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https://github.com/rust-lang/rust.git
synced 2024-11-25 00:03:43 +00:00
Align Term methods with GenericArg methods
This commit is contained in:
parent
7c52d2db63
commit
273b990554
@ -263,7 +263,7 @@ fn push_debuginfo_type_name<'tcx>(
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let ExistentialProjection { def_id: item_def_id, term, .. } =
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tcx.instantiate_bound_regions_with_erased(bound);
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// FIXME(associated_const_equality): allow for consts here
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(item_def_id, term.ty().unwrap())
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(item_def_id, term.expect_type())
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})
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.collect();
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@ -2281,7 +2281,7 @@ fn try_report_async_mismatch<'tcx>(
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&& let Some(proj) = proj.no_bound_vars()
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&& infcx.can_eq(
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error.root_obligation.param_env,
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proj.term.ty().unwrap(),
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proj.term.expect_type(),
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impl_sig.output(),
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)
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{
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@ -267,7 +267,7 @@ fn report_mismatched_rpitit_signature<'tcx>(
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.explicit_item_bounds(future_ty.def_id)
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.iter_instantiated_copied(tcx, future_ty.args)
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.find_map(|(clause, _)| match clause.kind().no_bound_vars()? {
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ty::ClauseKind::Projection(proj) => proj.term.ty(),
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ty::ClauseKind::Projection(proj) => proj.term.as_type(),
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_ => None,
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})
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else {
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@ -441,7 +441,9 @@ fn fn_sig_suggestion<'tcx>(
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output = if let ty::Alias(_, alias_ty) = *output.kind() {
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tcx.explicit_item_super_predicates(alias_ty.def_id)
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.iter_instantiated_copied(tcx, alias_ty.args)
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.find_map(|(bound, _)| bound.as_projection_clause()?.no_bound_vars()?.term.ty())
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.find_map(|(bound, _)| {
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bound.as_projection_clause()?.no_bound_vars()?.term.as_type()
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})
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.unwrap_or_else(|| {
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span_bug!(
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ident.span,
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@ -485,7 +485,7 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
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};
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// Since this is a return parameter type it is safe to unwrap.
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let ret_param_ty = projection.skip_binder().term.ty().unwrap();
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let ret_param_ty = projection.skip_binder().term.expect_type();
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let ret_param_ty = self.resolve_vars_if_possible(ret_param_ty);
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debug!(?ret_param_ty);
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@ -956,7 +956,7 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
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let output_ty = self.resolve_vars_if_possible(predicate.term);
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debug!("deduce_future_output_from_projection: output_ty={:?}", output_ty);
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// This is a projection on a Fn trait so will always be a type.
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Some(output_ty.ty().unwrap())
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Some(output_ty.expect_type())
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}
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/// Converts the types that the user supplied, in case that doing
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@ -160,7 +160,7 @@ impl<'tcx> TypeckRootCtxt<'tcx> {
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{
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// If the projection predicate (Foo::Bar == X) has X as a non-TyVid,
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// we need to make it into one.
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if let Some(vid) = predicate.term.ty().and_then(|ty| ty.ty_vid()) {
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if let Some(vid) = predicate.term.as_type().and_then(|ty| ty.ty_vid()) {
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debug!("infer_var_info: {:?}.output = true", vid);
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infer_var_info.entry(vid).or_default().output = true;
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}
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@ -425,7 +425,7 @@ impl<'tcx> InferCtxt<'tcx> {
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ty::ClauseKind::Projection(projection_predicate)
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if projection_predicate.projection_term.def_id == item_def_id =>
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{
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projection_predicate.term.ty()
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projection_predicate.term.as_type()
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}
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_ => None,
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})
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@ -424,8 +424,8 @@ pub enum ValuePairs<'tcx> {
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impl<'tcx> ValuePairs<'tcx> {
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pub fn ty(&self) -> Option<(Ty<'tcx>, Ty<'tcx>)> {
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if let ValuePairs::Terms(ExpectedFound { expected, found }) = self
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&& let Some(expected) = expected.ty()
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&& let Some(found) = found.ty()
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&& let Some(expected) = expected.as_type()
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&& let Some(found) = found.as_type()
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{
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Some((expected, found))
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} else {
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@ -83,7 +83,7 @@ impl<'tcx> LateLintPass<'tcx> for OpaqueHiddenInferredBound {
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};
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// Only check types, since those are the only things that may
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// have opaques in them anyways.
