const std = @import("std"); const builtin = std.builtin; const tests = @import("test/tests.zig"); const BufMap = std.BufMap; const mem = std.mem; const ArrayList = std.ArrayList; const io = std.io; const fs = std.fs; const InstallDirectoryOptions = std.Build.InstallDirectoryOptions; const assert = std.debug.assert; const zig_version = std.builtin.Version{ .major = 0, .minor = 11, .patch = 0 }; const stack_size = 32 * 1024 * 1024; pub fn build(b: *std.Build) !void { const release = b.option(bool, "release", "Build in release mode") orelse false; const only_c = b.option(bool, "only-c", "Translate the Zig compiler to C code, with only the C backend enabled") orelse false; const target = t: { var default_target: std.zig.CrossTarget = .{}; if (only_c) { default_target.ofmt = .c; } break :t b.standardTargetOptions(.{ .default_target = default_target }); }; const optimize: std.builtin.OptimizeMode = if (release) switch (target.getCpuArch()) { .wasm32 => .ReleaseSmall, else => .ReleaseFast, } else .Debug; const single_threaded = b.option(bool, "single-threaded", "Build artifacts that run in single threaded mode"); const use_zig_libcxx = b.option(bool, "use-zig-libcxx", "If libc++ is needed, use zig's bundled version, don't try to integrate with the system") orelse false; const test_step = b.step("test", "Run all the tests"); const docgen_exe = b.addExecutable(.{ .name = "docgen", .root_source_file = .{ .path = "doc/docgen.zig" }, .target = .{}, .optimize = .Debug, }); docgen_exe.single_threaded = single_threaded; const langref_out_path = try b.cache_root.join(b.allocator, &.{"langref.html"}); const docgen_cmd = docgen_exe.run(); docgen_cmd.addArgs(&[_][]const u8{ "--zig", b.zig_exe, "doc" ++ fs.path.sep_str ++ "langref.html.in", langref_out_path, }); docgen_cmd.step.dependOn(&docgen_exe.step); const docs_step = b.step("docs", "Build documentation"); docs_step.dependOn(&docgen_cmd.step); const test_cases = b.addTest(.{ .root_source_file = .{ .path = "src/test.zig" }, .optimize = optimize, }); test_cases.main_pkg_path = "."; test_cases.stack_size = stack_size; test_cases.single_threaded = single_threaded; const fmt_build_zig = b.addFmt(&[_][]const u8{"build.zig"}); const skip_debug = b.option(bool, "skip-debug", "Main test suite skips debug builds") orelse false; const skip_release = b.option(bool, "skip-release", "Main test suite skips release builds") orelse false; const skip_release_small = b.option(bool, "skip-release-small", "Main test suite skips release-small builds") orelse skip_release; const skip_release_fast = b.option(bool, "skip-release-fast", "Main test suite skips release-fast builds") orelse skip_release; const skip_release_safe = b.option(bool, "skip-release-safe", "Main test suite skips release-safe builds") orelse skip_release; const skip_non_native = b.option(bool, "skip-non-native", "Main test suite skips non-native builds") orelse false; const skip_libc = b.option(bool, "skip-libc", "Main test suite skips tests that link libc") orelse false; const skip_single_threaded = b.option(bool, "skip-single-threaded", "Main test suite skips tests that are single-threaded") orelse false; const skip_stage1 = b.option(bool, "skip-stage1", "Main test suite skips stage1 compile error tests") orelse false; const skip_run_translated_c = b.option(bool, "skip-run-translated-c", "Main test suite skips run-translated-c tests") orelse false; const skip_stage2_tests = b.option(bool, "skip-stage2-tests", "Main test suite skips self-hosted compiler tests") orelse false; const deprecated_skip_install_lib_files = b.option(bool, "skip-install-lib-files", "deprecated. see no-lib") orelse false; if (deprecated_skip_install_lib_files) { std.log.warn("-Dskip-install-lib-files is deprecated in favor of -Dno-lib", .