1 use super::errors::{InvalidAbi, InvalidAbiSuggestion, MisplacedRelaxTraitBound};
2 use super::ResolverAstLoweringExt;
3 use super::{Arena, AstOwner, ImplTraitContext, ImplTraitPosition};
4 use super::{FnDeclKind, LoweringContext, ParamMode};
7 use rustc_ast::visit::AssocCtxt;
9 use rustc_data_structures::fx::FxHashMap;
10 use rustc_data_structures::sorted_map::SortedMap;
12 use rustc_hir::def::{DefKind, Res};
13 use rustc_hir::def_id::{LocalDefId, CRATE_DEF_ID};
14 use rustc_hir::PredicateOrigin;
15 use rustc_index::vec::{Idx, IndexVec};
16 use rustc_middle::ty::{DefIdTree, ResolverAstLowering, TyCtxt};
17 use rustc_span::lev_distance::find_best_match_for_name;
18 use rustc_span::source_map::DesugaringKind;
19 use rustc_span::symbol::{kw, sym, Ident};
20 use rustc_span::{Span, Symbol};
21 use rustc_target::spec::abi;
22 use smallvec::{smallvec, SmallVec};
26 pub(super) struct ItemLowerer<'a, 'hir> {
27 pub(super) tcx: TyCtxt<'hir>,
28 pub(super) resolver: &'a mut ResolverAstLowering,
29 pub(super) ast_arena: &'a Arena<'static>,
30 pub(super) ast_index: &'a IndexVec<LocalDefId, AstOwner<'a>>,
31 pub(super) owners: &'a mut IndexVec<LocalDefId, hir::MaybeOwner<&'hir hir::OwnerInfo<'hir>>>,
34 /// When we have a ty alias we *may* have two where clauses. To give the best diagnostics, we set the span
35 /// to the where clause that is preferred, if it exists. Otherwise, it sets the span to the other where
36 /// clause if it exists.
37 fn add_ty_alias_where_clause(
38 generics: &mut ast::Generics,
39 mut where_clauses: (TyAliasWhereClause, TyAliasWhereClause),
43 where_clauses = (where_clauses.1, where_clauses.0);
45 if where_clauses.0.0 || !where_clauses.1.0 {
46 generics.where_clause.has_where_token = where_clauses.0.0;
47 generics.where_clause.span = where_clauses.0.1;
49 generics.where_clause.has_where_token = where_clauses.1.0;
50 generics.where_clause.span = where_clauses.1.1;
54 impl<'a, 'hir> ItemLowerer<'a, 'hir> {
58 f: impl FnOnce(&mut LoweringContext<'_, 'hir>) -> hir::OwnerNode<'hir>,
60 let mut lctx = LoweringContext {
63 resolver: self.resolver,
64 arena: self.tcx.hir_arena,
65 ast_arena: self.ast_arena,
69 attrs: SortedMap::default(),
70 children: FxHashMap::default(),
71 current_hir_id_owner: hir::CRATE_OWNER_ID,
72 item_local_id_counter: hir::ItemLocalId::new(0),
73 node_id_to_local_id: Default::default(),
74 local_id_to_def_id: SortedMap::new(),
75 trait_map: Default::default(),
80 is_in_loop_condition: false,
81 is_in_trait_impl: false,
82 is_in_dyn_type: false,
86 impl_trait_defs: Vec::new(),
87 impl_trait_bounds: Vec::new(),
88 allow_try_trait: Some([sym::try_trait_v2, sym::yeet_desugar_details][..].into()),
89 allow_gen_future: Some([sym::gen_future][..].into()),
90 allow_into_future: Some([sym::into_future][..].into()),
91 generics_def_id_map: Default::default(),
93 lctx.with_hir_id_owner(owner, |lctx| f(lctx));
95 for (def_id, info) in lctx.children {
96 self.owners.ensure_contains_elem(def_id, || hir::MaybeOwner::Phantom);
97 debug_assert!(matches!(self.owners[def_id], hir::MaybeOwner::Phantom));
98 self.owners[def_id] = info;
102 pub(super) fn lower_node(
105 ) -> hir::MaybeOwner<&'hir hir::OwnerInfo<'hir>> {
106 self.owners.ensure_contains_elem(def_id, || hir::MaybeOwner::Phantom);
107 if let hir::MaybeOwner::Phantom = self.owners[def_id] {
108 let node = self.ast_index[def_id];
110 AstOwner::NonOwner => {}
111 AstOwner::Crate(c) => self.lower_crate(c),
112 AstOwner::Item(item) => self.lower_item(item),
113 AstOwner::AssocItem(item, ctxt) => self.lower_assoc_item(item, ctxt),
114 AstOwner::ForeignItem(item) => self.lower_foreign_item(item),
121 #[instrument(level = "debug", skip(self, c))]
122 fn lower_crate(&mut self, c: &Crate) {
123 debug_assert_eq!(self.resolver.node_id_to_def_id[&CRATE_NODE_ID], CRATE_DEF_ID);
124 self.with_lctx(CRATE_NODE_ID, |lctx| {
125 let module = lctx.lower_mod(&c.items, &c.spans);
126 lctx.lower_attrs(hir::CRATE_HIR_ID, &c.attrs);
127 hir::OwnerNode::Crate(module)
131 #[instrument(level = "debug", skip(self))]
132 fn lower_item(&mut self, item: &Item) {
133 self.with_lctx(item.id, |lctx| hir::OwnerNode::Item(lctx.lower_item(item)))
136 fn lower_assoc_item(&mut self, item: &AssocItem, ctxt: AssocCtxt) {
137 let def_id = self.resolver.node_id_to_def_id[&item.id];
139 let parent_id = self.tcx.local_parent(def_id);
140 let parent_hir = self.lower_node(parent_id).unwrap();
141 self.with_lctx(item.id, |lctx| {
142 // Evaluate with the lifetimes in `params` in-scope.
143 // This is used to track which lifetimes have already been defined,
144 // and which need to be replicated when lowering an async fn.
