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zig fmt

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This commit is contained in:
Tadeo Kondrak 2020-05-04 09:49:27 -06:00
parent d0e996405b
commit 6745a6f6f6
No known key found for this signature in database
GPG Key ID: D41E092CA43F1D8B
56 changed files with 222 additions and 240 deletions
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2
lib/std/c.zig
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@ -217,7 +217,7 @@ pub extern "c" fn utimes(path: [*:0]const u8, times: *[2]timeval) c_int;
pub extern "c" fn utimensat(dirfd: fd_t, pathname: [*:0]const u8, times: *[2]timespec, flags: u32) c_int;
pub extern "c" fn futimens(fd: fd_t, times: *const [2]timespec) c_int;
pub extern "c" fn pthread_create(noalias newthread: *pthread_t, noalias attr: ?*const pthread_attr_t, start_routine: extern fn (?*c_void) ?*c_void, noalias arg: ?*c_void) c_int;
pub extern "c" fn pthread_create(noalias newthread: *pthread_t, noalias attr: ?*const pthread_attr_t, start_routine: fn (?*c_void) callconv(.C) ?*c_void, noalias arg: ?*c_void) c_int;
pub extern "c" fn pthread_attr_init(attr: *pthread_attr_t) c_int;
pub extern "c" fn pthread_attr_setstack(attr: *pthread_attr_t, stackaddr: *c_void, stacksize: usize) c_int;
pub extern "c" fn pthread_attr_setguardsize(attr: *pthread_attr_t, guardsize: usize) c_int;

2
lib/std/c/dragonfly.zig
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@ -9,7 +9,7 @@ pub extern "c" fn getdents(fd: c_int, buf_ptr: [*]u8, nbytes: usize) usize;
pub extern "c" fn sigaltstack(ss: ?*stack_t, old_ss: ?*stack_t) c_int;
pub extern "c" fn getrandom(buf_ptr: [*]u8, buf_len: usize, flags: c_uint) isize;
pub const dl_iterate_phdr_callback = extern fn (info: *dl_phdr_info, size: usize, data: ?*c_void) c_int;
pub const dl_iterate_phdr_callback = fn (info: *dl_phdr_info, size: usize, data: ?*c_void) callconv(.C) c_int;
pub extern "c" fn dl_iterate_phdr(callback: dl_iterate_phdr_callback, data: ?*c_void) c_int;
pub const pthread_mutex_t = extern struct {

2
lib/std/c/freebsd.zig
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@ -24,7 +24,7 @@ pub extern "c" fn sendfile(
flags: u32,
) c_int;
pub const dl_iterate_phdr_callback = extern fn (info: *dl_phdr_info, size: usize, data: ?*c_void) c_int;
pub const dl_iterate_phdr_callback = fn (info: *dl_phdr_info, size: usize, data: ?*c_void) callconv(.C) c_int;
pub extern "c" fn dl_iterate_phdr(callback: dl_iterate_phdr_callback, data: ?*c_void) c_int;
pub const pthread_mutex_t = extern struct {

2
lib/std/c/linux.zig
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@ -75,7 +75,7 @@ pub extern "c" fn inotify_add_watch(fd: fd_t, pathname: [*]const u8, mask: u32)
/// See std.elf for constants for this
pub extern "c" fn getauxval(__type: c_ulong) c_ulong;
pub const dl_iterate_phdr_callback = extern fn (info: *dl_phdr_info, size: usize, data: ?*c_void) c_int;
pub const dl_iterate_phdr_callback = fn (info: *dl_phdr_info, size: usize, data: ?*c_void) callconv(.C) c_int;
pub extern "c" fn dl_iterate_phdr(callback: dl_iterate_phdr_callback, data: ?*c_void) c_int;
pub extern "c" fn sigaltstack(ss: ?*stack_t, old_ss: ?*stack_t) c_int;

2
lib/std/c/netbsd.zig
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@ -6,7 +6,7 @@ usingnamespace std.c;
extern "c" fn __errno() *c_int;
pub const _errno = __errno;
pub const dl_iterate_phdr_callback = extern fn (info: *dl_phdr_info, size: usize, data: ?*c_void) c_int;
pub const dl_iterate_phdr_callback = fn (info: *dl_phdr_info, size: usize, data: ?*c_void) callconv(.C) c_int;
pub extern "c" fn dl_iterate_phdr(callback: dl_iterate_phdr_callback, data: ?*c_void) c_int;
pub extern "c" fn arc4random_buf(buf: [*]u8, len: usize) void;

11
lib/std/event/channel.zig
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@ -105,7 +105,7 @@ pub fn Channel(comptime T: type) type {
/// await this function to get an item from the channel. If the buffer is empty, the frame will
/// complete when the next item is put in the channel.
pub async fn get(self: *SelfChannel) T {
pub fn get(self: *SelfChannel) callconv(.Async) T {
// TODO https://github.com/ziglang/zig/issues/2765
var result: T = undefined;
var my_tick_node = Loop.NextTickNode.init(@frame());
@ -305,8 +305,7 @@ test "std.event.Channel wraparound" {
channel.put(7);
testing.expectEqual(@as(i32, 7), channel.get());
}
async fn testChannelGetter(channel: *Channel(i32)) void {
fn testChannelGetter(channel: *Channel(i32)) callconv(.Async) void {
const value1 = channel.get();
testing.expect(value1 == 1234);
@ -321,12 +320,10 @@ async fn testChannelGetter(channel: *Channel(i32)) void {
testing.expect(value4.? == 4444);
await last_put;
}
async fn testChannelPutter(channel: *Channel(i32)) void {
fn testChannelPutter(channel: *Channel(i32)) callconv(.Async) void {
channel.put(1234);
channel.put(4567);
}
async fn testPut(channel: *Channel(i32), value: i32) void {
fn testPut(channel: *Channel(i32), value: i32) callconv(.Async) void {
channel.put(value);
}

4
lib/std/event/future.zig
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@ -34,7 +34,7 @@ pub fn Future(comptime T: type) type {
/// Obtain the value. If it's not available, wait until it becomes
/// available.
/// Thread-safe.
pub async fn get(self: *Self) *T {
pub fn get(self: *Self) callconv(.Async) *T {
if (@atomicLoad(Available, &self.available, .SeqCst) == .Finished) {
return &self.data;
}
@ -59,7 +59,7 @@ pub fn Future(comptime T: type) type {
/// should start working on the data.
/// It's not required to call start() before resolve() but it can be useful since
/// this method is thread-safe.
pub async fn start(self: *Self) ?*T {
pub fn start(self: *Self) callconv(.Async) ?*T {
const state = @cmpxchgStrong(Available, &self.available, .NotStarted, .Started, .SeqCst, .SeqCst) orelse return null;
switch (state) {
.Started => {

16
lib/std/event/group.zig
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@ -84,7 +84,7 @@ pub fn Group(comptime ReturnType: type) type {
/// Wait for all the calls and promises of the group to complete.
/// Thread-safe.
/// Safe to call any number of times.
pub async fn wait(self: *Self) ReturnType {
pub fn wait(self: *Self) callconv(.Async) ReturnType {
const held = self.lock.acquire();
defer held.release();
@ -127,8 +127,7 @@ test "std.event.Group" {
const handle = async testGroup(std.heap.page_allocator);
}
async fn testGroup(allocator: *Allocator) void {
fn testGroup(allocator: *Allocator) callconv(.Async) void {
var count: usize = 0;
var group = Group(void).init(allocator);
var sleep_a_little_frame = async sleepALittle(&count);
@ -145,20 +144,17 @@ async fn testGroup(allocator: *Allocator) void {
another.add(&something_that_fails_frame) catch @panic("memory");
testing.expectError(error.ItBroke, another.wait());
}
async fn sleepALittle(count: *usize) void {
fn sleepALittle(count: *usize) callconv(.Async) void {
std.time.sleep(1 * std.time.millisecond);
_ = @atomicRmw(usize, count, .Add, 1, .SeqCst);
}
async fn increaseByTen(count: *usize) void {
fn increaseByTen(count: *usize) callconv(.Async) void {
var i: usize = 0;
while (i < 10) : (i += 1) {
_ = @atomicRmw(usize, count, .Add, 1, .SeqCst);
}
}
async fn doSomethingThatFails() anyerror!void {}
async fn somethingElse() anyerror!void {
fn doSomethingThatFails() callconv(.Async) anyerror!void {}
fn somethingElse() callconv(.Async) anyerror!void {
return error.ItBroke;
}

8
lib/std/event/lock.zig
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@ -89,7 +89,7 @@ pub const Lock = struct {
while (self.queue.get()) |node| resume node.data;
}
pub async fn acquire(self: *Lock) Held {
pub fn acquire(self: *Lock) callconv(.Async) Held {
var my_tick_node = Loop.NextTickNode.init(@frame());
errdefer _ = self.queue.remove(&my_tick_node); // TODO test canceling an acquire
@ -134,8 +134,7 @@ test "std.event.Lock" {
const expected_result = [1]i32{3 * @intCast(i32, shared_test_data.len)} ** shared_test_data.len;
testing.expectEqualSlices(i32, &expected_result, &shared_test_data);
}
async fn testLock(lock: *Lock) void {
fn testLock(lock: *Lock) callconv(.Async) void {
var handle1 = async lockRunner(lock);
var tick_node1 = Loop.NextTickNode{
.prev = undefined,
@ -167,8 +166,7 @@ async fn testLock(lock: *Lock) void {
var shared_test_data = [1]i32{0} ** 10;
var shared_test_index: usize = 0;
async fn lockRunner(lock: *Lock) void {
fn lockRunner(lock: *Lock) callconv(.Async) void {
suspend; // resumed by onNextTick
var i: usize = 0;

