# Copyright 1999-2024 Gentoo Authors # Distributed under the terms of the GNU General Public License v2 EAPI=8 LLVM_COMPAT=( {15..18} ) PYTHON_COMPAT=( python3_{10..13} ) inherit llvm-r1 python-single-r1 DESCRIPTION="A high-level, general-purpose, multi-paradigm, compiled programming language" HOMEPAGE="https://www.swift.org" SRC_URI=" https://github.com/apple/swift-argument-parser/archive/refs/tags/1.2.3.tar.gz -> swift-argument-parser-1.2.3.tar.gz https://github.com/apple/swift-asn1/archive/refs/tags/1.0.0.tar.gz -> swift-asn1-1.0.0.tar.gz https://github.com/apple/swift-atomics/archive/refs/tags/1.0.2.tar.gz -> swift-atomics-1.0.2.tar.gz https://github.com/apple/swift-certificates/archive/refs/tags/1.0.1.tar.gz -> swift-certificates-1.0.1.tar.gz https://github.com/apple/swift-collections/archive/refs/tags/1.0.5.tar.gz -> swift-collections-1.0.5.tar.gz https://github.com/apple/swift-crypto/archive/refs/tags/3.0.0.tar.gz -> swift-crypto-3.0.0.tar.gz https://github.com/apple/swift-nio-ssl/archive/refs/tags/2.15.0.tar.gz -> swift-nio-ssl-2.15.0.tar.gz https://github.com/apple/swift-nio/archive/refs/tags/2.31.2.tar.gz -> swift-nio-2.31.2.tar.gz https://github.com/apple/swift-numerics/archive/refs/tags/1.0.1.tar.gz -> swift-numerics-1.0.1.tar.gz https://github.com/apple/swift-system/archive/refs/tags/1.1.1.tar.gz -> swift-system-1.1.1.tar.gz https://github.com/apple/swift-xcode-playground-support/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-xcode-playground-support-${PV}.tar.gz https://github.com/jpsim/Yams/archive/refs/tags/5.0.1.tar.gz -> Yams-5.0.1.tar.gz https://github.com/swiftlang/indexstore-db/archive/refs/tags/${P}-RELEASE.tar.gz -> indexstore-db-${PV}.tar.gz https://github.com/swiftlang/llvm-project/archive/refs/tags/${P}-RELEASE.tar.gz -> llvm-project-${PV}.tar.gz https://github.com/swiftlang/sourcekit-lsp/archive/refs/tags/${P}-RELEASE.tar.gz -> sourcekit-lsp-${PV}.tar.gz https://github.com/swiftlang/swift-cmark/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-cmark-${PV}.tar.gz https://github.com/swiftlang/swift-corelibs-foundation/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-corelibs-foundation-${PV}.tar.gz https://github.com/swiftlang/swift-corelibs-libdispatch/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-corelibs-libdispatch-${PV}.tar.gz https://github.com/swiftlang/swift-corelibs-xctest/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-corelibs-xctest-${PV}.tar.gz https://github.com/swiftlang/swift-docc-render-artifact/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-docc-render-artifact-${PV}.tar.gz https://github.com/swiftlang/swift-docc-symbolkit/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-docc-symbolkit-${PV}.tar.gz https://github.com/swiftlang/swift-docc/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-docc-${PV}.tar.gz https://github.com/swiftlang/swift-driver/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-driver-${PV}.tar.gz https://github.com/swiftlang/swift-experimental-string-processing/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-experimental-string-processing-${PV}.tar.gz https://github.com/swiftlang/swift-format/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-format-${PV}.tar.gz https://github.com/swiftlang/swift-installer-scripts/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-installer-scripts-${PV}.tar.gz https://github.com/swiftlang/swift-integration-tests/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-integration-tests-${PV}.tar.gz