# Copyright 1999-2024 Gentoo Authors # Distributed under the terms of the GNU General Public License v2 EAPI=8 PYTHON_COMPAT=( python3_{10..13} ) inherit cmake llvm.org llvm-utils multilib multilib-minimal inherit prefix python-single-r1 toolchain-funcs DESCRIPTION="C language family frontend for LLVM" HOMEPAGE="https://llvm.org/" # MSVCSetupApi.h: MIT # sorttable.js: MIT LICENSE="Apache-2.0-with-LLVM-exceptions UoI-NCSA MIT" SLOT="${LLVM_MAJOR}/${LLVM_SOABI}" KEYWORDS="~amd64 ~arm ~arm64 ~loong ~mips ~ppc ~ppc64 ~riscv ~sparc ~x86 ~amd64-linux ~arm64-macos ~x64-macos" IUSE="debug doc +extra ieee-long-double +pie +static-analyzer test xml" REQUIRED_USE="${PYTHON_REQUIRED_USE}" RESTRICT="!test? ( test )" DEPEND=" ~llvm-core/llvm-${PV}:${LLVM_MAJOR}=[debug=,${MULTILIB_USEDEP}] static-analyzer? ( dev-lang/perl:* ) xml? ( dev-libs/libxml2:2=[${MULTILIB_USEDEP}] ) " RDEPEND=" ${PYTHON_DEPS} ${DEPEND} >=llvm-core/clang-common-${PV} " BDEPEND=" ${PYTHON_DEPS} test? ( ~llvm-core/lld-${PV} ) xml? ( virtual/pkgconfig ) " PDEPEND=" ~llvm-core/clang-runtime-${PV} llvm-core/clang-toolchain-symlinks:${LLVM_MAJOR} " LLVM_COMPONENTS=( clang clang-tools-extra cmake ) LLVM_MANPAGES=1 LLVM_TEST_COMPONENTS=( llvm/utils ) LLVM_USE_TARGETS=llvm llvm.org_set_globals [[ -n ${LLVM_MANPAGE_DIST} ]] && BDEPEND+=" doc? ( " BDEPEND+=" $(python_gen_cond_dep ' dev-python/myst-parser[${PYTHON_USEDEP}] dev-python/sphinx[${PYTHON_USEDEP}] ') " [[ -n ${LLVM_MANPAGE_DIST} ]] && BDEPEND+=" ) " # Multilib notes: # 1. ABI_* flags control ABIs libclang* is built for only. # 2. clang is always capable of compiling code for all ABIs for enabled # target. However, you will need appropriate crt* files (installed # e.g. by sys-devel/gcc and sys-libs/glibc). # 3. ${CHOST}-clang wrappers are always installed for all ABIs included # in the current profile (i.e. alike supported by sys-devel/gcc). # # Therefore: use llvm-core/clang[${MULTILIB_USEDEP}] only if you need # multilib clang* libraries (not runtime, not wrappers). src_prepare() { # create extra parent dir for relative CLANG_RESOURCE_DIR access mkdir -p x/y || die BUILD_DIR=${WORKDIR}/x/y/clang llvm.org_src_prepare # add Gentoo Portage Prefix for Darwin (see prefix-dirs.patch) eprefixify \ lib/Lex/InitHeaderSearch.cpp \ lib/Driver/ToolChains/Darwin.cpp || die if ! use prefix-guest && [[ -n ${EPREFIX} ]]; then sed -i "/LibDir.*Loader/s@return \"\/\"@return \"${EPREFIX}/\"@" lib/Driver/ToolChains/Linux.cpp || die fi } check_distribution_components() { if [[ ${CMAKE_MAKEFILE_GENERATOR} == ninja ]]; then local all_targets=() my_targets=() l cd "${BUILD_DIR}" || die while read -r l; do if [[ ${l} == install-*-stripped:* ]]; then l=${l#install-} l=${l%%-stripped*} case ${l} in # meta-targets clang-libraries|distribution) continue ;; # tools clang|clangd|clang-*) ;; # static libraries clang*|findAllSymbols) continue ;; # conditional to USE=doc docs-clang-html|docs-clang-tools-html) use doc || continue ;; esac all_targets+=( "${l}" ) fi done < <(${NINJA} -t targets all) while read -r l; do my_targets+=( "${l}" ) done < <(get_distribution_components $"\n") local add=() remove=() for l in "${all_targets[@]}"; do if ! has "${l}" "${my_targets[@]}"; then add+=( "${l}" ) fi done for l in "${my_targets[@]}"; do if ! has "${l}" "${all_targets[@]}"; then remove+=( "${l}" ) fi done if [[ ${#add[@]} -gt 0 || ${#remove[@]} -gt 0 ]]; then eqawarn "get_distribution_components() is outdated!" eqawarn " Add: ${add[*]}" eqawarn "Remove: ${remove[*]}" fi cd - >/dev/null || die fi } get_distribution_components() { local sep=${1-;} local out=( # common stuff clang-cmake-exports clang-headers clang-resource-headers libclang-headers aarch64-resource-headers