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While the word 'simply' is usually added to encourage readers, it often has the opposite effect and may even appear condescending, especially when the reader runs into trouble trying to apply the suggestions from the documentation. It is almost always an improvement to simply drop the word from the sentence. (there are more possible improvements like this, we can apply those in separate PRs)
1300 lines
54 KiB
Markdown
1300 lines
54 KiB
Markdown
# Haskell {#haskell}
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The Haskell infrastructure in Nixpkgs has two main purposes: The primary purpose
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is to provide a Haskell compiler and build tools as well as infrastructure for
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packaging Haskell-based packages.
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The secondary purpose is to provide support for Haskell development environments
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including prebuilt Haskell libraries. However, in this area sacrifices have been
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made due to self-imposed restrictions in Nixpkgs, to lessen the maintenance
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effort and to improve performance. (More details in the subsection
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[Limitations.](#haskell-limitations))
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## Available packages {#haskell-available-packages}
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The compiler and most build tools are exposed at the top level:
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* `ghc` is the default version of GHC
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* Language specific tools: `cabal-install`, `stack`, `hpack`, …
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Many “normal” user facing packages written in Haskell, like `niv` or `cachix`,
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are also exposed at the top level, and there is nothing Haskell specific to
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installing and using them.
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All of these packages are originally defined in the `haskellPackages` package
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set and are re-exposed with a reduced dependency closure for convenience.
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(see `justStaticExecutables` or `separateBinOutput` below)
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The `haskellPackages` set includes at least one version of every package from
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Hackage as well as some manually injected packages. This amounts to a lot of
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packages, so it is hidden from `nix-env -qa` by default for performance reasons.
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You can still list all packages in the set like this:
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```console
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$ nix-env -f '<nixpkgs>' -qaP -A haskellPackages
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haskellPackages.a50 a50-0.5
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haskellPackages.AAI AAI-0.2.0.1
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haskellPackages.aasam aasam-0.2.0.0
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haskellPackages.abacate abacate-0.0.0.0
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haskellPackages.abc-puzzle abc-puzzle-0.2.1
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…
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```
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Also, the `haskellPackages` set is included on [search.nixos.org].
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The attribute names in `haskellPackages` always correspond with their name on
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Hackage. Since Hackage allows names that are not valid Nix without escaping,
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you need to take care when handling attribute names like `3dmodels`.
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For packages that are part of [Stackage] (a curated set of known to be
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compatible packages), we use the version prescribed by a Stackage snapshot
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(usually the current LTS one) as the default version. For all other packages we
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use the latest version from [Hackage](https://hackage.org) (the repository of
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basically all open source Haskell packages). See [below](#haskell-available-
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versions) for a few more details on this.
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Roughly half of the 16K packages contained in `haskellPackages` don’t actually
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build and are [marked as broken semi-automatically](https://github.com/NixOS/nixpkgs/blob/haskell-updates/pkgs/development/haskell-modules/configuration-hackage2nix/broken.yaml).
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Most of those packages are deprecated or unmaintained, but sometimes packages
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that should build, do not build. Very often fixing them is not a lot of work.
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<!--
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TODO(@sternenseemann):
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How you can help with that is
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described in [Fixing a broken package](#haskell-fixing-a-broken-package).
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-->
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`haskellPackages` is built with our default compiler, but we also provide other
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releases of GHC and package sets built with them. You can list all available
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compilers like this:
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```console
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$ nix-env -f '<nixpkgs>' -qaP -A haskell.compiler
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haskell.compiler.ghc810 ghc-8.10.7
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haskell.compiler.ghc88 ghc-8.8.4
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haskell.compiler.ghc90 ghc-9.0.2
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haskell.compiler.ghc924 ghc-9.2.4
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haskell.compiler.ghc925 ghc-9.2.5
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haskell.compiler.ghc926 ghc-9.2.6
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haskell.compiler.ghc92 ghc-9.2.7
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haskell.compiler.ghc942 ghc-9.4.2
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haskell.compiler.ghc943 ghc-9.4.3
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haskell.compiler.ghc94 ghc-9.4.4
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haskell.compiler.ghcHEAD ghc-9.7.20221224
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haskell.compiler.ghc8102Binary ghc-binary-8.10.2
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haskell.compiler.ghc8102BinaryMinimal ghc-binary-8.10.2
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haskell.compiler.ghc8107BinaryMinimal ghc-binary-8.10.7
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haskell.compiler.ghc8107Binary ghc-binary-8.10.7
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haskell.compiler.ghc865Binary ghc-binary-8.6.5
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haskell.compiler.ghc924Binary ghc-binary-9.2.4
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haskell.compiler.ghc924BinaryMinimal ghc-binary-9.2.4
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haskell.compiler.integer-simple.ghc810 ghc-integer-simple-8.10.7
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haskell.compiler.integer-simple.ghc8107 ghc-integer-simple-8.10.7
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haskell.compiler.integer-simple.ghc88 ghc-integer-simple-8.8.4
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haskell.compiler.integer-simple.ghc884 ghc-integer-simple-8.8.4
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haskell.compiler.native-bignum.ghc90 ghc-native-bignum-9.0.2
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haskell.compiler.native-bignum.ghc902 ghc-native-bignum-9.0.2
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haskell.compiler.native-bignum.ghc924 ghc-native-bignum-9.2.4
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haskell.compiler.native-bignum.ghc925 ghc-native-bignum-9.2.5
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haskell.compiler.native-bignum.ghc926 ghc-native-bignum-9.2.6
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haskell.compiler.native-bignum.ghc92 ghc-native-bignum-9.2.7
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haskell.compiler.native-bignum.ghc927 ghc-native-bignum-9.2.7
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haskell.compiler.native-bignum.ghc942 ghc-native-bignum-9.4.2
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haskell.compiler.native-bignum.ghc943 ghc-native-bignum-9.4.3
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haskell.compiler.native-bignum.ghc94 ghc-native-bignum-9.4.4
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haskell.compiler.native-bignum.ghc944 ghc-native-bignum-9.4.4
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haskell.compiler.native-bignum.ghcHEAD ghc-native-bignum-9.7.20221224
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haskell.compiler.ghcjs ghcjs-8.10.7
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```
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Each of those compiler versions has a corresponding attribute set built using
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it. However, the non-standard package sets are not tested regularly and, as a
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result, contain fewer working packages. The corresponding package set for GHC
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9.4.5 is `haskell.packages.ghc945`. In fact `haskellPackages` is just an alias
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for `haskell.packages.ghc927`:
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```console
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$ nix-env -f '<nixpkgs>' -qaP -A haskell.packages.ghc927
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haskell.packages.ghc927.a50 a50-0.5
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haskell.packages.ghc927.AAI AAI-0.2.0.1
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haskell.packages.ghc927.aasam aasam-0.2.0.0
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haskell.packages.ghc927.abacate abacate-0.0.0.0
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haskell.packages.ghc927.abc-puzzle abc-puzzle-0.2.1
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…
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```
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Every package set also re-exposes the GHC used to build its packages as `haskell.packages.*.ghc`.
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### Available package versions {#haskell-available-versions}
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We aim for a “blessed” package set which only contains one version of each
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package, like [Stackage], which is a curated set of known to be compatible
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packages. We use the version information from Stackage snapshots and extend it
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with more packages. Normally in Nixpkgs the number of building Haskell packages
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is roughly two to three times the size of Stackage. For choosing the version to
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use for a certain package we use the following rules:
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1. By default, for `haskellPackages.foo` is the newest version of the package
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`foo` found on [Hackage](https://hackage.org), which is the central registry
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of all open source Haskell packages. Nixpkgs contains a reference to a pinned
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Hackage snapshot, thus we use the state of Hackage as of the last time we
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updated this pin.
