const builtin = @import("builtin");
const std = @import("../std.zig");
const mem = std.mem;
const fs = std.fs;
const assert = std.debug.assert;
const panic = std.debug.panic;
const ArrayList = std.ArrayList;
const StringHashMap = std.StringHashMap;
const Sha256 = std.crypto.hash.sha2.Sha256;
const Allocator = mem.Allocator;
const Step = std.Build.Step;
const CrossTarget = std.zig.CrossTarget;
const NativeTargetInfo = std.zig.system.NativeTargetInfo;
const FileSource = std.Build.FileSource;
const PkgConfigPkg = std.Build.PkgConfigPkg;
const PkgConfigError = std.Build.PkgConfigError;
const ExecError = std.Build.ExecError;
const Module = std.Build.Module;
const VcpkgRoot = std.Build.VcpkgRoot;
const InstallDir = std.Build.InstallDir;
const InstallArtifactStep = std.Build.InstallArtifactStep;
const GeneratedFile = std.Build.GeneratedFile;
const ObjCopyStep = std.Build.ObjCopyStep;
const CheckObjectStep = std.Build.CheckObjectStep;
const RunStep = std.Build.RunStep;
const OptionsStep = std.Build.OptionsStep;
const ConfigHeaderStep = std.Build.ConfigHeaderStep;
const CompileStep = @This();
pub const base_id: Step.Id = .compile;
step: Step,
name: []const u8,
target: CrossTarget,
target_info: NativeTargetInfo,
optimize: std.builtin.Mode,
linker_script: ?FileSource = null,
version_script: ?[]const u8 = null,
out_filename: []const u8,
linkage: ?Linkage = null,
version: ?std.builtin.Version,
kind: Kind,
major_only_filename: ?[]const u8,
name_only_filename: ?[]const u8,
strip: ?bool,
unwind_tables: ?bool,
compress_debug_sections: enum { none, zlib } = .none,
lib_paths: ArrayList(FileSource),
rpaths: ArrayList(FileSource),
framework_dirs: ArrayList(FileSource),
frameworks: StringHashMap(FrameworkLinkInfo),
verbose_link: bool,
verbose_cc: bool,
emit_analysis: EmitOption = .default,
emit_asm: EmitOption = .default,
emit_bin: EmitOption = .default,
emit_docs: EmitOption = .default,
emit_implib: EmitOption = .default,
emit_llvm_bc: EmitOption = .default,
emit_llvm_ir: EmitOption = .default,
emit_h: bool = false,
bundle_compiler_rt: ?bool = null,
single_threaded: ?bool,
stack_protector: ?bool = null,
disable_stack_probing: bool,
disable_sanitize_c: bool,
sanitize_thread: bool,
rdynamic: bool,
dwarf_format: ?std.dwarf.Format = null,
import_memory: bool = false,
import_symbols: bool = false,
import_table: bool = false,
export_table: bool = false,
initial_memory: ?u64 = null,
max_memory: ?u64 = null,
shared_memory: bool = false,
global_base: ?u64 = null,
c_std: std.Build.CStd,
zig_lib_dir: ?[]const u8,
main_pkg_path: ?[]const u8,
exec_cmd_args: ?[]const ?[]const u8,
filter: ?[]const u8,
test_evented_io: bool = false,
test_runner: ?[]const u8,
code_model: std.builtin.CodeModel = .default,
wasi_exec_model: ?std.builtin.WasiExecModel = null,
export_symbol_names: []const []const u8 = &.{},
root_src: ?FileSource,
out_h_filename: []const u8,
out_lib_filename: []const u8,
out_pdb_filename: []const u8,
modules: std.StringArrayHashMap(*Module),
link_objects: ArrayList(LinkObject),
include_dirs: ArrayList(IncludeDir),
c_macros: ArrayList([]const u8),
installed_headers: ArrayList(*Step),
is_linking_libc: bool,
is_linking_libcpp: bool,
vcpkg_bin_path: ?[]const u8 = null,
override_dest_dir: ?InstallDir,
installed_path: ?[]const u8,
image_base: ?u64 = null,
libc_file: ?FileSource = null,
valgrind_support: ?bool = null,
each_lib_rpath: ?bool = null,
build_id: ?bool = null,
link_eh_frame_hdr: bool = false,
link_emit_relocs: bool = false,
link_function_sections: bool = false,
link_gc_sections: ?bool = null,
linker_dynamicbase: bool = true,
linker_allow_shlib_undefined: ?bool = null,
link_z_notext: bool = false,
link_z_relro: bool = true,
link_z_lazy: bool = false,
link_z_common_page_size: ?u64 = null,
link_z_max_page_size: ?u64 = null,
install_name: ?[]const u8 = null,
entitlements: ?[]const u8 = null,
pagezero_size: ?u64 = null,
search_strategy: ?enum { paths_first, dylibs_first } = null,
headerpad_size: ?u32 = null,
headerpad_max_install_names: bool = false,
dead_strip_dylibs: bool = false,
force_pic: ?bool = null,
pie: ?bool = null,
red_zone: ?bool = null,
omit_frame_pointer: ?bool = null,
dll_export_fns: ?bool = null,
subsystem: ?std.Target.SubSystem = null,
entry_symbol_name: ?[]const u8 = null,
force_undefined_symbols: std.StringHashMap(void),
stack_size: ?u64 = null,
want_lto: ?bool = null,
use_llvm: ?bool,
use_lld: ?bool,
expect_errors: []const []const u8 = &.{},
output_path_source: GeneratedFile,
output_lib_path_source: GeneratedFile,
output_h_path_source: GeneratedFile,
output_pdb_path_source: GeneratedFile,
output_dirname_source: GeneratedFile,
pub const CSourceFiles = struct {
files: []const []const u8,
flags: []const []const u8,
};
pub const CSourceFile = struct {
source: FileSource,
args: []const []const u8,
pub fn dupe(self: CSourceFile, b: *std.Build) CSourceFile {
return .{
.source = self.source.dupe(b),
.args = b.dupeStrings(self.args),
};
}
};
pub const LinkObject = union(enum) {
static_path: FileSource,
other_step: *CompileStep,
system_lib: SystemLib,
assembly_file: FileSource,
c_source_file: *CSourceFile,
c_source_files: *CSourceFiles,
};
pub const SystemLib = struct {
name: []const u8,
needed: bool,
weak: bool,
use_pkg_config: enum {
no,
yes,
force,
},
};
const FrameworkLinkInfo = struct {
needed: bool = false,
weak: bool = false,
};
pub const IncludeDir = union(enum) {
raw_path: []const u8,
raw_path_system: []const u8,
other_step: *CompileStep,
config_header_step: *ConfigHeaderStep,
};
pub const Options = struct {
name: []const u8,
root_source_file: ?FileSource = null,
target: CrossTarget,
optimize: std.builtin.Mode,
kind: Kind,
linkage: ?Linkage = null,
version: ?std.builtin.Version = null,
max_rss: usize = 0,
filter: ?[]const u8 = null,
test_runner: ?[]const u8 = null,
link_libc: ?bool = null,
single_threaded: ?bool = null,
use_llvm: ?bool = null,
use_lld: ?bool = null,
};
pub const Kind = enum {
exe,
lib,
obj,
@"test",
};
pub const Linkage = enum { dynamic, static };
pub const EmitOption = union(enum) {
default: void,
no_emit: void,
emit: void,
emit_to: []const u8,
fn getArg(self: @This(), b: *std.Build, arg_name: []const u8) ?[]const u8 {
return switch (self) {
.no_emit => b.fmt("-fno-{s}", .{arg_name}),
.default => null,
.emit => b.fmt("-f{s}", .{arg_name}),
.emit_to => |path| b.fmt("-f{s}={s}", .{ arg_name, path }),
};
}
};
pub fn create(owner: *std.Build, options: Options) *CompileStep {
const name = owner.dupe(options.name);
const root_src: ?FileSource = if (options.root_source_file) |rsrc| rsrc.dupe(owner) else null;
if (mem.indexOf(u8, name, "/") != null or mem.indexOf(u8, name, "\\") != null) {
panic("invalid name: '{s}'. It looks like a file path, but it is supposed to be the library or application name.", .{name});
}
const name_adjusted = if (options.kind == .@"test" and mem.eql(u8, name, "test"))
""
else
owner.fmt("{s} ", .{name});
const step_name = owner.fmt("{s} {s}{s} {s}", .{
switch (options.kind) {
.exe => "zig build-exe",
.lib => "zig build-lib",
.obj => "zig build-obj",
.@"test" => "zig test",
},
name_adjusted,
@tagName(options.optimize),
options.target.zigTriple(owner.allocator) catch @panic("OOM"),