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let Some(proj_term) = proj.term.ty() else { return };
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let Some(proj_term) = proj.term.as_type() else { return };
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// HACK: `impl Trait<Assoc = impl Trait2>` from an RPIT is "ok"...
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if let ty::Alias(ty::Opaque, opaque_ty) = *proj_term.kind()
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@ -624,14 +624,22 @@ impl<'tcx> Term<'tcx> {
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}
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}
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pub fn ty(&self) -> Option<Ty<'tcx>> {
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pub fn as_type(&self) -> Option<Ty<'tcx>> {
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if let TermKind::Ty(ty) = self.unpack() { Some(ty) } else { None }
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}
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pub fn ct(&self) -> Option<Const<'tcx>> {
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pub fn expect_type(&self) -> Ty<'tcx> {
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self.as_type().expect("expected a type, but found a const")
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}
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pub fn as_const(&self) -> Option<Const<'tcx>> {
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if let TermKind::Const(c) = self.unpack() { Some(c) } else { None }
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}
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pub fn expect_const(&self) -> Const<'tcx> {
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self.as_const().expect("expected a const, but found a type")
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}
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pub fn into_arg(self) -> GenericArg<'tcx> {
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match self.unpack() {
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TermKind::Ty(ty) => ty.into(),
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@ -1077,7 +1077,7 @@ pub trait PrettyPrinter<'tcx>: Printer<'tcx> + fmt::Write {
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}
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p!(")");
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if let Some(ty) = return_ty.skip_binder().ty() {
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if let Some(ty) = return_ty.skip_binder().as_type() {
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if !ty.is_unit() {
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p!(" -> ", print(return_ty));
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}
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@ -1144,7 +1144,7 @@ pub trait PrettyPrinter<'tcx>: Printer<'tcx> + fmt::Write {
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for (assoc_item_def_id, term) in assoc_items {
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// Skip printing `<{coroutine@} as Coroutine<_>>::Return` from async blocks,
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// unless we can find out what coroutine return type it comes from.
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let term = if let Some(ty) = term.skip_binder().ty()
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let term = if let Some(ty) = term.skip_binder().as_type()
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&& let ty::Alias(ty::Projection, proj) = ty.kind()
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&& let Some(assoc) = tcx.opt_associated_item(proj.def_id)
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&& assoc.trait_container(tcx) == tcx.lang_items().coroutine_trait()
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@ -1322,7 +1322,7 @@ pub trait PrettyPrinter<'tcx>: Printer<'tcx> + fmt::Write {
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p!(pretty_fn_sig(
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tys,
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false,
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proj.skip_binder().term.ty().expect("Return type was a const")
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proj.skip_binder().term.as_type().expect("Return type was a const")
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));
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resugared = true;
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}
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@ -726,7 +726,7 @@ impl<'tcx> TypeFolder<TyCtxt<'tcx>> for ReplaceProjectionWith<'_, 'tcx> {
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)
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.expect("expected to be able to unify goal projection with dyn's projection"),
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);
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proj.term.ty().unwrap()
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proj.term.expect_type()
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} else {
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ty.super_fold_with(self)
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}
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@ -17,7 +17,7 @@ impl<'tcx> EvalCtxt<'_, InferCtxt<'tcx>> {
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) -> QueryResult<'tcx> {
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let tcx = self.interner();
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let opaque_ty = goal.predicate.alias;
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let expected = goal.predicate.term.ty().expect("no such thing as an opaque const");
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let expected = goal.predicate.term.as_type().expect("no such thing as an opaque const");
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match (goal.param_env.reveal(), self.solver_mode()) {
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(Reveal::UserFacing, SolverMode::Normal) => {
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@ -553,7 +553,7 @@ impl<'tcx> AutoTraitFinder<'tcx> {
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}
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fn is_self_referential_projection(&self, p: ty::PolyProjectionPredicate<'tcx>) -> bool {
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if let Some(ty) = p.term().skip_binder().ty() {
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if let Some(ty) = p.term().skip_binder().as_type() {
