# Copyright 1999-2024 Gentoo Authors # Distributed under the terms of the GNU General Public License v2 EAPI=8 PYTHON_COMPAT=( python3_{10..13} ) inherit bash-completion-r1 check-reqs estack flag-o-matic llvm multiprocessing \ multilib multilib-build python-any-r1 rust-toolchain toolchain-funcs verify-sig if [[ ${PV} = *beta* ]]; then betaver=${PV//*beta} BETA_SNAPSHOT="${betaver:0:4}-${betaver:4:2}-${betaver:6:2}" MY_P="rustc-beta" SLOT="beta/${PV}" SRC="${BETA_SNAPSHOT}/rustc-beta-src.tar.xz -> rustc-${PV}-src.tar.xz" else ABI_VER="$(ver_cut 1-2)" SLOT="stable/${ABI_VER}" MY_P="rustc-${PV}" SRC="${MY_P}-src.tar.xz" KEYWORDS="amd64 arm arm64 ~loong ~mips ppc ppc64 ~riscv sparc x86" fi RUST_STAGE0_VERSION="1.$(($(ver_cut 2) - 1)).0" DESCRIPTION="Systems programming language from Mozilla" HOMEPAGE="https://www.rust-lang.org/" SRC_URI=" https://static.rust-lang.org/dist/${SRC} verify-sig? ( https://static.rust-lang.org/dist/${SRC}.asc ) !system-bootstrap? ( $(rust_all_arch_uris rust-${RUST_STAGE0_VERSION}) ) " # keep in sync with llvm ebuild of the same version as bundled one. ALL_LLVM_TARGETS=( AArch64 AMDGPU ARC ARM AVR BPF CSKY DirectX Hexagon Lanai LoongArch M68k Mips MSP430 NVPTX PowerPC RISCV Sparc SPIRV SystemZ VE WebAssembly X86 XCore Xtensa ) ALL_LLVM_TARGETS=( "${ALL_LLVM_TARGETS[@]/#/llvm_targets_}" ) LLVM_TARGET_USEDEPS=${ALL_LLVM_TARGETS[@]/%/(-)?} LICENSE="|| ( MIT Apache-2.0 ) BSD BSD-1 BSD-2 BSD-4" IUSE="big-endian clippy cpu_flags_x86_sse2 debug dist doc llvm-libunwind lto miri nightly parallel-compiler profiler rustfmt rust-analyzer rust-src +system-bootstrap system-llvm test wasm ${ALL_LLVM_TARGETS[*]}" # Please keep the LLVM dependency block separate. Since LLVM is slotted, # we need to *really* make sure we're not pulling more than one slot # simultaneously. # How to use it: # List all the working slots in LLVM_VALID_SLOTS, newest first. LLVM_VALID_SLOTS=( 18 ) LLVM_MAX_SLOT="${LLVM_VALID_SLOTS[0]}" # splitting usedeps needed to avoid CI/pkgcheck's UncheckableDep limitation # (-) usedep needed because we may build with older llvm without that target LLVM_DEPEND="|| ( " for _s in ${LLVM_VALID_SLOTS[@]}; do LLVM_DEPEND+=" ( " for _x in ${ALL_LLVM_TARGETS[@]}; do LLVM_DEPEND+=" ${_x}? ( sys-devel/llvm:${_s}[${_x}(-)] ) wasm? ( sys-devel/lld:${_s} )" done LLVM_DEPEND+=" )" done unset _s _x LLVM_DEPEND+=" ) /dev/null) ) rustc_version=${rustc_version[0]#rust-bin-} rustc_version=${rustc_version#rust-} [[ -z "${rustc_version}" ]] && die "Failed to determine rust version, check 'eselect rust' output" if ver_test "${rustc_version}" -lt "${rustc_wanted}" ; then eerror "Rust >=${rustc_wanted} is required" eerror "please run 'eselect rust' and set correct rust version" die "selected rust version is too old" elif ver_test "${rustc_version}" -ge "${rustc_toonew}" ; then eerror "Rust <${rustc_toonew} is required" eerror "please run 'eselect rust' and set correct rust version" die "selected rust version is too new" else einfo "Using rust ${rustc_version} to