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promote subject even if it has unnamed regions
Don't require a region to have an `external_name` in order to be promoted.
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@ -12,8 +12,9 @@ use rustc_infer::infer::outlives::test_type_match;
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use rustc_infer::infer::region_constraints::{GenericKind, VarInfos, VerifyBound, VerifyIfEq};
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use rustc_infer::infer::{InferCtxt, NllRegionVariableOrigin, RegionVariableOrigin};
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use rustc_middle::mir::{
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Body, ClosureOutlivesRequirement, ClosureOutlivesSubject, ClosureRegionRequirements,
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ConstraintCategory, Local, Location, ReturnConstraint, TerminatorKind,
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Body, ClosureOutlivesRequirement, ClosureOutlivesSubject, ClosureOutlivesSubjectTy,
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ClosureRegionRequirements, ConstraintCategory, Local, Location, ReturnConstraint,
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TerminatorKind,
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};
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use rustc_middle::traits::ObligationCause;
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use rustc_middle::traits::ObligationCauseCode;
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@ -1084,18 +1085,10 @@ impl<'tcx> RegionInferenceContext<'tcx> {
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true
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}
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/// When we promote a type test `T: 'r`, we have to convert the
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/// type `T` into something we can store in a query result (so
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/// something allocated for `'tcx`). This is problematic if `ty`
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/// contains regions. During the course of NLL region checking, we
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/// will have replaced all of those regions with fresh inference
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/// variables. To create a test subject, we want to replace those
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/// inference variables with some region from the closure
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/// signature -- this is not always possible, so this is a
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/// fallible process. Presuming we do find a suitable region, we
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/// will use it's *external name*, which will be a `RegionKind`
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/// variant that can be used in query responses such as
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/// `ReEarlyBound`.
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/// When we promote a type test `T: 'r`, we have to replace all region
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/// variables in the type `T` with an equal universal region from the
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/// closure signature.
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/// This is not always possible, so this is a fallible process.
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#[instrument(level = "debug", skip(self, infcx))]
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fn try_promote_type_test_subject(
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&self,
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@ -1144,22 +1137,22 @@ impl<'tcx> RegionInferenceContext<'tcx> {
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// find an equivalent.
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let upper_bound = self.non_local_universal_upper_bound(region_vid);
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if self.region_contains(region_vid, upper_bound) {
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self.definitions[upper_bound].external_name.unwrap_or(r)
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tcx.mk_re_var(upper_bound)
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} else {
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// In the case of a failure, use a `ReVar` result. This will
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// cause the `needs_infer` later on to return `None`.
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r
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// In the case of a failure, use `ReErased`. We will eventually
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// return `None` in this case.
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tcx.lifetimes.re_erased
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}
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});
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debug!("try_promote_type_test_subject: folded ty = {:?}", ty);
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// `needs_infer` will only be true if we failed to promote some region.
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if ty.needs_infer() {
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// This will be true if we failed to promote some region.
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if ty.has_erased_regions() {
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return None;
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}
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Some(ClosureOutlivesSubject::Ty(ty))
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Some(ClosureOutlivesSubject::Ty(ClosureOutlivesSubjectTy::new(tcx, ty)))
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}
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/// Given some universal or existential region `r`, finds a
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@ -116,7 +116,9 @@ impl<'a, 'tcx> ConstraintConversion<'a, 'tcx> {
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let outlived_region = closure_mapping[outlives_requirement.outlived_free_region];
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let subject = match outlives_requirement.subject {
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ClosureOutlivesSubject::Region(re) => closure_mapping[re].into(),
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ClosureOutlivesSubject::Ty(ty) => ty.into(),
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ClosureOutlivesSubject::Ty(subject_ty) => {
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subject_ty.instantiate(self.tcx, |vid| closure_mapping[vid]).into()
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}
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};
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self.category = outlives_requirement.category;
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@ -8,7 +8,7 @@ use rustc_errors::ErrorGuaranteed;
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use rustc_hir as hir;
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use rustc_hir::def_id::{DefId, LocalDefId};
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use rustc_index::bit_set::BitMatrix;
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use rustc_index::vec::IndexVec;
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use rustc_index::vec::{Idx, IndexVec};
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use rustc_span::Span;
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use rustc_target::abi::VariantIdx;
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use smallvec::SmallVec;
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@ -289,13 +289,6 @@ pub struct ConstQualifs {
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/// instance of the closure is created, the corresponding free regions
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/// can be extracted from its type and constrained to have the given
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/// outlives relationship.
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///
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/// In some cases, we have to record outlives requirements between types and
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/// regions as well. In that case, if those types include any regions, those
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/// regions are recorded using their external names (`ReStatic`,
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/// `ReEarlyBound`, `ReFree`). We use these because in a query response we
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/// cannot use `ReVar` (which is what we use internally within the rest of the
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/// NLL code).
