1use std::fmt::Write;
2use std::mem;
3
4use ast::token::IdentIsRaw;
5use rustc_ast::ast::*;
6use rustc_ast::ptr::P;
7use rustc_ast::token::{self, Delimiter, InvisibleOrigin, MetaVarKind, TokenKind};
8use rustc_ast::tokenstream::{DelimSpan, TokenStream, TokenTree};
9use rustc_ast::util::case::Case;
10use rustc_ast::{self as ast};
11use rustc_ast_pretty::pprust;
12use rustc_errors::codes::*;
13use rustc_errors::{Applicability, PResult, StashKey, struct_span_code_err};
14use rustc_span::edit_distance::edit_distance;
15use rustc_span::edition::Edition;
16use rustc_span::{DUMMY_SP, ErrorGuaranteed, Ident, Span, Symbol, kw, source_map, sym};
17use thin_vec::{ThinVec, thin_vec};
18use tracing::debug;
19
20use super::diagnostics::{ConsumeClosingDelim, dummy_arg};
21use super::ty::{AllowPlus, RecoverQPath, RecoverReturnSign};
22use super::{
23 AttrWrapper, ExpKeywordPair, ExpTokenPair, FollowedByType, ForceCollect, Parser, PathStyle,
24 Recovered, Trailing, UsePreAttrPos,
25};
26use crate::errors::{self, FnPointerCannotBeAsync, FnPointerCannotBeConst, MacroExpandsToAdtField};
27use crate::{exp, fluent_generated as fluent};
28
29impl<'a> Parser<'a> {
30 pub fn parse_crate_mod(&mut self) -> PResult<'a, ast::Crate> {
32 let (attrs, items, spans) = self.parse_mod(exp!(Eof))?;
33 Ok(ast::Crate { attrs, items, spans, id: DUMMY_NODE_ID, is_placeholder: false })
34 }
35
36 fn parse_item_mod(&mut self, attrs: &mut AttrVec) -> PResult<'a, ItemKind> {
38 let safety = self.parse_safety(Case::Sensitive);
39 self.expect_keyword(exp!(Mod))?;
40 let ident = self.parse_ident()?;
41 let mod_kind = if self.eat(exp!(Semi)) {
42 ModKind::Unloaded
43 } else {
44 self.expect(exp!(OpenBrace))?;
45 let (inner_attrs, items, inner_span) = self.parse_mod(exp!(CloseBrace))?;
46 attrs.extend(inner_attrs);
47 ModKind::Loaded(items, Inline::Yes, inner_span, Ok(()))
48 };
49 Ok(ItemKind::Mod(safety, ident, mod_kind))
50 }
51
52 pub fn parse_mod(
57 &mut self,
58 term: ExpTokenPair<'_>,
59 ) -> PResult<'a, (AttrVec, ThinVec<P<Item>>, ModSpans)> {
60 let lo = self.token.span;
61 let attrs = self.parse_inner_attributes()?;
62
63 let post_attr_lo = self.token.span;
64 let mut items: ThinVec<P<_>> = ThinVec::new();
65
66 loop {
69 while self.maybe_consume_incorrect_semicolon(items.last().map(|x| &**x)) {} let Some(item) = self.parse_item(ForceCollect::No)? else {
71 break;
72 };
73 items.push(item);
74 }
75
76 if !self.eat(term) {
77 let token_str = super::token_descr(&self.token);
78 if !self.maybe_consume_incorrect_semicolon(items.last().map(|x| &**x)) {
79 let is_let = self.token.is_keyword(kw::Let);
80 let is_let_mut = is_let && self.look_ahead(1, |t| t.is_keyword(kw::Mut));
81 let let_has_ident = is_let && !is_let_mut && self.is_kw_followed_by_ident(kw::Let);
82
83 let msg = format!("expected item, found {token_str}");
84 let mut err = self.dcx().struct_span_err(self.token.span, msg);
85
86 let label = if is_let {
87 "`let` cannot be used for global variables"
88 } else {
89 "expected item"
90 };
91 err.span_label(self.token.span, label);
92
93 if is_let {
94 if is_let_mut {
95 err.help("consider using `static` and a `Mutex` instead of `let mut`");
96 } else if let_has_ident {
97 err.span_suggestion_short(
98 self.token.span,
99 "consider using `static` or `const` instead of `let`",
100 "static",
101 Applicability::MaybeIncorrect,
102 );
103 } else {
104 err.help("consider using `static` or `const` instead of `let`");
105 }
106 }
107 err.note("for a full list of items that can appear in modules, see <https://doc.rust-lang.org/reference/items.html>");
108 return Err(err);
109 }
110 }
111
112 let inject_use_span = post_attr_lo.data().with_hi(post_attr_lo.lo());
113 let mod_spans = ModSpans { inner_span: lo.to(self.prev_token.span), inject_use_span };
114 Ok((attrs, items, mod_spans))
115 }
116}
117
118impl<'a> Parser<'a> {
119 pub fn parse_item(&mut self, force_collect: ForceCollect) -> PResult<'a, Option<P<Item>>> {
120 let fn_parse_mode = FnParseMode { req_name: |_| true, req_body: true };
121 self.parse_item_(fn_parse_mode, force_collect).map(|i| i.map(P))
122 }
123
124 fn parse_item_(
125 &mut self,
126 fn_parse_mode: FnParseMode,
127 force_collect: ForceCollect,
128 ) -> PResult<'a, Option<Item>> {
129 self.recover_vcs_conflict_marker();
130 let attrs = self.parse_outer_attributes()?;
131 self.recover_vcs_conflict_marker();
132 self.parse_item_common(attrs, true, false, fn_parse_mode, force_collect)
133 }
134
135 pub(super) fn parse_item_common(
136 &mut self,
137 attrs: AttrWrapper,
138 mac_allowed: bool,
139 attrs_allowed: bool,
140 fn_parse_mode: FnParseMode,
141 force_collect: ForceCollect,
142 ) -> PResult<'a, Option<Item>> {
143 if let Some(item) =
144 self.eat_metavar_seq(MetaVarKind::Item, |this| this.parse_item(ForceCollect::Yes))
145 {
146 let mut item = item.expect("an actual item");
147 attrs.prepend_to_nt_inner(&mut item.attrs);
148 return Ok(Some(*item));
149 }
150
151 self.collect_tokens(None, attrs, force_collect, |this, mut attrs| {
152 let lo = this.token.span;
153 let vis = this.parse_visibility(FollowedByType::No)?;
154 let mut def = this.parse_defaultness();
155 let kind = this.parse_item_kind(
156 &mut attrs,
157 mac_allowed,
158 lo,
159 &vis,
160 &mut def,
161 fn_parse_mode,
162 Case::Sensitive,
163 )?;
164 if let Some(kind) = kind {
165 this.error_on_unconsumed_default(def, &kind);
166 let span = lo.to(this.prev_token.span);
167 let id = DUMMY_NODE_ID;
168 let item = Item { attrs, id, kind, vis, span, tokens: None };
169 return Ok((Some(item), Trailing::No, UsePreAttrPos::No));
170 }
171
172 if !matches!(vis.kind, VisibilityKind::Inherited) {
174 this.dcx().emit_err(errors::VisibilityNotFollowedByItem { span: vis.span, vis });
175 }
176
177 if let Defaultness::Default(span) = def {
178 this.dcx().emit_err(errors::DefaultNotFollowedByItem { span });
179 }
180
181 if !attrs_allowed {
182 this.recover_attrs_no_item(&attrs)?;
183 }
184 Ok((None, Trailing::No, UsePreAttrPos::No))
185 })
186 }
187
188 fn error_on_unconsumed_default(&self, def: Defaultness, kind: &ItemKind) {
190 if let Defaultness::Default(span) = def {
191 self.dcx().emit_err(errors::InappropriateDefault {
192 span,
193 article: kind.article(),
194 descr: kind.descr(),
195 });
196 }
197 }
198
199 fn parse_item_kind(
201 &mut self,
202 attrs: &mut AttrVec,
203 macros_allowed: bool,
204 lo: Span,
205 vis: &Visibility,
206 def: &mut Defaultness,
207 fn_parse_mode: FnParseMode,
208 case: Case,
209 ) -> PResult<'a, Option<ItemKind>> {
210 let check_pub = def == &Defaultness::Final;
211 let mut def_ = || mem::replace(def, Defaultness::Final);
212
213 let info = if !self.is_use_closure() && self.eat_keyword_case(exp!(Use), case) {
214 self.parse_use_item()?
215 } else if self.check_fn_front_matter(check_pub, case) {
216 let (ident, sig, generics, contract, body) =
218 self.parse_fn(attrs, fn_parse_mode, lo, vis, case)?;
219 ItemKind::Fn(Box::new(Fn {
220 defaultness: def_(),
221 ident,
222 sig,
223 generics,
224 contract,
225 body,
226 define_opaque: None,
227 }))
228 } else if self.eat_keyword(exp!(Extern)) {
229 if self.eat_keyword(exp!(Crate)) {
230 self.parse_item_extern_crate()?
232 } else {
233 self.parse_item_foreign_mod(attrs, Safety::Default)?
235 }
236 } else if self.is_unsafe_foreign_mod() {
237 let safety = self.parse_safety(Case::Sensitive);
239 self.expect_keyword(exp!(Extern))?;
240 self.parse_item_foreign_mod(attrs, safety)?
241 } else if self.is_static_global() {
242 let safety = self.parse_safety(Case::Sensitive);
243 self.bump(); let mutability = self.parse_mutability();
246 self.parse_static_item(safety, mutability)?
247 } else if let Const::Yes(const_span) = self.parse_constness(Case::Sensitive) {
248 if self.token.is_keyword(kw::Impl) {
250 self.recover_const_impl(const_span, attrs, def_())?
252 } else {
253 self.recover_const_mut(const_span);
254 self.recover_missing_kw_before_item()?;
255 let (ident, generics, ty, expr) = self.parse_const_item()?;
256 ItemKind::Const(Box::new(ConstItem {
257 defaultness: def_(),
258 ident,
259 generics,
260 ty,
261 expr,
262 define_opaque: None,
263 }))
264 }
265 } else if self.check_keyword(exp!(Trait)) || self.check_auto_or_unsafe_trait_item() {
266 self.parse_item_trait(attrs, lo)?
268 } else if self.check_keyword(exp!(Impl))
269 || self.check_keyword(exp!(Unsafe)) && self.is_keyword_ahead(1, &[kw::Impl])
270 {
271 self.parse_item_impl(attrs, def_())?
273 } else if self.is_reuse_path_item() {
274 self.parse_item_delegation()?
275 } else if self.check_keyword(exp!(Mod))
276 || self.check_keyword(exp!(Unsafe)) && self.is_keyword_ahead(1, &[kw::Mod])
277 {
278 self.parse_item_mod(attrs)?
280 } else if self.eat_keyword(exp!(Type)) {
281 self.parse_type_alias(def_())?
283 } else if self.eat_keyword(exp!(Enum)) {
284 self.parse_item_enum()?
286 } else if self.eat_keyword(exp!(Struct)) {
287 self.parse_item_struct()?
289 } else if self.is_kw_followed_by_ident(kw::Union) {
290 self.bump(); self.parse_item_union()?
293 } else if self.is_builtin() {
294 return self.parse_item_builtin();
296 } else if self.eat_keyword(exp!(Macro)) {
297 self.parse_item_decl_macro(lo)?
299 } else if let IsMacroRulesItem::Yes { has_bang } = self.is_macro_rules_item() {
300 self.parse_item_macro_rules(vis, has_bang)?