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2. If the [Stackage] snapshot that we use (usually the newest LTS snapshot)
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contains a package, [we use instead the version in the Stackage snapshot as
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default version for that package.](https://github.com/NixOS/nixpkgs/blob/haskell-updates/pkgs/development/haskell-modules/configuration-hackage2nix/stackage.yaml)
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3. For some packages, which are not on Stackage, we have if necessary [manual
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overrides to set the default version to a version older than the newest on
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Hackage.](https://github.com/NixOS/nixpkgs/blob/haskell-updates/pkgs/development/haskell-modules/configuration-hackage2nix/main.yaml)
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4. For all packages, for which the newest Hackage version is not the default
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version, there will also be a `haskellPackages.foo_x_y_z` package with the
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newest version. The `x_y_z` part encodes the version with dots replaced by
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underscores. When the newest version changes by a new release to Hackage the
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old package will disappear under that name and be replaced by a newer one under
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the name with the new version. The package name including the version will
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also disappear when the default version e.g. from Stackage catches up with the
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newest version from Hackage. E.g. if `haskellPackages.foo` gets updated from
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1.0.0 to 1.1.0 the package `haskellPackages.foo_1_1_0` becomes obsolete and
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gets dropped.
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5. For some packages, we also [manually add other `haskellPackages.foo_x_y_z`
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versions](https://github.com/NixOS/nixpkgs/blob/haskell-updates/pkgs/development/haskell-modules/configuration-hackage2nix/main.yaml),
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if they are required for a certain build.
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Relying on `haskellPackages.foo_x_y_z` attributes in derivations outside
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nixpkgs is discouraged because they may change or disappear with every package
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set update.
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<!-- TODO(@maralorn) We should add a link to callHackage, etc. once we added
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them to the docs. -->
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All `haskell.packages.*` package sets use the same package descriptions and the same sets
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of versions by default. There are however GHC version specific override `.nix`
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files to loosen this a bit.
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### Dependency resolution {#haskell-dependency-resolution}
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Normally when you build Haskell packages with `cabal-install`, `cabal-install`
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does dependency resolution. It will look at all Haskell package versions known
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on Hackage and tries to pick for every (transitive) dependency of your build
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exactly one version. Those versions need to satisfy all the version constraints
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given in the `.cabal` file of your package and all its dependencies.
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The [Haskell builder in nixpkgs](#haskell-mkderivation) does no such thing.
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It will take as input packages with names off the desired dependencies
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and just check whether they fulfill the version bounds and fail if they don’t
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(by default, see `jailbreak` to circumvent this).
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The `haskellPackages.callPackage` function does the package resolution.
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It will, e.g., use `haskellPackages.aeson`which has the default version as
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described above for a package input of name `aeson`. (More general:
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`<packages>.callPackage f` will call `f` with named inputs provided from the
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package set `<packages>`.)
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While this is the default behavior, it is possible to override the dependencies
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for a specific package, see
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[`override` and `overrideScope`](#haskell-overriding-haskell-packages).
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### Limitations {#haskell-limitations}
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Our main objective with `haskellPackages` is to package Haskell software in
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nixpkgs. This entails some limitations, partially due to self-imposed
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restrictions of nixpkgs, partially in the name of maintainability:
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* Only the packages built with the default compiler see extensive testing of the
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whole package set. For other GHC versions only a few essential packages are
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tested and cached.
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* As described above we only build one version of most packages.
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The experience using an older or newer packaged compiler or using different
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versions may be worse, because builds will not be cached on `cache.nixos.org`
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or may fail.
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Thus, to get the best experience, make sure that your project can be compiled
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using the default compiler of nixpkgs and recent versions of its dependencies.
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A result of this setup is, that getting a valid build plan for a given
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package can sometimes be quite painful, and in fact this is where most of the
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maintenance work for `haskellPackages` is required. Besides that, it is not
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possible to get the dependencies of a legacy project from nixpkgs or to use a
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specific stack solver for compiling a project.
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Even though we couldn’t use them directly in nixpkgs, it would be desirable
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to have tooling to generate working Nix package sets from build plans generated
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by `cabal-install` or a specific Stackage snapshot via import-from-derivation.
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Sadly we currently don’t have tooling for this. For this you might be
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interested in the alternative [haskell.nix] framework, which, be warned, is
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completely incompatible with packages from `haskellPackages`.
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<!-- TODO(@maralorn) Link to package set generation docs in the contributors guide below. -->
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## `haskellPackages.mkDerivation` {#haskell-mkderivation}
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Every haskell package set has its own haskell-aware `mkDerivation` which is used
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to build its packages. Generally you won't have to interact with this builder
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since [cabal2nix][cabal2nix] can generate packages
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using it for an arbitrary cabal package definition. Still it is useful to know
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the parameters it takes when you need to
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[override](#haskell-overriding-haskell-packages) a generated Nix expression.
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`haskellPackages.mkDerivation` is a wrapper around `stdenv.mkDerivation` which
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re-defines the default phases to be haskell aware and handles dependency
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specification, test suites, benchmarks etc. by compiling and invoking the
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package's `Setup.hs`. It does *not* use or invoke the `cabal-install` binary,
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but uses the underlying `Cabal` library instead.
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### General arguments {#haskell-derivation-args}
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`pname`
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: Package name, assumed to be the same as on Hackage (if applicable)
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`version`
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: Packaged version, assumed to be the same as on Hackage (if applicable)
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`src`
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: Source of the package. If omitted, fetch package corresponding to `pname`
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and `version` from Hackage.
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`sha256`
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: Hash to use for the default case of `src`.
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`revision`
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: Revision number of the updated cabal file to fetch from Hackage.
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If `null` (which is the default value), the one included in `src` is used.
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`editedCabalFile`
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: `sha256` hash of the cabal file identified by `revision` or `null`.
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`configureFlags`
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: Extra flags passed when executing the `configure` command of `Setup.hs`.
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`buildFlags`
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: Extra flags passed when executing the `build` command of `Setup.hs`.
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`haddockFlags`
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: Extra flags passed to `Setup.hs haddock` when building the documentation.
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`doCheck`
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: Whether to execute the package's test suite if it has one. Defaults to `true` unless cross-compiling.
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`doBenchmark`
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: Whether to execute the package's benchmark if it has one. Defaults to `false`.
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`doHoogle`
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: Whether to generate an index file for [hoogle][hoogle] as part of
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`haddockPhase` by passing the [`--hoogle` option][haddock-hoogle-option].
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Defaults to `true`.
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`doHaddockQuickjump`
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: Whether to generate an index for interactive navigation of the HTML documentation.
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Defaults to `true` if supported.
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`doInstallIntermediates`
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: Whether to install intermediate build products (files written to `dist/build`
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by GHC during the build process). With `enableSeparateIntermediatesOutput`,
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these files are instead installed to [a separate `intermediates`
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output.][multiple-outputs] The output can then be passed into a future build of
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the same package with the `previousIntermediates` argument to support
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incremental builds. See [“Incremental builds”](#haskell-incremental-builds) for
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more information. Defaults to `false`.
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`enableLibraryProfiling`
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: Whether to enable [profiling][profiling] for libraries contained in the
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package. Enabled by default if supported.
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`enableExecutableProfiling`
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: Whether to enable [profiling][profiling] for executables contained in the
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package. Disabled by default.
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`profilingDetail`
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: [Profiling detail level][profiling-detail] to set. Defaults to `exported-functions`.
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`enableSharedExecutables`
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: Whether to link executables dynamically. By default, executables are linked statically.
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`enableSharedLibraries`
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: Whether to build shared Haskell libraries. This is enabled by default unless we are using
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`pkgsStatic` or shared libraries have been disabled in GHC.
