mirror of
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263 lines
7.1 KiB
Rust
263 lines
7.1 KiB
Rust
use core::fmt::Debug;
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use core::mem::size_of;
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use std::boxed::ThinBox;
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#[test]
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fn want_niche_optimization() {
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fn uses_niche<T: ?Sized>() -> bool {
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size_of::<*const ()>() == size_of::<Option<ThinBox<T>>>()
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}
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trait Tr {}
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assert!(uses_niche::<dyn Tr>());
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assert!(uses_niche::<[i32]>());
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assert!(uses_niche::<i32>());
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}
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#[test]
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fn want_thin() {
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fn is_thin<T: ?Sized>() -> bool {
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size_of::<*const ()>() == size_of::<ThinBox<T>>()
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}
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trait Tr {}
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assert!(is_thin::<dyn Tr>());
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assert!(is_thin::<[i32]>());
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assert!(is_thin::<i32>());
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}
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#[allow(dead_code)]
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fn assert_covariance() {
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fn thin_box<'new>(b: ThinBox<[&'static str]>) -> ThinBox<[&'new str]> {
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b
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}
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}
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#[track_caller]
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fn verify_aligned<T>(ptr: *const T) {
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// Use `black_box` to attempt to obscure the fact that we're calling this
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// function on pointers that come from box/references, which the compiler
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// would otherwise realize is impossible (because it would mean we've
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// already executed UB).
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//
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// That is, we'd *like* it to be possible for the asserts in this function
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// to detect brokenness in the ThinBox impl.
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//
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// It would probably be better if we instead had these as debug_asserts
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// inside `ThinBox`, prior to the point where we do the UB. Anyway, in
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// practice these checks are mostly just smoke-detectors for an extremely
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// broken `ThinBox` impl, since it's an extremely subtle piece of code.
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let ptr = core::hint::black_box(ptr);
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assert!(
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ptr.is_aligned() && !ptr.is_null(),
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"misaligned ThinBox data; valid pointers to `{ty}` should be aligned to {align}: {ptr:p}",
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ty = core::any::type_name::<T>(),
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align = core::mem::align_of::<T>(),
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);
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}
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#[track_caller]
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fn check_thin_sized<T: Debug + PartialEq + Clone>(make: impl FnOnce() -> T) {
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let value = make();
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let boxed = ThinBox::new(value.clone());
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let val = &*boxed;
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verify_aligned(val as *const T);
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assert_eq!(val, &value);
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}
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#[track_caller]
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fn check_thin_dyn<T: Debug + PartialEq + Clone>(make: impl FnOnce() -> T) {
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let value = make();
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let wanted_debug = format!("{value:?}");
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let boxed: ThinBox<dyn Debug> = ThinBox::new_unsize(value.clone());
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let val = &*boxed;
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// wide reference -> wide pointer -> thin pointer
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verify_aligned(val as *const dyn Debug as *const T);
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let got_debug = format!("{val:?}");
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assert_eq!(wanted_debug, got_debug);
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}
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macro_rules! define_test {
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(
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@test_name: $testname:ident;
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$(#[$m:meta])*
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struct $Type:ident($inner:ty);
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$($test_stmts:tt)*
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) => {
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#[test]
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fn $testname() {
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use core::sync::atomic::{AtomicIsize, Ordering};
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// Define the type, and implement new/clone/drop in such a way that
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// the number of live instances will be counted.
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$(#[$m])*
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#[derive(Debug, PartialEq)]
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struct $Type {
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_priv: $inner,
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}
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impl Clone for $Type {
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fn clone(&self) -> Self {
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verify_aligned(self);
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Self::new(self._priv.clone())
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}
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}
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impl Drop for $Type {
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fn drop(&mut self) {
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verify_aligned(self);
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Self::modify_live(-1);
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}
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}
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impl $Type {
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fn new(i: $inner) -> Self {
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Self::modify_live(1);
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Self { _priv: i }
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}
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fn modify_live(n: isize) -> isize {
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static COUNTER: AtomicIsize = AtomicIsize::new(0);
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COUNTER.fetch_add(n, Ordering::Relaxed) + n
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}
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fn live_objects() -> isize {
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Self::modify_live(0)
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}
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}
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// Run the test statements
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let _: () = { $($test_stmts)* };
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// Check that we didn't leak anything, or call drop too many times.