build" fi } pre_build_checks() { local M=8192 # multiply requirements by 1.3 if we are doing x86-multilib if use amd64; then M=$(( $(usex abi_x86_32 13 10) * ${M} / 10 )) fi M=$(( $(usex clippy 128 0) + ${M} )) M=$(( $(usex miri 128 0) + ${M} )) M=$(( $(usex rustfmt 256 0) + ${M} )) # add 2G if we compile llvm and 256M per llvm_target if ! use system-llvm; then M=$(( 2048 + ${M} )) local ltarget for ltarget in ${ALL_LLVM_TARGETS[@]}; do M=$(( $(usex ${ltarget} 256 0) + ${M} )) done fi M=$(( $(usex wasm 256 0) + ${M} )) M=$(( $(usex debug 2 1) * ${M} )) eshopts_push -s extglob if is-flagq '-g?(gdb)?([1-9])'; then M=$(( 15 * ${M} / 10 )) fi eshopts_pop M=$(( $(usex system-bootstrap 0 1024) + ${M} )) M=$(( $(usex doc 256 0) + ${M} )) CHECKREQS_DISK_BUILD=${M}M check-reqs_pkg_${EBUILD_PHASE} } llvm_check_deps() { has_version -r "sys-devel/llvm:${LLVM_SLOT}[${LLVM_TARGET_USEDEPS// /,}]" } # Is LLVM being linked against libc++? is_libcxx_linked() { local code='#include #if defined(_LIBCPP_VERSION) HAVE_LIBCXX #endif ' local out=$($(tc-getCXX) ${CXXFLAGS} ${CPPFLAGS} -x c++ -E -P - <<<"${code}") || return 1 [[ ${out} == *HAVE_LIBCXX* ]] } pkg_pretend() { pre_build_checks } pkg_setup() { pre_build_checks python-any-r1_pkg_setup export LIBGIT2_NO_PKG_CONFIG=1 #749381 if tc-is-cross-compiler; then export PKG_CONFIG_ALLOW_CROSS=1 export PKG_CONFIG_PATH="${ROOT}/usr/$(get_libdir)/pkgconfig" export OPENSSL_INCLUDE_DIR="${ROOT}/usr/include" export OPENSSL_LIB_DIR="${ROOT}/usr/$(get_libdir)" use system-bootstrap || die "USE=system-bootstrap is required when cross-compiling" use system-llvm && die "USE=system-llvm not allowed when cross-compiling" local cross_llvm_target="$(llvm_tuple_to_target "${CBUILD}")" use "llvm_targets_${cross_llvm_target}" || \ die "Must enable LLVM_TARGETS=${cross_llvm_target} matching CBUILD=${CBUILD} when cross-compiling" fi use system-bootstrap && bootstrap_rust_version_check if use system-llvm; then llvm_pkg_setup local llvm_config="$(get_llvm_prefix "${LLVM_MAX_SLOT}")/bin/llvm-config" export LLVM_LINK_SHARED=1 export RUSTFLAGS="${RUSTFLAGS} -Lnative=$("${llvm_config}" --libdir)" fi } esetup_unwind_hack() { # https://bugs.gentoo.org/870280 # this is a hack needed to bootstrap with libgcc_s linked tarball on llvm-libunwind system. # it should trigger for internal bootstrap or system-bootstrap with rust-bin. # the whole idea is for stage0 to bootstrap with fake libgcc_s. # final stage will receive -L${T}/lib but not -lgcc_s args, producing clean compiler. local fakelib="${T}/fakelib" mkdir -p "${fakelib}" || die # we need both symlinks, one for cargo runtime, other for linker. ln -s "${ESYSROOT}/usr/lib/libunwind.so" "${fakelib}/libgcc_s.so.1" || die ln -s "${ESYSROOT}/usr/lib/libunwind.so" "${fakelib}/libgcc_s.so" || die export LD_LIBRARY_PATH="${fakelib}" export RUSTFLAGS+=" -L${fakelib}" # this is a literally magic variable that gets through cargo cache, without it some # crates ignore RUSTFLAGS. # this variable can not contain leading space. export