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#[derive(Clone, Debug, TyEncodable, TyDecodable, HashStable)]
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pub struct ClosureRegionRequirements<'tcx> {
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/// The number of external regions defined on the closure. In our
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@ -392,16 +385,56 @@ pub enum ClosureOutlivesSubject<'tcx> {
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/// Subject is a type, typically a type parameter, but could also
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/// be a projection. Indicates a requirement like `T: 'a` being
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/// passed to the caller, where the type here is `T`.
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///
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/// The type here is guaranteed not to contain any free regions at
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/// present.
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Ty(Ty<'tcx>),
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Ty(ClosureOutlivesSubjectTy<'tcx>),
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/// Subject is a free region from the closure. Indicates a requirement
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/// like `'a: 'b` being passed to the caller; the region here is `'a`.
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Region(ty::RegionVid),
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}
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/// Represents a `ty::Ty` for use in [`ClosureOutlivesSubject`].
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///
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/// This indirection is necessary because the type may include `ReVar` regions,
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/// which is what we use internally within NLL code,
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/// and we can't use `ReVar`s in a query response.
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#[derive(Copy, Clone, Debug, TyEncodable, TyDecodable, HashStable)]
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pub struct ClosureOutlivesSubjectTy<'tcx> {
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inner: Ty<'tcx>,
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}
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impl<'tcx> ClosureOutlivesSubjectTy<'tcx> {
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// All regions of `ty` must be of kind `ReVar`
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// and must point to an early-bound region in the closure's signature.
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pub fn new(tcx: TyCtxt<'tcx>, ty: Ty<'tcx>) -> Self {
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let inner = tcx.fold_regions(ty, |r, depth| match r.kind() {
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ty::ReVar(vid) => {
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let br = ty::BoundRegion {
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var: ty::BoundVar::new(vid.index()),
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kind: ty::BrAnon(0u32, None),
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};
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tcx.mk_re_late_bound(depth, br)
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}
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_ => bug!("unexpected region in ClosureOutlivesSubjectTy: {r:?}"),
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});
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Self { inner }
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}
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pub fn instantiate(
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self,
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tcx: TyCtxt<'tcx>,
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mut map: impl FnMut(ty::RegionVid) -> ty::Region<'tcx>,
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) -> Ty<'tcx> {
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tcx.fold_regions(self.inner, |r, depth| match r.kind() {
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ty::ReLateBound(debruijn, br) => {
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debug_assert_eq!(debruijn, depth);
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map(ty::RegionVid::new(br.var.index()))
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}
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_ => bug!("unexpected region {r:?}"),
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})
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}
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}
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/// The constituent parts of a mir constant of kind ADT or array.
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#[derive(Copy, Clone, Debug, HashStable)]
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pub struct DestructuredConstant<'tcx> {
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@ -1,5 +1,5 @@
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// check-fail
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// known-bug: #107426
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// Regression test for #107426.
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// check-pass
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use std::marker::PhantomData;
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#[derive(Clone, Copy)]
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@ -1,8 +0,0 @@
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error: `make_fn::{opaque#0}<'_>` does not live long enough
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--> $DIR/type-test-subject-opaque-1.rs:15:8
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LL | || event(cx, open_toggle);
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| ^^^^^^^^^^^^^^^^^^^^^^
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error: aborting due to previous error
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@ -1,5 +1,5 @@
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// check-fail
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// known-bug: #108635
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// See #108635 for description.
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// check-pass
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trait Trait {
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type Item<'a>: 'a;
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@ -1,21 +0,0 @@
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error[E0310]: the associated type `<I as Trait>::Item<'_>` may not live long enough
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--> $DIR/type-test-subject-unnamed-region.rs:11:27
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LL | let closure = |a, _b| assert_static(a);
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| ^^^^^^^^^^^^^^^^
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= help: consider adding an explicit lifetime bound `<I as Trait>::Item<'_>: 'static`...
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= note: ...so that the type `<I as Trait>::Item<'_>` will meet its required lifetime bounds
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error[E0310]: the associated type `<I as Trait>::Item<'_>` may not live long enough
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--> $DIR/type-test-subject-unnamed-region.rs:20:9
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LL | assert_static(a);
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| ^^^^^^^^^^^^^^^^
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= help: consider adding an explicit lifetime bound `<I as Trait>::Item<'_>: 'static`...
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= note: ...so that the type `<I as Trait>::Item<'_>` will meet its required lifetime bounds
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error: aborting due to 2 previous errors
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For more information about this error, try `rustc --explain E0310`.
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