2
lib/std/event/locked.zig
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@ -31,7 +31,7 @@ pub fn Locked(comptime T: type) type {
self.lock.deinit();
}
pub async fn acquire(self: *Self) HeldLock {
pub fn acquire(self: *Self) callconv(.Async) HeldLock {
return HeldLock{
// TODO guaranteed allocation elision
.held = self.lock.acquire(),

2
lib/std/event/loop.zig
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@ -503,7 +503,7 @@ pub const Loop = struct {
}
}
pub async fn bsdWaitKev(self: *Loop, ident: usize, filter: i16, fflags: u32) void {
pub fn bsdWaitKev(self: *Loop, ident: usize, filter: i16, fflags: u32) callconv(.Async) void {
var resume_node = ResumeNode.Basic{
.base = ResumeNode{
.id = ResumeNode.Id.Basic,

13
lib/std/event/rwlock.zig
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@ -97,7 +97,7 @@ pub const RwLock = struct {
while (self.reader_queue.get()) |node| resume node.data;
}
pub async fn acquireRead(self: *RwLock) HeldRead {
pub fn acquireRead(self: *RwLock) callconv(.Async) HeldRead {
_ = @atomicRmw(usize, &self.reader_lock_count, .Add, 1, .SeqCst);
suspend {
@ -130,7 +130,7 @@ pub const RwLock = struct {
return HeldRead{ .lock = self };
}
pub async fn acquireWrite(self: *RwLock) HeldWrite {
pub fn acquireWrite(self: *RwLock) callconv(.Async) HeldWrite {
suspend {
var my_tick_node = Loop.NextTickNode{
.data = @frame(),
@ -225,8 +225,7 @@ test "std.event.RwLock" {
const expected_result = [1]i32{shared_it_count * @intCast(i32, shared_test_data.len)} ** shared_test_data.len;
testing.expectEqualSlices(i32, expected_result, shared_test_data);
}
async fn testLock(allocator: *Allocator, lock: *RwLock) void {
fn testLock(allocator: *Allocator, lock: *RwLock) callconv(.Async) void {
var read_nodes: [100]Loop.NextTickNode = undefined;
for (read_nodes) |*read_node| {
const frame = allocator.create(@Frame(readRunner)) catch @panic("memory");
@ -259,8 +258,7 @@ const shared_it_count = 10;
var shared_test_data = [1]i32{0} ** 10;
var shared_test_index: usize = 0;
var shared_count: usize = 0;
async fn writeRunner(lock: *RwLock) void {
fn writeRunner(lock: *RwLock) callconv(.Async) void {
suspend; // resumed by onNextTick
var i: usize = 0;
@ -277,8 +275,7 @@ async fn writeRunner(lock: *RwLock) void {
shared_test_index = 0;
}
}
async fn readRunner(lock: *RwLock) void {
fn readRunner(lock: *RwLock) callconv(.Async) void {
suspend; // resumed by onNextTick
std.time.sleep(1);

4
lib/std/event/rwlocked.zig
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@ -40,14 +40,14 @@ pub fn RwLocked(comptime T: type) type {
self.lock.deinit();
}
pub async fn acquireRead(self: *Self) HeldReadLock {
pub fn acquireRead(self: *Self) callconv(.Async) HeldReadLock {
return HeldReadLock{
.held = self.lock.acquireRead(),
.value = &self.locked_data,
};
}
pub async fn acquireWrite(self: *Self) HeldWriteLock {
pub fn acquireWrite(self: *Self) callconv(.Async) HeldWriteLock {
return HeldWriteLock{
.held = self.lock.acquireWrite(),
.value = &self.locked_data,

2
lib/std/os/bits/darwin.zig
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@ -125,7 +125,7 @@ pub const empty_sigset = sigset_t(0);
/// Renamed from `sigaction` to `Sigaction` to avoid conflict with function name.
pub const Sigaction = extern struct {
handler: extern fn (c_int) void,
handler: fn (c_int) callconv(.C) void,
sa_mask: sigset_t,
sa_flags: c_int,
};

12
lib/std/os/bits/dragonfly.zig
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@ -458,9 +458,9 @@ pub const S_IFSOCK = 49152;
pub const S_IFWHT = 57344;
pub const S_IFMT = 61440;
pub const SIG_ERR = @intToPtr(extern fn (i32) void, maxInt(usize));
pub const SIG_DFL = @intToPtr(extern fn (i32) void, 0);
pub const SIG_IGN = @intToPtr(extern fn (i32) void, 1);
pub const SIG_ERR = @intToPtr(fn (i32) callconv(.C) void, maxInt(usize));
pub const SIG_DFL = @intToPtr(fn (i32) callconv(.C) void, 0);
pub const SIG_IGN = @intToPtr(fn (i32) callconv(.C) void, 1);
pub const BADSIG = SIG_ERR;
pub const SIG_BLOCK = 1;
pub const SIG_UNBLOCK = 2;
@ -519,13 +519,13 @@ pub const sigset_t = extern struct {
pub const sig_atomic_t = c_int;
pub const Sigaction = extern struct {
__sigaction_u: extern union {
__sa_handler: ?extern fn (c_int) void,
__sa_sigaction: ?extern fn (c_int, [*c]siginfo_t, ?*c_void) void,
__sa_handler: ?fn (c_int) callconv(.C) void,
__sa_sigaction: ?fn (c_int, [*c]siginfo_t, ?*c_void) callconv(.C) void,
},
sa_flags: c_int,
sa_mask: sigset_t,
};
pub const sig_t = [*c]extern fn (c_int) void;
pub const sig_t = [*c]fn (c_int) callconv(.C) void;
pub const sigvec = extern struct {
sv_handler: [*c]__sighandler_t,

10
lib/std/os/bits/freebsd.zig
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@ -725,16 +725,16 @@ pub const winsize = extern struct {
const NSIG = 32;
pub const SIG_ERR = @intToPtr(extern fn (i32) void, maxInt(usize));
pub const SIG_DFL = @intToPtr(extern fn (i32) void, 0);
pub const SIG_IGN = @intToPtr(extern fn (i32) void, 1);
pub const SIG_ERR = @intToPtr(fn (i32) callconv(.C) void, maxInt(usize));
pub const SIG_DFL = @intToPtr(fn (i32) callconv(.C) void, 0);
pub const SIG_IGN = @intToPtr(fn (i32) callconv(.C) void, 1);
/// Renamed from `sigaction` to `Sigaction` to avoid conflict with the syscall.
pub const Sigaction = extern struct {
/// signal handler
__sigaction_u: extern union {
__sa_handler: extern fn (i32) void,
__sa_sigaction: extern fn (i32, *__siginfo, usize) void,
__sa_handler: fn (i32) callconv(.C) void,
__sa_sigaction: fn (i32, *__siginfo, usize) callconv(.C) void,
},
/// see signal options

10
lib/std/os/bits/linux.zig
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@ -813,15 +813,15 @@ pub const app_mask: sigset_t = [2]u32{ 0xfffffffc, 0x7fffffff } ++ [_]u32{0xffff
pub const k_sigaction = if (is_mips)
extern struct {
flags: usize,
sigaction: ?extern fn (i32, *siginfo_t, ?*c_void) void,
sigaction: ?fn (i32, *siginfo_t, ?*c_void) callconv(.C) void,
mask: [4]u32,
restorer: extern fn () void,
restorer: fn () callconv(.C) void,
}
else
extern struct {
sigaction: ?extern fn (i32, *siginfo_t, ?*c_void) void,
sigaction: ?fn (i32, *siginfo_t, ?*c_void) callconv(.C) void,
flags: usize,
restorer: extern fn () void,
restorer: fn () callconv(.C) void,
mask: [2]u32,
};
@ -831,7 +831,7 @@ pub const Sigaction = extern struct {
sigaction: ?sigaction_fn,
mask: sigset_t,
flags: u32,
restorer: ?extern fn () void = null,
restorer: ?fn () callconv(.C) void = null,
};
pub const SIG_ERR = @intToPtr(?Sigaction.sigaction_fn, maxInt(usize));

4
lib/std/os/linux.zig
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@ -599,7 +599,7 @@ pub fn flock(fd: fd_t, operation: i32) usize {
var vdso_clock_gettime = @ptrCast(?*const c_void, init_vdso_clock_gettime);
// We must follow the C calling convention when we call into the VDSO
const vdso_clock_gettime_ty = extern fn (i32, *timespec) usize;
const vdso_clock_gettime_ty = fn (i32, *timespec) callconv(.C) usize;
pub fn clock_gettime(clk_id: i32, tp: *timespec) usize {
if (@hasDecl(@This(), "VDSO_CGT_SYM")) {
@ -791,7 +791,7 @@ pub fn sigaction(sig: u6, noalias act: *const Sigaction, noalias oact: ?*Sigacti
.sigaction = act.sigaction,
.flags = act.flags | SA_RESTORER,
.mask = undefined,
.restorer = @ptrCast(extern fn () void, restorer_fn),
.restorer = @ptrCast(fn () callconv(.C) void, restorer_fn),
};
var ksa_old: k_sigaction = undefined;
const ksa_mask_size = @sizeOf(@TypeOf(ksa_old.mask));

