use crate::errors::{InvalidMetaItem, SuffixedLiteralInAttribute}; use super::{AttrWrapper, Capturing, FnParseMode, ForceCollect, Parser, PathStyle}; use rustc_ast as ast; use rustc_ast::attr; use rustc_ast::token::{self, Delimiter, Nonterminal}; use rustc_errors::{error_code, fluent, Diagnostic, IntoDiagnostic, PResult}; use rustc_span::{sym, BytePos, Span}; // Public for rustfmt usage #[derive(Debug)] pub enum InnerAttrPolicy { Permitted, Forbidden(Option), } #[derive(Clone, Copy, Debug)] pub enum InnerAttrForbiddenReason { InCodeBlock, AfterOuterDocComment { prev_doc_comment_span: Span }, AfterOuterAttribute { prev_outer_attr_sp: Span }, } enum OuterAttributeType { DocComment, DocBlockComment, Attribute, } impl<'a> Parser<'a> { /// Parses attributes that appear before an item. pub(super) fn parse_outer_attributes(&mut self) -> PResult<'a, AttrWrapper> { let mut outer_attrs = ast::AttrVec::new(); let mut just_parsed_doc_comment = false; let start_pos = self.token_cursor.num_next_calls; loop { let attr = if self.check(&token::Pound) { let prev_outer_attr_sp = outer_attrs.last().map(|attr| attr.span); let inner_error_reason = if just_parsed_doc_comment { Some(InnerAttrForbiddenReason::AfterOuterDocComment { prev_doc_comment_span: prev_outer_attr_sp.unwrap(), }) } else if let Some(prev_outer_attr_sp) = prev_outer_attr_sp { Some(InnerAttrForbiddenReason::AfterOuterAttribute { prev_outer_attr_sp }) } else { None }; let inner_parse_policy = InnerAttrPolicy::Forbidden(inner_error_reason); just_parsed_doc_comment = false; Some(self.parse_attribute(inner_parse_policy)?) } else if let token::DocComment(comment_kind, attr_style, data) = self.token.kind { if attr_style != ast::AttrStyle::Outer { let span = self.token.span; let mut err = self.sess.span_diagnostic.struct_span_err_with_code( span, fluent::parse_inner_doc_comment_not_permitted, error_code!(E0753), ); if let Some(replacement_span) = self.annotate_following_item_if_applicable( &mut err, span, match comment_kind { token::CommentKind::Line => OuterAttributeType::DocComment, token::CommentKind::Block => OuterAttributeType::DocBlockComment, }, ) { err.note(fluent::note); err.span_suggestion_verbose( replacement_span, fluent::suggestion, "", rustc_errors::Applicability::MachineApplicable, ); } err.emit(); } self.bump(); just_parsed_doc_comment = true; // Always make an outer attribute - this allows us to recover from a misplaced // inner attribute. Some(attr::mk_doc_comment( &self.sess.attr_id_generator, comment_kind, ast::AttrStyle::Outer, data, self.prev_token.span, )) } else { None }; if let Some(attr) = attr { if attr.style == ast::AttrStyle::Outer { outer_attrs.push(attr); } } else { break; } } Ok(AttrWrapper::new(outer_attrs, start_pos)) } /// Matches `attribute = # ! [ meta_item ]`. /// `inner_parse_policy` prescribes how to handle inner attributes. // Public for rustfmt usage. pub fn parse_attribute( &mut self, inner_parse_policy: InnerAttrPolicy, ) -> PResult<'a, ast::Attribute> { debug!( "parse_attribute: inner_parse_policy={:?} self.token={:?}", inner_parse_policy, self.token ); let lo = self.token.span; // Attributes can't have attributes of their own [Editor's note: not with that attitude] self.collect_tokens_no_attrs(|this| { assert!(this.eat(&token::Pound), "parse_attribute called in non-attribute position"); let style = if this.eat(&token::Not) { ast::AttrStyle::Inner } else { ast::AttrStyle::Outer }; this.expect(&token::OpenDelim(Delimiter::Bracket))?; let item = this.parse_attr_item(false)?; this.expect(&token::CloseDelim(Delimiter::Bracket))?; let attr_sp = lo.to(this.prev_token.span); // Emit error if inner attribute is encountered and forbidden. if style == ast::AttrStyle::Inner { this.error_on_forbidden_inner_attr(attr_sp, inner_parse_policy); } Ok(attr::mk_attr_from_item(&self.sess.attr_id_generator, item, None, style, attr_sp)) }) } fn annotate_following_item_if_applicable( &self, err: &mut Diagnostic, span: Span, attr_type: OuterAttributeType, ) -> Option { let mut snapshot = self.create_snapshot_for_diagnostic(); let lo = span.lo() + BytePos(match attr_type { OuterAttributeType::Attribute => 1, _ => 2, }); let hi = lo + BytePos(1); let replacement_span = span.with_lo(lo).with_hi(hi); if let OuterAttributeType::DocBlockComment | OuterAttributeType::DocComment = attr_type { snapshot.bump(); } loop { // skip any other attributes, we want the item if snapshot.token.kind == token::Pound { if let Err(err) = snapshot.parse_attribute(InnerAttrPolicy::Permitted) { err.cancel(); return Some(replacement_span); } } else { break; } } match snapshot.parse_item_common( AttrWrapper::empty(), true, false, FnParseMode { req_name: |_| true, req_body: true }, ForceCollect::No, ) { Ok(Some(item)) => { // FIXME(#100717) err.set_arg("item", item.kind.descr()); err.span_label(item.span, fluent::label_does_not_annotate_this); err.span_suggestion_verbose( replacement_span, fluent::sugg_change_inner_to_outer, match attr_type { OuterAttributeType::Attribute => "", OuterAttributeType::DocBlockComment => "*", OuterAttributeType::DocComment => "/", }, rustc_errors::Applicability::MachineApplicable, ); return None; } Err(item_err) => { item_err.cancel(); } Ok(None) => {} } Some(replacement_span) } pub(super) fn error_on_forbidden_inner_attr(&self, attr_sp: Span, policy: InnerAttrPolicy) { if let InnerAttrPolicy::Forbidden(reason) = policy { let mut diag = match reason.as_ref().copied() { Some(InnerAttrForbiddenReason::AfterOuterDocComment { prev_doc_comment_span }) => { let mut diag = self.struct_span_err( attr_sp, fluent::parse_inner_attr_not_permitted_after_outer_doc_comment, ); diag.span_label(attr_sp, fluent::label_attr) .span_label(prev_doc_comment_span, fluent::label_prev_doc_comment); diag } Some(InnerAttrForbiddenReason::AfterOuterAttribute { prev_outer_attr_sp }) => { let mut diag = self.struct_span_err( attr_sp, fluent::parse_inner_attr_not_permitted_after_outer_attr, ); diag.span_label(attr_sp, fluent::label_attr) .span_label(prev_outer_attr_sp, fluent::label_prev_attr); diag } Some(InnerAttrForbiddenReason::InCodeBlock) | None => { self.struct_span_err(attr_sp, fluent::parse_inner_attr_not_permitted) } }; diag.note(fluent::parse_inner_attr_explanation); if self .annotate_following_item_if_applicable( &mut diag, attr_sp, OuterAttributeType::Attribute, ) .is_some() { diag.note(fluent::parse_outer_attr_explanation); }; diag.emit(); } } /// Parses an inner part of an attribute (the path and following tokens). /// The tokens must be either a delimited token stream, or empty token stream, /// or the "legacy" key-value form. /// PATH `(` TOKEN_STREAM `)` /// PATH `[` TOKEN_STREAM `]` /// PATH `{` TOKEN_STREAM `}` /// PATH /// PATH `=` UNSUFFIXED_LIT /// The delimiters or `=` are still put into the resulting token stream. pub fn parse_attr_item(&mut self, capture_tokens: bool) -> PResult<'a, ast::AttrItem> { let item = match &self.token.kind { token::Interpolated(nt) => match &**nt { Nonterminal::NtMeta(item) => Some(item.clone().into_inner()), _ => None, }, _ => None, }; Ok(if let Some(item) = item { self.bump(); item } else { let do_parse = |this: &mut Self| { let path = this.parse_path(PathStyle::Mod)?; let args = this.parse_attr_args()?; Ok(ast::AttrItem { path, args, tokens: None }) }; // Attr items don't have attributes if capture_tokens { self.collect_tokens_no_attrs(do_parse) } else { do_parse(self) }? }) } /// Parses attributes that appear after the opening of an item. These should /// be preceded by an exclamation mark, but we accept and warn about one /// terminated by a semicolon. /// /// Matches `inner_attrs*`. pub(crate) fn parse_inner_attributes(&mut self) -> PResult<'a, ast::AttrVec> { let mut attrs = ast::AttrVec::new(); loop { let start_pos: u32 = self.token_cursor.num_next_calls.try_into().unwrap(); // Only try to parse if it is an inner attribute (has `!