145 match parent_hir.node().expect_item().kind {
146 hir::ItemKind::Impl(hir::Impl { ref of_trait, .. }) => {
147 lctx.is_in_trait_impl = of_trait.is_some();
153 AssocCtxt::Trait => hir::OwnerNode::TraitItem(lctx.lower_trait_item(item)),
154 AssocCtxt::Impl => hir::OwnerNode::ImplItem(lctx.lower_impl_item(item)),
159 fn lower_foreign_item(&mut self, item: &ForeignItem) {
160 self.with_lctx(item.id, |lctx| hir::OwnerNode::ForeignItem(lctx.lower_foreign_item(item)))
164 impl<'hir> LoweringContext<'_, 'hir> {
165 pub(super) fn lower_mod(
169 ) -> &'hir hir::Mod<'hir> {
170 self.arena.alloc(hir::Mod {
171 spans: hir::ModSpans {
172 inner_span: self.lower_span(spans.inner_span),
173 inject_use_span: self.lower_span(spans.inject_use_span),
175 item_ids: self.arena.alloc_from_iter(items.iter().flat_map(|x| self.lower_item_ref(x))),
179 pub(super) fn lower_item_ref(&mut self, i: &Item) -> SmallVec<[hir::ItemId; 1]> {
181 smallvec![hir::ItemId { owner_id: hir::OwnerId { def_id: self.local_def_id(i.id) } }];
182 if let ItemKind::Use(ref use_tree) = &i.kind {
183 self.lower_item_id_use_tree(use_tree, i.id, &mut node_ids);
188 fn lower_item_id_use_tree(
192 vec: &mut SmallVec<[hir::ItemId; 1]>,
195 UseTreeKind::Nested(ref nested_vec) => {
196 for &(ref nested, id) in nested_vec {
197 vec.push(hir::ItemId {
198 owner_id: hir::OwnerId { def_id: self.local_def_id(id) },
200 self.lower_item_id_use_tree(nested, id, vec);
203 UseTreeKind::Glob => {}
204 UseTreeKind::Simple(_, id1, id2) => {
206 iter::zip(self.expect_full_res_from_use(base_id).skip(1), &[id1, id2])
208 vec.push(hir::ItemId {
209 owner_id: hir::OwnerId { def_id: self.local_def_id(id) },
216 fn lower_item(&mut self, i: &Item) -> &'hir hir::Item<'hir> {
217 let mut ident = i.ident;
218 let vis_span = self.lower_span(i.vis.span);
219 let hir_id = self.lower_node_id(i.id);
220 let attrs = self.lower_attrs(hir_id, &i.attrs);
221 let kind = self.lower_item_kind(i.span, i.id, hir_id, &mut ident, attrs, vis_span, &i.kind);
222 let item = hir::Item {
223 owner_id: hir_id.expect_owner(),
224 ident: self.lower_ident(ident),
227 span: self.lower_span(i.span),
229 self.arena.alloc(item)
238 attrs: Option<&'hir [Attribute]>,
241 ) -> hir::ItemKind<'hir> {
243 ItemKind::ExternCrate(orig_name) => hir::ItemKind::ExternCrate(orig_name),
244 ItemKind::Use(ref use_tree) => {
245 // Start with an empty prefix.
246 let prefix = Path { segments: vec![], span: use_tree.span, tokens: None };
248 self.lower_use_tree(use_tree, &prefix, id, vis_span, ident, attrs)
250 ItemKind::Static(ref t, m, ref e) => {
251 let (ty, body_id) = self.lower_const_item(t, span, e.as_deref());
252 hir::ItemKind::Static(ty, m, body_id)
254 ItemKind::Const(_, ref t, ref e) => {
255 let (ty, body_id) = self.lower_const_item(t, span, e.as_deref());
256 hir::ItemKind::Const(ty, body_id)
258 ItemKind::Fn(box Fn {
259 sig: FnSig { ref decl, header, span: fn_sig_span },
264 self.with_new_scopes(|this| {
265 this.current_item = Some(ident.span);
267 // Note: we don't need to change the return type from `T` to
268 // `impl Future<Output = T>` here because lower_body
269 // only cares about the input argument patterns in the function
270 // declaration (decl), not the return types.
271 let asyncness = header.asyncness;
273 this.lower_maybe_async_body(span, &decl, asyncness, body.as_deref());
275 let mut itctx = ImplTraitContext::Universal;
276 let (generics, decl) = this.lower_generics(generics, id, &mut itctx, |this| {
277 let ret_id = asyncness.opt_return_id();
278 this.lower_fn_decl(&decl, Some(id), fn_sig_span, FnDeclKind::Fn, ret_id)
280 let sig = hir::FnSig {
282 header: this.lower_fn_header(header),
283 span: this.lower_span(fn_sig_span),
285 hir::ItemKind::Fn(sig, generics, body_id)
288 ItemKind::Mod(_, ref mod_kind) => match mod_kind {
289 ModKind::Loaded(items, _, spans) => {
290 hir::ItemKind::Mod(self.lower_mod(items, spans))
292 ModKind::Unloaded => panic!("`mod` items should have been loaded by now"),
294 ItemKind::ForeignMod(ref fm) => hir::ItemKind::ForeignMod {
295 abi: fm.abi.map_or(abi::Abi::FALLBACK, |abi| self.lower_abi(abi)),
298 .alloc_from_iter(fm.items.iter().map(|x| self.lower_foreign_item_ref(x))),
300 ItemKind::GlobalAsm(ref asm) => {
301 hir::ItemKind::GlobalAsm(self.lower_inline_asm(span, asm))
303 ItemKind::TyAlias(box TyAlias {
311 // type Foo = impl Trait
316 // opaque type Foo1: Trait
317 let mut generics = generics.clone();
318 add_ty_alias_where_clause(&mut generics, where_clauses, true);
319 let (generics, ty) = self.lower_generics(
322 &ImplTraitContext::Disallowed(ImplTraitPosition::Generic),
323 |this| this.lower_ty(ty, &ImplTraitContext::TypeAliasesOpaqueTy),
325 hir::ItemKind::TyAlias(ty, generics)
327 ItemKind::TyAlias(box TyAlias {
328 ref generics, ref where_clauses, ty: None, ..