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matches!(ty.kind(), ty::Alias(ty::Projection, proj) if proj == &p.skip_binder().projection_term.expect_ty(self.tcx))
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} else {
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false
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@ -1112,7 +1112,7 @@ impl<'tcx> TypeErrCtxt<'_, 'tcx> {
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{
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Some((
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DefIdOrName::DefId(def_id),
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pred.kind().rebind(proj.term.ty().unwrap()),
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pred.kind().rebind(proj.term.expect_type()),
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pred.kind().rebind(args.as_slice()),
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))
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} else {
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@ -1129,7 +1129,7 @@ impl<'tcx> TypeErrCtxt<'_, 'tcx> {
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{
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Some((
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DefIdOrName::Name("trait object"),
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pred.rebind(proj.term.ty().unwrap()),
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pred.rebind(proj.term.expect_type()),
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pred.rebind(args.as_slice()),
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))
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} else {
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@ -1157,7 +1157,7 @@ impl<'tcx> TypeErrCtxt<'_, 'tcx> {
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{
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Some((
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name,
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pred.kind().rebind(proj.term.ty().unwrap()),
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pred.kind().rebind(proj.term.expect_type()),
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pred.kind().rebind(args.as_slice()),
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))
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} else {
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@ -3840,7 +3840,7 @@ impl<'tcx> TypeErrCtxt<'_, 'tcx> {
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})
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} else if let Some(where_pred) = where_pred.as_projection_clause()
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&& let Some(failed_pred) = failed_pred.as_projection_clause()
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&& let Some(found) = failed_pred.skip_binder().term.ty()
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&& let Some(found) = failed_pred.skip_binder().term.as_type()
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{
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type_diffs = vec![Sorts(ty::error::ExpectedFound {
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expected: where_pred
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@ -259,7 +259,7 @@ impl<'a, 'b, 'tcx> TypeFolder<TyCtxt<'tcx>> for AssocTypeNormalizer<'a, 'b, 'tcx
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obligations.len = ?self.obligations.len(),
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"AssocTypeNormalizer: normalized type"
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);
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normalized_ty.ty().unwrap()
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normalized_ty.expect_type()
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}
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ty::Projection => {
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@ -289,7 +289,7 @@ impl<'a, 'b, 'tcx> TypeFolder<TyCtxt<'tcx>> for AssocTypeNormalizer<'a, 'b, 'tcx
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)
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.ok()
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.flatten()
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.map(|term| term.ty().unwrap())
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.map(|term| term.expect_type())
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.map(|normalized_ty| {
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PlaceholderReplacer::replace_placeholders(
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infcx,
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@ -946,7 +946,7 @@ impl<'cx, 'tcx> SelectionContext<'cx, 'tcx> {
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// since we don't actually use them.
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&mut vec![],
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)
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.ty()
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.as_type()
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.unwrap();
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if let ty::Dynamic(data, ..) = ty.kind() { data.principal() } else { None }
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@ -286,7 +286,7 @@ fn extend_cause_with_original_assoc_item_obligation<'tcx>(
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// implemented, but rather from a "second order" obligation, where an associated
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// type has a projection coming from another associated type.
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// See `tests/ui/traits/assoc-type-in-superbad.rs` for an example.
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if let Some(term_ty) = proj.term.ty()
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if let Some(term_ty) = proj.term.as_type()
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&& let Some(impl_item_span) = ty_to_impl_span(term_ty)
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{
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cause.span = impl_item_span;
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@ -58,7 +58,7 @@ fn normalize_canonicalized_projection_ty<'tcx>(
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// FIXME(associated_const_equality): All users of normalize_canonicalized_projection_ty
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// expected a type, but there is the possibility it could've been a const now.
