rust/tests/run-make/c-link-to-rust-va-list-fn/checkrust.rs
Nicholas Nethercote 3079bd96b9 Run rustfmt on tests/run-make/.
With the exception of `tests/run-make/translation/test.rs`, which has a
syntax error.

The expected output in `rustdoc-error-lines/rmake.rs`'s required slight
tweaking.

The two `reproducible-build.rs` files need `// ignore-tidy-linelength`
because rustfmt produces lines longer than 100 chars, which tidy doesn't
like, yuk.
2024-05-31 21:30:08 +10:00

144 lines
4.7 KiB
Rust

#![crate_type = "staticlib"]
#![feature(c_variadic)]
use std::ffi::VaList;
use std::ffi::{c_char, c_double, c_int, c_long, c_longlong};
use std::ffi::{CStr, CString};
macro_rules! continue_if {
($cond:expr) => {
if !($cond) {
return 0xff;
}
};
}
unsafe fn compare_c_str(ptr: *const c_char, val: &str) -> bool {
let cstr0 = CStr::from_ptr(ptr);
match CString::new(val) {
Ok(cstr1) => &*cstr1 == cstr0,
Err(_) => false,
}
}
#[no_mangle]
pub unsafe extern "C" fn check_list_0(mut ap: VaList) -> usize {
continue_if!(ap.arg::<c_longlong>() == 1);
continue_if!(ap.arg::<c_int>() == 2);
continue_if!(ap.arg::<c_longlong>() == 3);
0
}
#[no_mangle]
pub unsafe extern "C" fn check_list_1(mut ap: VaList) -> usize {
continue_if!(ap.arg::<c_int>() == -1);
continue_if!(ap.arg::<c_char>() == 'A' as c_char);
continue_if!(ap.arg::<c_char>() == '4' as c_char);
continue_if!(ap.arg::<c_char>() == ';' as c_char);
continue_if!(ap.arg::<c_int>() == 0x32);
continue_if!(ap.arg::<c_int>() == 0x10000001);
continue_if!(compare_c_str(ap.arg::<*const c_char>(), "Valid!"));
0
}
#[no_mangle]
pub unsafe extern "C" fn check_list_2(mut ap: VaList) -> usize {
continue_if!(ap.arg::<c_double>().floor() == 3.14f64.floor());
continue_if!(ap.arg::<c_long>() == 12);
continue_if!(ap.arg::<c_char>() == 'a' as c_char);
continue_if!(ap.arg::<c_double>().floor() == 6.18f64.floor());
continue_if!(compare_c_str(ap.arg::<*const c_char>(), "Hello"));
continue_if!(ap.arg::<c_int>() == 42);
continue_if!(compare_c_str(ap.arg::<*const c_char>(), "World"));
0
}
#[no_mangle]
pub unsafe extern "C" fn check_list_copy_0(mut ap: VaList) -> usize {
continue_if!(ap.arg::<c_double>().floor() == 6.28f64.floor());
continue_if!(ap.arg::<c_int>() == 16);
continue_if!(ap.arg::<c_char>() == 'A' as c_char);
continue_if!(compare_c_str(ap.arg::<*const c_char>(), "Skip Me!"));
ap.with_copy(
|mut ap| {
if compare_c_str(ap.arg::<*const c_char>(), "Correct") { 0 } else { 0xff }
},
)
}
#[no_mangle]
pub unsafe extern "C" fn check_varargs_0(_: c_int, mut ap: ...) -> usize {
continue_if!(ap.arg::<c_int>() == 42);
continue_if!(compare_c_str(ap.arg::<*const c_char>(), "Hello, World!"));
0
}
#[no_mangle]
pub unsafe extern "C" fn check_varargs_1(_: c_int, mut ap: ...) -> usize {
continue_if!(ap.arg::<c_double>().floor() == 3.14f64.floor());
continue_if!(ap.arg::<c_long>() == 12);
continue_if!(ap.arg::<c_char>() == 'A' as c_char);
continue_if!(ap.arg::<c_longlong>() == 1);
0
}
#[no_mangle]
pub unsafe extern "C" fn check_varargs_2(_: c_int, _ap: ...) -> usize {
0
}
#[no_mangle]
pub unsafe extern "C" fn check_varargs_3(_: c_int, mut ap: ...) -> usize {
continue_if!(ap.arg::<c_int>() == 1);
continue_if!(ap.arg::<c_int>() == 2);
continue_if!(ap.arg::<c_int>() == 3);
continue_if!(ap.arg::<c_int>() == 4);
continue_if!(ap.arg::<c_int>() == 5);
continue_if!(ap.arg::<c_int>() == 6);
continue_if!(ap.arg::<c_int>() == 7);
continue_if!(ap.arg::<c_int>() == 8);
continue_if!(ap.arg::<c_int>() == 9);
continue_if!(ap.arg::<c_int>() == 10);
0
}
#[no_mangle]
pub unsafe extern "C" fn check_varargs_4(_: c_double, mut ap: ...) -> usize {
continue_if!(ap.arg::<c_double>() == 1.0);
continue_if!(ap.arg::<c_double>() == 2.0);
continue_if!(ap.arg::<c_double>() == 3.0);
continue_if!(ap.arg::<c_double>() == 4.0);
continue_if!(ap.arg::<c_double>() == 5.0);
continue_if!(ap.arg::<c_double>() == 6.0);
continue_if!(ap.arg::<c_double>() == 7.0);
continue_if!(ap.arg::<c_double>() == 8.0);
continue_if!(ap.arg::<c_double>() == 9.0);
continue_if!(ap.arg::<c_double>() == 10.0);
0
}
#[no_mangle]
pub unsafe extern "C" fn check_varargs_5(_: c_int, mut ap: ...) -> usize {
continue_if!(ap.arg::<c_double>() == 1.0);
continue_if!(ap.arg::<c_int>() == 1);
continue_if!(ap.arg::<c_double>() == 2.0);
continue_if!(ap.arg::<c_int>() == 2);
continue_if!(ap.arg::<c_double>() == 3.0);
continue_if!(ap.arg::<c_int>() == 3);
continue_if!(ap.arg::<c_double>() == 4.0);
continue_if!(ap.arg::<c_int>() == 4);
continue_if!(ap.arg::<c_int>() == 5);
continue_if!(ap.arg::<c_double>() == 5.0);
continue_if!(ap.arg::<c_int>() == 6);
continue_if!(ap.arg::<c_double>() == 6.0);
continue_if!(ap.arg::<c_int>() == 7);
continue_if!(ap.arg::<c_double>() == 7.0);
continue_if!(ap.arg::<c_int>() == 8);
continue_if!(ap.arg::<c_double>() == 8.0);
continue_if!(ap.arg::<c_int>() == 9);
continue_if!(ap.arg::<c_double>() == 9.0);
continue_if!(ap.arg::<c_int>() == 10);
continue_if!(ap.arg::<c_double>() == 10.0);
0
}