use crate::base::{DummyResult, ExtCtxt, MacResult}; use crate::expand::{parse_ast_fragment, AstFragmentKind}; use crate::mbe::{ macro_parser::{MatcherLoc, NamedParseResult, ParseResult::*, TtParser}, macro_rules::{try_match_macro, Tracker}, }; use rustc_ast::token::{self, Token, TokenKind}; use rustc_ast::tokenstream::TokenStream; use rustc_ast_pretty::pprust; use rustc_errors::{Applicability, Diagnostic, DiagnosticBuilder, DiagnosticMessage}; use rustc_parse::parser::{Parser, Recovery}; use rustc_span::source_map::SourceMap; use rustc_span::symbol::Ident; use rustc_span::Span; use std::borrow::Cow; use super::macro_rules::{parser_from_cx, NoopTracker}; pub(super) fn failed_to_match_macro<'cx>( cx: &'cx mut ExtCtxt<'_>, sp: Span, def_span: Span, name: Ident, arg: TokenStream, lhses: &[Vec], ) -> Box { let sess = &cx.sess.parse_sess; // An error occurred, try the expansion again, tracking the expansion closely for better diagnostics. let mut tracker = CollectTrackerAndEmitter::new(cx, sp); let try_success_result = try_match_macro(sess, name, &arg, lhses, &mut tracker); if try_success_result.is_ok() { // Nonterminal parser recovery might turn failed matches into successful ones, // but for that it must have emitted an error already tracker.cx.sess.span_delayed_bug(sp, "Macro matching returned a success on the second try"); } if let Some(result) = tracker.result { // An irrecoverable error occurred and has been emitted. return result; } let Some(BestFailure { token, msg: label, remaining_matcher, .. }) = tracker.best_failure else { return DummyResult::any(sp); }; let span = token.span.substitute_dummy(sp); let mut err = cx.struct_span_err(span, parse_failure_msg(&token)); err.span_label(span, label); if !def_span.is_dummy() && !cx.source_map().is_imported(def_span) { err.span_label(cx.source_map().guess_head_span(def_span), "when calling this macro"); } annotate_doc_comment(&mut err, sess.source_map(), span); if let Some(span) = remaining_matcher.span() { err.span_note(span, format!("while trying to match {remaining_matcher}")); } else { err.note(format!("while trying to match {remaining_matcher}")); } if let MatcherLoc::Token { token: expected_token } = &remaining_matcher && (matches!(expected_token.kind, TokenKind::Interpolated(_)) || matches!(token.kind, TokenKind::Interpolated(_))) { if let TokenKind::Interpolated(node) = &expected_token.kind { err.span_label(node.1, ""); } if let TokenKind::Interpolated(node) = &token.kind { err.span_label(node.1, ""); } err.note("captured metavariables except for `:tt`, `:ident` and `:lifetime` cannot be compared to other tokens"); err.note("see for more information"); if !def_span.is_dummy() && !cx.source_map().is_imported(def_span) { err.help("try using `:tt` instead in the macro definition"); } } // Check whether there's a missing comma in this macro call, like `println!("{}" a);` if let Some((arg, comma_span)) = arg.add_comma() { for lhs in lhses { let parser = parser_from_cx(sess, arg.clone(), Recovery::Allowed); let mut tt_parser = TtParser::new(name); if let Success(_) = tt_parser.parse_tt(&mut Cow::Borrowed(&parser), lhs, &mut NoopTracker) { if comma_span.is_dummy() { err.note("you might be missing a comma"); } else { err.span_suggestion_short( comma_span, "missing comma here", ", ", Applicability::MachineApplicable, ); } } } } err.emit(); cx.trace_macros_diag(); DummyResult::any(sp) } /// The tracker used for the slow error path that collects useful info for diagnostics. struct CollectTrackerAndEmitter<'a, 'cx, 'matcher> { cx: &'a mut ExtCtxt<'cx>, remaining_matcher: Option<&'matcher MatcherLoc>, /// Which arm's failure should we report? (the one furthest along) best_failure: Option, root_span: Span, result: Option>, } struct BestFailure { token: Token, position_in_tokenstream: usize, msg: &'static str, remaining_matcher: MatcherLoc, } impl BestFailure { fn is_better_position(&self, position: usize) -> bool { position > self.position_in_tokenstream } } impl<'a, 'cx, 'matcher> Tracker<'matcher> for CollectTrackerAndEmitter<'a, 'cx, 'matcher> { type Failure = (Token, usize, &'static str); fn build_failure(tok: Token, position: usize, msg: &'static str) -> Self::Failure { (tok, position, msg) } fn before_match_loc(&mut self, parser: &TtParser, matcher: &'matcher MatcherLoc) { if self.remaining_matcher.is_none() || (parser.has_no_remaining_items_for_step() && *matcher != MatcherLoc::Eof) { self.remaining_matcher = Some(matcher); } } fn after_arm(&mut self, result: &NamedParseResult) { match result { Success(_) => { // Nonterminal parser recovery might turn failed matches into successful ones, // but for that it must have emitted an error already self.cx.sess.span_delayed_bug( self.root_span, "should not collect detailed info for successful macro match", ); } Failure((token, approx_position, msg)) => { debug!