MAGIC_EXTRA_RUSTFLAGS+="${MAGIC_EXTRA_RUSTFLAGS:+ }-L${fakelib}" } src_prepare() { # Clear vendor checksums for crates that we patched to bump libc. # NOTE: refresh this on each bump. #for i in addr2line-0.20.0 bstr cranelift-jit crossbeam-channel elasticlunr-rs handlebars icu_locid libffi \ # terminal_size tracing-tree; do # clear_vendor_checksums "${i}" #done if ! use system-bootstrap; then has_version sys-devel/gcc || esetup_unwind_hack local rust_stage0_root="${WORKDIR}"/rust-stage0 local rust_stage0="rust-${RUST_STAGE0_VERSION}-$(rust_abi "${CBUILD}")" "${WORKDIR}/${rust_stage0}"/install.sh --disable-ldconfig \ --without=rust-docs-json-preview,rust-docs --destdir="${rust_stage0_root}" --prefix=/ || die fi default } src_configure() { filter-lto # https://bugs.gentoo.org/862109 https://bugs.gentoo.org/866231 local rust_target="" rust_targets="" arch_cflags # Collect rust target names to compile standard libs for all ABIs. for v in $(multilib_get_enabled_abi_pairs); do rust_targets+=",\"$(rust_abi $(get_abi_CHOST ${v##*.}))\"" done if use wasm; then rust_targets+=",\"wasm32-unknown-unknown\"" if use system-llvm; then # un-hardcode rust-lld linker for this target # https://bugs.gentoo.org/715348 sed -i '/linker:/ s/rust-lld/wasm-ld/' compiler/rustc_target/src/spec/base/wasm.rs || die fi fi rust_targets="${rust_targets#,}" # cargo and rustdoc are mandatory and should always be included local tools='"cargo","rustdoc"' use clippy && tools+=',"clippy"' use miri && tools+=',"miri"' use profiler && tools+=',"rust-demangler"' use rustfmt && tools+=',"rustfmt"' use rust-analyzer && tools+=',"rust-analyzer","rust-analyzer-proc-macro-srv"' use rust-src && tools+=',"src"' local rust_stage0_root if use system-bootstrap; then local printsysroot printsysroot="$(rustc --print sysroot || die "Can't determine rust's sysroot")" rust_stage0_root="${printsysroot}" else rust_stage0_root="${WORKDIR}"/rust-stage0 fi # in case of prefix it will be already prefixed, as --print sysroot returns full path [[ -d ${rust_stage0_root} ]] || die "${rust_stage0_root} is not a directory" rust_target="$(rust_abi)" rust_build="$(rust_abi "${CBUILD}")" rust_host="$(rust_abi "${CHOST}")" local cm_btype="$(usex debug DEBUG RELEASE)" cat <<- _EOF_ > "${S}"/config.toml [llvm] download-ci-llvm = false optimize = $(toml_usex !debug) release-debuginfo = $(toml_usex debug) assertions = $(toml_usex debug) ninja = true targets = "${LLVM_TARGETS// /;}" experimental-targets = "" link-shared = $(toml_usex system-llvm) $(if is_libcxx_linked; then # https://bugs.gentoo.org/732632 echo "use-libcxx = true" echo "static-libstdcpp = false" fi) $(case "${rust_target}" in i586-*-linux-*) # https://github.com/rust-lang/rust/issues/93059 echo 'cflags = "-fcf-protection=none"' echo 'cxxflags = "-fcf-protection=none"' echo 'ldflags = "-fcf-protection=none"' ;; *) ;; esac) enable-warnings = false [llvm.build-config] CMAKE_VERBOSE_MAKEFILE = "ON" $(if ! tc-is-cross-compiler; then # When cross-compiling, LLVM is compiled