https://github.com/swiftlang/swift-llbuild/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-llbuild-${PV}.tar.gz https://github.com/swiftlang/swift-llvm-bindings/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-llvm-bindings-${PV}.tar.gz https://github.com/swiftlang/swift-lmdb/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-lmdb-${PV}.tar.gz https://github.com/swiftlang/swift-markdown/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-markdown-${PV}.tar.gz https://github.com/swiftlang/swift-package-manager/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-package-manager-${PV}.tar.gz https://github.com/swiftlang/swift-stress-tester/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-stress-tester-${PV}.tar.gz https://github.com/swiftlang/swift-syntax/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-syntax-${PV}.tar.gz https://github.com/swiftlang/swift-tools-support-core/archive/refs/tags/${P}-RELEASE.tar.gz -> swift-tools-support-core-${PV}.tar.gz https://github.com/swiftlang/swift/archive/refs/tags/${P}-RELEASE.tar.gz -> ${P}.tar.gz " PATCHES=( "${FILESDIR}/${PF}/link-ncurses-tinfo.patch" "${FILESDIR}/${PF}/link-with-lld.patch" "${FILESDIR}/${PF}/lldb-cmake-minimum-version.patch" ) S="${WORKDIR}" LICENSE="Apache-2.0" SLOT="5/10" KEYWORDS="~amd64" REQUIRED_USE="${PYTHON_REQUIRED_USE}" RESTRICT="strip" RDEPEND=" ${PYTHON_DEPS} >=app-eselect/eselect-swift-1.0 >=dev-db/sqlite-3 >=dev-libs/icu-69 >=dev-libs/libedit-20221030 >=dev-libs/libxml2-2.11.5 >=net-misc/curl-8.4 >=sys-libs/ncurses-6 >=sys-libs/zlib-1.3 dev-lang/python $(llvm_gen_dep 'llvm-core/lld:${LLVM_SLOT}=') " BDEPEND=" ${PYTHON_DEPS} >=dev-build/cmake-3.24.2 >=dev-build/ninja-1.11 >=dev-db/sqlite-3 >=dev-libs/icu-69 >=dev-libs/libedit-20221030 >=dev-libs/libxml2-2.11.5 >=dev-vcs/git-2.39 >=sys-apps/coreutils-9 >=sys-libs/ncurses-6 >=sys-libs/zlib-1.3 $(llvm_gen_dep ' llvm-core/clang:${LLVM_SLOT}= llvm-core/lld:${LLVM_SLOT}= ') dev-lang/python $(python_gen_cond_dep ' dev-python/setuptools[${PYTHON_USEDEP}] ' python3_{12..13}) " # Adapted from `flag-o-matic.eclass`'s `raw-ldflags`: turns GCC-style flags # (`-Wl,-foo`) into Clang-style flags (`-Xlinker -foo`). clang-ldflags() { local flag input="$@" [[ -z ${input} ]] && input=${LDFLAGS} set -- for flag in ${input//,/ } ; do case ${flag} in -Wl) ;; *) set -- "$@" "-Xlinker ${flag}" ;; esac done echo "$@" } pkg_setup() { # Sets `${EPYTHON}` according to `PYTHON_SINGLE_TARGET`, sets up # `${T}/${EPYTHON}` with that version, and adds it to the `PATH`. python_setup # Sets up `PATH` to point to the appropriate LLVM toolchain. llvm-r1_pkg_setup # `llvm-r1_pkg_setup` sets these tools to their absolute paths, but we need # to still pick them up dynamically based on `PATH` for stage1 and stage2 # builds below (to keep all parts of the Swift toolchain compiling with the # same internal tools). export CC="clang" export CXX="clang++" export LD="ld.lld" # Swift builds with CMake, which picks up `LDFLAGS` from the environment and # populates `CMAKE_EXE_LINKER_FLAGS` with them. `LDFLAGS` are typically # given as GCC-style flags (), which Clang understands; # unfortunately, CMake passes these flags to all compilers under the # assumption they support the same syntax, but `swiftc` _only_ understands # Clang-style flags (`-Xlinker -foo`). In order to pass `LDFLAGS` in, we # have to turn them into a format that `swiftc` will understand. # # We can do this because we know we're compiling with Clang specifically. export LDFLAGS="$(clang-ldflags)" } src_unpack() { default # The Swift project expects a specific directory structure that we have to # match. For most directories, it's enough to trim the version number at the # end: find "${S}" \ -mindepth 1 -maxdepth 1 \ -execdir sh -c \ "mv '{}' \"\$(echo '{}' | sed -e 's_-\(swift-5\.10\.1-RELEASE\|\([0-9]\+\.