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Item bounds can reference self projections and still be object safe
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@ -12,16 +12,16 @@ use super::elaborate;
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use crate::infer::TyCtxtInferExt;
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use crate::traits::query::evaluate_obligation::InferCtxtExt;
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use crate::traits::{self, Obligation, ObligationCause};
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use crate::traits::{Obligation, ObligationCause};
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use rustc_errors::FatalError;
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use rustc_hir as hir;
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use rustc_hir::def_id::DefId;
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use rustc_middle::query::Providers;
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use rustc_middle::ty::GenericArgs;
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use rustc_middle::ty::{
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self, EarlyBinder, ExistentialPredicateStableCmpExt as _, Ty, TyCtxt, TypeSuperVisitable,
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TypeVisitable, TypeVisitor,
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};
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use rustc_middle::ty::{GenericArg, GenericArgs};
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use rustc_middle::ty::{TypeVisitableExt, Upcast};
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use rustc_span::symbol::Symbol;
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use rustc_span::Span;
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@ -195,7 +195,13 @@ fn predicates_reference_self(
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.predicates
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.iter()
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.map(|&(predicate, sp)| (predicate.instantiate_supertrait(tcx, trait_ref), sp))
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.filter_map(|predicate| predicate_references_self(tcx, predicate))
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.filter_map(|(clause, sp)| {
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// Super predicates cannot allow self projections, since they're
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// impossible to make into existential bounds without eager resolution
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// or something.
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// e.g. `trait A: B<Item = Self::Assoc>`.
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predicate_references_self(tcx, trait_def_id, clause, sp, AllowSelfProjections::No)
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})
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.collect()
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}
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@ -204,20 +210,25 @@ fn bounds_reference_self(tcx: TyCtxt<'_>, trait_def_id: DefId) -> SmallVec<[Span
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.in_definition_order()
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.filter(|item| item.kind == ty::AssocKind::Type)
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.flat_map(|item| tcx.explicit_item_bounds(item.def_id).iter_identity_copied())
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.filter_map(|c| predicate_references_self(tcx, c))
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.filter_map(|(clause, sp)| {
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// Item bounds *can* have self projections, since they never get
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// their self type erased.
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predicate_references_self(tcx, trait_def_id, clause, sp, AllowSelfProjections::Yes)
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})
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.collect()
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}
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fn predicate_references_self<'tcx>(
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tcx: TyCtxt<'tcx>,
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(predicate, sp): (ty::Clause<'tcx>, Span),
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trait_def_id: DefId,
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predicate: ty::Clause<'tcx>,
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sp: Span,
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allow_self_projections: AllowSelfProjections,
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) -> Option<Span> {
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let self_ty = tcx.types.self_param;
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let has_self_ty = |arg: &GenericArg<'tcx>| arg.walk().any(|arg| arg == self_ty.into());
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match predicate.kind().skip_binder() {
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ty::ClauseKind::Trait(ref data) => {
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// In the case of a trait predicate, we can skip the "self" type.
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data.trait_ref.args[1..].iter().any(has_self_ty).then_some(sp)
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data.trait_ref.args[1..].iter().any(|&arg| contains_illegal_self_type_reference(tcx, trait_def_id, arg, allow_self_projections)).then_some(sp)
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}
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ty::ClauseKind::Projection(ref data) => {
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// And similarly for projections. This should be redundant with
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@ -235,9 +246,9 @@ fn predicate_references_self<'tcx>(
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//
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// This is ALT2 in issue #56288, see that for discussion of the
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// possible alternatives.
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data.projection_term.args[1..].iter().any(has_self_ty).then_some(sp)
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data.projection_term.args[1..].iter().any(|&arg| contains_illegal_self_type_reference(tcx, trait_def_id, arg, allow_self_projections)).then_some(sp)
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}
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ty::ClauseKind::ConstArgHasType(_ct, ty) => has_self_ty(&ty.into()).then_some(sp),
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ty::ClauseKind::ConstArgHasType(_ct, ty) => contains_illegal_self_type_reference(tcx, trait_def_id, ty, allow_self_projections).then_some(sp),
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ty::ClauseKind::WellFormed(..)
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| ty::ClauseKind::TypeOutlives(..)
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@ -383,7 +394,12 @@ fn virtual_call_violations_for_method<'tcx>(
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let mut errors = Vec::new();
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for (i, &input_ty) in sig.skip_binder().inputs().iter().enumerate().skip(1) {
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if contains_illegal_self_type_reference(tcx, trait_def_id, sig.rebind(input_ty)) {
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if contains_illegal_self_type_reference(
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tcx,
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trait_def_id,
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sig.rebind(input_ty),
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AllowSelfProjections::Yes,
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) {
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let span = if let Some(hir::Node::TraitItem(hir::TraitItem {
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kind: hir::TraitItemKind::Fn(sig, _),
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..