330 let mut generics = generics.clone();
331 add_ty_alias_where_clause(&mut generics, *where_clauses, true);
332 let (generics, ty) = self.lower_generics(
335 &ImplTraitContext::Disallowed(ImplTraitPosition::Generic),
336 |this| this.arena.alloc(this.ty(span, hir::TyKind::Err)),
338 hir::ItemKind::TyAlias(ty, generics)
340 ItemKind::Enum(ref enum_definition, ref generics) => {
341 let (generics, variants) = self.lower_generics(
344 &ImplTraitContext::Disallowed(ImplTraitPosition::Generic),
346 this.arena.alloc_from_iter(
347 enum_definition.variants.iter().map(|x| this.lower_variant(x)),
351 hir::ItemKind::Enum(hir::EnumDef { variants }, generics)
353 ItemKind::Struct(ref struct_def, ref generics) => {
354 let (generics, struct_def) = self.lower_generics(
357 &ImplTraitContext::Disallowed(ImplTraitPosition::Generic),
358 |this| this.lower_variant_data(hir_id, struct_def),
360 hir::ItemKind::Struct(struct_def, generics)
362 ItemKind::Union(ref vdata, ref generics) => {
363 let (generics, vdata) = self.lower_generics(
366 &ImplTraitContext::Disallowed(ImplTraitPosition::Generic),
367 |this| this.lower_variant_data(hir_id, vdata),
369 hir::ItemKind::Union(vdata, generics)
371 ItemKind::Impl(box Impl {
376 generics: ref ast_generics,
377 of_trait: ref trait_ref,
379 items: ref impl_items,
381 // Lower the "impl header" first. This ordering is important
382 // for in-band lifetimes! Consider `'a` here:
384 // impl Foo<'a> for u32 {
385 // fn method(&'a self) { .. }
388 // Because we start by lowering the `Foo<'a> for u32`
389 // part, we will add `'a` to the list of generics on
390 // the impl. When we then encounter it later in the
391 // method, it will not be considered an in-band
392 // lifetime to be added, but rather a reference to a
394 let mut itctx = ImplTraitContext::Universal;
395 let (generics, (trait_ref, lowered_ty)) =
396 self.lower_generics(ast_generics, id, &mut itctx, |this| {
397 let trait_ref = trait_ref.as_ref().map(|trait_ref| {
398 this.lower_trait_ref(
400 &ImplTraitContext::Disallowed(ImplTraitPosition::Trait),
404 let lowered_ty = this
405 .lower_ty(ty, &ImplTraitContext::Disallowed(ImplTraitPosition::Type));
407 (trait_ref, lowered_ty)
410 let new_impl_items = self
412 .alloc_from_iter(impl_items.iter().map(|item| self.lower_impl_item_ref(item)));
414 // `defaultness.has_value()` is never called for an `impl`, always `true` in order
415 // to not cause an assertion failure inside the `lower_defaultness` function.
417 let (defaultness, defaultness_span) = self.lower_defaultness(defaultness, has_val);
418 let polarity = match polarity {
419 ImplPolarity::Positive => ImplPolarity::Positive,
420 ImplPolarity::Negative(s) => ImplPolarity::Negative(self.lower_span(s)),
422 hir::ItemKind::Impl(self.arena.alloc(hir::Impl {
423 unsafety: self.lower_unsafety(unsafety),
427 constness: self.lower_constness(constness),
431 items: new_impl_items,
434 ItemKind::Trait(box Trait {
441 let (generics, (unsafety, items, bounds)) = self.lower_generics(
444 &ImplTraitContext::Disallowed(ImplTraitPosition::Generic),
446 let bounds = this.lower_param_bounds(
448 &ImplTraitContext::Disallowed(ImplTraitPosition::Bound),
450 let items = this.arena.alloc_from_iter(
451 items.iter().map(|item| this.lower_trait_item_ref(item)),
453 let unsafety = this.lower_unsafety(unsafety);
454 (unsafety, items, bounds)
457 hir::ItemKind::Trait(is_auto, unsafety, generics, bounds, items)
459 ItemKind::TraitAlias(ref generics, ref bounds) => {
460 let (generics, bounds) = self.lower_generics(
463 &ImplTraitContext::Disallowed(ImplTraitPosition::Generic),
465 this.lower_param_bounds(
467 &ImplTraitContext::Disallowed(ImplTraitPosition::Bound),
471 hir::ItemKind::TraitAlias(generics, bounds)
473 ItemKind::MacroDef(MacroDef { ref body, macro_rules }) => {
474 let body = P(self.lower_mac_args(body));
475 let macro_kind = self.resolver.decl_macro_kind(self.local_def_id(id));
476 hir::ItemKind::Macro(ast::MacroDef { body, macro_rules }, macro_kind)
478 ItemKind::MacCall(..) => {
479 panic!("`TyMac` should have been expanded by now")
489 ) -> (&'hir hir::Ty<'hir>, hir::BodyId) {
490 let ty = self.lower_ty(ty, &ImplTraitContext::Disallowed(ImplTraitPosition::Type));
491 (ty, self.lower_const_body(span, body))
494 #[instrument(level = "debug", skip(self))]
502 attrs: Option<&'hir [Attribute]>,
503 ) -> hir::ItemKind<'hir> {
504 let path = &tree.prefix;
505 let segments = prefix.segments.iter().chain(path.segments.iter()).cloned().collect();
508 UseTreeKind::Simple(rename, id1, id2) => {
509 *ident = tree.ident();
511 // First, apply the prefix to the path.
512 let mut path = Path { segments, span: path.span, tokens: None };
514 // Correctly resolve `self` imports.
515 if path.segments.len() > 1
516 && path.segments.last().unwrap().ident.name == kw::SelfLower
518 let _ = path.segments.pop();
519 if rename.is_none() {
520 *ident = path.segments.last().unwrap().ident;
524 let mut resolutions = self.expect_full_res_from_use(id).fuse();
525 // We want to return *something* from this function, so hold onto the first item
527 let ret_res = self.lower_res(resolutions.next().unwrap_or(Res::Err));
529 // Here, we are looping over namespaces, if they exist for the definition
530 // being imported. We only handle type and value namespaces because we
531 // won't be dealing with macros in the rest of the compiler.
532 // Essentially a single `use` which imports two names is desugared into
534 for new_node_id in [id1, id2] {
535 let new_id = self.local_def_id(new_node_id);
536 let Some(res) = resolutions.next() else {
537 // Associate an HirId to both ids even if there is no resolution.
538 let _old = self.children.insert(
540 hir::MaybeOwner::NonOwner(hir::HirId::make_owner(new_id)),
542 debug_assert!(_old.is_none());
546 let mut path = path.clone();
547 for seg in &mut path.segments {
548 // Give the cloned segment the same resolution information
549 // as the old one (this is needed for stability checking).
