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opam-nix

Turn opam-based OCaml projects into Nix derivations.

TL;DR

Templates

  • A simple package build, no frills: nix flake init -t github:tweag/opam-nix
  • A more featured flake, building an executable and providing a shell in which you can conveniently work on it: nix flake init -t github:tweag/opam-nix#executable
  • Build multiple packages from the same workspace, and have a shell in which you can work on them: nix flake init -t github:tweag/opam-nix#multi-package

Examples

All examples are checks and packages, so you can do e.g. nix build github:tweag/opam-nix#opam-ed to try them out individually, or nix flake check github:tweag/opam-nix to build them all.

What if I want to...

Build an opam-based project: use buildOpamProject

Build a dune-based project: use buildDuneProject

Terminology

Package

Derivation

An opam-nix "Package" is just a nixpkgs-based derivation which has some additional properties. It corresponds to an opam package (more specifically, it directly corresponds to an opam package installed in some switch, switch being the Scope).

Its output contains an empty file nix-support/is-opam-nix-package, and also it has a nix-support/setup-hook setting some internal variables, OCAMLPATH, CAML_LD_LIBRARY_PATH, and other variables exported by packages using variables in <pkgname>.config or setenv in <pkgname>.opam.

The derivation has a passthru.pkgdef attribute, which can be used to get information about the opam file this Package came from. It can also be overriden with overrideAttrs to alter the generated package.

The behaviour of the build script can be controlled using build-time environment variables. If you want to set an opam environment variable (be it for substitution or a package filter), you can do so by passing it to overrideAttrs of the package with a special transformation applied to the variable's name: replace - and + in the name with underscores (_), replace all : (separators between package names and their corresponding variables) with two underscores (__), and prepend opam__. For example, if you want to get a package cmdliner with conf-g++:installed set to true, do cmdliner.overrideAttrs (_: { opam__conf_g____installed = "true"; }).

If you wish to change the build in some other arbitrary way, do so as you would with any nixpkgs package. You can override phases, but note that configurePhase is special and should not be overriden (unless you read builder.nix and understand what it is doing).

Some special attributes which you can override are:

  • withFakeOpam (default true): Whether to provide a fake opam executable during the build & install phases. This executable supports a small subset of opam subcommands, allowing some configuration tooling to query it for build-time information (e.g. config variables). Disabling it can be useful if you provide a real opam in the environment and it is clashing with the fake one.
  • dontPatchShebangsEarly (default false): Disable patching shebangs in all scripts in the source directory before running any build or install commands. Can be useful if the shebangs are Nix-compatible already (e.g. with /usr/bin/env) and changing them invalidates some hash (e.g. the git index hash). See also
  • doNixSupport (default true): Whether to produce $out/nix-support. This handles both build input and environment variable propagation to dependencies.
    • propagateInputs (default true): Whether to propagate all transitive build inputs to dependencies.
    • exportSetupHook (default true): Whether to propagate environment variables (e.g. set with build-env) to dependencies.
  • removeOcamlReferences (default false): Whether to remove all references to the ocaml compiler from the resulting executable. Can reduce the size of the resulting closure. Might break the application.

Repository

Path or Derivation

A repository is understood in the same way as for opam itself. It is a directory (or a derivation producing a directory) which contains at least repo and packages/. Directories in packages must be package names, directories in those must be of the format name.version, and each such subdirectory must have at least an opam file.

If a repository is a derivation, it may contain passthru.sourceMap, which maps package names to their corresponding sources.

Query

{ ${package_name} = package_version : String or "*"; ... }

A "query" is a attrset, mapping from package names to package versions. It is used to "query" the repositories for the required packages and their versions. A special version of "*" means "latest" for functions dealing with version resolution (i.e. opamList), and shouldn't be used elsewhere.

Scope

{ overrideScope' = (Scope → Scope → Scope) → Scope
; callPackage = (Dependencies → Package) → Dependencies → Package
; ${package_name} = package : Package; ... }

A nixpkgs "scope" (package set). The scope is self-referential, i.e. packages in the set may refer to other packages from that same set. A scope corresponds to an opam switch, with the most important difference being that packages are built in isolation and can't alter the outputs of other packages, or use packages which aren't in their dependency tree.

Note that there can only be one version of each package in the set, due to constraints in OCaml's way of linking.

overrideScope' can be used to apply overlays to the scope, and callPackage can be used to get Packages from the output of opam2nix, with dependencies supplied from the scope.

