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homebrew-core/Formula/llvm.rb

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class Llvm < Formula
desc "Next-gen compiler infrastructure"
homepage "https://llvm.org/"
# NOTE: `ccls` will need rebuilding on every version bump.
url "https://github.com/llvm/llvm-project/releases/download/llvmorg-15.0.7/llvm-project-15.0.7.src.tar.xz"
sha256 "8b5fcb24b4128cf04df1b0b9410ce8b1a729cb3c544e6da885d234280dedeac6"
# The LLVM Project is under the Apache License v2.0 with LLVM Exceptions
license "Apache-2.0" => { with: "LLVM-exception" }
revision 1
head "https://github.com/llvm/llvm-project.git", branch: "main"
livecheck do
url :stable
regex(/^llvmorg[._-]v?(\d+(?:\.\d+)+)$/i)
end
bottle do
sha256 cellar: :any, arm64_ventura: "a6f590fc4700b0c4ad9bc47e1abfe5c75afb84cfc927d4423563326c622a589c"
sha256 cellar: :any, arm64_monterey: "5a34739a35635f6eabaacbf60e303fd69df42552d33f0ea7c91342253c740d11"
sha256 cellar: :any, arm64_big_sur: "75a1e34702c35fe0fa8364ed64cf22a6a0a17ad08c4d7ef96cab19c839b08f18"
sha256 cellar: :any, ventura: "32b9be5b4e724395cf6110b911a0ba8baec439f9088c09343d3ed9a8802d481d"
sha256 cellar: :any, monterey: "f86bf3f4832260d7010d3a4f57cc8dca44ecf43353787556fe1cd1d97a8b64cf"
sha256 cellar: :any, big_sur: "864c9f90f1d2e2ba53565d5cde32eeac65251316e9f047b25b84b31411a75a02"
sha256 cellar: :any_skip_relocation, x86_64_linux: "303e3cdd27ea04b32002b74a52ca10902381b93d6576fa2488d83c059ee0122c"
end
# Clang cannot find system headers if Xcode CLT is not installed
pour_bottle? only_if: :clt_installed
keg_only :provided_by_macos
# https://llvm.org/docs/GettingStarted.html#requirement
# We intentionally use Make instead of Ninja.
# See: Homebrew/homebrew-core/issues/35513
depends_on "cmake" => :build
depends_on "swig" => :build
depends_on "python@3.11"
depends_on "six"
depends_on "z3"
depends_on "zstd"
uses_from_macos "libedit"
uses_from_macos "libffi", since: :catalina
uses_from_macos "ncurses"
uses_from_macos "zlib"
on_linux do
depends_on "pkg-config" => :build
depends_on "binutils" # needed for gold
depends_on "elfutils" # openmp requires <gelf.h>
end
# Fails at building LLDB
fails_with gcc: "5"
def python3
"python3.11"
end
def install
# The clang bindings need a little help finding our libclang.
inreplace "clang/bindings/python/clang/cindex.py",
/^(\s*library_path\s*=\s*)None$/,
"\\1'#{lib}'"
projects = %w[
clang
clang-tools-extra
lld
lldb
mlir
polly
]
runtimes = %w[
compiler-rt
libcxx
libcxxabi
libunwind
]
if OS.mac?
runtimes << "openmp"
else
projects << "openmp"
end
python_versions = Formula.names
.select { |name| name.start_with? "python@" }
.map { |py| py.delete_prefix("python@") }
site_packages = Language::Python.site_packages(python3).delete_prefix("lib/")