(?token, ?msg, "a new failure of an arm"); if self .best_failure .as_ref() .map_or(true, |failure| failure.is_better_position(*approx_position)) { self.best_failure = Some(BestFailure { token: token.clone(), position_in_tokenstream: *approx_position, msg, remaining_matcher: self .remaining_matcher .expect("must have collected matcher already") .clone(), }) } } Error(err_sp, msg) => { let span = err_sp.substitute_dummy(self.root_span); self.cx.struct_span_err(span, msg.clone()).emit(); self.result = Some(DummyResult::any(span)); } ErrorReported(_) => self.result = Some(DummyResult::any(self.root_span)), } } fn description() -> &'static str { "detailed" } fn recovery() -> Recovery { Recovery::Allowed } } impl<'a, 'cx> CollectTrackerAndEmitter<'a, 'cx, '_> { fn new(cx: &'a mut ExtCtxt<'cx>, root_span: Span) -> Self { Self { cx, remaining_matcher: None, best_failure: None, root_span, result: None } } } /// Currently used by macro_rules! compilation to extract a little information from the `Failure` case. pub struct FailureForwarder; impl<'matcher> Tracker<'matcher> for FailureForwarder { type Failure = (Token, usize, &'static str); fn build_failure(tok: Token, position: usize, msg: &'static str) -> Self::Failure { (tok, position, msg) } fn description() -> &'static str { "failure-forwarder" } } pub(super) fn emit_frag_parse_err( mut e: DiagnosticBuilder<'_, rustc_errors::ErrorGuaranteed>, parser: &Parser<'_>, orig_parser: &mut Parser<'_>, site_span: Span, arm_span: Span, kind: AstFragmentKind, ) { // FIXME(davidtwco): avoid depending on the error message text if parser.token == token::Eof && let DiagnosticMessage::Str(message) = &e.message[0].0 && message.ends_with(", found ``") { let msg = &e.message[0]; e.message[0] = ( DiagnosticMessage::from(format!( "macro expansion ends with an incomplete expression: {}", message.replace(", found ``", ""), )), msg.1, ); if !e.span.is_dummy() { // early end of macro arm (#52866) e.replace_span_with(parser.token.span.shrink_to_hi(), true); } } if e.span.is_dummy() { // Get around lack of span in error (#30128) e.replace_span_with(site_span, true); if !parser.sess.source_map().is_imported(arm_span) { e.span_label(arm_span, "in this macro arm"); } } else if parser.sess.source_map().is_imported(parser.token.span) { e.span_label(site_span, "in this macro invocation"); } match kind { // Try a statement if an expression is wanted but failed and suggest adding `;` to call. AstFragmentKind::Expr => match parse_ast_fragment(orig_parser, AstFragmentKind::Stmts) { Err(err) => err.cancel(), Ok(_) => { e.note( "the macro call doesn't expand to an expression, but it can expand to a statement", ); if parser.token == token::Semi { if let Ok(snippet) = parser.sess.source_map().span_to_snippet(site_span) { e.span_suggestion_verbose( site_span, "surround the macro invocation with `{}` to interpret the expansion as a statement", format!("{{ {snippet}; }}"), Applicability::MaybeIncorrect, ); } } else { e.span_suggestion_verbose( site_span.shrink_to_hi(), "add `;` to interpret the expansion as a statement", ";", Applicability::MaybeIncorrect, ); } } }, _ => annotate_err_with_kind(&mut e, kind, site_span), }; e.emit(); } pub(crate) fn annotate_err_with_kind(err: &mut Diagnostic, kind: AstFragmentKind, span: Span) { match kind { AstFragmentKind::Ty => { err.span_label(span, "this macro call doesn't expand to a type"); } AstFragmentKind::Pat => { err.span_label(span, "this macro call doesn't expand to a pattern"); } _ => {} }; } #[derive(Subdiagnostic)] enum ExplainDocComment { #[label(expand_explain_doc_comment_inner)] Inner { #[primary_span] span: Span, }, #[label(expand_explain_doc_comment_outer)] Outer { #[primary_span] span: Span, }, } pub(super) fn annotate_doc_comment(err: &mut Diagnostic, sm: &SourceMap, span: Span) { if let Ok(src) = sm.span_to_snippet(span) { if src.starts_with("///") || src.starts_with("/**") { err.subdiagnostic(ExplainDocComment::Outer { span }); } else if src.starts_with("//!") || src.starts_with("/*!") { err.subdiagnostic(ExplainDocComment::Inner { span }); } } } /// Generates an appropriate parsing failure message. For EOF, this is "unexpected end...". For /// other tokens, this is "unexpected token...". pub(super) fn parse_failure_msg(tok: &Token) -> Cow<'static, str> { match tok.kind { token::Eof => Cow::from("unexpected end of macro invocation"), _ => Cow::from(format!("no rules expected the token `{}`", pprust::token_to_string(tok))), } }