rust/example/mini_core_hello_world.rs

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#![feature(no_core, lang_items, never_type, linkage, extern_types, thread_local, repr_simd)]
#![no_core]
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#![allow(dead_code, non_camel_case_types)]
extern crate mini_core;
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use mini_core::libc::*;
use mini_core::*;
macro_rules! assert {
($e:expr) => {
if !$e {
panic(stringify!(!$e));
}
};
}
macro_rules! assert_eq {
($l:expr, $r: expr) => {
if $l != $r {
panic(stringify!($l != $r));
}
};
}
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#[lang = "termination"]
trait Termination {
fn report(self) -> i32;
}
impl Termination for () {
fn report(self) -> i32 {
unsafe {
NUM = 6 * 7 + 1 + (1u8 == 1u8) as u8; // 44
assert_eq!(*NUM_REF as i32, 44);
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}
0
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}
}
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trait SomeTrait {
fn object_safe(&self);
}
impl SomeTrait for &'static str {
fn object_safe(&self) {
unsafe {
puts(*self as *const str as *const i8);
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}
}
}
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struct NoisyDrop {
text: &'static str,
inner: NoisyDropInner,
}
struct NoisyDropUnsized {
inner: NoisyDropInner,
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text: str,
}
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struct NoisyDropInner;
impl Drop for NoisyDrop {
fn drop(&mut self) {
unsafe {
puts(self.text as *const str as *const i8);
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}
}
}
impl Drop for NoisyDropInner {
fn drop(&mut self) {
unsafe {
puts("Inner got dropped!\0" as *const str as *const i8);
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}
}
}
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impl SomeTrait for NoisyDrop {
fn object_safe(&self) {}
}
enum Ordering {
Less = -1,
Equal = 0,
Greater = 1,
}
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#[lang = "start"]
fn start<T: Termination + 'static>(
main: fn() -> T,
argc: isize,
argv: *const *const u8,
_sigpipe: u8,
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) -> isize {
if argc == 3 {
unsafe {
puts(*argv as *const i8);
}
unsafe {
puts(*((argv as usize + intrinsics::size_of::<*const u8>()) as *const *const i8));
}
unsafe {
puts(*((argv as usize + 2 * intrinsics::size_of::<*const u8>()) as *const *const i8));
}
}
main().report() as isize
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}
static mut NUM: u8 = 6 * 7;
static NUM_REF: &'static u8 = unsafe { &NUM };
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unsafe fn zeroed<T>() -> T {
let mut uninit = MaybeUninit { uninit: () };
intrinsics::write_bytes(&mut uninit.value.value as *mut T, 0, 1);
uninit.value.value
}
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fn take_f32(_f: f32) {}
fn take_unique(_u: Unique<()>) {}
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fn return_u128_pair() -> (u128, u128) {
(0, 0)
}
fn call_return_u128_pair() {
return_u128_pair();
}
#[repr(C)]
pub struct bool_11 {
field0: bool,
field1: bool,
field2: bool,
field3: bool,
field4: bool,
field5: bool,
field6: bool,
field7: bool,
field8: bool,
field9: bool,
field10: bool,
}
extern "C" fn bool_struct_in_11(_arg0: bool_11) {}
#[allow(unreachable_code)] // FIXME false positive
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fn main() {
take_unique(Unique { pointer: unsafe { NonNull(1 as *mut ()) }, _marker: PhantomData });
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take_f32(0.1);
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call_return_u128_pair();
bool_struct_in_11(bool_11 {
field0: true,
field1: true,
field2: true,
field3: true,
field4: true,
field5: true,
field6: true,
field7: true,
field8: true,
field9: true,
field10: true,
});
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let slice = &[0, 1] as &[i32];
let slice_ptr = slice as *const [i32] as *const i32;
assert_eq!(slice_ptr as usize % 4, 0);
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unsafe {
printf("Hello %s\n\0" as *const str as *const i8, "printf\0" as *const str as *const i8);
let hello: &[u8] = b"Hello\0" as &[u8; 6];
let ptr: *const i8 = hello as *const [u8] as *const i8;