twice, once for host and # once for target. Unfortunately, this build configuration applies # to both, which means any flags applicable to one target but not # the other will break. Conditionally disable respecting user # flags when cross-compiling. echo "CMAKE_C_FLAGS_${cm_btype} = \"${CFLAGS}\"" echo "CMAKE_CXX_FLAGS_${cm_btype} = \"${CXXFLAGS}\"" echo "CMAKE_EXE_LINKER_FLAGS_${cm_btype} = \"${LDFLAGS}\"" echo "CMAKE_MODULE_LINKER_FLAGS_${cm_btype} = \"${LDFLAGS}\"" echo "CMAKE_SHARED_LINKER_FLAGS_${cm_btype} = \"${LDFLAGS}\"" echo "CMAKE_STATIC_LINKER_FLAGS_${cm_btype} = \"${ARFLAGS}\"" fi) [build] build-stage = 2 test-stage = 2 build = "${rust_build}" host = ["${rust_host}"] target = [${rust_targets}] cargo = "${rust_stage0_root}/bin/cargo" rustc = "${rust_stage0_root}/bin/rustc" rustfmt = "${rust_stage0_root}/bin/rustfmt" docs = $(toml_usex doc) compiler-docs = false submodules = false python = "${EPYTHON}" locked-deps = true vendor = true extended = true tools = [${tools}] verbose = 2 sanitizers = false profiler = $(toml_usex profiler) cargo-native-static = false [install] prefix = "${EPREFIX}/usr/lib/${PN}/${PV}" sysconfdir = "etc" docdir = "share/doc/rust" bindir = "bin" libdir = "lib" mandir = "share/man" [rust] # https://github.com/rust-lang/rust/issues/54872 codegen-units-std = 1 optimize = true debug = $(toml_usex debug) debug-assertions = $(toml_usex debug) debug-assertions-std = $(toml_usex debug) debuginfo-level = $(usex debug 2 0) debuginfo-level-rustc = $(usex debug 2 0) debuginfo-level-std = $(usex debug 2 0) debuginfo-level-tools = $(usex debug 2 0) debuginfo-level-tests = 0 backtrace = true incremental = false $(if ! tc-is-cross-compiler; then echo "default-linker = \"$(tc-getCC)\"" fi) parallel-compiler = $(toml_usex parallel-compiler) channel = "$(usex nightly nightly stable)" description = "gentoo" rpath = false verbose-tests = true optimize-tests = $(toml_usex !debug) codegen-tests = true dist-src = false remap-debuginfo = true lld = $(usex system-llvm false $(toml_usex wasm)) # only deny warnings if doc+wasm are NOT requested, documenting stage0 wasm std fails without it # https://github.com/rust-lang/rust/issues/74976 # https://github.com/rust-lang/rust/issues/76526 deny-warnings = $(usex wasm $(usex doc false true) true) backtrace-on-ice = true jemalloc = false # See https://github.com/rust-lang/rust/issues/121124 lto = "$(usex lto thin off)" [dist] src-tarball = false compression-formats = ["xz"] compression-profile = "balanced" _EOF_ for v in $(multilib_get_enabled_abi_pairs); do rust_target=$(rust_abi $(get_abi_CHOST ${v##*.})) arch_cflags="$(get_abi_CFLAGS ${v##*.})" export CFLAGS_${rust_target//-/_}="${arch_cflags}" cat <<- _EOF_ >> "${S}"/config.toml [target.