mirror of
https://github.com/ziglang/zig.git
synced 2024-11-26 15:12:31 +00:00
b86c4bde64
writeFile was deprecated in favor of writeFile2 in f645022d16
. This commit renames writeFile2 to writeFile and makes writeFile2 a compile error.
331 lines
12 KiB
Zig
331 lines
12 KiB
Zig
//! To get started, run this tool with no args and read the help message.
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//!
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//! The build system of Linux requires specifying a single target
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//! architecture. Meanwhile, Zig supports out-of-the-box cross compilation for
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//! every target. So the process to create libc headers that Zig ships is to use
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//! this tool.
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//!
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//! First, use the Linux build systems to create installations of all the
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//! targets in the `linux_targets` variable.
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//!
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//! Next, run this tool to create a new directory which puts .h files into
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//! <arch> subdirectories, with `any-linux-any` being files that apply to
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//! all architectures.
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//!
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//! You'll then have to manually update Zig source repo with these new files.
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const std = @import("std");
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const Arch = std.Target.Cpu.Arch;
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const Abi = std.Target.Abi;
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const assert = std.debug.assert;
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const Blake3 = std.crypto.hash.Blake3;
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const LibCTarget = struct {
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name: []const u8,
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arch: MultiArch,
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};
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const MultiArch = union(enum) {
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arm,
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arm64,
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loongarch,
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mips,
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powerpc,
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riscv,
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sparc,
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x86,
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specific: Arch,
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fn eql(a: MultiArch, b: MultiArch) bool {
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if (@intFromEnum(a) != @intFromEnum(b))
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return false;
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if (a != .specific)
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return true;
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return a.specific == b.specific;
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}
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};
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const linux_targets = [_]LibCTarget{
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LibCTarget{
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.name = "arc",
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.arch = MultiArch{ .specific = Arch.arc },
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},
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LibCTarget{
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.name = "arm",
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.arch = .arm,
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},
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LibCTarget{
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.name = "arm64",
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.arch = .{ .specific = .aarch64 },
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},
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LibCTarget{
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.name = "csky",
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.arch = .{ .specific = .csky },
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},
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LibCTarget{
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.name = "hexagon",
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.arch = .{ .specific = .hexagon },
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},
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LibCTarget{
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.name = "m68k",
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.arch = .{ .specific = .m68k },
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},
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LibCTarget{
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.name = "loongarch",
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.arch = .loongarch,
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},
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LibCTarget{
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.name = "mips",
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.arch = .mips,
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},
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LibCTarget{
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.name = "powerpc",
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.arch = .powerpc,
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},
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LibCTarget{
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.name = "riscv",
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.arch = .riscv,
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},
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LibCTarget{
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.name = "s390",
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.arch = .{ .specific = .s390x },
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},
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LibCTarget{
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.name = "sparc",
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.arch = .{ .specific = .sparc },
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},
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LibCTarget{
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.name = "x86",
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.arch = .x86,
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},
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LibCTarget{
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.name = "xtensa",
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.arch = .{ .specific = .xtensa },
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},
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};
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const DestTarget = struct {
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arch: MultiArch,
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const HashContext = struct {
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pub fn hash(self: @This(), a: DestTarget) u32 {
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_ = self;
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var hasher = std.hash.Wyhash.init(0);
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std.hash.autoHash(&hasher, a.arch);
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return @as(u32, @truncate(hasher.final()));
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}
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pub fn eql(self: @This(), a: DestTarget, b: DestTarget, b_index: usize) bool {
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_ = self;
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_ = b_index;
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return a.arch.eql(b.arch);
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}
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};
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};
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const Contents = struct {
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bytes: []const u8,
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hit_count: usize,
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hash: []const u8,
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is_generic: bool,
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fn hitCountLessThan(context: void, lhs: *const Contents, rhs: *const Contents) bool {
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_ = context;
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return lhs.hit_count < rhs.hit_count;
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}
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};