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puts(ptr);
let world: Box<&str> = Box::new("World!\0");
puts(*world as *const str as *const i8);
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world as Box<dyn SomeTrait>;
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assert_eq!(intrinsics::bitreverse(0b10101000u8), 0b00010101u8);
assert_eq!(intrinsics::bswap(0xabu8), 0xabu8);
assert_eq!(intrinsics::bswap(0xddccu16), 0xccddu16);
assert_eq!(intrinsics::bswap(0xffee_ddccu32), 0xccdd_eeffu32);
assert_eq!(intrinsics::bswap(0x1234_5678_ffee_ddccu64), 0xccdd_eeff_7856_3412u64);
assert_eq!(intrinsics::size_of_val(hello) as u8, 6);
let chars = &['C', 'h', 'a', 'r', 's'];
let chars = chars as &[char];
assert_eq!(intrinsics::size_of_val(chars) as u8, 4 * 5);
let a: &dyn SomeTrait = &"abc\0";
a.object_safe();
assert_eq!(intrinsics::size_of_val(a) as u8, 16);
assert_eq!(intrinsics::size_of_val(&0u32) as u8, 4);
assert_eq!(intrinsics::min_align_of::<u16>() as u8, 2);
assert_eq!(
intrinsics::min_align_of_val(&a) as u8,
intrinsics::min_align_of::<&str>() as u8
);
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assert!(!intrinsics::needs_drop::<u8>());
assert!(!intrinsics::needs_drop::<[u8]>());
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assert!(intrinsics::needs_drop::<NoisyDrop>());
assert!(intrinsics::needs_drop::<NoisyDropUnsized>());
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Unique { pointer: NonNull(1 as *mut &str), _marker: PhantomData } as Unique<dyn SomeTrait>;
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struct MyDst<T: ?Sized>(T);
intrinsics::size_of_val(&MyDst([0u8; 4]) as &MyDst<[u8]>);
struct Foo {
x: u8,
y: !,
}
unsafe fn uninitialized<T>() -> T {
MaybeUninit { uninit: () }.value.value
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}
zeroed::<(u8, u8)>();
#[allow(unreachable_code)]
{
if false {
zeroed::<!>();
zeroed::<Foo>();
uninitialized::<Foo>();
}
}
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}
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let _ = Box::new(NoisyDrop { text: "Boxed outer got dropped!\0", inner: NoisyDropInner })
as Box<dyn SomeTrait>;
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const FUNC_REF: Option<fn()> = Some(main);
match FUNC_REF {
Some(_) => {}
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None => assert!(false),
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}
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match Ordering::Less {
Ordering::Less => {}
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_ => assert!(false),
}
[NoisyDropInner, NoisyDropInner];
let x = &[0u32, 42u32] as &[u32];
match x {
[] => assert_eq!(0u32, 1),
[_, ref y @ ..] => assert_eq!(&x[1] as *const u32 as usize, &y[0] as *const u32 as usize),
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}
assert_eq!(((|()| 42u8) as fn(()) -> u8)(()), 42);
#[cfg(not(any(jit, windows)))]
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{
extern "C" {
#[linkage = "extern_weak"]
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static ABC: *const u8;
}
{
extern "C" {
#[linkage = "extern_weak"]
static ABC: *const u8;
}
}
unsafe {
assert_eq!(ABC as usize, 0);
}
}
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&mut (|| Some(0 as *const ())) as &mut dyn FnMut() -> Option<*const ()>;
let f = 1000.0;
assert_eq!(f as u8, 255);
let f2 = -1000.0;
assert_eq!(f2 as i8, -128);
assert_eq!(f2 as u8, 0);
let amount = 0;
assert_eq!(1u128 << amount, 1);
static ANOTHER_STATIC: &u8 = &A_STATIC;
assert_eq!(*ANOTHER_STATIC, 42);
check_niche_behavior();
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extern "C" {
type ExternType;
}
struct ExternTypeWrapper {
_a: ExternType,
}
let nullptr = 0 as *const ();
let extern_nullptr = nullptr as *const ExternTypeWrapper;
extern_nullptr as *const ();
let slice_ptr = &[] as *const [u8];
slice_ptr as *const u8;
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let repeat = [Some(42); 2];
assert_eq!(repeat[0], Some(42));
assert_eq!(repeat[1], Some(42));
from_decimal_string();
#[cfg(not(any(jit, windows)))]
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test_tls();
#[cfg(all(not(jit), target_arch = "x86_64", any(target_os = "linux", target_os = "darwin")))]
unsafe {
global_asm_test();
}
// Both statics have a reference that points to the same anonymous allocation.