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`enableStaticLibraries`
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: Whether to build static libraries. Enabled by default if supported.
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`enableDeadCodeElimination`
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: Whether to enable linker based dead code elimination in GHC.
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Enabled by default if supported.
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`enableHsc2hsViaAsm`
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: Whether to pass `--via-asm` to `hsc2hs`. Enabled by default only on Windows.
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`hyperlinkSource`
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: Whether to render the source as well as part of the haddock documentation
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by passing the [`--hyperlinked-source` flag][haddock-hyperlinked-source-option].
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Defaults to `true`.
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`isExecutable`
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: Whether the package contains an executable.
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`isLibrary`
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: Whether the package contains a library.
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`jailbreak`
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: Whether to execute [jailbreak-cabal][jailbreak-cabal] before `configurePhase`
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||
to lift any version constraints in the cabal file. Note that this can't
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lift version bounds if they are conditional, i.e. if a dependency is hidden
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behind a flag.
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`enableParallelBuilding`
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: Whether to use the `-j` flag to make GHC/Cabal start multiple jobs in parallel.
|
||
|
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`maxBuildCores`
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||
: Upper limit of jobs to use in parallel for compilation regardless of
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||
`$NIX_BUILD_CORES`. Defaults to 16 as Haskell compilation with GHC currently
|
||
sees a [performance regression](https://gitlab.haskell.org/ghc/ghc/-/issues/9221)
|
||
if too many parallel jobs are used.
|
||
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`doCoverage`
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: Whether to generate and install files needed for [HPC][haskell-program-coverage].
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Defaults to `false`.
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|
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`doHaddock`
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: Whether to build (HTML) documentation using [haddock][haddock].
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Defaults to `true` if supported.
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|
||
`testTarget`
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: Name of the test suite to build and run. If unset, all test suites will be executed.
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`preCompileBuildDriver`
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: Shell code to run before compiling `Setup.hs`.
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||
|
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`postCompileBuildDriver`
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||
: Shell code to run after compiling `Setup.hs`.
|
||
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`preHaddock`
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||
: Shell code to run before building documentation using haddock.
|
||
|
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`postHaddock`
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||
: Shell code to run after building documentation using haddock.
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`coreSetup`
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||
: Whether to only allow core libraries to be used while building `Setup.hs`.
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||
Defaults to `false`.
|
||
|
||
`useCpphs`
|
||
: Whether to enable the [cpphs][cpphs] preprocessor. Defaults to `false`.
|
||
|
||
`enableSeparateBinOutput`
|
||
: Whether to install executables to a separate `bin` output. Defaults to `false`.
|
||
|
||
`enableSeparateDataOutput`
|
||
: Whether to install data files shipped with the package to a separate `data` output.
|
||
Defaults to `false`.
|
||
|
||
`enableSeparateDocOutput`
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||
: Whether to install documentation to a separate `doc` output.
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||
Is automatically enabled if `doHaddock` is `true`.
|
||
|
||
`enableSeparateIntermediatesOutput`
|
||
: When `doInstallIntermediates` is true, whether to install intermediate build
|
||
products to a separate `intermediates` output. See [“Incremental
|
||
builds”](#haskell-incremental-builds) for more information. Defaults to
|
||
`false`.
|
||
|
||
`allowInconsistentDependencies`
|
||
: If enabled, allow multiple versions of the same Haskell package in the
|
||
dependency tree at configure time. Often in such a situation compilation would
|
||
later fail because of type mismatches. Defaults to `false`.
|
||
|
||
`enableLibraryForGhci`
|
||
: Build and install a special object file for GHCi. This improves performance
|
||
when loading the library in the REPL, but requires extra build time and
|
||
disk space. Defaults to `false`.
|
||
|
||
`previousIntermediates`
|
||
: If non-null, intermediate build artifacts are copied from this input to
|
||
`dist/build` before performing compiling. See [“Incremental
|
||
builds”](#haskell-incremental-builds) for more information. Defaults to `null`.
|
||
|
||
`buildTarget`
|
||
: Name of the executable or library to build and install.
|
||
If unset, all available targets are built and installed.
|
||
|
||
### Specifying dependencies {#haskell-derivation-deps}
|
||
|
||
Since `haskellPackages.mkDerivation` is intended to be generated from cabal
|
||
files, it reflects cabal's way of specifying dependencies. For one, dependencies
|
||
are grouped by what part of the package they belong to. This helps to reduce the
|
||
dependency closure of a derivation, for example benchmark dependencies are not
|
||
included if `doBenchmark == false`.
|
||
|
||
`setup*Depends`
|
||
: dependencies necessary to compile `Setup.hs`
|
||
|
||
`library*Depends`
|
||
: dependencies of a library contained in the package
|
||
|
||
`executable*Depends`
|
||
: dependencies of an executable contained in the package
|
||
|
||
`test*Depends`
|
||
: dependencies of a test suite contained in the package
|
||
|
||
`benchmark*Depends`
|
||
: dependencies of a benchmark contained in the package
|
||
|
||
The other categorization relates to the way the package depends on the dependency:
|
||
|
||
`*ToolDepends`
|
||
: Tools we need to run as part of the build process.
|
||
They are added to the derivation's `nativeBuildInputs`.
|
||
|
||
`*HaskellDepends`
|
||
: Haskell libraries the package depends on.
|
||
They are added to `propagatedBuildInputs`.
|
||
|
||
`*SystemDepends`
|
||
: Non-Haskell libraries the package depends on.
|
||
They are added to `buildInputs`
|
||
|
||
`*PkgconfigDepends`
|
||
: `*SystemDepends` which are discovered using `pkg-config`.
|
||
They are added to `buildInputs` and it is additionally
|
||
ensured that `pkg-config` is available at build time.
|
||
|
||
`*FrameworkDepends`
|
||
: Apple SDK Framework which the package depends on when compiling it on Darwin.
|
||
|
||
Using these two distinctions, you should be able to categorize most of the dependency
|
||
specifications that are available:
|
||
`benchmarkFrameworkDepends`,
|
||
`benchmarkHaskellDepends`,
|
||
`benchmarkPkgconfigDepends`,
|
||
`benchmarkSystemDepends`,
|
||
`benchmarkToolDepends`,
|
||
`executableFrameworkDepends`,
|
||
`executableHaskellDepends`,
|
||
`executablePkgconfigDepends`,
|
||
`executableSystemDepends`,
|
||
`executableToolDepends`,
|
||
`libraryFrameworkDepends`,
|
||
`libraryHaskellDepends`,
|
||
`libraryPkgconfigDepends`,
|
||
`librarySystemDepends`,
|
||
`libraryToolDepends`,
|
||
`setupHaskellDepends`,
|
||
`testFrameworkDepends`,
|
||
`testHaskellDepends`,
|
||
`testPkgconfigDepends`,
|
||
`testSystemDepends` and
|
||
`testToolDepends`.
|
||
|
||
That only leaves the following extra ways for specifying dependencies:
|
||
|
||
`buildDepends`
|
||
: Allows specifying Haskell dependencies which are added to `propagatedBuildInputs` unconditionally.
|
||
|
||
`buildTools`
|
||
: Like `*ToolDepends`, but are added to `nativeBuildInputs` unconditionally.
|
||
|
||
`extraLibraries`
|
||
: Like `*SystemDepends`, but are added to `buildInputs` unconditionally.
|
||
|
||
`pkg-configDepends`
|
||
: Like `*PkgconfigDepends`, but are added to `buildInputs` unconditionally.
|
||
|
||
`testDepends`
|
||
: Deprecated, use either `testHaskellDepends` or `testSystemDepends`.