Public-facing API

Public-facing API is presented in the lib output of the flake. It is mapped over the platforms, e.g. lib.x86_64-linux provides the functions usable on x86_64-linux. Functions documented below reside in those per-platform package sets, so if you want to use e.g. makeOpamRepo, you'll have to use opam-nix.lib.x86_64-linux.makeOpamRepo. All examples assume that the relevant per-platform lib is in scope, something like this flake:

{
  inputs.opam-nix.url = "github:tweag/opam-nix";
  inputs.flake-utils.url = "github:numtide/flake-utils";

  outputs = { self, opam-nix, flake-utils }:
    flake-utils.lib.eachDefaultSystem (system:
      with opam-nix.lib.${system}; {
        defaultPackage = # <example goes here>
      });
}

Or this flake-less expression:

with (import (builtins.fetchTarball "https://github.com/tweag/opam-nix/archive/main.tar.gz")).lib.${builtins.currentSystem};
# example goes here

You can instantiate opam.nix yourself, by passing at least some pkgs (containing opam2json), and optionally opam-repository for use as the default repository (if you don't pass opam-repository, repos argument becomes required everywhere).

queryToScope

{ repos = ?[Repository]
; pkgs = ?Nixpkgs
; overlays = ?[Overlay]
; resolveArgs = ?ResolveArgs }
→ Query
→ Scope
ResolveEnv : { ${var_name} = value : String; ... }
ResolveArgs :
{ env = ?ResolveEnv
; with-test = ?Bool
; with-doc = ?Bool
; dev = ?Bool
; depopts = ?Bool
; best-effort = ?Bool
}

Turn a Query into a Scope.

Special value of "*" can be passed as a version in the Query to let opam figure out the latest possible version for the package.

The first argument allows providing custom repositories & top-level nixpkgs, adding overlays and passing an environment to the resolver.

repos, env & version resolution

Versions are resolved using upstream opam. The passed repositories (repos, containing opam-repository by default) are merged and then opam admin list --resolve is called on the resulting directory. Package versions from earlier repositories take precedence over package versions from later repositories. env allows to pass additional "environment" to opam admin list, affecting its version resolution decisions. See man opam-admin for further information about the environment.

When a repository in repos is a derivation and contains passthru.sourceMap, sources for packages taken from that repository are taken from that source map.

pkgs & overlays

By default, pkgs match the pkgs argument to opam.nix, which, in turn, is the nixpkgs input of the flake. overlays default to defaultOverlay and staticOverlay in case the passed nixpkgs appear to be targeting static building.

Examples

Build a package from opam-repository, using all sane defaults:

(queryToScope { } { opam-ed = "*"; ocaml-system = "*"; }).opam-ed

Build a specific version of the package, overriding some dependencies:

let
  scope = queryToScope { } { opam-ed = "0.3"; ocaml-system = "*"; };
  overlay = self: super: {
    opam-file-format = super.opam-file-format.overrideAttrs
      (oa: { opam__ocaml__native = "true"; });
  };
in (scope.overrideScope' overlay).opam-ed

Pass static nixpkgs (to get statically linked libraries and executables):

let
  scope = queryToScope {
    pkgs = pkgsStatic;
  } { opam-ed = "*"; ocaml-system = "*"; };
in scope.opam-ed

buildOpamProject

{ repos = ?[Repository]
; pkgs = ?Nixpkgs
; overlays = ?[Overlay]
; resolveArgs = ?ResolveArgs
; pinDepends = ?Bool
; recursive = ?Bool }
→ name: String
→ project: Path
→ Query
→ Scope

A convenience wrapper around queryToScope.

Turn an opam project (found in the directory passed as the third argument) into a Scope. More concretely, produce a scope containing the package called name from the project directory, together with other packages from the Query.

Analogous to opam install ..

The first argument is the same as the first argument of queryToScope, except the repository produced by calling makeOpamRepo on the project directory is prepended to repos. An additional pinDepends attribute can be supplied. When true, it pins the dependencies specified in pin-depends of the packages in the project.

recursive controls whether subdirectories are searched for opam files (when true), or only the top-level project directory (when false).

Examples

Build a package from a local directory:

(buildOpamProject { } "my-package" ./. { }).my-package

Build a package from a local directory, forcing opam to use the non-"system" compiler:

(buildOpamProject { } "my-package" ./. { ocaml-base-compiler = "*"; }).my-package

Building a statically linked library or binary from a local directory:

(buildOpamProject { pkgs = pkgsStatic; } "my-package" ./. { }).my-package

Build a project with tests:

(buildOpamProject { resolveArgs.with-test = true; } "my-package" ./. { }).my-package

buildOpamProject'

{ repos = ?[Repository]
; pkgs = ?Nixpkgs
; overlays = ?[Overlay]
; resolveArgs = ?ResolveArgs
; pinDepends = ?Bool
; recursive = ?Bool }
→ project: Path
→ Query
→ Scope

Similar to buildOpamProject, but adds all packages found in the project directory to the resulting Scope.