302 } else if self.isnt_macro_invocation()
303 && (self.token.is_ident_named(sym::import)
304 || self.token.is_ident_named(sym::using)
305 || self.token.is_ident_named(sym::include)
306 || self.token.is_ident_named(sym::require))
307 {
308 return self.recover_import_as_use();
309 } else if self.isnt_macro_invocation() && vis.kind.is_pub() {
310 self.recover_missing_kw_before_item()?;
311 return Ok(None);
312 } else if self.isnt_macro_invocation() && case == Case::Sensitive {
313 _ = def_;
314
315 return self.parse_item_kind(
317 attrs,
318 macros_allowed,
319 lo,
320 vis,
321 def,
322 fn_parse_mode,
323 Case::Insensitive,
324 );
325 } else if macros_allowed && self.check_path() {
326 if self.isnt_macro_invocation() {
327 self.recover_missing_kw_before_item()?;
328 }
329 ItemKind::MacCall(P(self.parse_item_macro(vis)?))
331 } else {
332 return Ok(None);
333 };
334 Ok(Some(info))
335 }
336
337 fn recover_import_as_use(&mut self) -> PResult<'a, Option<ItemKind>> {
338 let span = self.token.span;
339 let token_name = super::token_descr(&self.token);
340 let snapshot = self.create_snapshot_for_diagnostic();
341 self.bump();
342 match self.parse_use_item() {
343 Ok(u) => {
344 self.dcx().emit_err(errors::RecoverImportAsUse { span, token_name });
345 Ok(Some(u))
346 }
347 Err(e) => {
348 e.cancel();
349 self.restore_snapshot(snapshot);
350 Ok(None)
351 }
352 }
353 }
354
355 fn parse_use_item(&mut self) -> PResult<'a, ItemKind> {
356 let tree = self.parse_use_tree()?;
357 if let Err(mut e) = self.expect_semi() {
358 match tree.kind {
359 UseTreeKind::Glob => {
360 e.note("the wildcard token must be last on the path");
361 }
362 UseTreeKind::Nested { .. } => {
363 e.note("glob-like brace syntax must be last on the path");
364 }
365 _ => (),
366 }
367 return Err(e);
368 }
369 Ok(ItemKind::Use(tree))
370 }
371
372 pub(super) fn is_path_start_item(&mut self) -> bool {
374 self.is_kw_followed_by_ident(kw::Union) || self.is_reuse_path_item()
376 || self.check_auto_or_unsafe_trait_item() || self.is_async_fn() || matches!(self.is_macro_rules_item(), IsMacroRulesItem::Yes{..}) }
380
381 fn is_reuse_path_item(&mut self) -> bool {
382 self.token.is_keyword(kw::Reuse)
384 && self.look_ahead(1, |t| t.is_path_start() && *t != token::PathSep)
385 }
386
387 fn isnt_macro_invocation(&mut self) -> bool {
389 self.check_ident() && self.look_ahead(1, |t| *t != token::Bang && *t != token::PathSep)
390 }
391
392 fn recover_missing_kw_before_item(&mut self) -> PResult<'a, ()> {
395 let is_pub = self.prev_token.is_keyword(kw::Pub);
396 let is_const = self.prev_token.is_keyword(kw::Const);
397 let ident_span = self.token.span;
398 let span = if is_pub { self.prev_token.span.to(ident_span) } else { ident_span };
399 let insert_span = ident_span.shrink_to_lo();
400
401 let ident = if self.token.is_ident()
402 && (!is_const || self.look_ahead(1, |t| *t == token::OpenParen))
403 && self.look_ahead(1, |t| {
404 matches!(t.kind, token::Lt | token::OpenBrace | token::OpenParen)
405 }) {
406 self.parse_ident().unwrap()
407 } else {
408 return Ok(());
409 };
410
411 let mut found_generics = false;
412 if self.check(exp!(Lt)) {
413 found_generics = true;
414 self.eat_to_tokens(&[exp!(Gt)]);
415 self.bump(); }
417
418 let err = if self.check(exp!(OpenBrace)) {
419 if self.look_ahead(1, |t| *t == token::CloseBrace) {
421 Some(errors::MissingKeywordForItemDefinition::EnumOrStruct { span })
423 } else if self.look_ahead(2, |t| *t == token::Colon)
424 || self.look_ahead(3, |t| *t == token::Colon)
425 {
426 Some(errors::MissingKeywordForItemDefinition::Struct { span, insert_span, ident })
428 } else {
429 Some(errors::MissingKeywordForItemDefinition::Enum { span, insert_span, ident })
430 }
431 } else if self.check(exp!(OpenParen)) {
432 self.bump(); let is_method = self.recover_self_param();
435
436 self.consume_block(exp!(OpenParen), exp!(CloseParen), ConsumeClosingDelim::Yes);
437
438 let err = if self.check(exp!(RArrow)) || self.check(exp!(OpenBrace)) {
439 self.eat_to_tokens(&[exp!(OpenBrace)]);
440 self.bump(); self.consume_block(exp!(OpenBrace), exp!(CloseBrace), ConsumeClosingDelim::Yes);
442 if is_method {
443 errors::MissingKeywordForItemDefinition::Method { span, insert_span, ident }
444 } else {
445 errors::MissingKeywordForItemDefinition::Function { span, insert_span, ident }
446 }
447 } else if is_pub && self.check(exp!(Semi)) {
448 errors::MissingKeywordForItemDefinition::Struct { span, insert_span, ident }
449 } else {
450 errors::MissingKeywordForItemDefinition::Ambiguous {
451 span,
452 subdiag: if found_generics {
453 None
454 } else if let Ok(snippet) = self.span_to_snippet(ident_span) {
455 Some(errors::AmbiguousMissingKwForItemSub::SuggestMacro {
456 span: ident_span,
457 snippet,
458 })
459 } else {
460 Some(errors::AmbiguousMissingKwForItemSub::HelpMacro)
461 },
462 }
463 };
464 Some(err)
465 } else if found_generics {
466 Some(errors::MissingKeywordForItemDefinition::Ambiguous { span, subdiag: None })
467 } else {
468 None
469 };
470
471 if let Some(err) = err { Err(self.dcx().create_err(err)) } else { Ok(()) }
472 }
473
474 fn parse_item_builtin(&mut self) -> PResult<'a, Option<ItemKind>> {
475 Ok(None)
477 }
478
479 fn parse_item_macro(&mut self, vis: &Visibility) -> PResult<'a, MacCall> {
481 let path = self.parse_path(PathStyle::Mod)?; self.expect(exp!(Bang))?; match self.parse_delim_args() {
484 Ok(args) => {
486 self.eat_semi_for_macro_if_needed(&args);
487 self.complain_if_pub_macro(vis, false);
488 Ok(MacCall { path, args })
489 }
490
491 Err(mut err) => {
492 if self.token.is_ident()
494 && let [segment] = path.segments.as_slice()
495 && edit_distance("macro_rules", &segment.ident.to_string(), 2).is_some()
496 {
497 err.span_suggestion(
498 path.span,
499 "perhaps you meant to define a macro",
500 "macro_rules",
501 Applicability::MachineApplicable,
502 );
503 }
504 Err(err)
505 }
506 }
507 }
508
509 fn recover_attrs_no_item(&mut self, attrs: &[Attribute]) -> PResult<'a, ()> {
511 let ([start @ end] | [start, .., end]) = attrs else {
512 return Ok(());
513 };
514 let msg = if end.is_doc_comment() {
515 "expected item after doc comment"
516 } else {
517 "expected item after attributes"
518 };
519 let mut err = self.dcx().struct_span_err(end.span, msg);
520 if end.is_doc_comment() {
521 err.span_label(end.span, "this doc comment doesn't document anything");
522 } else if self.token == TokenKind::Semi {
523 err.span_suggestion_verbose(
524 self.token.span,
525 "consider removing this semicolon",
526 "",
527 Applicability::MaybeIncorrect,
528 );
529 }
530 if let [.., penultimate, _] = attrs {
531 err.span_label(start.span.to(penultimate.span), "other attributes here");
532 }
533 Err(err)
534 }
535
536 fn is_async_fn(&self) -> bool {
537 self.token.is_keyword(kw::Async) && self.is_keyword_ahead(1, &[kw::Fn])
538 }
539
540 fn parse_polarity(&mut self) -> ast::ImplPolarity {
541 if self.check(exp!(Bang)) && self.look_ahead(1, |t| t.can_begin_type()) {
543 self.bump(); ast::ImplPolarity::Negative(self.prev_token.span)
545 } else {
546 ast::ImplPolarity::Positive
547 }
548 }
549
550 fn parse_item_impl(
565 &mut self,
566 attrs: &mut AttrVec,
567 defaultness: Defaultness,
568 ) -> PResult<'a, ItemKind> {
569 let safety = self.parse_safety(Case::Sensitive);
570 self.expect_keyword(exp!(Impl))?;
571
572 let mut generics = if self.choose_generics_over_qpath(0) {
574 self.parse_generics()?
575 } else {
576 let mut generics = Generics::default();
577 generics.span = self.prev_token.span.shrink_to_hi();
580 generics
581 };
582
583 let constness = self.parse_constness(Case::Sensitive);
584 if let Const::Yes(span) = constness {
585 self.psess.gated_spans.gate(sym::const_trait_impl, span);
586 }
587
588 if (self.token_uninterpolated_span().at_least_rust_2018()
590 && self.token.is_keyword(kw::Async))
591 || self.is_kw_followed_by_ident(kw::Async)
592 {
593 self.bump();
594 self.dcx().emit_err(errors::AsyncImpl { span: self.prev_token.span });
595 }
596
597 let polarity = self.parse_polarity();
598
599 let ty_first = if self.token.is_keyword(kw::For) && self.look_ahead(1, |t| t != &token::Lt)
601 {
602 let span = self.prev_token.span.between(self.token.span);
603 return Err(self.dcx().create_err(errors::MissingTraitInTraitImpl {
604 span,
605 for_span: span.to(self.token.span),
606 }));
607 } else {
608 self.parse_ty_with_generics_recovery(&generics)?
609 };
610
611 let has_for = self.eat_keyword(exp!(For));
613 let missing_for_span = self.prev_token.span.between(self.token.span);
614
615 let ty_second = if self.token == token::DotDot {
616 self.bump(); Some(self.mk_ty(self.prev_token.span, TyKind::Dummy))
623 } else if has_for || self.token.can_begin_type() {
624 Some(self.parse_ty()?)
625 } else {
626 None
627 };
628
629 generics.where_clause = self.parse_where_clause()?;
630
631 let impl_items = self.parse_item_list(attrs, |p| p.parse_impl_item(ForceCollect::No))?;
632
633 let (of_trait, self_ty) = match ty_second {
634 Some(ty_second) => {
635 if !has_for {
637 self.dcx().emit_err(errors::MissingForInTraitImpl { span: missing_for_span });
638 }
639
640 let ty_first = *ty_first;
641 let path = match ty_first.kind {
642 TyKind::Path(None, path) => path,
644 other => {
645 if let TyKind::ImplTrait(_, bounds) = other
646 && let [bound] = bounds.as_slice()
647 && let GenericBound::Trait(poly_trait_ref) = bound
648 {
649 let extra_impl_kw = ty_first.span.until(bound.span());
653 self.dcx().emit_err(errors::ExtraImplKeywordInTraitImpl {
654 extra_impl_kw,
655 impl_trait_span: ty_first.span,
656 });
657 poly_trait_ref.trait_ref.path.clone()
658 } else {
659 return Err(self.dcx().create_err(
660 errors::ExpectedTraitInTraitImplFoundType { span: ty_first.span },
661 ));
662 }
663 }
664 };
665 let trait_ref = TraitRef { path, ref_id: ty_first.id };
666
667 (Some(trait_ref), ty_second)
668 }
669 None => (None, ty_first), };
671 Ok(ItemKind::Impl(Box::new(Impl {
672 safety,
673 polarity,
674 defaultness,
675 constness,
676 generics,
677 of_trait,
678 self_ty,
679 items: impl_items,
680 })))
681 }
682
683 fn parse_item_delegation(&mut self) -> PResult<'a, ItemKind> {
684 let span = self.token.span;
685 self.expect_keyword(exp!(Reuse))?;
686
687 let (qself, path) = if self.eat_lt() {
688 let (qself, path) = self.parse_qpath(PathStyle::Expr)?;
689 (Some(qself), path)
690 } else {
691 (None, self.parse_path(PathStyle::Expr)?)
692 };
693
694 let rename = |this: &mut Self| {
695 Ok(if this.eat_keyword(exp!(As)) { Some(this.parse_ident()?) } else { None })
696 };