2
lib/std/os/linux/arm-eabi.zig
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@ -86,7 +86,7 @@ pub fn syscall6(
}
/// This matches the libc clone function.
pub extern fn clone(func: extern fn (arg: usize) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub extern fn clone(func: fn (arg: usize) callconv(.C) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub fn restore() callconv(.Naked) void {
return asm volatile ("svc #0"

2
lib/std/os/linux/arm64.zig
View File

@ -86,7 +86,7 @@ pub fn syscall6(
}
/// This matches the libc clone function.
pub extern fn clone(func: extern fn (arg: usize) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub extern fn clone(func: fn (arg: usize) callconv(.C) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub const restore = restore_rt;

2
lib/std/os/linux/i386.zig
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@ -106,7 +106,7 @@ pub fn socketcall(call: usize, args: [*]usize) usize {
}
/// This matches the libc clone function.
pub extern fn clone(func: extern fn (arg: usize) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub extern fn clone(func: fn (arg: usize) callconv(.C) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub fn restore() callconv(.Naked) void {
return asm volatile ("int $0x80"

2
lib/std/os/linux/mips.zig
View File

@ -142,7 +142,7 @@ pub fn syscall6(
}
/// This matches the libc clone function.
pub extern fn clone(func: extern fn (arg: usize) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub extern fn clone(func: fn (arg: usize) callconv(.C) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub fn restore() callconv(.Naked) void {
return asm volatile ("syscall"

2
lib/std/os/linux/riscv64.zig
View File

@ -85,7 +85,7 @@ pub fn syscall6(
);
}
pub extern fn clone(func: extern fn (arg: usize) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub extern fn clone(func: fn (arg: usize) callconv(.C) u8, stack: usize, flags: u32, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub const restore = restore_rt;

2
lib/std/os/linux/x86_64.zig
View File

@ -86,7 +86,7 @@ pub fn syscall6(
}
/// This matches the libc clone function.
pub extern fn clone(func: extern fn (arg: usize) u8, stack: usize, flags: usize, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub extern fn clone(func: fn (arg: usize) callconv(.C) u8, stack: usize, flags: usize, arg: usize, ptid: *i32, tls: usize, ctid: *i32) usize;
pub const restore = restore_rt;

4
lib/std/os/uefi/protocols/absolute_pointer_protocol.zig
View File

@ -5,8 +5,8 @@ const Status = uefi.Status;
/// Protocol for touchscreens
pub const AbsolutePointerProtocol = extern struct {
_reset: extern fn (*const AbsolutePointerProtocol, bool) Status,
_get_state: extern fn (*const AbsolutePointerProtocol, *AbsolutePointerState) Status,
_reset: fn (*const AbsolutePointerProtocol, bool) callconv(.C) Status,
_get_state: fn (*const AbsolutePointerProtocol, *AbsolutePointerState) callconv(.C) Status,
wait_for_input: Event,
mode: *AbsolutePointerMode,

2
lib/std/os/uefi/protocols/edid_override_protocol.zig
View File

@ -5,7 +5,7 @@ const Status = uefi.Status;
/// Override EDID information
pub const EdidOverrideProtocol = extern struct {
_get_edid: extern fn (*const EdidOverrideProtocol, Handle, *u32, *usize, *?[*]u8) Status,
_get_edid: fn (*const EdidOverrideProtocol, Handle, *u32, *usize, *?[*]u8) callconv(.C) Status,
/// Returns policy information and potentially a replacement EDID for the specified video output device.
/// attributes must be align(4)

20
lib/std/os/uefi/protocols/file_protocol.zig
View File

@ -5,16 +5,16 @@ const Status = uefi.Status;
pub const FileProtocol = extern struct {
revision: u64,
_open: extern fn (*const FileProtocol, **const FileProtocol, [*:0]const u16, u64, u64) Status,
_close: extern fn (*const FileProtocol) Status,
_delete: extern fn (*const FileProtocol) Status,
_read: extern fn (*const FileProtocol, *usize, [*]u8) Status,
_write: extern fn (*const FileProtocol, *usize, [*]const u8) Status,
_get_position: extern fn (*const FileProtocol, *u64) Status,
_set_position: extern fn (*const FileProtocol, *const u64) Status,
_get_info: extern fn (*const FileProtocol, *align(8) const Guid, *const usize, [*]u8) Status,
_set_info: extern fn (*const FileProtocol, *align(8) const Guid, usize, [*]const u8) Status,
_flush: extern fn (*const FileProtocol) Status,
_open: fn (*const FileProtocol, **const FileProtocol, [*:0]const u16, u64, u64) callconv(.C) Status,
_close: fn (*const FileProtocol) callconv(.C) Status,
_delete: fn (*const FileProtocol) callconv(.C) Status,
_read: fn (*const FileProtocol, *usize, [*]u8) callconv(.C) Status,
_write: fn (*const FileProtocol, *usize, [*]const u8) callconv(.C) Status,
_get_position: fn (*const FileProtocol, *u64) callconv(.C) Status,
_set_position: fn (*const FileProtocol, *const u64) callconv(.C) Status,
_get_info: fn (*const FileProtocol, *align(8) const Guid, *const usize, [*]u8) callconv(.C) Status,
_set_info: fn (*const FileProtocol, *align(8) const Guid, usize, [*]const u8) callconv(.C) Status,
_flush: fn (*const FileProtocol) callconv(.C) Status,
pub fn open(self: *const FileProtocol, new_handle: **const FileProtocol, file_name: [*:0]const u16, open_mode: u64, attributes: u64) Status {
return self._open(self, new_handle, file_name, open_mode, attributes);

6
lib/std/os/uefi/protocols/graphics_output_protocol.zig
View File

@ -4,9 +4,9 @@ const Status = uefi.Status;
/// Graphics output
pub const GraphicsOutputProtocol = extern struct {
_query_mode: extern fn (*const GraphicsOutputProtocol, u32, *usize, **GraphicsOutputModeInformation) Status,
_set_mode: extern fn (*const GraphicsOutputProtocol, u32) Status,
_blt: extern fn (*const GraphicsOutputProtocol, ?[*]GraphicsOutputBltPixel, GraphicsOutputBltOperation, usize, usize, usize, usize, usize, usize, usize) Status,
_query_mode: fn (*const GraphicsOutputProtocol, u32, *usize, **GraphicsOutputModeInformation) callconv(.C) Status,
_set_mode: fn (*const GraphicsOutputProtocol, u32) callconv(.C) Status,
_blt: fn (*const GraphicsOutputProtocol, ?[*]GraphicsOutputBltPixel, GraphicsOutputBltOperation, usize, usize, usize, usize, usize, usize, usize) callconv(.C) Status,
mode: *GraphicsOutputProtocolMode,
/// Returns information for an available graphics mode that the graphics device and the set of active video output devices supports.

8
lib/std/os/uefi/protocols/hii_database_protocol.zig
View File

@ -6,10 +6,10 @@ const hii = uefi.protocols.hii;
/// Database manager for HII-related data structures.
pub const HIIDatabaseProtocol = extern struct {
_new_package_list: Status, // TODO
_remove_package_list: extern fn (*const HIIDatabaseProtocol, hii.HIIHandle) Status,
_update_package_list: extern fn (*const HIIDatabaseProtocol, hii.HIIHandle, *const hii.HIIPackageList) Status,
_list_package_lists: extern fn (*const HIIDatabaseProtocol, u8, ?*const Guid, *usize, [*]hii.HIIHandle) Status,
_export_package_lists: extern fn (*const HIIDatabaseProtocol, ?hii.HIIHandle, *usize, *hii.HIIPackageList) Status,
_remove_package_list: fn (*const HIIDatabaseProtocol, hii.HIIHandle) callconv(.C) Status,
_update_package_list: fn (*const HIIDatabaseProtocol, hii.HIIHandle, *const hii.HIIPackageList) callconv(.C) Status,
_list_package_lists: fn (*const HIIDatabaseProtocol, u8, ?*const Guid, *usize, [*]hii.HIIHandle) callconv(.C) Status,
_export_package_lists: fn (*const HIIDatabaseProtocol, ?hii.HIIHandle, *usize, *hii.HIIPackageList) callconv(.C) Status,
_register_package_notify: Status, // TODO
_unregister_package_notify: Status, // TODO
_find_keyboard_layouts: Status, // TODO

2
lib/std/os/uefi/protocols/hii_popup_protocol.zig
View File

@ -6,7 +6,7 @@ const hii = uefi.protocols.hii;
/// Display a popup window
pub const HIIPopupProtocol = extern struct {
revision: u64,
_create_popup: extern fn (*const HIIPopupProtocol, HIIPopupStyle, HIIPopupType, hii.HIIHandle, u16, ?*HIIPopupSelection) Status,
_create_popup: fn (*const HIIPopupProtocol, HIIPopupStyle, HIIPopupType, hii.HIIHandle, u16, ?*HIIPopupSelection) callconv(.C) Status,
/// Displays a popup window.
pub fn createPopup(self: *const HIIPopupProtocol, style: HIIPopupStyle, popup_type: HIIPopupType, handle: hii.HIIHandle, msg: u16, user_selection: ?*HIIPopupSelection) Status {