static REF1: &u8 = &42;
static REF2: &u8 = REF1;
assert_eq!(*REF1, *REF2);
extern "C" {
type A;
}
fn main() {
let x: &A = unsafe { &*(1usize as *const A) };
assert_eq!(unsafe { intrinsics::size_of_val(x) }, 0);
assert_eq!(unsafe { intrinsics::min_align_of_val(x) }, 1);
}
#[repr(simd)]
struct V([f64; 2]);
let f = V([0.0, 1.0]);
let _a = f.0[0];
}
#[cfg(all(not(jit), target_arch = "x86_64", any(target_os = "linux", target_os = "darwin")))]
extern "C" {
fn global_asm_test();
}
#[cfg(all(not(jit), target_arch = "x86_64", target_os = "linux"))]
global_asm! {
"
.global global_asm_test
global_asm_test:
// comment that would normally be removed by LLVM
ret
"
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}
#[cfg(all(not(jit), target_arch = "x86_64", target_os = "darwin"))]
global_asm! {
"
.global _global_asm_test
_global_asm_test:
// comment that would normally be removed by LLVM
ret
"
}
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#[repr(C)]
enum c_void {
_1,
_2,
}
type c_int = i32;
type c_ulong = u64;
type pthread_t = c_ulong;
#[repr(C)]
struct pthread_attr_t {
__size: [u64; 7],
}
#[link(name = "pthread")]
#[cfg(unix)]
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extern "C" {
fn pthread_attr_init(attr: *mut pthread_attr_t) -> c_int;
fn pthread_create(
native: *mut pthread_t,
attr: *const pthread_attr_t,
f: extern "C" fn(_: *mut c_void) -> *mut c_void,
value: *mut c_void,
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) -> c_int;
fn pthread_join(native: pthread_t, value: *mut *mut c_void) -> c_int;
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}
type DWORD = u32;
type LPDWORD = *mut u32;
type LPVOID = *mut c_void;
type HANDLE = *mut c_void;
#[link(name = "msvcrt")]
#[cfg(windows)]
extern "C" {
fn WaitForSingleObject(hHandle: LPVOID, dwMilliseconds: DWORD) -> DWORD;
fn CreateThread(
lpThreadAttributes: LPVOID, // Technically LPSECURITY_ATTRIBUTES, but we don't use it anyway
dwStackSize: usize,
lpStartAddress: extern "C" fn(_: *mut c_void) -> *mut c_void,
lpParameter: LPVOID,
dwCreationFlags: DWORD,
lpThreadId: LPDWORD,
) -> HANDLE;
}
struct Thread {
#[cfg(windows)]
handle: HANDLE,
#[cfg(unix)]
handle: pthread_t,
}
impl Thread {
unsafe fn create(f: extern "C" fn(_: *mut c_void) -> *mut c_void) -> Self {
#[cfg(unix)]
{
let mut attr: pthread_attr_t = zeroed();
let mut thread: pthread_t = 0;
if pthread_attr_init(&mut attr) != 0 {
assert!(false);
}
if pthread_create(&mut thread, &attr, f, 0 as *mut c_void) != 0 {
assert!(false);
}
Thread { handle: thread }
}
#[cfg(windows)]
{
let handle = CreateThread(0 as *mut c_void, 0, f, 0 as *mut c_void, 0, 0 as *mut u32);
if (handle as u64) == 0 {
assert!(false);
}
Thread { handle }
}
}
unsafe fn join(self) {
#[cfg(unix)]
{
let mut res = 0 as *mut c_void;
pthread_join(self.handle, &mut res);
}
#[cfg(windows)]
{
// The INFINITE macro is used to signal operations that do not timeout.
let infinite = 0xffffffff;
assert!(WaitForSingleObject(self.handle, infinite) == 0);
}
}
}
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#[thread_local]
#[cfg(not(jit))]
static mut TLS: u8 = 42;
#[cfg(not(jit))]
extern "C" fn mutate_tls(_: *mut c_void) -> *mut c_void {
unsafe {
TLS = 0;
}
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0 as *mut c_void
}
#[cfg(not(jit))]
fn test_tls() {
unsafe {
assert_eq!(TLS, 42);
let thread = Thread::create(mutate_tls);
thread.join();
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// TLS of main thread must not have been changed by the other thread.
assert_eq!(TLS, 42);
puts("TLS works!\n\0" as *const str as *const i8);
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}
}
// Copied ui/issues/issue-61696.rs
pub enum Infallible {}
// The check that the `bool` field of `V1` is encoding a "niche variant"
// (i.e. not `V1`, so `V3` or `V4`) used to be mathematically incorrect,
// causing valid `V1` values to be interpreted as other variants.
pub enum E1 {
V1 { f: bool },
V2 { f: Infallible },
V3,
V4,
}
// Computing the discriminant used to be done using the niche type (here `u8`,
// from the `bool` field of `V1`), overflowing for variants with large enough
// indices (`V3` and `V4`), causing them to be interpreted as other variants.