697 let body = |this: &mut Self| {
698 Ok(if this.check(exp!(OpenBrace)) {
699 Some(this.parse_block()?)
700 } else {
701 this.expect(exp!(Semi))?;
702 None
703 })
704 };
705
706 let item_kind = if self.eat_path_sep() {
707 let suffixes = if self.eat(exp!(Star)) {
708 None
709 } else {
710 let parse_suffix = |p: &mut Self| Ok((p.parse_path_segment_ident()?, rename(p)?));
711 Some(self.parse_delim_comma_seq(exp!(OpenBrace), exp!(CloseBrace), parse_suffix)?.0)
712 };
713 let deleg = DelegationMac { qself, prefix: path, suffixes, body: body(self)? };
714 ItemKind::DelegationMac(Box::new(deleg))
715 } else {
716 let rename = rename(self)?;
717 let ident = rename.unwrap_or_else(|| path.segments.last().unwrap().ident);
718 let deleg = Delegation {
719 id: DUMMY_NODE_ID,
720 qself,
721 path,
722 ident,
723 rename,
724 body: body(self)?,
725 from_glob: false,
726 };
727 ItemKind::Delegation(Box::new(deleg))
728 };
729
730 let span = span.to(self.prev_token.span);
731 self.psess.gated_spans.gate(sym::fn_delegation, span);
732
733 Ok(item_kind)
734 }
735
736 fn parse_item_list<T>(
737 &mut self,
738 attrs: &mut AttrVec,
739 mut parse_item: impl FnMut(&mut Parser<'a>) -> PResult<'a, Option<Option<T>>>,
740 ) -> PResult<'a, ThinVec<T>> {
741 let open_brace_span = self.token.span;
742
743 if self.token == TokenKind::Semi {
745 self.dcx().emit_err(errors::UseEmptyBlockNotSemi { span: self.token.span });
746 self.bump();
747 return Ok(ThinVec::new());
748 }
749
750 self.expect(exp!(OpenBrace))?;
751 attrs.extend(self.parse_inner_attributes()?);
752
753 let mut items = ThinVec::new();
754 while !self.eat(exp!(CloseBrace)) {
755 if self.recover_doc_comment_before_brace() {
756 continue;
757 }
758 self.recover_vcs_conflict_marker();
759 match parse_item(self) {
760 Ok(None) => {
761 let mut is_unnecessary_semicolon = !items.is_empty()
762 && self
780 .span_to_snippet(self.prev_token.span)
781 .is_ok_and(|snippet| snippet == "}")
782 && self.token == token::Semi;
783 let mut semicolon_span = self.token.span;
784 if !is_unnecessary_semicolon {
785 is_unnecessary_semicolon =
787 self.token == token::OpenBrace && self.prev_token == token::Semi;
788 semicolon_span = self.prev_token.span;
789 }
790 let non_item_span = self.token.span;
792 let is_let = self.token.is_keyword(kw::Let);
793
794 let mut err =
795 self.dcx().struct_span_err(non_item_span, "non-item in item list");
796 self.consume_block(exp!(OpenBrace), exp!(CloseBrace), ConsumeClosingDelim::Yes);
797 if is_let {
798 err.span_suggestion_verbose(
799 non_item_span,
800 "consider using `const` instead of `let` for associated const",
801 "const",
802 Applicability::MachineApplicable,
803 );
804 } else {
805 err.span_label(open_brace_span, "item list starts here")
806 .span_label(non_item_span, "non-item starts here")
807 .span_label(self.prev_token.span, "item list ends here");
808 }
809 if is_unnecessary_semicolon {
810 err.span_suggestion(
811 semicolon_span,
812 "consider removing this semicolon",
813 "",
814 Applicability::MaybeIncorrect,
815 );
816 }
817 err.emit();
818 break;
819 }
820 Ok(Some(item)) => items.extend(item),
821 Err(err) => {
822 self.consume_block(exp!(OpenBrace), exp!(CloseBrace), ConsumeClosingDelim::Yes);
823 err.with_span_label(
824 open_brace_span,
825 "while parsing this item list starting here",
826 )
827 .with_span_label(self.prev_token.span, "the item list ends here")
828 .emit();
829 break;
830 }
831 }
832 }
833 Ok(items)
834 }
835
836 fn recover_doc_comment_before_brace(&mut self) -> bool {
838 if let token::DocComment(..) = self.token.kind {
839 if self.look_ahead(1, |tok| tok == &token::CloseBrace) {
840 struct_span_code_err!(
842 self.dcx(),
843 self.token.span,
844 E0584,
845 "found a documentation comment that doesn't document anything",
846 )
847 .with_span_label(self.token.span, "this doc comment doesn't document anything")
848 .with_help(
849 "doc comments must come before what they document, if a comment was \
850 intended use `//`",
851 )
852 .emit();
853 self.bump();
854 return true;
855 }
856 }
857 false
858 }
859
860 fn parse_defaultness(&mut self) -> Defaultness {
862 if self.check_keyword(exp!(Default))
866 && self.look_ahead(1, |t| t.is_non_raw_ident_where(|i| i.name != kw::As))
867 {
868 self.bump(); Defaultness::Default(self.prev_token_uninterpolated_span())
870 } else {
871 Defaultness::Final
872 }
873 }
874
875 fn check_auto_or_unsafe_trait_item(&mut self) -> bool {
877 self.check_keyword(exp!(Auto)) && self.is_keyword_ahead(1, &[kw::Trait])
879 || self.check_keyword(exp!(Unsafe)) && self.is_keyword_ahead(1, &[kw::Trait, kw::Auto])
881 }
882
883 fn parse_item_trait(&mut self, attrs: &mut AttrVec, lo: Span) -> PResult<'a, ItemKind> {
885 let safety = self.parse_safety(Case::Sensitive);
886 let is_auto = if self.eat_keyword(exp!(Auto)) {
888 self.psess.gated_spans.gate(sym::auto_traits, self.prev_token.span);
889 IsAuto::Yes
890 } else {
891 IsAuto::No
892 };
893
894 self.expect_keyword(exp!(Trait))?;
895 let ident = self.parse_ident()?;
896 let mut generics = self.parse_generics()?;
897
898 let had_colon = self.eat(exp!(Colon));
900 let span_at_colon = self.prev_token.span;
901 let bounds = if had_colon { self.parse_generic_bounds()? } else { Vec::new() };
902
903 let span_before_eq = self.prev_token.span;
904 if self.eat(exp!(Eq)) {
905 if had_colon {
907 let span = span_at_colon.to(span_before_eq);
908 self.dcx().emit_err(errors::BoundsNotAllowedOnTraitAliases { span });
909 }
910
911 let bounds = self.parse_generic_bounds()?;
912 generics.where_clause = self.parse_where_clause()?;
913 self.expect_semi()?;
914
915 let whole_span = lo.to(self.prev_token.span);
916 if is_auto == IsAuto::Yes {
917 self.dcx().emit_err(errors::TraitAliasCannotBeAuto { span: whole_span });
918 }
919 if let Safety::Unsafe(_) = safety {
920 self.dcx().emit_err(errors::TraitAliasCannotBeUnsafe { span: whole_span });
921 }
922
923 self.psess.gated_spans.gate(sym::trait_alias, whole_span);
924
925 Ok(ItemKind::TraitAlias(ident, generics, bounds))
926 } else {
927 generics.where_clause = self.parse_where_clause()?;
929 let items = self.parse_item_list(attrs, |p| p.parse_trait_item(ForceCollect::No))?;
930 Ok(ItemKind::Trait(Box::new(Trait { is_auto, safety, ident, generics, bounds, items })))
931 }
932 }
933
934 pub fn parse_impl_item(
935 &mut self,
936 force_collect: ForceCollect,
937 ) -> PResult<'a, Option<Option<P<AssocItem>>>> {
938 let fn_parse_mode = FnParseMode { req_name: |_| true, req_body: true };
939 self.parse_assoc_item(fn_parse_mode, force_collect)
940 }
941
942 pub fn parse_trait_item(
943 &mut self,
944 force_collect: ForceCollect,
945 ) -> PResult<'a, Option<Option<P<AssocItem>>>> {
946 let fn_parse_mode =
947 FnParseMode { req_name: |edition| edition >= Edition::Edition2018, req_body: false };
948 self.parse_assoc_item(fn_parse_mode, force_collect)
949 }
950
951 fn parse_assoc_item(
953 &mut self,
954 fn_parse_mode: FnParseMode,
955 force_collect: ForceCollect,
956 ) -> PResult<'a, Option<Option<P<AssocItem>>>> {
957 Ok(self.parse_item_(fn_parse_mode, force_collect)?.map(
958 |Item { attrs, id, span, vis, kind, tokens }| {
959 let kind = match AssocItemKind::try_from(kind) {
960 Ok(kind) => kind,
961 Err(kind) => match kind {
962 ItemKind::Static(box StaticItem {
963 ident,
964 ty,
965 safety: _,
966 mutability: _,
967 expr,
968 define_opaque,
969 }) => {
970 self.dcx().emit_err(errors::AssociatedStaticItemNotAllowed { span });
971 AssocItemKind::Const(Box::new(ConstItem {
972 defaultness: Defaultness::Final,
973 ident,
974 generics: Generics::default(),
975 ty,
976 expr,
977 define_opaque,
978 }))
979 }
980 _ => return self.error_bad_item_kind(span, &kind, "`trait`s or `impl`s"),
981 },
982 };
983 Some(P(Item { attrs, id, span, vis, kind, tokens }))
984 },
985 ))
986 }
987
988 fn parse_type_alias(&mut self, defaultness: Defaultness) -> PResult<'a, ItemKind> {
994 let ident = self.parse_ident()?;
995 let mut generics = self.parse_generics()?;
996
997 let bounds = if self.eat(exp!(Colon)) { self.parse_generic_bounds()? } else { Vec::new() };
999 let before_where_clause = self.parse_where_clause()?;
1000
1001 let ty = if self.eat(exp!(Eq)) { Some(self.parse_ty()?) } else { None };
1002
1003 let after_where_clause = self.parse_where_clause()?;
1004
1005 let where_clauses = TyAliasWhereClauses {
1006 before: TyAliasWhereClause {
1007 has_where_token: before_where_clause.has_where_token,
1008 span: before_where_clause.span,
1009 },
1010 after: TyAliasWhereClause {
1011 has_where_token: after_where_clause.has_where_token,
1012 span: after_where_clause.span,
1013 },
1014 split: before_where_clause.predicates.len(),
1015 };
1016 let mut predicates = before_where_clause.predicates;
1017 predicates.extend(after_where_clause.predicates);
1018 let where_clause = WhereClause {
1019 has_where_token: before_where_clause.has_where_token
1020 || after_where_clause.has_where_token,
1021 predicates,
1022 span: DUMMY_SP,
1023 };
1024 generics.where_clause = where_clause;
1025
1026 self.expect_semi()?;
1027
1028 Ok(ItemKind::TyAlias(Box::new(TyAlias {
1029 defaultness,
1030 ident,
1031 generics,
1032 where_clauses,
1033 bounds,
1034 ty,
1035 })))
1036 }
1037
1038 fn parse_use_tree(&mut self) -> PResult<'a, UseTree> {
1048 let lo = self.token.span;
1049
1050 let mut prefix =
1051 ast::Path { segments: ThinVec::new(), span: lo.shrink_to_lo(), tokens: None };
1052 let kind =
1053 if self.check(exp!(OpenBrace)) || self.check(exp!(Star)) || self.is_import_coupler() {
1054 let mod_sep_ctxt = self.token.span.ctxt();
1056 if self.eat_path_sep() {
1057 prefix
1058 .segments
1059 .push(PathSegment::path_root(lo.shrink_to_lo().with_ctxt(mod_sep_ctxt)));
1060 }
1061
1062 self.parse_use_tree_glob_or_nested()?
1063 } else {
1064 prefix = self.parse_path(PathStyle::Mod)?;
1066
1067 if self.eat_path_sep() {
1068 self.parse_use_tree_glob_or_nested()?
1069 } else {
1070 while self.eat_noexpect(&token::Colon) {
1072 self.dcx()
1073 .emit_err(errors::SingleColonImportPath { span: self.prev_token.span });
1074
1075 self.parse_path_segments(&mut prefix.segments, PathStyle::Mod, None)?;
1077 prefix.span = lo.to(self.prev_token.span);