8
lib/std/os/uefi/protocols/ip6_config_protocol.zig
View File

@ -4,10 +4,10 @@ const Event = uefi.Event;
const Status = uefi.Status;
pub const Ip6ConfigProtocol = extern struct {
_set_data: extern fn (*const Ip6ConfigProtocol, Ip6ConfigDataType, usize, *const c_void) Status,
_get_data: extern fn (*const Ip6ConfigProtocol, Ip6ConfigDataType, *usize, ?*const c_void) Status,
_register_data_notify: extern fn (*const Ip6ConfigProtocol, Ip6ConfigDataType, Event) Status,
_unregister_data_notify: extern fn (*const Ip6ConfigProtocol, Ip6ConfigDataType, Event) Status,
_set_data: fn (*const Ip6ConfigProtocol, Ip6ConfigDataType, usize, *const c_void) callconv(.C) Status,
_get_data: fn (*const Ip6ConfigProtocol, Ip6ConfigDataType, *usize, ?*const c_void) callconv(.C) Status,
_register_data_notify: fn (*const Ip6ConfigProtocol, Ip6ConfigDataType, Event) callconv(.C) Status,
_unregister_data_notify: fn (*const Ip6ConfigProtocol, Ip6ConfigDataType, Event) callconv(.C) Status,
pub fn setData(self: *const Ip6ConfigProtocol, data_type: Ip6ConfigDataType, data_size: usize, data: *const c_void) Status {
return self._set_data(self, data_type, data_size, data);

18
lib/std/os/uefi/protocols/ip6_protocol.zig
View File

@ -7,15 +7,15 @@ const ManagedNetworkConfigData = uefi.protocols.ManagedNetworkConfigData;
const SimpleNetworkMode = uefi.protocols.SimpleNetworkMode;
pub const Ip6Protocol = extern struct {
_get_mode_data: extern fn (*const Ip6Protocol, ?*Ip6ModeData, ?*ManagedNetworkConfigData, ?*SimpleNetworkMode) Status,
_configure: extern fn (*const Ip6Protocol, ?*const Ip6ConfigData) Status,
_groups: extern fn (*const Ip6Protocol, bool, ?*const Ip6Address) Status,
_routes: extern fn (*const Ip6Protocol, bool, ?*const Ip6Address, u8, ?*const Ip6Address) Status,
_neighbors: extern fn (*const Ip6Protocol, bool, *const Ip6Address, ?*const MacAddress, u32, bool) Status,
_transmit: extern fn (*const Ip6Protocol, *Ip6CompletionToken) Status,
_receive: extern fn (*const Ip6Protocol, *Ip6CompletionToken) Status,
_cancel: extern fn (*const Ip6Protocol, ?*Ip6CompletionToken) Status,
_poll: extern fn (*const Ip6Protocol) Status,
_get_mode_data: fn (*const Ip6Protocol, ?*Ip6ModeData, ?*ManagedNetworkConfigData, ?*SimpleNetworkMode) callconv(.C) Status,
_configure: fn (*const Ip6Protocol, ?*const Ip6ConfigData) callconv(.C) Status,
_groups: fn (*const Ip6Protocol, bool, ?*const Ip6Address) callconv(.C) Status,
_routes: fn (*const Ip6Protocol, bool, ?*const Ip6Address, u8, ?*const Ip6Address) callconv(.C) Status,
_neighbors: fn (*const Ip6Protocol, bool, *const Ip6Address, ?*const MacAddress, u32, bool) callconv(.C) Status,
_transmit: fn (*const Ip6Protocol, *Ip6CompletionToken) callconv(.C) Status,
_receive: fn (*const Ip6Protocol, *Ip6CompletionToken) callconv(.C) Status,
_cancel: fn (*const Ip6Protocol, ?*Ip6CompletionToken) callconv(.C) Status,
_poll: fn (*const Ip6Protocol) callconv(.C) Status,
/// Gets the current operational settings for this instance of the EFI IPv6 Protocol driver.
pub fn getModeData(self: *const Ip6Protocol, ip6_mode_data: ?*Ip6ModeData, mnp_config_data: ?*ManagedNetworkConfigData, snp_mode_data: ?*SimpleNetworkMode) Status {

4
lib/std/os/uefi/protocols/ip6_service_binding_protocol.zig
View File

@ -4,8 +4,8 @@ const Guid = uefi.Guid;
const Status = uefi.Status;
pub const Ip6ServiceBindingProtocol = extern struct {
_create_child: extern fn (*const Ip6ServiceBindingProtocol, *?Handle) Status,
_destroy_child: extern fn (*const Ip6ServiceBindingProtocol, Handle) Status,
_create_child: fn (*const Ip6ServiceBindingProtocol, *?Handle) callconv(.C) Status,
_destroy_child: fn (*const Ip6ServiceBindingProtocol, Handle) callconv(.C) Status,
pub fn createChild(self: *const Ip6ServiceBindingProtocol, handle: *?Handle) Status {
return self._create_child(self, handle);

2
lib/std/os/uefi/protocols/loaded_image_protocol.zig
View File

@ -19,7 +19,7 @@ pub const LoadedImageProtocol = extern struct {
image_size: u64,
image_code_type: MemoryType,
image_data_type: MemoryType,
_unload: extern fn (*const LoadedImageProtocol, Handle) Status,
_unload: fn (*const LoadedImageProtocol, Handle) callconv(.C) Status,
/// Unloads an image from memory.
pub fn unload(self: *const LoadedImageProtocol, handle: Handle) Status {

16
lib/std/os/uefi/protocols/managed_network_protocol.zig
View File

@ -7,14 +7,14 @@ const SimpleNetworkMode = uefi.protocols.SimpleNetworkMode;
const MacAddress = uefi.protocols.MacAddress;
pub const ManagedNetworkProtocol = extern struct {
_get_mode_data: extern fn (*const ManagedNetworkProtocol, ?*ManagedNetworkConfigData, ?*SimpleNetworkMode) Status,
_configure: extern fn (*const ManagedNetworkProtocol, ?*const ManagedNetworkConfigData) Status,
_mcast_ip_to_mac: extern fn (*const ManagedNetworkProtocol, bool, *const c_void, *MacAddress) Status,
_groups: extern fn (*const ManagedNetworkProtocol, bool, ?*const MacAddress) Status,
_transmit: extern fn (*const ManagedNetworkProtocol, *const ManagedNetworkCompletionToken) Status,
_receive: extern fn (*const ManagedNetworkProtocol, *const ManagedNetworkCompletionToken) Status,
_cancel: extern fn (*const ManagedNetworkProtocol, ?*const ManagedNetworkCompletionToken) Status,
_poll: extern fn (*const ManagedNetworkProtocol) usize,
_get_mode_data: fn (*const ManagedNetworkProtocol, ?*ManagedNetworkConfigData, ?*SimpleNetworkMode) callconv(.C) Status,
_configure: fn (*const ManagedNetworkProtocol, ?*const ManagedNetworkConfigData) callconv(.C) Status,
_mcast_ip_to_mac: fn (*const ManagedNetworkProtocol, bool, *const c_void, *MacAddress) callconv(.C) Status,
_groups: fn (*const ManagedNetworkProtocol, bool, ?*const MacAddress) callconv(.C) Status,
_transmit: fn (*const ManagedNetworkProtocol, *const ManagedNetworkCompletionToken) callconv(.C) Status,
_receive: fn (*const ManagedNetworkProtocol, *const ManagedNetworkCompletionToken) callconv(.C) Status,
_cancel: fn (*const ManagedNetworkProtocol, ?*const ManagedNetworkCompletionToken) callconv(.C) Status,
_poll: fn (*const ManagedNetworkProtocol) callconv(.C) usize,
/// Returns the operational parameters for the current MNP child driver.
/// May also support returning the underlying SNP driver mode data.

4
lib/std/os/uefi/protocols/managed_network_service_binding_protocol.zig
View File

@ -4,8 +4,8 @@ const Guid = uefi.Guid;
const Status = uefi.Status;
pub const ManagedNetworkServiceBindingProtocol = extern struct {
_create_child: extern fn (*const ManagedNetworkServiceBindingProtocol, *?Handle) Status,
_destroy_child: extern fn (*const ManagedNetworkServiceBindingProtocol, Handle) Status,
_create_child: fn (*const ManagedNetworkServiceBindingProtocol, *?Handle) callconv(.C) Status,
_destroy_child: fn (*const ManagedNetworkServiceBindingProtocol, Handle) callconv(.C) Status,
pub fn createChild(self: *const ManagedNetworkServiceBindingProtocol, handle: *?Handle) Status {
return self._create_child(self, handle);

4
lib/std/os/uefi/protocols/rng_protocol.zig
View File

@ -4,8 +4,8 @@ const Status = uefi.Status;
/// Random Number Generator protocol
pub const RNGProtocol = extern struct {
_get_info: extern fn (*const RNGProtocol, *usize, [*]align(8) Guid) Status,
_get_rng: extern fn (*const RNGProtocol, ?*align(8) const Guid, usize, [*]u8) Status,
_get_info: fn (*const RNGProtocol, *usize, [*]align(8) Guid) callconv(.C) Status,
_get_rng: fn (*const RNGProtocol, ?*align(8) const Guid, usize, [*]u8) callconv(.C) Status,
/// Returns information about the random number generation implementation.
pub fn getInfo(self: *const RNGProtocol, list_size: *usize, list: [*]align(8) Guid) Status {

2
lib/std/os/uefi/protocols/simple_file_system_protocol.zig
View File

@ -5,7 +5,7 @@ const Status = uefi.Status;
pub const SimpleFileSystemProtocol = extern struct {
revision: u64,
_open_volume: extern fn (*const SimpleFileSystemProtocol, **const FileProtocol) Status,
_open_volume: fn (*const SimpleFileSystemProtocol, **const FileProtocol) callconv(.C) Status,
pub fn openVolume(self: *const SimpleFileSystemProtocol, root: **const FileProtocol) Status {
return self._open_volume(self, root);