550 let new_id = self.next_node_id();
551 self.resolver.clone_res(seg.id, new_id);
554 let span = path.span;
556 self.with_hir_id_owner(new_node_id, |this| {
557 let res = this.lower_res(res);
558 let path = this.lower_path_extra(res, &path, ParamMode::Explicit);
559 let kind = hir::ItemKind::Use(path, hir::UseKind::Single);
560 if let Some(attrs) = attrs {
561 this.attrs.insert(hir::ItemLocalId::new(0), attrs);
564 let item = hir::Item {
565 owner_id: hir::OwnerId { def_id: new_id },
566 ident: this.lower_ident(ident),
569 span: this.lower_span(span),
571 hir::OwnerNode::Item(this.arena.alloc(item))
575 let path = self.lower_path_extra(ret_res, &path, ParamMode::Explicit);
576 hir::ItemKind::Use(path, hir::UseKind::Single)
578 UseTreeKind::Glob => {
579 let path = self.lower_path(
581 &Path { segments, span: path.span, tokens: None },
584 hir::ItemKind::Use(path, hir::UseKind::Glob)
586 UseTreeKind::Nested(ref trees) => {
587 // Nested imports are desugared into simple imports.
588 // So, if we start with
591 // pub(x) use foo::{a, b};
594 // we will create three items:
597 // pub(x) use foo::a;
598 // pub(x) use foo::b;
599 // pub(x) use foo::{}; // <-- this is called the `ListStem`
602 // The first two are produced by recursively invoking
603 // `lower_use_tree` (and indeed there may be things
604 // like `use foo::{a::{b, c}}` and so forth). They
605 // wind up being directly added to
606 // `self.items`. However, the structure of this
607 // function also requires us to return one item, and
608 // for that we return the `{}` import (called the
611 let prefix = Path { segments, span: prefix.span.to(path.span), tokens: None };
613 // Add all the nested `PathListItem`s to the HIR.
614 for &(ref use_tree, id) in trees {
615 let new_hir_id = self.local_def_id(id);
617 let mut prefix = prefix.clone();
619 // Give the segments new node-ids since they are being cloned.
620 for seg in &mut prefix.segments {
621 // Give the cloned segment the same resolution information
622 // as the old one (this is needed for stability checking).
623 let new_id = self.next_node_id();
624 self.resolver.clone_res(seg.id, new_id);
628 // Each `use` import is an item and thus are owners of the
629 // names in the path. Up to this point the nested import is
630 // the current owner, since we want each desugared import to
631 // own its own names, we have to adjust the owner before
632 // lowering the rest of the import.
633 self.with_hir_id_owner(id, |this| {
634 let mut ident = *ident;
637 this.lower_use_tree(use_tree, &prefix, id, vis_span, &mut ident, attrs);
638 if let Some(attrs) = attrs {
639 this.attrs.insert(hir::ItemLocalId::new(0), attrs);
642 let item = hir::Item {
643 owner_id: hir::OwnerId { def_id: new_hir_id },
644 ident: this.lower_ident(ident),
647 span: this.lower_span(use_tree.span),
649 hir::OwnerNode::Item(this.arena.alloc(item))
653 let res = self.expect_full_res_from_use(id).next().unwrap_or(Res::Err);
654 let res = self.lower_res(res);
655 let path = self.lower_path_extra(res, &prefix, ParamMode::Explicit);
656 hir::ItemKind::Use(path, hir::UseKind::ListStem)
661 fn lower_foreign_item(&mut self, i: &ForeignItem) -> &'hir hir::ForeignItem<'hir> {
662 let hir_id = self.lower_node_id(i.id);
663 let owner_id = hir_id.expect_owner();
664 self.lower_attrs(hir_id, &i.attrs);
665 let item = hir::ForeignItem {
667 ident: self.lower_ident(i.ident),
669 ForeignItemKind::Fn(box Fn { ref sig, ref generics, .. }) => {
670 let fdec = &sig.decl;
671 let mut itctx = ImplTraitContext::Universal;
672 let (generics, (fn_dec, fn_args)) =
673 self.lower_generics(generics, i.id, &mut itctx, |this| {
675 // Disallow `impl Trait` in foreign items.
680 FnDeclKind::ExternFn,
683 this.lower_fn_params_to_names(fdec),
687 hir::ForeignItemKind::Fn(fn_dec, fn_args, generics)
689 ForeignItemKind::Static(ref t, m, _) => {
691 self.lower_ty(t, &ImplTraitContext::Disallowed(ImplTraitPosition::Type));
692 hir::ForeignItemKind::Static(ty, m)
694 ForeignItemKind::TyAlias(..) => hir::ForeignItemKind::Type,
695 ForeignItemKind::MacCall(_) => panic!("macro shouldn't exist here"),
697 vis_span: self.lower_span(i.vis.span),
698 span: self.lower_span(i.span),
700 self.arena.alloc(item)
703 fn lower_foreign_item_ref(&mut self, i: &ForeignItem) -> hir::ForeignItemRef {
704 hir::ForeignItemRef {
705 id: hir::ForeignItemId { owner_id: hir::OwnerId { def_id: self.local_def_id(i.id) } },
706 ident: self.lower_ident(i.ident),
707 span: self.lower_span(i.span),
711 fn lower_variant(&mut self, v: &Variant) -> hir::Variant<'hir> {
712 let id = self.lower_node_id(v.id);
713 self.lower_attrs(id, &v.attrs);
716 data: self.lower_variant_data(id, &v.data),
717 disr_expr: v.disr_expr.as_ref().map(|e| self.lower_anon_const(e)),
718 ident: self.lower_ident(v.ident),
719 span: self.lower_span(v.span),
723 fn lower_variant_data(
725 parent_id: hir::HirId,
727 ) -> hir::VariantData<'hir> {
729 VariantData::Struct(ref fields, recovered) => hir::VariantData::Struct(
731 .alloc_from_iter(fields.iter().enumerate().map(|f| self.lower_field_def(f))),
734 VariantData::Tuple(ref fields, id) => {
735 let ctor_id = self.lower_node_id(id);
736 self.alias_attrs(ctor_id, parent_id);
737 hir::VariantData::Tuple(
738 self.arena.alloc_from_iter(
739 fields.iter().enumerate().map(|f| self.lower_field_def(f)),
744 VariantData::Unit(id) => {
745 let ctor_id = self.lower_node_id(id);
746 self.alias_attrs(ctor_id, parent_id);
747 hir::VariantData::Unit(ctor_id)
752 fn lower_field_def(&mut self, (index, f): (usize, &FieldDef)) -> hir::FieldDef<'hir> {
753 let ty = if let TyKind::Path(ref qself, ref path) = f.ty.kind {
754 let t = self.lower_path_ty(
758 ParamMode::ExplicitNamed, // no `'_` in declarations (Issue #61124)
759 &ImplTraitContext::Disallowed(ImplTraitPosition::Path),
763 self.lower_ty(&f.ty, &ImplTraitContext::Disallowed(ImplTraitPosition::Type))
765 let hir_id = self.lower_node_id(f.id);
766 self.lower_attrs(hir_id, &f.attrs);
768 span: self.lower_span(f.span),
770 ident: match f.ident {
771 Some(ident) => self.lower_ident(ident),
772 // FIXME(jseyfried): positional field hygiene.
