Rollup merge of #114009 - dvdhrm:pr/transmzst, r=pnkfelix

compiler: allow transmute of ZST arrays with generics

Extend the `SizeSkeleton` evaluator to shortcut zero-sized arrays, thus considering `[T; 0]` to have a compile-time fixed-size of 0.

The existing evaluator already deals with generic arrays under the feature-guard `transmute_const_generics`. However, it merely allows comparing fixed-size types with fixed-size types, and generic types with generic types. For generic types, it merely compares whether their arguments match (ordering them first). Even if their exact sizes are not known at compile time, it can ensure that they will eventually be the same.

This patch extends this by shortcutting the size-evaluation of zero sized arrays and thus allowing size comparisons of `()` with `[T; 0]`, where one contains generics and the other does not.

This code is guarded by `transmute_const_generics` (#109929), even though it is unclear whether it should be. However, this assumes that a separate stabilization PR is required to move this out of the feature guard.

Initially reported in #98104.
This commit is contained in:
Matthias Krüger 2024-03-22 20:31:28 +01:00 committed by GitHub
commit 104c4bc808
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2 changed files with 40 additions and 1 deletions

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@ -345,11 +345,16 @@ impl<'tcx> SizeSkeleton<'tcx> {
ty::Array(inner, len) ty::Array(inner, len)
if len.ty() == tcx.types.usize && tcx.features().transmute_generic_consts => if len.ty() == tcx.types.usize && tcx.features().transmute_generic_consts =>
{ {
let len_eval = len.try_eval_target_usize(tcx, param_env);
if len_eval == Some(0) {
return Ok(SizeSkeleton::Known(Size::from_bytes(0)));
}
match SizeSkeleton::compute(inner, tcx, param_env)? { match SizeSkeleton::compute(inner, tcx, param_env)? {
// This may succeed because the multiplication of two types may overflow // This may succeed because the multiplication of two types may overflow
// but a single size of a nested array will not. // but a single size of a nested array will not.
SizeSkeleton::Known(s) => { SizeSkeleton::Known(s) => {
if let Some(c) = len.try_eval_target_usize(tcx, param_env) { if let Some(c) = len_eval {
let size = s let size = s
.bytes() .bytes()
.checked_mul(c) .checked_mul(c)

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@ -0,0 +1,34 @@
//@ run-pass
// Transmuting to/from ZSTs that contain generics.
#![feature(transmute_generic_consts)]
// Verify non-generic ZST -> generic ZST transmute
unsafe fn cast_zst0<T>(from: ()) -> [T; 0] {
::std::mem::transmute::<(), [T; 0]>(from)
}
// Verify generic ZST -> non-generic ZST transmute
unsafe fn cast_zst1<T>(from: [T; 0]) -> () {
::std::mem::transmute::<[T; 0], ()>(from)
}
// Verify transmute with generic compound types
unsafe fn cast_zst2<T>(from: ()) -> [(T, T); 0] {
::std::mem::transmute::<(), [(T, T); 0]>(from)
}
// Verify transmute with ZST propagation through arrays
unsafe fn cast_zst3<T>(from: ()) -> [[T; 0]; 8] {
::std::mem::transmute::<(), [[T; 0]; 8]>(from)
}
pub fn main() {
unsafe {
let _: [u32; 0] = cast_zst0(());
let _ = cast_zst1::<u32>([]);
let _: [(u32, u32); 0] = cast_zst2(());
let _: [[u32; 0]; 8] = cast_zst3(());
};
}