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assert_eq!(
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$Type::live_objects(), 0,
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"Wrong number of drops of {}, `initializations - drops` should be 0.",
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stringify!($Type),
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);
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}
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};
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}
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define_test! {
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@test_name: align1zst;
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struct Align1Zst(());
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check_thin_sized(|| Align1Zst::new(()));
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check_thin_dyn(|| Align1Zst::new(()));
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}
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define_test! {
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@test_name: align1small;
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struct Align1Small(u8);
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check_thin_sized(|| Align1Small::new(50));
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check_thin_dyn(|| Align1Small::new(50));
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}
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define_test! {
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@test_name: align1_size_not_pow2;
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struct Align64NotPow2Size([u8; 79]);
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check_thin_sized(|| Align64NotPow2Size::new([100; 79]));
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check_thin_dyn(|| Align64NotPow2Size::new([100; 79]));
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}
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define_test! {
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@test_name: align1big;
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struct Align1Big([u8; 256]);
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check_thin_sized(|| Align1Big::new([5u8; 256]));
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check_thin_dyn(|| Align1Big::new([5u8; 256]));
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}
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// Note: `#[repr(align(2))]` is worth testing because
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// - can have pointers which are misaligned, unlike align(1)
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// - is still expected to have an alignment less than the alignment of a vtable.
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define_test! {
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@test_name: align2zst;
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#[repr(align(2))]
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struct Align2Zst(());
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check_thin_sized(|| Align2Zst::new(()));
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check_thin_dyn(|| Align2Zst::new(()));
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}
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define_test! {
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@test_name: align2small;
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#[repr(align(2))]
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struct Align2Small(u8);
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check_thin_sized(|| Align2Small::new(60));
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check_thin_dyn(|| Align2Small::new(60));
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}
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define_test! {
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@test_name: align2full;
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#[repr(align(2))]
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struct Align2Full([u8; 2]);
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check_thin_sized(|| Align2Full::new([3u8; 2]));
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check_thin_dyn(|| Align2Full::new([3u8; 2]));
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}
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define_test! {
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@test_name: align2_size_not_pow2;
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#[repr(align(2))]
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struct Align2NotPower2Size([u8; 6]);
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check_thin_sized(|| Align2NotPower2Size::new([3; 6]));
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check_thin_dyn(|| Align2NotPower2Size::new([3; 6]));
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}
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define_test! {
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@test_name: align2big;
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#[repr(align(2))]
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struct Align2Big([u8; 256]);
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check_thin_sized(|| Align2Big::new([5u8; 256]));
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check_thin_dyn(|| Align2Big::new([5u8; 256]));
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}
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define_test! {
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@test_name: align64zst;
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#[repr(align(64))]
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struct Align64Zst(());
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check_thin_sized(|| Align64Zst::new(()));
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check_thin_dyn(|| Align64Zst::new(()));
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}
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define_test! {
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@test_name: align64small;
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#[repr(align(64))]
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struct Align64Small(u8);
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check_thin_sized(|| Align64Small::new(50));
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check_thin_dyn(|| Align64Small::new(50));
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}
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define_test! {
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@test_name: align64med;
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#[repr(align(64))]
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struct Align64Med([u8; 64]);
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check_thin_sized(|| Align64Med::new([10; 64]));
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check_thin_dyn(|| Align64Med::new([10; 64]));
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}
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define_test! {
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@test_name: align64_size_not_pow2;
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#[repr(align(64))]
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struct Align64NotPow2Size([u8; 192]);
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check_thin_sized(|| Align64NotPow2Size::new([10; 192]));
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check_thin_dyn(|| Align64NotPow2Size::new([10; 192]));
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}
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define_test! {
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@test_name: align64big;
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#[repr(align(64))]
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struct Align64Big([u8; 256]);
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check_thin_sized(|| Align64Big::new([10; 256]));
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check_thin_dyn(|| Align64Big::new([10; 256]));
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}
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