{}); } const skip_install_lib_files = b.option(bool, "no-lib", "skip copying of lib/ files to installation prefix. Useful for development") orelse deprecated_skip_install_lib_files; const only_install_lib_files = b.option(bool, "lib-files-only", "Only install library files") orelse false; const static_llvm = b.option(bool, "static-llvm", "Disable integration with system-installed LLVM, Clang, LLD, and libc++") orelse false; const enable_llvm = b.option(bool, "enable-llvm", "Build self-hosted compiler with LLVM backend enabled") orelse static_llvm; const llvm_has_m68k = b.option( bool, "llvm-has-m68k", "Whether LLVM has the experimental target m68k enabled", ) orelse false; const llvm_has_csky = b.option( bool, "llvm-has-csky", "Whether LLVM has the experimental target csky enabled", ) orelse false; const llvm_has_arc = b.option( bool, "llvm-has-arc", "Whether LLVM has the experimental target arc enabled", ) orelse false; const enable_macos_sdk = b.option(bool, "enable-macos-sdk", "Run tests requiring presence of macOS SDK and frameworks") orelse false; const enable_symlinks_windows = b.option(bool, "enable-symlinks-windows", "Run tests requiring presence of symlinks on Windows") orelse false; const config_h_path_option = b.option([]const u8, "config_h", "Path to the generated config.h"); if (!skip_install_lib_files) { b.installDirectory(InstallDirectoryOptions{ .source_dir = "lib", .install_dir = .lib, .install_subdir = "zig", .exclude_extensions = &[_][]const u8{ // exclude files from lib/std/compress/testdata ".gz", ".z.0", ".z.9", ".zstd.3", ".zstd.19", "rfc1951.txt", "rfc1952.txt", "rfc8478.txt", // exclude files from lib/std/compress/deflate/testdata ".expect", ".expect-noinput", ".golden", ".input", "compress-e.txt", "compress-gettysburg.txt", "compress-pi.txt", "rfc1951.txt", // exclude files from lib/std/compress/lzma/testdata ".lzma", // exclude files from lib/std/compress/xz/testdata ".xz", // exclude files from lib/std/tz/ ".tzif", // others "README.md", }, .blank_extensions = &[_][]const u8{ "test.zig", }, }); } if (only_install_lib_files) return; const tracy = b.option([]const u8, "tracy", "Enable Tracy integration. Supply path to Tracy source"); const tracy_callstack = b.option(bool, "tracy-callstack", "Include callstack information with Tracy data. Does nothing if -Dtracy is not provided") orelse (tracy != null); const tracy_allocation = b.option(bool, "tracy-allocation", "Include allocation information with Tracy data. Does nothing if -Dtracy is not provided") orelse (tracy != null); const force_gpa = b.option(bool, "force-gpa", "Force the compiler to use GeneralPurposeAllocator") orelse false; const link_libc = b.option(bool, "force-link-libc", "Force self-hosted compiler to link libc") orelse (enable_llvm or only_c); const sanitize_thread = b.option(bool, "sanitize-thread", "Enable thread-sanitization") orelse false; const strip = b.option(bool, "strip", "Omit debug information"); const value_tracing = b.option(bool, "value-tracing", "Enable extra state tracking to help troubleshoot bugs in the compiler (using the std.debug.Trace API)") orelse false; const mem_leak_frames: u32 = b.option(u32, "mem-leak-frames", "How many stack frames to print when a memory leak occurs. Tests get 2x this amount.") orelse blk: { if (strip == true) break :blk @as(u32, 0); if (optimize != .Debug) break :blk 0; break :blk 4; }; const exe = addCompilerStep(b, optimize, target); exe.strip = strip; exe.sanitize_thread = sanitize_thread; exe.build_id = b.option(bool, "build-id", "Include a build id note") orelse false; exe.install(); const compile_step = b.step("compile", "Build the self-hosted compiler"); compile_step.dependOn(&exe.step); if (!skip_stage2_tests) { test_step.dependOn(&exe.step); } b.default_step.dependOn(&exe.step); exe.single_threaded = single_threaded; if (target.isWindows() and target.getAbi() == .gnu) { // LTO is currently broken on mingw, this can be removed when it's fixed. exe.want_lto = false; test_cases.want_lto = false; } const exe_options = b.addOptions(); exe.addOptions("build_options", exe_options); exe_options.addOption(u32, "mem_leak_frames", mem_leak_frames); exe_options.addOption(bool, "skip_non_native", skip_non_native); exe_options.addOption(bool, "have_llvm", enable_llvm); exe_options.addOption(bool, "llvm_has_m68k", llvm_has_m68k); exe_options.addOption(bool, "llvm_has_csky", llvm_has_csky); exe_options.addOption(bool, "llvm_has_arc", llvm_has_arc); exe_options.addOption(bool, "force_gpa", force_gpa); exe_options.addOption(bool, "only_c", only_c); exe_options.addOption(bool, "omit_pkg_fetching_code", false); if (link_libc) { exe.linkLibC(); test_cases.linkLibC(); } const is_debug = optimize == .Debug; const enable_logging = b.option(bool, "log", "Enable debug logging with --debug-log") orelse is_debug; const enable_link_snapshots = b.option(bool, "link-snapshot", "Whether to enable linker state snapshots") orelse false; const opt_version_string = b.option([]const u8, "version-string", "Override Zig version string. Default is to find out with git."); const version_slice = if (opt_version_string) |version| version else v: { if (!std.process.can_spawn) { std.debug.print("error: version info cannot be retrieved from git. Zig version must be provided using -Dversion-string\n", .