});
const target_info = NativeTargetInfo.detect(options.target) catch @panic("unhandled error");
const out_filename = std.zig.binNameAlloc(owner.allocator, .{
.root_name = name,
.target = target_info.target,
.output_mode = switch (options.kind) {
.lib => .Lib,
.obj => .Obj,
.exe, .@"test" => .Exe,
},
.link_mode = if (options.linkage) |some| @as(std.builtin.LinkMode, switch (some) {
.dynamic => .Dynamic,
.static => .Static,
}) else null,
.version = options.version,
}) catch @panic("OOM");
const self = owner.allocator.create(CompileStep) catch @panic("OOM");
self.* = CompileStep{
.strip = null,
.unwind_tables = null,
.verbose_link = false,
.verbose_cc = false,
.optimize = options.optimize,
.target = options.target,
.linkage = options.linkage,
.kind = options.kind,
.root_src = root_src,
.name = name,
.frameworks = StringHashMap(FrameworkLinkInfo).init(owner.allocator),
.step = Step.init(.{
.id = base_id,
.name = step_name,
.owner = owner,
.makeFn = make,
.max_rss = options.max_rss,
}),
.version = options.version,
.out_filename = out_filename,
.out_h_filename = owner.fmt("{s}.h", .{name}),
.out_lib_filename = undefined,
.out_pdb_filename = owner.fmt("{s}.pdb", .{name}),
.major_only_filename = null,
.name_only_filename = null,
.modules = std.StringArrayHashMap(*Module).init(owner.allocator),
.include_dirs = ArrayList(IncludeDir).init(owner.allocator),
.link_objects = ArrayList(LinkObject).init(owner.allocator),
.c_macros = ArrayList([]const u8).init(owner.allocator),
.lib_paths = ArrayList(FileSource).init(owner.allocator),
.rpaths = ArrayList(FileSource).init(owner.allocator),
.framework_dirs = ArrayList(FileSource).init(owner.allocator),
.installed_headers = ArrayList(*Step).init(owner.allocator),
.c_std = std.Build.CStd.C99,
.zig_lib_dir = null,
.main_pkg_path = null,
.exec_cmd_args = null,
.filter = options.filter,
.test_runner = options.test_runner,
.disable_stack_probing = false,
.disable_sanitize_c = false,
.sanitize_thread = false,
.rdynamic = false,
.override_dest_dir = null,
.installed_path = null,
.force_undefined_symbols = StringHashMap(void).init(owner.allocator),
.output_path_source = GeneratedFile{ .step = &self.step },
.output_lib_path_source = GeneratedFile{ .step = &self.step },
.output_h_path_source = GeneratedFile{ .step = &self.step },
.output_pdb_path_source = GeneratedFile{ .step = &self.step },
.output_dirname_source = GeneratedFile{ .step = &self.step },
.target_info = target_info,
.is_linking_libc = options.link_libc orelse false,
.is_linking_libcpp = false,
.single_threaded = options.single_threaded,
.use_llvm = options.use_llvm,
.use_lld = options.use_lld,
};
if (self.kind == .lib) {
if (self.linkage != null and self.linkage.? == .static) {
self.out_lib_filename = self.out_filename;
} else if (self.version) |version| {
if (target_info.target.isDarwin()) {
self.major_only_filename = owner.fmt("lib{s}.{d}.dylib", .{
self.name,
version.major,
});
self.name_only_filename = owner.fmt("lib{s}.dylib", .{self.name});
self.out_lib_filename = self.out_filename;
} else if (target_info.target.os.tag == .windows) {
self.out_lib_filename = owner.fmt("{s}.lib", .{self.name});
} else {
self.major_only_filename = owner.fmt("lib{s}.so.{d}", .{ self.name, version.major });
self.name_only_filename = owner.fmt("lib{s}.so", .{self.name});
self.out_lib_filename = self.out_filename;
}
} else {
if (target_info.target.isDarwin()) {
self.out_lib_filename = self.out_filename;
} else if (target_info.target.os.tag == .windows) {
self.out_lib_filename = owner.fmt("{s}.lib", .{self.name});
} else {
self.out_lib_filename = self.out_filename;
}
}
}
if (root_src) |rs| rs.addStepDependencies(&self.step);
return self;
}
pub fn installHeader(cs: *CompileStep, src_path: []const u8, dest_rel_path: []const u8) void {
const b = cs.step.owner;
const install_file = b.addInstallHeaderFile(src_path, dest_rel_path);
b.getInstallStep().dependOn(&install_file.step);
cs.installed_headers.append(&install_file.step) catch @panic("OOM");
}
pub const InstallConfigHeaderOptions = struct {
install_dir: InstallDir = .header,
dest_rel_path: ?[]const u8 = null,
};
pub fn installConfigHeader(
cs: *CompileStep,
config_header: *ConfigHeaderStep,
options: InstallConfigHeaderOptions,
) void {
const dest_rel_path = options.dest_rel_path orelse config_header.include_path;
const b = cs.step.owner;
const install_file = b.addInstallFileWithDir(
.{ .generated = &config_header.output_file },
options.install_dir,
dest_rel_path,
);
install_file.step.dependOn(&config_header.step);
b.getInstallStep().dependOn(&install_file.step);
cs.installed_headers.append(&install_file.step) catch @panic("OOM");
}
pub fn installHeadersDirectory(
a: *CompileStep,
src_dir_path: []const u8,
dest_rel_path: []const u8,
) void {
return installHeadersDirectoryOptions(a, .{
.source_dir = src_dir_path,
.install_dir = .header,
.install_subdir = dest_rel_path,
});
}
pub fn installHeadersDirectoryOptions(
cs: *CompileStep,
options: std.Build.InstallDirStep.Options,
) void {
const b = cs.step.owner;
const install_dir = b.addInstallDirectory(options);
b.getInstallStep().dependOn(&install_dir.step);
cs.installed_headers.append(&install_dir.step) catch @panic("OOM");
}
pub fn installLibraryHeaders(cs: *CompileStep, l: *CompileStep) void {
assert(l.kind == .lib);
const b = cs.step.owner;
const install_step = b.getInstallStep();
for (l.installed_headers.items) |step| {
const step_copy = switch (step.id) {
inline .install_file, .install_dir => |id| blk: {
const T = id.Type();
const ptr = b.allocator.create(T) catch @panic("OOM");
ptr.* = step.cast(T).?.*;
ptr.dest_builder = b;
break :blk &ptr.step;
},
else => unreachable,
};
cs.installed_headers.append(step_copy) catch @panic("OOM");
install_step.dependOn(step_copy);
}
cs.installed_headers.appendSlice(l.installed_headers.items) catch @panic("OOM");
}
pub fn addObjCopy(cs: *CompileStep, options: ObjCopyStep.Options) *ObjCopyStep {
const b = cs.step.owner;
var copy = options;
if (copy.basename == null) {
if (options.format) |f| {
copy.basename = b.fmt("{s}.{s}", .{ cs.name, @tagName(f) });
} else {
copy.basename = cs.name;
}
}
return b.addObjCopy(cs.getOutputSource(), copy);
}
pub const run = @compileError("deprecated; use std.Build.addRunArtifact");
pub const install = @compileError("deprecated; use std.Build.installArtifact");
pub fn checkObject(self: *CompileStep) *CheckObjectStep {
return CheckObjectStep.create(self.step.owner, self.getOutputSource(), self.target_info.target.ofmt);
}
pub fn setLinkerScriptPath(self: *CompileStep, source: FileSource) void {
const b = self.step.owner;
self.linker_script = source.dupe(b);
source.addStepDependencies(&self.step);
}
pub fn forceUndefinedSymbol(self: *CompileStep, symbol_name: []const u8) void {
const b = self.step.owner;
self.force_undefined_symbols.put(b.dupe(symbol_name), {}) catch @panic("OOM");
}
pub fn linkFramework(self: *CompileStep, framework_name: []const u8) void {
const b = self.step.owner;
self.frameworks.put(b.dupe(framework_name), .{}) catch @panic("OOM");
}
pub fn linkFrameworkNeeded(self: *CompileStep, framework_name: []const u8) void {
const b = self.step.owner;
