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Reject blanket object impls that are possibly incoherent wrt associated types #128126

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108 changes: 107 additions & 1 deletion compiler/rustc_hir_analysis/src/coherence/mod.rs
Original file line number Diff line number Diff line change
Expand Up @@ -9,10 +9,15 @@ use crate::errors;
use rustc_errors::{codes::*, struct_span_code_err};
use rustc_hir::def_id::{DefId, LocalDefId};
use rustc_hir::LangItem;
use rustc_infer::infer::{RegionVariableOrigin, TyCtxtInferExt};
use rustc_infer::traits::{Obligation, ObligationCause};
use rustc_middle::query::Providers;
use rustc_middle::ty::{self, TyCtxt, TypeVisitableExt};
use rustc_middle::ty::ExistentialPredicateStableCmpExt;
use rustc_middle::ty::{self, Ty, TyCtxt, TypeVisitableExt};
use rustc_session::parse::feature_err;
use rustc_span::{sym, ErrorGuaranteed};
use rustc_trait_selection::traits::ObligationCtxt;
use rustc_type_ir::elaborate;

mod builtin;
mod inherent_impls;
Expand Down Expand Up @@ -223,5 +228,106 @@ fn check_object_overlap<'tcx>(
}
}
}

even_cooler_object_overlap(tcx, impl_def_id, trait_ref.def_id);

Ok(())
}

fn even_cooler_object_overlap<'tcx>(
tcx: TyCtxt<'tcx>,
impl_def_id: LocalDefId,
trait_def_id: DefId,
) {
if !tcx.is_object_safe(trait_def_id) {
return;
}

let infcx = &tcx.infer_ctxt().with_next_trait_solver(true).intercrate(true).build();

let def_span = tcx.def_span(impl_def_id);
let impl_args = infcx.fresh_args_for_item(def_span, impl_def_id.to_def_id());
let trait_ref =
tcx.impl_trait_ref(impl_def_id).expect("impl of trait").instantiate(tcx, impl_args);

let principal = ty::Binder::dummy(ty::ExistentialPredicate::Trait(
ty::ExistentialTraitRef::erase_self_ty(tcx, trait_ref),
));
let mut assoc_tys = elaborate::supertraits(tcx, ty::Binder::dummy(trait_ref))
.flat_map(|trait_ref| {
tcx.associated_items(trait_ref.def_id())
.in_definition_order()
.filter(|assoc_item| assoc_item.kind == ty::AssocKind::Type)
.filter(|assoc_item| !tcx.generics_require_sized_self(assoc_item.def_id))
.map(move |assoc_item| {
trait_ref.map_bound(|trait_ref| {
ty::ExistentialPredicate::Projection(
ty::ExistentialProjection::erase_self_ty(
tcx,
ty::ProjectionPredicate {
projection_term: ty::AliasTerm::new(
tcx,
assoc_item.def_id,
trait_ref.args,
),
term: infcx.next_ty_var(def_span).into(),
},
),
)
})
})
})
.collect::<Vec<_>>();
assoc_tys.sort_by(|a, b| a.skip_binder().stable_cmp(tcx, &b.skip_binder()));

let dyn_ty = Ty::new_dynamic(
tcx,
tcx.mk_poly_existential_predicates_from_iter([principal].into_iter().chain(assoc_tys)),
infcx.next_region_var(RegionVariableOrigin::MiscVariable(def_span)),
ty::Dyn,
);

let ocx = ObligationCtxt::new_with_diagnostics(&infcx);
let cause = ObligationCause::misc(def_span, impl_def_id);
let Ok(()) = ocx.eq(&cause, ty::ParamEnv::empty(), trait_ref.self_ty(), dyn_ty) else {
return;
};

ocx.register_obligations(
tcx.predicates_of(impl_def_id)
.instantiate(tcx, impl_args)
.into_iter()
.map(|(clause, _)| Obligation::new(tcx, cause.clone(), ty::ParamEnv::empty(), clause)),
);

let errors_and_ambiguities = ocx.select_all_or_error();
// We only care about the obligations that are *definitely* true errors.
// Ambiguities do not prove the disjointness of two impls.
let (true_errors, _ambiguities): (Vec<_>, Vec<_>) =
errors_and_ambiguities.into_iter().partition(|error| error.is_true_error());

if true_errors.is_empty() {
let associated_type_spans: Vec<_> = tcx
.associated_items(impl_def_id)
.in_definition_order()
.filter(|assoc_item| assoc_item.kind == ty::AssocKind::Type)
.map(|assoc_item| tcx.def_span(assoc_item.def_id))
.collect();
if !associated_type_spans.is_empty() {
tcx.dcx()
.struct_span_err(
def_span,
format!(
"this impl overlaps with built-in trait impl for `{}`",
infcx.resolve_vars_if_possible(dyn_ty)
),
)
.with_span_note(
associated_type_spans,
"this impl may be unsound because it could provide different values \
for these associated types",
)
.emit();
}
}
}
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