1078 }
1079
1080 UseTreeKind::Simple(self.parse_rename()?)
1081 }
1082 };
1083
1084 Ok(UseTree { prefix, kind, span: lo.to(self.prev_token.span) })
1085 }
1086
1087 fn parse_use_tree_glob_or_nested(&mut self) -> PResult<'a, UseTreeKind> {
1089 Ok(if self.eat(exp!(Star)) {
1090 UseTreeKind::Glob
1091 } else {
1092 let lo = self.token.span;
1093 UseTreeKind::Nested {
1094 items: self.parse_use_tree_list()?,
1095 span: lo.to(self.prev_token.span),
1096 }
1097 })
1098 }
1099
1100 fn parse_use_tree_list(&mut self) -> PResult<'a, ThinVec<(UseTree, ast::NodeId)>> {
1106 self.parse_delim_comma_seq(exp!(OpenBrace), exp!(CloseBrace), |p| {
1107 p.recover_vcs_conflict_marker();
1108 Ok((p.parse_use_tree()?, DUMMY_NODE_ID))
1109 })
1110 .map(|(r, _)| r)
1111 }
1112
1113 fn parse_rename(&mut self) -> PResult<'a, Option<Ident>> {
1114 if self.eat_keyword(exp!(As)) {
1115 self.parse_ident_or_underscore().map(Some)
1116 } else {
1117 Ok(None)
1118 }
1119 }
1120
1121 fn parse_ident_or_underscore(&mut self) -> PResult<'a, Ident> {
1122 match self.token.ident() {
1123 Some((ident @ Ident { name: kw::Underscore, .. }, IdentIsRaw::No)) => {
1124 self.bump();
1125 Ok(ident)
1126 }
1127 _ => self.parse_ident(),
1128 }
1129 }
1130
1131 fn parse_item_extern_crate(&mut self) -> PResult<'a, ItemKind> {
1140 let orig_ident = self.parse_crate_name_with_dashes()?;
1142 let (orig_name, item_ident) = if let Some(rename) = self.parse_rename()? {
1143 (Some(orig_ident.name), rename)
1144 } else {
1145 (None, orig_ident)
1146 };
1147 self.expect_semi()?;
1148 Ok(ItemKind::ExternCrate(orig_name, item_ident))
1149 }
1150
1151 fn parse_crate_name_with_dashes(&mut self) -> PResult<'a, Ident> {
1152 let ident = if self.token.is_keyword(kw::SelfLower) {
1153 self.parse_path_segment_ident()
1154 } else {
1155 self.parse_ident()
1156 }?;
1157
1158 let dash = exp!(Minus);
1159 if self.token != *dash.tok {
1160 return Ok(ident);
1161 }
1162
1163 let mut dashes = vec![];
1165 let mut idents = vec![];
1166 while self.eat(dash) {
1167 dashes.push(self.prev_token.span);
1168 idents.push(self.parse_ident()?);
1169 }
1170
1171 let fixed_name_sp = ident.span.to(idents.last().unwrap().span);
1172 let mut fixed_name = ident.name.to_string();
1173 for part in idents {
1174 write!(fixed_name, "_{}", part.name).unwrap();
1175 }
1176
1177 self.dcx().emit_err(errors::ExternCrateNameWithDashes {
1178 span: fixed_name_sp,
1179 sugg: errors::ExternCrateNameWithDashesSugg { dashes },
1180 });
1181
1182 Ok(Ident::from_str_and_span(&fixed_name, fixed_name_sp))
1183 }
1184
1185 fn parse_item_foreign_mod(
1196 &mut self,
1197 attrs: &mut AttrVec,
1198 mut safety: Safety,
1199 ) -> PResult<'a, ItemKind> {
1200 let extern_span = self.prev_token_uninterpolated_span();
1201 let abi = self.parse_abi(); if safety == Safety::Default
1204 && self.token.is_keyword(kw::Unsafe)
1205 && self.look_ahead(1, |t| *t == token::OpenBrace)
1206 {
1207 self.expect(exp!(OpenBrace)).unwrap_err().emit();
1208 safety = Safety::Unsafe(self.token.span);
1209 let _ = self.eat_keyword(exp!(Unsafe));
1210 }
1211 Ok(ItemKind::ForeignMod(ast::ForeignMod {
1212 extern_span,
1213 safety,
1214 abi,
1215 items: self.parse_item_list(attrs, |p| p.parse_foreign_item(ForceCollect::No))?,
1216 }))
1217 }
1218
1219 pub fn parse_foreign_item(
1221 &mut self,
1222 force_collect: ForceCollect,
1223 ) -> PResult<'a, Option<Option<P<ForeignItem>>>> {
1224 let fn_parse_mode = FnParseMode { req_name: |_| true, req_body: false };
1225 Ok(self.parse_item_(fn_parse_mode, force_collect)?.map(
1226 |Item { attrs, id, span, vis, kind, tokens }| {
1227 let kind = match ForeignItemKind::try_from(kind) {
1228 Ok(kind) => kind,
1229 Err(kind) => match kind {
1230 ItemKind::Const(box ConstItem { ident, ty, expr, .. }) => {
1231 let const_span = Some(span.with_hi(ident.span.lo()))
1232 .filter(|span| span.can_be_used_for_suggestions());
1233 self.dcx().emit_err(errors::ExternItemCannotBeConst {
1234 ident_span: ident.span,
1235 const_span,
1236 });
1237 ForeignItemKind::Static(Box::new(StaticItem {
1238 ident,
1239 ty,
1240 mutability: Mutability::Not,
1241 expr,
1242 safety: Safety::Default,
1243 define_opaque: None,
1244 }))
1245 }
1246 _ => return self.error_bad_item_kind(span, &kind, "`extern` blocks"),
1247 },
1248 };
1249 Some(P(Item { attrs, id, span, vis, kind, tokens }))
1250 },
1251 ))
1252 }
1253
1254 fn error_bad_item_kind<T>(&self, span: Span, kind: &ItemKind, ctx: &'static str) -> Option<T> {
1255 let span = self.psess.source_map().guess_head_span(span);
1257 let descr = kind.descr();
1258 let help = match kind {
1259 ItemKind::DelegationMac(deleg) if deleg.suffixes.is_none() => false,
1260 _ => true,
1261 };
1262 self.dcx().emit_err(errors::BadItemKind { span, descr, ctx, help });
1263 None
1264 }
1265
1266 fn is_use_closure(&self) -> bool {
1267 if self.token.is_keyword(kw::Use) {
1268 self.look_ahead(1, |token| {
1270 let dist =
1272 if token.is_keyword(kw::Move) || token.is_keyword(kw::Async) { 2 } else { 1 };
1273
1274 self.look_ahead(dist, |token| matches!(token.kind, token::Or | token::OrOr))
1275 })
1276 } else {
1277 false
1278 }
1279 }
1280
1281 fn is_unsafe_foreign_mod(&self) -> bool {
1282 if !self.token.is_keyword(kw::Unsafe) {
1284 return false;
1285 }
1286 if !self.is_keyword_ahead(1, &[kw::Extern]) {
1288 return false;
1289 }
1290
1291 let n = if self.look_ahead(2, |t| t.can_begin_string_literal()) { 3 } else { 2 };
1293
1294 self.tree_look_ahead(n, |t| matches!(t, TokenTree::Delimited(_, _, Delimiter::Brace, _)))
1299 == Some(true)
1300 }
1301
1302 fn is_static_global(&mut self) -> bool {
1303 if self.check_keyword(exp!(Static)) {
1304 !self.look_ahead(1, |token| {
1306 if token.is_keyword(kw::Move) || token.is_keyword(kw::Use) {
1307 return true;
1308 }
1309 matches!(token.kind, token::Or | token::OrOr)
1310 })
1311 } else {
1312 (self.check_keyword(exp!(Unsafe)) || self.check_keyword(exp!(Safe)))
1314 && self.look_ahead(1, |t| t.is_keyword(kw::Static))
1315 }
1316 }
1317
1318 fn recover_const_mut(&mut self, const_span: Span) {
1320 if self.eat_keyword(exp!(Mut)) {
1321 let span = self.prev_token.span;
1322 self.dcx()
1323 .emit_err(errors::ConstGlobalCannotBeMutable { ident_span: span, const_span });
1324 } else if self.eat_keyword(exp!(Let)) {
1325 let span = self.prev_token.span;
1326 self.dcx().emit_err(errors::ConstLetMutuallyExclusive { span: const_span.to(span) });
1327 }
1328 }
1329
1330 fn recover_const_impl(
1332 &mut self,
1333 const_span: Span,
1334 attrs: &mut AttrVec,
1335 defaultness: Defaultness,
1336 ) -> PResult<'a, ItemKind> {
1337 let impl_span = self.token.span;
1338 let err = self.expected_ident_found_err();
1339
1340 let mut item_kind = match self.parse_item_impl(attrs, defaultness) {
1342 Ok(item_kind) => item_kind,
1343 Err(recovery_error) => {
1344 recovery_error.cancel();
1346 return Err(err);
1347 }
1348 };
1349
1350 match &mut item_kind {
1351 ItemKind::Impl(box Impl { of_trait: Some(trai), constness, .. }) => {
1352 *constness = Const::Yes(const_span);
1353
1354 let before_trait = trai.path.span.shrink_to_lo();
1355 let const_up_to_impl = const_span.with_hi(impl_span.lo());
1356 err.with_multipart_suggestion(
1357 "you might have meant to write a const trait impl",
1358 vec![(const_up_to_impl, "".to_owned()), (before_trait, "const ".to_owned())],
1359 Applicability::MaybeIncorrect,
1360 )
1361 .emit();
1362 }
1363 ItemKind::Impl { .. } => return Err(err),
1364 _ => unreachable!(),
1365 }
1366
1367 Ok(item_kind)
1368 }
1369
1370 fn parse_static_item(
1377 &mut self,
1378 safety: Safety,
1379 mutability: Mutability,
1380 ) -> PResult<'a, ItemKind> {
1381 let ident = self.parse_ident()?;
1382
1383 if self.token == TokenKind::Lt && self.may_recover() {
1384 let generics = self.parse_generics()?;
1385 self.dcx().emit_err(errors::StaticWithGenerics { span: generics.span });
1386 }
1387
1388 let ty = match (self.eat(exp!(Colon)), self.check(exp!(Eq)) | self.check(exp!(Semi))) {
1391 (true, false) => self.parse_ty()?,
1392 (colon, _) => self.recover_missing_global_item_type(colon, Some(mutability)),
1395 };
1396
1397 let expr = if self.eat(exp!(Eq)) { Some(self.parse_expr()?) } else { None };
1398
1399 self.expect_semi()?;
1400
1401 let item = StaticItem { ident, ty, safety, mutability, expr, define_opaque: None };
1402 Ok(ItemKind::Static(Box::new(item)))
1403 }
1404
1405 fn parse_const_item(&mut self) -> PResult<'a, (Ident, Generics, P<Ty>, Option<P<ast::Expr>>)> {
1411 let ident = self.parse_ident_or_underscore()?;
1412
1413 let mut generics = self.parse_generics()?;
1414
1415 if !generics.span.is_empty() {
1418 self.psess.gated_spans.gate(sym::generic_const_items, generics.span);
1419 }
1420
1421 let ty = match (
1424 self.eat(exp!(Colon)),
1425 self.check(exp!(Eq)) | self.check(exp!(Semi)) | self.check_keyword(exp!(Where)),
1426 ) {
1427 (true, false) => self.parse_ty()?,
1428 (colon, _) => self.recover_missing_global_item_type(colon, None),
1430 };
1431
1432 let before_where_clause =
1435 if self.may_recover() { self.parse_where_clause()? } else { WhereClause::default() };
1436
1437 let expr = if self.eat(exp!(Eq)) { Some(self.parse_expr()?) } else { None };
1438
1439 let after_where_clause = self.parse_where_clause()?;
1440
1441 if before_where_clause.has_where_token
1445 && let Some(expr) = &expr
1446 {
1447 self.dcx().emit_err(errors::WhereClauseBeforeConstBody {
1448 span: before_where_clause.span,
1449 name: ident.span,
1450 body: expr.span,
1451 sugg: if !after_where_clause.has_where_token {
1452 self.psess.source_map().span_to_snippet(expr.span).ok().map(|body| {
1453 errors::WhereClauseBeforeConstBodySugg {
1454 left: before_where_clause.span.shrink_to_lo(),
1455 snippet: body,
1456 right: before_where_clause.span.shrink_to_hi().to(expr.span),
1457 }
1458 })
1459 } else {
1460 None
1463 },
1464 });
1465 }
1466
1467 let mut predicates = before_where_clause.predicates;
1474 predicates.extend(after_where_clause.predicates);
1475 let where_clause = WhereClause {
1476 has_where_token: before_where_clause.has_where_token
1477 || after_where_clause.has_where_token,
1478 predicates,
1479 span: if after_where_clause.has_where_token {
1480 after_where_clause.span
1481 } else {
1482 before_where_clause.span
1483 },
1484 };
1485
1486 if where_clause.has_where_token {
1487 self.psess.gated_spans.gate(sym::generic_const_items, where_clause.span);
1488 }
1489
1490 generics.where_clause = where_clause;
1491
1492 self.expect_semi()?;
1493
1494 Ok((ident, generics, ty, expr))
1495 }
1496
1497 fn recover_missing_global_item_type(
1500 &mut self,
1501 colon_present: bool,
1502 m: Option<Mutability>,
1503 ) -> P<Ty> {
1504 let kind = match m {
1507 Some(Mutability::Mut) => "static mut",
1508 Some(Mutability::Not) => "static",
1509 None => "const",
1510 };
1511
1512 let colon = match colon_present {
1513 true => "",
1514 false => ":",
1515 };
1516
1517 let span = self.prev_token.span.shrink_to_hi();
1518 let err = self.dcx().create_err(errors::MissingConstType { span, colon, kind });
1519 err.stash(span, StashKey::ItemNoType);
1520
1521 P(Ty { kind: TyKind::Infer, span, id: ast::DUMMY_NODE_ID, tokens: None })
1524 }
1525
1526 fn parse_item_enum(&mut self) -> PResult<'a, ItemKind> {
1528 if self.token.is_keyword(kw::Struct) {
1529 let span = self.prev_token.span.to(self.token.span);
1530 let err = errors::EnumStructMutuallyExclusive { span };
1531 if self.look_ahead(1, |t| t.is_ident()) {
1532 self.bump();
1533 self.dcx().emit_err(err);
1534 } else {
1535 return Err(self.dcx().create_err(err));
1536 }
1537 }
1538
1539 let prev_span = self.prev_token.span;
1540 let ident = self.parse_ident()?;
1541 let mut generics = self.parse_generics()?;
1542 generics.where_clause = self.parse_where_clause()?;
1543
1544 let (variants, _) = if self.token == TokenKind::Semi {
1546 self.dcx().emit_err(errors::UseEmptyBlockNotSemi { span: self.token.span });
1547 self.bump();
1548 (thin_vec![], Trailing::No)
1549 } else {
1550 self.parse_delim_comma_seq(exp!(OpenBrace), exp!(CloseBrace), |p| {
1551 p.parse_enum_variant(ident.span)
1552 })
1553 .map_err(|mut err| {
1554 err.span_label(ident.span, "while parsing this enum");
1555 if self.token == token::Colon {
1556 let snapshot = self.create_snapshot_for_diagnostic();
1557 self.bump();
1558 match self.parse_ty() {
1559 Ok(_) => {
1560 err.span_suggestion_verbose(
1561 prev_span,
1562 "perhaps you meant to use `struct` here",
1563 "struct",
1564 Applicability::MaybeIncorrect,
1565 );
1566 }
1567 Err(e) => {
1568 e.cancel();
1569 }
1570 }
1571 self.restore_snapshot(snapshot);
1572 }
1573 self.eat_to_tokens(&[exp!(CloseBrace)]);
1574 self.bump(); err
1576 })?
