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coverage: Disconnect span extraction from CoverageSpansGenerator
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By performal initial span extraction in a separate free function, we can remove
some accidental complexity from the main generator code.
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Zalathar committed Oct 6, 2023
1 parent 9527a95 commit 65bf43a
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Showing 2 changed files with 85 additions and 87 deletions.
29 changes: 12 additions & 17 deletions compiler/rustc_mir_transform/src/coverage/spans.rs
Original file line number Diff line number Diff line change
Expand Up @@ -203,13 +203,7 @@ impl CoverageSpan {
/// * Merge spans that represent continuous (both in source code and control flow), non-branching
/// execution
/// * Carve out (leave uncovered) any span that will be counted by another MIR (notably, closures)
struct CoverageSpansGenerator<'a, 'tcx> {
/// The MIR, used to look up `BasicBlockData`.
mir_body: &'a mir::Body<'tcx>,

/// A `Span` covering the signature of function for the MIR.
fn_sig_span: Span,

struct CoverageSpansGenerator<'a> {
/// A `Span` covering the function body of the MIR (typically from left curly brace to right
/// curly brace).
body_span: Span,
Expand All @@ -219,7 +213,7 @@ struct CoverageSpansGenerator<'a, 'tcx> {

/// The initial set of `CoverageSpan`s, sorted by `Span` (`lo` and `hi`) and by relative
/// dominance between the `BasicCoverageBlock`s of equal `Span`s.
sorted_spans_iter: Option<std::vec::IntoIter<CoverageSpan>>,
sorted_spans_iter: std::vec::IntoIter<CoverageSpan>,

/// The current `CoverageSpan` to compare to its `prev`, to possibly merge, discard, force the
/// discard of the `prev` (and or `pending_dups`), or keep both (with `prev` moved to
Expand Down Expand Up @@ -259,7 +253,7 @@ struct CoverageSpansGenerator<'a, 'tcx> {
refined_spans: Vec<CoverageSpan>,
}

impl<'a, 'tcx> CoverageSpansGenerator<'a, 'tcx> {
impl<'a> CoverageSpansGenerator<'a> {
/// Generate a minimal set of `CoverageSpan`s, each representing a contiguous code region to be
/// counted.
///
Expand All @@ -282,17 +276,22 @@ impl<'a, 'tcx> CoverageSpansGenerator<'a, 'tcx> {
/// Note the resulting vector of `CoverageSpan`s may not be fully sorted (and does not need
/// to be).
pub(super) fn generate_coverage_spans(
mir_body: &'a mir::Body<'tcx>,
mir_body: &mir::Body<'_>,
fn_sig_span: Span, // Ensured to be same SourceFile and SyntaxContext as `body_span`
body_span: Span,
basic_coverage_blocks: &'a CoverageGraph,
) -> Vec<CoverageSpan> {
let mut coverage_spans = Self {
let sorted_spans = from_mir::mir_to_initial_sorted_coverage_spans(
mir_body,
fn_sig_span,
body_span,
basic_coverage_blocks,
sorted_spans_iter: None,
);

let coverage_spans = Self {
body_span,
basic_coverage_blocks,
sorted_spans_iter: sorted_spans.into_iter(),
refined_spans: Vec::with_capacity(basic_coverage_blocks.num_nodes() * 2),
some_curr: None,
curr_original_span: Span::with_root_ctxt(BytePos(0), BytePos(0)),
Expand All @@ -302,10 +301,6 @@ impl<'a, 'tcx> CoverageSpansGenerator<'a, 'tcx> {
pending_dups: Vec::new(),
};

let sorted_spans = coverage_spans.mir_to_initial_sorted_coverage_spans();

coverage_spans.sorted_spans_iter = Some(sorted_spans.into_iter());

coverage_spans.to_refined_spans()
}

Expand Down Expand Up @@ -510,7 +505,7 @@ impl<'a, 'tcx> CoverageSpansGenerator<'a, 'tcx> {
self.some_prev = Some(curr);
self.prev_original_span = self.curr_original_span;
}
while let Some(curr) = self.sorted_spans_iter.as_mut().unwrap().next() {
while let Some(curr) = self.sorted_spans_iter.next() {
debug!("FOR curr={:?}", curr);
if self.some_prev.is_some() && self.prev_starts_after_next(&curr) {
debug!(
Expand Down
143 changes: 73 additions & 70 deletions compiler/rustc_mir_transform/src/coverage/spans/from_mir.rs
Original file line number Diff line number Diff line change
Expand Up @@ -3,86 +3,89 @@ use rustc_middle::mir::{
};
use rustc_span::Span;

use crate::coverage::graph::{BasicCoverageBlock, BasicCoverageBlockData};
use crate::coverage::spans::{CoverageSpan, CoverageSpansGenerator};
use crate::coverage::graph::{BasicCoverageBlock, BasicCoverageBlockData, CoverageGraph};
use crate::coverage::spans::CoverageSpan;