Examples

Build a package from a local directory:

(buildOpamProject' { } ./. { }).my-package

buildDuneProject

{ repos = ?[Repository]
; pkgs = ?Nixpkgs
; overlays = ?[Overlay]
; resolveArgs = ?ResolveArgs }
→ name: String
→ project: Path
→ Query
→ Scope

A convenience wrapper around buildOpamProject. Behaves exactly as buildOpamProject, except runs dune build ${name}.opam in an environment with dune_3 and ocaml from nixpkgs beforehand. This is supposed to be used with dune's generate_opam_files

Examples

Build a local project which uses dune and doesn't have an opam file:

(buildDuneProject { } "my-package" ./. { }).my-package

makeOpamRepo / makeOpamRepoRec

Path → Derivation

Traverse a directory (recursively in case of makeOpamRepoRec), looking for opam files and collecting them into a repository in a format understood by opam. The resulting derivation will also provide passthru.sourceMap, which is a map from package names to package sources taken from the original Path.

Packages for which the version can not be inferred get dev as their version.

Note that all opam files in this directory will be evaluated using importOpam, to get their corresponding package names and versions.

Examples

Build a package from a local directory, which depends on packages from opam-repository:

let
  repos = [ (makeOpamRepo ./.) opamRepository ];
  scope = queryToScope { inherit repos; } { my-package = "*"; };
in scope.my-package

listRepo

Repository → {${package_name} = [version : String]}

Produce a mapping from package names to lists of versions (sorted older-to-newer) for an opam repository.

opamImport

{ repos = ?[Repository]
; pkgs = ?Nixpkgs
; overlays = ?[Overlay] }
→ Path
→ Scope

Import an opam switch, similarly to opam import, and provide a package combining all the packages installed in that switch. repos, pkgs, overlays and Scope are understood identically to queryToScope, except no version resolution is performed.

opam2nix

{ src = Path
; opamFile = ?Path
; name = ?String
; version = ?String
; resolveEnv = ?ResolveEnv }
→ Dependencies
→ Package

Produce a callPackage-able Package from an opam file. This should be called using callPackage from a Scope. Note that you are responsible to ensure that the package versions in Scope are consistent with package versions required by the package. May be useful in conjunction with opamImport.

Examples

let
  scope = opamImport { } ./opam.export;
  pkg = opam2nix { src = ./.; name = "my-package"; };
in scope.callPackage pkg {}

defaultOverlay, staticOverlay

Overlay : Scope → Scope → Scope

Overlays for the Scope's. Contain enough to build the examples. Apply with overrideScope'.

Materialization

Materialization is a way to speed up builds for your users and avoid IFD (import from derivation) at the cost of committing a generated file to your repository. It can be thought of as splitting the queryToScope (or buildOpamProject) in two parts:

  1. Resolving package versions and reading package definitions (queryToDefs);
  2. Building the package definitions (defsToScope).

Notably, (1) requires IFD and can take a while, especially for new users who don't have the required eval-time dependencies on their machines. The idea is to save the result of (1) to a file, and then read that file and pass the contents to (2).

materialize :
{ repos = ?[Repository]
; resolveArgs = ?ResolveArgs
; regenCommand = ?String}
→ Query
→ Path
materializeOpamProject :
{ repos = ?[Repository]
; resolveArgs = ?ResolveArgs
; pinDepends = ?Boolean
; regenCommand = ?[String]}
→ name : String
→ project : Path
→ Query
→ Path
materializedDefsToScope :
{ pkgs = ?Nixpkgs
; overlays = ?[Overlay] }
→ Path
→ Scope

materialize resolves a query in much the same way as queryToScope would, but instead of producing a scope it produces a JSON file containing all the package definitions for the packages required by the query.

materializeOpamProject is a wrapper around materialize. It is similar to buildOpamProject (which is a wrapper around queryToScope), but again instead of producing a scope it produces a JSON file with all the package definitions. It also handles pin-depends unless it is passed pinDepends = false, just like buildOpamProject.

Both materialize and materializeOpamProject take a regenCommand argument, which will be added to their output as __opam_nix_regen attribute. This is the command that should be executed to regenerate the definition file.

materializedDefsToScope takes a JSON file with package defintions as produced by materialize and turns it into a scope. It is quick, does not use IFD or have any dependency on opam or opam2json. Note that opam2json is still required for actually building the package (it parses the <package>.config file).

There also are convenience scripts called opam-nix-gen and opam-nix-regen. It is available as packages on this repo, e.g. nix shell github:tweag/opam-nix#opam-nix-gen should get you opam-nix-gen in scope. Internally:

  • opam-nix-gen calls materialize or materializeOpamProject. You can use it to generate the package-defs.json, and then pass that file to materializedDefsToScope in your flake.nix
  • opam-nix-regen reads __opam_nix_regen from the package-defs.json file you supply to it, and runs the command it finds there. It can be used to regenerate the package-defs.json file.

