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Rename Binder::no_late_bound_regions
to Binder::no_bound_vars
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45be1ac0fc
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@ -323,7 +323,7 @@ impl<'cx, 'gcx, 'tcx> VerifyBoundCx<'cx, 'gcx, 'tcx> {
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predicates
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.into_iter()
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.filter_map(|p| p.as_ref().to_opt_type_outlives())
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.filter_map(|p| p.no_late_bound_regions())
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.filter_map(|p| p.no_bound_vars())
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.filter(move |p| compare_ty(p.0))
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}
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}
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@ -683,8 +683,8 @@ impl<'a, 'tcx> AutoTraitFinder<'a, 'tcx> {
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}
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&ty::Predicate::TypeOutlives(ref binder) => {
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match (
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binder.no_late_bound_regions(),
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binder.map_bound_ref(|pred| pred.0).no_late_bound_regions(),
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binder.no_bound_vars(),
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binder.map_bound_ref(|pred| pred.0).no_bound_vars(),
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) {
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(None, Some(t_a)) => {
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select.infcx().register_region_obligation_with_cause(
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@ -349,15 +349,15 @@ impl<'a, 'b, 'gcx, 'tcx> ObligationProcessor for FulfillProcessor<'a, 'b, 'gcx,
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}
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ty::Predicate::TypeOutlives(ref binder) => {
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// Check if there are higher-ranked regions.
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match binder.no_late_bound_regions() {
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// Check if there are higher-ranked vars.
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match binder.no_bound_vars() {
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// If there are, inspect the underlying type further.
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None => {
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// Convert from `Binder<OutlivesPredicate<Ty, Region>>` to `Binder<Ty>`.
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let binder = binder.map_bound_ref(|pred| pred.0);
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// Check if the type has any bound regions.
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match binder.no_late_bound_regions() {
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// Check if the type has any bound vars.
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match binder.no_bound_vars() {
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// If so, this obligation is an error (for now). Eventually we should be
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// able to support additional cases here, like `for<'a> &'a str: 'a`.
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// NOTE: this is duplicate-implemented between here and fulfillment.
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@ -352,7 +352,7 @@ impl<'tcx> GoalKind<'tcx> {
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domain_goal: PolyDomainGoal<'tcx>,
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tcx: TyCtxt<'a, 'tcx, 'tcx>,
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) -> GoalKind<'tcx> {
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match domain_goal.no_late_bound_regions() {
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match domain_goal.no_bound_vars() {
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Some(p) => p.into_goal(),
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None => GoalKind::Quantified(
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QuantifierKind::Universal,
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@ -1619,7 +1619,7 @@ impl<'cx, 'gcx, 'tcx> ProjectionCacheKey<'tcx> {
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let infcx = selcx.infcx();
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// We don't do cross-snapshot caching of obligations with escaping regions,
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// so there's no cache key to use
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predicate.no_late_bound_regions()
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predicate.no_bound_vars()
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.map(|predicate| ProjectionCacheKey {
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// We don't attempt to match up with a specific type-variable state
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// from a specific call to `opt_normalize_projection_type` - if
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@ -164,7 +164,7 @@ pub fn explicit_outlives_bounds<'tcx>(
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ty::Predicate::ClosureKind(..) |
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ty::Predicate::TypeOutlives(..) |
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ty::Predicate::ConstEvaluatable(..) => None,
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ty::Predicate::RegionOutlives(ref data) => data.no_late_bound_regions().map(
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ty::Predicate::RegionOutlives(ref data) => data.no_bound_vars().map(
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|ty::OutlivesPredicate(r_a, r_b)| OutlivesBound::RegionSubRegion(r_b, r_a),
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),
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})
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@ -2168,7 +2168,7 @@ impl<'cx, 'gcx, 'tcx> SelectionContext<'cx, 'gcx, 'tcx> {
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// T: Trait
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// so it seems ok if we (conservatively) fail to accept that `Unsize`
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// obligation above. Should be possible to extend this in the future.
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let source = match obligation.self_ty().no_late_bound_regions() {
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let source = match obligation.self_ty().no_bound_vars() {
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Some(t) => t,
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None => {
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// Don't add any candidates if there are bound regions.