impl<'a, 'tcx> CoverageSpansGenerator<'a, 'tcx> {
pub(super) fn mir_to_initial_sorted_coverage_spans(&self) -> Vec<CoverageSpan> {
let mut initial_spans =
Vec::<CoverageSpan>::with_capacity(self.mir_body.basic_blocks.len() * 2);
for (bcb, bcb_data) in self.basic_coverage_blocks.iter_enumerated() {
initial_spans.extend(self.bcb_to_initial_coverage_spans(bcb, bcb_data));
}
pub(super) fn mir_to_initial_sorted_coverage_spans(
mir_body: &mir::Body<'_>,
fn_sig_span: Span,
body_span: Span,
basic_coverage_blocks: &CoverageGraph,
) -> Vec<CoverageSpan> {
let mut initial_spans = Vec::<CoverageSpan>::with_capacity(mir_body.basic_blocks.len() * 2);
for (bcb, bcb_data) in basic_coverage_blocks.iter_enumerated() {
initial_spans.extend(bcb_to_initial_coverage_spans(mir_body, body_span, bcb, bcb_data));
}

if initial_spans.is_empty() {
// This can happen if, for example, the function is unreachable (contains only a
// `BasicBlock`(s) with an `Unreachable` terminator).
return initial_spans;
}
if initial_spans.is_empty() {
// This can happen if, for example, the function is unreachable (contains only a
// `BasicBlock`(s) with an `Unreachable` terminator).
return initial_spans;
}

initial_spans.push(CoverageSpan::for_fn_sig(self.fn_sig_span));
initial_spans.push(CoverageSpan::for_fn_sig(fn_sig_span));

initial_spans.sort_by(|a, b| {
// First sort by span start.
Ord::cmp(&a.span.lo(), &b.span.lo())
// If span starts are the same, sort by span end in reverse order.
// This ensures that if spans A and B are adjacent in the list,
// and they overlap but are not equal, then either:
// - Span A extends further left, or
// - Both have the same start and span A extends further right
.then_with(|| Ord::cmp(&a.span.hi(), &b.span.hi()).reverse())
// If both spans are equal, sort the BCBs in dominator order,
// so that dominating BCBs come before other BCBs they dominate.
.then_with(|| self.basic_coverage_blocks.cmp_in_dominator_order(a.bcb, b.bcb))
// If two spans are otherwise identical, put closure spans first,
// as this seems to be what the refinement step expects.
.then_with(|| Ord::cmp(&a.is_closure, &b.is_closure).reverse())
});
initial_spans.sort_by(|a, b| {
// First sort by span start.
Ord::cmp(&a.span.lo(), &b.span.lo())
// If span starts are the same, sort by span end in reverse order.
// This ensures that if spans A and B are adjacent in the list,
// and they overlap but are not equal, then either:
// - Span A extends further left, or
// - Both have the same start and span A extends further right
.then_with(|| Ord::cmp(&a.span.hi(), &b.span.hi()).reverse())
// If both spans are equal, sort the BCBs in dominator order,
// so that dominating BCBs come before other BCBs they dominate.
.then_with(|| basic_coverage_blocks.cmp_in_dominator_order(a.bcb, b.bcb))
// If two spans are otherwise identical, put closure spans first,
// as this seems to be what the refinement step expects.
.then_with(|| Ord::cmp(&a.is_closure, &b.is_closure).reverse())
});

initial_spans
}
initial_spans
}

// 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
// for each `Statement` and `Terminator`. (Note that subsequent stages of coverage analysis will
// merge some `CoverageSpan`s, at which point a `CoverageSpan` may represent multiple
// `Statement`s and/or `Terminator`s.)
fn bcb_to_initial_coverage_spans(
&self,
bcb: BasicCoverageBlock,
bcb_data: &'a BasicCoverageBlockData,
) -> Vec<CoverageSpan> {
bcb_data
.basic_blocks
.iter()
.flat_map(|&bb| {
let data = &self.mir_body[bb];
data.statements
.iter()
.enumerate()
.filter_map(move |(index, statement)| {
filtered_statement_span(statement).map(|span| {
CoverageSpan::for_statement(
statement,
function_source_span(span, self.body_span),
span,
bcb,
bb,
index,
)
})
})
.chain(filtered_terminator_span(data.terminator()).map(|span| {
CoverageSpan::for_terminator(
function_source_span(span, self.body_span),
// 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
// for each `Statement` and `Terminator`. (Note that subsequent stages of coverage analysis will
// merge some `CoverageSpan`s, at which point a `CoverageSpan` may represent multiple
// `Statement`s and/or `Terminator`s.)
fn bcb_to_initial_coverage_spans(
mir_body: &mir::Body<'_>,
body_span: Span,
bcb: BasicCoverageBlock,
bcb_data: &BasicCoverageBlockData,
) -> Vec<CoverageSpan> {
bcb_data
.basic_blocks
.iter()
.flat_map(|&bb| {
let data = &mir_body[bb];
data.statements
.iter()
.enumerate()
.filter_map(move |(index, statement)| {
filtered_statement_span(statement).map(|span| {
CoverageSpan::for_statement(
statement,
function_source_span(span, body_span),
span,
bcb,
bb,
index,
)
}))
})
.collect()
}
})
})
.chain(filtered_terminator_span(data.terminator()).map(|span| {
CoverageSpan::for_terminator(
function_source_span(span, body_span),
span,
bcb,
bb,
)
}))
})
.collect()
}

/// If the MIR `Statement` has a span contributive to computing coverage spans,
Expand Down

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