const root = @import("@build"); const std = @import("std"); const builtin = @import("builtin"); const io = std.io; const fmt = std.fmt; const Builder = std.build.Builder; const mem = std.mem; const process = std.process; const ArrayList = std.ArrayList; const File = std.fs.File; pub fn main() !void { // Here we use an ArenaAllocator backed by a DirectAllocator because a build is a short-lived, // one shot program. We don't need to waste time freeing memory and finding places to squish // bytes into. So we free everything all at once at the very end. var arena = std.heap.ArenaAllocator.init(std.heap.page_allocator); defer arena.deinit(); const allocator = arena.allocator(); var args = try process.argsAlloc(allocator); defer process.argsFree(allocator, args); // skip my own exe name var arg_idx: usize = 1; const zig_exe = nextArg(args, &arg_idx) orelse { std.debug.print("Expected path to zig compiler\n", .{}); return error.InvalidArgs; }; const build_root = nextArg(args, &arg_idx) orelse { std.debug.print("Expected build root directory path\n", .{}); return error.InvalidArgs; }; const cache_root = nextArg(args, &arg_idx) orelse { std.debug.print("Expected cache root directory path\n", .{}); return error.InvalidArgs; }; const global_cache_root = nextArg(args, &arg_idx) orelse { std.debug.print("Expected global cache root directory path\n", .{}); return error.InvalidArgs; }; const builder = try Builder.create( allocator, zig_exe, build_root, cache_root, global_cache_root, ); defer builder.destroy(); var targets = ArrayList([]const u8).init(allocator); var debug_log_scopes = ArrayList([]const u8).init(allocator); const stderr_stream = io.getStdErr().writer(); const stdout_stream = io.getStdOut().writer(); var install_prefix: ?[]const u8 = null; var dir_list = Builder.DirList{}; // before arg parsing, check for the NO_COLOR environment variable // if it exists, default the color setting to .off // explicit --color arguments will still override this setting. builder.color = if (std.process.hasEnvVarConstant("NO_COLOR")) .off else .auto; while (nextArg(args, &arg_idx)) |arg| { if (mem.startsWith(u8, arg, "-D")) { const option_contents = arg[2..]; if (option_contents.len == 0) { std.debug.print("Expected option name after '-D'\n\n", .{}); return usageAndErr(builder, false, stderr_stream); } if (mem.indexOfScalar(u8, option_contents, '=')) |name_end| { const option_name = option_contents[0..name_end]; const option_value = option_contents[name_end + 1 ..]; if (try builder.addUserInputOption(option_name, option_value)) return usageAndErr(builder, false, stderr_stream); } else { if (try builder.addUserInputFlag(option_contents)) return usageAndErr(builder, false, stderr_stream); } } else if (mem.startsWith(u8, arg, "-")) { if (mem.eql(u8, arg, "--verbose")) { builder.verbose = true; } else if (mem.eql(u8, arg, "-h") or mem.eql(u8, arg, "--help")) { return usage(builder, false, stdout_stream); } else if (mem.eql(u8, arg, "-p") or mem.eql(u8, arg, "--prefix")) { install_prefix = nextArg(args, &arg_idx) orelse { std.debug.print("Expected argument after {s}\n\n", .{arg}); return usageAndErr(builder, false, stderr_stream); }; } else if (mem.eql(u8, arg, "--prefix-lib-dir")) { dir_list.lib_dir = nextArg(args, &arg_idx) orelse { std.debug.print("Expected argument after {s}\n\n", .{arg}); return usageAndErr(builder, false, stderr_stream); }; } else if (mem.eql(u8, arg, "--prefix-exe-dir")) { dir_list.exe_dir = nextArg(args, &arg_idx) orelse { std.debug.print("Expected argument after {s}\n\n", .{arg}); return usageAndErr(builder, false, stderr_stream); }; } else if (mem.eql(u8, arg, "--prefix-include-dir")) { dir_list.include_dir = nextArg(args, &arg_idx) orelse { std.debug.print("Expected argument after {s}\n\n", .{arg}); return usageAndErr(builder, false, stderr_stream); }; } else if (mem.eql(u8, arg, "--sysroot")) { const sysroot = nextArg(args, &arg_idx) orelse { std.debug.print("Expected argument after --sysroot\n\n", .{}); return usageAndErr(builder, false, stderr_stream); }; builder.sysroot = sysroot; } else if (mem.eql(u8, arg, "--search-prefix")) { const search_prefix = nextArg(args, &arg_idx) orelse { std.debug.print("Expected argument after --search-prefix\n\n", .