# Apple's libstdc++ is too old to build LLVM
ENV.libcxx if ENV.compiler == :clang
# compiler-rt has some iOS simulator features that require i386 symbols
# I'm assuming the rest of clang needs support too for 32-bit compilation
# to work correctly, but if not, perhaps universal binaries could be
# limited to compiler-rt. llvm makes this somewhat easier because compiler-rt
# can almost be treated as an entirely different build from llvm.
ENV.permit_arch_flags
# we install the lldb Python module into libexec to prevent users from
# accidentally importing it with a non-Homebrew Python or a Homebrew Python
# in a non-default prefix. See https://lldb.llvm.org/resources/caveats.html
args = %W[
-DLLVM_ENABLE_PROJECTS=#{projects.join(";")}
-DLLVM_ENABLE_RUNTIMES=#{runtimes.join(";")}
-DLLVM_POLLY_LINK_INTO_TOOLS=ON
-DLLVM_BUILD_EXTERNAL_COMPILER_RT=ON
-DLLVM_LINK_LLVM_DYLIB=ON
-DLLVM_ENABLE_EH=ON
-DLLVM_ENABLE_FFI=ON
-DLLVM_ENABLE_RTTI=ON
-DLLVM_INCLUDE_DOCS=OFF
-DLLVM_INCLUDE_TESTS=OFF
-DLLVM_INSTALL_UTILS=ON
-DLLVM_ENABLE_Z3_SOLVER=ON
-DLLVM_OPTIMIZED_TABLEGEN=ON
-DLLVM_TARGETS_TO_BUILD=all
-DLLDB_USE_SYSTEM_DEBUGSERVER=ON
-DLLDB_ENABLE_PYTHON=ON
-DLLDB_ENABLE_LUA=OFF
-DLLDB_ENABLE_LZMA=ON
-DLLDB_USE_SYSTEM_SIX=ON
-DLLDB_PYTHON_RELATIVE_PATH=libexec/#{site_packages}
-DLLDB_PYTHON_EXE_RELATIVE_PATH=#{which(python3).relative_path_from(prefix)}
-DLIBOMP_INSTALL_ALIASES=OFF
-DCLANG_PYTHON_BINDINGS_VERSIONS=#{python_versions.join(";")}
-DLLVM_CREATE_XCODE_TOOLCHAIN=OFF
-DCLANG_FORCE_MATCHING_LIBCLANG_SOVERSION=OFF
-DPACKAGE_VENDOR=#{tap.user}
-DBUG_REPORT_URL=#{tap.issues_url}
-DCLANG_VENDOR_UTI=org.#{tap.user.downcase}.clang
]
macos_sdk = MacOS.sdk_path_if_needed
if MacOS.version >= :catalina
args << "-DFFI_INCLUDE_DIR=#{macos_sdk}/usr/include/ffi"
args << "-DFFI_LIBRARY_DIR=#{macos_sdk}/usr/lib"
else
args << "-DFFI_INCLUDE_DIR=#{Formula["libffi"].opt_include}"
args << "-DFFI_LIBRARY_DIR=#{Formula["libffi"].opt_lib}"
end
runtimes_cmake_args = []
builtins_cmake_args = []
if OS.mac?
args << "-DLLVM_BUILD_LLVM_C_DYLIB=ON"
args << "-DLLVM_ENABLE_LIBCXX=ON"
args << "-DLIBCXX_INSTALL_LIBRARY_DIR=#{lib}/c++"
args << "-DLIBCXXABI_INSTALL_LIBRARY_DIR=#{lib}/c++"
args << "-DDEFAULT_SYSROOT=#{macos_sdk}" if macos_sdk
runtimes_cmake_args << "-DCMAKE_INSTALL_RPATH=#{loader_path}"
# Prevent CMake from defaulting to `lld` when it's found next to `clang`.
# This can be removed after CMake 3.25. See:
# https://gitlab.kitware.com/cmake/cmake/-/merge_requests/7671
args << "-DLLVM_USE_LINKER=ld"
[args, runtimes_cmake_args, builtins_cmake_args].each do |arg_array|
arg_array << "-DCMAKE_LINKER=ld"
end
# Disable builds for OSes not supported by the CLT SDK.
clt_sdk_support_flags = %w[I WATCH TV].map { |os| "-DCOMPILER_RT_ENABLE_#{os}OS=OFF" }
builtins_cmake_args += clt_sdk_support_flags
else
# Disable `libxml2` which isn't very useful.
args << "-DLLVM_ENABLE_LIBXML2=OFF"
args << "-DLLVM_ENABLE_LIBCXX=OFF"
args << "-DCLANG_DEFAULT_CXX_STDLIB=libstdc++"
# Enable llvm gold plugin for LTO
args << "-DLLVM_BINUTILS_INCDIR=#{Formula["binutils"].opt_include}"