26
lib/std/os/uefi/protocols/simple_network_protocol.zig
View File

@ -5,19 +5,19 @@ const Status = uefi.Status;
pub const SimpleNetworkProtocol = extern struct {
revision: u64,
_start: extern fn (*const SimpleNetworkProtocol) Status,
_stop: extern fn (*const SimpleNetworkProtocol) Status,
_initialize: extern fn (*const SimpleNetworkProtocol, usize, usize) Status,
_reset: extern fn (*const SimpleNetworkProtocol, bool) Status,
_shutdown: extern fn (*const SimpleNetworkProtocol) Status,
_receive_filters: extern fn (*const SimpleNetworkProtocol, SimpleNetworkReceiveFilter, SimpleNetworkReceiveFilter, bool, usize, ?[*]const MacAddress) Status,
_station_address: extern fn (*const SimpleNetworkProtocol, bool, ?*const MacAddress) Status,
_statistics: extern fn (*const SimpleNetworkProtocol, bool, ?*usize, ?*NetworkStatistics) Status,
_mcast_ip_to_mac: extern fn (*const SimpleNetworkProtocol, bool, *const c_void, *MacAddress) Status,
_nvdata: extern fn (*const SimpleNetworkProtocol, bool, usize, usize, [*]u8) Status,
_get_status: extern fn (*const SimpleNetworkProtocol, *SimpleNetworkInterruptStatus, ?*?[*]u8) Status,
_transmit: extern fn (*const SimpleNetworkProtocol, usize, usize, [*]const u8, ?*const MacAddress, ?*const MacAddress, ?*const u16) Status,
_receive: extern fn (*const SimpleNetworkProtocol, ?*usize, *usize, [*]u8, ?*MacAddress, ?*MacAddress, ?*u16) Status,
_start: fn (*const SimpleNetworkProtocol) callconv(.C) Status,
_stop: fn (*const SimpleNetworkProtocol) callconv(.C) Status,
_initialize: fn (*const SimpleNetworkProtocol, usize, usize) callconv(.C) Status,
_reset: fn (*const SimpleNetworkProtocol, bool) callconv(.C) Status,
_shutdown: fn (*const SimpleNetworkProtocol) callconv(.C) Status,
_receive_filters: fn (*const SimpleNetworkProtocol, SimpleNetworkReceiveFilter, SimpleNetworkReceiveFilter, bool, usize, ?[*]const MacAddress) callconv(.C) Status,
_station_address: fn (*const SimpleNetworkProtocol, bool, ?*const MacAddress) callconv(.C) Status,
_statistics: fn (*const SimpleNetworkProtocol, bool, ?*usize, ?*NetworkStatistics) callconv(.C) Status,
_mcast_ip_to_mac: fn (*const SimpleNetworkProtocol, bool, *const c_void, *MacAddress) callconv(.C) Status,
_nvdata: fn (*const SimpleNetworkProtocol, bool, usize, usize, [*]u8) callconv(.C) Status,
_get_status: fn (*const SimpleNetworkProtocol, *SimpleNetworkInterruptStatus, ?*?[*]u8) callconv(.C) Status,
_transmit: fn (*const SimpleNetworkProtocol, usize, usize, [*]const u8, ?*const MacAddress, ?*const MacAddress, ?*const u16) callconv(.C) Status,
_receive: fn (*const SimpleNetworkProtocol, ?*usize, *usize, [*]u8, ?*MacAddress, ?*MacAddress, ?*u16) callconv(.C) Status,
wait_for_packet: Event,
mode: *SimpleNetworkMode,

4
lib/std/os/uefi/protocols/simple_pointer_protocol.zig
View File

@ -5,8 +5,8 @@ const Status = uefi.Status;
/// Protocol for mice
pub const SimplePointerProtocol = struct {
_reset: extern fn (*const SimplePointerProtocol, bool) Status,
_get_state: extern fn (*const SimplePointerProtocol, *SimplePointerState) Status,
_reset: fn (*const SimplePointerProtocol, bool) callconv(.C) Status,
_get_state: fn (*const SimplePointerProtocol, *SimplePointerState) callconv(.C) Status,
wait_for_input: Event,
mode: *SimplePointerMode,

12
lib/std/os/uefi/protocols/simple_text_input_ex_protocol.zig
View File

@ -5,12 +5,12 @@ const Status = uefi.Status;
/// Character input devices, e.g. Keyboard
pub const SimpleTextInputExProtocol = extern struct {
_reset: extern fn (*const SimpleTextInputExProtocol, bool) Status,
_read_key_stroke_ex: extern fn (*const SimpleTextInputExProtocol, *KeyData) Status,
_reset: fn (*const SimpleTextInputExProtocol, bool) callconv(.C) Status,
_read_key_stroke_ex: fn (*const SimpleTextInputExProtocol, *KeyData) callconv(.C) Status,
wait_for_key_ex: Event,
_set_state: extern fn (*const SimpleTextInputExProtocol, *const u8) Status,
_register_key_notify: extern fn (*const SimpleTextInputExProtocol, *const KeyData, extern fn (*const KeyData) usize, **c_void) Status,
_unregister_key_notify: extern fn (*const SimpleTextInputExProtocol, *const c_void) Status,
_set_state: fn (*const SimpleTextInputExProtocol, *const u8) callconv(.C) Status,
_register_key_notify: fn (*const SimpleTextInputExProtocol, *const KeyData, fn (*const KeyData) callconv(.C) usize, **c_void) callconv(.C) Status,
_unregister_key_notify: fn (*const SimpleTextInputExProtocol, *const c_void) callconv(.C) Status,
/// Resets the input device hardware.
pub fn reset(self: *const SimpleTextInputExProtocol, verify: bool) Status {
@ -28,7 +28,7 @@ pub const SimpleTextInputExProtocol = extern struct {
}
/// Register a notification function for a particular keystroke for the input device.
pub fn registerKeyNotify(self: *const SimpleTextInputExProtocol, key_data: *const KeyData, notify: extern fn (*const KeyData) usize, handle: **c_void) Status {
pub fn registerKeyNotify(self: *const SimpleTextInputExProtocol, key_data: *const KeyData, notify: fn (*const KeyData) callconv(.C) usize, handle: **c_void) Status {
return self._register_key_notify(self, key_data, notify, handle);
}

4
lib/std/os/uefi/protocols/simple_text_input_protocol.zig
View File

@ -6,8 +6,8 @@ const Status = uefi.Status;
/// Character input devices, e.g. Keyboard
pub const SimpleTextInputProtocol = extern struct {
_reset: extern fn (*const SimpleTextInputProtocol, bool) usize,
_read_key_stroke: extern fn (*const SimpleTextInputProtocol, *InputKey) Status,
_reset: fn (*const SimpleTextInputProtocol, bool) callconv(.C) usize,
_read_key_stroke: fn (*const SimpleTextInputProtocol, *InputKey) callconv(.C) Status,
wait_for_key: Event,
/// Resets the input device hardware.

18
lib/std/os/uefi/protocols/simple_text_output_protocol.zig
View File

@ -4,15 +4,15 @@ const Status = uefi.Status;
/// Character output devices
pub const SimpleTextOutputProtocol = extern struct {
_reset: extern fn (*const SimpleTextOutputProtocol, bool) Status,
_output_string: extern fn (*const SimpleTextOutputProtocol, [*:0]const u16) Status,
_test_string: extern fn (*const SimpleTextOutputProtocol, [*:0]const u16) Status,
_query_mode: extern fn (*const SimpleTextOutputProtocol, usize, *usize, *usize) Status,
_set_mode: extern fn (*const SimpleTextOutputProtocol, usize) Status,
_set_attribute: extern fn (*const SimpleTextOutputProtocol, usize) Status,
_clear_screen: extern fn (*const SimpleTextOutputProtocol) Status,
_set_cursor_position: extern fn (*const SimpleTextOutputProtocol, usize, usize) Status,
_enable_cursor: extern fn (*const SimpleTextOutputProtocol, bool) Status,
_reset: fn (*const SimpleTextOutputProtocol, bool) callconv(.C) Status,
_output_string: fn (*const SimpleTextOutputProtocol, [*:0]const u16) callconv(.C) Status,
_test_string: fn (*const SimpleTextOutputProtocol, [*:0]const u16) callconv(.C) Status,
_query_mode: fn (*const SimpleTextOutputProtocol, usize, *usize, *usize) callconv(.C) Status,
_set_mode: fn (*const SimpleTextOutputProtocol, usize) callconv(.C) Status,
_set_attribute: fn (*const SimpleTextOutputProtocol, usize) callconv(.C) Status,
_clear_screen: fn (*const SimpleTextOutputProtocol) callconv(.C) Status,
_set_cursor_position: fn (*const SimpleTextOutputProtocol, usize, usize) callconv(.C) Status,
_enable_cursor: fn (*const SimpleTextOutputProtocol, bool) callconv(.C) Status,
mode: *SimpleTextOutputMode,
/// Resets the text output device hardware.