773 None => Ident::new(sym::integer(index), self.lower_span(f.span)),
775 vis_span: self.lower_span(f.vis.span),
780 fn lower_trait_item(&mut self, i: &AssocItem) -> &'hir hir::TraitItem<'hir> {
781 let hir_id = self.lower_node_id(i.id);
782 let trait_item_def_id = hir_id.expect_owner();
784 let (generics, kind, has_default) = match i.kind {
785 AssocItemKind::Const(_, ref ty, ref default) => {
786 let ty = self.lower_ty(ty, &ImplTraitContext::Disallowed(ImplTraitPosition::Type));
787 let body = default.as_ref().map(|x| self.lower_const_body(i.span, Some(x)));
788 (hir::Generics::empty(), hir::TraitItemKind::Const(ty, body), body.is_some())
790 AssocItemKind::Fn(box Fn { ref sig, ref generics, body: None, .. }) => {
791 let asyncness = sig.header.asyncness;
792 let names = self.lower_fn_params_to_names(&sig.decl);
793 let (generics, sig) = self.lower_method_sig(
798 asyncness.opt_return_id(),
800 (generics, hir::TraitItemKind::Fn(sig, hir::TraitFn::Required(names)), false)
802 AssocItemKind::Fn(box Fn { ref sig, ref generics, body: Some(ref body), .. }) => {
803 let asyncness = sig.header.asyncness;
805 self.lower_maybe_async_body(i.span, &sig.decl, asyncness, Some(&body));
806 let (generics, sig) = self.lower_method_sig(
811 asyncness.opt_return_id(),
813 (generics, hir::TraitItemKind::Fn(sig, hir::TraitFn::Provided(body_id)), true)
815 AssocItemKind::Type(box TyAlias {
822 let mut generics = generics.clone();
823 add_ty_alias_where_clause(&mut generics, where_clauses, false);
824 let (generics, kind) = self.lower_generics(
827 &ImplTraitContext::Disallowed(ImplTraitPosition::Generic),
829 let ty = ty.as_ref().map(|x| {
830 this.lower_ty(x, &ImplTraitContext::Disallowed(ImplTraitPosition::Type))
832 hir::TraitItemKind::Type(
833 this.lower_param_bounds(
835 &ImplTraitContext::Disallowed(ImplTraitPosition::Generic),
841 (generics, kind, ty.is_some())
843 AssocItemKind::MacCall(..) => panic!("macro item shouldn't exist at this point"),
846 self.lower_attrs(hir_id, &i.attrs);
847 let item = hir::TraitItem {
848 owner_id: trait_item_def_id,
849 ident: self.lower_ident(i.ident),
852 span: self.lower_span(i.span),
853 defaultness: hir::Defaultness::Default { has_value: has_default },
855 self.arena.alloc(item)
858 fn lower_trait_item_ref(&mut self, i: &AssocItem) -> hir::TraitItemRef {
859 let kind = match &i.kind {
860 AssocItemKind::Const(..) => hir::AssocItemKind::Const,
861 AssocItemKind::Type(..) => hir::AssocItemKind::Type,
862 AssocItemKind::Fn(box Fn { sig, .. }) => {
863 hir::AssocItemKind::Fn { has_self: sig.decl.has_self() }
865 AssocItemKind::MacCall(..) => unimplemented!(),
867 let id = hir::TraitItemId { owner_id: hir::OwnerId { def_id: self.local_def_id(i.id) } };
870 ident: self.lower_ident(i.ident),
871 span: self.lower_span(i.span),
876 /// Construct `ExprKind::Err` for the given `span`.
877 pub(crate) fn expr_err(&mut self, span: Span) -> hir::Expr<'hir> {
878 self.expr(span, hir::ExprKind::Err, AttrVec::new())
881 fn lower_impl_item(&mut self, i: &AssocItem) -> &'hir hir::ImplItem<'hir> {
882 // Since `default impl` is not yet implemented, this is always true in impls.
883 let has_value = true;
884 let (defaultness, _) = self.lower_defaultness(i.kind.defaultness(), has_value);
886 let (generics, kind) = match &i.kind {
887 AssocItemKind::Const(_, ty, expr) => {
888 let ty = self.lower_ty(ty, &ImplTraitContext::Disallowed(ImplTraitPosition::Type));
890 hir::Generics::empty(),
891 hir::ImplItemKind::Const(ty, self.lower_const_body(i.span, expr.as_deref())),
894 AssocItemKind::Fn(box Fn { sig, generics, body, .. }) => {
895 self.current_item = Some(i.span);
896 let asyncness = sig.header.asyncness;
898 self.lower_maybe_async_body(i.span, &sig.decl, asyncness, body.as_deref());
899 let (generics, sig) = self.lower_method_sig(
903 if self.is_in_trait_impl { FnDeclKind::Impl } else { FnDeclKind::Inherent },
904 asyncness.opt_return_id(),
907 (generics, hir::ImplItemKind::Fn(sig, body_id))
909 AssocItemKind::Type(box TyAlias { generics, where_clauses, ty, .. }) => {
910 let mut generics = generics.clone();
911 add_ty_alias_where_clause(&mut generics, *where_clauses, false);
915 &ImplTraitContext::Disallowed(ImplTraitPosition::Generic),
918 let ty = this.arena.alloc(this.ty(i.span, hir::TyKind::Err));
919 hir::ImplItemKind::Type(ty)
922 let ty = this.lower_ty(ty, &ImplTraitContext::TypeAliasesOpaqueTy);
923 hir::ImplItemKind::Type(ty)
928 AssocItemKind::MacCall(..) => panic!("`TyMac` should have been expanded by now"),
931 let hir_id = self.lower_node_id(i.id);
932 self.lower_attrs(hir_id, &i.attrs);
933 let item = hir::ImplItem {
934 owner_id: hir_id.expect_owner(),
935 ident: self.lower_ident(i.ident),
938 vis_span: self.lower_span(i.vis.span),
939 span: self.lower_span(i.span),
942 self.arena.alloc(item)
945 fn lower_impl_item_ref(&mut self, i: &AssocItem) -> hir::ImplItemRef {
947 id: hir::ImplItemId { owner_id: hir::OwnerId { def_id: self.local_def_id(i.id) } },
948 ident: self.lower_ident(i.ident),
949 span: self.lower_span(i.span),
950 kind: match &i.kind {
951 AssocItemKind::Const(..) => hir::AssocItemKind::Const,
952 AssocItemKind::Type(..) => hir::AssocItemKind::Type,
953 AssocItemKind::Fn(box Fn { sig, .. }) => {
954 hir::AssocItemKind::Fn { has_self: sig.decl.has_self() }
956 AssocItemKind::MacCall(..) => unimplemented!(),