{}); std.process.exit(1); } const version_string = b.fmt("{d}.{d}.{d}", .{ zig_version.major, zig_version.minor, zig_version.patch }); var code: u8 = undefined; const git_describe_untrimmed = b.execAllowFail(&[_][]const u8{ "git", "-C", b.build_root.path orelse ".", "describe", "--match", "*.*.*", "--tags", }, &code, .Ignore) catch { break :v version_string; }; const git_describe = mem.trim(u8, git_describe_untrimmed, " \n\r"); switch (mem.count(u8, git_describe, "-")) { 0 => { // Tagged release version (e.g. 0.10.0). if (!mem.eql(u8, git_describe, version_string)) { std.debug.print("Zig version '{s}' does not match Git tag '{s}'\n", .{ version_string, git_describe }); std.process.exit(1); } break :v version_string; }, 2 => { // Untagged development build (e.g. 0.10.0-dev.2025+ecf0050a9). var it = mem.split(u8, git_describe, "-"); const tagged_ancestor = it.first(); const commit_height = it.next().?; const commit_id = it.next().?; const ancestor_ver = try std.builtin.Version.parse(tagged_ancestor); if (zig_version.order(ancestor_ver) != .gt) { std.debug.print("Zig version '{}' must be greater than tagged ancestor '{}'\n", .{ zig_version, ancestor_ver }); std.process.exit(1); } // Check that the commit hash is prefixed with a 'g' (a Git convention). if (commit_id.len < 1 or commit_id[0] != 'g') { std.debug.print("Unexpected `git describe` output: {s}\n", .{git_describe}); break :v version_string; } // The version is reformatted in accordance with the https://semver.org specification. break :v b.fmt("{s}-dev.{s}+{s}", .{ version_string, commit_height, commit_id[1..] }); }, else => { std.debug.print("Unexpected `git describe` output: {s}\n", .{git_describe}); break :v version_string; }, } }; const version = try b.allocator.dupeZ(u8, version_slice); exe_options.addOption([:0]const u8, "version", version); if (enable_llvm) { const cmake_cfg = if (static_llvm) null else blk: { if (findConfigH(b, config_h_path_option)) |config_h_path| { const file_contents = fs.cwd().readFileAlloc(b.allocator, config_h_path, max_config_h_bytes) catch unreachable; break :blk parseConfigH(b, file_contents); } else { std.log.warn("config.h could not be located automatically. Consider providing it explicitly via \"-Dconfig_h\"", .{}); break :blk null; } }; if (cmake_cfg) |cfg| { // Inside this code path, we have to coordinate with system packaged LLVM, Clang, and LLD. // That means we also have to rely on stage1 compiled c++ files. We parse config.h to find // the information passed on to us from cmake. if (cfg.cmake_prefix_path.len > 0) { var it = mem.tokenize(u8, cfg.cmake_prefix_path, ";"); while (it.next()) |path| { b.addSearchPrefix(path); } } try addCmakeCfgOptionsToExe(b, cfg, exe, use_zig_libcxx); try addCmakeCfgOptionsToExe(b, cfg, test_cases, use_zig_libcxx); } else { // Here we are -Denable-llvm but no cmake integration. try addStaticLlvmOptionsToExe(exe); try addStaticLlvmOptionsToExe(test_cases); } if (target.isWindows()) { inline for (.{ exe, test_cases }) |artifact| { artifact.linkSystemLibrary("version"); artifact.linkSystemLibrary("uuid"); artifact.linkSystemLibrary("ole32"); } } } const semver = try std.SemanticVersion.parse(version); exe_options.addOption(std.SemanticVersion, "semver", semver); exe_options.addOption(bool, "enable_logging", enable_logging); exe_options.addOption(bool, "enable_link_snapshots", enable_link_snapshots); exe_options.addOption(bool, "enable_tracy", tracy != null); exe_options.addOption(bool, "enable_tracy_callstack", tracy_callstack); exe_options.addOption(bool, "enable_tracy_allocation", tracy_allocation); exe_options.addOption(bool, "value_tracing", value_tracing); if (tracy) |tracy_path| { const client_cpp = fs.path.join( b.allocator, &[_][]const u8{ tracy_path, "public", "TracyClient.cpp" }, ) catch unreachable; // On mingw, we need to opt into windows 7+ to get some features required by tracy. const tracy_c_flags: []const []const u8 = if (target.isWindows() and target.getAbi() == .gnu) &[_][]const u8{ "-DTRACY_ENABLE=1", "-fno-sanitize=undefined", "-D_WIN32_WINNT=0x601" } else &[_][]const u8{ "-DTRACY_ENABLE=1", "-fno-sanitize=undefined" }; exe.addIncludePath(tracy_path); exe.addCSourceFile(client_cpp, tracy_c_flags); if (!enable_llvm) { exe.linkSystemLibraryName("c++"); } exe.linkLibC(); if (target.isWindows()) { exe.linkSystemLibrary("dbghelp"); exe.linkSystemLibrary("ws2_32"); } } const test_filter = b.option([]const u8, "test-filter", "Skip tests that do not match filter"); const test_cases_options = b.addOptions(); test_cases.addOptions("build_options", test_cases_options); test_cases_options.addOption(bool, "enable_logging", enable_logging); test_cases_options.addOption(bool, "enable_link_snapshots", enable_link_snapshots); test_cases_options.addOption(bool, "skip_non_native", skip_non_native); test_cases_options.addOption(bool, "skip_stage1", skip_stage1); test_cases_options.addOption(bool, "have_llvm", enable_llvm); test_cases_options.addOption(bool, "llvm_has_m68k", llvm_has_m68k); test_cases_options.addOption(bool, "llvm_has_csky", llvm_has_csky); test_cases_options.addOption(bool, "llvm_has_arc", llvm_has_arc); test_cases_options.addOption(bool, "force_gpa", force_gpa); test_cases_options.addOption(bool, "only_c", only_c); test_cases_options.addOption(bool, "enable_qemu", b.enable_qemu); test_cases_options.addOption(bool, "enable_wine", b.enable_wine); test_cases_options.addOption(bool, "enable_wasmtime", b.enable_wasmtime); test_cases_options.addOption(bool, "enable_rosetta", b.enable_rosetta); test_cases_options.addOption(bool, "enable_darling", b.enable_darling); test_cases_options.addOption(u32, "mem_leak_frames", mem_leak_frames * 2); test_cases_options.addOption(bool, "value_tracing", value_tracing); test_cases_options.addOption(?[]const u8, "glibc_runtimes_dir", b.glibc_runtimes_dir); test_cases_options.addOption([:0]const u8, "version", version); test_cases_options.addOption(std.SemanticVersion, "semver", semver); test_cases_options.addOption(?[]const u8, "test_filter", test_filter); const test_cases_step = b.step("test-cases", "Run the main compiler test cases"); test_cases_step.dependOn(&test_cases.step); if (!skip_stage2_tests) { test_step.dependOn(test_cases_step); } var chosen_opt_modes_buf: [4]builtin.Mode = undefined; var chosen_mode_index: usize = 0; if (!skip_debug) { chosen_opt_modes_buf[chosen_mode_index] = builtin.Mode.Debug; chosen_mode_index += 1; } if (!skip_release_safe) { chosen_opt_modes_buf[chosen_mode_index] = builtin.Mode.ReleaseSafe; chosen_mode_index += 1; } if (!skip_release_fast) { chosen_opt_modes_buf[chosen_mode_index] = builtin.Mode.ReleaseFast; chosen_mode_index += 1; } if (!skip_release_small) { chosen_opt_modes_buf[chosen_mode_index] = builtin.Mode.ReleaseSmall; chosen_mode_index += 1; } const optimization_modes = chosen_opt_modes_buf[0..chosen_mode_index]; // run stage1 `zig fmt` on this build.zig file just to make sure it works test_step.dependOn(&fmt_build_zig.step); const fmt_step = b.step("test-fmt", "Run zig fmt against build.zig to make sure it works"); fmt_step.dependOn(&fmt_build_zig.step); test_step.dependOn(tests.addPkgTests( b, test_filter, "test/behavior.zig", "behavior", "Run the behavior tests", optimization_modes, skip_single_threaded, skip_non_native, skip_libc, skip_stage1, skip_stage2_tests, )); test_step.dependOn(tests.addPkgTests( b, test_filter, "lib/compiler_rt.zig", "compiler-rt", "Run the compiler_rt tests", optimization_modes, true, // skip_single_threaded skip_non_native, true, // skip_libc skip_stage1, skip_stage2_tests or true, // TODO get these all passing )); test_step.dependOn(tests.addPkgTests( b, test_filter, "lib/c.zig", "universal-libc", "Run the universal libc tests", optimization_modes, true, // skip_single_threaded skip_non_native, true, // skip_libc skip_stage1, skip_stage2_tests or true, // TODO get these all passing )); test_step.dependOn(tests.addCompareOutputTests(b, test_filter, optimization_modes)); test_step.dependOn(tests.addStandaloneTests( b, test_filter, optimization_modes, skip_non_native, enable_macos_sdk, target, skip_stage2_tests, b.enable_darling, b.enable_qemu, b.enable_rosetta, b.enable_wasmtime, b.enable_wine, enable_symlinks_windows, )); test_step.dependOn(tests.addCAbiTests(b, skip_non_native, skip_release)); test_step.dependOn(tests.addLinkTests(b, test_filter, optimization_modes, enable_macos_sdk, skip_stage2_tests, enable_symlinks_windows)); test_step.dependOn(tests.addStackTraceTests(b, test_filter, optimization_modes)); test_step.dependOn(tests.addCliTests(b, test_filter, optimization_modes)); test_step.dependOn(tests.addAssembleAndLinkTests(b, test_filter, optimization_modes)); test_step.dependOn(tests.addTranslateCTests(b, test_filter)); if (!skip_run_translated_c) { test_step.dependOn(tests.addRunTranslatedCTests(b, test_filter, target)); } // tests for this feature are disabled until we have the self-hosted compiler available // test_step.dependOn(tests.addGenHTests(b, test_filter)); test_step.dependOn(tests.addPkgTests( b, test_filter, "lib/std/std.zig", "std", "Run the standard library tests", optimization_modes, skip_single_threaded, skip_non_native, skip_libc, skip_stage1, true, // TODO get these all passing )); try addWasiUpdateStep(b, version); } fn addWasiUpdateStep(b: *std.Build, version: [:0]const u8) !void { const semver = try std.SemanticVersion.parse(version); var target: std.zig.CrossTarget = .{ .cpu_arch = .wasm32, .os_tag = .wasi, }; target.cpu_features_add.addFeature(@enumToInt(std.Target.wasm.Feature.bulk_memory)); const exe = addCompilerStep(b, .ReleaseSmall, target); const exe_options = b.addOptions(); exe.addOptions("build_options", exe_options); exe_options.addOption(u32, "mem_leak_frames", 0); exe_options.addOption(bool, "have_llvm", false); exe_options.addOption(bool, "force_gpa", false); exe_options.addOption(bool, "only_c", true); exe_options.addOption([:0]const u8, "version", version); exe_options.addOption(std.SemanticVersion, "semver", semver); exe_options.addOption(bool, "enable_logging", false); exe_options.addOption(bool, "enable_link_snapshots", false); exe_options.addOption(bool, "enable_tracy", false); exe_options.addOption(bool, "enable_tracy_callstack", false); exe_options.addOption(bool, "enable_tracy_allocation", false); exe_options.addOption(bool, "value_tracing", false); const run_opt = b.addSystemCommand(&.{ "wasm-opt", "-Oz", "--enable-bulk-memory" }); run_opt.addArtifactArg(exe); run_opt.addArg("-o"); run_opt.addFileSourceArg(.{ .path = "stage1/zig1.wasm" }); const copy_zig_h = b.addWriteFiles(); copy_zig_h.addCopyFileToSource(.{ .path = "lib/zig.h" }, "stage1/zig.h"); const update_zig1_step = b.step("update-zig1", "Update stage1/zig1.wasm"); update_zig1_step.dependOn(&run_opt.step); update_zig1_step.dependOn(©_zig_h.step); } fn addCompilerStep( b: *std.Build, optimize: std.builtin.OptimizeMode, target: std.zig.CrossTarget, ) *std.Build.CompileStep { const exe = b.addExecutable(.{ .name = "zig", .root_source_file = .{ .path = "src/main.zig" }, .target = target, .optimize = optimize, }); exe.stack_size = stack_size; return exe; } const exe_cflags = [_][]const u8{ "-std=c++14", "-D__STDC_CONSTANT_MACROS", "-D__STDC_FORMAT_MACROS", "-D__STDC_LIMIT_MACROS", "-D_GNU_SOURCE", "-fvisibility-inlines-hidden", "-fno-exceptions", "-fno-rtti", "-Werror=type-limits", "-Wno-missing-braces", "-Wno-comment", }; fn addCmakeCfgOptionsToExe( b: *std.Build, cfg: CMakeConfig, exe: *std.Build.CompileStep, use_zig_libcxx: bool, ) !void { if (exe.target.isDarwin()) { // useful for package maintainers exe.headerpad_max_install_names = true; } exe.addObjectFile(fs.path.join(b.allocator, &[_][]const u8{ cfg.cmake_binary_dir, "zigcpp", b.fmt("{s}{s}{s}", .{ cfg.cmake_static_library_prefix, "zigcpp", cfg.cmake_static_library_suffix, }), }) catch unreachable); assert(cfg.lld_include_dir.len != 0); exe.addIncludePath(cfg.lld_include_dir); exe.addIncludePath(cfg.llvm_include_dir); exe.addLibraryPath(cfg.llvm_lib_dir); addCMakeLibraryList(exe, cfg.clang_libraries); addCMakeLibraryList(exe, cfg.lld_libraries); addCMakeLibraryList(exe, cfg.llvm_libraries); if (use_zig_libcxx) { exe.linkLibCpp(); } else { // System -lc++ must be used because in this code path we are attempting to link // against system-provided LLVM, Clang, LLD. const need_cpp_includes = true; const static = cfg.llvm_linkage == .static; const lib_suffix = if (static) exe.target.staticLibSuffix()[1..] else exe.target.dynamicLibSuffix()[1..]; switch (exe.target.getOsTag()) { .linux => { // First we try to link against gcc libstdc++. If that doesn't work, we fall // back to -lc++ and cross our fingers. addCxxKnownPath(b, cfg, exe, b.fmt("libstdc++.