# Parts of Polly fail to correctly build with PIC when being used for DSOs.
args << "-DCMAKE_POSITION_INDEPENDENT_CODE=ON"
runtimes_cmake_args += %w[
-DLLVM_ENABLE_PER_TARGET_RUNTIME_DIR=OFF
-DCMAKE_POSITION_INDEPENDENT_CODE=ON
-DLIBCXX_ENABLE_STATIC_ABI_LIBRARY=ON
-DLIBCXX_STATICALLY_LINK_ABI_IN_SHARED_LIBRARY=OFF
-DLIBCXX_STATICALLY_LINK_ABI_IN_STATIC_LIBRARY=ON
-DLIBCXX_USE_COMPILER_RT=ON
-DLIBCXX_HAS_ATOMIC_LIB=OFF
-DLIBCXXABI_ENABLE_STATIC_UNWINDER=ON
-DLIBCXXABI_STATICALLY_LINK_UNWINDER_IN_SHARED_LIBRARY=OFF
-DLIBCXXABI_STATICALLY_LINK_UNWINDER_IN_STATIC_LIBRARY=ON
-DLIBCXXABI_USE_COMPILER_RT=ON
-DLIBCXXABI_USE_LLVM_UNWINDER=ON
-DLIBUNWIND_USE_COMPILER_RT=ON
-DCOMPILER_RT_USE_BUILTINS_LIBRARY=ON
-DCOMPILER_RT_USE_LLVM_UNWINDER=ON
-DSANITIZER_CXX_ABI=libc++
-DSANITIZER_TEST_CXX=libc++
]
# Prevent compiler-rt from building i386 targets, as this is not portable.
builtins_cmake_args << "-DCOMPILER_RT_DEFAULT_TARGET_ONLY=ON"
end
# Skip the PGO build on HEAD installs or non-bottle source builds
# Catalina and earlier requires too many hacks to build with PGO.
# FIXME: The Linux build appears to have a parallelisation issue,
# so avoid a painfully slow serial build until that's resolved.
pgo_build = build.stable? && build.bottle? && (MacOS.version > :catalina)
lto_build = pgo_build && OS.mac?
if ENV.cflags.present?
args << "-DCMAKE_C_FLAGS=#{ENV.cflags}" unless pgo_build
runtimes_cmake_args << "-DCMAKE_C_FLAGS=#{ENV.cflags}"
builtins_cmake_args << "-DCMAKE_C_FLAGS=#{ENV.cflags}"
end
if ENV.cxxflags.present?
args << "-DCMAKE_CXX_FLAGS=#{ENV.cxxflags}" unless pgo_build
runtimes_cmake_args << "-DCMAKE_CXX_FLAGS=#{ENV.cxxflags}"
builtins_cmake_args << "-DCMAKE_CXX_FLAGS=#{ENV.cxxflags}"
end
args << "-DRUNTIMES_CMAKE_ARGS=#{runtimes_cmake_args.join(";")}" if runtimes_cmake_args.present?
args << "-DBUILTINS_CMAKE_ARGS=#{builtins_cmake_args.join(";")}" if builtins_cmake_args.present?
llvmpath = buildpath/"llvm"
if pgo_build
# We build LLVM a few times first for optimisations. See
# https://github.com/Homebrew/homebrew-core/issues/77975
# PGO build adapted from:
# https://llvm.org/docs/HowToBuildWithPGO.html#building-clang-with-pgo
# https://github.com/llvm/llvm-project/blob/33ba8bd2/llvm/utils/collect_and_build_with_pgo.py
# https://github.com/facebookincubator/BOLT/blob/01f471e7/docs/OptimizingClang.md
# We build the basic parts of a toolchain to profile.
# The extra targets on macOS are part of a default Compiler-RT build.
extra_args = [
"-DLLVM_TARGETS_TO_BUILD=Native#{";AArch64;ARM;X86" if OS.mac?}",
"-DLLVM_ENABLE_PROJECTS=clang;lld",
"-DLLVM_ENABLE_RUNTIMES=compiler-rt",
]
# Our stage1 compiler includes the minimum necessary to bootstrap.
# `llvm-profdata` is needed for profile data pre-processing, and
# `compiler-rt` to consumer profile data.
stage1_targets = ["clang", "llvm-profdata", "compiler-rt"]
stage1_targets += if OS.mac?