arm-common-resource-headers arm-resource-headers core-resource-headers cuda-resource-headers hexagon-resource-headers hip-resource-headers hlsl-resource-headers mips-resource-headers opencl-resource-headers openmp-resource-headers ppc-htm-resource-headers ppc-resource-headers riscv-resource-headers systemz-resource-headers utility-resource-headers ve-resource-headers webassembly-resource-headers windows-resource-headers x86-resource-headers # libs clang-cpp libclang ) if multilib_is_native_abi; then out+=( # common stuff bash-autocomplete libclang-python-bindings # tools #amdgpu-arch c-index-test clang clang-format clang-installapi clang-linker-wrapper clang-nvlink-wrapper clang-offload-bundler clang-offload-packager clang-refactor clang-repl clang-rename clang-scan-deps diagtool hmaptool nvptx-arch # needed for cross-compiling Clang clang-tblgen ) if use extra; then out+=( # extra tools clang-apply-replacements clang-change-namespace clang-doc clang-include-cleaner clang-include-fixer clang-move clang-pseudo clang-query clang-reorder-fields clang-tidy clang-tidy-headers clangd find-all-symbols modularize pp-trace ) fi if llvm_are_manpages_built; then out+=( docs-clang-man ) use extra && out+=( docs-clang-tools-man ) fi if use doc; then out+=( docs-clang-html ) use extra && out+=( docs-clang-tools-html ) fi use static-analyzer && out+=( clang-check clang-extdef-mapping scan-build scan-build-py scan-view ) fi printf "%s${sep}" "${out[@]}" } multilib_src_configure() { llvm_prepend_path "${LLVM_MAJOR}" local mycmakeargs=( -DDEFAULT_SYSROOT=$(usex prefix-guest "" "${EPREFIX}") -DCMAKE_INSTALL_PREFIX="${EPREFIX}/usr/lib/llvm/${LLVM_MAJOR}" -DCMAKE_INSTALL_MANDIR="${EPREFIX}/usr/lib/llvm/${LLVM_MAJOR}/share/man" -DCLANG_CONFIG_FILE_SYSTEM_DIR="${EPREFIX}/etc/clang" # relative to bindir -DCLANG_RESOURCE_DIR="../../../../lib/clang/${LLVM_MAJOR}" -DBUILD_SHARED_LIBS=OFF -DCLANG_LINK_CLANG_DYLIB=ON -DLLVM_DISTRIBUTION_COMPONENTS=$(get_distribution_components) -DCLANG_INCLUDE_TESTS=$(usex test) -DLLVM_INCLUDE_TESTS=$(usex test) -DLLVM_TARGETS_TO_BUILD="${LLVM_TARGETS// /;}" # these are not propagated reliably, so redefine them -DLLVM_ENABLE_EH=ON -DLLVM_ENABLE_RTTI=ON # libgomp support fails to find headers without explicit -I # furthermore, it provides only syntax checking -DCLANG_DEFAULT_OPENMP_RUNTIME=libomp -DCLANG_DEFAULT_PIE_ON_LINUX=$(usex pie) -DCLANG_ENABLE_LIBXML2=$(usex xml) -DCLANG_ENABLE_ARCMT=$(usex static-analyzer) -DCLANG_ENABLE_STATIC_ANALYZER=$(usex static-analyzer) # TODO: CLANG_ENABLE_HLSL? -DPython3_EXECUTABLE="${PYTHON}" ) if ! use elibc_musl; then mycmakeargs+=( -DPPC_LINUX_DEFAULT_IEEELONGDOUBLE=$(usex ieee-long-double) ) fi use test && mycmakeargs+=( -DLLVM_BUILD_TESTS=ON -DLLVM_LIT_ARGS="$(get_lit_flags)" ) if multilib_is_native_abi; then local build_docs=OFF if llvm_are_manpages_built; then build_docs=ON mycmakeargs+=( -DLLVM_BUILD_DOCS=ON -DLLVM_ENABLE_SPHINX=ON -DCLANG_INSTALL_SPHINX_HTML_DIR="${EPREFIX}/usr/share/doc/${PF}/html" -DSPHINX_WARNINGS_AS_ERRORS=OFF ) if use extra; then mycmakeargs+=( -DCLANG-TOOLS_INSTALL_SPHINX_HTML_DIR="${EPREFIX}/usr/share/doc/${PF}/tools-extra" ) fi fi mycmakeargs+=( -DCLANG_INCLUDE_DOCS=${build_docs} ) fi if multilib_native_use extra; then mycmakeargs+=( -DLLVM_EXTERNAL_CLANG_TOOLS_EXTRA_SOURCE_DIR="${WORKDIR}"/clang-tools-extra -DCLANG_TOOLS_EXTRA_INCLUDE_DOCS=${build_docs} ) else mycmakeargs+=( -DLLVM_TOOL_CLANG_TOOLS_EXTRA_BUILD=OFF ) fi if tc-is-cross-compiler; then has_version -b llvm-core/clang:${LLVM_MAJOR} || die "llvm-core/clang:${LLVM_MAJOR} is required on the build host." local tools_bin=${BROOT}/usr/lib/llvm/${LLVM_MAJOR}/bin mycmakeargs+=( -DLLVM_TOOLS_BINARY_DIR="${tools_bin}" -DCLANG_TABLEGEN="${tools_bin}"/clang-tblgen ) fi # LLVM can have very high memory consumption while linking, # exhausting the limit on 32-bit linker executable use x86 && local -x LDFLAGS="${LDFLAGS} -Wl,--no-keep-memory" # LLVM_ENABLE_ASSERTIONS=NO does not guarantee this for us, #614844 use debug || local -x CPPFLAGS="${CPPFLAGS} -DNDEBUG" cmake_src_configure multilib_is_native_abi && check_distribution_components } multilib_src_compile() { cmake_build distribution } multilib_src_test() { # respect TMPDIR! local -x LIT_PRESERVES_TMP=1 local test_targets=( check-clang ) if multilib_native_use extra; then test_targets+=( check-clang-tools check-clangd ) fi cmake_build "${test_targets[@]}" } src_install() { MULTILIB_WRAPPED_HEADERS=( /usr/include/clang/Config/config.h ) multilib-minimal_src_install # Move runtime headers to /usr/lib/clang, where they belong mv "${ED}"/usr/include/clangrt "${ED}"/usr/lib/clang || die # move (remaining) wrapped headers back if use extra; then mv "${T}"/clang-tidy "${ED}"/usr/include/ || die fi mv "${ED}"/usr/include "${ED}"/usr/lib/llvm/${LLVM_MAJOR}/include || die # Apply CHOST and version suffix to clang tools local clang_tools=( clang clang++ clang-cl clang-cpp ) local abi i # cmake gives us: # - clang-X # - clang -> clang-X # - clang++, clang-cl, clang-cpp -> clang # we want to have: # - clang-X # - clang++-X, clang-cl-X, clang-cpp-X -> clang-X # - clang, clang++, clang-cl, clang-cpp -> clang*-X # also in CHOST variant for i in "${clang_tools[@]:1}"; do rm "${ED}/usr/lib/llvm/${LLVM_MAJOR}/bin/${i}" || die dosym "clang-${LLVM_MAJOR}" "/usr/lib/llvm/${LLVM_MAJOR}/bin/${i}-${LLVM_MAJOR}" dosym "${i}-${LLVM_MAJOR}" "/usr/lib/llvm/${LLVM_MAJOR}/bin/${i}" done # now create target symlinks for all supported ABIs for abi in $(get_all_abis); do local abi_chost=$(get_abi_CHOST "${abi}") for i in "${clang_tools[@]}"; do dosym "${i}-${LLVM_MAJOR}" \ "/usr/lib/llvm/${LLVM_MAJOR}/bin/${abi_chost}-${i}-${LLVM_MAJOR}" dosym "${abi_chost}-${i}-${LLVM_MAJOR}" \ "/usr/lib/llvm/${LLVM_MAJOR}/bin/${abi_chost}-${i}" done done } multilib_src_install() { DESTDIR=${D} cmake_build install-distribution # move headers to /usr/include for wrapping & ABI mismatch checks # (also drop the version suffix from runtime headers) rm -rf "${ED}"/usr/include || die mv "${ED}"/usr/lib/llvm/${LLVM_MAJOR}/include "${ED}"/usr/include || die mv "${ED}"/usr/lib/clang "${ED}"/usr/include/clangrt || die if multilib_native_use extra; then # don't wrap clang-tidy headers, the list is too long # (they're fine for non-native ABI but enabling the targets is problematic) mv "${ED}"/usr/include/clang-tidy "${T}/" || die fi } multilib_src_install_all() { python_fix_shebang "${ED}" if use static-analyzer; then python_optimize "${ED}"/usr/lib/llvm/${LLVM_MAJOR}/share/scan-view fi docompress "/usr/lib/llvm/${LLVM_MAJOR}/share/man" llvm_install_manpages # match 'html' non-compression use doc && docompress -x "/usr/share/doc/${PF}/tools-extra" # +x for some reason; TODO: investigate use static-analyzer && fperms a-x "/usr/lib/llvm/${LLVM_MAJOR}/share/man/man1/scan-build.1" } pkg_postinst() { if [[ -z ${ROOT} && -f ${EPREFIX}/usr/share/eselect/modules/compiler-shadow.eselect ]] ; then eselect compiler-shadow update all fi elog "You can find additional utility scripts in:" elog " ${EROOT}/usr/lib/llvm/${LLVM_MAJOR}/share/clang" if use extra; then elog "Some of them are vim integration scripts (with instructions inside)." elog "The run-clang-tidy.py script requires the following additional package:" elog " dev-python/pyyaml" fi } pkg_postrm() { if [[ -z ${ROOT} && -f ${EPREFIX}/usr/share/eselect/modules/compiler-shadow.eselect ]] ; then eselect compiler-shadow clean all fi }