958 trait_item_def_id: self
960 .get_partial_res(i.id)
961 .map(|r| r.expect_full_res().def_id()),
965 fn lower_defaultness(
969 ) -> (hir::Defaultness, Option<Span>) {
971 Defaultness::Default(sp) => {
972 (hir::Defaultness::Default { has_value }, Some(self.lower_span(sp)))
974 Defaultness::Final => {
976 (hir::Defaultness::Final, None)
983 params: &'hir [hir::Param<'hir>],
984 value: hir::Expr<'hir>,
986 let body = hir::Body {
987 generator_kind: self.generator_kind,
989 value: self.arena.alloc(value),
992 debug_assert_eq!(id.hir_id.owner, self.current_hir_id_owner);
993 self.bodies.push((id.hir_id.local_id, self.arena.alloc(body)));
997 pub(super) fn lower_body(
999 f: impl FnOnce(&mut Self) -> (&'hir [hir::Param<'hir>], hir::Expr<'hir>),
1001 let prev_gen_kind = self.generator_kind.take();
1002 let task_context = self.task_context.take();
1003 let (parameters, result) = f(self);
1004 let body_id = self.record_body(parameters, result);
1005 self.task_context = task_context;
1006 self.generator_kind = prev_gen_kind;
1010 fn lower_param(&mut self, param: &Param) -> hir::Param<'hir> {
1011 let hir_id = self.lower_node_id(param.id);
1012 self.lower_attrs(hir_id, ¶m.attrs);
1015 pat: self.lower_pat(¶m.pat),
1016 ty_span: self.lower_span(param.ty.span),
1017 span: self.lower_span(param.span),
1021 pub(super) fn lower_fn_body(
1024 body: impl FnOnce(&mut Self) -> hir::Expr<'hir>,
1026 self.lower_body(|this| {
1028 this.arena.alloc_from_iter(decl.inputs.iter().map(|x| this.lower_param(x))),
1034 fn lower_fn_body_block(
1038 body: Option<&Block>,
1040 self.lower_fn_body(decl, |this| this.lower_block_expr_opt(span, body))
1043 fn lower_block_expr_opt(&mut self, span: Span, block: Option<&Block>) -> hir::Expr<'hir> {
1045 Some(block) => self.lower_block_expr(block),
1046 None => self.expr_err(span),
1050 pub(super) fn lower_const_body(&mut self, span: Span, expr: Option<&Expr>) -> hir::BodyId {
1051 self.lower_body(|this| {
1055 Some(expr) => this.lower_expr_mut(expr),
1056 None => this.expr_err(span),
1062 fn lower_maybe_async_body(
1067 body: Option<&Block>,
1069 let (closure_id, body) = match (asyncness, body) {
1070 (Async::Yes { closure_id, .. }, Some(body)) => (closure_id, body),
1071 _ => return self.lower_fn_body_block(span, decl, body),
1074 self.lower_body(|this| {
1075 let mut parameters: Vec<hir::Param<'_>> = Vec::new();
1076 let mut statements: Vec<hir::Stmt<'_>> = Vec::new();
1078 // Async function parameters are lowered into the closure body so that they are
1079 // captured and so that the drop order matches the equivalent non-async functions.
1083 // async fn foo(<pattern>: <ty>, <pattern>: <ty>, <pattern>: <ty>) {
1089 // fn foo(__arg0: <ty>, __arg1: <ty>, __arg2: <ty>) {
1091 // let __arg2 = __arg2;
1092 // let <pattern> = __arg2;
1093 // let __arg1 = __arg1;
1094 // let <pattern> = __arg1;
1095 // let __arg0 = __arg0;
1096 // let <pattern> = __arg0;
1097 // drop-temps { <body> } // see comments later in fn for details
1101 // If `<pattern>` is a simple ident, then it is lowered to a single
1102 // `let <pattern> = <pattern>;` statement as an optimization.
1104 // Note that the body is embedded in `drop-temps`; an
1105 // equivalent desugaring would be `return { <body>
1106 // };`. The key point is that we wish to drop all the
1107 // let-bound variables and temporaries created in the body
1108 // (and its tail expression!) before we drop the
1109 // parameters (c.f. rust-lang/rust#64512).
1110 for (index, parameter) in decl.inputs.iter().enumerate() {
1111 let parameter = this.lower_param(parameter);
1112 let span = parameter.pat.span;
1114 // Check if this is a binding pattern, if so, we can optimize and avoid adding a
1115 // `let <pat> = __argN;` statement. In this case, we do not rename the parameter.
1116 let (ident, is_simple_parameter) = match parameter.pat.kind {
1117 hir::PatKind::Binding(hir::BindingAnnotation(ByRef::No, _), _, ident, _) => {
1120 // For `ref mut` or wildcard arguments, we can't reuse the binding, but
1121 // we can keep the same name for the parameter.
1122 // This lets rustdoc render it correctly in documentation.
1123 hir::PatKind::Binding(_, _, ident, _) => (ident, false),
1124 hir::PatKind::Wild => {
1125 (Ident::with_dummy_span(rustc_span::symbol::kw::Underscore), false)
1128 // Replace the ident for bindings that aren't simple.
1129 let name = format!("__arg{}", index);
1130 let ident = Ident::from_str(&name);
1136 let desugared_span = this.mark_span_with_reason(DesugaringKind::Async, span, None);
1138 // Construct a parameter representing `__argN: <ty>` to replace the parameter of the
1141 // If this is the simple case, this parameter will end up being the same as the
1142 // original parameter, but with a different pattern id.
1143 let stmt_attrs = this.attrs.get(¶meter.hir_id.local_id).copied();
1144 let (new_parameter_pat, new_parameter_id) = this.pat_ident(desugared_span, ident);
1145 let new_parameter = hir::Param {
1146 hir_id: parameter.hir_id,
1147 pat: new_parameter_pat,
1148 ty_span: this.lower_span(parameter.ty_span),
1149 span: this.lower_span(parameter.span),
1152 if is_simple_parameter {
1153 // If this is the simple case, then we only insert one statement that is
1154 // `let <pat> = <pat>;`. We re-use the original argument's pattern so that
1155 // `HirId`s are densely assigned.