self.frameworks.put(b.dupe(framework_name), .{
.needed = true,
}) catch @panic("OOM");
}
pub fn linkFrameworkWeak(self: *CompileStep, framework_name: []const u8) void {
const b = self.step.owner;
self.frameworks.put(b.dupe(framework_name), .{
.weak = true,
}) catch @panic("OOM");
}
pub fn dependsOnSystemLibrary(self: CompileStep, name: []const u8) bool {
if (isLibCLibrary(name)) {
return self.is_linking_libc;
}
if (isLibCppLibrary(name)) {
return self.is_linking_libcpp;
}
for (self.link_objects.items) |link_object| {
switch (link_object) {
.system_lib => |lib| if (mem.eql(u8, lib.name, name)) return true,
else => continue,
}
}
return false;
}
pub fn linkLibrary(self: *CompileStep, lib: *CompileStep) void {
assert(lib.kind == .lib);
self.linkLibraryOrObject(lib);
}
pub fn isDynamicLibrary(self: *CompileStep) bool {
return self.kind == .lib and self.linkage == Linkage.dynamic;
}
pub fn isStaticLibrary(self: *CompileStep) bool {
return self.kind == .lib and self.linkage != Linkage.dynamic;
}
pub fn producesPdbFile(self: *CompileStep) bool {
if (!self.target.isWindows() and !self.target.isUefi()) return false;
if (self.target.getObjectFormat() == .c) return false;
if (self.strip == true) return false;
return self.isDynamicLibrary() or self.kind == .exe or self.kind == .@"test";
}
pub fn linkLibC(self: *CompileStep) void {
self.is_linking_libc = true;
}
pub fn linkLibCpp(self: *CompileStep) void {
self.is_linking_libcpp = true;
}
pub fn defineCMacro(self: *CompileStep, name: []const u8, value: ?[]const u8) void {
const b = self.step.owner;
const macro = std.Build.constructCMacro(b.allocator, name, value);
self.c_macros.append(macro) catch @panic("OOM");
}
pub fn defineCMacroRaw(self: *CompileStep, name_and_value: []const u8) void {
const b = self.step.owner;
self.c_macros.append(b.dupe(name_and_value)) catch @panic("OOM");
}
pub fn linkSystemLibraryName(self: *CompileStep, name: []const u8) void {
const b = self.step.owner;
self.link_objects.append(.{
.system_lib = .{
.name = b.dupe(name),
.needed = false,
.weak = false,
.use_pkg_config = .no,
},
}) catch @panic("OOM");
}
pub fn linkSystemLibraryNeededName(self: *CompileStep, name: []const u8) void {
const b = self.step.owner;
self.link_objects.append(.{
.system_lib = .{
.name = b.dupe(name),
.needed = true,
.weak = false,
.use_pkg_config = .no,
},
}) catch @panic("OOM");
}
pub fn linkSystemLibraryWeakName(self: *CompileStep, name: []const u8) void {
const b = self.step.owner;
self.link_objects.append(.{
.system_lib = .{
.name = b.dupe(name),
.needed = false,
.weak = true,
.use_pkg_config = .no,
},
}) catch @panic("OOM");
}
pub fn linkSystemLibraryPkgConfigOnly(self: *CompileStep, lib_name: []const u8) void {
const b = self.step.owner;
self.link_objects.append(.{
.system_lib = .{
.name = b.dupe(lib_name),
.needed = false,
.weak = false,
.use_pkg_config = .force,
},
}) catch @panic("OOM");
}
pub fn linkSystemLibraryNeededPkgConfigOnly(self: *CompileStep, lib_name: []const u8) void {
const b = self.step.owner;
self.link_objects.append(.{
.system_lib = .{
.name = b.dupe(lib_name),
.needed = true,
.weak = false,
.use_pkg_config = .force,
},
}) catch @panic("OOM");
}
fn runPkgConfig(self: *CompileStep, lib_name: []const u8) ![]const []const u8 {
const b = self.step.owner;
const pkg_name = match: {
const pkgs = try getPkgConfigList(b);
for (pkgs) |pkg| {
if (mem.eql(u8, pkg.name, lib_name)) {
break :match pkg.name;
}
}
for (pkgs) |pkg| {
if (std.ascii.eqlIgnoreCase(pkg.name, lib_name)) {
break :match pkg.name;
}
}
for (pkgs) |pkg| {
if (std.ascii.indexOfIgnoreCase(pkg.name, lib_name)) |pos| {
if (pos != 0) continue;
if (mem.eql(u8, pkg.name[lib_name.len..], ".0")) {
break :match pkg.name;
}
}
}
if (mem.endsWith(u8, lib_name, "-1.0")) {
const trimmed_lib_name = lib_name[0 .. lib_name.len - "-1.0".len];
for (pkgs) |pkg| {
if (std.ascii.eqlIgnoreCase(pkg.name, trimmed_lib_name)) {
break :match pkg.name;
}
}
}
return error.PackageNotFound;
};
var code: u8 = undefined;
const stdout = if (b.execAllowFail(&[_][]const u8{
"pkg-config",
pkg_name,
"--cflags",
"--libs",
}, &code, .Ignore)) |stdout| stdout else |err| switch (err) {
error.ProcessTerminated => return error.PkgConfigCrashed,
error.ExecNotSupported => return error.PkgConfigFailed,
error.ExitCodeFailure => return error.PkgConfigFailed,
error.FileNotFound => return error.PkgConfigNotInstalled,
else => return err,
};
var zig_args = ArrayList([]const u8).init(b.allocator);
defer zig_args.deinit();
var it = mem.tokenize(u8, stdout, " \r\n\t");
while (it.next()) |tok| {
if (mem.eql(u8, tok, "-I")) {
const dir = it.next() orelse return error.PkgConfigInvalidOutput;
try zig_args.appendSlice(&[_][]const u8{ "-I", dir });
} else if (mem.startsWith(u8, tok, "-I")) {
try zig_args.append(tok);
} else if (mem.eql(u8, tok, "-L")) {
const dir = it.next() orelse return error.PkgConfigInvalidOutput;
try zig_args.appendSlice(&[_][]const u8{ "-L", dir });
} else if (mem.startsWith(u8, tok, "-L")) {
try zig_args.append(tok);
} else if (mem.eql(u8, tok, "-l")) {
const lib = it.next() orelse return error.PkgConfigInvalidOutput;
try zig_args.appendSlice(&[_][]const u8{ "-l", lib });
} else if (mem.startsWith(u8, tok, "-l")) {
try zig_args.append(tok);
} else if (mem.eql(u8, tok, "-D")) {
const macro = it.next() orelse return error.PkgConfigInvalidOutput;
try zig_args.appendSlice(&[_][]const u8{ "-D", macro });
} else if (mem.startsWith(u8, tok, "-D")) {
try zig_args.append(tok);
} else if (b.debug_pkg_config) {
return self.step.fail("unknown pkg-config flag '{s}'", .{tok});
}
}
return zig_args.toOwnedSlice();
}
pub fn linkSystemLibrary(self: *CompileStep, name: []const u8) void {
self.linkSystemLibraryInner(name, .{});
}
pub fn linkSystemLibraryNeeded(self: *CompileStep, name: []const u8) void {
self.linkSystemLibraryInner(name, .{ .needed = true });
}
pub fn linkSystemLibraryWeak(self: *CompileStep, name: []const u8) void {
self.linkSystemLibraryInner(name, .{ .weak = true });
}
fn linkSystemLibraryInner(self: *CompileStep, name: []const u8, opts: struct {
needed: bool = false,
weak: bool = false,
}) void {
const b = self.step.owner;
if (isLibCLibrary(name)) {
self.linkLibC();
return;
}
if (isLibCppLibrary(name)) {
self.linkLibCpp();
return;
}
self.link_objects.append(.{
.system_lib = .{
.name = b.dupe(name),
.needed = opts.needed,
.weak = opts.weak,
.use_pkg_config = .yes,
},
}) catch @panic("OOM");
}
pub fn addCSourceFiles(self: *CompileStep, files: []const []const u8, flags: []const []const u8) void {
const b = self.step.owner;
const c_source_files = b.allocator.create(CSourceFiles) catch @panic("OOM");
const files_copy = b.dupeStrings(files);
const flags_copy = b.dupeStrings(flags);
c_source_files.* = .{
.files = files_copy,
.flags = flags_copy,
};
self.link_objects.append(.{ .c_source_files = c_source_files }) catch @panic("OOM");
}
pub fn addCSourceFile(self: *CompileStep, file: []const u8, flags: []const []const u8) void {
self.addCSourceFileSource(.{
.args = flags,
.source = .{ .path = file },
});
}
pub fn addCSourceFileSource(self: *CompileStep, source: CSourceFile) void {
const b = self.step.owner;