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@ -396,7 +412,12 @@ fn virtual_call_violations_for_method<'tcx>(
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errors.push(MethodViolationCode::ReferencesSelfInput(span));
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}
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}
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if contains_illegal_self_type_reference(tcx, trait_def_id, sig.output()) {
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if contains_illegal_self_type_reference(
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tcx,
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trait_def_id,
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sig.output(),
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AllowSelfProjections::Yes,
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) {
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errors.push(MethodViolationCode::ReferencesSelfOutput);
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}
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if let Some(code) = contains_illegal_impl_trait_in_trait(tcx, method.def_id, sig.output()) {
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@ -482,7 +503,7 @@ fn virtual_call_violations_for_method<'tcx>(
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return false;
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}
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contains_illegal_self_type_reference(tcx, trait_def_id, pred)
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contains_illegal_self_type_reference(tcx, trait_def_id, pred, AllowSelfProjections::Yes)
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}) {
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errors.push(MethodViolationCode::WhereClauseReferencesSelf);
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}
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@ -711,10 +732,17 @@ fn receiver_is_dispatchable<'tcx>(
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infcx.predicate_must_hold_modulo_regions(&obligation)
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}
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#[derive(Copy, Clone)]
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enum AllowSelfProjections {
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Yes,
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No,
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}
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fn contains_illegal_self_type_reference<'tcx, T: TypeVisitable<TyCtxt<'tcx>>>(
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tcx: TyCtxt<'tcx>,
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trait_def_id: DefId,
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value: T,
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allow_self_projections: AllowSelfProjections,
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) -> bool {
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// This is somewhat subtle. In general, we want to forbid
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// references to `Self` in the argument and return types,
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@ -759,6 +787,7 @@ fn contains_illegal_self_type_reference<'tcx, T: TypeVisitable<TyCtxt<'tcx>>>(
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tcx: TyCtxt<'tcx>,
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trait_def_id: DefId,
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supertraits: Option<Vec<DefId>>,
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allow_self_projections: AllowSelfProjections,
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}
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impl<'tcx> TypeVisitor<TyCtxt<'tcx>> for IllegalSelfTypeVisitor<'tcx> {
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@ -780,39 +809,41 @@ fn contains_illegal_self_type_reference<'tcx, T: TypeVisitable<TyCtxt<'tcx>>>(
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ControlFlow::Continue(())
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}
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ty::Alias(ty::Projection, ref data) => {
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// This is a projected type `<Foo as SomeTrait>::X`.
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match self.allow_self_projections {
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AllowSelfProjections::Yes => {
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// This is a projected type `<Foo as SomeTrait>::X`.
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// Compute supertraits of current trait lazily.
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if self.supertraits.is_none() {
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let trait_ref =
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ty::Binder::dummy(ty::TraitRef::identity(self.tcx, self.trait_def_id));
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self.supertraits = Some(
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traits::supertraits(self.tcx, trait_ref).map(|t| t.def_id()).collect(),
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);
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}
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// Compute supertraits of current trait lazily.
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if self.supertraits.is_none() {
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self.supertraits =
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Some(self.tcx.supertrait_def_ids(self.trait_def_id).collect());
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}
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// Determine whether the trait reference `Foo as
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// SomeTrait` is in fact a supertrait of the
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// current trait. In that case, this type is
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// legal, because the type `X` will be specified
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// in the object type. Note that we can just use
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// direct equality here because all of these types
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// are part of the formal parameter listing, and
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// hence there should be no inference variables.
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let is_supertrait_of_current_trait = self
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.supertraits
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.as_ref()
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.unwrap()
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.contains(&data.trait_ref(self.tcx).def_id);
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// Determine whether the trait reference `Foo as
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// SomeTrait` is in fact a supertrait of the
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// current trait. In that case, this type is
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// legal, because the type `X` will be specified
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// in the object type. Note that we can just use
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// direct equality here because all of these types
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// are part of the formal parameter listing, and
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// hence there should be no inference variables.
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let is_supertrait_of_current_trait = self
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.supertraits
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.as_ref()
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.unwrap()
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.contains(&data.trait_ref(self.tcx).def_id);
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// only walk contained types if it's not a super trait
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if is_supertrait_of_current_trait {
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ControlFlow::Continue(())
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} else {
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t.super_visit_with(self) // POSSIBLY reporting an error
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// only walk contained types if it's not a super trait
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if is_supertrait_of_current_trait {
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ControlFlow::Continue(())
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} else {
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t.super_visit_with(self) // POSSIBLY reporting an error
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}
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}
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AllowSelfProjections::No => t.super_visit_with(self),
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}
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}
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_ => t.super_visit_with(self), // walk contained types, if any
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_ => t.super_visit_with(self),
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}
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}
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@ -824,7 +855,12 @@ fn contains_illegal_self_type_reference<'tcx, T: TypeVisitable<TyCtxt<'tcx>>>(
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}
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value
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.visit_with(&mut IllegalSelfTypeVisitor { tcx, trait_def_id, supertraits: None })
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.visit_with(&mut IllegalSelfTypeVisitor {
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tcx,
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trait_def_id,
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supertraits: None,
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allow_self_projections,
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})
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.is_break()
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}
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11
tests/ui/object-safety/item-bounds-can-reference-self.rs
Normal file
11
tests/ui/object-safety/item-bounds-can-reference-self.rs
Normal file
@ -0,0 +1,11 @@
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//@ check-pass
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pub trait Foo {
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type X: PartialEq;
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type Y: PartialEq<Self::Y>;
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type Z: PartialEq<Self::Y>;
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}
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fn uwu(x: &dyn Foo<X = i32, Y = i32, Z = i32>) {}
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fn main() {}
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