1577 };
1578
1579 let enum_definition = EnumDef { variants: variants.into_iter().flatten().collect() };
1580 Ok(ItemKind::Enum(ident, generics, enum_definition))
1581 }
1582
1583 fn parse_enum_variant(&mut self, span: Span) -> PResult<'a, Option<Variant>> {
1584 self.recover_vcs_conflict_marker();
1585 let variant_attrs = self.parse_outer_attributes()?;
1586 self.recover_vcs_conflict_marker();
1587 let help = "enum variants can be `Variant`, `Variant = <integer>`, \
1588 `Variant(Type, ..., TypeN)` or `Variant { fields: Types }`";
1589 self.collect_tokens(None, variant_attrs, ForceCollect::No, |this, variant_attrs| {
1590 let vlo = this.token.span;
1591
1592 let vis = this.parse_visibility(FollowedByType::No)?;
1593 if !this.recover_nested_adt_item(kw::Enum)? {
1594 return Ok((None, Trailing::No, UsePreAttrPos::No));
1595 }
1596 let ident = this.parse_field_ident("enum", vlo)?;
1597
1598 if this.token == token::Bang {
1599 if let Err(err) = this.unexpected() {
1600 err.with_note(fluent::parse_macro_expands_to_enum_variant).emit();
1601 }
1602
1603 this.bump();
1604 this.parse_delim_args()?;
1605
1606 return Ok((None, Trailing::from(this.token == token::Comma), UsePreAttrPos::No));
1607 }
1608
1609 let struct_def = if this.check(exp!(OpenBrace)) {
1610 let (fields, recovered) =
1612 match this.parse_record_struct_body("struct", ident.span, false) {
1613 Ok((fields, recovered)) => (fields, recovered),
1614 Err(mut err) => {
1615 if this.token == token::Colon {
1616 return Err(err);
1618 }
1619 this.eat_to_tokens(&[exp!(CloseBrace)]);
1620 this.bump(); err.span_label(span, "while parsing this enum");
1622 err.help(help);
1623 let guar = err.emit();
1624 (thin_vec![], Recovered::Yes(guar))
1625 }
1626 };
1627 VariantData::Struct { fields, recovered }
1628 } else if this.check(exp!(OpenParen)) {
1629 let body = match this.parse_tuple_struct_body() {
1630 Ok(body) => body,
1631 Err(mut err) => {
1632 if this.token == token::Colon {
1633 return Err(err);
1635 }
1636 this.eat_to_tokens(&[exp!(CloseParen)]);
1637 this.bump(); err.span_label(span, "while parsing this enum");
1639 err.help(help);
1640 err.emit();
1641 thin_vec![]
1642 }
1643 };
1644 VariantData::Tuple(body, DUMMY_NODE_ID)
1645 } else {
1646 VariantData::Unit(DUMMY_NODE_ID)
1647 };
1648
1649 let disr_expr =
1650 if this.eat(exp!(Eq)) { Some(this.parse_expr_anon_const()?) } else { None };
1651
1652 let vr = ast::Variant {
1653 ident,
1654 vis,
1655 id: DUMMY_NODE_ID,
1656 attrs: variant_attrs,
1657 data: struct_def,
1658 disr_expr,
1659 span: vlo.to(this.prev_token.span),
1660 is_placeholder: false,
1661 };
1662
1663 Ok((Some(vr), Trailing::from(this.token == token::Comma), UsePreAttrPos::No))
1664 })
1665 .map_err(|mut err| {
1666 err.help(help);
1667 err
1668 })
1669 }
1670
1671 fn parse_item_struct(&mut self) -> PResult<'a, ItemKind> {
1673 let ident = self.parse_ident()?;
1674
1675 let mut generics = self.parse_generics()?;
1676
1677 let vdata = if self.token.is_keyword(kw::Where) {
1692 let tuple_struct_body;
1693 (generics.where_clause, tuple_struct_body) =
1694 self.parse_struct_where_clause(ident, generics.span)?;
1695
1696 if let Some(body) = tuple_struct_body {
1697 let body = VariantData::Tuple(body, DUMMY_NODE_ID);
1699 self.expect_semi()?;
1700 body
1701 } else if self.eat(exp!(Semi)) {
1702 VariantData::Unit(DUMMY_NODE_ID)
1704 } else {
1705 let (fields, recovered) = self.parse_record_struct_body(
1707 "struct",
1708 ident.span,
1709 generics.where_clause.has_where_token,
1710 )?;
1711 VariantData::Struct { fields, recovered }
1712 }
1713 } else if self.eat(exp!(Semi)) {
1715 VariantData::Unit(DUMMY_NODE_ID)
1716 } else if self.token == token::OpenBrace {
1718 let (fields, recovered) = self.parse_record_struct_body(
1719 "struct",
1720 ident.span,
1721 generics.where_clause.has_where_token,
1722 )?;
1723 VariantData::Struct { fields, recovered }
1724 } else if self.token == token::OpenParen {
1726 let body = VariantData::Tuple(self.parse_tuple_struct_body()?, DUMMY_NODE_ID);
1727 generics.where_clause = self.parse_where_clause()?;
1728 self.expect_semi()?;
1729 body
1730 } else {
1731 let err = errors::UnexpectedTokenAfterStructName::new(self.token.span, self.token);
1732 return Err(self.dcx().create_err(err));
1733 };
1734
1735 Ok(ItemKind::Struct(ident, generics, vdata))
1736 }
1737
1738 fn parse_item_union(&mut self) -> PResult<'a, ItemKind> {
1740 let ident = self.parse_ident()?;
1741
1742 let mut generics = self.parse_generics()?;
1743
1744 let vdata = if self.token.is_keyword(kw::Where) {
1745 generics.where_clause = self.parse_where_clause()?;
1746 let (fields, recovered) = self.parse_record_struct_body(
1747 "union",
1748 ident.span,
1749 generics.where_clause.has_where_token,
1750 )?;
1751 VariantData::Struct { fields, recovered }
1752 } else if self.token == token::OpenBrace {
1753 let (fields, recovered) = self.parse_record_struct_body(
1754 "union",
1755 ident.span,
1756 generics.where_clause.has_where_token,
1757 )?;
1758 VariantData::Struct { fields, recovered }
1759 } else {
1760 let token_str = super::token_descr(&self.token);
1761 let msg = format!("expected `where` or `{{` after union name, found {token_str}");
1762 let mut err = self.dcx().struct_span_err(self.token.span, msg);
1763 err.span_label(self.token.span, "expected `where` or `{` after union name");
1764 return Err(err);
1765 };
1766
1767 Ok(ItemKind::Union(ident, generics, vdata))
1768 }
1769
1770 pub(crate) fn parse_record_struct_body(
1775 &mut self,
1776 adt_ty: &str,
1777 ident_span: Span,
1778 parsed_where: bool,
1779 ) -> PResult<'a, (ThinVec<FieldDef>, Recovered)> {
1780 let mut fields = ThinVec::new();
1781 let mut recovered = Recovered::No;
1782 if self.eat(exp!(OpenBrace)) {
1783 while self.token != token::CloseBrace {
1784 match self.parse_field_def(adt_ty, ident_span) {
1785 Ok(field) => {
1786 fields.push(field);
1787 }
1788 Err(mut err) => {
1789 self.consume_block(
1790 exp!(OpenBrace),
1791 exp!(CloseBrace),
1792 ConsumeClosingDelim::No,
1793 );
1794 err.span_label(ident_span, format!("while parsing this {adt_ty}"));
1795 let guar = err.emit();
1796 recovered = Recovered::Yes(guar);
1797 break;
1798 }
1799 }
1800 }
1801 self.expect(exp!(CloseBrace))?;
1802 } else {
1803 let token_str = super::token_descr(&self.token);
1804 let where_str = if parsed_where { "" } else { "`where`, or " };
1805 let msg = format!("expected {where_str}`{{` after struct name, found {token_str}");
1806 let mut err = self.dcx().struct_span_err(self.token.span, msg);
1807 err.span_label(self.token.span, format!("expected {where_str}`{{` after struct name",));
1808 return Err(err);
1809 }
1810
1811 Ok((fields, recovered))
1812 }
1813
1814 fn parse_unsafe_field(&mut self) -> Safety {
1815 if self.eat_keyword(exp!(Unsafe)) {
1817 let span = self.prev_token.span;
1818 self.psess.gated_spans.gate(sym::unsafe_fields, span);
1819 Safety::Unsafe(span)
1820 } else {
1821 Safety::Default
1822 }
1823 }
1824
1825 pub(super) fn parse_tuple_struct_body(&mut self) -> PResult<'a, ThinVec<FieldDef>> {
1826 self.parse_paren_comma_seq(|p| {
1829 let attrs = p.parse_outer_attributes()?;
1830 p.collect_tokens(None, attrs, ForceCollect::No, |p, attrs| {
1831 let mut snapshot = None;
1832 if p.is_vcs_conflict_marker(&TokenKind::Shl, &TokenKind::Lt) {
1833 snapshot = Some(p.create_snapshot_for_diagnostic());
1837 }
1838 let lo = p.token.span;
1839 let vis = match p.parse_visibility(FollowedByType::Yes) {
1840 Ok(vis) => vis,
1841 Err(err) => {
1842 if let Some(ref mut snapshot) = snapshot {
1843 snapshot.recover_vcs_conflict_marker();
1844 }
1845 return Err(err);
1846 }
1847 };
1848 let ty = match p.parse_ty() {
1851 Ok(ty) => ty,
1852 Err(err) => {
1853 if let Some(ref mut snapshot) = snapshot {
1854 snapshot.recover_vcs_conflict_marker();
1855 }
1856 return Err(err);
1857 }
1858 };
1859 let mut default = None;
1860 if p.token == token::Eq {
1861 let mut snapshot = p.create_snapshot_for_diagnostic();
1862 snapshot.bump();
1863 match snapshot.parse_expr_anon_const() {
1864 Ok(const_expr) => {
1865 let sp = ty.span.shrink_to_hi().to(const_expr.value.span);
1866 p.psess.gated_spans.gate(sym::default_field_values, sp);
1867 p.restore_snapshot(snapshot);
1868 default = Some(const_expr);
1869 }
1870 Err(err) => {
1871 err.cancel();
1872 }
1873 }
1874 }
1875
1876 Ok((
1877 FieldDef {
1878 span: lo.to(ty.span),
1879 vis,
1880 safety: Safety::Default,
1881 ident: None,
1882 id: DUMMY_NODE_ID,
1883 ty,
1884 default,
1885 attrs,
1886 is_placeholder: false,
1887 },
1888 Trailing::from(p.token == token::Comma),
1889 UsePreAttrPos::No,
1890 ))
1891 })
1892 })
1893 .map(|(r, _)| r)
1894 }
1895
1896 fn parse_field_def(&mut self, adt_ty: &str, ident_span: Span) -> PResult<'a, FieldDef> {
1898 self.recover_vcs_conflict_marker();
1899 let attrs = self.parse_outer_attributes()?;
1900 self.recover_vcs_conflict_marker();
1901 self.collect_tokens(None, attrs, ForceCollect::No, |this, attrs| {
1902 let lo = this.token.span;
1903 let vis = this.parse_visibility(FollowedByType::No)?;
1904 let safety = this.parse_unsafe_field();
1905 this.parse_single_struct_field(adt_ty, lo, vis, safety, attrs, ident_span)
1906 .map(|field| (field, Trailing::No, UsePreAttrPos::No))
1907 })
1908 }
1909
1910 fn parse_single_struct_field(
1912 &mut self,
1913 adt_ty: &str,
1914 lo: Span,
1915 vis: Visibility,
1916 safety: Safety,
1917 attrs: AttrVec,
1918 ident_span: Span,
1919 ) -> PResult<'a, FieldDef> {
1920 let a_var = self.parse_name_and_ty(adt_ty, lo, vis, safety, attrs)?;
1921 match self.token.kind {
1922 token::Comma => {
1923 self.bump();
1924 }
1925 token::Semi => {
1926 self.bump();
1927 let sp = self.prev_token.span;
1928 let mut err =
1929 self.dcx().struct_span_err(sp, format!("{adt_ty} fields are separated by `,`"));
1930 err.span_suggestion_short(
1931 sp,
1932 "replace `;` with `,`",
1933 ",",
1934 Applicability::MachineApplicable,
1935 );
1936 err.span_label(ident_span, format!("while parsing this {adt_ty}"));
1937 err.emit();
1938 }
1939 token::CloseBrace => {}
1940 token::DocComment(..) => {
1941 let previous_span = self.prev_token.span;
1942 let mut err = errors::DocCommentDoesNotDocumentAnything {
1943 span: self.token.span,
1944 missing_comma: None,
1945 };
1946 self.bump(); if self.eat(exp!(Comma)) || self.token == token::CloseBrace {
1948 self.dcx().emit_err(err);
1949 } else {
1950 let sp = previous_span.shrink_to_hi();
1951 err.missing_comma = Some(sp);
1952 return Err(self.dcx().create_err(err));
1953 }
1954 }
1955 _ => {
1956 let sp = self.prev_token.span.shrink_to_hi();
1957 let msg =
1958 format!("expected `,`, or `}}`, found {}", super::token_descr(&self.token));
1959
1960 if let TyKind::Path(_, Path { segments, .. }) = &a_var.ty.kind {
1962 if let Some(last_segment) = segments.last() {
1963 let guar = self.check_trailing_angle_brackets(
1964 last_segment,
1965 &[exp!(Comma), exp!(CloseBrace)],
1966 );
1967 if let Some(_guar) = guar {
1968 let _ = self.eat(exp!(Comma));
1971
1972 return Ok(a_var);
1975 }
1976 }
1977 }
1978
1979 let mut err = self.dcx().struct_span_err(sp, msg);
1980
1981 if self.token.is_ident()
1982 || (self.token == TokenKind::Pound
1983 && (self.look_ahead(1, |t| t == &token::OpenBracket)))
1984 {
1985 err.span_suggestion(
1988 sp,
1989 "try adding a comma",
1990 ",",
1991 Applicability::MachineApplicable,
1992 );
1993 err.emit();
1994 } else {
1995 return Err(err);
1996 }
1997 }
1998 }
1999 Ok(a_var)
2000 }
2001
2002 fn expect_field_ty_separator(&mut self) -> PResult<'a, ()> {
2003 if let Err(err) = self.expect(exp!(Colon)) {
2004 let sm = self.psess.source_map();
2005 let eq_typo = self.token == token::Eq && self.look_ahead(1, |t| t.is_path_start());
2006 let semi_typo = self.token == token::Semi
2007 && self.look_ahead(1, |t| {
2008 t.is_path_start()
2009 && match (sm.lookup_line(self.token.span.hi()), sm.lookup_line(t.span.lo())) {
2012 (Ok(l), Ok(r)) => l.line == r.line,
2013 _ => true,
2014 }
2015 });
2016 if eq_typo || semi_typo {
2017 self.bump();
2018 err.with_span_suggestion_short(
2020 self.prev_token.span,
2021 "field names and their types are separated with `:`",
2022 ":",
2023 Applicability::MachineApplicable,
2024 )
2025 .emit();
2026 } else {
2027 return Err(err);
