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Retry matching with tracking for diagnostics

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For now, we only collect the small info for the `best_failure`, but
using this tracker, we can easily extend it in the future to track
things with more performance overhead.

We cannot retry cases where the macro failed with a parser error that
was emitted already, as that would cause us to emit the same error to
the user twice.
This commit is contained in:
Nilstrieb 2022-10-27 21:59:09 +02:00
parent 39584b153b
commit 5f73eac51b
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1 changed files with 109 additions and 9 deletions
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118
compiler/rustc_expand/src/mbe/macro_rules.rs
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@ -316,16 +316,116 @@ fn expand_macro<'cx>(
is_local,
});
}
Err(()) => {
todo!("Retry macro invocation while tracking diagnostics info and emit error");
Err(CanRetry::No(_)) => {
debug!("Will not retry matching as an error was emitted already");
return DummyResult::any(sp);
}
Err(CanRetry::Yes) => {
// Retry and emit a better error below.
}
}
// An error occured, 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);
assert!(try_success_result.is_err(), "Macro matching returned a success on the second try");
if let Some(result) = tracker.result {
// An irrecoverable error occured and has been emitted.
return result;
}
let Some((token, label)) = tracker.best_failure else {
return tracker.result.expect("must have encountered Error or ErrorReported");
};
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);
// 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());
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> {
cx: &'a mut ExtCtxt<'cx>,
/// Which arm's failure should we report? (the one furthest along)
best_failure: Option<(Token, &'static str)>,
root_span: Span,
result: Option<Box<dyn MacResult + 'cx>>,
}
impl<'a, 'cx, 'matcher> Tracker<'matcher> for CollectTrackerAndEmitter<'a, 'cx> {
fn before_match_loc(&mut self, _parser: &TtParser, _matcher: &'matcher MatcherLoc) {
// Empty for now.
}
fn after_arm(&mut self, result: &NamedParseResult) {
match result {
Success(_) => {
unreachable!("should not collect detailed info for successful macro match");
}
Failure(token, msg) => match self.best_failure {
Some((ref best_token, _)) if best_token.span.lo() >= token.span.lo() => {}
_ => self.best_failure = Some((token.clone(), msg)),
},
Error(err_sp, msg) => {
let span = err_sp.substitute_dummy(self.root_span);
self.cx.struct_span_err(span, msg).emit();
self.result = Some(DummyResult::any(span));
}
ErrorReported(_) => self.result = Some(DummyResult::any(self.root_span)),
}
}
fn description() -> &'static str {
"detailed"
}
}
impl<'a, 'cx> CollectTrackerAndEmitter<'a, 'cx> {
fn new(cx: &'a mut ExtCtxt<'cx>, root_span: Span) -> Self {
Self { cx, best_failure: None, root_span, result: None }
}
}
enum CanRetry {
Yes,
/// We are not allowed to retry macro expansion as a fatal error has been emitted already.
No(ErrorGuaranteed),
}
/// Try expanding the macro. Returns the index of the sucessful arm and its named_matches if it was successful,
/// and nothing if it failed. On failure, it's the callers job to use `track` accordingly to record all errors
/// correctly.
@ -335,7 +435,7 @@ fn try_match_macro<'matcher, T: Tracker<'matcher>>(
arg: &TokenStream,
lhses: &'matcher [Vec<MatcherLoc>],
track: &mut T,
) -> Result<(usize, NamedMatches), ()> {
) -> Result<(usize, NamedMatches), CanRetry> {
// We create a base parser that can be used for the "black box" parts.
// Every iteration needs a fresh copy of that parser. However, the parser
// is not mutated on many of the iterations, particularly when dealing with
@ -383,10 +483,10 @@ fn try_match_macro<'matcher, T: Tracker<'matcher>>(
}
Error(_, _) => {
// We haven't emitted an error yet
return Err(());
return Err(CanRetry::Yes);
}
ErrorReported(_) => {
return Err(());
ErrorReported(guarantee) => {
return Err(CanRetry::No(guarantee));
}
}
@ -395,7 +495,7 @@ fn try_match_macro<'matcher, T: Tracker<'matcher>>(
mem::swap(&mut gated_spans_snapshot, &mut sess.gated_spans.spans.borrow_mut());
}
Err(())
Err(CanRetry::Yes)
}
// Note that macro-by-example's input is also matched against a token tree:
@ -478,7 +578,7 @@ pub fn compile_declarative_macro(
let mut tt_parser =
TtParser::new(Ident::with_dummy_span(if macro_rules { kw::MacroRules } else { kw::Macro }));
let argument_map =
match tt_parser.parse_tt(&mut Cow::Borrowed(&parser), &argument_gram, &mut NoopTracker) {
match tt_parser.parse_tt(&mut Cow::Owned(parser), &argument_gram, &mut NoopTracker) {
Success(m) => m,
Failure(token, msg) => {
let s = parse_failure_msg(&token);