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#[rustfmt::skip]
pub enum E2<X> {
V1 { f: bool },
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/*_00*/ _01(X), _02(X), _03(X), _04(X), _05(X), _06(X), _07(X),
_08(X), _09(X), _0A(X), _0B(X), _0C(X), _0D(X), _0E(X), _0F(X),
_10(X), _11(X), _12(X), _13(X), _14(X), _15(X), _16(X), _17(X),
_18(X), _19(X), _1A(X), _1B(X), _1C(X), _1D(X), _1E(X), _1F(X),
_20(X), _21(X), _22(X), _23(X), _24(X), _25(X), _26(X), _27(X),
_28(X), _29(X), _2A(X), _2B(X), _2C(X), _2D(X), _2E(X), _2F(X),
_30(X), _31(X), _32(X), _33(X), _34(X), _35(X), _36(X), _37(X),
_38(X), _39(X), _3A(X), _3B(X), _3C(X), _3D(X), _3E(X), _3F(X),
_40(X), _41(X), _42(X), _43(X), _44(X), _45(X), _46(X), _47(X),
_48(X), _49(X), _4A(X), _4B(X), _4C(X), _4D(X), _4E(X), _4F(X),
_50(X), _51(X), _52(X), _53(X), _54(X), _55(X), _56(X), _57(X),
_58(X), _59(X), _5A(X), _5B(X), _5C(X), _5D(X), _5E(X), _5F(X),
_60(X), _61(X), _62(X), _63(X), _64(X), _65(X), _66(X), _67(X),
_68(X), _69(X), _6A(X), _6B(X), _6C(X), _6D(X), _6E(X), _6F(X),
_70(X), _71(X), _72(X), _73(X), _74(X), _75(X), _76(X), _77(X),
_78(X), _79(X), _7A(X), _7B(X), _7C(X), _7D(X), _7E(X), _7F(X),
_80(X), _81(X), _82(X), _83(X), _84(X), _85(X), _86(X), _87(X),
_88(X), _89(X), _8A(X), _8B(X), _8C(X), _8D(X), _8E(X), _8F(X),
_90(X), _91(X), _92(X), _93(X), _94(X), _95(X), _96(X), _97(X),
_98(X), _99(X), _9A(X), _9B(X), _9C(X), _9D(X), _9E(X), _9F(X),
_A0(X), _A1(X), _A2(X), _A3(X), _A4(X), _A5(X), _A6(X), _A7(X),
_A8(X), _A9(X), _AA(X), _AB(X), _AC(X), _AD(X), _AE(X), _AF(X),
_B0(X), _B1(X), _B2(X), _B3(X), _B4(X), _B5(X), _B6(X), _B7(X),
_B8(X), _B9(X), _BA(X), _BB(X), _BC(X), _BD(X), _BE(X), _BF(X),
_C0(X), _C1(X), _C2(X), _C3(X), _C4(X), _C5(X), _C6(X), _C7(X),
_C8(X), _C9(X), _CA(X), _CB(X), _CC(X), _CD(X), _CE(X), _CF(X),
_D0(X), _D1(X), _D2(X), _D3(X), _D4(X), _D5(X), _D6(X), _D7(X),
_D8(X), _D9(X), _DA(X), _DB(X), _DC(X), _DD(X), _DE(X), _DF(X),
_E0(X), _E1(X), _E2(X), _E3(X), _E4(X), _E5(X), _E6(X), _E7(X),
_E8(X), _E9(X), _EA(X), _EB(X), _EC(X), _ED(X), _EE(X), _EF(X),
_F0(X), _F1(X), _F2(X), _F3(X), _F4(X), _F5(X), _F6(X), _F7(X),
_F8(X), _F9(X), _FA(X), _FB(X), _FC(X), _FD(X), _FE(X), _FF(X),
V3,
V4,
}
fn check_niche_behavior() {
if let E1::V2 { .. } = (E1::V1 { f: true }) {
intrinsics::abort();
}
if let E2::V1 { .. } = E2::V3::<Infallible> {
intrinsics::abort();
}
}
fn from_decimal_string() {
loop {
let multiplier = 1;
take_multiplier_ref(&multiplier);
if multiplier == 1 {
break;
}
unreachable();
}
}
fn take_multiplier_ref(_multiplier: &u128) {}
fn unreachable() -> ! {
panic("unreachable")
}