`). let attr = if self.check(&token::Pound) && self.look_ahead(1, |t| t == &token::Not) { Some(self.parse_attribute(InnerAttrPolicy::Permitted)?) } else if let token::DocComment(comment_kind, attr_style, data) = self.token.kind { if attr_style == ast::AttrStyle::Inner { self.bump(); Some(attr::mk_doc_comment( &self.sess.attr_id_generator, comment_kind, attr_style, data, self.prev_token.span, )) } else { None } } else { None }; if let Some(attr) = attr { let end_pos: u32 = self.token_cursor.num_next_calls.try_into().unwrap(); // If we are currently capturing tokens, mark the location of this inner attribute. // If capturing ends up creating a `LazyAttrTokenStream`, we will include // this replace range with it, removing the inner attribute from the final // `AttrTokenStream`. Inner attributes are stored in the parsed AST note. // During macro expansion, they are selectively inserted back into the // token stream (the first inner attribute is removed each time we invoke the // corresponding macro). let range = start_pos..end_pos; if let Capturing::Yes = self.capture_state.capturing { self.capture_state.inner_attr_ranges.insert(attr.id, (range, vec![])); } attrs.push(attr); } else { break; } } Ok(attrs) } // Note: must be unsuffixed. pub(crate) fn parse_unsuffixed_meta_item_lit(&mut self) -> PResult<'a, ast::MetaItemLit> { let lit = self.parse_meta_item_lit()?; debug!("checking if {:?} is unsuffixed", lit); if !lit.kind.is_unsuffixed() { self.sess.emit_err(SuffixedLiteralInAttribute { span: lit.span }); } Ok(lit) } /// Parses `cfg_attr(pred, attr_item_list)` where `attr_item_list` is comma-delimited. pub fn parse_cfg_attr(&mut self) -> PResult<'a, (ast::MetaItem, Vec<(ast::AttrItem, Span)>)> { let cfg_predicate = self.parse_meta_item()?; self.expect(&token::Comma)?; // Presumably, the majority of the time there will only be one attr. let mut expanded_attrs = Vec::with_capacity(1); while self.token.kind != token::Eof { let lo = self.token.span; let item = self.parse_attr_item(true)?; expanded_attrs.push((item, lo.to(self.prev_token.span))); if !self.eat(&token::Comma) { break; } } Ok((cfg_predicate, expanded_attrs)) } /// Matches `COMMASEP(meta_item_inner)`. pub(crate) fn parse_meta_seq_top(&mut self) -> PResult<'a, Vec> { // Presumably, the majority of the time there will only be one attr. let mut nmis = Vec::with_capacity(1); while self.token.kind != token::Eof { nmis.push(self.parse_meta_item_inner()?); if !self.eat(&token::Comma) { break; } } Ok(nmis) } /// Matches the following grammar (per RFC 1559). /// ```ebnf /// meta_item : PATH ( '=' UNSUFFIXED_LIT | '(' meta_item_inner? ')' )? ; /// meta_item_inner : (meta_item | UNSUFFIXED_LIT) (',' meta_item_inner)? ; /// ``` pub fn parse_meta_item(&mut self) -> PResult<'a, ast::MetaItem> { let nt_meta = match &self.token.kind { token::Interpolated(nt) => match &**nt { token::NtMeta(e) => Some(e.clone()), _ => None, }, _ => None, }; if let Some(item) = nt_meta { return match item.meta(item.path.span) { Some(meta) => { self.bump(); Ok(meta) } None => self.unexpected(), }; } let lo = self.token.span; let path = self.parse_path(PathStyle::Mod)?; let kind = self.parse_meta_item_kind()?; let span = lo.to(self.prev_token.span); Ok(ast::MetaItem { path, kind, span }) } pub(crate) fn parse_meta_item_kind(&mut self) -> PResult<'a, ast::MetaItemKind> { Ok(if self.eat(&token::Eq) { ast::MetaItemKind::NameValue(self.parse_unsuffixed_meta_item_lit()?) } else if self.check(&token::OpenDelim(Delimiter::Parenthesis)) { // Matches `meta_seq = ( COMMASEP(meta_item_inner) )`. let (list, _) = self.parse_paren_comma_seq(|p| p.parse_meta_item_inner())?; ast::MetaItemKind::List(list) } else { ast::MetaItemKind::Word }) } /// Matches `meta_item_inner : (meta_item | UNSUFFIXED_LIT) ;`. fn parse_meta_item_inner(&mut self) -> PResult<'a, ast::NestedMetaItem> { match self.parse_unsuffixed_meta_item_lit() { Ok(lit) => return Ok(ast::NestedMetaItem::Lit(lit)), Err(err) => err.cancel(), } match self.parse_meta_item() { Ok(mi) => return Ok(ast::NestedMetaItem::MetaItem(mi)), Err(err) => err.cancel(), } Err(InvalidMetaItem { span: self.token.span, token: self.token.clone() } .into_diagnostic(&self.sess.span_diagnostic)) } } pub fn maybe_needs_tokens(attrs: &[ast::Attribute]) -> bool { // One of the attributes may either itself be a macro, // or expand to macro attributes (`cfg_attr`). attrs.iter().any(|attr| { if attr.is_doc_comment() { return false; } attr.ident().map_or(true, |ident| { ident.name == sym::cfg_attr || !rustc_feature::is_builtin_attr_name(ident.name) }) }) }