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//! Error Reporting for when the lifetime for a type doesn't match the `impl` selected for a predicate
//! to hold.
use crate::infer::error_reporting::nice_region_error::NiceRegionError;
use crate::infer::error_reporting::note_and_explain_region;
use crate::infer::lexical_region_resolve::RegionResolutionError;
use crate::infer::{SubregionOrigin, TypeTrace};
use crate::traits::ObligationCauseCode;
use rustc_data_structures::fx::FxHashSet;
use rustc_errors::{Applicability, ErrorGuaranteed, MultiSpan};
use rustc_hir as hir;
use rustc_hir::intravisit::Visitor;
use rustc_middle::ty::TypeVisitor;
impl<'a, 'tcx> NiceRegionError<'a, 'tcx> {
pub(super) fn try_report_mismatched_static_lifetime(&self) -> Option<ErrorGuaranteed> {
let error = self.error.as_ref()?;
debug!("try_report_mismatched_static_lifetime {:?}", error);
let RegionResolutionError::ConcreteFailure(origin, sub, sup) = error.clone() else {
return None;
};
if !sub.is_static() {
return None;
}
let SubregionOrigin::Subtype(box TypeTrace { ref cause, .. }) = origin else {
return None;
};
// If we added a "points at argument expression" obligation, we remove it here, we care
// about the original obligation only.
let code = match cause.code() {
ObligationCauseCode::FunctionArgumentObligation { parent_code, .. } => &*parent_code,
code => code,
};
let ObligationCauseCode::MatchImpl(parent, impl_def_id) = code else {
return None;
};
let ObligationCauseCode::BindingObligation(_def_id, binding_span) = *parent.code() else {
return None;
};
let mut err = self.tcx().sess.struct_span_err(cause.span, "incompatible lifetime on type");
// FIXME: we should point at the lifetime
let mut multi_span: MultiSpan = vec![binding_span].into();
multi_span.push_span_label(binding_span, "introduces a `'static` lifetime requirement");
err.span_note(multi_span, "because this has an unmet lifetime requirement");
note_and_explain_region(self.tcx(), &mut err, "", sup, "...", Some(binding_span));
if let Some(impl_node) = self.tcx().hir().get_if_local(*impl_def_id) {
// If an impl is local, then maybe this isn't what they want. Try to
// be as helpful as possible with implicit lifetimes.
// First, let's get the hir self type of the impl
let hir::Node::Item(hir::Item {
kind: hir::ItemKind::Impl(hir::Impl { self_ty: impl_self_ty, .. }),
..
}) = impl_node else {
bug!("Node not an impl.");
};
// Next, let's figure out the set of trait objects with implicit static bounds
let ty = self.tcx().type_of(*impl_def_id);
let mut v = super::static_impl_trait::TraitObjectVisitor(FxHashSet::default());
v.visit_ty(ty);
let mut traits = vec![];
for matching_def_id in v.0 {
let mut hir_v =
super::static_impl_trait::HirTraitObjectVisitor(&mut traits, matching_def_id);
hir_v.visit_ty(&impl_self_ty);
}
if traits.is_empty() {
// If there are no trait object traits to point at, either because
// there aren't trait objects or because none are implicit, then just
// write a single note on the impl itself.
let impl_span = self.tcx().def_span(*impl_def_id);
err.span_note(impl_span, "...does not necessarily outlive the static lifetime introduced by the compatible `impl`");
} else {
// Otherwise, point at all implicit static lifetimes
err.note("...does not necessarily outlive the static lifetime introduced by the compatible `impl`");
for span in &traits {
err.span_note(*span, "this has an implicit `'static` lifetime requirement");
// It would be nice to put this immediately under the above note, but they get
// pushed to the end.
err.span_suggestion_verbose(
span.shrink_to_hi(),
"consider relaxing the implicit `'static` requirement",
" + '_",
Applicability::MaybeIncorrect,
);
}
}
} else {
// Otherwise just point out the impl.
let impl_span = self.tcx().def_span(*impl_def_id);
err.span_note(impl_span, "...does not necessarily outlive the static lifetime introduced by the compatible `impl`");
}
let reported = err.emit();
Some(reported)
}
}
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