\)*[0-9]\+\)\$__' | tr '[:upper:]' '[:lower:]')\"" ';' \ || die # Some one-off fixups: pushd "${S}" \ && mv 'swift-cmark' 'cmark' \ && mv 'swift-llbuild' 'llbuild' \ && mv 'swift-package-manager' 'swiftpm' \ && popd \ || die } src_compile() { # The Swift 5.10 compiler is partially written in Swift itself (the new # `swift-driver` + macro support via `swift-syntax`), which requires # bootstrapping with an existing Swift compiler. # # We don't have an existing Swift compiler, but we can bootstrap it with # itself in a 3-stage process: # # 0. We'll build LLVM+Clang and a bare Swift compiler with the old C++-based # driver and no macro support # 1. We'll use that bare compiler to build a base compiler with the new # Swift-based driver and macro support, with some base libs # 2. We'll then use that base compiler to build a full Swift toolchain with # all necessary libs # # Build products will be intentionally shared between stages as much as # possible to avoid unnecessary repeated compilation. # Building swift-driver writes to this directory for some reason, but the # contents are irrelevant. addpredict /var/lib/portage/home/.swiftpm local _extra_cmake_options=( # BFD doesn't link Swift symbols properly, so we have to ensure Swift is # built with LLD. '-DSWIFT_USE_LINKER=lld', # We don't need to build any test code or test executables, which Swift # (and some components) does by default. '-DBUILD_TESTING:BOOL=NO', '-DSWIFT_INCLUDE_TESTS:BOOL=NO', '-DSWIFT_INCLUDE_TEST_BINARIES:BOOL=NO', # The Clang `compiler-rt` library builds the LLVM ORC JIT component by # default, which we don't need; the component builds with an executable # stack, which we'd like to avoid. '-DCOMPILER_RT_BUILD_ORC:BOOL=NO', # LLDB ships with Python bindings, and uses CMake to search for Python. # By default, CMake tries to find the latest version of Python available # on disk (currently `python3.13`, then `python3.12`, then...). This # might not be the version of Python the rest of the system uses, or # which is specified by `PYTHON_SINGLE_TARGET`. # # Since `python_setup` already places `${EPYTHON}` in the `PATH`, we can # tell CMake to use the unversioned `python` rather than a versioned # one to end up respecting `PYTHON_SINGLE_TARGET`. '-DPython3_FIND_UNVERSIONED_NAMES=FIRST' ) local extra_cmake_options="$(IFS=,; echo "${_extra_cmake_options[*]}")" # stage0: # * Bare Swift compiler (no bootstrapping; no Swift driver or macros) # * LLVM+Clang; this is the only stage where these are built because as a # base dependency, their flags never change, and the build products can be # reused "${S}/swift/utils/build-script" \ --verbose-build \ --release \ --no-assertions \ --build-subdir="Ninja-Release" \ --install-destdir="${S}/stage0" \ --extra-cmake-options="${extra_cmake_options}" \ --bootstrapping=off \ --build-swift-libexec=false \ --llvm-install-components='llvm-ar;llvm-cov;llvm-profdata;IndexStore;clang;clang-resource-headers;compiler-rt;clangd;lld;LTO;clang-features-file' \ --llvm-targets-to-build=host \ --skip-build-benchmarks \ --skip-early-swift-driver --skip-early-swiftsyntax \ --skip-test-cmark \ --skip-test-linux \ --skip-test-swift \ --install-all \ || die # stage1: # * Base Swift compiler and driver (bootstrapping from stage0; with macros) # * Base libs: swift-driver depends on llbuild + swiftpm, which depend on # Foundation + libdispatch + XCTest local original_path="${PATH}" export PATH="${S}/stage0/usr/bin:${original_path}" "${S}/swift/utils/build-script" \ --verbose-build \ --release \ --no-assertions \ --build-subdir="Ninja-Release" \ --install-destdir="${S}/stage1" \ --extra-cmake-options="${extra_cmake_options}" \ --build-swift-libexec=false \ --cmark --skip-test-cmark \ --foundation --skip-test-foundation \ --libdispatch --skip-test-libdispatch \ --llbuild --skip-test-llbuild \ --skip-build-benchmarks \ --skip-build-llvm \ --skip-test-linux \ --skip-test-swift \ --swift-driver --skip-test-swift-driver \ --swiftpm --skip-test-swiftpm \ --xctest --skip-test-xctest \ --install-all \ || die # stage2: full Swift toolchain (bootstrapping from stage1) export PATH="${S}/stage1/usr/bin:${original_path}" "${S}/swift/utils/build-script" \ --verbose-build \ --release \ --no-assertions \ --build-subdir="Ninja-Release" \ --install-destdir="${S}/stage2" \ --extra-cmake-options="${extra_cmake_options}" \ --build-swift-libexec=false \ --foundation --skip-test-foundation \ --indexstore-db --skip-test-indexstore-db \ --libdispatch --skip-test-libdispatch \ --llbuild --skip-test-llbuild \ --lldb --skip-test-lldb \ --skip-build-benchmarks \ --skip-build-llvm \ --skip-test-linux \ --skip-test-swift \ --sourcekit-lsp --skip-test-sourcekit-lsp \ --swift-driver --skip-test-swift-driver \ --swift-install-components='autolink-driver;compiler;clang-resource-dir-symlink;stdlib;swift-remote-mirror;sdk-overlay;static-mirror-lib;toolchain-tools;license;sourcekit-inproc' \ --swiftdocc --skip-test-swiftdocc \ --swiftpm --skip-test-swiftpm \ --xctest --skip-test-xctest \ --install-all \ || die export PATH="${original_path}" } src_install() { # The Swift build output is intended to be self-contained, and is # _significantly_ easier to leave as-is than attempt to splat onto the # filesystem; we'll install the output versioned into `/usr/lib64` and # expose the relevant binaries via linking. local dest_dir="/usr/lib64/${P}" mkdir -p "${ED}/${dest_dir}" \ && cp -pPR "${S}/stage2/." "${ED}/${dest_dir}" \ || die # Swift ships with its own `clang`, `lldb`, etc.; we don't want these to be # exposed externally, so we'll just symlink Swift-specific binaries into # `/usr/bin`. (The majority of executables don't need to be exposed as # `swift ` calls `swift-` directly.) local bin for bin in swift swiftc sourcekit-lsp; do # We only install versioned symlinks; non-versioned links are maanged # via `eselect swift`. dosym -r "${dest_dir}/usr/bin/${bin}" "/usr/bin/${bin}-${PV}" done } pkg_postinst() { # If we're installing the latest version of Swift, then update symlinks to # it. (We don't want to call `eselect swift update` unconditionally in case # we're installing an older version of Swift, and the user has intentionally # selected a version other than the latest.) if ! has_version ">${CATEGORY}/${P}"; then eselect swift update fi } pkg_postrm() { # We don't want to leave behind symlinks pointing to this Swift version on # removal. local eselect_swift_version="$(eselect swift show)" if [[ "${eselect_swift_version}" == *"${P}" ]]; then eselect swift update fi }