|
||
|
||
`benchmarkDepends`
|
||
: Deprecated, use either `benchmarkHaskellDepends` or `benchmarkSystemDepends`.
|
||
|
||
The dependency specification methods in this list which are unconditional
|
||
are especially useful when writing [overrides](#haskell-overriding-haskell-packages)
|
||
when you want to make sure that they are definitely included. However, it is
|
||
recommended to use the more accurate ones listed above when possible.
|
||
|
||
### Meta attributes {#haskell-derivation-meta}
|
||
|
||
`haskellPackages.mkDerivation` accepts the following attributes as direct
|
||
arguments which are transparently set in `meta` of the resulting derivation. See
|
||
the [Meta-attributes section](#chap-meta) for their documentation.
|
||
|
||
* These attributes are populated with a default value if omitted:
|
||
* `homepage`: defaults to the Hackage page for `pname`.
|
||
* `platforms`: defaults to `lib.platforms.all` (since GHC can cross-compile)
|
||
* These attributes are only set if given:
|
||
* `description`
|
||
* `license`
|
||
* `changelog`
|
||
* `maintainers`
|
||
* `broken`
|
||
* `hydraPlatforms`
|
||
|
||
### Incremental builds {#haskell-incremental-builds}
|
||
|
||
`haskellPackages.mkDerivation` supports incremental builds for GHC 9.4 and
|
||
newer with the `doInstallIntermediates`, `enableSeparateIntermediatesOutput`,
|
||
and `previousIntermediates` arguments.
|
||
|
||
The basic idea is to first perform a full build of the package in question,
|
||
save its intermediate build products for later, and then copy those build
|
||
products into the build directory of an incremental build performed later.
|
||
Then, GHC will use those build artifacts to avoid recompiling unchanged
|
||
modules.
|
||
|
||
For more detail on how to store and use incremental build products, see
|
||
[Gabriella Gonzalez’ blog post “Nixpkgs support for incremental Haskell
|
||
builds”.][incremental-builds] motivation behind this feature.
|
||
|
||
An incremental build for [the `turtle` package][turtle] can be performed like
|
||
so:
|
||
|
||
```nix
|
||
let
|
||
pkgs = import <nixpkgs> {};
|
||
inherit (pkgs) haskell;
|
||
inherit (haskell.lib.compose) overrideCabal;
|
||
|
||
# Incremental builds work with GHC >=9.4.
|
||
turtle = haskell.packages.ghc944.turtle;
|
||
|
||
# This will do a full build of `turtle`, while writing the intermediate build products
|
||
# (compiled modules, etc.) to the `intermediates` output.
|
||
turtle-full-build-with-incremental-output = overrideCabal (drv: {
|
||
doInstallIntermediates = true;
|
||
enableSeparateIntermediatesOutput = true;
|
||
}) turtle;
|
||
|
||
# This will do an incremental build of `turtle` by copying the previously
|
||
# compiled modules and intermediate build products into the source tree
|
||
# before running the build.
|
||
#
|
||
# GHC will then naturally pick up and reuse these products, making this build
|
||
# complete much more quickly than the previous one.
|
||
turtle-incremental-build = overrideCabal (drv: {
|
||
previousIntermediates = turtle-full-build-with-incremental-output.intermediates;
|
||
}) turtle;
|
||
in
|
||
turtle-incremental-build
|
||
```
|
||
|
||
## Development environments {#haskell-development-environments}
|
||
|
||
In addition to building and installing Haskell software, nixpkgs can also
|
||
provide development environments for Haskell projects. This has the obvious
|
||
advantage that you benefit from `cache.nixos.org` and no longer need to compile
|
||
all project dependencies yourself. While it is often very useful, this is not
|
||
the primary use case of our package set. Have a look at the section
|
||
[available package versions](#haskell-available-versions) to learn which
|
||
versions of packages we provide and the section
|
||
[limitations](#haskell-limitations), to judge whether a `haskellPackages`
|
||
based development environment for your project is feasible.
|
||
|
||
By default, every derivation built using
|
||
[`haskellPackages.mkDerivation`](#haskell-mkderivation) exposes an environment
|
||
suitable for building it interactively as the `env` attribute. For example, if
|
||
you have a local checkout of `random`, you can enter a development environment
|
||
for it like this (if the dependencies in the development and packaged version
|
||
match):
|
||
|
||
```console
|
||
$ cd ~/src/random
|
||
$ nix-shell -A haskellPackages.random.env '<nixpkgs>'
|
||
[nix-shell:~/src/random]$ ghc-pkg list
|
||
/nix/store/a8hhl54xlzfizrhcf03c1l3f6l9l8qwv-ghc-9.2.4-with-packages/lib/ghc-9.2.4/package.conf.d
|
||
Cabal-3.6.3.0
|
||
array-0.5.4.0
|
||
base-4.16.3.0
|
||
binary-0.8.9.0
|
||
…
|
||
ghc-9.2.4
|
||
…
|
||
```
|
||
|
||
As you can see, the environment contains a GHC which is set up so it finds all
|
||
dependencies of `random`. Note that this environment does not mirror
|
||
the environment used to build the package, but is intended as a convenient
|
||
tool for development and simple debugging. `env` relies on the `ghcWithPackages`
|
||
wrapper which automatically injects a pre-populated package-db into every
|
||
GHC invocation. In contrast, using `nix-shell -A haskellPackages.random` will
|
||
not result in an environment in which the dependencies are in GHCs package
|
||
database. Instead, the Haskell builder will pass in all dependencies explicitly
|
||
via configure flags.
|
||
|
||
`env` mirrors the normal derivation environment in one aspect: It does not include
|
||
familiar development tools like `cabal-install`, since we rely on plain `Setup.hs`
|
||
to build all packages. However, `cabal-install` will work as expected if in
|
||
`PATH` (e.g. when installed globally and using a `nix-shell` without `--pure`).
|
||
A declarative and pure way of adding arbitrary development tools is provided
|
||
via [`shellFor`](#haskell-shellFor).
|
||
|
||
When using `cabal-install` for dependency resolution you need to be a bit
|
||
careful to achieve build purity. `cabal-install` will find and use all
|
||
dependencies installed from the packages `env` via Nix, but it will also
|
||
consult Hackage to potentially download and compile dependencies if it can’t
|
||
find a valid build plan locally. To prevent this you can either never run
|
||
`cabal update`, remove the cabal database from your `~/.cabal` folder or run
|
||
`cabal` with `--offline`. Note though, that for some usecases `cabal2nix` needs
|
||
the local Hackage db.
|
||
|
||
Often you won't work on a package that is already part of `haskellPackages` or
|
||
Hackage, so we first need to write a Nix expression to obtain the development
|
||
environment from. Luckily, we can generate one very easily from an already
|
||
existing cabal file using `cabal2nix`:
|
||
|
||
```console
|
||
$ ls
|
||
my-project.cabal src …
|
||
$ cabal2nix ./. > my-project.nix
|
||
```
|
||
|
||
The generated Nix expression evaluates to a function ready to be
|
||
`callPackage`-ed. For now, we can add a minimal `default.nix` which does just
|
||
that:
|
||
|
||
```nix
|
||
# Retrieve nixpkgs impurely from NIX_PATH for now, you can pin it instead, of course.
|
||
{ pkgs ? import <nixpkgs> {} }:
|
||
|
||
# use the nixpkgs default haskell package set
|
||
pkgs.haskellPackages.callPackage ./my-project.nix { }
|
||
```
|
||
|
||
Using `nix-build default.nix` we can now build our project, but we can also
|
||
enter a shell with all the package's dependencies available using `nix-shell
|
||
-A env default.nix`. If you have `cabal-install` installed globally, it'll work
|
||
inside the shell as expected.