extra_args << "-DLLVM_ENABLE_LIBCXX=ON"
# Prevent CMake from defaulting to `lld` when it's found next to `clang`.
# This can be removed after CMake 3.25. See:
# https://gitlab.kitware.com/cmake/cmake/-/merge_requests/7671
extra_args << "-DLLVM_USE_LINKER=ld"
extra_args << "-DCMAKE_LINKER=ld"
extra_args += clt_sdk_support_flags
args << "-DLLVM_ENABLE_LTO=Thin" if lto_build
# LTO creates object files not recognised by Apple libtool.
args << "-DCMAKE_LIBTOOL=#{llvmpath}/stage1/bin/llvm-libtool-darwin"
# These are needed to enable LTO.
["llvm-libtool-darwin", "LTO"]
else
# Make sure CMake doesn't try to pass C++-only flags to C compiler.
extra_args << "-DCMAKE_C_COMPILER=#{ENV.cc}"
extra_args << "-DCMAKE_CXX_COMPILER=#{ENV.cxx}"
# We use this as the linker on Linux to control RPATH.
["lld"]
end
cflags = ENV.cflags&.split || []
cxxflags = ENV.cxxflags&.split || []
extra_args << "-DCMAKE_C_FLAGS=#{cflags.join(" ")}" unless cflags.empty?
extra_args << "-DCMAKE_CXX_FLAGS=#{cxxflags.join(" ")}" unless cxxflags.empty?
# First, build a stage1 compiler. It might be possible to skip this step on macOS
# and use system Clang instead, but this stage does not take too long, and we want
# to avoid incompatibilities from generating profile data with a newer Clang than
# the one we consume the data with.
mkdir llvmpath/"stage1" do
system "cmake", "-G", "Unix Makefiles", "..", *extra_args, *std_cmake_args
system "cmake", "--build", ".", "--target", *stage1_targets
end
# Barring the stage where we generate the profile data, there is no benefit to
# rebuilding these.
extra_args << "-DCLANG_TABLEGEN=#{llvmpath}/stage1/bin/clang-tblgen"
extra_args << "-DLLVM_TABLEGEN=#{llvmpath}/stage1/bin/llvm-tblgen"
if OS.linux?
# Make sure brewed glibc will be used if it is installed.
linux_library_paths = [
Formula["glibc"].opt_lib,
HOMEBREW_PREFIX/"lib",
]
linux_linker_flags = linux_library_paths.map { |path| "-L#{path} -Wl,-rpath,#{path}" }
# Add opt_libs for dependencies to RPATH.
linux_linker_flags += deps.map(&:to_formula).map { |dep| "-Wl,-rpath,#{dep.opt_lib}" }
[args, extra_args].each do |arg_array|
# Add the linker paths to the arguments passed to the temporary compilers and installed toolchain.
arg_array << "-DCMAKE_EXE_LINKER_FLAGS=#{linux_linker_flags.join(" ")}"
arg_array << "-DCMAKE_MODULE_LINKER_FLAGS=#{linux_linker_flags.join(" ")}"
arg_array << "-DCMAKE_SHARED_LINKER_FLAGS=#{linux_linker_flags.join(" ")}"
# Use stage1 lld instead of ld shim so that we can control RPATH.
arg_array << "-DLLVM_USE_LINKER=lld"
end
# We also need to make sure we can find headers for other formulae on Linux.
linux_include_paths = [
HOMEBREW_PREFIX/"include",
]
linux_include_paths.each { |path| cxxflags << "-isystem#{path}" }
# Unset CMAKE_C_COMPILER and CMAKE_CXX_COMPILER so we can set them below.
extra_args.reject! { |s| s[/CMAKE_C(XX)?_COMPILER/] }
extra_args.reject! { |s| s["CMAKE_CXX_FLAGS"] }
extra_args << "-DCMAKE_CXX_FLAGS=#{cxxflags.join(" ")}"
