2023-02-04 22:27:05 +01:00
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# Swift {#swift}
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The Swift compiler is provided by the `swift` package:
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```sh
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# Compile and link a simple executable.
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nix-shell -p swift --run 'swiftc -' <<< 'print("Hello world!")'
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# Run it!
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./main
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```
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The `swift` package also provides the `swift` command, with some caveats:
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- Swift Package Manager (SwiftPM) is packaged separately as `swiftpm`. If you
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need functionality like `swift build`, `swift run`, `swift test`, you must
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also add the `swiftpm` package to your closure.
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- On Darwin, the `swift repl` command requires an Xcode installation. This is
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because it uses the system LLDB debugserver, which has special entitlements.
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## Module search paths {#ssec-swift-module-search-paths}
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Like other toolchains in Nixpkgs, the Swift compiler executables are wrapped
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to help Swift find your application's dependencies in the Nix store. These
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wrappers scan the `buildInputs` of your package derivation for specific
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directories where Swift modules are placed by convention, and automatically
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add those directories to the Swift compiler search paths.
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Swift follows different conventions depending on the platform. The wrappers
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look for the following directories:
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- On Darwin platforms: `lib/swift/macosx`
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(If not targeting macOS, replace `macosx` with the Xcode platform name.)
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- On other platforms: `lib/swift/linux/x86_64`
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(Where `linux` and `x86_64` are from lowercase `uname -sm`.)
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- For convenience, Nixpkgs also adds `lib/swift` to the search path.
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This can save a bit of work packaging Swift modules, because many Nix builds
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will produce output for just one target any way.
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## Core libraries {#ssec-swift-core-libraries}
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In addition to the standard library, the Swift toolchain contains some
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additional 'core libraries' that, on Apple platforms, are normally distributed
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as part of the OS or Xcode. These are packaged separately in Nixpkgs, and can
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be found (for use in `buildInputs`) as:
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- `swiftPackages.Dispatch`
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- `swiftPackages.Foundation`
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- `swiftPackages.XCTest`
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## Packaging with SwiftPM {#ssec-swift-packaging-with-swiftpm}
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Nixpkgs includes a small helper `swiftpm2nix` that can fetch your SwiftPM
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dependencies for you, when you need to write a Nix expression to package your
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application.
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The first step is to run the generator:
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```sh
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cd /path/to/my/project
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# Enter a Nix shell with the required tools.
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nix-shell -p swift swiftpm swiftpm2nix
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# First, make sure the workspace is up-to-date.
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swift package resolve
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# Now generate the Nix code.
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swiftpm2nix
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```
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This produces some files in a directory `nix`, which will be part of your Nix
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expression. The next step is to write that expression:
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```nix
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{ stdenv, swift, swiftpm, swiftpm2nix, fetchFromGitHub }:
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let
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# Pass the generated files to the helper.
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generated = swiftpm2nix.helpers ./nix;
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in
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stdenv.mkDerivation rec {
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pname = "myproject";
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version = "0.0.0";
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src = fetchFromGitHub {
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owner = "nixos";
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repo = pname;
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rev = version;
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hash = "sha256-AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA=";
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};
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# Including SwiftPM as a nativeBuildInput provides a buildPhase for you.
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# This by default performs a release build using SwiftPM, essentially:
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# swift build -c release
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nativeBuildInputs = [ swift swiftpm ];
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# The helper provides a configure snippet that will prepare all dependencies
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# in the correct place, where SwiftPM expects them.
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configurePhase = generated.configure;
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installPhase = ''
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# This is a special function that invokes swiftpm to find the location
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# of the binaries it produced.
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binPath="$(swiftpmBinPath)"
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# Now perform any installation steps.
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mkdir -p $out/bin
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cp $binPath/myproject $out/bin/
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'';
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}
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```
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### Custom build flags {#ssec-swiftpm-custom-build-flags}
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If you'd like to build a different configuration than `release`:
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```nix
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{
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swiftpmBuildConfig = "debug";
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}
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```
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It is also possible to provide additional flags to `swift build`:
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```nix
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{
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swiftpmFlags = [ "--disable-dead-strip" ];
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}
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```
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The default `buildPhase` already passes `-j` for parallel building.
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2023-11-09 21:48:05 +01:00
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If these two customization options are insufficient, provide your own
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`buildPhase` that invokes `swift build`.
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### Running tests {#ssec-swiftpm-running-tests}
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Including `swiftpm` in your `nativeBuildInputs` also provides a default
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`checkPhase`, but it must be enabled with:
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```nix
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{
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doCheck = true;
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}
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```
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This essentially runs: `swift test -c release`
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### Patching dependencies {#ssec-swiftpm-patching-dependencies}
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In some cases, it may be necessary to patch a SwiftPM dependency. SwiftPM
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dependencies are located in `.build/checkouts`, but the `swiftpm2nix` helper
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provides these as symlinks to read-only `/nix/store` paths. In order to patch
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them, we need to make them writable.
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A special function `swiftpmMakeMutable` is available to replace the symlink
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with a writable copy:
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2024-03-27 17:33:27 +01:00
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```nix
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{
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configurePhase = generated.configure ++ ''
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# Replace the dependency symlink with a writable copy.
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swiftpmMakeMutable swift-crypto
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# Now apply a patch.
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patch -p1 -d .build/checkouts/swift-crypto -i ${./some-fix.patch}
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'';
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}
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2023-02-04 22:27:05 +01:00
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```
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## Considerations for custom build tools {#ssec-swift-considerations-for-custom-build-tools}
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### Linking the standard library {#ssec-swift-linking-the-standard-library}
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The `swift` package has a separate `lib` output containing just the Swift
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standard library, to prevent Swift applications needing a dependency on the
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full Swift compiler at run-time. Linking with the Nixpkgs Swift toolchain
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already ensures binaries correctly reference the `lib` output.
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Sometimes, Swift is used only to compile part of a mixed codebase, and the
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link step is manual. Custom build tools often locate the standard library
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relative to the `swift` compiler executable, and while the result will work,
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when this path ends up in the binary, it will have the Swift compiler as an
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unintended dependency.
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In this case, you should investigate how your build process discovers the
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standard library, and override the path. The correct path will be something
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like: `"${swift.swift.lib}/${swift.swiftModuleSubdir}"`
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