g., a ghci we can run and access the given set of packages from)

with import <nixpkgs> { };
haskell.packages.ghc864.ghc.withPackages (packages:
  with packages; [
    ... list of Haskell packages ...
  ];
}

Some pro tips are

  • the alias haskellPackages gives a default haskell.packages.ghc<major><minor><patch>
  • the attributes in haskell.lib contains a variety of useful attributes for tweaking haskell packages (e.g., enabling profiling, etc.)
  • the upstream maintainer has a useful youtube video on how to fix broken haskell packages

Emacs

Nixpkgs provides the following emacs related attributes (append a Ng suffix for older versions of nixpkgs, e.g., emacs25Ng and emacs25PackagesNg)

  • emacs<major><minor> - a composition providing the given emacs editor
  • emacs<major><minor>Packages - the set of emacs packages for the given emacs editor
  • emacs<major><minor>Packages.emacsWithPackages - composition wrapping emacs to enable the given packages

We can use the second directly examine the content of packages

[user@cluster:~]$ nix build nixpkgs.emacs25Packages.magit -o magit
[user@cluster:~]$ cat magit/share/emacs/site-lisp/elpa/magit*/AUTHORS.md
[user@cluster:~]$ exit

and the last one in a .nix file create a composition giving emacs with the given set of packages enabled

with import <nixpkgs> { };
emacs25Packages.emacsWithPackages (packages:
  with packages; [
    ... list of emacs packages ...
  ];
}

Some pro tips are

  • the aliases emacs and emacsPackages give a default emacs<major><minor> and emacsPackages<major><minor> version
  • the alias emacs<major><minor>WithPackages are short for emacs<major><minor>Packages.emacsWithPackages (including default version variants)