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const HashToContents = std.StringHashMap(Contents);
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const TargetToHash = std.ArrayHashMap(DestTarget, []const u8, DestTarget.HashContext, true);
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const PathTable = std.StringHashMap(*TargetToHash);
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pub fn main() !void {
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var arena_state = std.heap.ArenaAllocator.init(std.heap.page_allocator);
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const arena = arena_state.allocator();
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const args = try std.process.argsAlloc(arena);
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var search_paths = std.ArrayList([]const u8).init(arena);
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var opt_out_dir: ?[]const u8 = null;
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var arg_i: usize = 1;
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while (arg_i < args.len) : (arg_i += 1) {
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if (std.mem.eql(u8, args[arg_i], "--help"))
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usageAndExit(args[0]);
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if (arg_i + 1 >= args.len) {
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std.debug.print("expected argument after '{s}'\n", .{args[arg_i]});
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usageAndExit(args[0]);
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}
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if (std.mem.eql(u8, args[arg_i], "--search-path")) {
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try search_paths.append(args[arg_i + 1]);
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} else if (std.mem.eql(u8, args[arg_i], "--out")) {
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assert(opt_out_dir == null);
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opt_out_dir = args[arg_i + 1];
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} else {
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std.debug.print("unrecognized argument: {s}\n", .{args[arg_i]});
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usageAndExit(args[0]);
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}
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arg_i += 1;
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}
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const out_dir = opt_out_dir orelse usageAndExit(args[0]);
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const generic_name = "any-linux-any";
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var path_table = PathTable.init(arena);
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var hash_to_contents = HashToContents.init(arena);
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var max_bytes_saved: usize = 0;
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var total_bytes: usize = 0;
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var hasher = Blake3.init(.{});
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for (linux_targets) |linux_target| {
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const dest_target = DestTarget{
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.arch = linux_target.arch,
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};
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search: for (search_paths.items) |search_path| {
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const target_include_dir = try std.fs.path.join(arena, &.{
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search_path, linux_target.name, "include",
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});
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var dir_stack = std.ArrayList([]const u8).init(arena);
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try dir_stack.append(target_include_dir);
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while (dir_stack.popOrNull()) |full_dir_name| {
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var dir = std.fs.cwd().openDir(full_dir_name, .{ .iterate = true }) catch |err| switch (err) {
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error.FileNotFound => continue :search,
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error.AccessDenied => continue :search,
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else => return err,
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};
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defer dir.close();
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var dir_it = dir.iterate();
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while (try dir_it.next()) |entry| {
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const full_path = try std.fs.path.join(arena, &[_][]const u8{ full_dir_name, entry.name });
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switch (entry.kind) {
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.directory => try dir_stack.append(full_path),
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.file => {
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const rel_path = try std.fs.path.relative(arena, target_include_dir, full_path);
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const max_size = 2 * 1024 * 1024 * 1024;
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const raw_bytes = try std.fs.cwd().readFileAlloc(arena, full_path, max_size);
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const trimmed = std.mem.trim(u8, raw_bytes, " \r\n\t");
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total_bytes += raw_bytes.len;
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const hash = try arena.alloc(u8, 32);
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hasher = Blake3.init(.{});
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hasher.update(rel_path);
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hasher.update(trimmed);
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hasher.final(hash);
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const gop = try hash_to_contents.getOrPut(hash);
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if (gop.found_existing) {
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max_bytes_saved += raw_bytes.len;
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gop.value_ptr.hit_count += 1;
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std.debug.print("duplicate: {s} {s} ({:2})\n", .{
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linux_target.name,
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rel_path,
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std.fmt.fmtIntSizeDec(raw_bytes.len),
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});
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} else {
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gop.value_ptr.* = Contents{
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.bytes = trimmed,
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.hit_count = 1,
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.hash = hash,
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.is_generic = false,
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};
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}
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const path_gop = try path_table.getOrPut(rel_path);
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const target_to_hash = if (path_gop.found_existing) path_gop.value_ptr.* else blk: {
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const ptr = try arena.create(TargetToHash);
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ptr.* = TargetToHash.init(arena);
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path_gop.value_ptr.* = ptr;
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break :blk ptr;
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};
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try target_to_hash.putNoClobber(dest_target, hash);
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},
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else => std.debug.print("warning: weird file: {s}\n", .{full_path}),
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}
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}
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}
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break;
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} else {
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std.debug.print("warning: libc target not found: {s}\n", .{linux_target.name});
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}
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}
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std.debug.print("summary: {:2} could be reduced to {:2}\n", .{
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std.fmt.fmtIntSizeDec(total_bytes),
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std.fmt.fmtIntSizeDec(total_bytes - max_bytes_saved),
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});
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try std.fs.cwd().makePath(out_dir);
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var missed_opportunity_bytes: usize = 0;
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// iterate path_table. for each path, put all the hashes into a list. sort by hit_count.