end
# Next, build an instrumented stage2 compiler
mkdir llvmpath/"stage2" do
# LLVM Profile runs out of static counters
# https://reviews.llvm.org/D92669, https://reviews.llvm.org/D93281
# Without this, the build produces many warnings of the form
# LLVM Profile Warning: Unable to track new values: Running out of static counters.
instrumented_cflags = cflags + ["-Xclang -mllvm -Xclang -vp-counters-per-site=6"]
instrumented_cxxflags = cxxflags + ["-Xclang -mllvm -Xclang -vp-counters-per-site=6"]
instrumented_extra_args = extra_args.reject { |s| s[/CMAKE_C(XX)?_FLAGS/] }
system "cmake", "-G", "Unix Makefiles", "..",
"-DCMAKE_C_COMPILER=#{llvmpath}/stage1/bin/clang",
"-DCMAKE_CXX_COMPILER=#{llvmpath}/stage1/bin/clang++",
"-DLLVM_BUILD_INSTRUMENTED=IR",
"-DLLVM_BUILD_RUNTIME=NO",
"-DCMAKE_C_FLAGS=#{instrumented_cflags.join(" ")}",
"-DCMAKE_CXX_FLAGS=#{instrumented_cxxflags.join(" ")}",
*instrumented_extra_args, *std_cmake_args
system "cmake", "--build", ".", "--target", "clang", "lld", "runtimes"
# We run some `check-*` targets to increase profiling
# coverage. These do not need to succeed.
begin
system "cmake", "--build", ".", "--target", "check-clang", "check-llvm", "--", "--keep-going"
rescue BuildError
nil
end
end
# Then, generate the profile data
mkdir llvmpath/"stage2-profdata" do
system "cmake", "-G", "Unix Makefiles", "..",
"-DCMAKE_C_COMPILER=#{llvmpath}/stage2/bin/clang",
"-DCMAKE_CXX_COMPILER=#{llvmpath}/stage2/bin/clang++",
"-DLLVM_BUILD_RUNTIMES=OFF",
*extra_args.reject { |s| s["TABLEGEN"] },
*std_cmake_args
# This build is for profiling, so it is safe to ignore errors.
begin
system "cmake", "--build", ".", "--", "--keep-going"
rescue BuildError
nil
end
end
# Merge the generated profile data
profpath = llvmpath/"stage2/profiles"
pgo_profile = profpath/"pgo_profile.prof"
system llvmpath/"stage1/bin/llvm-profdata", "merge", "-output=#{pgo_profile}", *profpath.glob("*.profraw")
# Make sure to build with our profiled compiler and use the profile data
args << "-DCMAKE_C_COMPILER=#{llvmpath}/stage1/bin/clang"
args << "-DCMAKE_CXX_COMPILER=#{llvmpath}/stage1/bin/clang++"
args << "-DLLVM_PROFDATA_FILE=#{pgo_profile}"
# `llvm-tblgen` is an install target, so let's build that.
args << "-DCLANG_TABLEGEN=#{llvmpath}/stage1/bin/clang-tblgen"
# Silence some warnings
cflags << "-Wno-backend-plugin"
cxxflags << "-Wno-backend-plugin"
args << "-DCMAKE_C_FLAGS=#{cflags.join(" ")}"
args << "-DCMAKE_CXX_FLAGS=#{cxxflags.join(" ")}"
end
# Now, we can build.
mkdir llvmpath/"build" do
system "cmake", "-G", "Unix Makefiles", "..", *(std_cmake_args + args)
# Linux fails with:
# No rule to make target '#{buildpath}/llvm/build/lib/libunwind.so'
ENV.deparallelize if OS.linux?
system "cmake", "--build", "."
system "cmake", "--build", ".", "--target", "install"
end
if OS.mac?
# Get the version from `llvm-config` to get the correct HEAD version too.
llvm_version = Version.new(Utils.safe_popen_read(bin/"llvm-config", "--version").strip)
soversion = llvm_version.major.to_s
soversion << "git" if build.head?