{s}", .{lib_suffix}), "", need_cpp_includes) catch |err| switch (err) { error.RequiredLibraryNotFound => { exe.linkLibCpp(); }, else => |e| return e, }; exe.linkSystemLibrary("unwind"); }, .ios, .macos, .watchos, .tvos => { exe.linkLibCpp(); }, .windows => { if (exe.target.getAbi() != .msvc) exe.linkLibCpp(); }, .freebsd => { if (static) { try addCxxKnownPath(b, cfg, exe, b.fmt("libc++.{s}", .{lib_suffix}), null, need_cpp_includes); try addCxxKnownPath(b, cfg, exe, b.fmt("libgcc_eh.{s}", .{lib_suffix}), null, need_cpp_includes); } else { try addCxxKnownPath(b, cfg, exe, b.fmt("libc++.{s}", .{lib_suffix}), null, need_cpp_includes); } }, .openbsd => { try addCxxKnownPath(b, cfg, exe, b.fmt("libc++.{s}", .{lib_suffix}), null, need_cpp_includes); try addCxxKnownPath(b, cfg, exe, b.fmt("libc++abi.{s}", .{lib_suffix}), null, need_cpp_includes); }, .netbsd, .dragonfly => { if (static) { try addCxxKnownPath(b, cfg, exe, b.fmt("libstdc++.{s}", .{lib_suffix}), null, need_cpp_includes); try addCxxKnownPath(b, cfg, exe, b.fmt("libgcc_eh.{s}", .{lib_suffix}), null, need_cpp_includes); } else { try addCxxKnownPath(b, cfg, exe, b.fmt("libstdc++.{s}", .{lib_suffix}), null, need_cpp_includes); } }, else => {}, } } if (cfg.dia_guids_lib.len != 0) { exe.addObjectFile(cfg.dia_guids_lib); } } fn addStaticLlvmOptionsToExe(exe: *std.Build.CompileStep) !void { // Adds the Zig C++ sources which both stage1 and stage2 need. // // We need this because otherwise zig_clang_cc1_main.cpp ends up pulling // in a dependency on llvm::cfg::Update::dump() which is // unavailable when LLVM is compiled in Release mode. const zig_cpp_cflags = exe_cflags ++ [_][]const u8{"-DNDEBUG=1"}; exe.addCSourceFiles(&zig_cpp_sources, &zig_cpp_cflags); for (clang_libs) |lib_name| { exe.linkSystemLibrary(lib_name); } for (lld_libs) |lib_name| { exe.linkSystemLibrary(lib_name); } for (llvm_libs) |lib_name| { exe.linkSystemLibrary(lib_name); } exe.linkSystemLibrary("z"); exe.linkSystemLibrary("zstd"); if (exe.target.getOs().tag != .windows or exe.target.getAbi() != .msvc) { // This means we rely on clang-or-zig-built LLVM, Clang, LLD libraries. exe.linkSystemLibrary("c++"); } if (exe.target.getOs().tag == .windows) { exe.linkSystemLibrary("version"); exe.linkSystemLibrary("uuid"); exe.linkSystemLibrary("ole32"); } } fn addCxxKnownPath( b: *std.Build, ctx: CMakeConfig, exe: *std.Build.CompileStep, objname: []const u8, errtxt: ?[]const u8, need_cpp_includes: bool, ) !void { if (!std.process.can_spawn) return error.RequiredLibraryNotFound; const path_padded = try b.exec(&[_][]const u8{ ctx.cxx_compiler, b.fmt("-print-file-name={s}", .{objname}), }); var tokenizer = mem.tokenize(u8, path_padded, "\r\n"); const path_unpadded = tokenizer.next().?; if (mem.eql(u8, path_unpadded, objname)) { if (errtxt) |msg| { std.debug.print("{s}", .{msg}); } else { std.debug.print("Unable to determine path to {s}\n", .{objname}); } return error.RequiredLibraryNotFound; } exe.addObjectFile(path_unpadded); // TODO a way to integrate with system c++ include files here // c++ -E -Wp,-v -xc++ /dev/null if (need_cpp_includes) { // I used these temporarily for testing something but we obviously need a // more general purpose solution here. //exe.addIncludePath("/nix/store/2lr0fc0ak8rwj0k8n3shcyz1hz63wzma-gcc-11.3.0/include/c++/11.3.0"); //exe.addIncludePath("/nix/store/2lr0fc0ak8rwj0k8n3shcyz1hz63wzma-gcc-11.3.0/include/c++/11.3.0/x86_64-unknown-linux-gnu"); } } fn addCMakeLibraryList(exe: *std.Build.CompileStep, list: []const u8) void { var it = mem.tokenize(u8, list, ";"); while (it.next()) |lib| { if (mem.startsWith(u8, lib, "-l")) { exe.linkSystemLibrary(lib["-l".len..]); } else if (exe.target.isWindows() and mem.endsWith(u8, lib, ".lib") and !fs.path.isAbsolute(lib)) { exe.linkSystemLibrary(lib[0 .. lib.len - ".lib".len]); } else { exe.addObjectFile(lib); } } } const CMakeConfig = struct { llvm_linkage: std.Build.CompileStep.Linkage, cmake_binary_dir: []const u8, cmake_prefix_path: []const u8, cmake_static_library_prefix: []const u8, cmake_static_library_suffix: []const u8, cxx_compiler: []const u8, lld_include_dir: []const u8, lld_libraries: []const u8, clang_libraries: []const u8, llvm_lib_dir: []const u8, llvm_include_dir: []const u8, llvm_libraries: []const u8, dia_guids_lib: []const u8, }; const max_config_h_bytes = 1 * 1024 * 1024; fn findConfigH(b: *std.Build, config_h_path_option: ?