${rust_target}] ar = "$(tc-getAR)" cc = "$(tc-getCC)" cxx = "$(tc-getCXX)" linker = "$(tc-getCC)" ranlib = "$(tc-getRANLIB)" llvm-libunwind = "$(usex llvm-libunwind $(usex system-llvm system in-tree) no)" _EOF_ if use system-llvm; then cat <<- _EOF_ >> "${S}"/config.toml llvm-config = "$(get_llvm_prefix "${LLVM_MAX_SLOT}")/bin/llvm-config" _EOF_ fi # by default librustc_target/spec/linux_musl_base.rs sets base.crt_static_default = true; # but we patch it and set to false here as well if use elibc_musl; then cat <<- _EOF_ >> "${S}"/config.toml crt-static = false musl-root = "$($(tc-getCC) -print-sysroot)/usr" _EOF_ fi done if use wasm; then wasm_target="wasm32-unknown-unknown" export CFLAGS_${wasm_target//-/_}="$(filter-flags '-mcpu*' '-march*' '-mtune*'; echo "$CFLAGS")" cat <<- _EOF_ >> "${S}"/config.toml [target.wasm32-unknown-unknown] linker = "$(usex system-llvm lld rust-lld)" # wasm target does not have profiler_builtins https://bugs.gentoo.org/848483 profiler = false _EOF_ fi if [[ -n ${I_KNOW_WHAT_I_AM_DOING_CROSS} ]]; then # whitespace intentionally shifted below # experimental cross support # discussion: https://bugs.gentoo.org/679878 # TODO: c*flags, clang, system-llvm, cargo.eclass target support # it would be much better if we could split out stdlib # complilation to separate ebuild and abuse CATEGORY to # just install to /usr/lib/rustlib/ # extra targets defined as a bash array # spec format: :: # best place would be /etc/portage/env/dev-lang/rust # Example: # RUST_CROSS_TARGETS=( # "AArch64:aarch64-unknown-linux-gnu:aarch64-unknown-linux-gnu" # ) # no extra hand holding is done, no target transformations, all # values are passed as-is with just basic checks, so it's up to user to supply correct values # valid rust targets can be obtained with # rustc --print target-list # matching cross toolchain has to be installed # matching LLVM_TARGET has to be enabled for both rust and llvm (if using system one) # only gcc toolchains installed with crossdev are checked for now. # BUG: we can't pass host flags to cross compiler, so just filter for now # BUG: this should be more fine-grained. filter-flags '-mcpu=*' '-march=*' '-mtune=*' local cross_target_spec for cross_target_spec in "${RUST_CROSS_TARGETS[@]}";do # extracts first element form :: local cross_llvm_target="${cross_target_spec%%:*}" # extracts toolchain triples, : local cross_triples="${cross_target_spec#*:}" # extracts first element after before : separator local cross_rust_target="${cross_triples%%:*}" # extracts last element after : separator local cross_toolchain="${cross_triples##*:}" use llvm_targets_${cross_llvm_target} || die "need llvm_targets_${cross_llvm_target} target enabled" command -v ${cross_toolchain}-gcc > /dev/null 2>&1 || die "need ${cross_toolchain} cross toolchain" cat <<- _EOF_ >> "${S}"/config.toml [target.${cross_rust_target}] ar = "${cross_toolchain}-ar" cc = "${cross_toolchain}-gcc" cxx = "${cross_toolchain}-g++" linker = "${cross_toolchain}-gcc" ranlib = "${cross_toolchain}-ranlib" _EOF_ if use system-llvm; then cat <<- _EOF_ >> "${S}"/config.toml llvm-config = "$(get_llvm_prefix "${LLVM_MAX_SLOT}")/bin/llvm-config" _EOF_ fi if [[ "${cross_toolchain}" == *-musl* ]]; then cat <<- _EOF_ >> "${S}"/config.toml musl-root = "$(${cross_toolchain}-gcc -print-sysroot)/usr" _EOF_ fi # append cross target to "normal" target list # example 'target = ["powerpc64le-unknown-linux-gnu"]' # becomes 'target = ["powerpc64le-unknown-linux-gnu","aarch64-unknown-linux-gnu"]' rust_targets="${rust_targets},\"${cross_rust_target}\"" sed -i "/^target = \[/ s#\[.