|
||
|
||
### shellFor {#haskell-shellFor}
|
||
|
||
Having to install tools globally is obviously not great, especially if you want
|
||
to provide a batteries-included `shell.nix` with your project. Luckily there's a
|
||
proper tool for making development environments out of packages' build
|
||
environments: `shellFor`, a function exposed by every haskell package set. It
|
||
takes the following arguments and returns a derivation which is suitable as a
|
||
development environment inside `nix-shell`:
|
||
|
||
`packages`
|
||
: This argument is used to select the packages for which to build the
|
||
development environment. This should be a function which takes a haskell package
|
||
set and returns a list of packages. `shellFor` will pass the used package set to
|
||
this function and include all dependencies of the returned package in the build
|
||
environment. This means you can reuse Nix expressions of packages included in
|
||
nixpkgs, but also use local Nix expressions like this: `hpkgs: [
|
||
(hpkgs.callPackage ./my-project.nix { }) ]`.
|
||
|
||
`nativeBuildInputs`
|
||
: Expects a list of derivations to add as build tools to the build environment.
|
||
This is the place to add packages like `cabal-install`, `doctest` or `hlint`.
|
||
Defaults to `[]`.
|
||
|
||
`buildInputs`
|
||
: Expects a list of derivations to add as library dependencies, like `openssl`.
|
||
This is rarely necessary as the haskell package expressions usually track system
|
||
dependencies as well. Defaults to `[]`. (see also
|
||
[derivation dependencies](#haskell-derivation-deps))
|
||
|
||
`withHoogle`
|
||
: If this is true, `hoogle` will be added to `nativeBuildInputs`.
|
||
Additionally, its database will be populated with all included dependencies,
|
||
so you'll be able search through the documentation of your dependencies.
|
||
Defaults to `false`.
|
||
|
||
`genericBuilderArgsModifier`
|
||
: This argument accepts a function allowing you to modify the arguments passed
|
||
to `mkDerivation` in order to create the development environment. For example,
|
||
`args: { doCheck = false; }` would cause the environment to not include any test
|
||
dependencies. Defaults to `lib.id`.
|
||
|
||
`doBenchmark`
|
||
: This is a shortcut for enabling `doBenchmark` via `genericBuilderArgsModifier`.
|
||
Setting it to `true` will cause the development environment to include all
|
||
benchmark dependencies which would be excluded by default. Defaults to `false`.
|
||
|
||
One neat property of `shellFor` is that it allows you to work on multiple
|
||
packages using the same environment in conjunction with
|
||
[cabal.project files][cabal-project-files].
|
||
Say our example above depends on `distribution-nixpkgs` and we have a project
|
||
file set up for both, we can add the following `shell.nix` expression:
|
||
|
||
```nix
|
||
{ pkgs ? import <nixpkgs> {} }:
|
||
|
||
pkgs.haskellPackages.shellFor {
|
||
packages = hpkgs: [
|
||
# reuse the nixpkgs for this package
|
||
hpkgs.distribution-nixpkgs
|
||
# call our generated Nix expression manually
|
||
(hpkgs.callPackage ./my-project/my-project.nix { })
|
||
];
|
||
|
||
# development tools we use
|
||
nativeBuildInputs = [
|
||
pkgs.cabal-install
|
||
pkgs.haskellPackages.doctest
|
||
pkgs.cabal2nix
|
||
];
|
||
|
||
# Extra arguments are added to mkDerivation's arguments as-is.
|
||
# Since it adds all passed arguments to the shell environment,
|
||
# we can use this to set the environment variable the `Paths_`
|
||
# module of distribution-nixpkgs uses to search for bundled
|
||
# files.
|
||
# See also: https://cabal.readthedocs.io/en/latest/cabal-package.html#accessing-data-files-from-package-code
|
||
distribution_nixpkgs_datadir = toString ./distribution-nixpkgs;
|
||
}
|
||
```
|
||
|
||
<!-- TODO(@sternenseemann): deps are not included if not selected -->
|
||
|
||
### haskell-language-server {#haskell-language-server}
|
||
|
||
To use HLS in short: Install `pkgs.haskell-language-server` e.g. in
|
||
`nativeBuildInputs` in `shellFor` and use the `haskell-language-server-wrapper`
|
||
command to run it. See the [HLS user guide] on how to configure your text
|
||
editor to use HLS and how to test your setup.
|
||
|
||
HLS needs to be compiled with the GHC version of the project you use it
|
||
on.
|
||
|
||
``pkgs.haskell-language-server`` provides
|
||
``haskell-language-server-wrapper``, ``haskell-language-server``
|
||
and ``haskell-language-server-x.x.x``
|
||
binaries, where ``x.x.x`` is the GHC version for which it is compiled. By
|
||
default, it only includes binaries for the current GHC version, to reduce
|
||
closure size. The closure size is large, because HLS needs to be dynamically
|
||
linked to work reliably. You can override the list of supported GHC versions
|
||
with e.g.
|
||
|
||
```nix
|
||
pkgs.haskell-language-server.override { supportedGhcVersions = [ "90" "94" ]; }
|
||
```
|
||
Where all strings `version` are allowed such that
|
||
`haskell.packages.ghc${version}` is an existing package set.
|
||
|
||
When you run `haskell-language-server-wrapper` it will detect the GHC
|
||
version used by the project you are working on (by asking e.g. cabal or
|
||
stack) and pick the appropriate versioned binary from your path.
|
||
|
||
Be careful when installing HLS globally and using a pinned nixpkgs for a
|
||
Haskell project in a `nix-shell`. If the nixpkgs versions deviate to much
|
||
(e.g., use different `glibc` versions) the `haskell-language-server-?.?.?`
|
||
executable will try to detect these situations and refuse to start. It is
|
||
recommended to obtain HLS via `nix-shell` from the nixpkgs version pinned in
|
||
there instead.
|
||
|
||
The top level `pkgs.haskell-language-server` attribute is just a convenience
|
||
wrapper to make it possible to install HLS for multiple GHC versions at the
|
||
same time. If you know, that you only use one GHC version, e.g., in a project
|
||
specific `nix-shell` you can use
|
||
`pkgs.haskellPackages.haskell-language-server` or
|
||
`pkgs.haskell.packages.*.haskell-language-server` from the package set you use.
|
||
|
||
If you use `nix-shell` for your development environments remember to start your
|
||
editor in that environment. You may want to use something like `direnv` and/or an
|
||
editor plugin to achieve this.
|
||
|
||
## Overriding Haskell packages {#haskell-overriding-haskell-packages}
|
||
|
||
### Overriding a single package {#haskell-overriding-a-single-package}
|
||
|
||
<!-- TODO(@sternenseemann): we should document /somewhere/ that base == null etc. -->
|
||
|
||
Like many language specific subsystems in nixpkgs, the Haskell infrastructure
|
||
also has its own quirks when it comes to overriding. Overriding of the *inputs*
|
||
to a package at least follows the standard procedure. For example, imagine you
|
||
need to build `nix-tree` with a more recent version of `brick` than the default
|
||
one provided by `haskellPackages`:
|
||
|
||
```nix
|
||
haskellPackages.nix-tree.override {
|
||
brick = haskellPackages.brick_0_67;
|
||
}
|
||
```
|
||
|
||
<!-- TODO(@sternenseemann): This belongs in the next section
|
||
One common problem you may run into with such an override is the build failing
|
||
with “abort because of serious configure-time warning from Cabal”. When scrolling
|
||
up, you'll usually notice that Cabal noticed that more than one versions of the same
|
||
package was present in the dependency graph. This typically causes a later compilation
|
||
failure (the error message `haskellPackages.mkDerivation` produces tries to save
|
||
you the time of finding this out yourself, but if you wish to do so, you can
|
||
disable it using `allowInconsistentDependencies`). Luckily, `haskellPackages` provides
|
||
you with a tool to deal with this. `overrideScope` creates a new `haskellPackages`
|
||
instance with the override applied *globally* for this package, so the dependency
|
||
closure automatically uses a consistent version of the overridden package. E. g.