const c_source_file = b.allocator.create(CSourceFile) catch @panic("OOM");
c_source_file.* = source.dupe(b);
self.link_objects.append(.{ .c_source_file = c_source_file }) catch @panic("OOM");
source.source.addStepDependencies(&self.step);
}
pub fn setVerboseLink(self: *CompileStep, value: bool) void {
self.verbose_link = value;
}
pub fn setVerboseCC(self: *CompileStep, value: bool) void {
self.verbose_cc = value;
}
pub fn overrideZigLibDir(self: *CompileStep, dir_path: []const u8) void {
const b = self.step.owner;
self.zig_lib_dir = b.dupePath(dir_path);
}
pub fn setMainPkgPath(self: *CompileStep, dir_path: []const u8) void {
const b = self.step.owner;
self.main_pkg_path = b.dupePath(dir_path);
}
pub fn setLibCFile(self: *CompileStep, libc_file: ?FileSource) void {
const b = self.step.owner;
self.libc_file = if (libc_file) |f| f.dupe(b) else null;
}
pub fn getOutputSource(self: *CompileStep) FileSource {
return .{ .generated = &self.output_path_source };
}
pub fn getOutputDirectorySource(self: *CompileStep) FileSource {
return .{ .generated = &self.output_dirname_source };
}
pub fn getOutputLibSource(self: *CompileStep) FileSource {
assert(self.kind == .lib);
return .{ .generated = &self.output_lib_path_source };
}
pub fn getOutputHSource(self: *CompileStep) FileSource {
assert(self.kind != .exe and self.kind != .@"test");
assert(self.emit_h);
return .{ .generated = &self.output_h_path_source };
}
pub fn getOutputPdbSource(self: *CompileStep) FileSource {
assert(self.target.isWindows() or self.target.isUefi());
return .{ .generated = &self.output_pdb_path_source };
}
pub fn addAssemblyFile(self: *CompileStep, path: []const u8) void {
const b = self.step.owner;
self.link_objects.append(.{
.assembly_file = .{ .path = b.dupe(path) },
}) catch @panic("OOM");
}
pub fn addAssemblyFileSource(self: *CompileStep, source: FileSource) void {
const b = self.step.owner;
const source_duped = source.dupe(b);
self.link_objects.append(.{ .assembly_file = source_duped }) catch @panic("OOM");
source_duped.addStepDependencies(&self.step);
}
pub fn addObjectFile(self: *CompileStep, source_file: []const u8) void {
self.addObjectFileSource(.{ .path = source_file });
}
pub fn addObjectFileSource(self: *CompileStep, source: FileSource) void {
const b = self.step.owner;
self.link_objects.append(.{ .static_path = source.dupe(b) }) catch @panic("OOM");
source.addStepDependencies(&self.step);
}
pub fn addObject(self: *CompileStep, obj: *CompileStep) void {
assert(obj.kind == .obj);
self.linkLibraryOrObject(obj);
}
pub const addSystemIncludeDir = @compileError("deprecated; use addSystemIncludePath");
pub const addIncludeDir = @compileError("deprecated; use addIncludePath");
pub const addLibPath = @compileError("deprecated, use addLibraryPath");
pub const addFrameworkDir = @compileError("deprecated, use addFrameworkPath");
pub fn addSystemIncludePath(self: *CompileStep, path: []const u8) void {
const b = self.step.owner;
self.include_dirs.append(IncludeDir{ .raw_path_system = b.dupe(path) }) catch @panic("OOM");
}
pub fn addIncludePath(self: *CompileStep, path: []const u8) void {
const b = self.step.owner;
self.include_dirs.append(IncludeDir{ .raw_path = b.dupe(path) }) catch @panic("OOM");
}
pub fn addConfigHeader(self: *CompileStep, config_header: *ConfigHeaderStep) void {
self.step.dependOn(&config_header.step);
self.include_dirs.append(.{ .config_header_step = config_header }) catch @panic("OOM");
}
pub fn addLibraryPath(self: *CompileStep, path: []const u8) void {
const b = self.step.owner;
self.lib_paths.append(.{ .path = b.dupe(path) }) catch @panic("OOM");
}
pub fn addLibraryPathDirectorySource(self: *CompileStep, directory_source: FileSource) void {
self.lib_paths.append(directory_source) catch @panic("OOM");
directory_source.addStepDependencies(&self.step);
}
pub fn addRPath(self: *CompileStep, path: []const u8) void {
const b = self.step.owner;
self.rpaths.append(.{ .path = b.dupe(path) }) catch @panic("OOM");
}
pub fn addRPathDirectorySource(self: *CompileStep, directory_source: FileSource) void {
self.rpaths.append(directory_source) catch @panic("OOM");
directory_source.addStepDependencies(&self.step);
}
pub fn addFrameworkPath(self: *CompileStep, dir_path: []const u8) void {
const b = self.step.owner;
self.framework_dirs.append(.{ .path = b.dupe(dir_path) }) catch @panic("OOM");
}
pub fn addFrameworkPathDirectorySource(self: *CompileStep, directory_source: FileSource) void {
self.framework_dirs.append(directory_source) catch @panic("OOM");
directory_source.addStepDependencies(&self.step);
}
pub fn addModule(cs: *CompileStep, name: []const u8, module: *Module) void {
const b = cs.step.owner;
cs.modules.put(b.dupe(name), module) catch @panic("OOM");
var done = std.AutoHashMap(*Module, void).init(b.allocator);
defer done.deinit();
cs.addRecursiveBuildDeps(module, &done) catch @panic("OOM");
}
pub fn addAnonymousModule(cs: *CompileStep, name: []const u8, options: std.Build.CreateModuleOptions) void {
const b = cs.step.owner;
const module = b.createModule(options);
return addModule(cs, name, module);
}
pub fn addOptions(cs: *CompileStep, module_name: []const u8, options: *OptionsStep) void {
addModule(cs, module_name, options.createModule());
}
fn addRecursiveBuildDeps(cs: *CompileStep, module: *Module, done: *std.AutoHashMap(*Module, void)) !void {
if (done.contains(module)) return;
try done.put(module, {});
module.source_file.addStepDependencies(&cs.step);
for (module.dependencies.values()) |dep| {
try cs.addRecursiveBuildDeps(dep, done);
}
}
pub fn addVcpkgPaths(self: *CompileStep, linkage: CompileStep.Linkage) !void {
const b = self.step.owner;
switch (b.vcpkg_root) {
.unattempted => {
b.vcpkg_root = if (try findVcpkgRoot(b.allocator)) |root|
VcpkgRoot{ .found = root }
else
.not_found;
},
.not_found => return error.VcpkgNotFound,
.found => {},
}
switch (b.vcpkg_root) {
.unattempted => unreachable,
.not_found => return error.VcpkgNotFound,
.found => |root| {
const allocator = b.allocator;
const triplet = try self.target.vcpkgTriplet(allocator, if (linkage == .static) .Static else .Dynamic);
defer b.allocator.free(triplet);
const include_path = b.pathJoin(&.{ root, "installed", triplet, "include" });
errdefer allocator.free(include_path);
try self.include_dirs.append(IncludeDir{ .raw_path = include_path });
const lib_path = b.pathJoin(&.{ root, "installed", triplet, "lib" });
try self.lib_paths.append(.{ .path = lib_path });
self.vcpkg_bin_path = b.pathJoin(&.{ root, "installed", triplet, "bin" });
},
}
}
pub fn setExecCmd(self: *CompileStep, args: []const ?[]const u8) void {
const b = self.step.owner;
assert(self.kind == .@"test");
const duped_args = b.allocator.alloc(?[]u8, args.len) catch @panic("OOM");
for (args, 0..) |arg, i| {
duped_args[i] = if (arg) |a| b.dupe(a) else null;
}
self.exec_cmd_args = duped_args;
}
fn linkLibraryOrObject(self: *CompileStep, other: *CompileStep) void {
self.step.dependOn(&other.step);
self.link_objects.append(.{ .other_step = other }) catch @panic("OOM");
self.include_dirs.append(.{ .other_step = other }) catch @panic("OOM");
for (other.installed_headers.items) |install_step| {