1156 let expr = this.expr_ident(desugared_span, ident, new_parameter_id);
1157 let stmt = this.stmt_let_pat(
1162 hir::LocalSource::AsyncFn,
1164 statements.push(stmt);
1166 // If this is not the simple case, then we construct two statements:
1169 // let __argN = __argN;
1170 // let <pat> = __argN;
1173 // The first statement moves the parameter into the closure and thus ensures
1174 // that the drop order is correct.
1176 // The second statement creates the bindings that the user wrote.
1178 // Construct the `let mut __argN = __argN;` statement. It must be a mut binding
1179 // because the user may have specified a `ref mut` binding in the next
1181 let (move_pat, move_id) = this.pat_ident_binding_mode(
1184 hir::BindingAnnotation::MUT,
1186 let move_expr = this.expr_ident(desugared_span, ident, new_parameter_id);
1187 let move_stmt = this.stmt_let_pat(
1192 hir::LocalSource::AsyncFn,
1195 // Construct the `let <pat> = __argN;` statement. We re-use the original
1196 // parameter's pattern so that `HirId`s are densely assigned.
1197 let pattern_expr = this.expr_ident(desugared_span, ident, move_id);
1198 let pattern_stmt = this.stmt_let_pat(
1203 hir::LocalSource::AsyncFn,
1206 statements.push(move_stmt);
1207 statements.push(pattern_stmt);
1210 parameters.push(new_parameter);
1213 let async_expr = this.make_async_expr(
1218 hir::AsyncGeneratorKind::Fn,
1220 // Create a block from the user's function body:
1221 let user_body = this.lower_block_expr(body);
1223 // Transform into `drop-temps { <user-body> }`, an expression:
1224 let desugared_span =
1225 this.mark_span_with_reason(DesugaringKind::Async, user_body.span, None);
1226 let user_body = this.expr_drop_temps(
1228 this.arena.alloc(user_body),
1232 // As noted above, create the final block like
1236 // let $param_pattern = $raw_param;
1238 // drop-temps { <user-body> }
1241 let body = this.block_all(
1243 this.arena.alloc_from_iter(statements),
1247 this.expr_block(body, AttrVec::new())
1252 this.arena.alloc_from_iter(parameters),
1253 this.expr(body.span, async_expr, AttrVec::new()),
1258 fn lower_method_sig(
1260 generics: &Generics,
1264 is_async: Option<(NodeId, Span)>,
1265 ) -> (&'hir hir::Generics<'hir>, hir::FnSig<'hir>) {
1266 let header = self.lower_fn_header(sig.header);
1267 let mut itctx = ImplTraitContext::Universal;
1268 let (generics, decl) = self.lower_generics(generics, id, &mut itctx, |this| {
1269 this.lower_fn_decl(&sig.decl, Some(id), sig.span, kind, is_async)
1271 (generics, hir::FnSig { header, decl, span: self.lower_span(sig.span) })
1274 fn lower_fn_header(&mut self, h: FnHeader) -> hir::FnHeader {
1276 unsafety: self.lower_unsafety(h.unsafety),
1277 asyncness: self.lower_asyncness(h.asyncness),
1278 constness: self.lower_constness(h.constness),
1279 abi: self.lower_extern(h.ext),
1283 pub(super) fn lower_abi(&mut self, abi: StrLit) -> abi::Abi {
1284 abi::lookup(abi.symbol_unescaped.as_str()).unwrap_or_else(|| {
1285 self.error_on_invalid_abi(abi);
1290 pub(super) fn lower_extern(&mut self, ext: Extern) -> abi::Abi {
1292 Extern::None => abi::Abi::Rust,
1293 Extern::Implicit(_) => abi::Abi::FALLBACK,
1294 Extern::Explicit(abi, _) => self.lower_abi(abi),
1298 fn error_on_invalid_abi(&self, abi: StrLit) {
1299 let abi_names = abi::enabled_names(self.tcx.features(), abi.span)
1301 .map(|s| Symbol::intern(s))
1302 .collect::<Vec<_>>();
1303 let suggested_name = find_best_match_for_name(&abi_names, abi.symbol_unescaped, None);
1304 self.tcx.sess.emit_err(InvalidAbi {
1305 abi: abi.symbol_unescaped,
1307 suggestion: suggested_name.map(|suggested_name| InvalidAbiSuggestion {
1309 suggestion: format!("\"{suggested_name}\""),
1311 command: "rustc --print=calling-conventions".to_string(),
1315 fn lower_asyncness(&mut self, a: Async) -> hir::IsAsync {
1317 Async::Yes { .. } => hir::IsAsync::Async,
1318 Async::No => hir::IsAsync::NotAsync,
1322 fn lower_constness(&mut self, c: Const) -> hir::Constness {
1324 Const::Yes(_) => hir::Constness::Const,
1325 Const::No => hir::Constness::NotConst,
1329 pub(super) fn lower_unsafety(&mut self, u: Unsafe) -> hir::Unsafety {
1331 Unsafe::Yes(_) => hir::Unsafety::Unsafe,
1332 Unsafe::No => hir::Unsafety::Normal,
1336 /// Return the pair of the lowered `generics` as `hir::Generics` and the evaluation of `f` with
1337 /// the carried impl trait definitions and bounds.
1338 #[instrument(level = "debug", skip(self, f))]
1339 fn lower_generics<T>(
1341 generics: &Generics,
1342 parent_node_id: NodeId,
1343 itctx: &ImplTraitContext,
1344 f: impl FnOnce(&mut Self) -> T,
1345 ) -> (&'hir hir::Generics<'hir>, T) {
1346 debug_assert!(self.impl_trait_defs.is_empty());
1347 debug_assert!(self.impl_trait_bounds.is_empty());
1349 // Error if `?Trait` bounds in where clauses don't refer directly to type parameters.
1350 // Note: we used to clone these bounds directly onto the type parameter (and avoid lowering
1351 // these into hir when we lower thee where clauses), but this makes it quite difficult to
1352 // keep track of the Span info. Now, `add_implicitly_sized` in `AstConv` checks both param bounds and
1353 // where clauses for `?Sized`.
1354 for pred in &generics.where_clause.predicates {
1355 let WherePredicate::BoundPredicate(ref bound_pred) = *pred else {
1358 let compute_is_param = || {
1359 // Check if the where clause type is a plain type parameter.