# Install versioned symlink, or else `llvm-config` doesn't work properly
lib.install_symlink "libLLVM.dylib" => "libLLVM-#{soversion}.dylib"
# Install Xcode toolchain. See:
# https://github.com/llvm/llvm-project/blob/main/llvm/tools/xcode-toolchain/CMakeLists.txt
# We do this manually in order to avoid:
# 1. installing duplicates of files in the prefix
# 2. requiring an existing Xcode installation
xctoolchain = prefix/"Toolchains/LLVM#{llvm_version}.xctoolchain"
system "/usr/libexec/PlistBuddy", "-c", "Add:CFBundleIdentifier string org.llvm.#{llvm_version}", "Info.plist"
system "/usr/libexec/PlistBuddy", "-c", "Add:CompatibilityVersion integer 2", "Info.plist"
xctoolchain.install "Info.plist"
(xctoolchain/"usr").install_symlink [bin, include, lib, libexec, share]
end
# Install LLVM Python bindings
# Clang Python bindings are installed by CMake
(lib/site_packages).install llvmpath/"bindings/python/llvm"
# Create symlinks so that the Python bindings can be used with alternative Python versions
python_versions.each do |py_ver|
next if py_ver == Language::Python.major_minor_version(python3).to_s
(lib/"python#{py_ver}/site-packages").install_symlink (lib/site_packages).children
end
# Install Vim plugins
%w[ftdetect ftplugin indent syntax].each do |dir|
(share/"vim/vimfiles"/dir).install Pathname.glob("*/utils/vim/#{dir}/*.vim")
end
# Install Emacs modes
elisp.install llvmpath.glob("utils/emacs/*.el") + share.glob("clang/*.el")
return unless lto_build
# Convert LTO-generated bitcode in our static archives to MachO. Adapted from Fedora:
# https://src.fedoraproject.org/rpms/redhat-rpm-config/blob/rawhide/f/brp-llvm-compile-lto-elf
lib.glob("*.a").each do |static_archive|
mktemp do
system bin/"llvm-ar", "x", static_archive
rebuilt_files = []
Pathname.glob("*.o").each do |bc_file|
file_type = Utils.safe_popen_read("file", bc_file)
next unless file_type.match?("LLVM bitcode")
rebuilt_files << bc_file
system bin/"clang", "-fno-lto", "-Wno-unused-command-line-argument",
"-x", "ir", bc_file, "-c", "-o", bc_file
end
system bin/"llvm-ar", "r", static_archive, *rebuilt_files if rebuilt_files.present?
end
end
end
def caveats
on_macos do
<<~EOS
To use the bundled libc++ please add the following LDFLAGS:
LDFLAGS="-L#{opt_lib}/c++ -Wl,-rpath,#{opt_lib}/c++"
EOS
end
end
test do
llvm_version = Version.new(Utils.safe_popen_read(bin/"llvm-config", "--version").strip)
soversion = llvm_version.major.to_s
soversion << "git" if head?
assert_equal version, llvm_version unless head?
assert_equal prefix.to_s, shell_output("#{bin}/llvm-config --prefix").chomp
assert_equal "-lLLVM-#{soversion}", shell_output("#{bin}/llvm-config --libs").chomp
assert_equal (lib/shared_library("libLLVM-#{soversion}")).to_s,
shell_output("#{bin}/llvm-config --libfiles").chomp
(testpath/"omptest.c").write <<~EOS
#include <stdlib.h>
#include <stdio.h>
#include <omp.h>
int main() {
#pragma omp parallel num_threads(4)
{
printf("Hello from thread %d, nthreads %d\\n", omp_get_thread_num(), omp_get_num_threads());
}
return EXIT_SUCCESS;
}
EOS
system "#{bin}/clang", "-L#{lib}", "-fopenmp", "-nobuiltininc",
"-I#{lib}/clang/#{llvm_version.major_minor_patch}/include",
"omptest.c", "-o", "omptest"
testresult = shell_output("./omptest")
sorted_testresult = testresult.split("\n").sort.join("\n")
expected_result = <<~EOS
Hello from thread 0, nthreads 4
Hello from thread 1, nthreads 4
Hello from thread 2, nthreads 4
Hello from thread 3, nthreads 4
EOS
assert_equal expected_result.strip, sorted_testresult.strip
(testpath/"test.c").write <<~EOS
#include <stdio.h>
int main()
{
printf("Hello World!\\n");
return 0;
}
EOS
(testpath/"test.cpp").write <<~EOS
#include <iostream>
int main()
{
std::cout << "Hello World!" << std::endl;
return 0;
}
EOS
# Testing default toolchain and SDK location.
system "#{bin}/clang++", "-v",
"-std=c++11", "test.cpp", "-o", "test++"
assert_includes MachO::Tools.dylibs("test++"), "/usr/lib/libc++.1.dylib" if OS.mac?