|
||
if `haskell-ci` needs a recent version of `Cabal`, but also uses other packages
|
||
that depend on that library, you may want to use:
|
||
|
||
```nix
|
||
haskellPackages.haskell-ci.overrideScope (self: super: {
|
||
Cabal = self.Cabal_3_6_2_0;
|
||
})
|
||
```
|
||
|
||
-->
|
||
|
||
The custom interface comes into play when you want to override the arguments
|
||
passed to `haskellPackages.mkDerivation`. For this, the function `overrideCabal`
|
||
from `haskell.lib.compose` is used. E.g., if you want to install a man page
|
||
that is distributed with the package, you can do something like this:
|
||
|
||
```nix
|
||
haskell.lib.compose.overrideCabal (drv: {
|
||
postInstall = ''
|
||
${drv.postInstall or ""}
|
||
install -Dm644 man/pnbackup.1 -t $out/share/man/man1
|
||
'';
|
||
}) haskellPackages.pnbackup
|
||
```
|
||
|
||
`overrideCabal` takes two arguments:
|
||
|
||
1. A function which receives all arguments passed to `haskellPackages.mkDerivation`
|
||
before and returns a set of arguments to replace (or add) with a new value.
|
||
2. The Haskell derivation to override.
|
||
|
||
The arguments are ordered so that you can easily create helper functions by making
|
||
use of currying:
|
||
|
||
```nix
|
||
let
|
||
installManPage = haskell.lib.compose.overrideCabal (drv: {
|
||
postInstall = ''
|
||
${drv.postInstall or ""}
|
||
install -Dm644 man/${drv.pname}.1 -t "$out/share/man/man1"
|
||
'';
|
||
});
|
||
in
|
||
|
||
installManPage haskellPackages.pnbackup
|
||
```
|
||
|
||
In fact, `haskell.lib.compose` already provides lots of useful helpers for common
|
||
tasks, detailed in the next section. They are also structured in such a way that
|
||
they can be combined using `lib.pipe`:
|
||
|
||
```nix
|
||
lib.pipe my-haskell-package [
|
||
# lift version bounds on dependencies
|
||
haskell.lib.compose.doJailbreak
|
||
# disable building the haddock documentation
|
||
haskell.lib.compose.dontHaddock
|
||
# pass extra package flag to Cabal's configure step
|
||
(haskell.lib.compose.enableCabalFlag "myflag")
|
||
]
|
||
```
|
||
|
||
#### `haskell.lib.compose` {#haskell-haskell.lib.compose}
|
||
|
||
The base interface for all overriding is the following function:
|
||
|
||
`overrideCabal f drv`
|
||
: Takes the arguments passed to obtain `drv` to `f` and uses the resulting
|
||
attribute set to update the argument set. Then a recomputed version of `drv`
|
||
using the new argument set is returned.
|
||
|
||
<!--
|
||
TODO(@sternenseemann): ideally we want to be more detailed here as well, but
|
||
I want to avoid the documentation having to be kept in sync in too many places.
|
||
We already document this stuff in the mkDerivation section and lib/compose.nix.
|
||
Ideally this section would be generated from the latter in the future.
|
||
-->
|
||
|
||
All other helper functions are implemented in terms of `overrideCabal` and make
|
||
common overrides shorter and more complicate ones trivial. The simple overrides
|
||
which only change a single argument are only described very briefly in the
|
||
following overview. Refer to the
|
||
[documentation of `haskellPackages.mkDerivation`](#haskell-mkderivation)
|
||
for a more detailed description of the effects of the respective arguments.
|
||
|
||
##### Packaging Helpers {#haskell-packaging-helpers}
|
||
|
||
`overrideSrc { src, version } drv`
|
||
: Replace the source used for building `drv` with the path or derivation given
|
||
as `src`. The `version` attribute is optional. Prefer this function over
|
||
overriding `src` via `overrideCabal`, since it also automatically takes care of
|
||
removing any Hackage revisions.
|
||
|
||
<!-- TODO(@sternenseemann): deprecated
|
||
|
||
`generateOptparseApplicativeCompletions list drv`
|
||
: Generate and install shell completion files for the installed executables whose
|
||
names are given via `list`. The executables need to be using `optparse-applicative`
|
||
for this to work.
|
||
-->
|
||
|
||
`justStaticExecutables drv`
|
||
: Only build and install the executables produced by `drv`, removing everything
|
||
that may refer to other Haskell packages' store paths (like libraries and
|
||
documentation). This dramatically reduces the closure size of the resulting
|
||
derivation. Note that the executables are only statically linked against their
|
||
Haskell dependencies, but will still link dynamically against libc, GMP and
|
||
other system library dependencies. If dependencies use their Cabal-generated
|
||
`Paths_*` module, this may not work as well if GHC's dead code elimination
|
||
is unable to remove the references to the dependency's store path that module
|
||
contains.
|
||
|
||
`enableSeparateBinOutput drv`
|
||
: Install executables produced by `drv` to a separate `bin` output. This
|
||
has a similar effect as `justStaticExecutables`, but preserves the libraries
|
||
and documentation in the `out` output alongside the `bin` output with a
|
||
much smaller closure size.
|
||
|
||
`markBroken drv`
|
||
: Sets the `broken` flag to `true` for `drv`.
|
||
|
||
`markUnbroken drv`, `unmarkBroken drv`
|
||
: Set the `broken` flag to `false` for `drv`.
|
||
|
||
`doDistribute drv`
|
||
: Updates `hydraPlatforms` so that Hydra will build `drv`. This is
|
||
sometimes necessary when working with versioned packages in
|
||
`haskellPackages` which are not built by default.
|
||
|
||
`dontDistribute drv`
|
||
: Sets `hydraPlatforms` to `[]`, causing Hydra to skip this package
|
||
altogether. Useful if it fails to evaluate cleanly and is causing
|
||
noise in the evaluation errors tab on Hydra.
|
||
|
||
##### Development Helpers {#haskell-development-helpers}
|
||
|
||
`sdistTarball drv`
|
||
: Create a source distribution tarball like those found on Hackage
|
||
instead of building the package `drv`.
|
||
|
||
`documentationTarball drv`
|
||
: Create a documentation tarball suitable for uploading to Hackage
|
||
instead of building the package `drv`.
|
||
|
||
`buildFromSdist drv`
|
||
: Uses `sdistTarball drv` as the source to compile `drv`. This helps to catch
|
||
packaging bugs when building from a local directory, e.g. when required files
|
||
are missing from `extra-source-files`.
|
||
|
||
`failOnAllWarnings drv`
|
||
: Enables all warnings GHC supports and makes it fail the build if any of them
|
||
are emitted.
|
||
|
||
<!-- TODO(@sternenseemann):
|
||
`checkUnusedPackages opts drv`
|
||
: Adds an extra check to `postBuild` which fails the build if any dependency
|
||
taken as an input is not used. The `opts` attribute set allows relaxing this
|
||
check.
|
||
-->
|
||
|
||
`enableDWARFDebugging drv`
|
||
: Compiles the package with additional debug symbols enabled, useful
|
||
for debugging with e.g. `gdb`.
|
||
|
||
`doStrip drv`
|
||
: Sets `doStrip` to `true` for `drv`.