[]const u8) ?[]const u8 { if (config_h_path_option) |path| { var config_h_or_err = fs.cwd().openFile(path, .{}); if (config_h_or_err) |*file| { file.close(); return path; } else |_| { std.log.err("Could not open provided config.h: \"{s}\"", .{path}); std.os.exit(1); } } var check_dir = fs.path.dirname(b.zig_exe).?; while (true) { var dir = fs.cwd().openDir(check_dir, .{}) catch unreachable; defer dir.close(); // Check if config.h is present in dir var config_h_or_err = dir.openFile("config.h", .{}); if (config_h_or_err) |*file| { file.close(); return fs.path.join( b.allocator, &[_][]const u8{ check_dir, "config.h" }, ) catch unreachable; } else |e| switch (e) { error.FileNotFound => {}, else => unreachable, } // Check if we reached the source root by looking for .git, and bail if so var git_dir_or_err = dir.openDir(".git", .{}); if (git_dir_or_err) |*git_dir| { git_dir.close(); return null; } else |_| {} // Otherwise, continue search in the parent directory const new_check_dir = fs.path.dirname(check_dir); if (new_check_dir == null or mem.eql(u8, new_check_dir.?, check_dir)) { return null; } check_dir = new_check_dir.?; } else unreachable; // TODO should not need `else unreachable`. } fn parseConfigH(b: *std.Build, config_h_text: []const u8) ?CMakeConfig { var ctx: CMakeConfig = .{ .llvm_linkage = undefined, .cmake_binary_dir = undefined, .cmake_prefix_path = undefined, .cmake_static_library_prefix = undefined, .cmake_static_library_suffix = undefined, .cxx_compiler = undefined, .lld_include_dir = undefined, .lld_libraries = undefined, .clang_libraries = undefined, .llvm_lib_dir = undefined, .llvm_include_dir = undefined, .llvm_libraries = undefined, .dia_guids_lib = undefined, }; const mappings = [_]struct { prefix: []const u8, field: []const u8 }{ .{ .prefix = "#define ZIG_CMAKE_BINARY_DIR ", .field = "cmake_binary_dir", }, .{ .prefix = "#define ZIG_CMAKE_PREFIX_PATH ", .field = "cmake_prefix_path", }, .{ .prefix = "#define ZIG_CMAKE_STATIC_LIBRARY_PREFIX ", .field = "cmake_static_library_prefix", }, .{ .prefix = "#define ZIG_CMAKE_STATIC_LIBRARY_SUFFIX ", .field = "cmake_static_library_suffix", }, .{ .prefix = "#define ZIG_CXX_COMPILER ", .field = "cxx_compiler", }, .{ .prefix = "#define ZIG_LLD_INCLUDE_PATH ", .field = "lld_include_dir", }, .{ .prefix = "#define ZIG_LLD_LIBRARIES ", .field = "lld_libraries", }, .{ .prefix = "#define ZIG_CLANG_LIBRARIES ", .field = "clang_libraries", }, .{ .prefix = "#define ZIG_LLVM_LIBRARIES ", .field = "llvm_libraries", }, .{ .prefix = "#define ZIG_DIA_GUIDS_LIB ", .field = "dia_guids_lib", }, .{ .prefix = "#define ZIG_LLVM_INCLUDE_PATH ", .field = "llvm_include_dir", }, .{ .prefix = "#define ZIG_LLVM_LIB_PATH ", .field = "llvm_lib_dir", }, // .prefix = ZIG_LLVM_LINK_MODE parsed manually below }; var lines_it = mem.tokenize(u8, config_h_text, "\r\n"); while (lines_it.next()) |line| { inline for (mappings) |mapping| { if (mem.startsWith(u8, line, mapping.prefix)) { var it = mem.split(u8, line, "\""); _ = it.first(); // skip the stuff before the quote const quoted = it.next().?; // the stuff inside the quote @field(ctx, mapping.field) = toNativePathSep(b, quoted); } } if (mem.startsWith(u8, line, "#define ZIG_LLVM_LINK_MODE ")) { var it = mem.split(u8, line, "\""); _ = it.next().?; // skip the stuff before the quote const quoted = it.next().?; // the stuff inside the quote ctx.llvm_linkage = if (mem.eql(u8, quoted, "shared")) .dynamic else .static; } } return ctx; } fn toNativePathSep(b: *std.Build, s: []const u8) []u8 { const duplicated = b.allocator.dupe(u8, s) catch unreachable; for (duplicated) |*byte| switch (byte.*) { '/' => byte.