assert_equal "Hello World!", shell_output("./test++").chomp
system "#{bin}/clang", "-v", "test.c", "-o", "test"
assert_equal "Hello World!", shell_output("./test").chomp
# Testing Command Line Tools
if MacOS::CLT.installed?
toolchain_path = "/Library/Developer/CommandLineTools"
system "#{bin}/clang++", "-v",
"-isysroot", MacOS::CLT.sdk_path,
"-isystem", "#{toolchain_path}/usr/include/c++/v1",
"-isystem", "#{toolchain_path}/usr/include",
"-isystem", "#{MacOS::CLT.sdk_path}/usr/include",
"-std=c++11", "test.cpp", "-o", "testCLT++"
assert_includes MachO::Tools.dylibs("testCLT++"), "/usr/lib/libc++.1.dylib"
assert_equal "Hello World!", shell_output("./testCLT++").chomp
system "#{bin}/clang", "-v", "test.c", "-o", "testCLT"
assert_equal "Hello World!", shell_output("./testCLT").chomp
end
# Testing Xcode
if MacOS::Xcode.installed?
system "#{bin}/clang++", "-v",
"-isysroot", MacOS::Xcode.sdk_path,
"-isystem", "#{MacOS::Xcode.toolchain_path}/usr/include/c++/v1",
"-isystem", "#{MacOS::Xcode.toolchain_path}/usr/include",
"-isystem", "#{MacOS::Xcode.sdk_path}/usr/include",
"-std=c++11", "test.cpp", "-o", "testXC++"
assert_includes MachO::Tools.dylibs("testXC++"), "/usr/lib/libc++.1.dylib"
assert_equal "Hello World!", shell_output("./testXC++").chomp
system "#{bin}/clang", "-v",
"-isysroot", MacOS.sdk_path,
"test.c", "-o", "testXC"
assert_equal "Hello World!", shell_output("./testXC").chomp
end
# link against installed libc++
# related to https://github.com/Homebrew/legacy-homebrew/issues/47149
cxx_libdir = OS.mac? ? opt_lib/"c++" : opt_lib
system "#{bin}/clang++", "-v",
"-isystem", "#{opt_include}/c++/v1",
"-std=c++11", "-stdlib=libc++", "test.cpp", "-o", "testlibc++",
"-rtlib=compiler-rt", "-L#{cxx_libdir}", "-Wl,-rpath,#{cxx_libdir}"
assert_includes (testpath/"testlibc++").dynamically_linked_libraries,
(cxx_libdir/shared_library("libc++", "1")).to_s
(testpath/"testlibc++").dynamically_linked_libraries.each do |lib|
refute_match(/libstdc\+\+/, lib)
refute_match(/libgcc/, lib)
refute_match(/libatomic/, lib)
end
assert_equal "Hello World!", shell_output("./testlibc++").chomp
if OS.linux?
