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coverage: Hoist the removal of unwanted macro expansion spans

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This commit is contained in:
Zalathar 2023-12-21 23:03:45 +11:00
parent df0df5256b
commit cd3a9760e4
2 changed files with 27 additions and 26 deletions
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29
compiler/rustc_mir_transform/src/coverage/spans.rs
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@ -251,32 +251,9 @@ fn to_refined_spans(mut self) -> Vec<CoverageSpan> {
} else if curr.is_closure { } else if curr.is_closure {
self.carve_out_span_for_closure(); self.carve_out_span_for_closure();
} else if self.prev_original_span == curr.span { } else if self.prev_original_span == curr.span {
// Note that this compares the new (`curr`) span to `prev_original_span`. // `prev` and `curr` have the same span, or would have had the
// In this branch, the actual span byte range of `prev_original_span` is not // same span before `prev` was modified by other spans.
// important. What is important is knowing whether the new `curr` span was self.update_pending_dups();
// **originally** the same as the original span of `prev()`. The original spans
// reflect their original sort order, and for equal spans, conveys a partial
// ordering based on CFG dominator priority.
if prev.visible_macro.is_some() && curr.visible_macro.is_some() {
// Macros that expand to include branching (such as
// `assert_eq!()`, `assert_ne!()`, `info!()`, `debug!()`, or
// `trace!()`) typically generate callee spans with identical
// ranges (typically the full span of the macro) for all
// `BasicBlocks`. This makes it impossible to distinguish
// the condition (`if val1 != val2`) from the optional
// branched statements (such as the call to `panic!()` on
// assert failure). In this case it is better (or less
// worse) to drop the optional branch bcbs and keep the
// non-conditional statements, to count when reached.
debug!(
" curr and prev are part of a macro expansion, and curr has the same span \
as prev, but is in a different bcb. Drop curr and keep prev for next iter. \
prev={prev:?}",
);
self.take_curr(); // Discards curr.
} else {
self.update_pending_dups();
}
} else { } else {
self.cutoff_prev_at_overlapping_curr(); self.cutoff_prev_at_overlapping_curr();
self.maybe_push_macro_name_span(); self.maybe_push_macro_name_span();

24
compiler/rustc_mir_transform/src/coverage/spans/from_mir.rs
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@ -1,4 +1,5 @@
use rustc_data_structures::captures::Captures; use rustc_data_structures::captures::Captures;
use rustc_data_structures::fx::FxHashSet;
use rustc_middle::mir::{ use rustc_middle::mir::{
self, AggregateKind, FakeReadCause, Rvalue, Statement, StatementKind, Terminator, self, AggregateKind, FakeReadCause, Rvalue, Statement, StatementKind, Terminator,
TerminatorKind, TerminatorKind,
@ -35,6 +36,9 @@ pub(super) fn mir_to_initial_sorted_coverage_spans(
} }
} }
initial_spans.sort_by(|a, b| basic_coverage_blocks.cmp_in_dominator_order(a.bcb, b.bcb));
remove_unwanted_macro_spans(&mut initial_spans);
initial_spans.sort_by(|a, b| { initial_spans.sort_by(|a, b| {
// First sort by span start. // First sort by span start.
Ord::cmp(&a.span.lo(), &b.span.lo()) Ord::cmp(&a.span.lo(), &b.span.lo())
@ -55,6 +59,26 @@ pub(super) fn mir_to_initial_sorted_coverage_spans(
initial_spans initial_spans
} }
/// Macros that expand into branches (e.g. `assert!`, `trace!`) tend to generate
/// multiple condition/consequent blocks that have the span of the whole macro
/// invocation, which is unhelpful. Keeping only the first such span seems to
/// give better mappings, so remove the others.
///
/// (The input spans should be sorted in BCB dominator order, so that the
/// retained "first" span is likely to dominate the others.)
fn remove_unwanted_macro_spans(initial_spans: &mut Vec<CoverageSpan>) {
let mut seen_macro_spans = FxHashSet::default();
initial_spans.retain(|covspan| {
// Ignore (retain) closure spans and non-macro-expansion spans.
if covspan.is_closure || covspan.visible_macro.is_none() {
return true;
}
// Retain only the first macro-expanded covspan with this span.
seen_macro_spans.insert(covspan.span)
});
}
// Generate a set of `CoverageSpan`s from the filtered set of `Statement`s and `Terminator`s of // Generate a set of `CoverageSpan`s from the filtered set of `Statement`s and `Terminator`s of
// the `BasicBlock`(s) in the given `BasicCoverageBlockData`. One `CoverageSpan` is generated // the `BasicBlock`(s) in the given `BasicCoverageBlockData`. One `CoverageSpan` is generated
// for each `Statement` and `Terminator`. (Note that subsequent stages of coverage analysis will // for each `Statement` and `Terminator`. (Note that subsequent stages of coverage analysis will