self.step.dependOn(install_step);
}
}
fn appendModuleArgs(
cs: *CompileStep,
zig_args: *ArrayList([]const u8),
) error{OutOfMemory}!void {
const b = cs.step.owner;
var mod_names = std.AutoHashMap(*Module, []const u8).init(b.allocator);
var names = std.StringHashMap(void).init(b.allocator);
var to_name = std.ArrayList(struct {
name: []const u8,
mod: *Module,
}).init(b.allocator);
{
var it = cs.modules.iterator();
while (it.next()) |kv| {
if (std.mem.indexOfScalar(u8, kv.key_ptr.*, ':') != null) {
@panic("Module names cannot contain colons");
}
try to_name.append(.{
.name = kv.key_ptr.*,
.mod = kv.value_ptr.*,
});
}
}
while (to_name.popOrNull()) |dep| {
if (mod_names.contains(dep.mod)) continue;
var buf = try b.allocator.alloc(u8, dep.name.len + 32);
std.mem.copy(u8, buf, dep.name);
var name = buf[0..dep.name.len];
var n: usize = 0;
while (names.contains(name)) {
name = std.fmt.bufPrint(buf, "{s}{}", .{ dep.name, n }) catch unreachable;
n += 1;
}
try mod_names.put(dep.mod, name);
try names.put(name, {});
var it = dep.mod.dependencies.iterator();
while (it.next()) |kv| {
if (std.mem.indexOfScalar(u8, kv.key_ptr.*, ':') != null) {
@panic("Module names cannot contain colons");
}
try to_name.append(.{
.name = kv.key_ptr.*,
.mod = kv.value_ptr.*,
});
}
}
{
var it = mod_names.iterator();
while (it.next()) |kv| {
const mod = kv.key_ptr.*;
const name = kv.value_ptr.*;
const deps_str = try constructDepString(b.allocator, mod_names, mod.dependencies);
const src = mod.builder.pathFromRoot(mod.source_file.getPath(mod.builder));
try zig_args.append("--mod");
try zig_args.append(try std.fmt.allocPrint(b.allocator, "{s}:{s}:{s}", .{ name, deps_str, src }));
}
}
const deps_str = try constructDepString(b.allocator, mod_names, cs.modules);
if (deps_str.len > 0) {
try zig_args.append("--deps");
try zig_args.append(deps_str);
}
}
fn constructDepString(
allocator: std.mem.Allocator,
mod_names: std.AutoHashMap(*Module, []const u8),
deps: std.StringArrayHashMap(*Module),
) ![]const u8 {
var deps_str = std.ArrayList(u8).init(allocator);
var it = deps.iterator();
while (it.next()) |kv| {
const expose = kv.key_ptr.*;
const name = mod_names.get(kv.value_ptr.*).?;
if (std.mem.eql(u8, expose, name)) {
try deps_str.writer().print("{s},", .{name});
} else {
try deps_str.writer().print("{s}={s},", .{ expose, name });
}
}
if (deps_str.items.len > 0) {
return deps_str.items[0 .. deps_str.items.len - 1];
} else {
return "";
}
}
fn make(step: *Step, prog_node: *std.Progress.Node) !void {
const b = step.owner;
const self = @fieldParentPtr(CompileStep, "step", step);
if (self.root_src == null and self.link_objects.items.len == 0) {
return step.fail("the linker needs one or more objects to link", .{});
}
var zig_args = ArrayList([]const u8).init(b.allocator);
defer zig_args.deinit();
try zig_args.append(b.zig_exe);
const cmd = switch (self.kind) {
.lib => "build-lib",
.exe => "build-exe",
.obj => "build-obj",
.@"test" => "test",
};
try zig_args.append(cmd);
if (b.reference_trace) |some| {
try zig_args.append(try std.fmt.allocPrint(b.allocator, "-freference-trace={d}", .{some}));
}
try addFlag(&zig_args, "LLVM", self.use_llvm);
try addFlag(&zig_args, "LLD", self.use_lld);
if (self.target.ofmt) |ofmt| {
try zig_args.append(try std.fmt.allocPrint(b.allocator, "-ofmt={s}", .{@tagName(ofmt)}));
}
if (self.entry_symbol_name) |entry| {
try zig_args.append("--entry");
try zig_args.append(entry);
}
{
var it = self.force_undefined_symbols.keyIterator();
while (it.next()) |symbol_name| {
try zig_args.append("--force_undefined");
try zig_args.append(symbol_name.*);
}
}
if (self.stack_size) |stack_size| {
try zig_args.append("--stack");
try zig_args.append(try std.fmt.allocPrint(b.allocator, "{}", .{stack_size}));
}
if (self.root_src) |root_src| try zig_args.append(root_src.getPath(b));
var transitive_deps: TransitiveDeps = .{
.link_objects = ArrayList(LinkObject).init(b.allocator),
.seen_system_libs = StringHashMap(void).init(b.allocator),
.seen_steps = std.AutoHashMap(*const Step, void).init(b.allocator),
.is_linking_libcpp = self.is_linking_libcpp,
.is_linking_libc = self.is_linking_libc,
.frameworks = &self.frameworks,
};
try transitive_deps.seen_steps.put(&self.step, {});
try transitive_deps.add(self.link_objects.items);
var prev_has_extra_flags = false;
for (transitive_deps.link_objects.items) |link_object| {
switch (link_object) {
.static_path => |static_path| try zig_args.append(static_path.getPath(b)),
.other_step => |other| switch (other.kind) {
.exe => @panic("Cannot link with an executable build artifact"),
.@"test" => @panic("Cannot link with a test"),
.obj => {
try zig_args.append(other.getOutputSource().getPath(b));
},
.lib => l: {
if (self.isStaticLibrary() and other.isStaticLibrary()) {
break :l;
}
const full_path_lib = other.getOutputLibSource().getPath(b);
try zig_args.append(full_path_lib);
if (other.linkage == Linkage.dynamic and !self.target.isWindows()) {
if (fs.path.dirname(full_path_lib)) |dirname| {
try zig_args.append("-rpath");
try zig_args.append(dirname);
}
}
},
},
.system_lib => |system_lib| {
const prefix: []const u8 = prefix: {
if (system_lib.needed) break :prefix "-needed-l";
if (system_lib.weak) break :prefix "-weak-l";
break :prefix "-l";
};
switch (system_lib.use_pkg_config) {
.no => try zig_args.append(b.fmt("{s}{s}", .{ prefix, system_lib.name })),
.yes, .force => {
if (self.runPkgConfig(system_lib.name)) |args| {
try zig_args.appendSlice(args);
} else |err| switch (err) {
error.PkgConfigInvalidOutput,
error.PkgConfigCrashed,
error.PkgConfigFailed,
error.PkgConfigNotInstalled,
error.PackageNotFound,
=> switch (system_lib.use_pkg_config) {
.yes => {
try zig_args.append(b.fmt("{s}{s}", .{
prefix,
system_lib.name,
}));
},
.force => {
panic("pkg-config failed for library {s}", .{system_lib.name});
},
.no => unreachable,
},
else => |e| return e,
}
},
}
},
.assembly_file => |asm_file| {
if (prev_has_extra_flags) {
try zig_args.append("-extra-cflags");
try zig_args.append("--");
prev_has_extra_flags = false;
}
try zig_args.append(asm_file.getPath(b));
},
.c_source_file => |c_source_file| {
if (c_source_file.args.len == 0) {
if (prev_has_extra_flags) {
try zig_args.append("-cflags");
try zig_args.append("--");
prev_has_extra_flags = false;
}
} else {
try zig_args.append("-cflags");
for (c_source_file.args) |arg| {
try zig_args.append(arg);
}
try zig_args.append("--");
}
try zig_args.append(c_source_file.source.getPath(b));
},
.c_source_files => |c_source_files| {
if (c_source_files.flags.len == 0) {
if (prev_has_extra_flags) {
try zig_args.append("-cflags");
try zig_args.append("--");
prev_has_extra_flags = false;
}
} else {
try zig_args.append("-cflags");
for (c_source_files.flags) |flag| {
try zig_args.append(flag);
}
try zig_args.append("--");
}
for (c_source_files.files) |file| {
try zig_args.append(b.pathFromRoot(file));
}
},
}
}
if (transitive_deps.is_linking_libcpp) {
try zig_args.append("-lc++");
}
if (transitive_deps.is_linking_libc) {
try zig_args.append("-lc");
}
if (self.image_base) |image_base| {
try zig_args.append("--image-base");
try zig_args.append(b.fmt("0x{x}", .{image_base}));
}
if (self.filter) |filter| {
