This guide documents how I use Nix for Haskell development. Feel free to open issues or pull requests if you would like to contribute or suggest improvements
The purpose of this project is to support two Haskell workflows:
- Workflow #1: Nix provisions the development environment
- Nix provides all dependencies and the Haskell toolchain
- You still build the root project using
cabal
- This approach is ideal for development as it supports incremental builds
- Workflow #2: Nix builds the root project for you
- This approach is ideal for continuous integration (especially Hydra)
The emphasis of this guide is to be as robust as possible and gracefully handle writing Haskell projects at scale. Some of the suggestions in this guide might be overkill for a small Haskell project but are essential when managing multiple private Haskell projects across a team of developers.
This guide is based partly on
the Haskell section of the nixpkgs
manual
and partly on experience using Nix and Haskell in production at
Awake Security.
Nix is not a cabal
replacement and Nix actually complements cabal
quite
well. Nix is much more analogous to a stack
replacement. stack
does
provide some support for Nix integration, but this document does not cover that.
Instead, this document describes how to use Nix in conjunction with cabal
for
Haskell development
The main benefits of using Nix over stack
are:
-
Binary caches
Nix lets you download precompiled Hackage packages whereas
stack
compiles them on your computer the first time you depend on them -
Space efficiency
stack
creates a copy of each package for each resolver. This means that if you have two projects with different resolvers then they will not use the same copy of shared dependencies -
Generality
Nix is a language-independent build tool. This means you can use Nix to also build and customize non-Haskell dependencies (like
gtk
). This uniform language simplifies build tooling and infrastructure. -
Larger ecosystem
Nix provides a large ecosystem of tools that integrate with anything that Nix can build, such as Hydra (continuous integration), NixOS (an operating system), and NixOps (a deploy tool)
-
Flexibility
Nix is a powerful tool in the hands of advanced users. You can make very deep and sweeping changes to your toolchain, such as recompiling everything with security hardening
The main disadvantage of using Nix over stack
are:
-
Verbosity
Nix derivations for Haskell projects are significantly more complex than their corresponding
stack.yaml
files. Therelease.nix
files in this repository are the Nix analog of astack.yaml
file and you can see for yourself the increase in complexity as the examples progress in difficulty. -
Poor error messages
Nix is an untyped language with no special Haskell integration, so error messages are unhelpful
-
Nix cannot incrementally compile Haskell libraries
Note that you can still use Nix to provision a development environment and incrementally compile a Haskell package using cabal. However, if you use Nix to build the package then Nix will build the package from scratch for every minor change. In theory, this could be fixed to have Nix directly support incremental Haskell builds but this has not been done yet.
-
Worse user experience
Nix does not provide many conveniences that
stack
does such as bootstrapping new projects or "file watch"
Both Nix and stack
use curated package sets instead of version bounds for
dependency management. stack
calls these package sets "resolvers" whereas
Nix calls these package sets "channels". Nix provides stable channels with
names like NixOS-18.09
(analogous to stack
's LTS releases) and then an
unstable channel named nixpkgs-unstable
(analogous to stack
's nightly
releases)
Before continuing, I'd like to mention some other tools for mixing Haskell with Nix:
tinc
- this usescabal
's solver to select which Haskell packages to use instead of the curated Haskell package set fromnixpkgs
styx
- This tool provides astack
-like interface to managing Haskell dependencies using Nixhaskell-overridez
- Tool that automates dependency management as described in this guide
Before you begin, you must install Nix if you haven't already:
$ curl https://nixos.org/nix/install | sh
You must also install cabal2nix
and nix-prefetch-git
:
$ nix-env --install cabal2nix
$ nix-env --install nix-prefetch-git
You also need to install cabal
if you haven't done so already. You can either
use your installed cabal
or you can use nix
to install cabal
for you:
$ nix-env --install cabal-install
Make sure that you have a fairly recent version of cabal
installed since these
examples will use GHC 8 which requires version 1.24 or later of cabal
. You
can check what version you have installed by running:
$ cabal --version
Finally, run cabal update
if you haven't done so already
This tutorial is split into several tutorial projects in the project*/
subdirectories. Read the README.md
file in each subdirectory in
order to follow the tutorial: