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Rename projection_predicates to item_bounds
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@ -328,8 +328,8 @@ impl<'cx, 'tcx> VerifyBoundCx<'cx, 'tcx> {
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assoc_item_def_id: DefId,
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) -> impl Iterator<Item = ty::Region<'tcx>> {
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let tcx = self.tcx;
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let predicates = tcx.projection_predicates(assoc_item_def_id);
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predicates
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let bounds = tcx.item_bounds(assoc_item_def_id);
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bounds
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.into_iter()
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.filter_map(|p| p.to_opt_type_outlives())
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.filter_map(|p| p.no_bound_vars())
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@ -156,7 +156,7 @@ rustc_queries! {
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cache_on_disk_if { key.is_local() }
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}
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/// Returns the list of predicates that can be used for
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/// Returns the list of bounds that can be used for
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/// `SelectionCandidate::ProjectionCandidate` and
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/// `ProjectionTyCandidate::TraitDef`.
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/// Specifically this is the bounds (equivalent to) those
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@ -169,7 +169,7 @@ rustc_queries! {
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/// ^^^^^^^^^^^^^^^
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///
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/// `key` is the `DefId` of the associated type or opaque type.
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query projection_predicates(key: DefId) -> &'tcx ty::List<ty::Predicate<'tcx>> {
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query item_bounds(key: DefId) -> &'tcx ty::List<ty::Predicate<'tcx>> {
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desc { |tcx| "finding projection predicates for `{}`", tcx.def_path_str(key) }
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}
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@ -909,10 +909,8 @@ fn assemble_candidates_from_trait_def<'cx, 'tcx>(
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// Check whether the self-type is itself a projection.
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// If so, extract what we know from the trait and try to come up with a good answer.
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let bounds = match *obligation_trait_ref.self_ty().kind() {
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ty::Projection(ref data) => {
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tcx.projection_predicates(data.item_def_id).subst(tcx, data.substs)
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}
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ty::Opaque(def_id, substs) => tcx.projection_predicates(def_id).subst(tcx, substs),
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ty::Projection(ref data) => tcx.item_bounds(data.item_def_id).subst(tcx, data.substs),
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ty::Opaque(def_id, substs) => tcx.item_bounds(def_id).subst(tcx, substs),
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ty::Infer(ty::TyVar(_)) => {
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// If the self-type is an inference variable, then it MAY wind up
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// being a projected type, so induce an ambiguity.
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@ -1171,10 +1171,8 @@ impl<'cx, 'tcx> SelectionContext<'cx, 'tcx> {
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let tcx = self.infcx.tcx;
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let predicates = match *placeholder_trait_predicate.trait_ref.self_ty().kind() {
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ty::Projection(ref data) => {
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tcx.projection_predicates(data.item_def_id).subst(tcx, data.substs)
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}
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ty::Opaque(def_id, substs) => tcx.projection_predicates(def_id).subst(tcx, substs),
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ty::Projection(ref data) => tcx.item_bounds(data.item_def_id).subst(tcx, data.substs),
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ty::Opaque(def_id, substs) => tcx.item_bounds(def_id).subst(tcx, substs),
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_ => {
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span_bug!(
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obligation.cause.span,
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@ -500,7 +500,7 @@ fn asyncness(tcx: TyCtxt<'_>, def_id: DefId) -> hir::IsAsync {
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/// simplify checking that these bounds are met in impls. This means that
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/// a bound such as `for<'b> <Self as X<'b>>::U: Clone` can't be used, as in
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/// `hr-associated-type-bound-1.rs`.