try zig_args.append("--test-filter");
try zig_args.append(filter);
}
if (self.test_evented_io) {
try zig_args.append("--test-evented-io");
}
if (self.test_runner) |test_runner| {
try zig_args.append("--test-runner");
try zig_args.append(b.pathFromRoot(test_runner));
}
for (b.debug_log_scopes) |log_scope| {
try zig_args.append("--debug-log");
try zig_args.append(log_scope);
}
if (b.debug_compile_errors) {
try zig_args.append("--debug-compile-errors");
}
if (b.verbose_cimport) try zig_args.append("--verbose-cimport");
if (b.verbose_air) try zig_args.append("--verbose-air");
if (b.verbose_llvm_ir) |path| try zig_args.append(b.fmt("--verbose-llvm-ir={s}", .{path}));
if (b.verbose_llvm_bc) |path| try zig_args.append(b.fmt("--verbose-llvm-bc={s}", .{path}));
if (b.verbose_link or self.verbose_link) try zig_args.append("--verbose-link");
if (b.verbose_cc or self.verbose_cc) try zig_args.append("--verbose-cc");
if (b.verbose_llvm_cpu_features) try zig_args.append("--verbose-llvm-cpu-features");
if (self.emit_analysis.getArg(b, "emit-analysis")) |arg| try zig_args.append(arg);
if (self.emit_asm.getArg(b, "emit-asm")) |arg| try zig_args.append(arg);
if (self.emit_bin.getArg(b, "emit-bin")) |arg| try zig_args.append(arg);
if (self.emit_docs.getArg(b, "emit-docs")) |arg| try zig_args.append(arg);
if (self.emit_implib.getArg(b, "emit-implib")) |arg| try zig_args.append(arg);
if (self.emit_llvm_bc.getArg(b, "emit-llvm-bc")) |arg| try zig_args.append(arg);
if (self.emit_llvm_ir.getArg(b, "emit-llvm-ir")) |arg| try zig_args.append(arg);
if (self.emit_h) try zig_args.append("-femit-h");
try addFlag(&zig_args, "strip", self.strip);
try addFlag(&zig_args, "unwind-tables", self.unwind_tables);
if (self.dwarf_format) |dwarf_format| {
try zig_args.append(switch (dwarf_format) {
.@"32" => "-gdwarf32",
.@"64" => "-gdwarf64",
});
}
switch (self.compress_debug_sections) {
.none => {},
.zlib => try zig_args.append("--compress-debug-sections=zlib"),
}
if (self.link_eh_frame_hdr) {
try zig_args.append("--eh-frame-hdr");
}
if (self.link_emit_relocs) {
try zig_args.append("--emit-relocs");
}
if (self.link_function_sections) {
try zig_args.append("-ffunction-sections");
}
if (self.link_gc_sections) |x| {
try zig_args.append(if (x) "--gc-sections" else "--no-gc-sections");
}
if (!self.linker_dynamicbase) {
try zig_args.append("--no-dynamicbase");
}
if (self.linker_allow_shlib_undefined) |x| {
try zig_args.append(if (x) "-fallow-shlib-undefined" else "-fno-allow-shlib-undefined");
}
if (self.link_z_notext) {
try zig_args.append("-z");
try zig_args.append("notext");
}
if (!self.link_z_relro) {
try zig_args.append("-z");
try zig_args.append("norelro");
}
if (self.link_z_lazy) {
try zig_args.append("-z");
try zig_args.append("lazy");
}
if (self.link_z_common_page_size) |size| {
try zig_args.append("-z");
try zig_args.append(b.fmt("common-page-size={d}", .{size}));
}
if (self.link_z_max_page_size) |size| {
try zig_args.append("-z");
try zig_args.append(b.fmt("max-page-size={d}", .{size}));
}
if (self.libc_file) |libc_file| {
try zig_args.append("--libc");
try zig_args.append(libc_file.getPath(b));
} else if (b.libc_file) |libc_file| {
try zig_args.append("--libc");
try zig_args.append(libc_file);
}
switch (self.optimize) {
.Debug => {},
else => try zig_args.append(b.fmt("-O{s}", .{@tagName(self.optimize)})),
}
try zig_args.append("--cache-dir");
try zig_args.append(b.cache_root.path orelse ".");
try zig_args.append("--global-cache-dir");
try zig_args.append(b.global_cache_root.path orelse ".");
try zig_args.append("--name");
try zig_args.append(self.name);
if (self.linkage) |some| switch (some) {
.dynamic => try zig_args.append("-dynamic"),
.static => try zig_args.append("-static"),
};
if (self.kind == .lib and self.linkage != null and self.linkage.? == .dynamic) {
if (self.version) |version| {
try zig_args.append("--version");
try zig_args.append(b.fmt("{}", .{version}));
}
if (self.target.isDarwin()) {
const install_name = self.install_name orelse b.fmt("@rpath/{s}{s}{s}", .{
self.target.libPrefix(),
self.name,
self.target.dynamicLibSuffix(),
});
try zig_args.append("-install_name");
try zig_args.append(install_name);
}
}
if (self.entitlements) |entitlements| {
try zig_args.appendSlice(&[_][]const u8{ "--entitlements", entitlements });
}
if (self.pagezero_size) |pagezero_size| {
const size = try std.fmt.allocPrint(b.allocator, "{x}", .{pagezero_size});
try zig_args.appendSlice(&[_][]const u8{ "-pagezero_size", size });
}
if (self.search_strategy) |strat| switch (strat) {
.paths_first => try zig_args.append("-search_paths_first"),
.dylibs_first => try zig_args.append("-search_dylibs_first"),
};
if (self.headerpad_size) |headerpad_size| {
const size = try std.fmt.allocPrint(b.allocator, "{x}", .{headerpad_size});
try zig_args.appendSlice(&[_][]const u8{ "-headerpad", size });
}
if (self.headerpad_max_install_names) {
try zig_args.append("-headerpad_max_install_names");
}
if (self.dead_strip_dylibs) {
try zig_args.append("-dead_strip_dylibs");
}
try addFlag(&zig_args, "compiler-rt", self.bundle_compiler_rt);
try addFlag(&zig_args, "single-threaded", self.single_threaded);
if (self.disable_stack_probing) {
try zig_args.append("-fno-stack-check");
}
try addFlag(&zig_args, "stack-protector", self.stack_protector);
if (self.red_zone) |red_zone| {
if (red_zone) {
try zig_args.append("-mred-zone");
} else {
try zig_args.append("-mno-red-zone");
}
}
try addFlag(&zig_args, "omit-frame-pointer", self.omit_frame_pointer);
try addFlag(&zig_args, "dll-export-fns", self.dll_export_fns);
if (self.disable_sanitize_c) {
try zig_args.append("-fno-sanitize-c");
}
if (self.sanitize_thread) {
try zig_args.append("-fsanitize-thread");
}
if (self.rdynamic) {
try zig_args.append("-rdynamic");
}
if (self.import_memory) {
try zig_args.append("--import-memory");
}
if (self.import_symbols) {
try zig_args.append("--import-symbols");
}
if (self.import_table) {
try zig_args.append("--import-table");
}
if (self.export_table) {
try zig_args.append("--export-table");
}
if (self.initial_memory) |initial_memory| {
try zig_args.append(b.fmt("--initial-memory={d}", .{initial_memory}));
}
if (self.max_memory) |max_memory| {
try zig_args.append(b.fmt("--max-memory={d}", .{max_memory}));
}
if (self.shared_memory) {
try zig_args.append("--shared-memory");
}
if (self.global_base) |global_base| {
try zig_args.append(b.fmt("--global-base={d}", .{global_base}));
}
if (self.code_model != .default) {
try zig_args.append("-mcmodel");
try zig_args.append(@tagName(self.code_model));
}
if (self.wasi_exec_model) |model| {
try zig_args.append(b.fmt("-mexec-model={s}", .{@tagName(model)}));
}
for (self.export_symbol_names) |symbol_name| {
try zig_args.append(b.fmt("--export={s}", .{symbol_name}));
}
if (!self.target.isNative()) {
try zig_args.appendSlice(&.{
"-target", try self.target.zigTriple(b.allocator),
"-mcpu", try std.Build.serializeCpu(b.allocator, self.target.getCpu()),
});
if (self.target.dynamic_linker.get()) |dynamic_linker| {
try zig_args.append("--dynamic-linker");
try zig_args.append(dynamic_linker);
}
}
if (self.linker_script) |linker_script| {
try zig_args.append("--script");
