274 lines
9.8 KiB
Zig
274 lines
9.8 KiB
Zig
// This file is included in the compilation unit when exporting an executable.
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const root = @import("root");
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const std = @import("std.zig");
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const builtin = std.builtin;
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const assert = std.debug.assert;
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const uefi = std.os.uefi;
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var starting_stack_ptr: [*]usize = undefined;
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const start_sym_name = if (builtin.arch.isMIPS()) "__start" else "_start";
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comptime {
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if (builtin.output_mode == .Lib and builtin.link_mode == .Dynamic) {
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if (builtin.os.tag == .windows and !@hasDecl(root, "_DllMainCRTStartup")) {
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@export(_DllMainCRTStartup, .{ .name = "_DllMainCRTStartup" });
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}
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} else if (builtin.output_mode == .Exe or @hasDecl(root, "main")) {
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if (builtin.link_libc and @hasDecl(root, "main")) {
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if (@typeInfo(@TypeOf(root.main)).Fn.calling_convention != .C) {
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@export(main, .{ .name = "main", .linkage = .Weak });
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}
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} else if (builtin.os.tag == .windows) {
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if (!@hasDecl(root, "WinMain") and !@hasDecl(root, "WinMainCRTStartup") and
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!@hasDecl(root, "wWinMain") and !@hasDecl(root, "wWinMainCRTStartup"))
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{
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@export(WinMainCRTStartup, .{ .name = "WinMainCRTStartup" });
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}
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} else if (builtin.os.tag == .uefi) {
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if (!@hasDecl(root, "EfiMain")) @export(EfiMain, .{ .name = "EfiMain" });
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} else if (builtin.arch.isWasm() and builtin.os.tag == .freestanding) {
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if (!@hasDecl(root, start_sym_name)) @export(wasm_freestanding_start, .{ .name = start_sym_name });
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} else if (builtin.os.tag != .other and builtin.os.tag != .freestanding) {
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if (!@hasDecl(root, start_sym_name)) @export(_start, .{ .name = start_sym_name });
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}
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}
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}
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fn _DllMainCRTStartup(
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hinstDLL: std.os.windows.HINSTANCE,
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fdwReason: std.os.windows.DWORD,
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lpReserved: std.os.windows.LPVOID,
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) callconv(.Stdcall) std.os.windows.BOOL {
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if (!builtin.single_threaded) {
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_ = @import("start_windows_tls.zig");
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}
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if (@hasDecl(root, "DllMain")) {
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return root.DllMain(hinstDLL, fdwReason, lpReserved);
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}
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return std.os.windows.TRUE;
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}
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fn wasm_freestanding_start() callconv(.C) void {
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// This is marked inline because for some reason LLVM in release mode fails to inline it,
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// and we want fewer call frames in stack traces.
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_ = @call(.{ .modifier = .always_inline }, callMain, .{});
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}
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fn EfiMain(handle: uefi.Handle, system_table: *uefi.tables.SystemTable) callconv(.C) usize {
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uefi.handle = handle;
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uefi.system_table = system_table;
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switch (@TypeOf(root.main).ReturnType) {
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noreturn => {
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root.main();
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},
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void => {
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root.main();
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return 0;
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},
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usize => {
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return root.main();
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},
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uefi.Status => {
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return @enumToInt(root.main());
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},
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else => @compileError("expected return type of main to be 'void', 'noreturn', 'usize', or 'std.os.uefi.Status'"),
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}
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}
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fn _start() callconv(.Naked) noreturn {
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if (builtin.os.tag == .wasi) {
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// This is marked inline because for some reason LLVM in release mode fails to inline it,
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// and we want fewer call frames in stack traces.
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std.os.wasi.proc_exit(@call(.{ .modifier = .always_inline }, callMain, .{}));
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}
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switch (builtin.arch) {
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.x86_64 => {
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starting_stack_ptr = asm (""
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: [argc] "={rsp}" (-> [*]usize)
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);
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},
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.i386 => {
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starting_stack_ptr = asm (""
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: [argc] "={esp}" (-> [*]usize)
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);
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},
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.aarch64, .aarch64_be, .arm => {
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starting_stack_ptr = asm ("mov %[argc], sp"
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: [argc] "=r" (-> [*]usize)
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);
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},
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.riscv64 => {
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starting_stack_ptr = asm ("mv %[argc], sp"
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: [argc] "=r" (-> [*]usize)
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);
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},
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.mipsel => {
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// Need noat here because LLVM is free to pick any register
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starting_stack_ptr = asm (
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\\ .set noat
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\\ move %[argc], $sp
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: [argc] "=r" (-> [*]usize)
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);
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},
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else => @compileError("unsupported arch"),
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}
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// If LLVM inlines stack variables into _start, they will overwrite
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// the command line argument data.