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@ -3235,7 +3235,7 @@ impl<'cx, 'gcx, 'tcx> SelectionContext<'cx, 'gcx, 'tcx> {
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// assemble_candidates_for_unsizing should ensure there are no late bound
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// regions here. See the comment there for more details.
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let source = self.infcx
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.shallow_resolve(obligation.self_ty().no_late_bound_regions().unwrap());
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.shallow_resolve(obligation.self_ty().no_bound_vars().unwrap());
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let target = obligation
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.predicate
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.skip_binder()
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@ -799,10 +799,10 @@ impl<T> Binder<T> {
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/// Skips the binder and returns the "bound" value. This is a
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/// risky thing to do because it's easy to get confused about
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/// debruijn indices and the like. It is usually better to
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/// discharge the binder using `no_late_bound_regions` or
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/// discharge the binder using `no_bound_vars` or
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/// `replace_late_bound_regions` or something like
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/// that. `skip_binder` is only valid when you are either
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/// extracting data that has nothing to do with bound regions, you
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/// extracting data that has nothing to do with bound vars, you
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/// are doing some sort of test that does not involve bound
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/// regions, or you are being very careful about your depth
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/// accounting.
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@ -811,7 +811,7 @@ impl<T> Binder<T> {
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///
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/// - extracting the def-id from a PolyTraitRef;
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/// - comparing the self type of a PolyTraitRef to see if it is equal to
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/// a type parameter `X`, since the type `X` does not reference any regions
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/// a type parameter `X`, since the type `X` does not reference any regions
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pub fn skip_binder(&self) -> &T {
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&self.0
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}
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@ -833,17 +833,17 @@ impl<T> Binder<T> {
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}
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/// Unwraps and returns the value within, but only if it contains
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/// no bound regions at all. (In other words, if this binder --
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/// no bound vars at all. (In other words, if this binder --
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/// and indeed any enclosing binder -- doesn't bind anything at
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/// all.) Otherwise, returns `None`.
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///
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/// (One could imagine having a method that just unwraps a single
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/// binder, but permits late-bound regions bound by enclosing
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/// binder, but permits late-bound vars bound by enclosing
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/// binders, but that would require adjusting the debruijn
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/// indices, and given the shallow binding structure we often use,
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/// would not be that useful.)
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pub fn no_late_bound_regions<'tcx>(self) -> Option<T>
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where T : TypeFoldable<'tcx>
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pub fn no_bound_vars<'tcx>(self) -> Option<T>
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where T: TypeFoldable<'tcx>
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{
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if self.skip_binder().has_escaping_bound_vars() {
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None
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@ -557,7 +557,7 @@ fn maybe_create_entry_wrapper(cx: &CodegenCx) {
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// regions must appear in the argument
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// listing.
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let main_ret_ty = cx.tcx.erase_regions(
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&main_ret_ty.no_late_bound_regions().unwrap(),
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&main_ret_ty.no_bound_vars().unwrap(),
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);
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if declare::get_defined_value(cx, "main").is_some() {
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@ -82,9 +82,9 @@ impl<'a, 'gcx, 'tcx> ConstraintConversion<'a, 'gcx, 'tcx> {
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// when we move to universes, we will, and this assertion
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// will start to fail.
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let ty::OutlivesPredicate(k1, r2) =
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query_constraint.no_late_bound_regions().unwrap_or_else(|| {
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query_constraint.no_bound_vars().unwrap_or_else(|| {
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bug!(
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"query_constraint {:?} contained bound regions",
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"query_constraint {:?} contained bound vars",
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query_constraint,
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);
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});
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@ -2214,8 +2214,8 @@ impl<'a, 'gcx, 'tcx> TypeChecker<'a, 'gcx, 'tcx> {
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.enumerate()
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.filter_map(|(idx, constraint)| {
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let ty::OutlivesPredicate(k1, r2) =
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constraint.no_late_bound_regions().unwrap_or_else(|| {
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bug!("query_constraint {:?} contained bound regions", constraint,);
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constraint.no_bound_vars().unwrap_or_else(|| {
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bug!("query_constraint {:?} contained bound vars", constraint,);
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});
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match k1.unpack() {
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@ -1082,7 +1082,7 @@ impl<'b, 'a, 'v> RootCollector<'b, 'a, 'v> {
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// regions must appear in the argument
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// listing.