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// the hash with the highest hit_count gets to be the "generic" one. everybody else
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// gets their header in a separate arch directory.
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var path_it = path_table.iterator();
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while (path_it.next()) |path_kv| {
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var contents_list = std.ArrayList(*Contents).init(arena);
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{
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var hash_it = path_kv.value_ptr.*.iterator();
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while (hash_it.next()) |hash_kv| {
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const contents = hash_to_contents.getPtr(hash_kv.value_ptr.*).?;
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try contents_list.append(contents);
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}
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}
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std.mem.sort(*Contents, contents_list.items, {}, Contents.hitCountLessThan);
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const best_contents = contents_list.popOrNull().?;
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if (best_contents.hit_count > 1) {
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// worth it to make it generic
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const full_path = try std.fs.path.join(arena, &[_][]const u8{ out_dir, generic_name, path_kv.key_ptr.* });
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try std.fs.cwd().makePath(std.fs.path.dirname(full_path).?);
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try std.fs.cwd().writeFile(.{ .sub_path = full_path, .data = best_contents.bytes });
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best_contents.is_generic = true;
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while (contents_list.popOrNull()) |contender| {
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if (contender.hit_count > 1) {
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const this_missed_bytes = contender.hit_count * contender.bytes.len;
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missed_opportunity_bytes += this_missed_bytes;
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std.debug.print("Missed opportunity ({:2}): {s}\n", .{
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std.fmt.fmtIntSizeDec(this_missed_bytes),
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path_kv.key_ptr.*,
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});
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} else break;
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}
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}
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var hash_it = path_kv.value_ptr.*.iterator();
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while (hash_it.next()) |hash_kv| {
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const contents = hash_to_contents.get(hash_kv.value_ptr.*).?;
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if (contents.is_generic) continue;
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const dest_target = hash_kv.key_ptr.*;
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const arch_name = switch (dest_target.arch) {
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.specific => |a| @tagName(a),
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else => @tagName(dest_target.arch),
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};
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const out_subpath = try std.fmt.allocPrint(arena, "{s}-linux-any", .{arch_name});
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const full_path = try std.fs.path.join(arena, &[_][]const u8{ out_dir, out_subpath, path_kv.key_ptr.* });
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try std.fs.cwd().makePath(std.fs.path.dirname(full_path).?);
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try std.fs.cwd().writeFile(.{ .sub_path = full_path, .data = contents.bytes });
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}
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}
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const bad_files = [_][]const u8{
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"any-linux-any/linux/netfilter/xt_CONNMARK.h",
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"any-linux-any/linux/netfilter/xt_DSCP.h",
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"any-linux-any/linux/netfilter/xt_MARK.h",
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"any-linux-any/linux/netfilter/xt_RATEEST.h",
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"any-linux-any/linux/netfilter/xt_TCPMSS.h",
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"any-linux-any/linux/netfilter_ipv4/ipt_ECN.h",
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"any-linux-any/linux/netfilter_ipv4/ipt_TTL.h",
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"any-linux-any/linux/netfilter_ipv6/ip6t_HL.h",
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};
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for (bad_files) |bad_file| {
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const full_path = try std.fs.path.join(arena, &[_][]const u8{ out_dir, bad_file });
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try std.fs.cwd().deleteFile(full_path);
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}
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}
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fn usageAndExit(arg0: []const u8) noreturn {
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std.debug.print("Usage: {s} [--search-path <dir>] --out <dir> --abi <name>\n", .{arg0});
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std.debug.print("--search-path can be used any number of times.\n", .{});
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std.debug.print(" subdirectories of search paths look like, e.g. x86_64-linux-gnu\n", .{});
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std.debug.print("--out is a dir that will be created, and populated with the results\n", .{});
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std.process.exit(1);
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}
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