{}); return usageAndErr(builder, false, stderr_stream); }; builder.addSearchPrefix(search_prefix); } else if (mem.eql(u8, arg, "--libc")) { const libc_file = nextArg(args, &arg_idx) orelse { std.debug.print("Expected argument after --libc\n\n", .{}); return usageAndErr(builder, false, stderr_stream); }; builder.libc_file = libc_file; } else if (mem.eql(u8, arg, "--color")) { const next_arg = nextArg(args, &arg_idx) orelse { std.debug.print("expected [auto|on|off] after --color", .{}); return usageAndErr(builder, false, stderr_stream); }; builder.color = std.meta.stringToEnum(@TypeOf(builder.color), next_arg) orelse { std.debug.print("expected [auto|on|off] after --color, found '{s}'", .{next_arg}); return usageAndErr(builder, false, stderr_stream); }; } else if (mem.eql(u8, arg, "--zig-lib-dir")) { builder.override_lib_dir = nextArg(args, &arg_idx) orelse { std.debug.print("Expected argument after --zig-lib-dir\n\n", .{}); return usageAndErr(builder, false, stderr_stream); }; } else if (mem.eql(u8, arg, "--debug-log")) { const next_arg = nextArg(args, &arg_idx) orelse { std.debug.print("Expected argument after {s}\n\n", .{arg}); return usageAndErr(builder, false, stderr_stream); }; try debug_log_scopes.append(next_arg); } else if (mem.eql(u8, arg, "--glibc-runtimes")) { builder.glibc_runtimes_dir = nextArg(args, &arg_idx) orelse { std.debug.print("Expected argument after --glibc-runtimes\n\n", .{}); return usageAndErr(builder, false, stderr_stream); }; } else if (mem.eql(u8, arg, "--verbose-link")) { builder.verbose_link = true; } else if (mem.eql(u8, arg, "--verbose-air")) { builder.verbose_air = true; } else if (mem.eql(u8, arg, "--verbose-llvm-ir")) { builder.verbose_llvm_ir = true; } else if (mem.eql(u8, arg, "--verbose-cimport")) { builder.verbose_cimport = true; } else if (mem.eql(u8, arg, "--verbose-cc")) { builder.verbose_cc = true; } else if (mem.eql(u8, arg, "--verbose-llvm-cpu-features")) { builder.verbose_llvm_cpu_features = true; } else if (mem.eql(u8, arg, "--prominent-compile-errors")) { builder.prominent_compile_errors = true; } else if (mem.eql(u8, arg, "-fwine")) { builder.enable_wine = true; } else if (mem.eql(u8, arg, "-fno-wine")) { builder.enable_wine = false; } else if (mem.eql(u8, arg, "-fqemu")) { builder.enable_qemu = true; } else if (mem.eql(u8, arg, "-fno-qemu")) { builder.enable_qemu = false; } else if (mem.eql(u8, arg, "-fwasmtime")) { builder.enable_wasmtime = true; } else if (mem.eql(u8, arg, "-fno-wasmtime")) { builder.enable_wasmtime = false; } else if (mem.eql(u8, arg, "-frosetta")) { builder.enable_rosetta = true; } else if (mem.eql(u8, arg, "-fno-rosetta")) { builder.enable_rosetta = false; } else if (mem.eql(u8, arg, "-fdarling")) { builder.enable_darling = true; } else if (mem.eql(u8, arg, "-fno-darling")) { builder.enable_darling = false; } else if (mem.eql(u8, arg, "-fstage1")) { builder.use_stage1 = true; } else if (mem.eql(u8, arg, "-fno-stage1")) { builder.use_stage1 = false; } else if (mem.eql(u8, arg, "-freference-trace")) { builder.reference_trace = 256; } else if (mem.startsWith(u8, arg, "-freference-trace=")) { const num = arg["-freference-trace=".len..]; builder.reference_trace = std.fmt.parseUnsigned(u32, num, 10) catch |err| { std.debug.print("unable to parse reference_trace count '{s}': {s}", .{ num, @errorName(err) }); process.exit(1); }; } else if (mem.eql(u8, arg, "-fno-reference-trace")) { builder.reference_trace = null; } else if (mem.eql(u8, arg, "--")) { builder.args = argsRest(args, arg_idx); break; } else { std.debug.print("Unrecognized argument: {s}\n\n", .{arg}); return usageAndErr(builder, false, stderr_stream); } } else { try targets.append(arg); } } builder.debug_log_scopes = debug_log_scopes.items; builder.resolveInstallPrefix(install_prefix, dir_list); try runBuild(builder); if (builder.validateUserInputDidItFail()) return usageAndErr(builder, true, stderr_stream); builder.make(targets.items) catch |err| { switch (err) { error.InvalidStepName => { return usageAndErr(builder, true, stderr_stream); }, error.UncleanExit => process.exit(1), else => return err, } }; } fn runBuild(builder: *Builder) anyerror!void { switch (@typeInfo(@typeInfo(@TypeOf(root.build)).Fn.return_type.?)) { .Void => root.build(builder), .ErrorUnion => try root.build(builder), else => @compileError("expected return type of build to be 'void' or '!void'"), } } fn usage(builder: *Builder, already_ran_build: bool, out_stream: anytype) !void { // run the build script to collect the options if (!already_ran_build) { builder.resolveInstallPrefix(null, .