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fn associated_type_projection_predicates(
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fn associated_type_bounds(
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tcx: TyCtxt<'_>,
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assoc_item_def_id: DefId,
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) -> &'_ ty::List<ty::Predicate<'_>> {
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@ -545,21 +545,14 @@ fn associated_type_projection_predicates(
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});
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let result = tcx.mk_predicates(predicates);
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debug!(
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"associated_type_projection_predicates({}) = {:?}",
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tcx.def_path_str(assoc_item_def_id),
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result
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);
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debug!("associated_type_bounds({}) = {:?}", tcx.def_path_str(assoc_item_def_id), result);
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result
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}
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/// Opaque types don't have the same issues as associated types: the only
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/// predicates on an opaque type (excluding those it inherits from its parent
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/// item) should be of the form we're expecting.
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fn opaque_type_projection_predicates(
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tcx: TyCtxt<'_>,
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def_id: DefId,
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) -> &'_ ty::List<ty::Predicate<'_>> {
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fn opaque_type_bounds(tcx: TyCtxt<'_>, def_id: DefId) -> &'_ ty::List<ty::Predicate<'_>> {
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let substs = InternalSubsts::identity_for_item(tcx, def_id);
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let bounds = tcx.predicates_of(def_id);
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@ -607,15 +600,15 @@ fn opaque_type_projection_predicates(
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});
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let result = tcx.mk_predicates(filtered_predicates);
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debug!("opaque_type_projection_predicates({}) = {:?}", tcx.def_path_str(def_id), result);
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debug!("opaque_type_bounds({}) = {:?}", tcx.def_path_str(def_id), result);
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result
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}
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fn projection_predicates(tcx: TyCtxt<'_>, def_id: DefId) -> &'_ ty::List<ty::Predicate<'_>> {
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fn item_bounds(tcx: TyCtxt<'_>, def_id: DefId) -> &'_ ty::List<ty::Predicate<'_>> {
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match tcx.def_kind(def_id) {
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DefKind::AssocTy => associated_type_projection_predicates(tcx, def_id),
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DefKind::OpaqueTy => opaque_type_projection_predicates(tcx, def_id),
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k => bug!("projection_predicates called on {}", k.descr(def_id)),
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DefKind::AssocTy => associated_type_bounds(tcx, def_id),
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DefKind::OpaqueTy => opaque_type_bounds(tcx, def_id),
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k => bug!("item_bounds called on {}", k.descr(def_id)),
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}
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}
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@ -636,7 +629,7 @@ pub fn provide(providers: &mut ty::query::Providers) {
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instance_def_size_estimate,
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issue33140_self_ty,
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impl_defaultness,
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projection_predicates,
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item_bounds,
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..*providers
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};
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}
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@ -1052,7 +1052,7 @@ crate fn compare_ty_impl<'tcx>(
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compare_type_predicate_entailment(tcx, impl_ty, impl_ty_span, trait_ty, impl_trait_ref)?;
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compare_projection_bounds(tcx, trait_ty, impl_ty, impl_ty_span, impl_trait_ref)
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check_type_bounds(tcx, trait_ty, impl_ty, impl_ty_span, impl_trait_ref)
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})();
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}
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@ -1170,7 +1170,7 @@ fn compare_type_predicate_entailment<'tcx>(
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/// For default associated types the normalization is not possible (the value
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/// from the impl could be overridden). We also can't normalize generic
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/// associated types (yet) because they contain bound parameters.
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fn compare_projection_bounds<'tcx>(
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fn check_type_bounds<'tcx>(
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tcx: TyCtxt<'tcx>,
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trait_ty: &ty::AssocItem,
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impl_ty: &ty::AssocItem,
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@ -1237,8 +1237,8 @@ fn compare_projection_bounds<'tcx>(
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ObligationCauseCode::ItemObligation(trait_ty.def_id),
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);
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let predicates = tcx.projection_predicates(trait_ty.def_id);
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debug!("compare_projection_bounds: projection_predicates={:?}", predicates);
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let predicates = tcx.item_bounds(trait_ty.def_id);
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debug!("check_type_bounds: item_bounds={:?}", predicates);
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for predicate in predicates {
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let concrete_ty_predicate = predicate.subst(tcx, rebased_substs);
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