2028 }
2029 }
2030 Ok(())
2031 }
2032
2033 fn parse_name_and_ty(
2035 &mut self,
2036 adt_ty: &str,
2037 lo: Span,
2038 vis: Visibility,
2039 safety: Safety,
2040 attrs: AttrVec,
2041 ) -> PResult<'a, FieldDef> {
2042 let name = self.parse_field_ident(adt_ty, lo)?;
2043 if self.token == token::Bang {
2044 if let Err(mut err) = self.unexpected() {
2045 err.subdiagnostic(MacroExpandsToAdtField { adt_ty });
2047 return Err(err);
2048 }
2049 }
2050 self.expect_field_ty_separator()?;
2051 let ty = self.parse_ty()?;
2052 if self.token == token::Colon && self.look_ahead(1, |&t| t != token::Colon) {
2053 self.dcx()
2054 .struct_span_err(self.token.span, "found single colon in a struct field type path")
2055 .with_span_suggestion_verbose(
2056 self.token.span,
2057 "write a path separator here",
2058 "::",
2059 Applicability::MaybeIncorrect,
2060 )
2061 .emit();
2062 }
2063 let default = if self.token == token::Eq {
2064 self.bump();
2065 let const_expr = self.parse_expr_anon_const()?;
2066 let sp = ty.span.shrink_to_hi().to(const_expr.value.span);
2067 self.psess.gated_spans.gate(sym::default_field_values, sp);
2068 Some(const_expr)
2069 } else {
2070 None
2071 };
2072 Ok(FieldDef {
2073 span: lo.to(self.prev_token.span),
2074 ident: Some(name),
2075 vis,
2076 safety,
2077 id: DUMMY_NODE_ID,
2078 ty,
2079 default,
2080 attrs,
2081 is_placeholder: false,
2082 })
2083 }
2084
2085 fn parse_field_ident(&mut self, adt_ty: &str, lo: Span) -> PResult<'a, Ident> {
2088 let (ident, is_raw) = self.ident_or_err(true)?;
2089 if matches!(is_raw, IdentIsRaw::No) && ident.is_reserved() {
2090 let snapshot = self.create_snapshot_for_diagnostic();
2091 let err = if self.check_fn_front_matter(false, Case::Sensitive) {
2092 let inherited_vis =
2093 Visibility { span: DUMMY_SP, kind: VisibilityKind::Inherited, tokens: None };
2094 let fn_parse_mode = FnParseMode { req_name: |_| true, req_body: true };
2096 match self.parse_fn(
2097 &mut AttrVec::new(),
2098 fn_parse_mode,
2099 lo,
2100 &inherited_vis,
2101 Case::Insensitive,
2102 ) {
2103 Ok(_) => {
2104 self.dcx().struct_span_err(
2105 lo.to(self.prev_token.span),
2106 format!("functions are not allowed in {adt_ty} definitions"),
2107 )
2108 .with_help(
2109 "unlike in C++, Java, and C#, functions are declared in `impl` blocks",
2110 )
2111 .with_help("see https://doc.rust-lang.org/book/ch05-03-method-syntax.html for more information")
2112 }
2113 Err(err) => {
2114 err.cancel();
2115 self.restore_snapshot(snapshot);
2116 self.expected_ident_found_err()
2117 }
2118 }
2119 } else if self.eat_keyword(exp!(Struct)) {
2120 match self.parse_item_struct() {
2121 Ok(item) => {
2122 let ItemKind::Struct(ident, ..) = item else { unreachable!() };
2123 self.dcx()
2124 .struct_span_err(
2125 lo.with_hi(ident.span.hi()),
2126 format!("structs are not allowed in {adt_ty} definitions"),
2127 )
2128 .with_help(
2129 "consider creating a new `struct` definition instead of nesting",
2130 )
2131 }
2132 Err(err) => {
2133 err.cancel();
2134 self.restore_snapshot(snapshot);
2135 self.expected_ident_found_err()
2136 }
2137 }
2138 } else {
2139 let mut err = self.expected_ident_found_err();
2140 if self.eat_keyword_noexpect(kw::Let)
2141 && let removal_span = self.prev_token.span.until(self.token.span)
2142 && let Ok(ident) = self
2143 .parse_ident_common(false)
2144 .map_err(|err| err.cancel())
2146 && self.token == TokenKind::Colon
2147 {
2148 err.span_suggestion(
2149 removal_span,
2150 "remove this `let` keyword",
2151 String::new(),
2152 Applicability::MachineApplicable,
2153 );
2154 err.note("the `let` keyword is not allowed in `struct` fields");
2155 err.note("see <https://doc.rust-lang.org/book/ch05-01-defining-structs.html> for more information");
2156 err.emit();
2157 return Ok(ident);
2158 } else {
2159 self.restore_snapshot(snapshot);
2160 }
2161 err
2162 };
2163 return Err(err);
2164 }
2165 self.bump();
2166 Ok(ident)
2167 }
2168
2169 fn parse_item_decl_macro(&mut self, lo: Span) -> PResult<'a, ItemKind> {
2177 let ident = self.parse_ident()?;
2178 let body = if self.check(exp!(OpenBrace)) {
2179 self.parse_delim_args()? } else if self.check(exp!(OpenParen)) {
2181 let params = self.parse_token_tree(); let pspan = params.span();
2183 if !self.check(exp!(OpenBrace)) {
2184 self.unexpected()?;
2185 }
2186 let body = self.parse_token_tree(); let bspan = body.span();
2189 let arrow = TokenTree::token_alone(token::FatArrow, pspan.between(bspan)); let tokens = TokenStream::new(vec![params, arrow, body]);
2191 let dspan = DelimSpan::from_pair(pspan.shrink_to_lo(), bspan.shrink_to_hi());
2192 P(DelimArgs { dspan, delim: Delimiter::Brace, tokens })
2193 } else {
2194 self.unexpected_any()?
2195 };
2196
2197 self.psess.gated_spans.gate(sym::decl_macro, lo.to(self.prev_token.span));
2198 Ok(ItemKind::MacroDef(ident, ast::MacroDef { body, macro_rules: false }))
2199 }
2200
2201 fn is_macro_rules_item(&mut self) -> IsMacroRulesItem {
2203 if self.check_keyword(exp!(MacroRules)) {
2204 let macro_rules_span = self.token.span;
2205
2206 if self.look_ahead(1, |t| *t == token::Bang) && self.look_ahead(2, |t| t.is_ident()) {
2207 return IsMacroRulesItem::Yes { has_bang: true };
2208 } else if self.look_ahead(1, |t| (t.is_ident())) {
2209 self.dcx().emit_err(errors::MacroRulesMissingBang {
2211 span: macro_rules_span,
2212 hi: macro_rules_span.shrink_to_hi(),
2213 });
2214
2215 return IsMacroRulesItem::Yes { has_bang: false };
2216 }
2217 }
2218
2219 IsMacroRulesItem::No
2220 }
2221
2222 fn parse_item_macro_rules(
2224 &mut self,
2225 vis: &Visibility,
2226 has_bang: bool,
2227 ) -> PResult<'a, ItemKind> {
2228 self.expect_keyword(exp!(MacroRules))?; if has_bang {
2231 self.expect(exp!(Bang))?; }
2233 let ident = self.parse_ident()?;
2234
2235 if self.eat(exp!(Bang)) {
2236 let span = self.prev_token.span;
2238 self.dcx().emit_err(errors::MacroNameRemoveBang { span });
2239 }
2240
2241 let body = self.parse_delim_args()?;
2242 self.eat_semi_for_macro_if_needed(&body);
2243 self.complain_if_pub_macro(vis, true);
2244
2245 Ok(ItemKind::MacroDef(ident, ast::MacroDef { body, macro_rules: true }))
2246 }
2247
2248 fn complain_if_pub_macro(&self, vis: &Visibility, macro_rules: bool) {
2251 if let VisibilityKind::Inherited = vis.kind {
2252 return;
2253 }
2254
2255 let vstr = pprust::vis_to_string(vis);
2256 let vstr = vstr.trim_end();
2257 if macro_rules {
2258 self.dcx().emit_err(errors::MacroRulesVisibility { span: vis.span, vis: vstr });
2259 } else {
2260 self.dcx().emit_err(errors::MacroInvocationVisibility { span: vis.span, vis: vstr });
2261 }
2262 }
2263
2264 fn eat_semi_for_macro_if_needed(&mut self, args: &DelimArgs) {
2265 if args.need_semicolon() && !self.eat(exp!(Semi)) {
2266 self.report_invalid_macro_expansion_item(args);
2267 }
2268 }
2269
2270 fn report_invalid_macro_expansion_item(&self, args: &DelimArgs) {
2271 let span = args.dspan.entire();
2272 let mut err = self.dcx().struct_span_err(
2273 span,
2274 "macros that expand to items must be delimited with braces or followed by a semicolon",
2275 );
2276 if !span.from_expansion() {
2279 let DelimSpan { open, close } = args.dspan;
2280 err.multipart_suggestion(
2281 "change the delimiters to curly braces",
2282 vec![(open, "{".to_string()), (close, '}'.to_string())],
2283 Applicability::MaybeIncorrect,
2284 );
2285 err.span_suggestion(
2286 span.with_neighbor(self.token.span).shrink_to_hi(),
2287 "add a semicolon",
2288 ';',
2289 Applicability::MaybeIncorrect,
2290 );
2291 }
2292 err.emit();
2293 }
2294
2295 fn recover_nested_adt_item(&mut self, keyword: Symbol) -> PResult<'a, bool> {
2298 if (self.token.is_keyword(kw::Enum)
2299 || self.token.is_keyword(kw::Struct)
2300 || self.token.is_keyword(kw::Union))
2301 && self.look_ahead(1, |t| t.is_ident())
2302 {
2303 let kw_token = self.token;
2304 let kw_str = pprust::token_to_string(&kw_token);
2305 let item = self.parse_item(ForceCollect::No)?;
2306 let mut item = item.unwrap().span;
2307 if self.token == token::Comma {
2308 item = item.to(self.token.span);
2309 }
2310 self.dcx().emit_err(errors::NestedAdt {
2311 span: kw_token.span,
2312 item,
2313 kw_str,
2314 keyword: keyword.as_str(),
2315 });
2316 return Ok(false);
2318 }
2319 Ok(true)
2320 }
2321}
2322
2323type ReqName = fn(Edition) -> bool;
2330
2331#[derive(Clone, Copy)]
2339pub(crate) struct FnParseMode {
2340 pub(super) req_name: ReqName,
2363 pub(super) req_body: bool,
2382}
2383
2384impl<'a> Parser<'a> {
2386 fn parse_fn(
2388 &mut self,
2389 attrs: &mut AttrVec,
2390 fn_parse_mode: FnParseMode,
2391 sig_lo: Span,
2392 vis: &Visibility,
2393 case: Case,
2394 ) -> PResult<'a, (Ident, FnSig, Generics, Option<P<FnContract>>, Option<P<Block>>)> {
2395 let fn_span = self.token.span;
2396 let header = self.parse_fn_front_matter(vis, case, FrontMatterParsingMode::Function)?; let ident = self.parse_ident()?; let mut generics = self.parse_generics()?; let decl = match self.parse_fn_decl(
2400 fn_parse_mode.req_name,
2401 AllowPlus::Yes,
2402 RecoverReturnSign::Yes,
2403 ) {
2404 Ok(decl) => decl,
2405 Err(old_err) => {
2406 if self.token.is_keyword(kw::For) {
2408 old_err.cancel();
2409 return Err(self.dcx().create_err(errors::FnTypoWithImpl { fn_span }));
2410 } else {
2411 return Err(old_err);
2412 }
2413 }
2414 };
2415
2416 let fn_params_end = self.prev_token.span.shrink_to_hi();
2419
2420 let contract = self.parse_contract()?;
2421
2422 generics.where_clause = self.parse_where_clause()?; let fn_params_end =
2426 if generics.where_clause.has_where_token { Some(fn_params_end) } else { None };
2427
2428 let mut sig_hi = self.prev_token.span;
2429 let body =
2431 self.parse_fn_body(attrs, &ident, &mut sig_hi, fn_parse_mode.req_body, fn_params_end)?;
2432 let fn_sig_span = sig_lo.to(sig_hi);
2433 Ok((ident, FnSig { header, decl, span: fn_sig_span }, generics, contract, body))
2434 }
2435
2436 fn error_fn_body_not_found(
2438 &mut self,
2439 ident_span: Span,
2440 req_body: bool,
2441 fn_params_end: Option<Span>,
2442 ) -> PResult<'a, ErrorGuaranteed> {
2443 let expected: &[_] =
2444 if req_body { &[exp!(OpenBrace)] } else { &[exp!(Semi), exp!(OpenBrace)] };
2445 match self.expected_one_of_not_found(&[], expected) {
2446 Ok(error_guaranteed) => Ok(error_guaranteed),
2447 Err(mut err) => {
2448 if self.token == token::CloseBrace {
2449 err.span_label(ident_span, "while parsing this `fn`");
2452 Ok(err.emit())
2453 } else if self.token == token::RArrow
2454 && let Some(fn_params_end) = fn_params_end
2455 {
2456 let fn_trait_span =
2462 [sym::FnOnce, sym::FnMut, sym::Fn].into_iter().find_map(|symbol| {
2463 if self.prev_token.is_ident_named(symbol) {
2464 Some(self.prev_token.span)
2465 } else {
2466 None
2467 }
2468 });
2469
2470 let arrow_span = self.token.span;
2475 let ty_span = match self.parse_ret_ty(
2476 AllowPlus::Yes,
2477 RecoverQPath::Yes,
2478 RecoverReturnSign::Yes,
2479 ) {
2480 Ok(ty_span) => ty_span.span().shrink_to_hi(),
2481 Err(parse_error) => {
2482 parse_error.cancel();
2483 return Err(err);
2484 }
2485 };
2486 let ret_ty_span = arrow_span.to(ty_span);
2487
2488 if let Some(fn_trait_span) = fn_trait_span {
2489 err.subdiagnostic(errors::FnTraitMissingParen { span: fn_trait_span });
2492 } else if let Ok(snippet) = self.psess.source_map().span_to_snippet(ret_ty_span)
2493 {
2494 err.primary_message(
2498 "return type should be specified after the function parameters",
2499 );
2500 err.subdiagnostic(errors::MisplacedReturnType {
2501 fn_params_end,
2502 snippet,
2503 ret_ty_span,
2504 });
2505 }
2506 Err(err)
2507 } else {
2508 Err(err)
2509 }
2510 }
2511 }
2512 }
2513
2514 fn parse_fn_body(
2518 &mut self,
2519 attrs: &mut AttrVec,
2520 ident: &Ident,
2521 sig_hi: &mut Span,
2522 req_body: bool,
2523 fn_params_end: Option<Span>,
2524 ) -> PResult<'a, Option<P<Block>>> {
2525 let has_semi = if req_body {
2526 self.token == TokenKind::Semi
2527 } else {
2528 self.check(exp!(Semi))
2530 };
2531 let (inner_attrs, body) = if has_semi {
2532 self.expect_semi()?;
2534 *sig_hi = self.prev_token.span;
2535 (AttrVec::new(), None)
2536 } else if self.check(exp!(OpenBrace)) || self.token.is_metavar_block() {
2537 self.parse_block_common(self.token.span, BlockCheckMode::Default, None)
2538 .map(|(attrs, body)| (attrs, Some(body)))?