{}); try runBuild(builder); } try out_stream.print( \\Usage: {s} build [steps] [options] \\ \\Steps: \\ , .{builder.zig_exe}); const allocator = builder.allocator; for (builder.top_level_steps.items) |top_level_step| { const name = if (&top_level_step.step == builder.default_step) try fmt.allocPrint(allocator, "{s} (default)", .{top_level_step.step.name}) else top_level_step.step.name; try out_stream.print(" {s:<28} {s}\n", .{ name, top_level_step.description }); } try out_stream.writeAll( \\ \\General Options: \\ -p, --prefix [path] Override default install prefix \\ --prefix-lib-dir [path] Override default library directory path \\ --prefix-exe-dir [path] Override default executable directory path \\ --prefix-include-dir [path] Override default include directory path \\ \\ --sysroot [path] Set the system root directory (usually /) \\ --search-prefix [path] Add a path to look for binaries, libraries, headers \\ --libc [file] Provide a file which specifies libc paths \\ \\ -fdarling, -fno-darling Integration with system-installed Darling to \\ execute macOS programs on Linux hosts \\ (default: no) \\ -fqemu, -fno-qemu Integration with system-installed QEMU to execute \\ foreign-architecture programs on Linux hosts \\ (default: no) \\ --glibc-runtimes [path] Enhances QEMU integration by providing glibc built \\ for multiple foreign architectures, allowing \\ execution of non-native programs that link with glibc. \\ -frosetta, -fno-rosetta Rely on Rosetta to execute x86_64 programs on \\ ARM64 macOS hosts. (default: no) \\ -fwasmtime, -fno-wasmtime Integration with system-installed wasmtime to \\ execute WASI binaries. (default: no) \\ -fwine, -fno-wine Integration with system-installed Wine to execute \\ Windows programs on Linux hosts. (default: no) \\ \\ -h, --help Print this help and exit \\ --verbose Print commands before executing them \\ --color [auto|off|on] Enable or disable colored error messages \\ --prominent-compile-errors Output compile errors formatted for a human to read \\ \\Project-Specific Options: \\ ); if (builder.available_options_list.items.len == 0) { try out_stream.print(" (none)\n", .{}); } else { for (builder.available_options_list.items) |option| { const name = try fmt.allocPrint(allocator, " -D{s}=[{s}]", .{ option.name, @tagName(option.type_id), }); defer allocator.free(name); try out_stream.print("{s:<30} {s}\n", .{ name, option.description }); if (option.enum_options) |enum_options| { const padding = " " ** 33; try out_stream.writeAll(padding ++ "Supported Values:\n"); for (enum_options) |enum_option| { try out_stream.print(padding ++ " {s}\n", .{enum_option}); } } } } try out_stream.writeAll( \\ \\Advanced Options: \\ -fstage1 Force using bootstrap compiler as the codegen backend \\ -fno-stage1 Prevent using bootstrap compiler as the codegen backend \\ -freference-trace[=num] How many lines of reference trace should be shown per compile error \\ -fno-reference-trace Disable reference trace \\ --build-file [file] Override path to build.zig \\ --cache-dir [path] Override path to local Zig cache directory \\ --global-cache-dir [path] Override path to global Zig cache directory \\ --zig-lib-dir [arg] Override path to Zig lib directory \\ --debug-log [scope] Enable debugging the compiler \\ --verbose-link Enable compiler debug output for linking \\ --verbose-air Enable compiler debug output for Zig AIR \\ --verbose-llvm-ir Enable compiler debug output for LLVM IR \\ --verbose-cimport Enable compiler debug output for C imports \\ --verbose-cc Enable compiler debug output for C compilation \\ --verbose-llvm-cpu-features Enable compiler debug output for LLVM CPU features \\ ); } fn usageAndErr(builder: *Builder, already_ran_build: bool, out_stream: anytype) void { usage(builder, already_ran_build, out_stream) catch {}; process.exit(1); } fn nextArg(args: [][]const u8, idx: *usize) ?[]const u8 { if (idx.* >= args.len) return null; defer idx.* += 1; return args[idx.*]; } fn argsRest(args: [][]const u8, idx: usize) ?[][]const u8 { if (idx >= args.len) return null; return args[idx..]; }