14
lib/std/os/uefi/protocols/udp6_protocol.zig
View File

@ -9,13 +9,13 @@ const ManagedNetworkConfigData = uefi.protocols.ManagedNetworkConfigData;
const SimpleNetworkMode = uefi.protocols.SimpleNetworkMode;
pub const Udp6Protocol = extern struct {
_get_mode_data: extern fn (*const Udp6Protocol, ?*Udp6ConfigData, ?*Ip6ModeData, ?*ManagedNetworkConfigData, ?*SimpleNetworkMode) Status,
_configure: extern fn (*const Udp6Protocol, ?*const Udp6ConfigData) Status,
_groups: extern fn (*const Udp6Protocol, bool, ?*const Ip6Address) Status,
_transmit: extern fn (*const Udp6Protocol, *Udp6CompletionToken) Status,
_receive: extern fn (*const Udp6Protocol, *Udp6CompletionToken) Status,
_cancel: extern fn (*const Udp6Protocol, ?*Udp6CompletionToken) Status,
_poll: extern fn (*const Udp6Protocol) Status,
_get_mode_data: fn (*const Udp6Protocol, ?*Udp6ConfigData, ?*Ip6ModeData, ?*ManagedNetworkConfigData, ?*SimpleNetworkMode) callconv(.C) Status,
_configure: fn (*const Udp6Protocol, ?*const Udp6ConfigData) callconv(.C) Status,
_groups: fn (*const Udp6Protocol, bool, ?*const Ip6Address) callconv(.C) Status,
_transmit: fn (*const Udp6Protocol, *Udp6CompletionToken) callconv(.C) Status,
_receive: fn (*const Udp6Protocol, *Udp6CompletionToken) callconv(.C) Status,
_cancel: fn (*const Udp6Protocol, ?*Udp6CompletionToken) callconv(.C) Status,
_poll: fn (*const Udp6Protocol) callconv(.C) Status,
pub fn getModeData(self: *const Udp6Protocol, udp6_config_data: ?*Udp6ConfigData, ip6_mode_data: ?*Ip6ModeData, mnp_config_data: ?*ManagedNetworkConfigData, snp_mode_data: ?*SimpleNetworkMode) Status {
return self._get_mode_data(self, udp6_config_data, ip6_mode_data, mnp_config_data, snp_mode_data);

4
lib/std/os/uefi/protocols/udp6_service_binding_protocol.zig
View File

@ -4,8 +4,8 @@ const Guid = uefi.Guid;
const Status = uefi.Status;
pub const Udp6ServiceBindingProtocol = extern struct {
_create_child: extern fn (*const Udp6ServiceBindingProtocol, *?Handle) Status,
_destroy_child: extern fn (*const Udp6ServiceBindingProtocol, Handle) Status,
_create_child: fn (*const Udp6ServiceBindingProtocol, *?Handle) callconv(.C) Status,
_destroy_child: fn (*const Udp6ServiceBindingProtocol, Handle) callconv(.C) Status,
pub fn createChild(self: *const Udp6ServiceBindingProtocol, handle: *?Handle) Status {
return self._create_child(self, handle);

64
lib/std/os/uefi/tables/boot_services.zig
View File

@ -21,117 +21,117 @@ pub const BootServices = extern struct {
hdr: TableHeader,
/// Raises a task's priority level and returns its previous level.
raiseTpl: extern fn (usize) usize,
raiseTpl: fn (usize) callconv(.C) usize,
/// Restores a task's priority level to its previous value.
restoreTpl: extern fn (usize) void,
restoreTpl: fn (usize) callconv(.C) void,
/// Allocates memory pages from the system.
allocatePages: extern fn (AllocateType, MemoryType, usize, *[*]align(4096) u8) Status,
allocatePages: fn (AllocateType, MemoryType, usize, *[*]align(4096) u8) callconv(.C) Status,
/// Frees memory pages.
freePages: extern fn ([*]align(4096) u8, usize) Status,
freePages: fn ([*]align(4096) u8, usize) callconv(.C) Status,
/// Returns the current memory map.
getMemoryMap: extern fn (*usize, [*]MemoryDescriptor, *usize, *usize, *u32) Status,
getMemoryMap: fn (*usize, [*]MemoryDescriptor, *usize, *usize, *u32) callconv(.C) Status,
/// Allocates pool memory.
allocatePool: extern fn (MemoryType, usize, *[*]align(8) u8) Status,
allocatePool: fn (MemoryType, usize, *[*]align(8) u8) callconv(.C) Status,
/// Returns pool memory to the system.
freePool: extern fn ([*]align(8) u8) Status,
freePool: fn ([*]align(8) u8) callconv(.C) Status,
/// Creates an event.
createEvent: extern fn (u32, usize, ?extern fn (Event, ?*c_void) void, ?*const c_void, *Event) Status,
createEvent: fn (u32, usize, ?fn (Event, ?*c_void) callconv(.C) void, ?*const c_void, *Event) callconv(.C) Status,
/// Sets the type of timer and the trigger time for a timer event.
setTimer: extern fn (Event, TimerDelay, u64) Status,
setTimer: fn (Event, TimerDelay, u64) callconv(.C) Status,
/// Stops execution until an event is signaled.
waitForEvent: extern fn (usize, [*]const Event, *usize) Status,
waitForEvent: fn (usize, [*]const Event, *usize) callconv(.C) Status,
/// Signals an event.
signalEvent: extern fn (Event) Status,
signalEvent: fn (Event) callconv(.C) Status,
/// Closes an event.
closeEvent: extern fn (Event) Status,
closeEvent: fn (Event) callconv(.C) Status,
/// Checks whether an event is in the signaled state.
checkEvent: extern fn (Event) Status,
checkEvent: fn (Event) callconv(.C) Status,
installProtocolInterface: Status, // TODO
reinstallProtocolInterface: Status, // TODO
uninstallProtocolInterface: Status, // TODO
/// Queries a handle to determine if it supports a specified protocol.
handleProtocol: extern fn (Handle, *align(8) const Guid, *?*c_void) Status,
handleProtocol: fn (Handle, *align(8) const Guid, *?*c_void) callconv(.C) Status,
reserved: *c_void,
registerProtocolNotify: Status, // TODO
/// Returns an array of handles that support a specified protocol.
locateHandle: extern fn (LocateSearchType, ?*align(8) const Guid, ?*const c_void, *usize, [*]Handle) Status,
locateHandle: fn (LocateSearchType, ?*align(8) const Guid, ?*const c_void, *usize, [*]Handle) callconv(.C) Status,
locateDevicePath: Status, // TODO
installConfigurationTable: Status, // TODO
/// Loads an EFI image into memory.
loadImage: extern fn (bool, Handle, ?*const DevicePathProtocol, ?[*]const u8, usize, *?Handle) Status,
loadImage: fn (bool, Handle, ?*const DevicePathProtocol, ?[*]const u8, usize, *?Handle) callconv(.C) Status,
/// Transfers control to a loaded image's entry point.
startImage: extern fn (Handle, ?*usize, ?*[*]u16) Status,
startImage: fn (Handle, ?*usize, ?*[*]u16) callconv(.C) Status,
/// Terminates a loaded EFI image and returns control to boot services.
exit: extern fn (Handle, Status, usize, ?*const c_void) Status,
exit: fn (Handle, Status, usize, ?*const c_void) callconv(.C) Status,
/// Unloads an image.
unloadImage: extern fn (Handle) Status,
unloadImage: fn (Handle) callconv(.C) Status,
/// Terminates all boot services.
exitBootServices: extern fn (Handle, usize) Status,
exitBootServices: fn (Handle, usize) callconv(.C) Status,
/// Returns a monotonically increasing count for the platform.
getNextMonotonicCount: extern fn (*u64) Status,
getNextMonotonicCount: fn (*u64) callconv(.C) Status,
/// Induces a fine-grained stall.
stall: extern fn (usize) Status,
stall: fn (usize) callconv(.C) Status,
/// Sets the system's watchdog timer.
setWatchdogTimer: extern fn (usize, u64, usize, ?[*]const u16) Status,
setWatchdogTimer: fn (usize, u64, usize, ?[*]const u16) callconv(.C) Status,
connectController: Status, // TODO
disconnectController: Status, // TODO
/// Queries a handle to determine if it supports a specified protocol.
openProtocol: extern fn (Handle, *align(8) const Guid, *?*c_void, ?Handle, ?Handle, OpenProtocolAttributes) Status,
openProtocol: fn (Handle, *align(8) const Guid, *?*c_void, ?Handle, ?Handle, OpenProtocolAttributes) callconv(.C) Status,
/// Closes a protocol on a handle that was opened using openProtocol().
closeProtocol: extern fn (Handle, *align(8) const Guid, Handle, ?Handle) Status,
closeProtocol: fn (Handle, *align(8) const Guid, Handle, ?Handle) callconv(.C) Status,
/// Retrieves the list of agents that currently have a protocol interface opened.
openProtocolInformation: extern fn (Handle, *align(8) const Guid, *[*]ProtocolInformationEntry, *usize) Status,
openProtocolInformation: fn (Handle, *align(8) const Guid, *[*]ProtocolInformationEntry, *usize) callconv(.C) Status,
/// Retrieves the list of protocol interface GUIDs that are installed on a handle in a buffer allocated from pool.
protocolsPerHandle: extern fn (Handle, *[*]*align(8) const Guid, *usize) Status,
protocolsPerHandle: fn (Handle, *[*]*align(8) const Guid, *usize) callconv(.C) Status,
/// Returns an array of handles that support the requested protocol in a buffer allocated from pool.
locateHandleBuffer: extern fn (LocateSearchType, ?*align(8) const Guid, ?*const c_void, *usize, *[*]Handle) Status,
locateHandleBuffer: fn (LocateSearchType, ?*align(8) const Guid, ?*const c_void, *usize, *[*]Handle) callconv(.C) Status,
/// Returns the first protocol instance that matches the given protocol.
locateProtocol: extern fn (*align(8) const Guid, ?*const c_void, *?*c_void) Status,
locateProtocol: fn (*align(8) const Guid, ?*const c_void, *?*c_void) callconv(.C) Status,
installMultipleProtocolInterfaces: Status, // TODO
uninstallMultipleProtocolInterfaces: Status, // TODO
/// Computes and returns a 32-bit CRC for a data buffer.
calculateCrc32: extern fn ([*]const u8, usize, *u32) Status,
calculateCrc32: fn ([*]const u8, usize, *u32) callconv(.C) Status,
/// Copies the contents of one buffer to another buffer
copyMem: extern fn ([*]u8, [*]const u8, usize) void,
copyMem: fn ([*]u8, [*]const u8, usize) callconv(.C) void,
/// Fills a buffer with a specified value
setMem: extern fn ([*]u8, usize, u8) void,
setMem: fn ([*]u8, usize, u8) callconv(.C) void,
createEventEx: Status, // TODO