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let main_ret_ty = self.tcx.erase_regions(
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&main_ret_ty.no_late_bound_regions().unwrap(),
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&main_ret_ty.no_bound_vars().unwrap(),
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);
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let start_instance = Instance::resolve(
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@ -844,7 +844,9 @@ pub fn build_adt_ctor<'a, 'gcx, 'tcx>(infcx: &infer::InferCtxt<'a, 'gcx, 'tcx>,
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let param_env = gcx.param_env(def_id);
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// Normalize the sig.
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let sig = gcx.fn_sig(def_id).no_late_bound_regions().expect("LBR in ADT constructor signature");
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let sig = gcx.fn_sig(def_id)
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.no_bound_vars()
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.expect("LBR in ADT constructor signature");
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let sig = gcx.normalize_erasing_regions(param_env, sig);
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let (adt_def, substs) = match sig.output().sty {
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@ -143,7 +143,7 @@ fn check_lang_item_type<'a, 'tcx, D>(
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{
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let did = tcx.require_lang_item(lang_item);
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let poly_sig = tcx.fn_sig(did);
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let sig = poly_sig.no_late_bound_regions().unwrap();
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let sig = poly_sig.no_bound_vars().unwrap();
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let lhs_ty = lhs.ty(local_decls, tcx);
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let rhs_ty = rhs.ty(local_decls, tcx);
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let place_ty = place.ty(local_decls, tcx).to_ty(tcx);
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@ -122,14 +122,14 @@ fn compute_implied_outlives_bounds<'tcx>(
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vec![]
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}
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ty::Predicate::RegionOutlives(ref data) => match data.no_late_bound_regions() {
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ty::Predicate::RegionOutlives(ref data) => match data.no_bound_vars() {
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None => vec![],
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Some(ty::OutlivesPredicate(r_a, r_b)) => {
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vec![OutlivesBound::RegionSubRegion(r_b, r_a)]
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}
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},
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ty::Predicate::TypeOutlives(ref data) => match data.no_late_bound_regions() {
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ty::Predicate::TypeOutlives(ref data) => match data.no_bound_vars() {
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None => vec![],
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Some(ty::OutlivesPredicate(ty_a, r_b)) => {
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let ty_a = infcx.resolve_type_vars_if_possible(&ty_a);
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@ -816,7 +816,7 @@ https://doc.rust-lang.org/reference/types.html#trait-objects");
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}
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// Replace constructor type with constructed type for tuple struct patterns.
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let pat_ty = pat_ty.fn_sig(tcx).output();
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let pat_ty = pat_ty.no_late_bound_regions().expect("expected fn type");
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let pat_ty = pat_ty.no_bound_vars().expect("expected fn type");
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self.demand_eqtype(pat.span, expected, pat_ty);
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@ -419,7 +419,7 @@ pub fn check_platform_intrinsic_type<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>,
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let mut structural_to_nomimal = FxHashMap::default();
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let sig = tcx.fn_sig(def_id);
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let sig = sig.no_late_bound_regions().unwrap();
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let sig = sig.no_bound_vars().unwrap();
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if intr.inputs.len() != sig.inputs().len() {
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span_err!(tcx.sess, it.span, E0444,
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"platform-specific intrinsic has invalid number of \
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@ -208,7 +208,7 @@ impl<'a, 'tcx> AstConv<'tcx, 'tcx> for ItemCtxt<'a, 'tcx> {
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item_def_id: DefId,
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poly_trait_ref: ty::PolyTraitRef<'tcx>,
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) -> Ty<'tcx> {
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if let Some(trait_ref) = poly_trait_ref.no_late_bound_regions() {
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if let Some(trait_ref) = poly_trait_ref.no_bound_vars() {
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self.tcx().mk_projection(item_def_id, trait_ref.substs)
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} else {
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// no late-bound regions, we can just ignore the binder
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