Examples

First, create a package-defs.json:

opam-nix-gen my-package . package-defs.json

Then, import it:

(materializedDefsToScope { sourceMap.my-package = ./.; } ./package-defs.json).my-package

fromOpam / importOpam

fromOpam : String → {...}

importOpam : Path → {...}

Generate a nix attribute set from the opam file. This is just a Nix representation of the JSON produced by opam2json.

Monorepo functions

queryToMonorepo

{ repos = ?[Repository]
; resolveArgs = ?ResolveArgs
; filterPkgs ?[ ] }
→ Query
→ Scope

Similar to queryToScope, but creates a attribute set (instead of a scope) with package names mapping to sources for replicating the opam monorepo workflow.

The filterPkgs argument gives a list of package names to filter from the resulting attribute set, rather than removing them based on their opam dev-repo name.

buildOpamMonorepo

{ repos = ?[Repository]
; resolveArgs = ?ResolveArgs
; pinDepends = ?Bool
; recursive = ?Bool
; extraFilterPkgs ?[ ] }
→ project: Path
→ Query
→ Sources

A convenience wrapper around queryToMonorepo.

Creates a monorepo for an opam project (found in the directory passed as the second argument). The monorepo consists of an attribute set of opam package dev-repos to sources, for all dependancies of the packages found in the project directory as well as other packages from the Query.

The packages in the project directory are excluded from the resulting monorepo along with ocaml-system, opam-monorepo, and packages in the extraFilterPkgs argument.

Lower-level functions

joinRepos : [Repository] → Repository

opamList : Repository → ResolveArgs → Query → [String]

opamListToQuery : [String] → Query

queryToDefs : [Repository] → Query → Defs

defsToScope : Nixpkgs → ResolveEnv → Defs → Scope

applyOverlays : [Overlay] → Scope → Scope

getPinDepends : Pkgdef → [Repository]

filterOpamRepo : Query → Repository → Repository

defsToSrcs : Defs → Sources

deduplicateSrcs : Sources → Sources

mkMonorepo : Sources → Scope

opamList resolves package versions using the repo (first argument) and ResolveArgs (second argument). Note that it accepts only one repo. If you want to pass multiple repositories, merge them together yourself with joinRepos. The result of opamList is a list of strings, each containing a package name and a package version. Use opamListToQuery to turn this list into a "Query" (but with all the versions specified).

queryToDefs takes a query (with all the version specified, e.g. produced by opamListToQuery or by reading the installed section of opam.export file) and produces an attribute set of package definitions (using importOpam).

defsToScope takes a nixpkgs instantiataion, a resolve environment and an attribute set of definitions (as produced by queryToDefs) and produces a Scope.

applyOverlays applies a list of overlays to a scope.

getPinDepends Takes a package definition and produces the list of repositories corresponding to pin-depends of the packagedefs. Requires --impure (to fetch the repos specified in pin-depends). Each repository includes only one package.

filterOpamRepo filters the repository to only include packages (and their particular versions) present in the supplied Query.

defsToSrcs takes an attribute set of definitions (as produced by queryToDefs) and produces a list Sources ( [ { name; version; src; } ... ]).

deduplicateSrcs deduplicates Sources produced by defsToSrcs, as some packages may share sources if they are developed in the same repo.

mkMonorepo takes Sources and creates an attribute set mapping package names to sources with a derivation that fetches the source at the src URL.

Defs (set of package definitions)

The attribute set of package definitions has package names as attribute names, and package definitions as nix attrsets. These are basically the nix representation of opam2json output. The format of opam files is described here: https://opam.ocaml.org/doc/Manual.html#opam .

Examples

Build a local package, using an exported opam switch and some "vendored" dependencies, and applying some local overlay on top.

let
  pkgs = import <nixpkgs> { };

  repos = [
    (opam-nix.makeOpamRepo ./.) # "Pin" vendored packages
    inputs.opam-repository
  ];

  export =
    opam-nix.opamListToQuery (opam-nix.fromOPAM ./opam.export).installed;

  vendored-packages = {
    "my-vendored-package" = "local";
    "my-other-vendored-package" = "v1.2.3";
    "my-package" = "local"; # Note: you can't use "*" here!
  };

  myOverlay = import ./overlay.nix;

  scope = applyOverlays [ defaultOverlay myOverlay ]
    (defsToScope pkgs defaultResolveEnv (queryToDefs repos (export // vendored-packages)));
in scope.my-package

Auxiliary functions

splitNameVer : String → { name = String; version = String; }

nameVerToValuePair : String → { name = String; value = String; }

Split opam's package definition (name.version) into components. nameVerToValuePair is useful together with listToAttrs.

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