2539 } else if self.token == token::Eq {
2540 self.bump(); let eq_sp = self.prev_token.span;
2543 let _ = self.parse_expr()?;
2544 self.expect_semi()?; let span = eq_sp.to(self.prev_token.span);
2546 let guar = self.dcx().emit_err(errors::FunctionBodyEqualsExpr {
2547 span,
2548 sugg: errors::FunctionBodyEqualsExprSugg { eq: eq_sp, semi: self.prev_token.span },
2549 });
2550 (AttrVec::new(), Some(self.mk_block_err(span, guar)))
2551 } else {
2552 self.error_fn_body_not_found(ident.span, req_body, fn_params_end)?;
2553 (AttrVec::new(), None)
2554 };
2555 attrs.extend(inner_attrs);
2556 Ok(body)
2557 }
2558
2559 pub(super) fn check_fn_front_matter(&mut self, check_pub: bool, case: Case) -> bool {
2564 const ALL_QUALS: &[ExpKeywordPair] = &[
2565 exp!(Pub),
2566 exp!(Gen),
2567 exp!(Const),
2568 exp!(Async),
2569 exp!(Unsafe),
2570 exp!(Safe),
2571 exp!(Extern),
2572 ];
2573
2574 let quals: &[_] = if check_pub {
2579 ALL_QUALS
2580 } else {
2581 &[exp!(Gen), exp!(Const), exp!(Async), exp!(Unsafe), exp!(Safe), exp!(Extern)]
2582 };
2583 self.check_keyword_case(exp!(Fn), case) || quals.iter().any(|&exp| self.check_keyword_case(exp, case))
2586 && self.look_ahead(1, |t| {
2587 t.is_keyword_case(kw::Fn, case)
2589 || (
2591 (
2592 t.is_non_raw_ident_where(|i|
2593 quals.iter().any(|exp| exp.kw == i.name)
2594 && i.is_reserved()
2596 )
2597 || case == Case::Insensitive
2598 && t.is_non_raw_ident_where(|i| quals.iter().any(|exp| {
2599 exp.kw.as_str() == i.name.as_str().to_lowercase()
2600 }))
2601 )
2602 && !self.is_unsafe_foreign_mod()
2604 && !self.is_async_gen_block())
2606 })
2607 || self.check_keyword_case(exp!(Extern), case)
2609 && self.look_ahead(1, |t| t.can_begin_string_literal())
2613 && (self.tree_look_ahead(2, |tt| {
2614 match tt {
2615 TokenTree::Token(t, _) => t.is_keyword_case(kw::Fn, case),
2616 TokenTree::Delimited(..) => false,
2617 }
2618 }) == Some(true) ||
2619 (self.may_recover()
2622 && self.tree_look_ahead(2, |tt| {
2623 match tt {
2624 TokenTree::Token(t, _) =>
2625 ALL_QUALS.iter().any(|exp| {
2626 t.is_keyword(exp.kw)
2627 }),
2628 TokenTree::Delimited(..) => false,
2629 }
2630 }) == Some(true)
2631 && self.tree_look_ahead(3, |tt| {
2632 match tt {
2633 TokenTree::Token(t, _) => t.is_keyword_case(kw::Fn, case),
2634 TokenTree::Delimited(..) => false,
2635 }
2636 }) == Some(true)
2637 )
2638 )
2639 }
2640
2641 pub(super) fn parse_fn_front_matter(
2656 &mut self,
2657 orig_vis: &Visibility,
2658 case: Case,
2659 parsing_mode: FrontMatterParsingMode,
2660 ) -> PResult<'a, FnHeader> {
2661 let sp_start = self.token.span;
2662 let constness = self.parse_constness(case);
2663 if parsing_mode == FrontMatterParsingMode::FunctionPtrType
2664 && let Const::Yes(const_span) = constness
2665 {
2666 self.dcx().emit_err(FnPointerCannotBeConst {
2667 span: const_span,
2668 suggestion: const_span.until(self.token.span),
2669 });
2670 }
2671
2672 let async_start_sp = self.token.span;
2673 let coroutine_kind = self.parse_coroutine_kind(case);
2674 if parsing_mode == FrontMatterParsingMode::FunctionPtrType
2675 && let Some(ast::CoroutineKind::Async { span: async_span, .. }) = coroutine_kind
2676 {
2677 self.dcx().emit_err(FnPointerCannotBeAsync {
2678 span: async_span,
2679 suggestion: async_span.until(self.token.span),
2680 });
2681 }
2682 let unsafe_start_sp = self.token.span;
2685 let safety = self.parse_safety(case);
2686
2687 let ext_start_sp = self.token.span;
2688 let ext = self.parse_extern(case);
2689
2690 if let Some(CoroutineKind::Async { span, .. }) = coroutine_kind {
2691 if span.is_rust_2015() {
2692 self.dcx().emit_err(errors::AsyncFnIn2015 {
2693 span,
2694 help: errors::HelpUseLatestEdition::new(),
2695 });
2696 }
2697 }
2698
2699 match coroutine_kind {
2700 Some(CoroutineKind::Gen { span, .. }) | Some(CoroutineKind::AsyncGen { span, .. }) => {
2701 self.psess.gated_spans.gate(sym::gen_blocks, span);
2702 }
2703 Some(CoroutineKind::Async { .. }) | None => {}
2704 }
2705
2706 if !self.eat_keyword_case(exp!(Fn), case) {
2707 match self.expect_one_of(&[], &[]) {
2711 Ok(Recovered::Yes(_)) => {}
2712 Ok(Recovered::No) => unreachable!(),
2713 Err(mut err) => {
2714 enum WrongKw {
2716 Duplicated(Span),
2717 Misplaced(Span),
2718 MisplacedDisallowedQualifier,
2723 }
2724
2725 let mut recover_constness = constness;
2727 let mut recover_coroutine_kind = coroutine_kind;
2728 let mut recover_safety = safety;
2729 let wrong_kw = if self.check_keyword(exp!(Const)) {
2732 match constness {
2733 Const::Yes(sp) => Some(WrongKw::Duplicated(sp)),
2734 Const::No => {
2735 recover_constness = Const::Yes(self.token.span);
2736 match parsing_mode {
2737 FrontMatterParsingMode::Function => {
2738 Some(WrongKw::Misplaced(async_start_sp))
2739 }
2740 FrontMatterParsingMode::FunctionPtrType => {
2741 self.dcx().emit_err(FnPointerCannotBeConst {
2742 span: self.token.span,
2743 suggestion: self
2744 .token
2745 .span
2746 .with_lo(self.prev_token.span.hi()),
2747 });
2748 Some(WrongKw::MisplacedDisallowedQualifier)
2749 }
2750 }
2751 }
2752 }
2753 } else if self.check_keyword(exp!(Async)) {
2754 match coroutine_kind {
2755 Some(CoroutineKind::Async { span, .. }) => {
2756 Some(WrongKw::Duplicated(span))
2757 }
2758 Some(CoroutineKind::AsyncGen { span, .. }) => {
2759 Some(WrongKw::Duplicated(span))
2760 }
2761 Some(CoroutineKind::Gen { .. }) => {
2762 recover_coroutine_kind = Some(CoroutineKind::AsyncGen {
2763 span: self.token.span,
2764 closure_id: DUMMY_NODE_ID,
2765 return_impl_trait_id: DUMMY_NODE_ID,
2766 });
2767 Some(WrongKw::Misplaced(unsafe_start_sp))
2769 }
2770 None => {
2771 recover_coroutine_kind = Some(CoroutineKind::Async {
2772 span: self.token.span,
2773 closure_id: DUMMY_NODE_ID,
2774 return_impl_trait_id: DUMMY_NODE_ID,
2775 });
2776 match parsing_mode {
2777 FrontMatterParsingMode::Function => {
2778 Some(WrongKw::Misplaced(async_start_sp))
2779 }
2780 FrontMatterParsingMode::FunctionPtrType => {
2781 self.dcx().emit_err(FnPointerCannotBeAsync {
2782 span: self.token.span,
2783 suggestion: self
2784 .token
2785 .span
2786 .with_lo(self.prev_token.span.hi()),
2787 });
2788 Some(WrongKw::MisplacedDisallowedQualifier)
2789 }
2790 }
2791 }
2792 }
2793 } else if self.check_keyword(exp!(Unsafe)) {
2794 match safety {
2795 Safety::Unsafe(sp) => Some(WrongKw::Duplicated(sp)),
2796 Safety::Safe(sp) => {
2797 recover_safety = Safety::Unsafe(self.token.span);
2798 Some(WrongKw::Misplaced(sp))
2799 }
2800 Safety::Default => {
2801 recover_safety = Safety::Unsafe(self.token.span);
2802 Some(WrongKw::Misplaced(ext_start_sp))
2803 }
2804 }
2805 } else if self.check_keyword(exp!(Safe)) {
2806 match safety {
2807 Safety::Safe(sp) => Some(WrongKw::Duplicated(sp)),
2808 Safety::Unsafe(sp) => {
2809 recover_safety = Safety::Safe(self.token.span);
2810 Some(WrongKw::Misplaced(sp))
2811 }
2812 Safety::Default => {
2813 recover_safety = Safety::Safe(self.token.span);
2814 Some(WrongKw::Misplaced(ext_start_sp))
2815 }
2816 }
2817 } else {
2818 None
2819 };
2820
2821 if let Some(WrongKw::Duplicated(original_sp)) = wrong_kw {
2823 let original_kw = self
2824 .span_to_snippet(original_sp)
2825 .expect("Span extracted directly from keyword should always work");
2826
2827 err.span_suggestion(
2828 self.token_uninterpolated_span(),
2829 format!("`{original_kw}` already used earlier, remove this one"),
2830 "",
2831 Applicability::MachineApplicable,
2832 )
2833 .span_note(original_sp, format!("`{original_kw}` first seen here"));
2834 }
2835 else if let Some(WrongKw::Misplaced(correct_pos_sp)) = wrong_kw {
2837 let correct_pos_sp = correct_pos_sp.to(self.prev_token.span);
2838 if let Ok(current_qual) = self.span_to_snippet(correct_pos_sp) {
2839 let misplaced_qual_sp = self.token_uninterpolated_span();
2840 let misplaced_qual = self.span_to_snippet(misplaced_qual_sp).unwrap();
2841
2842 err.span_suggestion(
2843 correct_pos_sp.to(misplaced_qual_sp),
2844 format!("`{misplaced_qual}` must come before `{current_qual}`"),
2845 format!("{misplaced_qual} {current_qual}"),
2846 Applicability::MachineApplicable,
2847 ).note("keyword order for functions declaration is `pub`, `default`, `const`, `async`, `unsafe`, `extern`");
2848 }
2849 }
2850 else if self.check_keyword(exp!(Pub)) {
2852 let sp = sp_start.to(self.prev_token.span);
2853 if let Ok(snippet) = self.span_to_snippet(sp) {
2854 let current_vis = match self.parse_visibility(FollowedByType::No) {
2855 Ok(v) => v,
2856 Err(d) => {
2857 d.cancel();
2858 return Err(err);
2859 }
2860 };
2861 let vs = pprust::vis_to_string(¤t_vis);
2862 let vs = vs.trim_end();
2863
2864 if matches!(orig_vis.kind, VisibilityKind::Inherited) {
2866 err.span_suggestion(
2867 sp_start.to(self.prev_token.span),
2868 format!("visibility `{vs}` must come before `{snippet}`"),
2869 format!("{vs} {snippet}"),
2870 Applicability::MachineApplicable,
2871 );
2872 }
2873 else {
2875 err.span_suggestion(
2876 current_vis.span,
2877 "there is already a visibility modifier, remove one",
2878 "",
2879 Applicability::MachineApplicable,
2880 )
2881 .span_note(orig_vis.span, "explicit visibility first seen here");
2882 }
2883 }
2884 }
2885
2886 if let Some(wrong_kw) = wrong_kw
2889 && self.may_recover()
2890 && self.look_ahead(1, |tok| tok.is_keyword_case(kw::Fn, case))
2891 {
2892 self.bump();
2894 self.bump();
2895 if matches!(wrong_kw, WrongKw::MisplacedDisallowedQualifier) {
2898 err.cancel();
2899 } else {
2900 err.emit();
2901 }
2902 return Ok(FnHeader {
2903 constness: recover_constness,
2904 safety: recover_safety,
2905 coroutine_kind: recover_coroutine_kind,
2906 ext,
2907 });
2908 }
2909
2910 return Err(err);
2911 }
2912 }
2913 }
2914
2915 Ok(FnHeader { constness, safety, coroutine_kind, ext })