|
||
|
||
`dontStrip drv`
|
||
: Sets `doStrip` to `false` for `drv`.
|
||
|
||
<!-- TODO(@sternenseemann): shellAware -->
|
||
|
||
##### Trivial Helpers {#haskell-trivial-helpers}
|
||
|
||
`doJailbreak drv`
|
||
: Sets the `jailbreak` argument to `true` for `drv`.
|
||
|
||
`dontJailbreak drv`
|
||
: Sets the `jailbreak` argument to `false` for `drv`.
|
||
|
||
`doHaddock drv`
|
||
: Sets `doHaddock` to `true` for `drv`.
|
||
|
||
`dontHaddock drv`
|
||
: Sets `doHaddock` to `false` for `drv`. Useful if the build of a package is
|
||
failing because of e.g. a syntax error in the Haddock documentation.
|
||
|
||
`doHyperlinkSource drv`
|
||
: Sets `hyperlinkSource` to `true` for `drv`.
|
||
|
||
`dontHyperlinkSource drv`
|
||
: Sets `hyperlinkSource` to `false` for `drv`.
|
||
|
||
`doCheck drv`
|
||
: Sets `doCheck` to `true` for `drv`.
|
||
|
||
`dontCheck drv`
|
||
: Sets `doCheck` to `false` for `drv`. Useful if a package has a broken,
|
||
flaky or otherwise problematic test suite breaking the build.
|
||
|
||
<!-- Purposefully omitting the non-list variants here. They are a bit
|
||
ugly, and we may want to deprecate them at some point. -->
|
||
|
||
`appendConfigureFlags list drv`
|
||
: Adds the strings in `list` to the `configureFlags` argument for `drv`.
|
||
|
||
`enableCabalFlag flag drv`
|
||
: Makes sure that the Cabal flag `flag` is enabled in Cabal's configure step.
|
||
|
||
`disableCabalFlag flag drv`
|
||
: Makes sure that the Cabal flag `flag` is disabled in Cabal's configure step.
|
||
|
||
`appendBuildFlags list drv`
|
||
: Adds the strings in `list` to the `buildFlags` argument for `drv`.
|
||
|
||
<!-- TODO(@sternenseemann): removeConfigureFlag -->
|
||
|
||
`appendPatches list drv`
|
||
: Adds the `list` of derivations or paths to the `patches` argument for `drv`.
|
||
|
||
<!-- TODO(@sternenseemann): link dep section -->
|
||
|
||
`addBuildTools list drv`
|
||
: Adds the `list` of derivations to the `buildTools` argument for `drv`.
|
||
|
||
`addExtraLibraries list drv`
|
||
: Adds the `list` of derivations to the `extraLibraries` argument for `drv`.
|
||
|
||
`addBuildDepends list drv`
|
||
: Adds the `list` of derivations to the `buildDepends` argument for `drv`.
|
||
|
||
`addTestToolDepends list drv`
|
||
: Adds the `list` of derivations to the `testToolDepends` argument for `drv`.
|
||
|
||
`addPkgconfigDepends list drv`
|
||
: Adds the `list` of derivations to the `pkg-configDepends` argument for `drv`.
|
||
|
||
`addSetupDepends list drv`
|
||
: Adds the `list` of derivations to the `setupHaskellDepends` argument for `drv`.
|
||
|
||
`doBenchmark drv`
|
||
: Set `doBenchmark` to `true` for `drv`. Useful if your development
|
||
environment is missing the dependencies necessary for compiling the
|
||
benchmark component.
|
||
|
||
`dontBenchmark drv`
|
||
: Set `doBenchmark` to `false` for `drv`.
|
||
|
||
`setBuildTargets drv list`
|
||
: Sets the `buildTarget` argument for `drv` so that the targets specified in `list` are built.
|
||
|
||
`doCoverage drv`
|
||
: Sets the `doCoverage` argument to `true` for `drv`.
|
||
|
||
`dontCoverage drv`
|
||
: Sets the `doCoverage` argument to `false` for `drv`.
|
||
|
||
`enableExecutableProfiling drv`
|
||
: Sets the `enableExecutableProfiling` argument to `true` for `drv`.
|
||
|
||
`disableExecutableProfiling drv`
|
||
: Sets the `enableExecutableProfiling` argument to `false` for `drv`.
|
||
|
||
`enableLibraryProfiling drv`
|
||
: Sets the `enableLibraryProfiling` argument to `true` for `drv`.
|
||
|
||
`disableLibraryProfiling drv`
|
||
: Sets the `enableLibraryProfiling` argument to `false` for `drv`.
|
||
|
||
#### Library functions in the Haskell package sets {#haskell-package-set-lib-functions}
|
||
|
||
Some library functions depend on packages from the Haskell package sets. Thus they are
|
||
exposed from those instead of from `haskell.lib.compose` which can only access what is
|
||
passed directly to it. When using the functions below, make sure that you are obtaining them
|
||
from the same package set (`haskellPackages`, `haskell.packages.ghc944` etc.) as the packages
|
||
you are working with or – even better – from the `self`/`final` fix point of your overlay to
|
||
`haskellPackages`.
|
||
|
||
Note: Some functions like `shellFor` that are not intended for overriding per se, are omitted
|
||
in this section. <!-- TODO(@sternenseemann): note about ifd section -->
|
||
|
||
`cabalSdist { src, name ? ... }`
|
||
: Generates the Cabal sdist tarball for `src`, suitable for uploading to Hackage.
|
||
Contrary to `haskell.lib.compose.sdistTarball`, it uses `cabal-install` over `Setup.hs`,
|
||
so it is usually faster: No build dependencies need to be downloaded, and we can
|
||
skip compiling `Setup.hs`.
|
||
|
||
`buildFromCabalSdist drv`
|
||
: Build `drv`, but run its `src` attribute through `cabalSdist` first. Useful for catching
|
||
files necessary for compilation that are missing from the sdist.
|
||
|
||
`generateOptparseApplicativeCompletions list drv`
|
||
: Generate and install shell completion files for the installed executables whose
|
||
names are given via `list`. The executables need to be using `optparse-applicative`
|
||
for [this to work][optparse-applicative-completions].
|
||
Note that this feature is automatically disabled when cross-compiling, since it
|
||
requires executing the binaries in question.
|
||
|
||
<!--
|
||
|
||
TODO(@NixOS/haskell): finish these planned sections
|
||
### Overriding the entire package set
|
||
|
||
|
||
## Import-from-Derivation helpers
|
||
|
||
* `callCabal2nix`
|
||
* `callHackage`, `callHackageDirect`
|
||
* `developPackage`
|
||
|
||
## Contributing {#haskell-contributing}
|
||
|
||
### Fixing a broken package {#haskell-fixing-a-broken-package}
|
||
|
||
### Package set generation {#haskell-package-set-generation}
|
||
|
||
### Packaging a Haskell project
|
||
|
||
### Backporting {#haskell-backporting}
|
||
|
||
Backporting changes to a stable NixOS version in general is covered
|
||
in nixpkgs' `CONTRIBUTING.md` in general. In particular refer to the
|
||
[backporting policy](https://github.com/NixOS/nixpkgs/blob/master/CONTRIBUTING.md#criteria-for-backporting-changes)
|
||
to check if the change you have in mind may be backported.
|
||
|
||
This section focuses on how to backport a package update (e.g. a
|
||
bug fix or security release). Fixing a broken package works like
|
||
it does for the unstable branches.
|
||
|
||
-->
|
||
|
||
## F.A.Q. {#haskell-faq}
|
||
|
||
### Why is topic X not covered in this section? Why is section Y missing? {#haskell-why-not-covered}
|
||
|
||
We have been working on [moving the nixpkgs Haskell documentation back into the
|
||
nixpkgs manual](https://github.com/NixOS/nixpkgs/issues/121403). Since this
|
||
process has not been completed yet, you may find some topics missing here
|
||
covered in the old [haskell4nix docs](https://haskell4nix.readthedocs.io/).