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@call(.{ .modifier = .never_inline }, posixCallMainAndExit, .{});
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}
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fn WinMainCRTStartup() callconv(.Stdcall) noreturn {
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@setAlignStack(16);
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if (!builtin.single_threaded) {
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_ = @import("start_windows_tls.zig");
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}
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std.debug.maybeEnableSegfaultHandler();
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std.os.windows.kernel32.ExitProcess(initEventLoopAndCallMain());
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}
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// TODO https://github.com/ziglang/zig/issues/265
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fn posixCallMainAndExit() noreturn {
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if (builtin.os.tag == .freebsd) {
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@setAlignStack(16);
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}
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const argc = starting_stack_ptr[0];
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const argv = @ptrCast([*][*:0]u8, starting_stack_ptr + 1);
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const envp_optional = @ptrCast([*:null]?[*:0]u8, @alignCast(@alignOf(usize), argv + argc + 1));
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var envp_count: usize = 0;
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while (envp_optional[envp_count]) |_| : (envp_count += 1) {}
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const envp = @ptrCast([*][*:0]u8, envp_optional)[0..envp_count];
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if (builtin.os.tag == .linux) {
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// Find the beginning of the auxiliary vector
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const auxv = @ptrCast([*]std.elf.Auxv, @alignCast(@alignOf(usize), envp.ptr + envp_count + 1));
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std.os.linux.elf_aux_maybe = auxv;
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// Initialize the TLS area
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std.os.linux.tls.initStaticTLS();
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// TODO This is disabled because what should we do when linking libc and this code
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// does not execute? And also it's causing a test failure in stack traces in release modes.
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//// Linux ignores the stack size from the ELF file, and instead always does 8 MiB. A further
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//// problem is that it uses PROT_GROWSDOWN which prevents stores to addresses too far down
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//// the stack and requires "probing". So here we allocate our own stack.
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//const wanted_stack_size = gnu_stack_phdr.p_memsz;
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//assert(wanted_stack_size % std.mem.page_size == 0);
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//// Allocate an extra page as the guard page.
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//const total_size = wanted_stack_size + std.mem.page_size;
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//const new_stack = std.os.mmap(
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// null,
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// total_size,
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// std.os.PROT_READ | std.os.PROT_WRITE,
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// std.os.MAP_PRIVATE | std.os.MAP_ANONYMOUS,
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// -1,
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// 0,
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//) catch @panic("out of memory");
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//std.os.mprotect(new_stack[0..std.mem.page_size], std.os.PROT_NONE) catch {};
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//std.os.exit(@call(.{.stack = new_stack}, callMainWithArgs, .{argc, argv, envp}));
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}
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std.os.exit(@call(.{ .modifier = .always_inline }, callMainWithArgs, .{ argc, argv, envp }));
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}
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fn callMainWithArgs(argc: usize, argv: [*][*:0]u8, envp: [][*:0]u8) u8 {
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std.os.argv = argv[0..argc];
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std.os.environ = envp;
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std.debug.maybeEnableSegfaultHandler();
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return initEventLoopAndCallMain();
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}
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fn main(c_argc: i32, c_argv: [*][*:0]u8, c_envp: [*:null]?[*:0]u8) callconv(.C) i32 {
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var env_count: usize = 0;
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while (c_envp[env_count] != null) : (env_count += 1) {}
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const envp = @ptrCast([*][*:0]u8, c_envp)[0..env_count];
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return @call(.{ .modifier = .always_inline }, callMainWithArgs, .{ @intCast(usize, c_argc), c_argv, envp });
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}
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// General error message for a malformed return type
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const bad_main_ret = "expected return type of main to be 'void', '!void', 'noreturn', 'u8', or '!u8'";
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// This is marked inline because for some reason LLVM in release mode fails to inline it,
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// and we want fewer call frames in stack traces.
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inline fn initEventLoopAndCallMain() u8 {
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if (std.event.Loop.instance) |loop| {
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if (!@hasDecl(root, "event_loop")) {
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loop.init() catch |err| {
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std.debug.warn("error: {}\n", .{@errorName(err)});
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if (@errorReturnTrace()) |trace| {
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std.debug.dumpStackTrace(trace.*);
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}
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return 1;
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};
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defer loop.deinit();
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var result: u8 = undefined;
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var frame: @Frame(callMainAsync) = undefined;
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_ = @asyncCall(&frame, &result, callMainAsync, loop);
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loop.run();
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return result;
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}
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}
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// This is marked inline because for some reason LLVM in release mode fails to inline it,
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// and we want fewer call frames in stack traces.
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return @call(.{ .modifier = .always_inline }, callMain, .{});
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}
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async fn callMainAsync(loop: *std.event.Loop) u8 {
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// This prevents the event loop from terminating at least until main() has returned.
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loop.beginOneEvent();
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defer loop.finishOneEvent();
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return callMain();
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}
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// This is not marked inline because it is called with @asyncCall when
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// there is an event loop.
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pub fn callMain() u8 {
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switch (@typeInfo(@TypeOf(root.main).ReturnType)) {
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.NoReturn => {
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root.main();
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},
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.Void => {
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root.main();
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return 0;
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},
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.Int => |info| {
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if (info.bits != 8) {
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@compileError(bad_main_ret);
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}
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return root.main();
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},
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.ErrorUnion => {
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const result = root.main() catch |err| {
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std.debug.warn("error: {}\n", .{@errorName(err)});
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if (@errorReturnTrace()) |trace| {
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std.debug.dumpStackTrace(trace.*);
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}
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return 1;
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};
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switch (@typeInfo(@TypeOf(result))) {
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.Void => return 0,
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.Int => |info| {
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if (info.bits != 8) {
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@compileError(bad_main_ret);
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}
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return result;
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},
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else => @compileError(bad_main_ret),
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}
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},
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else => @compileError(bad_main_ret),
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}
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}
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