10
lib/std/os/uefi/tables/runtime_services.zig
View File

@ -17,7 +17,7 @@ pub const RuntimeServices = extern struct {
hdr: TableHeader,
/// Returns the current time and date information, and the time-keeping capabilities of the hardware platform.
getTime: extern fn (*uefi.Time, ?*TimeCapabilities) Status,
getTime: fn (*uefi.Time, ?*TimeCapabilities) callconv(.C) Status,
setTime: Status, // TODO
getWakeupTime: Status, // TODO
@ -26,18 +26,18 @@ pub const RuntimeServices = extern struct {
convertPointer: Status, // TODO
/// Returns the value of a variable.
getVariable: extern fn ([*:0]const u16, *align(8) const Guid, ?*u32, *usize, ?*c_void) Status,
getVariable: fn ([*:0]const u16, *align(8) const Guid, ?*u32, *usize, ?*c_void) callconv(.C) Status,
/// Enumerates the current variable names.
getNextVariableName: extern fn (*usize, [*:0]u16, *align(8) Guid) Status,
getNextVariableName: fn (*usize, [*:0]u16, *align(8) Guid) callconv(.C) Status,
/// Sets the value of a variable.
setVariable: extern fn ([*:0]const u16, *align(8) const Guid, u32, usize, *c_void) Status,
setVariable: fn ([*:0]const u16, *align(8) const Guid, u32, usize, *c_void) callconv(.C) Status,
getNextHighMonotonicCount: Status, // TODO
/// Resets the entire platform.
resetSystem: extern fn (ResetType, Status, usize, ?*const c_void) noreturn,
resetSystem: fn (ResetType, Status, usize, ?*const c_void) callconv(.C) noreturn,
updateCapsule: Status, // TODO
queryCapsuleCapabilities: Status, // TODO

12
lib/std/os/windows/bits.zig
View File

@ -627,7 +627,7 @@ pub const MEM_RESERVE_PLACEHOLDERS = 0x2;
pub const MEM_DECOMMIT = 0x4000;
pub const MEM_RELEASE = 0x8000;
pub const PTHREAD_START_ROUTINE = extern fn (LPVOID) DWORD;
pub const PTHREAD_START_ROUTINE = fn (LPVOID) callconv(.C) DWORD;
pub const LPTHREAD_START_ROUTINE = PTHREAD_START_ROUTINE;
pub const WIN32_FIND_DATAW = extern struct {
@ -784,7 +784,7 @@ pub const IMAGE_TLS_DIRECTORY = extern struct {
pub const IMAGE_TLS_DIRECTORY64 = IMAGE_TLS_DIRECTORY;
pub const IMAGE_TLS_DIRECTORY32 = IMAGE_TLS_DIRECTORY;
pub const PIMAGE_TLS_CALLBACK = ?extern fn (PVOID, DWORD, PVOID) void;
pub const PIMAGE_TLS_CALLBACK = ?fn (PVOID, DWORD, PVOID) callconv(.C) void;
pub const PROV_RSA_FULL = 1;
@ -810,7 +810,7 @@ pub const FILE_ACTION_MODIFIED = 0x00000003;
pub const FILE_ACTION_RENAMED_OLD_NAME = 0x00000004;
pub const FILE_ACTION_RENAMED_NEW_NAME = 0x00000005;
pub const LPOVERLAPPED_COMPLETION_ROUTINE = ?extern fn (DWORD, DWORD, *OVERLAPPED) void;
pub const LPOVERLAPPED_COMPLETION_ROUTINE = ?fn (DWORD, DWORD, *OVERLAPPED) callconv(.C) void;
pub const FILE_NOTIFY_CHANGE_CREATION = 64;
pub const FILE_NOTIFY_CHANGE_SIZE = 8;
@ -863,7 +863,7 @@ pub const RTL_CRITICAL_SECTION = extern struct {
pub const CRITICAL_SECTION = RTL_CRITICAL_SECTION;
pub const INIT_ONCE = RTL_RUN_ONCE;
pub const INIT_ONCE_STATIC_INIT = RTL_RUN_ONCE_INIT;
pub const INIT_ONCE_FN = extern fn (InitOnce: *INIT_ONCE, Parameter: ?*c_void, Context: ?*c_void) BOOL;
pub const INIT_ONCE_FN = fn (InitOnce: *INIT_ONCE, Parameter: ?*c_void, Context: ?*c_void) callconv(.C) BOOL;
pub const RTL_RUN_ONCE = extern struct {
Ptr: ?*c_void,
@ -1418,7 +1418,7 @@ pub const RTL_DRIVE_LETTER_CURDIR = extern struct {
DosPath: UNICODE_STRING,
};
pub const PPS_POST_PROCESS_INIT_ROUTINE = ?extern fn () void;
pub const PPS_POST_PROCESS_INIT_ROUTINE = ?fn () callconv(.C) void;
pub const FILE_BOTH_DIR_INFORMATION = extern struct {
NextEntryOffset: ULONG,
@ -1438,7 +1438,7 @@ pub const FILE_BOTH_DIR_INFORMATION = extern struct {
};
pub const FILE_BOTH_DIRECTORY_INFORMATION = FILE_BOTH_DIR_INFORMATION;
pub const IO_APC_ROUTINE = extern fn (PVOID, *IO_STATUS_BLOCK, ULONG) void;
pub const IO_APC_ROUTINE = fn (PVOID, *IO_STATUS_BLOCK, ULONG) callconv(.C) void;
pub const CURDIR = extern struct {
DosPath: UNICODE_STRING,

2
lib/std/os/windows/ws2_32.zig
View File

@ -106,7 +106,7 @@ pub const WSAOVERLAPPED = extern struct {
hEvent: ?WSAEVENT,
};
pub const WSAOVERLAPPED_COMPLETION_ROUTINE = extern fn (dwError: DWORD, cbTransferred: DWORD, lpOverlapped: *WSAOVERLAPPED, dwFlags: DWORD) void;
pub const WSAOVERLAPPED_COMPLETION_ROUTINE = fn (dwError: DWORD, cbTransferred: DWORD, lpOverlapped: *WSAOVERLAPPED, dwFlags: DWORD) callconv(.C) void;
pub const ADDRESS_FAMILY = u16;

2
lib/std/special/test_runner.zig
View File

@ -34,7 +34,7 @@ pub fn main() anyerror!void {
std.heap.page_allocator.free(async_frame_buffer);
async_frame_buffer = try std.heap.page_allocator.alignedAlloc(u8, std.Target.stack_align, size);
}
const casted_fn = @ptrCast(async fn () anyerror!void, test_fn.func);
const casted_fn = @ptrCast(fn () callconv(.Async) anyerror!void, test_fn.func);
break :blk await @asyncCall(async_frame_buffer, {}, casted_fn);
},
.blocking => {

3
lib/std/start.zig
View File

@ -224,8 +224,7 @@ inline fn initEventLoopAndCallMain() u8 {
// and we want fewer call frames in stack traces.
return @call(.{ .modifier = .always_inline }, callMain, .{});
}
async fn callMainAsync(loop: *std.event.Loop) u8 {
fn callMainAsync(loop: *std.event.Loop) callconv(.Async) u8 {
// This prevents the event loop from terminating at least until main() has returned.
loop.beginOneEvent();
defer loop.finishOneEvent();

2
src-self-hosted/clang.zig
View File

@ -781,7 +781,7 @@ pub extern fn ZigClangSourceManager_getCharacterData(self: ?*const struct_ZigCla
pub extern fn ZigClangASTContext_getPointerType(self: ?*const struct_ZigClangASTContext, T: struct_ZigClangQualType) struct_ZigClangQualType;
pub extern fn ZigClangASTUnit_getASTContext(self: ?*struct_ZigClangASTUnit) ?*struct_ZigClangASTContext;
pub extern fn ZigClangASTUnit_getSourceManager(self: *struct_ZigClangASTUnit) *struct_ZigClangSourceManager;
pub extern fn ZigClangASTUnit_visitLocalTopLevelDecls(self: *struct_ZigClangASTUnit, context: ?*c_void, Fn: ?extern fn (?*c_void, *const struct_ZigClangDecl) bool) bool;
pub extern fn ZigClangASTUnit_visitLocalTopLevelDecls(self: *struct_ZigClangASTUnit, context: ?*c_void, Fn: ?fn (?*c_void, *const struct_ZigClangDecl) callconv(.C) bool) bool;
pub extern fn ZigClangRecordType_getDecl(record_ty: ?*const struct_ZigClangRecordType) *const struct_ZigClangRecordDecl;
pub extern fn ZigClangTagDecl_isThisDeclarationADefinition(self: *const ZigClangTagDecl) bool;
pub extern fn ZigClangEnumType_getDecl(record_ty: ?*const struct_ZigClangEnumType) *const struct_ZigClangEnumDecl;