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// Maybe change it to a Term later?
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Ok(NormalizationResult { normalized_ty: answer.ty().unwrap() })
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Ok(NormalizationResult { normalized_ty: answer.expect_type() })
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},
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)
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}
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@ -42,7 +42,7 @@ fn is_arg_ty_unified_in_fn<'tcx>(
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cx.tcx.predicates_of(fn_id).predicates.iter().any(|(clause, _)| {
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clause
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.as_projection_clause()
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.and_then(|p| p.map_bound(|p| p.term.ty()).transpose())
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.and_then(|p| p.map_bound(|p| p.term.as_type()).transpose())
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.is_some_and(|ty| ty.skip_binder() == arg_ty_in_args)
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}) || fn_sig
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.inputs()
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@ -311,7 +311,7 @@ fn is_mixed_projection_predicate<'tcx>(
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) -> bool {
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let generics = cx.tcx.generics_of(callee_def_id);
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// The predicate requires the projected type to equal a type parameter from the parent context.
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if let Some(term_ty) = projection_predicate.term.ty()
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if let Some(term_ty) = projection_predicate.term.as_type()
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&& let ty::Param(term_param_ty) = term_ty.kind()
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&& (term_param_ty.index as usize) < generics.parent_count
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{
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@ -370,7 +370,7 @@ fn replace_types<'tcx>(
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if replaced.insert(param_ty.index) {
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for projection_predicate in projection_predicates {
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if projection_predicate.projection_term.self_ty() == param_ty.to_ty(cx.tcx)
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&& let Some(term_ty) = projection_predicate.term.ty()
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&& let Some(term_ty) = projection_predicate.term.as_type()
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&& let ty::Param(term_param_ty) = term_ty.kind()
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{
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let projection = projection_predicate
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@ -100,12 +100,12 @@ fn get_args_to_check<'tcx>(cx: &LateContext<'tcx>, expr: &'tcx Expr<'tcx>) -> Ve
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{
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if ord_preds
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.iter()
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.any(|ord| Some(ord.self_ty()) == return_ty_pred.term.ty())
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.any(|ord| Some(ord.self_ty()) == return_ty_pred.term.as_type())
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{
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args_to_check.push((i, "Ord".to_string()));
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} else if partial_ord_preds
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.iter()
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.any(|pord| pord.self_ty() == return_ty_pred.term.ty().unwrap())
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.any(|pord| pord.self_ty() == return_ty_pred.term.expect_type())
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{
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args_to_check.push((i, "PartialOrd".to_string()));
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}
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@ -750,7 +750,7 @@ pub fn ty_sig<'tcx>(cx: &LateContext<'tcx>, ty: Ty<'tcx>) -> Option<ExprFnSig<'t
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let output = bounds
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.projection_bounds()
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.find(|p| lang_items.fn_once_output().map_or(false, |id| id == p.item_def_id()))
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.map(|p| p.map_bound(|p| p.term.ty().unwrap()));
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.map(|p| p.map_bound(|p| p.term.expect_type()));
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Some(ExprFnSig::Trait(bound.map_bound(|b| b.args.type_at(0)), output, None))
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},
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_ => None,
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@ -798,7 +798,7 @@ fn sig_from_bounds<'tcx>(
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// Multiple different fn trait impls. Is this even allowed?
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return None;
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}
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output = Some(pred.kind().rebind(p.term.ty().unwrap()));
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output = Some(pred.kind().rebind(p.term.expect_type()));
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},
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_ => (),
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}
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@ -836,7 +836,7 @@ fn sig_for_projection<'tcx>(cx: &LateContext<'tcx>, ty: AliasTy<'tcx>) -> Option
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// Multiple different fn trait impls. Is this even allowed?
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return None;
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}
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output = pred.kind().rebind(p.term.ty()).transpose();
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output = pred.kind().rebind(p.term.as_type()).transpose();
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},
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_ => (),
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}
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