try zig_args.append(linker_script.getPath(b));
}
if (self.version_script) |version_script| {
try zig_args.append("--version-script");
try zig_args.append(b.pathFromRoot(version_script));
}
if (self.kind == .@"test") {
if (self.exec_cmd_args) |exec_cmd_args| {
for (exec_cmd_args) |cmd_arg| {
if (cmd_arg) |arg| {
try zig_args.append("--test-cmd");
try zig_args.append(arg);
} else {
try zig_args.append("--test-cmd-bin");
}
}
}
}
try self.appendModuleArgs(&zig_args);
for (self.include_dirs.items) |include_dir| {
switch (include_dir) {
.raw_path => |include_path| {
try zig_args.append("-I");
try zig_args.append(b.pathFromRoot(include_path));
},
.raw_path_system => |include_path| {
if (b.sysroot != null) {
try zig_args.append("-iwithsysroot");
} else {
try zig_args.append("-isystem");
}
const resolved_include_path = b.pathFromRoot(include_path);
const common_include_path = if (builtin.os.tag == .windows and b.sysroot != null and fs.path.isAbsolute(resolved_include_path)) blk: {
const disk_designator = fs.path.diskDesignatorWindows(resolved_include_path);
if (mem.indexOf(u8, resolved_include_path, disk_designator)) |where| {
break :blk resolved_include_path[where + disk_designator.len ..];
}
break :blk resolved_include_path;
} else resolved_include_path;
try zig_args.append(common_include_path);
},
.other_step => |other| {
if (other.emit_h) {
const h_path = other.getOutputHSource().getPath(b);
try zig_args.append("-isystem");
try zig_args.append(fs.path.dirname(h_path).?);
}
if (other.installed_headers.items.len > 0) {
try zig_args.append("-I");
try zig_args.append(b.pathJoin(&.{
other.step.owner.install_prefix, "include",
}));
}
},
.config_header_step => |config_header| {
const full_file_path = config_header.output_file.path.?;
const header_dir_path = full_file_path[0 .. full_file_path.len - config_header.include_path.len];
try zig_args.appendSlice(&.{ "-I", header_dir_path });
},
}
}
for (self.c_macros.items) |c_macro| {
try zig_args.append("-D");
try zig_args.append(c_macro);
}
try zig_args.ensureUnusedCapacity(2 * self.lib_paths.items.len);
for (self.lib_paths.items) |lib_path| {
zig_args.appendAssumeCapacity("-L");
zig_args.appendAssumeCapacity(lib_path.getPath2(b, step));
}
try zig_args.ensureUnusedCapacity(2 * self.rpaths.items.len);
for (self.rpaths.items) |rpath| {
zig_args.appendAssumeCapacity("-rpath");
if (self.target_info.target.isDarwin()) switch (rpath) {
.path => |path| {
if (mem.startsWith(u8, path, "@executable_path") or
mem.startsWith(u8, path, "@loader_path"))
{
zig_args.appendAssumeCapacity(path);
continue;
}
},
.generated => {},
};
zig_args.appendAssumeCapacity(rpath.getPath2(b, step));
}
for (self.framework_dirs.items) |directory_source| {
if (b.sysroot != null) {
try zig_args.append("-iframeworkwithsysroot");
} else {
try zig_args.append("-iframework");
}
try zig_args.append(directory_source.getPath2(b, step));
try zig_args.append("-F");
try zig_args.append(directory_source.getPath2(b, step));
}
{
var it = self.frameworks.iterator();
while (it.next()) |entry| {
const name = entry.key_ptr.*;
const info = entry.value_ptr.*;
if (info.needed) {
try zig_args.append("-needed_framework");
} else if (info.weak) {
try zig_args.append("-weak_framework");
} else {
try zig_args.append("-framework");
}
try zig_args.append(name);
}
}
if (b.sysroot) |sysroot| {
try zig_args.appendSlice(&[_][]const u8{ "--sysroot", sysroot });
}
for (b.search_prefixes.items) |search_prefix| {
var prefix_dir = fs.cwd().openDir(search_prefix, .{}) catch |err| {
return step.fail("unable to open prefix directory '{s}': {s}", .{
search_prefix, @errorName(err),
});
};
defer prefix_dir.close();
if (prefix_dir.accessZ("lib", .{})) |_| {
try zig_args.appendSlice(&.{
"-L", try fs.path.join(b.allocator, &.{ search_prefix, "lib" }),
});
} else |err| switch (err) {
error.FileNotFound => {},
else => |e| return step.fail("unable to access '{s}/lib' directory: {s}", .{
search_prefix, @errorName(e),
}),
}
if (prefix_dir.accessZ("include", .{})) |_| {
try zig_args.appendSlice(&.{
"-I", try fs.path.join(b.allocator, &.{ search_prefix, "include" }),
});
} else |err| switch (err) {
error.FileNotFound => {},
else => |e| return step.fail("unable to access '{s}/include' directory: {s}", .{
search_prefix, @errorName(e),
}),
}
}
try addFlag(&zig_args, "valgrind", self.valgrind_support);
try addFlag(&zig_args, "each-lib-rpath", self.each_lib_rpath);
try addFlag(&zig_args, "build-id", self.build_id);
if (self.zig_lib_dir) |dir| {
try zig_args.append("--zig-lib-dir");
try zig_args.append(b.pathFromRoot(dir));
} else if (b.zig_lib_dir) |dir| {
try zig_args.append("--zig-lib-dir");
try zig_args.append(dir);
}
if (self.main_pkg_path) |dir| {
try zig_args.append("--main-pkg-path");
try zig_args.append(b.pathFromRoot(dir));
}
try addFlag(&zig_args, "PIC", self.force_pic);
try addFlag(&zig_args, "PIE", self.pie);
try addFlag(&zig_args, "lto", self.want_lto);
if (self.subsystem) |subsystem| {
try zig_args.append("--subsystem");
try zig_args.append(switch (subsystem) {
.Console => "console",
.Windows => "windows",
.Posix => "posix",
.Native => "native",
.EfiApplication => "efi_application",
.EfiBootServiceDriver => "efi_boot_service_driver",
.EfiRom => "efi_rom",
.EfiRuntimeDriver => "efi_runtime_driver",
});
}
try zig_args.append("--listen=-");
var args_length: usize = 0;
for (zig_args.items) |arg| {
args_length += arg.len + 1;
}
if (args_length >= 30 * 1024) {
try b.cache_root.handle.makePath("args");
const args_to_escape = zig_args.items[2..];
var escaped_args = try ArrayList([]const u8).initCapacity(b.allocator, args_to_escape.len);
arg_blk: for (args_to_escape) |arg| {
for (arg, 0..) |c, arg_idx| {
if (c == '\\' or c == '"') {
var escaped = try ArrayList(u8).initCapacity(b.allocator, arg.len + 1);
const writer = escaped.writer();
try writer.writeAll(arg[0..arg_idx]);
for (arg[arg_idx..]) |to_escape| {
if (to_escape == '\\' or to_escape == '"') try writer.writeByte('\\');
try writer.writeByte(to_escape);
}
escaped_args.appendAssumeCapacity(escaped.items);
continue :arg_blk;
}
}
escaped_args.appendAssumeCapacity(arg);
}
const partially_quoted = try std.mem.join(b.allocator, "\" \"", escaped_args.items);
const args = try std.mem.concat(b.allocator, u8, &[_][]const u8{ "\"", partially_quoted, "\"" });
var args_hash: [Sha256.digest_length]u8 = undefined;
Sha256.hash(args, &args_hash, .{});
var args_hex_hash: [Sha256.digest_length * 2]u8 = undefined;
_ = try std.fmt.bufPrint(
&args_hex_hash,
"{s}",
.{std.fmt.fmtSliceHexLower(&args_hash)},
);
const args_file = "args" ++ fs.path.sep_str ++ args_hex_hash;
try b.cache_root.handle.writeFile(args_file, args);
const resolved_args_file = try mem.concat(b.allocator, u8, &.{
"@",
try b.cache_root.join(b.allocator, &.{args_file}),
});
zig_args.shrinkRetainingCapacity(2);
try zig_args.append(resolved_args_file);
}
const output_bin_path = step.evalZigProcess(zig_args.items, prog_node) catch |err| switch (err) {
error.NeedCompileErrorCheck => {
assert(self.expect_errors.len != 0);
try checkCompileErrors(self);
return;
},
else => |e| return e,
};
const output_dir = fs.path.dirname(output_bin_path).?;
{
