use super::UnmatchedDelim; use rustc_ast::token::Delimiter; use rustc_errors::Diagnostic; use rustc_span::source_map::SourceMap; use rustc_span::Span; #[derive(Default)] pub struct TokenTreeDiagInfo { /// Stack of open delimiters and their spans. Used for error message. pub open_braces: Vec<(Delimiter, Span)>, pub unmatched_delims: Vec, /// Used only for error recovery when arriving to EOF with mismatched braces. pub last_unclosed_found_span: Option, /// Collect empty block spans that might have been auto-inserted by editors. pub empty_block_spans: Vec, /// Collect the spans of braces (Open, Close). Used only /// for detecting if blocks are empty and only braces. pub matching_block_spans: Vec<(Span, Span)>, } pub fn same_identation_level(sm: &SourceMap, open_sp: Span, close_sp: Span) -> bool { match (sm.span_to_margin(open_sp), sm.span_to_margin(close_sp)) { (Some(open_padding), Some(close_padding)) => open_padding == close_padding, _ => false, } } // When we get a `)` or `]` for `{`, we should emit help message here // it's more friendly compared to report `unmatched error` in later phase pub fn report_missing_open_delim( err: &mut Diagnostic, unmatched_delims: &[UnmatchedDelim], ) -> bool { let mut reported_missing_open = false; for unmatch_brace in unmatched_delims.iter() { if let Some(delim) = unmatch_brace.found_delim && matches!(delim, Delimiter::Parenthesis | Delimiter::Bracket) { let missed_open = match delim { Delimiter::Parenthesis => "(", Delimiter::Bracket => "[", _ => unreachable!(), }; err.span_label( unmatch_brace.found_span.shrink_to_lo(), format!("missing open `{}` for this delimiter", missed_open), ); reported_missing_open = true; } } reported_missing_open } pub fn report_suspicious_mismatch_block( err: &mut Diagnostic, diag_info: &TokenTreeDiagInfo, sm: &SourceMap, delim: Delimiter, ) { if report_missing_open_delim(err, &diag_info.unmatched_delims) { return; } let mut matched_spans: Vec<(Span, bool)> = diag_info .matching_block_spans .iter() .map(|&(open, close)| (open.with_hi(close.lo()), same_identation_level(sm, open, close))) .collect(); // sort by `lo`, so the large block spans in the front matched_spans.sort_by(|a, b| a.0.lo().cmp(&b.0.lo())); // We use larger block whose identation is well to cover those inner mismatched blocks // O(N^2) here, but we are on error reporting path, so it is fine for i in 0..matched_spans.len() { let (block_span, same_ident) = matched_spans[i]; if same_ident { for j in i + 1..matched_spans.len() { let (inner_block, inner_same_ident) = matched_spans[j]; if block_span.contains(inner_block) && !inner_same_ident { matched_spans[j] = (inner_block, true); } } } } // Find the inner-most span candidate for final report let candidate_span = matched_spans.into_iter().rev().find(|&(_, same_ident)| !same_ident).map(|(span, _)| span); if let Some(block_span) = candidate_span { err.span_label(block_span.shrink_to_lo(), "this delimiter might not be properly closed..."); err.span_label( block_span.shrink_to_hi(), "...as it matches this but it has different indentation", ); // If there is a empty block in the mismatched span, note it if delim == Delimiter::Brace { for span in diag_info.empty_block_spans.iter() { if block_span.contains(*span) { err.span_label(*span, "block is empty, you might have not meant to close it"); break; } } } } else { // If there is no suspicious span, give the last properly closed block may help if let Some(parent) = diag_info.matching_block_spans.last() && diag_info.open_braces.last().is_none() && diag_info.empty_block_spans.iter().all(|&sp| sp != parent.0.to(parent.1)) { err.span_label(parent.0, "this opening brace..."); err.span_label(parent.1, "...matches this closing brace"); } } }