use super::diagnostics::report_suspicious_mismatch_block; use super::diagnostics::same_indentation_level; use super::diagnostics::TokenTreeDiagInfo; use super::{StringReader, UnmatchedDelim}; use rustc_ast::token::{self, Delimiter, Token}; use rustc_ast::tokenstream::{DelimSpan, Spacing, TokenStream, TokenTree}; use rustc_ast_pretty::pprust::token_to_string; use rustc_errors::{PErr, PResult}; pub(super) struct TokenTreesReader<'a> { string_reader: StringReader<'a>, /// The "next" token, which has been obtained from the `StringReader` but /// not yet handled by the `TokenTreesReader`. token: Token, diag_info: TokenTreeDiagInfo, } impl<'a> TokenTreesReader<'a> { pub(super) fn parse_all_token_trees( string_reader: StringReader<'a>, ) -> (PResult<'a, TokenStream>, Vec) { let mut tt_reader = TokenTreesReader { string_reader, token: Token::dummy(), diag_info: TokenTreeDiagInfo::default(), }; let res = tt_reader.parse_token_trees(/* is_delimited */ false); (res, tt_reader.diag_info.unmatched_delims) } // Parse a stream of tokens into a list of `TokenTree`s. fn parse_token_trees(&mut self, is_delimited: bool) -> PResult<'a, TokenStream> { self.token = self.string_reader.next_token().0; let mut buf = Vec::new(); loop { match self.token.kind { token::OpenDelim(delim) => buf.push(self.parse_token_tree_open_delim(delim)?), token::CloseDelim(delim) => { return if is_delimited { Ok(TokenStream::new(buf)) } else { Err(self.close_delim_err(delim)) }; } token::Eof => { return if is_delimited { Err(self.eof_err()) } else { Ok(TokenStream::new(buf)) }; } _ => { // Get the next normal token. This might require getting multiple adjacent // single-char tokens and joining them together. let (this_spacing, next_tok) = loop { let (next_tok, is_next_tok_preceded_by_whitespace) = self.string_reader.next_token(); if !is_next_tok_preceded_by_whitespace { if let Some(glued) = self.token.glue(&next_tok) { self.token = glued; } else { let this_spacing = if next_tok.is_op() { Spacing::Joint } else { Spacing::Alone }; break (this_spacing, next_tok); } } else { break (Spacing::Alone, next_tok); } }; let this_tok = std::mem::replace(&mut self.token, next_tok); buf.push(TokenTree::Token(this_tok, this_spacing)); } } } } fn eof_err(&mut self) -> PErr<'a> { let msg = "this file contains an unclosed delimiter"; let mut err = self.string_reader.sess.span_diagnostic.struct_span_err(self.token.span, msg); for &(_, sp) in &self.diag_info.open_braces { err.span_label(sp, "unclosed delimiter"); self.diag_info.unmatched_delims.push(UnmatchedDelim { expected_delim: Delimiter::Brace, found_delim: None, found_span: self.token.span, unclosed_span: Some(sp), candidate_span: None, }); } if let Some((delim, _)) = self.diag_info.open_braces.last() { report_suspicious_mismatch_block( &mut err, &self.diag_info, &self.string_reader.sess.source_map(), *delim, ) } err } fn parse_token_tree_open_delim(&mut self, open_delim: Delimiter) -> PResult<'a, TokenTree> { // The span for beginning of the delimited section let pre_span = self.token.span; self.diag_info.open_braces.push((open_delim, self.token.span)); // Parse the token trees within the delimiters. // We stop at any delimiter so we can try to recover if the user // uses an incorrect delimiter. let tts = self.parse_token_trees(/* is_delimited */ true)?; // Expand to cover the entire delimited token tree let delim_span = DelimSpan::from_pair(pre_span, self.token.span); let sm = self.string_reader.sess.source_map(); match self.token.kind { // Correct delimiter. token::CloseDelim(close_delim) if close_delim == open_delim => { let (open_brace, open_brace_span) = self.diag_info.open_braces.pop().unwrap(); let close_brace_span = self.token.span; if tts.is_empty() && close_delim == Delimiter::Brace { let empty_block_span = open_brace_span.to(close_brace_span); if !sm.is_multiline(empty_block_span) { // Only track if the block is in the form of `{}`, otherwise it is // likely that it was written on purpose. self.diag_info.empty_block_spans.push(empty_block_span); } } // only add braces if let (Delimiter::Brace, Delimiter::Brace) = (open_brace, open_delim) { // Add all the matching spans, we will sort by span later self.diag_info.matching_block_spans.push((open_brace_span, close_brace_span)); } // Move past the closing delimiter. self.token = self.string_reader.next_token().0; } // Incorrect delimiter. token::CloseDelim(close_delim) => { let mut unclosed_delimiter = None; let mut candidate = None; if self.diag_info.last_unclosed_found_span != Some(self.token.span) { // do not complain about the same unclosed delimiter multiple times self.diag_info.last_unclosed_found_span = Some(self.token.span); // This is a conservative error: only report the last unclosed // delimiter. The previous unclosed delimiters could actually be // closed! The parser just hasn't gotten to them yet. if let Some(&(_, sp)) = self.diag_info.open_braces.last() { unclosed_delimiter = Some(sp); }; for (brace, brace_span) in &self.diag_info.open_braces { if same_indentation_level(&sm, self.token.span, *brace_span) && brace == &close_delim { // high likelihood of these two corresponding candidate = Some(*brace_span); } } let (tok, _) = self.diag_info.open_braces.pop().unwrap(); self.diag_info.unmatched_delims.push(UnmatchedDelim { expected_delim: tok, found_delim: Some(close_delim), found_span: self.token.span, unclosed_span: unclosed_delimiter, candidate_span: candidate, }); } else { self.diag_info.open_braces.pop(); } // If the incorrect delimiter matches an earlier opening // delimiter, then don't consume it (it can be used to // close the earlier one). Otherwise, consume it. // E.g., we try to recover from: // fn foo() { // bar(baz( // } // Incorrect delimiter but matches the earlier `{` if !self.diag_info.open_braces.iter().any(|&(b, _)| b == close_delim) { self.token = self.string_reader.next_token().0; } } token::Eof => { // Silently recover, the EOF token will be seen again // and an error emitted then. Thus we don't pop from // self.open_braces here. } _ => unreachable!(), } Ok(TokenTree::Delimited(delim_span, open_delim, tts)) } fn close_delim_err(&mut self, delim: Delimiter) -> PErr<'a> { // An unexpected closing delimiter (i.e., there is no // matching opening delimiter). let token_str = token_to_string(&self.token); let msg = format!("unexpected closing delimiter: `{}`", token_str); let mut err = self.string_reader.sess.span_diagnostic.struct_span_err(self.token.span, msg); report_suspicious_mismatch_block( &mut err, &self.diag_info, &self.string_reader.sess.source_map(), delim, ); err.span_label(self.token.span, "unexpected closing delimiter"); err } }