*\]#\[${rust_targets}\]#" config.toml || die ewarn ewarn "Enabled ${cross_rust_target} rust target" ewarn "Using ${cross_toolchain} cross toolchain" ewarn if ! has_version -b 'sys-devel/binutils[multitarget]' ; then ewarn "'sys-devel/binutils[multitarget]' is not installed" ewarn "'strip' will be unable to strip cross libraries" ewarn "cross targets will be installed with full debug information" ewarn "enable 'multitarget' USE flag for binutils to be able to strip object files" ewarn ewarn "Alternatively llvm-strip can be used, it supports stripping any target" ewarn "define STRIP=\"llvm-strip\" to use it (experimental)" ewarn fi done fi # I_KNOW_WHAT_I_AM_DOING_CROSS einfo "Rust configured with the following flags:" echo echo RUSTFLAGS="\"${RUSTFLAGS}\"" echo RUSTFLAGS_BOOTSTRAP="\"${RUSTFLAGS_BOOTSTRAP}\"" echo RUSTFLAGS_NOT_BOOTSTRAP="\"${RUSTFLAGS_NOT_BOOTSTRAP}\"" echo MAGIC_EXTRA_RUSTFLAGS="\"${MAGIC_EXTRA_RUSTFLAGS}\"" env | grep "CARGO_TARGET_.*_RUSTFLAGS=" env | grep "CFLAGS_.*" echo einfo "config.toml contents:" cat "${S}"/config.toml || die echo } src_compile() { RUST_BACKTRACE=1 "${EPYTHON}" ./x.py build -vvv --config="${S}"/config.toml -j$(makeopts_jobs) || die } src_test() { # https://rustc-dev-guide.rust-lang.org/tests/intro.html # those are basic and codegen tests. local tests=( codegen codegen-units compile-fail incremental mir-opt pretty run-make ) # fails if llvm is not built with ALL targets. # and known to fail with system llvm sometimes. use system-llvm || tests+=( assembly ) # fragile/expensive/less important tests # or tests that require extra builds # TODO: instead of skipping, just make some nonfatal. if [[ ${ERUST_RUN_EXTRA_TESTS:-no} != no ]]; then tests+=( rustdoc rustdoc-js rustdoc-js-std rustdoc-ui run-make-fulldeps ui ui-fulldeps ) fi local i failed=() einfo "rust_src_test: enabled tests ${tests[@]/#/src/test/}" for i in "${tests[@]}"; do local t="src/test/${i}" einfo "rust_src_test: running ${t}" if ! RUST_BACKTRACE=1 "${EPYTHON}" ./x.py test -vv --config="${S}"/config.toml \ -j$(makeopts_jobs) --no-doc --no-fail-fast "${t}" then failed+=( "${t}" ) eerror "rust_src_test: ${t} failed" fi done if [[ ${#failed[@]} -ne 0 ]]; then eerror "rust_src_test: failure summary: ${failed[@]}" die "aborting due to test failures" fi } src_install() { DESTDIR="${D}" "${EPYTHON}" ./x.py install -vv --config="${S}"/config.toml -j$(makeopts_jobs) || die # bug #689562, #689160 rm -v "${ED}/usr/lib/${PN}/${PV}/etc/bash_completion.d/cargo" || die rmdir -v "${ED}/usr/lib/${PN}/${PV}"/etc{/bash_completion.d,} || die newbashcomp src/tools/cargo/src/etc/cargo.bashcomp.sh cargo local symlinks=( cargo rustc rustdoc rust-gdb rust-gdbgui rust-lldb ) use clippy && symlinks+=( clippy-driver cargo-clippy ) use miri && symlinks+=( miri cargo-miri ) use profiler && symlinks+=( rust-demangler ) use rustfmt && symlinks+=( rustfmt cargo-fmt ) use rust-analyzer && symlinks+=( rust-analyzer ) einfo "installing eselect-rust symlinks and paths: ${symlinks[@]}" local i for i in "${symlinks[@]}"; do # we need realpath on /usr/bin/* symlink return version-appended binary path. # so /usr/bin/rustc should point to /usr/lib/rust//bin/rustc- # need to fix eselect-rust to remove this hack. local ver_i="${i}-${PV}" if [[ -f "${ED}/usr/lib/${PN}/${PV}/bin/${i}" ]]; then einfo "Installing ${i} symlink" ln -v "${ED}/usr/lib/${PN}/${PV}/bin/${i}" "${ED}/usr/lib/${PN}/${PV}/bin/${ver_i}" || die else ewarn "${i} symlink requested, but source file not found" ewarn "please report this" fi dosym "../lib/${PN}/${PV}/bin/${ver_i}" "/usr/bin/${ver_i}" done # symlinks to switch components to active rust in eselect dosym "${PV}/lib" "/usr/lib/${PN}/lib-${PV}" dosym "${PV}/libexec" "/usr/lib/${PN}/libexec-${PV}" dosym "${PV}/share/man" "/usr/lib/${PN}/man-${PV}" dosym "rust/${PV}/lib/rustlib" "/usr/lib/rustlib-${PV}" dosym "../../lib/${PN}/${PV}/share/doc/rust" "/usr/share/doc/${P}" newenvd - "50${P}" <<-_EOF_ LDPATH="${EPREFIX}/usr/lib/rust/lib" MANPATH="${EPREFIX}/usr/lib/rust/man" _EOF_ rm -rf "${ED}/usr/lib/${PN}/${PV}"/*.old || die rm -rf "${ED}/usr/lib/${PN}/${PV}/bin"/*.old || die rm -rf "${ED}/usr/lib/${PN}/${PV}/doc"/*.old || die # note: eselect-rust adds EROOT to all paths below cat <<-_EOF_ > "${T}/provider-${P}" /usr/bin/cargo /usr/bin/rustdoc /usr/bin/rust-gdb /usr/bin/rust-gdbgui /usr/bin/rust-lldb /usr/lib/rustlib /usr/lib/rust/lib /usr/lib/rust/libexec /usr/lib/rust/man /usr/share/doc/rust _EOF_ if use clippy; then echo /usr/bin/clippy-driver >> "${T}/provider-${P}" echo /usr/bin/cargo-clippy >> "${T}/provider-${P}" fi if use miri; then echo /usr/bin/miri >> "${T}/provider-${P}" echo /usr/bin/cargo-miri >> "${T}/provider-${P}" fi if use profiler; then echo /usr/bin/rust-demangler >> "${T}/provider-${P}" fi if use rustfmt; then echo /usr/bin/rustfmt >> "${T}/provider-${P}" echo /usr/bin/cargo-fmt >> "${T}/provider-${P}" fi if use rust-analyzer; then echo /usr/bin/rust-analyzer >> "${T}/provider-${P}" fi insinto /etc/env.d/rust doins "${T}/provider-${P}" if use dist; then "${EPYTHON}" ./x.py dist -vv --config="${S}"/config.toml -j$(makeopts_jobs) || die insinto "/usr/lib/${PN}/${PV}/dist" doins -r "${S}/build/dist/." fi } pkg_postinst() { eselect rust update if has_version dev-debug/gdb || has_version dev-debug/lldb; then elog "Rust installs a helper script for calling GDB and LLDB," elog "for your convenience it is installed under /usr/bin/rust-{gdb,lldb}-${PV}." fi if has_version app-editors/emacs; then elog "install app-emacs/rust-mode to get emacs support for rust." fi if has_version app-editors/gvim || has_version app-editors/vim; then elog "install app-vim/rust-vim to get vim support for rust." fi } pkg_postrm() { eselect rust cleanup }