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|
use hir::HirId;
use rustc_errors::struct_span_err;
use rustc_hir as hir;
use rustc_index::vec::Idx;
use rustc_middle::ty::layout::{LayoutError, SizeSkeleton};
use rustc_middle::ty::{self, Ty, TyCtxt, TypeVisitableExt};
use rustc_target::abi::{FieldIdx, Pointer, VariantIdx};
use super::FnCtxt;
/// If the type is `Option<T>`, it will return `T`, otherwise
/// the type itself. Works on most `Option`-like types.
fn unpack_option_like<'tcx>(tcx: TyCtxt<'tcx>, ty: Ty<'tcx>) -> Ty<'tcx> {
let ty::Adt(def, substs) = *ty.kind() else { return ty };
if def.variants().len() == 2 && !def.repr().c() && def.repr().int.is_none() {
let data_idx;
let one = VariantIdx::new(1);
let zero = VariantIdx::new(0);
if def.variant(zero).fields.is_empty() {
data_idx = one;
} else if def.variant(one).fields.is_empty() {
data_idx = zero;
} else {
return ty;
}
if def.variant(data_idx).fields.len() == 1 {
return def.variant(data_idx).fields[FieldIdx::from_u32(0)].ty(tcx, substs);
}
}
ty
}
impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
pub fn check_transmute(&self, from: Ty<'tcx>, to: Ty<'tcx>, hir_id: HirId) {
let tcx = self.tcx;
let dl = &tcx.data_layout;
let span = tcx.hir().span(hir_id);
let normalize = |ty| {
let ty = self.resolve_vars_if_possible(ty);
self.tcx.normalize_erasing_regions(self.param_env, ty)
};
let from = normalize(from);
let to = normalize(to);
trace!(?from, ?to);
if from.has_non_region_infer() || to.has_non_region_infer() {
tcx.sess.delay_span_bug(span, "argument to transmute has inference variables");
return;
}
// Transmutes that are only changing lifetimes are always ok.
if from == to {
return;
}
let skel = |ty| SizeSkeleton::compute(ty, tcx, self.param_env);
let sk_from = skel(from);
let sk_to = skel(to);
trace!(?sk_from, ?sk_to);
// Check for same size using the skeletons.
if let (Ok(sk_from), Ok(sk_to)) = (sk_from, sk_to) {
if sk_from.same_size(sk_to) {
return;
}
// Special-case transmuting from `typeof(function)` and
// `Option<typeof(function)>` to present a clearer error.
let from = unpack_option_like(tcx, from);
if let (&ty::FnDef(..), SizeSkeleton::Known(size_to)) = (from.kind(), sk_to) && size_to == Pointer(dl.instruction_address_space).size(&tcx) {
struct_span_err!(tcx.sess, span, E0591, "can't transmute zero-sized type")
.note(&format!("source type: {from}"))
.note(&format!("target type: {to}"))
.help("cast with `as` to a pointer instead")
.emit();
return;
}
}
// Try to display a sensible error with as much information as possible.
let skeleton_string = |ty: Ty<'tcx>, sk| match sk {
Ok(SizeSkeleton::Known(size)) => format!("{} bits", size.bits()),
Ok(SizeSkeleton::Pointer { tail, .. }) => format!("pointer to `{tail}`"),
Ok(SizeSkeleton::Generic(size)) => {
if let Some(size) = size.try_eval_target_usize(tcx, self.param_env) {
format!("{size} bytes")
} else {
format!("generic size {size}")
}
}
Err(LayoutError::Unknown(bad)) => {
if bad == ty {
"this type does not have a fixed size".to_owned()
} else {
format!("size can vary because of {bad}")
}
}
Err(err) => err.to_string(),
};
let mut err = struct_span_err!(
tcx.sess,
span,
E0512,
"cannot transmute between types of different sizes, \
or dependently-sized types"
);
if from == to {
err.note(&format!("`{from}` does not have a fixed size"));
} else {
err.note(&format!("source type: `{}` ({})", from, skeleton_string(from, sk_from)))
.note(&format!("target type: `{}` ({})", to, skeleton_string(to, sk_to)));
let mut should_delay_as_bug = false;
if let Err(LayoutError::Unknown(bad_from)) = sk_from && bad_from.references_error() {
should_delay_as_bug = true;
}
if let Err(LayoutError::Unknown(bad_to)) = sk_to && bad_to.references_error() {
should_delay_as_bug = true;
}
if should_delay_as_bug {
err.delay_as_bug();
}
}
err.emit();
}
}
|