|
||
|
||
If you feel any important topic is not documented at all, feel free to comment
|
||
on the issue linked above.
|
||
|
||
### How to enable or disable profiling builds globally? {#haskell-faq-override-profiling}
|
||
|
||
By default, Nixpkgs builds a profiling version of each Haskell library. The
|
||
exception to this rule are some platforms where it is disabled due to concerns
|
||
over output size. You may want to…
|
||
|
||
* …enable profiling globally so that you can build a project you are working on
|
||
with profiling ability giving you insight in the time spent across your code
|
||
and code you depend on using [GHC's profiling feature][profiling].
|
||
|
||
* …disable profiling (globally) to reduce the time spent building the profiling
|
||
versions of libraries which a significant amount of build time is spent on
|
||
(although they are not as expensive as the “normal” build of a Haskell library).
|
||
|
||
::: {.note}
|
||
The method described below affects the build of all libraries in the
|
||
respective Haskell package set as well as GHC. If your choices differ from
|
||
Nixpkgs' default for your (host) platform, you will lose the ability to
|
||
substitute from the official binary cache.
|
||
|
||
If you are concerned about build times and thus want to disable profiling, it
|
||
probably makes sense to use `haskell.lib.compose.disableLibraryProfiling` (see
|
||
[](#haskell-trivial-helpers)) on the packages you are building locally while
|
||
continuing to substitute their dependencies and GHC.
|
||
:::
|
||
|
||
Since we need to change the profiling settings for the desired Haskell package
|
||
set _and_ GHC (as the core libraries like `base`, `filepath` etc. are bundled
|
||
with GHC), it is recommended to use overlays for Nixpkgs to change them.
|
||
Since the interrelated parts, i.e. the package set and GHC, are connected
|
||
via the Nixpkgs fixpoint, we need to modify them both in a way that preserves
|
||
their connection (or else we'd have to wire it up again manually). This is
|
||
achieved by changing GHC and the package set in separate overlays to prevent
|
||
the package set from pulling in GHC from `prev`.
|
||
|
||
The result is two overlays like the ones shown below. Adjustable parts are
|
||
annotated with comments, as are any optional or alternative ways to achieve
|
||
the desired profiling settings without causing too many rebuilds.
|
||
|
||
<!-- TODO(@sternenseemann): buildHaskellPackages != haskellPackages with this overlay,
|
||
affected by https://github.com/NixOS/nixpkgs/issues/235960 which needs to be fixed
|
||
properly still.
|
||
-->
|
||
|
||
```nix
|
||
let
|
||
# Name of the compiler and package set you want to change. If you are using
|
||
# the default package set `haskellPackages`, you need to look up what version
|
||
# of GHC it currently uses (note that this is subject to change).
|
||
ghcName = "ghc92";
|
||
# Desired new setting
|
||
enableProfiling = true;
|
||
in
|
||
|
||
[
|
||
# The first overlay modifies the GHC derivation so that it does or does not
|
||
# build profiling versions of the core libraries bundled with it. It is
|
||
# recommended to only use such an overlay if you are enabling profiling on a
|
||
# platform that doesn't by default, because compiling GHC from scratch is
|
||
# quite expensive.
|
||
(final: prev:
|
||
let
|
||
inherit (final) lib;
|
||
in
|
||
|
||
{
|
||
haskell = lib.recursiveUpdate prev.haskell {
|
||
compiler.${ghcName} = prev.haskell.compiler.${ghcName}.override {
|
||
# Unfortunately, the GHC setting is named differently for historical reasons
|
||
enableProfiledLibs = enableProfiling;
|
||
};
|
||
};
|
||
})
|
||
|
||
(final: prev:
|
||
let
|
||
inherit (final) lib;
|
||
haskellLib = final.haskell.lib.compose;
|
||
in
|
||
|
||
{
|
||
haskell = lib.recursiveUpdate prev.haskell {
|
||
packages.${ghcName} = prev.haskell.packages.${ghcName}.override {
|
||
overrides = hfinal: hprev: {
|
||
mkDerivation = args: hprev.mkDerivation (args // {
|
||
# Since we are forcing our ideas upon mkDerivation, this change will
|
||
# affect every package in the package set.
|
||
enableLibraryProfiling = enableProfiling;
|
||
|
||
# To actually use profiling on an executable, executable profiling
|
||
# needs to be enabled for the executable you want to profile. You
|
||
# can either do this globally or…
|
||
enableExecutableProfiling = enableProfiling;
|
||
});
|
||
|
||
# …only for the package that contains an executable you want to profile.
|
||
# That saves on unnecessary rebuilds for packages that you only depend
|
||
# on for their library, but also contain executables (e.g. pandoc).
|
||
my-executable = haskellLib.enableExecutableProfiling hprev.my-executable;
|
||
|
||
# If you are disabling profiling to save on build time, but want to
|
||
# retain the ability to substitute from the binary cache. Drop the
|
||
# override for mkDerivation above and instead have an override like
|
||
# this for the specific packages you are building locally and want
|
||
# to make cheaper to build.
|
||
my-library = haskellLib.disableLibraryProfiling hprev.my-library;
|
||
};
|
||
};
|
||
};
|
||
})
|
||
]
|
||
```
|
||
|
||
<!-- TODO(@sternenseemann): write overriding mkDerivation, overriding GHC, and
|
||
overriding the entire package set sections and link to them from here where
|
||
relevant.
|
||
-->
|
||
|
||
[Stackage]: https://www.stackage.org
|
||
[cabal-project-files]: https://cabal.readthedocs.io/en/latest/cabal-project.html
|
||
[cabal2nix]: https://github.com/nixos/cabal2nix
|
||
[cpphs]: https://Hackage.haskell.org/package/cpphs
|
||
[haddock-hoogle-option]: https://haskell-haddock.readthedocs.io/en/latest/invoking.html#cmdoption-hoogle
|
||
[haddock-hyperlinked-source-option]: https://haskell-haddock.readthedocs.io/en/latest/invoking.html#cmdoption-hyperlinked-source
|
||
[haddock]: https://www.haskell.org/haddock/
|
||
[haskell-program-coverage]: https://downloads.haskell.org/~ghc/latest/docs/html/users_guide/profiling.html#observing-code-coverage
|
||
[haskell.nix]: https://input-output-hk.github.io/haskell.nix/index.html
|
||
[HLS user guide]: https://haskell-language-server.readthedocs.io/en/latest/configuration.html#configuring-your-editor
|
||
[hoogle]: https://wiki.haskell.org/Hoogle
|
||
[incremental-builds]: https://www.haskellforall.com/2022/12/nixpkgs-support-for-incremental-haskell.html
|
||
[jailbreak-cabal]: https://github.com/NixOS/jailbreak-cabal/
|
||
[multiple-outputs]: https://nixos.org/manual/nixpkgs/stable/#chap-multiple-output
|
||
[optparse-applicative-completions]: https://github.com/pcapriotti/optparse-applicative/blob/7726b63796aa5d0df82e926d467f039b78ca09e2/README.md#bash-zsh-and-fish-completions
|
||
[profiling-detail]: https://cabal.readthedocs.io/en/latest/cabal-project.html#cfg-field-profiling-detail
|
||
[profiling]: https://downloads.haskell.org/~ghc/latest/docs/html/users_guide/profiling.html
|
||
[search.nixos.org]: https://search.nixos.org
|
||
[turtle]: https://hackage.haskell.org/package/turtle
|