1362 .get_partial_res(bound_pred.bounded_ty.id)
1363 .and_then(|r| r.full_res())
1365 Some(Res::Def(DefKind::TyParam, def_id))
1366 if bound_pred.bound_generic_params.is_empty() =>
1371 .any(|p| def_id == self.local_def_id(p.id).to_def_id())
1373 // Either the `bounded_ty` is not a plain type parameter, or
1374 // it's not found in the generic type parameters list.
1378 // We only need to compute this once per `WherePredicate`, but don't
1379 // need to compute this at all unless there is a Maybe bound.
1380 let mut is_param: Option<bool> = None;
1381 for bound in &bound_pred.bounds {
1382 if !matches!(*bound, GenericBound::Trait(_, TraitBoundModifier::Maybe)) {
1385 let is_param = *is_param.get_or_insert_with(compute_is_param);
1387 self.tcx.sess.emit_err(MisplacedRelaxTraitBound { span: bound.span() });
1392 let mut predicates: SmallVec<[hir::WherePredicate<'hir>; 4]> = SmallVec::new();
1393 predicates.extend(generics.params.iter().filter_map(|param| {
1394 self.lower_generic_bound_predicate(
1400 PredicateOrigin::GenericParam,
1408 .map(|predicate| self.lower_where_predicate(predicate)),
1411 let mut params: SmallVec<[hir::GenericParam<'hir>; 4]> =
1412 self.lower_generic_params_mut(&generics.params).collect();
1414 // Introduce extra lifetimes if late resolution tells us to.
1415 let extra_lifetimes = self.resolver.take_extra_lifetime_params(parent_node_id);
1416 params.extend(extra_lifetimes.into_iter().filter_map(|(ident, node_id, res)| {
1417 self.lifetime_res_to_generic_param(ident, node_id, res)
1420 let has_where_clause_predicates = !generics.where_clause.predicates.is_empty();
1421 let where_clause_span = self.lower_span(generics.where_clause.span);
1422 let span = self.lower_span(generics.span);
1425 let impl_trait_defs = std::mem::take(&mut self.impl_trait_defs);
1426 params.extend(impl_trait_defs.into_iter());
1428 let impl_trait_bounds = std::mem::take(&mut self.impl_trait_bounds);
1429 predicates.extend(impl_trait_bounds.into_iter());
1431 let lowered_generics = self.arena.alloc(hir::Generics {
1432 params: self.arena.alloc_from_iter(params),
1433 predicates: self.arena.alloc_from_iter(predicates),
1434 has_where_clause_predicates,
1439 (lowered_generics, res)
1442 pub(super) fn lower_generic_bound_predicate(
1446 kind: &GenericParamKind,
1447 bounds: &[GenericBound],
1448 itctx: &ImplTraitContext,
1449 origin: PredicateOrigin,
1450 ) -> Option<hir::WherePredicate<'hir>> {
1451 // Do not create a clause if we do not have anything inside it.
1452 if bounds.is_empty() {
1456 let bounds = self.lower_param_bounds(bounds, itctx);
1458 let ident = self.lower_ident(ident);
1459 let param_span = ident.span;
1462 .fold(Some(param_span.shrink_to_hi()), |span: Option<Span>, bound| {
1463 let bound_span = bound.span();
1464 // We include bounds that come from a `#[derive(_)]` but point at the user's code,
1465 // as we use this method to get a span appropriate for suggestions.
1466 if !bound_span.can_be_used_for_suggestions() {
1468 } else if let Some(span) = span {
1469 Some(span.to(bound_span))
1474 .unwrap_or(param_span.shrink_to_hi());
1476 GenericParamKind::Const { .. } => None,
1477 GenericParamKind::Type { .. } => {
1478 let def_id = self.local_def_id(id).to_def_id();
1479 let hir_id = self.next_id();
1480 let res = Res::Def(DefKind::TyParam, def_id);
1481 let ty_path = self.arena.alloc(hir::Path {
1486 .alloc_from_iter([hir::PathSegment::new(ident, hir_id, res)]),
1488 let ty_id = self.next_id();
1490 self.ty_path(ty_id, param_span, hir::QPath::Resolved(None, ty_path));
1491 Some(hir::WherePredicate::BoundPredicate(hir::WhereBoundPredicate {
1492 hir_id: self.next_id(),
1493 bounded_ty: self.arena.alloc(bounded_ty),
1496 bound_generic_params: &[],
1500 GenericParamKind::Lifetime => {
1501 let ident_span = self.lower_span(ident.span);
1502 let ident = self.lower_ident(ident);
1503 let lt_id = self.next_node_id();
1504 let lifetime = self.new_named_lifetime(id, lt_id, ident_span, ident);
1505 Some(hir::WherePredicate::RegionPredicate(hir::WhereRegionPredicate {
1509 in_where_clause: false,
1515 fn lower_where_predicate(&mut self, pred: &WherePredicate) -> hir::WherePredicate<'hir> {
1517 WherePredicate::BoundPredicate(WhereBoundPredicate {
1518 ref bound_generic_params,
1522 }) => hir::WherePredicate::BoundPredicate(hir::WhereBoundPredicate {
1523 hir_id: self.next_id(),
1524 bound_generic_params: self.lower_generic_params(bound_generic_params),
1526 .lower_ty(bounded_ty, &ImplTraitContext::Disallowed(ImplTraitPosition::Type)),
1527 bounds: self.arena.alloc_from_iter(bounds.iter().map(|bound| {
1528 self.lower_param_bound(
1530 &ImplTraitContext::Disallowed(ImplTraitPosition::Bound),
1533 span: self.lower_span(span),
1534 origin: PredicateOrigin::WhereClause,
1536 WherePredicate::RegionPredicate(WhereRegionPredicate {
1540 }) => hir::WherePredicate::RegionPredicate(hir::WhereRegionPredicate {
1541 span: self.lower_span(span),
1542 lifetime: self.lower_lifetime(lifetime),
1543 bounds: self.lower_param_bounds(
1545 &ImplTraitContext::Disallowed(ImplTraitPosition::Bound),
1547 in_where_clause: true,
1549 WherePredicate::EqPredicate(WhereEqPredicate { ref lhs_ty, ref rhs_ty, span }) => {
1550 hir::WherePredicate::EqPredicate(hir::WhereEqPredicate {
1552 .lower_ty(lhs_ty, &ImplTraitContext::Disallowed(ImplTraitPosition::Type)),
1554 .lower_ty(rhs_ty, &ImplTraitContext::Disallowed(ImplTraitPosition::Type)),
1555 span: self.lower_span(span),