self.output_dirname_source.path = output_dir;
self.output_path_source.path = b.pathJoin(
&.{ output_dir, self.out_filename },
);
if (self.kind == .lib) {
self.output_lib_path_source.path = b.pathJoin(
&.{ output_dir, self.out_lib_filename },
);
}
if (self.emit_h) {
self.output_h_path_source.path = b.pathJoin(
&.{ output_dir, self.out_h_filename },
);
}
if (self.target.isWindows() or self.target.isUefi()) {
self.output_pdb_path_source.path = b.pathJoin(
&.{ output_dir, self.out_pdb_filename },
);
}
}
if (self.kind == .lib and self.linkage != null and self.linkage.? == .dynamic and
self.version != null and self.target.wantSharedLibSymLinks())
{
try doAtomicSymLinks(
step,
self.getOutputSource().getPath(b),
self.major_only_filename.?,
self.name_only_filename.?,
);
}
}
fn isLibCLibrary(name: []const u8) bool {
const libc_libraries = [_][]const u8{ "c", "m", "dl", "rt", "pthread" };
for (libc_libraries) |libc_lib_name| {
if (mem.eql(u8, name, libc_lib_name))
return true;
}
return false;
}
fn isLibCppLibrary(name: []const u8) bool {
const libcpp_libraries = [_][]const u8{ "c++", "stdc++" };
for (libcpp_libraries) |libcpp_lib_name| {
if (mem.eql(u8, name, libcpp_lib_name))
return true;
}
return false;
}
fn findVcpkgRoot(allocator: Allocator) !?[]const u8 {
const appdata_path = try fs.getAppDataDir(allocator, "vcpkg");
defer allocator.free(appdata_path);
const path_file = try fs.path.join(allocator, &[_][]const u8{ appdata_path, "vcpkg.path.txt" });
defer allocator.free(path_file);
const file = fs.cwd().openFile(path_file, .{}) catch return null;
defer file.close();
const size = @intCast(usize, try file.getEndPos());
const vcpkg_path = try allocator.alloc(u8, size);
const size_read = try file.read(vcpkg_path);
std.debug.assert(size == size_read);
return vcpkg_path;
}
pub fn doAtomicSymLinks(
step: *Step,
output_path: []const u8,
filename_major_only: []const u8,
filename_name_only: []const u8,
) !void {
const arena = step.owner.allocator;
const out_dir = fs.path.dirname(output_path) orelse ".";
const out_basename = fs.path.basename(output_path);
const major_only_path = try fs.path.join(arena, &.{ out_dir, filename_major_only });
fs.atomicSymLink(arena, out_basename, major_only_path) catch |err| {
return step.fail("unable to symlink {s} -> {s}: {s}", .{
major_only_path, out_basename, @errorName(err),
});
};
const name_only_path = try fs.path.join(arena, &.{ out_dir, filename_name_only });
fs.atomicSymLink(arena, filename_major_only, name_only_path) catch |err| {
return step.fail("Unable to symlink {s} -> {s}: {s}", .{
name_only_path, filename_major_only, @errorName(err),
});
};
}
fn execPkgConfigList(self: *std.Build, out_code: *u8) (PkgConfigError || ExecError)![]const PkgConfigPkg {
const stdout = try self.execAllowFail(&[_][]const u8{ "pkg-config", "--list-all" }, out_code, .Ignore);
var list = ArrayList(PkgConfigPkg).init(self.allocator);
errdefer list.deinit();
var line_it = mem.tokenize(u8, stdout, "\r\n");
while (line_it.next()) |line| {
if (mem.trim(u8, line, " \t").len == 0) continue;
var tok_it = mem.tokenize(u8, line, " \t");
try list.append(PkgConfigPkg{
.name = tok_it.next() orelse return error.PkgConfigInvalidOutput,
.desc = tok_it.rest(),
});
}
return list.toOwnedSlice();
}
fn getPkgConfigList(self: *std.Build) ![]const PkgConfigPkg {
if (self.pkg_config_pkg_list) |res| {
return res;
}
var code: u8 = undefined;
if (execPkgConfigList(self, &code)) |list| {
self.pkg_config_pkg_list = list;
return list;
} else |err| {
const result = switch (err) {
error.ProcessTerminated => error.PkgConfigCrashed,
error.ExecNotSupported => error.PkgConfigFailed,
error.ExitCodeFailure => error.PkgConfigFailed,
error.FileNotFound => error.PkgConfigNotInstalled,
error.InvalidName => error.PkgConfigNotInstalled,
error.PkgConfigInvalidOutput => error.PkgConfigInvalidOutput,
else => return err,
};
self.pkg_config_pkg_list = result;
return result;
}
}
fn addFlag(args: *ArrayList([]const u8), comptime name: []const u8, opt: ?bool) !void {
const cond = opt orelse return;
try args.ensureUnusedCapacity(1);
if (cond) {
args.appendAssumeCapacity("-f" ++ name);
} else {
args.appendAssumeCapacity("-fno-" ++ name);
}
}
const TransitiveDeps = struct {
link_objects: ArrayList(LinkObject),
seen_system_libs: StringHashMap(void),
seen_steps: std.AutoHashMap(*const Step, void),
is_linking_libcpp: bool,
is_linking_libc: bool,
frameworks: *StringHashMap(FrameworkLinkInfo),
fn add(td: *TransitiveDeps, link_objects: []const LinkObject) !void {
try td.link_objects.ensureUnusedCapacity(link_objects.len);
for (link_objects) |link_object| {
try td.link_objects.append(link_object);
switch (link_object) {
.other_step => |other| try addInner(td, other, other.isDynamicLibrary()),
else => {},
}
}
}
fn addInner(td: *TransitiveDeps, other: *CompileStep, dyn: bool) !void {
td.is_linking_libcpp = td.is_linking_libcpp or other.is_linking_libcpp;
td.is_linking_libc = td.is_linking_libc or other.is_linking_libc;
if (!dyn) {
var it = other.frameworks.iterator();
while (it.next()) |framework| {
try td.frameworks.put(framework.key_ptr.*, framework.value_ptr.*);
}
}
for (other.link_objects.items) |other_link_object| {
switch (other_link_object) {
.system_lib => |system_lib| {
if ((try td.seen_system_libs.fetchPut(system_lib.name, {})) != null)
continue;
if (dyn)
continue;
try td.link_objects.append(other_link_object);
},
.other_step => |inner_other| {
if ((try td.seen_steps.fetchPut(&inner_other.step, {})) != null)
continue;
if (!dyn)
try td.link_objects.append(other_link_object);
try addInner(td, inner_other, dyn or inner_other.isDynamicLibrary());
},
else => continue,
}
}
}
};
fn checkCompileErrors(self: *CompileStep) !void {
const actual_eb = self.step.result_error_bundle;
self.step.result_error_bundle = std.zig.ErrorBundle.empty;
const arena = self.step.owner.allocator;
var actual_stderr_list = std.ArrayList(u8).init(arena);
try actual_eb.renderToWriter(.{
.ttyconf = .no_color,
.include_reference_trace = false,
.include_source_line = false,
}, actual_stderr_list.writer());
const actual_stderr = try actual_stderr_list.toOwnedSlice();
var expected_generated = std.ArrayList(u8).init(arena);
var actual_line_it = mem.split(u8, actual_stderr, "\n");
for (self.expect_errors) |expect_line| {
const actual_line = actual_line_it.next() orelse {
try expected_generated.appendSlice(expect_line);
try expected_generated.append('\n');
continue;
};
if (mem.endsWith(u8, actual_line, expect_line)) {
try expected_generated.appendSlice(actual_line);
try expected_generated.append('\n');
continue;
}
if (mem.startsWith(u8, expect_line, ":?:?: ")) {
if (mem.endsWith(u8, actual_line, expect_line[":?:?: ".len..])) {
try expected_generated.appendSlice(actual_line);
try expected_generated.append('\n');
continue;
}
}
try expected_generated.appendSlice(expect_line);
try expected_generated.append('\n');
}
if (mem.eql(u8, expected_generated.items, actual_stderr)) return;
return self.step.fail(
\\
\\========= expected: =====================
\\{s}
\\========= but found: ====================
\\{s}
\\=========================================
, .{ expected_generated.items, actual_stderr });
}