# Link installed libc++, libc++abi, and libunwind archives both into
# a position independent executable (PIE), as well as into a fully
# position independent (PIC) DSO for things like plugins that export
# a C-only API but internally use C++.
#
# FIXME: It'd be nice to be able to use flags like `-static-libstdc++`
# together with `-stdlib=libc++` (the latter one we need anyways for
# headers) to achieve this but those flags don't set up the correct
# search paths or handle all of the libraries needed by `libc++` when
# linking statically.
system "#{bin}/clang++", "-v", "-o", "test_pie_runtimes",
"-pie", "-fPIC", "test.cpp", "-L#{opt_lib}",
"-stdlib=libc++", "-rtlib=compiler-rt",
"-static-libstdc++", "-lpthread", "-ldl"
assert_equal "Hello World!", shell_output("./test_pie_runtimes").chomp
(testpath/"test_pie_runtimes").dynamically_linked_libraries.each do |lib|
refute_match(/lib(std)?c\+\+/, lib)
refute_match(/libgcc/, lib)
refute_match(/libatomic/, lib)
refute_match(/libunwind/, lib)
end
(testpath/"test_plugin.cpp").write <<~EOS
#include <iostream>
__attribute__((visibility("default")))
extern "C" void run_plugin() {
std::cout << "Hello Plugin World!" << std::endl;
}
EOS
(testpath/"test_plugin_main.c").write <<~EOS
extern void run_plugin();
int main() {
run_plugin();
}
EOS
system "#{bin}/clang++", "-v", "-o", "test_plugin.so",
"-shared", "-fPIC", "test_plugin.cpp", "-L#{opt_lib}",
"-stdlib=libc++", "-rtlib=compiler-rt",
"-static-libstdc++", "-lpthread", "-ldl"
system "#{bin}/clang", "-v",
"test_plugin_main.c", "-o", "test_plugin_libc++",
"test_plugin.so", "-Wl,-rpath=#{testpath}", "-rtlib=compiler-rt"
assert_equal "Hello Plugin World!", shell_output("./test_plugin_libc++").chomp
(testpath/"test_plugin.so").dynamically_linked_libraries.each do |lib|
refute_match(/lib(std)?c\+\+/, lib)
refute_match(/libgcc/, lib)
refute_match(/libatomic/, lib)
refute_match(/libunwind/, lib)
end
end
# Testing mlir
(testpath/"test.mlir").write <<~EOS
func.func @main() {return}
// -----
// expected-note @+1 {{see existing symbol definition here}}
func.func @foo() { return }
// ----
// expected-error @+1 {{redefinition of symbol named 'foo'}}
func.func @foo() { return }
EOS
system "#{bin}/mlir-opt", "--split-input-file", "--verify-diagnostics", "test.mlir"
(testpath/"scanbuildtest.cpp").write <<~EOS
#include <iostream>
int main() {
int *i = new int;
*i = 1;
delete i;
std::cout << *i << std::endl;
return 0;
}
EOS
assert_includes shell_output("#{bin}/scan-build make scanbuildtest 2>&1"),
"warning: Use of memory after it is freed"
(testpath/"clangformattest.c").write <<~EOS
int main() {
printf("Hello world!"); }
EOS
assert_equal "int main() { printf(\"Hello world!\"); }\n",
shell_output("#{bin}/clang-format -style=google clangformattest.c")
# Test static analyzer
(testpath/"unreachable.c").write <<~EOS
unsigned int func(unsigned int a) {
unsigned int *z = 0;
if ((a & 1) && ((a & 1) ^1))
return *z; // unreachable
return 0;
}
EOS
system bin/"clang", "--analyze", "-Xanalyzer", "-analyzer-constraints=z3", "unreachable.c"
# This will fail if the clang bindings cannot find `libclang`.
with_env(PYTHONPATH: prefix/Language::Python.site_packages(python3)) do
system python3, "-c", <<~EOS
from clang import cindex
cindex.Config().get_cindex_library()
EOS
end
# Check that lldb can use Python
lldb_script_interpreter_info = JSON.parse(shell_output("#{bin}/lldb --print-script-interpreter-info"))
assert_equal "python", lldb_script_interpreter_info["language"]
# Ensure LLVM did not regress output of `llvm-config --system-libs` which for a time
# was known to output incorrect linker flags; e.g., `-llibxml2.tbd` instead of `-lxml2`.
# On the other hand, note that a fully qualified path to `dylib` or `tbd` is OK, e.g.,
# `/usr/local/lib/libxml2.tbd` or `/usr/local/lib/libxml2.dylib`.
shell_output("#{bin}/llvm-config --system-libs").chomp.strip.split.each do |lib|
if lib.start_with?("-l")
assert !lib.end_with?(".tbd"), "expected abs path when lib reported as .tbd"
assert !lib.end_with?(".dylib"), "expected abs path when lib reported as .dylib"
else
p = Pathname.new(lib)
if p.extname == ".tbd" || p.extname == ".dylib"
assert p.absolute?, "expected abs path when lib reported as .tbd or .dylib"
end
end
end
end
end
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