* = fs.path.sep, else => {}, }; return duplicated; } const zig_cpp_sources = [_][]const u8{ // These are planned to stay even when we are self-hosted. "src/zig_llvm.cpp", "src/zig_clang.cpp", "src/zig_llvm-ar.cpp", "src/zig_clang_driver.cpp", "src/zig_clang_cc1_main.cpp", "src/zig_clang_cc1as_main.cpp", // https://github.com/ziglang/zig/issues/6363 "src/windows_sdk.cpp", }; const clang_libs = [_][]const u8{ "clangFrontendTool", "clangCodeGen", "clangFrontend", "clangDriver", "clangSerialization", "clangSema", "clangStaticAnalyzerFrontend", "clangStaticAnalyzerCheckers", "clangStaticAnalyzerCore", "clangAnalysis", "clangASTMatchers", "clangAST", "clangParse", "clangSema", "clangBasic", "clangEdit", "clangLex", "clangARCMigrate", "clangRewriteFrontend", "clangRewrite", "clangCrossTU", "clangIndex", "clangToolingCore", "clangExtractAPI", "clangSupport", }; const lld_libs = [_][]const u8{ "lldMinGW", "lldELF", "lldCOFF", "lldWasm", "lldMachO", "lldCommon", }; // This list can be re-generated with `llvm-config --libfiles` and then // reformatting using your favorite text editor. Note we do not execute // `llvm-config` here because we are cross compiling. Also omit LLVMTableGen // from these libs. const llvm_libs = [_][]const u8{ "LLVMWindowsManifest", "LLVMWindowsDriver", "LLVMXRay", "LLVMLibDriver", "LLVMDlltoolDriver", "LLVMCoverage", "LLVMLineEditor", "LLVMXCoreDisassembler", "LLVMXCoreCodeGen", "LLVMXCoreDesc", "LLVMXCoreInfo", "LLVMX86TargetMCA", "LLVMX86Disassembler", "LLVMX86AsmParser", "LLVMX86CodeGen", "LLVMX86Desc", "LLVMX86Info", "LLVMWebAssemblyDisassembler", "LLVMWebAssemblyAsmParser", "LLVMWebAssemblyCodeGen", "LLVMWebAssemblyDesc", "LLVMWebAssemblyUtils", "LLVMWebAssemblyInfo", "LLVMVEDisassembler", "LLVMVEAsmParser", "LLVMVECodeGen", "LLVMVEDesc", "LLVMVEInfo", "LLVMSystemZDisassembler", "LLVMSystemZAsmParser", "LLVMSystemZCodeGen", "LLVMSystemZDesc", "LLVMSystemZInfo", "LLVMSparcDisassembler", "LLVMSparcAsmParser", "LLVMSparcCodeGen", "LLVMSparcDesc", "LLVMSparcInfo", "LLVMRISCVDisassembler", "LLVMRISCVAsmParser", "LLVMRISCVCodeGen", "LLVMRISCVDesc", "LLVMRISCVInfo", "LLVMPowerPCDisassembler", "LLVMPowerPCAsmParser", "LLVMPowerPCCodeGen", "LLVMPowerPCDesc", "LLVMPowerPCInfo", "LLVMNVPTXCodeGen", "LLVMNVPTXDesc", "LLVMNVPTXInfo", "LLVMMSP430Disassembler", "LLVMMSP430AsmParser", "LLVMMSP430CodeGen", "LLVMMSP430Desc", "LLVMMSP430Info", "LLVMMipsDisassembler", "LLVMMipsAsmParser", "LLVMMipsCodeGen", "LLVMMipsDesc", "LLVMMipsInfo", "LLVMLanaiDisassembler", "LLVMLanaiCodeGen", "LLVMLanaiAsmParser", "LLVMLanaiDesc", "LLVMLanaiInfo", "LLVMHexagonDisassembler", "LLVMHexagonCodeGen", "LLVMHexagonAsmParser", "LLVMHexagonDesc", "LLVMHexagonInfo", "LLVMBPFDisassembler", "LLVMBPFAsmParser", "LLVMBPFCodeGen", "LLVMBPFDesc", "LLVMBPFInfo", "LLVMAVRDisassembler", "LLVMAVRAsmParser", "LLVMAVRCodeGen", "LLVMAVRDesc", "LLVMAVRInfo", "LLVMARMDisassembler", "LLVMARMAsmParser", "LLVMARMCodeGen", "LLVMARMDesc", "LLVMARMUtils", "LLVMARMInfo", "LLVMAMDGPUTargetMCA", "LLVMAMDGPUDisassembler", "LLVMAMDGPUAsmParser", "LLVMAMDGPUCodeGen", "LLVMAMDGPUDesc", "LLVMAMDGPUUtils", "LLVMAMDGPUInfo", "LLVMAArch64Disassembler", "LLVMAArch64AsmParser", "LLVMAArch64CodeGen", "LLVMAArch64Desc", "LLVMAArch64Utils", "LLVMAArch64Info", "LLVMOrcJIT", "LLVMMCJIT", "LLVMJITLink", "LLVMInterpreter", "LLVMExecutionEngine", "LLVMRuntimeDyld", "LLVMOrcTargetProcess", "LLVMOrcShared", "LLVMDWP", "LLVMDebugInfoGSYM", "LLVMOption", "LLVMObjectYAML", "LLVMObjCopy", "LLVMMCA", "LLVMMCDisassembler", "LLVMLTO", "LLVMPasses", "LLVMCFGuard", "LLVMCoroutines", "LLVMObjCARCOpts", "LLVMipo", "LLVMVectorize", "LLVMLinker", "LLVMInstrumentation", "LLVMFrontendOpenMP", "LLVMFrontendOpenACC", "LLVMExtensions", "LLVMDWARFLinker", "LLVMGlobalISel", "LLVMMIRParser", "LLVMAsmPrinter", "LLVMSelectionDAG", "LLVMCodeGen", "LLVMIRReader", "LLVMAsmParser", "LLVMInterfaceStub", "LLVMFileCheck", "LLVMFuzzMutate", "LLVMTarget", "LLVMScalarOpts", "LLVMInstCombine", "LLVMAggressiveInstCombine", "LLVMTransformUtils", "LLVMBitWriter", "LLVMAnalysis", "LLVMProfileData", "LLVMSymbolize", "LLVMDebugInfoPDB", "LLVMDebugInfoMSF", "LLVMDebugInfoDWARF", "LLVMObject", "LLVMTextAPI", "LLVMMCParser", "LLVMMC", "LLVMDebugInfoCodeView", "LLVMBitReader", "LLVMFuzzerCLI", "LLVMCore", "LLVMRemarks", "LLVMBitstreamReader", "LLVMBinaryFormat", "LLVMSupport", "LLVMDemangle", };