guarantee that char and u32 are ABI-compatible
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@ -384,10 +384,12 @@ fn layout_compat(
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}
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// Compatible integer types (in particular, usize vs ptr-sized-u32/u64).
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// `char` counts as `u32.`
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let int_ty = |ty: Ty<'tcx>| {
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Some(match ty.kind() {
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ty::Int(ity) => (Integer::from_int_ty(&self.tcx, *ity), /* signed */ true),
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ty::Uint(uty) => (Integer::from_uint_ty(&self.tcx, *uty), /* signed */ false),
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ty::Char => (Integer::I32, /* signed */ false),
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_ => return None,
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})
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};
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@ -330,7 +330,7 @@ mod prim_never {}
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/// the future ("reserved"); some will never be a character ("noncharacters"); and some may be given
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/// different meanings by different users ("private use").
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///
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/// `char` is guaranteed to have the same size and alignment as `u32` on all
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/// `char` is guaranteed to have the same size, alignment, and function call ABI as `u32` on all
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/// platforms.
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/// ```
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/// use std::alloc::Layout;
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@ -1557,6 +1557,7 @@ mod prim_ref {}
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/// Pointee>::Metadata`).
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/// - `usize` is ABI-compatible with the `uN` integer type of the same size, and likewise `isize` is
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/// ABI-compatible with the `iN` integer type of the same size.
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/// - `char` is ABI-compatible with `u32`.
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/// - Any two `fn` (function pointer) types are ABI-compatible with each other if they have the same
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/// ABI string or the ABI string only differs in a trailing `-unwind`, independent of the rest of
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/// their signature. (This means you can pass `fn()` to a function expecting `fn(i32)`, and the
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@ -1585,9 +1586,9 @@ mod prim_ref {}
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/// since it is not portable and not a stable guarantee.
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///
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/// Noteworthy cases of types *not* being ABI-compatible in general are:
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/// * `bool` vs `u8`, and `i32` vs `u32`: on some targets, the calling conventions for these types
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/// differ in terms of what they guarantee for the remaining bits in the register that are not
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/// used by the value.
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/// * `bool` vs `u8`, `i32` vs `u32`, `char` vs `i32`: on some targets, the calling conventions for
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/// these types differ in terms of what they guarantee for the remaining bits in the register that
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/// are not used by the value.
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/// * `i32` vs `f32` are not compatible either, as has already been mentioned above.
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/// * `struct Foo(u32)` and `u32` are not compatible (without `repr(transparent)`) since structs are
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/// aggregate types and often passed in a different way than primitives like `i32`.
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@ -71,6 +71,8 @@ fn main() {
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test_abi_compat(0isize, 0i64);
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}
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test_abi_compat(42u32, num::NonZeroU32::new(1).unwrap());
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// - `char` and `u32`.
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test_abi_compat(42u32, 'x');
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// - Reference/pointer types with the same pointee.
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test_abi_compat(&0u32, &0u32 as *const u32);
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test_abi_compat(&mut 0u32 as *mut u32, Box::new(0u32));
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@ -81,7 +83,7 @@ fn main() {
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test_abi_compat(main as fn(), id::<i32> as fn(i32) -> i32);
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// - 1-ZST
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test_abi_compat((), [0u8; 0]);
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// - Guaranteed null-pointer-optimizations.
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// - Guaranteed null-pointer-optimizations (RFC 3391).
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test_abi_compat(&0u32 as *const u32, Some(&0u32));
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test_abi_compat(main as fn(), Some(main as fn()));
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test_abi_compat(0u32, Some(num::NonZeroU32::new(1).unwrap()));
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@ -103,6 +105,8 @@ fn main() {
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test_abi_newtype::<Option<num::NonZeroU32>>();
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// Extra test for assumptions made by arbitrary-self-dyn-receivers.
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// This is interesting since these types are not `repr(transparent)`. So this is not part of our
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// public ABI guarantees, but is relied on by the compiler.
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let rc = Rc::new(0);
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let rc_ptr: *mut i32 = unsafe { mem::transmute_copy(&rc) };
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test_abi_compat(rc, rc_ptr);
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@ -240,6 +240,13 @@ mod $name {
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test_abi_compatible!(nonnull_ptr, NonNull<i32>, *const i32);
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test_abi_compatible!(fn_fn, fn(), fn(i32) -> i32);
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// Compatibility of integer types.
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test_abi_compatible!(char_uint, char, u32);
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#[cfg(target_pointer_width = "32")]
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test_abi_compatible!(isize_int, isize, i32);
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#[cfg(target_pointer_width = "64")]
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test_abi_compatible!(isize_int, isize, i64);
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// Compatibility of 1-ZST.
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test_abi_compatible!(zst_unit, Zst, ());
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#[cfg(not(any(target_arch = "sparc64")))]
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