5
src-self-hosted/main.zig
View File

@ -41,7 +41,7 @@ const usage =
const Command = struct {
name: []const u8,
exec: async fn (*Allocator, []const []const u8) anyerror!void,
exec: fn (*Allocator, []const []const u8) callconv(.Async) anyerror!void,
};
pub fn main() !void {
@ -713,8 +713,7 @@ const FmtError = error{
FileBusy,
CurrentWorkingDirectoryUnlinked,
} || fs.File.OpenError;
async fn fmtPath(fmt: *Fmt, file_path_ref: []const u8, check_mode: bool) FmtError!void {
fn fmtPath(fmt: *Fmt, file_path_ref: []const u8, check_mode: bool) callconv(.Async) FmtError!void {
const stderr_file = io.getStdErr();
const stderr = stderr_file.outStream();

54
test/stage1/behavior/async_fn.zig
View File

@ -112,12 +112,12 @@ test "@frameSize" {
const S = struct {
fn doTheTest() void {
{
var ptr = @ptrCast(async fn (i32) void, other);
var ptr = @ptrCast(fn (i32) callconv(.Async) void, other);
const size = @frameSize(ptr);
expect(size == @sizeOf(@Frame(other)));
}
{
var ptr = @ptrCast(async fn () void, first);
var ptr = @ptrCast(fn () callconv(.Async) void, first);
const size = @frameSize(ptr);
expect(size == @sizeOf(@Frame(first)));
}
@ -184,7 +184,7 @@ test "coroutine suspend with block" {
var a_promise: anyframe = undefined;
var global_result = false;
async fn testSuspendBlock() void {
fn testSuspendBlock() callconv(.Async) void {
suspend {
comptime expect(@TypeOf(@frame()) == *@Frame(testSuspendBlock));
a_promise = @frame();
@ -209,14 +209,14 @@ test "coroutine await" {
expect(await_final_result == 1234);
expect(std.mem.eql(u8, &await_points, "abcdefghi"));
}
async fn await_amain() void {
fn await_amain() callconv(.Async) void {
await_seq('b');
var p = async await_another();
await_seq('e');
await_final_result = await p;
await_seq('h');
}
async fn await_another() i32 {
fn await_another() callconv(.Async) i32 {
await_seq('c');
suspend {
await_seq('d');
@ -243,14 +243,14 @@ test "coroutine await early return" {
expect(early_final_result == 1234);
expect(std.mem.eql(u8, &early_points, "abcdef"));
}
async fn early_amain() void {
fn early_amain() callconv(.Async) void {
early_seq('b');
var p = async early_another();
early_seq('d');
early_final_result = await p;
early_seq('e');
}
async fn early_another() i32 {
fn early_another() callconv(.Async) i32 {
early_seq('c');
return 1234;
}
@ -266,7 +266,7 @@ fn early_seq(c: u8) void {
test "async function with dot syntax" {
const S = struct {
var y: i32 = 1;
async fn foo() void {
fn foo() callconv(.Async) void {
y += 1;
suspend;
}
@ -278,7 +278,7 @@ test "async function with dot syntax" {
test "async fn pointer in a struct field" {
var data: i32 = 1;
const Foo = struct {
bar: async fn (*i32) void,
bar: fn (*i32) callconv(.Async) void,
};
var foo = Foo{ .bar = simpleAsyncFn2 };
var bytes: [64]u8 align(16) = undefined;
@ -294,8 +294,7 @@ test "async fn pointer in a struct field" {
fn doTheAwait(f: anyframe->void) void {
await f;
}
async fn simpleAsyncFn2(y: *i32) void {
fn simpleAsyncFn2(y: *i32) callconv(.Async) void {
defer y.* += 2;
y.* += 1;
suspend;
@ -303,11 +302,10 @@ async fn simpleAsyncFn2(y: *i32) void {
test "@asyncCall with return type" {
const Foo = struct {
bar: async fn () i32,
bar: fn () callconv(.Async) i32,
var global_frame: anyframe = undefined;
async fn middle() i32 {
fn middle() callconv(.Async) i32 {
return afunc();
}
@ -338,8 +336,7 @@ test "async fn with inferred error set" {
resume global_frame;
std.testing.expectError(error.Fail, result);
}
async fn middle() !void {
fn middle() callconv(.Async) !void {
var f = async middle2();
return await f;
}
@ -376,11 +373,11 @@ fn nonFailing() (anyframe->anyerror!void) {
Static.frame = async suspendThenFail();
return &Static.frame;
}
async fn suspendThenFail() anyerror!void {
fn suspendThenFail() callconv(.Async) anyerror!void {
suspend;
return error.Fail;
}
async fn printTrace(p: anyframe->(anyerror!void)) void {
fn printTrace(p: anyframe->(anyerror!void)) callconv(.Async) void {
(await p) catch |e| {
std.testing.expect(e == error.Fail);
if (@errorReturnTrace()) |trace| {
@ -397,7 +394,7 @@ test "break from suspend" {
const p = async testBreakFromSuspend(&my_result);
std.testing.expect(my_result == 2);
}
async fn testBreakFromSuspend(my_result: *i32) void {
fn testBreakFromSuspend(my_result: *i32) callconv(.Async) void {
suspend {
resume @frame();
}
@ -826,7 +823,7 @@ test "cast fn to async fn when it is inferred to be async" {
var ok = false;
fn doTheTest() void {
var ptr: async fn () i32 = undefined;
var ptr: fn () callconv(.Async) i32 = undefined;
ptr = func;
var buf: [100]u8 align(16) = undefined;
var result: i32 = undefined;
@ -854,7 +851,7 @@ test "cast fn to async fn when it is inferred to be async, awaited directly" {
var ok = false;
fn doTheTest() void {
var ptr: async fn () i32 = undefined;
var ptr: fn () callconv(.Async) i32 = undefined;
ptr = func;
var buf: [100]u8 align(16) = undefined;
var result: i32 = undefined;
@ -958,8 +955,7 @@ test "@asyncCall with comptime-known function, but not awaited directly" {
resume global_frame;
std.testing.expectError(error.Fail, result);
}
async fn middle() !void {
fn middle() callconv(.Async) !void {
var f = async middle2();
return await f;
}
@ -993,7 +989,7 @@ test "@asyncCall with actual frame instead of byte buffer" {
test "@asyncCall using the result location inside the frame" {
const S = struct {
async fn simple2(y: *i32) i32 {
fn simple2(y: *i32) callconv(.Async) i32 {
defer y.* += 2;
y.* += 1;
suspend;
@ -1005,7 +1001,7 @@ test "@asyncCall using the result location inside the frame" {
};
var data: i32 = 1;
const Foo = struct {
bar: async fn (*i32) i32,
bar: fn (*i32) callconv(.Async) i32,
};
var foo = Foo{ .bar = S.simple2 };
var bytes: [64]u8 align(16) = undefined;
@ -1115,7 +1111,7 @@ test "await used in expression and awaiting fn with no suspend but async calling
const sum = (await f1) + (await f2);
expect(sum == 10);
}
async fn add(a: i32, b: i32) i32 {
fn add(a: i32, b: i32) callconv(.Async) i32 {
return a + b;
}
};
@ -1130,7 +1126,7 @@ test "await used in expression after a fn call" {
sum = foo() + await f1;
expect(sum == 8);
}
async fn add(a: i32, b: i32) i32 {
fn add(a: i32, b: i32) callconv(.Async) i32 {
return a + b;
}
fn foo() i32 {
@ -1147,7 +1143,7 @@ test "async fn call used in expression after a fn call" {
sum = foo() + add(3, 4);
expect(sum == 8);
}
async fn add(a: i32, b: i32) i32 {
fn add(a: i32, b: i32) callconv(.Async) i32 {
return a + b;
}
fn foo() i32 {
@ -1403,7 +1399,7 @@ test "async function call resolves target fn frame, runtime func" {
fn foo() anyerror!void {
const stack_size = 1000;
var stack_frame: [stack_size]u8 align(std.Target.stack_align) = undefined;
var func: async fn () anyerror!void = bar;
var func: fn () callconv(.Async) anyerror!void = bar;
return await @asyncCall(&stack_frame, {}, func);
}

4
test/stage1/behavior/await_struct.zig
View File

@ -18,14 +18,14 @@ test "coroutine await struct" {
expect(await_final_result.x == 1234);
expect(std.mem.eql(u8, &await_points, "abcdefghi"));
}
async fn await_amain() void {
fn await_amain() callconv(.Async) void {
await_seq('b');
var p = async await_another();
await_seq('e');
await_final_result = await p;
await_seq('h');
}
async fn await_another() Foo {
fn await_another() callconv(.Async) Foo {
await_seq('c');
suspend {
await_seq('d');

2
test/stage1/behavior/cast.zig
View File

@ -762,7 +762,7 @@ test "variable initialization uses result locations properly with regards to the
test "cast between [*c]T and ?[*:0]T on fn parameter" {
const S = struct {
const Handler = ?extern fn ([*c]const u8) void;
const Handler = ?fn ([*c]const u8) callconv(.C) void;
fn addCallback(handler: Handler) void {}
fn myCallback(cstr: ?[*:0]const u8) callconv(.C) void {}