2916 }
2917
2918 pub(super) fn parse_fn_decl(
2920 &mut self,
2921 req_name: ReqName,
2922 ret_allow_plus: AllowPlus,
2923 recover_return_sign: RecoverReturnSign,
2924 ) -> PResult<'a, P<FnDecl>> {
2925 Ok(P(FnDecl {
2926 inputs: self.parse_fn_params(req_name)?,
2927 output: self.parse_ret_ty(ret_allow_plus, RecoverQPath::Yes, recover_return_sign)?,
2928 }))
2929 }
2930
2931 pub(super) fn parse_fn_params(&mut self, req_name: ReqName) -> PResult<'a, ThinVec<Param>> {
2933 let mut first_param = true;
2934 if self.token != TokenKind::OpenParen
2936 && !self.token.is_keyword(kw::For)
2938 {
2939 self.dcx()
2941 .emit_err(errors::MissingFnParams { span: self.prev_token.span.shrink_to_hi() });
2942 return Ok(ThinVec::new());
2943 }
2944
2945 let (mut params, _) = self.parse_paren_comma_seq(|p| {
2946 p.recover_vcs_conflict_marker();
2947 let snapshot = p.create_snapshot_for_diagnostic();
2948 let param = p.parse_param_general(req_name, first_param, true).or_else(|e| {
2949 let guar = e.emit();
2950 let lo = if let TokenKind::OpenParen = p.prev_token.kind {
2954 p.prev_token.span.shrink_to_hi()
2955 } else {
2956 p.prev_token.span
2957 };
2958 p.restore_snapshot(snapshot);
2959 p.eat_to_tokens(&[exp!(Comma), exp!(CloseParen)]);
2961 Ok(dummy_arg(Ident::new(sym::dummy, lo.to(p.prev_token.span)), guar))
2963 });
2964 first_param = false;
2966 param
2967 })?;
2968 self.deduplicate_recovered_params_names(&mut params);
2970 Ok(params)
2971 }
2972
2973 pub(super) fn parse_param_general(
2978 &mut self,
2979 req_name: ReqName,
2980 first_param: bool,
2981 recover_arg_parse: bool,
2982 ) -> PResult<'a, Param> {
2983 let lo = self.token.span;
2984 let attrs = self.parse_outer_attributes()?;
2985 self.collect_tokens(None, attrs, ForceCollect::No, |this, attrs| {
2986 if let Some(mut param) = this.parse_self_param()? {
2988 param.attrs = attrs;
2989 let res = if first_param { Ok(param) } else { this.recover_bad_self_param(param) };
2990 return Ok((res?, Trailing::No, UsePreAttrPos::No));
2991 }
2992
2993 let is_name_required = match this.token.kind {
2994 token::DotDotDot => false,
2995 _ => req_name(this.token.span.with_neighbor(this.prev_token.span).edition()),
2996 };
2997 let (pat, ty) = if is_name_required || this.is_named_param() {
2998 debug!("parse_param_general parse_pat (is_name_required:{})", is_name_required);
2999 let (pat, colon) = this.parse_fn_param_pat_colon()?;
3000 if !colon {
3001 let mut err = this.unexpected().unwrap_err();
3002 return if let Some(ident) =
3003 this.parameter_without_type(&mut err, pat, is_name_required, first_param)
3004 {
3005 let guar = err.emit();
3006 Ok((dummy_arg(ident, guar), Trailing::No, UsePreAttrPos::No))
3007 } else {
3008 Err(err)
3009 };
3010 }
3011
3012 this.eat_incorrect_doc_comment_for_param_type();
3013 (pat, this.parse_ty_for_param()?)
3014 } else {
3015 debug!("parse_param_general ident_to_pat");
3016 let parser_snapshot_before_ty = this.create_snapshot_for_diagnostic();
3017 this.eat_incorrect_doc_comment_for_param_type();
3018 let mut ty = this.parse_ty_for_param();
3019
3020 if let Ok(t) = &ty {
3021 if let TyKind::Path(_, Path { segments, .. }) = &t.kind {
3023 if let Some(segment) = segments.last() {
3024 if let Some(guar) =
3025 this.check_trailing_angle_brackets(segment, &[exp!(CloseParen)])
3026 {
3027 return Ok((
3028 dummy_arg(segment.ident, guar),
3029 Trailing::No,
3030 UsePreAttrPos::No,
3031 ));
3032 }
3033 }
3034 }
3035
3036 if this.token != token::Comma && this.token != token::CloseParen {
3037 ty = this.unexpected_any();
3040 }
3041 }
3042 match ty {
3043 Ok(ty) => {
3044 let pat = this.mk_pat(ty.span, PatKind::Missing);
3045 (pat, ty)
3046 }
3047 Err(err) if this.token == token::DotDotDot => return Err(err),
3049 Err(err) if this.unmatched_angle_bracket_count > 0 => return Err(err),
3050 Err(err) if recover_arg_parse => {
3051 err.cancel();
3053 this.restore_snapshot(parser_snapshot_before_ty);
3054 this.recover_arg_parse()?
3055 }
3056 Err(err) => return Err(err),
3057 }
3058 };
3059
3060 let span = lo.to(this.prev_token.span);
3061
3062 Ok((
3063 Param { attrs, id: ast::DUMMY_NODE_ID, is_placeholder: false, pat, span, ty },
3064 Trailing::No,
3065 UsePreAttrPos::No,
3066 ))
3067 })
3068 }
3069
3070 fn parse_self_param(&mut self) -> PResult<'a, Option<Param>> {
3072 let expect_self_ident = |this: &mut Self| match this.token.ident() {
3074 Some((ident, IdentIsRaw::No)) => {
3075 this.bump();
3076 ident
3077 }
3078 _ => unreachable!(),
3079 };
3080 let is_lifetime = |this: &Self, n| this.look_ahead(n, |t| t.is_lifetime());
3082 let is_isolated_self = |this: &Self, n| {
3084 this.is_keyword_ahead(n, &[kw::SelfLower])
3085 && this.look_ahead(n + 1, |t| t != &token::PathSep)
3086 };
3087 let is_isolated_pin_const_self = |this: &Self, n| {
3089 this.look_ahead(n, |token| token.is_ident_named(sym::pin))
3090 && this.is_keyword_ahead(n + 1, &[kw::Const])
3091 && is_isolated_self(this, n + 2)
3092 };
3093 let is_isolated_mut_self =
3095 |this: &Self, n| this.is_keyword_ahead(n, &[kw::Mut]) && is_isolated_self(this, n + 1);
3096 let is_isolated_pin_mut_self = |this: &Self, n| {
3098 this.look_ahead(n, |token| token.is_ident_named(sym::pin))
3099 && is_isolated_mut_self(this, n + 1)
3100 };
3101 let parse_self_possibly_typed = |this: &mut Self, m| {
3103 let eself_ident = expect_self_ident(this);
3104 let eself_hi = this.prev_token.span;
3105 let eself = if this.eat(exp!(Colon)) {
3106 SelfKind::Explicit(this.parse_ty()?, m)
3107 } else {
3108 SelfKind::Value(m)
3109 };
3110 Ok((eself, eself_ident, eself_hi))
3111 };
3112 let expect_self_ident_not_typed =
3113 |this: &mut Self, modifier: &SelfKind, modifier_span: Span| {
3114 let eself_ident = expect_self_ident(this);
3115
3116 if this.may_recover() && this.eat_noexpect(&token::Colon) {
3118 let snap = this.create_snapshot_for_diagnostic();
3119 match this.parse_ty() {
3120 Ok(ty) => {
3121 this.dcx().emit_err(errors::IncorrectTypeOnSelf {
3122 span: ty.span,
3123 move_self_modifier: errors::MoveSelfModifier {
3124 removal_span: modifier_span,
3125 insertion_span: ty.span.shrink_to_lo(),
3126 modifier: modifier.to_ref_suggestion(),
3127 },
3128 });
3129 }
3130 Err(diag) => {
3131 diag.cancel();
3132 this.restore_snapshot(snap);
3133 }
3134 }
3135 }
3136 eself_ident
3137 };
3138 let recover_self_ptr = |this: &mut Self| {
3140 this.dcx().emit_err(errors::SelfArgumentPointer { span: this.token.span });
3141
3142 Ok((SelfKind::Value(Mutability::Not), expect_self_ident(this), this.prev_token.span))
3143 };
3144
3145 let eself_lo = self.token.span;
3149 let (eself, eself_ident, eself_hi) = match self.token.uninterpolate().kind {
3150 token::And => {
3151 let has_lifetime = is_lifetime(self, 1);
3152 let skip_lifetime_count = has_lifetime as usize;
3153 let eself = if is_isolated_self(self, skip_lifetime_count + 1) {
3154 self.bump(); let lifetime = has_lifetime.then(|| self.expect_lifetime());
3157 SelfKind::Region(lifetime, Mutability::Not)
3158 } else if is_isolated_mut_self(self, skip_lifetime_count + 1) {
3159 self.bump(); let lifetime = has_lifetime.then(|| self.expect_lifetime());
3162 self.bump(); SelfKind::Region(lifetime, Mutability::Mut)
3164 } else if is_isolated_pin_const_self(self, skip_lifetime_count + 1) {
3165 self.bump(); let lifetime = has_lifetime.then(|| self.expect_lifetime());
3168 self.psess.gated_spans.gate(sym::pin_ergonomics, self.token.span);
3169 self.bump(); self.bump(); SelfKind::Pinned(lifetime, Mutability::Not)
3172 } else if is_isolated_pin_mut_self(self, skip_lifetime_count + 1) {
3173 self.bump(); let lifetime = has_lifetime.then(|| self.expect_lifetime());
3176 self.psess.gated_spans.gate(sym::pin_ergonomics, self.token.span);
3177 self.bump(); self.bump(); SelfKind::Pinned(lifetime, Mutability::Mut)
3180 } else {
3181 return Ok(None);
3183 };
3184 let hi = self.token.span;
3185 let self_ident = expect_self_ident_not_typed(self, &eself, eself_lo.until(hi));
3186 (eself, self_ident, hi)
3187 }
3188 token::Star if is_isolated_self(self, 1) => {
3190 self.bump();
3191 recover_self_ptr(self)?
3192 }
3193 token::Star
3195 if self.look_ahead(1, |t| t.is_mutability()) && is_isolated_self(self, 2) =>
3196 {
3197 self.bump();
3198 self.bump();
3199 recover_self_ptr(self)?
3200 }
3201 token::Ident(..) if is_isolated_self(self, 0) => {
3203 parse_self_possibly_typed(self, Mutability::Not)?
3204 }
3205 token::Ident(..) if is_isolated_mut_self(self, 0) => {
3207 self.bump();
3208 parse_self_possibly_typed(self, Mutability::Mut)?
3209 }
3210 _ => return Ok(None),
3211 };
3212
3213 let eself = source_map::respan(eself_lo.to(eself_hi), eself);
3214 Ok(Some(Param::from_self(AttrVec::default(), eself, eself_ident)))
3215 }
3216
3217 fn is_named_param(&self) -> bool {
3218 let offset = match &self.token.kind {
3219 token::OpenInvisible(origin) => match origin {
3220 InvisibleOrigin::MetaVar(MetaVarKind::Pat(_)) => {
3221 return self.check_noexpect_past_close_delim(&token::Colon);
3222 }
3223 _ => 0,
3224 },
3225 token::And | token::AndAnd => 1,
3226 _ if self.token.is_keyword(kw::Mut) => 1,
3227 _ => 0,
3228 };
3229
3230 self.look_ahead(offset, |t| t.is_ident())
3231 && self.look_ahead(offset + 1, |t| t == &token::Colon)
3232 }
3233
3234 fn recover_self_param(&mut self) -> bool {
3235 matches!(
3236 self.parse_outer_attributes()
3237 .and_then(|_| self.parse_self_param())
3238 .map_err(|e| e.cancel()),
3239 Ok(Some(_))
3240 )
3241 }
3242}
3243
3244enum IsMacroRulesItem {
3245 Yes { has_bang: bool },
3246 No,
3247}
3248
3249#[derive(Copy, Clone, PartialEq, Eq)]
3250pub(super) enum FrontMatterParsingMode {
3251 Function,
3253 FunctionPtrType,
3256}